rtl8188eu: Place driver rtl8188EUS_rtl8189ES_linux_v4.1.8_9499.20131104 in branch v4.1.8_9499

Signed-off-by: Larry Finger <Larry.Finger@lwfinger.net>
This commit is contained in:
Larry Finger 2014-12-11 15:15:04 -06:00
parent bad0b4cde4
commit 065126d8ce
247 changed files with 192113 additions and 30447 deletions

828
Makefile Normal file → Executable file
View file

@ -1,5 +1,11 @@
EXTRA_CFLAGS += $(USER_EXTRA_CFLAGS)
EXTRA_CFLAGS += -O1
#EXTRA_CFLAGS += -O3
#EXTRA_CFLAGS += -Wall
#EXTRA_CFLAGS += -Wextra
#EXTRA_CFLAGS += -Werror
#EXTRA_CFLAGS += -pedantic
#EXTRA_CFLAGS += -Wshadow -Wpointer-arith -Wcast-qual -Wstrict-prototypes -Wmissing-prototypes
EXTRA_CFLAGS += -Wno-unused-variable
EXTRA_CFLAGS += -Wno-unused-value
@ -12,129 +18,791 @@ EXTRA_CFLAGS += -Wno-uninitialized
EXTRA_CFLAGS += -I$(src)/include
ccflags-y += -D__CHECK_ENDIAN__
CONFIG_AUTOCFG_CP = n
CONFIG_AUTOCFG_CP = y
CONFIG_RTL8192C = n
CONFIG_RTL8192D = n
CONFIG_RTL8723A = n
CONFIG_RTL8188E = y
CONFIG_USB_HCI = y
CONFIG_PCI_HCI = n
CONFIG_SDIO_HCI = n
CONFIG_GSPI_HCI = n
CONFIG_MP_INCLUDED = y
CONFIG_POWER_SAVING = y
CONFIG_USB_AUTOSUSPEND = n
CONFIG_HW_PWRP_DETECTION = n
CONFIG_WIFI_TEST = n
CONFIG_BT_COEXIST = n
CONFIG_RTL8192CU_REDEFINE_1X1 = n
CONFIG_INTEL_WIDI = n
CONFIG_WAPI_SUPPORT = n
CONFIG_EFUSE_CONFIG_FILE = n
CONFIG_EXT_CLK = n
CONFIG_FTP_PROTECT = n
CONFIG_WOWLAN = n
CONFIG_GPIO_WAKEUP = n
CONFIG_ODM_ADAPTIVITY = n
CONFIG_MMC_PM_KEEP_POWER = n
CONFIG_PLATFORM_I386_PC = y
CONFIG_PLATFORM_ANDROID_X86 = n
CONFIG_PLATFORM_JB_X86 = n
CONFIG_PLATFORM_ARM_S3C2K4 = n
CONFIG_PLATFORM_ARM_PXA2XX = n
CONFIG_PLATFORM_ARM_S3C6K4 = n
CONFIG_PLATFORM_MIPS_RMI = n
CONFIG_PLATFORM_RTD2880B = n
CONFIG_PLATFORM_MIPS_AR9132 = n
CONFIG_PLATFORM_RTK_DMP = n
CONFIG_PLATFORM_MIPS_PLM = n
CONFIG_PLATFORM_MSTAR389 = n
CONFIG_PLATFORM_MT53XX = n
CONFIG_PLATFORM_ARM_MX51_241H = n
CONFIG_PLATFORM_ACTIONS_ATJ227X = n
CONFIG_PLATFORM_TEGRA3_CARDHU = n
CONFIG_PLATFORM_TEGRA4_DALMORE = n
CONFIG_PLATFORM_ARM_TCC8900 = n
CONFIG_PLATFORM_ARM_TCC8920 = n
CONFIG_PLATFORM_ARM_TCC8920_JB42 = n
CONFIG_PLATFORM_ARM_RK2818 = n
CONFIG_PLATFORM_ARM_URBETTER = n
CONFIG_PLATFORM_ARM_TI_PANDA = n
CONFIG_PLATFORM_MIPS_JZ4760 = n
CONFIG_PLATFORM_DMP_PHILIPS = n
CONFIG_PLATFORM_TI_DM365 = n
CONFIG_PLATFORM_MSTAR_TITANIA12 = n
CONFIG_PLATFORM_MSTAR = n
CONFIG_PLATFORM_SZEBOOK = n
CONFIG_PLATFORM_ARM_SUNxI = n
CONFIG_PLATFORM_ARM_SUN6I = n
CONFIG_PLATFORM_ARM_SUN7I = n
CONFIG_PLATFORM_ACTIONS_ATM702X = n
CONFIG_PLATFORM_MN10300 = n
CONFIG_PLATFORM_ACTIONS_ATV5201 = n
CONFIG_DRVEXT_MODULE = n
export TopDIR ?= $(shell pwd)
OUTSRC_FILES := \
hal/HalHWImg8188E_MAC.o \
hal/HalHWImg8188E_BB.o \
hal/HalHWImg8188E_RF.o \
hal/HalPhyRf.o \
hal/HalPhyRf_8188e.o \
hal/HalPwrSeqCmd.o \
hal/Hal8188EPwrSeq.o \
hal/Hal8188ERateAdaptive.o\
hal/hal_intf.o \
hal/hal_com.o \
hal/odm.o \
hal/odm_debug.o \
hal/odm_interface.o \
hal/odm_HWConfig.o \
hal/odm_RegConfig8188E.o\
hal/odm_RTL8188E.o \
hal/rtl8188e_cmd.o \
hal/rtl8188e_dm.o \
hal/rtl8188e_hal_init.o \
hal/rtl8188e_mp.o \
hal/rtl8188e_phycfg.o \
hal/rtl8188e_rf6052.o \
hal/rtl8188e_rxdesc.o \
hal/rtl8188e_sreset.o \
hal/rtl8188e_xmit.o \
hal/rtl8188eu_led.o \
hal/rtl8188eu_recv.o \
hal/rtl8188eu_xmit.o \
hal/usb_halinit.o \
hal/usb_ops_linux.o
OUTSRC_FILES := hal/OUTSRC/odm_debug.o \
hal/OUTSRC/odm_interface.o\
hal/OUTSRC/odm_HWConfig.o\
hal/OUTSRC/odm.o\
hal/OUTSRC/HalPhyRf.o
ifeq ($(CONFIG_RTL8192C), y)
RTL871X = rtl8192c
ifeq ($(CONFIG_USB_HCI), y)
MODULE_NAME = 8192cu
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/Hal8192CUFWImg_CE.o \
hal/OUTSRC/$(RTL871X)/Hal8192CUPHYImg_CE.o \
hal/OUTSRC/$(RTL871X)/Hal8192CUMACImg_CE.o
endif
ifeq ($(CONFIG_PCI_HCI), y)
MODULE_NAME = 8192ce
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/Hal8192CEFWImg_CE.o \
hal/OUTSRC/$(RTL871X)/Hal8192CEPHYImg_CE.o \
hal/OUTSRC/$(RTL871X)/Hal8192CEMACImg_CE.o
endif
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/odm_RTL8192C.o\
hal/OUTSRC/$(RTL871X)/HalDMOutSrc8192C_CE.o
CHIP_FILES := \
hal/$(RTL871X)/$(RTL871X)_sreset.o \
hal/$(RTL871X)/$(RTL871X)_xmit.o
CHIP_FILES += $(OUTSRC_FILES)
endif
ifeq ($(CONFIG_RTL8192D), y)
RTL871X = rtl8192d
ifeq ($(CONFIG_USB_HCI), y)
MODULE_NAME = 8192du
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/Hal8192DUFWImg_CE.o \
hal/OUTSRC/$(RTL871X)/Hal8192DUPHYImg_CE.o \
hal/OUTSRC/$(RTL871X)/Hal8192DUMACImg_CE.o
endif
ifeq ($(CONFIG_PCI_HCI), y)
MODULE_NAME = 8192de
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/Hal8192DEFWImg_CE.o \
hal/OUTSRC/$(RTL871X)/Hal8192DEPHYImg_CE.o \
hal/OUTSRC/$(RTL871X)/Hal8192DEMACImg_CE.o
endif
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/odm_RTL8192D.o\
hal/OUTSRC/$(RTL871X)/HalDMOutSrc8192D_CE.o
CHIP_FILES := \
hal/$(RTL871X)/$(RTL871X)_xmit.o
CHIP_FILES += $(OUTSRC_FILES)
endif
ifeq ($(CONFIG_RTL8723A), y)
RTL871X = rtl8723a
HAL_COMM_FILES := hal/$(RTL871X)/$(RTL871X)_xmit.o \
hal/$(RTL871X)/$(RTL871X)_sreset.o
ifeq ($(CONFIG_GSPI_HCI), y)
MODULE_NAME = 8723as
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/Hal8723SHWImg_CE.o
endif
ifeq ($(CONFIG_SDIO_HCI), y)
MODULE_NAME = 8723as
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/Hal8723SHWImg_CE.o
endif
ifeq ($(CONFIG_USB_HCI), y)
MODULE_NAME = 8723au
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/Hal8723UHWImg_CE.o
endif
ifeq ($(CONFIG_PCI_HCI), y)
MODULE_NAME = 8723ae
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/Hal8723EHWImg_CE.o
endif
#hal/OUTSRC/$(RTL871X)/HalHWImg8723A_FW.o
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/HalHWImg8723A_BB.o\
hal/OUTSRC/$(RTL871X)/HalHWImg8723A_MAC.o\
hal/OUTSRC/$(RTL871X)/HalHWImg8723A_RF.o\
hal/OUTSRC/$(RTL871X)/odm_RegConfig8723A.o
OUTSRC_FILES += hal/OUTSRC/rtl8192c/HalDMOutSrc8192C_CE.o
clean_more ?=
clean_more += clean_odm-8192c
PWRSEQ_FILES := hal/HalPwrSeqCmd.o \
hal/$(RTL871X)/Hal8723PwrSeq.o
CHIP_FILES += $(HAL_COMM_FILES) $(OUTSRC_FILES) $(PWRSEQ_FILES)
ifeq ($(CONFIG_BT_COEXIST), y)
CHIP_FILES += hal/$(RTL871X)/rtl8723a_bt-coexist.o
endif
endif
ifeq ($(CONFIG_RTL8188E), y)
RTL871X = rtl8188e
HAL_COMM_FILES := hal/$(RTL871X)/$(RTL871X)_xmit.o\
hal/$(RTL871X)/$(RTL871X)_sreset.o
ifeq ($(CONFIG_SDIO_HCI), y)
MODULE_NAME = 8189es
endif
ifeq ($(CONFIG_USB_HCI), y)
MODULE_NAME = 8188eu
endif
ifeq ($(CONFIG_PCI_HCI), y)
MODULE_NAME = 8188ee
endif
#hal/OUTSRC/$(RTL871X)/HalHWImg8188E_FW.o
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/HalHWImg8188E_MAC.o\
hal/OUTSRC/$(RTL871X)/HalHWImg8188E_BB.o\
hal/OUTSRC/$(RTL871X)/HalHWImg8188E_RF.o\
hal/OUTSRC/$(RTL871X)/Hal8188EFWImg_CE.o\
hal/OUTSRC/$(RTL871X)/HalPhyRf_8188e.o\
hal/OUTSRC/$(RTL871X)/odm_RegConfig8188E.o\
hal/OUTSRC/$(RTL871X)/Hal8188ERateAdaptive.o\
hal/OUTSRC/$(RTL871X)/odm_RTL8188E.o
ifeq ($(CONFIG_RTL8188E), y)
ifeq ($(CONFIG_WOWLAN), y)
OUTSRC_FILES += hal/OUTSRC/$(RTL871X)/HalHWImg8188E_FW.o
endif
endif
PWRSEQ_FILES := hal/HalPwrSeqCmd.o \
hal/$(RTL871X)/Hal8188EPwrSeq.o
CHIP_FILES += $(HAL_COMM_FILES) $(OUTSRC_FILES) $(PWRSEQ_FILES)
endif
ifeq ($(CONFIG_GSPI_HCI), y)
HCI_NAME = gspi
endif
ifeq ($(CONFIG_SDIO_HCI), y)
HCI_NAME = sdio
endif
ifeq ($(CONFIG_USB_HCI), y)
HCI_NAME = usb
endif
_OS_INTFS_FILES := \
os_dep/ioctl_linux.o \
os_dep/mlme_linux.o \
os_dep/os_intfs.o \
os_dep/osdep_service.o \
os_dep/recv_linux.o \
os_dep/rtw_android.o \
os_dep/usb_intf.o \
os_dep/usb_ops_linux.o \
os_dep/xmit_linux.o
ifeq ($(CONFIG_PCI_HCI), y)
HCI_NAME = pci
endif
_OS_INTFS_FILES := os_dep/osdep_service.o \
os_dep/linux/os_intfs.o \
os_dep/linux/$(HCI_NAME)_intf.o \
os_dep/linux/$(HCI_NAME)_ops_linux.o \
os_dep/linux/ioctl_linux.o \
os_dep/linux/xmit_linux.o \
os_dep/linux/mlme_linux.o \
os_dep/linux/recv_linux.o \
os_dep/linux/ioctl_cfg80211.o \
os_dep/linux/rtw_android.o
ifeq ($(CONFIG_SDIO_HCI), y)
_OS_INTFS_FILES += os_dep/linux/custom_gpio_linux.o
_OS_INTFS_FILES += os_dep/linux/$(HCI_NAME)_ops_linux.o
endif
_HAL_INTFS_FILES += $(OUTSRC_FILES)
ifeq ($(CONFIG_GSPI_HCI), y)
_OS_INTFS_FILES += os_dep/linux/custom_gpio_linux.o
_OS_INTFS_FILES += os_dep/linux/$(HCI_NAME)_ops_linux.o
endif
_HAL_INTFS_FILES := hal/hal_intf.o \
hal/hal_com.o \
hal/$(RTL871X)/$(RTL871X)_hal_init.o \
hal/$(RTL871X)/$(RTL871X)_phycfg.o \
hal/$(RTL871X)/$(RTL871X)_rf6052.o \
hal/$(RTL871X)/$(RTL871X)_dm.o \
hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
hal/$(RTL871X)/$(RTL871X)_cmd.o \
hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
ifeq ($(CONFIG_SDIO_HCI), y)
_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
else
ifeq ($(CONFIG_GSPI_HCI), y)
_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
else
_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
endif
endif
ifeq ($(CONFIG_MP_INCLUDED), y)
_HAL_INTFS_FILES += hal/$(RTL871X)/$(RTL871X)_mp.o
endif
_HAL_INTFS_FILES += $(CHIP_FILES)
ifeq ($(CONFIG_AUTOCFG_CP), y)
$(shell cp $(TopDIR)/autoconf_rtl8188e_usb_linux.h $(TopDIR)/include/autoconf.h)
ifeq ($(CONFIG_RTL8188E)$(CONFIG_SDIO_HCI),yy)
$(shell cp $(TopDIR)/autoconf_rtl8189e_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
else
$(shell cp $(TopDIR)/autoconf_$(RTL871X)_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
endif
endif
ifeq ($(CONFIG_USB_HCI), y)
ifeq ($(CONFIG_USB_AUTOSUSPEND), y)
EXTRA_CFLAGS += -DCONFIG_USB_AUTOSUSPEND
endif
endif
ifeq ($(CONFIG_MP_INCLUDED), y)
#MODULE_NAME := $(MODULE_NAME)_mp
EXTRA_CFLAGS += -DCONFIG_MP_INCLUDED
endif
ifeq ($(CONFIG_POWER_SAVING), y)
EXTRA_CFLAGS += -DCONFIG_POWER_SAVING
endif
ifeq ($(CONFIG_HW_PWRP_DETECTION), y)
EXTRA_CFLAGS += -DCONFIG_HW_PWRP_DETECTION
endif
ifeq ($(CONFIG_WIFI_TEST), y)
EXTRA_CFLAGS += -DCONFIG_WIFI_TEST
endif
ifeq ($(CONFIG_BT_COEXIST), y)
EXTRA_CFLAGS += -DCONFIG_BT_COEXIST
endif
ifeq ($(CONFIG_WOWLAN), y)
EXTRA_CFLAGS += -DCONFIG_WOWLAN
ifeq ($(CONFIG_RTL8192CU_REDEFINE_1X1), y)
EXTRA_CFLAGS += -DRTL8192C_RECONFIG_TO_1T1R
endif
SUBARCH := $(shell uname -m | sed -e s/i.86/i386/ | sed -e s/ppc/powerpc/ | sed -e s/armv.l/arm/)
ifeq ($(CONFIG_INTEL_WIDI), y)
EXTRA_CFLAGS += -DCONFIG_INTEL_WIDI
endif
ifeq ($(CONFIG_WAPI_SUPPORT), y)
EXTRA_CFLAGS += -DCONFIG_WAPI_SUPPORT
endif
ifeq ($(CONFIG_EFUSE_CONFIG_FILE), y)
EXTRA_CFLAGS += -DCONFIG_EFUSE_CONFIG_FILE
endif
ifeq ($(CONFIG_EXT_CLK), y)
EXTRA_CFLAGS += -DCONFIG_EXT_CLK
endif
ifeq ($(CONFIG_FTP_PROTECT), y)
EXTRA_CFLAGS += -DCONFIG_FTP_PROTECT
endif
ifeq ($(CONFIG_ODM_ADAPTIVITY), y)
EXTRA_CFLAGS += -DCONFIG_ODM_ADAPTIVITY
endif
ifeq ($(CONFIG_MMC_PM_KEEP_POWER), y)
EXTRA_CFLAGS += -DCONFIG_MMC_PM_KEEP_POWER
endif
ifeq ($(CONFIG_RTL8188E), y)
ifeq ($(CONFIG_WOWLAN), y)
EXTRA_CFLAGS += -DCONFIG_WOWLAN
EXTRA_CFLAGS += -DCONFIG_MMC_PM_KEEP_POWER
endif
ifeq ($(CONFIG_GPIO_WAKEUP), y)
EXTRA_CFLAGS += -DCONFIG_GPIO_WAKEUP
endif
endif
ifeq ($(CONFIG_RTL8188E), y)
ifeq ($(CONFIG_EFUSE_CONFIG_FILE), y)
EXTRA_CFLAGS += -DCONFIG_RF_GAIN_OFFSET
endif
endif
ifeq ($(CONFIG_PLATFORM_I386_PC), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
ARCH ?= $(SUBARCH)
CROSS_COMPILE ?=
KVER := $(shell uname -r)
KSRC ?= /lib/modules/$(KVER)/build
MODDESTDIR := /lib/modules/$(KVER)/kernel/drivers/net/wireless
KSRC := /lib/modules/$(KVER)/build
MODDESTDIR := /lib/modules/$(KVER)/kernel/drivers/net/wireless/
INSTALL_PREFIX :=
endif
ifeq ($(CONFIG_PLATFORM_ACTIONS_ATM702X), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ACTIONS_ATM702X
#ARCH := arm
ARCH := $(R_ARCH)
#CROSS_COMPILE := arm-none-linux-gnueabi-
CROSS_COMPILE := $(R_CROSS_COMPILE)
KVER:= 3.4.0
#KSRC := ../../../../build/out/kernel
KSRC := $(KERNEL_BUILD_PATH)
MODULE_NAME :=wlan
endif
ifeq ($(CONFIG_PLATFORM_TI_AM3517), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_SHUTTLE
CROSS_COMPILE := arm-eabi-
KSRC := $(shell pwd)/../../../Android/kernel
ARCH := arm
endif
ifeq ($(CONFIG_PLATFORM_MSTAR_TITANIA12), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR -DCONFIG_PLATFORM_MSTAR_TITANIA12
ARCH:=mips
CROSS_COMPILE:= /usr/src/Mstar_kernel/mips-4.3/bin/mips-linux-gnu-
KVER:= 2.6.28.9
KSRC:= /usr/src/Mstar_kernel/2.6.28.9/
endif
ifeq ($(CONFIG_PLATFORM_MSTAR), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR
ARCH:=arm
CROSS_COMPILE:= /usr/src/bin/arm-none-linux-gnueabi-
KVER:= 3.1.10
KSRC:= /usr/src/Mstar_kernel/3.1.10/
endif
ifeq ($(CONFIG_PLATFORM_ANDROID_X86), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
ARCH := $(SUBARCH)
CROSS_COMPILE := /media/DATA-2/android-x86/ics-x86_20120130/prebuilt/linux-x86/toolchain/i686-unknown-linux-gnu-4.2.1/bin/i686-unknown-linux-gnu-
KSRC := /media/DATA-2/android-x86/ics-x86_20120130/out/target/product/generic_x86/obj/kernel
MODULE_NAME :=wlan
endif
ifeq ($(CONFIG_PLATFORM_JB_X86), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
EXTRA_CFLAGS += -DCONFIG_P2P_IPS
SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
ARCH := $(SUBARCH)
CROSS_COMPILE := /home/android_sdk/android-x86_JB/prebuilts/gcc/linux-x86/x86/i686-linux-android-4.7/bin/i686-linux-android-
KSRC := /home/android_sdk/android-x86_JB/out/target/product/x86/obj/kernel/
MODULE_NAME :=wlan
endif
ifeq ($(CONFIG_PLATFORM_ARM_PXA2XX), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
ARCH := arm
CROSS_COMPILE := arm-none-linux-gnueabi-
KVER := 2.6.34.1
KSRC ?= /usr/src/linux-2.6.34.1
endif
ifeq ($(CONFIG_PLATFORM_ARM_S3C2K4), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
ARCH := arm
CROSS_COMPILE := arm-linux-
KVER := 2.6.24.7_$(ARCH)
KSRC := /usr/src/kernels/linux-$(KVER)
endif
ifeq ($(CONFIG_PLATFORM_ARM_S3C6K4), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
ARCH := arm
CROSS_COMPILE := arm-none-linux-gnueabi-
KVER := 2.6.34.1
KSRC ?= /usr/src/linux-2.6.34.1
endif
ifeq ($(CONFIG_PLATFORM_RTD2880B), y)
EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN -DCONFIG_PLATFORM_RTD2880B
ARCH:=
CROSS_COMPILE:=
KVER:=
KSRC:=
endif
ifeq ($(CONFIG_PLATFORM_MIPS_RMI), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
ARCH:=mips
CROSS_COMPILE:=mipsisa32r2-uclibc-
KVER:=
KSRC:= /root/work/kernel_realtek
endif
ifeq ($(CONFIG_PLATFORM_MIPS_PLM), y)
EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
ARCH:=mips
CROSS_COMPILE:=mipsisa32r2-uclibc-
KVER:=
KSRC:= /root/work/kernel_realtek
endif
ifeq ($(CONFIG_PLATFORM_MSTAR389), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR389
ARCH:=mips
CROSS_COMPILE:= mips-linux-gnu-
KVER:= 2.6.28.10
KSRC:= /home/mstar/mstar_linux/2.6.28.9/
endif
ifeq ($(CONFIG_PLATFORM_MIPS_AR9132), y)
EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
ARCH := mips
CROSS_COMPILE := mips-openwrt-linux-
KSRC := /home/alex/test_openwrt/tmp/linux-2.6.30.9
endif
ifeq ($(CONFIG_PLATFORM_DMP_PHILIPS), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DRTK_DMP_PLATFORM
ARCH := mips
#CROSS_COMPILE:=/usr/local/msdk-4.3.6-mips-EL-2.6.12.6-0.9.30.3/bin/mipsel-linux-
CROSS_COMPILE:=/usr/local/toolchain_mipsel/bin/mipsel-linux-
KSRC ?=/usr/local/Jupiter/linux-2.6.12
endif
ifeq ($(CONFIG_PLATFORM_RTK_DMP), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DRTK_DMP_PLATFORM
ARCH:=mips
CROSS_COMPILE:=mipsel-linux-
KVER:=
KSRC ?= /usr/src/DMP_Kernel/jupiter/linux-2.6.12
endif
ifeq ($(CONFIG_PLATFORM_MT53XX), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MT53XX
ARCH:= arm
CROSS_COMPILE:= arm11_mtk_le-
KVER:= 2.6.27
KSRC?= /proj/mtk00802/BD_Compare/BDP/Dev/BDP_V301/BDP_Linux/linux-2.6.27
endif
ifeq ($(CONFIG_PLATFORM_ARM_MX51_241H), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_WISTRON_PLATFORM
ARCH := arm
CROSS_COMPILE := /opt/freescale/usr/local/gcc-4.1.2-glibc-2.5-nptl-3/arm-none-linux-gnueabi/bin/arm-none-linux-gnueabi-
KVER := 2.6.31
KSRC ?= /lib/modules/2.6.31-770-g0e46b52/source
endif
ifeq ($(CONFIG_PLATFORM_ACTIONS_ATJ227X), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ACTIONS_ATJ227X
ARCH := mips
CROSS_COMPILE := /home/cnsd4/project/actions/tools-2.6.27/bin/mipsel-linux-gnu-
KVER := 2.6.27
KSRC := /home/cnsd4/project/actions/linux-2.6.27.28
endif
ifeq ($(CONFIG_PLATFORM_TI_DM365), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_TI_DM365
ARCH := arm
CROSS_COMPILE := /home/cnsd4/Appro/mv_pro_5.0/montavista/pro/devkit/arm/v5t_le/bin/arm_v5t_le-
KVER := 2.6.18
KSRC := /home/cnsd4/Appro/mv_pro_5.0/montavista/pro/devkit/lsp/ti-davinci/linux-dm365
endif
ifeq ($(CONFIG_PLATFORM_TEGRA3_CARDHU), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
# default setting for Android 4.1, 4.2
EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
EXTRA_CFLAGS += -DCONFIG_P2P_IPS
ARCH := arm
CROSS_COMPILE := /home/android_sdk/nvidia/tegra-16r3-partner-android-4.1_20120723/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
KSRC := /home/android_sdk/nvidia/tegra-16r3-partner-android-4.1_20120723/out/target/product/cardhu/obj/KERNEL
MODULE_NAME := wlan
endif
ifeq ($(CONFIG_PLATFORM_TEGRA4_DALMORE), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
# default setting for Android 4.1, 4.2
EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
EXTRA_CFLAGS += -DCONFIG_P2P_IPS
ARCH := arm
CROSS_COMPILE := /home/android_sdk/nvidia/tegra-17r9-partner-android-4.2-dalmore_20130131/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
KSRC := /home/android_sdk/nvidia/tegra-17r9-partner-android-4.2-dalmore_20130131/out/target/product/dalmore/obj/KERNEL
MODULE_NAME := wlan
endif
ifeq ($(CONFIG_PLATFORM_ARM_TCC8900), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
ARCH := arm
CROSS_COMPILE := /home/android_sdk/Telechips/SDK_2304_20110613/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
KSRC := /home/android_sdk/Telechips/SDK_2304_20110613/kernel
MODULE_NAME := wlan
endif
ifeq ($(CONFIG_PLATFORM_ARM_TCC8920), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
ARCH := arm
CROSS_COMPILE := /home/android_sdk/Telechips/v12.06_r1-tcc-android-4.0.4/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
KSRC := /home/android_sdk/Telechips/v12.06_r1-tcc-android-4.0.4/kernel
MODULE_NAME := wlan
endif
ifeq ($(CONFIG_PLATFORM_ARM_TCC8920_JB42), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
# default setting for Android 4.1, 4.2
EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
EXTRA_CFLAGS += -DCONFIG_P2P_IPS
ARCH := arm
CROSS_COMPILE := /home/android_sdk/Telechips/v13.03_r1-tcc-android-4.2.2_ds_patched/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
KSRC := /home/android_sdk/Telechips/v13.03_r1-tcc-android-4.2.2_ds_patched/kernel
MODULE_NAME := wlan
endif
ifeq ($(CONFIG_PLATFORM_ARM_RK2818), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ROCKCHIPS -DCONFIG_MINIMAL_MEMORY_USAGE
ifeq ($(CONFIG_SDIO_HCI), y)
EXTRA_CFLAGS += -DCONFIG_DETECT_CPWM_BY_POLLING -DCONFIG_DETECT_C2H_BY_POLLING
endif
ARCH := arm
CROSS_COMPILE := /usr/src/release_fae_version/toolchain/arm-eabi-4.4.0/bin/arm-eabi-
KSRC := /usr/src/release_fae_version/kernel25_A7_281x
MODULE_NAME := wlan
endif
ifeq ($(CONFIG_PLATFORM_ARM_URBETTER), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN #-DCONFIG_MINIMAL_MEMORY_USAGE
ARCH := arm
CROSS_COMPILE := /media/DATA-1/urbetter/arm-2009q3/bin/arm-none-linux-gnueabi-
KSRC := /media/DATA-1/urbetter/ics-urbetter/kernel
MODULE_NAME := wlan
endif
ifeq ($(CONFIG_PLATFORM_ARM_TI_PANDA), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN #-DCONFIG_MINIMAL_MEMORY_USAGE
ARCH := arm
#CROSS_COMPILE := /media/DATA-1/aosp/ics-aosp_20111227/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
#KSRC := /media/DATA-1/aosp/android-omap-panda-3.0_20120104
CROSS_COMPILE := /media/DATA-1/android-4.0/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
KSRC := /media/DATA-1/android-4.0/panda_kernel/omap
MODULE_NAME := wlan
endif
ifeq ($(CONFIG_PLATFORM_MIPS_JZ4760), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_MINIMAL_MEMORY_USAGE
ARCH ?= mips
CROSS_COMPILE ?= /mnt/sdb5/Ingenic/Umido/mips-4.3/bin/mips-linux-gnu-
KSRC ?= /mnt/sdb5/Ingenic/Umido/kernel
endif
ifeq ($(CONFIG_PLATFORM_SZEBOOK), y)
EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
ARCH:=arm
CROSS_COMPILE:=/opt/crosstool2/bin/armeb-unknown-linux-gnueabi-
KVER:= 2.6.31.6
KSRC:= ../code/linux-2.6.31.6-2020/
endif
#Add setting for MN10300
ifeq ($(CONFIG_PLATFORM_MN10300), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MN10300
ARCH := mn10300
CROSS_COMPILE := mn10300-linux-
KVER := 2.6.32.2
KSRC := /home/winuser/work/Plat_sLD2T_V3010/usr/src/linux-2.6.32.2
INSTALL_PREFIX :=
endif
ifeq ($(CONFIG_PLATFORM_ARM_SUNxI), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ARM_SUNxI
ifeq ($(CONFIG_USB_HCI), y)
EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
endif
# default setting for Android 4.1, 4.2
EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
EXTRA_CFLAGS += -DDCONFIG_P2P_IPS
# default setting for A10-EVB mmc0
ifeq ($(CONFIG_SDIO_HCI), y)
#EXTRA_CFLAGS += -DCONFIG_WITS_EVB_V13
endif
ARCH := arm
#CROSS_COMPILE := arm-none-linux-gnueabi-
CROSS_COMPILE=/home/android_sdk/Allwinner/a10/android-jb42/lichee-jb42/buildroot/output/external-toolchain/bin/arm-none-linux-gnueabi-
KVER := 3.0.8
#KSRC:= ../lichee/linux-3.0/
KSRC=/home/android_sdk/Allwinner/a10/android-jb42/lichee-jb42/linux-3.0
endif
ifeq ($(CONFIG_PLATFORM_ARM_SUN6I), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN6I
ifeq ($(CONFIG_USB_HCI), y)
EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
endif
# default setting for A31-EVB mmc0
ifeq ($(CONFIG_SDIO_HCI), y)
EXTRA_CFLAGS += -DCONFIG_A31_EVB
endif
EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
# default setting for Android 4.1, 4.2
EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
EXTRA_CFLAGS += -DCONFIG_P2P_IPS -DCONFIG_QOS_OPTIMIZATION
ARCH := arm
CROSS_COMPILE := /home/android_sdk/Allwinner/a31/android-jb42/lichee/buildroot/output/external-toolchain/bin/arm-linux-gnueabi-
KVER := 3.3.0
#KSRC:= ../lichee/linux-3.3/
KSRC :=/home/android_sdk/Allwinner/a31/android-jb42/lichee/linux-3.3
ifeq ($(CONFIG_USB_HCI), y)
MODULE_NAME := 8188eu_sw
endif
endif
ifeq ($(CONFIG_PLATFORM_ARM_SUN7I), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN7I
ifeq ($(CONFIG_USB_HCI), y)
EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
endif
EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
# default setting for Android 4.1, 4.2
EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
EXTRA_CFLAGS += -DCONFIG_P2P_IPS -DCONFIG_QOS_OPTIMIZATION
ARCH := arm
# Cross compile setting for Android 4.2 SDK
#CROSS_COMPILE := /home/android_sdk/Allwinner/a20/sugar/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
#KVER := 3.3.0
#KSRC :=/home/android_sdk/Allwinner/a20/sugar/lichee/linux-3.3
# Cross compile setting for Android 4.3 SDK
CROSS_COMPILE := /home/android_sdk/Allwinner/a20/android-jb43/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
KVER := 3.4.39
KSRC :=/home/android_sdk/Allwinner/a20/android-jb43/lichee/linux-3.4
endif
ifeq ($(CONFIG_PLATFORM_ACTIONS_ATV5201), y)
EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ACTIONS_ATV5201
ARCH := mips
CROSS_COMPILE := mipsel-linux-gnu-
KVER := $(KERNEL_VER)
KSRC:= $(CFGDIR)/../../kernel/linux-$(KERNEL_VER)
endif
ifneq ($(USER_MODULE_NAME),)
MODULE_NAME := $(USER_MODULE_NAME)
endif
ifneq ($(KERNELRELEASE),)
rtk_core := \
core/rtw_ap.o \
core/rtw_br_ext.o \
core/rtw_cmd.o \
rtk_core := core/rtw_cmd.o \
core/rtw_security.o \
core/rtw_debug.o \
core/rtw_efuse.o \
core/rtw_ieee80211.o \
core/rtw_io.o \
core/rtw_ioctl_query.o \
core/rtw_ioctl_set.o \
core/rtw_iol.o \
core/rtw_led.o \
core/rtw_ieee80211.o \
core/rtw_mlme.o \
core/rtw_mlme_ext.o \
core/rtw_mp.o \
core/rtw_mp_ioctl.o \
core/rtw_pwrctrl.o \
core/rtw_p2p.o \
core/rtw_recv.o \
core/rtw_rf.o \
core/rtw_security.o \
core/rtw_sreset.o \
core/rtw_sta_mgt.o \
core/rtw_wlan_util.o \
core/rtw_xmit.o
core/rtw_pwrctrl.o \
core/rtw_rf.o \
core/rtw_recv.o \
core/rtw_sta_mgt.o \
core/rtw_ap.o \
core/rtw_xmit.o \
core/rtw_p2p.o \
core/rtw_tdls.o \
core/rtw_br_ext.o \
core/rtw_iol.o \
core/rtw_led.o \
core/rtw_sreset.o \
core/rtw_odm.o
8188eu-y += $(rtk_core)
$(MODULE_NAME)-y += $(rtk_core)
8188eu-y += $(_HAL_INTFS_FILES)
$(MODULE_NAME)-$(CONFIG_INTEL_WIDI) += core/rtw_intel_widi.o
8188eu-y += $(_OS_INTFS_FILES)
$(MODULE_NAME)-$(CONFIG_WAPI_SUPPORT) += core/rtw_wapi.o \
core/rtw_wapi_sms4.o
obj-$(CONFIG_RTL8188EU) := 8188eu.o
$(MODULE_NAME)-y += core/efuse/rtw_efuse.o
$(MODULE_NAME)-y += $(_HAL_INTFS_FILES)
$(MODULE_NAME)-y += $(_OS_INTFS_FILES)
$(MODULE_NAME)-$(CONFIG_MP_INCLUDED) += core/rtw_mp.o \
core/rtw_mp_ioctl.o
ifeq ($(CONFIG_RTL8723A), y)
$(MODULE_NAME)-$(CONFIG_MP_INCLUDED)+= core/rtw_bt_mp.o
endif
obj-$(CONFIG_RTL8188EU) := $(MODULE_NAME).o
else
@ -146,16 +814,14 @@ modules:
$(MAKE) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) -C $(KSRC) M=$(shell pwd) modules
strip:
$(CROSS_COMPILE)strip 8188eu.ko --strip-unneeded
$(CROSS_COMPILE)strip $(MODULE_NAME).ko --strip-unneeded
install:
install -p -D -m 644 8188eu.ko $(MODDESTDIR)/8188eu.ko
install -p -m 644 $(MODULE_NAME).ko $(MODDESTDIR)
/sbin/depmod -a ${KVER}
mkdir -p /lib/firmware/rtlwifi
cp -n rtl8188eufw.bin /lib/firmware/rtlwifi/.
uninstall:
rm -f $(MODDESTDIR)/8188eu.ko
rm -f $(MODDESTDIR)/$(MODULE_NAME).ko
/sbin/depmod -a ${KVER}
config_r:
@ -171,8 +837,14 @@ clean: $(clean_more)
rm -fr *.mod.c *.mod *.o .*.cmd *.ko *~
rm -fr .tmp_versions
rm -fr Module.symvers ; rm -fr Module.markers ; rm -fr modules.order
cd core/efuse ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
cd core ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
cd hal/$(RTL871X)/$(HCI_NAME) ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
cd hal/$(RTL871X) ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
cd hal/OUTSRC/$(RTL871X) ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
cd hal/OUTSRC/ ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
cd hal ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
cd os_dep/linux ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
cd os_dep ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
endif

1283
core/efuse/rtw_efuse.c Executable file

File diff suppressed because it is too large Load diff

2476
core/rtw_ap.c Normal file → Executable file

File diff suppressed because it is too large Load diff

1034
core/rtw_br_ext.c Normal file → Executable file

File diff suppressed because it is too large Load diff

1735
core/rtw_bt_mp.c Executable file

File diff suppressed because it is too large Load diff

2577
core/rtw_cmd.c Normal file → Executable file

File diff suppressed because it is too large Load diff

841
core/rtw_debug.c Normal file → Executable file

File diff suppressed because it is too large Load diff

423
core/rtw_eeprom.c Executable file
View file

@ -0,0 +1,423 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#define _RTW_EEPROM_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
void up_clk(_adapter* padapter, u16 *x)
{
_func_enter_;
*x = *x | _EESK;
rtw_write8(padapter, EE_9346CR, (u8)*x);
rtw_udelay_os(CLOCK_RATE);
_func_exit_;
}
void down_clk(_adapter * padapter, u16 *x )
{
_func_enter_;
*x = *x & ~_EESK;
rtw_write8(padapter, EE_9346CR, (u8)*x);
rtw_udelay_os(CLOCK_RATE);
_func_exit_;
}
void shift_out_bits(_adapter * padapter, u16 data, u16 count)
{
u16 x,mask;
_func_enter_;
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
mask = 0x01 << (count - 1);
x = rtw_read8(padapter, EE_9346CR);
x &= ~(_EEDO | _EEDI);
do
{
x &= ~_EEDI;
if(data & mask)
x |= _EEDI;
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
rtw_write8(padapter, EE_9346CR, (u8)x);
rtw_udelay_os(CLOCK_RATE);
up_clk(padapter, &x);
down_clk(padapter, &x);
mask = mask >> 1;
} while(mask);
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
x &= ~_EEDI;
rtw_write8(padapter, EE_9346CR, (u8)x);
out:
_func_exit_;
}
u16 shift_in_bits (_adapter * padapter)
{
u16 x,d=0,i;
_func_enter_;
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
x = rtw_read8(padapter, EE_9346CR);
x &= ~( _EEDO | _EEDI);
d = 0;
for(i=0; i<16; i++)
{
d = d << 1;
up_clk(padapter, &x);
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
x = rtw_read8(padapter, EE_9346CR);
x &= ~(_EEDI);
if(x & _EEDO)
d |= 1;
down_clk(padapter, &x);
}
out:
_func_exit_;
return d;
}
void standby(_adapter * padapter )
{
u8 x;
_func_enter_;
x = rtw_read8(padapter, EE_9346CR);
x &= ~(_EECS | _EESK);
rtw_write8(padapter, EE_9346CR,x);
rtw_udelay_os(CLOCK_RATE);
x |= _EECS;
rtw_write8(padapter, EE_9346CR, x);
rtw_udelay_os(CLOCK_RATE);
_func_exit_;
}
u16 wait_eeprom_cmd_done(_adapter* padapter)
{
u8 x;
u16 i,res=_FALSE;
_func_enter_;
standby(padapter );
for (i=0; i<200; i++)
{
x = rtw_read8(padapter, EE_9346CR);
if (x & _EEDO){
res=_TRUE;
goto exit;
}
rtw_udelay_os(CLOCK_RATE);
}
exit:
_func_exit_;
return res;
}
void eeprom_clean(_adapter * padapter)
{
u16 x;
_func_enter_;
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
x = rtw_read8(padapter, EE_9346CR);
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
x &= ~(_EECS | _EEDI);
rtw_write8(padapter, EE_9346CR, (u8)x);
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
up_clk(padapter, &x);
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
down_clk(padapter, &x);
out:
_func_exit_;
}
void eeprom_write16(_adapter * padapter, u16 reg, u16 data)
{
u8 x;
#ifdef CONFIG_RTL8712
u8 tmp8_ori,tmp8_new,tmp8_clk_ori,tmp8_clk_new;
tmp8_ori=rtw_read8(padapter, 0x102502f1);
tmp8_new=tmp8_ori & 0xf7;
if(tmp8_ori != tmp8_new){
rtw_write8(padapter, 0x102502f1, tmp8_new);
RT_TRACE(_module_rtl871x_mp_ioctl_c_,_drv_err_,("====write 0x102502f1=====\n"));
}
tmp8_clk_ori=rtw_read8(padapter,0x10250003);
tmp8_clk_new=tmp8_clk_ori|0x20;
if(tmp8_clk_new!=tmp8_clk_ori){
RT_TRACE(_module_rtl871x_mp_ioctl_c_,_drv_err_,("====write 0x10250003=====\n"));
rtw_write8(padapter, 0x10250003, tmp8_clk_new);
}
#endif
_func_enter_;
x = rtw_read8(padapter, EE_9346CR);
x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
x |= _EEM1 | _EECS;
rtw_write8(padapter, EE_9346CR, x);
shift_out_bits(padapter, EEPROM_EWEN_OPCODE, 5);
if(padapter->EepromAddressSize==8) //CF+ and SDIO
shift_out_bits(padapter, 0, 6);
else //USB
shift_out_bits(padapter, 0, 4);
standby( padapter);
// Commented out by rcnjko, 2004.0
// // Erase this particular word. Write the erase opcode and register
// // number in that order. The opcode is 3bits in length; reg is 6 bits long.
// shift_out_bits(Adapter, EEPROM_ERASE_OPCODE, 3);
// shift_out_bits(Adapter, reg, Adapter->EepromAddressSize);
//
// if (wait_eeprom_cmd_done(Adapter ) == FALSE)
// {
// return;
// }
standby(padapter );
// write the new word to the EEPROM
// send the write opcode the EEPORM
shift_out_bits(padapter, EEPROM_WRITE_OPCODE, 3);
// select which word in the EEPROM that we are writing to.
shift_out_bits(padapter, reg, padapter->EepromAddressSize);
// write the data to the selected EEPROM word.
shift_out_bits(padapter, data, 16);
if (wait_eeprom_cmd_done(padapter ) == _FALSE)
{
goto exit;
}
standby(padapter );
shift_out_bits(padapter, EEPROM_EWDS_OPCODE, 5);
shift_out_bits(padapter, reg, 4);
eeprom_clean(padapter );
exit:
#ifdef CONFIG_RTL8712
if(tmp8_clk_new!=tmp8_clk_ori)
rtw_write8(padapter, 0x10250003, tmp8_clk_ori);
if(tmp8_new!=tmp8_ori)
rtw_write8(padapter, 0x102502f1, tmp8_ori);
#endif
_func_exit_;
return;
}
u16 eeprom_read16(_adapter * padapter, u16 reg) //ReadEEprom
{
u16 x;
u16 data=0;
#ifdef CONFIG_RTL8712
u8 tmp8_ori,tmp8_new,tmp8_clk_ori,tmp8_clk_new;
tmp8_ori= rtw_read8(padapter, 0x102502f1);
tmp8_new = tmp8_ori & 0xf7;
if(tmp8_ori != tmp8_new){
rtw_write8(padapter, 0x102502f1, tmp8_new);
RT_TRACE(_module_rtl871x_mp_ioctl_c_,_drv_err_,("====write 0x102502f1=====\n"));
}
tmp8_clk_ori=rtw_read8(padapter,0x10250003);
tmp8_clk_new=tmp8_clk_ori|0x20;
if(tmp8_clk_new!=tmp8_clk_ori){
RT_TRACE(_module_rtl871x_mp_ioctl_c_,_drv_err_,("====write 0x10250003=====\n"));
rtw_write8(padapter, 0x10250003, tmp8_clk_new);
}
#endif
_func_enter_;
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
// select EEPROM, reset bits, set _EECS
x = rtw_read8(padapter, EE_9346CR);
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
x |= _EEM1 | _EECS;
rtw_write8(padapter, EE_9346CR, (unsigned char)x);
// write the read opcode and register number in that order
// The opcode is 3bits in length, reg is 6 bits long
shift_out_bits(padapter, EEPROM_READ_OPCODE, 3);
shift_out_bits(padapter, reg, padapter->EepromAddressSize);
// Now read the data (16 bits) in from the selected EEPROM word
data = shift_in_bits(padapter);
eeprom_clean(padapter);
out:
#ifdef CONFIG_RTL8712
if(tmp8_clk_new!=tmp8_clk_ori)
rtw_write8(padapter, 0x10250003, tmp8_clk_ori);
if(tmp8_new!=tmp8_ori)
rtw_write8(padapter, 0x102502f1, tmp8_ori);
#endif
_func_exit_;
return data;
}
//From even offset
void eeprom_read_sz(_adapter * padapter, u16 reg, u8* data, u32 sz)
{
u16 x, data16;
u32 i;
_func_enter_;
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
// select EEPROM, reset bits, set _EECS
x = rtw_read8(padapter, EE_9346CR);
if(padapter->bSurpriseRemoved==_TRUE){
RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
goto out;
}
x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
x |= _EEM1 | _EECS;
rtw_write8(padapter, EE_9346CR, (unsigned char)x);
// write the read opcode and register number in that order
// The opcode is 3bits in length, reg is 6 bits long
shift_out_bits(padapter, EEPROM_READ_OPCODE, 3);
shift_out_bits(padapter, reg, padapter->EepromAddressSize);
for(i=0; i<sz; i+=2)
{
data16 = shift_in_bits(padapter);
data[i] = data16 & 0xff;
data[i+1] = data16 >>8;
}
eeprom_clean(padapter);
out:
_func_exit_;
}
//addr_off : address offset of the entry in eeprom (not the tuple number of eeprom (reg); that is addr_off !=reg)
u8 eeprom_read(_adapter * padapter, u32 addr_off, u8 sz, u8* rbuf)
{
u8 quotient, remainder, addr_2align_odd;
u16 reg, stmp , i=0, idx = 0;
_func_enter_;
reg = (u16)(addr_off >> 1);
addr_2align_odd = (u8)(addr_off & 0x1);
if(addr_2align_odd) //read that start at high part: e.g 1,3,5,7,9,...
{
stmp = eeprom_read16(padapter, reg);
rbuf[idx++] = (u8) ((stmp>>8)&0xff); //return hogh-part of the short
reg++; sz--;
}
quotient = sz >> 1;
remainder = sz & 0x1;
for( i=0 ; i < quotient; i++)
{
stmp = eeprom_read16(padapter, reg+i);
rbuf[idx++] = (u8) (stmp&0xff);
rbuf[idx++] = (u8) ((stmp>>8)&0xff);
}
reg = reg+i;
if(remainder){ //end of read at lower part of short : 0,2,4,6,...
stmp = eeprom_read16(padapter, reg);
rbuf[idx] = (u8)(stmp & 0xff);
}
_func_exit_;
return _TRUE;
}
VOID read_eeprom_content(_adapter * padapter)
{
_func_enter_;
_func_exit_;
}

1378
core/rtw_ieee80211.c Normal file → Executable file

File diff suppressed because it is too large Load diff

306
core/rtw_io.c Normal file → Executable file
View file

@ -27,11 +27,20 @@ b. provides the protocol engine
c. provides the software interface between caller and the hardware interface
Compiler Flag Option:
USB:
1. CONFIG_SDIO_HCI:
a. USE_SYNC_IRP: Only sync operations are provided.
b. USE_ASYNC_IRP:Both sync/async operations are provided.
2. CONFIG_USB_HCI:
a. USE_ASYNC_IRP: Both sync/async operations are provided.
3. CONFIG_CFIO_HCI:
b. USE_SYNC_IRP: Only sync operations are provided.
Only sync read/rtw_write_mem operations are provided.
jackson@realtek.com.tw
@ -39,203 +48,252 @@ jackson@realtek.com.tw
*/
#define _RTW_IO_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtw_io.h>
#include <osdep_intf.h>
#include <usb_ops.h>
#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
#error "Shall be Linux or Windows, but not both!\n"
#endif
#ifdef CONFIG_SDIO_HCI
#include <sdio_ops.h>
#endif
#ifdef CONFIG_GSPI_HCI
#include <gspi_ops.h>
#endif
#ifdef CONFIG_USB_HCI
#include <usb_ops.h>
#endif
#ifdef CONFIG_PCI_HCI
#include <pci_ops.h>
#endif
#ifdef CONFIG_SDIO_HCI
#define rtw_le16_to_cpu(val) val
#define rtw_le32_to_cpu(val) val
#define rtw_cpu_to_le16(val) val
#define rtw_cpu_to_le32(val) val
#else
#define rtw_le16_to_cpu(val) le16_to_cpu(val)
#define rtw_le32_to_cpu(val) le32_to_cpu(val)
#define rtw_cpu_to_le16(val) cpu_to_le16(val)
#define rtw_cpu_to_le32(val) cpu_to_le32(val)
#endif
u8 _rtw_read8(struct adapter *adapter, u32 addr)
u8 _rtw_read8(_adapter *adapter, u32 addr)
{
u8 r_val;
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
u8 (*_read8)(struct intf_hdl *pintfhdl, u32 addr);
_func_enter_;
_read8 = pintfhdl->io_ops._read8;
r_val = _read8(pintfhdl, addr);
r_val = _read8(pintfhdl, addr);
_func_exit_;
return r_val;
}
u16 _rtw_read16(struct adapter *adapter, u32 addr)
u16 _rtw_read16(_adapter *adapter, u32 addr)
{
u16 r_val;
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
u16 (*_read16)(struct intf_hdl *pintfhdl, u32 addr);
_func_enter_;
_read16 = pintfhdl->io_ops._read16;
r_val = _read16(pintfhdl, addr);
return r_val;
_func_exit_;
return rtw_le16_to_cpu(r_val);
}
u32 _rtw_read32(struct adapter *adapter, u32 addr)
u32 _rtw_read32(_adapter *adapter, u32 addr)
{
u32 r_val;
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
u32 (*_read32)(struct intf_hdl *pintfhdl, u32 addr);
_func_enter_;
_read32 = pintfhdl->io_ops._read32;
r_val = _read32(pintfhdl, addr);
_func_exit_;
return rtw_le32_to_cpu(r_val);
return r_val;
}
int _rtw_write8(struct adapter *adapter, u32 addr, u8 val)
int _rtw_write8(_adapter *adapter, u32 addr, u8 val)
{
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
int (*_write8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
int ret;
_func_enter_;
_write8 = pintfhdl->io_ops._write8;
ret = _write8(pintfhdl, addr, val);
_func_exit_;
return RTW_STATUS_CODE(ret);
}
int _rtw_write16(struct adapter *adapter, u32 addr, u16 val)
int _rtw_write16(_adapter *adapter, u32 addr, u16 val)
{
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
int (*_write16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
int ret;
_func_enter_;
_write16 = pintfhdl->io_ops._write16;
val = rtw_cpu_to_le16(val);
ret = _write16(pintfhdl, addr, val);
_func_exit_;
return RTW_STATUS_CODE(ret);
}
int _rtw_write32(struct adapter *adapter, u32 addr, u32 val)
int _rtw_write32(_adapter *adapter, u32 addr, u32 val)
{
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
int (*_write32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
int ret;
_func_enter_;
_write32 = pintfhdl->io_ops._write32;
val = rtw_cpu_to_le32(val);
ret = _write32(pintfhdl, addr, val);
_func_exit_;
return RTW_STATUS_CODE(ret);
}
int _rtw_writeN(struct adapter *adapter, u32 addr , u32 length , u8 *pdata)
int _rtw_writeN(_adapter *adapter, u32 addr ,u32 length , u8 *pdata)
{
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = (struct intf_hdl *)(&(pio_priv->intf));
int (*_writeN)(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata);
struct intf_hdl *pintfhdl = (struct intf_hdl*)(&(pio_priv->intf));
int (*_writeN)(struct intf_hdl *pintfhdl, u32 addr,u32 length, u8 *pdata);
int ret;
_func_enter_;
_writeN = pintfhdl->io_ops._writeN;
ret = _writeN(pintfhdl, addr, length, pdata);
ret = _writeN(pintfhdl, addr,length,pdata);
_func_exit_;
return RTW_STATUS_CODE(ret);
}
int _rtw_write8_async(struct adapter *adapter, u32 addr, u8 val)
int _rtw_write8_async(_adapter *adapter, u32 addr, u8 val)
{
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
int (*_write8_async)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
int ret;
_func_enter_;
_write8_async = pintfhdl->io_ops._write8_async;
ret = _write8_async(pintfhdl, addr, val);
_func_exit_;
return RTW_STATUS_CODE(ret);
}
int _rtw_write16_async(struct adapter *adapter, u32 addr, u16 val)
int _rtw_write16_async(_adapter *adapter, u32 addr, u16 val)
{
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
int (*_write16_async)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
int ret;
_func_enter_;
_write16_async = pintfhdl->io_ops._write16_async;
val = rtw_cpu_to_le16(val);
ret = _write16_async(pintfhdl, addr, val);
_func_exit_;
return RTW_STATUS_CODE(ret);
}
int _rtw_write32_async(struct adapter *adapter, u32 addr, u32 val)
int _rtw_write32_async(_adapter *adapter, u32 addr, u32 val)
{
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
int (*_write32_async)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
int ret;
_func_enter_;
_write32_async = pintfhdl->io_ops._write32_async;
val = rtw_cpu_to_le32(val);
ret = _write32_async(pintfhdl, addr, val);
_func_exit_;
return RTW_STATUS_CODE(ret);
}
void _rtw_read_mem(struct adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
void _rtw_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
{
void (*_read_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
_func_enter_;
if (adapter->bDriverStopped || adapter->bSurpriseRemoved) {
RT_TRACE(_module_rtl871x_io_c_, _drv_info_,
("rtw_read_mem:bDriverStopped(%d) OR bSurpriseRemoved(%d)",
adapter->bDriverStopped, adapter->bSurpriseRemoved));
if( (adapter->bDriverStopped ==_TRUE) || (adapter->bSurpriseRemoved == _TRUE))
{
RT_TRACE(_module_rtl871x_io_c_, _drv_info_, ("rtw_read_mem:bDriverStopped(%d) OR bSurpriseRemoved(%d)", adapter->bDriverStopped, adapter->bSurpriseRemoved));
return;
}
_read_mem = pintfhdl->io_ops._read_mem;
_read_mem(pintfhdl, addr, cnt, pmem);
_func_exit_;
}
void _rtw_write_mem(struct adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
void _rtw_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
{
void (*_write_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
_func_enter_;
_write_mem = pintfhdl->io_ops._write_mem;
_write_mem(pintfhdl, addr, cnt, pmem);
_func_exit_;
}
void _rtw_read_port(struct adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
void _rtw_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
{
u32 (*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
_func_enter_;
if (adapter->bDriverStopped || adapter->bSurpriseRemoved) {
RT_TRACE(_module_rtl871x_io_c_, _drv_info_,
("rtw_read_port:bDriverStopped(%d) OR bSurpriseRemoved(%d)",
adapter->bDriverStopped, adapter->bSurpriseRemoved));
if( (adapter->bDriverStopped ==_TRUE) || (adapter->bSurpriseRemoved == _TRUE))
{
RT_TRACE(_module_rtl871x_io_c_, _drv_info_, ("rtw_read_port:bDriverStopped(%d) OR bSurpriseRemoved(%d)", adapter->bDriverStopped, adapter->bSurpriseRemoved));
return;
}
@ -243,10 +301,11 @@ void _rtw_read_port(struct adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
_read_port(pintfhdl, addr, cnt, pmem);
_func_exit_;
}
void _rtw_read_port_cancel(struct adapter *adapter)
void _rtw_read_port_cancel(_adapter *adapter)
{
void (*_read_port_cancel)(struct intf_hdl *pintfhdl);
struct io_priv *pio_priv = &adapter->iopriv;
@ -254,29 +313,31 @@ void _rtw_read_port_cancel(struct adapter *adapter)
_read_port_cancel = pintfhdl->io_ops._read_port_cancel;
if (_read_port_cancel)
if(_read_port_cancel)
_read_port_cancel(pintfhdl);
}
u32 _rtw_write_port(struct adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
u32 _rtw_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
{
u32 (*_write_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
//struct io_queue *pio_queue = (struct io_queue *)adapter->pio_queue;
struct io_priv *pio_priv = &adapter->iopriv;
struct intf_hdl *pintfhdl = &(pio_priv->intf);
u32 ret = _SUCCESS;
_func_enter_;
_write_port = pintfhdl->io_ops._write_port;
ret = _write_port(pintfhdl, addr, cnt, pmem);
_func_exit_;
return ret;
}
u32 _rtw_write_port_and_wait(struct adapter *adapter, u32 addr, u32 cnt, u8 *pmem, int timeout_ms)
u32 _rtw_write_port_and_wait(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem, int timeout_ms)
{
int ret = _SUCCESS;
struct xmit_buf *pxmitbuf = (struct xmit_buf *)pmem;
@ -293,7 +354,7 @@ u32 _rtw_write_port_and_wait(struct adapter *adapter, u32 addr, u32 cnt, u8 *pme
return ret;
}
void _rtw_write_port_cancel(struct adapter *adapter)
void _rtw_write_port_cancel(_adapter *adapter)
{
void (*_write_port_cancel)(struct intf_hdl *pintfhdl);
struct io_priv *pio_priv = &adapter->iopriv;
@ -301,11 +362,12 @@ void _rtw_write_port_cancel(struct adapter *adapter)
_write_port_cancel = pintfhdl->io_ops._write_port_cancel;
if (_write_port_cancel)
if(_write_port_cancel)
_write_port_cancel(pintfhdl);
}
int rtw_init_io_priv(struct adapter *padapter, void (*set_intf_ops)(struct _io_ops *pops))
int rtw_init_io_priv(_adapter *padapter, void (*set_intf_ops)(struct _io_ops *pops))
{
struct io_priv *piopriv = &padapter->iopriv;
struct intf_hdl *pintf = &piopriv->intf;
@ -321,3 +383,127 @@ int rtw_init_io_priv(struct adapter *padapter, void (*set_intf_ops)(struct _io_o
return _SUCCESS;
}
/*
* Increase and check if the continual_io_error of this @param dvobjprive is larger than MAX_CONTINUAL_IO_ERR
* @return _TRUE:
* @return _FALSE:
*/
int rtw_inc_and_chk_continual_io_error(struct dvobj_priv *dvobj)
{
int ret = _FALSE;
int value;
if( (value=ATOMIC_INC_RETURN(&dvobj->continual_io_error)) > MAX_CONTINUAL_IO_ERR) {
DBG_871X("[dvobj:%p][ERROR] continual_io_error:%d > %d\n", dvobj, value, MAX_CONTINUAL_IO_ERR);
ret = _TRUE;
} else {
//DBG_871X("[dvobj:%p] continual_io_error:%d\n", dvobj, value);
}
return ret;
}
/*
* Set the continual_io_error of this @param dvobjprive to 0
*/
void rtw_reset_continual_io_error(struct dvobj_priv *dvobj)
{
ATOMIC_SET(&dvobj->continual_io_error, 0);
}
#ifdef DBG_IO
u16 read_sniff_ranges[][2] = {
//{0x550, 0x551},
};
u16 write_sniff_ranges[][2] = {
//{0x550, 0x551},
//{0x4c, 0x4c},
};
int read_sniff_num = sizeof(read_sniff_ranges)/sizeof(u16)/2;
int write_sniff_num = sizeof(write_sniff_ranges)/sizeof(u16)/2;
bool match_read_sniff_ranges(u16 addr, u16 len)
{
int i;
for (i = 0; i<read_sniff_num; i++) {
if (addr + len > read_sniff_ranges[i][0] && addr <= read_sniff_ranges[i][1])
return _TRUE;
}
return _FALSE;
}
bool match_write_sniff_ranges(u16 addr, u16 len)
{
int i;
for (i = 0; i<write_sniff_num; i++) {
if (addr + len > write_sniff_ranges[i][0] && addr <= write_sniff_ranges[i][1])
return _TRUE;
}
return _FALSE;
}
u8 dbg_rtw_read8(_adapter *adapter, u32 addr, const char *caller, const int line)
{
u8 val = _rtw_read8(adapter, addr);
if (match_read_sniff_ranges(addr, 1))
DBG_871X("DBG_IO %s:%d rtw_read8(0x%04x) return 0x%02x\n", caller, line, addr, val);
return val;
}
u16 dbg_rtw_read16(_adapter *adapter, u32 addr, const char *caller, const int line)
{
u16 val = _rtw_read16(adapter, addr);
if (match_read_sniff_ranges(addr, 2))
DBG_871X("DBG_IO %s:%d rtw_read16(0x%04x) return 0x%04x\n", caller, line, addr, val);
return val;
}
u32 dbg_rtw_read32(_adapter *adapter, u32 addr, const char *caller, const int line)
{
u32 val = _rtw_read32(adapter, addr);
if (match_read_sniff_ranges(addr, 4))
DBG_871X("DBG_IO %s:%d rtw_read32(0x%04x) return 0x%08x\n", caller, line, addr, val);
return val;
}
int dbg_rtw_write8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line)
{
if (match_write_sniff_ranges(addr, 1))
DBG_871X("DBG_IO %s:%d rtw_write8(0x%04x, 0x%02x)\n", caller, line, addr, val);
return _rtw_write8(adapter, addr, val);
}
int dbg_rtw_write16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line)
{
if (match_write_sniff_ranges(addr, 2))
DBG_871X("DBG_IO %s:%d rtw_write16(0x%04x, 0x%04x)\n", caller, line, addr, val);
return _rtw_write16(adapter, addr, val);
}
int dbg_rtw_write32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line)
{
if (match_write_sniff_ranges(addr, 4))
DBG_871X("DBG_IO %s:%d rtw_write32(0x%04x, 0x%08x)\n", caller, line, addr, val);
return _rtw_write32(adapter, addr, val);
}
int dbg_rtw_writeN(_adapter *adapter, u32 addr ,u32 length , u8 *data, const char *caller, const int line)
{
if (match_write_sniff_ranges(addr, length))
DBG_871X("DBG_IO %s:%d rtw_writeN(0x%04x, %u)\n", caller, line, addr, length);
return _rtw_writeN(adapter, addr, length, data);
}
#endif

196
core/rtw_ioctl_query.c Executable file
View file

@ -0,0 +1,196 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#define _RTW_IOCTL_QUERY_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtw_ioctl_query.h>
#include <wifi.h>
#ifdef PLATFORM_WINDOWS
//
// Added for WPA2-PSK, by Annie, 2005-09-20.
//
u8
query_802_11_capability(
_adapter* Adapter,
u8* pucBuf,
u32 * pulOutLen
)
{
static NDIS_802_11_AUTHENTICATION_ENCRYPTION szAuthEnc[] =
{
{Ndis802_11AuthModeOpen, Ndis802_11EncryptionDisabled},
{Ndis802_11AuthModeOpen, Ndis802_11Encryption1Enabled},
{Ndis802_11AuthModeShared, Ndis802_11EncryptionDisabled},
{Ndis802_11AuthModeShared, Ndis802_11Encryption1Enabled},
{Ndis802_11AuthModeWPA, Ndis802_11Encryption2Enabled},
{Ndis802_11AuthModeWPA, Ndis802_11Encryption3Enabled},
{Ndis802_11AuthModeWPAPSK, Ndis802_11Encryption2Enabled},
{Ndis802_11AuthModeWPAPSK, Ndis802_11Encryption3Enabled},
{Ndis802_11AuthModeWPANone, Ndis802_11Encryption2Enabled},
{Ndis802_11AuthModeWPANone, Ndis802_11Encryption3Enabled},
{Ndis802_11AuthModeWPA2, Ndis802_11Encryption2Enabled},
{Ndis802_11AuthModeWPA2, Ndis802_11Encryption3Enabled},
{Ndis802_11AuthModeWPA2PSK, Ndis802_11Encryption2Enabled},
{Ndis802_11AuthModeWPA2PSK, Ndis802_11Encryption3Enabled}
};
static ULONG ulNumOfPairSupported = sizeof(szAuthEnc)/sizeof(NDIS_802_11_AUTHENTICATION_ENCRYPTION);
NDIS_802_11_CAPABILITY * pCap = (NDIS_802_11_CAPABILITY *)pucBuf;
u8* pucAuthEncryptionSupported = (u8*) pCap->AuthenticationEncryptionSupported;
pCap->Length = sizeof(NDIS_802_11_CAPABILITY);
if(ulNumOfPairSupported > 1 )
pCap->Length += (ulNumOfPairSupported-1) * sizeof(NDIS_802_11_AUTHENTICATION_ENCRYPTION);
pCap->Version = 2;
pCap->NoOfPMKIDs = NUM_PMKID_CACHE;
pCap->NoOfAuthEncryptPairsSupported = ulNumOfPairSupported;
if( sizeof (szAuthEnc) <= 240 ) // 240 = 256 - 4*4 // SecurityInfo.szCapability: only 256 bytes in size.
{
_rtw_memcpy( pucAuthEncryptionSupported, (u8*)szAuthEnc, sizeof (szAuthEnc) );
*pulOutLen = pCap->Length;
return _TRUE;
}
else
{
*pulOutLen = 0;
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("_query_802_11_capability(): szAuthEnc size is too large.\n"));
return _FALSE;
}
}
u8 query_802_11_association_information( _adapter *padapter,PNDIS_802_11_ASSOCIATION_INFORMATION pAssocInfo)
{
struct wlan_network *tgt_network;
struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
struct security_priv *psecuritypriv=&(padapter->securitypriv);
WLAN_BSSID_EX *psecnetwork=(WLAN_BSSID_EX*)&(psecuritypriv->sec_bss);
u8 * pDest = (u8 *)pAssocInfo + sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
unsigned char i,*auth_ie,*supp_ie;
//NdisZeroMemory(pAssocInfo, sizeof(NDIS_802_11_ASSOCIATION_INFORMATION));
_rtw_memset(pAssocInfo, 0, sizeof(NDIS_802_11_ASSOCIATION_INFORMATION));
//pAssocInfo->Length = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
//------------------------------------------------------
// Association Request related information
//------------------------------------------------------
// Req_1. AvailableRequestFixedIEs
if(psecnetwork!=NULL){
pAssocInfo->AvailableRequestFixedIEs |= NDIS_802_11_AI_REQFI_CAPABILITIES|NDIS_802_11_AI_REQFI_CURRENTAPADDRESS;
pAssocInfo->RequestFixedIEs.Capabilities = (unsigned short)* & psecnetwork->IEs[10];
_rtw_memcpy(pAssocInfo->RequestFixedIEs.CurrentAPAddress,
& psecnetwork->MacAddress, 6);
pAssocInfo->OffsetRequestIEs = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
if(check_fwstate( pmlmepriv, _FW_UNDER_LINKING|_FW_LINKED)==_TRUE)
{
if(psecuritypriv->ndisauthtype>=Ndis802_11AuthModeWPA2)
pDest[0] =48; //RSN Information Element
else
pDest[0] =221; //WPA(SSN) Information Element
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("\n Adapter->ndisauthtype==Ndis802_11AuthModeWPA)?0xdd:0x30 [%d]",pDest[0]));
supp_ie=&psecuritypriv->supplicant_ie[0];
for(i=0;i<supp_ie[0];i++)
{
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("IEs [%d] = 0x%x \n\n", i,supp_ie[i]));
}
i=13; //0~11 is fixed information element
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("i= %d tgt_network->network.IELength=%d\n\n", i,(int)psecnetwork->IELength));
while((i<supp_ie[0]) && (i<256)){
if((unsigned char)supp_ie[i]==pDest[0]){
_rtw_memcpy((u8 *)(pDest),
&supp_ie[i],
supp_ie[1+i]+2);
break;
}
i=i+supp_ie[i+1]+2;
if(supp_ie[1+i]==0)
i=i+1;
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("iteration i=%d IEs [%d] = 0x%x \n\n", i,i,supp_ie[i+1]));
}
pAssocInfo->RequestIELength += (2 + supp_ie[1+i]);// (2 + psecnetwork->IEs[1+i]+4);
}
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("\n psecnetwork != NULL,fwstate==_FW_UNDER_LINKING \n"));
}
//------------------------------------------------------
// Association Response related information
//------------------------------------------------------
if(check_fwstate( pmlmepriv, _FW_LINKED)==_TRUE)
{
tgt_network =&(pmlmepriv->cur_network);
if(tgt_network!=NULL){
pAssocInfo->AvailableResponseFixedIEs =
NDIS_802_11_AI_RESFI_CAPABILITIES
|NDIS_802_11_AI_RESFI_ASSOCIATIONID
;
pAssocInfo->ResponseFixedIEs.Capabilities =(unsigned short)* & tgt_network->network.IEs[10];
pAssocInfo->ResponseFixedIEs.StatusCode = 0;
pAssocInfo->ResponseFixedIEs.AssociationId =(unsigned short) tgt_network->aid;
pDest = (u8 *)pAssocInfo + sizeof(NDIS_802_11_ASSOCIATION_INFORMATION)+pAssocInfo->RequestIELength;
auth_ie=&psecuritypriv->authenticator_ie[0];
for(i=0;i<auth_ie[0];i++)
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("IEs [%d] = 0x%x \n\n", i,auth_ie[i]));
i=auth_ie[0]-12;
if(i>0){
_rtw_memcpy((u8 *)&pDest[0],&auth_ie[1],i);
pAssocInfo->ResponseIELength =i;
}
pAssocInfo->OffsetResponseIEs = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION) + pAssocInfo->RequestIELength;
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("\n tgt_network != NULL,fwstate==_FW_LINKED \n"));
}
}
RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("\n exit query_802_11_association_information \n"));
_func_exit_;
return _TRUE;
}
#endif

1032
core/rtw_ioctl_rtl.c Executable file

File diff suppressed because it is too large Load diff

1484
core/rtw_ioctl_set.c Normal file → Executable file

File diff suppressed because it is too large Load diff

322
core/rtw_iol.c Normal file → Executable file
View file

@ -20,24 +20,26 @@
#include<rtw_iol.h>
struct xmit_frame *rtw_IOL_accquire_xmit_frame(struct adapter *adapter)
#ifdef CONFIG_IOL
struct xmit_frame *rtw_IOL_accquire_xmit_frame(ADAPTER *adapter)
{
struct xmit_frame *xmit_frame;
struct xmit_buf *xmitbuf;
struct pkt_attrib *pattrib;
struct xmit_priv *pxmitpriv = &(adapter->xmitpriv);
xmit_frame = rtw_alloc_xmitframe(pxmitpriv);
if (xmit_frame == NULL) {
DBG_88E("%s rtw_alloc_xmitframe return null\n", __func__);
#if 1
if ((xmit_frame = rtw_alloc_xmitframe(pxmitpriv)) == NULL)
{
DBG_871X("%s rtw_alloc_xmitframe return null\n", __FUNCTION__);
goto exit;
}
xmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
if (xmitbuf == NULL) {
DBG_88E("%s rtw_alloc_xmitbuf return null\n", __func__);
if ((xmitbuf = rtw_alloc_xmitbuf(pxmitpriv)) == NULL)
{
DBG_871X("%s rtw_alloc_xmitbuf return null\n", __FUNCTION__);
rtw_free_xmitframe(pxmitpriv, xmit_frame);
xmit_frame = NULL;
xmit_frame=NULL;
goto exit;
}
@ -48,14 +50,28 @@ struct xmit_frame *rtw_IOL_accquire_xmit_frame(struct adapter *adapter)
pattrib = &xmit_frame->attrib;
update_mgntframe_attrib(adapter, pattrib);
pattrib->qsel = 0x10;/* Beacon */
pattrib->qsel = 0x10;//Beacon
pattrib->subtype = WIFI_BEACON;
pattrib->pktlen = 0;
pattrib->last_txcmdsz = 0;
pattrib->pktlen = pattrib->last_txcmdsz = 0;
#else
if ((xmit_frame = alloc_mgtxmitframe(pxmitpriv)) == NULL)
{
DBG_871X("%s alloc_mgtxmitframe return null\n", __FUNCTION__);
}
else {
pattrib = &xmit_frame->attrib;
update_mgntframe_attrib(adapter, pattrib);
pattrib->qsel = 0x10;
pattrib->pktlen = pattrib->last_txcmdsz = 0;
}
#endif
exit:
return xmit_frame;
}
int rtw_IOL_append_cmds(struct xmit_frame *xmit_frame, u8 *IOL_cmds, u32 cmd_len)
{
struct pkt_attrib *pattrib = &xmit_frame->attrib;
@ -65,145 +81,323 @@ int rtw_IOL_append_cmds(struct xmit_frame *xmit_frame, u8 *IOL_cmds, u32 cmd_len
buf_offset = TXDESC_OFFSET;
ori_len = buf_offset+pattrib->pktlen;
/* check if the io_buf can accommodate new cmds */
if (ori_len + cmd_len + 8 > MAX_XMITBUF_SZ) {
DBG_88E("%s %u is large than MAX_XMITBUF_SZ:%u, can't accommodate new cmds\n",
__func__ , ori_len + cmd_len + 8, MAX_XMITBUF_SZ);
//check if the io_buf can accommodate new cmds
if(ori_len + cmd_len + 8 > MAX_XMITBUF_SZ) {
DBG_871X("%s %u is large than MAX_XMITBUF_SZ:%u, can't accommodate new cmds\n", __FUNCTION__
, ori_len + cmd_len + 8, MAX_XMITBUF_SZ);
return _FAIL;
}
memcpy(xmit_frame->buf_addr + buf_offset + pattrib->pktlen, IOL_cmds, cmd_len);
_rtw_memcpy(xmit_frame->buf_addr + buf_offset + pattrib->pktlen, IOL_cmds, cmd_len);
pattrib->pktlen += cmd_len;
pattrib->last_txcmdsz += cmd_len;
//DBG_871X("%s ori:%u + cmd_len:%u = %u\n", __FUNCTION__, ori_len, cmd_len, buf_offset+pattrib->pktlen);
return _SUCCESS;
}
bool rtw_IOL_applied(struct adapter *adapter)
bool rtw_IOL_applied(ADAPTER *adapter)
{
if (1 == adapter->registrypriv.fw_iol)
return true;
if(1 == adapter->registrypriv.fw_iol)
return _TRUE;
if ((2 == adapter->registrypriv.fw_iol) && (!adapter_to_dvobj(adapter)->ishighspeed))
return true;
return false;
}
int rtw_IOL_exec_cmds_sync(struct adapter *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt)
{
return rtw_hal_iol_cmd(adapter, xmit_frame, max_wating_ms, bndy_cnt);
#ifdef CONFIG_USB_HCI
if((2 == adapter->registrypriv.fw_iol) && (!adapter_to_dvobj(adapter)->ishighspeed))
return _TRUE;
#endif
return _FALSE;
}
/*
bool rtw_IOL_applied(ADAPTER *adapter)
{
if(adapter->registrypriv.fw_iol)
return _TRUE;
#ifdef CONFIG_USB_HCI
if(!adapter_to_dvobj(adapter)->ishighspeed)
return _TRUE;
#endif
return _FALSE;
}
*/
int rtw_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt)
{
return rtw_hal_iol_cmd(adapter, xmit_frame, max_wating_ms,bndy_cnt);
}
#ifdef CONFIG_IOL_NEW_GENERATION
int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary)
{
return _SUCCESS;
}
int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, u8 mask)
{
struct ioreg_cfg cmd = {8, IOREG_CMD_WB_REG, 0x0, 0x0, 0x0};
struct ioreg_cfg cmd = {8,IOREG_CMD_WB_REG,0x0, 0x0,0x0};
//RTW_PUT_LE16((u8*)&cmd.address, addr);
//RTW_PUT_LE32((u8*)&cmd.value, (u32)value);
cmd.address = cpu_to_le16(addr);
cmd.data = cpu_to_le32(value);
if (mask != 0xFF) {
if(mask!=0xFF)
{
cmd.length = 12;
//RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);
cmd.mask = cpu_to_le32(mask);
}
return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
}
//DBG_871X("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FUNCTION__, addr,value,mask);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, cmd.length);
}
int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, u16 mask)
{
struct ioreg_cfg cmd = {8, IOREG_CMD_WW_REG, 0x0, 0x0, 0x0};
struct ioreg_cfg cmd = {8,IOREG_CMD_WW_REG,0x0, 0x0,0x0};
//RTW_PUT_LE16((u8*)&cmd.address, addr);
//RTW_PUT_LE32((u8*)&cmd.value, (u32)value);
cmd.address = cpu_to_le16(addr);
cmd.data = cpu_to_le32(value);
if (mask != 0xFFFF) {
if(mask!=0xFFFF)
{
cmd.length = 12;
//RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);
cmd.mask = cpu_to_le32(mask);
}
return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
}
//DBG_871X("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FUNCTION__, addr,value,mask);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, cmd.length);
}
int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, u32 mask)
{
struct ioreg_cfg cmd = {8, IOREG_CMD_WD_REG, 0x0, 0x0, 0x0};
struct ioreg_cfg cmd = {8,IOREG_CMD_WD_REG,0x0, 0x0,0x0};
//RTW_PUT_LE16((u8*)&cmd.address, addr);
//RTW_PUT_LE32((u8*)&cmd.value, (u32)value);
cmd.address = cpu_to_le16(addr);
cmd.data = cpu_to_le32(value);
if (mask != 0xFFFFFFFF) {
if(mask!=0xFFFFFFFF)
{
cmd.length = 12;
//RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);
cmd.mask = cpu_to_le32(mask);
}
return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
//DBG_871X("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FU2NCTION__, addr,value,mask);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, cmd.length);
}
int _rtw_IOL_append_WRF_cmd(struct xmit_frame *xmit_frame, u8 rf_path, u16 addr, u32 value, u32 mask)
{
struct ioreg_cfg cmd = {8, IOREG_CMD_W_RF, 0x0, 0x0, 0x0};
struct ioreg_cfg cmd = {8,IOREG_CMD_W_RF,0x0, 0x0,0x0};
cmd.address = cpu_to_le16((rf_path<<8) | ((addr) & 0xFF));
//RTW_PUT_LE16((u8*)&cmd.address, addr);
//RTW_PUT_LE32((u8*)&cmd.value, (u32)value);
cmd.address = (rf_path<<8) |((addr) &0xFF);
cmd.data = cpu_to_le32(value);
if (mask != 0x000FFFFF) {
if(mask!=0x000FFFFF)
{
cmd.length = 12;
//RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);
cmd.mask = cpu_to_le32(mask);
}
return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
//DBG_871X("%s rf_path:0x%02x addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FU2NCTION__,rf_path, addr,value,mask);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, cmd.length);
}
int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us)
{
struct ioreg_cfg cmd = {4, IOREG_CMD_DELAY_US, 0x0, 0x0, 0x0};
struct ioreg_cfg cmd = {4,IOREG_CMD_DELAY_US,0x0, 0x0,0x0};
//RTW_PUT_LE16((u8*)&cmd.address, us);
cmd.address = cpu_to_le16(us);
return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
//DBG_871X("%s %u\n", __FUNCTION__, us);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 4);
}
int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms)
{
struct ioreg_cfg cmd = {4, IOREG_CMD_DELAY_US, 0x0, 0x0, 0x0};
struct ioreg_cfg cmd = {4,IOREG_CMD_DELAY_US,0x0, 0x0,0x0};
//RTW_PUT_LE16((u8*)&cmd.address, ms);
cmd.address = cpu_to_le16(ms);
return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
}
//DBG_871X("%s %u\n", __FUNCTION__, ms);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 4);
}
int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame)
{
struct ioreg_cfg cmd = {4, IOREG_CMD_END, cpu_to_le16(0xFFFF), cpu_to_le32(0xFF), 0x0};
struct ioreg_cfg cmd = {4,IOREG_CMD_END,0xFFFF, 0xFF,0x0};
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 4);
return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
}
u8 rtw_IOL_cmd_boundary_handle(struct xmit_frame *pxmit_frame)
{
u8 is_cmd_bndy = false;
if (((pxmit_frame->attrib.pktlen+32)%256) + 8 >= 256) {
u8 is_cmd_bndy = _FALSE;
if(((pxmit_frame->attrib.pktlen+32)%256) + 8 >= 256){
rtw_IOL_append_END_cmd(pxmit_frame);
pxmit_frame->attrib.pktlen = ((((pxmit_frame->attrib.pktlen+32)/256)+1)*256);
pxmit_frame->attrib.pktlen = ((((pxmit_frame->attrib.pktlen+32)/256)+1)*256 );
//printk("==> %s, pktlen(%d)\n",__FUNCTION__,pxmit_frame->attrib.pktlen);
pxmit_frame->attrib.last_txcmdsz = pxmit_frame->attrib.pktlen;
is_cmd_bndy = true;
is_cmd_bndy = _TRUE;
}
return is_cmd_bndy;
}
void rtw_IOL_cmd_buf_dump(struct adapter *Adapter, int buf_len, u8 *pbuf)
void rtw_IOL_cmd_buf_dump(ADAPTER *Adapter,int buf_len,u8 *pbuf)
{
int i;
int j = 1;
int j=1;
pr_info("###### %s ######\n", __func__);
for (i = 0; i < buf_len; i++) {
printk("%02x-", *(pbuf+i));
printk("###### %s ######\n",__FUNCTION__);
for(i=0;i< buf_len;i++){
printk("%02x-",*(pbuf+i));
if (j%32 == 0)
printk("\n");
j++;
if(j%32 ==0) printk("\n");j++;
}
printk("\n");
pr_info("=============ioreg_cmd len=%d===============\n", buf_len);
printk("============= ioreg_cmd len = %d =============== \n",buf_len);
}
#else //CONFIG_IOL_NEW_GENERATION
int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary)
{
IOL_CMD cmd = {0x0, IOL_CMD_LLT, 0x0, 0x0};
RTW_PUT_BE32((u8*)&cmd.value, (u32)page_boundary);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
}
int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value)
{
IOL_CMD cmd = {0x0, IOL_CMD_WB_REG, 0x0, 0x0};
RTW_PUT_BE16((u8*)&cmd.address, (u16)addr);
RTW_PUT_BE32((u8*)&cmd.value, (u32)value);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
}
int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value)
{
IOL_CMD cmd = {0x0, IOL_CMD_WW_REG, 0x0, 0x0};
RTW_PUT_BE16((u8*)&cmd.address, (u16)addr);
RTW_PUT_BE32((u8*)&cmd.value, (u32)value);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
}
int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value)
{
IOL_CMD cmd = {0x0, IOL_CMD_WD_REG, 0x0, 0x0};
u8* pos = (u8 *)&cmd;
RTW_PUT_BE16((u8*)&cmd.address, (u16)addr);
RTW_PUT_BE32((u8*)&cmd.value, (u32)value);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
}
#ifdef DBG_IO
int dbg_rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, const char *caller, const int line)
{
if (match_write_sniff_ranges(addr, 1))
DBG_871X("DBG_IO %s:%d IOL_WB(0x%04x, 0x%02x)\n", caller, line, addr, value);
return _rtw_IOL_append_WB_cmd(xmit_frame, addr, value);
}
int dbg_rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, const char *caller, const int line)
{
if (match_write_sniff_ranges(addr, 2))
DBG_871X("DBG_IO %s:%d IOL_WW(0x%04x, 0x%04x)\n", caller, line, addr, value);
return _rtw_IOL_append_WW_cmd(xmit_frame, addr, value);
}
int dbg_rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, const char *caller, const int line)
{
if (match_write_sniff_ranges(addr, 4))
DBG_871X("DBG_IO %s:%d IOL_WD(0x%04x, 0x%08x)\n", caller, line, addr, value);
return _rtw_IOL_append_WD_cmd(xmit_frame, addr, value);
}
#endif
int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us)
{
IOL_CMD cmd = {0x0, IOL_CMD_DELAY_US, 0x0, 0x0};
RTW_PUT_BE32((u8*)&cmd.value, (u32)us);
//DBG_871X("%s %u\n", __FUNCTION__, us);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
}
int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms)
{
IOL_CMD cmd = {0x0, IOL_CMD_DELAY_MS, 0x0, 0x0};
RTW_PUT_BE32((u8*)&cmd.value, (u32)ms);
//DBG_871X("%s %u\n", __FUNCTION__, ms);
return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
}
int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame)
{
IOL_CMD end_cmd = {0x0, IOL_CMD_END, 0x0, 0x0};
return rtw_IOL_append_cmds(xmit_frame, (u8*)&end_cmd, 8);
}
int rtw_IOL_exec_cmd_array_sync(PADAPTER adapter, u8 *IOL_cmds, u32 cmd_num, u32 max_wating_ms)
{
struct xmit_frame *xmit_frame;
if((xmit_frame=rtw_IOL_accquire_xmit_frame(adapter)) == NULL)
return _FAIL;
if(rtw_IOL_append_cmds(xmit_frame, IOL_cmds, cmd_num<<3) == _FAIL)
return _FAIL;
return rtw_IOL_exec_cmds_sync(adapter, xmit_frame, max_wating_ms,0);
}
int rtw_IOL_exec_empty_cmds_sync(ADAPTER *adapter, u32 max_wating_ms)
{
IOL_CMD end_cmd = {0x0, IOL_CMD_END, 0x0, 0x0};
return rtw_IOL_exec_cmd_array_sync(adapter, (u8*)&end_cmd, 1, max_wating_ms);
}
#endif //CONFIG_IOL_NEW_GENERATION
#endif //CONFIG_IOL

1985
core/rtw_led.c Normal file → Executable file

File diff suppressed because it is too large Load diff

3733
core/rtw_mlme.c Normal file → Executable file

File diff suppressed because it is too large Load diff

11552
core/rtw_mlme_ext.c Normal file → Executable file

File diff suppressed because it is too large Load diff

1123
core/rtw_mp.c Normal file → Executable file

File diff suppressed because it is too large Load diff

2478
core/rtw_mp_ioctl.c Normal file → Executable file

File diff suppressed because it is too large Load diff

217
core/rtw_odm.c Executable file
View file

@ -0,0 +1,217 @@
/******************************************************************************
*
* Copyright(c) 2013 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#include <rtw_odm.h>
#ifdef CONFIG_RTL8192C
#include <rtl8192c_hal.h>
#endif
#ifdef CONFIG_RTL8192D
#include <rtl8192d_hal.h>
#endif
#ifdef CONFIG_RTL8723A
#include <rtl8723a_hal.h>
#endif
#ifdef CONFIG_RTL8188E
#include <rtl8188e_hal.h>
#endif
const char *odm_comp_str[] = {
"ODM_COMP_DIG",
"ODM_COMP_RA_MASK",
"ODM_COMP_DYNAMIC_TXPWR",
"ODM_COMP_FA_CNT",
"ODM_COMP_RSSI_MONITOR",
"ODM_COMP_CCK_PD",
"ODM_COMP_ANT_DIV",
"ODM_COMP_PWR_SAVE",
"ODM_COMP_PWR_TRAIN",
"ODM_COMP_RATE_ADAPTIVE",
"ODM_COMP_PATH_DIV",
"ODM_COMP_PSD",
"ODM_COMP_DYNAMIC_PRICCA",
"ODM_COMP_RXHP",
NULL,
NULL,
"ODM_COMP_EDCA_TURBO",
"ODM_COMP_EARLY_MODE",
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
"ODM_COMP_TX_PWR_TRACK",
"ODM_COMP_RX_GAIN_TRACK",
"ODM_COMP_CALIBRATION",
NULL,
NULL,
NULL,
"ODM_COMP_COMMON",
"ODM_COMP_INIT",
};
#define RTW_ODM_COMP_MAX 32
const char *odm_ability_str[] = {
"ODM_BB_DIG",
"ODM_BB_RA_MASK",
"ODM_BB_DYNAMIC_TXPWR",
"ODM_BB_FA_CNT",
"ODM_BB_RSSI_MONITOR",
"ODM_BB_CCK_PD ",
"ODM_BB_ANT_DIV",
"ODM_BB_PWR_SAVE",
"ODM_BB_PWR_TRAIN",
"ODM_BB_RATE_ADAPTIVE",
"ODM_BB_PATH_DIV",
"ODM_BB_PSD",
"ODM_BB_RXHP",
"ODM_BB_ADAPTIVITY",
"ODM_BB_DYNAMIC_ATC",
NULL,
"ODM_MAC_EDCA_TURBO",
"ODM_MAC_EARLY_MODE",
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
"ODM_RF_TX_PWR_TRACK",
"ODM_RF_RX_GAIN_TRACK",
"ODM_RF_CALIBRATION",
};
#define RTW_ODM_ABILITY_MAX 27
const char *odm_dbg_level_str[] = {
NULL,
"ODM_DBG_OFF",
"ODM_DBG_SERIOUS",
"ODM_DBG_WARNING",
"ODM_DBG_LOUD",
"ODM_DBG_TRACE ",
};
#define RTW_ODM_DBG_LEVEL_NUM 6
int _rtw_odm_dbg_comp_msg(_adapter *adapter, char *buf, int len)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
DM_ODM_T *odm = &pHalData->odmpriv;
int cnt = 0;
u64 dbg_comp;
int i;
rtw_hal_get_def_var(adapter, HW_DEF_ODM_DBG_FLAG, &dbg_comp);
cnt += snprintf(buf+cnt, len-cnt, "odm.DebugComponents = 0x%016llx \n", dbg_comp);
for (i=0;i<RTW_ODM_COMP_MAX;i++) {
if (odm_comp_str[i])
cnt += snprintf(buf+cnt, len-cnt, "%cBIT%-2d %s\n",
(BIT0 << i) & dbg_comp ? '+' : ' ', i, odm_comp_str[i]);
}
return cnt;
}
void rtw_odm_dbg_comp_msg(_adapter *adapter)
{
char buf[768] = {0};
_rtw_odm_dbg_comp_msg(adapter, buf, 768);
DBG_871X_LEVEL(_drv_always_, "\n%s", buf);
}
inline void rtw_odm_dbg_comp_set(_adapter *adapter, u64 comps)
{
rtw_hal_set_def_var(adapter, HW_DEF_ODM_DBG_FLAG, &comps);
}
int _rtw_odm_dbg_level_msg(_adapter *adapter, char *buf, int len)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
DM_ODM_T *odm = &pHalData->odmpriv;
int cnt = 0;
u32 dbg_level;
int i;
rtw_hal_get_def_var(adapter, HW_DEF_ODM_DBG_LEVEL, &dbg_level);
cnt += snprintf(buf+cnt, len-cnt, "odm.DebugDebugLevel = %u\n", dbg_level);
for (i=0;i<RTW_ODM_DBG_LEVEL_NUM;i++) {
if (odm_dbg_level_str[i])
cnt += snprintf(buf+cnt, len-cnt, "%u %s\n", i, odm_dbg_level_str[i]);
}
return cnt;
}
void rtw_odm_dbg_level_msg(_adapter *adapter)
{
char buf[100] = {0};
_rtw_odm_dbg_comp_msg(adapter, buf, 100);
DBG_871X_LEVEL(_drv_always_, "\n%s", buf);
}
inline void rtw_odm_dbg_level_set(_adapter *adapter, u32 level)
{
rtw_hal_set_def_var(adapter, HW_DEF_ODM_DBG_LEVEL, &level);
}
int _rtw_odm_adaptivity_parm_msg(_adapter *adapter, char *buf, int len)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
DM_ODM_T *odm = &pHalData->odmpriv;
return snprintf(buf, len,
"%10s %16s %8s %10s %11s %14s\n"
"0x%-8x %-16d 0x%-6x %-10d %-11u %-14u\n",
"TH_L2H_ini", "TH_EDCCA_HL_diff", "IGI_Base", "ForceEDCCA", "AdapEn_RSSI", "IGI_LowerBound",
(u8)odm->TH_L2H_ini,
odm->TH_EDCCA_HL_diff,
odm->IGI_Base,
odm->ForceEDCCA,
odm->AdapEn_RSSI,
odm->IGI_LowerBound
);
}
void rtw_odm_adaptivity_parm_msg(_adapter *adapter)
{
char buf[256] = {0};
_rtw_odm_dbg_comp_msg(adapter, buf, 256);
DBG_871X_LEVEL(_drv_always_, "\n%s", buf);
}
void rtw_odm_adaptivity_parm_set(_adapter *adapter, s8 TH_L2H_ini, s8 TH_EDCCA_HL_diff,
s8 IGI_Base, bool ForceEDCCA, u8 AdapEn_RSSI, u8 IGI_LowerBound)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
DM_ODM_T *odm = &pHalData->odmpriv;
odm->TH_L2H_ini = TH_L2H_ini;
odm->TH_EDCCA_HL_diff = TH_EDCCA_HL_diff;
odm->IGI_Base = IGI_Base;
odm->ForceEDCCA = ForceEDCCA;
odm->AdapEn_RSSI = AdapEn_RSSI;
odm->IGI_LowerBound = IGI_LowerBound;
}

4935
core/rtw_p2p.c Normal file → Executable file

File diff suppressed because it is too large Load diff

1824
core/rtw_pwrctrl.c Normal file → Executable file

File diff suppressed because it is too large Load diff

3897
core/rtw_recv.c Normal file → Executable file

File diff suppressed because it is too large Load diff

41
core/rtw_rf.c Normal file → Executable file
View file

@ -19,47 +19,51 @@
******************************************************************************/
#define _RTW_RF_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <recv_osdep.h>
#include <xmit_osdep.h>
struct ch_freq {
u32 channel;
u32 frequency;
};
static struct ch_freq ch_freq_map[] = {
{1, 2412}, {2, 2417}, {3, 2422}, {4, 2427}, {5, 2432},
{6, 2437}, {7, 2442}, {8, 2447}, {9, 2452}, {10, 2457},
{11, 2462}, {12, 2467}, {13, 2472}, {14, 2484},
struct ch_freq ch_freq_map[] = {
{1, 2412},{2, 2417},{3, 2422},{4, 2427},{5, 2432},
{6, 2437},{7, 2442},{8, 2447},{9, 2452},{10, 2457},
{11, 2462},{12, 2467},{13, 2472},{14, 2484},
/* UNII */
{36, 5180}, {40, 5200}, {44, 5220}, {48, 5240}, {52, 5260},
{56, 5280}, {60, 5300}, {64, 5320}, {149, 5745}, {153, 5765},
{157, 5785}, {161, 5805}, {165, 5825}, {167, 5835}, {169, 5845},
{171, 5855}, {173, 5865},
{36, 5180},{40, 5200},{44, 5220},{48, 5240},{52, 5260},
{56, 5280},{60, 5300},{64, 5320},{149, 5745},{153, 5765},
{157, 5785},{161, 5805},{165, 5825},{167, 5835},{169, 5845},
{171, 5855},{173, 5865},
/* HiperLAN2 */
{100, 5500}, {104, 5520}, {108, 5540}, {112, 5560}, {116, 5580},
{120, 5600}, {124, 5620}, {128, 5640}, {132, 5660}, {136, 5680},
{100, 5500},{104, 5520},{108, 5540},{112, 5560},{116, 5580},
{120, 5600},{124, 5620},{128, 5640},{132, 5660},{136, 5680},
{140, 5700},
/* Japan MMAC */
{34, 5170}, {38, 5190}, {42, 5210}, {46, 5230},
{34, 5170},{38, 5190},{42, 5210},{46, 5230},
/* Japan */
{184, 4920}, {188, 4940}, {192, 4960}, {196, 4980},
{184, 4920},{188, 4940},{192, 4960},{196, 4980},
{208, 5040},/* Japan, means J08 */
{212, 5060},/* Japan, means J12 */
{216, 5080},/* Japan, means J16 */
};
static int ch_freq_map_num = (sizeof(ch_freq_map) / sizeof(struct ch_freq));
int ch_freq_map_num = (sizeof(ch_freq_map) / sizeof(struct ch_freq));
u32 rtw_ch2freq(u32 channel)
{
u8 i;
u32 freq = 0;
for (i = 0; i < ch_freq_map_num; i++) {
if (channel == ch_freq_map[i].channel) {
for (i = 0; i < ch_freq_map_num; i++)
{
if (channel == ch_freq_map[i].channel)
{
freq = ch_freq_map[i].frequency;
break;
}
@ -75,8 +79,10 @@ u32 rtw_freq2ch(u32 freq)
u8 i;
u32 ch = 0;
for (i = 0; i < ch_freq_map_num; i++) {
if (freq == ch_freq_map[i].frequency) {
for (i = 0; i < ch_freq_map_num; i++)
{
if (freq == ch_freq_map[i].frequency)
{
ch = ch_freq_map[i].channel;
break;
}
@ -86,3 +92,4 @@ u32 rtw_freq2ch(u32 freq)
return ch;
}

2638
core/rtw_security.c Normal file → Executable file

File diff suppressed because it is too large Load diff

329
core/rtw_sreset.c Normal file → Executable file
View file

@ -18,62 +18,339 @@
*
******************************************************************************/
#include <rtw_sreset.h>
#include<rtw_sreset.h>
void sreset_init_value(struct adapter *padapter)
void sreset_init_value(_adapter *padapter)
{
struct hal_data_8188e *pHalData = GET_HAL_DATA(padapter);
#if defined(DBG_CONFIG_ERROR_DETECT)
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
struct sreset_priv *psrtpriv = &pHalData->srestpriv;
_rtw_mutex_init(&psrtpriv->silentreset_mutex);
psrtpriv->silent_reset_inprogress = false;
psrtpriv->silent_reset_inprogress = _FALSE;
psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
psrtpriv->last_tx_time = 0;
psrtpriv->last_tx_complete_time = 0;
psrtpriv->last_tx_time =0;
psrtpriv->last_tx_complete_time =0;
#endif
}
void sreset_reset_value(struct adapter *padapter)
void sreset_reset_value(_adapter *padapter)
{
struct hal_data_8188e *pHalData = GET_HAL_DATA(padapter);
#if defined(DBG_CONFIG_ERROR_DETECT)
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
struct sreset_priv *psrtpriv = &pHalData->srestpriv;
psrtpriv->silent_reset_inprogress = false;
//psrtpriv->silent_reset_inprogress = _FALSE;
psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
psrtpriv->last_tx_time = 0;
psrtpriv->last_tx_complete_time = 0;
psrtpriv->last_tx_time =0;
psrtpriv->last_tx_complete_time =0;
#endif
}
u8 sreset_get_wifi_status(struct adapter *padapter)
u8 sreset_get_wifi_status(_adapter *padapter)
{
struct hal_data_8188e *pHalData = GET_HAL_DATA(padapter);
#if defined(DBG_CONFIG_ERROR_DETECT)
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
struct sreset_priv *psrtpriv = &pHalData->srestpriv;
u8 status = WIFI_STATUS_SUCCESS;
u32 val32 = 0;
if (psrtpriv->silent_reset_inprogress)
_irqL irqL;
if(psrtpriv->silent_reset_inprogress == _TRUE)
{
return status;
val32 = rtw_read32(padapter, REG_TXDMA_STATUS);
if (val32 == 0xeaeaeaea) {
}
val32 =rtw_read32(padapter,REG_TXDMA_STATUS);
if(val32==0xeaeaeaea){
psrtpriv->Wifi_Error_Status = WIFI_IF_NOT_EXIST;
} else if (val32 != 0) {
DBG_88E("txdmastatu(%x)\n", val32);
}
else if(val32!=0){
DBG_8192C("txdmastatu(%x)\n",val32);
psrtpriv->Wifi_Error_Status = WIFI_MAC_TXDMA_ERROR;
}
if (WIFI_STATUS_SUCCESS != psrtpriv->Wifi_Error_Status) {
DBG_88E("==>%s error_status(0x%x)\n", __func__, psrtpriv->Wifi_Error_Status);
status = (psrtpriv->Wifi_Error_Status & (~(USB_READ_PORT_FAIL|USB_WRITE_PORT_FAIL)));
if(WIFI_STATUS_SUCCESS !=psrtpriv->Wifi_Error_Status)
{
DBG_8192C("==>%s error_status(0x%x) \n",__FUNCTION__,psrtpriv->Wifi_Error_Status);
status = (psrtpriv->Wifi_Error_Status &( ~(USB_READ_PORT_FAIL|USB_WRITE_PORT_FAIL)));
}
DBG_88E("==> %s wifi_status(0x%x)\n", __func__, status);
DBG_8192C("==> %s wifi_status(0x%x)\n",__FUNCTION__,status);
/* status restore */
//status restore
psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
return status;
#else
return WIFI_STATUS_SUCCESS;
#endif
}
void sreset_set_wifi_error_status(struct adapter *padapter, u32 status)
void sreset_set_wifi_error_status(_adapter *padapter, u32 status)
{
struct hal_data_8188e *pHalData = GET_HAL_DATA(padapter);
#if defined(DBG_CONFIG_ERROR_DETECT)
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
pHalData->srestpriv.Wifi_Error_Status = status;
#endif
}
void sreset_set_trigger_point(_adapter *padapter, s32 tgp)
{
#if defined(DBG_CONFIG_ERROR_DETECT)
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
pHalData->srestpriv.dbg_trigger_point = tgp;
#endif
}
bool sreset_inprogress(_adapter *padapter)
{
#if defined(DBG_CONFIG_ERROR_RESET)
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
return pHalData->srestpriv.silent_reset_inprogress;
#else
return _FALSE;
#endif
}
void sreset_restore_security_station(_adapter *padapter)
{
u8 EntryId = 0;
struct mlme_priv *mlmepriv = &padapter->mlmepriv;
struct sta_priv * pstapriv = &padapter->stapriv;
struct sta_info *psta;
struct security_priv* psecuritypriv=&(padapter->securitypriv);
struct mlme_ext_info *pmlmeinfo = &padapter->mlmeextpriv.mlmext_info;
{
u8 val8;
if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_8021X) {
val8 = 0xcc;
#ifdef CONFIG_WAPI_SUPPORT
} else if (padapter->wapiInfo.bWapiEnable && pmlmeinfo->auth_algo == dot11AuthAlgrthm_WAPI) {
//Disable TxUseDefaultKey, RxUseDefaultKey, RxBroadcastUseDefaultKey.
val8 = 0x4c;
#endif
} else {
val8 = 0xcf;
}
rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
}
#if 0
if ( ( padapter->securitypriv.dot11PrivacyAlgrthm == _WEP40_ ) ||
( padapter->securitypriv.dot11PrivacyAlgrthm == _WEP104_ ))
{
for(EntryId=0; EntryId<4; EntryId++)
{
if(EntryId == psecuritypriv->dot11PrivacyKeyIndex)
rtw_set_key(padapter,&padapter->securitypriv, EntryId, 1,_FALSE);
else
rtw_set_key(padapter,&padapter->securitypriv, EntryId, 0,_FALSE);
}
}
else
#endif
if((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
(padapter->securitypriv.dot11PrivacyAlgrthm == _AES_))
{
psta = rtw_get_stainfo(pstapriv, get_bssid(mlmepriv));
if (psta == NULL) {
//DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail \n"));
}
else
{
//pairwise key
rtw_setstakey_cmd(padapter, (unsigned char *)psta, _TRUE,_FALSE);
//group key
rtw_set_key(padapter,&padapter->securitypriv,padapter->securitypriv.dot118021XGrpKeyid, 0,_FALSE);
}
}
}
void sreset_restore_network_station(_adapter *padapter)
{
struct mlme_priv *mlmepriv = &padapter->mlmepriv;
struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
#if 0
{
//=======================================================
// reset related register of Beacon control
//set MSR to nolink
Set_MSR(padapter, _HW_STATE_NOLINK_);
// reject all data frame
rtw_write16(padapter, REG_RXFLTMAP2,0x00);
//reset TSF
rtw_write8(padapter, REG_DUAL_TSF_RST, (BIT(0)|BIT(1)));
// disable update TSF
SetBcnCtrlReg(padapter, BIT(4), 0);
//=======================================================
}
#endif
rtw_setopmode_cmd(padapter, Ndis802_11Infrastructure,_FALSE);
{
u8 threshold;
#ifdef CONFIG_USB_HCI
// TH=1 => means that invalidate usb rx aggregation
// TH=0 => means that validate usb rx aggregation, use init value.
if(mlmepriv->htpriv.ht_option) {
if(padapter->registrypriv.wifi_spec==1)
threshold = 1;
else
threshold = 0;
rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
} else {
threshold = 1;
rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
}
#endif
}
set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
//disable dynamic functions, such as high power, DIG
//Switch_DM_Func(padapter, DYNAMIC_FUNC_DISABLE, _FALSE);
rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmlmeinfo->network.MacAddress);
{
u8 join_type = 0;
rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
}
Set_MSR(padapter, (pmlmeinfo->state & 0x3));
mlmeext_joinbss_event_callback(padapter, 1);
//restore Sequence No.
rtw_write8(padapter,0x4dc,padapter->xmitpriv.nqos_ssn);
sreset_restore_security_station(padapter);
}
void sreset_restore_network_status(_adapter *padapter)
{
struct mlme_priv *mlmepriv = &padapter->mlmepriv;
struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
if (check_fwstate(mlmepriv, WIFI_STATION_STATE)) {
DBG_871X(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_STATION_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
sreset_restore_network_station(padapter);
} else if (check_fwstate(mlmepriv, WIFI_AP_STATE)) {
DBG_871X(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_AP_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
rtw_ap_restore_network(padapter);
} else if (check_fwstate(mlmepriv, WIFI_ADHOC_STATE)) {
DBG_871X(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_ADHOC_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
} else {
DBG_871X(FUNC_ADPT_FMT" fwstate:0x%08x - ???\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
}
}
void sreset_stop_adapter(_adapter *padapter)
{
struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
if (padapter == NULL)
return;
DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
if (!rtw_netif_queue_stopped(padapter->pnetdev))
rtw_netif_stop_queue(padapter->pnetdev);
rtw_cancel_all_timer(padapter);
/* TODO: OS and HCI independent */
#if defined(PLATFORM_LINUX) && defined(CONFIG_USB_HCI)
tasklet_kill(&pxmitpriv->xmit_tasklet);
#endif
if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
rtw_scan_abort(padapter);
if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING))
{
rtw_set_roaming(padapter, 0);
_rtw_join_timeout_handler(padapter);
}
}
void sreset_start_adapter(_adapter *padapter)
{
struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
if (padapter == NULL)
return;
DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
if (check_fwstate(pmlmepriv, _FW_LINKED)) {
sreset_restore_network_status(padapter);
}
/* TODO: OS and HCI independent */
#if defined(PLATFORM_LINUX) && defined(CONFIG_USB_HCI)
tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
#endif
_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
if (rtw_netif_queue_stopped(padapter->pnetdev))
rtw_netif_wake_queue(padapter->pnetdev);
}
void sreset_reset(_adapter *padapter)
{
#ifdef DBG_CONFIG_ERROR_RESET
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
struct sreset_priv *psrtpriv = &pHalData->srestpriv;
struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
_irqL irqL;
u32 start = rtw_get_current_time();
DBG_871X("%s\n", __FUNCTION__);
psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
_enter_pwrlock(&pwrpriv->lock);
psrtpriv->silent_reset_inprogress = _TRUE;
pwrpriv->change_rfpwrstate = rf_off;
sreset_stop_adapter(padapter);
#ifdef CONFIG_CONCURRENT_MODE
sreset_stop_adapter(padapter->pbuddy_adapter);
#endif
#ifdef CONFIG_IPS
_ips_enter(padapter);
_ips_leave(padapter);
#endif
sreset_start_adapter(padapter);
#ifdef CONFIG_CONCURRENT_MODE
sreset_start_adapter(padapter->pbuddy_adapter);
#endif
psrtpriv->silent_reset_inprogress = _FALSE;
_exit_pwrlock(&pwrpriv->lock);
DBG_871X("%s done in %d ms\n", __FUNCTION__, rtw_get_passing_time_ms(start));
#endif
}

594
core/rtw_sta_mgt.c Normal file → Executable file
View file

@ -19,28 +19,44 @@
******************************************************************************/
#define _RTW_STA_MGT_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <recv_osdep.h>
#include <xmit_osdep.h>
#include <mlme_osdep.h>
#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
#error "Shall be Linux or Windows, but not both!\n"
#endif
#include <sta_info.h>
static void _rtw_init_stainfo(struct sta_info *psta)
void _rtw_init_stainfo(struct sta_info *psta);
void _rtw_init_stainfo(struct sta_info *psta)
{
_func_enter_;
_rtw_memset((u8 *)psta, 0, sizeof (struct sta_info));
spin_lock_init(&psta->lock);
_rtw_spinlock_init(&psta->lock);
_rtw_init_listhead(&psta->list);
_rtw_init_listhead(&psta->hash_list);
//_rtw_init_listhead(&psta->asoc_list);
//_rtw_init_listhead(&psta->sleep_list);
//_rtw_init_listhead(&psta->wakeup_list);
_rtw_init_queue(&psta->sleep_q);
psta->sleepq_len = 0;
_rtw_init_sta_xmit_priv(&psta->sta_xmitpriv);
_rtw_init_sta_recv_priv(&psta->sta_recvpriv);
#ifdef CONFIG_88EU_AP_MODE
#ifdef CONFIG_AP_MODE
_rtw_init_listhead(&psta->asoc_list);
@ -52,9 +68,10 @@ static void _rtw_init_stainfo(struct sta_info *psta)
psta->capability = 0;
psta->bpairwise_key_installed = false;
psta->bpairwise_key_installed = _FALSE;
#ifdef CONFIG_88EU_AP_MODE
#ifdef CONFIG_NATIVEAP_MLME
psta->nonerp_set = 0;
psta->no_short_slot_time_set = 0;
psta->no_short_preamble_set = 0;
@ -63,11 +80,26 @@ static void _rtw_init_stainfo(struct sta_info *psta)
psta->ht_20mhz_set = 0;
#endif
#ifdef CONFIG_TX_MCAST2UNI
psta->under_exist_checking = 0;
#endif // CONFIG_TX_MCAST2UNI
psta->keep_alive_trycnt = 0;
#endif /* CONFIG_88EU_AP_MODE */
#endif // CONFIG_AP_MODE
#ifdef DBG_TRX_STA_PKTS
psta->tx_be_cnt = 0;
psta->tx_bk_cnt = 0;
psta->tx_vi_cnt = 0;
psta->tx_vo_cnt = 0;
psta->rx_be_cnt = 0;
psta->rx_bk_cnt = 0;
psta->rx_vi_cnt = 0;
psta->rx_vo_cnt = 0;
#endif
_func_exit_;
}
@ -76,25 +108,30 @@ u32 _rtw_init_sta_priv(struct sta_priv *pstapriv)
struct sta_info *psta;
s32 i;
pstapriv->pallocated_stainfo_buf = rtw_zvmalloc(sizeof(struct sta_info) * NUM_STA + 4);
_func_enter_;
if (!pstapriv->pallocated_stainfo_buf)
pstapriv->pallocated_stainfo_buf = rtw_zvmalloc (sizeof(struct sta_info) * NUM_STA+ 4);
if(!pstapriv->pallocated_stainfo_buf)
return _FAIL;
pstapriv->pstainfo_buf = pstapriv->pallocated_stainfo_buf + 4 -
((size_t)(pstapriv->pallocated_stainfo_buf) & 3);
((SIZE_PTR)(pstapriv->pallocated_stainfo_buf ) & 3);
_rtw_init_queue(&pstapriv->free_sta_queue);
spin_lock_init(&pstapriv->sta_hash_lock);
_rtw_spinlock_init(&pstapriv->sta_hash_lock);
//_rtw_init_queue(&pstapriv->asoc_q);
pstapriv->asoc_sta_count = 0;
_rtw_init_queue(&pstapriv->sleep_q);
_rtw_init_queue(&pstapriv->wakeup_q);
psta = (struct sta_info *)(pstapriv->pstainfo_buf);
for (i = 0; i < NUM_STA; i++) {
for(i = 0; i < NUM_STA; i++)
{
_rtw_init_stainfo(psta);
_rtw_init_listhead(&(pstapriv->sta_hash[i]));
@ -104,25 +141,40 @@ u32 _rtw_init_sta_priv(struct sta_priv *pstapriv)
psta++;
}
#ifdef CONFIG_88EU_AP_MODE
#ifdef CONFIG_AP_MODE
pstapriv->sta_dz_bitmap = 0;
pstapriv->tim_bitmap = 0;
_rtw_init_listhead(&pstapriv->asoc_list);
_rtw_init_listhead(&pstapriv->auth_list);
spin_lock_init(&pstapriv->asoc_list_lock);
spin_lock_init(&pstapriv->auth_list_lock);
_rtw_spinlock_init(&pstapriv->asoc_list_lock);
_rtw_spinlock_init(&pstapriv->auth_list_lock);
pstapriv->asoc_list_cnt = 0;
pstapriv->auth_list_cnt = 0;
pstapriv->auth_to = 3; /* 3*2 = 6 sec */
pstapriv->auth_to = 3; // 3*2 = 6 sec
pstapriv->assoc_to = 3;
pstapriv->expire_to = 3; /* 3*2 = 6 sec */
//pstapriv->expire_to = 900;// 900*2 = 1800 sec = 30 min, expire after no any traffic.
//pstapriv->expire_to = 30;// 30*2 = 60 sec = 1 min, expire after no any traffic.
#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
pstapriv->expire_to = 3; // 3*2 = 6 sec
#else
pstapriv->expire_to = 60;// 60*2 = 120 sec = 2 min, expire after no any traffic.
#endif
#ifdef CONFIG_ATMEL_RC_PATCH
_rtw_memset( pstapriv->atmel_rc_pattern, 0, ETH_ALEN);
#endif
pstapriv->max_num_sta = NUM_STA;
#endif
_func_exit_;
return _SUCCESS;
}
inline int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta)
@ -130,7 +182,7 @@ inline int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta)
int offset = (((u8 *)sta) - stapriv->pstainfo_buf)/sizeof(struct sta_info);
if (!stainfo_offset_valid(offset))
DBG_88E("%s invalid offset(%d), out of range!!!", __func__, offset);
DBG_871X("%s invalid offset(%d), out of range!!!", __func__, offset);
return offset;
}
@ -138,7 +190,7 @@ inline int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta)
inline struct sta_info *rtw_get_stainfo_by_offset(struct sta_priv *stapriv, int offset)
{
if (!stainfo_offset_valid(offset))
DBG_88E("%s invalid offset(%d), out of range!!!", __func__, offset);
DBG_871X("%s invalid offset(%d), out of range!!!", __func__, offset);
return (struct sta_info *)(stapriv->pstainfo_buf + offset * sizeof(struct sta_info));
}
@ -146,6 +198,7 @@ inline struct sta_info *rtw_get_stainfo_by_offset(struct sta_priv *stapriv, int
void _rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv);
void _rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv)
{
_func_enter_;
_rtw_spinlock_free(&psta_xmitpriv->lock);
@ -153,60 +206,73 @@ void _rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv)
_rtw_spinlock_free(&(psta_xmitpriv->bk_q.sta_pending.lock));
_rtw_spinlock_free(&(psta_xmitpriv->vi_q.sta_pending.lock));
_rtw_spinlock_free(&(psta_xmitpriv->vo_q.sta_pending.lock));
_func_exit_;
}
static void _rtw_free_sta_recv_priv_lock(struct sta_recv_priv *psta_recvpriv)
{
_func_enter_;
_rtw_spinlock_free(&psta_recvpriv->lock);
_rtw_spinlock_free(&(psta_recvpriv->defrag_q.lock));
_func_exit_;
}
void rtw_mfree_stainfo(struct sta_info *psta);
void rtw_mfree_stainfo(struct sta_info *psta)
{
_func_enter_;
if (&psta->lock != NULL)
if(&psta->lock != NULL)
_rtw_spinlock_free(&psta->lock);
_rtw_free_sta_xmit_priv_lock(&psta->sta_xmitpriv);
_rtw_free_sta_recv_priv_lock(&psta->sta_recvpriv);
_func_exit_;
}
/* this function is used to free the memory of lock || sema for all stainfos */
void rtw_mfree_all_stainfo(struct sta_priv *pstapriv);
void rtw_mfree_all_stainfo(struct sta_priv *pstapriv)
// this function is used to free the memory of lock || sema for all stainfos
void rtw_mfree_all_stainfo(struct sta_priv *pstapriv );
void rtw_mfree_all_stainfo(struct sta_priv *pstapriv )
{
struct list_head *plist, *phead;
_irqL irqL;
_list *plist, *phead;
struct sta_info *psta = NULL;
spin_lock_bh(&pstapriv->sta_hash_lock);
_func_enter_;
_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
phead = get_list_head(&pstapriv->free_sta_queue);
plist = get_next(phead);
while ((rtw_end_of_queue_search(phead, plist)) == false) {
psta = LIST_CONTAINOR(plist, struct sta_info , list);
while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
{
psta = LIST_CONTAINOR(plist, struct sta_info ,list);
plist = get_next(plist);
rtw_mfree_stainfo(psta);
}
spin_unlock_bh(&pstapriv->sta_hash_lock);
_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
_func_exit_;
}
static void rtw_mfree_sta_priv_lock(struct sta_priv *pstapriv)
void rtw_mfree_sta_priv_lock(struct sta_priv *pstapriv);
void rtw_mfree_sta_priv_lock(struct sta_priv *pstapriv)
{
#ifdef CONFIG_88EU_AP_MODE
#ifdef CONFIG_AP_MODE
struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
#endif
rtw_mfree_all_stainfo(pstapriv); /* be done before free sta_hash_lock */
rtw_mfree_all_stainfo(pstapriv); //be done before free sta_hash_lock
_rtw_spinlock_free(&pstapriv->free_sta_queue.lock);
@ -214,203 +280,310 @@ static void rtw_mfree_sta_priv_lock(struct sta_priv *pstapriv)
_rtw_spinlock_free(&pstapriv->wakeup_q.lock);
_rtw_spinlock_free(&pstapriv->sleep_q.lock);
#ifdef CONFIG_88EU_AP_MODE
#ifdef CONFIG_AP_MODE
_rtw_spinlock_free(&pstapriv->asoc_list_lock);
_rtw_spinlock_free(&pstapriv->auth_list_lock);
_rtw_spinlock_free(&pacl_list->acl_node_q.lock);
#endif
}
u32 _rtw_free_sta_priv(struct sta_priv *pstapriv)
{
struct list_head *phead, *plist;
_irqL irqL;
_list *phead, *plist;
struct sta_info *psta = NULL;
struct recv_reorder_ctrl *preorder_ctrl;
int index;
if (pstapriv) {
_func_enter_;
if(pstapriv){
/* delete all reordering_ctrl_timer */
spin_lock_bh(&pstapriv->sta_hash_lock);
for (index = 0; index < NUM_STA; index++) {
_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
for(index = 0; index < NUM_STA; index++)
{
phead = &(pstapriv->sta_hash[index]);
plist = get_next(phead);
while ((rtw_end_of_queue_search(phead, plist)) == false) {
while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
{
int i;
psta = LIST_CONTAINOR(plist, struct sta_info , hash_list);
psta = LIST_CONTAINOR(plist, struct sta_info ,hash_list);
plist = get_next(plist);
for (i = 0; i < 16; i++) {
for(i=0; i < 16 ; i++)
{
preorder_ctrl = &psta->recvreorder_ctrl[i];
_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
}
}
}
spin_unlock_bh(&pstapriv->sta_hash_lock);
_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
/*===============================*/
rtw_mfree_sta_priv_lock(pstapriv);
if (pstapriv->pallocated_stainfo_buf)
if(pstapriv->pallocated_stainfo_buf) {
rtw_vmfree(pstapriv->pallocated_stainfo_buf, sizeof(struct sta_info)*NUM_STA+4);
}
}
_func_exit_;
return _SUCCESS;
}
//struct sta_info *rtw_alloc_stainfo(_queue *pfree_sta_queue, unsigned char *hwaddr)
struct sta_info *rtw_alloc_stainfo(struct sta_priv *pstapriv, u8 *hwaddr)
{
_irqL irqL, irqL2;
uint tmp_aid;
s32 index;
struct list_head *phash_list;
_list *phash_list;
struct sta_info *psta;
struct __queue *pfree_sta_queue;
_queue *pfree_sta_queue;
struct recv_reorder_ctrl *preorder_ctrl;
int i = 0;
u16 wRxSeqInitialValue = 0xffff;
_func_enter_;
pfree_sta_queue = &pstapriv->free_sta_queue;
spin_lock_bh(&pfree_sta_queue->lock);
//_enter_critical_bh(&(pfree_sta_queue->lock), &irqL);
_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
if (_rtw_queue_empty(pfree_sta_queue) == true) {
spin_unlock_bh(&pfree_sta_queue->lock);
if (_rtw_queue_empty(pfree_sta_queue) == _TRUE)
{
//_exit_critical_bh(&(pfree_sta_queue->lock), &irqL);
_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
psta = NULL;
} else {
}
else
{
psta = LIST_CONTAINOR(get_next(&pfree_sta_queue->queue), struct sta_info, list);
rtw_list_delete(&(psta->list));
spin_unlock_bh(&pfree_sta_queue->lock);
//_exit_critical_bh(&(pfree_sta_queue->lock), &irqL);
tmp_aid = psta->aid;
_rtw_init_stainfo(psta);
memcpy(psta->hwaddr, hwaddr, ETH_ALEN);
psta->padapter = pstapriv->padapter;
_rtw_memcpy(psta->hwaddr, hwaddr, ETH_ALEN);
index = wifi_mac_hash(hwaddr);
RT_TRACE(_module_rtl871x_sta_mgt_c_, _drv_info_, ("rtw_alloc_stainfo: index=%x", index));
if (index >= NUM_STA) {
RT_TRACE(_module_rtl871x_sta_mgt_c_, _drv_err_, ("ERROR => rtw_alloc_stainfo: index >= NUM_STA"));
psta = NULL;
RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_info_,("rtw_alloc_stainfo: index = %x", index));
if(index >= NUM_STA){
RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_err_,("ERROR=> rtw_alloc_stainfo: index >= NUM_STA"));
psta= NULL;
goto exit;
}
phash_list = &(pstapriv->sta_hash[index]);
spin_lock_bh(&pstapriv->sta_hash_lock);
//_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
rtw_list_insert_tail(&psta->hash_list, phash_list);
pstapriv->asoc_sta_count++ ;
pstapriv->asoc_sta_count ++ ;
spin_unlock_bh(&pstapriv->sta_hash_lock);
//_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
/* Commented by Albert 2009/08/13 */
/* For the SMC router, the sequence number of first packet of WPS handshake will be 0. */
/* In this case, this packet will be dropped by recv_decache function if we use the 0x00 as the default value for tid_rxseq variable. */
/* So, we initialize the tid_rxseq variable as the 0xffff. */
// Commented by Albert 2009/08/13
// For the SMC router, the sequence number of first packet of WPS handshake will be 0.
// In this case, this packet will be dropped by recv_decache function if we use the 0x00 as the default value for tid_rxseq variable.
// So, we initialize the tid_rxseq variable as the 0xffff.
for (i = 0; i < 16; i++)
memcpy(&psta->sta_recvpriv.rxcache.tid_rxseq[i], &wRxSeqInitialValue, 2);
for( i = 0; i < 16; i++ )
{
_rtw_memcpy( &psta->sta_recvpriv.rxcache.tid_rxseq[ i ], &wRxSeqInitialValue, 2 );
}
RT_TRACE(_module_rtl871x_sta_mgt_c_, _drv_info_,
("alloc number_%d stainfo with hwaddr = %pM\n",
pstapriv->asoc_sta_count , hwaddr));
RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_info_,("alloc number_%d stainfo with hwaddr = %x %x %x %x %x %x \n",
pstapriv->asoc_sta_count , hwaddr[0], hwaddr[1], hwaddr[2],hwaddr[3],hwaddr[4],hwaddr[5]));
init_addba_retry_timer(pstapriv->padapter, psta);
/* for A-MPDU Rx reordering buffer control */
for (i = 0; i < 16; i++) {
#ifdef CONFIG_TDLS
psta->padapter = pstapriv->padapter;
init_TPK_timer(pstapriv->padapter, psta);
init_ch_switch_timer(pstapriv->padapter, psta);
init_base_ch_timer(pstapriv->padapter, psta);
init_off_ch_timer(pstapriv->padapter, psta);
init_handshake_timer(pstapriv->padapter, psta);
init_tdls_alive_timer(pstapriv->padapter, psta);
#endif //CONFIG_TDLS
//for A-MPDU Rx reordering buffer control
for(i=0; i < 16 ; i++)
{
preorder_ctrl = &psta->recvreorder_ctrl[i];
preorder_ctrl->padapter = pstapriv->padapter;
preorder_ctrl->enable = false;
preorder_ctrl->enable = _FALSE;
preorder_ctrl->indicate_seq = 0xffff;
preorder_ctrl->wend_b = 0xffff;
preorder_ctrl->wsize_b = 64;/* 64; */
#ifdef DBG_RX_SEQ
DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d\n", __FUNCTION__, __LINE__,
preorder_ctrl->indicate_seq);
#endif
preorder_ctrl->wend_b= 0xffff;
//preorder_ctrl->wsize_b = (NR_RECVBUFF-2);
preorder_ctrl->wsize_b = 64;//64;
_rtw_init_queue(&preorder_ctrl->pending_recvframe_queue);
rtw_init_recv_timer(preorder_ctrl);
}
/* init for DM */
//init for DM
psta->rssi_stat.UndecoratedSmoothedPWDB = (-1);
psta->rssi_stat.UndecoratedSmoothedCCK = (-1);
#ifdef CONFIG_ATMEL_RC_PATCH
psta->flag_atmel_rc = 0;
#endif
/* init for the sequence number of received management frame */
psta->RxMgmtFrameSeqNum = 0xffff;
}
exit:
_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
_func_exit_;
return psta;
}
/* using pstapriv->sta_hash_lock to protect */
u32 rtw_free_stainfo(struct adapter *padapter , struct sta_info *psta)
// using pstapriv->sta_hash_lock to protect
u32 rtw_free_stainfo(_adapter *padapter , struct sta_info *psta)
{
int i;
struct __queue *pfree_sta_queue;
_irqL irqL0;
_queue *pfree_sta_queue;
struct recv_reorder_ctrl *preorder_ctrl;
struct sta_xmit_priv *pstaxmitpriv;
struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
struct xmit_priv *pxmitpriv= &padapter->xmitpriv;
struct sta_priv *pstapriv = &padapter->stapriv;
struct hw_xmit *phwxmit;
_func_enter_;
if (psta == NULL)
goto exit;
_enter_critical_bh(&psta->lock, &irqL0);
psta->state &= ~_FW_LINKED;
_exit_critical_bh(&psta->lock, &irqL0);
pfree_sta_queue = &pstapriv->free_sta_queue;
pstaxmitpriv = &psta->sta_xmitpriv;
spin_lock_bh(&pxmitpriv->lock);
//rtw_list_delete(&psta->sleep_list);
//rtw_list_delete(&psta->wakeup_list);
_enter_critical_bh(&pxmitpriv->lock, &irqL0);
rtw_free_xmitframe_queue(pxmitpriv, &psta->sleep_q);
psta->sleepq_len = 0;
rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->vo_q.sta_pending);
//vo
//_enter_critical_bh(&(pxmitpriv->vo_pending.lock), &irqL0);
rtw_free_xmitframe_queue( pxmitpriv, &pstaxmitpriv->vo_q.sta_pending);
rtw_list_delete(&(pstaxmitpriv->vo_q.tx_pending));
phwxmit = pxmitpriv->hwxmits;
phwxmit->accnt -= pstaxmitpriv->vo_q.qcnt;
pstaxmitpriv->vo_q.qcnt = 0;
//_exit_critical_bh(&(pxmitpriv->vo_pending.lock), &irqL0);
rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->vi_q.sta_pending);
//vi
//_enter_critical_bh(&(pxmitpriv->vi_pending.lock), &irqL0);
rtw_free_xmitframe_queue( pxmitpriv, &pstaxmitpriv->vi_q.sta_pending);
rtw_list_delete(&(pstaxmitpriv->vi_q.tx_pending));
phwxmit = pxmitpriv->hwxmits+1;
phwxmit->accnt -= pstaxmitpriv->vi_q.qcnt;
pstaxmitpriv->vi_q.qcnt = 0;
//_exit_critical_bh(&(pxmitpriv->vi_pending.lock), &irqL0);
rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->bk_q.sta_pending);
rtw_list_delete(&(pstaxmitpriv->bk_q.tx_pending));
rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->be_q.sta_pending);
//be
//_enter_critical_bh(&(pxmitpriv->be_pending.lock), &irqL0);
rtw_free_xmitframe_queue( pxmitpriv, &pstaxmitpriv->be_q.sta_pending);
rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
phwxmit = pxmitpriv->hwxmits+2;
phwxmit->accnt -= pstaxmitpriv->be_q.qcnt;
pstaxmitpriv->be_q.qcnt = 0;
//_exit_critical_bh(&(pxmitpriv->be_pending.lock), &irqL0);
spin_unlock_bh(&pxmitpriv->lock);
//bk
//_enter_critical_bh(&(pxmitpriv->bk_pending.lock), &irqL0);
rtw_free_xmitframe_queue( pxmitpriv, &pstaxmitpriv->bk_q.sta_pending);
rtw_list_delete(&(pstaxmitpriv->bk_q.tx_pending));
phwxmit = pxmitpriv->hwxmits+3;
phwxmit->accnt -= pstaxmitpriv->bk_q.qcnt;
pstaxmitpriv->bk_q.qcnt = 0;
//_exit_critical_bh(&(pxmitpriv->bk_pending.lock), &irqL0);
_exit_critical_bh(&pxmitpriv->lock, &irqL0);
rtw_list_delete(&psta->hash_list);
RT_TRACE(_module_rtl871x_sta_mgt_c_, _drv_err_, ("\n free number_%d stainfo with hwaddr=0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x\n", pstapriv->asoc_sta_count , psta->hwaddr[0], psta->hwaddr[1], psta->hwaddr[2], psta->hwaddr[3], psta->hwaddr[4], psta->hwaddr[5]));
pstapriv->asoc_sta_count--;
RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_err_,("\n free number_%d stainfo with hwaddr = 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x \n",pstapriv->asoc_sta_count , psta->hwaddr[0], psta->hwaddr[1], psta->hwaddr[2],psta->hwaddr[3],psta->hwaddr[4],psta->hwaddr[5]));
pstapriv->asoc_sta_count --;
/* re-init sta_info; 20061114 */
_rtw_init_sta_xmit_priv(&psta->sta_xmitpriv);
_rtw_init_sta_recv_priv(&psta->sta_recvpriv);
// re-init sta_info; 20061114 // will be init in alloc_stainfo
//_rtw_init_sta_xmit_priv(&psta->sta_xmitpriv);
//_rtw_init_sta_recv_priv(&psta->sta_recvpriv);
_cancel_timer_ex(&psta->addba_retry_timer);
/* for A-MPDU Rx reordering buffer control, cancel reordering_ctrl_timer */
for (i = 0; i < 16 ; i++) {
struct list_head *phead, *plist;
#ifdef CONFIG_TDLS
_cancel_timer_ex(&psta->TPK_timer);
_cancel_timer_ex(&psta->option_timer);
_cancel_timer_ex(&psta->base_ch_timer);
_cancel_timer_ex(&psta->off_ch_timer);
_cancel_timer_ex(&psta->alive_timer1);
_cancel_timer_ex(&psta->alive_timer2);
#endif //CONFIG_TDLS
//for A-MPDU Rx reordering buffer control, cancel reordering_ctrl_timer
for(i=0; i < 16 ; i++)
{
_irqL irqL;
_list *phead, *plist;
union recv_frame *prframe;
struct __queue *ppending_recvframe_queue;
struct __queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
_queue *ppending_recvframe_queue;
_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
preorder_ctrl = &psta->recvreorder_ctrl[i];
_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
spin_lock_bh(&ppending_recvframe_queue->lock);
_enter_critical_bh(&ppending_recvframe_queue->lock, &irqL);
phead = get_list_head(ppending_recvframe_queue);
plist = get_next(phead);
while (!rtw_is_list_empty(phead)) {
while(!rtw_is_list_empty(phead))
{
prframe = LIST_CONTAINOR(plist, union recv_frame, u);
plist = get_next(plist);
@ -420,23 +593,31 @@ u32 rtw_free_stainfo(struct adapter *padapter , struct sta_info *psta)
rtw_free_recvframe(prframe, pfree_recv_queue);
}
spin_unlock_bh(&ppending_recvframe_queue->lock);
_exit_critical_bh(&ppending_recvframe_queue->lock, &irqL);
}
if (!(psta->state & WIFI_AP_STATE))
rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, false);
rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _FALSE);
#ifdef CONFIG_88EU_AP_MODE
#ifdef CONFIG_AP_MODE
spin_lock_bh(&pstapriv->auth_list_lock);
/*
_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL0);
rtw_list_delete(&psta->asoc_list);
_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL0);
*/
_enter_critical_bh(&pstapriv->auth_list_lock, &irqL0);
if (!rtw_is_list_empty(&psta->auth_list)) {
rtw_list_delete(&psta->auth_list);
pstapriv->auth_list_cnt--;
}
spin_unlock_bh(&pstapriv->auth_list_lock);
_exit_critical_bh(&pstapriv->auth_list_lock, &irqL0);
psta->expire_to = 0;
#ifdef CONFIG_ATMEL_RC_PATCH
psta->flag_atmel_rc = 0;
#endif
psta->sleepq_ac_len = 0;
psta->qos_info = 0;
@ -445,168 +626,245 @@ u32 rtw_free_stainfo(struct adapter *padapter , struct sta_info *psta)
psta->uapsd_be = 0;
psta->uapsd_vi = 0;
psta->uapsd_vo = 0;
psta->has_legacy_ac = 0;
pstapriv->sta_dz_bitmap &= ~BIT(psta->aid);
pstapriv->tim_bitmap &= ~BIT(psta->aid);
#ifdef CONFIG_NATIVEAP_MLME
if ((psta->aid > 0) && (pstapriv->sta_aid[psta->aid - 1] == psta)) {
pstapriv->sta_dz_bitmap &=~BIT(psta->aid);
pstapriv->tim_bitmap &=~BIT(psta->aid);
//rtw_indicate_sta_disassoc_event(padapter, psta);
if ((psta->aid >0)&&(pstapriv->sta_aid[psta->aid - 1] == psta))
{
pstapriv->sta_aid[psta->aid - 1] = NULL;
psta->aid = 0;
}
#endif // CONFIG_NATIVEAP_MLME
#ifdef CONFIG_TX_MCAST2UNI
psta->under_exist_checking = 0;
#endif // CONFIG_TX_MCAST2UNI
#endif /* CONFIG_88EU_AP_MODE */
#endif // CONFIG_AP_MODE
spin_lock_bh(&pfree_sta_queue->lock);
_rtw_spinlock_free(&psta->lock);
//_enter_critical_bh(&(pfree_sta_queue->lock), &irqL0);
rtw_list_insert_tail(&psta->list, get_list_head(pfree_sta_queue));
spin_unlock_bh(&pfree_sta_queue->lock);
//_exit_critical_bh(&(pfree_sta_queue->lock), &irqL0);
exit:
_func_exit_;
return _SUCCESS;
}
/* free all stainfo which in sta_hash[all] */
void rtw_free_all_stainfo(struct adapter *padapter)
// free all stainfo which in sta_hash[all]
void rtw_free_all_stainfo(_adapter *padapter)
{
struct list_head *plist, *phead;
_irqL irqL;
_list *plist, *phead;
s32 index;
struct sta_info *psta = NULL;
struct sta_priv *pstapriv = &padapter->stapriv;
struct sta_info *pbcmc_stainfo = rtw_get_bcmc_stainfo(padapter);
struct sta_info* pbcmc_stainfo =rtw_get_bcmc_stainfo( padapter);
if (pstapriv->asoc_sta_count == 1)
return;
_func_enter_;
spin_lock_bh(&pstapriv->sta_hash_lock);
if(pstapriv->asoc_sta_count==1)
goto exit;
for (index = 0; index < NUM_STA; index++) {
_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
for(index=0; index< NUM_STA; index++)
{
phead = &(pstapriv->sta_hash[index]);
plist = get_next(phead);
while ((!rtw_end_of_queue_search(phead, plist))) {
psta = LIST_CONTAINOR(plist, struct sta_info , hash_list);
while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
{
psta = LIST_CONTAINOR(plist, struct sta_info ,hash_list);
plist = get_next(plist);
if (pbcmc_stainfo != psta)
if(pbcmc_stainfo!=psta)
rtw_free_stainfo(padapter , psta);
}
}
spin_unlock_bh(&pstapriv->sta_hash_lock);
_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
exit:
_func_exit_;
}
/* any station allocated can be searched by hash list */
struct sta_info *rtw_get_stainfo(struct sta_priv *pstapriv, u8 *hwaddr)
{
struct list_head *plist, *phead;
struct sta_info *psta = NULL;
u32 index;
u8 *addr;
u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
if (hwaddr == NULL)
_irqL irqL;
_list *plist, *phead;
struct sta_info *psta = NULL;
u32 index;
u8 *addr;
u8 bc_addr[ETH_ALEN] = {0xff,0xff,0xff,0xff,0xff,0xff};
_func_enter_;
if(hwaddr==NULL)
return NULL;
if (IS_MCAST(hwaddr))
if(IS_MCAST(hwaddr))
{
addr = bc_addr;
}
else
{
addr = hwaddr;
}
index = wifi_mac_hash(addr);
spin_lock_bh(&pstapriv->sta_hash_lock);
_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
phead = &(pstapriv->sta_hash[index]);
plist = get_next(phead);
while ((!rtw_end_of_queue_search(phead, plist))) {
while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
{
psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
if ((_rtw_memcmp(psta->hwaddr, addr, ETH_ALEN)) == true) {
/* if found the matched address */
if ((_rtw_memcmp(psta->hwaddr, addr, ETH_ALEN))== _TRUE)
{ // if found the matched address
break;
}
psta = NULL;
psta=NULL;
plist = get_next(plist);
}
spin_unlock_bh(&pstapriv->sta_hash_lock);
_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
_func_exit_;
return psta;
}
u32 rtw_init_bcmc_stainfo(struct adapter *padapter)
u32 rtw_init_bcmc_stainfo(_adapter* padapter)
{
struct sta_info *psta;
u32 res = _SUCCESS;
unsigned char bcast_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
struct tx_servq *ptxservq;
u32 res=_SUCCESS;
NDIS_802_11_MAC_ADDRESS bcast_addr= {0xff,0xff,0xff,0xff,0xff,0xff};
struct sta_priv *pstapriv = &padapter->stapriv;
//_queue *pstapending = &padapter->xmitpriv.bm_pending;
_func_enter_;
psta = rtw_alloc_stainfo(pstapriv, bcast_addr);
if (psta == NULL) {
res = _FAIL;
RT_TRACE(_module_rtl871x_sta_mgt_c_, _drv_err_, ("rtw_alloc_stainfo fail"));
if(psta==NULL){
res=_FAIL;
RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_err_,("rtw_alloc_stainfo fail"));
goto exit;
}
/* default broadcast & multicast use macid 1 */
// default broadcast & multicast use macid 1
psta->mac_id = 1;
exit:
ptxservq= &(psta->sta_xmitpriv.be_q);
/*
_enter_critical(&pstapending->lock, &irqL0);
if (rtw_is_list_empty(&ptxservq->tx_pending))
rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(pstapending));
_exit_critical(&pstapending->lock, &irqL0);
*/
exit:
_func_exit_;
return _SUCCESS;
return res;
}
struct sta_info *rtw_get_bcmc_stainfo(struct adapter *padapter)
struct sta_info* rtw_get_bcmc_stainfo(_adapter* padapter)
{
struct sta_info *psta;
struct sta_priv *pstapriv = &padapter->stapriv;
u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
u8 bc_addr[ETH_ALEN] = {0xff,0xff,0xff,0xff,0xff,0xff};
_func_enter_;
psta = rtw_get_stainfo(pstapriv, bc_addr);
_func_exit_;
return psta;
}
u8 rtw_access_ctrl(struct adapter *padapter, u8 *mac_addr)
u8 rtw_access_ctrl(_adapter *padapter, u8 *mac_addr)
{
u8 res = true;
#ifdef CONFIG_88EU_AP_MODE
struct list_head *plist, *phead;
u8 res = _TRUE;
#ifdef CONFIG_AP_MODE
_irqL irqL;
_list *plist, *phead;
struct rtw_wlan_acl_node *paclnode;
u8 match = false;
u8 match = _FALSE;
struct sta_priv *pstapriv = &padapter->stapriv;
struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
struct __queue *pacl_node_q = &pacl_list->acl_node_q;
_queue *pacl_node_q =&pacl_list->acl_node_q;
spin_lock_bh(&pacl_node_q->lock);
_enter_critical_bh(&(pacl_node_q->lock), &irqL);
phead = get_list_head(pacl_node_q);
plist = get_next(phead);
while ((!rtw_end_of_queue_search(phead, plist))) {
while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
{
paclnode = LIST_CONTAINOR(plist, struct rtw_wlan_acl_node, list);
plist = get_next(plist);
if (_rtw_memcmp(paclnode->addr, mac_addr, ETH_ALEN)) {
if (paclnode->valid) {
match = true;
if(_rtw_memcmp(paclnode->addr, mac_addr, ETH_ALEN))
{
if(paclnode->valid == _TRUE)
{
match = _TRUE;
break;
}
}
}
spin_unlock_bh(&pacl_node_q->lock);
_exit_critical_bh(&(pacl_node_q->lock), &irqL);
if (pacl_list->mode == 1)/* accept unless in deny list */
res = (match) ? false : true;
else if (pacl_list->mode == 2)/* deny unless in accept list */
res = (match) ? true : false;
if(pacl_list->mode == 1)//accept unless in deny list
{
res = (match == _TRUE) ? _FALSE:_TRUE;
}
else if(pacl_list->mode == 2)//deny unless in accept list
{
res = (match == _TRUE) ? _TRUE:_FALSE;
}
else
res = true;
{
res = _TRUE;
}
#endif
return res;
}

2941
core/rtw_tdls.c Executable file

File diff suppressed because it is too large Load diff

1326
core/rtw_wapi.c Executable file

File diff suppressed because it is too large Load diff

923
core/rtw_wapi_sms4.c Executable file
View file

@ -0,0 +1,923 @@
#ifdef CONFIG_WAPI_SUPPORT
#include <linux/unistd.h>
#include <linux/etherdevice.h>
#include <drv_types.h>
#include <rtw_wapi.h>
#ifdef CONFIG_WAPI_SW_SMS4
#define WAPI_LITTLE_ENDIAN
//#define BIG_ENDIAN
#define ENCRYPT 0
#define DECRYPT 1
/**********************************************************
**********************************************************/
const u8 Sbox[256] = {
0xd6,0x90,0xe9,0xfe,0xcc,0xe1,0x3d,0xb7,0x16,0xb6,0x14,0xc2,0x28,0xfb,0x2c,0x05,
0x2b,0x67,0x9a,0x76,0x2a,0xbe,0x04,0xc3,0xaa,0x44,0x13,0x26,0x49,0x86,0x06,0x99,
0x9c,0x42,0x50,0xf4,0x91,0xef,0x98,0x7a,0x33,0x54,0x0b,0x43,0xed,0xcf,0xac,0x62,
0xe4,0xb3,0x1c,0xa9,0xc9,0x08,0xe8,0x95,0x80,0xdf,0x94,0xfa,0x75,0x8f,0x3f,0xa6,
0x47,0x07,0xa7,0xfc,0xf3,0x73,0x17,0xba,0x83,0x59,0x3c,0x19,0xe6,0x85,0x4f,0xa8,
0x68,0x6b,0x81,0xb2,0x71,0x64,0xda,0x8b,0xf8,0xeb,0x0f,0x4b,0x70,0x56,0x9d,0x35,
0x1e,0x24,0x0e,0x5e,0x63,0x58,0xd1,0xa2,0x25,0x22,0x7c,0x3b,0x01,0x21,0x78,0x87,
0xd4,0x00,0x46,0x57,0x9f,0xd3,0x27,0x52,0x4c,0x36,0x02,0xe7,0xa0,0xc4,0xc8,0x9e,
0xea,0xbf,0x8a,0xd2,0x40,0xc7,0x38,0xb5,0xa3,0xf7,0xf2,0xce,0xf9,0x61,0x15,0xa1,
0xe0,0xae,0x5d,0xa4,0x9b,0x34,0x1a,0x55,0xad,0x93,0x32,0x30,0xf5,0x8c,0xb1,0xe3,
0x1d,0xf6,0xe2,0x2e,0x82,0x66,0xca,0x60,0xc0,0x29,0x23,0xab,0x0d,0x53,0x4e,0x6f,
0xd5,0xdb,0x37,0x45,0xde,0xfd,0x8e,0x2f,0x03,0xff,0x6a,0x72,0x6d,0x6c,0x5b,0x51,
0x8d,0x1b,0xaf,0x92,0xbb,0xdd,0xbc,0x7f,0x11,0xd9,0x5c,0x41,0x1f,0x10,0x5a,0xd8,
0x0a,0xc1,0x31,0x88,0xa5,0xcd,0x7b,0xbd,0x2d,0x74,0xd0,0x12,0xb8,0xe5,0xb4,0xb0,
0x89,0x69,0x97,0x4a,0x0c,0x96,0x77,0x7e,0x65,0xb9,0xf1,0x09,0xc5,0x6e,0xc6,0x84,
0x18,0xf0,0x7d,0xec,0x3a,0xdc,0x4d,0x20,0x79,0xee,0x5f,0x3e,0xd7,0xcb,0x39,0x48
};
const u32 CK[32] = {
0x00070e15, 0x1c232a31, 0x383f464d, 0x545b6269,
0x70777e85, 0x8c939aa1, 0xa8afb6bd, 0xc4cbd2d9,
0xe0e7eef5, 0xfc030a11, 0x181f262d, 0x343b4249,
0x50575e65, 0x6c737a81, 0x888f969d, 0xa4abb2b9,
0xc0c7ced5, 0xdce3eaf1, 0xf8ff060d, 0x141b2229,
0x30373e45, 0x4c535a61, 0x686f767d, 0x848b9299,
0xa0a7aeb5, 0xbcc3cad1, 0xd8dfe6ed, 0xf4fb0209,
0x10171e25, 0x2c333a41, 0x484f565d, 0x646b7279 };
#define Rotl(_x, _y) (((_x) << (_y)) | ((_x) >> (32 - (_y))))
#define ByteSub(_A) (Sbox[(_A) >> 24 & 0xFF] << 24 | \
Sbox[(_A) >> 16 & 0xFF] << 16 | \
Sbox[(_A) >> 8 & 0xFF] << 8 | \
Sbox[(_A) & 0xFF])
#define L1(_B) ((_B) ^ Rotl(_B, 2) ^ Rotl(_B, 10) ^ Rotl(_B, 18) ^ Rotl(_B, 24))
#define L2(_B) ((_B) ^ Rotl(_B, 13) ^ Rotl(_B, 23))
static void
xor_block(void *dst, void *src1, void *src2)
/* 128-bit xor: *dst = *src1 xor *src2. Pointers must be 32-bit aligned */
{
((u32 *)dst)[0] = ((u32 *)src1)[0] ^ ((u32 *)src2)[0];
((u32 *)dst)[1] = ((u32 *)src1)[1] ^ ((u32 *)src2)[1];
((u32 *)dst)[2] = ((u32 *)src1)[2] ^ ((u32 *)src2)[2];
((u32 *)dst)[3] = ((u32 *)src1)[3] ^ ((u32 *)src2)[3];
}
void SMS4Crypt(u8 *Input, u8 *Output, u32 *rk)
{
u32 r, mid, x0, x1, x2, x3, *p;
p = (u32 *)Input;
x0 = p[0];
x1 = p[1];
x2 = p[2];
x3 = p[3];
#ifdef WAPI_LITTLE_ENDIAN
x0 = Rotl(x0, 16); x0 = ((x0 & 0x00FF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
x1 = Rotl(x1, 16); x1 = ((x1 & 0x00FF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
x2 = Rotl(x2, 16); x2 = ((x2 & 0x00FF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
x3 = Rotl(x3, 16); x3 = ((x3 & 0x00FF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
#endif
for (r = 0; r < 32; r += 4)
{
mid = x1 ^ x2 ^ x3 ^ rk[r + 0];
mid = ByteSub(mid);
x0 ^= L1(mid);
mid = x2 ^ x3 ^ x0 ^ rk[r + 1];
mid = ByteSub(mid);
x1 ^= L1(mid);
mid = x3 ^ x0 ^ x1 ^ rk[r + 2];
mid = ByteSub(mid);
x2 ^= L1(mid);
mid = x0 ^ x1 ^ x2 ^ rk[r + 3];
mid = ByteSub(mid);
x3 ^= L1(mid);
}
#ifdef WAPI_LITTLE_ENDIAN
x0 = Rotl(x0, 16); x0 = ((x0 & 0x00FF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
x1 = Rotl(x1, 16); x1 = ((x1 & 0x00FF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
x2 = Rotl(x2, 16); x2 = ((x2 & 0x00FF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
x3 = Rotl(x3, 16); x3 = ((x3 & 0x00FF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
#endif
p = (u32 *)Output;
p[0] = x3;
p[1] = x2;
p[2] = x1;
p[3] = x0;
}
void SMS4KeyExt(u8 *Key, u32 *rk, u32 CryptFlag)
{
u32 r, mid, x0, x1, x2, x3, *p;
p = (u32 *)Key;
x0 = p[0];
x1 = p[1];
x2 = p[2];
x3 = p[3];
#ifdef WAPI_LITTLE_ENDIAN
x0 = Rotl(x0, 16); x0 = ((x0 & 0xFF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
x1 = Rotl(x1, 16); x1 = ((x1 & 0xFF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
x2 = Rotl(x2, 16); x2 = ((x2 & 0xFF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
x3 = Rotl(x3, 16); x3 = ((x3 & 0xFF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
#endif
x0 ^= 0xa3b1bac6;
x1 ^= 0x56aa3350;
x2 ^= 0x677d9197;
x3 ^= 0xb27022dc;
for (r = 0; r < 32; r += 4)
{
mid = x1 ^ x2 ^ x3 ^ CK[r + 0];
mid = ByteSub(mid);
rk[r + 0] = x0 ^= L2(mid);
mid = x2 ^ x3 ^ x0 ^ CK[r + 1];
mid = ByteSub(mid);
rk[r + 1] = x1 ^= L2(mid);
mid = x3 ^ x0 ^ x1 ^ CK[r + 2];
mid = ByteSub(mid);
rk[r + 2] = x2 ^= L2(mid);
mid = x0 ^ x1 ^ x2 ^ CK[r + 3];
mid = ByteSub(mid);
rk[r + 3] = x3 ^= L2(mid);
}
if (CryptFlag == DECRYPT)
{
for (r = 0; r < 16; r++)
mid = rk[r], rk[r] = rk[31 - r], rk[31 - r] = mid;
}
}
void WapiSMS4Cryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
u8 *Output, u16 *OutputLength, u32 CryptFlag)
{
u32 blockNum,i,j, rk[32];
u16 remainder;
u8 blockIn[16],blockOut[16], tempIV[16], k;
*OutputLength = 0;
remainder = InputLength & 0x0F;
blockNum = InputLength >> 4;
if(remainder !=0)
blockNum++;
else
remainder = 16;
for(k=0;k<16;k++)
tempIV[k] = IV[15-k];
memcpy(blockIn, tempIV, 16);
SMS4KeyExt((u8 *)Key, rk,CryptFlag);
for(i=0; i<blockNum-1; i++)
{
SMS4Crypt((u8 *)blockIn, blockOut, rk);
xor_block(&Output[i*16], &Input[i*16], blockOut);
memcpy(blockIn,blockOut,16);
}
*OutputLength = i*16;
SMS4Crypt((u8 *)blockIn, blockOut, rk);
for(j=0; j<remainder; j++)
{
Output[i*16+j] = Input[i*16+j] ^ blockOut[j];
}
*OutputLength += remainder;
}
void WapiSMS4Encryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
u8 *Output, u16 *OutputLength)
{
WapiSMS4Cryption(Key, IV, Input, InputLength, Output, OutputLength, ENCRYPT);
}
void WapiSMS4Decryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
u8 *Output, u16 *OutputLength)
{
// OFB mode: is also ENCRYPT flag
WapiSMS4Cryption(Key, IV, Input, InputLength, Output, OutputLength, ENCRYPT);
}
void WapiSMS4CalculateMic(u8 *Key, u8 *IV, u8 *Input1, u8 Input1Length,
u8 *Input2, u16 Input2Length, u8 *Output, u8 *OutputLength)
{
u32 blockNum, i, remainder, rk[32];
u8 BlockIn[16], BlockOut[16], TempBlock[16], tempIV[16], k;
*OutputLength = 0;
remainder = Input1Length & 0x0F;
blockNum = Input1Length >> 4;
for(k=0;k<16;k++)
tempIV[k] = IV[15-k];
memcpy(BlockIn, tempIV, 16);
SMS4KeyExt((u8 *)Key, rk, ENCRYPT);
SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
for(i=0; i<blockNum; i++){
xor_block(BlockIn, (Input1+i*16), BlockOut);
SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
}
if(remainder !=0){
memset(TempBlock, 0, 16);
memcpy(TempBlock, (Input1+blockNum*16), remainder);
xor_block(BlockIn, TempBlock, BlockOut);
SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
}
remainder = Input2Length & 0x0F;
blockNum = Input2Length >> 4;
for(i=0; i<blockNum; i++){
xor_block(BlockIn, (Input2+i*16), BlockOut);
SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
}
if(remainder !=0){
memset(TempBlock, 0, 16);
memcpy(TempBlock, (Input2+blockNum*16), remainder);
xor_block(BlockIn, TempBlock, BlockOut);
SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
}
memcpy(Output, BlockOut, 16);
*OutputLength = 16;
}
void SecCalculateMicSMS4(
u8 KeyIdx,
u8 *MicKey,
u8 *pHeader,
u8 *pData,
u16 DataLen,
u8 *MicBuffer
)
{
#if 0
struct ieee80211_hdr_3addr_qos *header;
u8 TempBuf[34], TempLen = 32, MicLen, QosOffset, *IV;
u16 *pTemp, fc;
WAPI_TRACE(WAPI_TX|WAPI_RX, "=========>%s\n", __FUNCTION__);
header = (struct ieee80211_hdr_3addr_qos *)pHeader;
memset(TempBuf, 0, 34);
memcpy(TempBuf, pHeader, 2); //FrameCtrl
pTemp = (u16*)TempBuf;
*pTemp &= 0xc78f; //bit4,5,6,11,12,13
memcpy((TempBuf+2), (pHeader+4), 12); //Addr1, Addr2
memcpy((TempBuf+14), (pHeader+22), 2); // SeqCtrl
pTemp = (u16*)(TempBuf + 14);
*pTemp &= 0x000f;
memcpy((TempBuf+16), (pHeader+16), 6); //Addr3
fc = le16_to_cpu(header->frame_ctl);
if (GetFrDs((u16*)&fc) && GetToDs((u16 *)&fc))
{
memcpy((TempBuf+22), (pHeader+24), 6);
QosOffset = 30;
}else{
memset((TempBuf+22), 0, 6);
QosOffset = 24;
}
if((fc & 0x0088) == 0x0088){
memcpy((TempBuf+28), (pHeader+QosOffset), 2);
TempLen += 2;
//IV = pHeader + QosOffset + 2 + SNAP_SIZE + sizeof(u16) + 2;
IV = pHeader + QosOffset + 2 + 2;
}else{
IV = pHeader + QosOffset + 2;
//IV = pHeader + QosOffset + SNAP_SIZE + sizeof(u16) + 2;
}
TempBuf[TempLen-1] = (u8)(DataLen & 0xff);
TempBuf[TempLen-2] = (u8)((DataLen & 0xff00)>>8);
TempBuf[TempLen-4] = KeyIdx;
WAPI_DATA(WAPI_TX, "CalculateMic - KEY", MicKey, 16);
WAPI_DATA(WAPI_TX, "CalculateMic - IV", IV, 16);
WAPI_DATA(WAPI_TX, "CalculateMic - TempBuf", TempBuf, TempLen);
WAPI_DATA(WAPI_TX, "CalculateMic - pData", pData, DataLen);
WapiSMS4CalculateMic(MicKey, IV, TempBuf, TempLen,
pData, DataLen, MicBuffer, &MicLen);
if (MicLen != 16)
WAPI_TRACE(WAPI_ERR,"%s: MIC Length Error!!\n",__FUNCTION__);
WAPI_TRACE(WAPI_TX|WAPI_RX, "<=========%s\n", __FUNCTION__);
#endif
}
/* AddCount: 1 or 2.
* If overflow, return 1,
* else return 0.
*/
u8 WapiIncreasePN(u8 *PN, u8 AddCount)
{
u8 i;
if (NULL == PN)
return 1;
//YJ,test,091102
/*
if(AddCount == 2){
DBG_8192C("############################%s(): PN[0]=0x%x\n", __FUNCTION__, PN[0]);
if(PN[0] == 0x48){
PN[0] += AddCount;
return 1;
}else{
PN[0] += AddCount;
return 0;
}
}
*/
//YJ,test,091102,end
for (i=0; i<16; i++)
{
if (PN[i] + AddCount <= 0xff)
{
PN[i] += AddCount;
return 0;
}
else
{
PN[i] += AddCount;
AddCount = 1;
}
}
return 1;
}
void WapiGetLastRxUnicastPNForQoSData(
u8 UserPriority,
PRT_WAPI_STA_INFO pWapiStaInfo,
u8 *PNOut
)
{
WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
switch(UserPriority)
{
case 0:
case 3:
memcpy(PNOut,pWapiStaInfo->lastRxUnicastPNBEQueue,16);
break;
case 1:
case 2:
memcpy(PNOut,pWapiStaInfo->lastRxUnicastPNBKQueue,16);
break;
case 4:
case 5:
memcpy(PNOut,pWapiStaInfo->lastRxUnicastPNVIQueue,16);
break;
case 6:
case 7:
memcpy(PNOut,pWapiStaInfo->lastRxUnicastPNVOQueue,16);
break;
default:
WAPI_TRACE(WAPI_ERR, "%s: Unknown TID \n", __FUNCTION__);
break;
}
WAPI_TRACE(WAPI_RX, "<=========== %s\n", __FUNCTION__);
}
void WapiSetLastRxUnicastPNForQoSData(
u8 UserPriority,
u8 *PNIn,
PRT_WAPI_STA_INFO pWapiStaInfo
)
{
WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
switch(UserPriority)
{
case 0:
case 3:
memcpy(pWapiStaInfo->lastRxUnicastPNBEQueue,PNIn,16);
break;
case 1:
case 2:
memcpy(pWapiStaInfo->lastRxUnicastPNBKQueue,PNIn,16);
break;
case 4:
case 5:
memcpy(pWapiStaInfo->lastRxUnicastPNVIQueue,PNIn,16);
break;
case 6:
case 7:
memcpy(pWapiStaInfo->lastRxUnicastPNVOQueue,PNIn,16);
break;
default:
WAPI_TRACE(WAPI_ERR, "%s: Unknown TID \n", __FUNCTION__);
break;
}
WAPI_TRACE(WAPI_RX, "<=========== %s\n", __FUNCTION__);
}
/****************************************************************************
FALSE not RX-Reorder
TRUE do RX Reorder
add to support WAPI to N-mode
*****************************************************************************/
u8 WapiCheckPnInSwDecrypt(
_adapter *padapter,
struct sk_buff *pskb
)
{
u8 ret = false;
#if 0
struct ieee80211_hdr_3addr_qos *header;
u16 fc;
u8 *pDaddr, *pTaddr, *pRaddr;
header = (struct ieee80211_hdr_3addr_qos *)pskb->data;
pTaddr = header->addr2;
pRaddr = header->addr1;
fc = le16_to_cpu(header->frame_ctl);
if(GetToDs(&fc))
pDaddr = header->addr3;
else
pDaddr = header->addr1;
if ((_rtw_memcmp(pRaddr, padapter->pnetdev->dev_addr, ETH_ALEN) == 0)
&& ! (pDaddr)
&& (GetFrameType(&fc) == WIFI_QOS_DATA_TYPE))
//&& ieee->pHTInfo->bCurrentHTSupport &&
//ieee->pHTInfo->bCurRxReorderEnable)
ret = false;
else
ret = true;
#endif
WAPI_TRACE(WAPI_RX, "%s: return %d\n", __FUNCTION__, ret);
return ret;
}
int SecSMS4HeaderFillIV(_adapter *padapter, u8 *pxmitframe)
{
struct pkt_attrib *pattrib = &((struct xmit_frame*)pxmitframe)->attrib;
u8 * frame = ((struct xmit_frame *)pxmitframe)->buf_addr + TXDESC_OFFSET;
u8 *pSecHeader = NULL, *pos = NULL, *pRA = NULL;
u8 bPNOverflow = false, bFindMatchPeer = false, hdr_len = 0;
PWLAN_HEADER_WAPI_EXTENSION pWapiExt = NULL;
PRT_WAPI_T pWapiInfo = &padapter->wapiInfo;
PRT_WAPI_STA_INFO pWapiSta = NULL;
int ret = 0;
WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
return ret;
#if 0
hdr_len = sMacHdrLng;
if (GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE)
{
hdr_len += 2;
}
//hdr_len += SNAP_SIZE + sizeof(u16);
pos = skb_push(pskb, padapter->wapiInfo.extra_prefix_len);
memmove(pos, pos+padapter->wapiInfo.extra_prefix_len, hdr_len);
pSecHeader = pskb->data + hdr_len;
pWapiExt = (PWLAN_HEADER_WAPI_EXTENSION)pSecHeader;
pRA = pskb->data + 4;
WAPI_DATA(WAPI_TX, "FillIV - Before Fill IV", pskb->data, pskb->len);
//Address 1 is always receiver's address
if( IS_MCAST(pRA) ){
if(!pWapiInfo->wapiTxMsk.bTxEnable){
WAPI_TRACE(WAPI_ERR,"%s: bTxEnable = 0!!\n",__FUNCTION__);
return -2;
}
if(pWapiInfo->wapiTxMsk.keyId <= 1){
pWapiExt->KeyIdx = pWapiInfo->wapiTxMsk.keyId;
pWapiExt->Reserved = 0;
bPNOverflow = WapiIncreasePN(pWapiInfo->lastTxMulticastPN, 1);
memcpy(pWapiExt->PN, pWapiInfo->lastTxMulticastPN, 16);
if (bPNOverflow){
// Update MSK Notification.
WAPI_TRACE(WAPI_ERR,"===============>%s():multicast PN overflow\n",__FUNCTION__);
rtw_wapi_app_event_handler(padapter,NULL,0,pRA, false, false, true, 0, false);
}
}else{
WAPI_TRACE(WAPI_ERR,"%s: Invalid Wapi Multicast KeyIdx!!\n",__FUNCTION__);
ret = -3;
}
}
else{
list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
if(!memcmp(pWapiSta->PeerMacAddr,pRA,6)){
bFindMatchPeer = true;
break;
}
}
if (bFindMatchPeer){
if((!pWapiSta->wapiUskUpdate.bTxEnable) && (!pWapiSta->wapiUsk.bTxEnable)){
WAPI_TRACE(WAPI_ERR,"%s: bTxEnable = 0!!\n",__FUNCTION__);
return -4;
}
if (pWapiSta->wapiUsk.keyId <= 1){
if(pWapiSta->wapiUskUpdate.bTxEnable)
pWapiExt->KeyIdx = pWapiSta->wapiUskUpdate.keyId;
else
pWapiExt->KeyIdx = pWapiSta->wapiUsk.keyId;
pWapiExt->Reserved = 0;
bPNOverflow = WapiIncreasePN(pWapiSta->lastTxUnicastPN, 2);
memcpy(pWapiExt->PN, pWapiSta->lastTxUnicastPN, 16);
if (bPNOverflow){
// Update USK Notification.
WAPI_TRACE(WAPI_ERR,"===============>%s():unicast PN overflow\n",__FUNCTION__);
rtw_wapi_app_event_handler(padapter,NULL,0,pWapiSta->PeerMacAddr, false, true, false, 0, false);
}
}else{
WAPI_TRACE(WAPI_ERR,"%s: Invalid Wapi Unicast KeyIdx!!\n",__FUNCTION__);
ret = -5;
}
}
else{
WAPI_TRACE(WAPI_ERR,"%s: Can not find Peer Sta "MAC_FMT"!!\n",__FUNCTION__, MAC_ARG(pRA));
ret = -6;
}
}
WAPI_DATA(WAPI_TX, "FillIV - After Fill IV", pskb->data, pskb->len);
WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
return ret;
#endif
}
// WAPI SW Enc: must have done Coalesce!
void SecSWSMS4Encryption(
_adapter *padapter,
u8 * pxmitframe
)
{
PRT_WAPI_T pWapiInfo = &padapter->wapiInfo;
PRT_WAPI_STA_INFO pWapiSta = NULL;
u8 *pframe = ((struct xmit_frame*)pxmitframe)->buf_addr + TXDESC_SIZE;
struct pkt_attrib *pattrib = &((struct xmit_frame*)pxmitframe)->attrib;
u8 *SecPtr = NULL, *pRA, *pMicKey = NULL, *pDataKey = NULL, *pIV = NULL;
u8 IVOffset, DataOffset, bFindMatchPeer = false, KeyIdx = 0, MicBuffer[16];
u16 OutputLength;
WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
WAPI_TRACE(WAPI_TX,"hdrlen: %d \n",pattrib->hdrlen);
return;
DataOffset = pattrib->hdrlen + pattrib->iv_len;
pRA = pframe + 4;
if( IS_MCAST(pRA) ){
KeyIdx = pWapiInfo->wapiTxMsk.keyId;
pIV = pWapiInfo->lastTxMulticastPN;
pMicKey = pWapiInfo->wapiTxMsk.micKey;
pDataKey = pWapiInfo->wapiTxMsk.dataKey;
}else{
if (!list_empty(&(pWapiInfo->wapiSTAUsedList))){
list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
if (0 == memcmp(pWapiSta->PeerMacAddr, pRA, 6)){
bFindMatchPeer = true;
break;
}
}
if (bFindMatchPeer){
if (pWapiSta->wapiUskUpdate.bTxEnable){
KeyIdx = pWapiSta->wapiUskUpdate.keyId;
WAPI_TRACE(WAPI_TX, "%s(): Use update USK!! KeyIdx=%d\n", __FUNCTION__, KeyIdx);
pIV = pWapiSta->lastTxUnicastPN;
pMicKey = pWapiSta->wapiUskUpdate.micKey;
pDataKey = pWapiSta->wapiUskUpdate.dataKey;
}else{
KeyIdx = pWapiSta->wapiUsk.keyId;
WAPI_TRACE(WAPI_TX, "%s(): Use USK!! KeyIdx=%d\n", __FUNCTION__, KeyIdx);
pIV = pWapiSta->lastTxUnicastPN;
pMicKey = pWapiSta->wapiUsk.micKey;
pDataKey = pWapiSta->wapiUsk.dataKey;
}
}else{
WAPI_TRACE(WAPI_ERR,"%s: Can not find Peer Sta!!\n",__FUNCTION__);
return;
}
}else{
WAPI_TRACE(WAPI_ERR,"%s: wapiSTAUsedList is empty!!\n",__FUNCTION__);
return;
}
}
SecPtr = pframe;
SecCalculateMicSMS4(KeyIdx, pMicKey, SecPtr, (SecPtr+DataOffset), pattrib->pktlen, MicBuffer);
WAPI_DATA(WAPI_TX, "Encryption - MIC", MicBuffer, padapter->wapiInfo.extra_postfix_len);
memcpy(pframe+pattrib->hdrlen+pattrib->iv_len+pattrib->pktlen-pattrib->icv_len,
(u8 *)MicBuffer,
padapter->wapiInfo.extra_postfix_len
);
WapiSMS4Encryption(pDataKey, pIV, (SecPtr+DataOffset),pattrib->pktlen+pattrib->icv_len, (SecPtr+DataOffset), &OutputLength);
WAPI_DATA(WAPI_TX, "Encryption - After SMS4 encryption",pframe,pattrib->hdrlen+pattrib->iv_len+pattrib->pktlen);
WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
}
u8 SecSWSMS4Decryption(
_adapter *padapter,
u8 *precv_frame,
struct recv_priv *precv_priv
)
{
PRT_WAPI_T pWapiInfo = &padapter->wapiInfo;
struct recv_frame_hdr *precv_hdr;
PRT_WAPI_STA_INFO pWapiSta = NULL;
u8 IVOffset, DataOffset, bFindMatchPeer = false, bUseUpdatedKey = false;
u8 KeyIdx, MicBuffer[16], lastRxPNforQoS[16];
u8 *pRA, *pTA, *pMicKey, *pDataKey, *pLastRxPN, *pRecvPN, *pSecData, *pRecvMic, *pos;
u8 TID = 0;
u16 OutputLength, DataLen;
u8 bQosData;
struct sk_buff * pskb;
WAPI_TRACE(WAPI_RX, "=========>%s\n", __FUNCTION__);
return 0;
precv_hdr = &((union recv_frame*)precv_frame)->u.hdr;
pskb = (struct sk_buff *)(precv_hdr->rx_data);
precv_hdr->bWapiCheckPNInDecrypt = WapiCheckPnInSwDecrypt(padapter, pskb);
WAPI_TRACE(WAPI_RX, "=========>%s: check PN %d\n", __FUNCTION__,precv_hdr->bWapiCheckPNInDecrypt);
WAPI_DATA(WAPI_RX, "Decryption - Before decryption", pskb->data, pskb->len);
IVOffset = sMacHdrLng;
bQosData = GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE;
if (bQosData){
IVOffset += 2;
}
//if(GetHTC())
// IVOffset += 4;
//IVOffset += SNAP_SIZE + sizeof(u16);
DataOffset = IVOffset + padapter->wapiInfo.extra_prefix_len;
pRA = pskb->data + 4;
pTA = pskb->data + 10;
KeyIdx = *(pskb->data + IVOffset);
pRecvPN = pskb->data + IVOffset + 2;
pSecData = pskb->data + DataOffset;
DataLen = pskb->len - DataOffset;
pRecvMic = pskb->data + pskb->len - padapter->wapiInfo.extra_postfix_len;
TID = GetTid(pskb->data);
if (!list_empty(&(pWapiInfo->wapiSTAUsedList))){
list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
if (0 == memcmp(pWapiSta->PeerMacAddr, pTA, 6)){
bFindMatchPeer = true;
break;
}
}
}
if (!bFindMatchPeer){
WAPI_TRACE(WAPI_ERR, "%s: Can not find Peer Sta "MAC_FMT" for Key Info!!!\n", __FUNCTION__, MAC_ARG(pTA));
return false;
}
if( IS_MCAST(pRA) ){
WAPI_TRACE(WAPI_RX, "%s: Multicast decryption !!!\n", __FUNCTION__);
if (pWapiSta->wapiMsk.keyId == KeyIdx && pWapiSta->wapiMsk.bSet){
pLastRxPN = pWapiSta->lastRxMulticastPN;
if (!WapiComparePN(pRecvPN, pLastRxPN)){
WAPI_TRACE(WAPI_ERR, "%s: MSK PN is not larger than last, Dropped!!!\n", __FUNCTION__);
WAPI_DATA(WAPI_ERR, "pRecvPN:", pRecvPN, 16);
WAPI_DATA(WAPI_ERR, "pLastRxPN:", pLastRxPN, 16);
return false;
}
memcpy(pLastRxPN, pRecvPN, 16);
pMicKey = pWapiSta->wapiMsk.micKey;
pDataKey = pWapiSta->wapiMsk.dataKey;
}else if (pWapiSta->wapiMskUpdate.keyId == KeyIdx && pWapiSta->wapiMskUpdate.bSet){
WAPI_TRACE(WAPI_RX, "%s: Use Updated MSK for Decryption !!!\n", __FUNCTION__);
bUseUpdatedKey = true;
memcpy(pWapiSta->lastRxMulticastPN, pRecvPN, 16);
pMicKey = pWapiSta->wapiMskUpdate.micKey;
pDataKey = pWapiSta->wapiMskUpdate.dataKey;
}else{
WAPI_TRACE(WAPI_ERR, "%s: Can not find MSK with matched KeyIdx(%d), Dropped !!!\n", __FUNCTION__,KeyIdx);
return false;
}
}
else{
WAPI_TRACE(WAPI_RX, "%s: Unicast decryption !!!\n", __FUNCTION__);
if (pWapiSta->wapiUsk.keyId == KeyIdx && pWapiSta->wapiUsk.bSet){
WAPI_TRACE(WAPI_RX, "%s: Use USK for Decryption!!!\n", __FUNCTION__);
if(precv_hdr->bWapiCheckPNInDecrypt){
if(GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE){
WapiGetLastRxUnicastPNForQoSData(TID, pWapiSta, lastRxPNforQoS);
pLastRxPN = lastRxPNforQoS;
}else{
pLastRxPN = pWapiSta->lastRxUnicastPN;
}
if (!WapiComparePN(pRecvPN, pLastRxPN)){
return false;
}
if(bQosData){
WapiSetLastRxUnicastPNForQoSData(TID, pRecvPN, pWapiSta);
}else{
memcpy(pWapiSta->lastRxUnicastPN, pRecvPN, 16);
}
}else{
memcpy(precv_hdr->WapiTempPN,pRecvPN,16);
}
if (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE))
{
if ((pRecvPN[0] & 0x1) == 0){
WAPI_TRACE(WAPI_ERR, "%s: Rx USK PN is not odd when Infra STA mode, Dropped !!!\n", __FUNCTION__);
return false;
}
}
pMicKey = pWapiSta->wapiUsk.micKey;
pDataKey = pWapiSta->wapiUsk.dataKey;
}
else if (pWapiSta->wapiUskUpdate.keyId == KeyIdx && pWapiSta->wapiUskUpdate.bSet ){
WAPI_TRACE(WAPI_RX, "%s: Use Updated USK for Decryption!!!\n", __FUNCTION__);
if(pWapiSta->bAuthenticatorInUpdata)
bUseUpdatedKey = true;
else
bUseUpdatedKey = false;
if(bQosData){
WapiSetLastRxUnicastPNForQoSData(TID, pRecvPN, pWapiSta);
}else{
memcpy(pWapiSta->lastRxUnicastPN, pRecvPN, 16);
}
pMicKey = pWapiSta->wapiUskUpdate.micKey;
pDataKey = pWapiSta->wapiUskUpdate.dataKey;
}else{
WAPI_TRACE(WAPI_ERR, "%s: No valid USK!!!KeyIdx=%d pWapiSta->wapiUsk.keyId=%d pWapiSta->wapiUskUpdate.keyId=%d\n", __FUNCTION__, KeyIdx, pWapiSta->wapiUsk.keyId, pWapiSta->wapiUskUpdate.keyId);
//dump_buf(pskb->data,pskb->len);
return false;
}
}
WAPI_DATA(WAPI_RX, "Decryption - DataKey", pDataKey, 16);
WAPI_DATA(WAPI_RX, "Decryption - IV", pRecvPN, 16);
WapiSMS4Decryption(pDataKey, pRecvPN, pSecData, DataLen, pSecData, &OutputLength);
if (OutputLength != DataLen)
WAPI_TRACE(WAPI_ERR, "%s: Output Length Error!!!!\n", __FUNCTION__);
WAPI_DATA(WAPI_RX, "Decryption - After decryption", pskb->data, pskb->len);
DataLen -= padapter->wapiInfo.extra_postfix_len;
SecCalculateMicSMS4(KeyIdx, pMicKey, pskb->data, pSecData, DataLen, MicBuffer);
WAPI_DATA(WAPI_RX, "Decryption - MIC received", pRecvMic, SMS4_MIC_LEN);
WAPI_DATA(WAPI_RX, "Decryption - MIC calculated", MicBuffer, SMS4_MIC_LEN);
if (0 == memcmp(MicBuffer, pRecvMic, padapter->wapiInfo.extra_postfix_len)){
WAPI_TRACE(WAPI_RX, "%s: Check MIC OK!!\n", __FUNCTION__);
if (bUseUpdatedKey){
// delete the old key
if ( IS_MCAST(pRA) ){
WAPI_TRACE(WAPI_API, "%s(): AE use new update MSK!!\n", __FUNCTION__);
pWapiSta->wapiMsk.keyId = pWapiSta->wapiMskUpdate.keyId;
memcpy(pWapiSta->wapiMsk.dataKey, pWapiSta->wapiMskUpdate.dataKey, 16);
memcpy(pWapiSta->wapiMsk.micKey, pWapiSta->wapiMskUpdate.micKey, 16);
pWapiSta->wapiMskUpdate.bTxEnable = pWapiSta->wapiMskUpdate.bSet = false;
}else{
WAPI_TRACE(WAPI_API, "%s(): AE use new update USK!!\n", __FUNCTION__);
pWapiSta->wapiUsk.keyId = pWapiSta->wapiUskUpdate.keyId;
memcpy(pWapiSta->wapiUsk.dataKey, pWapiSta->wapiUskUpdate.dataKey, 16);
memcpy(pWapiSta->wapiUsk.micKey, pWapiSta->wapiUskUpdate.micKey, 16);
pWapiSta->wapiUskUpdate.bTxEnable = pWapiSta->wapiUskUpdate.bSet = false;
}
}
}else{
WAPI_TRACE(WAPI_ERR, "%s: Check MIC Error, Dropped !!!!\n", __FUNCTION__);
return false;
}
pos = pskb->data;
memmove(pos+padapter->wapiInfo.extra_prefix_len, pos, IVOffset);
skb_pull(pskb, padapter->wapiInfo.extra_prefix_len);
WAPI_TRACE(WAPI_RX, "<=========%s\n", __FUNCTION__);
return true;
}
u32 rtw_sms4_encrypt(_adapter *padapter, u8 *pxmitframe)
{
u8 *pframe;
u32 res = _SUCCESS;
WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable))
{
WAPI_TRACE(WAPI_TX, "<========== %s, WAPI not supported or enabled!\n", __FUNCTION__);
return _FAIL;
}
if(((struct xmit_frame*)pxmitframe)->buf_addr==NULL)
return _FAIL;
pframe = ((struct xmit_frame*)pxmitframe)->buf_addr + TXDESC_OFFSET;
SecSWSMS4Encryption(padapter, pxmitframe);
WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
return res;
}
u32 rtw_sms4_decrypt(_adapter *padapter, u8 *precvframe)
{
u8 *pframe;
u32 res = _SUCCESS;
WAPI_TRACE(WAPI_RX, "=========>%s\n", __FUNCTION__);
if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable))
{
WAPI_TRACE(WAPI_RX, "<========== %s, WAPI not supported or enabled!\n", __FUNCTION__);
return _FAIL;
}
//drop packet when hw decrypt fail
//return tempraily
return _FAIL;
//pframe=(unsigned char *)((union recv_frame*)precvframe)->u.hdr.rx_data;
if (false == SecSWSMS4Decryption(padapter, precvframe, &padapter->recvpriv))
{
WAPI_TRACE(WAPI_ERR, "%s():SMS4 decrypt frame error\n",__FUNCTION__);
return _FAIL;
}
WAPI_TRACE(WAPI_RX, "<=========%s\n", __FUNCTION__);
return res;
}
#else
u32 rtw_sms4_encrypt(_adapter *padapter, u8 *pxmitframe)
{
WAPI_TRACE(WAPI_TX, "=========>Dummy %s\n", __FUNCTION__);
WAPI_TRACE(WAPI_TX, "<=========Dummy %s\n", __FUNCTION__);
return _SUCCESS;
}
u32 rtw_sms4_decrypt(_adapter *padapter, u8 *precvframe)
{
WAPI_TRACE(WAPI_RX, "=========>Dummy %s\n", __FUNCTION__);
WAPI_TRACE(WAPI_RX, "<=========Dummy %s\n", __FUNCTION__);
return _SUCCESS;
}
#endif
#endif

1897
core/rtw_wlan_util.c Normal file → Executable file

File diff suppressed because it is too large Load diff

3434
core/rtw_xmit.c Normal file → Executable file

File diff suppressed because it is too large Load diff

155
hal/HalPwrSeqCmd.c Normal file → Executable file
View file

@ -33,100 +33,155 @@ Major Change History:
2011-07-07 Roger Create.
--*/
#include <HalPwrSeqCmd.h>
#ifdef CONFIG_SDIO_HCI
#include <sdio_ops.h>
#elif defined(CONFIG_GSPI_HCI)
#include <gspi_ops.h>
#endif
/* Description: */
/* This routine deals with the Power Configuration CMDs parsing
* for RTL8723/RTL8188E Series IC.
* Assumption:
* We should follow specific format which was released from HW SD.
*/
u8 HalPwrSeqCmdParsing(struct adapter *padapter, u8 cut_vers, u8 fab_vers,
u8 ifacetype, struct wl_pwr_cfg pwrseqcmd[])
//
// Description:
// This routine deal with the Power Configuration CMDs parsing for RTL8723/RTL8188E Series IC.
//
// Assumption:
// We should follow specific format which was released from HW SD.
//
// 2011.07.07, added by Roger.
//
u8 HalPwrSeqCmdParsing(
PADAPTER padapter,
u8 CutVersion,
u8 FabVersion,
u8 InterfaceType,
WLAN_PWR_CFG PwrSeqCmd[])
{
struct wl_pwr_cfg pwrcfgcmd = {0};
u8 poll_bit = false;
u32 aryidx = 0;
WLAN_PWR_CFG PwrCfgCmd = {0};
u8 bPollingBit = _FALSE;
u32 AryIdx = 0;
u8 value = 0;
u32 offset = 0;
u32 poll_count = 0; /* polling autoload done. */
u32 max_poll_count = 5000;
u32 pollingCount = 0; // polling autoload done.
u32 maxPollingCnt = 5000;
do {
pwrcfgcmd = pwrseqcmd[aryidx];
PwrCfgCmd = PwrSeqCmd[AryIdx];
RT_TRACE(_module_hal_init_c_ , _drv_info_,
("HalPwrSeqCmdParsing: offset(%#x) cut_msk(%#x) fab_msk(%#x) interface_msk(%#x) base(%#x) cmd(%#x) msk(%#x) value(%#x)\n",
GET_PWR_CFG_OFFSET(pwrcfgcmd),
GET_PWR_CFG_CUT_MASK(pwrcfgcmd),
GET_PWR_CFG_FAB_MASK(pwrcfgcmd),
GET_PWR_CFG_INTF_MASK(pwrcfgcmd),
GET_PWR_CFG_BASE(pwrcfgcmd),
GET_PWR_CFG_CMD(pwrcfgcmd),
GET_PWR_CFG_MASK(pwrcfgcmd),
GET_PWR_CFG_VALUE(pwrcfgcmd)));
GET_PWR_CFG_OFFSET(PwrCfgCmd),
GET_PWR_CFG_CUT_MASK(PwrCfgCmd),
GET_PWR_CFG_FAB_MASK(PwrCfgCmd),
GET_PWR_CFG_INTF_MASK(PwrCfgCmd),
GET_PWR_CFG_BASE(PwrCfgCmd),
GET_PWR_CFG_CMD(PwrCfgCmd),
GET_PWR_CFG_MASK(PwrCfgCmd),
GET_PWR_CFG_VALUE(PwrCfgCmd)));
/* 2 Only Handle the command whose FAB, CUT, and Interface are matched */
if ((GET_PWR_CFG_FAB_MASK(pwrcfgcmd) & fab_vers) &&
(GET_PWR_CFG_CUT_MASK(pwrcfgcmd) & cut_vers) &&
(GET_PWR_CFG_INTF_MASK(pwrcfgcmd) & ifacetype)) {
switch (GET_PWR_CFG_CMD(pwrcfgcmd)) {
//2 Only Handle the command whose FAB, CUT, and Interface are matched
if ((GET_PWR_CFG_FAB_MASK(PwrCfgCmd) & FabVersion) &&
(GET_PWR_CFG_CUT_MASK(PwrCfgCmd) & CutVersion) &&
(GET_PWR_CFG_INTF_MASK(PwrCfgCmd) & InterfaceType))
{
switch (GET_PWR_CFG_CMD(PwrCfgCmd))
{
case PWR_CMD_READ:
RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_READ\n"));
break;
case PWR_CMD_WRITE:
RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_WRITE\n"));
offset = GET_PWR_CFG_OFFSET(pwrcfgcmd);
offset = GET_PWR_CFG_OFFSET(PwrCfgCmd);
/* Read the value from system register */
#ifdef CONFIG_SDIO_HCI
//
// <Roger_Notes> We should deal with interface specific address mapping for some interfaces, e.g., SDIO interface
// 2011.07.07.
//
if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
{
// Read Back SDIO Local value
value = SdioLocalCmd52Read1Byte(padapter, offset);
value &= ~(GET_PWR_CFG_MASK(PwrCfgCmd));
value |= (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd));
// Write Back SDIO Local value
SdioLocalCmd52Write1Byte(padapter, offset, value);
}
else
#endif
{
#ifdef CONFIG_GSPI_HCI
if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
offset = SPI_LOCAL_OFFSET | offset;
#endif
// Read the value from system register
value = rtw_read8(padapter, offset);
value &= ~(GET_PWR_CFG_MASK(pwrcfgcmd));
value |= (GET_PWR_CFG_VALUE(pwrcfgcmd) & GET_PWR_CFG_MASK(pwrcfgcmd));
value &= ~(GET_PWR_CFG_MASK(PwrCfgCmd));
value |= (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd));
/* Write the value back to system register */
// Write the value back to sytem register
rtw_write8(padapter, offset, value);
}
break;
case PWR_CMD_POLLING:
RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_POLLING\n"));
poll_bit = false;
offset = GET_PWR_CFG_OFFSET(pwrcfgcmd);
bPollingBit = _FALSE;
offset = GET_PWR_CFG_OFFSET(PwrCfgCmd);
#ifdef CONFIG_GSPI_HCI
if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
offset = SPI_LOCAL_OFFSET | offset;
#endif
do {
#ifdef CONFIG_SDIO_HCI
if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
value = SdioLocalCmd52Read1Byte(padapter, offset);
else
#endif
value = rtw_read8(padapter, offset);
value &= GET_PWR_CFG_MASK(pwrcfgcmd);
if (value == (GET_PWR_CFG_VALUE(pwrcfgcmd) & GET_PWR_CFG_MASK(pwrcfgcmd)))
poll_bit = true;
value &= GET_PWR_CFG_MASK(PwrCfgCmd);
if (value == (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd)))
bPollingBit = _TRUE;
else
rtw_udelay_os(10);
if (poll_count++ > max_poll_count) {
DBG_88E("Fail to polling Offset[%#x]\n", offset);
return false;
if (pollingCount++ > maxPollingCnt) {
DBG_871X("Fail to polling Offset[%#x]\n", offset);
return _FALSE;
}
} while (!poll_bit);
} while (!bPollingBit);
break;
case PWR_CMD_DELAY:
RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_DELAY\n"));
if (GET_PWR_CFG_VALUE(pwrcfgcmd) == PWRSEQ_DELAY_US)
rtw_udelay_os(GET_PWR_CFG_OFFSET(pwrcfgcmd));
if (GET_PWR_CFG_VALUE(PwrCfgCmd) == PWRSEQ_DELAY_US)
rtw_udelay_os(GET_PWR_CFG_OFFSET(PwrCfgCmd));
else
rtw_udelay_os(GET_PWR_CFG_OFFSET(pwrcfgcmd)*1000);
rtw_udelay_os(GET_PWR_CFG_OFFSET(PwrCfgCmd)*1000);
break;
case PWR_CMD_END:
/* When this command is parsed, end the process */
// When this command is parsed, end the process
RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_END\n"));
return true;
return _TRUE;
break;
default:
RT_TRACE(_module_hal_init_c_ , _drv_err_, ("HalPwrSeqCmdParsing: Unknown CMD!!\n"));
break;
}
}
aryidx++;/* Add Array Index */
} while (1);
return true;
AryIdx++;//Add Array Index
}while(1);
return _TRUE;
}

1561
hal/OUTSRC/HalPhyRf.c Executable file

File diff suppressed because it is too large Load diff

70
hal/OUTSRC/HalPhyRf.h Executable file
View file

@ -0,0 +1,70 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __HAL_PHY_RF_H__
#define __HAL_PHY_RF_H__
#if(DM_ODM_SUPPORT_TYPE & ODM_MP)
#define MAX_TOLERANCE 5
#define IQK_DELAY_TIME 1 //ms
//
// BB/MAC/RF other monitor API
//
void PHY_SetMonitorMode8192C(IN PADAPTER pAdapter,
IN BOOLEAN bEnableMonitorMode );
//
// IQ calibrate
//
void
PHY_IQCalibrate_8192C( IN PADAPTER pAdapter,
IN BOOLEAN bReCovery);
//
// LC calibrate
//
void
PHY_LCCalibrate_8192C( IN PADAPTER pAdapter);
//
// AP calibrate
//
void
PHY_APCalibrate_8192C( IN PADAPTER pAdapter,
IN s1Byte delta);
#endif
#define ODM_TARGET_CHNL_NUM_2G_5G 59
VOID
ODM_ResetIQKResult(
IN PDM_ODM_T pDM_Odm
);
u1Byte
ODM_GetRightChnlPlaceforIQK(
IN u1Byte chnl
);
#endif // #ifndef __HAL_PHY_RF_H__

12585
hal/OUTSRC/odm.c Executable file

File diff suppressed because it is too large Load diff

2063
hal/OUTSRC/odm.h Executable file

File diff suppressed because it is too large Load diff

1198
hal/OUTSRC/odm_HWConfig.c Executable file

File diff suppressed because it is too large Load diff

195
hal/OUTSRC/odm_HWConfig.h Executable file
View file

@ -0,0 +1,195 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __HALHWOUTSRC_H__
#define __HALHWOUTSRC_H__
//============================================================
// Definition
//============================================================
//
//-----------------------------------------------------------
// CCK Rates, TxHT = 0
#define DESC92C_RATE1M 0x00
#define DESC92C_RATE2M 0x01
#define DESC92C_RATE5_5M 0x02
#define DESC92C_RATE11M 0x03
// OFDM Rates, TxHT = 0
#define DESC92C_RATE6M 0x04
#define DESC92C_RATE9M 0x05
#define DESC92C_RATE12M 0x06
#define DESC92C_RATE18M 0x07
#define DESC92C_RATE24M 0x08
#define DESC92C_RATE36M 0x09
#define DESC92C_RATE48M 0x0a
#define DESC92C_RATE54M 0x0b
// MCS Rates, TxHT = 1
#define DESC92C_RATEMCS0 0x0c
#define DESC92C_RATEMCS1 0x0d
#define DESC92C_RATEMCS2 0x0e
#define DESC92C_RATEMCS3 0x0f
#define DESC92C_RATEMCS4 0x10
#define DESC92C_RATEMCS5 0x11
#define DESC92C_RATEMCS6 0x12
#define DESC92C_RATEMCS7 0x13
#define DESC92C_RATEMCS8 0x14
#define DESC92C_RATEMCS9 0x15
#define DESC92C_RATEMCS10 0x16
#define DESC92C_RATEMCS11 0x17
#define DESC92C_RATEMCS12 0x18
#define DESC92C_RATEMCS13 0x19
#define DESC92C_RATEMCS14 0x1a
#define DESC92C_RATEMCS15 0x1b
#define DESC92C_RATEMCS15_SG 0x1c
#define DESC92C_RATEMCS32 0x20
//============================================================
// structure and define
//============================================================
typedef struct _Phy_Rx_AGC_Info
{
#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
u1Byte gain:7,trsw:1;
#else
u1Byte trsw:1,gain:7;
#endif
} PHY_RX_AGC_INFO_T,*pPHY_RX_AGC_INFO_T;
typedef struct _Phy_Status_Rpt_8192cd
{
PHY_RX_AGC_INFO_T path_agc[2];
u1Byte ch_corr[2];
u1Byte cck_sig_qual_ofdm_pwdb_all;
u1Byte cck_agc_rpt_ofdm_cfosho_a;
u1Byte cck_rpt_b_ofdm_cfosho_b;
u1Byte rsvd_1;//ch_corr_msb;
u1Byte noise_power_db_msb;
u1Byte path_cfotail[2];
u1Byte pcts_mask[2];
s1Byte stream_rxevm[2];
u1Byte path_rxsnr[2];
u1Byte noise_power_db_lsb;
u1Byte rsvd_2[3];
u1Byte stream_csi[2];
u1Byte stream_target_csi[2];
s1Byte sig_evm;
u1Byte rsvd_3;
#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
u1Byte antsel_rx_keep_2:1; //ex_intf_flg:1;
u1Byte sgi_en:1;
u1Byte rxsc:2;
u1Byte idle_long:1;
u1Byte r_ant_train_en:1;
u1Byte ant_sel_b:1;
u1Byte ant_sel:1;
#else // _BIG_ENDIAN_
u1Byte ant_sel:1;
u1Byte ant_sel_b:1;
u1Byte r_ant_train_en:1;
u1Byte idle_long:1;
u1Byte rxsc:2;
u1Byte sgi_en:1;
u1Byte antsel_rx_keep_2:1; //ex_intf_flg:1;
#endif
} PHY_STATUS_RPT_8192CD_T,*PPHY_STATUS_RPT_8192CD_T;
typedef struct _Phy_Status_Rpt_8195
{
PHY_RX_AGC_INFO_T path_agc[2];
u1Byte ch_num[2];
u1Byte cck_sig_qual_ofdm_pwdb_all;
u1Byte cck_agc_rpt_ofdm_cfosho_a;
u1Byte cck_bb_pwr_ofdm_cfosho_b;
u1Byte cck_rx_path; //CCK_RX_PATH [3:0] (with regA07[3:0] definition)
u1Byte rsvd_1;
u1Byte path_cfotail[2];
u1Byte pcts_mask[2];
s1Byte stream_rxevm[2];
u1Byte path_rxsnr[2];
u1Byte rsvd_2[2];
u1Byte stream_snr[2];
u1Byte stream_csi[2];
u1Byte rsvd_3[2];
s1Byte sig_evm;
u1Byte rsvd_4;
#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
u1Byte antidx_anta:3;
u1Byte antidx_antb:3;
u1Byte rsvd_5:2;
#else // _BIG_ENDIAN_
u1Byte rsvd_5:2;
u1Byte antidx_antb:3;
u1Byte antidx_anta:3;
#endif
} PHY_STATUS_RPT_8195_T,*pPHY_STATUS_RPT_8195_T;
VOID
odm_Init_RSSIForDM(
IN OUT PDM_ODM_T pDM_Odm
);
VOID
ODM_PhyStatusQuery(
IN OUT PDM_ODM_T pDM_Odm,
OUT PODM_PHY_INFO_T pPhyInfo,
IN pu1Byte pPhyStatus,
IN PODM_PACKET_INFO_T pPktinfo
);
VOID
ODM_MacStatusQuery(
IN OUT PDM_ODM_T pDM_Odm,
IN pu1Byte pMacStatus,
IN u1Byte MacID,
IN BOOLEAN bPacketMatchBSSID,
IN BOOLEAN bPacketToSelf,
IN BOOLEAN bPacketBeacon
);
#if (DM_ODM_SUPPORT_TYPE & (ODM_MP|ODM_CE|ODM_AP))
HAL_STATUS
ODM_ConfigRFWithHeaderFile(
IN PDM_ODM_T pDM_Odm,
IN ODM_RF_RADIO_PATH_E Content,
IN ODM_RF_RADIO_PATH_E eRFPath
);
HAL_STATUS
ODM_ConfigBBWithHeaderFile(
IN PDM_ODM_T pDM_Odm,
IN ODM_BB_Config_Type ConfigType
);
HAL_STATUS
ODM_ConfigMACWithHeaderFile(
IN PDM_ODM_T pDM_Odm
);
#endif
#endif

55
hal/OUTSRC/odm_RegDefine11AC.h Executable file
View file

@ -0,0 +1,55 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __ODM_REGDEFINE11AC_H__
#define __ODM_REGDEFINE11AC_H__
//2 RF REG LIST
//2 BB REG LIST
//PAGE 8
//PAGE 9
#define ODM_REG_OFDM_FA_RST_11AC 0x9A4
//PAGE A
#define ODM_REG_CCK_CCA_11AC 0xA0A
#define ODM_REG_CCK_FA_RST_11AC 0xA2C
#define ODM_REG_CCK_FA_11AC 0xA5C
//PAGE C
#define ODM_REG_IGI_A_11AC 0xC50
//PAGE E
#define ODM_REG_IGI_B_11AC 0xE50
//PAGE F
#define ODM_REG_OFDM_FA_11AC 0xF48
//2 MAC REG LIST
//DIG Related
#define ODM_BIT_IGI_11AC 0xFFFFFFFF
#endif

172
hal/OUTSRC/odm_RegDefine11N.h Executable file
View file

@ -0,0 +1,172 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __ODM_REGDEFINE11N_H__
#define __ODM_REGDEFINE11N_H__
//2 RF REG LIST
#define ODM_REG_RF_MODE_11N 0x00
#define ODM_REG_RF_0B_11N 0x0B
#define ODM_REG_CHNBW_11N 0x18
#define ODM_REG_T_METER_11N 0x24
#define ODM_REG_RF_25_11N 0x25
#define ODM_REG_RF_26_11N 0x26
#define ODM_REG_RF_27_11N 0x27
#define ODM_REG_RF_2B_11N 0x2B
#define ODM_REG_RF_2C_11N 0x2C
#define ODM_REG_RXRF_A3_11N 0x3C
#define ODM_REG_T_METER_92D_11N 0x42
#define ODM_REG_T_METER_88E_11N 0x42
//2 BB REG LIST
//PAGE 8
#define ODM_REG_BB_CTRL_11N 0x800
#define ODM_REG_RF_PIN_11N 0x804
#define ODM_REG_PSD_CTRL_11N 0x808
#define ODM_REG_TX_ANT_CTRL_11N 0x80C
#define ODM_REG_BB_PWR_SAV5_11N 0x818
#define ODM_REG_CCK_RPT_FORMAT_11N 0x824
#define ODM_REG_RX_DEFUALT_A_11N 0x858
#define ODM_REG_RX_DEFUALT_B_11N 0x85A
#define ODM_REG_BB_PWR_SAV3_11N 0x85C
#define ODM_REG_ANTSEL_CTRL_11N 0x860
#define ODM_REG_RX_ANT_CTRL_11N 0x864
#define ODM_REG_PIN_CTRL_11N 0x870
#define ODM_REG_BB_PWR_SAV1_11N 0x874
#define ODM_REG_ANTSEL_PATH_11N 0x878
#define ODM_REG_BB_3WIRE_11N 0x88C
#define ODM_REG_SC_CNT_11N 0x8C4
#define ODM_REG_PSD_DATA_11N 0x8B4
//PAGE 9
#define ODM_REG_ANT_MAPPING1_11N 0x914
#define ODM_REG_ANT_MAPPING2_11N 0x918
//PAGE A
#define ODM_REG_CCK_ANTDIV_PARA1_11N 0xA00
#define ODM_REG_CCK_CCA_11N 0xA0A
#define ODM_REG_CCK_ANTDIV_PARA2_11N 0xA0C
#define ODM_REG_CCK_ANTDIV_PARA3_11N 0xA10
#define ODM_REG_CCK_ANTDIV_PARA4_11N 0xA14
#define ODM_REG_CCK_FILTER_PARA1_11N 0xA22
#define ODM_REG_CCK_FILTER_PARA2_11N 0xA23
#define ODM_REG_CCK_FILTER_PARA3_11N 0xA24
#define ODM_REG_CCK_FILTER_PARA4_11N 0xA25
#define ODM_REG_CCK_FILTER_PARA5_11N 0xA26
#define ODM_REG_CCK_FILTER_PARA6_11N 0xA27
#define ODM_REG_CCK_FILTER_PARA7_11N 0xA28
#define ODM_REG_CCK_FILTER_PARA8_11N 0xA29
#define ODM_REG_CCK_FA_RST_11N 0xA2C
#define ODM_REG_CCK_FA_MSB_11N 0xA58
#define ODM_REG_CCK_FA_LSB_11N 0xA5C
#define ODM_REG_CCK_CCA_CNT_11N 0xA60
#define ODM_REG_BB_PWR_SAV4_11N 0xA74
//PAGE B
#define ODM_REG_LNA_SWITCH_11N 0xB2C
#define ODM_REG_PATH_SWITCH_11N 0xB30
#define ODM_REG_RSSI_CTRL_11N 0xB38
#define ODM_REG_CONFIG_ANTA_11N 0xB68
#define ODM_REG_RSSI_BT_11N 0xB9C
//PAGE C
#define ODM_REG_OFDM_FA_HOLDC_11N 0xC00
#define ODM_REG_RX_PATH_11N 0xC04
#define ODM_REG_TRMUX_11N 0xC08
#define ODM_REG_OFDM_FA_RSTC_11N 0xC0C
#define ODM_REG_RXIQI_MATRIX_11N 0xC14
#define ODM_REG_TXIQK_MATRIX_LSB1_11N 0xC4C
#define ODM_REG_IGI_A_11N 0xC50
#define ODM_REG_ANTDIV_PARA2_11N 0xC54
#define ODM_REG_IGI_B_11N 0xC58
#define ODM_REG_ANTDIV_PARA3_11N 0xC5C
#define ODM_REG_BB_PWR_SAV2_11N 0xC70
#define ODM_REG_RX_OFF_11N 0xC7C
#define ODM_REG_TXIQK_MATRIXA_11N 0xC80
#define ODM_REG_TXIQK_MATRIXB_11N 0xC88
#define ODM_REG_TXIQK_MATRIXA_LSB2_11N 0xC94
#define ODM_REG_TXIQK_MATRIXB_LSB2_11N 0xC9C
#define ODM_REG_RXIQK_MATRIX_LSB_11N 0xCA0
#define ODM_REG_ANTDIV_PARA1_11N 0xCA4
#define ODM_REG_OFDM_FA_TYPE1_11N 0xCF0
//PAGE D
#define ODM_REG_OFDM_FA_RSTD_11N 0xD00
#define ODM_REG_OFDM_FA_TYPE2_11N 0xDA0
#define ODM_REG_OFDM_FA_TYPE3_11N 0xDA4
#define ODM_REG_OFDM_FA_TYPE4_11N 0xDA8
//PAGE E
#define ODM_REG_TXAGC_A_6_18_11N 0xE00
#define ODM_REG_TXAGC_A_24_54_11N 0xE04
#define ODM_REG_TXAGC_A_1_MCS32_11N 0xE08
#define ODM_REG_TXAGC_A_MCS0_3_11N 0xE10
#define ODM_REG_TXAGC_A_MCS4_7_11N 0xE14
#define ODM_REG_TXAGC_A_MCS8_11_11N 0xE18
#define ODM_REG_TXAGC_A_MCS12_15_11N 0xE1C
#define ODM_REG_FPGA0_IQK_11N 0xE28
#define ODM_REG_TXIQK_TONE_A_11N 0xE30
#define ODM_REG_RXIQK_TONE_A_11N 0xE34
#define ODM_REG_TXIQK_PI_A_11N 0xE38
#define ODM_REG_RXIQK_PI_A_11N 0xE3C
#define ODM_REG_TXIQK_11N 0xE40
#define ODM_REG_RXIQK_11N 0xE44
#define ODM_REG_IQK_AGC_PTS_11N 0xE48
#define ODM_REG_IQK_AGC_RSP_11N 0xE4C
#define ODM_REG_BLUETOOTH_11N 0xE6C
#define ODM_REG_RX_WAIT_CCA_11N 0xE70
#define ODM_REG_TX_CCK_RFON_11N 0xE74
#define ODM_REG_TX_CCK_BBON_11N 0xE78
#define ODM_REG_OFDM_RFON_11N 0xE7C
#define ODM_REG_OFDM_BBON_11N 0xE80
#define ODM_REG_TX2RX_11N 0xE84
#define ODM_REG_TX2TX_11N 0xE88
#define ODM_REG_RX_CCK_11N 0xE8C
#define ODM_REG_RX_OFDM_11N 0xED0
#define ODM_REG_RX_WAIT_RIFS_11N 0xED4
#define ODM_REG_RX2RX_11N 0xED8
#define ODM_REG_STANDBY_11N 0xEDC
#define ODM_REG_SLEEP_11N 0xEE0
#define ODM_REG_PMPD_ANAEN_11N 0xEEC
//2 MAC REG LIST
#define ODM_REG_BB_RST_11N 0x02
#define ODM_REG_ANTSEL_PIN_11N 0x4C
#define ODM_REG_EARLY_MODE_11N 0x4D0
#define ODM_REG_RSSI_MONITOR_11N 0x4FE
#define ODM_REG_EDCA_VO_11N 0x500
#define ODM_REG_EDCA_VI_11N 0x504
#define ODM_REG_EDCA_BE_11N 0x508
#define ODM_REG_EDCA_BK_11N 0x50C
#define ODM_REG_TXPAUSE_11N 0x522
#define ODM_REG_RESP_TX_11N 0x6D8
#define ODM_REG_ANT_TRAIN_PARA1_11N 0x7b0
#define ODM_REG_ANT_TRAIN_PARA2_11N 0x7b4
//DIG Related
#define ODM_BIT_IGI_11N 0x0000007F
#endif

627
hal/OUTSRC/odm_debug.c Executable file
View file

@ -0,0 +1,627 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
//============================================================
// include files
//============================================================
#include "odm_precomp.h"
VOID
ODM_InitDebugSetting(
IN PDM_ODM_T pDM_Odm
)
{
pDM_Odm->DebugLevel = ODM_DBG_TRACE;
pDM_Odm->DebugComponents =
\
#if DBG
//BB Functions
// ODM_COMP_DIG |
// ODM_COMP_RA_MASK |
// ODM_COMP_DYNAMIC_TXPWR |
// ODM_COMP_FA_CNT |
// ODM_COMP_RSSI_MONITOR |
// ODM_COMP_CCK_PD |
// ODM_COMP_ANT_DIV |
// ODM_COMP_PWR_SAVE |
// ODM_COMP_PWR_TRAIN |
// ODM_COMP_RATE_ADAPTIVE |
// ODM_COMP_PATH_DIV |
// ODM_COMP_DYNAMIC_PRICCA |
// ODM_COMP_RXHP |
//MAC Functions
// ODM_COMP_EDCA_TURBO |
// ODM_COMP_EARLY_MODE |
//RF Functions
// ODM_COMP_TX_PWR_TRACK |
// ODM_COMP_RX_GAIN_TRACK |
// ODM_COMP_CALIBRATION |
//Common
// ODM_COMP_COMMON |
// ODM_COMP_INIT |
#endif
0;
}
#if 0
/*------------------Declare variable-----------------------
// Define debug flag array for common debug print macro. */
u4Byte ODM_DBGP_Type[ODM_DBGP_TYPE_MAX];
/* Define debug print header for every service module. */
ODM_DBGP_HEAD_T ODM_DBGP_Head;
/*-----------------------------------------------------------------------------
* Function: DBGP_Flag_Init
*
* Overview: Refresh all debug print control flag content to zero.
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 10/20/2006 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
extern void ODM_DBGP_Flag_Init(void)
{
u1Byte i;
for (i = 0; i < ODM_DBGP_TYPE_MAX; i++)
{
ODM_DBGP_Type[i] = 0;
}
#ifndef ADSL_AP_BUILD_WORKAROUND
#if DBG
// 2010/06/02 MH Free build driver can not out any debug message!!!
// Init Debug flag enable condition
ODM_DBGP_Type[FINIT] = \
// INIT_EEPROM |
// INIT_TxPower |
// INIT_IQK |
// INIT_RF |
0;
ODM_DBGP_Type[FDM] = \
// WA_IOT |
// DM_PWDB |
// DM_Monitor |
// DM_DIG |
// DM_EDCA_Turbo |
// DM_BT30 |
0;
ODM_DBGP_Type[FIOCTL] = \
// IOCTL_IRP |
// IOCTL_IRP_DETAIL |
// IOCTL_IRP_STATISTICS |
// IOCTL_IRP_HANDLE |
// IOCTL_BT_HCICMD |
// IOCTL_BT_HCICMD_DETAIL |
// IOCTL_BT_HCICMD_EXT |
// IOCTL_BT_EVENT |
// IOCTL_BT_EVENT_DETAIL |
// IOCTL_BT_EVENT_PERIODICAL |
// IOCTL_BT_TX_ACLDATA |
// IOCTL_BT_TX_ACLDATA_DETAIL |
// IOCTL_BT_RX_ACLDATA |
// IOCTL_BT_RX_ACLDATA_DETAIL |
// IOCTL_BT_TP |
// IOCTL_STATE |
// IOCTL_BT_LOGO |
// IOCTL_CALLBACK_FUN |
// IOCTL_PARSE_BT_PKT |
0;
ODM_DBGP_Type[FBT] = \
// BT_TRACE |
0;
ODM_DBGP_Type[FEEPROM] = \
// EEPROM_W |
// EFUSE_PG |
// EFUSE_READ_ALL |
// EFUSE_ANALYSIS |
// EFUSE_PG_DETAIL |
0;
ODM_DBGP_Type[FDBG_CTRL] = \
// DBG_CTRL_TRACE |
// DBG_CTRL_INBAND_NOISE |
0;
// 2011/07/20 MH Add for short cut
ODM_DBGP_Type[FSHORT_CUT] = \
// SHCUT_TX |
// SHCUT_RX |
0;
#endif
#endif
/* Define debug header of every service module. */
//ODM_DBGP_Head.pMANS = "\n\r[MANS] ";
//ODM_DBGP_Head.pRTOS = "\n\r[RTOS] ";
//ODM_DBGP_Head.pALM = "\n\r[ALM] ";
//ODM_DBGP_Head.pPEM = "\n\r[PEM] ";
//ODM_DBGP_Head.pCMPK = "\n\r[CMPK] ";
//ODM_DBGP_Head.pRAPD = "\n\r[RAPD] ";
//ODM_DBGP_Head.pTXPB = "\n\r[TXPB] ";
//ODM_DBGP_Head.pQUMG = "\n\r[QUMG] ";
} /* DBGP_Flag_Init */
#endif
#if 0
u4Byte GlobalDebugLevel = DBG_LOUD;
//
// 2009/06/22 MH Allow Fre build to print none debug info at init time.
//
#if DBG
u8Byte GlobalDebugComponents = \
// COMP_TRACE |
// COMP_DBG |
// COMP_INIT |
// COMP_OID_QUERY |
// COMP_OID_SET |
// COMP_RECV |
// COMP_SEND |
// COMP_IO |
// COMP_POWER |
// COMP_MLME |
// COMP_SCAN |
// COMP_SYSTEM |
// COMP_SEC |
// COMP_AP |
// COMP_TURBO |
// COMP_QOS |
// COMP_AUTHENTICATOR |
// COMP_BEACON |
// COMP_ANTENNA |
// COMP_RATE |
// COMP_EVENTS |
// COMP_FPGA |
// COMP_RM |
// COMP_MP |
// COMP_RXDESC |
// COMP_CKIP |
// COMP_DIG |
// COMP_TXAGC |
// COMP_HIPWR |
// COMP_HALDM |
// COMP_RSNA |
// COMP_INDIC |
// COMP_LED |
// COMP_RF |
// COMP_DUALMACSWITCH |
// COMP_EASY_CONCURRENT |
//1!!!!!!!!!!!!!!!!!!!!!!!!!!!
//1//1Attention Please!!!<11n or 8190 specific code should be put below this line>
//1!!!!!!!!!!!!!!!!!!!!!!!!!!!
// COMP_HT |
// COMP_POWER_TRACKING |
// COMP_RX_REORDER |
// COMP_AMSDU |
// COMP_WPS |
// COMP_RATR |
// COMP_RESET |
// COMP_CMD |
// COMP_EFUSE |
// COMP_MESH_INTERWORKING |
// COMP_CCX |
// COMP_IOCTL |
// COMP_GP |
// COMP_TXAGG |
// COMP_BB_POWERSAVING |
// COMP_SWAS |
// COMP_P2P |
// COMP_MUX |
// COMP_FUNC |
// COMP_TDLS |
// COMP_OMNIPEEK |
// COMP_PSD |
0;
#else
#define FuncEntry
#define FuncExit
u8Byte GlobalDebugComponents = 0;
#endif
#if (RT_PLATFORM==PLATFORM_LINUX)
#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0))
EXPORT_SYMBOL(GlobalDebugComponents);
EXPORT_SYMBOL(GlobalDebugLevel);
#endif
#endif
/*------------------Declare variable-----------------------
// Define debug flag array for common debug print macro. */
u4Byte DBGP_Type[DBGP_TYPE_MAX];
/* Define debug print header for every service module. */
DBGP_HEAD_T DBGP_Head;
/*-----------------------------------------------------------------------------
* Function: DBGP_Flag_Init
*
* Overview: Refresh all debug print control flag content to zero.
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 10/20/2006 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
extern void DBGP_Flag_Init(void)
{
u1Byte i;
for (i = 0; i < DBGP_TYPE_MAX; i++)
{
DBGP_Type[i] = 0;
}
#if DBG
// 2010/06/02 MH Free build driver can not out any debug message!!!
// Init Debug flag enable condition
DBGP_Type[FINIT] = \
// INIT_EEPROM |
// INIT_TxPower |
// INIT_IQK |
// INIT_RF |
0;
DBGP_Type[FDM] = \
// WA_IOT |
// DM_PWDB |
// DM_Monitor |
// DM_DIG |
// DM_EDCA_Turbo |
// DM_BT30 |
0;
DBGP_Type[FIOCTL] = \
// IOCTL_IRP |
// IOCTL_IRP_DETAIL |
// IOCTL_IRP_STATISTICS |
// IOCTL_IRP_HANDLE |
// IOCTL_BT_HCICMD |
// IOCTL_BT_HCICMD_DETAIL |
// IOCTL_BT_HCICMD_EXT |
// IOCTL_BT_EVENT |
// IOCTL_BT_EVENT_DETAIL |
// IOCTL_BT_EVENT_PERIODICAL |
// IOCTL_BT_TX_ACLDATA |
// IOCTL_BT_TX_ACLDATA_DETAIL |
// IOCTL_BT_RX_ACLDATA |
// IOCTL_BT_RX_ACLDATA_DETAIL |
// IOCTL_BT_TP |
// IOCTL_STATE |
// IOCTL_BT_LOGO |
// IOCTL_CALLBACK_FUN |
// IOCTL_PARSE_BT_PKT |
0;
DBGP_Type[FBT] = \
// BT_TRACE |
0;
DBGP_Type[FEEPROM] = \
// EEPROM_W |
// EFUSE_PG |
// EFUSE_READ_ALL |
// EFUSE_ANALYSIS |
// EFUSE_PG_DETAIL |
0;
DBGP_Type[FDBG_CTRL] = \
// DBG_CTRL_TRACE |
// DBG_CTRL_INBAND_NOISE |
0;
// 2011/07/20 MH Add for short cut
DBGP_Type[FSHORT_CUT] = \
// SHCUT_TX |
// SHCUT_RX |
0;
#endif
/* Define debug header of every service module. */
DBGP_Head.pMANS = "\n\r[MANS] ";
DBGP_Head.pRTOS = "\n\r[RTOS] ";
DBGP_Head.pALM = "\n\r[ALM] ";
DBGP_Head.pPEM = "\n\r[PEM] ";
DBGP_Head.pCMPK = "\n\r[CMPK] ";
DBGP_Head.pRAPD = "\n\r[RAPD] ";
DBGP_Head.pTXPB = "\n\r[TXPB] ";
DBGP_Head.pQUMG = "\n\r[QUMG] ";
} /* DBGP_Flag_Init */
/*-----------------------------------------------------------------------------
* Function: DBG_PrintAllFlag
*
* Overview: Print All debug flag
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 12/10/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
extern void DBG_PrintAllFlag(void)
{
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 0 FQoS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 1 FTX\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 2 FRX\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 3 FSEC\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 4 FMGNT\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 5 FMLME\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 6 FRESOURCE\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 7 FBEACON\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 8 FISR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 9 FPHY\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 11 FMP\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 12 FPWR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 13 FDM\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 14 FDBG_CTRL\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 15 FC2H\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("DBGFLAG 16 FBT\n"));
} // DBG_PrintAllFlag
extern void DBG_PrintAllComp(void)
{
u1Byte i;
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("GlobalDebugComponents Definition\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT0 COMP_TRACE\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT1 COMP_DBG\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT2 COMP_INIT\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT3 COMP_OID_QUERY\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT4 COMP_OID_SET\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT5 COMP_RECV\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT6 COMP_SEND\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT7 COMP_IO\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT8 COMP_POWER\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT9 COMP_MLME\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT10 COMP_SCAN\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT11 COMP_SYSTEM\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT12 COMP_SEC\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT13 COMP_AP\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT14 COMP_TURBO\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT15 COMP_QOS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT16 COMP_AUTHENTICATOR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT17 COMP_BEACON\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT18 COMP_BEACON\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT19 COMP_RATE\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT20 COMP_EVENTS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT21 COMP_FPGA\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT22 COMP_RM\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT23 COMP_MP\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT24 COMP_RXDESC\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT25 COMP_CKIP\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT26 COMP_DIG\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT27 COMP_TXAGC\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT28 COMP_HIPWR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT29 COMP_HALDM\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT30 COMP_RSNA\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT31 COMP_INDIC\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT32 COMP_LED\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT33 COMP_RF\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT34 COMP_HT\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT35 COMP_POWER_TRACKING\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT36 COMP_POWER_TRACKING\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT37 COMP_AMSDU\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT38 COMP_WPS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT39 COMP_RATR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT40 COMP_RESET\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT41 COMP_CMD\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT42 COMP_EFUSE\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT43 COMP_MESH_INTERWORKING\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT43 COMP_CCX\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("GlobalDebugComponents = %"i64fmt"x\n", GlobalDebugComponents));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("Enable DBG COMP ="));
for (i = 0; i < 64; i++)
{
if (GlobalDebugComponents & ((u8Byte)0x1 << i) )
{
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT%02d |\n", i));
}
}
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("\n"));
} // DBG_PrintAllComp
/*-----------------------------------------------------------------------------
* Function: DBG_PrintFlagEvent
*
* Overview: Print dedicated debug flag event
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 12/10/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
extern void DBG_PrintFlagEvent(u1Byte DbgFlag)
{
switch(DbgFlag)
{
case FQoS:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 QoS_INIT\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 QoS_VISTA\n"));
break;
case FTX:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 TX_DESC\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 TX_DESC_TID\n"));
break;
case FRX:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 RX_DATA\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 RX_PHY_STS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 2 RX_PHY_SS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 3 RX_PHY_SQ\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 4 RX_PHY_ASTS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 5 RX_ERR_LEN\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 6 RX_DEFRAG\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 7 RX_ERR_RATE\n"));
break;
case FSEC:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("NA\n"));
break;
case FMGNT:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("NA\n"));
break;
case FMLME:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 MEDIA_STS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 LINK_STS\n"));
break;
case FRESOURCE:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 OS_CHK\n"));
break;
case FBEACON:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 BCN_SHOW\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 BCN_PEER\n"));
break;
case FISR:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 ISR_CHK\n"));
break;
case FPHY:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 PHY_BBR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 PHY_BBW\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 2 PHY_RFR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 3 PHY_RFW\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 4 PHY_MACR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 5 PHY_MACW\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 6 PHY_ALLR\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 7 PHY_ALLW\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 8 PHY_TXPWR\n"));
break;
case FMP:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 MP_RX\n"));
break;
case FEEPROM:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 EEPROM_W\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 EFUSE_PG\n"));
break;
case FPWR:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 LPS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 IPS\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 2 PWRSW\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 3 PWRHW\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 4 PWRHAL\n"));
break;
case FDM:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 WA_IOT\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 DM_PWDB\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 2 DM_Monitor\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 3 DM_DIG\n"));
break;
case FDBG_CTRL:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 DBG_CTRL_TRACE\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 DBG_CTRL_INBAND_NOISE\n"));
break;
case FC2H:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 C2H_Summary\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 C2H_PacketData\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 2 C2H_ContentData\n"));
break;
case FBT:
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 0 BT_TRACE\n"));
ODM_RT_TRACE(pDM_Odm,COMP_CMD, DBG_LOUD, ("BIT 1 BT_RFPoll\n"));
break;
default:
break;
}
} // DBG_PrintFlagEvent
extern void DBG_DumpMem(const u1Byte DbgComp,
const u1Byte DbgLevel,
pu1Byte pMem,
u2Byte Len)
{
u2Byte i;
for (i=0;i<((Len>>3) + 1);i++)
{
ODM_RT_TRACE(pDM_Odm,DbgComp, DbgLevel, ("%02X %02X %02X %02X %02X %02X %02X %02X\n",
*(pMem+(i*8)), *(pMem+(i*8+1)), *(pMem+(i*8+2)), *(pMem+(i*8+3)),
*(pMem+(i*8+4)), *(pMem+(i*8+5)), *(pMem+(i*8+6)), *(pMem+(i*8+7))));
}
}
#endif

905
hal/OUTSRC/odm_debug.h Executable file
View file

@ -0,0 +1,905 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __ODM_DBG_H__
#define __ODM_DBG_H__
//-----------------------------------------------------------------------------
// Define the debug levels
//
// 1. DBG_TRACE and DBG_LOUD are used for normal cases.
// So that, they can help SW engineer to develope or trace states changed
// and also help HW enginner to trace every operation to and from HW,
// e.g IO, Tx, Rx.
//
// 2. DBG_WARNNING and DBG_SERIOUS are used for unusual or error cases,
// which help us to debug SW or HW.
//
//-----------------------------------------------------------------------------
//
// Never used in a call to ODM_RT_TRACE()!
//
#define ODM_DBG_OFF 1
//
// Fatal bug.
// For example, Tx/Rx/IO locked up, OS hangs, memory access violation,
// resource allocation failed, unexpected HW behavior, HW BUG and so on.
//
#define ODM_DBG_SERIOUS 2
//
// Abnormal, rare, or unexpeted cases.
// For example, IRP/Packet/OID canceled, device suprisely unremoved and so on.
//
#define ODM_DBG_WARNING 3
//
// Normal case with useful information about current SW or HW state.
// For example, Tx/Rx descriptor to fill, Tx/Rx descriptor completed status,
// SW protocol state change, dynamic mechanism state change and so on.
//
#define ODM_DBG_LOUD 4
//
// Normal case with detail execution flow or information.
//
#define ODM_DBG_TRACE 5
//-----------------------------------------------------------------------------
// Define the tracing components
//
//-----------------------------------------------------------------------------
//BB Functions
#define ODM_COMP_DIG BIT0
#define ODM_COMP_RA_MASK BIT1
#define ODM_COMP_DYNAMIC_TXPWR BIT2
#define ODM_COMP_FA_CNT BIT3
#define ODM_COMP_RSSI_MONITOR BIT4
#define ODM_COMP_CCK_PD BIT5
#define ODM_COMP_ANT_DIV BIT6
#define ODM_COMP_PWR_SAVE BIT7
#define ODM_COMP_PWR_TRAIN BIT8
#define ODM_COMP_RATE_ADAPTIVE BIT9
#define ODM_COMP_PATH_DIV BIT10
#define ODM_COMP_PSD BIT11
#define ODM_COMP_DYNAMIC_PRICCA BIT12
#define ODM_COMP_RXHP BIT13
//MAC Functions
#define ODM_COMP_EDCA_TURBO BIT16
#define ODM_COMP_EARLY_MODE BIT17
//RF Functions
#define ODM_COMP_TX_PWR_TRACK BIT24
#define ODM_COMP_RX_GAIN_TRACK BIT25
#define ODM_COMP_CALIBRATION BIT26
//Common Functions
#define ODM_COMP_COMMON BIT30
#define ODM_COMP_INIT BIT31
/*------------------------Export Marco Definition---------------------------*/
#if (DM_ODM_SUPPORT_TYPE == ODM_MP)
#define RT_PRINTK DbgPrint
#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
#define DbgPrint printk
#define RT_PRINTK(fmt, args...) DbgPrint( "%s(): " fmt, __FUNCTION__, ## args);
#else
#define DbgPrint panic_printk
#define RT_PRINTK(fmt, args...) DbgPrint( "%s(): " fmt, __FUNCTION__, ## args);
#endif
#ifndef ASSERT
#define ASSERT(expr)
#endif
#if DBG
#define ODM_RT_TRACE(pDM_Odm, comp, level, fmt) \
if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel)) \
{ \
if(pDM_Odm->SupportICType == ODM_RTL8192C) \
DbgPrint("[ODM-92C] "); \
else if(pDM_Odm->SupportICType == ODM_RTL8192D) \
DbgPrint("[ODM-92D] "); \
else if(pDM_Odm->SupportICType == ODM_RTL8723A) \
DbgPrint("[ODM-8723A] "); \
else if(pDM_Odm->SupportICType == ODM_RTL8188E) \
DbgPrint("[ODM-8188E] "); \
else if(pDM_Odm->SupportICType == ODM_RTL8812) \
DbgPrint("[ODM-8812] "); \
else if(pDM_Odm->SupportICType == ODM_RTL8821) \
DbgPrint("[ODM-8821] "); \
RT_PRINTK fmt; \
}
#define ODM_RT_TRACE_F(pDM_Odm, comp, level, fmt) \
if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel)) \
{ \
RT_PRINTK fmt; \
}
#define ODM_RT_ASSERT(pDM_Odm, expr, fmt) \
if(!(expr)) { \
DbgPrint( "Assertion failed! %s at ......\n", #expr); \
DbgPrint( " ......%s,%s,line=%d\n",__FILE__,__FUNCTION__,__LINE__); \
RT_PRINTK fmt; \
ASSERT(FALSE); \
}
#define ODM_dbg_enter() { DbgPrint("==> %s\n", __FUNCTION__); }
#define ODM_dbg_exit() { DbgPrint("<== %s\n", __FUNCTION__); }
#define ODM_dbg_trace(str) { DbgPrint("%s:%s\n", __FUNCTION__, str); }
#define ODM_PRINT_ADDR(pDM_Odm, comp, level, title_str, ptr) \
if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel)) \
{ \
int __i; \
pu1Byte __ptr = (pu1Byte)ptr; \
DbgPrint("[ODM] "); \
DbgPrint(title_str); \
DbgPrint(" "); \
for( __i=0; __i<6; __i++ ) \
DbgPrint("%02X%s", __ptr[__i], (__i==5)?"":"-"); \
DbgPrint("\n"); \
}
#else
#define ODM_RT_TRACE(pDM_Odm, comp, level, fmt)
#define ODM_RT_TRACE_F(pDM_Odm, comp, level, fmt)
#define ODM_RT_ASSERT(pDM_Odm, expr, fmt)
#define ODM_dbg_enter()
#define ODM_dbg_exit()
#define ODM_dbg_trace(str)
#define ODM_PRINT_ADDR(pDM_Odm, comp, level, title_str, ptr)
#endif
VOID
ODM_InitDebugSetting(
IN PDM_ODM_T pDM_Odm
);
#if 0
#if DBG
#define DbgPrint printk
#define PRINT_DATA(_TitleString, _HexData, _HexDataLen) \
{ \
char *szTitle = _TitleString; \
pu1Byte pbtHexData = _HexData; \
u4Byte u4bHexDataLen = _HexDataLen; \
u4Byte __i; \
DbgPrint("%s", szTitle); \
for (__i=0;__i<u4bHexDataLen;__i++) \
{ \
if ((__i & 15) == 0) \
{ \
DbgPrint("\n"); \
} \
DbgPrint("%02X%s", pbtHexData[__i], ( ((__i&3)==3) ? " " : " ") ); \
} \
DbgPrint("\n"); \
}
// RT_PRINT_XXX macros: implemented for debugging purpose.
// Added by Annie, 2005-11-21.
#define RT_PRINT_DATA(_Comp, _Level, _TitleString, _HexData, _HexDataLen) \
if(((_Comp) & ODM_GlobalDebugComponents) && (_Level <= ODM_GlobalDebugLevel)) \
{ \
int __i; \
pu1Byte ptr = (pu1Byte)_HexData; \
DbgPrint("Rtl819x: "); \
DbgPrint(_TitleString); \
for( __i=0; __i<(int)_HexDataLen; __i++ ) \
{ \
DbgPrint("%02X%s", ptr[__i], (((__i + 1) % 4) == 0)?" ":" "); \
if (((__i + 1) % 16) == 0) DbgPrint("\n"); \
} \
DbgPrint("\n"); \
}
#define RT_PRINT_ADDR(_Comp, _Level, _TitleString, _Ptr) \
if(((_Comp) & ODM_GlobalDebugComponents) && (_Level <= ODM_GlobalDebugLevel)) \
{ \
int __i; \
pu1Byte ptr = (pu1Byte)_Ptr; \
DbgPrint("Rtl819x: "); \
DbgPrint(_TitleString); \
DbgPrint(" "); \
for( __i=0; __i<6; __i++ ) \
DbgPrint("%02X%s", ptr[__i], (__i==5)?"":"-"); \
DbgPrint("\n"); \
}
#define RT_PRINT_ADDRS(_Comp, _Level, _TitleString, _Ptr, _AddNum) \
if(((_Comp) & ODM_GlobalDebugComponents) && (_Level <= ODM_GlobalDebugLevel)) \
{ \
int __i, __j; \
pu1Byte ptr = (pu1Byte)_Ptr; \
DbgPrint("Rtl819x: "); \
DbgPrint(_TitleString); \
DbgPrint("\n"); \
for( __i=0; __i<(int)_AddNum; __i++ ) \
{ \
for( __j=0; __j<6; __j++ ) \
DbgPrint("%02X%s", ptr[__i*6+__j], (__j==5)?"":"-"); \
DbgPrint("\n"); \
} \
}
// Added by Annie, 2005-11-22.
#define MAX_STR_LEN 64
#define PRINTABLE(_ch) (_ch>=' ' &&_ch<='~' ) // I want to see ASCII 33 to 126 only. Otherwise, I print '?'. Annie, 2005-11-22.
#define RT_PRINT_STR(_Comp, _Level, _TitleString, _Ptr, _Len) \
if(((_Comp) & ODM_GlobalDebugComponents) && (_Level <= ODM_GlobalDebugLevel)) \
{ \
int __i; \
u1Byte buffer[MAX_STR_LEN]; \
int length = (_Len<MAX_STR_LEN)? _Len : (MAX_STR_LEN-1) ; \
PlatformZeroMemory( buffer, MAX_STR_LEN ); \
PlatformMoveMemory( buffer, (pu1Byte)_Ptr, length ); \
for( __i=0; __i<MAX_STR_LEN; __i++ ) \
{ \
if( !PRINTABLE(buffer[__i]) ) buffer[__i] = '?'; \
} \
buffer[length] = '\0'; \
DbgPrint("Rtl819x: "); \
DbgPrint(_TitleString); \
DbgPrint(": %d, <%s>\n", _Len, buffer); \
}
#else // of #if DBG
#define DbgPrint(...)
#define PRINT_DATA(_TitleString, _HexData, _HexDataLen)
#define RT_PRINT_DATA(_Comp, _Level, _TitleString, _HexData, _HexDataLen)
#define RT_PRINT_ADDR(_Comp, _Level, _TitleString, _Ptr)
#define RT_PRINT_ADDRS(_Comp, _Level, _TitleString, _Ptr, _AddNum)
#define RT_PRINT_STR(_Comp, _Level, _TitleString, _Ptr, _Len)
#endif // of #if DBG
#endif
#if 0
/* Define debug print header for every service module.*/
typedef struct tag_ODM_DBGP_Service_Module_Header_Name_Structure
{
const char *pMANS;
const char *pRTOS;
const char *pALM;
const char *pPEM;
const char *pCMPK;
const char *pRAPD;
const char *pTXPB;
const char *pQUMG;
}ODM_DBGP_HEAD_T;
/* Define different debug flag for dedicated service modules in debug flag array. */
// Each module has independt 32 bit debug flag you cnn define the flag as yout require.
typedef enum tag_ODM_DBGP_Flag_Type_Definition
{
ODM_FTX = 0,
ODM_FRX ,
ODM_FPHY ,
ODM_FPWR ,
ODM_FDM ,
ODM_FC2H ,
ODM_FBT ,
ODM_DBGP_TYPE_MAX
}ODM_DBGP_FLAG_E;
// Define TX relative debug bit --> FTX
#define ODM_TX_DESC BIT0
#define ODM_TX_DESC_TID BIT1
#define ODM_TX_PATH BIT2
// Define RX relative debug bit --> FRX
#define ODM_RX_DATA BIT0
#define ODM_RX_PHY_STS BIT1
#define ODM_RX_PHY_SS BIT2
#define ODM_RX_PHY_SQ BIT3
#define ODM_RX_PHY_ASTS BIT4
#define ODM_RX_ERR_LEN BIT5
#define ODM_RX_DEFRAG BIT6
#define ODM_RX_ERR_RATE BIT7
#define ODM_RX_PATH BIT8
#define ODM_RX_BEACON BIT9
// Define PHY-BB/RF/MAC check module bit --> FPHY
#define ODM_PHY_BBR BIT0
#define ODM_PHY_BBW BIT1
#define ODM_PHY_RFR BIT2
#define ODM_PHY_RFW BIT3
#define ODM_PHY_MACR BIT4
#define ODM_PHY_MACW BIT5
#define ODM_PHY_ALLR BIT6
#define ODM_PHY_ALLW BIT7
#define ODM_PHY_TXPWR BIT8
#define ODM_PHY_PWRDIFF BIT9
#define ODM_PHY_SICR BIT10
#define ODM_PHY_SICW BIT11
extern u4Byte ODM_GlobalDebugLevel;
#if DBG
extern u8Byte ODM_GlobalDebugComponents;
#endif
#endif
#if 0
//-----------------------------------------------------------------------------
// Define the debug levels
//
// 1. DBG_TRACE and DBG_LOUD are used for normal cases.
// So that, they can help SW engineer to develope or trace states changed
// and also help HW enginner to trace every operation to and from HW,
// e.g IO, Tx, Rx.
//
// 2. DBG_WARNNING and DBG_SERIOUS are used for unusual or error cases,
// which help us to debug SW or HW.
//
//-----------------------------------------------------------------------------
//
// Never used in a call to ODM_RT_TRACE(pDM_Odm,)!
//
#define DBG_OFF 0
//
// Deprecated! Don't use it!
// TODO: fix related debug message!
//
//#define DBG_SEC 1
//
// Fatal bug.
// For example, Tx/Rx/IO locked up, OS hangs, memory access violation,
// resource allocation failed, unexpected HW behavior, HW BUG and so on.
//
#define DBG_SERIOUS 2
//
// Abnormal, rare, or unexpeted cases.
// For example, IRP/Packet/OID canceled, device suprisely unremoved and so on.
//
#define DBG_WARNING 3
//
// Normal case with useful information about current SW or HW state.
// For example, Tx/Rx descriptor to fill, Tx/Rx descriptor completed status,
// SW protocol state change, dynamic mechanism state change and so on.
//
#define DBG_LOUD 4
//
// Normal case with detail execution flow or information.
//
#define DBG_TRACE 5
//-----------------------------------------------------------------------------
// Define the tracing components
//
//-----------------------------------------------------------------------------
#define COMP_TRACE BIT0 // For function call tracing.
#define COMP_DBG BIT1 // Only for temporary debug message.
#define COMP_INIT BIT2 // during driver initialization / halt / reset.
#define COMP_OID_QUERY BIT3 // Query OID.
#define COMP_OID_SET BIT4 // Set OID.
#define COMP_RECV BIT5 // Reveive part data path.
#define COMP_SEND BIT6 // Send part path.
#define COMP_IO BIT7 // I/O Related. Added by Annie, 2006-03-02.
#define COMP_POWER BIT8 // 802.11 Power Save mode or System/Device Power state related.
#define COMP_MLME BIT9 // 802.11 link related: join/start BSS, leave BSS.
#define COMP_SCAN BIT10 // For site survey.
#define COMP_SYSTEM BIT11 // For general platform function.
#define COMP_SEC BIT12 // For Security.
#define COMP_AP BIT13 // For AP mode related.
#define COMP_TURBO BIT14 // For Turbo Mode related. By Annie, 2005-10-21.
#define COMP_QOS BIT15 // For QoS.
#define COMP_AUTHENTICATOR BIT16 // For AP mode Authenticator. Added by Annie, 2006-01-30.
#define COMP_BEACON BIT17 // For Beacon related, by rcnjko.
#define COMP_ANTENNA BIT18 // For Antenna diversity related, by rcnjko.
#define COMP_RATE BIT19 // For Rate Adaptive mechanism, 2006.07.02, by rcnjko. #define COMP_EVENTS 0x00000080 // Event handling
#define COMP_EVENTS BIT20 // Event handling
#define COMP_FPGA BIT21 // For FPGA verfication
#define COMP_RM BIT22 // For Radio Measurement.
#define COMP_MP BIT23 // For mass production test, by shien chang, 2006.07.13
#define COMP_RXDESC BIT24 // Show Rx desc information for SD3 debug. Added by Annie, 2006-07-15.
#define COMP_CKIP BIT25 // For CCX 1 S13: CKIP. Added by Annie, 2006-08-14.
#define COMP_DIG BIT26 // For DIG, 2006.09.25, by rcnjko.
#define COMP_TXAGC BIT27 // For Tx power, 060928, by rcnjko.
#define COMP_HIPWR BIT28 // For High Power Mechanism, 060928, by rcnjko.
#define COMP_HALDM BIT29 // For HW Dynamic Mechanism, 061010, by rcnjko.
#define COMP_RSNA BIT30 // For RSNA IBSS , 061201, by CCW.
#define COMP_INDIC BIT31 // For link indication
#define COMP_LED BIT32 // For LED.
#define COMP_RF BIT33 // For RF.
//1!!!!!!!!!!!!!!!!!!!!!!!!!!!
//1//1Attention Please!!!<11n or 8190 specific code should be put below this line>
//1!!!!!!!!!!!!!!!!!!!!!!!!!!!
#define COMP_HT BIT34 // For 802.11n HT related information. by Emily 2006-8-11
#define COMP_POWER_TRACKING BIT35 //FOR 8190 TX POWER TRACKING
#define COMP_RX_REORDER BIT36 // 8190 Rx Reorder
#define COMP_AMSDU BIT37 // For A-MSDU Debugging
#define COMP_WPS BIT38 //WPS Debug Message
#define COMP_RATR BIT39
#define COMP_RESET BIT40
// For debug command to print on dbgview!!
#define COMP_CMD BIT41
#define COMP_EFUSE BIT42
#define COMP_MESH_INTERWORKING BIT43
#define COMP_CCX BIT44 //CCX Debug Flag
#define COMP_IOCTL BIT45 // IO Control
#define COMP_GP BIT46 // For generic parser.
#define COMP_TXAGG BIT47
#define COMP_HVL BIT48 // For Ndis 6.2 Context Swirch and Hardware Virtualiztion Layer
#define COMP_TEST BIT49
#define COMP_BB_POWERSAVING BIT50
#define COMP_SWAS BIT51 // For SW Antenna Switch
#define COMP_P2P BIT52
#define COMP_MUX BIT53
#define COMP_FUNC BIT54
#define COMP_TDLS BIT55
#define COMP_OMNIPEEK BIT56
#define COMP_DUALMACSWITCH BIT60 // 2010/12/27 Add for Dual mac mode debug
#define COMP_EASY_CONCURRENT BIT61 // 2010/12/27 Add for easy cncurrent mode debug
#define COMP_PSD BIT63 //2011/3/9 Add for WLAN PSD for BT AFH
#define COMP_DFS BIT62
#define COMP_ALL UINT64_C(0xFFFFFFFFFFFFFFFF) // All components
// For debug print flag to use
/*------------------------------Define structure----------------------------*/
/* 2007/07/13 MH *//*------For DeBuG Print modeue------*/
/* Defnie structure to store different debug flag variable. Every debug flag
is a UINT32 integer and you can assign 32 different events. */
typedef struct tag_DBGP_Debug_Flag_Structure
{
u4Byte Mans; /* Main Scheduler module. */
u4Byte Rtos; /* RTOS module. */
u4Byte Alarm; /* Alarm module. */
u4Byte Pm; /* Performance monitor module. */
}DBGP_FLAG_T;
/* Define debug print header for every service module.*/
typedef struct tag_DBGP_Service_Module_Header_Name_Structure
{
const char *pMANS;
const char *pRTOS;
const char *pALM;
const char *pPEM;
const char *pCMPK;
const char *pRAPD;
const char *pTXPB;
const char *pQUMG;
}DBGP_HEAD_T;
/* Define different debug flag for dedicated service modules in debug flag array. */
// Each module has independt 32 bit debug flag you cnn define the flag as yout require.
typedef enum tag_DBGP_Flag_Type_Definition
{
FQoS = 0,
FTX = 1,
FRX = 2,
FSEC = 3,
FMGNT = 4,
FMLME = 5,
FRESOURCE = 6,
FBEACON = 7,
FISR = 8,
FPHY = 9,
FMP = 10,
FEEPROM = 11,
FPWR = 12,
FDM = 13,
FDBG_CTRL = 14,
FC2H = 15,
FBT = 16,
FINIT = 17,
FIOCTL = 18,
FSHORT_CUT = 19,
DBGP_TYPE_MAX
}DBGP_FLAG_E;
// Define Qos Relative debug flag bit --> FQoS
#define QoS_INIT BIT0
#define QoS_VISTA BIT1
// Define TX relative debug bit --> FTX
#define TX_DESC BIT0
#define TX_DESC_TID BIT1
#define TX_PATH BIT2
// Define RX relative debug bit --> FRX
#define RX_DATA BIT0
#define RX_PHY_STS BIT1
#define RX_PHY_SS BIT2
#define RX_PHY_SQ BIT3
#define RX_PHY_ASTS BIT4
#define RX_ERR_LEN BIT5
#define RX_DEFRAG BIT6
#define RX_ERR_RATE BIT7
#define RX_PATH BIT8
#define RX_BEACON BIT9
// Define Security relative debug bit --> FSEC
// Define MGNT relative debug bit --> FMGNT
// Define MLME relative debug bit --> FMLME
#define MEDIA_STS BIT0
#define LINK_STS BIT1
// Define OS resource check module bit --> FRESOURCE
#define OS_CHK BIT0
// Define beacon content check module bit --> FBEACON
#define BCN_SHOW BIT0
#define BCN_PEER BIT1
// Define ISR/IMR check module bit --> FISR
#define ISR_CHK BIT0
// Define PHY-BB/RF/MAC check module bit --> FPHY
#define PHY_BBR BIT0
#define PHY_BBW BIT1
#define PHY_RFR BIT2
#define PHY_RFW BIT3
#define PHY_MACR BIT4
#define PHY_MACW BIT5
#define PHY_ALLR BIT6
#define PHY_ALLW BIT7
#define PHY_TXPWR BIT8
#define PHY_PWRDIFF BIT9
#define PHY_SICR BIT10
#define PHY_SICW BIT11
// Define MPT driver check module bit --> FMP
#define MP_RX BIT0
#define MP_SWICH_CH BIT1
// Define EEPROM and EFUSE check module bit --> FEEPROM
#define EEPROM_W BIT0
#define EFUSE_PG BIT1
#define EFUSE_READ_ALL BIT2
#define EFUSE_ANALYSIS BIT3
#define EFUSE_PG_DETAIL BIT4
// Define power save check module bit --> FPWR
#define LPS BIT0
#define IPS BIT1
#define PWRSW BIT2
#define PWRHW BIT3
#define PWRHAL BIT4
// Define Dynamic Mechanism check module bit --> FDM
#define WA_IOT BIT0
#define DM_PWDB BIT1
#define DM_Monitor BIT2
#define DM_DIG BIT3
#define DM_EDCA_Turbo BIT4
#define DM_BT30 BIT5
// Define Dbg Control module bit --> FDBG_CTRL
#define DBG_CTRL_TRACE BIT0
#define DBG_CTRL_INBAND_NOISE BIT1
// Define FW C2H Cmd check module bit --> FC2H
#define C2H_Summary BIT0
#define C2H_PacketData BIT1
#define C2H_ContentData BIT2
// Define BT Cmd check module bit --> FBT
#define BT_TRACE BIT0
#define BT_RFPoll BIT1
// Define init check for module bit --> FINIT
#define INIT_EEPROM BIT0
#define INIT_TxPower BIT1
#define INIT_IQK BIT2
#define INIT_RF BIT3
// Define IOCTL Cmd check module bit --> FIOCTL
// section 1 : IRP related
#define IOCTL_IRP BIT0
#define IOCTL_IRP_DETAIL BIT1
#define IOCTL_IRP_STATISTICS BIT2
#define IOCTL_IRP_HANDLE BIT3
// section 2 : HCI command/event
#define IOCTL_BT_HCICMD BIT8
#define IOCTL_BT_HCICMD_DETAIL BIT9
#define IOCTL_BT_HCICMD_EXT BIT10
#define IOCTL_BT_EVENT BIT11
#define IOCTL_BT_EVENT_DETAIL BIT12
#define IOCTL_BT_EVENT_PERIODICAL BIT13
// section 3 : BT tx/rx data and throughput
#define IOCTL_BT_TX_ACLDATA BIT16
#define IOCTL_BT_TX_ACLDATA_DETAIL BIT17
#define IOCTL_BT_RX_ACLDATA BIT18
#define IOCTL_BT_RX_ACLDATA_DETAIL BIT19
#define IOCTL_BT_TP BIT20
// section 4 : BT connection state machine.
#define IOCTL_STATE BIT21
#define IOCTL_BT_LOGO BIT22
// section 5 : BT function trace
#define IOCTL_CALLBACK_FUN BIT24
#define IOCTL_PARSE_BT_PKT BIT25
#define IOCTL_BT_TX_PKT BIT26
#define IOCTL_BT_FLAG_MON BIT27
//
// Define init check for module bit --> FSHORT_CUT
// 2011/07/20 MH Add for short but definition.
//
#define SHCUT_TX BIT0
#define SHCUT_RX BIT1
/* 2007/07/13 MH *//*------For DeBuG Print modeue------*/
/*------------------------------Define structure----------------------------*/
/*------------------------Export Marco Definition---------------------------*/
#if (DM_ODM_SUPPORT_TYPE != ODM_MP)
#define RT_PRINTK(fmt, args...) printk( "%s(): " fmt, __FUNCTION__, ## args);
#if DBG
#define ODM_RT_TRACE(pDM_Odm,comp, level, fmt) \
if(((comp) & GlobalDebugComponents) && (level <= GlobalDebugLevel)) \
{ \
RT_PRINTK fmt; \
}
#define RT_TRACE_F(comp, level, fmt) \
if(((comp) & GlobalDebugComponents) && (level <= GlobalDebugLevel)) \
{ \
RT_PRINTK fmt; \
}
#define RT_ASSERT(expr,fmt) \
if(!(expr)) { \
printk( "Assertion failed! %s at ......\n", #expr); \
printk( " ......%s,%s,line=%d\n",__FILE__,__FUNCTION__,__LINE__); \
}
#define dbg_enter() { printk("==> %s\n", __FUNCTION__); }
#define dbg_exit() { printk("<== %s\n", __FUNCTION__); }
#define dbg_trace(str) { printk("%s:%s\n", __FUNCTION__, str); }
#else
#define ODM_RT_TRACE(pDM_Odm,comp, level, fmt)
#define RT_TRACE_F(comp, level, fmt)
#define RT_ASSERT(expr, fmt)
#define dbg_enter()
#define dbg_exit()
#define dbg_trace(str)
#endif
#if DBG
#define DbgPrint printk
#define PRINT_DATA(_TitleString, _HexData, _HexDataLen) \
{ \
char *szTitle = _TitleString; \
pu1Byte pbtHexData = _HexData; \
u4Byte u4bHexDataLen = _HexDataLen; \
u4Byte __i; \
DbgPrint("%s", szTitle); \
for (__i=0;__i<u4bHexDataLen;__i++) \
{ \
if ((__i & 15) == 0) \
{ \
DbgPrint("\n"); \
} \
DbgPrint("%02X%s", pbtHexData[__i], ( ((__i&3)==3) ? " " : " ") ); \
} \
DbgPrint("\n"); \
}
// RT_PRINT_XXX macros: implemented for debugging purpose.
// Added by Annie, 2005-11-21.
#define RT_PRINT_DATA(_Comp, _Level, _TitleString, _HexData, _HexDataLen) \
if(((_Comp) & GlobalDebugComponents) && (_Level <= GlobalDebugLevel)) \
{ \
int __i; \
pu1Byte ptr = (pu1Byte)_HexData; \
DbgPrint("Rtl819x: "); \
DbgPrint(_TitleString); \
for( __i=0; __i<(int)_HexDataLen; __i++ ) \
{ \
DbgPrint("%02X%s", ptr[__i], (((__i + 1) % 4) == 0)?" ":" "); \
if (((__i + 1) % 16) == 0) DbgPrint("\n"); \
} \
DbgPrint("\n"); \
}
#define RT_PRINT_ADDR(_Comp, _Level, _TitleString, _Ptr) \
if(((_Comp) & GlobalDebugComponents) && (_Level <= GlobalDebugLevel)) \
{ \
int __i; \
pu1Byte ptr = (pu1Byte)_Ptr; \
DbgPrint("Rtl819x: "); \
DbgPrint(_TitleString); \
DbgPrint(" "); \
for( __i=0; __i<6; __i++ ) \
DbgPrint("%02X%s", ptr[__i], (__i==5)?"":"-"); \
DbgPrint("\n"); \
}
#define RT_PRINT_ADDRS(_Comp, _Level, _TitleString, _Ptr, _AddNum) \
if(((_Comp) & GlobalDebugComponents) && (_Level <= GlobalDebugLevel)) \
{ \
int __i, __j; \
pu1Byte ptr = (pu1Byte)_Ptr; \
DbgPrint("Rtl819x: "); \
DbgPrint(_TitleString); \
DbgPrint("\n"); \
for( __i=0; __i<(int)_AddNum; __i++ ) \
{ \
for( __j=0; __j<6; __j++ ) \
DbgPrint("%02X%s", ptr[__i*6+__j], (__j==5)?"":"-"); \
DbgPrint("\n"); \
} \
}
// Added by Annie, 2005-11-22.
#define MAX_STR_LEN 64
#define PRINTABLE(_ch) (_ch>=' ' &&_ch<='~' ) // I want to see ASCII 33 to 126 only. Otherwise, I print '?'. Annie, 2005-11-22.
#define RT_PRINT_STR(_Comp, _Level, _TitleString, _Ptr, _Len) \
if(((_Comp) & GlobalDebugComponents) && (_Level <= GlobalDebugLevel)) \
{ \
int __i; \
u1Byte buffer[MAX_STR_LEN]; \
int length = (_Len<MAX_STR_LEN)? _Len : (MAX_STR_LEN-1) ; \
PlatformZeroMemory( buffer, MAX_STR_LEN ); \
PlatformMoveMemory( buffer, (pu1Byte)_Ptr, length ); \
for( __i=0; __i<MAX_STR_LEN; __i++ ) \
{ \
if( !PRINTABLE(buffer[__i]) ) buffer[__i] = '?'; \
} \
buffer[length] = '\0'; \
DbgPrint("Rtl819x: "); \
DbgPrint(_TitleString); \
DbgPrint(": %d, <%s>\n", _Len, buffer); \
}
#else // of #if DBG
#define DbgPrint(...)
#define PRINT_DATA(_TitleString, _HexData, _HexDataLen)
#define RT_PRINT_DATA(_Comp, _Level, _TitleString, _HexData, _HexDataLen)
#define RT_PRINT_ADDR(_Comp, _Level, _TitleString, _Ptr)
#define RT_PRINT_ADDRS(_Comp, _Level, _TitleString, _Ptr, _AddNum)
#define RT_PRINT_STR(_Comp, _Level, _TitleString, _Ptr, _Len)
#endif // of #if DBG
#endif // #if (DM_ODM_SUPPORT_TYPE != ODM_MP)
#define DEBUG_PRINT 1
// Please add new OS's print API by yourself
//#if (RT_PLATFORM==PLATFORM_WINDOWS)
#if (DEBUG_PRINT == 1) && DBG
#define RTPRINT(dbgtype, dbgflag, printstr)\
{\
if (DBGP_Type[dbgtype] & dbgflag)\
{\
DbgPrint printstr;\
}\
}
#define RTPRINT_ADDR(dbgtype, dbgflag, printstr, _Ptr)\
{\
if (DBGP_Type[dbgtype] & dbgflag)\
{\
int __i; \
pu1Byte ptr = (pu1Byte)_Ptr; \
DbgPrint printstr; \
DbgPrint(" "); \
for( __i=0; __i<6; __i++ ) \
DbgPrint("%02X%s", ptr[__i], (__i==5)?"":"-"); \
DbgPrint("\n"); \
}\
}
#define RTPRINT_DATA(dbgtype, dbgflag, _TitleString, _HexData, _HexDataLen)\
{\
if (DBGP_Type[dbgtype] & dbgflag)\
{\
int __i; \
pu1Byte ptr = (pu1Byte)_HexData; \
DbgPrint(_TitleString); \
for( __i=0; __i<(int)_HexDataLen; __i++ ) \
{ \
DbgPrint("%02X%s", ptr[__i], (((__i + 1) % 4) == 0)?" ":" ");\
if (((__i + 1) % 16) == 0) DbgPrint("\n");\
} \
DbgPrint("\n"); \
}\
}
#define FuncEntry FunctionIn(COMP_FUNC)
#define FuncExit FunctionOut(COMP_FUNC)
#define FunctionIn(_comp) ODM_RT_TRACE(pDM_Odm,(_comp), DBG_LOUD, ("==========> %s\n", __FUNCTION__))
#define FunctionOut(_comp) ODM_RT_TRACE(pDM_Odm,(_comp), DBG_LOUD, ("<========== %s\n", __FUNCTION__))
#else
#define DBGP(dbgtype, dbgflag, printstr)
#define RTPRINT(dbgtype, dbgflag, printstr)
#define RTPRINT_ADDR(dbgtype, dbgflag, printstr, _Ptr)
#define RTPRINT_DATA(dbgtype, dbgflag, _TitleString, _HexData, _HexDataLen)
#define FuncEntry
#define FuncExit
#define FunctionIn(_comp)
#define FunctionOut(_comp)
#endif
/*------------------------Export Marco Definition---------------------------*/
/*------------------------Export global variable----------------------------*/
extern u4Byte DBGP_Type[DBGP_TYPE_MAX];
extern DBGP_HEAD_T DBGP_Head;
/*------------------------Export global variable----------------------------*/
/*--------------------------Exported Function prototype---------------------*/
extern void DBGP_Flag_Init(void);
extern void DBG_PrintAllFlag(void);
extern void DBG_PrintAllComp(void);
extern void DBG_PrintFlagEvent(u1Byte DbgFlag);
extern void DBG_DumpMem(const u1Byte DbgComp,
const u1Byte DbgLevel,
pu1Byte pMem,
u2Byte Len);
/*--------------------------Exported Function prototype---------------------*/
extern u4Byte GlobalDebugLevel;
extern u8Byte GlobalDebugComponents;
#endif
#endif // __ODM_DBG_H__

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hal/OUTSRC/odm_interface.c Executable file
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@ -0,0 +1,666 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
//============================================================
// include files
//============================================================
#include "odm_precomp.h"
//
// ODM IO Relative API.
//
u1Byte
ODM_Read1Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
prtl8192cd_priv priv = pDM_Odm->priv;
return RTL_R8(RegAddr);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
PADAPTER Adapter = pDM_Odm->Adapter;
return rtw_read8(Adapter,RegAddr);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
return PlatformEFIORead1Byte(Adapter, RegAddr);
#endif
}
u2Byte
ODM_Read2Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
prtl8192cd_priv priv = pDM_Odm->priv;
return RTL_R16(RegAddr);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
PADAPTER Adapter = pDM_Odm->Adapter;
return rtw_read16(Adapter,RegAddr);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
return PlatformEFIORead2Byte(Adapter, RegAddr);
#endif
}
u4Byte
ODM_Read4Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
prtl8192cd_priv priv = pDM_Odm->priv;
return RTL_R32(RegAddr);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
PADAPTER Adapter = pDM_Odm->Adapter;
return rtw_read32(Adapter,RegAddr);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
return PlatformEFIORead4Byte(Adapter, RegAddr);
#endif
}
VOID
ODM_Write1Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u1Byte Data
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
prtl8192cd_priv priv = pDM_Odm->priv;
RTL_W8(RegAddr, Data);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
PADAPTER Adapter = pDM_Odm->Adapter;
rtw_write8(Adapter,RegAddr, Data);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformEFIOWrite1Byte(Adapter, RegAddr, Data);
#endif
}
VOID
ODM_Write2Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u2Byte Data
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
prtl8192cd_priv priv = pDM_Odm->priv;
RTL_W16(RegAddr, Data);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
PADAPTER Adapter = pDM_Odm->Adapter;
rtw_write16(Adapter,RegAddr, Data);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformEFIOWrite2Byte(Adapter, RegAddr, Data);
#endif
}
VOID
ODM_Write4Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte Data
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
prtl8192cd_priv priv = pDM_Odm->priv;
RTL_W32(RegAddr, Data);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
PADAPTER Adapter = pDM_Odm->Adapter;
rtw_write32(Adapter,RegAddr, Data);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformEFIOWrite4Byte(Adapter, RegAddr, Data);
#endif
}
VOID
ODM_SetMACReg(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte BitMask,
IN u4Byte Data
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
PHY_SetBBReg(pDM_Odm->priv, RegAddr, BitMask, Data);
#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_MP))
PADAPTER Adapter = pDM_Odm->Adapter;
PHY_SetBBReg(Adapter, RegAddr, BitMask, Data);
#endif
}
u4Byte
ODM_GetMACReg(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte BitMask
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
return PHY_QueryBBReg(pDM_Odm->priv, RegAddr, BitMask);
#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_MP))
PADAPTER Adapter = pDM_Odm->Adapter;
return PHY_QueryBBReg(Adapter, RegAddr, BitMask);
#endif
}
VOID
ODM_SetBBReg(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte BitMask,
IN u4Byte Data
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
PHY_SetBBReg(pDM_Odm->priv, RegAddr, BitMask, Data);
#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_MP))
PADAPTER Adapter = pDM_Odm->Adapter;
PHY_SetBBReg(Adapter, RegAddr, BitMask, Data);
#endif
}
u4Byte
ODM_GetBBReg(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte BitMask
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
return PHY_QueryBBReg(pDM_Odm->priv, RegAddr, BitMask);
#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_MP))
PADAPTER Adapter = pDM_Odm->Adapter;
return PHY_QueryBBReg(Adapter, RegAddr, BitMask);
#endif
}
VOID
ODM_SetRFReg(
IN PDM_ODM_T pDM_Odm,
IN ODM_RF_RADIO_PATH_E eRFPath,
IN u4Byte RegAddr,
IN u4Byte BitMask,
IN u4Byte Data
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
PHY_SetRFReg(pDM_Odm->priv, eRFPath, RegAddr, BitMask, Data);
#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_MP))
PADAPTER Adapter = pDM_Odm->Adapter;
PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data);
#endif
}
u4Byte
ODM_GetRFReg(
IN PDM_ODM_T pDM_Odm,
IN ODM_RF_RADIO_PATH_E eRFPath,
IN u4Byte RegAddr,
IN u4Byte BitMask
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
return PHY_QueryRFReg(pDM_Odm->priv, eRFPath, RegAddr, BitMask, 1);
#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_MP))
PADAPTER Adapter = pDM_Odm->Adapter;
return PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask);
#endif
}
//
// ODM Memory relative API.
//
VOID
ODM_AllocateMemory(
IN PDM_ODM_T pDM_Odm,
OUT PVOID *pPtr,
IN u4Byte length
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
*pPtr = kmalloc(length, GFP_ATOMIC);
#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
*pPtr = rtw_zvmalloc(length);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformAllocateMemory(Adapter, pPtr, length);
#endif
}
// length could be ignored, used to detect memory leakage.
VOID
ODM_FreeMemory(
IN PDM_ODM_T pDM_Odm,
OUT PVOID pPtr,
IN u4Byte length
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
kfree(pPtr);
#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
rtw_vmfree(pPtr, length);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
//PADAPTER Adapter = pDM_Odm->Adapter;
PlatformFreeMemory(pPtr, length);
#endif
}
s4Byte ODM_CompareMemory(
IN PDM_ODM_T pDM_Odm,
IN PVOID pBuf1,
IN PVOID pBuf2,
IN u4Byte length
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
return memcmp(pBuf1,pBuf2,length);
#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
return _rtw_memcmp(pBuf1,pBuf2,length);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
return PlatformCompareMemory(pBuf1,pBuf2,length);
#endif
}
//
// ODM MISC relative API.
//
VOID
ODM_AcquireSpinLock(
IN PDM_ODM_T pDM_Odm,
IN RT_SPINLOCK_TYPE type
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformAcquireSpinLock(Adapter, type);
#endif
}
VOID
ODM_ReleaseSpinLock(
IN PDM_ODM_T pDM_Odm,
IN RT_SPINLOCK_TYPE type
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformReleaseSpinLock(Adapter, type);
#endif
}
//
// Work item relative API. FOr MP driver only~!
//
VOID
ODM_InitializeWorkItem(
IN PDM_ODM_T pDM_Odm,
IN PRT_WORK_ITEM pRtWorkItem,
IN RT_WORKITEM_CALL_BACK RtWorkItemCallback,
IN PVOID pContext,
IN const char* szID
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformInitializeWorkItem(Adapter, pRtWorkItem, RtWorkItemCallback, pContext, szID);
#endif
}
VOID
ODM_StartWorkItem(
IN PRT_WORK_ITEM pRtWorkItem
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PlatformStartWorkItem(pRtWorkItem);
#endif
}
VOID
ODM_StopWorkItem(
IN PRT_WORK_ITEM pRtWorkItem
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PlatformStopWorkItem(pRtWorkItem);
#endif
}
VOID
ODM_FreeWorkItem(
IN PRT_WORK_ITEM pRtWorkItem
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PlatformFreeWorkItem(pRtWorkItem);
#endif
}
VOID
ODM_ScheduleWorkItem(
IN PRT_WORK_ITEM pRtWorkItem
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PlatformScheduleWorkItem(pRtWorkItem);
#endif
}
VOID
ODM_IsWorkItemScheduled(
IN PRT_WORK_ITEM pRtWorkItem
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PlatformIsWorkItemScheduled(pRtWorkItem);
#endif
}
//
// ODM Timer relative API.
//
VOID
ODM_StallExecution(
IN u4Byte usDelay
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
rtw_udelay_os(usDelay);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PlatformStallExecution(usDelay);
#endif
}
VOID
ODM_delay_ms(IN u4Byte ms)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
delay_ms(ms);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
rtw_mdelay_os(ms);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
delay_ms(ms);
#endif
}
VOID
ODM_delay_us(IN u4Byte us)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
delay_us(us);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
rtw_udelay_os(us);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PlatformStallExecution(us);
#endif
}
VOID
ODM_sleep_ms(IN u4Byte ms)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
rtw_msleep_os(ms);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
#endif
}
VOID
ODM_sleep_us(IN u4Byte us)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
rtw_usleep_os(us);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
#endif
}
VOID
ODM_SetTimer(
IN PDM_ODM_T pDM_Odm,
IN PRT_TIMER pTimer,
IN u4Byte msDelay
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
mod_timer(pTimer, jiffies + (msDelay+9)/10);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
_set_timer(pTimer,msDelay ); //ms
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformSetTimer(Adapter, pTimer, msDelay);
#endif
}
VOID
ODM_InitializeTimer(
IN PDM_ODM_T pDM_Odm,
IN PRT_TIMER pTimer,
IN RT_TIMER_CALL_BACK CallBackFunc,
IN PVOID pContext,
IN const char* szID
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
pTimer->function = CallBackFunc;
pTimer->data = (unsigned long)pDM_Odm;
init_timer(pTimer);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
PADAPTER Adapter = pDM_Odm->Adapter;
_init_timer(pTimer,Adapter->pnetdev,CallBackFunc,pDM_Odm);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformInitializeTimer(Adapter, pTimer, CallBackFunc,pContext,szID);
#endif
}
VOID
ODM_CancelTimer(
IN PDM_ODM_T pDM_Odm,
IN PRT_TIMER pTimer
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
del_timer_sync(pTimer);
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
_cancel_timer_ex(pTimer);
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
PlatformCancelTimer(Adapter, pTimer);
#endif
}
VOID
ODM_ReleaseTimer(
IN PDM_ODM_T pDM_Odm,
IN PRT_TIMER pTimer
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
PADAPTER Adapter = pDM_Odm->Adapter;
// <20120301, Kordan> If the initilization fails, InitializeAdapterXxx will return regardless of InitHalDm.
// Hence, uninitialized timers cause BSOD when the driver releases resources since the init fail.
if (pTimer == 0)
{
ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_SERIOUS, ("=====>ODM_ReleaseTimer(), The timer is NULL! Please check it!\n"));
return;
}
PlatformReleaseTimer(Adapter, pTimer);
#endif
}
//
// ODM FW relative API.
//
#if (DM_ODM_SUPPORT_TYPE & ODM_MP)
VOID
ODM_FillH2CCmd(
IN PADAPTER Adapter,
IN u1Byte ElementID,
IN u4Byte CmdLen,
IN pu1Byte pCmdBuffer
)
{
if(IS_HARDWARE_TYPE_JAGUAR(Adapter))
{
switch(ElementID)
{
case ODM_H2C_RSSI_REPORT:
FillH2CCmd8812(Adapter, H2C_8812_RSSI_REPORT, CmdLen, pCmdBuffer);
default:
break;
}
}
else if(IS_HARDWARE_TYPE_8188E(Adapter))
{
switch(ElementID)
{
case ODM_H2C_PSD_RESULT:
FillH2CCmd88E(Adapter, H2C_88E_PSD_RESULT, CmdLen, pCmdBuffer);
default:
break;
}
}
else
{
switch(ElementID)
{
case ODM_H2C_RSSI_REPORT:
FillH2CCmd92C(Adapter, H2C_RSSI_REPORT, CmdLen, pCmdBuffer);
case ODM_H2C_PSD_RESULT:
FillH2CCmd92C(Adapter, H2C_92C_PSD_RESULT, CmdLen, pCmdBuffer);
default:
break;
}
}
}
#else
u4Byte
ODM_FillH2CCmd(
IN pu1Byte pH2CBuffer,
IN u4Byte H2CBufferLen,
IN u4Byte CmdNum,
IN pu4Byte pElementID,
IN pu4Byte pCmdLen,
IN pu1Byte* pCmbBuffer,
IN pu1Byte CmdStartSeq
)
{
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
#elif(DM_ODM_SUPPORT_TYPE & ODM_MP)
//FillH2CCmd(pH2CBuffer, H2CBufferLen, CmdNum, pElementID, pCmdLen, pCmbBuffer, CmdStartSeq);
return FALSE;
#endif
return TRUE;
}
#endif

374
hal/OUTSRC/odm_interface.h Executable file
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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __ODM_INTERFACE_H__
#define __ODM_INTERFACE_H__
//
// =========== Constant/Structure/Enum/... Define
//
//
// =========== Macro Define
//
#define _reg_all(_name) ODM_##_name
#define _reg_ic(_name, _ic) ODM_##_name##_ic
#define _bit_all(_name) BIT_##_name
#define _bit_ic(_name, _ic) BIT_##_name##_ic
// _cat: implemented by Token-Pasting Operator.
#if 0
#define _cat(_name, _ic_type, _func) \
( \
_func##_all(_name) \
)
#endif
/*===================================
#define ODM_REG_DIG_11N 0xC50
#define ODM_REG_DIG_11AC 0xDDD
ODM_REG(DIG,_pDM_Odm)
=====================================*/
#define _reg_11N(_name) ODM_REG_##_name##_11N
#define _reg_11AC(_name) ODM_REG_##_name##_11AC
#define _bit_11N(_name) ODM_BIT_##_name##_11N
#define _bit_11AC(_name) ODM_BIT_##_name##_11AC
#if 1 //TODO: enable it if we need to support run-time to differentiate between 92C_SERIES and JAGUAR_SERIES.
#define _cat(_name, _ic_type, _func) \
( \
((_ic_type) & ODM_IC_11N_SERIES)? _func##_11N(_name): \
_func##_11AC(_name) \
)
#endif
#if 0 // only sample code
#define _cat(_name, _ic_type, _func) \
( \
((_ic_type) & ODM_RTL8192C)? _func##_ic(_name, _8192C): \
((_ic_type) & ODM_RTL8192D)? _func##_ic(_name, _8192D): \
((_ic_type) & ODM_RTL8192S)? _func##_ic(_name, _8192S): \
((_ic_type) & ODM_RTL8723A)? _func##_ic(_name, _8723A): \
((_ic_type) & ODM_RTL8188E)? _func##_ic(_name, _8188E): \
_func##_ic(_name, _8195) \
)
#endif
// _name: name of register or bit.
// Example: "ODM_REG(R_A_AGC_CORE1, pDM_Odm)"
// gets "ODM_R_A_AGC_CORE1" or "ODM_R_A_AGC_CORE1_8192C", depends on SupportICType.
#define ODM_REG(_name, _pDM_Odm) _cat(_name, _pDM_Odm->SupportICType, _reg)
#define ODM_BIT(_name, _pDM_Odm) _cat(_name, _pDM_Odm->SupportICType, _bit)
typedef enum _ODM_H2C_CMD
{
ODM_H2C_RSSI_REPORT = 0,
ODM_H2C_PSD_RESULT=1,
ODM_H2C_PathDiv = 2,
ODM_MAX_H2CCMD
}ODM_H2C_CMD;
//
// 2012/02/17 MH For non-MP compile pass only. Linux does not support workitem.
// Suggest HW team to use thread instead of workitem. Windows also support the feature.
//
#if (DM_ODM_SUPPORT_TYPE != ODM_MP)
typedef void *PRT_WORK_ITEM ;
typedef void RT_WORKITEM_HANDLE,*PRT_WORKITEM_HANDLE;
typedef VOID (*RT_WORKITEM_CALL_BACK)(PVOID pContext);
#if 0
typedef struct tasklet_struct RT_WORKITEM_HANDLE, *PRT_WORKITEM_HANDLE;
typedef struct _RT_WORK_ITEM
{
RT_WORKITEM_HANDLE Handle; // Platform-dependent handle for this workitem, e.g. Ndis Workitem object.
PVOID Adapter; // Pointer to Adapter object.
PVOID pContext; // Parameter to passed to CallBackFunc().
RT_WORKITEM_CALL_BACK CallbackFunc; // Callback function of the workitem.
u1Byte RefCount; // 0: driver is going to unload, 1: No such workitem scheduled, 2: one workitem is schedueled.
PVOID pPlatformExt; // Pointer to platform-dependent extension.
BOOLEAN bFree;
char szID[36]; // An identity string of this workitem.
}RT_WORK_ITEM, *PRT_WORK_ITEM;
#endif
#endif
//
// =========== Extern Variable ??? It should be forbidden.
//
//
// =========== EXtern Function Prototype
//
u1Byte
ODM_Read1Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr
);
u2Byte
ODM_Read2Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr
);
u4Byte
ODM_Read4Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr
);
VOID
ODM_Write1Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u1Byte Data
);
VOID
ODM_Write2Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u2Byte Data
);
VOID
ODM_Write4Byte(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte Data
);
VOID
ODM_SetMACReg(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte BitMask,
IN u4Byte Data
);
u4Byte
ODM_GetMACReg(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte BitMask
);
VOID
ODM_SetBBReg(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte BitMask,
IN u4Byte Data
);
u4Byte
ODM_GetBBReg(
IN PDM_ODM_T pDM_Odm,
IN u4Byte RegAddr,
IN u4Byte BitMask
);
VOID
ODM_SetRFReg(
IN PDM_ODM_T pDM_Odm,
IN ODM_RF_RADIO_PATH_E eRFPath,
IN u4Byte RegAddr,
IN u4Byte BitMask,
IN u4Byte Data
);
u4Byte
ODM_GetRFReg(
IN PDM_ODM_T pDM_Odm,
IN ODM_RF_RADIO_PATH_E eRFPath,
IN u4Byte RegAddr,
IN u4Byte BitMask
);
//
// Memory Relative Function.
//
VOID
ODM_AllocateMemory(
IN PDM_ODM_T pDM_Odm,
OUT PVOID *pPtr,
IN u4Byte length
);
VOID
ODM_FreeMemory(
IN PDM_ODM_T pDM_Odm,
OUT PVOID pPtr,
IN u4Byte length
);
s4Byte ODM_CompareMemory(
IN PDM_ODM_T pDM_Odm,
IN PVOID pBuf1,
IN PVOID pBuf2,
IN u4Byte length
);
//
// ODM MISC-spin lock relative API.
//
VOID
ODM_AcquireSpinLock(
IN PDM_ODM_T pDM_Odm,
IN RT_SPINLOCK_TYPE type
);
VOID
ODM_ReleaseSpinLock(
IN PDM_ODM_T pDM_Odm,
IN RT_SPINLOCK_TYPE type
);
//
// ODM MISC-workitem relative API.
//
VOID
ODM_InitializeWorkItem(
IN PDM_ODM_T pDM_Odm,
IN PRT_WORK_ITEM pRtWorkItem,
IN RT_WORKITEM_CALL_BACK RtWorkItemCallback,
IN PVOID pContext,
IN const char* szID
);
VOID
ODM_StartWorkItem(
IN PRT_WORK_ITEM pRtWorkItem
);
VOID
ODM_StopWorkItem(
IN PRT_WORK_ITEM pRtWorkItem
);
VOID
ODM_FreeWorkItem(
IN PRT_WORK_ITEM pRtWorkItem
);
VOID
ODM_ScheduleWorkItem(
IN PRT_WORK_ITEM pRtWorkItem
);
VOID
ODM_IsWorkItemScheduled(
IN PRT_WORK_ITEM pRtWorkItem
);
//
// ODM Timer relative API.
//
VOID
ODM_StallExecution(
IN u4Byte usDelay
);
VOID
ODM_delay_ms(IN u4Byte ms);
VOID
ODM_delay_us(IN u4Byte us);
VOID
ODM_sleep_ms(IN u4Byte ms);
VOID
ODM_sleep_us(IN u4Byte us);
VOID
ODM_SetTimer(
IN PDM_ODM_T pDM_Odm,
IN PRT_TIMER pTimer,
IN u4Byte msDelay
);
VOID
ODM_InitializeTimer(
IN PDM_ODM_T pDM_Odm,
IN PRT_TIMER pTimer,
IN RT_TIMER_CALL_BACK CallBackFunc,
IN PVOID pContext,
IN const char* szID
);
VOID
ODM_CancelTimer(
IN PDM_ODM_T pDM_Odm,
IN PRT_TIMER pTimer
);
VOID
ODM_ReleaseTimer(
IN PDM_ODM_T pDM_Odm,
IN PRT_TIMER pTimer
);
//
// ODM FW relative API.
//
#if (DM_ODM_SUPPORT_TYPE & ODM_MP)
VOID
ODM_FillH2CCmd(
IN PADAPTER Adapter,
IN u1Byte ElementID,
IN u4Byte CmdLen,
IN pu1Byte pCmdBuffer
);
#else
u4Byte
ODM_FillH2CCmd(
IN pu1Byte pH2CBuffer,
IN u4Byte H2CBufferLen,
IN u4Byte CmdNum,
IN pu4Byte pElementID,
IN pu4Byte pCmdLen,
IN pu1Byte* pCmbBuffer,
IN pu1Byte CmdStartSeq
);
#endif
#endif // __ODM_INTERFACE_H__

222
hal/OUTSRC/odm_precomp.h Executable file
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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __ODM_PRECOMP_H__
#define __ODM_PRECOMP_H__
#include "odm_types.h"
#if (DM_ODM_SUPPORT_TYPE == ODM_MP)
#include "Precomp.h" // We need to include mp_precomp.h due to batch file setting.
#else
#define TEST_FALG___ 1
#endif
//2 Config Flags and Structs - defined by each ODM Type
#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
#include "../8192cd_cfg.h"
#include "../odm_inc.h"
#include "../8192cd.h"
#include "../8192cd_util.h"
#ifdef _BIG_ENDIAN_
#define ODM_ENDIAN_TYPE ODM_ENDIAN_BIG
#else
#define ODM_ENDIAN_TYPE ODM_ENDIAN_LITTLE
#endif
#ifdef AP_BUILD_WORKAROUND
#include "../8192cd_headers.h"
#include "../8192cd_debug.h"
#endif
#elif (DM_ODM_SUPPORT_TYPE == ODM_ADSL)
// Flags
#include "../8192cd_cfg.h" // OUTSRC needs ADSL config flags.
#include "../odm_inc.h" // OUTSRC needs some extra flags.
// Data Structure
#include "../common_types.h" // OUTSRC and rtl8192cd both needs basic type such as UINT8 and BIT0.
#include "../8192cd.h" // OUTSRC needs basic ADSL struct definition.
#include "../8192cd_util.h" // OUTSRC needs basic I/O function.
#ifdef _BIG_ENDIAN_
#define ODM_ENDIAN_TYPE ODM_ENDIAN_BIG
#else
#define ODM_ENDIAN_TYPE ODM_ENDIAN_LITTLE
#endif
#ifdef ADSL_AP_BUILD_WORKAROUND
// NESTED_INC: Functions defined outside should not be included!! Marked by Annie, 2011-10-14.
#include "../8192cd_headers.h"
#include "../8192cd_debug.h"
#endif
#elif (DM_ODM_SUPPORT_TYPE ==ODM_CE)
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtw_byteorder.h>
#include <hal_intf.h>
#elif (DM_ODM_SUPPORT_TYPE == ODM_MP)
#include "Mp_Precomp.h"
#define ODM_ENDIAN_TYPE ODM_ENDIAN_LITTLE
#endif
//2 Hardware Parameter Files
#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
#if (RTL8192C_SUPPORT==1)
#include "rtl8192c/Hal8192CEFWImg_AP.h"
#include "rtl8192c/Hal8192CEPHYImg_AP.h"
#include "rtl8192c/Hal8192CEMACImg_AP.h"
#endif
#elif (DM_ODM_SUPPORT_TYPE == ODM_ADSL)
#include "rtl8192c/Hal8192CEFWImg_ADSL.h"
#include "rtl8192c/Hal8192CEPHYImg_ADSL.h"
#include "rtl8192c/Hal8192CEMACImg_ADSL.h"
#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
#if(RTL8192CE_SUPPORT ==1)
#include "rtl8192c/Hal8192CEFWImg_CE.h"
#include "rtl8192c/Hal8192CEPHYImg_CE.h"
#include "rtl8192c/Hal8192CEMACImg_CE.h"
#elif(RTL8192CU_SUPPORT ==1)
#include "rtl8192c/Hal8192CUFWImg_CE.h"
#include "rtl8192c/Hal8192CUPHYImg_CE.h"
#include "rtl8192c/Hal8192CUMACImg_CE.h"
#elif(RTL8192DE_SUPPORT ==1)
#include "rtl8192d/Hal8192DEFWImg_CE.h"
#include "rtl8192d/Hal8192DEPHYImg_CE.h"
#include "rtl8192d/Hal8192DEMACImg_CE.h"
#elif(RTL8192DU_SUPPORT ==1)
#include "rtl8192d/Hal8192DUFWImg_CE.h"
#include "rtl8192d/Hal8192DUPHYImg_CE.h"
#include "rtl8192d/Hal8192DUMACImg_CE.h"
#elif(RTL8723AS_SUPPORT==1)
#include "rtl8723a/Hal8723SHWImg_CE.h"
#elif(RTL8723AU_SUPPORT==1)
#include "rtl8723a/Hal8723UHWImg_CE.h"
#elif(RTL8188E_SUPPORT==1)
#include "rtl8188e/Hal8188EFWImg_CE.h"
#endif
#elif (DM_ODM_SUPPORT_TYPE == ODM_MP)
#endif
//2 OutSrc Header Files
#include "odm.h"
#include "odm_HWConfig.h"
#include "odm_debug.h"
#include "odm_RegDefine11AC.h"
#include "odm_RegDefine11N.h"
#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
#if (RTL8192C_SUPPORT==1)
#include "rtl8192c/HalDMOutSrc8192C_AP.h"
#endif
#if (RTL8188E_SUPPORT==1)
#include "rtl8188e/Hal8188ERateAdaptive.h"//for RA,Power training
#endif
#elif (DM_ODM_SUPPORT_TYPE == ODM_ADSL)
#include "rtl8192c/HalDMOutSrc8192C_ADSL.h"
#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
#include "HalPhyRf.h"
#if (RTL8192C_SUPPORT==1)
#ifdef CONFIG_INTEL_PROXIM
#include "../proxim/intel_proxim.h"
#endif
#include "rtl8192c/HalDMOutSrc8192C_CE.h"
#include <rtl8192c_hal.h>
#elif (RTL8192D_SUPPORT==1)
#include "rtl8192d/HalDMOutSrc8192D_CE.h"
#include "rtl8192d_hal.h"
#elif (RTL8723A_SUPPORT==1)
#include "rtl8192c/HalDMOutSrc8192C_CE.h" //for IQK,LCK,Power-tracking
#include "rtl8723a_hal.h"
#elif (RTL8188E_SUPPORT==1)
#include "rtl8188e/HalPhyRf_8188e.h"//for IQK,LCK,Power-tracking
#include "rtl8188e/Hal8188ERateAdaptive.h"//for RA,Power training
#include "rtl8188e_hal.h"
#endif
#endif
#include "odm_interface.h"
#include "odm_reg.h"
#if (RTL8192C_SUPPORT==1)
#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
#include "rtl8192c/Hal8192CHWImg_MAC.h"
#include "rtl8192c/Hal8192CHWImg_RF.h"
#include "rtl8192c/Hal8192CHWImg_BB.h"
#include "rtl8192c/Hal8192CHWImg_FW.h"
#endif
#include "rtl8192c/odm_RTL8192C.h"
#endif
#if (RTL8192D_SUPPORT==1)
#include "rtl8192d/odm_RTL8192D.h"
#endif
#if (RTL8723A_SUPPORT==1)
#include "rtl8723a/HalHWImg8723A_MAC.h"
#include "rtl8723a/HalHWImg8723A_RF.h"
#include "rtl8723a/HalHWImg8723A_BB.h"
#include "rtl8723a/HalHWImg8723A_FW.h"
#include "rtl8723a/odm_RegConfig8723A.h"
#endif
#if (RTL8188E_SUPPORT==1)
#include "rtl8188e/HalHWImg8188E_MAC.h"
#include "rtl8188e/HalHWImg8188E_RF.h"
#include "rtl8188e/HalHWImg8188E_BB.h"
#include "rtl8188e/Hal8188EReg.h"
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
#include "rtl8188e/HalPhyRf_8188e.h"
#endif
#if (RTL8188E_FOR_TEST_CHIP >= 1)
#include "rtl8188e/HalHWImg8188E_TestChip_MAC.h"
#include "rtl8188e/HalHWImg8188E_TestChip_RF.h"
#include "rtl8188e/HalHWImg8188E_TestChip_BB.h"
#endif
#ifdef CONFIG_WOWLAN
#if (RTL8188E_SUPPORT==1)
#include "rtl8188e/HalHWImg8188E_FW.h"
#endif
#endif //CONFIG_WOWLAN
#include "rtl8188e/odm_RegConfig8188E.h"
#include "rtl8188e/odm_RTL8188E.h"
#endif
#endif // __ODM_PRECOMP_H__

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hal/OUTSRC/odm_reg.h Executable file
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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
//============================================================
// File Name: odm_reg.h
//
// Description:
//
// This file is for general register definition.
//
//
//============================================================
#ifndef __HAL_ODM_REG_H__
#define __HAL_ODM_REG_H__
//
// Register Definition
//
//MAC REG
#define ODM_BB_RESET 0x002
#define ODM_DUMMY 0x4fe
#define ODM_EDCA_VO_PARAM 0x500
#define ODM_EDCA_VI_PARAM 0x504
#define ODM_EDCA_BE_PARAM 0x508
#define ODM_EDCA_BK_PARAM 0x50C
#define ODM_TXPAUSE 0x522
//BB REG
#define ODM_FPGA_PHY0_PAGE8 0x800
#define ODM_PSD_SETTING 0x808
#define ODM_AFE_SETTING 0x818
#define ODM_TXAGC_B_6_18 0x830
#define ODM_TXAGC_B_24_54 0x834
#define ODM_TXAGC_B_MCS32_5 0x838
#define ODM_TXAGC_B_MCS0_MCS3 0x83c
#define ODM_TXAGC_B_MCS4_MCS7 0x848
#define ODM_TXAGC_B_MCS8_MCS11 0x84c
#define ODM_ANALOG_REGISTER 0x85c
#define ODM_RF_INTERFACE_OUTPUT 0x860
#define ODM_TXAGC_B_MCS12_MCS15 0x868
#define ODM_TXAGC_B_11_A_2_11 0x86c
#define ODM_AD_DA_LSB_MASK 0x874
#define ODM_ENABLE_3_WIRE 0x88c
#define ODM_PSD_REPORT 0x8b4
#define ODM_R_ANT_SELECT 0x90c
#define ODM_CCK_ANT_SELECT 0xa07
#define ODM_CCK_PD_THRESH 0xa0a
#define ODM_CCK_RF_REG1 0xa11
#define ODM_CCK_MATCH_FILTER 0xa20
#define ODM_CCK_RAKE_MAC 0xa2e
#define ODM_CCK_CNT_RESET 0xa2d
#define ODM_CCK_TX_DIVERSITY 0xa2f
#define ODM_CCK_FA_CNT_MSB 0xa5b
#define ODM_CCK_FA_CNT_LSB 0xa5c
#define ODM_CCK_NEW_FUNCTION 0xa75
#define ODM_OFDM_PHY0_PAGE_C 0xc00
#define ODM_OFDM_RX_ANT 0xc04
#define ODM_R_A_RXIQI 0xc14
#define ODM_R_A_AGC_CORE1 0xc50
#define ODM_R_A_AGC_CORE2 0xc54
#define ODM_R_B_AGC_CORE1 0xc58
#define ODM_R_AGC_PAR 0xc70
#define ODM_R_HTSTF_AGC_PAR 0xc7c
#define ODM_TX_PWR_TRAINING_A 0xc90
#define ODM_TX_PWR_TRAINING_B 0xc98
#define ODM_OFDM_FA_CNT1 0xcf0
#define ODM_OFDM_PHY0_PAGE_D 0xd00
#define ODM_OFDM_FA_CNT2 0xda0
#define ODM_OFDM_FA_CNT3 0xda4
#define ODM_OFDM_FA_CNT4 0xda8
#define ODM_TXAGC_A_6_18 0xe00
#define ODM_TXAGC_A_24_54 0xe04
#define ODM_TXAGC_A_1_MCS32 0xe08
#define ODM_TXAGC_A_MCS0_MCS3 0xe10
#define ODM_TXAGC_A_MCS4_MCS7 0xe14
#define ODM_TXAGC_A_MCS8_MCS11 0xe18
#define ODM_TXAGC_A_MCS12_MCS15 0xe1c
//RF REG
#define ODM_GAIN_SETTING 0x00
#define ODM_CHANNEL 0x18
//Ant Detect Reg
#define ODM_DPDT 0x300
//PSD Init
#define ODM_PSDREG 0x808
//92D Path Div
#define PATHDIV_REG 0xB30
#define PATHDIV_TRI 0xBA0
//
// Bitmap Definition
//
#define BIT_FA_RESET BIT0
#endif

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hal/OUTSRC/odm_types.h Executable file
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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __ODM_TYPES_H__
#define __ODM_TYPES_H__
//
// Define Different SW team support
//
#define ODM_AP 0x01 //BIT0
#define ODM_ADSL 0x02 //BIT1
#define ODM_CE 0x04 //BIT2
#define ODM_MP 0x08 //BIT3
#define DM_ODM_SUPPORT_TYPE ODM_CE
// Deifne HW endian support
#define ODM_ENDIAN_BIG 0
#define ODM_ENDIAN_LITTLE 1
#if (DM_ODM_SUPPORT_TYPE != ODM_MP)
#define RT_PCI_INTERFACE 1
#define RT_USB_INTERFACE 2
#define RT_SDIO_INTERFACE 3
#endif
typedef enum _HAL_STATUS{
HAL_STATUS_SUCCESS,
HAL_STATUS_FAILURE,
/*RT_STATUS_PENDING,
RT_STATUS_RESOURCE,
RT_STATUS_INVALID_CONTEXT,
RT_STATUS_INVALID_PARAMETER,
RT_STATUS_NOT_SUPPORT,
RT_STATUS_OS_API_FAILED,*/
}HAL_STATUS,*PHAL_STATUS;
#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
typedef enum _RT_SPINLOCK_TYPE{
RT_TEMP =1,
}RT_SPINLOCK_TYPE;
#elif( (DM_ODM_SUPPORT_TYPE == ODM_AP) ||(DM_ODM_SUPPORT_TYPE == ODM_ADSL))
#define VISTA_USB_RX_REVISE 0
//
// Declare for ODM spin lock defintion temporarily fro compile pass.
//
typedef enum _RT_SPINLOCK_TYPE{
RT_TX_SPINLOCK = 1,
RT_RX_SPINLOCK = 2,
RT_RM_SPINLOCK = 3,
RT_CAM_SPINLOCK = 4,
RT_SCAN_SPINLOCK = 5,
RT_LOG_SPINLOCK = 7,
RT_BW_SPINLOCK = 8,
RT_CHNLOP_SPINLOCK = 9,
RT_RF_OPERATE_SPINLOCK = 10,
RT_INITIAL_SPINLOCK = 11,
RT_RF_STATE_SPINLOCK = 12, // For RF state. Added by Bruce, 2007-10-30.
#if VISTA_USB_RX_REVISE
RT_USBRX_CONTEXT_SPINLOCK = 13,
RT_USBRX_POSTPROC_SPINLOCK = 14, // protect data of Adapter->IndicateW/ IndicateR
#endif
//Shall we define Ndis 6.2 SpinLock Here ?
RT_PORT_SPINLOCK=16,
RT_VNIC_SPINLOCK=17,
RT_HVL_SPINLOCK=18,
RT_H2C_SPINLOCK = 20, // For H2C cmd. Added by tynli. 2009.11.09.
RT_BTData_SPINLOCK=25,
RT_WAPI_OPTION_SPINLOCK=26,
RT_WAPI_RX_SPINLOCK=27,
// add for 92D CCK control issue
RT_CCK_PAGEA_SPINLOCK = 28,
RT_BUFFER_SPINLOCK = 29,
RT_CHANNEL_AND_BANDWIDTH_SPINLOCK = 30,
RT_GEN_TEMP_BUF_SPINLOCK = 31,
RT_AWB_SPINLOCK = 32,
RT_FW_PS_SPINLOCK = 33,
RT_HW_TIMER_SPIN_LOCK = 34,
RT_MPT_WI_SPINLOCK = 35
}RT_SPINLOCK_TYPE;
#endif
#if (DM_ODM_SUPPORT_TYPE == ODM_MP)
#define STA_INFO_T RT_WLAN_STA
#define PSTA_INFO_T PRT_WLAN_STA
// typedef unsigned long u4Byte,*pu4Byte;
#define CONFIG_HW_ANTENNA_DIVERSITY
#define CONFIG_SW_ANTENNA_DIVERSITY
#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
// To let ADSL/AP project compile ok; it should be removed after all conflict are solved. Added by Annie, 2011-10-07.
#define ADSL_AP_BUILD_WORKAROUND
#define AP_BUILD_WORKAROUND
//
#ifdef AP_BUILD_WORKAROUND
#include "../typedef.h"
#else
typedef void VOID,*PVOID;
typedef unsigned char BOOLEAN,*PBOOLEAN;
typedef unsigned char u1Byte,*pu1Byte;
typedef unsigned short u2Byte,*pu2Byte;
typedef unsigned int u4Byte,*pu4Byte;
typedef unsigned long long u8Byte,*pu8Byte;
typedef char s1Byte,*ps1Byte;
typedef short s2Byte,*ps2Byte;
typedef long s4Byte,*ps4Byte;
typedef long long s8Byte,*ps8Byte;
#endif
typedef struct rtl8192cd_priv *prtl8192cd_priv;
typedef struct stat_info STA_INFO_T,*PSTA_INFO_T;
typedef struct timer_list RT_TIMER, *PRT_TIMER;
typedef void * RT_TIMER_CALL_BACK;
#define DEV_BUS_TYPE RT_PCI_INTERFACE
#define _TRUE 1
#define _FALSE 0
#elif (DM_ODM_SUPPORT_TYPE == ODM_ADSL)
// To let ADSL/AP project compile ok; it should be removed after all conflict are solved. Added by Annie, 2011-10-07.
#define ADSL_AP_BUILD_WORKAROUND
#define ADSL_BUILD_WORKAROUND
//
typedef unsigned char BOOLEAN,*PBOOLEAN;
typedef unsigned char u1Byte,*pu1Byte;
typedef unsigned short u2Byte,*pu2Byte;
typedef unsigned int u4Byte,*pu4Byte;
typedef unsigned long long u8Byte,*pu8Byte;
typedef char s1Byte,*ps1Byte;
typedef short s2Byte,*ps2Byte;
typedef long s4Byte,*ps4Byte;
typedef long long s8Byte,*ps8Byte;
typedef struct rtl8192cd_priv *prtl8192cd_priv;
typedef struct stat_info STA_INFO_T,*PSTA_INFO_T;
typedef struct timer_list RT_TIMER, *PRT_TIMER;
typedef void * RT_TIMER_CALL_BACK;
#define DEV_BUS_TYPE RT_PCI_INTERFACE
#define _TRUE 1
#define _FALSE 0
#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
#include <basic_types.h>
#if 0
typedef u8 u1Byte, *pu1Byte;
typedef u16 u2Byte,*pu2Byte;
typedef u32 u4Byte,*pu4Byte;
typedef u64 u8Byte,*pu8Byte;
typedef s8 s1Byte,*ps1Byte;
typedef s16 s2Byte,*ps2Byte;
typedef s32 s4Byte,*ps4Byte;
typedef s64 s8Byte,*ps8Byte;
#else
#define u1Byte u8
#define pu1Byte u8*
#define u2Byte u16
#define pu2Byte u16*
#define u4Byte u32
#define pu4Byte u32*
#define u8Byte u64
#define pu8Byte u64*
#define s1Byte s8
#define ps1Byte s8*
#define s2Byte s16
#define ps2Byte s16*
#define s4Byte s32
#define ps4Byte s32*
#define s8Byte s64
#define ps8Byte s64*
#endif
#ifdef CONFIG_USB_HCI
#define DEV_BUS_TYPE RT_USB_INTERFACE
#elif defined(CONFIG_PCI_HCI)
#define DEV_BUS_TYPE RT_PCI_INTERFACE
#elif defined(CONFIG_SDIO_HCI)
#define DEV_BUS_TYPE RT_SDIO_INTERFACE
#elif defined(CONFIG_GSPI_HCI)
#define DEV_BUS_TYPE RT_SDIO_INTERFACE
#endif
#if defined(CONFIG_LITTLE_ENDIAN)
#define ODM_ENDIAN_TYPE ODM_ENDIAN_LITTLE
#elif defined (CONFIG_BIG_ENDIAN)
#define ODM_ENDIAN_TYPE ODM_ENDIAN_BIG
#endif
typedef struct timer_list RT_TIMER, *PRT_TIMER;
typedef void * RT_TIMER_CALL_BACK;
#define STA_INFO_T struct sta_info
#define PSTA_INFO_T struct sta_info *
#define TRUE _TRUE
#define FALSE _FALSE
#define SET_TX_DESC_ANTSEL_A_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 1, __Value)
#define SET_TX_DESC_ANTSEL_B_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 25, 1, __Value)
#define SET_TX_DESC_ANTSEL_C_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 29, 1, __Value)
//define useless flag to avoid compile warning
#define USE_WORKITEM 0
#define FOR_BRAZIL_PRETEST 0
#define BT_30_SUPPORT 0
#define FPGA_TWO_MAC_VERIFICATION 0
#endif
#endif // __ODM_TYPES_H__

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@ -0,0 +1,892 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#include "../odm_precomp.h"
const u8 Rtl8188EFwImgArray[Rtl8188EFWImgArrayLength] = {
0xE1, 0x88, 0x10, 0x00, 0x0B, 0x00, 0x01, 0x00, 0x01, 0x21, 0x11, 0x27, 0x30, 0x36, 0x00, 0x00,
0x2D, 0x07, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x02, 0x45, 0x4E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0xC1, 0x6F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0xA1, 0xE6, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x56, 0xF7, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0xC2, 0xAF, 0x80, 0xFE, 0x32, 0x12, 0x42, 0x04, 0x85, 0xD0, 0x0B, 0x75, 0xD0, 0x08, 0xAA, 0xE0,
0xC2, 0x8C, 0xE5, 0x8A, 0x24, 0x67, 0xF5, 0x8A, 0xE5, 0x8C, 0x34, 0x79, 0xF5, 0x8C, 0xD2, 0x8C,
0xEC, 0x24, 0x89, 0xF8, 0xE6, 0xBC, 0x03, 0x02, 0x74, 0xFF, 0xC3, 0x95, 0x81, 0xB4, 0x40, 0x00,
0x40, 0xCE, 0x79, 0x04, 0x78, 0x80, 0x16, 0xE6, 0x08, 0x70, 0x0B, 0xC2, 0xAF, 0xE6, 0x30, 0xE1,
0x03, 0x44, 0x18, 0xF6, 0xD2, 0xAF, 0x08, 0xD9, 0xED, 0xEA, 0x8B, 0xD0, 0x22, 0xE5, 0x0C, 0xFF,
0x23, 0x24, 0x81, 0xF8, 0x0F, 0x08, 0x08, 0xBF, 0x04, 0x04, 0x7F, 0x00, 0x78, 0x81, 0xE6, 0x30,
0xE4, 0xF2, 0x00, 0xE5, 0x0C, 0xC3, 0x9F, 0x50, 0x20, 0x05, 0x0C, 0x74, 0x88, 0x25, 0x0C, 0xF8,
0xE6, 0xFD, 0xA6, 0x81, 0x08, 0xE6, 0xAE, 0x0C, 0xBE, 0x03, 0x02, 0x74, 0xFF, 0xCD, 0xF8, 0xE8,
0x6D, 0x60, 0xE0, 0x08, 0xE6, 0xC0, 0xE0, 0x80, 0xF6, 0xE5, 0x0C, 0xD3, 0x9F, 0x40, 0x27, 0xE5,
0x0C, 0x24, 0x89, 0xF8, 0xE6, 0xAE, 0x0C, 0xBE, 0x03, 0x02, 0x74, 0xFF, 0xFD, 0x18, 0xE6, 0xCD,
0xF8, 0xE5, 0x81, 0x6D, 0x60, 0x06, 0xD0, 0xE0, 0xF6, 0x18, 0x80, 0xF5, 0xE5, 0x0C, 0x24, 0x88,
0xC8, 0xF6, 0x15, 0x0C, 0x80, 0xD3, 0xE5, 0x0C, 0x23, 0x24, 0x81, 0xF8, 0x7F, 0x04, 0xC2, 0xAF,
0xE6, 0x30, 0xE0, 0x03, 0x10, 0xE2, 0x0C, 0x7F, 0x00, 0x30, 0xE1, 0x07, 0x30, 0xE3, 0x04, 0x7F,
0x08, 0x54, 0xF4, 0x54, 0x7C, 0xC6, 0xD2, 0xAF, 0x54, 0x80, 0x42, 0x07, 0x22, 0x78, 0x88, 0xA6,
0x81, 0x74, 0x03, 0x60, 0x06, 0xFF, 0x08, 0x76, 0xFF, 0xDF, 0xFB, 0x7F, 0x04, 0xE4, 0x78, 0x80,
0xF6, 0x08, 0xF6, 0x08, 0xDF, 0xFA, 0x78, 0x81, 0x76, 0x30, 0x90, 0x45, 0xDE, 0x74, 0x01, 0x93,
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0x23, 0xE0, 0xB4, 0x08, 0x07, 0x7D, 0x01, 0x7F, 0x0C, 0x12, 0x47, 0x3D, 0xD1, 0x34, 0x90, 0x81,
0x29, 0x12, 0x47, 0x39, 0x12, 0x5A, 0xA7, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x7D, 0x02, 0x7F, 0x02,
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0x02, 0x12, 0x71, 0x8F, 0x90, 0x01, 0x57, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x02, 0xF0, 0x7D,
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0x81, 0xD4, 0xE0, 0x70, 0x04, 0x7F, 0x20, 0x80, 0x09, 0x90, 0x81, 0xD4, 0xE0, 0xB4, 0x01, 0x16,
0x7F, 0x28, 0x7E, 0x08, 0x12, 0x2D, 0x5C, 0x78, 0x08, 0x12, 0x20, 0xA8, 0xEF, 0x54, 0x01, 0xFF,
0xE4, 0x90, 0x81, 0xE2, 0xEF, 0xF0, 0x90, 0x81, 0xE2, 0xE0, 0x90, 0x81, 0xD4, 0x60, 0x0E, 0xE0,
0x75, 0xF0, 0x08, 0xA4, 0x24, 0x66, 0xF5, 0x82, 0xE4, 0x34, 0x87, 0x80, 0x0C, 0xE0, 0x75, 0xF0,
0x08, 0xA4, 0x24, 0x64, 0xF5, 0x82, 0xE4, 0x34, 0x87, 0xF5, 0x83, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF,
0x12, 0x2D, 0x5C, 0xED, 0x54, 0x0F, 0xFD, 0xE4, 0xFC, 0x90, 0x81, 0xD6, 0x12, 0x20, 0xCE, 0x90,
0x81, 0xD6, 0x02, 0x44, 0xD9, 0x90, 0x81, 0xE3, 0xEF, 0xF0, 0xAB, 0x05, 0x90, 0x81, 0xE9, 0x12,
0x20, 0xDA, 0x00, 0x00, 0x00, 0x00, 0xAF, 0x03, 0xE4, 0xFC, 0xFD, 0xFE, 0x78, 0x14, 0x12, 0x20,
0xBB, 0xA8, 0x04, 0xA9, 0x05, 0xAA, 0x06, 0xAB, 0x07, 0x90, 0x81, 0xE5, 0x12, 0x44, 0xD9, 0xED,
0x54, 0x0F, 0xFD, 0xE4, 0xFC, 0x12, 0x44, 0xCC, 0xEC, 0x54, 0x0F, 0xFC, 0x90, 0x81, 0xE9, 0x12,
0x20, 0xCE, 0x90, 0x81, 0xE3, 0xE0, 0x75, 0xF0, 0x08, 0xA4, 0x24, 0x60, 0xF5, 0x82, 0xE4, 0x34,
0x87, 0xF5, 0x83, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0xC0, 0x06, 0xC0, 0x07, 0x90, 0x81, 0xE9, 0x12,
0x44, 0xD9, 0x90, 0x85, 0xBB, 0x12, 0x20, 0xCE, 0xD0, 0x07, 0xD0, 0x06, 0x02, 0x2E, 0xA2, 0xD3,
0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x12, 0x5F, 0xB6, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x78, 0x10,
0x74, 0x01, 0xF2, 0x90, 0x02, 0x09, 0xE0, 0x78, 0x00, 0xF2, 0x08, 0x74, 0x20, 0xF2, 0x18, 0xE2,
0xFF, 0x30, 0xE0, 0x05, 0x08, 0xE2, 0x24, 0x80, 0xF2, 0xEF, 0xC3, 0x13, 0x90, 0xFD, 0x10, 0xF0,
0x78, 0x01, 0xE2, 0x24, 0x00, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x78, 0x03, 0xF2,
0x64, 0x04, 0x60, 0x0D, 0xE2, 0xFF, 0x64, 0x08, 0x60, 0x07, 0xEF, 0x64, 0x0C, 0x60, 0x02, 0x61,
0xDE, 0xE4, 0x78, 0x02, 0xF2, 0x78, 0x03, 0xE2, 0xFF, 0x18, 0xE2, 0xC3, 0x9F, 0x50, 0x2D, 0xE2,
0xFD, 0x18, 0xE2, 0x2D, 0x90, 0x81, 0x5A, 0xF0, 0xE0, 0xFF, 0x24, 0x00, 0xF5, 0x82, 0xE4, 0x34,
0xFC, 0xF5, 0x83, 0xE0, 0xFE, 0x74, 0x04, 0x2D, 0xF8, 0xEE, 0xF2, 0xEF, 0xB4, 0xFF, 0x06, 0x90,
0xFD, 0x10, 0xE0, 0x04, 0xF0, 0x78, 0x02, 0xE2, 0x04, 0xF2, 0x80, 0xC9, 0x78, 0x04, 0xE2, 0x78,
0x12, 0xF2, 0xFF, 0x78, 0x05, 0xE2, 0x78, 0x11, 0xF2, 0x78, 0x06, 0xE2, 0x78, 0x13, 0xF2, 0x78,
0x07, 0xE2, 0x78, 0x14, 0xF2, 0x78, 0x08, 0xE2, 0x78, 0x33, 0xF2, 0x78, 0x09, 0xE2, 0x78, 0x34,
0xF2, 0x78, 0x0A, 0xE2, 0x78, 0x35, 0xF2, 0x78, 0x0B, 0xE2, 0x78, 0x36, 0xF2, 0x78, 0x0C, 0xE2,
0x78, 0x37, 0xF2, 0x78, 0x0D, 0xE2, 0x78, 0x38, 0xF2, 0x78, 0x0E, 0xE2, 0x78, 0x39, 0xF2, 0x78,
0x0F, 0xE2, 0x78, 0x3A, 0xF2, 0xE4, 0x78, 0x15, 0xF2, 0xEF, 0x24, 0xF8, 0x60, 0x75, 0x24, 0xFC,
0x60, 0x6C, 0x24, 0x08, 0x60, 0x02, 0x61, 0xC0, 0x78, 0x11, 0xE2, 0xB4, 0x01, 0x05, 0x12, 0x29,
0xC5, 0x61, 0xC5, 0x78, 0x11, 0xE2, 0xB4, 0x02, 0x05, 0x12, 0x11, 0xBD, 0x61, 0xC5, 0x78, 0x11,
0xE2, 0xB4, 0x03, 0x04, 0xF1, 0x06, 0x61, 0xC5, 0x78, 0x11, 0xE2, 0xB4, 0x10, 0x17, 0x78, 0x14,
0xE2, 0xFE, 0x18, 0xE2, 0xFD, 0xED, 0xFF, 0x78, 0x16, 0xEE, 0xF2, 0xFE, 0x08, 0xEF, 0xF2, 0xFF,
0x12, 0x32, 0xAA, 0x61, 0xC5, 0x78, 0x11, 0xE2, 0xB4, 0x11, 0x17, 0x78, 0x14, 0xE2, 0xFE, 0x18,
0xE2, 0xFD, 0xED, 0xFF, 0x78, 0x16, 0xEE, 0xF2, 0xFE, 0x08, 0xEF, 0xF2, 0xFF, 0x12, 0x32, 0x06,
0x61, 0xC5, 0x78, 0x11, 0xE2, 0xF4, 0x60, 0x02, 0x61, 0xC5, 0x18, 0xF2, 0x61, 0xC5, 0x78, 0x15,
0x74, 0x01, 0xF2, 0x78, 0x11, 0xE2, 0x64, 0x07, 0x60, 0x02, 0x61, 0xAA, 0x78, 0x34, 0xE2, 0xFF,
0xE4, 0xFC, 0xFD, 0xFE, 0x78, 0x08, 0x12, 0x20, 0xBB, 0xC0, 0x04, 0xA9, 0x05, 0xAA, 0x06, 0xAB,
0x07, 0x78, 0x33, 0xE2, 0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0xD0, 0x00, 0x12, 0x44, 0xCC, 0xC0, 0x04,
0xC0, 0x05, 0xC0, 0x06, 0xC0, 0x07, 0x78, 0x35, 0xE2, 0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0x78, 0x10,
0x12, 0x20, 0xBB, 0xD0, 0x03, 0xD0, 0x02, 0xD0, 0x01, 0xD0, 0x00, 0x12, 0x44, 0xCC, 0x78, 0x18,
0x12, 0x44, 0xFE, 0x78, 0x15, 0xE2, 0x70, 0x02, 0x61, 0x93, 0x18, 0xE2, 0xFF, 0x18, 0xE2, 0xFD,
0x31, 0x5F, 0x78, 0x1C, 0x12, 0x44, 0xFE, 0x78, 0x38, 0xE2, 0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0x78,
0x08, 0x12, 0x20, 0xBB, 0xC0, 0x04, 0xA9, 0x05, 0xAA, 0x06, 0xAB, 0x07, 0x78, 0x37, 0xE2, 0xFF,
0xE4, 0xFC, 0xFD, 0xFE, 0xD0, 0x00, 0x12, 0x44, 0xCC, 0xC0, 0x04, 0xC0, 0x05, 0xC0, 0x06, 0xC0,
0x07, 0x78, 0x39, 0xE2, 0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0x78, 0x10, 0x12, 0x20, 0xBB, 0xD0, 0x03,
0xD0, 0x02, 0xD0, 0x01, 0xD0, 0x00, 0x12, 0x44, 0xCC, 0x78, 0x20, 0x12, 0x44, 0xFE, 0x78, 0x20,
0x12, 0x44, 0xE5, 0x12, 0x20, 0x9B, 0x78, 0x1C, 0x12, 0x44, 0xF1, 0x12, 0x44, 0xBF, 0xC0, 0x04,
0xC0, 0x05, 0xC0, 0x06, 0xC0, 0x07, 0x78, 0x18, 0x12, 0x44, 0xE5, 0x78, 0x20, 0x12, 0x44, 0xF1,
0x12, 0x44, 0xBF, 0xD0, 0x03, 0xD0, 0x02, 0xD0, 0x01, 0xD0, 0x00, 0x12, 0x44, 0xCC, 0x78, 0x18,
0x12, 0x44, 0xFE, 0x78, 0x18, 0x12, 0x44, 0xE5, 0x90, 0x81, 0xF9, 0x12, 0x20, 0xCE, 0x78, 0x13,
0xE2, 0xFD, 0x08, 0xE2, 0xFF, 0x12, 0x55, 0x1C, 0x80, 0x1B, 0x78, 0x13, 0xE2, 0xFF, 0x08, 0xE2,
0xFD, 0x78, 0x11, 0xE2, 0xFB, 0x78, 0x15, 0xE2, 0x90, 0x81, 0xBC, 0xF0, 0x71, 0xE1, 0x80, 0x05,
0x78, 0x10, 0x74, 0x02, 0xF2, 0x78, 0x10, 0xE2, 0xFF, 0xC3, 0x94, 0x02, 0x50, 0x10, 0xEF, 0x60,
0x0A, 0x78, 0x02, 0xE2, 0xFF, 0x18, 0xE2, 0x2F, 0xF2, 0x21, 0x90, 0x7F, 0x01, 0x22, 0x7F, 0x00,
0x22, 0xAC, 0x07, 0xED, 0xAD, 0x04, 0x78, 0x24, 0xF2, 0xED, 0x08, 0xF2, 0xEB, 0xB4, 0x04, 0x07,
0x78, 0x27, 0x74, 0x01, 0xF2, 0x80, 0x0E, 0xEB, 0x78, 0x27, 0xB4, 0x05, 0x05, 0x74, 0x02, 0xF2,
0x80, 0x03, 0x74, 0x04, 0xF2, 0xD3, 0x78, 0x25, 0xE2, 0x94, 0xFF, 0x18, 0xE2, 0x94, 0x00, 0x50,
0x63, 0xE4, 0x78, 0x26, 0xF2, 0x78, 0x27, 0xE2, 0xFF, 0x18, 0xE2, 0xFE, 0xC3, 0x9F, 0x40, 0x02,
0xA1, 0x7F, 0x74, 0x33, 0x2E, 0xF8, 0xE2, 0x78, 0x28, 0xF2, 0x90, 0x81, 0xBC, 0xE0, 0x60, 0x2D,
0x74, 0x37, 0x2E, 0xF8, 0xE2, 0x78, 0x32, 0xF2, 0xEE, 0xFF, 0x78, 0x25, 0xE2, 0x2F, 0xFF, 0x18,
0xE2, 0x34, 0x00, 0x8F, 0x82, 0xF5, 0x83, 0xE0, 0x78, 0x29, 0xF2, 0x78, 0x32, 0xE2, 0xFF, 0xF4,
0xFE, 0x78, 0x29, 0xE2, 0x5E, 0xFE, 0x18, 0xE2, 0xFD, 0xEF, 0x5D, 0x4E, 0xF2, 0x78, 0x24, 0x08,
0xE2, 0xFF, 0x08, 0xE2, 0x2F, 0xFF, 0x78, 0x28, 0xE2, 0xFD, 0x12, 0x32, 0x1E, 0x78, 0x26, 0xE2,
0x04, 0xF2, 0x80, 0xA1, 0xD3, 0x78, 0x25, 0xE2, 0x94, 0xFF, 0x18, 0xE2, 0x94, 0x07, 0x50, 0x69,
0xE4, 0x78, 0x26, 0xF2, 0x78, 0x27, 0xE2, 0xFF, 0x18, 0xE2, 0xFE, 0xC3, 0x9F, 0x40, 0x02, 0xA1,
0x7F, 0x74, 0x33, 0x2E, 0xF8, 0xE2, 0x78, 0x28, 0xF2, 0x90, 0x81, 0xBC, 0xE0, 0x60, 0x2D, 0x78,
0x26, 0xE2, 0xFF, 0xFD, 0x18, 0xE2, 0x2D, 0xFD, 0x18, 0xE2, 0x34, 0x00, 0x8D, 0x82, 0xF5, 0x83,
0xE0, 0x78, 0x29, 0xF2, 0x74, 0x37, 0x2F, 0xF8, 0xE2, 0x78, 0x32, 0xF2, 0xE2, 0xFF, 0xF4, 0xFE,
0x78, 0x29, 0xE2, 0x5E, 0xFE, 0x18, 0xE2, 0xFD, 0xEF, 0x5D, 0x4E, 0xF2, 0x78, 0x28, 0xE2, 0xFF,
0x78, 0x26, 0xE2, 0xFD, 0x18, 0xE2, 0x2D, 0xFD, 0x18, 0xE2, 0x34, 0x00, 0x8D, 0x82, 0xF5, 0x83,
0xEF, 0xF0, 0x78, 0x26, 0xE2, 0x04, 0xF2, 0x80, 0x9B, 0x90, 0x81, 0xBC, 0xE0, 0x60, 0x0F, 0x78,
0x24, 0xE2, 0xFE, 0x08, 0xE2, 0xFF, 0x12, 0x2D, 0x5C, 0x78, 0x2E, 0x12, 0x44, 0xFE, 0xE4, 0x78,
0x26, 0xF2, 0x78, 0x27, 0xE2, 0xFF, 0x18, 0xE2, 0xFE, 0xC3, 0x9F, 0x50, 0x5D, 0x74, 0x33, 0x2E,
0xF8, 0xE2, 0x78, 0x28, 0xF2, 0x90, 0x81, 0xBC, 0xE0, 0x60, 0x2B, 0x78, 0x2E, 0x12, 0x44, 0xE5,
0x78, 0x26, 0xE2, 0xFB, 0x75, 0xF0, 0x08, 0xA4, 0xF9, 0xF8, 0x12, 0x20, 0xA8, 0x78, 0x29, 0xEF,
0xF2, 0x74, 0x37, 0x2B, 0xF8, 0xE2, 0x78, 0x32, 0xF2, 0xE2, 0xFE, 0xF4, 0x5F, 0xFF, 0x78, 0x28,
0xE2, 0xFD, 0xEE, 0x5D, 0x4F, 0xF2, 0x78, 0x28, 0xE2, 0xFF, 0x78, 0x26, 0xE2, 0xFD, 0xC3, 0x74,
0x03, 0x9D, 0xFD, 0xE4, 0x94, 0x00, 0xFC, 0x7B, 0xFE, 0x74, 0x2A, 0x2D, 0xF9, 0x74, 0x80, 0x3C,
0xFA, 0xEF, 0x12, 0x1F, 0xEA, 0xE2, 0x04, 0xF2, 0x80, 0x98, 0x78, 0x2A, 0x12, 0x44, 0xE5, 0x90,
0x85, 0xBB, 0x12, 0x20, 0xCE, 0x78, 0x24, 0xE2, 0xFE, 0x08, 0xE2, 0xFF, 0x12, 0x2E, 0xA2, 0x22,
0x22, 0x90, 0x81, 0xCB, 0x12, 0x45, 0x1F, 0x90, 0x00, 0x01, 0x12, 0x1F, 0xBD, 0xFF, 0xFE, 0x12,
0x1F, 0xA4, 0xFD, 0xC3, 0x13, 0x30, 0xE0, 0x12, 0x90, 0x81, 0xCB, 0x12, 0x45, 0x16, 0x90, 0x00,
0x02, 0x12, 0x1F, 0xBD, 0x90, 0x81, 0xCF, 0xF0, 0x80, 0x05, 0x90, 0x81, 0xCF, 0xEF, 0xF0, 0x90,
0x81, 0xCE, 0xEE, 0xF0, 0x90, 0x81, 0xCF, 0xE0, 0xFE, 0x90, 0x81, 0xCE, 0xE0, 0xFF, 0xD3, 0x9E,
0x50, 0x38, 0x90, 0x81, 0xCB, 0x12, 0x45, 0x16, 0x12, 0x1F, 0xA4, 0x54, 0x01, 0xFE, 0x74, 0xDE,
0x2F, 0xF5, 0x82, 0xE4, 0x34, 0x80, 0xF5, 0x83, 0xEE, 0xF0, 0x74, 0xDE, 0x2F, 0xF5, 0x82, 0xE4,
0x34, 0x80, 0xF5, 0x83, 0xE0, 0x70, 0x04, 0xD1, 0x25, 0x80, 0x07, 0x90, 0x81, 0xCE, 0xE0, 0xFF,
0xB1, 0x80, 0x90, 0x81, 0xCE, 0xE0, 0x04, 0xF0, 0x80, 0xBA, 0x90, 0x80, 0xDE, 0xE0, 0x70, 0x24,
0x90, 0x81, 0x2A, 0xE0, 0x70, 0x04, 0xFF, 0x12, 0x49, 0x93, 0x90, 0x81, 0x2A, 0xE0, 0x64, 0x0C,
0x60, 0x02, 0xD1, 0x26, 0x90, 0x81, 0x24, 0xE0, 0x54, 0xF7, 0xF0, 0x54, 0xEF, 0xF0, 0x54, 0xBF,
0xF0, 0x54, 0x7F, 0xF0, 0x22, 0x22, 0x90, 0x06, 0x04, 0xE0, 0x54, 0x7F, 0xF0, 0x90, 0x05, 0x22,
0xE4, 0xF0, 0x90, 0x81, 0x2A, 0x74, 0x0C, 0xF0, 0x22, 0x90, 0x81, 0xED, 0xEF, 0xF0, 0xA3, 0xED,
0xF0, 0xAD, 0x03, 0xAC, 0x02, 0xE4, 0x90, 0x81, 0xF5, 0xF0, 0xA3, 0xF0, 0x90, 0x01, 0xC4, 0x74,
0x39, 0xF0, 0x74, 0x66, 0xA3, 0xF0, 0xEC, 0x54, 0x3F, 0xFC, 0x90, 0x01, 0x40, 0xED, 0xF0, 0xAE,
0x04, 0xEE, 0xA3, 0xF0, 0x90, 0x81, 0xED, 0xE0, 0x24, 0x81, 0x60, 0x34, 0x24, 0xDA, 0x60, 0x1C,
0x24, 0x3C, 0x70, 0x41, 0x90, 0x81, 0xEE, 0xE0, 0xC4, 0x33, 0x33, 0x33, 0x54, 0x80, 0x90, 0x81,
0xF2, 0xF0, 0xA3, 0x74, 0x69, 0xF0, 0xA3, 0x74, 0x80, 0xF0, 0x80, 0x2C, 0x90, 0x81, 0xEE, 0xE0,
0x54, 0x01, 0x90, 0x81, 0xF2, 0xF0, 0xA3, 0x74, 0xA5, 0xF0, 0xA3, 0x74, 0x01, 0xF0, 0x80, 0x18,
0x90, 0x81, 0xEE, 0xE0, 0xC4, 0x54, 0x10, 0x90, 0x81, 0xF2, 0xF0, 0xA3, 0x74, 0x7F, 0xF0, 0xA3,
0x74, 0x10, 0xF0, 0x80, 0x03, 0x7F, 0x00, 0x22, 0x90, 0x81, 0xF3, 0xE0, 0x90, 0x01, 0x06, 0xF0,
0x90, 0x81, 0xF2, 0xE0, 0x60, 0x0E, 0x90, 0x01, 0x42, 0xF0, 0x90, 0x81, 0xF1, 0xE0, 0x90, 0x01,
0x43, 0xF0, 0x80, 0x0D, 0x90, 0x01, 0x43, 0xE4, 0xF0, 0x90, 0x81, 0xF2, 0xE0, 0x90, 0x01, 0x42,
0xF0, 0x90, 0x81, 0xF4, 0xE0, 0xFF, 0x90, 0x01, 0x42, 0xE0, 0x5F, 0xFF, 0x90, 0x81, 0xF2, 0xE0,
0x6F, 0x60, 0xEE, 0x74, 0x39, 0x04, 0x90, 0x01, 0xC4, 0xF0, 0x74, 0x66, 0xA3, 0xF0, 0x90, 0x01,
0x43, 0xE4, 0xF0, 0x7F, 0x01, 0x22, 0xE4, 0x90, 0x81, 0x6A, 0xF0, 0x90, 0x87, 0x5F, 0xE0, 0x90,
0x81, 0x69, 0xF0, 0xE4, 0x90, 0x81, 0x76, 0xF0, 0x90, 0x81, 0x66, 0xF0, 0x90, 0x81, 0x66, 0xE0,
0xFF, 0xC3, 0x94, 0x40, 0x50, 0x15, 0x74, 0x79, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0x81, 0xF5, 0x83,
0x74, 0xFF, 0xF0, 0x90, 0x81, 0x66, 0xE0, 0x04, 0xF0, 0x80, 0xE1, 0xE4, 0x90, 0x81, 0x66, 0xF0,
0x90, 0x81, 0x69, 0xE0, 0xFF, 0x90, 0x81, 0x66, 0xE0, 0xFE, 0xC3, 0x9F, 0x40, 0x03, 0x02, 0x68,
0x12, 0x74, 0xDF, 0x2E, 0xF9, 0xE4, 0x34, 0x86, 0x75, 0x13, 0x01, 0xF5, 0x14, 0x89, 0x15, 0x75,
0x16, 0x0A, 0x7B, 0x01, 0x7A, 0x81, 0x79, 0x5B, 0x12, 0x2B, 0xED, 0x90, 0x81, 0x5C, 0xE0, 0xFF,
0x12, 0x2F, 0x27, 0xEF, 0x04, 0x90, 0x81, 0x76, 0xF0, 0x90, 0x81, 0x5B, 0xE0, 0xFF, 0xA3, 0xE0,
0xFD, 0x12, 0x31, 0xEA, 0xEF, 0x24, 0xC8, 0x90, 0x81, 0x78, 0xF0, 0x75, 0xF0, 0x08, 0xA4, 0xF0,
0x90, 0x81, 0x5C, 0xE0, 0x54, 0x0F, 0x90, 0x81, 0x77, 0xF0, 0xE4, 0x90, 0x81, 0x65, 0xF0, 0x90,
0x81, 0x67, 0xF0, 0x90, 0x81, 0x67, 0xE0, 0xFF, 0xC3, 0x94, 0x04, 0x50, 0x57, 0x90, 0x81, 0x77,
0xE0, 0xFE, 0xA8, 0x07, 0x08, 0x80, 0x02, 0xC3, 0x13, 0xD8, 0xFC, 0x20, 0xE0, 0x3E, 0x90, 0x81,
0x67, 0xE0, 0x25, 0xE0, 0xFF, 0x90, 0x81, 0x78, 0xE0, 0x2F, 0x24, 0x79, 0xF9, 0xE4, 0x34, 0x81,
0xFA, 0x7B, 0x01, 0xC0, 0x03, 0xC0, 0x01, 0x90, 0x81, 0x65, 0xE0, 0x75, 0xF0, 0x02, 0xA4, 0x24,
0x5D, 0xF9, 0x74, 0x81, 0x35, 0xF0, 0x8B, 0x13, 0xF5, 0x14, 0x89, 0x15, 0x75, 0x16, 0x02, 0xD0,
0x01, 0xD0, 0x03, 0x12, 0x2B, 0xED, 0x90, 0x81, 0x65, 0xE0, 0x04, 0xF0, 0x90, 0x81, 0x67, 0xE0,
0x04, 0xF0, 0x80, 0x9F, 0x90, 0x81, 0x76, 0xE0, 0xFF, 0x90, 0x81, 0x66, 0xE0, 0x2F, 0xF0, 0x02,
0x67, 0x40, 0xE4, 0x90, 0x81, 0x6A, 0xF0, 0x90, 0x81, 0x6A, 0xE0, 0xC3, 0x94, 0x40, 0x40, 0x02,
0x41, 0xAF, 0xE0, 0xFF, 0x24, 0x79, 0xF5, 0x82, 0xE4, 0x34, 0x81, 0xF5, 0x83, 0xE0, 0x90, 0x81,
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0x06, 0xC0, 0x07, 0x90, 0x81, 0x6C, 0xE0, 0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0x78, 0x10, 0x12, 0x20,
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0x20, 0xCE, 0x90, 0x81, 0x6B, 0xE0, 0x24, 0xFB, 0xFF, 0xC0, 0x07, 0x90, 0x81, 0x6E, 0x12, 0x44,
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0xED, 0x75, 0xF0, 0x0F, 0xA4, 0x24, 0x42, 0xF9, 0x74, 0x80, 0x35, 0xF0, 0xFA, 0x7B, 0x01, 0x71,
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0x0A, 0x02, 0x7F, 0x01, 0xEF, 0x60, 0x05, 0xE4, 0x90, 0x80, 0xD8, 0xF0, 0xD0, 0xD0, 0x92, 0xAF,
0x22, 0x8F, 0x0D, 0x22, 0x8F, 0x0E, 0x22, 0x22, 0x90, 0x01, 0x34, 0xE0, 0x55, 0x3D, 0xF5, 0x41,
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0xF5, 0x44, 0x90, 0x01, 0x34, 0xE5, 0x41, 0xF0, 0xA3, 0xE5, 0x42, 0xF0, 0xA3, 0xE5, 0x43, 0xF0,
0xA3, 0xE5, 0x44, 0xF0, 0x22, 0x90, 0x01, 0x3C, 0xE0, 0x55, 0x45, 0xF5, 0x49, 0xA3, 0xE0, 0x55,
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0x01, 0x3C, 0xE5, 0x49, 0xF0, 0xA3, 0xE5, 0x4A, 0xF0, 0xA3, 0xE5, 0x4B, 0xF0, 0xA3, 0xE5, 0x4C,
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0xF0, 0x22, 0x90, 0x80, 0xDE, 0xE0, 0x64, 0x01, 0x70, 0x19, 0x90, 0x81, 0x27, 0xE0, 0x60, 0x13,
0x90, 0x01, 0x57, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x02, 0x12, 0x4F, 0xF4, 0x90, 0x01, 0x57,
0x74, 0x05, 0xF0, 0x22, 0x90, 0x80, 0xDE, 0xE0, 0x64, 0x01, 0x70, 0x26, 0x90, 0x81, 0x27, 0xE0,
0x60, 0x20, 0x90, 0x01, 0x57, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x02, 0xF0, 0x90, 0x81, 0x24,
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0x90, 0x81, 0x26, 0xE0, 0x54, 0x0F, 0x64, 0x02, 0x60, 0x02, 0x80, 0x03, 0xD1, 0x7F, 0x22, 0x90,
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0x8F, 0x4F, 0x90, 0x04, 0x1F, 0x74, 0x20, 0xF0, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0,
0x90, 0x82, 0x0E, 0xED, 0xF0, 0x90, 0x82, 0x0D, 0xEF, 0xF0, 0xE4, 0xFD, 0xFC, 0xF1, 0x37, 0x7C,
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0x73, 0xE1, 0x90, 0x81, 0x3F, 0xE0, 0x30, 0xE0, 0x03, 0x12, 0x49, 0xDD, 0x22, 0x90, 0x81, 0x27,
0xE0, 0x60, 0x35, 0x90, 0x06, 0x92, 0xE0, 0x30, 0xE1, 0x24, 0xE4, 0xF5, 0x1D, 0x90, 0x81, 0x3A,
0xE0, 0xC3, 0x13, 0x54, 0x7F, 0xF5, 0x1E, 0xE4, 0xFB, 0xFD, 0x7F, 0x5C, 0x7E, 0x01, 0x12, 0x50,
0x05, 0x90, 0x01, 0x5F, 0x74, 0x05, 0xF0, 0x90, 0x06, 0x92, 0x74, 0x02, 0xF0, 0x22, 0x90, 0x81,
0x24, 0xE0, 0x54, 0xEF, 0xF0, 0x12, 0x47, 0x2A, 0x22, 0x12, 0x71, 0x48, 0x90, 0x81, 0x4D, 0xEF,
0xF0, 0x90, 0x81, 0x24, 0x30, 0xE0, 0x06, 0xE0, 0x44, 0x01, 0xF0, 0x80, 0x04, 0xE0, 0x54, 0xFE,
0xF0, 0x90, 0x81, 0x4D, 0xE0, 0x30, 0xE6, 0x11, 0x90, 0x01, 0x2F, 0xE0, 0x30, 0xE7, 0x04, 0xE4,
0xF0, 0x80, 0x06, 0x90, 0x01, 0x2F, 0x74, 0x80, 0xF0, 0x90, 0x81, 0x24, 0xE0, 0x30, 0xE0, 0x1A,
0x90, 0x81, 0x32, 0xE4, 0xF0, 0xA3, 0x74, 0x07, 0xF0, 0x90, 0x81, 0x32, 0xA3, 0xE0, 0x90, 0x05,
0x58, 0xF0, 0x90, 0x04, 0xEC, 0xE0, 0x54, 0xDD, 0xF0, 0x22, 0x90, 0x04, 0xEC, 0xE0, 0x44, 0x22,
0xF0, 0x22, 0x90, 0x81, 0x4A, 0xE0, 0x60, 0x0F, 0xE4, 0xF0, 0x90, 0x05, 0x53, 0xE0, 0x44, 0x01,
0xF0, 0x90, 0x05, 0xFD, 0xE0, 0x04, 0xF0, 0x22, 0x90, 0x81, 0x24, 0xE0, 0xFF, 0xC4, 0x13, 0x13,
0x54, 0x03, 0x30, 0xE0, 0x27, 0xEF, 0x54, 0xBF, 0xF0, 0x90, 0x04, 0xE0, 0xE0, 0x90, 0x81, 0x25,
0x30, 0xE0, 0x06, 0xE0, 0x44, 0x01, 0xF0, 0x80, 0x10, 0xE0, 0x54, 0xFE, 0xF0, 0x90, 0x01, 0xB9,
0x74, 0x01, 0xF0, 0x90, 0x01, 0xB8, 0x74, 0x04, 0xF0, 0x12, 0x47, 0x2A, 0xE4, 0xFF, 0x90, 0x81,
0x45, 0xE0, 0x30, 0xE0, 0x48, 0x90, 0x81, 0x49, 0xE0, 0xFD, 0x60, 0x41, 0x74, 0x01, 0x7E, 0x00,
0xA8, 0x07, 0x08, 0x80, 0x05, 0xC3, 0x33, 0xCE, 0x33, 0xCE, 0xD8, 0xF9, 0xFF, 0x90, 0x04, 0xE0,
0xE0, 0xFB, 0xEF, 0x5B, 0x60, 0x06, 0xE4, 0x90, 0x81, 0x49, 0xF0, 0x22, 0x90, 0x81, 0x47, 0xE0,
0xD3, 0x9D, 0x50, 0x10, 0x90, 0x01, 0xC7, 0x74, 0x10, 0xF0, 0x11, 0xBE, 0x90, 0x81, 0x45, 0xE0,
0x54, 0xFE, 0xF0, 0x22, 0x12, 0x4F, 0x0B, 0x90, 0x81, 0x49, 0xE0, 0x04, 0xF0, 0x22, 0x90, 0x80,
0x3C, 0xE0, 0x64, 0x02, 0x60, 0x07, 0x90, 0x06, 0x90, 0xE0, 0x44, 0x01, 0xF0, 0x22, 0x90, 0x81,
0x24, 0xE0, 0xFF, 0xC4, 0x13, 0x13, 0x13, 0x54, 0x01, 0x30, 0xE0, 0x2C, 0xEF, 0x54, 0x7F, 0xF0,
0x90, 0x04, 0xE0, 0xE0, 0x90, 0x81, 0x25, 0x30, 0xE1, 0x06, 0xE0, 0x44, 0x02, 0xF0, 0x80, 0x0F,
0xE0, 0x54, 0xFD, 0xF0, 0x90, 0x01, 0xB9, 0x74, 0x01, 0xF0, 0x90, 0x01, 0xB8, 0x04, 0xF0, 0x90,
0x81, 0x27, 0xE0, 0x60, 0x03, 0x12, 0x47, 0x2A, 0x7F, 0x01, 0x01, 0x6E, 0xC3, 0xEE, 0x94, 0x01,
0x40, 0x0A, 0x0D, 0xED, 0x13, 0x90, 0xFD, 0x10, 0xF0, 0xE4, 0x2F, 0xFF, 0x22, 0xC3, 0xEE, 0x94,
0x01, 0x40, 0x24, 0x90, 0xFD, 0x11, 0xE0, 0x6D, 0x70, 0x1A, 0x90, 0x01, 0x17, 0xE0, 0xB5, 0x05,
0x0D, 0x90, 0x01, 0xE4, 0x74, 0x77, 0xF0, 0x90, 0xFD, 0x11, 0xE4, 0xF0, 0x80, 0x06, 0xED, 0x04,
0x90, 0xFD, 0x11, 0xF0, 0xE4, 0x2F, 0xFF, 0x22, 0xE4, 0x90, 0x81, 0x4E, 0xF0, 0xA3, 0xF0, 0xA3,
0xF0, 0x90, 0x00, 0x83, 0xE0, 0x90, 0x81, 0x4E, 0xF0, 0x90, 0x00, 0x83, 0xE0, 0xFE, 0x90, 0x81,
0x4E, 0xE0, 0xFF, 0xB5, 0x06, 0x01, 0x22, 0xC3, 0x90, 0x81, 0x50, 0xE0, 0x94, 0x64, 0x90, 0x81,
0x4F, 0xE0, 0x94, 0x00, 0x40, 0x0D, 0x90, 0x01, 0xC0, 0xE0, 0x44, 0x40, 0xF0, 0x90, 0x81, 0x4E,
0xE0, 0xFF, 0x22, 0x90, 0x81, 0x4F, 0xE4, 0x75, 0xF0, 0x01, 0x12, 0x44, 0xA9, 0x80, 0xC2, 0x74,
0x45, 0x2F, 0xF8, 0xE6, 0xFE, 0xED, 0xF4, 0x5E, 0xFE, 0xF6, 0x74, 0x38, 0x2F, 0xF5, 0x82, 0xE4,
0x34, 0x01, 0xF5, 0x83, 0xEE, 0xF0, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x82,
0x12, 0xED, 0xF0, 0x90, 0x82, 0x11, 0xEF, 0xF0, 0xD3, 0x94, 0x07, 0x50, 0x70, 0xE0, 0xFF, 0x74,
0x01, 0xA8, 0x07, 0x08, 0x80, 0x02, 0xC3, 0x33, 0xD8, 0xFC, 0xF4, 0xFF, 0x90, 0x00, 0x47, 0xE0,
0x5F, 0xFD, 0x7F, 0x47, 0x12, 0x32, 0x1E, 0x90, 0x82, 0x11, 0xE0, 0xFF, 0x74, 0x01, 0xA8, 0x07,
0x08, 0x80, 0x02, 0xC3, 0x33, 0xD8, 0xFC, 0xFF, 0x90, 0x00, 0x46, 0xE0, 0x4F, 0xFD, 0x7F, 0x46,
0x12, 0x32, 0x1E, 0x90, 0x82, 0x12, 0xE0, 0x60, 0x18, 0x90, 0x82, 0x11, 0xE0, 0xFF, 0x74, 0x01,
0xA8, 0x07, 0x08, 0x80, 0x02, 0xC3, 0x33, 0xD8, 0xFC, 0xFF, 0x90, 0x00, 0x45, 0xE0, 0x4F, 0x80,
0x17, 0x90, 0x82, 0x11, 0xE0, 0xFF, 0x74, 0x01, 0xA8, 0x07, 0x08, 0x80, 0x02, 0xC3, 0x33, 0xD8,
0xFC, 0xF4, 0xFF, 0x90, 0x00, 0x45, 0xE0, 0x5F, 0xFD, 0x7F, 0x45, 0x80, 0x7E, 0x90, 0x82, 0x11,
0xE0, 0x24, 0xF8, 0xF0, 0xE0, 0x24, 0x04, 0xFF, 0x74, 0x01, 0xA8, 0x07, 0x08, 0x80, 0x02, 0xC3,
0x33, 0xD8, 0xFC, 0xF4, 0xFF, 0x90, 0x00, 0x43, 0xE0, 0x5F, 0xFD, 0x7F, 0x43, 0x12, 0x32, 0x1E,
0x90, 0x82, 0x11, 0xE0, 0xFF, 0x74, 0x01, 0xA8, 0x07, 0x08, 0x80, 0x02, 0xC3, 0x33, 0xD8, 0xFC,
0xFF, 0x90, 0x00, 0x43, 0xE0, 0x4F, 0xFD, 0x7F, 0x43, 0x12, 0x32, 0x1E, 0x90, 0x82, 0x12, 0xE0,
0x60, 0x1D, 0x90, 0x82, 0x11, 0xE0, 0x24, 0x04, 0xFF, 0x74, 0x01, 0xA8, 0x07, 0x08, 0x80, 0x02,
0xC3, 0x33, 0xD8, 0xFC, 0xFF, 0x90, 0x00, 0x42, 0xE0, 0x4F, 0xFD, 0x7F, 0x42, 0x80, 0x1C, 0x90,
0x82, 0x11, 0xE0, 0x24, 0x04, 0xFF, 0x74, 0x01, 0xA8, 0x07, 0x08, 0x80, 0x02, 0xC3, 0x33, 0xD8,
0xFC, 0xF4, 0xFF, 0x90, 0x00, 0x42, 0xE0, 0x5F, 0xFD, 0x7F, 0x42, 0x12, 0x32, 0x1E, 0xD0, 0xD0,
0x92, 0xAF, 0x22, 0x90, 0x81, 0x24, 0xE0, 0x54, 0xFB, 0xF0, 0xE4, 0x90, 0x81, 0x30, 0xF0, 0x90,
0x81, 0x2B, 0xF0, 0x22, 0xEF, 0x24, 0xFE, 0x60, 0x0C, 0x04, 0x70, 0x28, 0x90, 0x81, 0x2D, 0x74,
0x01, 0xF0, 0xA3, 0xF0, 0x22, 0xED, 0x70, 0x0A, 0x90, 0x81, 0x3B, 0xE0, 0x90, 0x81, 0x2D, 0xF0,
0x80, 0x05, 0x90, 0x81, 0x2D, 0xED, 0xF0, 0x90, 0x81, 0x2D, 0xE0, 0xA3, 0xF0, 0x90, 0x81, 0x25,
0xE0, 0x44, 0x08, 0xF0, 0x22, 0x12, 0x4E, 0xAB, 0xEF, 0x64, 0x01, 0x60, 0x08, 0x90, 0x01, 0xB8,
0x74, 0x01, 0xF0, 0x80, 0x67, 0x90, 0x81, 0x2B, 0xE0, 0xFF, 0x54, 0x03, 0x60, 0x08, 0x90, 0x01,
0xB8, 0x74, 0x02, 0xF0, 0x80, 0x56, 0x90, 0x81, 0x29, 0xE0, 0xFE, 0xE4, 0xC3, 0x9E, 0x50, 0x08,
0x90, 0x01, 0xB8, 0x74, 0x04, 0xF0, 0x80, 0x44, 0xEF, 0x30, 0xE2, 0x08, 0x90, 0x01, 0xB8, 0x74,
0x08, 0xF0, 0x80, 0x38, 0x90, 0x81, 0x2B, 0xE0, 0x30, 0xE4, 0x08, 0x90, 0x01, 0xB8, 0x74, 0x10,
0xF0, 0x80, 0x29, 0x90, 0x81, 0x25, 0xE0, 0x13, 0x13, 0x54, 0x3F, 0x20, 0xE0, 0x08, 0x90, 0x01,
0xB8, 0x74, 0x20, 0xF0, 0x80, 0x16, 0x90, 0x81, 0x3E, 0xE0, 0x60, 0x08, 0x90, 0x01, 0xB8, 0x74,
0x80, 0xF0, 0x80, 0x08, 0x90, 0x01, 0xB8, 0xE4, 0xF0, 0x7F, 0x01, 0x22, 0x90, 0x01, 0xB9, 0x74,
0x04, 0xF0, 0x7F, 0x00, 0x22, 0xEF, 0x60, 0x42, 0x90, 0x80, 0xDE, 0xE0, 0x64, 0x01, 0x70, 0x3A,
0x90, 0x81, 0x25, 0xE0, 0x54, 0xFE, 0xF0, 0x90, 0x05, 0x22, 0x74, 0x0F, 0xF0, 0x90, 0x06, 0x04,
0xE0, 0x54, 0xBF, 0xF0, 0xE4, 0xFF, 0x12, 0x4F, 0x0D, 0xBF, 0x01, 0x12, 0x90, 0x81, 0x24, 0xE0,
0x44, 0x40, 0xF0, 0x90, 0x81, 0x2A, 0x74, 0x06, 0xF0, 0x90, 0x81, 0x23, 0xF0, 0x22, 0x90, 0x01,
0xB9, 0x74, 0x01, 0xF0, 0x90, 0x01, 0xB8, 0x74, 0x08, 0xF0, 0x22, 0x90, 0x05, 0x22, 0x74, 0x6F,
0xF0, 0x90, 0x05, 0x27, 0xE0, 0x54, 0xBF, 0xF0, 0x90, 0x81, 0x2A, 0x74, 0x02, 0xF0, 0x90, 0x81,
0x23, 0xF0, 0x22, 0x12, 0x54, 0x65, 0x90, 0x81, 0x2A, 0x74, 0x0C, 0xF0, 0x90, 0x81, 0x23, 0xF0,
0x22, 0x90, 0x81, 0x24, 0xE0, 0xFF, 0x13, 0x13, 0x54, 0x3F, 0x30, 0xE0, 0x11, 0xEF, 0x54, 0xFB,
0xF0, 0x90, 0x81, 0x2B, 0xE0, 0x54, 0xFD, 0xF0, 0x54, 0x07, 0x70, 0x42, 0x80, 0x3D, 0x90, 0x81,
0x30, 0xE0, 0x04, 0xF0, 0x90, 0x81, 0x2B, 0xE0, 0x54, 0xEF, 0xF0, 0x90, 0x81, 0x30, 0xE0, 0xFF,
0xB4, 0x01, 0x02, 0x80, 0x04, 0xEF, 0xB4, 0x02, 0x06, 0x90, 0x05, 0x58, 0xE0, 0x04, 0xF0, 0x90,
0x81, 0x38, 0xE0, 0xFF, 0x90, 0x81, 0x30, 0xE0, 0xD3, 0x9F, 0x40, 0x0F, 0x90, 0x80, 0xDE, 0xE0,
0xB4, 0x01, 0x0B, 0x90, 0x81, 0x25, 0xE0, 0x54, 0xFB, 0xF0, 0x22, 0x12, 0x47, 0x2A, 0x22, 0x22,
0x90, 0x05, 0x2B, 0xE0, 0x7F, 0x00, 0x30, 0xE7, 0x02, 0x7F, 0x01, 0x22, 0x90, 0x05, 0x22, 0x74,
0xFF, 0xF0, 0x90, 0x05, 0x27, 0xE0, 0x44, 0x40, 0xF0, 0x90, 0x81, 0x22, 0x74, 0x03, 0xF0, 0x22,
0x90, 0x05, 0x27, 0xE0, 0x44, 0x40, 0xF0, 0x12, 0x49, 0xDD, 0x90, 0x81, 0x22, 0x74, 0x02, 0xF0,
0x22, 0x12, 0x49, 0xE3, 0x90, 0x81, 0x22, 0x74, 0x02, 0xF0, 0x22, 0x90, 0x05, 0x22, 0x74, 0x6F,
0xF0, 0x90, 0x05, 0x27, 0xE0, 0x54, 0xBF, 0xF0, 0x90, 0x81, 0x22, 0x74, 0x04, 0xF0, 0x22, 0xAE,
0x07, 0x12, 0x51, 0x73, 0xBF, 0x01, 0x12, 0x90, 0x81, 0x23, 0xE0, 0x64, 0x02, 0x60, 0x0A, 0xAF,
0x06, 0x7D, 0x01, 0x12, 0x47, 0x3D, 0x7F, 0x01, 0x22, 0x7F, 0x00, 0x22, 0x90, 0x01, 0x57, 0xE0,
0x60, 0x48, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x02, 0xF0, 0x90, 0x81, 0x24, 0xE0, 0xFF, 0x13,
0x13, 0x54, 0x3F, 0x30, 0xE0, 0x0C, 0xEF, 0x54, 0xFB, 0xF0, 0x90, 0x81, 0x2B, 0xE0, 0x54, 0xFD,
0xF0, 0x22, 0x90, 0x81, 0x30, 0xE0, 0x04, 0xF0, 0x90, 0x81, 0x2B, 0xE0, 0x54, 0xEF, 0xF0, 0x90,
0x81, 0x38, 0xE0, 0xFF, 0x90, 0x81, 0x30, 0xE0, 0xD3, 0x9F, 0x40, 0x0E, 0x90, 0x80, 0xDE, 0xE0,
0xB4, 0x01, 0x07, 0x90, 0x81, 0x25, 0xE0, 0x54, 0xFB, 0xF0, 0x22, 0x90, 0x80, 0x3F, 0xE0, 0xFF,
0x7D, 0x01, 0x12, 0x6D, 0x69, 0x8E, 0x54, 0x8F, 0x55, 0xAD, 0x55, 0xAC, 0x54, 0xAF, 0x53, 0x12,
0x4F, 0x82, 0xAF, 0x55, 0xAE, 0x54, 0x90, 0x04, 0x80, 0xE0, 0x54, 0x0F, 0xFD, 0xAC, 0x07, 0x74,
0x11, 0x2C, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x44, 0x01, 0xF0, 0x74, 0x11, 0x2C,
0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x54, 0xFB, 0xF0, 0xAC, 0x07, 0x74, 0x16, 0x2C,
0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x44, 0xFA, 0xF0, 0x74, 0x15, 0x2C, 0xF5, 0x82,
0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x44, 0x1F, 0xF0, 0xAC, 0x07, 0x74, 0x06, 0x2C, 0xF5, 0x82,
0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x44, 0x0F, 0xF0, 0x90, 0x04, 0x53, 0xE4, 0xF0, 0x90, 0x04,
0x52, 0xF0, 0x90, 0x04, 0x51, 0x74, 0xFF, 0xF0, 0x90, 0x04, 0x50, 0x74, 0xFD, 0xF0, 0x74, 0x14,
0x2C, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x54, 0xC0, 0x4D, 0xFD, 0x74, 0x14, 0x2F,
0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xED, 0xF0, 0x22, 0xAB, 0x07, 0xAA, 0x06, 0xED, 0x2B,
0xFB, 0xE4, 0x3A, 0xFA, 0xC3, 0x90, 0x80, 0xDB, 0xE0, 0x9B, 0x90, 0x80, 0xDA, 0xE0, 0x9A, 0x50,
0x13, 0xA3, 0xE0, 0x24, 0x01, 0xFF, 0x90, 0x80, 0xDA, 0xE0, 0x34, 0x00, 0xFE, 0xC3, 0xEB, 0x9F,
0xFB, 0xEA, 0x9E, 0xFA, 0xEA, 0x90, 0xFD, 0x11, 0xF0, 0xAF, 0x03, 0x74, 0x00, 0x2F, 0xF5, 0x82,
0xE4, 0x34, 0xFB, 0xF5, 0x83, 0xE0, 0xFF, 0x22, 0x12, 0x1F, 0xA4, 0xFF, 0x54, 0x01, 0xFE, 0x90,
0x81, 0x42, 0xE0, 0x54, 0xFE, 0x4E, 0xF0, 0xEF, 0xC3, 0x13, 0x30, 0xE0, 0x0A, 0x90, 0x00, 0x01,
0x12, 0x1F, 0xBD, 0x90, 0x81, 0x43, 0xF0, 0x22, 0x90, 0x81, 0x45, 0xE0, 0x30, 0xE0, 0x2D, 0x90,
0x81, 0x48, 0xE0, 0x04, 0xF0, 0xE0, 0xFF, 0x90, 0x81, 0x46, 0xE0, 0xB5, 0x07, 0x1E, 0x90, 0x06,
0x92, 0xE0, 0x54, 0x1C, 0x70, 0x0B, 0x12, 0x4F, 0x0B, 0x90, 0x81, 0x49, 0xE0, 0x04, 0xF0, 0x80,
0x06, 0x90, 0x06, 0x92, 0x74, 0x1C, 0xF0, 0xE4, 0x90, 0x81, 0x48, 0xF0, 0x22, 0x00, 0xBB, 0x8E,
};

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@ -0,0 +1,29 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __INC_HAL8188E_FW_IMG_H
#define __INC_HAL8188E_FW_IMG_H
//V10(1641)
#define Rtl8188EFWImgArrayLength 13904
extern const u8 Rtl8188EFwImgArray[Rtl8188EFWImgArrayLength];
#endif //__INC_HAL8188E_FW_IMG_H

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@ -0,0 +1,108 @@
#ifndef __INC_RA_H
#define __INC_RA_H
/*++
Copyright (c) Realtek Semiconductor Corp. All rights reserved.
Module Name:
RateAdaptive.h
Abstract:
Prototype of RA and related data structure.
Major Change History:
When Who What
---------- --------------- -------------------------------
2011-08-12 Page Create.
--*/
// Rate adaptive define
#define PERENTRY 23
#define RETRYSIZE 5
#define RATESIZE 28
#define TX_RPT2_ITEM_SIZE 8
#if (DM_ODM_SUPPORT_TYPE != ODM_MP)
//
// TX report 2 format in Rx desc
//
#define GET_TX_RPT2_DESC_PKT_LEN_88E(__pRxStatusDesc) LE_BITS_TO_4BYTE( __pRxStatusDesc, 0, 9)
#define GET_TX_RPT2_DESC_MACID_VALID_1_88E(__pRxStatusDesc) LE_BITS_TO_4BYTE( __pRxStatusDesc+16, 0, 32)
#define GET_TX_RPT2_DESC_MACID_VALID_2_88E(__pRxStatusDesc) LE_BITS_TO_4BYTE( __pRxStatusDesc+20, 0, 32)
#define GET_TX_REPORT_TYPE1_RERTY_0(__pAddr) LE_BITS_TO_4BYTE( __pAddr, 0, 16)
#define GET_TX_REPORT_TYPE1_RERTY_1(__pAddr) LE_BITS_TO_1BYTE( __pAddr+2, 0, 8)
#define GET_TX_REPORT_TYPE1_RERTY_2(__pAddr) LE_BITS_TO_1BYTE( __pAddr+3, 0, 8)
#define GET_TX_REPORT_TYPE1_RERTY_3(__pAddr) LE_BITS_TO_1BYTE( __pAddr+4, 0, 8)
#define GET_TX_REPORT_TYPE1_RERTY_4(__pAddr) LE_BITS_TO_1BYTE( __pAddr+4+1, 0, 8)
#define GET_TX_REPORT_TYPE1_DROP_0(__pAddr) LE_BITS_TO_1BYTE( __pAddr+4+2, 0, 8)
#define GET_TX_REPORT_TYPE1_DROP_1(__pAddr) LE_BITS_TO_1BYTE( __pAddr+4+3, 0, 8)
#endif
// End rate adaptive define
VOID
ODM_RASupport_Init(
IN PDM_ODM_T pDM_Odm
);
int
ODM_RAInfo_Init_all(
IN PDM_ODM_T pDM_Odm
);
int
ODM_RAInfo_Init(
IN PDM_ODM_T pDM_Odm,
IN u1Byte MacID
);
u1Byte
ODM_RA_GetShortGI_8188E(
IN PDM_ODM_T pDM_Odm,
IN u1Byte MacID
);
u1Byte
ODM_RA_GetDecisionRate_8188E(
IN PDM_ODM_T pDM_Odm,
IN u1Byte MacID
);
u1Byte
ODM_RA_GetHwPwrStatus_8188E(
IN PDM_ODM_T pDM_Odm,
IN u1Byte MacID
);
VOID
ODM_RA_UpdateRateInfo_8188E(
IN PDM_ODM_T pDM_Odm,
IN u1Byte MacID,
IN u1Byte RateID,
IN u4Byte RateMask,
IN u1Byte SGIEnable
);
VOID
ODM_RA_SetRSSI_8188E(
IN PDM_ODM_T pDM_Odm,
IN u1Byte MacID,
IN u1Byte Rssi
);
VOID
ODM_RA_TxRPT2Handle_8188E(
IN PDM_ODM_T pDM_Odm,
IN pu1Byte TxRPT_Buf,
IN u2Byte TxRPT_Len,
IN u4Byte MacIDValidEntry0,
IN u4Byte MacIDValidEntry1
);
VOID
ODM_RA_Set_TxRPT_Time(
IN PDM_ODM_T pDM_Odm,
IN u2Byte minRptTime
);
#endif

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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
//============================================================
// File Name: Hal8188EReg.h
//
// Description:
//
// This file is for RTL8188E register definition.
//
//
//============================================================
#ifndef __HAL_8188E_REG_H__
#define __HAL_8188E_REG_H__
//
// Register Definition
//
#define TRX_ANTDIV_PATH 0x860
#define RX_ANTDIV_PATH 0xb2c
#define ODM_R_A_AGC_CORE1_8188E 0xc50
//
// Bitmap Definition
//
#define BIT_FA_RESET_8188E BIT0
#endif

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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#if (RTL8188E_SUPPORT == 1)
#ifndef __INC_BB_8188E_HW_IMG_H
#define __INC_BB_8188E_HW_IMG_H
//static BOOLEAN CheckCondition(const u4Byte Condition, const u4Byte Hex);
/******************************************************************************
* AGC_TAB_1T.TXT
******************************************************************************/
HAL_STATUS
ODM_ReadAndConfig_AGC_TAB_1T_8188E(
IN PDM_ODM_T pDM_Odm
);
/******************************************************************************
* AGC_TAB_1T_ICUT.TXT
******************************************************************************/
void
ODM_ReadAndConfig_AGC_TAB_1T_ICUT_8188E( // TC: Test Chip, MP: MP Chip
IN PDM_ODM_T pDM_Odm
);
/******************************************************************************
* PHY_REG_1T.TXT
******************************************************************************/
HAL_STATUS
ODM_ReadAndConfig_PHY_REG_1T_8188E(
IN PDM_ODM_T pDM_Odm
);
/******************************************************************************
* PHY_REG_1T_ICUT.TXT
******************************************************************************/
void
ODM_ReadAndConfig_PHY_REG_1T_ICUT_8188E( // TC: Test Chip, MP: MP Chip
IN PDM_ODM_T pDM_Odm
);
/******************************************************************************
* PHY_REG_PG.TXT
******************************************************************************/
void
ODM_ReadAndConfig_PHY_REG_PG_8188E(
IN PDM_ODM_T pDM_Odm
);
#endif
#endif // end of HWIMG_SUPPORT

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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#if (RTL8188E_SUPPORT == 1)
#ifndef __INC_FW_8188E_HW_IMG_H
#define __INC_FW_8188E_HW_IMG_H
/******************************************************************************
* FW_AP.TXT
******************************************************************************/
#if(DM_ODM_SUPPORT_TYPE & (ODM_AP))
void
ODM_ReadFirmware_8188E_FW_AP(
IN PDM_ODM_T pDM_Odm,
OUT u1Byte *pFirmware,
OUT u4Byte *pFirmwareSize
);
#else
/******************************************************************************
* FW_NIC.TXT
******************************************************************************/
#if 0
void
ODM_ReadFirmware_8188E_FW_NIC(
IN PDM_ODM_T pDM_Odm,
OUT u1Byte *pFirmware,
OUT u4Byte *pFirmwareSize
);
#endif
/******************************************************************************
* FW_WoWLAN.TXT
******************************************************************************/
#if 0
void
ODM_ReadFirmware_8188E_FW_WoWLAN(
IN PDM_ODM_T pDM_Odm,
OUT u1Byte *pFirmware,
OUT u4Byte *pFirmwareSize
);
#endif
#define ArrayLength_8188E_FW_WoWLAN 15080
extern const u8 Array_8188E_FW_WoWLAN[ArrayLength_8188E_FW_WoWLAN];
#endif
#endif
#endif // end of HWIMG_SUPPORT

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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#include "../odm_precomp.h"
#ifdef CONFIG_IOL_IOREG_CFG
#include <rtw_iol.h>
#endif
#if (RTL8188E_SUPPORT == 1)
static BOOLEAN
CheckCondition(
const u4Byte Condition,
const u4Byte Hex
)
{
u4Byte _board = (Hex & 0x000000FF);
u4Byte _interface = (Hex & 0x0000FF00) >> 8;
u4Byte _platform = (Hex & 0x00FF0000) >> 16;
u4Byte cond = Condition;
if ( Condition == 0xCDCDCDCD )
return TRUE;
cond = Condition & 0x000000FF;
if ( (_board != cond) && (cond != 0xFF) )
return FALSE;
cond = Condition & 0x0000FF00;
cond = cond >> 8;
if ( ((_interface & cond) == 0) && (cond != 0x07) )
return FALSE;
cond = Condition & 0x00FF0000;
cond = cond >> 16;
if ( ((_platform & cond) == 0) && (cond != 0x0F) )
return FALSE;
return TRUE;
}
/******************************************************************************
* MAC_REG.TXT
******************************************************************************/
u4Byte Array_MAC_REG_8188E[] = {
0x026, 0x00000041,
0x027, 0x00000035,
0xFF0F0718, 0xABCD,
0x040, 0x0000000C,
0xCDCDCDCD, 0xCDCD,
0x040, 0x00000000,
0xFF0F0718, 0xDEAD,
0x428, 0x0000000A,
0x429, 0x00000010,
0x430, 0x00000000,
0x431, 0x00000001,
0x432, 0x00000002,
0x433, 0x00000004,
0x434, 0x00000005,
0x435, 0x00000006,
0x436, 0x00000007,
0x437, 0x00000008,
0x438, 0x00000000,
0x439, 0x00000000,
0x43A, 0x00000001,
0x43B, 0x00000002,
0x43C, 0x00000004,
0x43D, 0x00000005,
0x43E, 0x00000006,
0x43F, 0x00000007,
0x440, 0x0000005D,
0x441, 0x00000001,
0x442, 0x00000000,
0x444, 0x00000015,
0x445, 0x000000F0,
0x446, 0x0000000F,
0x447, 0x00000000,
0x458, 0x00000041,
0x459, 0x000000A8,
0x45A, 0x00000072,
0x45B, 0x000000B9,
0x460, 0x00000066,
0x461, 0x00000066,
0x480, 0x00000008,
0x4C8, 0x000000FF,
0x4C9, 0x00000008,
0x4CC, 0x000000FF,
0x4CD, 0x000000FF,
0x4CE, 0x00000001,
0x4D3, 0x00000001,
0x500, 0x00000026,
0x501, 0x000000A2,
0x502, 0x0000002F,
0x503, 0x00000000,
0x504, 0x00000028,
0x505, 0x000000A3,
0x506, 0x0000005E,
0x507, 0x00000000,
0x508, 0x0000002B,
0x509, 0x000000A4,
0x50A, 0x0000005E,
0x50B, 0x00000000,
0x50C, 0x0000004F,
0x50D, 0x000000A4,
0x50E, 0x00000000,
0x50F, 0x00000000,
0x512, 0x0000001C,
0x514, 0x0000000A,
0x516, 0x0000000A,
0x525, 0x0000004F,
0x550, 0x00000010,
0x551, 0x00000010,
0x559, 0x00000002,
0x55D, 0x000000FF,
0x605, 0x00000030,
0x608, 0x0000000E,
0x609, 0x0000002A,
0x620, 0x000000FF,
0x621, 0x000000FF,
0x622, 0x000000FF,
0x623, 0x000000FF,
0x624, 0x000000FF,
0x625, 0x000000FF,
0x626, 0x000000FF,
0x627, 0x000000FF,
0x652, 0x00000020,
0x63C, 0x0000000A,
0x63D, 0x0000000A,
0x63E, 0x0000000E,
0x63F, 0x0000000E,
0x640, 0x00000040,
0x66E, 0x00000005,
0x700, 0x00000021,
0x701, 0x00000043,
0x702, 0x00000065,
0x703, 0x00000087,
0x708, 0x00000021,
0x709, 0x00000043,
0x70A, 0x00000065,
0x70B, 0x00000087,
};
HAL_STATUS
ODM_ReadAndConfig_MAC_REG_8188E(
IN PDM_ODM_T pDM_Odm
)
{
#define READ_NEXT_PAIR(v1, v2, i) do { i += 2; v1 = Array[i]; v2 = Array[i+1]; } while(0)
u4Byte hex = 0;
u4Byte i = 0;
u2Byte count = 0;
pu4Byte ptr_array = NULL;
u1Byte platform = pDM_Odm->SupportPlatform;
u1Byte interfaceValue = pDM_Odm->SupportInterface;
u1Byte board = pDM_Odm->BoardType;
u4Byte ArrayLen = sizeof(Array_MAC_REG_8188E)/sizeof(u4Byte);
pu4Byte Array = Array_MAC_REG_8188E;
BOOLEAN biol = FALSE;
#ifdef CONFIG_IOL_IOREG_CFG
PADAPTER Adapter = pDM_Odm->Adapter;
struct xmit_frame *pxmit_frame;
u8 bndy_cnt = 1;
#ifdef CONFIG_IOL_IOREG_CFG_DBG
struct cmd_cmp cmpdata[ArrayLen];
u4Byte cmpdata_idx=0;
#endif
#endif //CONFIG_IOL_IOREG_CFG
HAL_STATUS rst =HAL_STATUS_SUCCESS;
hex += board;
hex += interfaceValue << 8;
hex += platform << 16;
hex += 0xFF000000;
#ifdef CONFIG_IOL_IOREG_CFG
biol = rtw_IOL_applied(Adapter);
if(biol){
if((pxmit_frame=rtw_IOL_accquire_xmit_frame(Adapter)) == NULL)
{
printk("rtw_IOL_accquire_xmit_frame failed\n");
return HAL_STATUS_FAILURE;
}
}
#endif //CONFIG_IOL_IOREG_CFG
for (i = 0; i < ArrayLen; i += 2 )
{
u4Byte v1 = Array[i];
u4Byte v2 = Array[i+1];
// This (offset, data) pair meets the condition.
if ( v1 < 0xCDCDCDCD )
{
#ifdef CONFIG_IOL_IOREG_CFG
if(biol){
if(rtw_IOL_cmd_boundary_handle(pxmit_frame))
bndy_cnt++;
rtw_IOL_append_WB_cmd(pxmit_frame,(u2Byte)v1, (u1Byte)v2,0xFF);
#ifdef CONFIG_IOL_IOREG_CFG_DBG
cmpdata[cmpdata_idx].addr = v1;
cmpdata[cmpdata_idx].value= v2;
cmpdata_idx++;
#endif
}
else
#endif //endif CONFIG_IOL_IOREG_CFG
{
odm_ConfigMAC_8188E(pDM_Odm, v1, (u1Byte)v2);
}
continue;
}
else
{ // This line is the start line of branch.
if ( !CheckCondition(Array[i], hex) )
{ // Discard the following (offset, data) pairs.
READ_NEXT_PAIR(v1, v2, i);
while ( v2 != 0xDEAD &&
v2 != 0xCDEF &&
v2 != 0xCDCD && i < ArrayLen -2)
{
READ_NEXT_PAIR(v1, v2, i);
}
i -= 2; // prevent from for-loop += 2
}
else // Configure matched pairs and skip to end of if-else.
{
READ_NEXT_PAIR(v1, v2, i);
while ( v2 != 0xDEAD &&
v2 != 0xCDEF &&
v2 != 0xCDCD && i < ArrayLen -2)
{
#ifdef CONFIG_IOL_IOREG_CFG
if(biol){
if(rtw_IOL_cmd_boundary_handle(pxmit_frame))
bndy_cnt++;
rtw_IOL_append_WB_cmd(pxmit_frame,(u2Byte)v1, (u1Byte)v2,0xFF);
#ifdef CONFIG_IOL_IOREG_CFG_DBG
cmpdata[cmpdata_idx].addr = v1;
cmpdata[cmpdata_idx].value= v2;
cmpdata_idx++;
#endif
}
else
#endif //#ifdef CONFIG_IOL_IOREG_CFG
{
odm_ConfigMAC_8188E(pDM_Odm, v1, (u1Byte)v2);
}
READ_NEXT_PAIR(v1, v2, i);
}
while (v2 != 0xDEAD && i < ArrayLen -2)
{
READ_NEXT_PAIR(v1, v2, i);
}
}
}
}
#ifdef CONFIG_IOL_IOREG_CFG
if(biol){
//printk("==> %s, pktlen = %d,bndy_cnt = %d\n",__FUNCTION__,pxmit_frame->attrib.pktlen+4+32,bndy_cnt);
if(rtw_IOL_exec_cmds_sync(pDM_Odm->Adapter, pxmit_frame, 1000, bndy_cnt))
{
#ifdef CONFIG_IOL_IOREG_CFG_DBG
printk("~~~ IOL Config MAC Success !!! \n");
//compare writed data
{
u4Byte idx;
u1Byte cdata;
// HAL_STATUS_FAILURE;
printk(" MAC data compare => array_len:%d \n",cmpdata_idx);
for(idx=0;idx< cmpdata_idx;idx++)
{
cdata = ODM_Read1Byte(pDM_Odm, cmpdata[idx].addr);
if(cdata != cmpdata[idx].value){
printk("### MAC data compared failed !! addr:0x%04x, data:(0x%02x : 0x%02x) ###\n",
cmpdata[idx].addr,cmpdata[idx].value,cdata);
//rst = HAL_STATUS_FAILURE;
}
}
//dump data from TX packet buffer
//if(rst == HAL_STATUS_FAILURE)
{
rtw_IOL_cmd_tx_pkt_buf_dump(pDM_Odm->Adapter,pxmit_frame->attrib.pktlen+32);
}
}
#endif //CONFIG_IOL_IOREG_CFG_DBG
}
else{
printk("~~~ MAC IOL_exec_cmds Failed !!! \n");
#ifdef CONFIG_IOL_IOREG_CFG_DBG
{
//dump data from TX packet buffer
rtw_IOL_cmd_tx_pkt_buf_dump(pDM_Odm->Adapter,pxmit_frame->attrib.pktlen+32);
}
#endif //CONFIG_IOL_IOREG_CFG_DBG
rst = HAL_STATUS_FAILURE;
}
}
#endif //#ifdef CONFIG_IOL_IOREG_CFG
return rst;
}
/******************************************************************************
* MAC_REG_ICUT.TXT
******************************************************************************/
u4Byte Array_MP_8188E_MAC_REG_ICUT[] = {
0x026, 0x00000041,
0x027, 0x00000035,
0x428, 0x0000000A,
0x429, 0x00000010,
0x430, 0x00000000,
0x431, 0x00000001,
0x432, 0x00000002,
0x433, 0x00000004,
0x434, 0x00000005,
0x435, 0x00000006,
0x436, 0x00000007,
0x437, 0x00000008,
0x438, 0x00000000,
0x439, 0x00000000,
0x43A, 0x00000001,
0x43B, 0x00000002,
0x43C, 0x00000004,
0x43D, 0x00000005,
0x43E, 0x00000006,
0x43F, 0x00000007,
0x440, 0x0000005D,
0x441, 0x00000001,
0x442, 0x00000000,
0x444, 0x00000015,
0x445, 0x000000F0,
0x446, 0x0000000F,
0x447, 0x00000000,
0x458, 0x00000041,
0x459, 0x000000A8,
0x45A, 0x00000072,
0x45B, 0x000000B9,
0x460, 0x00000066,
0x461, 0x00000066,
0x480, 0x00000008,
0x4C8, 0x000000FF,
0x4C9, 0x00000008,
0x4CC, 0x000000FF,
0x4CD, 0x000000FF,
0x4CE, 0x00000001,
0x4D3, 0x00000001,
0x500, 0x00000026,
0x501, 0x000000A2,
0x502, 0x0000002F,
0x503, 0x00000000,
0x504, 0x00000028,
0x505, 0x000000A3,
0x506, 0x0000005E,
0x507, 0x00000000,
0x508, 0x0000002B,
0x509, 0x000000A4,
0x50A, 0x0000005E,
0x50B, 0x00000000,
0x50C, 0x0000004F,
0x50D, 0x000000A4,
0x50E, 0x00000000,
0x50F, 0x00000000,
0x512, 0x0000001C,
0x514, 0x0000000A,
0x516, 0x0000000A,
0x525, 0x0000004F,
0x550, 0x00000010,
0x551, 0x00000010,
0x559, 0x00000002,
0x55D, 0x000000FF,
0x605, 0x00000030,
0x608, 0x0000000E,
0x609, 0x0000002A,
0x620, 0x000000FF,
0x621, 0x000000FF,
0x622, 0x000000FF,
0x623, 0x000000FF,
0x624, 0x000000FF,
0x625, 0x000000FF,
0x626, 0x000000FF,
0x627, 0x000000FF,
0x652, 0x00000020,
0x63C, 0x0000000A,
0x63D, 0x0000000A,
0x63E, 0x0000000E,
0x63F, 0x0000000E,
0x640, 0x00000040,
0x66E, 0x00000005,
0x700, 0x00000021,
0x701, 0x00000043,
0x702, 0x00000065,
0x703, 0x00000087,
0x708, 0x00000021,
0x709, 0x00000043,
0x70A, 0x00000065,
0x70B, 0x00000087,
};
void
ODM_ReadAndConfig_MAC_REG_ICUT_8188E(
IN PDM_ODM_T pDM_Odm
)
{
#define READ_NEXT_PAIR(v1, v2, i) do { i += 2; v1 = Array[i]; v2 = Array[i+1]; } while(0)
u4Byte hex = 0;
u4Byte i = 0;
u2Byte count = 0;
pu4Byte ptr_array = NULL;
u1Byte platform = pDM_Odm->SupportPlatform;
u1Byte _interface = pDM_Odm->SupportInterface;
u1Byte board = pDM_Odm->BoardType;
u4Byte ArrayLen = sizeof(Array_MP_8188E_MAC_REG_ICUT)/sizeof(u4Byte);
pu4Byte Array = Array_MP_8188E_MAC_REG_ICUT;
hex += board;
hex += _interface << 8;
hex += platform << 16;
hex += 0xFF000000;
ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ReadAndConfig_MP_8188E_MAC_REG_ICUT, hex = 0x%X\n", hex));
for (i = 0; i < ArrayLen; i += 2 )
{
u4Byte v1 = Array[i];
u4Byte v2 = Array[i+1];
// This (offset, data) pair meets the condition.
if ( v1 < 0xCDCDCDCD )
{
odm_ConfigMAC_8188E(pDM_Odm, v1, (u1Byte)v2);
continue;
}
else
{ // This line is the start line of branch.
if ( !CheckCondition(Array[i], hex) )
{ // Discard the following (offset, data) pairs.
READ_NEXT_PAIR(v1, v2, i);
while (v2 != 0xDEAD &&
v2 != 0xCDEF &&
v2 != 0xCDCD && i < ArrayLen -2)
{
READ_NEXT_PAIR(v1, v2, i);
}
i -= 2; // prevent from for-loop += 2
}
else // Configure matched pairs and skip to end of if-else.
{
READ_NEXT_PAIR(v1, v2, i);
while (v2 != 0xDEAD &&
v2 != 0xCDEF &&
v2 != 0xCDCD && i < ArrayLen -2)
{
odm_ConfigMAC_8188E(pDM_Odm, v1, (u1Byte)v2);
READ_NEXT_PAIR(v1, v2, i);
}
while (v2 != 0xDEAD && i < ArrayLen -2)
{
READ_NEXT_PAIR(v1, v2, i);
}
}
}
}
}
#endif // end of HWIMG_SUPPORT

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@ -0,0 +1,47 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#if (RTL8188E_SUPPORT == 1)
#ifndef __INC_MAC_8188E_HW_IMG_H
#define __INC_MAC_8188E_HW_IMG_H
//static BOOLEAN CheckCondition(const u4Byte Condition, const u4Byte Hex);
/******************************************************************************
* MAC_REG.TXT
******************************************************************************/
HAL_STATUS
ODM_ReadAndConfig_MAC_REG_8188E(
IN PDM_ODM_T pDM_Odm
);
/******************************************************************************
* MAC_REG_ICUT.TXT
******************************************************************************/
void
ODM_ReadAndConfig_MAC_REG_ICUT_8188E( // TC: Test Chip, MP: MP Chip
IN PDM_ODM_T pDM_Odm
);
#endif
#endif // end of HWIMG_SUPPORT

View file

@ -0,0 +1,569 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#include "../odm_precomp.h"
#ifdef CONFIG_IOL_IOREG_CFG
#include <rtw_iol.h>
#endif
#if (RTL8188E_SUPPORT == 1)
static BOOLEAN
CheckCondition(
const u4Byte Condition,
const u4Byte Hex
)
{
u4Byte _board = (Hex & 0x000000FF);
u4Byte _interface = (Hex & 0x0000FF00) >> 8;
u4Byte _platform = (Hex & 0x00FF0000) >> 16;
u4Byte cond = Condition;
if ( Condition == 0xCDCDCDCD )
return TRUE;
cond = Condition & 0x000000FF;
if ( (_board != cond) && (cond != 0xFF) )
return FALSE;
cond = Condition & 0x0000FF00;
cond = cond >> 8;
if ( ((_interface & cond) == 0) && (cond != 0x07) )
return FALSE;
cond = Condition & 0x00FF0000;
cond = cond >> 16;
if ( ((_platform & cond) == 0) && (cond != 0x0F) )
return FALSE;
return TRUE;
}
/******************************************************************************
* RadioA_1T.TXT
******************************************************************************/
u4Byte Array_RadioA_1T_8188E[] = {
0x000, 0x00030000,
0x008, 0x00084000,
0x018, 0x00000407,
0x019, 0x00000012,
0x01E, 0x00080009,
0x01F, 0x00000880,
0x02F, 0x0001A060,
0x03F, 0x00000000,
0x042, 0x000060C0,
0x057, 0x000D0000,
0x058, 0x000BE180,
0x067, 0x00001552,
0x083, 0x00000000,
0x0B0, 0x000FF8FC,
0x0B1, 0x00054400,
0x0B2, 0x000CCC19,
0x0B4, 0x00043003,
0x0B6, 0x0004953E,
0x0B7, 0x0001C718,
0x0B8, 0x000060FF,
0x0B9, 0x00080001,
0x0BA, 0x00040000,
0x0BB, 0x00000400,
0x0BF, 0x000C0000,
0x0C2, 0x00002400,
0x0C3, 0x00000009,
0x0C4, 0x00040C91,
0x0C5, 0x00099999,
0x0C6, 0x000000A3,
0x0C7, 0x00088820,
0x0C8, 0x00076C06,
0x0C9, 0x00000000,
0x0CA, 0x00080000,
0x0DF, 0x00000180,
0x0EF, 0x000001A0,
0x051, 0x0006B27D,
0xFF0F0400, 0xABCD,
0x052, 0x0007E4DD,
0xCDCDCDCD, 0xCDCD,
0x052, 0x0007E49D,
0xFF0F0400, 0xDEAD,
0x053, 0x00000073,
0x056, 0x00051FF3,
0x035, 0x00000086,
0x035, 0x00000186,
0x035, 0x00000286,
0x036, 0x00001C25,
0x036, 0x00009C25,
0x036, 0x00011C25,
0x036, 0x00019C25,
0x0B6, 0x00048538,
0x018, 0x00000C07,
0x05A, 0x0004BD00,
0x019, 0x000739D0,
0xFF0F0718, 0xABCD,
0x034, 0x0000A093,
0x034, 0x0000908F,
0x034, 0x0000808C,
0x034, 0x0000704F,
0x034, 0x0000604C,
0x034, 0x00005049,
0x034, 0x0000400C,
0x034, 0x00003009,
0x034, 0x00002006,
0x034, 0x00001003,
0x034, 0x00000000,
0xCDCDCDCD, 0xCDCD,
0x034, 0x0000ADF3,
0x034, 0x00009DF0,
0x034, 0x00008DED,
0x034, 0x00007DEA,
0x034, 0x00006DE7,
0x034, 0x000054EE,
0x034, 0x000044EB,
0x034, 0x000034E8,
0x034, 0x0000246B,
0x034, 0x00001468,
0x034, 0x0000006D,
0xFF0F0718, 0xDEAD,
0x000, 0x00030159,
0x084, 0x00068200,
0x086, 0x000000CE,
0x087, 0x00048A00,
0x08E, 0x00065540,
0x08F, 0x00088000,
0x0EF, 0x000020A0,
0x03B, 0x000F02B0,
0x03B, 0x000EF7B0,
0x03B, 0x000D4FB0,
0x03B, 0x000CF060,
0x03B, 0x000B0090,
0x03B, 0x000A0080,
0x03B, 0x00090080,
0x03B, 0x0008F780,
0x03B, 0x000722B0,
0x03B, 0x0006F7B0,
0x03B, 0x00054FB0,
0x03B, 0x0004F060,
0x03B, 0x00030090,
0x03B, 0x00020080,
0x03B, 0x00010080,
0x03B, 0x0000F780,
0x0EF, 0x000000A0,
0x000, 0x00010159,
0x018, 0x0000F407,
0xFFE, 0x00000000,
0xFFE, 0x00000000,
0x01F, 0x00080003,
0xFFE, 0x00000000,
0xFFE, 0x00000000,
0x01E, 0x00000001,
0x01F, 0x00080000,
0x000, 0x00033E60,
};
HAL_STATUS
ODM_ReadAndConfig_RadioA_1T_8188E(
IN PDM_ODM_T pDM_Odm
)
{
#define READ_NEXT_PAIR(v1, v2, i) do { i += 2; v1 = Array[i]; v2 = Array[i+1]; } while(0)
u4Byte hex = 0;
u4Byte i = 0;
u2Byte count = 0;
pu4Byte ptr_array = NULL;
u1Byte platform = pDM_Odm->SupportPlatform;
u1Byte interfaceValue = pDM_Odm->SupportInterface;
u1Byte board = pDM_Odm->BoardType;
u4Byte ArrayLen = sizeof(Array_RadioA_1T_8188E)/sizeof(u4Byte);
pu4Byte Array = Array_RadioA_1T_8188E;
BOOLEAN biol = FALSE;
#ifdef CONFIG_IOL_IOREG_CFG
PADAPTER Adapter = pDM_Odm->Adapter;
struct xmit_frame *pxmit_frame;
u8 bndy_cnt = 1;
#ifdef CONFIG_IOL_IOREG_CFG_DBG
struct cmd_cmp cmpdata[ArrayLen];
u4Byte cmpdata_idx=0;
#endif
#endif//#ifdef CONFIG_IOL_IOREG_CFG
HAL_STATUS rst =HAL_STATUS_SUCCESS;
hex += board;
hex += interfaceValue << 8;
hex += platform << 16;
hex += 0xFF000000;
#ifdef CONFIG_IOL_IOREG_CFG
biol = rtw_IOL_applied(Adapter);
if(biol){
if((pxmit_frame=rtw_IOL_accquire_xmit_frame(Adapter)) == NULL)
{
printk("rtw_IOL_accquire_xmit_frame failed\n");
return HAL_STATUS_FAILURE;
}
}
#endif//#ifdef CONFIG_IOL_IOREG_CFG
for (i = 0; i < ArrayLen; i += 2 )
{
u4Byte v1 = Array[i];
u4Byte v2 = Array[i+1];
// This (offset, data) pair meets the condition.
if ( v1 < 0xCDCDCDCD )
{
#ifdef CONFIG_IOL_IOREG_CFG
if(biol){
if(rtw_IOL_cmd_boundary_handle(pxmit_frame))
bndy_cnt++;
if(v1 == 0xffe)
{
rtw_IOL_append_DELAY_MS_cmd(pxmit_frame,50);
}
else if (v1 == 0xfd){
rtw_IOL_append_DELAY_MS_cmd(pxmit_frame,5);
}
else if (v1 == 0xfc){
rtw_IOL_append_DELAY_MS_cmd(pxmit_frame,1);
}
else if (v1 == 0xfb){
rtw_IOL_append_DELAY_US_cmd(pxmit_frame,50);
}
else if (v1 == 0xfa){
rtw_IOL_append_DELAY_US_cmd(pxmit_frame,5);
}
else if (v1 == 0xf9){
rtw_IOL_append_DELAY_US_cmd(pxmit_frame,1);
}
else{
rtw_IOL_append_WRF_cmd(pxmit_frame, ODM_RF_PATH_A,(u2Byte)v1, v2,bRFRegOffsetMask) ;
#ifdef CONFIG_IOL_IOREG_CFG_DBG
cmpdata[cmpdata_idx].addr = v1;
cmpdata[cmpdata_idx].value= v2;
cmpdata_idx++;
#endif
}
}
else
#endif //#ifdef CONFIG_IOL_IOREG_CFG
{
odm_ConfigRF_RadioA_8188E(pDM_Odm, v1, v2);
}
continue;
}
else
{ // This line is the start line of branch.
if ( !CheckCondition(Array[i], hex) )
{ // Discard the following (offset, data) pairs.
READ_NEXT_PAIR(v1, v2, i);
while (v2 != 0xDEAD &&
v2 != 0xCDEF &&
v2 != 0xCDCD && i < ArrayLen -2)
{
READ_NEXT_PAIR(v1, v2, i);
}
i -= 2; // prevent from for-loop += 2
}
else // Configure matched pairs and skip to end of if-else.
{
READ_NEXT_PAIR(v1, v2, i);
while (v2 != 0xDEAD &&
v2 != 0xCDEF &&
v2 != 0xCDCD && i < ArrayLen -2)
{
#ifdef CONFIG_IOL_IOREG_CFG
if(biol){
if(rtw_IOL_cmd_boundary_handle(pxmit_frame))
bndy_cnt++;
if(v1 == 0xffe)
{
rtw_IOL_append_DELAY_MS_cmd(pxmit_frame,50);
}
else if (v1 == 0xfd){
rtw_IOL_append_DELAY_MS_cmd(pxmit_frame,5);
}
else if (v1 == 0xfc){
rtw_IOL_append_DELAY_MS_cmd(pxmit_frame,1);
}
else if (v1 == 0xfb){
rtw_IOL_append_DELAY_US_cmd(pxmit_frame,50);
}
else if (v1 == 0xfa){
rtw_IOL_append_DELAY_US_cmd(pxmit_frame,5);
}
else if (v1 == 0xf9){
rtw_IOL_append_DELAY_US_cmd(pxmit_frame,1);
}
else{
rtw_IOL_append_WRF_cmd(pxmit_frame, ODM_RF_PATH_A,(u2Byte)v1, v2,bRFRegOffsetMask) ;
#ifdef CONFIG_IOL_IOREG_CFG_DBG
cmpdata[cmpdata_idx].addr = v1;
cmpdata[cmpdata_idx].value= v2;
cmpdata_idx++;
#endif
}
}
else
#endif //#ifdef CONFIG_IOL_IOREG_CFG
{
odm_ConfigRF_RadioA_8188E(pDM_Odm, v1, v2);
}
READ_NEXT_PAIR(v1, v2, i);
}
while (v2 != 0xDEAD && i < ArrayLen -2)
{
READ_NEXT_PAIR(v1, v2, i);
}
}
}
}
#ifdef CONFIG_IOL_IOREG_CFG
if(biol){
//printk("==> %s, pktlen = %d,bndy_cnt = %d\n",__FUNCTION__,pxmit_frame->attrib.pktlen+4+32,bndy_cnt);
if(rtw_IOL_exec_cmds_sync(pDM_Odm->Adapter, pxmit_frame, 1000, bndy_cnt))
{
#ifdef CONFIG_IOL_IOREG_CFG_DBG
printk("~~~ %s Success !!! \n",__FUNCTION__);
{
u4Byte idx;
u4Byte cdata;
printk(" %s data compare => array_len:%d \n",__FUNCTION__,cmpdata_idx);
printk("### %s data compared !!###\n",__FUNCTION__);
for(idx=0;idx< cmpdata_idx;idx++)
{
cdata = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A,cmpdata[idx].addr,bRFRegOffsetMask);
if(cdata != cmpdata[idx].value){
printk("addr:0x%04x, data:(0x%02x : 0x%02x) \n",
cmpdata[idx].addr,cmpdata[idx].value,cdata);
rst = HAL_STATUS_FAILURE;
}
}
printk("### %s data compared !!###\n",__FUNCTION__);
//if(rst == HAL_STATUS_FAILURE)
{//dump data from TX packet buffer
rtw_IOL_cmd_tx_pkt_buf_dump(pDM_Odm->Adapter,pxmit_frame->attrib.pktlen+32);
}
}
#endif //CONFIG_IOL_IOREG_CFG_DBG
}
else{
rst = HAL_STATUS_FAILURE;
printk("~~~ IOL Config %s Failed !!! \n",__FUNCTION__);
#ifdef CONFIG_IOL_IOREG_CFG_DBG
{
//dump data from TX packet buffer
rtw_IOL_cmd_tx_pkt_buf_dump(pDM_Odm->Adapter,pxmit_frame->attrib.pktlen+32);
}
#endif //CONFIG_IOL_IOREG_CFG_DBG
}
}
#endif //#ifdef CONFIG_IOL_IOREG_CFG
return rst;
}
/******************************************************************************
* RadioA_1T_ICUT.TXT
******************************************************************************/
u4Byte Array_MP_8188E_RadioA_1T_ICUT[] = {
0x000, 0x00030000,
0x008, 0x00084000,
0x018, 0x00000407,
0x019, 0x00000012,
0x01E, 0x00080009,
0x01F, 0x00000880,
0x02F, 0x0001A060,
0x03F, 0x00000000,
0x042, 0x000060C0,
0x057, 0x000D0000,
0x058, 0x000BE180,
0x067, 0x00001552,
0x083, 0x00000000,
0x0B0, 0x000FF8FC,
0x0B1, 0x00054400,
0x0B2, 0x000CCC19,
0x0B4, 0x00043003,
0x0B6, 0x0004953E,
0x0B7, 0x0001C718,
0x0B8, 0x000060FF,
0x0B9, 0x00080001,
0x0BA, 0x00040000,
0x0BB, 0x00000400,
0x0BF, 0x000C0000,
0x0C2, 0x00002400,
0x0C3, 0x00000009,
0x0C4, 0x00040C91,
0x0C5, 0x00099999,
0x0C6, 0x000000A3,
0x0C7, 0x00088820,
0x0C8, 0x00076C06,
0x0C9, 0x00000000,
0x0CA, 0x00080000,
0x0DF, 0x00000180,
0x0EF, 0x000001A0,
0x051, 0x0006B27D,
0xFF0F0400, 0xABCD,
0x052, 0x0007E4DD,
0xCDCDCDCD, 0xCDCD,
0x052, 0x0007E49D,
0xFF0F0400, 0xDEAD,
0x053, 0x00000073,
0x056, 0x00051FF3,
0x035, 0x00000086,
0x035, 0x00000186,
0x035, 0x00000286,
0x036, 0x00001C25,
0x036, 0x00009C25,
0x036, 0x00011C25,
0x036, 0x00019C25,
0x0B6, 0x00048538,
0x018, 0x00000C07,
0x05A, 0x0004BD00,
0x019, 0x000739D0,
0x034, 0x0000ADF3,
0x034, 0x00009DF0,
0x034, 0x00008DED,
0x034, 0x00007DEA,
0x034, 0x00006DE7,
0x034, 0x000054EE,
0x034, 0x000044EB,
0x034, 0x000034E8,
0x034, 0x0000246B,
0x034, 0x00001468,
0x034, 0x0000006D,
0x000, 0x00030159,
0x084, 0x00068200,
0x086, 0x000000CE,
0x087, 0x00048A00,
0x08E, 0x00065540,
0x08F, 0x00088000,
0x0EF, 0x000020A0,
0x03B, 0x000F02B0,
0x03B, 0x000EF7B0,
0x03B, 0x000D4FB0,
0x03B, 0x000CF060,
0x03B, 0x000B0090,
0x03B, 0x000A0080,
0x03B, 0x00090080,
0x03B, 0x0008F780,
0x03B, 0x000722B0,
0x03B, 0x0006F7B0,
0x03B, 0x00054FB0,
0x03B, 0x0004F060,
0x03B, 0x00030090,
0x03B, 0x00020080,
0x03B, 0x00010080,
0x03B, 0x0000F780,
0x0EF, 0x000000A0,
0x000, 0x00010159,
0x018, 0x0000F407,
0xFFE, 0x00000000,
0xFFE, 0x00000000,
0x01F, 0x00080003,
0xFFE, 0x00000000,
0xFFE, 0x00000000,
0x01E, 0x00000001,
0x01F, 0x00080000,
0x000, 0x00033E60,
};
void
ODM_ReadAndConfig_RadioA_1T_ICUT_8188E(
IN PDM_ODM_T pDM_Odm
)
{
#define READ_NEXT_PAIR(v1, v2, i) do { i += 2; v1 = Array[i]; v2 = Array[i+1]; } while(0)
u4Byte hex = 0;
u4Byte i = 0;
u2Byte count = 0;
pu4Byte ptr_array = NULL;
u1Byte platform = pDM_Odm->SupportPlatform;
u1Byte _interface = pDM_Odm->SupportInterface;
u1Byte board = pDM_Odm->BoardType;
u4Byte ArrayLen = sizeof(Array_MP_8188E_RadioA_1T_ICUT)/sizeof(u4Byte);
pu4Byte Array = Array_MP_8188E_RadioA_1T_ICUT;
hex += board;
hex += _interface << 8;
hex += platform << 16;
hex += 0xFF000000;
ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ReadAndConfig_MP_8188E_RadioA_1T_ICUT, hex = 0x%X\n", hex));
for (i = 0; i < ArrayLen; i += 2 )
{
u4Byte v1 = Array[i];
u4Byte v2 = Array[i+1];
// This (offset, data) pair meets the condition.
if ( v1 < 0xCDCDCDCD )
{
odm_ConfigRF_RadioA_8188E(pDM_Odm, v1, v2);
continue;
}
else
{ // This line is the start line of branch.
if ( !CheckCondition(Array[i], hex) )
{ // Discard the following (offset, data) pairs.
READ_NEXT_PAIR(v1, v2, i);
while (v2 != 0xDEAD &&
v2 != 0xCDEF &&
v2 != 0xCDCD && i < ArrayLen -2)
{
READ_NEXT_PAIR(v1, v2, i);
}
i -= 2; // prevent from for-loop += 2
}
else // Configure matched pairs and skip to end of if-else.
{
READ_NEXT_PAIR(v1, v2, i);
while (v2 != 0xDEAD &&
v2 != 0xCDEF &&
v2 != 0xCDCD && i < ArrayLen -2)
{
odm_ConfigRF_RadioA_8188E(pDM_Odm, v1, v2);
READ_NEXT_PAIR(v1, v2, i);
}
while (v2 != 0xDEAD && i < ArrayLen -2)
{
READ_NEXT_PAIR(v1, v2, i);
}
}
}
}
}
#endif // end of HWIMG_SUPPORT

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@ -0,0 +1,45 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#if (RTL8188E_SUPPORT == 1)
#ifndef __INC_RF_8188E_HW_IMG_H
#define __INC_RF_8188E_HW_IMG_H
//static BOOLEAN CheckCondition(const u4Byte Condition, const u4Byte Hex);
/******************************************************************************
* RadioA_1T.TXT
******************************************************************************/
HAL_STATUS
ODM_ReadAndConfig_RadioA_1T_8188E(
IN PDM_ODM_T pDM_Odm
);
/******************************************************************************
* RadioA_1T_ICUT.TXT
******************************************************************************/
void
ODM_ReadAndConfig_RadioA_1T_ICUT_8188E( // TC: Test Chip, MP: MP Chip
IN PDM_ODM_T pDM_Odm
);
#endif
#endif // end of HWIMG_SUPPORT

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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __HAL_PHY_RF_8188E_H__
#define __HAL_PHY_RF_8188E_H__
/*--------------------------Define Parameters-------------------------------*/
#define IQK_DELAY_TIME_88E 10 //ms
#define index_mapping_NUM_88E 15
#define AVG_THERMAL_NUM_88E 4
typedef enum _PWRTRACK_CONTROL_METHOD {
BBSWING,
TXAGC
} PWRTRACK_METHOD;
VOID
ODM_TxPwrTrackAdjust88E(
PDM_ODM_T pDM_Odm,
u1Byte Type, // 0 = OFDM, 1 = CCK
pu1Byte pDirection, // 1 = +(increase) 2 = -(decrease)
pu4Byte pOutWriteVal // Tx tracking CCK/OFDM BB swing index adjust
);
VOID
odm_TXPowerTrackingCallback_ThermalMeter_8188E(
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
IN PDM_ODM_T pDM_Odm
#else
IN PADAPTER Adapter
#endif
);
//1 7. IQK
void
PHY_IQCalibrate_8188E(
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
IN PDM_ODM_T pDM_Odm,
#else
IN PADAPTER Adapter,
#endif
IN BOOLEAN bReCovery);
//
// LC calibrate
//
void
PHY_LCCalibrate_8188E(
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
IN PDM_ODM_T pDM_Odm
#else
IN PADAPTER pAdapter
#endif
);
//
// AP calibrate
//
void
PHY_APCalibrate_8188E(
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
IN PDM_ODM_T pDM_Odm,
#else
IN PADAPTER pAdapter,
#endif
IN s1Byte delta);
void
PHY_DigitalPredistortion_8188E( IN PADAPTER pAdapter);
VOID
_PHY_SaveADDARegisters(
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
IN PDM_ODM_T pDM_Odm,
#else
IN PADAPTER pAdapter,
#endif
IN pu4Byte ADDAReg,
IN pu4Byte ADDABackup,
IN u4Byte RegisterNum
);
VOID
_PHY_PathADDAOn(
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
IN PDM_ODM_T pDM_Odm,
#else
IN PADAPTER pAdapter,
#endif
IN pu4Byte ADDAReg,
IN BOOLEAN isPathAOn,
IN BOOLEAN is2T
);
VOID
_PHY_MACSettingCalibration(
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
IN PDM_ODM_T pDM_Odm,
#else
IN PADAPTER pAdapter,
#endif
IN pu4Byte MACReg,
IN pu4Byte MACBackup
);
VOID
_PHY_PathAStandBy(
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
IN PDM_ODM_T pDM_Odm
#else
IN PADAPTER pAdapter
#endif
);
#endif // #ifndef __HAL_PHY_RF_8188E_H__

1290
hal/OUTSRC/rtl8188e/odm_RTL8188E.c Executable file

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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __ODM_RTL8188E_H__
#define __ODM_RTL8188E_H__
#define MAIN_ANT 0
#define AUX_ANT 1
#define MAIN_ANT_CG_TRX 1
#define AUX_ANT_CG_TRX 0
#define MAIN_ANT_CGCS_RX 0
#define AUX_ANT_CGCS_RX 1
VOID
ODM_DIG_LowerBound_88E(
IN PDM_ODM_T pDM_Odm
);
#if ( !(DM_ODM_SUPPORT_TYPE == ODM_CE))
VOID
odm_FastAntTrainingInit(
IN PDM_ODM_T pDM_Odm
);
#endif
VOID
ODM_AntennaDiversityInit_88E(
IN PDM_ODM_T pDM_Odm
);
VOID
ODM_AntennaDiversity_88E
(
IN PDM_ODM_T pDM_Odm
);
#if (DM_ODM_SUPPORT_TYPE & (ODM_MP|ODM_CE))
VOID
ODM_SetTxAntByTxInfo_88E(
IN PDM_ODM_T pDM_Odm,
IN pu1Byte pDesc,
IN u1Byte macId
);
#else// (DM_ODM_SUPPORT_TYPE == ODM_AP)
VOID
ODM_SetTxAntByTxInfo_88E(
IN PDM_ODM_T pDM_Odm
);
#endif
VOID
ODM_UpdateRxIdleAnt_88E(
IN PDM_ODM_T pDM_Odm,
IN u1Byte Ant
);
VOID
ODM_AntselStatistics_88E(
IN PDM_ODM_T pDM_Odm,
IN u1Byte antsel_tr_mux,
IN u4Byte MacId,
IN u1Byte RxPWDBAll
);
#if ( !(DM_ODM_SUPPORT_TYPE == ODM_CE))
VOID
odm_FastAntTraining(
IN PDM_ODM_T pDM_Odm
);
VOID
odm_FastAntTrainingCallback(
IN PDM_ODM_T pDM_Odm
);
VOID
odm_FastAntTrainingWorkItemCallback(
IN PDM_ODM_T pDM_Odm
);
#endif
VOID
odm_PrimaryCCA_Init(
IN PDM_ODM_T pDM_Odm);
BOOLEAN
ODM_DynamicPrimaryCCA_DupRTS(
IN PDM_ODM_T pDM_Odm);
VOID
odm_DynamicPrimaryCCA(
IN PDM_ODM_T pDM_Odm);
#endif

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@ -0,0 +1,209 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#include "../odm_precomp.h"
#if (RTL8188E_SUPPORT == 1)
void
odm_ConfigRFReg_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Data,
IN ODM_RF_RADIO_PATH_E RF_PATH,
IN u4Byte RegAddr
)
{
if(Addr == 0xffe)
{
#ifdef CONFIG_LONG_DELAY_ISSUE
ODM_sleep_ms(50);
#else
ODM_delay_ms(50);
#endif
}
else if (Addr == 0xfd)
{
ODM_delay_ms(5);
}
else if (Addr == 0xfc)
{
ODM_delay_ms(1);
}
else if (Addr == 0xfb)
{
ODM_delay_us(50);
}
else if (Addr == 0xfa)
{
ODM_delay_us(5);
}
else if (Addr == 0xf9)
{
ODM_delay_us(1);
}
else
{
ODM_SetRFReg(pDM_Odm, RF_PATH, RegAddr, bRFRegOffsetMask, Data);
// Add 1us delay between BB/RF register setting.
ODM_delay_us(1);
}
}
void
odm_ConfigRF_RadioA_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Data
)
{
u4Byte content = 0x1000; // RF_Content: radioa_txt
u4Byte maskforPhySet= (u4Byte)(content&0xE000);
odm_ConfigRFReg_8188E(pDM_Odm, Addr, Data, ODM_RF_PATH_A, Addr|maskforPhySet);
ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigRFWithHeaderFile: [RadioA] %08X %08X\n", Addr, Data));
}
void
odm_ConfigRF_RadioB_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Data
)
{
u4Byte content = 0x1001; // RF_Content: radiob_txt
u4Byte maskforPhySet= (u4Byte)(content&0xE000);
odm_ConfigRFReg_8188E(pDM_Odm, Addr, Data, ODM_RF_PATH_B, Addr|maskforPhySet);
ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigRFWithHeaderFile: [RadioB] %08X %08X\n", Addr, Data));
}
void
odm_ConfigMAC_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u1Byte Data
)
{
ODM_Write1Byte(pDM_Odm, Addr, Data);
ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigMACWithHeaderFile: [MAC_REG] %08X %08X\n", Addr, Data));
}
void
odm_ConfigBB_AGC_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Bitmask,
IN u4Byte Data
)
{
ODM_SetBBReg(pDM_Odm, Addr, Bitmask, Data);
// Add 1us delay between BB/RF register setting.
ODM_delay_us(1);
ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigBBWithHeaderFile: [AGC_TAB] %08X %08X\n", Addr, Data));
}
void
odm_ConfigBB_PHY_REG_PG_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Bitmask,
IN u4Byte Data
)
{
if (Addr == 0xfe){
#ifdef CONFIG_LONG_DELAY_ISSUE
ODM_sleep_ms(50);
#else
ODM_delay_ms(50);
#endif
}
else if (Addr == 0xfd){
ODM_delay_ms(5);
}
else if (Addr == 0xfc){
ODM_delay_ms(1);
}
else if (Addr == 0xfb){
ODM_delay_us(50);
}
else if (Addr == 0xfa){
ODM_delay_us(5);
}
else if (Addr == 0xf9){
ODM_delay_us(1);
}
else{
ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("===> @@@@@@@ ODM_ConfigBBWithHeaderFile: [PHY_REG] %08X %08X %08X\n", Addr, Bitmask, Data));
#if !(DM_ODM_SUPPORT_TYPE&ODM_AP)
storePwrIndexDiffRateOffset(pDM_Odm->Adapter, Addr, Bitmask, Data);
#endif
}
}
void
odm_ConfigBB_PHY_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Bitmask,
IN u4Byte Data
)
{
if (Addr == 0xfe){
#ifdef CONFIG_LONG_DELAY_ISSUE
ODM_sleep_ms(50);
#else
ODM_delay_ms(50);
#endif
}
else if (Addr == 0xfd){
ODM_delay_ms(5);
}
else if (Addr == 0xfc){
ODM_delay_ms(1);
}
else if (Addr == 0xfb){
ODM_delay_us(50);
}
else if (Addr == 0xfa){
ODM_delay_us(5);
}
else if (Addr == 0xf9){
ODM_delay_us(1);
}
else{
if (Addr == 0xa24)
pDM_Odm->RFCalibrateInfo.RegA24 = Data;
ODM_SetBBReg(pDM_Odm, Addr, Bitmask, Data);
// Add 1us delay between BB/RF register setting.
ODM_delay_us(1);
ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigBBWithHeaderFile: [PHY_REG] %08X %08X\n", Addr, Data));
}
}
#endif

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@ -0,0 +1,80 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __INC_ODM_REGCONFIG_H_8188E
#define __INC_ODM_REGCONFIG_H_8188E
#if (RTL8188E_SUPPORT == 1)
void
odm_ConfigRFReg_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Data,
IN ODM_RF_RADIO_PATH_E RF_PATH,
IN u4Byte RegAddr
);
void
odm_ConfigRF_RadioA_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Data
);
void
odm_ConfigRF_RadioB_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Data
);
void
odm_ConfigMAC_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u1Byte Data
);
void
odm_ConfigBB_AGC_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Bitmask,
IN u4Byte Data
);
void
odm_ConfigBB_PHY_REG_PG_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Bitmask,
IN u4Byte Data
);
void
odm_ConfigBB_PHY_8188E(
IN PDM_ODM_T pDM_Odm,
IN u4Byte Addr,
IN u4Byte Bitmask,
IN u4Byte Data
);
#endif
#endif // end of SUPPORT

526
hal/hal_com.c Normal file → Executable file
View file

@ -17,307 +17,320 @@
*
*
******************************************************************************/
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtw_byteorder.h>
#include <hal_intf.h>
#include <hal_com.h>
#ifdef CONFIG_RTL8192C
#include <rtl8192c_hal.h>
#endif
#ifdef CONFIG_RTL8192D
#include <rtl8192d_hal.h>
#endif
#ifdef CONFIG_RTL8723A
#include <rtl8723a_hal.h>
#endif
#ifdef CONFIG_RTL8188E
#include <rtl8188e_hal.h>
#endif
#define _HAL_INIT_C_
void dump_chip_info(struct HAL_VERSION chip_vers)
void dump_chip_info(HAL_VERSION ChipVersion)
{
uint cnt = 0;
char buf[128];
int cnt = 0;
u8 buf[128];
if (IS_81XXC(chip_vers)) {
cnt += sprintf((buf+cnt), "Chip Version Info: %s_",
IS_92C_SERIAL(chip_vers) ?
"CHIP_8192C" : "CHIP_8188C");
} else if (IS_92D(chip_vers)) {
if(IS_81XXC(ChipVersion)){
cnt += sprintf((buf+cnt), "Chip Version Info: %s_", IS_92C_SERIAL(ChipVersion)?"CHIP_8192C":"CHIP_8188C");
}
else if(IS_92D(ChipVersion)){
cnt += sprintf((buf+cnt), "Chip Version Info: CHIP_8192D_");
} else if (IS_8723_SERIES(chip_vers)) {
}
else if(IS_8723_SERIES(ChipVersion)){
cnt += sprintf((buf+cnt), "Chip Version Info: CHIP_8723A_");
} else if (IS_8188E(chip_vers)) {
}
else if(IS_8188E(ChipVersion)){
cnt += sprintf((buf+cnt), "Chip Version Info: CHIP_8188E_");
}
cnt += sprintf((buf+cnt), "%s_", IS_NORMAL_CHIP(chip_vers) ?
"Normal_Chip" : "Test_Chip");
cnt += sprintf((buf+cnt), "%s_", IS_CHIP_VENDOR_TSMC(chip_vers) ?
"TSMC" : "UMC");
if (IS_A_CUT(chip_vers))
cnt += sprintf((buf+cnt), "A_CUT_");
else if (IS_B_CUT(chip_vers))
cnt += sprintf((buf+cnt), "B_CUT_");
else if (IS_C_CUT(chip_vers))
cnt += sprintf((buf+cnt), "C_CUT_");
else if (IS_D_CUT(chip_vers))
cnt += sprintf((buf+cnt), "D_CUT_");
else if (IS_E_CUT(chip_vers))
cnt += sprintf((buf+cnt), "E_CUT_");
else
cnt += sprintf((buf+cnt), "UNKNOWN_CUT(%d)_",
chip_vers.CUTVersion);
cnt += sprintf((buf+cnt), "%s_", IS_NORMAL_CHIP(ChipVersion)?"Normal_Chip":"Test_Chip");
cnt += sprintf((buf+cnt), "%s_", IS_CHIP_VENDOR_TSMC(ChipVersion)?"TSMC":"UMC");
if(IS_A_CUT(ChipVersion)) cnt += sprintf((buf+cnt), "A_CUT_");
else if(IS_B_CUT(ChipVersion)) cnt += sprintf((buf+cnt), "B_CUT_");
else if(IS_C_CUT(ChipVersion)) cnt += sprintf((buf+cnt), "C_CUT_");
else if(IS_D_CUT(ChipVersion)) cnt += sprintf((buf+cnt), "D_CUT_");
else if(IS_E_CUT(ChipVersion)) cnt += sprintf((buf+cnt), "E_CUT_");
else if(IS_I_CUT(ChipVersion)) cnt += sprintf((buf+cnt), "I_CUT_");
else if(IS_J_CUT(ChipVersion)) cnt += sprintf((buf+cnt), "J_CUT_");
else if(IS_K_CUT(ChipVersion)) cnt += sprintf((buf+cnt), "K_CUT_");
else cnt += sprintf((buf+cnt), "UNKNOWN_CUT(%d)_", ChipVersion.CUTVersion);
if (IS_1T1R(chip_vers))
cnt += sprintf((buf+cnt), "1T1R_");
else if (IS_1T2R(chip_vers))
cnt += sprintf((buf+cnt), "1T2R_");
else if (IS_2T2R(chip_vers))
cnt += sprintf((buf+cnt), "2T2R_");
else
cnt += sprintf((buf+cnt), "UNKNOWN_RFTYPE(%d)_",
chip_vers.RFType);
if(IS_1T1R(ChipVersion)) cnt += sprintf((buf+cnt), "1T1R_");
else if(IS_1T2R(ChipVersion)) cnt += sprintf((buf+cnt), "1T2R_");
else if(IS_2T2R(ChipVersion)) cnt += sprintf((buf+cnt), "2T2R_");
else cnt += sprintf((buf+cnt), "UNKNOWN_RFTYPE(%d)_", ChipVersion.RFType);
cnt += sprintf((buf+cnt), "RomVer(%d)\n", chip_vers.ROMVer);
cnt += sprintf((buf+cnt), "RomVer(%d)\n", ChipVersion.ROMVer);
pr_info("%s", buf);
DBG_871X("%s", buf);
}
#define CHAN_PLAN_HW 0x80
u8 /* return the final channel plan decision */
hal_com_get_channel_plan(struct adapter *padapter, u8 hw_channel_plan,
u8 sw_channel_plan, u8 def_channel_plan,
bool load_fail)
#define EEPROM_CHANNEL_PLAN_BY_HW_MASK 0x80
u8 //return the final channel plan decision
hal_com_get_channel_plan(
IN PADAPTER padapter,
IN u8 hw_channel_plan, //channel plan from HW (efuse/eeprom)
IN u8 sw_channel_plan, //channel plan from SW (registry/module param)
IN u8 def_channel_plan, //channel plan used when the former two is invalid
IN BOOLEAN AutoLoadFail
)
{
u8 sw_cfg;
u8 chnlplan;
u8 swConfig;
u8 chnlPlan;
sw_cfg = true;
if (!load_fail) {
swConfig = _TRUE;
if (!AutoLoadFail)
{
if (!rtw_is_channel_plan_valid(sw_channel_plan))
sw_cfg = false;
if (hw_channel_plan & CHAN_PLAN_HW)
sw_cfg = false;
swConfig = _FALSE;
if (hw_channel_plan & EEPROM_CHANNEL_PLAN_BY_HW_MASK)
swConfig = _FALSE;
}
if (sw_cfg)
chnlplan = sw_channel_plan;
if (swConfig == _TRUE)
chnlPlan = sw_channel_plan;
else
chnlplan = hw_channel_plan & (~CHAN_PLAN_HW);
chnlPlan = hw_channel_plan & (~EEPROM_CHANNEL_PLAN_BY_HW_MASK);
if (!rtw_is_channel_plan_valid(chnlplan))
chnlplan = def_channel_plan;
if (!rtw_is_channel_plan_valid(chnlPlan))
chnlPlan = def_channel_plan;
return chnlplan;
return chnlPlan;
}
u8 MRateToHwRate(u8 rate)
{
u8 ret = DESC_RATE1M;
switch (rate) {
/* CCK and OFDM non-HT rates */
case IEEE80211_CCK_RATE_1MB:
ret = DESC_RATE1M;
break;
case IEEE80211_CCK_RATE_2MB:
ret = DESC_RATE2M;
break;
case IEEE80211_CCK_RATE_5MB:
ret = DESC_RATE5_5M;
break;
case IEEE80211_CCK_RATE_11MB:
ret = DESC_RATE11M;
break;
case IEEE80211_OFDM_RATE_6MB:
ret = DESC_RATE6M;
break;
case IEEE80211_OFDM_RATE_9MB:
ret = DESC_RATE9M;
break;
case IEEE80211_OFDM_RATE_12MB:
ret = DESC_RATE12M;
break;
case IEEE80211_OFDM_RATE_18MB:
ret = DESC_RATE18M;
break;
case IEEE80211_OFDM_RATE_24MB:
ret = DESC_RATE24M;
break;
case IEEE80211_OFDM_RATE_36MB:
ret = DESC_RATE36M;
break;
case IEEE80211_OFDM_RATE_48MB:
ret = DESC_RATE48M;
break;
case IEEE80211_OFDM_RATE_54MB:
ret = DESC_RATE54M;
break;
default:
break;
switch(rate)
{
// CCK and OFDM non-HT rates
case IEEE80211_CCK_RATE_1MB: ret = DESC_RATE1M; break;
case IEEE80211_CCK_RATE_2MB: ret = DESC_RATE2M; break;
case IEEE80211_CCK_RATE_5MB: ret = DESC_RATE5_5M; break;
case IEEE80211_CCK_RATE_11MB: ret = DESC_RATE11M; break;
case IEEE80211_OFDM_RATE_6MB: ret = DESC_RATE6M; break;
case IEEE80211_OFDM_RATE_9MB: ret = DESC_RATE9M; break;
case IEEE80211_OFDM_RATE_12MB: ret = DESC_RATE12M; break;
case IEEE80211_OFDM_RATE_18MB: ret = DESC_RATE18M; break;
case IEEE80211_OFDM_RATE_24MB: ret = DESC_RATE24M; break;
case IEEE80211_OFDM_RATE_36MB: ret = DESC_RATE36M; break;
case IEEE80211_OFDM_RATE_48MB: ret = DESC_RATE48M; break;
case IEEE80211_OFDM_RATE_54MB: ret = DESC_RATE54M; break;
// HT rates since here
//case MGN_MCS0: ret = DESC_RATEMCS0; break;
//case MGN_MCS1: ret = DESC_RATEMCS1; break;
//case MGN_MCS2: ret = DESC_RATEMCS2; break;
//case MGN_MCS3: ret = DESC_RATEMCS3; break;
//case MGN_MCS4: ret = DESC_RATEMCS4; break;
//case MGN_MCS5: ret = DESC_RATEMCS5; break;
//case MGN_MCS6: ret = DESC_RATEMCS6; break;
//case MGN_MCS7: ret = DESC_RATEMCS7; break;
default: break;
}
return ret;
}
void HalSetBrateCfg(struct adapter *adapt, u8 *brates, u16 *rate_cfg)
void HalSetBrateCfg(
IN PADAPTER Adapter,
IN u8 *mBratesOS,
OUT u16 *pBrateCfg)
{
u8 i, is_brate, brate;
for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
is_brate = brates[i] & IEEE80211_BASIC_RATE_MASK;
brate = brates[i] & 0x7f;
for(i=0;i<NDIS_802_11_LENGTH_RATES_EX;i++)
{
is_brate = mBratesOS[i] & IEEE80211_BASIC_RATE_MASK;
brate = mBratesOS[i] & 0x7f;
if (is_brate) {
switch (brate) {
case IEEE80211_CCK_RATE_1MB:
*rate_cfg |= RATE_1M;
break;
case IEEE80211_CCK_RATE_2MB:
*rate_cfg |= RATE_2M;
break;
case IEEE80211_CCK_RATE_5MB:
*rate_cfg |= RATE_5_5M;
break;
case IEEE80211_CCK_RATE_11MB:
*rate_cfg |= RATE_11M;
break;
case IEEE80211_OFDM_RATE_6MB:
*rate_cfg |= RATE_6M;
break;
case IEEE80211_OFDM_RATE_9MB:
*rate_cfg |= RATE_9M;
break;
case IEEE80211_OFDM_RATE_12MB:
*rate_cfg |= RATE_12M;
break;
case IEEE80211_OFDM_RATE_18MB:
*rate_cfg |= RATE_18M;
break;
case IEEE80211_OFDM_RATE_24MB:
*rate_cfg |= RATE_24M;
break;
case IEEE80211_OFDM_RATE_36MB:
*rate_cfg |= RATE_36M;
break;
case IEEE80211_OFDM_RATE_48MB:
*rate_cfg |= RATE_48M;
break;
case IEEE80211_OFDM_RATE_54MB:
*rate_cfg |= RATE_54M;
break;
if( is_brate )
{
switch(brate)
{
case IEEE80211_CCK_RATE_1MB: *pBrateCfg |= RATE_1M; break;
case IEEE80211_CCK_RATE_2MB: *pBrateCfg |= RATE_2M; break;
case IEEE80211_CCK_RATE_5MB: *pBrateCfg |= RATE_5_5M;break;
case IEEE80211_CCK_RATE_11MB: *pBrateCfg |= RATE_11M; break;
case IEEE80211_OFDM_RATE_6MB: *pBrateCfg |= RATE_6M; break;
case IEEE80211_OFDM_RATE_9MB: *pBrateCfg |= RATE_9M; break;
case IEEE80211_OFDM_RATE_12MB: *pBrateCfg |= RATE_12M; break;
case IEEE80211_OFDM_RATE_18MB: *pBrateCfg |= RATE_18M; break;
case IEEE80211_OFDM_RATE_24MB: *pBrateCfg |= RATE_24M; break;
case IEEE80211_OFDM_RATE_36MB: *pBrateCfg |= RATE_36M; break;
case IEEE80211_OFDM_RATE_48MB: *pBrateCfg |= RATE_48M; break;
case IEEE80211_OFDM_RATE_54MB: *pBrateCfg |= RATE_54M; break;
}
}
}
}
static void one_out_pipe(struct adapter *adapter)
static VOID
_OneOutPipeMapping(
IN PADAPTER pAdapter
)
{
struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(adapter);
struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(pAdapter);
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[0];/* BE */
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[0];/* BK */
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];//VO
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];//VI
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[0];//BE
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[0];//BK
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];//BCN
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];//MGT
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];//HIGH
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];//TXCMD
}
static void two_out_pipe(struct adapter *adapter, bool wifi_cfg)
static VOID
_TwoOutPipeMapping(
IN PADAPTER pAdapter,
IN BOOLEAN bWIFICfg
)
{
struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(adapter);
struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(pAdapter);
if (wifi_cfg) { /* WMM */
/* BK, BE, VI, VO, BCN, CMD, MGT, HIGH, HCCA */
/* 0, 1, 0, 1, 0, 0, 0, 0, 0}; */
/* 0:H, 1:L */
if(bWIFICfg){ //WMM
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[1];/* VO */
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[1];/* BE */
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[0];/* BK */
// BK, BE, VI, VO, BCN, CMD,MGT,HIGH,HCCA
//{ 0, 1, 0, 1, 0, 0, 0, 0, 0 };
//0:H, 1:L
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[1];//VO
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];//VI
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[1];//BE
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[0];//BK
} else {/* typical setting */
/* BK, BE, VI, VO, BCN, CMD, MGT, HIGH, HCCA */
/* 1, 1, 0, 0, 0, 0, 0, 0, 0}; */
/* 0:H, 1:L */
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];//BCN
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];//MGT
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];//HIGH
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];//TXCMD
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[1];/* BE */
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];/* BK */
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
}
}
else{//typical setting
static void three_out_pipe(struct adapter *adapter, bool wifi_cfg)
{
struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(adapter);
if (wifi_cfg) {/* for WMM */
/* BK, BE, VI, VO, BCN, CMD, MGT, HIGH, HCCA */
/* 1, 2, 1, 0, 0, 0, 0, 0, 0}; */
/* 0:H, 1:N, 2:L */
//BK, BE, VI, VO, BCN, CMD,MGT,HIGH,HCCA
//{ 1, 1, 0, 0, 0, 0, 0, 0, 0 };
//0:H, 1:L
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];/* BK */
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];//VO
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];//VI
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[1];//BE
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];//BK
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];//BCN
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];//MGT
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];//HIGH
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];//TXCMD
} else {/* typical setting */
/* BK, BE, VI, VO, BCN, CMD, MGT, HIGH, HCCA */
/* 2, 2, 1, 0, 0, 0, 0, 0, 0}; */
/* 0:H, 1:N, 2:L */
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[2];/* BK */
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
}
}
bool Hal_MappingOutPipe(struct adapter *adapter, u8 numoutpipe)
static VOID _ThreeOutPipeMapping(
IN PADAPTER pAdapter,
IN BOOLEAN bWIFICfg
)
{
struct registry_priv *pregistrypriv = &adapter->registrypriv;
bool wifi_cfg = (pregistrypriv->wifi_spec) ? true : false;
bool result = true;
struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(pAdapter);
switch (numoutpipe) {
if(bWIFICfg){//for WMM
// BK, BE, VI, VO, BCN, CMD,MGT,HIGH,HCCA
//{ 1, 2, 1, 0, 0, 0, 0, 0, 0 };
//0:H, 1:N, 2:L
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];//VO
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];//VI
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];//BE
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];//BK
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];//BCN
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];//MGT
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];//HIGH
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];//TXCMD
}
else{//typical setting
// BK, BE, VI, VO, BCN, CMD,MGT,HIGH,HCCA
//{ 2, 2, 1, 0, 0, 0, 0, 0, 0 };
//0:H, 1:N, 2:L
pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];//VO
pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];//VI
pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];//BE
pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[2];//BK
pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];//BCN
pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];//MGT
pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];//HIGH
pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];//TXCMD
}
}
BOOLEAN
Hal_MappingOutPipe(
IN PADAPTER pAdapter,
IN u8 NumOutPipe
)
{
struct registry_priv *pregistrypriv = &pAdapter->registrypriv;
BOOLEAN bWIFICfg = (pregistrypriv->wifi_spec) ?_TRUE:_FALSE;
BOOLEAN result = _TRUE;
switch(NumOutPipe)
{
case 2:
two_out_pipe(adapter, wifi_cfg);
_TwoOutPipeMapping(pAdapter, bWIFICfg);
break;
case 3:
three_out_pipe(adapter, wifi_cfg);
_ThreeOutPipeMapping(pAdapter, bWIFICfg);
break;
case 1:
one_out_pipe(adapter);
_OneOutPipeMapping(pAdapter);
break;
default:
result = false;
result = _FALSE;
break;
}
return result;
}
void hal_init_macaddr(struct adapter *adapter)
void hal_init_macaddr(_adapter *adapter)
{
rtw_hal_set_hwreg(adapter, HW_VAR_MAC_ADDR,
adapter->eeprompriv.mac_addr);
rtw_hal_set_hwreg(adapter, HW_VAR_MAC_ADDR, adapter->eeprompriv.mac_addr);
#ifdef CONFIG_CONCURRENT_MODE
if (adapter->pbuddy_adapter)
rtw_hal_set_hwreg(adapter->pbuddy_adapter, HW_VAR_MAC_ADDR, adapter->pbuddy_adapter->eeprompriv.mac_addr);
#endif
}
/*
@ -326,12 +339,12 @@ void hal_init_macaddr(struct adapter *adapter)
* BITS [127:120] [119:16] [15:8] [7:4] [3:0]
*/
void c2h_evt_clear(struct adapter *adapter)
void c2h_evt_clear(_adapter *adapter)
{
rtw_write8(adapter, REG_C2HEVT_CLEAR, C2H_EVT_HOST_CLOSE);
}
s32 c2h_evt_read(struct adapter *adapter, u8 *buf)
s32 c2h_evt_read(_adapter *adapter, u8 *buf)
{
s32 ret = _FAIL;
struct c2h_evt_hdr *c2h_evt;
@ -343,10 +356,11 @@ s32 c2h_evt_read(struct adapter *adapter, u8 *buf)
trigger = rtw_read8(adapter, REG_C2HEVT_CLEAR);
if (trigger == C2H_EVT_HOST_CLOSE)
if (trigger == C2H_EVT_HOST_CLOSE) {
goto exit; /* Not ready */
else if (trigger != C2H_EVT_FW_CLOSE)
} else if (trigger != C2H_EVT_FW_CLOSE) {
goto clear_evt; /* Not a valid value */
}
c2h_evt = (struct c2h_evt_hdr *)buf;
@ -358,13 +372,16 @@ s32 c2h_evt_read(struct adapter *adapter, u8 *buf)
RT_PRINT_DATA(_module_hal_init_c_, _drv_info_, "c2h_evt_read(): ",
&c2h_evt , sizeof(c2h_evt));
if (0) {
DBG_871X("%s id:%u, len:%u, seq:%u, trigger:0x%02x\n", __func__
, c2h_evt->id, c2h_evt->plen, c2h_evt->seq, trigger);
}
/* Read the content */
for (i = 0; i < c2h_evt->plen; i++)
c2h_evt->payload[i] = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL +
sizeof(*c2h_evt) + i);
c2h_evt->payload[i] = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + sizeof(*c2h_evt) + i);
RT_PRINT_DATA(_module_hal_init_c_, _drv_info_,
"c2h_evt_read(): Command Content:\n",
RT_PRINT_DATA(_module_hal_init_c_, _drv_info_, "c2h_evt_read(): Command Content:\n",
c2h_evt->payload, c2h_evt->plen);
ret = _SUCCESS;
@ -372,10 +389,65 @@ s32 c2h_evt_read(struct adapter *adapter, u8 *buf)
clear_evt:
/*
* Clear event to notify FW we have read the command.
* If this field isn't clear, the FW won't update the next
* command message.
* If this field isn't clear, the FW won't update the next command message.
*/
c2h_evt_clear(adapter);
exit:
return ret;
}
u8
SetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
PDM_ODM_T pDM_Odm = &(pHalData->odmpriv);
u8 bResult = _SUCCESS;
switch(variable) {
case HW_DEF_FA_CNT_DUMP:
if(*((u8*)value))
pDM_Odm->DebugComponents |= (ODM_COMP_DIG |ODM_COMP_FA_CNT);
else
pDM_Odm->DebugComponents &= ~(ODM_COMP_DIG |ODM_COMP_FA_CNT);
break;
case HW_DEF_ODM_DBG_FLAG:
ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_DBG_COMP, *((u8Byte*)value));
break;
case HW_DEF_ODM_DBG_LEVEL:
ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_DBG_LEVEL, *((u4Byte*)value));
break;
default:
DBG_871X_LEVEL(_drv_always_, "%s: [WARNING] HAL_DEF_VARIABLE(%d) not defined!\n", __FUNCTION__, variable);
bResult = _FAIL;
break;
}
return bResult;
}
u8
GetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
PDM_ODM_T pDM_Odm = &(pHalData->odmpriv);
u8 bResult = _SUCCESS;
switch(variable) {
case HW_DEF_ODM_DBG_FLAG:
*((u8Byte*)value) = pDM_Odm->DebugComponents;
break;
case HW_DEF_ODM_DBG_LEVEL:
*((u4Byte*)value) = pDM_Odm->DebugLevel;
break;
case HAL_DEF_DBG_DM_FUNC:
*((u32*)value) = pHalData->odmpriv.SupportAbility;
break;
default:
DBG_871X_LEVEL(_drv_always_, "%s: [WARNING] HAL_DEF_VARIABLE(%d) not defined!\n", __FUNCTION__, variable);
bResult = _FAIL;
break;
}
return bResult;
}

653
hal/hal_intf.c Normal file → Executable file
View file

@ -19,450 +19,573 @@
******************************************************************************/
#define _HAL_INTF_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtw_byteorder.h>
#include <hal_intf.h>
#include <usb_hal.h>
void rtw_hal_chip_configure(struct adapter *adapt)
#ifdef CONFIG_SDIO_HCI
#include <sdio_hal.h>
#elif defined(CONFIG_USB_HCI)
#include <usb_hal.h>
#elif defined(CONFIG_GSPI_HCI)
#include <gspi_hal.h>
#endif
void rtw_hal_chip_configure(_adapter *padapter)
{
if (adapt->HalFunc.intf_chip_configure)
adapt->HalFunc.intf_chip_configure(adapt);
if(padapter->HalFunc.intf_chip_configure)
padapter->HalFunc.intf_chip_configure(padapter);
}
void rtw_hal_read_chip_info(struct adapter *adapt)
void rtw_hal_read_chip_info(_adapter *padapter)
{
if (adapt->HalFunc.read_adapter_info)
adapt->HalFunc.read_adapter_info(adapt);
if(padapter->HalFunc.read_adapter_info)
padapter->HalFunc.read_adapter_info(padapter);
}
void rtw_hal_read_chip_version(struct adapter *adapt)
void rtw_hal_read_chip_version(_adapter *padapter)
{
if (adapt->HalFunc.read_chip_version)
adapt->HalFunc.read_chip_version(adapt);
if(padapter->HalFunc.read_chip_version)
padapter->HalFunc.read_chip_version(padapter);
}
void rtw_hal_def_value_init(struct adapter *adapt)
void rtw_hal_def_value_init(_adapter *padapter)
{
if (adapt->HalFunc.init_default_value)
adapt->HalFunc.init_default_value(adapt);
if (is_primary_adapter(padapter))
if(padapter->HalFunc.init_default_value)
padapter->HalFunc.init_default_value(padapter);
}
void rtw_hal_free_data(_adapter *padapter)
{
if (is_primary_adapter(padapter))
if(padapter->HalFunc.free_hal_data)
padapter->HalFunc.free_hal_data(padapter);
}
void rtw_hal_dm_init(_adapter *padapter)
{
if (is_primary_adapter(padapter))
if(padapter->HalFunc.dm_init)
padapter->HalFunc.dm_init(padapter);
}
void rtw_hal_dm_deinit(_adapter *padapter)
{
// cancel dm timer
if (is_primary_adapter(padapter))
if(padapter->HalFunc.dm_deinit)
padapter->HalFunc.dm_deinit(padapter);
}
void rtw_hal_sw_led_init(_adapter *padapter)
{
if(padapter->HalFunc.InitSwLeds)
padapter->HalFunc.InitSwLeds(padapter);
}
void rtw_hal_free_data(struct adapter *adapt)
void rtw_hal_sw_led_deinit(_adapter *padapter)
{
if (adapt->HalFunc.free_hal_data)
adapt->HalFunc.free_hal_data(adapt);
if(padapter->HalFunc.DeInitSwLeds)
padapter->HalFunc.DeInitSwLeds(padapter);
}
void rtw_hal_dm_init(struct adapter *adapt)
u32 rtw_hal_power_on(_adapter *padapter)
{
if (adapt->HalFunc.dm_init)
adapt->HalFunc.dm_init(adapt);
}
void rtw_hal_dm_deinit(struct adapter *adapt)
{
/* cancel dm timer */
if (adapt->HalFunc.dm_deinit)
adapt->HalFunc.dm_deinit(adapt);
}
void rtw_hal_sw_led_init(struct adapter *adapt)
{
if (adapt->HalFunc.InitSwLeds)
adapt->HalFunc.InitSwLeds(adapt);
}
void rtw_hal_sw_led_deinit(struct adapter *adapt)
{
if (adapt->HalFunc.DeInitSwLeds)
adapt->HalFunc.DeInitSwLeds(adapt);
}
u32 rtw_hal_power_on(struct adapter *adapt)
{
if (adapt->HalFunc.hal_power_on)
return adapt->HalFunc.hal_power_on(adapt);
if(padapter->HalFunc.hal_power_on)
return padapter->HalFunc.hal_power_on(padapter);
return _FAIL;
}
void rtw_hal_power_off(_adapter *padapter)
{
if(padapter->HalFunc.hal_power_off)
padapter->HalFunc.hal_power_off(padapter);
}
uint rtw_hal_init(struct adapter *adapt)
uint rtw_hal_init(_adapter *padapter)
{
uint status = _SUCCESS;
struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
int i;
adapt->hw_init_completed = false;
status = adapt->HalFunc.hal_init(adapt);
if (status == _SUCCESS) {
adapt->hw_init_completed = true;
if (adapt->registrypriv.notch_filter == 1)
rtw_hal_notch_filter(adapt, 1);
rtw_hal_reset_security_engine(adapt);
} else {
adapt->hw_init_completed = false;
DBG_88E("rtw_hal_init: hal__init fail\n");
#ifdef CONFIG_DUALMAC_CONCURRENT
if(padapter->hw_init_completed == _TRUE)
{
DBG_871X("rtw_hal_init: hw_init_completed == _TRUE\n");
return status;
}
RT_TRACE(_module_hal_init_c_, _drv_err_,
("-rtl871x_hal_init:status=0x%x\n", status));
// before init mac0, driver must init mac1 first to avoid usb rx error.
if((padapter->pbuddy_adapter != NULL) && (padapter->DualMacConcurrent == _TRUE)
&& (padapter->adapter_type == PRIMARY_ADAPTER))
{
if(padapter->pbuddy_adapter->hw_init_completed == _TRUE)
{
DBG_871X("rtw_hal_init: pbuddy_adapter hw_init_completed == _TRUE\n");
}
else
{
status = padapter->HalFunc.hal_init(padapter->pbuddy_adapter);
if(status == _SUCCESS){
padapter->pbuddy_adapter->hw_init_completed = _TRUE;
}
else{
padapter->pbuddy_adapter->hw_init_completed = _FALSE;
RT_TRACE(_module_hal_init_c_,_drv_err_,("rtw_hal_init: hal__init fail(pbuddy_adapter)\n"));
DBG_871X("rtw_hal_init: hal__init fail(pbuddy_adapter)\n");
return status;
}
}
}
#endif
status = padapter->HalFunc.hal_init(padapter);
if(status == _SUCCESS){
for (i = 0; i<dvobj->iface_nums; i++) {
padapter = dvobj->padapters[i];
padapter->hw_init_completed = _TRUE;
}
if (padapter->registrypriv.notch_filter == 1)
rtw_hal_notch_filter(padapter, 1);
rtw_hal_reset_security_engine(padapter);
rtw_sec_restore_wep_key(padapter);
init_hw_mlme_ext(padapter);
}
else{
for (i = 0; i<dvobj->iface_nums; i++) {
padapter = dvobj->padapters[i];
padapter->hw_init_completed = _FALSE;
}
DBG_871X("rtw_hal_init: hal__init fail\n");
}
RT_TRACE(_module_hal_init_c_,_drv_err_,("-rtl871x_hal_init:status=0x%x\n",status));
return status;
}
uint rtw_hal_deinit(struct adapter *adapt)
uint rtw_hal_deinit(_adapter *padapter)
{
uint status = _SUCCESS;
struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
int i;
status = adapt->HalFunc.hal_deinit(adapt);
_func_enter_;
if (!is_primary_adapter(padapter)){
DBG_871X(" rtw_hal_deinit: Secondary adapter return l\n");
return status;
}
if (status == _SUCCESS)
adapt->hw_init_completed = false;
status = padapter->HalFunc.hal_deinit(padapter);
if(status == _SUCCESS){
for (i = 0; i<dvobj->iface_nums; i++) {
padapter = dvobj->padapters[i];
padapter->hw_init_completed = _FALSE;
}
}
else
DBG_88E("\n rtw_hal_deinit: hal_init fail\n");
{
DBG_871X("\n rtw_hal_deinit: hal_init fail\n");
}
_func_exit_;
return status;
}
void rtw_hal_set_hwreg(struct adapter *adapt, u8 variable, u8 *val)
void rtw_hal_set_hwreg(_adapter *padapter, u8 variable, u8 *val)
{
if (adapt->HalFunc.SetHwRegHandler)
adapt->HalFunc.SetHwRegHandler(adapt, variable, val);
if (padapter->HalFunc.SetHwRegHandler)
padapter->HalFunc.SetHwRegHandler(padapter, variable, val);
}
void rtw_hal_get_hwreg(struct adapter *adapt, u8 variable, u8 *val)
void rtw_hal_get_hwreg(_adapter *padapter, u8 variable, u8 *val)
{
if (adapt->HalFunc.GetHwRegHandler)
adapt->HalFunc.GetHwRegHandler(adapt, variable, val);
if (padapter->HalFunc.GetHwRegHandler)
padapter->HalFunc.GetHwRegHandler(padapter, variable, val);
}
u8 rtw_hal_set_def_var(struct adapter *adapt, enum hal_def_variable var,
void *val)
u8 rtw_hal_set_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue)
{
if (adapt->HalFunc.SetHalDefVarHandler)
return adapt->HalFunc.SetHalDefVarHandler(adapt, var, val);
if(padapter->HalFunc.SetHalDefVarHandler)
return padapter->HalFunc.SetHalDefVarHandler(padapter,eVariable,pValue);
return _FAIL;
}
u8 rtw_hal_get_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue)
{
if(padapter->HalFunc.GetHalDefVarHandler)
return padapter->HalFunc.GetHalDefVarHandler(padapter,eVariable,pValue);
return _FAIL;
}
u8 rtw_hal_get_def_var(struct adapter *adapt,
enum hal_def_variable var, void *val)
void rtw_hal_set_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1,BOOLEAN bSet)
{
if (adapt->HalFunc.GetHalDefVarHandler)
return adapt->HalFunc.GetHalDefVarHandler(adapt, var, val);
return _FAIL;
if(padapter->HalFunc.SetHalODMVarHandler)
padapter->HalFunc.SetHalODMVarHandler(padapter,eVariable,pValue1,bSet);
}
void rtw_hal_get_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1,BOOLEAN bSet)
{
if(padapter->HalFunc.GetHalODMVarHandler)
padapter->HalFunc.GetHalODMVarHandler(padapter,eVariable,pValue1,bSet);
}
void rtw_hal_set_odm_var(struct adapter *adapt,
enum hal_odm_variable var, void *val1,
bool set)
void rtw_hal_enable_interrupt(_adapter *padapter)
{
if (adapt->HalFunc.SetHalODMVarHandler)
adapt->HalFunc.SetHalODMVarHandler(adapt, var,
val1, set);
}
if (!is_primary_adapter(padapter)){
DBG_871X(" rtw_hal_enable_interrupt: Secondary adapter return l\n");
return;
}
void rtw_hal_get_odm_var(struct adapter *adapt,
enum hal_odm_variable var, void *val1,
bool set)
{
if (adapt->HalFunc.GetHalODMVarHandler)
adapt->HalFunc.GetHalODMVarHandler(adapt, var,
val1, set);
}
void rtw_hal_enable_interrupt(struct adapter *adapt)
{
if (adapt->HalFunc.enable_interrupt)
adapt->HalFunc.enable_interrupt(adapt);
if (padapter->HalFunc.enable_interrupt)
padapter->HalFunc.enable_interrupt(padapter);
else
DBG_88E("%s: HalFunc.enable_interrupt is NULL!\n", __func__);
}
DBG_871X("%s: HalFunc.enable_interrupt is NULL!\n", __FUNCTION__);
void rtw_hal_disable_interrupt(struct adapter *adapt)
}
void rtw_hal_disable_interrupt(_adapter *padapter)
{
if (adapt->HalFunc.disable_interrupt)
adapt->HalFunc.disable_interrupt(adapt);
if (!is_primary_adapter(padapter)){
DBG_871X(" rtw_hal_disable_interrupt: Secondary adapter return l\n");
return;
}
if (padapter->HalFunc.disable_interrupt)
padapter->HalFunc.disable_interrupt(padapter);
else
DBG_88E("%s: HalFunc.disable_interrupt is NULL!\n", __func__);
DBG_871X("%s: HalFunc.disable_interrupt is NULL!\n", __FUNCTION__);
}
u32 rtw_hal_inirp_init(struct adapter *adapt)
u32 rtw_hal_inirp_init(_adapter *padapter)
{
u32 rst = _FAIL;
if (adapt->HalFunc.inirp_init)
rst = adapt->HalFunc.inirp_init(adapt);
if(padapter->HalFunc.inirp_init)
rst = padapter->HalFunc.inirp_init(padapter);
else
DBG_88E(" %s HalFunc.inirp_init is NULL!!!\n", __func__);
DBG_871X(" %s HalFunc.inirp_init is NULL!!!\n",__FUNCTION__);
return rst;
}
u32 rtw_hal_inirp_deinit(struct adapter *adapt)
u32 rtw_hal_inirp_deinit(_adapter *padapter)
{
if (adapt->HalFunc.inirp_deinit)
return adapt->HalFunc.inirp_deinit(adapt);
if(padapter->HalFunc.inirp_deinit)
return padapter->HalFunc.inirp_deinit(padapter);
return _FAIL;
}
u8 rtw_hal_intf_ps_func(_adapter *padapter,HAL_INTF_PS_FUNC efunc_id, u8* val)
{
if(padapter->HalFunc.interface_ps_func)
return padapter->HalFunc.interface_ps_func(padapter,efunc_id,val);
return _FAIL;
}
u8 rtw_hal_intf_ps_func(struct adapter *adapt,
enum hal_intf_ps_func efunc_id, u8 *val)
{
if (adapt->HalFunc.interface_ps_func)
return adapt->HalFunc.interface_ps_func(adapt, efunc_id,
val);
return _FAIL;
}
s32 rtw_hal_xmitframe_enqueue(struct adapter *padapter,
struct xmit_frame *pxmitframe)
s32 rtw_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
{
if(padapter->HalFunc.hal_xmitframe_enqueue)
return padapter->HalFunc.hal_xmitframe_enqueue(padapter, pxmitframe);
return false;
return _FALSE;
}
s32 rtw_hal_xmit(struct adapter *adapt, struct xmit_frame *pxmitframe)
s32 rtw_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe)
{
if (adapt->HalFunc.hal_xmit)
return adapt->HalFunc.hal_xmit(adapt, pxmitframe);
if(padapter->HalFunc.hal_xmit)
return padapter->HalFunc.hal_xmit(padapter, pxmitframe);
return false;
return _FALSE;
}
s32 rtw_hal_mgnt_xmit(struct adapter *adapt, struct xmit_frame *pmgntframe)
s32 rtw_hal_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe)
{
s32 ret = _FAIL;
if (adapt->HalFunc.mgnt_xmit)
ret = adapt->HalFunc.mgnt_xmit(adapt, pmgntframe);
unsigned char *pframe;
struct rtw_ieee80211_hdr *pwlanhdr;
pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
_rtw_memcpy(pmgntframe->attrib.ra, pwlanhdr->addr1, ETH_ALEN);
#ifdef CONFIG_IEEE80211W
if(padapter->securitypriv.binstallBIPkey == _TRUE)
{
if(IS_MCAST(pmgntframe->attrib.ra))
{
pmgntframe->attrib.encrypt = _BIP_;
//pmgntframe->attrib.bswenc = _TRUE;
}
else
{
pmgntframe->attrib.encrypt = _AES_;
pmgntframe->attrib.bswenc = _TRUE;
}
rtw_mgmt_xmitframe_coalesce(padapter, pmgntframe->pkt, pmgntframe);
}
#endif //CONFIG_IEEE80211W
if(padapter->HalFunc.mgnt_xmit)
ret = padapter->HalFunc.mgnt_xmit(padapter, pmgntframe);
return ret;
}
s32 rtw_hal_init_xmit_priv(struct adapter *adapt)
s32 rtw_hal_init_xmit_priv(_adapter *padapter)
{
if (adapt->HalFunc.init_xmit_priv != NULL)
return adapt->HalFunc.init_xmit_priv(adapt);
if(padapter->HalFunc.init_xmit_priv != NULL)
return padapter->HalFunc.init_xmit_priv(padapter);
return _FAIL;
}
void rtw_hal_free_xmit_priv(struct adapter *adapt)
void rtw_hal_free_xmit_priv(_adapter *padapter)
{
if (adapt->HalFunc.free_xmit_priv != NULL)
adapt->HalFunc.free_xmit_priv(adapt);
if(padapter->HalFunc.free_xmit_priv != NULL)
padapter->HalFunc.free_xmit_priv(padapter);
}
s32 rtw_hal_init_recv_priv(struct adapter *adapt)
s32 rtw_hal_init_recv_priv(_adapter *padapter)
{
if (adapt->HalFunc.init_recv_priv)
return adapt->HalFunc.init_recv_priv(adapt);
if(padapter->HalFunc.init_recv_priv)
return padapter->HalFunc.init_recv_priv(padapter);
return _FAIL;
}
void rtw_hal_free_recv_priv(struct adapter *adapt)
void rtw_hal_free_recv_priv(_adapter *padapter)
{
if (adapt->HalFunc.free_recv_priv)
adapt->HalFunc.free_recv_priv(adapt);
if(padapter->HalFunc.free_recv_priv)
padapter->HalFunc.free_recv_priv(padapter);
}
void rtw_hal_update_ra_mask(struct adapter *adapt, u32 mac_id, u8 rssi_level)
void rtw_hal_update_ra_mask(struct sta_info *psta, u8 rssi_level)
{
struct mlme_priv *pmlmepriv = &(adapt->mlmepriv);
_adapter *padapter;
struct mlme_priv *pmlmepriv;
if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == true) {
#ifdef CONFIG_88EU_AP_MODE
struct sta_info *psta = NULL;
struct sta_priv *pstapriv = &adapt->stapriv;
if ((mac_id-1) > 0)
psta = pstapriv->sta_aid[(mac_id-1) - 1];
if (psta)
add_RATid(adapt, psta, 0);/* todo: based on rssi_level*/
#endif
} else {
if (adapt->HalFunc.UpdateRAMaskHandler)
adapt->HalFunc.UpdateRAMaskHandler(adapt, mac_id,
rssi_level);
if(!psta)
return;
padapter = psta->padapter;
pmlmepriv = &(padapter->mlmepriv);
if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
{
add_RATid(padapter, psta, rssi_level);
}
else
{
if(padapter->HalFunc.UpdateRAMaskHandler)
padapter->HalFunc.UpdateRAMaskHandler(padapter, psta->mac_id, rssi_level);
}
}
void rtw_hal_add_ra_tid(struct adapter *adapt, u32 bitmap, u8 arg,
u8 rssi_level)
void rtw_hal_add_ra_tid(_adapter *padapter, u32 bitmap, u8 arg, u8 rssi_level)
{
if (adapt->HalFunc.Add_RateATid)
adapt->HalFunc.Add_RateATid(adapt, bitmap, arg,
rssi_level);
if(padapter->HalFunc.Add_RateATid)
padapter->HalFunc.Add_RateATid(padapter, bitmap, arg, rssi_level);
}
/* Start specifical interface thread */
void rtw_hal_start_thread(struct adapter *adapt)
void rtw_hal_start_thread(_adapter *padapter)
{
if (adapt->HalFunc.run_thread)
adapt->HalFunc.run_thread(adapt);
if(padapter->HalFunc.run_thread)
padapter->HalFunc.run_thread(padapter);
}
/* Start specifical interface thread */
void rtw_hal_stop_thread(struct adapter *adapt)
void rtw_hal_stop_thread(_adapter *padapter)
{
if (adapt->HalFunc.cancel_thread)
adapt->HalFunc.cancel_thread(adapt);
if(padapter->HalFunc.cancel_thread)
padapter->HalFunc.cancel_thread(padapter);
}
u32 rtw_hal_read_bbreg(struct adapter *adapt, u32 regaddr, u32 bitmask)
u32 rtw_hal_read_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask)
{
u32 data = 0;
if (adapt->HalFunc.read_bbreg)
data = adapt->HalFunc.read_bbreg(adapt, regaddr, bitmask);
if(padapter->HalFunc.read_bbreg)
data = padapter->HalFunc.read_bbreg(padapter, RegAddr, BitMask);
return data;
}
void rtw_hal_write_bbreg(struct adapter *adapt, u32 regaddr, u32 bitmask,
u32 data)
void rtw_hal_write_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data)
{
if (adapt->HalFunc.write_bbreg)
adapt->HalFunc.write_bbreg(adapt, regaddr, bitmask, data);
if(padapter->HalFunc.write_bbreg)
padapter->HalFunc.write_bbreg(padapter, RegAddr, BitMask, Data);
}
u32 rtw_hal_read_rfreg(struct adapter *adapt, enum rf_radio_path rfpath,
u32 regaddr, u32 bitmask)
u32 rtw_hal_read_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask)
{
u32 data = 0;
if (adapt->HalFunc.read_rfreg)
data = adapt->HalFunc.read_rfreg(adapt, rfpath, regaddr,
bitmask);
if( padapter->HalFunc.read_rfreg)
data = padapter->HalFunc.read_rfreg(padapter, eRFPath, RegAddr, BitMask);
return data;
}
void rtw_hal_write_rfreg(struct adapter *adapt, enum rf_radio_path rfpath,
u32 regaddr, u32 bitmask, u32 data)
void rtw_hal_write_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask, u32 Data)
{
if (adapt->HalFunc.write_rfreg)
adapt->HalFunc.write_rfreg(adapt, rfpath, regaddr,
bitmask, data);
if(padapter->HalFunc.write_rfreg)
padapter->HalFunc.write_rfreg(padapter, eRFPath, RegAddr, BitMask, Data);
}
s32 rtw_hal_interrupt_handler(struct adapter *adapt)
s32 rtw_hal_interrupt_handler(_adapter *padapter)
{
if (adapt->HalFunc.interrupt_handler)
return adapt->HalFunc.interrupt_handler(adapt);
if(padapter->HalFunc.interrupt_handler)
return padapter->HalFunc.interrupt_handler(padapter);
return _FAIL;
}
void rtw_hal_set_bwmode(struct adapter *adapt,
enum ht_channel_width bandwidth, u8 offset)
void rtw_hal_set_bwmode(_adapter *padapter, HT_CHANNEL_WIDTH Bandwidth, u8 Offset)
{
if (adapt->HalFunc.set_bwmode_handler)
adapt->HalFunc.set_bwmode_handler(adapt, bandwidth,
offset);
if(padapter->HalFunc.set_bwmode_handler)
padapter->HalFunc.set_bwmode_handler(padapter, Bandwidth, Offset);
}
void rtw_hal_set_chan(struct adapter *adapt, u8 channel)
void rtw_hal_set_chan(_adapter *padapter, u8 channel)
{
if (adapt->HalFunc.set_channel_handler)
adapt->HalFunc.set_channel_handler(adapt, channel);
if(padapter->HalFunc.set_channel_handler)
padapter->HalFunc.set_channel_handler(padapter, channel);
}
void rtw_hal_dm_watchdog(struct adapter *adapt)
void rtw_hal_dm_watchdog(_adapter *padapter)
{
if (adapt->HalFunc.hal_dm_watchdog)
adapt->HalFunc.hal_dm_watchdog(adapt);
#if defined(CONFIG_CONCURRENT_MODE)
if (padapter->adapter_type != PRIMARY_ADAPTER)
return;
#endif
if(padapter->HalFunc.hal_dm_watchdog)
padapter->HalFunc.hal_dm_watchdog(padapter);
}
void rtw_hal_bcn_related_reg_setting(struct adapter *adapt)
void rtw_hal_bcn_related_reg_setting(_adapter *padapter)
{
if (adapt->HalFunc.SetBeaconRelatedRegistersHandler)
adapt->HalFunc.SetBeaconRelatedRegistersHandler(adapt);
if(padapter->HalFunc.SetBeaconRelatedRegistersHandler)
padapter->HalFunc.SetBeaconRelatedRegistersHandler(padapter);
}
u8 rtw_hal_antdiv_before_linked(struct adapter *adapt)
#ifdef CONFIG_ANTENNA_DIVERSITY
u8 rtw_hal_antdiv_before_linked(_adapter *padapter)
{
if (adapt->HalFunc.AntDivBeforeLinkHandler)
return adapt->HalFunc.AntDivBeforeLinkHandler(adapt);
return false;
if(padapter->HalFunc.AntDivBeforeLinkHandler)
return padapter->HalFunc.AntDivBeforeLinkHandler(padapter);
return _FALSE;
}
void rtw_hal_antdiv_rssi_compared(_adapter *padapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src)
{
if(padapter->HalFunc.AntDivCompareHandler)
padapter->HalFunc.AntDivCompareHandler(padapter, dst, src);
}
#endif
#ifdef CONFIG_HOSTAPD_MLME
s32 rtw_hal_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt)
{
if(padapter->HalFunc.hostap_mgnt_xmit_entry)
return padapter->HalFunc.hostap_mgnt_xmit_entry(padapter, pkt);
return _FAIL;
}
#endif //CONFIG_HOSTAPD_MLME
#ifdef DBG_CONFIG_ERROR_DETECT
void rtw_hal_sreset_init(_adapter *padapter)
{
if(padapter->HalFunc.sreset_init_value)
padapter->HalFunc.sreset_init_value(padapter);
}
void rtw_hal_sreset_reset(_adapter *padapter)
{
padapter = GET_PRIMARY_ADAPTER(padapter);
if(padapter->HalFunc.silentreset)
padapter->HalFunc.silentreset(padapter);
}
void rtw_hal_antdiv_rssi_compared(struct adapter *adapt,
struct wlan_bssid_ex *dst,
struct wlan_bssid_ex *src)
void rtw_hal_sreset_reset_value(_adapter *padapter)
{
if (adapt->HalFunc.AntDivCompareHandler)
adapt->HalFunc.AntDivCompareHandler(adapt, dst, src);
if(padapter->HalFunc.sreset_reset_value)
padapter->HalFunc.sreset_reset_value(padapter);
}
void rtw_hal_sreset_init(struct adapter *adapt)
void rtw_hal_sreset_xmit_status_check(_adapter *padapter)
{
if (adapt->HalFunc.sreset_init_value)
adapt->HalFunc.sreset_init_value(adapt);
}
if (!is_primary_adapter(padapter))
return;
void rtw_hal_sreset_reset(struct adapter *adapt)
if(padapter->HalFunc.sreset_xmit_status_check)
padapter->HalFunc.sreset_xmit_status_check(padapter);
}
void rtw_hal_sreset_linked_status_check(_adapter *padapter)
{
if (adapt->HalFunc.silentreset)
adapt->HalFunc.silentreset(adapt);
}
if (!is_primary_adapter(padapter))
return;
void rtw_hal_sreset_reset_value(struct adapter *adapt)
{
if (adapt->HalFunc.sreset_reset_value)
adapt->HalFunc.sreset_reset_value(adapt);
if(padapter->HalFunc.sreset_linked_status_check)
padapter->HalFunc.sreset_linked_status_check(padapter);
}
void rtw_hal_sreset_xmit_status_check(struct adapter *adapt)
{
if (adapt->HalFunc.sreset_xmit_status_check)
adapt->HalFunc.sreset_xmit_status_check(adapt);
}
void rtw_hal_sreset_linked_status_check(struct adapter *adapt)
{
if (adapt->HalFunc.sreset_linked_status_check)
adapt->HalFunc.sreset_linked_status_check(adapt);
}
u8 rtw_hal_sreset_get_wifi_status(struct adapter *adapt)
u8 rtw_hal_sreset_get_wifi_status(_adapter *padapter)
{
u8 status = 0;
if (adapt->HalFunc.sreset_get_wifi_status)
status = adapt->HalFunc.sreset_get_wifi_status(adapt);
if(padapter->HalFunc.sreset_get_wifi_status)
status = padapter->HalFunc.sreset_get_wifi_status(padapter);
return status;
}
int rtw_hal_iol_cmd(struct adapter *adapter, struct xmit_frame *xmit_frame,
u32 max_wating_ms, u32 bndy_cnt)
bool rtw_hal_sreset_inprogress(_adapter *padapter)
{
if (adapter->HalFunc.IOL_exec_cmds_sync)
return adapter->HalFunc.IOL_exec_cmds_sync(adapter, xmit_frame,
max_wating_ms,
bndy_cnt);
bool inprogress = _FALSE;
padapter = GET_PRIMARY_ADAPTER(padapter);
if(padapter->HalFunc.sreset_inprogress)
inprogress = padapter->HalFunc.sreset_inprogress(padapter);
return inprogress;
}
#endif //DBG_CONFIG_ERROR_DETECT
#ifdef CONFIG_IOL
int rtw_hal_iol_cmd(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt)
{
if(adapter->HalFunc.IOL_exec_cmds_sync)
return adapter->HalFunc.IOL_exec_cmds_sync(adapter, xmit_frame, max_wating_ms,bndy_cnt);
return _FAIL;
}
#endif
void rtw_hal_notch_filter(struct adapter *adapter, bool enable)
#ifdef CONFIG_XMIT_THREAD_MODE
s32 rtw_hal_xmit_thread_handler(_adapter *padapter)
{
if (adapter->HalFunc.hal_notch_filter)
adapter->HalFunc.hal_notch_filter(adapter, enable);
if(padapter->HalFunc.xmit_thread_handler)
return padapter->HalFunc.xmit_thread_handler(padapter);
return _FAIL;
}
#endif
void rtw_hal_notch_filter(_adapter *adapter, bool enable)
{
if(adapter->HalFunc.hal_notch_filter)
adapter->HalFunc.hal_notch_filter(adapter,enable);
}
void rtw_hal_reset_security_engine(struct adapter *adapter)
void rtw_hal_reset_security_engine(_adapter * adapter)
{
if (adapter->HalFunc.hal_reset_security_engine)
if(adapter->HalFunc.hal_reset_security_engine)
adapter->HalFunc.hal_reset_security_engine(adapter);
}
s32 rtw_hal_c2h_handler(struct adapter *adapter, struct c2h_evt_hdr *c2h_evt)
s32 rtw_hal_c2h_handler(_adapter *adapter, struct c2h_evt_hdr *c2h_evt)
{
s32 ret = _FAIL;
if (adapter->HalFunc.c2h_handler)
ret = adapter->HalFunc.c2h_handler(adapter, c2h_evt);
return ret;
}
c2h_id_filter rtw_hal_c2h_id_filter_ccx(struct adapter *adapter)
c2h_id_filter rtw_hal_c2h_id_filter_ccx(_adapter *adapter)
{
return adapter->HalFunc.c2h_id_filter_ccx;
}

97
hal/rtl8188e/Hal8188EPwrSeq.c Executable file
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@ -0,0 +1,97 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#include "Hal8188EPwrSeq.h"
#include <rtl8188e_hal.h>
/*
drivers should parse below arrays and do the corresponding actions
*/
//3 Power on Array
WLAN_PWR_CFG rtl8188E_power_on_flow[RTL8188E_TRANS_CARDEMU_TO_ACT_STEPS+RTL8188E_TRANS_END_STEPS]=
{
RTL8188E_TRANS_CARDEMU_TO_ACT
RTL8188E_TRANS_END
};
//3Radio off Array
WLAN_PWR_CFG rtl8188E_radio_off_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_END_STEPS]=
{
RTL8188E_TRANS_ACT_TO_CARDEMU
RTL8188E_TRANS_END
};
//3Card Disable Array
WLAN_PWR_CFG rtl8188E_card_disable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS]=
{
RTL8188E_TRANS_ACT_TO_CARDEMU
RTL8188E_TRANS_CARDEMU_TO_CARDDIS
RTL8188E_TRANS_END
};
//3 Card Enable Array
WLAN_PWR_CFG rtl8188E_card_enable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS]=
{
RTL8188E_TRANS_CARDDIS_TO_CARDEMU
RTL8188E_TRANS_CARDEMU_TO_ACT
RTL8188E_TRANS_END
};
//3Suspend Array
WLAN_PWR_CFG rtl8188E_suspend_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS+RTL8188E_TRANS_END_STEPS]=
{
RTL8188E_TRANS_ACT_TO_CARDEMU
RTL8188E_TRANS_CARDEMU_TO_SUS
RTL8188E_TRANS_END
};
//3 Resume Array
WLAN_PWR_CFG rtl8188E_resume_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS+RTL8188E_TRANS_END_STEPS]=
{
RTL8188E_TRANS_SUS_TO_CARDEMU
RTL8188E_TRANS_CARDEMU_TO_ACT
RTL8188E_TRANS_END
};
//3HWPDN Array
WLAN_PWR_CFG rtl8188E_hwpdn_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS]=
{
RTL8188E_TRANS_ACT_TO_CARDEMU
RTL8188E_TRANS_CARDEMU_TO_PDN
RTL8188E_TRANS_END
};
//3 Enter LPS
WLAN_PWR_CFG rtl8188E_enter_lps_flow[RTL8188E_TRANS_ACT_TO_LPS_STEPS+RTL8188E_TRANS_END_STEPS]=
{
//FW behavior
RTL8188E_TRANS_ACT_TO_LPS
RTL8188E_TRANS_END
};
//3 Leave LPS
WLAN_PWR_CFG rtl8188E_leave_lps_flow[RTL8188E_TRANS_LPS_TO_ACT_STEPS+RTL8188E_TRANS_END_STEPS]=
{
//FW behavior
RTL8188E_TRANS_LPS_TO_ACT
RTL8188E_TRANS_END
};

1493
hal/rtl8188e/rtl8188e_cmd.c Executable file

File diff suppressed because it is too large Load diff

650
hal/rtl8188e/rtl8188e_dm.c Executable file
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@ -0,0 +1,650 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
//============================================================
// Description:
//
// This file is for 92CE/92CU dynamic mechanism only
//
//
//============================================================
#define _RTL8188E_DM_C_
//============================================================
// include files
//============================================================
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtw_byteorder.h>
#include <rtl8188e_hal.h>
//============================================================
// Global var
//============================================================
static VOID
dm_CheckProtection(
IN PADAPTER Adapter
)
{
#if 0
PMGNT_INFO pMgntInfo = &(Adapter->MgntInfo);
u1Byte CurRate, RateThreshold;
if(pMgntInfo->pHTInfo->bCurBW40MHz)
RateThreshold = MGN_MCS1;
else
RateThreshold = MGN_MCS3;
if(Adapter->TxStats.CurrentInitTxRate <= RateThreshold)
{
pMgntInfo->bDmDisableProtect = TRUE;
DbgPrint("Forced disable protect: %x\n", Adapter->TxStats.CurrentInitTxRate);
}
else
{
pMgntInfo->bDmDisableProtect = FALSE;
DbgPrint("Enable protect: %x\n", Adapter->TxStats.CurrentInitTxRate);
}
#endif
}
static VOID
dm_CheckStatistics(
IN PADAPTER Adapter
)
{
#if 0
if(!Adapter->MgntInfo.bMediaConnect)
return;
//2008.12.10 tynli Add for getting Current_Tx_Rate_Reg flexibly.
rtw_hal_get_hwreg( Adapter, HW_VAR_INIT_TX_RATE, (pu1Byte)(&Adapter->TxStats.CurrentInitTxRate) );
// Calculate current Tx Rate(Successful transmited!!)
// Calculate current Rx Rate(Successful received!!)
//for tx tx retry count
rtw_hal_get_hwreg( Adapter, HW_VAR_RETRY_COUNT, (pu1Byte)(&Adapter->TxStats.NumTxRetryCount) );
#endif
}
static void dm_CheckPbcGPIO(_adapter *padapter)
{
u8 tmp1byte;
u8 bPbcPressed = _FALSE;
if(!padapter->registrypriv.hw_wps_pbc)
return;
#ifdef CONFIG_USB_HCI
tmp1byte = rtw_read8(padapter, GPIO_IO_SEL);
tmp1byte |= (HAL_8188E_HW_GPIO_WPS_BIT);
rtw_write8(padapter, GPIO_IO_SEL, tmp1byte); //enable GPIO[2] as output mode
tmp1byte &= ~(HAL_8188E_HW_GPIO_WPS_BIT);
rtw_write8(padapter, GPIO_IN, tmp1byte); //reset the floating voltage level
tmp1byte = rtw_read8(padapter, GPIO_IO_SEL);
tmp1byte &= ~(HAL_8188E_HW_GPIO_WPS_BIT);
rtw_write8(padapter, GPIO_IO_SEL, tmp1byte); //enable GPIO[2] as input mode
tmp1byte =rtw_read8(padapter, GPIO_IN);
if (tmp1byte == 0xff)
return ;
if (tmp1byte&HAL_8188E_HW_GPIO_WPS_BIT)
{
bPbcPressed = _TRUE;
}
#else
tmp1byte = rtw_read8(padapter, GPIO_IN);
//RT_TRACE(COMP_IO, DBG_TRACE, ("dm_CheckPbcGPIO - %x\n", tmp1byte));
if (tmp1byte == 0xff || padapter->init_adpt_in_progress)
return ;
if((tmp1byte&HAL_8188E_HW_GPIO_WPS_BIT)==0)
{
bPbcPressed = _TRUE;
}
#endif
if( _TRUE == bPbcPressed)
{
// Here we only set bPbcPressed to true
// After trigger PBC, the variable will be set to false
DBG_8192C("CheckPbcGPIO - PBC is pressed\n");
#ifdef RTK_DMP_PLATFORM
#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,12))
kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_NET_PBC);
#else
kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_NET_PBC);
#endif
#else
if ( padapter->pid[0] == 0 )
{ // 0 is the default value and it means the application monitors the HW PBC doesn't privde its pid to driver.
return;
}
#ifdef PLATFORM_LINUX
rtw_signal_process(padapter->pid[0], SIGUSR1);
#endif
#endif
}
}
#ifdef CONFIG_PCI_HCI
//
// Description:
// Perform interrupt migration dynamically to reduce CPU utilization.
//
// Assumption:
// 1. Do not enable migration under WIFI test.
//
// Created by Roger, 2010.03.05.
//
VOID
dm_InterruptMigration(
IN PADAPTER Adapter
)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
struct mlme_priv *pmlmepriv = &(Adapter->mlmepriv);
BOOLEAN bCurrentIntMt, bCurrentACIntDisable;
BOOLEAN IntMtToSet = _FALSE;
BOOLEAN ACIntToSet = _FALSE;
// Retrieve current interrupt migration and Tx four ACs IMR settings first.
bCurrentIntMt = pHalData->bInterruptMigration;
bCurrentACIntDisable = pHalData->bDisableTxInt;
//
// <Roger_Notes> Currently we use busy traffic for reference instead of RxIntOK counts to prevent non-linear Rx statistics
// when interrupt migration is set before. 2010.03.05.
//
if(!Adapter->registrypriv.wifi_spec &&
(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) &&
pmlmepriv->LinkDetectInfo.bHigherBusyTraffic)
{
IntMtToSet = _TRUE;
// To check whether we should disable Tx interrupt or not.
if(pmlmepriv->LinkDetectInfo.bHigherBusyRxTraffic )
ACIntToSet = _TRUE;
}
//Update current settings.
if( bCurrentIntMt != IntMtToSet ){
DBG_8192C("%s(): Update interrrupt migration(%d)\n",__FUNCTION__,IntMtToSet);
if(IntMtToSet)
{
//
// <Roger_Notes> Set interrrupt migration timer and corresponging Tx/Rx counter.
// timer 25ns*0xfa0=100us for 0xf packets.
// 2010.03.05.
//
rtw_write32(Adapter, REG_INT_MIG, 0xff000fa0);// 0x306:Rx, 0x307:Tx
pHalData->bInterruptMigration = IntMtToSet;
}
else
{
// Reset all interrupt migration settings.
rtw_write32(Adapter, REG_INT_MIG, 0);
pHalData->bInterruptMigration = IntMtToSet;
}
}
/*if( bCurrentACIntDisable != ACIntToSet ){
DBG_8192C("%s(): Update AC interrrupt(%d)\n",__FUNCTION__,ACIntToSet);
if(ACIntToSet) // Disable four ACs interrupts.
{
//
// <Roger_Notes> Disable VO, VI, BE and BK four AC interrupts to gain more efficient CPU utilization.
// When extremely highly Rx OK occurs, we will disable Tx interrupts.
// 2010.03.05.
//
UpdateInterruptMask8192CE( Adapter, 0, RT_AC_INT_MASKS );
pHalData->bDisableTxInt = ACIntToSet;
}
else// Enable four ACs interrupts.
{
UpdateInterruptMask8192CE( Adapter, RT_AC_INT_MASKS, 0 );
pHalData->bDisableTxInt = ACIntToSet;
}
}*/
}
#endif
//
// Initialize GPIO setting registers
//
static void
dm_InitGPIOSetting(
IN PADAPTER Adapter
)
{
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
u8 tmp1byte;
tmp1byte = rtw_read8(Adapter, REG_GPIO_MUXCFG);
tmp1byte &= (GPIOSEL_GPIO | ~GPIOSEL_ENBT);
#ifdef CONFIG_BT_COEXIST
// UMB-B cut bug. We need to support the modification.
if (IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID) &&
pHalData->bt_coexist.BT_Coexist)
{
tmp1byte |= (BIT5);
}
#endif
rtw_write8(Adapter, REG_GPIO_MUXCFG, tmp1byte);
}
//============================================================
// functions
//============================================================
static void Init_ODM_ComInfo_88E(PADAPTER Adapter)
{
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
struct dm_priv *pdmpriv = &pHalData->dmpriv;
PDM_ODM_T pDM_Odm = &(pHalData->odmpriv);
u8 cut_ver,fab_ver;
//
// Init Value
//
_rtw_memset(pDM_Odm,0,sizeof(pDM_Odm));
pDM_Odm->Adapter = Adapter;
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_PLATFORM,ODM_CE);
if(Adapter->interface_type == RTW_GSPI )
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_INTERFACE,ODM_ITRF_SDIO);
else
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_INTERFACE,Adapter->interface_type);//RTL871X_HCI_TYPE
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_IC_TYPE,ODM_RTL8188E);
fab_ver = ODM_TSMC;
cut_ver = ODM_CUT_A;
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_FAB_VER,fab_ver);
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_CUT_VER,cut_ver);
ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_MP_TEST_CHIP,IS_NORMAL_CHIP(pHalData->VersionID));
#if 0
//#ifdef CONFIG_USB_HCI
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_BOARD_TYPE,pHalData->BoardType);
if(pHalData->BoardType == BOARD_USB_High_PA){
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_EXT_LNA,_TRUE);
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_EXT_PA,_TRUE);
}
#endif
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_PATCH_ID,pHalData->CustomerID);
// ODM_CMNINFO_BINHCT_TEST only for MP Team
ODM_CmnInfoInit(pDM_Odm,ODM_CMNINFO_BWIFI_TEST,Adapter->registrypriv.wifi_spec);
if(pHalData->rf_type == RF_1T1R){
ODM_CmnInfoUpdate(pDM_Odm,ODM_CMNINFO_RF_TYPE,ODM_1T1R);
}
else if(pHalData->rf_type == RF_2T2R){
ODM_CmnInfoUpdate(pDM_Odm,ODM_CMNINFO_RF_TYPE,ODM_2T2R);
}
else if(pHalData->rf_type == RF_1T2R){
ODM_CmnInfoUpdate(pDM_Odm,ODM_CMNINFO_RF_TYPE,ODM_1T2R);
}
ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_ANTENNA_TYPE, pHalData->TRxAntDivType);
#ifdef CONFIG_DISABLE_ODM
pdmpriv->InitODMFlag = 0;
#else
pdmpriv->InitODMFlag = ODM_RF_CALIBRATION |
ODM_RF_TX_PWR_TRACK //|
;
//if(pHalData->AntDivCfg)
// pdmpriv->InitODMFlag |= ODM_BB_ANT_DIV;
#endif
ODM_CmnInfoUpdate(pDM_Odm,ODM_CMNINFO_ABILITY,pdmpriv->InitODMFlag);
}
static void Update_ODM_ComInfo_88E(PADAPTER Adapter)
{
struct mlme_ext_priv *pmlmeext = &Adapter->mlmeextpriv;
struct mlme_priv *pmlmepriv = &Adapter->mlmepriv;
struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(Adapter);
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
PDM_ODM_T pDM_Odm = &(pHalData->odmpriv);
struct dm_priv *pdmpriv = &pHalData->dmpriv;
int i;
pdmpriv->InitODMFlag = 0
| ODM_BB_DIG
#ifdef CONFIG_ODM_REFRESH_RAMASK
| ODM_BB_RA_MASK
#endif
| ODM_BB_DYNAMIC_TXPWR
| ODM_BB_FA_CNT
| ODM_BB_RSSI_MONITOR
| ODM_BB_CCK_PD
| ODM_BB_PWR_SAVE
| ODM_RF_CALIBRATION
| ODM_RF_TX_PWR_TRACK
#ifdef CONFIG_ODM_ADAPTIVITY
| ODM_BB_ADAPTIVITY
#endif
;
if (!Adapter->registrypriv.qos_opt_enable) {
pdmpriv->InitODMFlag |= ODM_MAC_EDCA_TURBO;
}
if(pHalData->AntDivCfg)
pdmpriv->InitODMFlag |= ODM_BB_ANT_DIV;
#if (MP_DRIVER==1)
if (Adapter->registrypriv.mp_mode == 1) {
pdmpriv->InitODMFlag = 0
| ODM_RF_CALIBRATION
| ODM_RF_TX_PWR_TRACK
;
}
#endif//(MP_DRIVER==1)
#ifdef CONFIG_DISABLE_ODM
pdmpriv->InitODMFlag = 0;
#endif//CONFIG_DISABLE_ODM
ODM_CmnInfoUpdate(pDM_Odm,ODM_CMNINFO_ABILITY,pdmpriv->InitODMFlag);
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_TX_UNI,&(Adapter->xmitpriv.tx_bytes));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_RX_UNI,&(Adapter->recvpriv.rx_bytes));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_WM_MODE,&(pmlmeext->cur_wireless_mode));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_SEC_CHNL_OFFSET,&(pHalData->nCur40MhzPrimeSC));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_SEC_MODE,&(Adapter->securitypriv.dot11PrivacyAlgrthm));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_BW,&(pHalData->CurrentChannelBW ));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_CHNL,&( pHalData->CurrentChannel));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_NET_CLOSED,&( Adapter->net_closed));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_MP_MODE,&(Adapter->registrypriv.mp_mode));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_BAND,&(pDM_Odm->u1Byte_temp));
//================= only for 8192D =================
/*
//pHalData->CurrentBandType92D
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_BAND,&(pDM_Odm->u1Byte_temp));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_DMSP_GET_VALUE,&(pDM_Odm->u1Byte_temp));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_BUDDY_ADAPTOR,&(pDM_Odm->PADAPTER_temp));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_DMSP_IS_MASTER,&(pDM_Odm->u1Byte_temp));
//================= only for 8192D =================
// driver havn't those variable now
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_BT_OPERATION,&(pDM_Odm->u1Byte_temp));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_BT_DISABLE_EDCA,&(pDM_Odm->u1Byte_temp));
*/
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_SCAN,&(pmlmepriv->bScanInProcess));
ODM_CmnInfoHook(pDM_Odm,ODM_CMNINFO_POWER_SAVING,&(pwrctrlpriv->bpower_saving));
ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_ANTENNA_TYPE, pHalData->TRxAntDivType);
for(i=0; i< NUM_STA; i++)
{
//pDM_Odm->pODM_StaInfo[i] = NULL;
ODM_CmnInfoPtrArrayHook(pDM_Odm, ODM_CMNINFO_STA_STATUS,i,NULL);
}
}
void
rtl8188e_InitHalDm(
IN PADAPTER Adapter
)
{
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
struct dm_priv *pdmpriv = &pHalData->dmpriv;
PDM_ODM_T pDM_Odm = &(pHalData->odmpriv);
u8 i;
#ifdef CONFIG_USB_HCI
dm_InitGPIOSetting(Adapter);
#endif
pdmpriv->DM_Type = DM_Type_ByDriver;
pdmpriv->DMFlag = DYNAMIC_FUNC_DISABLE;
Update_ODM_ComInfo_88E(Adapter);
ODM_DMInit(pDM_Odm);
Adapter->fix_rate = 0xFF;
}
VOID
rtl8188e_HalDmWatchDog(
IN PADAPTER Adapter
)
{
BOOLEAN bFwCurrentInPSMode = _FALSE;
BOOLEAN bFwPSAwake = _TRUE;
u8 hw_init_completed = _FALSE;
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
struct dm_priv *pdmpriv = &pHalData->dmpriv;
PDM_ODM_T pDM_Odm = &(pHalData->odmpriv);
#ifdef CONFIG_CONCURRENT_MODE
PADAPTER pbuddy_adapter = Adapter->pbuddy_adapter;
#endif //CONFIG_CONCURRENT_MODE
_func_enter_;
hw_init_completed = Adapter->hw_init_completed;
if (hw_init_completed == _FALSE)
goto skip_dm;
#ifdef CONFIG_LPS
bFwCurrentInPSMode = adapter_to_pwrctl(Adapter)->bFwCurrentInPSMode;
rtw_hal_get_hwreg(Adapter, HW_VAR_FWLPS_RF_ON, (u8 *)(&bFwPSAwake));
#endif
#ifdef CONFIG_P2P_PS
// Fw is under p2p powersaving mode, driver should stop dynamic mechanism.
// modifed by thomas. 2011.06.11.
if(Adapter->wdinfo.p2p_ps_mode)
bFwPSAwake = _FALSE;
#endif //CONFIG_P2P_PS
if( (hw_init_completed == _TRUE)
&& ((!bFwCurrentInPSMode) && bFwPSAwake))
{
//
// Calculate Tx/Rx statistics.
//
dm_CheckStatistics(Adapter);
//
// Dynamically switch RTS/CTS protection.
//
//dm_CheckProtection(Adapter);
#ifdef CONFIG_PCI_HCI
// 20100630 Joseph: Disable Interrupt Migration mechanism temporarily because it degrades Rx throughput.
// Tx Migration settings.
//dm_InterruptMigration(Adapter);
//if(Adapter->HalFunc.TxCheckStuckHandler(Adapter))
// PlatformScheduleWorkItem(&(GET_HAL_DATA(Adapter)->HalResetWorkItem));
#endif
}
//ODM
if (hw_init_completed == _TRUE)
{
u8 bLinked=_FALSE;
u8 bsta_state = _FALSE;
#ifdef CONFIG_DISABLE_ODM
pHalData->odmpriv.SupportAbility = 0;
#endif
if(rtw_linked_check(Adapter))
bLinked = _TRUE;
#ifdef CONFIG_CONCURRENT_MODE
if(pbuddy_adapter && rtw_linked_check(pbuddy_adapter))
bLinked = _TRUE;
#endif //CONFIG_CONCURRENT_MODE
ODM_CmnInfoUpdate(&pHalData->odmpriv ,ODM_CMNINFO_LINK, bLinked);
if (check_fwstate(&Adapter->mlmepriv, WIFI_STATION_STATE))
bsta_state = _TRUE;
#ifdef CONFIG_CONCURRENT_MODE
if(pbuddy_adapter && check_fwstate(&pbuddy_adapter->mlmepriv, WIFI_STATION_STATE))
bsta_state = _TRUE;
#endif //CONFIG_CONCURRENT_MODE
ODM_CmnInfoUpdate(&pHalData->odmpriv ,ODM_CMNINFO_STATION_STATE, bsta_state);
ODM_DMWatchdog(&pHalData->odmpriv);
}
skip_dm:
// Check GPIO to determine current RF on/off and Pbc status.
// Check Hardware Radio ON/OFF or not
#ifdef CONFIG_PCI_HCI
if(pHalData->bGpioHwWpsPbc)
#endif
{
//temp removed
//dm_CheckPbcGPIO(Adapter);
}
return;
}
void rtl8188e_init_dm_priv(IN PADAPTER Adapter)
{
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
struct dm_priv *pdmpriv = &pHalData->dmpriv;
PDM_ODM_T podmpriv = &pHalData->odmpriv;
_rtw_memset(pdmpriv, 0, sizeof(struct dm_priv));
//_rtw_spinlock_init(&(pHalData->odm_stainfo_lock));
Init_ODM_ComInfo_88E(Adapter);
#ifdef CONFIG_SW_ANTENNA_DIVERSITY
//_init_timer(&(pdmpriv->SwAntennaSwitchTimer), Adapter->pnetdev , odm_SW_AntennaSwitchCallback, Adapter);
ODM_InitAllTimers(podmpriv );
#endif
ODM_InitDebugSetting(podmpriv);
}
void rtl8188e_deinit_dm_priv(IN PADAPTER Adapter)
{
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
struct dm_priv *pdmpriv = &pHalData->dmpriv;
PDM_ODM_T podmpriv = &pHalData->odmpriv;
//_rtw_spinlock_free(&pHalData->odm_stainfo_lock);
#ifdef CONFIG_SW_ANTENNA_DIVERSITY
//_cancel_timer_ex(&pdmpriv->SwAntennaSwitchTimer);
ODM_CancelAllTimers(podmpriv);
#endif
}
#ifdef CONFIG_ANTENNA_DIVERSITY
// Add new function to reset the state of antenna diversity before link.
//
// Compare RSSI for deciding antenna
void AntDivCompare8188E(PADAPTER Adapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src)
{
//PADAPTER Adapter = pDM_Odm->Adapter ;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
if(0 != pHalData->AntDivCfg )
{
//DBG_8192C("update_network=> orgRSSI(%d)(%d),newRSSI(%d)(%d)\n",dst->Rssi,query_rx_pwr_percentage(dst->Rssi),
// src->Rssi,query_rx_pwr_percentage(src->Rssi));
//select optimum_antenna for before linked =>For antenna diversity
if(dst->Rssi >= src->Rssi )//keep org parameter
{
src->Rssi = dst->Rssi;
src->PhyInfo.Optimum_antenna = dst->PhyInfo.Optimum_antenna;
}
}
}
// Add new function to reset the state of antenna diversity before link.
u8 AntDivBeforeLink8188E(PADAPTER Adapter )
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
PDM_ODM_T pDM_Odm =&pHalData->odmpriv;
SWAT_T *pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
struct mlme_priv *pmlmepriv = &(Adapter->mlmepriv);
// Condition that does not need to use antenna diversity.
if(pHalData->AntDivCfg==0)
{
//DBG_8192C("odm_AntDivBeforeLink8192C(): No AntDiv Mechanism.\n");
return _FALSE;
}
if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
{
return _FALSE;
}
if(pDM_SWAT_Table->SWAS_NoLink_State == 0){
//switch channel
pDM_SWAT_Table->SWAS_NoLink_State = 1;
pDM_SWAT_Table->CurAntenna = (pDM_SWAT_Table->CurAntenna==Antenna_A)?Antenna_B:Antenna_A;
//PHY_SetBBReg(Adapter, rFPGA0_XA_RFInterfaceOE, 0x300, pDM_SWAT_Table->CurAntenna);
rtw_antenna_select_cmd(Adapter, pDM_SWAT_Table->CurAntenna, _FALSE);
//DBG_8192C("%s change antenna to ANT_( %s ).....\n",__FUNCTION__, (pDM_SWAT_Table->CurAntenna==Antenna_A)?"A":"B");
return _TRUE;
}
else
{
pDM_SWAT_Table->SWAS_NoLink_State = 0;
return _FALSE;
}
}
#endif

3800
hal/rtl8188e/rtl8188e_hal_init.c Executable file

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1157
hal/rtl8188e/rtl8188e_mp.c Executable file

File diff suppressed because it is too large Load diff

3552
hal/rtl8188e/rtl8188e_phycfg.c Executable file

File diff suppressed because it is too large Load diff

1272
hal/rtl8188e/rtl8188e_rf6052.c Executable file

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350
hal/rtl8188e/rtl8188e_rxdesc.c Executable file
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@ -0,0 +1,350 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#define _RTL8188E_REDESC_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtl8188e_hal.h>
static s32 translate2dbm(u8 signal_strength_idx)
{
s32 signal_power; // in dBm.
// Translate to dBm (x=0.5y-95).
signal_power = (s32)((signal_strength_idx + 1) >> 1);
signal_power -= 95;
return signal_power;
}
static void process_rssi(_adapter *padapter,union recv_frame *prframe)
{
u32 last_rssi, tmp_val;
struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
struct signal_stat * signal_stat = &padapter->recvpriv.signal_strength_data;
#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
//DBG_8192C("process_rssi=> pattrib->rssil(%d) signal_strength(%d)\n ",pattrib->RecvSignalPower,pattrib->signal_strength);
//if(pRfd->Status.bPacketToSelf || pRfd->Status.bPacketBeacon)
{
#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
if(signal_stat->update_req) {
signal_stat->total_num = 0;
signal_stat->total_val = 0;
signal_stat->update_req = 0;
}
signal_stat->total_num++;
signal_stat->total_val += pattrib->phy_info.SignalStrength;
signal_stat->avg_val = signal_stat->total_val / signal_stat->total_num;
#else //CONFIG_NEW_SIGNAL_STAT_PROCESS
//Adapter->RxStats.RssiCalculateCnt++; //For antenna Test
if(padapter->recvpriv.signal_strength_data.total_num++ >= PHY_RSSI_SLID_WIN_MAX)
{
padapter->recvpriv.signal_strength_data.total_num = PHY_RSSI_SLID_WIN_MAX;
last_rssi = padapter->recvpriv.signal_strength_data.elements[padapter->recvpriv.signal_strength_data.index];
padapter->recvpriv.signal_strength_data.total_val -= last_rssi;
}
padapter->recvpriv.signal_strength_data.total_val +=pattrib->phy_info.SignalStrength;
padapter->recvpriv.signal_strength_data.elements[padapter->recvpriv.signal_strength_data.index++] = pattrib->phy_info.SignalStrength;
if(padapter->recvpriv.signal_strength_data.index >= PHY_RSSI_SLID_WIN_MAX)
padapter->recvpriv.signal_strength_data.index = 0;
tmp_val = padapter->recvpriv.signal_strength_data.total_val/padapter->recvpriv.signal_strength_data.total_num;
if(padapter->recvpriv.is_signal_dbg) {
padapter->recvpriv.signal_strength= padapter->recvpriv.signal_strength_dbg;
padapter->recvpriv.rssi=(s8)translate2dbm((u8)padapter->recvpriv.signal_strength_dbg);
} else {
padapter->recvpriv.signal_strength= tmp_val;
padapter->recvpriv.rssi=(s8)translate2dbm((u8)tmp_val);
}
RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("UI RSSI = %d, ui_rssi.TotalVal = %d, ui_rssi.TotalNum = %d\n", tmp_val, padapter->recvpriv.signal_strength_data.total_val,padapter->recvpriv.signal_strength_data.total_num));
#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
}
}// Process_UI_RSSI_8192C
static void process_link_qual(_adapter *padapter,union recv_frame *prframe)
{
u32 last_evm=0, tmpVal;
struct rx_pkt_attrib *pattrib;
#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
struct signal_stat * signal_stat;
#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
if(prframe == NULL || padapter==NULL){
return;
}
pattrib = &prframe->u.hdr.attrib;
#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
signal_stat = &padapter->recvpriv.signal_qual_data;
#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
//DBG_8192C("process_link_qual=> pattrib->signal_qual(%d)\n ",pattrib->signal_qual);
#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
if(signal_stat->update_req) {
signal_stat->total_num = 0;
signal_stat->total_val = 0;
signal_stat->update_req = 0;
}
signal_stat->total_num++;
signal_stat->total_val += pattrib->phy_info.SignalQuality;
signal_stat->avg_val = signal_stat->total_val / signal_stat->total_num;
#else //CONFIG_NEW_SIGNAL_STAT_PROCESS
if(pattrib->phy_info.SignalQuality != 0)
{
//
// 1. Record the general EVM to the sliding window.
//
if(padapter->recvpriv.signal_qual_data.total_num++ >= PHY_LINKQUALITY_SLID_WIN_MAX)
{
padapter->recvpriv.signal_qual_data.total_num = PHY_LINKQUALITY_SLID_WIN_MAX;
last_evm = padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index];
padapter->recvpriv.signal_qual_data.total_val -= last_evm;
}
padapter->recvpriv.signal_qual_data.total_val += pattrib->phy_info.SignalQuality;
padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index++] = pattrib->phy_info.SignalQuality;
if(padapter->recvpriv.signal_qual_data.index >= PHY_LINKQUALITY_SLID_WIN_MAX)
padapter->recvpriv.signal_qual_data.index = 0;
RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("Total SQ=%d pattrib->signal_qual= %d\n", padapter->recvpriv.signal_qual_data.total_val, pattrib->phy_info.SignalQuality));
// <1> Showed on UI for user, in percentage.
tmpVal = padapter->recvpriv.signal_qual_data.total_val/padapter->recvpriv.signal_qual_data.total_num;
padapter->recvpriv.signal_qual=(u8)tmpVal;
}
else
{
RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,(" pattrib->signal_qual =%d\n", pattrib->phy_info.SignalQuality));
}
#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
}
//void rtl8188e_process_phy_info(_adapter *padapter, union recv_frame *prframe)
void rtl8188e_process_phy_info(_adapter *padapter, void *prframe)
{
union recv_frame *precvframe = (union recv_frame *)prframe;
//
// Check RSSI
//
process_rssi(padapter, precvframe);
//
// Check PWDB.
//
//process_PWDB(padapter, precvframe);
//UpdateRxSignalStatistics8192C(Adapter, pRfd);
//
// Check EVM
//
process_link_qual(padapter, precvframe);
}
void update_recvframe_attrib_88e(
union recv_frame *precvframe,
struct recv_stat *prxstat)
{
struct rx_pkt_attrib *pattrib;
struct recv_stat report;
PRXREPORT prxreport;
//struct recv_frame_hdr *phdr;
//phdr = &precvframe->u.hdr;
report.rxdw0 = le32_to_cpu(prxstat->rxdw0);
report.rxdw1 = le32_to_cpu(prxstat->rxdw1);
report.rxdw2 = le32_to_cpu(prxstat->rxdw2);
report.rxdw3 = le32_to_cpu(prxstat->rxdw3);
report.rxdw4 = le32_to_cpu(prxstat->rxdw4);
report.rxdw5 = le32_to_cpu(prxstat->rxdw5);
prxreport = (PRXREPORT)&report;
pattrib = &precvframe->u.hdr.attrib;
_rtw_memset(pattrib, 0, sizeof(struct rx_pkt_attrib));
pattrib->crc_err = (u8)((report.rxdw0 >> 14) & 0x1);;//(u8)prxreport->crc32;
// update rx report to recv_frame attribute
pattrib->pkt_rpt_type = (u8)((report.rxdw3 >> 14) & 0x3);//prxreport->rpt_sel;
if(pattrib->pkt_rpt_type == NORMAL_RX)//Normal rx packet
{
pattrib->pkt_len = (u16)(report.rxdw0 &0x00003fff);//(u16)prxreport->pktlen;
pattrib->drvinfo_sz = (u8)((report.rxdw0 >> 16) & 0xf) * 8;//(u8)(prxreport->drvinfosize << 3);
pattrib->physt = (u8)((report.rxdw0 >> 26) & 0x1);//(u8)prxreport->physt;
pattrib->bdecrypted = (report.rxdw0 & BIT(27))? 0:1;//(u8)(prxreport->swdec ? 0 : 1);
pattrib->encrypt = (u8)((report.rxdw0 >> 20) & 0x7);//(u8)prxreport->security;
pattrib->qos = (u8)((report.rxdw0 >> 23) & 0x1);//(u8)prxreport->qos;
pattrib->priority = (u8)((report.rxdw1 >> 8) & 0xf);//(u8)prxreport->tid;
pattrib->amsdu = (u8)((report.rxdw1 >> 13) & 0x1);//(u8)prxreport->amsdu;
pattrib->seq_num = (u16)(report.rxdw2 & 0x00000fff);//(u16)prxreport->seq;
pattrib->frag_num = (u8)((report.rxdw2 >> 12) & 0xf);//(u8)prxreport->frag;
pattrib->mfrag = (u8)((report.rxdw1 >> 27) & 0x1);//(u8)prxreport->mf;
pattrib->mdata = (u8)((report.rxdw1 >> 26) & 0x1);//(u8)prxreport->md;
pattrib->mcs_rate = (u8)(report.rxdw3 & 0x3f);//(u8)prxreport->rxmcs;
pattrib->rxht = (u8)((report.rxdw3 >> 6) & 0x1);//(u8)prxreport->rxht;
pattrib->icv_err = (u8)((report.rxdw0 >> 15) & 0x1);//(u8)prxreport->icverr;
pattrib->shift_sz = (u8)((report.rxdw0 >> 24) & 0x3);
}
else if(pattrib->pkt_rpt_type == TX_REPORT1)//CCX
{
pattrib->pkt_len = TX_RPT1_PKT_LEN;
pattrib->drvinfo_sz = 0;
}
else if(pattrib->pkt_rpt_type == TX_REPORT2)// TX RPT
{
pattrib->pkt_len =(u16)(report.rxdw0 & 0x3FF);//Rx length[9:0]
pattrib->drvinfo_sz = 0;
//
// Get TX report MAC ID valid.
//
pattrib->MacIDValidEntry[0] = report.rxdw4;
pattrib->MacIDValidEntry[1] = report.rxdw5;
}
else if(pattrib->pkt_rpt_type == HIS_REPORT)// USB HISR RPT
{
pattrib->pkt_len = (u16)(report.rxdw0 &0x00003fff);//(u16)prxreport->pktlen;
}
}
/*
* Notice:
* Before calling this function,
* precvframe->u.hdr.rx_data should be ready!
*/
void update_recvframe_phyinfo_88e(
union recv_frame *precvframe,
struct phy_stat *pphy_status)
{
PADAPTER padapter = precvframe->u.hdr.adapter;
struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
PODM_PHY_INFO_T pPHYInfo = (PODM_PHY_INFO_T)(&pattrib->phy_info);
u8 *wlanhdr;
ODM_PACKET_INFO_T pkt_info;
u8 *sa;
struct sta_priv *pstapriv;
struct sta_info *psta;
//_irqL irqL;
pkt_info.bPacketMatchBSSID =_FALSE;
pkt_info.bPacketToSelf = _FALSE;
pkt_info.bPacketBeacon = _FALSE;
wlanhdr = get_recvframe_data(precvframe);
pkt_info.bPacketMatchBSSID = ((!IsFrameTypeCtrl(wlanhdr)) &&
!pattrib->icv_err && !pattrib->crc_err &&
_rtw_memcmp(get_hdr_bssid(wlanhdr), get_bssid(&padapter->mlmepriv), ETH_ALEN));
pkt_info.bPacketToSelf = pkt_info.bPacketMatchBSSID && (_rtw_memcmp(get_da(wlanhdr), myid(&padapter->eeprompriv), ETH_ALEN));
pkt_info.bPacketBeacon = pkt_info.bPacketMatchBSSID && (GetFrameSubType(wlanhdr) == WIFI_BEACON);
if(pkt_info.bPacketBeacon){
if(check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE) == _TRUE){
sa = padapter->mlmepriv.cur_network.network.MacAddress;
#if 0
{
DBG_8192C("==> rx beacon from AP[%02x:%02x:%02x:%02x:%02x:%02x]\n",
sa[0],sa[1],sa[2],sa[3],sa[4],sa[5]);
}
#endif
}
else
sa = get_sa(wlanhdr);
}
else{
sa = get_sa(wlanhdr);
}
pstapriv = &padapter->stapriv;
pkt_info.StationID = 0xFF;
psta = rtw_get_stainfo(pstapriv, sa);
if (psta)
{
pkt_info.StationID = psta->mac_id;
//DBG_8192C("%s ==> StationID(%d)\n",__FUNCTION__,pkt_info.StationID);
}
pkt_info.Rate = pattrib->mcs_rate;
//rtl8188e_query_rx_phy_status(precvframe, pphy_status);
//_enter_critical_bh(&pHalData->odm_stainfo_lock, &irqL);
ODM_PhyStatusQuery(&pHalData->odmpriv,pPHYInfo,(u8 *)pphy_status,&(pkt_info));
//_exit_critical_bh(&pHalData->odm_stainfo_lock, &irqL);
precvframe->u.hdr.psta = NULL;
if (pkt_info.bPacketMatchBSSID &&
(check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE))
{
if (psta)
{
precvframe->u.hdr.psta = psta;
rtl8188e_process_phy_info(padapter, precvframe);
}
}
else if (pkt_info.bPacketToSelf || pkt_info.bPacketBeacon)
{
if (check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE) == _TRUE)
{
if (psta)
{
precvframe->u.hdr.psta = psta;
}
}
rtl8188e_process_phy_info(padapter, precvframe);
}
}

125
hal/rtl8188e/rtl8188e_sreset.c Executable file
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@ -0,0 +1,125 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#define _RTL8188E_SRESET_C_
#include <rtl8188e_sreset.h>
#include <rtl8188e_hal.h>
#ifdef DBG_CONFIG_ERROR_DETECT
void rtl8188e_sreset_xmit_status_check(_adapter *padapter)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
struct sreset_priv *psrtpriv = &pHalData->srestpriv;
unsigned long current_time;
struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
unsigned int diff_time;
u32 txdma_status;
if( (txdma_status=rtw_read32(padapter, REG_TXDMA_STATUS)) !=0x00){
DBG_871X("%s REG_TXDMA_STATUS:0x%08x\n", __FUNCTION__, txdma_status);
rtw_hal_sreset_reset(padapter);
}
#ifdef CONFIG_USB_HCI
//total xmit irp = 4
//DBG_8192C("==>%s free_xmitbuf_cnt(%d),txirp_cnt(%d)\n",__FUNCTION__,pxmitpriv->free_xmitbuf_cnt,pxmitpriv->txirp_cnt);
//if(pxmitpriv->txirp_cnt == NR_XMITBUFF+1)
current_time = rtw_get_current_time();
if(0 == pxmitpriv->free_xmitbuf_cnt || 0 == pxmitpriv->free_xmit_extbuf_cnt) {
diff_time = rtw_get_passing_time_ms(psrtpriv->last_tx_time);
if (diff_time > 2000) {
if (psrtpriv->last_tx_complete_time == 0) {
psrtpriv->last_tx_complete_time = current_time;
}
else{
diff_time = rtw_get_passing_time_ms(psrtpriv->last_tx_complete_time);
if (diff_time > 4000) {
u32 ability;
//padapter->Wifi_Error_Status = WIFI_TX_HANG;
rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DM_FUNC, &ability);
DBG_871X("%s tx hang %s\n", __FUNCTION__,
(ability & ODM_BB_ADAPTIVITY)? "ODM_BB_ADAPTIVITY" : "");
if (!(ability & ODM_BB_ADAPTIVITY))
rtw_hal_sreset_reset(padapter);
}
}
}
}
#endif //CONFIG_USB_HCI
if (psrtpriv->dbg_trigger_point == SRESET_TGP_XMIT_STATUS) {
psrtpriv->dbg_trigger_point = SRESET_TGP_NULL;
rtw_hal_sreset_reset(padapter);
return;
}
}
void rtl8188e_sreset_linked_status_check(_adapter *padapter)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
struct sreset_priv *psrtpriv = &pHalData->srestpriv;
u32 rx_dma_status = 0;
u8 fw_status=0;
rx_dma_status = rtw_read32(padapter,REG_RXDMA_STATUS);
if(rx_dma_status!= 0x00){
DBG_8192C("%s REG_RXDMA_STATUS:0x%08x \n",__FUNCTION__,rx_dma_status);
rtw_write32(padapter,REG_RXDMA_STATUS,rx_dma_status);
}
fw_status = rtw_read8(padapter,REG_FMETHR);
if(fw_status != 0x00)
{
if(fw_status == 1)
DBG_8192C("%s REG_FW_STATUS (0x%02x), Read_Efuse_Fail !! \n",__FUNCTION__,fw_status);
else if(fw_status == 2)
DBG_8192C("%s REG_FW_STATUS (0x%02x), Condition_No_Match !! \n",__FUNCTION__,fw_status);
}
#if 0
u32 regc50,regc58,reg824,reg800;
regc50 = rtw_read32(padapter,0xc50);
regc58 = rtw_read32(padapter,0xc58);
reg824 = rtw_read32(padapter,0x824);
reg800 = rtw_read32(padapter,0x800);
if( ((regc50&0xFFFFFF00)!= 0x69543400)||
((regc58&0xFFFFFF00)!= 0x69543400)||
(((reg824&0xFFFFFF00)!= 0x00390000)&&(((reg824&0xFFFFFF00)!= 0x80390000)))||
( ((reg800&0xFFFFFF00)!= 0x03040000)&&((reg800&0xFFFFFF00)!= 0x83040000)))
{
DBG_8192C("%s regc50:0x%08x, regc58:0x%08x, reg824:0x%08x, reg800:0x%08x,\n", __FUNCTION__,
regc50, regc58, reg824, reg800);
rtw_hal_sreset_reset(padapter);
}
#endif
if (psrtpriv->dbg_trigger_point == SRESET_TGP_LINK_STATUS) {
psrtpriv->dbg_trigger_point = SRESET_TGP_NULL;
rtw_hal_sreset_reset(padapter);
return;
}
}
#endif

292
hal/rtl8188e/rtl8188e_xmit.c Executable file
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@ -0,0 +1,292 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#define _RTL8188E_XMIT_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtl8188e_hal.h>
#ifdef CONFIG_XMIT_ACK
void dump_txrpt_ccx_88e(void *buf)
{
struct txrpt_ccx_88e *txrpt_ccx = (struct txrpt_ccx_88e *)buf;
DBG_871X("%s:\n"
"tag1:%u, pkt_num:%u, txdma_underflow:%u, int_bt:%u, int_tri:%u, int_ccx:%u\n"
"mac_id:%u, pkt_ok:%u, bmc:%u\n"
"retry_cnt:%u, lifetime_over:%u, retry_over:%u\n"
"ccx_qtime:%u\n"
"final_data_rate:0x%02x\n"
"qsel:%u, sw:0x%03x\n"
, __func__
, txrpt_ccx->tag1, txrpt_ccx->pkt_num, txrpt_ccx->txdma_underflow, txrpt_ccx->int_bt, txrpt_ccx->int_tri, txrpt_ccx->int_ccx
, txrpt_ccx->mac_id, txrpt_ccx->pkt_ok, txrpt_ccx->bmc
, txrpt_ccx->retry_cnt, txrpt_ccx->lifetime_over, txrpt_ccx->retry_over
, txrpt_ccx_qtime_88e(txrpt_ccx)
, txrpt_ccx->final_data_rate
, txrpt_ccx->qsel, txrpt_ccx_sw_88e(txrpt_ccx)
);
}
void handle_txrpt_ccx_88e(_adapter *adapter, u8 *buf)
{
struct txrpt_ccx_88e *txrpt_ccx = (struct txrpt_ccx_88e *)buf;
#ifdef DBG_CCX
dump_txrpt_ccx_88e(buf);
#endif
if (txrpt_ccx->int_ccx) {
if (txrpt_ccx->pkt_ok)
rtw_ack_tx_done(&adapter->xmitpriv, RTW_SCTX_DONE_SUCCESS);
else
rtw_ack_tx_done(&adapter->xmitpriv, RTW_SCTX_DONE_CCX_PKT_FAIL);
}
}
#endif //CONFIG_XMIT_ACK
void _dbg_dump_tx_info(_adapter *padapter,int frame_tag,struct tx_desc *ptxdesc)
{
u8 bDumpTxPkt;
u8 bDumpTxDesc = _FALSE;
rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DUMP_TXPKT, &(bDumpTxPkt));
if(bDumpTxPkt ==1){//dump txdesc for data frame
DBG_871X("dump tx_desc for data frame\n");
if((frame_tag&0x0f) == DATA_FRAMETAG){
bDumpTxDesc = _TRUE;
}
}
else if(bDumpTxPkt ==2){//dump txdesc for mgnt frame
DBG_871X("dump tx_desc for mgnt frame\n");
if((frame_tag&0x0f) == MGNT_FRAMETAG){
bDumpTxDesc = _TRUE;
}
}
else if(bDumpTxPkt ==3){//dump early info
}
if(bDumpTxDesc){
// ptxdesc->txdw4 = cpu_to_le32(0x00001006);//RTS Rate=24M
// ptxdesc->txdw6 = 0x6666f800;
DBG_8192C("=====================================\n");
DBG_8192C("txdw0(0x%08x)\n",ptxdesc->txdw0);
DBG_8192C("txdw1(0x%08x)\n",ptxdesc->txdw1);
DBG_8192C("txdw2(0x%08x)\n",ptxdesc->txdw2);
DBG_8192C("txdw3(0x%08x)\n",ptxdesc->txdw3);
DBG_8192C("txdw4(0x%08x)\n",ptxdesc->txdw4);
DBG_8192C("txdw5(0x%08x)\n",ptxdesc->txdw5);
DBG_8192C("txdw6(0x%08x)\n",ptxdesc->txdw6);
DBG_8192C("txdw7(0x%08x)\n",ptxdesc->txdw7);
DBG_8192C("=====================================\n");
}
}
/*
* Description:
* Aggregation packets and send to hardware
*
* Return:
* 0 Success
* -1 Hardware resource(TX FIFO) not ready
* -2 Software resource(xmitbuf) not ready
*/
#ifdef CONFIG_TX_EARLY_MODE
//#define DBG_EMINFO
#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
#define EARLY_MODE_MAX_PKT_NUM 10
#else
#define EARLY_MODE_MAX_PKT_NUM 5
#endif
struct EMInfo{
u8 EMPktNum;
u16 EMPktLen[EARLY_MODE_MAX_PKT_NUM];
};
void
InsertEMContent_8188E(
struct EMInfo *pEMInfo,
IN pu1Byte VirtualAddress)
{
#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
u1Byte index=0;
u4Byte dwtmp=0;
#endif
_rtw_memset(VirtualAddress, 0, EARLY_MODE_INFO_SIZE);
if(pEMInfo->EMPktNum==0)
return;
#ifdef DBG_EMINFO
{
int i;
DBG_8192C("\n%s ==> pEMInfo->EMPktNum =%d\n",__FUNCTION__,pEMInfo->EMPktNum);
for(i=0;i< EARLY_MODE_MAX_PKT_NUM;i++){
DBG_8192C("%s ==> pEMInfo->EMPktLen[%d] =%d\n",__FUNCTION__,i,pEMInfo->EMPktLen[i]);
}
}
#endif
#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
SET_EARLYMODE_PKTNUM(VirtualAddress, pEMInfo->EMPktNum);
if(pEMInfo->EMPktNum == 1){
dwtmp = pEMInfo->EMPktLen[0];
}else{
dwtmp = pEMInfo->EMPktLen[0];
dwtmp += ((dwtmp%4)?(4-dwtmp%4):0)+4;
dwtmp += pEMInfo->EMPktLen[1];
}
SET_EARLYMODE_LEN0(VirtualAddress, dwtmp);
if(pEMInfo->EMPktNum <= 3){
dwtmp = pEMInfo->EMPktLen[2];
}else{
dwtmp = pEMInfo->EMPktLen[2];
dwtmp += ((dwtmp%4)?(4-dwtmp%4):0)+4;
dwtmp += pEMInfo->EMPktLen[3];
}
SET_EARLYMODE_LEN1(VirtualAddress, dwtmp);
if(pEMInfo->EMPktNum <= 5){
dwtmp = pEMInfo->EMPktLen[4];
}else{
dwtmp = pEMInfo->EMPktLen[4];
dwtmp += ((dwtmp%4)?(4-dwtmp%4):0)+4;
dwtmp += pEMInfo->EMPktLen[5];
}
SET_EARLYMODE_LEN2_1(VirtualAddress, dwtmp&0xF);
SET_EARLYMODE_LEN2_2(VirtualAddress, dwtmp>>4);
if(pEMInfo->EMPktNum <= 7){
dwtmp = pEMInfo->EMPktLen[6];
}else{
dwtmp = pEMInfo->EMPktLen[6];
dwtmp += ((dwtmp%4)?(4-dwtmp%4):0)+4;
dwtmp += pEMInfo->EMPktLen[7];
}
SET_EARLYMODE_LEN3(VirtualAddress, dwtmp);
if(pEMInfo->EMPktNum <= 9){
dwtmp = pEMInfo->EMPktLen[8];
}else{
dwtmp = pEMInfo->EMPktLen[8];
dwtmp += ((dwtmp%4)?(4-dwtmp%4):0)+4;
dwtmp += pEMInfo->EMPktLen[9];
}
SET_EARLYMODE_LEN4(VirtualAddress, dwtmp);
#else
SET_EARLYMODE_PKTNUM(VirtualAddress, pEMInfo->EMPktNum);
SET_EARLYMODE_LEN0(VirtualAddress, pEMInfo->EMPktLen[0]);
SET_EARLYMODE_LEN1(VirtualAddress, pEMInfo->EMPktLen[1]);
SET_EARLYMODE_LEN2_1(VirtualAddress, pEMInfo->EMPktLen[2]&0xF);
SET_EARLYMODE_LEN2_2(VirtualAddress, pEMInfo->EMPktLen[2]>>4);
SET_EARLYMODE_LEN3(VirtualAddress, pEMInfo->EMPktLen[3]);
SET_EARLYMODE_LEN4(VirtualAddress, pEMInfo->EMPktLen[4]);
#endif
//RT_PRINT_DATA(COMP_SEND, DBG_LOUD, "EMHdr:", VirtualAddress, 8);
}
void UpdateEarlyModeInfo8188E(struct xmit_priv *pxmitpriv,struct xmit_buf *pxmitbuf )
{
//_adapter *padapter, struct xmit_frame *pxmitframe,struct tx_servq *ptxservq
int index,j;
u16 offset,pktlen;
PTXDESC ptxdesc;
u8 *pmem,*pEMInfo_mem;
s8 node_num_0=0,node_num_1=0;
struct EMInfo eminfo;
struct agg_pkt_info *paggpkt;
struct xmit_frame *pframe = (struct xmit_frame*)pxmitbuf->priv_data;
pmem= pframe->buf_addr;
#ifdef DBG_EMINFO
DBG_8192C("\n%s ==> agg_num:%d\n",__FUNCTION__, pframe->agg_num);
for(index=0;index<pframe->agg_num;index++){
offset = pxmitpriv->agg_pkt[index].offset;
pktlen = pxmitpriv->agg_pkt[index].pkt_len;
DBG_8192C("%s ==> agg_pkt[%d].offset=%d\n",__FUNCTION__,index,offset);
DBG_8192C("%s ==> agg_pkt[%d].pkt_len=%d\n",__FUNCTION__,index,pktlen);
}
#endif
if( pframe->agg_num > EARLY_MODE_MAX_PKT_NUM)
{
node_num_0 = pframe->agg_num;
node_num_1= EARLY_MODE_MAX_PKT_NUM-1;
}
for(index=0;index<pframe->agg_num;index++){
offset = pxmitpriv->agg_pkt[index].offset;
pktlen = pxmitpriv->agg_pkt[index].pkt_len;
_rtw_memset(&eminfo,0,sizeof(struct EMInfo));
if( pframe->agg_num > EARLY_MODE_MAX_PKT_NUM){
if(node_num_0 > EARLY_MODE_MAX_PKT_NUM){
eminfo.EMPktNum = EARLY_MODE_MAX_PKT_NUM;
node_num_0--;
}
else{
eminfo.EMPktNum = node_num_1;
node_num_1--;
}
}
else{
eminfo.EMPktNum = pframe->agg_num-(index+1);
}
for(j=0;j< eminfo.EMPktNum ;j++){
eminfo.EMPktLen[j] = pxmitpriv->agg_pkt[index+1+j].pkt_len+4;// 4 bytes CRC
}
if(pmem){
if(index==0){
ptxdesc = (PTXDESC)(pmem);
pEMInfo_mem = ((u8 *)ptxdesc)+TXDESC_SIZE;
}
else{
pmem = pmem + pxmitpriv->agg_pkt[index-1].offset;
ptxdesc = (PTXDESC)(pmem);
pEMInfo_mem = ((u8 *)ptxdesc)+TXDESC_SIZE;
}
#ifdef DBG_EMINFO
DBG_8192C("%s ==> desc.pkt_len=%d\n",__FUNCTION__,ptxdesc->pktlen);
#endif
InsertEMContent_8188E(&eminfo,pEMInfo_mem);
}
}
_rtw_memset(pxmitpriv->agg_pkt,0,sizeof(struct agg_pkt_info)*MAX_AGG_PKT_NUM);
}
#endif

124
hal/rtl8188e/sdio/rtl8189es_led.c Executable file
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@ -0,0 +1,124 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#define _RTL8189ES_LED_C_
#include "drv_types.h"
#include "rtl8188e_hal.h"
//================================================================================
// LED object.
//================================================================================
//================================================================================
// Prototype of protected function.
//================================================================================
//================================================================================
// LED_819xUsb routines.
//================================================================================
//
// Description:
// Turn on LED according to LedPin specified.
//
void
SwLedOn(
_adapter *padapter,
PLED_871x pLed
)
{
u8 LedCfg;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
if( (padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE))
{
return;
}
pLed->bLedOn = _TRUE;
}
//
// Description:
// Turn off LED according to LedPin specified.
//
void
SwLedOff(
_adapter *padapter,
PLED_871x pLed
)
{
u8 LedCfg;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
if((padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE))
{
goto exit;
}
exit:
pLed->bLedOn = _FALSE;
}
//================================================================================
// Default LED behavior.
//================================================================================
//
// Description:
// Initialize all LED_871x objects.
//
void
rtl8188es_InitSwLeds(
_adapter *padapter
)
{
struct led_priv *pledpriv = &(padapter->ledpriv);
#if 0
pledpriv->LedControlHandler = LedControl871x;
InitLed871x(padapter, &(pledpriv->SwLed0), LED_PIN_LED0);
InitLed871x(padapter,&(pledpriv->SwLed1), LED_PIN_LED1);
#endif
}
//
// Description:
// DeInitialize all LED_819xUsb objects.
//
void
rtl8188es_DeInitSwLeds(
_adapter *padapter
)
{
#if 0
struct led_priv *ledpriv = &(padapter->ledpriv);
DeInitLed871x( &(ledpriv->SwLed0) );
DeInitLed871x( &(ledpriv->SwLed1) );
#endif
}

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@ -0,0 +1,861 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#define _RTL8189ES_RECV_C_
#include <drv_conf.h>
#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
#error "Shall be Linux or Windows, but not both!\n"
#endif
#include <drv_types.h>
#include <recv_osdep.h>
#include <rtl8188e_hal.h>
static void rtl8188es_recv_tasklet(void *priv);
static s32 initrecvbuf(struct recv_buf *precvbuf, PADAPTER padapter)
{
_rtw_init_listhead(&precvbuf->list);
_rtw_spinlock_init(&precvbuf->recvbuf_lock);
precvbuf->adapter = padapter;
return _SUCCESS;
}
static void freerecvbuf(struct recv_buf *precvbuf)
{
_rtw_spinlock_free(&precvbuf->recvbuf_lock);
}
/*
* Initialize recv private variable for hardware dependent
* 1. recv buf
* 2. recv tasklet
*
*/
s32 rtl8188es_init_recv_priv(PADAPTER padapter)
{
s32 res;
u32 i, n;
struct recv_priv *precvpriv;
struct recv_buf *precvbuf;
res = _SUCCESS;
precvpriv = &padapter->recvpriv;
//3 1. init recv buffer
_rtw_init_queue(&precvpriv->free_recv_buf_queue);
_rtw_init_queue(&precvpriv->recv_buf_pending_queue);
n = NR_RECVBUFF * sizeof(struct recv_buf) + 4;
precvpriv->pallocated_recv_buf = rtw_zmalloc(n);
if (precvpriv->pallocated_recv_buf == NULL) {
res = _FAIL;
RT_TRACE(_module_rtl871x_recv_c_, _drv_err_, ("alloc recv_buf fail!\n"));
goto exit;
}
precvpriv->precv_buf = (u8*)N_BYTE_ALIGMENT((SIZE_PTR)(precvpriv->pallocated_recv_buf), 4);
// init each recv buffer
precvbuf = (struct recv_buf*)precvpriv->precv_buf;
for (i = 0; i < NR_RECVBUFF; i++)
{
res = initrecvbuf(precvbuf, padapter);
if (res == _FAIL)
break;
res = rtw_os_recvbuf_resource_alloc(padapter, precvbuf);
if (res == _FAIL) {
freerecvbuf(precvbuf);
break;
}
#ifdef CONFIG_SDIO_RX_COPY
if (precvbuf->pskb == NULL) {
SIZE_PTR tmpaddr=0;
SIZE_PTR alignment=0;
precvbuf->pskb = rtw_skb_alloc(MAX_RECVBUF_SZ + RECVBUFF_ALIGN_SZ);
if(precvbuf->pskb)
{
precvbuf->pskb->dev = padapter->pnetdev;
tmpaddr = (SIZE_PTR)precvbuf->pskb->data;
alignment = tmpaddr & (RECVBUFF_ALIGN_SZ-1);
skb_reserve(precvbuf->pskb, (RECVBUFF_ALIGN_SZ - alignment));
precvbuf->phead = precvbuf->pskb->head;
precvbuf->pdata = precvbuf->pskb->data;
precvbuf->ptail = skb_tail_pointer(precvbuf->pskb);
precvbuf->pend = skb_end_pointer(precvbuf->pskb);
precvbuf->len = 0;
}
if (precvbuf->pskb == NULL) {
DBG_871X("%s: alloc_skb fail!\n", __FUNCTION__);
}
}
#endif
rtw_list_insert_tail(&precvbuf->list, &precvpriv->free_recv_buf_queue.queue);
precvbuf++;
}
precvpriv->free_recv_buf_queue_cnt = i;
if (res == _FAIL)
goto initbuferror;
//3 2. init tasklet
#ifdef PLATFORM_LINUX
tasklet_init(&precvpriv->recv_tasklet,
(void(*)(unsigned long))rtl8188es_recv_tasklet,
(unsigned long)padapter);
#endif
goto exit;
initbuferror:
precvbuf = (struct recv_buf*)precvpriv->precv_buf;
if (precvbuf) {
n = precvpriv->free_recv_buf_queue_cnt;
precvpriv->free_recv_buf_queue_cnt = 0;
for (i = 0; i < n ; i++)
{
rtw_list_delete(&precvbuf->list);
rtw_os_recvbuf_resource_free(padapter, precvbuf);
freerecvbuf(precvbuf);
precvbuf++;
}
precvpriv->precv_buf = NULL;
}
if (precvpriv->pallocated_recv_buf) {
n = NR_RECVBUFF * sizeof(struct recv_buf) + 4;
rtw_mfree(precvpriv->pallocated_recv_buf, n);
precvpriv->pallocated_recv_buf = NULL;
}
exit:
return res;
}
/*
* Free recv private variable of hardware dependent
* 1. recv buf
* 2. recv tasklet
*
*/
void rtl8188es_free_recv_priv(PADAPTER padapter)
{
u32 i, n;
struct recv_priv *precvpriv;
struct recv_buf *precvbuf;
precvpriv = &padapter->recvpriv;
//3 1. kill tasklet
#ifdef PLATFORM_LINUX
tasklet_kill(&precvpriv->recv_tasklet);
#endif
//3 2. free all recv buffers
precvbuf = (struct recv_buf*)precvpriv->precv_buf;
if (precvbuf) {
n = NR_RECVBUFF;
precvpriv->free_recv_buf_queue_cnt = 0;
for (i = 0; i < n ; i++)
{
rtw_list_delete(&precvbuf->list);
rtw_os_recvbuf_resource_free(padapter, precvbuf);
freerecvbuf(precvbuf);
precvbuf++;
}
precvpriv->precv_buf = NULL;
}
if (precvpriv->pallocated_recv_buf) {
n = NR_RECVBUFF * sizeof(struct recv_buf) + 4;
rtw_mfree(precvpriv->pallocated_recv_buf, n);
precvpriv->pallocated_recv_buf = NULL;
}
}
#ifdef CONFIG_SDIO_RX_COPY
static s32 pre_recv_entry(union recv_frame *precvframe, struct recv_buf *precvbuf, struct phy_stat *pphy_status)
{
s32 ret=_SUCCESS;
#ifdef CONFIG_CONCURRENT_MODE
u8 *primary_myid, *secondary_myid, *paddr1;
union recv_frame *precvframe_if2 = NULL;
_adapter *primary_padapter = precvframe->u.hdr.adapter;
_adapter *secondary_padapter = primary_padapter->pbuddy_adapter;
struct recv_priv *precvpriv = &primary_padapter->recvpriv;
_queue *pfree_recv_queue = &precvpriv->free_recv_queue;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(primary_padapter);
if(!secondary_padapter)
return ret;
paddr1 = GetAddr1Ptr(precvframe->u.hdr.rx_data);
if(IS_MCAST(paddr1) == _FALSE)//unicast packets
{
//primary_myid = myid(&primary_padapter->eeprompriv);
secondary_myid = myid(&secondary_padapter->eeprompriv);
if(_rtw_memcmp(paddr1, secondary_myid, ETH_ALEN))
{
//change to secondary interface
precvframe->u.hdr.adapter = secondary_padapter;
}
//ret = recv_entry(precvframe);
}
else // Handle BC/MC Packets
{
//clone/copy to if2
_pkt *pkt_copy = NULL;
struct rx_pkt_attrib *pattrib = NULL;
precvframe_if2 = rtw_alloc_recvframe(pfree_recv_queue);
if(!precvframe_if2)
return _FAIL;
precvframe_if2->u.hdr.adapter = secondary_padapter;
_rtw_memcpy(&precvframe_if2->u.hdr.attrib, &precvframe->u.hdr.attrib, sizeof(struct rx_pkt_attrib));
pattrib = &precvframe_if2->u.hdr.attrib;
//driver need to set skb len for rtw_skb_copy().
//If skb->len is zero, rtw_skb_copy() will not copy data from original skb.
skb_put(precvframe->u.hdr.pkt, pattrib->pkt_len);
pkt_copy = rtw_skb_copy( precvframe->u.hdr.pkt);
if (pkt_copy == NULL)
{
if((pattrib->mfrag == 1)&&(pattrib->frag_num == 0))
{
DBG_8192C("pre_recv_entry(): rtw_skb_copy fail , drop frag frame \n");
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
return ret;
}
pkt_copy = rtw_skb_clone(precvframe->u.hdr.pkt);
if(pkt_copy == NULL)
{
DBG_8192C("pre_recv_entry(): rtw_skb_clone fail , drop frame\n");
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
return ret;
}
}
pkt_copy->dev = secondary_padapter->pnetdev;
precvframe_if2->u.hdr.pkt = pkt_copy;
precvframe_if2->u.hdr.rx_head = pkt_copy->head;
precvframe_if2->u.hdr.rx_data = pkt_copy->data;
precvframe_if2->u.hdr.rx_tail = skb_tail_pointer(pkt_copy);
precvframe_if2->u.hdr.rx_end = skb_end_pointer(pkt_copy);
precvframe_if2->u.hdr.len = pkt_copy->len;
//recvframe_put(precvframe_if2, pattrib->pkt_len);
if ( pHalData->ReceiveConfig & RCR_APPFCS)
recvframe_pull_tail(precvframe_if2, IEEE80211_FCS_LEN);
if (pattrib->physt)
update_recvframe_phyinfo_88e(precvframe_if2, pphy_status);
if(rtw_recv_entry(precvframe_if2) != _SUCCESS)
{
RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,
("recvbuf2recvframe: rtw_recv_entry(precvframe) != _SUCCESS\n"));
}
}
if (precvframe->u.hdr.attrib.physt)
update_recvframe_phyinfo_88e(precvframe, pphy_status);
ret = rtw_recv_entry(precvframe);
#endif
return ret;
}
static void rtl8188es_recv_tasklet(void *priv)
{
PADAPTER padapter;
PHAL_DATA_TYPE pHalData;
struct recv_priv *precvpriv;
struct recv_buf *precvbuf;
union recv_frame *precvframe;
struct recv_frame_hdr *phdr;
struct rx_pkt_attrib *pattrib;
_irqL irql;
u8 *ptr;
u32 pkt_offset, skb_len, alloc_sz;
s32 transfer_len;
_pkt *pkt_copy = NULL;
struct phy_stat *pphy_status = NULL;
u8 shift_sz = 0, rx_report_sz = 0;
padapter = (PADAPTER)priv;
pHalData = GET_HAL_DATA(padapter);
precvpriv = &padapter->recvpriv;
do {
if ((padapter->bDriverStopped == _TRUE)||(padapter->bSurpriseRemoved== _TRUE))
{
DBG_8192C("recv_tasklet => bDriverStopped or bSurpriseRemoved \n");
break;
}
precvbuf = rtw_dequeue_recvbuf(&precvpriv->recv_buf_pending_queue);
if (NULL == precvbuf) break;
transfer_len = (s32)precvbuf->len;
ptr = precvbuf->pdata;
do {
precvframe = rtw_alloc_recvframe(&precvpriv->free_recv_queue);
if (precvframe == NULL) {
RT_TRACE(_module_rtl871x_recv_c_, _drv_err_, ("%s: no enough recv frame!\n",__FUNCTION__));
rtw_enqueue_recvbuf_to_head(precvbuf, &precvpriv->recv_buf_pending_queue);
// The case of can't allocte recvframe should be temporary,
// schedule again and hope recvframe is available next time.
#ifdef PLATFORM_LINUX
tasklet_schedule(&precvpriv->recv_tasklet);
#endif
return;
}
//rx desc parsing
update_recvframe_attrib_88e(precvframe, (struct recv_stat*)ptr);
pattrib = &precvframe->u.hdr.attrib;
// fix Hardware RX data error, drop whole recv_buffer
if ((!(pHalData->ReceiveConfig & RCR_ACRC32)) && pattrib->crc_err)
{
DBG_8192C("%s()-%d: RX Warning! rx CRC ERROR !!\n", __FUNCTION__, __LINE__);
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
break;
}
if (pHalData->ReceiveConfig & RCR_APP_BA_SSN)
rx_report_sz = RXDESC_SIZE + 4 + pattrib->drvinfo_sz;
else
rx_report_sz = RXDESC_SIZE + pattrib->drvinfo_sz;
pkt_offset = rx_report_sz + pattrib->shift_sz + pattrib->pkt_len;
if ((pattrib->pkt_len==0) || (pkt_offset>transfer_len)) {
DBG_8192C("%s()-%d: RX Warning!,pkt_len==0 or pkt_offset(%d)> transfoer_len(%d) \n", __FUNCTION__, __LINE__, pkt_offset, transfer_len);
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
break;
}
if ((pattrib->crc_err) || (pattrib->icv_err))
{
#ifdef CONFIG_MP_INCLUDED
if (padapter->registrypriv.mp_mode == 1)
{
if ((check_fwstate(&padapter->mlmepriv, WIFI_MP_STATE) == _TRUE))//&&(padapter->mppriv.check_mp_pkt == 0))
{
if (pattrib->crc_err == 1)
padapter->mppriv.rx_crcerrpktcount++;
}
}
#endif
DBG_8192C("%s: crc_err=%d icv_err=%d, skip!\n", __FUNCTION__, pattrib->crc_err, pattrib->icv_err);
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
}
else
{
// Modified by Albert 20101213
// For 8 bytes IP header alignment.
if (pattrib->qos) // Qos data, wireless lan header length is 26
{
shift_sz = 6;
}
else
{
shift_sz = 0;
}
skb_len = pattrib->pkt_len;
// for first fragment packet, driver need allocate 1536+drvinfo_sz+RXDESC_SIZE to defrag packet.
// modify alloc_sz for recvive crc error packet by thomas 2011-06-02
if((pattrib->mfrag == 1)&&(pattrib->frag_num == 0)){
//alloc_sz = 1664; //1664 is 128 alignment.
if(skb_len <= 1650)
alloc_sz = 1664;
else
alloc_sz = skb_len + 14;
}
else {
alloc_sz = skb_len;
// 6 is for IP header 8 bytes alignment in QoS packet case.
// 8 is for skb->data 4 bytes alignment.
alloc_sz += 14;
}
pkt_copy = rtw_skb_alloc(alloc_sz);
if(pkt_copy)
{
pkt_copy->dev = padapter->pnetdev;
precvframe->u.hdr.pkt = pkt_copy;
skb_reserve( pkt_copy, 8 - ((SIZE_PTR)( pkt_copy->data ) & 7 ));//force pkt_copy->data at 8-byte alignment address
skb_reserve( pkt_copy, shift_sz );//force ip_hdr at 8-byte alignment address according to shift_sz.
_rtw_memcpy(pkt_copy->data, (ptr + rx_report_sz + pattrib->shift_sz), skb_len);
precvframe->u.hdr.rx_head = pkt_copy->head;
precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pkt_copy->data;
precvframe->u.hdr.rx_end = skb_end_pointer(pkt_copy);
}
else
{
if((pattrib->mfrag == 1)&&(pattrib->frag_num == 0))
{
DBG_8192C("rtl8188es_recv_tasklet: alloc_skb fail , drop frag frame \n");
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
break;
}
precvframe->u.hdr.pkt = rtw_skb_clone(precvbuf->pskb);
if(precvframe->u.hdr.pkt)
{
_pkt *pkt_clone = precvframe->u.hdr.pkt;
pkt_clone->data = ptr + rx_report_sz + pattrib->shift_sz;
skb_reset_tail_pointer(pkt_clone);
precvframe->u.hdr.rx_head = precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail
= pkt_clone->data;
precvframe->u.hdr.rx_end = pkt_clone->data + skb_len;
}
else
{
DBG_8192C("rtl8188es_recv_tasklet: rtw_skb_clone fail\n");
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
break;
}
}
recvframe_put(precvframe, skb_len);
//recvframe_pull(precvframe, drvinfo_sz + RXDESC_SIZE);
if (pHalData->ReceiveConfig & RCR_APPFCS)
recvframe_pull_tail(precvframe, IEEE80211_FCS_LEN);
// update drv info
if (pHalData->ReceiveConfig & RCR_APP_BA_SSN) {
//rtl8723s_update_bassn(padapter, (ptr + RXDESC_SIZE));
}
if(pattrib->pkt_rpt_type == NORMAL_RX)//Normal rx packet
{
pphy_status = (struct phy_stat *)(ptr + (rx_report_sz - pattrib->drvinfo_sz));
#ifdef CONFIG_CONCURRENT_MODE
if(rtw_buddy_adapter_up(padapter))
{
if(pre_recv_entry(precvframe, precvbuf, (struct phy_stat*)pphy_status) != _SUCCESS)
{
RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,
("recvbuf2recvframe: recv_entry(precvframe) != _SUCCESS\n"));
}
}
else
#endif
{
if (pattrib->physt)
update_recvframe_phyinfo_88e(precvframe, (struct phy_stat*)pphy_status);
if (rtw_recv_entry(precvframe) != _SUCCESS)
{
RT_TRACE(_module_rtl871x_recv_c_, _drv_err_, ("%s: rtw_recv_entry(precvframe) != _SUCCESS\n",__FUNCTION__));
}
}
}
else{ // pkt_rpt_type == TX_REPORT1-CCX, TX_REPORT2-TX RTP,HIS_REPORT-USB HISR RTP
//enqueue recvframe to txrtp queue
if(pattrib->pkt_rpt_type == TX_REPORT1){
//DBG_8192C("rx CCX \n");
//CCX-TXRPT ack for xmit mgmt frames.
handle_txrpt_ccx_88e(padapter, precvframe->u.hdr.rx_data);
}
else if(pattrib->pkt_rpt_type == TX_REPORT2){
//printk("rx TX RPT \n");
ODM_RA_TxRPT2Handle_8188E(
&pHalData->odmpriv,
precvframe->u.hdr.rx_data,
pattrib->pkt_len,
pattrib->MacIDValidEntry[0],
pattrib->MacIDValidEntry[1]
);
}
/*
else if(pattrib->pkt_rpt_type == HIS_REPORT){
printk("rx USB HISR \n");
}*/
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
}
}
// Page size of receive package is 128 bytes alignment =>DMA AGG
// refer to _InitTransferPageSize()
pkt_offset = _RND128(pkt_offset);
transfer_len -= pkt_offset;
ptr += pkt_offset;
precvframe = NULL;
pkt_copy = NULL;
}while(transfer_len>0);
precvbuf->len = 0;
rtw_enqueue_recvbuf(precvbuf, &precvpriv->free_recv_buf_queue);
} while (1);
}
#else
static s32 pre_recv_entry(union recv_frame *precvframe, struct recv_buf *precvbuf, struct phy_stat *pphy_status)
{
s32 ret=_SUCCESS;
#ifdef CONFIG_CONCURRENT_MODE
u8 *primary_myid, *secondary_myid, *paddr1;
union recv_frame *precvframe_if2 = NULL;
_adapter *primary_padapter = precvframe->u.hdr.adapter;
_adapter *secondary_padapter = primary_padapter->pbuddy_adapter;
struct recv_priv *precvpriv = &primary_padapter->recvpriv;
_queue *pfree_recv_queue = &precvpriv->free_recv_queue;
u8 *pbuf = precvframe->u.hdr.rx_head;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(primary_padapter);
if(!secondary_padapter)
return ret;
paddr1 = GetAddr1Ptr(precvframe->u.hdr.rx_data);
if(IS_MCAST(paddr1) == _FALSE)//unicast packets
{
//primary_myid = myid(&primary_padapter->eeprompriv);
secondary_myid = myid(&secondary_padapter->eeprompriv);
if(_rtw_memcmp(paddr1, secondary_myid, ETH_ALEN))
{
//change to secondary interface
precvframe->u.hdr.adapter = secondary_padapter;
}
//ret = recv_entry(precvframe);
}
else // Handle BC/MC Packets
{
//clone/copy to if2
u8 shift_sz = 0;
u32 alloc_sz, skb_len;
_pkt *pkt_copy = NULL;
struct rx_pkt_attrib *pattrib = NULL;
precvframe_if2 = rtw_alloc_recvframe(pfree_recv_queue);
if(!precvframe_if2)
return _FAIL;
precvframe_if2->u.hdr.adapter = secondary_padapter;
_rtw_init_listhead(&precvframe_if2->u.hdr.list);
precvframe_if2->u.hdr.precvbuf = NULL; //can't access the precvbuf for new arch.
precvframe_if2->u.hdr.len=0;
_rtw_memcpy(&precvframe_if2->u.hdr.attrib, &precvframe->u.hdr.attrib, sizeof(struct rx_pkt_attrib));
pattrib = &precvframe_if2->u.hdr.attrib;
pkt_copy = rtw_skb_copy( precvframe->u.hdr.pkt);
if (pkt_copy == NULL)
{
RT_TRACE(_module_rtl871x_recv_c_, _drv_crit_, ("%s: no enough memory to allocate SKB!\n",__FUNCTION__));
rtw_free_recvframe(precvframe_if2, &precvpriv->free_recv_queue);
rtw_enqueue_recvbuf_to_head(precvbuf, &precvpriv->recv_buf_pending_queue);
// The case of can't allocte skb is serious and may never be recovered,
// once bDriverStopped is enable, this task should be stopped.
if (secondary_padapter->bDriverStopped == _FALSE)
#ifdef PLATFORM_LINUX
tasklet_schedule(&precvpriv->recv_tasklet);
#endif
return ret;
}
pkt_copy->dev = secondary_padapter->pnetdev;
if((pattrib->mfrag == 1)&&(pattrib->frag_num == 0)){
//alloc_sz = 1664; //1664 is 128 alignment.
if(skb_len <= 1650)
alloc_sz = 1664;
else
alloc_sz = skb_len + 14;
}
else {
alloc_sz = skb_len;
// 6 is for IP header 8 bytes alignment in QoS packet case.
// 8 is for skb->data 4 bytes alignment.
alloc_sz += 14;
}
#if 1
precvframe_if2->u.hdr.pkt = pkt_copy;
precvframe_if2->u.hdr.rx_head = pkt_copy->head;
precvframe_if2->u.hdr.rx_data = precvframe_if2->u.hdr.rx_tail = pkt_copy->data;
precvframe_if2->u.hdr.rx_end = pkt_copy->data + alloc_sz;
#endif
recvframe_put(precvframe_if2, pkt_offset);
recvframe_pull(precvframe_if2, RXDESC_SIZE + pattrib->drvinfo_sz);
if ( pHalData->ReceiveConfig & RCR_APPFCS)
recvframe_pull_tail(precvframe_if2, IEEE80211_FCS_LEN);
if (pattrib->physt)
update_recvframe_phyinfo_88e(precvframe_if2, pphy_status);
if(rtw_recv_entry(precvframe_if2) != _SUCCESS)
{
RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,
("recvbuf2recvframe: rtw_recv_entry(precvframe) != _SUCCESS\n"));
}
}
if (precvframe->u.hdr.attrib.physt)
update_recvframe_phyinfo_88e(precvframe, (struct phy_stat*)pphy_status);
ret = rtw_recv_entry(precvframe);
#endif
return ret;
}
static void rtl8188es_recv_tasklet(void *priv)
{
PADAPTER padapter;
PHAL_DATA_TYPE pHalData;
struct recv_priv *precvpriv;
struct recv_buf *precvbuf;
union recv_frame *precvframe;
struct recv_frame_hdr *phdr;
struct rx_pkt_attrib *pattrib;
u8 *ptr;
_pkt *ppkt;
u32 pkt_offset;
_irqL irql;
#ifdef CONFIG_CONCURRENT_MODE
struct recv_stat *prxstat;
#endif
padapter = (PADAPTER)priv;
pHalData = GET_HAL_DATA(padapter);
precvpriv = &padapter->recvpriv;
do {
precvbuf = rtw_dequeue_recvbuf(&precvpriv->recv_buf_pending_queue);
if (NULL == precvbuf) break;
ptr = precvbuf->pdata;
while (ptr < precvbuf->ptail)
{
precvframe = rtw_alloc_recvframe(&precvpriv->free_recv_queue);
if (precvframe == NULL) {
RT_TRACE(_module_rtl871x_recv_c_, _drv_err_, ("%s: no enough recv frame!\n",__FUNCTION__));
rtw_enqueue_recvbuf_to_head(precvbuf, &precvpriv->recv_buf_pending_queue);
// The case of can't allocte recvframe should be temporary,
// schedule again and hope recvframe is available next time.
#ifdef PLATFORM_LINUX
tasklet_schedule(&precvpriv->recv_tasklet);
#endif
return;
}
phdr = &precvframe->u.hdr;
pattrib = &phdr->attrib;
//rx desc parsing
update_recvframe_attrib_88e(precvframe, (struct recv_stat*)ptr);
#ifdef CONFIG_CONCURRENT_MODE
prxstat = (struct recv_stat*)ptr;
#endif
// fix Hardware RX data error, drop whole recv_buffer
if ((!(pHalData->ReceiveConfig & RCR_ACRC32)) && pattrib->crc_err)
{
DBG_8192C("%s()-%d: RX Warning! rx CRC ERROR !!\n", __FUNCTION__, __LINE__);
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
break;
}
pkt_offset = RXDESC_SIZE + pattrib->drvinfo_sz + pattrib->pkt_len;
if ((ptr + pkt_offset) > precvbuf->ptail) {
DBG_8192C("%s()-%d: : next pkt len(%p,%d) exceed ptail(%p)!\n", __FUNCTION__, __LINE__, ptr, pkt_offset, precvbuf->ptail);
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
break;
}
if ((pattrib->crc_err) || (pattrib->icv_err))
{
#ifdef CONFIG_MP_INCLUDED
if (padapter->registrypriv.mp_mode == 1)
{
if ((check_fwstate(&padapter->mlmepriv, WIFI_MP_STATE) == _TRUE))//&&(padapter->mppriv.check_mp_pkt == 0))
{
if (pattrib->crc_err == 1)
padapter->mppriv.rx_crcerrpktcount++;
}
}
#endif
DBG_8192C("%s: crc_err=%d icv_err=%d, skip!\n", __FUNCTION__, pattrib->crc_err, pattrib->icv_err);
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
}
else
{
ppkt = rtw_skb_clone(precvbuf->pskb);
if (ppkt == NULL)
{
RT_TRACE(_module_rtl871x_recv_c_, _drv_crit_, ("%s: no enough memory to allocate SKB!\n",__FUNCTION__));
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
rtw_enqueue_recvbuf_to_head(precvbuf, &precvpriv->recv_buf_pending_queue);
// The case of can't allocte skb is serious and may never be recovered,
// once bDriverStopped is enable, this task should be stopped.
if (padapter->bDriverStopped == _FALSE) {
#ifdef PLATFORM_LINUX
tasklet_schedule(&precvpriv->recv_tasklet);
#endif
}
return;
}
phdr->pkt = ppkt;
phdr->len = 0;
phdr->rx_head = precvbuf->phead;
phdr->rx_data = phdr->rx_tail = precvbuf->pdata;
phdr->rx_end = precvbuf->pend;
recvframe_put(precvframe, pkt_offset);
recvframe_pull(precvframe, RXDESC_SIZE + pattrib->drvinfo_sz);
if (pHalData->ReceiveConfig & RCR_APPFCS)
recvframe_pull_tail(precvframe, IEEE80211_FCS_LEN);
// move to drv info position
ptr += RXDESC_SIZE;
// update drv info
if (pHalData->ReceiveConfig & RCR_APP_BA_SSN) {
// rtl8723s_update_bassn(padapter, pdrvinfo);
ptr += 4;
}
if(pattrib->pkt_rpt_type == NORMAL_RX)//Normal rx packet
{
#ifdef CONFIG_CONCURRENT_MODE
if(rtw_buddy_adapter_up(padapter))
{
if(pre_recv_entry(precvframe, precvbuf, (struct phy_stat*)ptr) != _SUCCESS)
{
RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,
("recvbuf2recvframe: recv_entry(precvframe) != _SUCCESS\n"));
}
}
else
#endif
{
if (pattrib->physt)
update_recvframe_phyinfo_88e(precvframe, (struct phy_stat*)ptr);
if (rtw_recv_entry(precvframe) != _SUCCESS)
{
RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,
("recvbuf2recvframe: rtw_recv_entry(precvframe) != _SUCCESS\n"));
}
}
}
else{ // pkt_rpt_type == TX_REPORT1-CCX, TX_REPORT2-TX RTP,HIS_REPORT-USB HISR RTP
//enqueue recvframe to txrtp queue
if(pattrib->pkt_rpt_type == TX_REPORT1){
DBG_8192C("rx CCX \n");
}
else if(pattrib->pkt_rpt_type == TX_REPORT2){
//DBG_8192C("rx TX RPT \n");
ODM_RA_TxRPT2Handle_8188E(
&pHalData->odmpriv,
precvframe->u.hdr.rx_data,
pattrib->pkt_len,
pattrib->MacIDValidEntry[0],
pattrib->MacIDValidEntry[1]
);
}
/*
else if(pattrib->pkt_rpt_type == HIS_REPORT){
DBG_8192C("rx USB HISR \n");
}*/
rtw_free_recvframe(precvframe, &precvpriv->free_recv_queue);
}
}
// Page size of receive package is 128 bytes alignment =>DMA AGG
// refer to _InitTransferPageSize()
pkt_offset = _RND128(pkt_offset);
precvbuf->pdata += pkt_offset;
ptr = precvbuf->pdata;
}
rtw_skb_free(precvbuf->pskb);
precvbuf->pskb = NULL;
rtw_enqueue_recvbuf(precvbuf, &precvpriv->free_recv_buf_queue);
} while (1);
}
#endif

1720
hal/rtl8188e/sdio/rtl8189es_xmit.c Executable file

File diff suppressed because it is too large Load diff

4218
hal/rtl8188e/sdio/sdio_halinit.c Executable file

File diff suppressed because it is too large Load diff

1959
hal/rtl8188e/sdio/sdio_ops.c Executable file

File diff suppressed because it is too large Load diff

170
hal/rtl8188e/usb/rtl8188eu_led.c Executable file
View file

@ -0,0 +1,170 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <rtl8188e_hal.h>
//================================================================================
// LED object.
//================================================================================
//================================================================================
// Prototype of protected function.
//================================================================================
//================================================================================
// LED_819xUsb routines.
//================================================================================
//
// Description:
// Turn on LED according to LedPin specified.
//
void
SwLedOn(
_adapter *padapter,
PLED_871x pLed
)
{
u8 LedCfg;
//HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
if( (padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE))
{
return;
}
LedCfg = rtw_read8(padapter, REG_LEDCFG2);
switch(pLed->LedPin)
{
case LED_PIN_LED0:
rtw_write8(padapter, REG_LEDCFG2, (LedCfg&0xf0)|BIT5|BIT6); // SW control led0 on.
break;
case LED_PIN_LED1:
rtw_write8(padapter, REG_LEDCFG2, (LedCfg&0x0f)|BIT5); // SW control led1 on.
break;
default:
break;
}
pLed->bLedOn = _TRUE;
}
//
// Description:
// Turn off LED according to LedPin specified.
//
void
SwLedOff(
_adapter *padapter,
PLED_871x pLed
)
{
u8 LedCfg;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
if((padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE))
{
goto exit;
}
LedCfg = rtw_read8(padapter, REG_LEDCFG2);//0x4E
switch(pLed->LedPin)
{
case LED_PIN_LED0:
if(pHalData->bLedOpenDrain == _TRUE) // Open-drain arrangement for controlling the LED)
{
LedCfg &= 0x90; // Set to software control.
rtw_write8(padapter, REG_LEDCFG2, (LedCfg|BIT3));
LedCfg = rtw_read8(padapter, REG_MAC_PINMUX_CFG);
LedCfg &= 0xFE;
rtw_write8(padapter, REG_MAC_PINMUX_CFG, LedCfg);
}
else
{
rtw_write8(padapter, REG_LEDCFG2, (LedCfg|BIT3|BIT5|BIT6));
}
break;
case LED_PIN_LED1:
LedCfg &= 0x0f; // Set to software control.
rtw_write8(padapter, REG_LEDCFG2, (LedCfg|BIT3));
break;
default:
break;
}
exit:
pLed->bLedOn = _FALSE;
}
//================================================================================
// Interface to manipulate LED objects.
//================================================================================
//================================================================================
// Default LED behavior.
//================================================================================
//
// Description:
// Initialize all LED_871x objects.
//
void
rtl8188eu_InitSwLeds(
_adapter *padapter
)
{
struct led_priv *pledpriv = &(padapter->ledpriv);
pledpriv->LedControlHandler = LedControl871x;
InitLed871x(padapter, &(pledpriv->SwLed0), LED_PIN_LED0);
InitLed871x(padapter,&(pledpriv->SwLed1), LED_PIN_LED1);
}
//
// Description:
// DeInitialize all LED_819xUsb objects.
//
void
rtl8188eu_DeInitSwLeds(
_adapter *padapter
)
{
struct led_priv *ledpriv = &(padapter->ledpriv);
DeInitLed871x( &(ledpriv->SwLed0) );
DeInitLed871x( &(ledpriv->SwLed1) );
}

234
hal/rtl8188e/usb/rtl8188eu_recv.c Executable file
View file

@ -0,0 +1,234 @@
/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#define _RTL8188EU_RECV_C_
#include <drv_conf.h>
#include <osdep_service.h>
#include <drv_types.h>
#include <recv_osdep.h>
#include <mlme_osdep.h>
#include <ip.h>
#include <if_ether.h>
#include <ethernet.h>
#include <usb_ops.h>
#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
#error "Shall be Linux or Windows, but not both!\n"
#endif
#include <wifi.h>
#include <circ_buf.h>
#include <rtl8188e_hal.h>
void rtl8188eu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf)
{
precvbuf->transfer_len = 0;
precvbuf->len = 0;
precvbuf->ref_cnt = 0;
if(precvbuf->pbuf)
{
precvbuf->pdata = precvbuf->phead = precvbuf->ptail = precvbuf->pbuf;
precvbuf->pend = precvbuf->pdata + MAX_RECVBUF_SZ;
}
}
int rtl8188eu_init_recv_priv(_adapter *padapter)
{
struct recv_priv *precvpriv = &padapter->recvpriv;
int i, res = _SUCCESS;
struct recv_buf *precvbuf;
#ifdef CONFIG_RECV_THREAD_MODE
_rtw_init_sema(&precvpriv->recv_sema, 0);//will be removed
_rtw_init_sema(&precvpriv->terminate_recvthread_sema, 0);//will be removed
#endif
#ifdef PLATFORM_LINUX
tasklet_init(&precvpriv->recv_tasklet,
(void(*)(unsigned long))rtl8188eu_recv_tasklet,
(unsigned long)padapter);
#endif
#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
#ifdef PLATFORM_LINUX
precvpriv->int_in_urb = usb_alloc_urb(0, GFP_KERNEL);
if(precvpriv->int_in_urb == NULL){
res= _FAIL;
DBG_8192C("alloc_urb for interrupt in endpoint fail !!!!\n");
goto exit;
}
#endif
precvpriv->int_in_buf = rtw_zmalloc(INTERRUPT_MSG_FORMAT_LEN);
if(precvpriv->int_in_buf == NULL){
res= _FAIL;
DBG_8192C("alloc_mem for interrupt in endpoint fail !!!!\n");
goto exit;
}
#endif
//init recv_buf
_rtw_init_queue(&precvpriv->free_recv_buf_queue);
#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
_rtw_init_queue(&precvpriv->recv_buf_pending_queue);
#endif // CONFIG_USE_USB_BUFFER_ALLOC_RX
precvpriv->pallocated_recv_buf = rtw_zmalloc(NR_RECVBUFF *sizeof(struct recv_buf) + 4);
if(precvpriv->pallocated_recv_buf==NULL){
res= _FAIL;
RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("alloc recv_buf fail!\n"));
goto exit;
}
_rtw_memset(precvpriv->pallocated_recv_buf, 0, NR_RECVBUFF *sizeof(struct recv_buf) + 4);
precvpriv->precv_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(precvpriv->pallocated_recv_buf), 4);
//precvpriv->precv_buf = precvpriv->pallocated_recv_buf + 4 -
// ((uint) (precvpriv->pallocated_recv_buf) &(4-1));
precvbuf = (struct recv_buf*)precvpriv->precv_buf;
for(i=0; i < NR_RECVBUFF ; i++)
{
_rtw_init_listhead(&precvbuf->list);
_rtw_spinlock_init(&precvbuf->recvbuf_lock);
precvbuf->alloc_sz = MAX_RECVBUF_SZ;
res = rtw_os_recvbuf_resource_alloc(padapter, precvbuf);
if(res==_FAIL)
break;
precvbuf->ref_cnt = 0;
precvbuf->adapter =padapter;
//rtw_list_insert_tail(&precvbuf->list, &(precvpriv->free_recv_buf_queue.queue));
precvbuf++;
}
precvpriv->free_recv_buf_queue_cnt = NR_RECVBUFF;
#ifdef PLATFORM_LINUX
skb_queue_head_init(&precvpriv->rx_skb_queue);
#ifdef CONFIG_PREALLOC_RECV_SKB
{
int i;
SIZE_PTR tmpaddr=0;
SIZE_PTR alignment=0;
struct sk_buff *pskb=NULL;
skb_queue_head_init(&precvpriv->free_recv_skb_queue);
for(i=0; i<NR_PREALLOC_RECV_SKB; i++)
{
pskb = rtw_skb_alloc(MAX_RECVBUF_SZ + RECVBUFF_ALIGN_SZ);
if(pskb)
{
pskb->dev = padapter->pnetdev;
tmpaddr = (SIZE_PTR)pskb->data;
alignment = tmpaddr & (RECVBUFF_ALIGN_SZ-1);
skb_reserve(pskb, (RECVBUFF_ALIGN_SZ - alignment));
skb_queue_tail(&precvpriv->free_recv_skb_queue, pskb);
}
pskb=NULL;
}
}
#endif
#endif
exit:
return res;
}
void rtl8188eu_free_recv_priv (_adapter *padapter)
{
int i;
struct recv_buf *precvbuf;
struct recv_priv *precvpriv = &padapter->recvpriv;
precvbuf = (struct recv_buf *)precvpriv->precv_buf;
for(i=0; i < NR_RECVBUFF ; i++)
{
rtw_os_recvbuf_resource_free(padapter, precvbuf);
precvbuf++;
}
if(precvpriv->pallocated_recv_buf)
rtw_mfree(precvpriv->pallocated_recv_buf, NR_RECVBUFF *sizeof(struct recv_buf) + 4);
#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
#ifdef PLATFORM_LINUX
if(precvpriv->int_in_urb)
{
usb_free_urb(precvpriv->int_in_urb);
}
#endif//PLATFORM_LINUX
if(precvpriv->int_in_buf)
rtw_mfree(precvpriv->int_in_buf, INTERRUPT_MSG_FORMAT_LEN);
#endif//CONFIG_USB_INTERRUPT_IN_PIPE
#ifdef PLATFORM_LINUX
if (skb_queue_len(&precvpriv->rx_skb_queue)) {
DBG_8192C(KERN_WARNING "rx_skb_queue not empty\n");
}
rtw_skb_queue_purge(&precvpriv->rx_skb_queue);
#ifdef CONFIG_PREALLOC_RECV_SKB
if (skb_queue_len(&precvpriv->free_recv_skb_queue)) {
DBG_8192C(KERN_WARNING "free_recv_skb_queue not empty, %d\n", skb_queue_len(&precvpriv->free_recv_skb_queue));
}
rtw_skb_queue_purge(&precvpriv->free_recv_skb_queue);
#endif
#endif
}

1370
hal/rtl8188e/usb/rtl8188eu_xmit.c Executable file

File diff suppressed because it is too large Load diff

5370
hal/rtl8188e/usb/usb_halinit.c Executable file

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1743
hal/rtl8188e/usb/usb_ops_linux.c Executable file

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433
include/Hal8188EPhyCfg.h Normal file → Executable file
View file

@ -20,10 +20,11 @@
#ifndef __INC_HAL8188EPHYCFG_H__
#define __INC_HAL8188EPHYCFG_H__
/*--------------------------Define Parameters-------------------------------*/
#define LOOP_LIMIT 5
#define MAX_STALL_TIME 50 /* us */
#define AntennaDiversityValue 0x80
#define MAX_STALL_TIME 50 //us
#define AntennaDiversityValue 0x80 //(Adapter->bSoftwareAntennaDiversity ? 0x00:0x80)
#define MAX_TXPWR_IDX_NMODE_92S 63
#define Reset_Cnt_Limit 3
@ -32,12 +33,18 @@
#define IQK_BB_REG_NUM 9
#define HP_THERMAL_NUM 8
#ifdef CONFIG_PCI_HCI
#define MAX_AGGR_NUM 0x0B
#else
#define MAX_AGGR_NUM 0x07
#endif // CONFIG_PCI_HCI
/*--------------------------Define Parameters-------------------------------*/
/*------------------------------Define structure----------------------------*/
enum sw_chnl_cmd_id {
typedef enum _SwChnlCmdID{
CmdID_End,
CmdID_SetTxPowerLevel,
CmdID_BBRegWrite10,
@ -45,44 +52,45 @@ enum sw_chnl_cmd_id {
CmdID_WritePortUshort,
CmdID_WritePortUchar,
CmdID_RF_WriteReg,
};
}SwChnlCmdID;
/* 1. Switch channel related */
struct sw_chnl_cmd {
enum sw_chnl_cmd_id CmdID;
typedef struct _SwChnlCmd{
SwChnlCmdID CmdID;
u32 Para1;
u32 Para2;
u32 msDelay;
};
}SwChnlCmd;
enum hw90_block {
typedef enum _HW90_BLOCK{
HW90_BLOCK_MAC = 0,
HW90_BLOCK_PHY0 = 1,
HW90_BLOCK_PHY1 = 2,
HW90_BLOCK_RF = 3,
HW90_BLOCK_MAXIMUM = 4, /* Never use this */
};
HW90_BLOCK_MAXIMUM = 4, // Never use this
}HW90_BLOCK_E, *PHW90_BLOCK_E;
enum rf_radio_path {
RF_PATH_A = 0, /* Radio Path A */
RF_PATH_B = 1, /* Radio Path B */
RF_PATH_C = 2, /* Radio Path C */
RF_PATH_D = 3, /* Radio Path D */
};
typedef enum _RF_RADIO_PATH{
RF_PATH_A = 0, //Radio Path A
RF_PATH_B = 1, //Radio Path B
RF_PATH_C = 2, //Radio Path C
RF_PATH_D = 3, //Radio Path D
//RF_PATH_MAX //Max RF number 90 support
}RF_RADIO_PATH_E, *PRF_RADIO_PATH_E;
#define MAX_PG_GROUP 13
#define RF_PATH_MAX 3
#define RF_PATH_MAX 2
#define MAX_RF_PATH RF_PATH_MAX
#define MAX_TX_COUNT 4 /* path numbers */
#define MAX_TX_COUNT_88E 1
#define MAX_TX_COUNT MAX_TX_COUNT_88E // 4 //path numbers
#define CHANNEL_MAX_NUMBER 14 /* 14 is the max chnl number */
#define MAX_CHNL_GROUP_24G 6 /* ch1~2, ch3~5, ch6~8,
*ch9~11, ch12~13, CH 14
* total three groups */
#define CHANNEL_MAX_NUMBER 14 // 14 is the max channel number
#define MAX_CHNL_GROUP_24G 6 // ch1~2, ch3~5, ch6~8,ch9~11,ch12~13,CH 14 total six groups
#define CHANNEL_GROUP_MAX_88E 6
enum wireless_mode {
typedef enum _WIRELESS_MODE {
WIRELESS_MODE_UNKNOWN = 0x00,
WIRELESS_MODE_A = BIT2,
WIRELESS_MODE_B = BIT0,
@ -91,9 +99,10 @@ enum wireless_mode {
WIRELESS_MODE_N_24G = BIT3,
WIRELESS_MODE_N_5G = BIT4,
WIRELESS_MODE_AC = BIT6
};
} WIRELESS_MODE;
enum phy_rate_tx_offset_area {
typedef enum _PHY_Rate_Tx_Power_Offset_Area{
RA_OFFSET_LEGACY_OFDM1,
RA_OFFSET_LEGACY_OFDM2,
RA_OFFSET_HT_OFDM1,
@ -101,68 +110,79 @@ enum phy_rate_tx_offset_area {
RA_OFFSET_HT_OFDM3,
RA_OFFSET_HT_OFDM4,
RA_OFFSET_HT_CCK,
};
}RA_OFFSET_AREA,*PRA_OFFSET_AREA;
/* BB/RF related */
enum RF_TYPE_8190P {
RF_TYPE_MIN, /* 0 */
RF_8225 = 1, /* 1 11b/g RF for verification only */
RF_8256 = 2, /* 2 11b/g/n */
RF_8258 = 3, /* 3 11a/b/g/n RF */
RF_6052 = 4, /* 4 11b/g/n RF */
/* TODO: We should remove this psudo PHY RF after we get new RF. */
RF_PSEUDO_11N = 5, /* 5, It is a temporality RF. */
};
typedef enum _RF_TYPE_8190P{
RF_TYPE_MIN, // 0
RF_8225=1, // 1 11b/g RF for verification only
RF_8256=2, // 2 11b/g/n
RF_8258=3, // 3 11a/b/g/n RF
RF_6052=4, // 4 11b/g/n RF
//RF_6052=5, // 4 11b/g/n RF
// TODO: We sholud remove this psudo PHY RF after we get new RF.
RF_PSEUDO_11N=5, // 5, It is a temporality RF.
}RF_TYPE_8190P_E,*PRF_TYPE_8190P_E;
struct bb_reg_def {
u32 rfintfs; /* set software control: */
/* 0x870~0x877[8 bytes] */
u32 rfintfi; /* readback data: */
/* 0x8e0~0x8e7[8 bytes] */
u32 rfintfo; /* output data: */
/* 0x860~0x86f [16 bytes] */
u32 rfintfe; /* output enable: */
/* 0x860~0x86f [16 bytes] */
u32 rf3wireOffset; /* LSSI data: */
/* 0x840~0x84f [16 bytes] */
u32 rfLSSI_Select; /* BB Band Select: */
/* 0x878~0x87f [8 bytes] */
u32 rfTxGainStage; /* Tx gain stage: */
/* 0x80c~0x80f [4 bytes] */
u32 rfHSSIPara1; /* wire parameter control1 : */
/* 0x820~0x823,0x828~0x82b,
* 0x830~0x833, 0x838~0x83b [16 bytes] */
u32 rfHSSIPara2; /* wire parameter control2 : */
/* 0x824~0x827,0x82c~0x82f, 0x834~0x837,
* 0x83c~0x83f [16 bytes] */
u32 rfSwitchControl; /* Tx Rx antenna control : */
/* 0x858~0x85f [16 bytes] */
u32 rfAGCControl1; /* AGC parameter control1 : */
/* 0xc50~0xc53,0xc58~0xc5b, 0xc60~0xc63,
* 0xc68~0xc6b [16 bytes] */
u32 rfAGCControl2; /* AGC parameter control2 : */
/* 0xc54~0xc57,0xc5c~0xc5f, 0xc64~0xc67,
* 0xc6c~0xc6f [16 bytes] */
u32 rfRxIQImbalance; /* OFDM Rx IQ imbalance matrix : */
/* 0xc14~0xc17,0xc1c~0xc1f, 0xc24~0xc27,
* 0xc2c~0xc2f [16 bytes] */
u32 rfRxAFE; /* Rx IQ DC ofset and Rx digital filter,
* Rx DC notch filter : */
/* 0xc10~0xc13,0xc18~0xc1b, 0xc20~0xc23,
* 0xc28~0xc2b [16 bytes] */
u32 rfTxIQImbalance; /* OFDM Tx IQ imbalance matrix */
/* 0xc80~0xc83,0xc88~0xc8b, 0xc90~0xc93,
* 0xc98~0xc9b [16 bytes] */
u32 rfTxAFE; /* Tx IQ DC Offset and Tx DFIR type */
/* 0xc84~0xc87,0xc8c~0xc8f, 0xc94~0xc97,
* 0xc9c~0xc9f [16 bytes] */
u32 rfLSSIReadBack; /* LSSI RF readback data SI mode */
/* 0x8a0~0x8af [16 bytes] */
u32 rfLSSIReadBackPi; /* LSSI RF readback data PI mode 0x8b8-8bc for
* Path A and B */
};
struct ant_sel_ofdm {
typedef struct _BB_REGISTER_DEFINITION{
u32 rfintfs; // set software control:
// 0x870~0x877[8 bytes]
u32 rfintfi; // readback data:
// 0x8e0~0x8e7[8 bytes]
u32 rfintfo; // output data:
// 0x860~0x86f [16 bytes]
u32 rfintfe; // output enable:
// 0x860~0x86f [16 bytes]
u32 rf3wireOffset; // LSSI data:
// 0x840~0x84f [16 bytes]
u32 rfLSSI_Select; // BB Band Select:
// 0x878~0x87f [8 bytes]
u32 rfTxGainStage; // Tx gain stage:
// 0x80c~0x80f [4 bytes]
u32 rfHSSIPara1; // wire parameter control1 :
// 0x820~0x823,0x828~0x82b, 0x830~0x833, 0x838~0x83b [16 bytes]
u32 rfHSSIPara2; // wire parameter control2 :
// 0x824~0x827,0x82c~0x82f, 0x834~0x837, 0x83c~0x83f [16 bytes]
u32 rfSwitchControl; //Tx Rx antenna control :
// 0x858~0x85f [16 bytes]
u32 rfAGCControl1; //AGC parameter control1 :
// 0xc50~0xc53,0xc58~0xc5b, 0xc60~0xc63, 0xc68~0xc6b [16 bytes]
u32 rfAGCControl2; //AGC parameter control2 :
// 0xc54~0xc57,0xc5c~0xc5f, 0xc64~0xc67, 0xc6c~0xc6f [16 bytes]
u32 rfRxIQImbalance; //OFDM Rx IQ imbalance matrix :
// 0xc14~0xc17,0xc1c~0xc1f, 0xc24~0xc27, 0xc2c~0xc2f [16 bytes]
u32 rfRxAFE; //Rx IQ DC ofset and Rx digital filter, Rx DC notch filter :
// 0xc10~0xc13,0xc18~0xc1b, 0xc20~0xc23, 0xc28~0xc2b [16 bytes]
u32 rfTxIQImbalance; //OFDM Tx IQ imbalance matrix
// 0xc80~0xc83,0xc88~0xc8b, 0xc90~0xc93, 0xc98~0xc9b [16 bytes]
u32 rfTxAFE; //Tx IQ DC Offset and Tx DFIR type
// 0xc84~0xc87,0xc8c~0xc8f, 0xc94~0xc97, 0xc9c~0xc9f [16 bytes]
u32 rfLSSIReadBack; //LSSI RF readback data SI mode
// 0x8a0~0x8af [16 bytes]
u32 rfLSSIReadBackPi; //LSSI RF readback data PI mode 0x8b8-8bc for Path A and B
}BB_REGISTER_DEFINITION_T, *PBB_REGISTER_DEFINITION_T;
typedef struct _R_ANTENNA_SELECT_OFDM{
u32 r_tx_antenna:4;
u32 r_ant_l:4;
u32 r_ant_non_ht:4;
@ -171,100 +191,239 @@ struct ant_sel_ofdm {
u32 r_ant_ht_s1:4;
u32 r_ant_non_ht_s1:4;
u32 OFDM_TXSC:2;
u32 reserved:2;
};
u32 Reserved:2;
}R_ANTENNA_SELECT_OFDM;
struct ant_sel_cck {
typedef struct _R_ANTENNA_SELECT_CCK{
u8 r_cckrx_enable_2:2;
u8 r_cckrx_enable:2;
u8 r_ccktx_enable:4;
};
}R_ANTENNA_SELECT_CCK;
/*------------------------------Define structure----------------------------*/
/*------------------------Export global variable----------------------------*/
/*------------------------Export global variable----------------------------*/
/*------------------------Export Marco Definition---------------------------*/
/*------------------------Export Marco Definition---------------------------*/
/*--------------------------Exported Function prototype---------------------*/
/* */
/* BB and RF register read/write */
/* */
u32 rtl8188e_PHY_QueryBBReg(struct adapter *adapter, u32 regaddr, u32 mask);
void rtl8188e_PHY_SetBBReg(struct adapter *Adapter, u32 RegAddr,
u32 mask, u32 data);
u32 rtl8188e_PHY_QueryRFReg(struct adapter *adapter, enum rf_radio_path rfpath,
u32 regaddr, u32 mask);
void rtl8188e_PHY_SetRFReg(struct adapter *adapter, enum rf_radio_path rfpath,
u32 regaddr, u32 mask, u32 data);
//
// BB and RF register read/write
//
u32 rtl8188e_PHY_QueryBBReg( IN PADAPTER Adapter,
IN u32 RegAddr,
IN u32 BitMask );
void rtl8188e_PHY_SetBBReg( IN PADAPTER Adapter,
IN u32 RegAddr,
IN u32 BitMask,
IN u32 Data );
u32 rtl8188e_PHY_QueryRFReg( IN PADAPTER Adapter,
IN RF_RADIO_PATH_E eRFPath,
IN u32 RegAddr,
IN u32 BitMask );
void rtl8188e_PHY_SetRFReg( IN PADAPTER Adapter,
IN RF_RADIO_PATH_E eRFPath,
IN u32 RegAddr,
IN u32 BitMask,
IN u32 Data );
/* Initialization related function */
//
// Initialization related function
//
/* MAC/BB/RF HAL config */
int PHY_MACConfig8188E(struct adapter *adapter);
int PHY_BBConfig8188E(struct adapter *adapter);
int PHY_RFConfig8188E(struct adapter *adapter);
int PHY_MACConfig8188E(IN PADAPTER Adapter );
int PHY_BBConfig8188E(IN PADAPTER Adapter );
int PHY_RFConfig8188E(IN PADAPTER Adapter );
/* RF config */
int rtl8188e_PHY_ConfigRFWithParaFile(struct adapter *adapter, u8 *filename,
enum rf_radio_path rfpath);
int rtl8188e_PHY_ConfigRFWithHeaderFile(struct adapter *adapter,
enum rf_radio_path rfpath);
int rtl8188e_PHY_ConfigRFWithParaFile(IN PADAPTER Adapter, IN u8 * pFileName, RF_RADIO_PATH_E eRFPath);
int rtl8188e_PHY_ConfigRFWithHeaderFile( IN PADAPTER Adapter,
IN RF_RADIO_PATH_E eRFPath);
/* Read initi reg value for tx power setting. */
void rtl8192c_PHY_GetHWRegOriginalValue(struct adapter *adapter);
void rtl8192c_PHY_GetHWRegOriginalValue( IN PADAPTER Adapter );
/* BB TX Power R/W */
void PHY_GetTxPowerLevel8188E(struct adapter *adapter, u32 *powerlevel);
void PHY_SetTxPowerLevel8188E(struct adapter *adapter, u8 channel);
bool PHY_UpdateTxPowerDbm8188E(struct adapter *adapter, int power);
//
// RF Power setting
//
//extern BOOLEAN PHY_SetRFPowerState(IN PADAPTER Adapter,
// IN RT_RF_POWER_STATE eRFPowerState);
void PHY_ScanOperationBackup8188E(struct adapter *Adapter, u8 Operation);
//
// BB TX Power R/W
//
void PHY_GetTxPowerLevel8188E( IN PADAPTER Adapter,
OUT u32* powerlevel );
void PHY_SetTxPowerLevel8188E( IN PADAPTER Adapter,
IN u8 channel );
BOOLEAN PHY_UpdateTxPowerDbm8188E( IN PADAPTER Adapter,
IN int powerInDbm );
/* Switch bandwidth for 8192S */
void PHY_SetBWMode8188E(struct adapter *adapter,
enum ht_channel_width chnlwidth, unsigned char offset);
//
VOID
PHY_ScanOperationBackup8188E(IN PADAPTER Adapter,
IN u8 Operation );
/* channel switch related funciton */
void PHY_SwChnl8188E(struct adapter *adapter, u8 channel);
/* Call after initialization */
void ChkFwCmdIoDone(struct adapter *adapter);
//
// Switch bandwidth for 8192S
//
//extern void PHY_SetBWModeCallback8192C( IN PRT_TIMER pTimer );
void PHY_SetBWMode8188E( IN PADAPTER pAdapter,
IN HT_CHANNEL_WIDTH ChnlWidth,
IN unsigned char Offset );
/* BB/MAC/RF other monitor API */
void PHY_SetRFPathSwitch_8188E(struct adapter *adapter, bool main);
//
// Set FW CMD IO for 8192S.
//
//extern BOOLEAN HalSetIO8192C( IN PADAPTER Adapter,
// IN IO_TYPE IOType);
void PHY_SwitchEphyParameter(struct adapter *adapter);
//
// Set A2 entry to fw for 8192S
//
extern void FillA2Entry8192C( IN PADAPTER Adapter,
IN u8 index,
IN u8* val);
void PHY_EnableHostClkReq(struct adapter *adapter);
bool SetAntennaConfig92C(struct adapter *adapter, u8 defaultant);
//
// channel switch related funciton
//
//extern void PHY_SwChnlCallback8192C( IN PRT_TIMER pTimer );
void PHY_SwChnl8188E( IN PADAPTER pAdapter,
IN u8 channel );
// Call after initialization
void PHY_SwChnlPhy8192C( IN PADAPTER pAdapter,
IN u8 channel );
void storePwrIndexDiffRateOffset(struct adapter *adapter, u32 regaddr,
u32 mask, u32 data);
void ChkFwCmdIoDone( IN PADAPTER Adapter);
//
// BB/MAC/RF other monitor API
//
void PHY_SetMonitorMode8192C(IN PADAPTER pAdapter,
IN BOOLEAN bEnableMonitorMode );
BOOLEAN PHY_CheckIsLegalRfPath8192C(IN PADAPTER pAdapter,
IN u32 eRFPath );
VOID PHY_SetRFPathSwitch_8188E(IN PADAPTER pAdapter, IN BOOLEAN bMain);
extern VOID
PHY_SwitchEphyParameter(
IN PADAPTER Adapter
);
extern VOID
PHY_EnableHostClkReq(
IN PADAPTER Adapter
);
BOOLEAN
SetAntennaConfig92C(
IN PADAPTER Adapter,
IN u8 DefaultAnt
);
#ifdef CONFIG_PHY_SETTING_WITH_ODM
VOID
storePwrIndexDiffRateOffset(
IN PADAPTER Adapter,
IN u32 RegAddr,
IN u32 BitMask,
IN u32 Data
);
#endif //CONFIG_PHY_SETTING_WITH_ODM
/*--------------------------Exported Function prototype---------------------*/
#define PHY_QueryBBReg(adapt, regaddr, mask) \
rtl8188e_PHY_QueryBBReg((adapt), (regaddr), (mask))
#define PHY_SetBBReg(adapt, regaddr, bitmask, data) \
rtl8188e_PHY_SetBBReg((adapt), (regaddr), (bitmask), (data))
#define PHY_QueryRFReg(adapt, rfpath, regaddr, bitmask) \
rtl8188e_PHY_QueryRFReg((adapt), (rfpath), (regaddr), (bitmask))
#define PHY_SetRFReg(adapt, rfpath, regaddr, bitmask, data) \
rtl8188e_PHY_SetRFReg((adapt), (rfpath), (regaddr), (bitmask), (data))
#define PHY_QueryBBReg(Adapter, RegAddr, BitMask) rtl8188e_PHY_QueryBBReg((Adapter), (RegAddr), (BitMask))
#define PHY_SetBBReg(Adapter, RegAddr, BitMask, Data) rtl8188e_PHY_SetBBReg((Adapter), (RegAddr), (BitMask), (Data))
#define PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask) rtl8188e_PHY_QueryRFReg((Adapter), (eRFPath), (RegAddr), (BitMask))
#define PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data) rtl8188e_PHY_SetRFReg((Adapter), (eRFPath), (RegAddr), (BitMask), (Data))
#define PHY_SetMacReg PHY_SetBBReg
#define PHY_QueryMacReg PHY_QueryBBReg
//
// Initialization related function
//
/* MAC/BB/RF HAL config */
//extern s32 PHY_MACConfig8723(PADAPTER padapter);
//s32 PHY_BBConfig8723(PADAPTER padapter);
//s32 PHY_RFConfig8723(PADAPTER padapter);
//==================================================================
// Note: If SIC_ENABLE under PCIE, because of the slow operation
// you should
// 2) "#define RTL8723_FPGA_VERIFICATION 1" in Precomp.h.WlanE.Windows
// 3) "#define RTL8190_Download_Firmware_From_Header 0" in Precomp.h.WlanE.Windows if needed.
//
#if (RTL8188E_SUPPORT == 1) && (RTL8188E_FPGA_TRUE_PHY_VERIFICATION == 1)
#define SIC_ENABLE 1
#define SIC_HW_SUPPORT 1
#else
#define SIC_ENABLE 0
#define SIC_HW_SUPPORT 0
#endif
//==================================================================
#define SIC_MAX_POLL_CNT 5
#if(SIC_HW_SUPPORT == 1)
#define SIC_CMD_READY 0
#define SIC_CMD_PREWRITE 0x1
#if(RTL8188E_SUPPORT == 1)
#define SIC_CMD_WRITE 0x40
#define SIC_CMD_PREREAD 0x2
#define SIC_CMD_READ 0x80
#define SIC_CMD_INIT 0xf0
#define SIC_INIT_VAL 0xff
#define SIC_INIT_REG 0x1b7
#define SIC_CMD_REG 0x1EB // 1byte
#define SIC_ADDR_REG 0x1E8 // 1b4~1b5, 2 bytes
#define SIC_DATA_REG 0x1EC // 1b0~1b3
#else
#define SIC_CMD_WRITE 0x11
#define SIC_CMD_PREREAD 0x2
#define SIC_CMD_READ 0x12
#define SIC_CMD_INIT 0x1f
#define SIC_INIT_VAL 0xff
#define SIC_INIT_REG 0x1b7
#define SIC_CMD_REG 0x1b6 // 1byte
#define SIC_ADDR_REG 0x1b4 // 1b4~1b5, 2 bytes
#define SIC_DATA_REG 0x1b0 // 1b0~1b3
#endif
#else
#define SIC_CMD_READY 0
#define SIC_CMD_WRITE 1
#define SIC_CMD_READ 2
#define SIC_CMD_REG 0x1EB /* 1byte */
#define SIC_ADDR_REG 0x1E8 /* 1b9~1ba, 2 bytes */
#define SIC_DATA_REG 0x1EC /* 1bc~1bf */
#if(RTL8188E_SUPPORT == 1)
#define SIC_CMD_REG 0x1EB // 1byte
#define SIC_ADDR_REG 0x1E8 // 1b9~1ba, 2 bytes
#define SIC_DATA_REG 0x1EC // 1bc~1bf
#else
#define SIC_CMD_REG 0x1b8 // 1byte
#define SIC_ADDR_REG 0x1b9 // 1b9~1ba, 2 bytes
#define SIC_DATA_REG 0x1bc // 1bc~1bf
#endif
#endif
#if(SIC_ENABLE == 1)
VOID SIC_Init(IN PADAPTER Adapter);
#endif
#endif // __INC_HAL8192CPHYCFG_H
#endif /* __INC_HAL8192CPHYCFG_H */

492
include/Hal8188EPhyReg.h Normal file → Executable file
View file

@ -20,19 +20,20 @@
#ifndef __INC_HAL8188EPHYREG_H__
#define __INC_HAL8188EPHYREG_H__
/*--------------------------Define Parameters-------------------------------*/
/* */
/* BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF */
/* 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF */
/* 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00 */
/* 3. RF register 0x00-2E */
/* 4. Bit Mask for BB/RF register */
/* 5. Other definition for BB/RF R/W */
/* */
//
// BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
// 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
// 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
// 3. RF register 0x00-2E
// 4. Bit Mask for BB/RF register
// 5. Other defintion for BB/RF R/W
//
/* */
/* 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF */
/* 1. Page1(0x100) */
/* */
//
// 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
// 1. Page1(0x100)
//
#define rPMAC_Reset 0x100
#define rPMAC_TxStart 0x104
#define rPMAC_TxLegacySIG 0x108
@ -61,23 +62,27 @@
#define rPMAC_CCKCRxRC32OK 0x188
#define rPMAC_TxStatus 0x18c
/* 2. Page2(0x200) */
/* The following two definition are only used for USB interface. */
#define RF_BB_CMD_ADDR 0x02c0 /* RF/BB r/w cmd address. */
#define RF_BB_CMD_DATA 0x02c4 /* RF/BB r/w cmd data. */
//
// 2. Page2(0x200)
//
// The following two definition are only used for USB interface.
#define RF_BB_CMD_ADDR 0x02c0 // RF/BB read/write command address.
#define RF_BB_CMD_DATA 0x02c4 // RF/BB read/write command data.
/* 3. Page8(0x800) */
#define rFPGA0_RFMOD 0x800 /* RF mode & CCK TxSC RF BW Setting */
//
// 3. Page8(0x800)
//
#define rFPGA0_RFMOD 0x800 //RF mode & CCK TxSC // RF BW Setting??
#define rFPGA0_TxInfo 0x804 /* Status report?? */
#define rFPGA0_TxInfo 0x804 // Status report??
#define rFPGA0_PSDFunction 0x808
#define rFPGA0_TxGainStage 0x80c /* Set TX PWR init gain? */
#define rFPGA0_TxGainStage 0x80c // Set TX PWR init gain?
#define rFPGA0_RFTiming1 0x810 /* Useless now */
#define rFPGA0_RFTiming1 0x810 // Useless now
#define rFPGA0_RFTiming2 0x814
#define rFPGA0_XA_HSSIParameter1 0x820 /* RF 3 wire register */
#define rFPGA0_XA_HSSIParameter1 0x820 // RF 3 wire register
#define rFPGA0_XA_HSSIParameter2 0x824
#define rFPGA0_XB_HSSIParameter1 0x828
#define rFPGA0_XB_HSSIParameter2 0x82c
@ -85,83 +90,76 @@
#define rFPGA0_XA_LSSIParameter 0x840
#define rFPGA0_XB_LSSIParameter 0x844
#define rFPGA0_RFWakeUpParameter 0x850 /* Useless now */
#define rFPGA0_RFWakeUpParameter 0x850 // Useless now
#define rFPGA0_RFSleepUpParameter 0x854
#define rFPGA0_XAB_SwitchControl 0x858 /* RF Channel switch */
#define rFPGA0_XAB_SwitchControl 0x858 // RF Channel switch
#define rFPGA0_XCD_SwitchControl 0x85c
#define rFPGA0_XA_RFInterfaceOE 0x860 /* RF Channel switch */
#define rFPGA0_XA_RFInterfaceOE 0x860 // RF Channel switch
#define rFPGA0_XB_RFInterfaceOE 0x864
#define rFPGA0_XAB_RFInterfaceSW 0x870 /* RF Iface Software Control */
#define rFPGA0_XAB_RFInterfaceSW 0x870 // RF Interface Software Control
#define rFPGA0_XCD_RFInterfaceSW 0x874
#define rFPGA0_XAB_RFParameter 0x878 /* RF Parameter */
#define rFPGA0_XAB_RFParameter 0x878 // RF Parameter
#define rFPGA0_XCD_RFParameter 0x87c
/* Crystal cap setting RF-R/W protection for parameter4?? */
#define rFPGA0_AnalogParameter1 0x880
#define rFPGA0_AnalogParameter1 0x880 // Crystal cap setting RF-R/W protection for parameter4??
#define rFPGA0_AnalogParameter2 0x884
#define rFPGA0_AnalogParameter3 0x888
/* enable ad/da clock1 for dual-phy */
#define rFPGA0_AdDaClockEn 0x888
#define rFPGA0_AdDaClockEn 0x888 // enable ad/da clock1 for dual-phy
#define rFPGA0_AnalogParameter4 0x88c
#define rFPGA0_XA_LSSIReadBack 0x8a0 /* Tranceiver LSSI Readback */
#define rFPGA0_XA_LSSIReadBack 0x8a0 // Tranceiver LSSI Readback
#define rFPGA0_XB_LSSIReadBack 0x8a4
#define rFPGA0_XC_LSSIReadBack 0x8a8
#define rFPGA0_XD_LSSIReadBack 0x8ac
#define rFPGA0_PSDReport 0x8b4 /* Useless now */
/* Transceiver A HSPI Readback */
#define TransceiverA_HSPI_Readback 0x8b8
/* Transceiver B HSPI Readback */
#define TransceiverB_HSPI_Readback 0x8bc
/* Useless now RF Interface Readback Value */
#define rFPGA0_XAB_RFInterfaceRB 0x8e0
#define rFPGA0_XCD_RFInterfaceRB 0x8e4 /* Useless now */
#define rFPGA0_PSDReport 0x8b4 // Useless now
#define TransceiverA_HSPI_Readback 0x8b8 // Transceiver A HSPI Readback
#define TransceiverB_HSPI_Readback 0x8bc // Transceiver B HSPI Readback
#define rFPGA0_XAB_RFInterfaceRB 0x8e0 // Useless now // RF Interface Readback Value
#define rFPGA0_XCD_RFInterfaceRB 0x8e4 // Useless now
/* 4. Page9(0x900) */
/* RF mode & OFDM TxSC RF BW Setting?? */
#define rFPGA1_RFMOD 0x900
//
// 4. Page9(0x900)
//
#define rFPGA1_RFMOD 0x900 //RF mode & OFDM TxSC // RF BW Setting??
#define rFPGA1_TxBlock 0x904 /* Useless now */
#define rFPGA1_DebugSelect 0x908 /* Useless now */
#define rFPGA1_TxInfo 0x90c /* Useless now Status report */
#define rFPGA1_TxBlock 0x904 // Useless now
#define rFPGA1_DebugSelect 0x908 // Useless now
#define rFPGA1_TxInfo 0x90c // Useless now // Status report??
/* 5. PageA(0xA00) */
/* Set Control channel to upper or lower - required only for 40MHz */
//
// 5. PageA(0xA00)
//
// Set Control channel to upper or lower. These settings are required only for 40MHz
#define rCCK0_System 0xa00
/* Disable init gain now Select RX path by RSSI */
#define rCCK0_AFESetting 0xa04
/* Disable init gain now Init gain */
#define rCCK0_CCA 0xa08
#define rCCK0_AFESetting 0xa04 // Disable init gain now // Select RX path by RSSI
#define rCCK0_CCA 0xa08 // Disable init gain now // Init gain
/* AGC default value, saturation level Antenna Diversity, RX AGC, LNA Threshold,
* RX LNA Threshold useless now. Not the same as 90 series */
#define rCCK0_RxAGC1 0xa0c
#define rCCK0_RxAGC2 0xa10 /* AGC & DAGC */
#define rCCK0_RxAGC1 0xa0c //AGC default value, saturation level // Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series
#define rCCK0_RxAGC2 0xa10 //AGC & DAGC
#define rCCK0_RxHP 0xa14
/* Timing recovery & Channel estimation threshold */
#define rCCK0_DSPParameter1 0xa18
#define rCCK0_DSPParameter2 0xa1c /* SQ threshold */
#define rCCK0_DSPParameter1 0xa18 //Timing recovery & Channel estimation threshold
#define rCCK0_DSPParameter2 0xa1c //SQ threshold
#define rCCK0_TxFilter1 0xa20
#define rCCK0_TxFilter2 0xa24
#define rCCK0_DebugPort 0xa28 /* debug port and Tx filter3 */
#define rCCK0_FalseAlarmReport 0xa2c /* 0xa2d useless now */
#define rCCK0_DebugPort 0xa28 //debug port and Tx filter3
#define rCCK0_FalseAlarmReport 0xa2c //0xa2d useless now 0xa30-a4f channel report
#define rCCK0_TRSSIReport 0xa50
#define rCCK0_RxReport 0xa54 /* 0xa57 */
#define rCCK0_FACounterLower 0xa5c /* 0xa5b */
#define rCCK0_FACounterUpper 0xa58 /* 0xa5c */
#define rCCK0_RxReport 0xa54 //0xa57
#define rCCK0_FACounterLower 0xa5c //0xa5b
#define rCCK0_FACounterUpper 0xa58 //0xa5c
/* */
/* PageB(0xB00) */
/* */
//
// PageB(0xB00)
//
#define rPdp_AntA 0xb00
#define rPdp_AntA_4 0xb04
#define rConfig_Pmpd_AntA 0xb28
@ -172,18 +170,19 @@
#define rConfig_Pmpd_AntB 0xb98
#define rAPK 0xbd8
/* */
/* 6. PageC(0xC00) */
/* */
//
// 6. PageC(0xC00)
//
#define rOFDM0_LSTF 0xc00
#define rOFDM0_TRxPathEnable 0xc04
#define rOFDM0_TRMuxPar 0xc08
#define rOFDM0_TRSWIsolation 0xc0c
/* RxIQ DC offset, Rx digital filter, DC notch filter */
#define rOFDM0_XARxAFE 0xc10
#define rOFDM0_XARxIQImbalance 0xc14 /* RxIQ imblance matrix */
#define rOFDM0_XARxAFE 0xc10 //RxIQ DC offset, Rx digital filter, DC notch filter
#define rOFDM0_XARxIQImbalance 0xc14 //RxIQ imblance matrix
#define rOFDM0_XBRxAFE 0xc18
#define rOFDM0_XBRxIQImbalance 0xc1c
#define rOFDM0_XCRxAFE 0xc20
@ -191,17 +190,17 @@
#define rOFDM0_XDRxAFE 0xc28
#define rOFDM0_XDRxIQImbalance 0xc2c
#define rOFDM0_RxDetector1 0xc30 /*PD,BW & SBD DM tune init gain*/
#define rOFDM0_RxDetector2 0xc34 /* SBD & Fame Sync. */
#define rOFDM0_RxDetector3 0xc38 /* Frame Sync. */
#define rOFDM0_RxDetector4 0xc3c /* PD, SBD, Frame Sync & Short-GI */
#define rOFDM0_RxDetector1 0xc30 //PD,BW & SBD // DM tune init gain
#define rOFDM0_RxDetector2 0xc34 //SBD & Fame Sync.
#define rOFDM0_RxDetector3 0xc38 //Frame Sync.
#define rOFDM0_RxDetector4 0xc3c //PD, SBD, Frame Sync & Short-GI
#define rOFDM0_RxDSP 0xc40 /* Rx Sync Path */
#define rOFDM0_CFOandDAGC 0xc44 /* CFO & DAGC */
#define rOFDM0_CCADropThreshold 0xc48 /* CCA Drop threshold */
#define rOFDM0_ECCAThreshold 0xc4c /* energy CCA */
#define rOFDM0_RxDSP 0xc40 //Rx Sync Path
#define rOFDM0_CFOandDAGC 0xc44 //CFO & DAGC
#define rOFDM0_CCADropThreshold 0xc48 //CCA Drop threshold
#define rOFDM0_ECCAThreshold 0xc4c // energy CCA
#define rOFDM0_XAAGCCore1 0xc50 /* DIG */
#define rOFDM0_XAAGCCore1 0xc50 // DIG
#define rOFDM0_XAAGCCore2 0xc54
#define rOFDM0_XBAGCCore1 0xc58
#define rOFDM0_XBAGCCore2 0xc5c
@ -215,7 +214,7 @@
#define rOFDM0_AGCRSSITable 0xc78
#define rOFDM0_HTSTFAGC 0xc7c
#define rOFDM0_XATxIQImbalance 0xc80 /* TX PWR TRACK and DIG */
#define rOFDM0_XATxIQImbalance 0xc80 // TX PWR TRACK and DIG
#define rOFDM0_XATxAFE 0xc84
#define rOFDM0_XBTxIQImbalance 0xc88
#define rOFDM0_XBTxAFE 0xc8c
@ -236,28 +235,30 @@
#define rOFDM0_FrameSync 0xcf0
#define rOFDM0_DFSReport 0xcf4
/* */
/* 7. PageD(0xD00) */
/* */
//
// 7. PageD(0xD00)
//
#define rOFDM1_LSTF 0xd00
#define rOFDM1_TRxPathEnable 0xd04
#define rOFDM1_CFO 0xd08 /* No setting now */
#define rOFDM1_CFO 0xd08 // No setting now
#define rOFDM1_CSI1 0xd10
#define rOFDM1_SBD 0xd14
#define rOFDM1_CSI2 0xd18
#define rOFDM1_CFOTracking 0xd2c
#define rOFDM1_TRxMesaure1 0xd34
#define rOFDM1_IntfDet 0xd3c
#define rOFDM1_csi_fix_mask 0xd40
#define rOFDM1_PseudoNoiseStateAB 0xd50
#define rOFDM1_PseudoNoiseStateCD 0xd54
#define rOFDM1_RxPseudoNoiseWgt 0xd58
#define rOFDM_PHYCounter1 0xda0 /* cca, parity fail */
#define rOFDM_PHYCounter2 0xda4 /* rate illegal, crc8 fail */
#define rOFDM_PHYCounter3 0xda8 /* MCS not support */
#define rOFDM_PHYCounter1 0xda0 //cca, parity fail
#define rOFDM_PHYCounter2 0xda4 //rate illegal, crc8 fail
#define rOFDM_PHYCounter3 0xda8 //MCS not support
#define rOFDM_ShortCFOAB 0xdac /* No setting now */
#define rOFDM_ShortCFOAB 0xdac // No setting now
#define rOFDM_ShortCFOCD 0xdb0
#define rOFDM_LongCFOAB 0xdb4
#define rOFDM_LongCFOCD 0xdb8
@ -271,9 +272,10 @@
#define rOFDM_RxEVMCSI 0xdd8
#define rOFDM_SIGReport 0xddc
/* */
/* 8. PageE(0xE00) */
/* */
//
// 8. PageE(0xE00)
//
#define rTxAGC_A_Rate18_06 0xe00
#define rTxAGC_A_Rate54_24 0xe04
#define rTxAGC_A_CCK1_Mcs32 0xe08
@ -340,104 +342,108 @@
#define rSleep 0xee0
#define rPMPD_ANAEN 0xeec
/* */
/* 7. RF Register 0x00-0x2E (RF 8256) */
/* RF-0222D 0x00-3F */
/* */
/* Zebra1 */
#define rZebra1_HSSIEnable 0x0 /* Useless now */
//
// 7. RF Register 0x00-0x2E (RF 8256)
// RF-0222D 0x00-3F
//
//Zebra1
#define rZebra1_HSSIEnable 0x0 // Useless now
#define rZebra1_TRxEnable1 0x1
#define rZebra1_TRxEnable2 0x2
#define rZebra1_AGC 0x4
#define rZebra1_ChargePump 0x5
#define rZebra1_Channel 0x7 /* RF channel switch */
#define rZebra1_Channel 0x7 // RF channel switch
/* endif */
#define rZebra1_TxGain 0x8 /* Useless now */
//#endif
#define rZebra1_TxGain 0x8 // Useless now
#define rZebra1_TxLPF 0x9
#define rZebra1_RxLPF 0xb
#define rZebra1_RxHPFCorner 0xc
/* Zebra4 */
#define rGlobalCtrl 0 /* Useless now */
//Zebra4
#define rGlobalCtrl 0 // Useless now
#define rRTL8256_TxLPF 19
#define rRTL8256_RxLPF 11
/* RTL8258 */
#define rRTL8258_TxLPF 0x11 /* Useless now */
//RTL8258
#define rRTL8258_TxLPF 0x11 // Useless now
#define rRTL8258_RxLPF 0x13
#define rRTL8258_RSSILPF 0xa
/* */
/* RL6052 Register definition */
/* */
#define RF_AC 0x00 /* */
//
// RL6052 Register definition
//
#define RF_AC 0x00 //
#define RF_IQADJ_G1 0x01 /* */
#define RF_IQADJ_G2 0x02 /* */
#define RF_IQADJ_G1 0x01 //
#define RF_IQADJ_G2 0x02 //
#define RF_POW_TRSW 0x05 /* */
#define RF_POW_TRSW 0x05 //
#define RF_GAIN_RX 0x06 /* */
#define RF_GAIN_TX 0x07 /* */
#define RF_GAIN_RX 0x06 //
#define RF_GAIN_TX 0x07 //
#define RF_TXM_IDAC 0x08 /* */
#define RF_IPA_G 0x09 /* */
#define RF_TXM_IDAC 0x08 //
#define RF_IPA_G 0x09 //
#define RF_TXBIAS_G 0x0A
#define RF_TXPA_AG 0x0B
#define RF_IPA_A 0x0C /* */
#define RF_IPA_A 0x0C //
#define RF_TXBIAS_A 0x0D
#define RF_BS_PA_APSET_G9_G11 0x0E
#define RF_BS_IQGEN 0x0F /* */
#define RF_BS_IQGEN 0x0F //
#define RF_MODE1 0x10 /* */
#define RF_MODE2 0x11 /* */
#define RF_MODE1 0x10 //
#define RF_MODE2 0x11 //
#define RF_RX_AGC_HP 0x12 /* */
#define RF_TX_AGC 0x13 /* */
#define RF_BIAS 0x14 /* */
#define RF_IPA 0x15 /* */
#define RF_RX_AGC_HP 0x12 //
#define RF_TX_AGC 0x13 //
#define RF_BIAS 0x14 //
#define RF_IPA 0x15 //
#define RF_TXBIAS 0x16
#define RF_POW_ABILITY 0x17 /* */
#define RF_CHNLBW 0x18 /* RF channel and BW switch */
#define RF_TOP 0x19 /* */
#define RF_POW_ABILITY 0x17 //
#define RF_CHNLBW 0x18 // RF channel and BW switch
#define RF_TOP 0x19 //
#define RF_RX_G1 0x1A /* */
#define RF_RX_G2 0x1B /* */
#define RF_RX_G1 0x1A //
#define RF_RX_G2 0x1B //
#define RF_RX_BB2 0x1C /* */
#define RF_RX_BB1 0x1D /* */
#define RF_RX_BB2 0x1C //
#define RF_RX_BB1 0x1D //
#define RF_RCK1 0x1E /* */
#define RF_RCK2 0x1F /* */
#define RF_RCK1 0x1E //
#define RF_RCK2 0x1F //
#define RF_TX_G1 0x20 /* */
#define RF_TX_G2 0x21 /* */
#define RF_TX_G3 0x22 /* */
#define RF_TX_G1 0x20 //
#define RF_TX_G2 0x21 //
#define RF_TX_G3 0x22 //
#define RF_TX_BB1 0x23 /* */
#define RF_TX_BB1 0x23 //
#define RF_T_METER_92D 0x42 /* */
#define RF_T_METER_88E 0x42 /* */
#define RF_T_METER 0x24 /* */
//#if HARDWARE_TYPE_IS_RTL8192D == 1
#define RF_T_METER_92D 0x42 //
//#else
#define RF_T_METER_88E 0x42 //
#define RF_T_METER 0x24 //
#define RF_SYN_G1 0x25 /* RF TX Power control */
#define RF_SYN_G2 0x26 /* RF TX Power control */
#define RF_SYN_G3 0x27 /* RF TX Power control */
#define RF_SYN_G4 0x28 /* RF TX Power control */
#define RF_SYN_G5 0x29 /* RF TX Power control */
#define RF_SYN_G6 0x2A /* RF TX Power control */
#define RF_SYN_G7 0x2B /* RF TX Power control */
#define RF_SYN_G8 0x2C /* RF TX Power control */
//#endif
#define RF_RCK_OS 0x30 /* RF TX PA control */
#define RF_TXPA_G1 0x31 /* RF TX PA control */
#define RF_TXPA_G2 0x32 /* RF TX PA control */
#define RF_TXPA_G3 0x33 /* RF TX PA control */
#define RF_SYN_G1 0x25 // RF TX Power control
#define RF_SYN_G2 0x26 // RF TX Power control
#define RF_SYN_G3 0x27 // RF TX Power control
#define RF_SYN_G4 0x28 // RF TX Power control
#define RF_SYN_G5 0x29 // RF TX Power control
#define RF_SYN_G6 0x2A // RF TX Power control
#define RF_SYN_G7 0x2B // RF TX Power control
#define RF_SYN_G8 0x2C // RF TX Power control
#define RF_RCK_OS 0x30 // RF TX PA control
#define RF_TXPA_G1 0x31 // RF TX PA control
#define RF_TXPA_G2 0x32 // RF TX PA control
#define RF_TXPA_G3 0x33 // RF TX PA control
#define RF_TX_BIAS_A 0x35
#define RF_TX_BIAS_D 0x36
#define RF_LOBF_9 0x38
#define RF_RXRF_A3 0x3C /* */
#define RF_RXRF_A3 0x3C //
#define RF_TRSW 0x3F
#define RF_TXRF_A2 0x41
@ -446,11 +452,12 @@
#define RF_0x52 0x52
#define RF_WE_LUT 0xEF
/* */
/* Bit Mask */
/* */
/* 1. Page1(0x100) */
#define bBBResetB 0x100 /* Useless now? */
//
//Bit Mask
//
// 1. Page1(0x100)
#define bBBResetB 0x100 // Useless now?
#define bGlobalResetB 0x200
#define bOFDMTxStart 0x4
#define bCCKTxStart 0x8
@ -495,39 +502,38 @@
#define bCCKTxStatus 0x1
#define bOFDMTxStatus 0x2
#define IS_BB_REG_OFFSET_92S(_Offset) \
((_Offset >= 0x800) && (_Offset <= 0xfff))
#define IS_BB_REG_OFFSET_92S(_Offset) ((_Offset >= 0x800) && (_Offset <= 0xfff))
/* 2. Page8(0x800) */
#define bRFMOD 0x1 /* Reg 0x800 rFPGA0_RFMOD */
// 2. Page8(0x800)
#define bRFMOD 0x1 // Reg 0x800 rFPGA0_RFMOD
#define bJapanMode 0x2
#define bCCKTxSC 0x30
#define bCCKEn 0x1000000
#define bOFDMEn 0x2000000
#define bOFDMRxADCPhase 0x10000 /* Useless now */
#define bOFDMRxADCPhase 0x10000 // Useless now
#define bOFDMTxDACPhase 0x40000
#define bXATxAGC 0x3f
#define bAntennaSelect 0x0300
#define bXBTxAGC 0xf00 /* Reg 80c rFPGA0_TxGainStage */
#define bXBTxAGC 0xf00 // Reg 80c rFPGA0_TxGainStage
#define bXCTxAGC 0xf000
#define bXDTxAGC 0xf0000
#define bPAStart 0xf0000000 /* Useless now */
#define bPAStart 0xf0000000 // Useless now
#define bTRStart 0x00f00000
#define bRFStart 0x0000f000
#define bBBStart 0x000000f0
#define bBBCCKStart 0x0000000f
#define bPAEnd 0xf /* Reg0x814 */
#define bPAEnd 0xf //Reg0x814
#define bTREnd 0x0f000000
#define bRFEnd 0x000f0000
#define bCCAMask 0x000000f0 /* T2R */
#define bCCAMask 0x000000f0 //T2R
#define bR2RCCAMask 0x00000f00
#define bHSSI_R2TDelay 0xf8000000
#define bHSSI_T2RDelay 0xf80000
#define bContTxHSSI 0x400 /* change gain at continue Tx */
#define bContTxHSSI 0x400 //chane gain at continue Tx
#define bIGFromCCK 0x200
#define bAGCAddress 0x3f
#define bRxHPTx 0x7000
@ -536,11 +542,11 @@
#define bAGCTxCode 0xc00000
#define bAGCRxCode 0x300000
/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
#define b3WireDataLength 0x800
#define b3WireDataLength 0x800 // Reg 0x820~84f rFPGA0_XA_HSSIParameter1
#define b3WireAddressLength 0x400
#define b3WireRFPowerDown 0x1 /* Useless now */
#define b3WireRFPowerDown 0x1 // Useless now
//#define bHWSISelect 0x8
#define b5GPAPEPolarity 0x40000000
#define b2GPAPEPolarity 0x80000000
#define bRFSW_TxDefaultAnt 0x3
@ -553,9 +559,9 @@
#define bRFSI_3WireRW 0x8
#define bRFSI_3Wire 0xf
#define bRFSI_RFENV 0x10 /* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
#define bRFSI_RFENV 0x10 // Reg 0x870 rFPGA0_XAB_RFInterfaceSW
#define bRFSI_TRSW 0x20 /* Useless now */
#define bRFSI_TRSW 0x20 // Useless now
#define bRFSI_TRSWB 0x40
#define bRFSI_ANTSW 0x100
#define bRFSI_ANTSWB 0x200
@ -579,14 +585,14 @@
#define bLSIG_Parity 0x20
#define bCCKRxPhase 0x4
#define bLSSIReadAddress 0x7f800000 /* T65 RF */
#define bLSSIReadAddress 0x7f800000 // T65 RF
#define bLSSIReadEdge 0x80000000 /* LSSI "Read" edge signal */
#define bLSSIReadEdge 0x80000000 //LSSI "Read" edge signal
#define bLSSIReadBackData 0xfffff /* T65 RF */
#define bLSSIReadBackData 0xfffff // T65 RF
#define bLSSIReadOKFlag 0x1000 /* Useless now */
#define bCCKSampleRate 0x8 /* 0: 44MHz, 1:88MHz */
#define bLSSIReadOKFlag 0x1000 // Useless now
#define bCCKSampleRate 0x8 //0: 44MHz, 1:88MHz
#define bRegulator0Standby 0x1
#define bRegulatorPLLStandby 0x2
#define bRegulator1Standby 0x4
@ -600,19 +606,17 @@
#define bDA6DebugMode 0x20000
#define bDA6Swing 0x380000
/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
#define bADClkPhase 0x4000000
#define bADClkPhase 0x4000000 // Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ
#define b80MClkDelay 0x18000000 /* Useless */
#define b80MClkDelay 0x18000000 // Useless
#define bAFEWatchDogEnable 0x20000000
/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
#define bXtalCap01 0xc0000000
#define bXtalCap01 0xc0000000 // Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap
#define bXtalCap23 0x3
#define bXtalCap92x 0x0f000000
#define bXtalCap 0x0f000000
#define bIntDifClkEnable 0x400 /* Useless */
#define bIntDifClkEnable 0x400 // Useless
#define bExtSigClkEnable 0x800
#define bBandgapMbiasPowerUp 0x10000
#define bAD11SHGain 0xc0000
@ -646,12 +650,12 @@
#define bPSDSineToneScale 0x7f000000
#define bPSDReport 0xffff
/* 3. Page9(0x900) */
#define bOFDMTxSC 0x30000000 /* Useless */
// 3. Page9(0x900)
#define bOFDMTxSC 0x30000000 // Useless
#define bCCKTxOn 0x1
#define bOFDMTxOn 0x2
#define bDebugPage 0xfff /* reset debug page and HWord, LWord */
#define bDebugItem 0xff /* reset debug page and LWord */
#define bDebugPage 0xfff //reset debug page and also HWord, LWord
#define bDebugItem 0xff //reset debug page and LWord
#define bAntL 0x10
#define bAntNonHT 0x100
#define bAntHT1 0x1000
@ -659,14 +663,14 @@
#define bAntHT1S1 0x100000
#define bAntNonHTS1 0x1000000
/* 4. PageA(0xA00) */
#define bCCKBBMode 0x3 /* Useless */
// 4. PageA(0xA00)
#define bCCKBBMode 0x3 // Useless
#define bCCKTxPowerSaving 0x80
#define bCCKRxPowerSaving 0x40
#define bCCKSideBand 0x10 /* Reg 0xa00 rCCK0_System 20/40 */
#define bCCKSideBand 0x10 // Reg 0xa00 rCCK0_System 20/40 switch
#define bCCKScramble 0x8 /* Useless */
#define bCCKScramble 0x8 // Useless
#define bCCKAntDiversity 0x8000
#define bCCKCarrierRecovery 0x4000
#define bCCKTxRate 0x3000
@ -682,7 +686,7 @@
#define bCCKBistMode 0x80000000
#define bCCKCCAMask 0x40000000
#define bCCKTxDACPhase 0x4
#define bCCKRxADCPhase 0x20000000 /* r_rx_clk */
#define bCCKRxADCPhase 0x20000000 //r_rx_clk
#define bCCKr_cp_mode0 0x0100
#define bCCKTxDCOffset 0xf0
#define bCCKRxDCOffset 0xf
@ -696,11 +700,12 @@
#define bCCKRxIG 0x7f00
#define bCCKLNAPolarity 0x800000
#define bCCKRx1stGain 0x7f0000
#define bCCKRFExtend 0x20000000 /* CCK Rx Iinital gain polarity */
#define bCCKRFExtend 0x20000000 //CCK Rx Iinital gain polarity
#define bCCKRxAGCSatLevel 0x1f000000
#define bCCKRxAGCSatCount 0xe0
#define bCCKRxRFSettle 0x1f /* AGCsamp_dly */
#define bCCKRxRFSettle 0x1f //AGCsamp_dly
#define bCCKFixedRxAGC 0x8000
//#define bCCKRxAGCFormat 0x4000 //remove to HSSI register 0x824
#define bCCKAntennaPolarity 0x2000
#define bCCKTxFilterType 0x0c00
#define bCCKRxAGCReportType 0x0300
@ -739,8 +744,8 @@
#define bCCKDefaultRxPath 0xc000000
#define bCCKOptionRxPath 0x3000000
/* 5. PageC(0xC00) */
#define bNumOfSTF 0x3 /* Useless */
// 5. PageC(0xC00)
#define bNumOfSTF 0x3 // Useless
#define bShift_L 0xc0
#define bGI_TH 0xc
#define bRxPathA 0x1
@ -841,8 +846,8 @@
#define bRxHP_BBP1 0x7000
#define bRxHP_BBP2 0x70000
#define bRxHP_BBP3 0x700000
#define bRSSI_H 0x7f0000 /* threshold for high power */
#define bRSSI_Gen 0x7f000000 /* threshold for ant diversity */
#define bRSSI_H 0x7f0000 //the threshold for high power
#define bRSSI_Gen 0x7f000000 //the threshold for ant diversity
#define bRxSettle_TRSW 0x7
#define bRxSettle_LNA 0x38
#define bRxSettle_RSSI 0x1c0
@ -876,6 +881,7 @@
#define bRxPD_Delay_TH1 0x38
#define bRxPD_Delay_TH2 0x1c0
#define bRxPD_DC_COUNT_MAX 0x600
//#define bRxMF_Hold 0x3800
#define bRxPD_Delay_TH 0x8000
#define bRxProcess_Delay 0xf0000
#define bRxSearchrange_GI2_Early 0x700000
@ -896,8 +902,8 @@
#define bTRSWIsolation_D 0x7f000000
#define bExtLNAGain 0x7c00
/* 6. PageE(0xE00) */
#define bSTBCEn 0x4 /* Useless */
// 6. PageE(0xE00)
#define bSTBCEn 0x4 // Useless
#define bAntennaMapping 0x10
#define bNss 0x20
#define bCFOAntSumD 0x200
@ -906,6 +912,12 @@
#define bOFDMContinueTx 0x10000000
#define bOFDMSingleCarrier 0x20000000
#define bOFDMSingleTone 0x40000000
//#define bRxPath1 0x01
//#define bRxPath2 0x02
//#define bRxPath3 0x04
//#define bRxPath4 0x08
//#define bTxPath1 0x10
//#define bTxPath2 0x20
#define bHTDetect 0x100
#define bCFOEn 0x10000
#define bCFOValue 0xfff00000
@ -918,8 +930,8 @@
#define bCounter_MCSNoSupport 0xffff
#define bCounter_FastSync 0xffff
#define bShortCFO 0xfff
#define bShortCFOTLength 12 /* total */
#define bShortCFOFLength 11 /* fraction */
#define bShortCFOTLength 12 //total
#define bShortCFOFLength 11 //fraction
#define bLongCFO 0x7ff
#define bLongCFOTLength 11
#define bLongCFOFLength 11
@ -954,7 +966,7 @@
#define bPWDB 0xff00
#define bSGIEN 0x10000
#define bSFactorQAM1 0xf /* Useless */
#define bSFactorQAM1 0xf // Useless
#define bSFactorQAM2 0xf0
#define bSFactorQAM3 0xf00
#define bSFactorQAM4 0xf000
@ -965,7 +977,7 @@
#define bSFactorQAM9 0xf0000000
#define bCSIScheme 0x100000
#define bNoiseLvlTopSet 0x3 /* Useless */
#define bNoiseLvlTopSet 0x3 // Useless
#define bChSmooth 0x4
#define bChSmoothCfg1 0x38
#define bChSmoothCfg2 0x1c0
@ -974,7 +986,7 @@
#define bMRCMode 0x800000
#define bTHEVMCfg 0x7000000
#define bLoopFitType 0x1 /* Useless */
#define bLoopFitType 0x1 // Useless
#define bUpdCFO 0x40
#define bUpdCFOOffData 0x80
#define bAdvUpdCFO 0x100
@ -990,8 +1002,8 @@
#define bUChCfg 0x7000000
#define bUpdEqz 0x8000000
/* Rx Pseduo noise */
#define bRxPesudoNoiseOn 0x20000000 /* Useless */
//Rx Pseduo noise
#define bRxPesudoNoiseOn 0x20000000 // Useless
#define bRxPesudoNoise_A 0xff
#define bRxPesudoNoise_B 0xff00
#define bRxPesudoNoise_C 0xff0000
@ -1001,9 +1013,9 @@
#define bPesudoNoiseState_C 0xffff
#define bPesudoNoiseState_D 0xffff0000
/* 7. RF Register */
/* Zebra1 */
#define bZebra1_HSSIEnable 0x8 /* Useless */
//7. RF Register
//Zebra1
#define bZebra1_HSSIEnable 0x8 // Useless
#define bZebra1_TRxControl 0xc00
#define bZebra1_TRxGainSetting 0x07f
#define bZebra1_RxCorner 0xc00
@ -1013,23 +1025,24 @@
#define bZebra1_TxLPFBW 0x400
#define bZebra1_RxLPFBW 0x600
/* Zebra4 */
#define bRTL8256RegModeCtrl1 0x100 /* Useless */
//Zebra4
#define bRTL8256RegModeCtrl1 0x100 // Useless
#define bRTL8256RegModeCtrl0 0x40
#define bRTL8256_TxLPFBW 0x18
#define bRTL8256_RxLPFBW 0x600
/* RTL8258 */
#define bRTL8258_TxLPFBW 0xc /* Useless */
//RTL8258
#define bRTL8258_TxLPFBW 0xc // Useless
#define bRTL8258_RxLPFBW 0xc00
#define bRTL8258_RSSILPFBW 0xc0
/* */
/* Other Definition */
/* */
/* byte endable for sb_write */
#define bByte0 0x1 /* Useless */
//
// Other Definition
//
//byte endable for sb_write
#define bByte0 0x1 // Useless
#define bByte1 0x2
#define bByte2 0x4
#define bByte3 0x8
@ -1037,8 +1050,8 @@
#define bWord1 0xc
#define bDWord 0xf
/* for PutRegsetting & GetRegSetting BitMask */
#define bMaskByte0 0xff /* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
//for PutRegsetting & GetRegSetting BitMask
#define bMaskByte0 0xff // Reg 0xc50 rOFDM0_XAAGCCore~0xC6f
#define bMaskByte1 0xff00
#define bMaskByte2 0xff0000
#define bMaskByte3 0xff000000
@ -1050,39 +1063,50 @@
#define bMaskOFDM_D 0xffc00000
#define bMaskCCK 0x3f3f3f3f
/* for PutRFRegsetting & GetRFRegSetting BitMask */
//for PutRFRegsetting & GetRFRegSetting BitMask
//#define bMask12Bits 0xfffff // RF Reg mask bits
//#define bMask20Bits 0xfffff // RF Reg mask bits T65 RF
#define bRFRegOffsetMask 0xfffff
#define bEnable 0x1 /* Useless */
#define bEnable 0x1 // Useless
#define bDisable 0x0
#define LeftAntenna 0x0 /* Useless */
#define LeftAntenna 0x0 // Useless
#define RightAntenna 0x1
#define tCheckTxStatus 500 /* 500ms Useless */
#define tUpdateRxCounter 100 /* 100ms */
#define tCheckTxStatus 500 //500ms // Useless
#define tUpdateRxCounter 100 //100ms
#define rateCCK 0 /* Useless */
#define rateCCK 0 // Useless
#define rateOFDM 1
#define rateHT 2
/* define Register-End */
#define bPMAC_End 0x1ff /* Useless */
//define Register-End
#define bPMAC_End 0x1ff // Useless
#define bFPGAPHY0_End 0x8ff
#define bFPGAPHY1_End 0x9ff
#define bCCKPHY0_End 0xaff
#define bOFDMPHY0_End 0xcff
#define bOFDMPHY1_End 0xdff
#define bPMACControl 0x0 /* Useless */
//define max debug item in each debug page
//#define bMaxItem_FPGA_PHY0 0x9
//#define bMaxItem_FPGA_PHY1 0x3
//#define bMaxItem_PHY_11B 0x16
//#define bMaxItem_OFDM_PHY0 0x29
//#define bMaxItem_OFDM_PHY1 0x0
#define bPMACControl 0x0 // Useless
#define bWMACControl 0x1
#define bWNICControl 0x2
#define PathA 0x0 /* Useless */
#define PathA 0x0 // Useless
#define PathB 0x1
#define PathC 0x2
#define PathD 0x3
/*--------------------------Define Parameters-------------------------------*/
#endif

164
include/Hal8188EPwrSeq.h Normal file → Executable file
View file

@ -57,117 +57,121 @@
#define RTL8188E_TRANS_LPS_TO_ACT_STEPS 15
#define RTL8188E_TRANS_END_STEPS 1
#define RTL8188E_TRANS_CARDEMU_TO_ACT \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here*/ \
{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1 power ready*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0|BIT1, 0}, /* 0x02[1:0] = 0 reset BB*/ \
{0x0026, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7}, /*0x24[23] = 2b'01 schmit trigger */ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0}, /* 0x04[15] = 0 disable HWPDN (control by DRV)*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4|BIT3, 0}, /*0x04[12:11] = 2b'00 disable WL suspend*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x04[8] = 1 polling until return 0*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0}, /*wait till 0x04[8] = 0*/ \
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*LDO normal mode*/ \
{0x0074, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*SDIO Driving*/ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1 power ready*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0|BIT1, 0}, /* 0x02[1:0] = 0 reset BB*/ \
{0x0026, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, BIT7}, /*0x24[23] = 2b'01 schmit trigger */ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, 0}, /* 0x04[15] = 0 disable HWPDN (control by DRV)*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4|BIT3, 0}, /*0x04[12:11] = 2b'00 disable WL suspend*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, BIT0}, /*0x04[8] = 1 polling until return 0*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, BIT0, 0}, /*wait till 0x04[8] = 0*/ \
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, 0}, /*LDO normal mode*/ \
{0x0074, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, BIT4}, /*SDIO Driving*/ \
#define RTL8188E_TRANS_ACT_TO_CARDEMU \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here*/ \
{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/ \
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*LDO Sleep mode*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/ \
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, BIT4}, /*LDO Sleep mode*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/ \
#define RTL8188E_TRANS_CARDEMU_TO_SUS \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3|BIT4, BIT3}, /*0x04[12:11] = 2b'01enable WL suspend*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3|BIT4, BIT3|BIT4}, /*0x04[12:11] = 2b'11enable WL suspend for PCIe*/ \
{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, BIT7}, /* 0x04[31:30] = 2b'10 enable enable bandgap mbias in suspend */ \
{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*Clear SIC_EN register 0x40[12] = 1'b0 */ \
{0xfe10, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*Set USB suspend enable local register 0xfe10[4]=1 */ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, BIT3}, /*0x04[12:11] = 2b'01enable WL suspend*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, BIT3|BIT4}, /*0x04[12:11] = 2b'11enable WL suspend for PCIe*/ \
{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, BIT7}, /* 0x04[31:30] = 2b'10 enable enable bandgap mbias in suspend */ \
{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, 0}, /*Clear SIC_EN register 0x40[12] = 1'b0 */ \
{0xfe10, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, BIT4}, /*Set USB suspend enable local register 0xfe10[4]=1 */ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
#define RTL8188E_TRANS_SUS_TO_CARDEMU \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3|BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
#define RTL8188E_TRANS_CARDEMU_TO_CARDDIS \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here*/ \
{0x0026, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7}, /*0x24[23] = 2b'01 schmit trigger */ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3|BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/ \
{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /* 0x04[31:30] = 2b'10 enable enable bandgap mbias in suspend */ \
{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*Clear SIC_EN register 0x40[12] = 1'b0 */ \
{0xfe10, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*Set USB suspend enable local register 0xfe10[4]=1 */ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0026, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, BIT7}, /*0x24[23] = 2b'01 schmit trigger */ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/ \
{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0}, /* 0x04[31:30] = 2b'10 enable enable bandgap mbias in suspend */ \
{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, 0}, /*Clear SIC_EN register 0x40[12] = 1'b0 */ \
{0xfe10, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, BIT4}, /*Set USB suspend enable local register 0xfe10[4]=1 */ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
#define RTL8188E_TRANS_CARDDIS_TO_CARDEMU \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3|BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
#define RTL8188E_TRANS_CARDEMU_TO_PDN \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here*/ \
{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
#define RTL8188E_TRANS_PDN_TO_CARDEMU \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here */ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
/* This is used by driver for LPSRadioOff Procedure, not for FW LPS Step */
//This is used by driver for LPSRadioOff Procedure, not for FW LPS Step
#define RTL8188E_TRANS_ACT_TO_LPS \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here */ \
{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x7F},/*Tx Pause*/ \
{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled,and clock are gated*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/ \
{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/ \
{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/ \
{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x7F},/*Tx Pause*/ \
{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled,and clock are gated*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/ \
{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/ \
{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/ \
{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/ \
#define RTL8188E_TRANS_LPS_TO_ACT \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here */ \
{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*. 0x08[4] = 0 switch TSF to 40M*/\
{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0 TSF in 40M*/\
{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6|BIT7, 0}, /*. 0x29[7:6] = 2b'00 enable BB clock*/\
{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*. 0x101[1] = 1*/\
{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*. 0x100[7:0] = 0xFF enable WMAC TRX*/\
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1|BIT0, BIT1|BIT0}, /*. 0x02[1:0] = 2b'11 enable BB macro*/\
{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*. 0x522 = 0*/
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, 0}, /*. 0x08[4] = 0 switch TSF to 40M*/\
{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0 TSF in 40M*/\
{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT6|BIT7, 0}, /*. 0x29[7:6] = 2b'00 enable BB clock*/\
{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1, BIT1}, /*. 0x101[1] = 1*/\
{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0xFF}, /*. 0x100[7:0] = 0xFF enable WMAC TRX*/\
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1|BIT0, BIT1|BIT0}, /*. 0x02[1:0] = 2b'11 enable BB macro*/\
{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0}, /*. 0x522 = 0*/
#define RTL8188E_TRANS_END \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, comments here*/ \
{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,0, PWR_CMD_END, 0, 0}, /* */
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,0,PWR_CMD_END, 0, 0}, //
extern struct wl_pwr_cfg rtl8188E_power_on_flow[RTL8188E_TRANS_CARDEMU_TO_ACT_STEPS+RTL8188E_TRANS_END_STEPS];
extern struct wl_pwr_cfg rtl8188E_radio_off_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_END_STEPS];
extern struct wl_pwr_cfg rtl8188E_card_disable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS];
extern struct wl_pwr_cfg rtl8188E_card_enable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS];
extern struct wl_pwr_cfg rtl8188E_suspend_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS+RTL8188E_TRANS_END_STEPS];
extern struct wl_pwr_cfg rtl8188E_resume_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS+RTL8188E_TRANS_END_STEPS];
extern struct wl_pwr_cfg rtl8188E_hwpdn_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS];
extern struct wl_pwr_cfg rtl8188E_enter_lps_flow[RTL8188E_TRANS_ACT_TO_LPS_STEPS+RTL8188E_TRANS_END_STEPS];
extern struct wl_pwr_cfg rtl8188E_leave_lps_flow[RTL8188E_TRANS_LPS_TO_ACT_STEPS+RTL8188E_TRANS_END_STEPS];
#endif /* __HAL8188EPWRSEQ_H__ */
extern WLAN_PWR_CFG rtl8188E_power_on_flow[RTL8188E_TRANS_CARDEMU_TO_ACT_STEPS+RTL8188E_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8188E_radio_off_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8188E_card_disable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8188E_card_enable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8188E_suspend_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS+RTL8188E_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8188E_resume_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS+RTL8188E_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8188E_hwpdn_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS+RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS+RTL8188E_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8188E_enter_lps_flow[RTL8188E_TRANS_ACT_TO_LPS_STEPS+RTL8188E_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8188E_leave_lps_flow[RTL8188E_TRANS_LPS_TO_ACT_STEPS+RTL8188E_TRANS_END_STEPS];
#endif //__HAL8188EPWRSEQ_H__

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include/Hal8192CPhyCfg.h Executable file
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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
/*****************************************************************************
* Module: __INC_HAL8192CPHYCFG_H
*
*
* Note:
*
*
* Export: Constants, macro, functions(API), global variables(None).
*
* Abbrev:
*
* History:
* Data Who Remark
* 08/07/2007 MHC 1. Porting from 9x series PHYCFG.h.
* 2. Reorganize code architecture.
*
*****************************************************************************/
/* Check to see if the file has been included already. */
#ifndef __INC_HAL8192CPHYCFG_H
#define __INC_HAL8192CPHYCFG_H
/*--------------------------Define Parameters-------------------------------*/
#define LOOP_LIMIT 5
#define MAX_STALL_TIME 50 //us
#define AntennaDiversityValue 0x80 //(Adapter->bSoftwareAntennaDiversity ? 0x00:0x80)
#define MAX_TXPWR_IDX_NMODE_92S 63
#define Reset_Cnt_Limit 3
#ifdef CONFIG_PCI_HCI
#define MAX_AGGR_NUM 0x0A0A
#else
#define MAX_AGGR_NUM 0x0909
#endif
#ifdef CONFIG_PCI_HCI
#define SET_RTL8192SE_RF_SLEEP(_pAdapter) \
{ \
u1Byte u1bTmp; \
u1bTmp = PlatformEFIORead1Byte(_pAdapter, REG_LDOV12D_CTRL); \
u1bTmp |= BIT0; \
PlatformEFIOWrite1Byte(_pAdapter, REG_LDOV12D_CTRL, u1bTmp); \
PlatformEFIOWrite1Byte(_pAdapter, REG_SPS_OCP_CFG, 0x0); \
PlatformEFIOWrite1Byte(_pAdapter, TXPAUSE, 0xFF); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x57FC); \
delay_us(100); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x77FC); \
PlatformEFIOWrite1Byte(_pAdapter, PHY_CCA, 0x0); \
delay_us(10); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x37FC); \
delay_us(10); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x77FC); \
delay_us(10); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x57FC); \
}
#endif
/*--------------------------Define Parameters-------------------------------*/
/*------------------------------Define structure----------------------------*/
typedef enum _SwChnlCmdID{
CmdID_End,
CmdID_SetTxPowerLevel,
CmdID_BBRegWrite10,
CmdID_WritePortUlong,
CmdID_WritePortUshort,
CmdID_WritePortUchar,
CmdID_RF_WriteReg,
}SwChnlCmdID;
/* 1. Switch channel related */
typedef struct _SwChnlCmd{
SwChnlCmdID CmdID;
u32 Para1;
u32 Para2;
u32 msDelay;
}SwChnlCmd;
typedef enum _HW90_BLOCK{
HW90_BLOCK_MAC = 0,
HW90_BLOCK_PHY0 = 1,
HW90_BLOCK_PHY1 = 2,
HW90_BLOCK_RF = 3,
HW90_BLOCK_MAXIMUM = 4, // Never use this
}HW90_BLOCK_E, *PHW90_BLOCK_E;
typedef enum _RF_RADIO_PATH{
RF_PATH_A = 0, //Radio Path A
RF_PATH_B = 1, //Radio Path B
RF_PATH_C = 2, //Radio Path C
RF_PATH_D = 3, //Radio Path D
//RF_PATH_MAX //Max RF number 90 support
}RF_RADIO_PATH_E, *PRF_RADIO_PATH_E;
#define RF_PATH_MAX 2
#define CHANNEL_MAX_NUMBER 14 // 14 is the max channel number
#define CHANNEL_GROUP_MAX 3 // ch1~3, ch4~9, ch10~14 total three groups
typedef enum _WIRELESS_MODE {
WIRELESS_MODE_UNKNOWN = 0x00,
WIRELESS_MODE_A = BIT2,
WIRELESS_MODE_B = BIT0,
WIRELESS_MODE_G = BIT1,
WIRELESS_MODE_AUTO = BIT5,
WIRELESS_MODE_N_24G = BIT3,
WIRELESS_MODE_N_5G = BIT4,
WIRELESS_MODE_AC = BIT6
} WIRELESS_MODE;
typedef enum _BaseBand_Config_Type{
BaseBand_Config_PHY_REG = 0, //Radio Path A
BaseBand_Config_AGC_TAB = 1, //Radio Path B
}BaseBand_Config_Type, *PBaseBand_Config_Type;
typedef enum _PHY_Rate_Tx_Power_Offset_Area{
RA_OFFSET_LEGACY_OFDM1,
RA_OFFSET_LEGACY_OFDM2,
RA_OFFSET_HT_OFDM1,
RA_OFFSET_HT_OFDM2,
RA_OFFSET_HT_OFDM3,
RA_OFFSET_HT_OFDM4,
RA_OFFSET_HT_CCK,
}RA_OFFSET_AREA,*PRA_OFFSET_AREA;
/* BB/RF related */
typedef enum _RF_TYPE_8190P{
RF_TYPE_MIN, // 0
RF_8225=1, // 1 11b/g RF for verification only
RF_8256=2, // 2 11b/g/n
RF_8258=3, // 3 11a/b/g/n RF
RF_6052=4, // 4 11b/g/n RF
//RF_6052=5, // 4 11b/g/n RF
// TODO: We sholud remove this psudo PHY RF after we get new RF.
RF_PSEUDO_11N=5, // 5, It is a temporality RF.
}RF_TYPE_8190P_E,*PRF_TYPE_8190P_E;
typedef struct _BB_REGISTER_DEFINITION{
u32 rfintfs; // set software control:
// 0x870~0x877[8 bytes]
u32 rfintfi; // readback data:
// 0x8e0~0x8e7[8 bytes]
u32 rfintfo; // output data:
// 0x860~0x86f [16 bytes]
u32 rfintfe; // output enable:
// 0x860~0x86f [16 bytes]
u32 rf3wireOffset; // LSSI data:
// 0x840~0x84f [16 bytes]
u32 rfLSSI_Select; // BB Band Select:
// 0x878~0x87f [8 bytes]
u32 rfTxGainStage; // Tx gain stage:
// 0x80c~0x80f [4 bytes]
u32 rfHSSIPara1; // wire parameter control1 :
// 0x820~0x823,0x828~0x82b, 0x830~0x833, 0x838~0x83b [16 bytes]
u32 rfHSSIPara2; // wire parameter control2 :
// 0x824~0x827,0x82c~0x82f, 0x834~0x837, 0x83c~0x83f [16 bytes]
u32 rfSwitchControl; //Tx Rx antenna control :
// 0x858~0x85f [16 bytes]
u32 rfAGCControl1; //AGC parameter control1 :
// 0xc50~0xc53,0xc58~0xc5b, 0xc60~0xc63, 0xc68~0xc6b [16 bytes]
u32 rfAGCControl2; //AGC parameter control2 :
// 0xc54~0xc57,0xc5c~0xc5f, 0xc64~0xc67, 0xc6c~0xc6f [16 bytes]
u32 rfRxIQImbalance; //OFDM Rx IQ imbalance matrix :
// 0xc14~0xc17,0xc1c~0xc1f, 0xc24~0xc27, 0xc2c~0xc2f [16 bytes]
u32 rfRxAFE; //Rx IQ DC ofset and Rx digital filter, Rx DC notch filter :
// 0xc10~0xc13,0xc18~0xc1b, 0xc20~0xc23, 0xc28~0xc2b [16 bytes]
u32 rfTxIQImbalance; //OFDM Tx IQ imbalance matrix
// 0xc80~0xc83,0xc88~0xc8b, 0xc90~0xc93, 0xc98~0xc9b [16 bytes]
u32 rfTxAFE; //Tx IQ DC Offset and Tx DFIR type
// 0xc84~0xc87,0xc8c~0xc8f, 0xc94~0xc97, 0xc9c~0xc9f [16 bytes]
u32 rfLSSIReadBack; //LSSI RF readback data SI mode
// 0x8a0~0x8af [16 bytes]
u32 rfLSSIReadBackPi; //LSSI RF readback data PI mode 0x8b8-8bc for Path A and B
}BB_REGISTER_DEFINITION_T, *PBB_REGISTER_DEFINITION_T;
typedef struct _R_ANTENNA_SELECT_OFDM{
u32 r_tx_antenna:4;
u32 r_ant_l:4;
u32 r_ant_non_ht:4;
u32 r_ant_ht1:4;
u32 r_ant_ht2:4;
u32 r_ant_ht_s1:4;
u32 r_ant_non_ht_s1:4;
u32 OFDM_TXSC:2;
u32 Reserved:2;
}R_ANTENNA_SELECT_OFDM;
typedef struct _R_ANTENNA_SELECT_CCK{
u8 r_cckrx_enable_2:2;
u8 r_cckrx_enable:2;
u8 r_ccktx_enable:4;
}R_ANTENNA_SELECT_CCK;
/*------------------------------Define structure----------------------------*/
/*------------------------Export global variable----------------------------*/
/*------------------------Export global variable----------------------------*/
/*------------------------Export Marco Definition---------------------------*/
/*------------------------Export Marco Definition---------------------------*/
/*--------------------------Exported Function prototype---------------------*/
//
// BB and RF register read/write
//
u32 rtl8192c_PHY_QueryBBReg( IN PADAPTER Adapter,
IN u32 RegAddr,
IN u32 BitMask );
void rtl8192c_PHY_SetBBReg( IN PADAPTER Adapter,
IN u32 RegAddr,
IN u32 BitMask,
IN u32 Data );
u32 rtl8192c_PHY_QueryRFReg( IN PADAPTER Adapter,
IN RF_RADIO_PATH_E eRFPath,
IN u32 RegAddr,
IN u32 BitMask );
void rtl8192c_PHY_SetRFReg( IN PADAPTER Adapter,
IN RF_RADIO_PATH_E eRFPath,
IN u32 RegAddr,
IN u32 BitMask,
IN u32 Data );
//
// Initialization related function
//
/* MAC/BB/RF HAL config */
int PHY_MACConfig8192C( IN PADAPTER Adapter );
int PHY_BBConfig8192C( IN PADAPTER Adapter );
int PHY_RFConfig8192C( IN PADAPTER Adapter );
/* RF config */
int rtl8192c_PHY_ConfigRFWithParaFile( IN PADAPTER Adapter,
IN u8* pFileName,
IN RF_RADIO_PATH_E eRFPath);
int rtl8192c_PHY_ConfigRFWithHeaderFile( IN PADAPTER Adapter,
IN RF_RADIO_PATH_E eRFPath);
/* BB/RF readback check for making sure init OK */
int rtl8192c_PHY_CheckBBAndRFOK( IN PADAPTER Adapter,
IN HW90_BLOCK_E CheckBlock,
IN RF_RADIO_PATH_E eRFPath );
/* Read initi reg value for tx power setting. */
void rtl8192c_PHY_GetHWRegOriginalValue( IN PADAPTER Adapter );
//
// RF Power setting
//
//extern BOOLEAN PHY_SetRFPowerState(IN PADAPTER Adapter,
// IN RT_RF_POWER_STATE eRFPowerState);
//
// BB TX Power R/W
//
void PHY_GetTxPowerLevel8192C( IN PADAPTER Adapter,
OUT u32* powerlevel );
void PHY_SetTxPowerLevel8192C( IN PADAPTER Adapter,
IN u8 channel );
BOOLEAN PHY_UpdateTxPowerDbm8192C( IN PADAPTER Adapter,
IN int powerInDbm );
//
VOID
PHY_ScanOperationBackup8192C(IN PADAPTER Adapter,
IN u8 Operation );
//
// Switch bandwidth for 8192S
//
//extern void PHY_SetBWModeCallback8192C( IN PRT_TIMER pTimer );
void PHY_SetBWMode8192C( IN PADAPTER pAdapter,
IN HT_CHANNEL_WIDTH ChnlWidth,
IN unsigned char Offset );
//
// Set FW CMD IO for 8192S.
//
//extern BOOLEAN HalSetIO8192C( IN PADAPTER Adapter,
// IN IO_TYPE IOType);
//
// Set A2 entry to fw for 8192S
//
extern void FillA2Entry8192C( IN PADAPTER Adapter,
IN u8 index,
IN u8* val);
//
// channel switch related funciton
//
//extern void PHY_SwChnlCallback8192C( IN PRT_TIMER pTimer );
void PHY_SwChnl8192C( IN PADAPTER pAdapter,
IN u8 channel );
// Call after initialization
void PHY_SwChnlPhy8192C( IN PADAPTER pAdapter,
IN u8 channel );
void ChkFwCmdIoDone( IN PADAPTER Adapter);
//
// BB/MAC/RF other monitor API
//
void PHY_SetMonitorMode8192C(IN PADAPTER pAdapter,
IN BOOLEAN bEnableMonitorMode );
BOOLEAN PHY_CheckIsLegalRfPath8192C(IN PADAPTER pAdapter,
IN u32 eRFPath );
VOID rtl8192c_PHY_SetRFPathSwitch(IN PADAPTER pAdapter, IN BOOLEAN bMain);
//
// Modify the value of the hw register when beacon interval be changed.
//
void
rtl8192c_PHY_SetBeaconHwReg( IN PADAPTER Adapter,
IN u16 BeaconInterval );
extern VOID
PHY_SwitchEphyParameter(
IN PADAPTER Adapter
);
extern VOID
PHY_EnableHostClkReq(
IN PADAPTER Adapter
);
BOOLEAN
SetAntennaConfig92C(
IN PADAPTER Adapter,
IN u8 DefaultAnt
);
#ifdef RTL8192C_RECONFIG_TO_1T1R
extern void PHY_Reconfig_To_1T1R(_adapter *padapter);
#endif
/*--------------------------Exported Function prototype---------------------*/
#define PHY_QueryBBReg(Adapter, RegAddr, BitMask) rtl8192c_PHY_QueryBBReg((Adapter), (RegAddr), (BitMask))
#define PHY_SetBBReg(Adapter, RegAddr, BitMask, Data) rtl8192c_PHY_SetBBReg((Adapter), (RegAddr), (BitMask), (Data))
#define PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask) rtl8192c_PHY_QueryRFReg((Adapter), (eRFPath), (RegAddr), (BitMask))
#define PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data) rtl8192c_PHY_SetRFReg((Adapter), (eRFPath), (RegAddr), (BitMask), (Data))
#define PHY_SetMacReg PHY_SetBBReg
#define PHY_QueryMacReg PHY_QueryBBReg
#endif // __INC_HAL8192CPHYCFG_H

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include/Hal8192CPhyReg.h Executable file

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include/Hal8192DPhyCfg.h Executable file
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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
/*****************************************************************************
*
* Module: __INC_HAL8192DPHYCFG_H
*
*
* Note:
*
*
* Export: Constants, macro, functions(API), global variables(None).
*
* Abbrev:
*
* History:
* Data Who Remark
* 08/07/2007 MHC 1. Porting from 9x series PHYCFG.h.
* 2. Reorganize code architecture.
*
*****************************************************************************/
/* Check to see if the file has been included already. */
#ifndef __INC_HAL8192DPHYCFG_H
#define __INC_HAL8192DPHYCFG_H
/*--------------------------Define Parameters-------------------------------*/
#define LOOP_LIMIT 5
#define MAX_STALL_TIME 50 //us
#define AntennaDiversityValue 0x80 //(Adapter->bSoftwareAntennaDiversity ? 0x00:0x80)
#define MAX_TXPWR_IDX_NMODE_92S 63
#define Reset_Cnt_Limit 3
#ifdef CONFIG_PCI_HCI
#define SET_RTL8192SE_RF_SLEEP(_pAdapter) \
{ \
u1Byte u1bTmp; \
u1bTmp = PlatformEFIORead1Byte(_pAdapter, REG_LDOV12D_CTRL); \
u1bTmp |= BIT0; \
PlatformEFIOWrite1Byte(_pAdapter, REG_LDOV12D_CTRL, u1bTmp); \
PlatformEFIOWrite1Byte(_pAdapter, REG_SPS_OCP_CFG, 0x0); \
PlatformEFIOWrite1Byte(_pAdapter, TXPAUSE, 0xFF); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x57FC); \
delay_us(100); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x77FC); \
PlatformEFIOWrite1Byte(_pAdapter, PHY_CCA, 0x0); \
delay_us(10); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x37FC); \
delay_us(10); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x77FC); \
delay_us(10); \
PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x57FC); \
}
#endif
/*--------------------------Define Parameters-------------------------------*/
/*------------------------------Define structure----------------------------*/
typedef enum _SwChnlCmdID{
CmdID_End,
CmdID_SetTxPowerLevel,
CmdID_BBRegWrite10,
CmdID_WritePortUlong,
CmdID_WritePortUshort,
CmdID_WritePortUchar,
CmdID_RF_WriteReg,
}SwChnlCmdID;
/* 1. Switch channel related */
typedef struct _SwChnlCmd{
SwChnlCmdID CmdID;
u32 Para1;
u32 Para2;
u32 msDelay;
}SwChnlCmd;
typedef enum _HW90_BLOCK{
HW90_BLOCK_MAC = 0,
HW90_BLOCK_PHY0 = 1,
HW90_BLOCK_PHY1 = 2,
HW90_BLOCK_RF = 3,
HW90_BLOCK_MAXIMUM = 4, // Never use this
}HW90_BLOCK_E, *PHW90_BLOCK_E;
//vivi added this for read parameter from header, 20100908
typedef enum _RF_CONTENT{
radioa_txt = 0x1000,
radiob_txt = 0x1001,
radioc_txt = 0x1002,
radiod_txt = 0x1003
} RF_CONTENT;
typedef enum _RF_RADIO_PATH{
RF_PATH_A = 0, //Radio Path A
RF_PATH_B = 1, //Radio Path B
RF_PATH_C = 2, //Radio Path C
RF_PATH_D = 3, //Radio Path D
//RF_PATH_MAX //Max RF number 90 support
}RF_RADIO_PATH_E, *PRF_RADIO_PATH_E;
#define RF_PATH_MAX 2
typedef enum _WIRELESS_MODE {
WIRELESS_MODE_UNKNOWN = 0x00,
WIRELESS_MODE_A = 0x01,
WIRELESS_MODE_B = 0x02,
WIRELESS_MODE_G = 0x04,
WIRELESS_MODE_AUTO = 0x08,
WIRELESS_MODE_N_24G = 0x10,
WIRELESS_MODE_N_5G = 0x20
} WIRELESS_MODE;
#if(TX_POWER_FOR_5G_BAND == 1)
#define CHANNEL_MAX_NUMBER 14+24+21 // 14 is the max channel number
#define CHANNEL_GROUP_MAX 3+9 // ch1~3, ch4~9, ch10~14 total three groups
#define MAX_PG_GROUP 13
#else
#define CHANNEL_MAX_NUMBER 14 // 14 is the max channel number
#define CHANNEL_GROUP_MAX 3 // ch1~3, ch4~9, ch10~14 total three groups
#define MAX_PG_GROUP 7
#endif
#define CHANNEL_GROUP_MAX_2G 3
#define CHANNEL_GROUP_IDX_5GL 3
#define CHANNEL_GROUP_IDX_5GM 6
#define CHANNEL_GROUP_IDX_5GH 9
#define CHANNEL_GROUP_MAX_5G 9
#define CHANNEL_MAX_NUMBER_2G 14
#if (RTL8192D_DUAL_MAC_MODE_SWITCH == 1)
typedef enum _BaseBand_Config_Type{
BaseBand_Config_PHY_REG = 0,
BaseBand_Config_AGC_TAB = 1,
BaseBand_Config_AGC_TAB_2G = 2,
BaseBand_Config_AGC_TAB_5G = 3,
}BaseBand_Config_Type, *PBaseBand_Config_Type;
#else
typedef enum _BaseBand_Config_Type{
BaseBand_Config_PHY_REG = 0, //Radio Path A
BaseBand_Config_AGC_TAB = 1, //Radio Path B
}BaseBand_Config_Type, *PBaseBand_Config_Type;
#endif
typedef enum _MACPHY_MODE_8192D{
SINGLEMAC_SINGLEPHY, //SMSP
DUALMAC_DUALPHY, //DMDP
DUALMAC_SINGLEPHY, //DMSP
}MACPHY_MODE_8192D,*PMACPHY_MODE_8192D;
typedef enum _MACPHY_MODE_CHANGE_ACTION{
DMDP2DMSP = 0,
DMSP2DMDP = 1,
DMDP2SMSP = 2,
SMSP2DMDP = 3,
DMSP2SMSP = 4,
SMSP2DMSP = 5,
MAXACTION
}MACPHY_MODE_CHANGE_ACTION,*PMACPHY_MODE_CHANGE_ACTION;
typedef enum _BAND_TYPE{
BAND_ON_2_4G = 1,
BAND_ON_5G = 2,
BAND_ON_BOTH,
BANDMAX
}BAND_TYPE,*PBAND_TYPE;
typedef enum _PHY_Rate_Tx_Power_Offset_Area{
RA_OFFSET_LEGACY_OFDM1,
RA_OFFSET_LEGACY_OFDM2,
RA_OFFSET_HT_OFDM1,
RA_OFFSET_HT_OFDM2,
RA_OFFSET_HT_OFDM3,
RA_OFFSET_HT_OFDM4,
RA_OFFSET_HT_CCK,
}RA_OFFSET_AREA,*PRA_OFFSET_AREA;
/* BB/RF related */
typedef enum _RF_TYPE_8190P{
RF_TYPE_MIN, // 0
RF_8225=1, // 1 11b/g RF for verification only
RF_8256=2, // 2 11b/g/n
RF_8258=3, // 3 11a/b/g/n RF
RF_6052=4, // 4 11b/g/n RF
//RF_6052=5, // 4 11b/g/n RF
// TODO: We sholud remove this psudo PHY RF after we get new RF.
RF_PSEUDO_11N=5, // 5, It is a temporality RF.
}RF_TYPE_8190P_E,*PRF_TYPE_8190P_E;
typedef struct _BB_REGISTER_DEFINITION{
u32 rfintfs; // set software control:
// 0x870~0x877[8 bytes]
u32 rfintfi; // readback data:
// 0x8e0~0x8e7[8 bytes]
u32 rfintfo; // output data:
// 0x860~0x86f [16 bytes]
u32 rfintfe; // output enable:
// 0x860~0x86f [16 bytes]
u32 rf3wireOffset; // LSSI data:
// 0x840~0x84f [16 bytes]
u32 rfLSSI_Select; // BB Band Select:
// 0x878~0x87f [8 bytes]
u32 rfTxGainStage; // Tx gain stage:
// 0x80c~0x80f [4 bytes]
u32 rfHSSIPara1; // wire parameter control1 :
// 0x820~0x823,0x828~0x82b, 0x830~0x833, 0x838~0x83b [16 bytes]
u32 rfHSSIPara2; // wire parameter control2 :
// 0x824~0x827,0x82c~0x82f, 0x834~0x837, 0x83c~0x83f [16 bytes]
u32 rfSwitchControl; //Tx Rx antenna control :
// 0x858~0x85f [16 bytes]
u32 rfAGCControl1; //AGC parameter control1 :
// 0xc50~0xc53,0xc58~0xc5b, 0xc60~0xc63, 0xc68~0xc6b [16 bytes]
u32 rfAGCControl2; //AGC parameter control2 :
// 0xc54~0xc57,0xc5c~0xc5f, 0xc64~0xc67, 0xc6c~0xc6f [16 bytes]
u32 rfRxIQImbalance; //OFDM Rx IQ imbalance matrix :
// 0xc14~0xc17,0xc1c~0xc1f, 0xc24~0xc27, 0xc2c~0xc2f [16 bytes]
u32 rfRxAFE; //Rx IQ DC ofset and Rx digital filter, Rx DC notch filter :
// 0xc10~0xc13,0xc18~0xc1b, 0xc20~0xc23, 0xc28~0xc2b [16 bytes]
u32 rfTxIQImbalance; //OFDM Tx IQ imbalance matrix
// 0xc80~0xc83,0xc88~0xc8b, 0xc90~0xc93, 0xc98~0xc9b [16 bytes]
u32 rfTxAFE; //Tx IQ DC Offset and Tx DFIR type
// 0xc84~0xc87,0xc8c~0xc8f, 0xc94~0xc97, 0xc9c~0xc9f [16 bytes]
u32 rfLSSIReadBack; //LSSI RF readback data SI mode
// 0x8a0~0x8af [16 bytes]
u32 rfLSSIReadBackPi; //LSSI RF readback data PI mode 0x8b8-8bc for Path A and B
}BB_REGISTER_DEFINITION_T, *PBB_REGISTER_DEFINITION_T;
typedef struct _R_ANTENNA_SELECT_OFDM{
u32 r_tx_antenna:4;
u32 r_ant_l:4;
u32 r_ant_non_ht:4;
u32 r_ant_ht1:4;
u32 r_ant_ht2:4;
u32 r_ant_ht_s1:4;
u32 r_ant_non_ht_s1:4;
u32 OFDM_TXSC:2;
u32 Reserved:2;
}R_ANTENNA_SELECT_OFDM;
typedef struct _R_ANTENNA_SELECT_CCK{
u8 r_cckrx_enable_2:2;
u8 r_cckrx_enable:2;
u8 r_ccktx_enable:4;
}R_ANTENNA_SELECT_CCK;
/*------------------------------Define structure----------------------------*/
/*------------------------Export global variable----------------------------*/
/*------------------------Export global variable----------------------------*/
/*------------------------Export Marco Definition---------------------------*/
/*--------------------------Exported Function prototype---------------------*/
//
// BB and RF register read/write
//
void rtl8192d_PHY_SetBBReg1Byte( IN PADAPTER Adapter,
IN u32 RegAddr,
IN u32 BitMask,
IN u32 Data );
u32 rtl8192d_PHY_QueryBBReg( IN PADAPTER Adapter,
IN u32 RegAddr,
IN u32 BitMask );
void rtl8192d_PHY_SetBBReg( IN PADAPTER Adapter,
IN u32 RegAddr,
IN u32 BitMask,
IN u32 Data );
u32 rtl8192d_PHY_QueryRFReg( IN PADAPTER Adapter,
IN RF_RADIO_PATH_E eRFPath,
IN u32 RegAddr,
IN u32 BitMask );
void rtl8192d_PHY_SetRFReg( IN PADAPTER Adapter,
IN RF_RADIO_PATH_E eRFPath,
IN u32 RegAddr,
IN u32 BitMask,
IN u32 Data );
//
// Initialization related function
//
/* MAC/BB/RF HAL config */
extern int PHY_MACConfig8192D( IN PADAPTER Adapter );
extern int PHY_BBConfig8192D( IN PADAPTER Adapter );
extern int PHY_RFConfig8192D( IN PADAPTER Adapter );
/* RF config */
int rtl8192d_PHY_ConfigRFWithParaFile( IN PADAPTER Adapter,
IN u8* pFileName,
IN RF_RADIO_PATH_E eRFPath);
int rtl8192d_PHY_ConfigRFWithHeaderFile( IN PADAPTER Adapter,
IN RF_CONTENT Content,
IN RF_RADIO_PATH_E eRFPath);
/* BB/RF readback check for making sure init OK */
int rtl8192d_PHY_CheckBBAndRFOK( IN PADAPTER Adapter,
IN HW90_BLOCK_E CheckBlock,
IN RF_RADIO_PATH_E eRFPath );
/* Read initi reg value for tx power setting. */
void rtl8192d_PHY_GetHWRegOriginalValue( IN PADAPTER Adapter );
//
// RF Power setting
//
//extern BOOLEAN PHY_SetRFPowerState(IN PADAPTER Adapter,
// IN RT_RF_POWER_STATE eRFPowerState);
//
// BB TX Power R/W
//
void PHY_GetTxPowerLevel8192D( IN PADAPTER Adapter,
OUT u32* powerlevel );
void PHY_SetTxPowerLevel8192D( IN PADAPTER Adapter,
IN u8 channel );
BOOLEAN PHY_UpdateTxPowerDbm8192D( IN PADAPTER Adapter,
IN int powerInDbm );
//
VOID
PHY_ScanOperationBackup8192D(IN PADAPTER Adapter,
IN u8 Operation );
//
// Switch bandwidth for 8192S
//
//void PHY_SetBWModeCallback8192C( IN PRT_TIMER pTimer );
void PHY_SetBWMode8192D( IN PADAPTER pAdapter,
IN HT_CHANNEL_WIDTH ChnlWidth,
IN unsigned char Offset );
//
// Set FW CMD IO for 8192S.
//
//extern BOOLEAN HalSetIO8192C( IN PADAPTER Adapter,
// IN IO_TYPE IOType);
//
// Set A2 entry to fw for 8192S
//
extern void FillA2Entry8192C( IN PADAPTER Adapter,
IN u8 index,
IN u8* val);
//
// channel switch related funciton
//
//extern void PHY_SwChnlCallback8192C( IN PRT_TIMER pTimer );
void PHY_SwChnl8192D( IN PADAPTER pAdapter,
IN u8 channel );
// Call after initialization
void PHY_SwChnlPhy8192D( IN PADAPTER pAdapter,
IN u8 channel );
extern void ChkFwCmdIoDone( IN PADAPTER Adapter);
//
// BB/MAC/RF other monitor API
//
void PHY_SetMonitorMode8192D(IN PADAPTER pAdapter,
IN BOOLEAN bEnableMonitorMode );
BOOLEAN PHY_CheckIsLegalRfPath8192D(IN PADAPTER pAdapter,
IN u32 eRFPath );
//
// Modify the value of the hw register when beacon interval be changed.
//
void
rtl8192d_PHY_SetBeaconHwReg( IN PADAPTER Adapter,
IN u16 BeaconInterval );
extern VOID
PHY_SwitchEphyParameter(
IN PADAPTER Adapter
);
extern VOID
PHY_EnableHostClkReq(
IN PADAPTER Adapter
);
BOOLEAN
SetAntennaConfig92C(
IN PADAPTER Adapter,
IN u8 DefaultAnt
);
VOID
PHY_UpdateBBRFConfiguration8192D(
IN PADAPTER Adapter,
IN BOOLEAN bisBandSwitch
);
VOID PHY_ReadMacPhyMode92D(
IN PADAPTER Adapter,
IN BOOLEAN AutoloadFail
);
VOID PHY_ConfigMacPhyMode92D(
IN PADAPTER Adapter
);
VOID PHY_ConfigMacPhyModeInfo92D(
IN PADAPTER Adapter
);
VOID PHY_ConfigMacCoexist_RFPage92D(
IN PADAPTER Adapter
);
VOID
rtl8192d_PHY_InitRxSetting(
IN PADAPTER Adapter
);
VOID
rtl8192d_PHY_SetRFPathSwitch(IN PADAPTER pAdapter, IN BOOLEAN bMain);
VOID
HalChangeCCKStatus8192D(
IN PADAPTER Adapter,
IN BOOLEAN bCCKDisable
);
VOID
PHY_InitPABias92D(IN PADAPTER Adapter);
/*--------------------------Exported Function prototype---------------------*/
#define PHY_SetBBReg1Byte(Adapter, RegAddr, BitMask, Data) rtl8192d_PHY_SetBBReg1Byte((Adapter), (RegAddr), (BitMask), (Data))
#define PHY_QueryBBReg(Adapter, RegAddr, BitMask) rtl8192d_PHY_QueryBBReg((Adapter), (RegAddr), (BitMask))
#define PHY_SetBBReg(Adapter, RegAddr, BitMask, Data) rtl8192d_PHY_SetBBReg((Adapter), (RegAddr), (BitMask), (Data))
#define PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask) rtl8192d_PHY_QueryRFReg((Adapter), (eRFPath), (RegAddr), (BitMask))
#define PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data) rtl8192d_PHY_SetRFReg((Adapter), (eRFPath), (RegAddr), (BitMask), (Data))
#define PHY_SetMacReg PHY_SetBBReg
#define PHY_QueryMacReg PHY_QueryBBReg
#endif // __INC_HAL8192SPHYCFG_H

1172
include/Hal8192DPhyReg.h Executable file

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30
include/Hal8723APhyCfg.h Executable file
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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __INC_HAL8723PHYCFG_H__
#define __INC_HAL8723PHYCFG_H__
#include <Hal8192CPhyCfg.h>
/* MAC/BB/RF HAL config */
int PHY_BBConfig8723A( IN PADAPTER Adapter );
int PHY_RFConfig8723A( IN PADAPTER Adapter );
s32 PHY_MACConfig8723A(PADAPTER padapter);
#endif

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include/Hal8723APhyReg.h Executable file
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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#ifndef __INC_HAL8723APHYREG_H__
#define __INC_HAL8723APHYREG_H__
#include <Hal8192CPhyReg.h>
//
// PageB(0xB00)
//
#define rPdp_AntA 0xb00
#define rPdp_AntA_4 0xb04
#define rPdp_AntA_8 0xb08
#define rPdp_AntA_C 0xb0c
#define rPdp_AntA_10 0xb10
#define rPdp_AntA_14 0xb14
#define rPdp_AntA_18 0xb18
#define rPdp_AntA_1C 0xb1c
#define rPdp_AntA_20 0xb20
#define rPdp_AntA_24 0xb24
#define rConfig_Pmpd_AntA 0xb28
#define rConfig_ram64x16 0xb2c
#define rBndA 0xb30
#define rHssiPar 0xb34
#define rConfig_AntA 0xb68
#define rConfig_AntB 0xb6c
#define rPdp_AntB 0xb70
#define rPdp_AntB_4 0xb74
#define rPdp_AntB_8 0xb78
#define rPdp_AntB_C 0xb7c
#define rPdp_AntB_10 0xb80
#define rPdp_AntB_14 0xb84
#define rPdp_AntB_18 0xb88
#define rPdp_AntB_1C 0xb8c
#define rPdp_AntB_20 0xb90
#define rPdp_AntB_24 0xb94
#define rConfig_Pmpd_AntB 0xb98
#define rBndB 0xba0
#define rAPK 0xbd8
#define rPm_Rx0_AntA 0xbdc
#define rPm_Rx1_AntA 0xbe0
#define rPm_Rx2_AntA 0xbe4
#define rPm_Rx3_AntA 0xbe8
#define rPm_Rx0_AntB 0xbec
#define rPm_Rx1_AntB 0xbf0
#define rPm_Rx2_AntB 0xbf4
#define rPm_Rx3_AntB 0xbf8
#endif

171
include/Hal8723PwrSeq.h Executable file
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#ifndef __HAL8723PWRSEQ_H__
#define __HAL8723PWRSEQ_H__
/*
Check document WM-20110607-Paul-RTL8723A_Power_Architecture-R02.vsd
There are 6 HW Power States:
0: POFF--Power Off
1: PDN--Power Down
2: CARDEMU--Card Emulation
3: ACT--Active Mode
4: LPS--Low Power State
5: SUS--Suspend
The transision from different states are defined below
TRANS_CARDEMU_TO_ACT
TRANS_ACT_TO_CARDEMU
TRANS_CARDEMU_TO_SUS
TRANS_SUS_TO_CARDEMU
TRANS_CARDEMU_TO_PDN
TRANS_ACT_TO_LPS
TRANS_LPS_TO_ACT
TRANS_END
*/
#include "HalPwrSeqCmd.h"
#include "rtl8723a_spec.h"
#define RTL8723A_TRANS_CARDEMU_TO_ACT_STEPS 15
#define RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS 15
#define RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS 15
#define RTL8723A_TRANS_SUS_TO_CARDEMU_STEPS 15
#define RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS 15
#define RTL8723A_TRANS_PDN_TO_CARDEMU_STEPS 15
#define RTL8723A_TRANS_ACT_TO_LPS_STEPS 15
#define RTL8723A_TRANS_LPS_TO_ACT_STEPS 15
#define RTL8723A_TRANS_END_STEPS 1
#define RTL8723A_TRANS_CARDEMU_TO_ACT \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/ \
{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/ \
{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/ \
{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/ \
{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1 power ready*/ \
{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset 0x04[16]=1*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, (BIT4|BIT3), 0},/* disable WL suspend*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, BIT0, 0},/**/ \
{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, 1},/*0x4C[23] = 0x4E[7] = 1, switch DPDT_SEL_P output from WL BB */\
#define RTL8723A_TRANS_ACT_TO_CARDEMU \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/ \
{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, 0},/*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/ \
{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/ \
{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/ \
#define RTL8723A_TRANS_CARDEMU_TO_SUS \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4|BIT3, (BIT4|BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/ \
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/ \
{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, BIT3|BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
#define RTL8723A_TRANS_SUS_TO_CARDEMU \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
#define RTL8723A_TRANS_CARDEMU_TO_CARDDIS \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07=0x20 , SOP option to disable BG/MB*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK|PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/ \
{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/ \
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
#define RTL8723A_TRANS_CARDDIS_TO_CARDEMU \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/ \
{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT3|BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/ \
{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
#define RTL8723A_TRANS_CARDEMU_TO_PDN \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/ \
{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK|PWR_INTF_USB_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/ \
{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
#define RTL8723A_TRANS_PDN_TO_CARDEMU \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
#define RTL8723A_TRANS_ACT_TO_LPS \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/ \
{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/ \
{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled,and clock are gated*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/ \
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/ \
{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/ \
{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/ \
{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/ \
{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/ \
#define RTL8723A_TRANS_LPS_TO_ACT \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK,PWR_BASEADDR_SDIO,PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT4, 0}, /*. 0x08[4] = 0 switch TSF to 40M*/\
{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0 TSF in 40M*/\
{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT6|BIT7, 0}, /*. 0x29[7:6] = 2b'00 enable BB clock*/\
{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1, BIT1}, /*. 0x101[1] = 1*/\
{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0xFF}, /*. 0x100[7:0] = 0xFF enable WMAC TRX*/\
{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, BIT1|BIT0, BIT1|BIT0}, /*. 0x02[1:0] = 2b'11 enable BB macro*/\
{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,PWR_BASEADDR_MAC,PWR_CMD_WRITE, 0xFF, 0}, /*. 0x522 = 0*/
#define RTL8723A_TRANS_END \
/* format */ \
/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/ \
{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK,0,PWR_CMD_END, 0, 0}, //
extern WLAN_PWR_CFG rtl8723A_power_on_flow[RTL8723A_TRANS_CARDEMU_TO_ACT_STEPS+RTL8723A_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8723A_radio_off_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS+RTL8723A_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8723A_card_disable_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS+RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS+RTL8723A_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8723A_card_enable_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS+RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS+RTL8723A_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8723A_suspend_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS+RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS+RTL8723A_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8723A_resume_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS+RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS+RTL8723A_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8723A_hwpdn_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS+RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS+RTL8723A_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8723A_enter_lps_flow[RTL8723A_TRANS_ACT_TO_LPS_STEPS+RTL8723A_TRANS_END_STEPS];
extern WLAN_PWR_CFG rtl8723A_leave_lps_flow[RTL8723A_TRANS_LPS_TO_ACT_STEPS+RTL8723A_TRANS_END_STEPS];
#endif

82
include/HalPwrSeqCmd.h Normal file → Executable file
View file

@ -23,51 +23,51 @@
#include <drv_types.h>
/*---------------------------------------------*/
/* 3 The value of cmd: 4 bits */
//3 The value of cmd: 4 bits
/*---------------------------------------------*/
#define PWR_CMD_READ 0x00
/* offset: the read register offset */
/* msk: the mask of the read value */
/* value: N/A, left by 0 */
/* note: dirver shall implement this function by read & msk */
// offset: the read register offset
// msk: the mask of the read value
// value: N/A, left by 0
// note: dirver shall implement this function by read & msk
#define PWR_CMD_WRITE 0x01
/* offset: the read register offset */
/* msk: the mask of the write bits */
/* value: write value */
/* note: driver shall implement this cmd by read & msk after write */
// offset: the read register offset
// msk: the mask of the write bits
// value: write value
// note: driver shall implement this cmd by read & msk after write
#define PWR_CMD_POLLING 0x02
/* offset: the read register offset */
/* msk: the mask of the polled value */
/* value: the value to be polled, masked by the msd field. */
/* note: driver shall implement this cmd by */
/* do{ */
/* if ( (Read(offset) & msk) == (value & msk) ) */
/* break; */
/* } while (not timeout); */
// offset: the read register offset
// msk: the mask of the polled value
// value: the value to be polled, masked by the msd field.
// note: driver shall implement this cmd by
// do{
// if( (Read(offset) & msk) == (value & msk) )
// break;
// } while(not timeout);
#define PWR_CMD_DELAY 0x03
/* offset: the value to delay */
/* msk: N/A */
/* value: the unit of delay, 0: us, 1: ms */
// offset: the value to delay
// msk: N/A
// value: the unit of delay, 0: us, 1: ms
#define PWR_CMD_END 0x04
/* offset: N/A */
/* msk: N/A */
/* value: N/A */
// offset: N/A
// msk: N/A
// value: N/A
/*---------------------------------------------*/
/* 3 The value of base: 4 bits */
//3 The value of base: 4 bits
/*---------------------------------------------*/
/* define the base address of each block */
// define the base address of each block
#define PWR_BASEADDR_MAC 0x00
#define PWR_BASEADDR_USB 0x01
#define PWR_BASEADDR_PCIE 0x02
#define PWR_BASEADDR_SDIO 0x03
/*---------------------------------------------*/
/* 3 The value of interface_msk: 4 bits */
//3 The value of interface_msk: 4 bits
/*---------------------------------------------*/
#define PWR_INTF_SDIO_MSK BIT(0)
#define PWR_INTF_USB_MSK BIT(1)
@ -75,14 +75,14 @@
#define PWR_INTF_ALL_MSK (BIT(0)|BIT(1)|BIT(2)|BIT(3))
/*---------------------------------------------*/
/* 3 The value of fab_msk: 4 bits */
//3 The value of fab_msk: 4 bits
/*---------------------------------------------*/
#define PWR_FAB_TSMC_MSK BIT(0)
#define PWR_FAB_UMC_MSK BIT(1)
#define PWR_FAB_ALL_MSK (BIT(0)|BIT(1)|BIT(2)|BIT(3))
/*---------------------------------------------*/
/* 3 The value of cut_msk: 8 bits */
//3 The value of cut_msk: 8 bits
/*---------------------------------------------*/
#define PWR_CUT_TESTCHIP_MSK BIT(0)
#define PWR_CUT_A_MSK BIT(1)
@ -94,12 +94,15 @@
#define PWR_CUT_G_MSK BIT(7)
#define PWR_CUT_ALL_MSK 0xFF
enum pwrseq_cmd_delat_unit {
typedef enum _PWRSEQ_CMD_DELAY_UNIT_
{
PWRSEQ_DELAY_US,
PWRSEQ_DELAY_MS,
};
} PWRSEQ_DELAY_UNIT;
struct wl_pwr_cfg {
typedef struct _WL_PWR_CFG_
{
u16 offset;
u8 cut_msk;
u8 fab_msk:4;
@ -108,7 +111,8 @@ struct wl_pwr_cfg {
u8 cmd:4;
u8 msk;
u8 value;
};
} WLAN_PWR_CFG, *PWLAN_PWR_CFG;
#define GET_PWR_CFG_OFFSET(__PWR_CMD) __PWR_CMD.offset
#define GET_PWR_CFG_CUT_MASK(__PWR_CMD) __PWR_CMD.cut_msk
@ -119,8 +123,16 @@ struct wl_pwr_cfg {
#define GET_PWR_CFG_MASK(__PWR_CMD) __PWR_CMD.msk
#define GET_PWR_CFG_VALUE(__PWR_CMD) __PWR_CMD.value
/* Prototype of protected function. */
u8 HalPwrSeqCmdParsing(struct adapter *padapter, u8 CutVersion, u8 FabVersion,
u8 InterfaceType, struct wl_pwr_cfg PwrCfgCmd[]);
//================================================================================
// Prototype of protected function.
//================================================================================
u8 HalPwrSeqCmdParsing(
PADAPTER padapter,
u8 CutVersion,
u8 FabVersion,
u8 InterfaceType,
WLAN_PWR_CFG PwrCfgCmd[]);
#endif

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