小型系统STM32MP1芯片移植案例

本文章基于意法半导体STM32MP157芯片的小熊派BearPi-HM Micro开发板，进行小型带屏开发板的移植，实现了ace_engine_lite、arkui_ui_lite、aafwk_lite、appexecfwk_lite、HDF等部件基于OpenHarmony LiteOS-A内核的适配。移植架构上采用Board与SoC分离的方案。

编译构建

目录规划

本方案的目录结构使用Board和SoC解耦的设计思路，并把芯片适配目录规划为：

device
├── board                               --- 单板厂商目录
│   └── bearpi                          --- 单板厂商名字：小熊派
│       └── bearpi_hm_micro             --- 单板名：bearpi_hm_micro
└── soc                                 --- SoC厂商目录
    └── common                          --- 存放公共HDF驱动 
    └── st                              --- SoC厂商名字：ST意法半导体
        └── stm32mp1xx                  --- SoC Series名：stm32mp1xx系列芯片

产品样例目录规划为：

vendor
└── bearpi                              --- 开发产品样例厂商目录，小熊派的产品样例
    └── bearpi_hm_micro                 --- 产品名字：bearpi_hm_micro开发板

预编译适配

在进行移植之前，需要进行预编译适配。

预编译适配主要使用hb set命令，设置整个项目的根目录、单板目录、产品目录、单板公司名等环境变量，为编译做准备。

具体的预编译适配步骤如下：

1. 在vendor/bearpi/bearpi_hm_micro目录下新增config.json文件，用于描述这个产品样例所使用的单板、内核等信息，描述信息可参考如下内容：

   {
     "product_name": "bearpi_hm_micro",    --- 用于hb set进行选择时，显示的产品名称
     "version": "3.0",                     --- 构建系统的版本，1.0/2.0/3.0
     "type": "small",                      --- 构建系统的类型，mini/small/standard
     "ohos_version": "OpenHarmony 3.0",    --- OpenHarmony系统版本
     "device_company": "bearpi",           --- 单板厂商名，用于编译时找到/device/board/bearpi目录
     "board": "bearpi_hm_micro",           --- 单板名，用于编译时找到/device/board/bearpi/bearpi_hm_micro目录
     "kernel_type": "liteos_a",            --- 内核类型，因为OpenHarmony支持多内核，一块单板可能适配了多个内核，所以需要指定某个内核进行编译
     "kernel_version": "",                 --- 内核版本，一块单板可能适配了多个linux内核版本，所以需要指定某个具体的内核版本进行编译
     "subsystems": [ ]                     --- 选择所需要编译构建的子系统
   }
   

2. 在device/board/bearpi/bearpi_hm_micro/liteos_a目录下新增config.gni文件，用于描述这个产品样例所使用的单板、内核等信息，描述信息可参考如下内容：

   # Kernel type, e.g. "linux", "liteos_a", "liteos_m".
   kernel_type = "liteos_a"
   
   # Kernel version.
   kernel_version = ""
   
   # Board CPU type, e.g. "cortex-a7", "riscv32".
   board_cpu = "cortex-a7"
   
   # Board arch, e.g.  "armv7-a", "rv32imac".
   board_arch = ""
   
   # Toolchain name used for system compiling.
   # E.g. gcc-arm-none-eabi, arm-linux-harmonyeabi-gcc, ohos-clang,  riscv32-unknown-elf.
   # Note: The default toolchain is "ohos-clang". It's not mandatory if you use the default toolchain.
   board_toolchain = ""
   
   # The toolchain path installed, it's not mandatory if you have added toolchain path to your ~/.bashrc.
   board_toolchain_path = ""
   
   # Compiler prefix.
   board_toolchain_prefix = ""
   
   # Compiler type, "gcc" or "clang".
   board_toolchain_type = "clang"
   
   # Board related common compile flags.
   board_cflags = [
   "-mfloat-abi=softfp",
   "-mfpu=neon-vfpv4",
   ]
   board_cxx_flags = [
   "-mfloat-abi=softfp",
   "-mfpu=neon-vfpv4",
   ]
   board_ld_flags = []
   
   # Board related headfiles search path.
   board_include_dirs = []
   
   # Board adapter dir for OHOS components.
   board_adapter_dir = "//device/board/bearpi/bearpi_hm_micro/hal"
   
   # Sysroot path.
   board_configed_sysroot = ""
   
   # Board storage type, it used for file system generation.
   storage_type = "emmc"
   

3. 验证hb set配置是否正确，输入hb set能够显示如下图片表示配置正确。

执行hb set输入项目根目录，并且回车，hb命令会遍历所有//vendor/<product_company>/<product_name>目录下的config.json，给出可选产品编译选项，config.json的product_name用于显示产品名，device_company和board用于关联出//device/board/<device_company>/<board>目录，并且匹配<any_dir_name>/config.gni文件，如果能够匹配多个文件，表示该单板适配了多个内核，那么可以根据config.json的kernel_type和kernel_version来唯一匹配config.gni的kernel_type和kernel_version，即可确定了需要编译适配了哪个内核的单板。

![hb set](figures/bearpi_hm_micro_hb_set.png)

选择好产品后，输入回车就会在根目录下自动生成ohos_config.json文件，这里会将要编译的产品信息列出。通过`hb env`也可以查看选择出来的预编译环境变量。

![hb env](figures/bearpi_hm_micro_hb_env.png)

内核移植

内核移植需要完成LiteOS-A Kconfig适配、gn的编译构建和内核启动最小适配。

详细移植步骤参考：LiteOS-A内核移植

Kconfig适配

1. 在//device/board/bearpi/bearpi_hm_micro/liteos_a/drivers/Kconfig中添加芯片、产品名称、厂商名称相关配置。

   source "../../device/soc/st/common/platform/Kconfig"
   
   
   config PLATFORM
       string
       default "stm32mp157"      if PLATFORM_STM32MP157
   
   
   config PRODUCT_NAME
       string "product name"
       default "bearpi_hm_micro" if PRODUCT_BEARPI_HM_MICRO
   
   
   config DEVICE_COMPANY
       string "vendor name"
       default "st" if PLATFORM_STM32MP157
   
   
   config TEE_ENABLE
       bool "Enable TEE"
       default n
       depends on  PLATFORM_STM32MP157
       help
           Enable teeos in platform
   

2. 在//device/soc/st/common/platform/Kconfig中添加驱动相关配置。

   config DRIVERS_MMC
       depends on DRIVERS
       bool "Enable MMC"
       default y
       depends on DRIVERS && FS_VFS
       help
       Answer Y to enable LiteOS support MMC driver.
   
   
   config DRIVERS_EMMC
       depends on DRIVERS_MMC && PLATFORM_STM32MP157 
       bool "Enable MMC0 support eMMC type"
   
   
   config DRIVERS_HI3881
       bool "Enable Hi3881 Host driver"
       default n
       depends on DRIVERS_HDF_WIFI
       help
           Answer Y to enable Hi3881 Host driver.
   config HW_RANDOM_ENABLE
           depends on DRIVERS_RANDOM 
           bool "Select hw random"
           default y
           help
           Answer Y to select hw random.
   

3. 在//vendor/bearpi/bearpi_hm_micro/kernel_configs/debug_tee.config中使能相关配置。

   ...
   LOSCFG_PLATFORM="stm32mp157"
   LOSCFG_PRODUCT_NAME="bearpi_hm_micro"
   LOSCFG_DEVICE_COMPANY="st"
   # LOSCFG_PLATFORM_HI3516DV300 is not set
   # LOSCFG_PLATFORM_HI3518EV300 is not set
   # LOSCFG_PLATFORM_QEMU_ARM_VIRT_CA7 is not set
   LOSCFG_PLATFORM_STM32MP157=y
   LOSCFG_PRODUCT_BEARPI_HM_MICRO=y
   LOSCFG_BOARD_CONFIG_PATH="device/board/bearpi/bearpi_hm_micro/liteos_a/board"
   LOSCFG_TEE_ENABLE=y
   ...
   

   gn编译适配

4. 在//device/board/bearpi/bearpi_hm_micro/liteos_a中新建BUILD.gn，添加代码如下，此模块依赖board、drivers、hdf_config。

   cmd = "if [ -f $product_path/hdf_config/BUILD.gn ]; then echo true; else echo false; fi"
   HAVE_PRODUCT_CONFIG =
       exec_script("//build/lite/run_shell_cmd.py", [ cmd ], "value")
   
   
   group("liteos_a") {
     deps = [
       "board",
       "drivers",
     ]
     if (HAVE_PRODUCT_CONFIG) {
       deps += [ "$product_path/hdf_config" ]
     } else {
       deps += [ "hdf_config" ]
     }
   }
   
   
   config("public") {
     configs = [
       "board:public",
       "drivers:public",
     ]
   }
   

5. 在//device/board/bearpi/bearpi_hm_micro/liteos_a/board中新建BUILD.gn，添加代码如下。将os_adapt.c内核启动相关代码编译进系统。

   import("//kernel/liteos_a/liteos.gni")
   
   
   module_name = "bsp_config"
   
   
   kernel_module(module_name) {
     sources = []
     if (defined(LOSCFG_PLATFORM_ADAPT)) {
       sources += [ "os_adapt/os_adapt.c" ]
     }
   }
   
   
   config("public") {
     include_dirs = [ "." ]
     include_dirs += [ "include" ]
     include_dirs += [ "$LITEOSTOPDIR/drivers/block/disk/include" ]
     include_dirs +=
         [ "$LITEOSTOPDIR/../../drivers/adapter/khdf/liteos/osal/include" ]
   }
   

6. 在//device/board/bearpi/bearpi_hm_micro/liteos_a/drivers中新建BUILD.gn，添加代码如下，将device/soc/st/common/platform路径下的HDF驱动编译进系统。

   import("//drivers/adapter/khdf/liteos/hdf.gni")
   
   
   group("drivers") {
     public_deps = [ "//device/soc/st/common/platform:drivers" ]
   }
   
   
   config("public") {
     configs = [ "//device/soc/st/common/platform:public" ]
   }
   
   
   

7. 在//vendor/bearpi/bearpi_hm_micro/hdf_config中新建BUILD.gn，添加代码如下，将HCS配置文件编译进系统。

   module_switch = defined(LOSCFG_DRIVERS_HDF) && !defined(LOSCFG_DRIVERS_HDF_TEST)
   module_name = "libhdf_config"
   hdf_driver(module_name) {
     hcs_sources = [ "hdf.hcs" ]
   }
   
   
   group("hdf_config") {
     public_deps = [ ":$module_name" ]
     deps = [
       "hdf_test",
       "hdf_test/hcs_macro_test",
     ]
   }
   

   内核启动适配

8. 在//device/board/bearpi/bearpi_hm_micro/liteos_a/board/os_adapt.c中添加以下内核启动相关代码，详细解释参考LiteOS-A内核移植。

   ...
   void SystemInit(void)
   {
   #ifdef LOSCFG_DRIVERS_RANDOM
       dprintf("dev random init ...\n");
       Mp1xxRngInit();
   #endif
   #ifdef LOSCFG_DRIVERS_MEM
       dprintf("mem dev init ...\n");
       extern int mem_dev_register(void);
       mem_dev_register();
   #endif
   
   
       dprintf("Date:%s.\n", __DATE__);
       dprintf("Time:%s.\n", __TIME__);
   
   
   #ifdef LOSCFG_DRIVERS_HDF
       dprintf("DeviceManagerStart start ...\n");
       if (DeviceManagerStart()) {
           PRINT_ERR("No drivers need load by hdf manager!");
       }
       dprintf("DeviceManagerStart end ...\n");
   #endif
       net_init();
   
   
   #ifdef LOSCFG_PLATFORM_ROOTFS
       dprintf("OsMountRootfs start ...\n");
       if (LOS_GetCmdLine()) {
           dprintf("get cmdline error!\n");
       }
       if (LOS_ParseBootargs()) {
           dprintf("parse bootargs error!\n");
       }
       if (OsMountRootfs()) {
           dprintf("mount rootfs error!\n");
       }
       dprintf("OsMountRootfs end ...\n");
   #endif
   
   
       dprintf("Before PLATFORM_UART ...\n");
   
   
   #ifdef LOSCFG_DRIVERS_HDF_PLATFORM_UART
       if (virtual_serial_init(TTY_DEVICE) != 0) {
           PRINT_ERR("virtual_serial_init failed");
       }
       if (system_console_init(SERIAL) != 0) {
           PRINT_ERR("system_console_init failed\n");
       }
   #endif
   
   
       dprintf("After PLATFORM_UART ...\n");
   
   
       if (OsUserInitProcess()) {
           PRINT_ERR("Create user init process failed!\n");
           return;
       }
       dprintf("cat log shell end\n");
       return;
   }
   ...
   

板级系统移植

SoC芯片平台HDF驱动移植

驱动适配相关文件放置在device/soc/st/common/platform中，所有的驱动都是通过HDF机制加载，本章节以GPIO驱动适配为例进行详细说明。

1. 在//device/soc/st/common/platform/gpio/BUILD.gn文件中，描述了stm32mp1xx gpio驱动的编译适配。如下：

   module_switch = defined(LOSCFG_DRIVERS_HDF_PLATFORM_GPIO)	 --- 如果打开HDF的GPIO配置开关，才进行如下编译。
   module_name = get_path_info(rebase_path("."), "name")
   
   
   hdf_driver("hdf_gpio") {
       sources = [ "stm32mp1_gpio.c" ]        ---gpio驱动源文件。
       include_dirs = [                       ---依赖的.h路径。
         "." ,
         "../stm32mp1xx_hal/STM32MP1xx_HAL_Driver/Inc",
       ]
   }
   

2. 在//device/soc/st/common/platform/gpio/stm32mp1_gpio.c文件中，描述了stm32mp1xx gpio驱动的源码适配。 首先，按照OpenHarmony的HDF驱动框架加载驱动基本适配框架，如下：

   struct HdfDriverEntry g_GpioDriverEntry = {
       .moduleVersion = 1,
       .moduleName = "HDF_PLATFORM_GPIO",
       .Bind = GpioDriverBind,
       .Init = GpioDriverInit,
       .Release = GpioDriverRelease,
   };
   HDF_INIT(g_GpioDriverEntry); 	 --- 通过HDF_INIT 加载GPIO驱动。
   

3. 在//device/soc/st/stm32mp1xx/sdk_liteos/hdf_config/gpio中添加gpio硬件描述信息文件gpio_config.hcs,在该文件中添加驱动私有配置信息。

   root {
       platform {
           gpio_config {
               controller_0x50002000 {
                   match_attr = "st_stm32mp1_gpio";
                   groupNum = 11;
                   bitNum = 16;
                   gpioRegBase = 0x50002000;
                   gpioRegStep = 0x1000;
                   irqRegBase = 0x5000D000;
                   irqRegStep = 0x400;
               }
           }
       }
   }
   

4. 配置产品加载驱动，产品的所有设备信息被定义在源码文件//vendor/bearpi/bearpi_hm_micro/hdf_config/device_info/device_info.hcs中。

平台驱动请添加到platform的host中。

说明： moduleName要与驱动文件中定义的相同，deviceMatchAttr要与驱动私有配置信息文件gpio_config.hcs中定义match_attr的相同。

   root {
       ...
       platform :: host {
            device_gpio :: device {
                device0 :: deviceNode {
                    policy = 2;
                    priority = 10;
                    permission = 0644;
                    moduleName = "HDF_PLATFORM_GPIO_MANAGER";
                    serviceName = "HDF_PLATFORM_GPIO_MANAGER";
                }
                device1 :: deviceNode {
                    policy = 0;
                    priority = 10;
                    permission = 0644;
                    moduleName = "HDF_PLATFORM_GPIO";
                    serviceName = "HDF_PLATFORM_GPIO";
                    deviceMatchAttr = "st_stm32mp1_gpio";
                }
            }
       }
   }

1. 完善驱动代码，gpio_config.hcs的配置信息会在GpioDriverInit中加载。

   static int32_t GpioDriverInit(struct HdfDeviceObject *device)
   {
   
   
       int32_t ret;
       struct Mp1xxGpioCntlr *stm32gpio = &g_Mp1xxGpioCntlr;
   
   
       dprintf("%s: Enter", __func__);
       if (device == NULL||device->property == NULL) {
           HDF_LOGE("%s: device or property NULL!", __func__);
           return HDF_ERR_INVALID_OBJECT;
       }
       //获取属性数据
       ret = Mp1xxGpioReadDrs(stm32gpio, device->property);
       if (ret != HDF_SUCCESS) {
           HDF_LOGE("%s: get gpio device resource fail:%d", __func__, ret);
           return ret;
       }
       ...
   }
   

OpenHarmony子系统适配

OpenHarmony子系统适配只需要在config.json中增加对应子系统和部件，这样编译系统会将该部件纳入编译目标中。

启动恢复子系统适配

启动恢复子系统需要适配bootstrap_lite、syspara_lite、appspawn_lite、init四个部件。请在vendor/bearpi/bearpi_hm_micro/config.json中新增对应的配置选项。

    {
    "subsystem": "startup",
    "components": [
        { "component": "syspara_lite", "features":[] },
        { "component": "bootstrap_lite", "features":[] },
        { "component": "appspawn_lite", "features":[] },
        { "component": "init", "features":[] }
     ]
    },

系统启动时会根据//vendor/bearpi/bearpi_hm_micro/init_configs中的启动配置来启动系统。

DFX子系统适配

进行DFX子系统适配需要添加hilog_featured_lite、hidumper_lite部件，直接在config.json文件配置即可。

    {
        "subsystem": "hiviewdfx",
        "components": [
            { "component": "hilog_featured_lite", "features":[] },
            { "component": "hidumper_lite", "features":[] }
        ]
    },

系统服务管理子系统适配

进行系统服务管理子系统适配需要添加samgr_lite、safwk_lite、dmsfwk_lite三个部件，直接在config.json配置即可。

    {
    "subsystem": "distributed_schedule",
    "components": [
        { "component": "samgr_lite", "features":[] },
        { "component": "safwk_lite", "features":[] },
        { "component": "dmsfwk_lite", "features":[] }
    ]
    },

安全子系统适配

进行安全子系统适配需要添加permission_lite、appverify、device_auth、huks四个部件，直接在config.json配置即可。

    {
    "subsystem": "security",
    "components": [
        { "component": "permission_lite", "features":[] },
        { "component": "appverify", "features":[] },
        { "component": "device_auth", "features":[] },
        { "component": "huks", "features":
        [
            "huks_config_file = \"hks_config_small.h\""
        ]
        }
    ]
    },

公共基础库子系统适配

进行公共基础库子系统适配需要添加kv_store、os_dump两个部件，直接在config.json配置即可。

      {
        "subsystem": "utils",
        "components": [
          { "component": "kv_store", "features":[] },
          { "component": "os_dump", "features":[] }
        ]
      },

图形子系统适配

进行图形子系统适配需要添加graphic_utils部件，直接在config.json配置即可。

      {
        "subsystem": "graphic",
        "components": [
          { "component": "graphic_utils",           
            "features": [ "enable_ohos_graphic_utils_product_config = true"
             ]
          },
          { "component": "graphic_hals", "features":[] },
          { "component": "ui", "features":[ "enable_graphic_font = true","enable_video_component=false"] },
          { "component": "surface", "features":[] },
          { "component": "wms", "features":[] }
        ]
      },

graphic配置文件见 //vendor/bearpi/bearpi_hm_micro/graphic_config/product_graphic_lite_config.h。

ArkUI开发框架子系统适配

进行ArkUI开发框架子系统适配需要添加ace_engine_lite部件，直接在config.json配置即可。

    {
        "subsystem": "arkui",
        "components": [
        {
            "component": "ace_engine_lite",
            "features": [
            "enable_ohos_ace_engine_lite_product_config = true"
            ]
        }
        ]
    },

ace_engine_lite部件配置文件见 //vendor/bearpi/bearpi_hm_micro/ace_lite_config/product_acelite_config.h。

元能力子系统适配

进行元能力子系统适配需要添加aafwk_lite部件，直接在config.json配置即可。

    {
    "subsystem": "aafwk",
    "components": [
        {
        "component": "aafwk_lite",
        "features": [
            "enable_ohos_appexecfwk_feature_ability = true"	 --- 支持FA特性，即包含图形能力。
        ]
        }
    ]
    },

包管理子系统适配

进行包管理子系统适配需要添加appexecfwk_lite部件，直接在config.json配置即可。

    {
    "subsystem": "appexecfwk",
    "components": [
        {
        "component": "appexecfwk_lite"
        }
    ]
    },

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