#!/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) 2022-present Fewtarius # Copyright (C) 2022-present UnofficialOS ################################################################################ # variables such as ${ROOT} ${PATH} etc... that are required for this # script to work must be passed via env ... in scripts/image ################################################################################ # set variables LE_TMP=$(mktemp -d) SAVE_ERROR="${LE_TMP}/save_error" . projects/${PROJECT}/devices/${DEVICE}/options if [ -z "${SYSTEM_SIZE}" -o -z "${SYSTEM_PART_START}" ]; then echo "mkimage: SYSTEM_SIZE and SYSTEM_PART_START must be configured!" exit 1 fi STORAGE_SIZE=32 # STORAGE_SIZE must be >= 32 ! DISK_START_PADDING=$(( (${SYSTEM_PART_START} + 2048 - 1) / 2048 )) DISK_GPT_PADDING=1 DISK_SIZE=$(( ${DISK_START_PADDING} + ${SYSTEM_SIZE} + ${STORAGE_SIZE} + ${DISK_GPT_PADDING} )) DISK_BASENAME="${TARGET_IMG}/${IMAGE_NAME}" if [ -n "${SUBDEVICE}" ]; then DISK_BASENAME="${DISK_BASENAME}-${SUBDEVICE}" fi DISK="${DISK_BASENAME}.img" # functions cleanup() { echo -e "image: cleanup...\n" rm -rf "${LE_TMP}" } show_error() { echo "image: An error has occurred..." echo if [ -s "${SAVE_ERROR}" ]; then cat "${SAVE_ERROR}" else echo "Folder ${LE_TMP} might be out of free space..." fi echo cleanup exit 1 } trap cleanup SIGINT # create an image echo -e "\nimage: creating file $(basename ${DISK})..." dd if=/dev/zero of="${DISK}" bs=1M count="${DISK_SIZE}" conv=fsync >"${SAVE_ERROR}" 2>&1 || show_error echo "image: creating partition table (${PARTITION_TABLE})..." parted -s "${DISK}" mklabel ${PARTITION_TABLE} sync if [ "${PARTITION_TABLE}" = "gpt" ] && [ "${BOOTLOADER}" = "u-boot" ] then echo "image: creating SPL partition(s)." parted -s "${DISK}" unit s mkpart ${UBOOT_LABEL} 16384 24575 >/dev/null 2>&1 parted -s "${DISK}" unit s mkpart ${TRUST_LABEL} 24576 32767 >/dev/null 2>&1 fi # create part1 echo "image: creating part1..." SYSTEM_PART_END=$(( ${SYSTEM_PART_START} + (${SYSTEM_SIZE} * 1024 * 1024 / 512) - 1 )) if [ "${PARTITION_TABLE}" = "gpt" ]; then echo "image: Create boot partition." parted -s "${DISK}" -a min unit s mkpart boot fat32 ${SYSTEM_PART_START} ${SYSTEM_PART_END} else echo "image: Create primary partition." parted -s "${DISK}" -a min unit s mkpart primary fat32 ${SYSTEM_PART_START} ${SYSTEM_PART_END} parted -s "${DISK}" set 1 boot on fi sync # create part2 echo "image: creating part2..." STORAGE_PART_START=$(( ${SYSTEM_PART_END} + 1 )) STORAGE_PART_END=$(( ${STORAGE_PART_START} + (${STORAGE_SIZE} * 1024 * 1024 / 512) - 1 )) if [ "${PARTITION_TABLE}" = "gpt" ]; then echo "image: Create storage partition." parted -s "${DISK}" -a min unit s mkpart storage ext4 ${STORAGE_PART_START} ${STORAGE_PART_END} else echo "image: Create primary partition." parted -s "${DISK}" -a min unit s mkpart primary ext4 ${STORAGE_PART_START} ${STORAGE_PART_END} fi sync # set partition 3 as boot for u-boot. if [ "${PARTITION_TABLE}" = "gpt" ] && [ "${BOOTLOADER}" = "u-boot" ]; then echo "image: Set jelos partition as boot" parted -s "${DISK}" set 3 legacy_boot on fi sync # create filesystem on part1 echo "image: creating filesystem on part1..." OFFSET=$(( ${SYSTEM_PART_START} * 512 )) HEADS=4 TRACKS=32 SECTORS=$(( ${SYSTEM_SIZE} * 1024 * 1024 / 512 / ${HEADS} / ${TRACKS} )) shopt -s expand_aliases # enables alias expansion in script alias mformat="mformat -i ${DISK}@@${OFFSET} -h ${HEADS} -t ${TRACKS} -s ${SECTORS}" alias mcopy="mcopy -i ${DISK}@@${OFFSET}" alias mmd="mmd -i ${DISK}@@${OFFSET}" if [ "${BOOTLOADER}" = "syslinux" -o "${BOOTLOADER}" = "bcm2835-bootloader" -o "${BOOTLOADER}" = "u-boot" ]; then mformat -v "${DISTRO_BOOTLABEL}" -N "${UUID_SYSTEM//-/}" :: fi sync if [ "${BOOTLOADER}" = "syslinux" ]; then # create bootloader configuration echo "image: creating bootloader configuration..." cat << EOF > "${LE_TMP}/syslinux.cfg" DEFAULT run TIMEOUT 0 PROMPT 0 NOESCAPE 1 LABEL run KERNEL /${KERNEL_NAME} APPEND boot=UUID=${UUID_SYSTEM} disk=UUID=${UUID_STORAGE} portable ${EXTRA_CMDLINE} EOF cat << EOF > "${LE_TMP}/grub.cfg" set timeout="0" set default="Run" menuentry "Run" { search --set -f /KERNEL linux /KERNEL boot=UUID=${UUID_SYSTEM} disk=UUID=${UUID_STORAGE} grub_portable ${EXTRA_CMDLINE} } EOF mcopy "${LE_TMP}/syslinux.cfg" :: # install syslinux echo "image: installing syslinux to part1..." syslinux.mtools --offset "${OFFSET}" -i "${DISK}" # copy files echo "image: copying files to part1..." mcopy "${TARGET_IMG}/${BUILD_NAME}.kernel" "::/${KERNEL_NAME}" mcopy "${TARGET_IMG}/${BUILD_NAME}.system" ::/SYSTEM mcopy "${RELEASE_DIR}/target/KERNEL.md5" "::/${KERNEL_NAME}.md5" mcopy "${RELEASE_DIR}/target/SYSTEM.md5" ::/SYSTEM.md5 mmd EFI EFI/BOOT mcopy "${TOOLCHAIN}/share/syslinux/bootx64.efi" ::/EFI/BOOT mcopy "${TOOLCHAIN}/share/syslinux/ldlinux.e64" ::/EFI/BOOT mcopy "${TOOLCHAIN}/share/grub/bootia32.efi" ::/EFI/BOOT mcopy "${LE_TMP}/grub.cfg" ::/EFI/BOOT elif [ "${BOOTLOADER}" = "bcm2835-bootloader" ]; then # create bootloader configuration echo "image: creating bootloader configuration..." cat << EOF > "${LE_TMP}/cmdline.txt" boot=UUID=${UUID_SYSTEM} disk=UUID=${UUID_STORAGE} quiet ${EXTRA_CMDLINE} EOF mcopy "${LE_TMP}/cmdline.txt" :: # copy files echo "image: copying files to part1..." mcopy "${TARGET_IMG}/${BUILD_NAME}.kernel" "::/${KERNEL_NAME}" mcopy "${TARGET_IMG}/${BUILD_NAME}.system" ::/SYSTEM mcopy "${RELEASE_DIR}/target/KERNEL.md5" "::/${KERNEL_NAME}.md5" mcopy "${RELEASE_DIR}/target/SYSTEM.md5" ::/SYSTEM.md5 mcopy "${RELEASE_DIR}/3rdparty/bootloader/bootcode.bin" :: mcopy "${RELEASE_DIR}/3rdparty/bootloader/fixup.dat" :: mcopy "${RELEASE_DIR}/3rdparty/bootloader/start.elf" :: mcopy "${RELEASE_DIR}/3rdparty/bootloader/config.txt" :: mcopy "${RELEASE_DIR}/3rdparty/bootloader/distroconfig.txt" :: if [ -f "${RELEASE_DIR}/3rdparty/bootloader/dt-blob.bin" ]; then mcopy "${RELEASE_DIR}/3rdparty/bootloader/dt-blob.bin" :: fi for dtb in "${RELEASE_DIR}/3rdparty/bootloader/"*.dtb ; do if [ -f "${dtb}" ]; then mcopy "${dtb}" ::/$(basename "${dtb}") fi done if [ -d "${RELEASE_DIR}/3rdparty/bootloader/overlays" ]; then mcopy -s "${RELEASE_DIR}/3rdparty/bootloader/overlays" :: fi elif [ "${BOOTLOADER}" = "u-boot" -a \( -n "${UBOOT_CONFIG}" -o "${UBOOT_VERSION}" = "vendor" \) ]; then # create bootloader configuration echo "image: creating bootloader configuration... (u-boot)" if [ "${UBOOT_VERSION}" != "vendor" ]; then for DTB in ${DEVICE_DTB[@]} do if [ -f "${RELEASE_DIR}/3rdparty/bootloader/${DTB}.dtb" ]; then mcopy "${RELEASE_DIR}/3rdparty/bootloader/${DTB}.dtb" :: fi done fi if [ -f "${PROJECT_DIR}/${PROJECT}/devices/${DEVICE}/bootloader/mkimage" ]; then . "${PROJECT_DIR}/${PROJECT}/devices/${DEVICE}/bootloader/mkimage" elif [ -f "${PROJECT_DIR}/${PROJECT}/bootloader/mkimage" ]; then . "${PROJECT_DIR}/${PROJECT}/bootloader/mkimage" else echo "image: skipping u-boot. no mkimage script found" fi echo "image: copying files to part1..." mcopy "${TARGET_IMG}/${BUILD_NAME}.kernel" "::/${KERNEL_NAME}" mcopy "${TARGET_IMG}/${BUILD_NAME}.system" ::/SYSTEM mcopy "${RELEASE_DIR}/target/KERNEL.md5" "::/${KERNEL_NAME}.md5" mcopy "${RELEASE_DIR}/target/SYSTEM.md5" ::/SYSTEM.md5 elif [ "${BOOTLOADER}" = "u-boot" ]; then echo "to make an image using u-boot UBOOT_SYSTEM must be set" cleanup exit fi # bootloader # extract part2 from image to format and copy files echo "image: extracting part2 from image..." STORAGE_PART_COUNT=$(( ${STORAGE_PART_END} - ${STORAGE_PART_START} + 1 )) sync dd if="${DISK}" of="${LE_TMP}/part2.ext4" bs=512 skip="${STORAGE_PART_START}" count="${STORAGE_PART_COUNT}" conv=fsync >"${SAVE_ERROR}" 2>&1 || show_error # create filesystem on part2 echo "image: creating filesystem on part2..." mke2fs -F -q -t ext4 -m 0 "${LE_TMP}/part2.ext4" tune2fs -L "${DISTRO_DISKLABEL}" -U ${UUID_STORAGE} "${LE_TMP}/part2.ext4" >"${SAVE_ERROR}" 2>&1 || show_error e2fsck -n "${LE_TMP}/part2.ext4" >"${SAVE_ERROR}" 2>&1 || show_error sync # add resize mark mkdir "${LE_TMP}/part2.fs" touch "${LE_TMP}/part2.fs/.please_resize_me" echo "image: populating filesystem on part2..." populatefs -U -d "${LE_TMP}/part2.fs" "${LE_TMP}/part2.ext4" >"${SAVE_ERROR}" 2>&1 || show_error sync e2fsck -n "${LE_TMP}/part2.ext4" >"${SAVE_ERROR}" 2>&1 || show_error # merge part2 back to disk image echo "image: merging part2 back to image..." dd if="${LE_TMP}/part2.ext4" of="${DISK}" bs=512 seek="${STORAGE_PART_START}" conv=fsync,notrunc >"${SAVE_ERROR}" 2>&1 || show_error # extract part1 from image to run fsck echo "image: extracting part1 from image..." SYSTEM_PART_COUNT=$(( ${SYSTEM_PART_END} - ${SYSTEM_PART_START} + 1 )) sync dd if="${DISK}" of="${LE_TMP}/part1.fat" bs=512 skip="${SYSTEM_PART_START}" count="${SYSTEM_PART_COUNT}" conv=fsync >"${SAVE_ERROR}" 2>&1 || show_error echo "image: checking filesystem on part1..." fsck.fat -n "${LE_TMP}/part1.fat" >"${SAVE_ERROR}" 2>&1 || show_error # create virtual image if [ "${PROJECT}" = "Generic" ]; then echo "image: creating open virtual appliance..." # duplicate ${DISK} so anything we do to it directly doesn't effect original dd if="${DISK}" of="${DISK_BASENAME}.tmp" bs=1M >"${SAVE_ERROR}" 2>&1 || show_error # change syslinux default to 'run' echo "image: modifying fs on part1 for open virtual appliance..." sed -e "/DEFAULT/ s/installer/run/" -i "${LE_TMP}/syslinux.cfg" sed -e "/set default=/s/\"Installer\"/\"Run\"/" -i "${LE_TMP}/grub.cfg" # FIXME: an unalias should work here, but it does not; call mcopy directly "${TOOLCHAIN}"/bin/mcopy -i "${LE_TMP}/part1.fat" -o "${LE_TMP}/syslinux.cfg" :: "${TOOLCHAIN}"/bin/mcopy -i "${LE_TMP}/part1.fat" -o "${LE_TMP}/grub.cfg" ::/EFI/BOOT sync # merge modified part1 back to tmp disk image echo "image: merging part1 back to open virtual appliance..." dd if="${LE_TMP}/part1.fat" of="${DISK_BASENAME}.tmp" bs=512 seek="${SYSTEM_PART_START}" conv=fsync,notrunc >"${SAVE_ERROR}" 2>&1 || show_error # create vmdk from tmp ${DISK} qemu-img convert -O vmdk -o subformat=streamOptimized "${DISK_BASENAME}.tmp" "${DISK_BASENAME}.vmdk" # generate ovf from template sed -e "s,@DISTRO@,${DISTRO},g" -e "s,@DISK@,${IMAGE_NAME},g" \ -e "s,@OVA_SIZE@,$((${OVA_SIZE}*1024*1024)),g" \ "${PROJECT_DIR}/${PROJECT}/config/ovf.template" > "${DISK_BASENAME}.ovf" # combine ovf and vmdk into official ova tar -C "${TARGET_IMG}" -cf "${DISK_BASENAME}.ova" "${IMAGE_NAME}.ovf" "${IMAGE_NAME}.vmdk" # create sha256 checksum of ova image ( cd "${TARGET_IMG}" sha256sum "${IMAGE_NAME}.ova" > "${IMAGE_NAME}.ova.sha256" ) echo "image: cleaning up..." # remove tmp ${DISK}, vmdk and ovf rm "${DISK_BASENAME}.tmp" "${DISK_BASENAME}.vmdk" "${DISK_BASENAME}.ovf" # set owner [ -n "${SUDO_USER}" ] && chown "${SUDO_USER}:" "${DISK_BASENAME}.ova" fi # gzip echo "image: compressing..." pigz --best --force "${DISK}" # set owner if [ -n "${SUDO_USER}" ]; then chown "${SUDO_USER}:" "${DISK}.gz" fi # create sha256 checksum of image ( cd "${TARGET_IMG}" sha256sum $(basename "${DISK}").gz > $(basename "${DISK}").gz.sha256 ) if [ -n "${LOCAL_SSH_KEYS_FILE}" ] || \ [ -n "${LOCAL_WIFI_SSID}" ] || \ [ -n "${LOCAL_WIFI_KEY}" ] then echo "image: CONTAINS SENSITIVE DATA, DO NOT DISTRIBUTE." fi # cleanup cleanup exit