本文主要介绍 sophpi 编译生成 fip.bin 流程。

1、编译前准备

sophpi 的基本编译流程如下：

$ source build/cvisetup.sh
$ defconfig sg2002_wevb_riscv64_sd
$ clean_all
$ build_all
$ pack_burn_image

注：

1. 需要在 bash 下运行
2. clean_all 非必要可以不执行。

生成的固件位置: install/soc_sg2002_wevb_riscv64_sd/milkv-duo.img。build_milkv.sh 也是一步一步调用这些函数。

build/cvisetup.sh 通过软链接，链接到 build/envsetup_soc.sh，相关的编译命令都在这个文件中。

在 build/envsetup_soc.sh 文件中，定义了一些后续编译会用到的变量，如：

• TOP_DIR=$(gettop)
• BUILD_PATH=“$TOP_DIR/build”

2、编译入口

总的编译命令，可以不调用 clean_all 函数，不然每次都要全编译。

function clean_all()
{clean_ubootclean_opensbiclean_rtos[[ "$ATF_SRC" == y ]] && clean_atfclean_kernelclean_ramdiskclean_3rd_partyif [ "$TPU_REL" = 1 ]; thenclean_ive_sdkclean_ivs_sdkclean_tpu_sdkclean_tdl_sdkclean_cnv_sdkficlean_middlewareclean_osdrv
}

重点看一下 build_all 函数，位于 build/envsetup_soc.sh 文件中

function build_all()
{(build_uboot || return $?build_kernel || return $?build_ramboot || return $?build_osdrv || return $?build_3rd_party || return $?build_middleware || return $?if [ "$TPU_REL" = 1 ]; thenbuild_tpu_sdk || return $?build_ive_sdk || return $?build_ivs_sdk || return $?build_tdl_sdk  || return $?fipack_cfg || return $?pack_rootfs || return $?pack_data || return $?pack_system || return $?copy_tools || return $?pack_upgrade || return $?
)}

根据上面函数，先调用 build_uboot 函数。

3、uboot编译

1. build_uboot 函数在 build/milkvsetup.sh 文件中定义

function build_uboot()
{(print_notice "Run ${FUNCNAME[0]}() function"_build_uboot_env_build_opensbi_env_link_uboot_logocd "$BUILD_PATH" || returnmake u-boot || return "$?"
)}

2. 查看 build/Makefile 文件中 203 行 u-boot 依赖 u-boot-dep

u-boot: u-boot-dep

继续找 u-boot-dep 。。。（文件真多啊。。。）
根据 build/.config 中定义了 CONFIG_FIP_V2=y 找到 build/Makefile 文件

ifeq (${CONFIG_FIP_V1},y)
include scripts/fip_v1.mk
else ifeq (${CONFIG_FIP_V2},y)
include scripts/fip_v2.mk
else
$(error no fip version)
endif

flp_v2.mk

u-boot-dep: fsbl-build ${OUTPUT_DIR}/elf$(call print_target)
ifeq ($(call qstrip,${CONFIG_ARCH}),riscv)${Q}cp ${OPENSBI_PATH}/build/platform/generic/firmware/fw_payload.bin ${OUTPUT_DIR}/fw_payload_uboot.bin${Q}cp ${OPENSBI_PATH}/build/platform/generic/firmware/fw_payload.elf ${OUTPUT_DIR}/elf/fw_payload_uboot.elf
endif

3. u-boot-dep 又依赖 fsbl-build
   fsbl-build 定义在 scripts/fip_v2.mk 文件

ifeq ($(call qstrip,${CONFIG_ARCH}),riscv)
fsbl-build: opensbi
endif
ifeq (${CONFIG_ENABLE_FREERTOS},y)
fsbl-build: rtos
fsbl%: export BLCP_2ND_PATH=${FREERTOS_PATH}/cvitek/install/bin/cvirtos.bin
fsbl%: export RTOS_DUMP_PRINT_ENABLE=$(CONFIG_ENABLE_RTOS_DUMP_PRINT)
fsbl%: export RTOS_DUMP_PRINT_SZ_IDX=$(CONFIG_DUMP_PRINT_SZ_IDX)
fsbl%: export RTOS_FAST_IMAGE_TYPE=${CONFIG_FAST_IMAGE_TYPE}
fsbl%: export RTOS_ENABLE_FREERTOS=${CONFIG_ENABLE_FREERTOS}
endif
fsbl%: export FSBL_SECURE_BOOT_SUPPORT=${CONFIG_FSBL_SECURE_BOOT_SUPPORT}
fsbl%: export ARCH=$(call qstrip,${CONFIG_ARCH})
fsbl%: export OD_CLK_SEL=${CONFIG_OD_CLK_SEL}
fsbl%: export VC_CLK_OVERDRIVE=${CONFIG_VC_CLK_OVERDRIVE}
fsbl%: export SUSPEND=${CONFIG_SUSPEND}
fsbl%: export TPU_PERF_MODE=$(shell if [ "${CONFIG_CHIP_cv1812cp}" = "y" ] || [ "${CONFIG_CHIP_sg2002}" = "y" ] || [ "${CONFIG_CHIP_cv1812cpa}" = "y" ]; then echo "y";else echo "n";fi)
fsbl%: export BUILD_BOOT0=${CONFIG_ENABLE_BOOT0}
fsbl%: export BUILD_FASTBOOT0=${CONFIG_ENABLE_FASTBOOT0}
fsbl%: export STORAGE=${STORAGE_TYPE}ifeq (${CONFIG_ENABLE_BOOT0},y)
fsbl-build: u-boot-build memory-map$(call print_target)${Q}mkdir -p ${FSBL_PATH}/build${Q}ln -snrf -t ${FSBL_PATH}/build ${CVI_BOARD_MEMMAP_H_PATH}${Q}$(MAKE) -j${NPROC} -C ${FSBL_PATH} O=${FSBL_OUTPUT_PATH}${Q}cp ${FSBL_OUTPUT_PATH}/boot0 ${OUTPUT_DIR}/
else
fsbl-build: u-boot-build memory-map$(call print_target)${Q}mkdir -p ${FSBL_PATH}/build${Q}ln -snrf -t ${FSBL_PATH}/build ${CVI_BOARD_MEMMAP_H_PATH}${Q}$(MAKE) -j${NPROC} -C ${FSBL_PATH} O=${FSBL_OUTPUT_PATH} BLCP_2ND_PATH=${BLCP_2ND_PATH} \LOADER_2ND_PATH=${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/u-boot-raw.bin${Q}cp ${FSBL_OUTPUT_PATH}/fip.bin ${OUTPUT_DIR}/
ifeq (${CONFIG_UBOOT_SPL_CUSTOM},y)${Q}$(MAKE) -C ${FSBL_PATH} clean O=${FSBL_OUTPUT_PATH}${Q}$(MAKE) -j${NPROC} -C ${FSBL_PATH} O=${FSBL_OUTPUT_PATH} BLCP_2ND_PATH=${BLCP_2ND_PATH} \CONFIG_SKIP_UBOOT=$(CONFIG_SKIP_UBOOT) LOADER_2ND_PATH=${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/spl/u-boot-spl-raw.bin${Q}cp ${FSBL_OUTPUT_PATH}/fip.bin ${OUTPUT_DIR}/fip_spl.bin
else${Q}cp ${FSBL_OUTPUT_PATH}/fip.bin ${OUTPUT_DIR}/fip_spl.bin
endif
endif

又依赖 opensbi

opensbi: export CROSS_COMPILE=$(CONFIG_CROSS_COMPILE_SDK)
opensbi: u-boot-build$(call print_target)${Q}$(MAKE) -j${NPROC} -C ${OPENSBI_PATH} PLATFORM=generic \FW_PAYLOAD_PATH=${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/u-boot-raw.bin \FW_FDT_PATH=${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/arch/riscv/dts/${CHIP}_${BOARD}.dtb

又依赖 u-boot-build， build/Makefile中定义了 u-boot-build，所以会先执行 u-boot-build

u-boot-build: memory-map
u-boot-build: u-boot-dts
u-boot-build: ${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER} ${UBOOT_CVIPART_DEP} ${UBOOT_OUTPUT_CONFIG_PATH}$(call print_target)${Q}ln -snrf ${CVI_BOARD_MEMMAP_H_PATH} ${UBOOT_PATH}/include/${Q}rm -f ${UBOOT_CVI_BOARD_INIT_PATH}${Q}ln -s ${BUILD_PATH}/boards/${CHIP_ARCH_L}/${PROJECT_FULLNAME}/u-boot/cvi_board_init.c ${UBOOT_CVI_BOARD_INIT_PATH}${Q}rm -f ${UBOOT_CVITEK_PATH}${Q}ln -s ${BUILD_PATH}/boards/${CHIP_ARCH_L}/${PROJECT_FULLNAME}/u-boot/cvitek.h ${UBOOT_CVITEK_PATH}${Q}$(MAKE) -j${NPROC} -C ${UBOOT_PATH} olddefconfig${Q}$(MAKE) -j${NPROC} -C ${UBOOT_PATH} all${Q}cat ${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/u-boot.bin > ${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/u-boot-raw.bin
ifeq (${CONFIG_UBOOT_SPL_CUSTOM},y)${Q}cat ${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/spl/u-boot-spl.bin > ${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/spl/u-boot-spl-raw.bin
endif

依赖 memory-map， build/scripts/mmap.mk 中定义了 memory-map

.PHONY: memory-mapCVI_BOARD_MEMMAP_H_PATH := ${BUILD_PATH}/output/${PROJECT_FULLNAME}/cvi_board_memmap.h
CVI_BOARD_MEMMAP_CONF_PATH := ${BUILD_PATH}/output/${PROJECT_FULLNAME}/cvi_board_memmap.conf
CVI_BOARD_MEMMAP_LD_PATH:= ${BUILD_PATH}/output/${PROJECT_FULLNAME}/cvi_board_memmap.ldBOARD_MMAP_PATH := ${BORAD_FOLDER_PATH}/memmap.py
MMAP_CONV_PY := ${BUILD_PATH}/scripts/mmap_conv.py${CVI_BOARD_MEMMAP_H_PATH}: ${BOARD_MMAP_PATH} ${MMAP_CONV_PY}$(call print_target)mkdir -p $(dir $@)@${MMAP_CONV_PY} --type h $< $@${CVI_BOARD_MEMMAP_CONF_PATH}: ${BOARD_MMAP_PATH} ${MMAP_CONV_PY}$(call print_target)@mkdir -p $(dir $@)@${MMAP_CONV_PY} --type conf $< $@${CVI_BOARD_MEMMAP_LD_PATH}: ${BOARD_MMAP_PATH} ${MMAP_CONV_PY}$(call print_target)@mkdir -p $(dir $@)@${MMAP_CONV_PY} --type ld $< $@ifeq ($(wildcard ${BOARD_MMAP_PATH}),)
memory-map:
else
memory-map: ${CVI_BOARD_MEMMAP_H_PATH} ${CVI_BOARD_MEMMAP_CONF_PATH} ${CVI_BOARD_MEMMAP_LD_PATH}
endif

该脚本会自动生成 cvi_board_memmap.h， cvi_board_memmap.conf， cvi_board_memmap.ld 三个文件。

然后依赖 u-boot-dts

u-boot-dts:$(call print_target)
ifeq ($(UBOOT_SRC), u-boot-2021.10)
# U-boot doesn't has arch/arm64
ifeq ($(ARCH), arm64)${Q}find ${BUILD_PATH}/boards/${CHIP_ARCH_L} \\( -path "*linux/*.dts*" -o -path "*dts_${ARCH}/*.dts*" \) \-exec cp {} ${UBOOT_PATH}/arch/arm/dts/ \;${Q}find ${DTS_DEFATUL_PATHS} -name *.dts* -exec cp {} ${UBOOT_PATH}/arch/arm/dts/ \;
else${Q}find ${BUILD_PATH}/boards/${CHIP_ARCH_L} \\( -path "*linux/*.dts*" -o -path "*dts_${ARCH}/*.dts*" \) \-exec cp {} ${UBOOT_PATH}/arch/${ARCH}/dts/ \;${Q}find ${DTS_DEFATUL_PATHS} -name *.dts* -exec cp {} ${UBOOT_PATH}/arch/${ARCH}/dts/ \;
endif
endif

最终执行的命令为:

find sophpi/build/boards/cv181x \\( -path "*linux/*.dts*" -o -path "*dts_riscv/*.dts*" \) \-exec cp {} sophpi/u-boot-2021.10/arch/riscv/dts/ \;
find sophpi/build/boards/default/dts/cv181x sophpi/build/boards/default/dts/cv181x_riscv -name *.dts* -exec cp {} sophpi/u-boot-2021.10/arch/riscv/dts/ \;

在 sophpi/u-boot-2021.10/arch/riscv/dts 目录下执行 tree 命令，查看相关设备树文件。我们理论上用的是 sg2002 相关的 sg2002_wevb_riscv64_sd.dts 这个文件。

$ tree
.
├── ae350_32.dts
├── ae350_64.dts
├── ae350-u-boot.dtsi
├── binman.dtsi
├── cv1810c_wdmb_0006a_spinor.dts
├── cv1810c_wevb_0006a_spinand.dts
├── cv1810c_wevb_0006a_spinor.dts
├── cv1810h_wevb_0007a_spinor.dts
├── cv1811c_wdmb_0006a_spinor.dts
├── cv1811c_wevb_0006a_emmc.dts
├── cv1811c_wevb_0006a_spinand.dts
├── cv1811c_wevb_0006a_spinor.dts
├── cv1811h_wevb_0007a_emmc.dts
├── cv1811h_wevb_0007a_spinand.dts
├── cv1811h_wevb_0007a_spinor.dts
├── cv1812cp_sophpi_duo_sd.dts
├── cv1812cp_wevb_0006a_emmc.dts
├── cv1812cp_wevb_0006a_spinand.dts
├── cv1812cp_wevb_0006a_spinor.dts
├── cv1812h_wevb_0007a_emmc.dts
├── cv1812h_wevb_0007a_emmc_huashan.dts
├── cv1812h_wevb_0007a_spinand.dts
├── cv1812h_wevb_0007a_spinand_huashan.dts
├── cv1812h_wevb_0007a_spinor.dts
├── cv1812h_wevb_0007a_spinor_huashan.dts
├── cv1813h_wevb_0007a_emmc.dts
├── cv1813h_wevb_0007a_spinand.dts
├── cv1813h_wevb_0007a_spinor.dts
├── cv181x_asic_bga.dtsi
├── cv181x_asic_emmc.dtsi
├── cv181x_asic_qfn.dtsi
├── cv181x_asic_sd.dtsi
├── cv181x_asic_spinand.dtsi
├── cv181x_asic_spinor.dtsi
├── cv181x_base.dtsi
├── cv181x_base_riscv.dtsi
├── cv181x_default_memmap.dtsi
├── fu540-c000.dtsi
├── fu540-c000-u-boot.dtsi
├── fu540-hifive-unleashed-a00-ddr.dtsi
├── fu740-c000.dtsi
├── fu740-c000-u-boot.dtsi
├── fu740-hifive-unmatched-a00-ddr.dtsi
├── hifive-unleashed-a00.dts
├── hifive-unleashed-a00-u-boot.dtsi
├── hifive-unmatched-a00.dts
├── hifive-unmatched-a00-u-boot.dtsi
├── k210.dtsi
├── k210-maix-bit.dts
├── Makefile
├── microchip-mpfs-icicle-kit.dts
├── microchip-mpfs-icicle-kit-u-boot.dtsi
├── openpiton-riscv64.dts
├── qemu-virt.dts
├── sg2000_wevb_riscv64_sd.dts
└── sg2002_wevb_riscv64_sd.dts

• 执行到这里，才真正开始编译 u-boot，主要是以下几行命令

	${Q}$(MAKE) -j${NPROC} -C ${UBOOT_PATH} olddefconfig${Q}$(MAKE) -j${NPROC} -C ${UBOOT_PATH} all${Q}cat ${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/u-boot.bin > ${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/u-boot-raw.bin

最终产物在 sophpi/u-boot-2021.10/build/sg2002_wevb_riscv64_sd/u-boot-raw.bin

4、opensbi 编译

有了 u-boot 之后，开始编译 opensbi

为了兼容不同的运行需求，OpenSBI 支持三种类型的 Firmware，分别为：

• dynamic：从上一级 Boot Stage 获取下一级 Boot Stage 的入口信息，以 struct fw_dynamic_info 结构体通过 a2 寄存器传递。
• jump：假设下一级 Boot Stage Entry 为固定地址，直接跳转过去运行。
• payload：在 jump 的基础上，直接打包进来下一级 Boot Stage 的 Binary。下一级通常是 Bootloader 或 OS，比如 U-Boot，Linux。

相关编译脚本位置: build/scripts/fip_v2.mk

opensbi: export CROSS_COMPILE=$(CONFIG_CROSS_COMPILE_SDK)
opensbi: u-boot-build$(call print_target)${Q}$(MAKE) -j${NPROC} -C ${OPENSBI_PATH} PLATFORM=generic \FW_PAYLOAD_PATH=${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/u-boot-raw.bin \FW_FDT_PATH=${UBOOT_PATH}/${UBOOT_OUTPUT_FOLDER}/arch/riscv/dts/${CHIP}_${BOARD}.dtb

根据以上脚本获知，sophpi 上采用的是 payload 模式，payload 文件为 u-boot-raw.bin，就是上面我们编译出来的文件。
FW_FDT_PATH 为设备树路径，为 sophpi/u-boot-2021.10/build/sg2002_wevb_riscv64_sd/arch/riscv/dts/sg2002_wevb_riscv64_sd.dtb

编译完成后， 产物在 sophpi/opensbi/build/platform/generic/firmware 目录下。

5、fsbl编译

编译完了u-boot 和 opensbi，继续往回推，来到了 fsbl-build。（中间还有一个 rtos 编译，暂时略过先）。
FSBL 是 First Stage Boot Loader 的缩写。

fsbl-build: u-boot-build memory-map$(call print_target)${Q}mkdir -p ${FSBL_PATH}/build${Q}ln -snrf -t ${FSBL_PATH}/build ${CVI_BOARD_MEMMAP_H_PATH}${Q}$(MAKE) -j${NPROC} -C ${FSBL_PATH} O=${FSBL_OUTPUT_PATH}${Q}cp ${FSBL_OUTPUT_PATH}/boot0 ${OUTPUT_DIR}/

最终执行的编译命令为 :

make -j8 -C sophpi/fsbl O=sophpi/fsbl/build/sg2002_wevb_riscv64_sd BLCP_2ND_PATH=sophpi/freertos/cvitek/install/bin/cvirtos.bin \LOADER_2ND_PATH=sophpi/u-boot-2021.10/build/sg2002_wevb_riscv64_sd/u-boot-raw.bin

主要来看看 fsbl 编译流程，从 fsbl/Makefile 文件开始

all: fip bl2 blmacrosinclude ${MAKE_HELPERS_DIRECTORY}fip.mk

依次找到 fip 在 fsbl/make_helpers/fip.mk 文件

gen-chip-conf:$(print_target)${Q}mkdir -p '${BUILD_PLAT}'${Q}./plat/${CHIP_ARCH}/chip_conf.py ${CHIP_CONF_PATH}macro_to_env = ${NM} '${BLMACROS_ELF}' | awk '/DEF_${1}/ { rc = 1; print "${1}=0x" $$1 } END { exit !rc }' >> ${BUILD_PLAT}/blmacros.envblmacros-env: blmacros$(print_target)${Q}> ${BUILD_PLAT}/blmacros.env  # clear .env first${Q}$(call macro_to_env,MONITOR_RUNADDR)${Q}$(call macro_to_env,BLCP_2ND_RUNADDR)
ifeq (${BUILD_BOOT0},y)
$(eval $(call add_define,ENABLE_BOOT0))
fip: fip_boot0
else
fip: fip-all
endiffip-dep: bl2 blmacros-env gen-chip-conffip_boot0: fip-dep$(print_target)${Q}echo "  [GEN] boot0"${Q}. ${BUILD_PLAT}/blmacros.env && \${FIPTOOL} -v genfip \'${BUILD_PLAT}/boot0' \--MONITOR_RUNADDR="$${MONITOR_RUNADDR}" \--BLCP_2ND_RUNADDR="$${BLCP_2ND_RUNADDR}" \--CHIP_CONF='${CHIP_CONF_PATH}' \--NOR_INFO='${NOR_INFO}' \--NAND_INFO='${NAND_INFO}'\--BL2='${BUILD_PLAT}/bl2.bin' \--BLCP_IMG_RUNADDR=${BLCP_IMG_RUNADDR} \--BLCP_PARAM_LOADADDR=${BLCP_PARAM_LOADADDR} \--BLCP=${BLCP_PATH} \--DDR_PARAM='${DDR_PARAM_TEST_PATH}'${Q}echo "  [LS] " $$(ls -l '${BUILD_PLAT}/boot0')${Q}cp ${BUILD_PLAT}/boot0 ${OUTPUT_DIR}fip-simple: fip-dep$(print_target)${Q}echo "  [GEN] fip.bin"${Q}${FIPTOOL} -v genfip \'${BUILD_PLAT}/fip.bin' \--CHIP_CONF='${CHIP_CONF_PATH}' \--NOR_INFO='${NOR_INFO}' \--NAND_INFO='${NAND_INFO}'\--BL2='${BUILD_PLAT}/bl2.bin'${Q}echo "  [LS] " $$(ls -l '${BUILD_PLAT}/fip.bin')

通过一堆复杂的操作。。。生成了一个 bl2.bin 文件。（正常情况下我们开发者也不会去修改这个玩意。。。）

主要关心 fip-all 这个操作，用于生成 fip.bin 文件。

6、fip.bin文件合成

查阅官方有限的资料，获知 fip.bin 为内含 bootloader+uboot 的文件

为啥要这么干？官方的文档里面是这么说的：

由于原生 u-boot 编译出 u-boot.bin 无法直接刻录到 FLASH 中。我们采取 ARM Trusted Firmware Design 中的 Firmware Image Package (FIP) 方式，将 uboot.bin 封装在 FIP.bin 里面。

https://doc.sophgo.com/cvitek-develop-docs/master/docs_latest_release/CV180x_CV181x/zh/01.software/BSP/U-boot_Porting_Development_Guide/build/html/3_U-boot_Transplant.html

通过 chatgpt 查询 fip 后得知：

FIP（Flexible Image Processor）文件是指存储在ARM架构的处理器设备上的固件映像文件。它主要用于引导和配置设备。FIP文件通常包含以下内容：

1. Trusted Firmware-A（TF-A）：TF-A 是 ARM 架构设备上的一个开源的可信固件。它负责设备的引导、安全检查和启动加载程序的执行。
2. U-Boot：U-Boot 是一个开源的引导加载程序（bootloader），用于启动设备。它提供了引导设备的功能，并提供了配置和管理设备硬件的选项。
3. ARM Trusted Firmware（ATF）：ATF 是一组用于安全引导的固件，用于验证和启动设备上的其他软件组件（如操作系统）。
4. 其他组件：FIP 文件还可以包含其他固件组件，如设备树（Device Tree）文件、TEE 固件（如 OP-TEE）、加密密钥和配置参数等。
   FIP 文件在 ARM 架构设备上很常见，它们提供了引导和初始化处理器的必要组件。这些文件由设备制造商提供，并根据特定设备、硬件配置和需求进行定制。

按照前面的分析，fip.bin 在 fsbl 最后阶段合成

fip-all: fip-dep$(print_target)${Q}echo "  [GEN] fip.bin"${Q}. ${BUILD_PLAT}/blmacros.env && \${FIPTOOL} -v genfip \'${BUILD_PLAT}/fip.bin' \--MONITOR_RUNADDR="$${MONITOR_RUNADDR}" \--BLCP_2ND_RUNADDR="$${BLCP_2ND_RUNADDR}" \--CHIP_CONF='${CHIP_CONF_PATH}' \--NOR_INFO='${NOR_INFO}' \--NAND_INFO='${NAND_INFO}'\--BL2='${BUILD_PLAT}/bl2.bin' \--BLCP_IMG_RUNADDR=${BLCP_IMG_RUNADDR} \--BLCP_PARAM_LOADADDR=${BLCP_PARAM_LOADADDR} \--BLCP=${BLCP_PATH} \--DDR_PARAM='${DDR_PARAM_TEST_PATH}' \--BLCP_2ND='${BLCP_2ND_PATH}' \--MONITOR='${MONITOR_PATH}' \--LOADER_2ND='${LOADER_2ND_PATH}' \--compress='${FIP_COMPRESS}'${Q}echo "  [LS] " $$(ls -l '${BUILD_PLAT}/fip.bin')

转换成实际执行命令为：

. sophpi/fsbl/build/sg2002_wevb_riscv64_sd/blmacros.env && \
./plat/cv180x/fiptool.py -v genfip \'sophpi/fsbl/build/sg2002_wevb_riscv64_sd/fip.bin' \--MONITOR_RUNADDR="${MONITOR_RUNADDR}" \--BLCP_2ND_RUNADDR="${BLCP_2ND_RUNADDR}" \--CHIP_CONF='sophpi/fsbl/build/sg2002_wevb_riscv64_sd/chip_conf.bin' \--NOR_INFO='FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF' \--NAND_INFO='00000000'\--BL2='sophpi/fsbl/build/sg2002_wevb_riscv64_sd/bl2.bin' \--BLCP_IMG_RUNADDR=0x05200200 \--BLCP_PARAM_LOADADDR=0 \--BLCP=test/empty.bin \--DDR_PARAM='test/cv181x/ddr_param.bin' \--BLCP_2ND='sophpi/freertos/cvitek/install/bin/cvirtos.bin' \--MONITOR='../opensbi/build/platform/generic/firmware/fw_dynamic.bin' \--LOADER_2ND='sophpi/u-boot-2021.10/build/sg2002_wevb_riscv64_sd/u-boot-raw.bin' \--compress='lzma'