全志A64 lichee编译脚本build.sh分析
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lichee目录下的./build.sh脚本:
set -e #用于指此脚本里执行的命令返回值非0时,终止当前脚本的执行.
buildroot/scripts/mkcommon.sh $@
#接着执行mkcommon.sh脚本,并把执行"./build.sh"附带的所有参数($@)传递过去,这里$@是空的.buildroot/scripts/mkcommon.sh:
BR_SCRIPTS_DIR=`dirname $0` #$0表示第0个参数,即是"buildroot/scripts/mkcommon.sh"
#dirname命令用于获取路径, `dirname $0`获取得到"buildroot/scripts"
. ${BR_SCRIPTS_DIR}/shflags/shflags
[ -f .buildconfig ] && . .buildconfig #如有.buildconfig文件,则导出里面的变量. 此文件是由"./build.sh config"生成的.
. ${BR_SCRIPTS_DIR}/mkcmd.sh #导出脚本里的下面function命令,以便在当前脚本里可以调用访问.
mkboot build boot
mkbr build buildroot
mkkernel build kernel
mkrootfs build rootfs for linux, dragonboard
mklichee build total lichee
mkclean clean current board output
mkdistclean clean entires output
mkpack pack firmware for lichee
mkhelp show this message
[ -f .buildconfig ] && . .buildconfig #如有.buildconfig文件,则导出下面的环境变量. 此文件用于指定编译的目标平台
export LICHEE_CHIP=sun50iw1p1
export LICHEE_PLATFORM=android
export LICHEE_SECURE=
export LICHEE_KERN_VER=linux-3.10
export LICHEE_BOARD=p1
if [ "x$1" = "xconfig" ] ; then #执行"./build.sh config"时触发
. ${BR_SCRIPTS_DIR}/mksetup.sh #出现选择界面
exit $? #返回
elif [ "x$1" = "xpack" ] ; then #执行"./build.sh pack"时触发
if [ "x$2" = "x-d" ] ; then
init_defconf #init_defconf命令是由buildroot/scripts/mkcmd.sh里提供的
mkpack -d card0 #mkpack命令是由buildroot/scripts/mkcmd.sh里提供的
exit $?
else
init_defconf
mkpack
exit $?
fi
elif [ "x$1" = "xpack_debug" ] ; then #执行"./build.sh pack_debug"时触发
init_defconf
mkpack -d card0
exit $?
elif [ "x$1" = "xpack_dump" ] ; then #执行"./build.sh pack_dump"时触发
init_defconf
mkpack -m dump
exit $?
elif [ "x$1" = "xpack_secure" ] ; then #执行"./build.sh pack_secure"时触发
init_defconf
mkpack -s secure
exit $?
elif [ "x$1" = "xpack_debug_secure" ] ; then #执行"./build.sh pack_debug_secure"时触发
init_defconf
mkpack -s secure -d card0
exit $?
elif [ "x$1" = "xpack_prev_refurbish" ] ; then #执行"./build.sh pack_prev_refurbish"时触发
init_defconf
mkpack -s secure -f prev_refurbish
exit $?
elif [ "x$1" = "xpack_prvt" ] ; then #执行"./build.sh pack_prvt"时触发
init_defconf
mkpack -f prvt
exit $?
elif [ "x$1" = "xpack_nor" ] ;then #执行"./build.sh pack_nor"时触发
init_defconf
if [ "x$2" = "xdebug" ] ; then
mkpack -f spinor -d card0
else
mkpack -f spinor
fi
exit $?
elif [ "x$1" = "xpack_erase" ] ; then #执行"./build.sh pack_erase"时触发
init_defconf
mkpack -f erase
exit $?
elif [ $# -eq 0 ] ; then #执行"./build.sh"没任何参数时触发
init_defconf
mklichee #编译内核及生成文件系统镜像
exit $?
fi“buildroot/scripts/mkcmd.sh” 556 行
function mklichee()
{
mk_info "----------------------------------------"
mk_info "build lichee ..."
mk_info "chip: $LICHEE_CHIP"
mk_info "platform: $LICHEE_PLATFORM"
mk_info "secure: $LICHEE_SECURE"
mk_info "kernel: $LICHEE_KERN_VER"
mk_info "board: $LICHEE_BOARD"
mk_info "output: out/${LICHEE_CHIP}/${LICHEE_PLATFORM}/${LICHEE_BOARD}" #这几个环境变量由.buildconfig提供.
mk_info "----------------------------------------"
check_env
mkbr && mkkernel && mkrootfs #分别执行mkbr, mkkernel, mkrootfs命令
[ $? -ne 0 ] && return 1
mk_info "----------------------------------------"
mk_info "build lichee OK."
mk_info "----------------------------------------"
}
脚本里所用的几个路径环境
LICHEE_TOP_DIR=`pwd` #表示当前目录,即lichee目录下
LICHEE_BR_DIR=${LICHEE_TOP_DIR}/buildroot #表示./buildroot目录
LICHEE_KERN_DIR=${LICHEE_TOP_DIR}/${LICHEE_KERN_VER} #表示./linux-3.10目录
LICHEE_TOOLS_DIR=${LICHEE_TOP_DIR}/tools #表示./tools目录
LICHEE_OUT_DIR=${LICHEE_TOP_DIR}/out #表示./out目录
function mkbr()
{
mk_info "build buildroot ..."
local build_script="scripts/build.sh"
(cd ${LICHEE_BR_DIR} && [ -x ${build_script} ] && ./${build_script})
#cd ./buildroot 及执行./buildroot/scripts/build.sh脚本
#因选择编译的目标平台为android,这个脚本里只作了配置交叉编译器。没有编译uboot
[ $? -ne 0 ] && mk_error "build buildroot Failed" && return 1
mk_info "build buildroot OK."
}
function mkkernel()
{
mk_info "build kernel ..."
local build_script="scripts/build.sh"
prepare_toolchain
# mark kernel .config belong to which platform
#因可以选择编译android, linux等几个不同的目标平台, 内核里用.config.mark文件记录编译目标平台.
#当选择的编译目标平台与上次编译的平台不同,则需要清除内核里已编译文件.
local config_mark="${LICHEE_KERN_DIR}/.config.mark"
if [ -f ${config_mark} ] ; then
if ! grep -q "${LICHEE_PLATFORM}" ${config_mark} ; then
mk_info "clean last time build for different platform"
(cd ${LICHEE_KERN_DIR} && [ -x ${build_script} ] && ./${build_script} "clean")
echo "${LICHEE_PLATFORM}" > ${config_mark}
fi
else
echo "${LICHEE_PLATFORM}" > ${config_mark}
fi
(cd ${LICHEE_KERN_DIR} && [ -x ${build_script} ] && ./${build_script})
#进入内核源码目录./linux-3.10下,执行里面的./script/build.sh脚本
#默认会编译内核,动态驱动模块和ramfs等.
[ $? -ne 0 ] && mk_error "build kernel Failed" && return 1
mk_info "build kernel OK."
}
function mkrootfs() #因编译的目标平台为android, 所以这里基本什么都不做.
{
mk_info "build rootfs ..."
if [ ${LICHEE_PLATFORM} = "linux" ] ; then
make O=${LICHEE_BR_OUT} -C ${LICHEE_BR_DIR} target-generic-getty-busybox
[ $? -ne 0 ] && mk_error "build rootfs Failed" && return 1
make O=${LICHEE_BR_OUT} -C ${LICHEE_BR_DIR} target-finalize
[ $? -ne 0 ] && mk_error "build rootfs Failed" && return 1
make O=${LICHEE_BR_OUT} -C ${LICHEE_BR_DIR} LICHEE_GEN_ROOTFS=y rootfs-ext4
[ $? -ne 0 ] && mk_error "build rootfs Failed" && return 1
cp ${LICHEE_BR_OUT}/images/rootfs.ext4 ${LICHEE_PLAT_OUT}
if [ -f "${LICHEE_BR_OUT}/images/rootfs.squashfs" ]; then
cp ${LICHEE_BR_OUT}/images/rootfs.squashfs ${LICHEE_PLAT_OUT}
fi
if [ "x$PACK_TINY_ANDROID" = "xtrue" ];then
packtinyandroid
fi
elif [ ${LICHEE_PLATFORM} = "dragonboard" ] ; then
echo "Regenerating dragonboard Rootfs..."
(
cd ${LICHEE_BR_DIR}/target/dragonboard; \
if [ ! -d "./rootfs" ]; then \
echo "extract dragonboard rootfs.tar.gz"; \
tar zxf rootfs.tar.gz; \
fi
)
tooldir_32=${LICHEE_BR_OUT}/external-toolchain_32
export PATH=${tooldir_32}/bin:$PATH
export LICHEE_TOOLCHAIN_PATH=${tooldir_32}
mkdir -p ${LICHEE_BR_DIR}/target/dragonboard/rootfs/lib/modules
rm -rf ${LICHEE_BR_DIR}/target/dragonboard/rootfs/lib/modules/*
cp -rf ${LICHEE_KERN_DIR}/output/lib/modules/* ${LICHEE_BR_DIR}/target/dragonboard/rootfs/lib/modules/
(cd ${LICHEE_BR_DIR}/target/dragonboard; ./build.sh)
cp ${LICHEE_BR_DIR}/target/dragonboard/rootfs.ext4 ${LICHEE_PLAT_OUT}
else
mk_info "skip make rootfs for ${LICHEE_PLATFORM}"
fi
mk_info "build rootfs OK."
}
内核源码编译脚本 linux-3.10/scripts/build.sh里的内核编译命令:
LICHEE_KDIR=`pwd`
LICHEE_MOD_DIR=${LICHEE_KDIR}/output/lib/modules/${KERNEL_VERSION}
build_kernel()
{
echo "Building kernel"
cd ${LICHEE_KDIR}
rm -rf output/
echo "${LICHEE_MOD_DIR}"
mkdir -p ${LICHEE_MOD_DIR}
# We need to copy rootfs files to compile kernel for linux image
echo "lichee_chip = $LICHEE_CHIP"
if [ "${LICHEE_CHIP}" = "sun8iw10p1" ] || [ "${LICHEE_CHIP}" = "sun8iw11p1" ]; then
echo "cp rootfs_32bit.cpio.gz"
cp -f rootfs_32bit.cpio.gz output/rootfs.cpio.gz
else
cp -f rootfs.cpio.gz output/ #复制rootfs.cpio.gz文件系统镜像到output目录
fi
#exchange sdc0 and sdc2 in sun50iw1p1 for dragonBoard card boot
if [ "x${LICHEE_PLATFORM}" = "xdragonboard" -a "x${LICHEE_CHIP}" = "xsun50iw1p1" ]; then #不成立
local SYS_CONFIG_FILE=../tools/pack/chips/${LICHEE_CHIP}/configs/${LICHEE_BOARD}/sys_config.fex
local DTS_PATH=./arch/arm64/boot/dts/
#sun50iw1p1_bak.dtsi means the orginal dtsi
if [ -f ${DTS_PATH}/sun50iw1p1_bak.dtsi ];then
#sun50iw1p1.dtsi that we use in fact
rm -f ${DTS_PATH}/sun50iw1p1.dtsi
mv ${DTS_PATH}/sun50iw1p1_bak.dtsi ${DTS_PATH}/sun50iw1p1.dtsi
fi
# if find dragonboard_test=1 in sys_config.fex ,then will exchange sdc0 and sdc2
if [ -n "`grep "dragonboard_test" $SYS_CONFIG_FILE | grep "1" | grep -v ";"`" ]; then
cp ${DTS_PATH}/sun50iw1p1.dtsi ${DTS_PATH}/sun50iw1p1_bak.dtsi
rm -f ${DTS_PATH}/sun50iw1p1.dtsi
cp ${DTS_PATH}/sun50iw1p1_for_dragonboard.dtsi ${DTS_PATH}/sun50iw1p1.dtsi
fi
fi
if [ ! -f .config ] ; then #如果没有内核的配置文件.config, 则使用arch/arm64/configs/sun50iw1p1smp_android_defconfig配置文件
printf "\n\033[0;31;1mUsing default config ${LICHEE_KERN_DEFCONF} ...\033[0m\n\n"
cp arch/${ARCH}/configs/${LICHEE_KERN_DEFCONF} .config
fi
if [ "x$SUNXI_CHECK" = "x1" ];then
SUNXI_SPARSE_CHECK=1
SUNXI_SMATCH_CHECK=1
SUNXI_STACK_CHECK=1
fi
if [ "x$SUNXI_SPARSE_CHECK" = "x" ] && [ "x$SUNXI_SMATCH_CHECK" = "x" ];then
make ARCH=${ARCH} CROSS_COMPILE=${CROSS_COMPILE} -j${LICHEE_JLEVEL} all modules
else
if [ "x$SUNXI_SPARSE_CHECK" = "x1" ] && [ -f ../tools/codecheck/sparse/sparse ];then
echo "\n\033[0;31;1mBuilding Round for sparse check ${KERNEL_CFG}...\033[0m\n\n"
make clean
make CHECK="../tools/codecheck/sparse/sparse" ARCH=${ARCH} CROSS_COMPILE=${CROSS_COMPILE} -j${LICHEE_JLEVEL} C=2 all modules 2>&1|tee output/build_sparse.txt
cat output/build_sparse.txt|egrep -w '(warn|error|warning)' >output/warn_sparse.txt
fi
if [ "x$SUNXI_SMATCH_CHECK" = "x1" ]&& [ -f ../tools/codecheck/smatch/smatch ];then
echo "\n\033[0;31;1mBuilding Round for smatch check ${KERNEL_CFG}...\033[0m\n\n"
make clean
make CHECK="../tools/codecheck/smatch/smatch --full-path --no-data -p=kkernel" ARCH=${ARCH} CROSS_COMPILE=${CROSS_COMPILE} -j${LICHEE_JLEVEL} C=2 all modules 2>&1|tee output/build_smatch.txt
cat output/build_smatch.txt|egrep -w '(warn|error|warning)' >output/warn_smatch.txt
fi
fi
if [ "x$SUNXI_STACK_CHECK" = "x1" ];then
make ARCH=${ARCH} CROSS_COMPILE=${CROSS_COMPILE} -j${LICHEE_JLEVEL} checkstack 2>&1|tee output/warn_stack.txt
fi
update_kern_ver
#The Image is origin binary from vmlinux.
if [ -f arch/${ARCH}/boot/Image ]; then
cp -vf arch/${ARCH}/boot/Image output/bImage
fi
if [ -f arch/${ARCH}/boot/zImage ] || [ -f arch/${ARCH}/boot/uImage ]; then
cp -vf arch/${ARCH}/boot/[zu]Image output/
fi
if [ -f arch/${ARCH}/boot/Image.gz ]; then
cp -vf arch/${ARCH}/boot/Image.gz output/
fi
cp .config output/
tar -jcf output/vmlinux.tar.bz2 vmlinux
for file in $(find drivers sound crypto block fs security net -name "*.ko"); do
cp $file ${LICHEE_MOD_DIR}
done
cp -f Module.symvers ${LICHEE_MOD_DIR}
}
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