distribution/scripts/image

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#!/bin/bash
# SPDX-License-Identifier: GPL-2.0-or-later
# Copyright (C) 2009-2016 Stephan Raue (stephan@openelec.tv)
# Copyright (C) 2016-2018 Team LibreELEC (https://libreelec.tv)
# Copyright (C) 2018-present Team CoreELEC (https://coreelec.org)
# Copyright (C) 2023 JELOS (https://github.com/JustEnoughLinuxOS)
unset _CACHE_PACKAGE_LOCAL _CACHE_PACKAGE_GLOBAL _DEBUG_DEPENDS_LIST _DEBUG_PACKAGE_LIST
. config/options ""
. config/multithread
. config/show_config
. projects/${PROJECT}/devices/${DEVICE}/options
show_config
${SCRIPTS}/checkdeps
# Setup both toolchain cmake configs to avoid potentially racy behaviour later.
# Use a fork for host to isolate any variable modifications.
( setup_toolchain host )
setup_toolchain target
function do_mkimage() {
# Variables used in mkimage script must be passed
env \
ROOT="${ROOT}" \
SCRIPTS="${SCRIPTS}" \
TOOLCHAIN="${TOOLCHAIN}" \
PROJECT_DIR="${PROJECT_DIR}" \
PROJECT="${PROJECT}" \
DEVICE="${DEVICE}" \
DISTRO="${DISTRO}" \
TARGET_IMG="${TARGET_IMG}" \
BUILD_NAME="${IMAGE_NAME}" \
IMAGE_NAME="${1:-${IMAGE_NAME}}" \
BOOTLOADER="${BOOTLOADER}" \
KERNEL_NAME="${KERNEL_NAME}" \
TARGET_KERNEL_ARCH="${TARGET_KERNEL_ARCH}" \
RELEASE_DIR="${RELEASE_DIR}" \
UUID_SYSTEM="${UUID_SYSTEM}" \
UUID_STORAGE="${UUID_STORAGE}" \
DISTRO_BOOTLABEL="${DISTRO_BOOTLABEL}" \
DISTRO_DISKLABEL="${DISTRO_DISKLABEL}" \
UBOOT_DTB="${UBOOT_DTB}" \
UBOOT_VERSION="${UBOOT_VERSION}" \
EXTRA_CMDLINE="${EXTRA_CMDLINE}" \
SYSTEM_SIZE="${SYSTEM_SIZE}" \
SYSTEM_PART_START="${SYSTEM_PART_START}" \
STORAGE_SIZE="${STORAGE_SIZE:-32}" \
SUBDEVICE="${SUBDEVICE}" \
${SCRIPTS}/mkimage
}
if [ -n "${CUSTOM_GIT_HASH}" ]; then
GIT_HASH="${CUSTOM_GIT_HASH}"
else
GIT_HASH=$(git rev-parse HEAD)
fi
# Get origin url, fix git:// and git@github.com: urls if necessary
ORIGIN_URL="$(git remote -v | awk '$1 == "origin" { print $2 }' | head -1 | sed 's#\.git$##;s#^git:#https:#;s#^git@github\.com:#https://github.com/#')"
if [ -n "${CUSTOM_VERSION}" ]; then
export OS_VERSION="${CUSTOM_VERSION}"
fi
OS_ARCH="${DEVICE:-${PROJECT}}.${TARGET_ARCH}"
TARGET_VERSION="${OS_ARCH}-${OS_VERSION}"
if [ -n "${CUSTOM_IMAGE_NAME}" ]; then
IMAGE_NAME="${CUSTOM_IMAGE_NAME}"
else
IMAGE_NAME="${DISTRONAME}-${TARGET_VERSION}"
fi
if [ -n "${IMAGE_SUFFIX}" ]; then
IMAGE_NAME="${IMAGE_NAME}-${IMAGE_SUFFIX}"
fi
echo "${IMAGE_NAME}" > ${BUILD}/BUILD_FILENAME
# Setup fakeroot
rm -rf ${FAKEROOT_SCRIPT} # remove ${FAKEROOT_SCRIPT} if it exist
touch ${FAKEROOT_SCRIPT} # create an empty ${FAKEROOT_SCRIPT}
chmod +x ${FAKEROOT_SCRIPT} # make ${FAKEROOT_SCRIPT} executable
echo "chown -R 0:0 ${INSTALL}" >> ${FAKEROOT_SCRIPT}
# Clean old install dirs
rm -rf ${INSTALL}
rm -rf ${STAMPS_INSTALL}
mkdir -p ${INSTALL}
# Create base layout of JELOS read-only file system
for directory in etc dev proc run sys tmp usr var flash storage; do
mkdir -p ${INSTALL}/${directory}
done
# Build image contents
MTADDONBUILD=no start_multithread_build image || die "Parallel build failure. Time of failure: $(date)"
echo "Successful build! Building image root..." >&2
# Create legacy sym links
ln -sfn /var/media ${INSTALL}/media
ln -sfn /usr/lib ${INSTALL}/lib
ln -sfn /usr/bin ${INSTALL}/bin
ln -sfn /usr/sbin ${INSTALL}/sbin
if [ "${TARGET_ARCH}" = "x86_64" ]; then
ln -sfn /usr/lib ${INSTALL}/lib64
ln -sfn /usr/lib ${INSTALL}/usr/lib64
fi
echo "${TARGET_VERSION}" > ${INSTALL}/etc/release
# Create /etc/os-release
cat <<EOF >${INSTALL}/etc/os-release
OS_NAME="${DISTRONAME}"
OS_VERSION="${OS_VERSION}"
GIT_ORGANIZATION="${GIT_ORGANIZATION}"
GIT_REPO="${GIT_REPO}"
HOME_URL="${HOME_URL}"
BUILD_ID="${GIT_HASH}"
BUILD_BRANCH="$(git branch --show-current)"
BUILD_DATE="${BUILD_DATE}"
HW_DEVICE="${DEVICE}"
HW_ARCH="${ARCH}"
EOF
if [ -n "${HW_CPU}" ]
then
cat <<EOF >>${INSTALL}/etc/os-release
HW_CPU="${HW_CPU}"
EOF
fi
# Add release notes / changelog
if [ -n "${RELEASE_NOTES}" ] && [ -f "${RELEASE_NOTES}" ]; then
cp "${RELEASE_NOTES}" ${INSTALL}/etc/release-notes
else
echo "" > ${INSTALL}/etc/release-notes
fi
# Copy PROJECT related files to filesystem
if [ -d "${PROJECT_DIR}/${PROJECT}/filesystem" ]; then
cp -PR ${PROJECT_DIR}/${PROJECT}/filesystem/* ${INSTALL}
# Install project specific systemd services
for service in ${PROJECT_DIR}/${PROJECT}/filesystem/usr/lib/systemd/system/*.service; do
if [ -f "${service}" ]; then
enable_service $(basename ${service})
fi
done
fi
# Copy DEVICE related files to filesystem
if [ -n "${DEVICE}" -a -d "${PROJECT_DIR}/${PROJECT}/devices/${DEVICE}/filesystem" ]; then
cp -PR ${PROJECT_DIR}/${PROJECT}/devices/${DEVICE}/filesystem/* ${INSTALL}
# Install device specific systemd services
for service in ${PROJECT_DIR}/${PROJECT}/devices/${DEVICE}/filesystem/usr/lib/systemd/system/*.service; do
if [ -f "${service}" ]; then
enable_service $(basename ${service})
fi
done
fi
# Run depmod for base overlay modules
MODVER=$(basename $(ls -d ${INSTALL}/usr/lib/kernel-overlays/base/lib/modules/*))
find ${INSTALL}/usr/lib/kernel-overlays/base/lib/modules/${MODVER}/ -name *.ko | \
sed -e "s,${INSTALL}/usr/lib/kernel-overlays/base/lib/modules/${MODVER}/,," \
> ${INSTALL}/usr/lib/kernel-overlays/base/lib/modules/${MODVER}/modules.order
${TOOLCHAIN}/bin/depmod -b ${INSTALL}/usr/lib/kernel-overlays/base -a -e -F "${BUILD}/linux-$(kernel_version)/System.map" ${MODVER} 2>&1
# Strip kernel modules
for MOD in $(find ${INSTALL}/usr/lib/kernel-overlays/ -type f -name *.ko); do
${TARGET_KERNEL_PREFIX}strip --strip-debug ${MOD}
done
# Symlink overlayed modules to /usr/lib/modules
ln -sT /var/lib/modules ${INSTALL}/usr/lib/modules
# Symlink overlayed firmware to /usr/lib/firmware
ln -sT /var/lib/firmware ${INSTALL}/usr/lib/firmware
if [ -n "${NO_IMAGE}" ]; then
echo "NO_IMAGE=${NO_IMAGE}, No image will be created"
exit 0
fi
if [ "${1}" = "system" -o "${1}" = "mkimage" ]
then
echo "Creating image..." >&2
# Make target dir
mkdir -p ${TARGET_IMG}
rm -rf ${TARGET_IMG}/${IMAGE_NAME}.kernel
# Copy kernel to target dir
cp -PR ${BUILD}/linux-$(kernel_version)/arch/${TARGET_KERNEL_ARCH}/boot/${KERNEL_TARGET} ${TARGET_IMG}/${IMAGE_NAME}.kernel
chmod 0644 ${TARGET_IMG}/${IMAGE_NAME}.kernel
# Set mksquashfs options for each compression method
if [ -z "${SQUASHFS_COMPRESSION_OPTION}" ]; then
if [ "${SQUASHFS_COMPRESSION:-gzip}" = "gzip" ]; then
SQUASHFS_COMPRESSION_OPTION="-Xcompression-level 9 -b 262144"
elif [ "${SQUASHFS_COMPRESSION}" = "lzo" ]; then
SQUASHFS_COMPRESSION_OPTION="-Xcompression-level 9 -b 524288"
elif [ "${SQUASHFS_COMPRESSION}" = "zstd" ]; then
SQUASHFS_COMPRESSION_OPTION="-Xcompression-level 22 -b 262144"
fi
fi
# Create squashfs file, default to gzip if no compression configured
echo "rm -rf \"${TARGET_IMG}/${IMAGE_NAME}.system\"" >> ${FAKEROOT_SCRIPT}
echo "${TOOLCHAIN}/bin/mksquashfs \"${BUILD}/image/system\" \"${TARGET_IMG}/${IMAGE_NAME}.system\" -noappend -comp ${SQUASHFS_COMPRESSION:-gzip} ${SQUASHFS_COMPRESSION_OPTION}" >> ${FAKEROOT_SCRIPT}
# Run fakeroot
${TOOLCHAIN}/bin/fakeroot -- ${FAKEROOT_SCRIPT}
rm -rf ${FAKEROOT_SCRIPT}
# Set permissions
chmod 0644 ${TARGET_IMG}/${IMAGE_NAME}.system
fi
if [ "${1}" = "release" -o "${1}" = "mkimage" ]; then
RELEASE_DIR="target/${IMAGE_NAME}"
# Cleanup
rm -rf ${RELEASE_DIR}
# Create release dir
mkdir -p ${RELEASE_DIR}
# Remove any previously created release images
rm -rf ${TARGET_IMG}/${IMAGE_NAME}.img.gz
if [ -n "${BOOTLOADER}" ]; then
BOOTLOADER_DIR="$(get_pkg_directory "${BOOTLOADER}")"
if [ -d ${BOOTLOADER_DIR}/files ]; then
cp -R ${BOOTLOADER_DIR}/files/* ${RELEASE_DIR}
fi
if find_file_path bootloader/release ${BOOTLOADER_DIR}/release; then
echo "Running ${FOUND_PATH}"
. ${FOUND_PATH}
fi
fi
cp ${ROOT}/README* ${RELEASE_DIR}
echo "${TARGET_VERSION}" > ${RELEASE_DIR}/RELEASE
if [ ! "${MEDIACENTER}" = "no" ]; then
echo "Kodi commit: $(get_pkg_version ${MEDIACENTER})" >> ${RELEASE_DIR}/RELEASE
fi
mkdir -p ${RELEASE_DIR}/licenses
cp ${ROOT}/licenses/* ${RELEASE_DIR}/licenses
mkdir -p ${RELEASE_DIR}/target
cp ${TARGET_IMG}/${IMAGE_NAME}.system ${RELEASE_DIR}/target/SYSTEM
cp ${TARGET_IMG}/${IMAGE_NAME}.kernel ${RELEASE_DIR}/target/KERNEL
# Create md5sum's
( cd ${RELEASE_DIR};
md5sum -t target/SYSTEM > target/SYSTEM.md5;
md5sum -t target/KERNEL > target/KERNEL.md5;
)
# Create target directory
mkdir -p ${TARGET_IMG}
# Remove any previously created release tarballs
rm -rf ${TARGET_IMG}/${IMAGE_NAME}.tar
# Create release tarball
tar cf ${TARGET_IMG}/${IMAGE_NAME}.tar -C target ${IMAGE_NAME}
# Create sha256 checksum of tarball
( cd ${TARGET_IMG}
sha256sum ${IMAGE_NAME}.tar > ${IMAGE_NAME}.tar.sha256
)
# Create image files if requested
if [[ ( "${1}" = "mkimage" ) && -n "${BOOTLOADER}" ]]; then
UUID_SYSTEM="$(date '+%d%m')-$(date '+%M%S')"
UUID_STORAGE="$(uuidgen)"
if [ "${BOOTLOADER}" = "u-boot" -a -z "${UBOOT_CONFIG}" -a -n "${DEVICE}" -a -n "${DEVICE_BOARDS}" ]; then
# Re-install u-boot package
rm ${STAMPS_INSTALL}/u-boot/install_target
${SCRIPTS}/install u-boot
# Re-run bootloader/release
if find_file_path bootloader/release ${BOOTLOADER_DIR}/release; then
echo "Running ${FOUND_PATH}"
. ${FOUND_PATH}
fi
do_mkimage "${IMAGE_NAME}-${DEVICE}"
else
if [ -n "${SUBDEVICES}" ]; then
for SUBDEVICE in ${SUBDEVICES}; do
do_mkimage "${IMAGE_NAME}"
done
else
do_mkimage
fi
fi
fi
# Cleanup release dir
rm -rf ${RELEASE_DIR}
if [ -d ${RELEASE_DIR} ]; then
# Cleanup release dir
rm -rf ${RELEASE_DIR}
fi
fi
# remove unneeded files in target folder
if [ "$COREELEC_TARGET_REMOVE" = "kernel_system" ]; then
rm -f ${TARGET_IMG}/*.kernel
rm -f ${TARGET_IMG}/*.system
elif [ "$COREELEC_TARGET_REMOVE" = "kernel_system_sha256" ]; then
rm -f ${TARGET_IMG}/*.kernel
rm -f ${TARGET_IMG}/*.system
rm -f ${TARGET_IMG}/*.sha256
fi