Quick_Start_Guide_for_Driver_Compilation_and_Installation Quick Start Guide For Driver Compilation And Installation
Quick_Start_Guide_for_Driver_Compilation_and_Installation
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Quick Start Guide for Driver Compilation and Installation Contents Introduction ...............................................................................................................1 1. Using install.sh Script for PC-Linux ...................................................................1 2. Decompress the driver source tar ball .................................................................1 3. Selecting Chip Type with make_drv Script (for compound release) ....................2 4. Compilation Settings in Makefile .......................................................................2 4.1. Adding or Selecting Target Platform .......................................................2 4.2. Platform Setting Section in Detail ...........................................................3 4.3. Other Compilation Settings .....................................................................4 5. Integrating Driver Source into Linux Kernel Tree...............................................5 6. Compiling Driver ...............................................................................................6 6.1. Compiling Driver in Driver Source Folder ..............................................6 6.2. Compiling Driver under Kernel Tree.......................................................6 7. Driver Installation ..............................................................................................6 Introduction In this document, we introduce two ways to compile and install our Wi-Fi driver: 1) Using install.sh script for PC-Linux and 2) Step by step manually. The former targets for end users who are not familiar with Linux system, while the later for engineers who want to port our Wi-Fi driver onto different platforms. 1. Using install.sh Script for PC-Linux For driver compilation and installation in PC-Linux, we provide an install.sh script to do the duties automatically. If you want to use our Wi-Fi solutions to access network on PC-Linux, you can just run install.sh script and then control Wi-Fi with utilities such as Network Manager. For further information about Wi-Fi station mode, please refer to: document/Quick_Start_Guide_for_Station_Mode.pdf. If you want to apply our Wi-Fi solutions on other embedded platforms, you should read and check the following paragraphs. 2. Decompress the driver source tar ball The driver source tar ball is located in the driver folder of our software package. For example, to decompress rtl8188C_8192C_8192D_usb_linux_v3.3.0_2920.20111123.tar.gz: root@driver/# tar zxvf rtl8188C_8192C_8192D_usb_linux_v3.3.0_2920.20111123.tar.gz 1 3. Selecting Chip Type with make_drv Script (for compound release) Our driver source release has two types: 1) single release, which can build out driver only for single chip type, and 2) compound release, which can build out drivers for multiple chip types separately. For compound release driver, you will see make_drv script after you decompress the driver tar ball located in driver folder. Before compiling driver source, executing the make_drv to select the target chip type to compile. For example: root@rtl8188C_8192C_8192D_usb_linux_v3.3.0_2920.20111123# ./make_drv Please select chip type(1/2): 1) RTL8192cu 2) RTL8192du #? 1 You have selected RTL8192cu 4. Compilation Settings in Makefile 4.1. Adding or Selecting Target Platform The default target platform is PC-Linux, if you do not want to compile driver for other platforms you can skip this section. To add or select target platform for compilation, we provide two sections in Makefile: 1) platform selection section and 2) platform setting section. First, you should look at the platform selection section of Makefile: CONFIG_PLATFORM_I386_PC = y CONFIG_PLATFORM_ANDROID_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_MT53XX = n CONFIG_PLATFORM_RTK_DMP = n The platform selection section consists of entries with ‘CONFIG_PLATFORM_’ prefix. Only one entry is allowed to be set with value ‘y’ and others with ‘n’. The 2 ‘CONFIG_PLATFORM_I386_PC’ is selected by default. We can select an existing entry or add a new entry for your target platform. For example, to add and select a new entry, ‘CONFIG_PLATFORM_NEW’: CONFIG_PLATFORM_I386_PC = n CONFIG_PLATFORM_NEW = y Second, you should create and/or modify the corresponding entry inside platform setting section. For example, adding the following entry in platform setting section for ‘CONFIG_PLATFORM_NEW’ we just add: ifeq ($(CONFIG_PLATFORM_NEW), y) EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN ARCH := arm CROSS_COMPILE := /opt/ new/toolchain/arm-eabi-4.4.3/bin/arm-eabiKSRC := /opt /new/kernel endif 4.2. Platform Setting Section in Detail l EXTRA_CFLAGS The EXTRA_CFLAGS is usually used to carry some additional settings at compilation time through macro definitions. Macro Effect CONFIG_BIG_ENDIAN Define some internal data structure as big endian. CONFIG_LITTLE_ENDIAN Define some internal data structure as little endian. CONFIG_MINIMAL_MEMORY_USAGE For better performance in powerful platform, we allocate large physical continuous memory as TX/RX IO buffers. In some embedded platform, there is chance to fail to allocate memory. Define this macro to prevent this situation. CONFIG_PLATFORM_ANDROID Older Android kernel do not has CONFIG_ANDROID defined. Define this macro to force the Android corresponding code inside our driver to be compiled. For newer Android kernel, it has no need to define this macro, otherwise, warning message about redefinition will show up 3 l ARCH The ARCH is used to specify the architecture of the target platform CPU, such as: arm, mips, i386, etc. l CROSS_COMPILE The CROSS_COMPILE is used to specify the toolchain prefix used for driver compilation. l KSRC The KSRC is used to specify the path of kernel source used for driver compilation l MODULE_NAME Different module name is assigned to drivers for different chips: Chip type Default module name RTL8192CU-series 8192cu RTL8192CE-series 8192ce RTL8192DU-series 8192du RTL8192DE-series 8192de RTL8723AS-series 8723as RTL8723AU-series 8723au RTL8189ES-series 8189es RTL8188EU-series 8188eu If you want to change the module name, you can set value of MODULE_NAME here. For example, setting module name as ‘wlan’: ifeq ($(CONFIG_PLATFORM_NEW), y) EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN ARCH := arm CROSS_COMPILE := /opt/ new/toolchain/arm-eabi-4.4.3/bin/arm-eabiKSRC := /opt /new/kernel MODULE_NAME := wlan endif 4.3. Other Compilation Settings We still have some compilation settings could be applied. For settings and further information about power saving mode, please refer to: document/HowTo_enable_the_power_saving_functionality.pdf. If you know what the macro means in the autoconf file, you could modify the 4 configuration by yourself. See the following table for the autoconf file you should modify for a specific chip type: Chip type Autoconf file to modify RTL8192CU-series autoconf_rtl8192c_usb_linux.h RTL8192CE-series autoconf_rtl8192c_pci_linux.h RTL8192DU-series autoconf_rtl8192d_usb_linux.h RTL8192DE-series autoconf_rtl8192d_pci_linux.h RTL8723AS-series autoconf_rtl8723a_sdio_linux.h RTL8723AU-series autoconf_rtl8723a_usb_linux.h RTL8189ES-series autoconf_rtl8189e_sdio_linux.h RTL8188EU-series autoconf_rtl8188e_usb_linux.h 5. Integrating Driver Source into Linux Kernel Tree This paragraph is for integrating our driver source into Linux kernel tree and building system. If you have no need to do this, simply skip this paragraph. For compound release driver source, make_drv should be execute to select chip type for the driver source. Please refer to: “3. Selecting Chip Type with make_drv Script (for compound release)”. For different chip types, we have different suggestions forand to use for the integration process: Chip type RTL8192CU-series CONFIG_RTL8192CU rtl8192cu RTL8192CE-series CONFIG_RTL8192CE rtl8192du RTL8192DU-series CONFIG_RTL8192DU rtl8192du RTL8192DE-series CONFIG_RTL8192DE rtl8192de RTL8723AS-series CONFIG_RTL8723AS rtl8723as RTL8723AU-series CONFIG_RTL8723AU rtl8723au RTL8189ES-series CONFIG_RTL8189ES rtl8189es RTL8188EU-series CONFIG_RTL8188EU rtl8188eu Assuming the driver source is for RTL8192CU-series, to integrate driver source into kernel building system, go through the following steps: 1). Copy the driver source folder into drivers/net/wireless/ and rename it as , rtl8192cu. 5 2). Add the following line into drivers/net/wireless/Makefile, CONFIG_RTL8192CU is for , rtl8192cu is for : obj-$(CONFIG_RTL8192CU) += rtl8192cu/ 3). Add the following line into drivers/net/wireless/Kconfig, rtl8192cu is for : source "drivers/net/wireless/rtl8192cu/Kconfig" 4). Config kernel, for example, with ‘make menuconfig’ command to select ‘y’ or ‘m’ for our driver. 5). Now, you can build kernel with ‘make’ command. 6. Compiling Driver 6.1. Compiling Driver in Driver Source Folder For compiling driver in the original driver source folder, simply cd into the driver source folder and start build driver with ‘make’ command. root@rtl8188C_8192C_8192D_usb_linux_v3.3.0_2920.20111123# ./make If everything goes well, it will produce a MODULE_NAME.ko file. The MODULE_NAME is specified in Makefile. Please refer to: “MODULE_NAME” in “4.2. Platform Setting Section in Detail”. 6.2. Compiling Driver under Kernel Tree For compiling driver under kernel tree, please refer to: “5. Integrating Driver Source into Linux Kernel Tree”. 7. Driver Installation If you have compiled Wi-Fi driver as kernel module and produced a .ko file such as 8192cu.ko, you should insert driver module with ‘insmod’ command: root@rtl8188C_8192C_8192D_usb_linux_v3.3.0_2920.20111123# insmod 8192cu.ko As for driver compiled in kernel, it has no need to do ‘insmod’ command. 6
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