#!/bin/bash # Copyright (c) 2009 The Chromium OS Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. # Script to build a bootable keyfob-based chromeos system image from within # a chromiumos setup. This assumes that all needed packages have been built into # the given target's root with binary packages turned on. This script will # build the Chrome OS image using only pre-built binary packages. # Load common constants. This should be the first executable line. # The path to common.sh should be relative to your script's location. . "$(dirname "$0")/common.sh" . "$(dirname "$0")/chromeos-common.sh" # for partoffset locate_gpt # Script must be run inside the chroot. restart_in_chroot_if_needed $* get_default_board # Flags. DEFINE_string board "${DEFAULT_BOARD}" \ "The board to build an image for." DEFINE_string build_root "/build" \ "The root location for board sysroots." DEFINE_integer build_attempt 1 \ "The build attempt for this image build." DEFINE_string output_root "${DEFAULT_BUILD_ROOT}/images" \ "Directory in which to place image result directories (named by version)" DEFINE_boolean replace ${FLAGS_FALSE} \ "Overwrite existing output, if any." DEFINE_boolean withdev ${FLAGS_TRUE} \ "Include useful developer friendly utilities in the image." DEFINE_boolean installmask ${FLAGS_TRUE} \ "Use INSTALL_MASK to shrink the resulting image." DEFINE_integer jobs -1 \ "How many packages to build in parallel at maximum." DEFINE_boolean statefuldev ${FLAGS_TRUE} \ "Install development packages on stateful partition rather than the rootfs" DEFINE_string to "" \ "The target image file or device" DEFINE_boolean factory_install ${FLAGS_FALSE} \ "Build a smaller image to overlay the factory install shim on; this argument \ is also required in image_to_usb." DEFINE_boolean dev_install ${FLAGS_FALSE} \ "Build a smaller image to overlay the dev recovery install shim on" DEFINE_string arm_extra_bootargs "" \ "Additional command line options to pass to the ARM kernel." DEFINE_integer rootfs_partition_size 1024 \ "rootfs partition size in MiBs." DEFINE_integer rootfs_size 720 \ "rootfs filesystem size in MiBs." # ceil(0.1 * rootfs_size) is a good minimum. DEFINE_integer rootfs_hash_pad 8 \ "MiBs reserved at the end of the rootfs image." DEFINE_integer statefulfs_size 1024 \ "stateful filesystem size in MiBs." DEFINE_boolean preserve ${FLAGS_FALSE} \ "Attempt to preserve the previous build image if one can be found (unstable, \ kernel/firmware not updated)" DEFINE_boolean fast ${DEFAULT_FAST} \ "Call many emerges in parallel" DEFINE_string usb_disk /dev/sdb3 \ "Path syslinux should use to do a usb boot. Default: /dev/sdb3" DEFINE_boolean enable_rootfs_verification ${FLAGS_TRUE} \ "Default all bootloaders to use kernel-based root fs integrity checking." DEFINE_integer verity_error_behavior 2 \ "Kernel verified boot error behavior (0: I/O errors, 1: reboot, 2: nothing) \ Default: 2" DEFINE_integer verity_depth 1 \ "Kernel verified boot hash tree depth. Default: 1" DEFINE_integer verity_max_ios 1024 \ "Number of outstanding I/O operations dm-verity caps at. Default: 1024" DEFINE_string verity_algorithm "sha1" \ "Cryptographic hash algorithm used for kernel vboot. Default : sha1" DEFINE_string oem_customization "" \ "Path to directory containing OEM partner partition contents" # Parse command line. FLAGS "$@" || exit 1 eval set -- "${FLAGS_ARGV}" # Only now can we die on error. shflags functions leak non-zero error codes, # so will die prematurely if 'set -e' is specified before now. set -e if [ -z "${FLAGS_board}" ] ; then error "--board is required." exit 1 fi if [ "$((FLAGS_rootfs_size + FLAGS_rootfs_hash_pad))" -gt \ "${FLAGS_rootfs_partition_size}" ] ; then error "rootfs ($((FLAGS_rootfs_size + FLAGS_rootfs_hash_pad)) MiB) is \ bigger than partition (${FLAGS_rootfs_partition_size} MiB)." exit 1 fi # Verify user didn't specify incompatible flags for dev install shim if [ ${FLAGS_factory_install} -eq ${FLAGS_TRUE} ] && [ ${FLAGS_dev_install} -eq ${FLAGS_TRUE} ] ; then error "Incompatible flags: --factory_install and --dev_install cannot be \ both set to True. Please specify one or none." exit 1 fi # Disable --withdev flag when --dev_install is set to True. Otherwise, the # dev image produced will be based on dev install shim, rather than a pristine # image if [ ${FLAGS_withdev} -eq ${FLAGS_TRUE} ] && [ ${FLAGS_dev_install} -eq ${FLAGS_TRUE} ] ; then info "Incompatible flags: --withdev and --dev_install cannot be both set to \ True. Reset --withdev to False." FLAGS_withdev=${FLAGS_FALSE} fi EMERGE_BOARD_CMD="emerge-${FLAGS_board}" if [ "${FLAGS_fast}" -eq "${FLAGS_TRUE}" ]; then echo "Using alternate emerge" EMERGE_BOARD_CMD="${SCRIPTS_DIR}/parallel_emerge --board=${FLAGS_board}" fi # Determine build version. . "${SCRIPTS_DIR}/chromeos_version.sh" # Use canonical path since some tools (e.g. mount) do not like symlinks. # Append build attempt to output directory. IMAGE_SUBDIR="${CHROMEOS_VERSION_STRING}-a${FLAGS_build_attempt}" OUTPUT_DIR="${FLAGS_output_root}/${FLAGS_board}/${IMAGE_SUBDIR}" OUTSIDE_OUTPUT_DIR="../build/images/${FLAGS_board}/${IMAGE_SUBDIR}" # If we are creating a developer image, also create a pristine image with a # different name. DEVELOPER_IMAGE_NAME= PRISTINE_IMAGE_NAME=chromiumos_image.bin if [ "${FLAGS_withdev}" -eq "${FLAGS_TRUE}" ]; then PRISTINE_IMAGE_NAME=chromiumos_base_image.bin DEVELOPER_IMAGE_NAME=chromiumos_image.bin fi # Rename pristine image for dev install shim if [ "${FLAGS_dev_install}" -eq "${FLAGS_TRUE}" ]; then PRISTINE_IMAGE_NAME=dev_install_shim.bin fi PRISTINE_IMG="${OUTPUT_DIR}/${PRISTINE_IMAGE_NAME}" DEVELOPER_IMG="${OUTPUT_DIR}/${DEVELOPER_IMAGE_NAME}" BOARD="${FLAGS_board}" BOARD_ROOT="${FLAGS_build_root}/${BOARD}" ROOT_FS_IMG="${OUTPUT_DIR}/rootfs.image" ROOT_FS_DIR="${OUTPUT_DIR}/rootfs" ROOT_FS_HASH="${OUTPUT_DIR}/rootfs.hash" STATEFUL_FS_IMG="${OUTPUT_DIR}/stateful_partition.image" STATEFUL_FS_DIR="${OUTPUT_DIR}/stateful_partition" OEM_FS_IMG="${OUTPUT_DIR}/partner_partition.image" OEM_FS_DIR="${OUTPUT_DIR}/partner_partition" ESP_FS_IMG=${OUTPUT_DIR}/esp.image ESP_FS_DIR=${OUTPUT_DIR}/esp DEVKEYSDIR="/usr/share/vboot/devkeys" LOOP_DEV= STATEFUL_LOOP_DEV= OEM_LOOP_DEV= ESP_LOOP_DEV= # ${DEV_IMAGE_ROOT} specifies the location of where developer packages will # be installed on the stateful dir. On a Chromium OS system, this will # translate to /usr/local. DEV_IMAGE_ROOT="${STATEFUL_FS_DIR}/dev_image" # What cross-build are we targeting? . "${BOARD_ROOT}/etc/make.conf.board_setup" LIBC_VERSION=${LIBC_VERSION:-"2.10.1-r1"} INSTALL_MASK="" if [[ ${FLAGS_installmask} -eq ${FLAGS_TRUE} ]] ; then INSTALL_MASK="${DEFAULT_INSTALL_MASK}" fi # Reduce the size of factory install shim. # TODO: Build a separated ebuild for the factory install shim to reduce size. if [ ${FLAGS_factory_install} -eq ${FLAGS_TRUE} ] || [ ${FLAGS_dev_install} -eq ${FLAGS_TRUE} ] ; then INSTALL_MASK="${INSTALL_MASK} ${FACTORY_INSTALL_MASK}" fi if [[ ${FLAGS_jobs} -ne -1 ]]; then EMERGE_JOBS="--jobs=${FLAGS_jobs}" fi # Figure out ARCH from the given toolchain. # TODO: Move to common.sh as a function after scripts are switched over. TC_ARCH=$(echo "${CHOST}" | awk -F'-' '{ print $1 }') case "${TC_ARCH}" in arm*) ARCH="arm" ;; *86) ARCH="x86" ;; *) error "Unable to determine ARCH from toolchain: ${CHOST}" exit 1 esac if [[ ${FLAGS_enable_rootfs_verification} -eq ${FLAGS_TRUE} ]]; then enable_rootfs_verification_flag="--enable_rootfs_verification" # Comment out this section if you need to start testing vboot on arm. if [[ "${ARCH}" = "arm" ]]; then warn "ARM does not yet support --enable_rootfs_verification" warn "Root filesystem verification has been disabled." enable_rootfs_verification_flag= FLAGS_enable_rootfs_verification_flag=${FLAGS_FALSE} fi fi # Hack to fix bug where x86_64 CHOST line gets incorrectly added. # ToDo(msb): remove this hack. PACKAGES_FILE="${BOARD_ROOT}/packages/Packages" sudo sed -e "s/CHOST: x86_64-pc-linux-gnu//" -i "${PACKAGES_FILE}" # Handle existing directory. if [[ -e "${OUTPUT_DIR}" ]]; then if [[ ${FLAGS_replace} -eq ${FLAGS_TRUE} ]]; then sudo rm -rf "${OUTPUT_DIR}" else echo "Directory ${OUTPUT_DIR} already exists." echo "Use --build_attempt option to specify an unused attempt." echo "Or use --replace if you want to overwrite this directory." exit 1 fi fi # Find previous build, if any... PREVIOUS_DIR=$($SCRIPTS_DIR/get_latest_image.sh --board="$BOARD") cleanup_rootfs_loop() { sudo umount -d "${ROOT_FS_DIR}" } cleanup_stateful_fs_loop() { sudo umount "${ROOT_FS_DIR}/usr/local" sudo umount "${ROOT_FS_DIR}/var" sudo umount -d "${STATEFUL_FS_DIR}" } cleanup_oem_fs_loop() { sudo umount -d "${OEM_FS_DIR}" } cleanup_esp_loop() { sudo umount -d "${ESP_FS_DIR}" } cleanup() { # Disable die on error. set +e if [[ -n "${STATEFUL_LOOP_DEV}" ]]; then cleanup_stateful_fs_loop STATEFUL_LOOP_DEV= fi if [[ -n "${OEM_LOOP_DEV}" ]]; then cleanup_oem_fs_loop fi if [[ -n "${LOOP_DEV}" ]]; then cleanup_rootfs_loop LOOP_DEV= fi if [[ -n "${ESP_LOOP_DEV}" ]]; then cleanup_esp_loop ESP_LOOP_DEV= fi # Turn die on error back on. set -e } delete_prompt() { echo "An error occurred in your build so your latest output directory" \ "is invalid." read -p "Would you like to delete the output directory (y/N)? " SURE SURE="${SURE:0:1}" # Get just the first character. if [ "${SURE}" == "y" ] ; then sudo rm -rf "${OUTPUT_DIR}" echo "Deleted ${OUTPUT_DIR}" else echo "Not deleting ${OUTPUT_DIR}. Note dev server updates will not work" \ "until you successfully build another image or delete this directory" fi } # $1 - Directory where developer rootfs is mounted. # $2 - Directory where developer stateful_partition is mounted. # $3 - Directory where the ESP partition is mounted. mount_gpt_cleanup() { local rootfs="${1-$ROOT_FS_DIR}" local statefs="${2-$STATEFUL_FS_DIR}" local espfs="${3-$ESP_FS_DIR}" "${SCRIPTS_DIR}/mount_gpt_image.sh" \ -u -r "${rootfs}" -s "${statefs}" -e "${espfs}" delete_prompt } # Takes no arguments and populates the configuration for # cros_make_image_bootable. create_boot_desc() { cat < ${OUTPUT_DIR}/boot.desc --arch="${ARCH}" --output_dir="${OUTPUT_DIR}" --rootfs_size="${FLAGS_rootfs_size}" --rootfs_hash_pad="${FLAGS_rootfs_hash_pad}" --rootfs_hash="${ROOT_FS_HASH}" --rootfs_mountpoint="${ROOT_FS_DIR}" --statefulfs_mountpoint="${STATEFUL_FS_DIR}" --espfs_mountpoint="${ESP_FS_DIR}" --verity_error_behavior="${FLAGS_verity_error_behavior}" --verity_depth="${FLAGS_verity_depth}" --verity_max_ios="${FLAGS_verity_max_ios}" --verity_algorithm="${FLAGS_verity_algorithm}" --keys_dir="${DEVKEYSDIR}" --usb_disk="${FLAGS_usb_disk}" --arm_extra_bootargs="${FLAGS_arm_extra_bootargs}" --nocleanup_dirs ${enable_rootfs_verification_flag} EOF } # Modifies an existing image to add development packages update_dev_packages() { local image_name=$1 echo "Adding developer packages to ${image_name}" trap "mount_gpt_cleanup" EXIT ${SCRIPTS_DIR}/mount_gpt_image.sh --from "${OUTPUT_DIR}" \ --image "${image_name}" -r "${ROOT_FS_DIR}" \ -s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}" # Determine the root dir for developer packages. local root_dev_dir="${ROOT_FS_DIR}" [ ${FLAGS_statefuldev} -eq ${FLAGS_TRUE} ] && \ root_dev_dir="${ROOT_FS_DIR}/usr/local" # Install developer packages described in chromeos-dev. sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \ --root="${root_dev_dir}" --root-deps=rdeps \ --usepkg -uDNv chromeos-dev ${EMERGE_JOBS} if [[ $FLAGS_preserve -eq ${FLAGS_TRUE} ]] ; then # Clean out unused packages sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \ --root="${ROOT_FS_DIR}" --root-deps=rdeps \ --usepkg --depclean ${EMERGE_JOBS} fi # Re-run ldconfig to fix /etc/ldconfig.so.cache. sudo /sbin/ldconfig -r "${ROOT_FS_DIR}" # Mark the image as a developer image (input to chromeos_startup). sudo mkdir -p "${ROOT_FS_DIR}/root" sudo touch "${ROOT_FS_DIR}/root/.dev_mode" # Additional changes to developer image. # Leave core files for developers to inspect. sudo touch "${ROOT_FS_DIR}/root/.leave_core" # The ldd tool is a useful shell script but lives in glibc; just copy it. sudo cp -a "$(which ldd)" "${root_dev_dir}/usr/bin" # If vim is installed, then a vi symlink would probably help. if [[ -x "${ROOT_FS_DIR}/usr/local/bin/vim" ]]; then sudo ln -sf vim "${ROOT_FS_DIR}/usr/local/bin/vi" fi # If pygtk is installed in stateful-dev, then install a path. if [[ -d \ "${ROOT_FS_DIR}/usr/local/lib/python2.6/site-packages/gtk-2.0" ]]; then sudo bash -c "\ echo gtk-2.0 > \ ${ROOT_FS_DIR}/usr/local/lib/python2.6/site-packages/pygtk.pth" fi # Check that the image has been correctly created. Only do it if not # building a factory install image and not a dev install shim, as the # INSTALL_MASK for it will make test_image fail. if [ ${FLAGS_factory_install} -eq ${FLAGS_FALSE} ] && [ ${FLAGS_dev_install} -eq ${FLAGS_FALSE} ] ; then "${SCRIPTS_DIR}/test_image" \ --root="${ROOT_FS_DIR}" \ --target="${ARCH}" fi echo "Developer image built and stored at ${image_name}" trap - EXIT ${SCRIPTS_DIR}/mount_gpt_image.sh -u -r "${ROOT_FS_DIR}" \ -s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}" } # Update the base package on an existing image. update_base_packages() { local image_name=$1 echo "Updating base packages on ${image_name}" # Create stateful partition of the same size as the rootfs. trap "mount_gpt_cleanup" EXIT ${SCRIPTS_DIR}/mount_gpt_image.sh --from "${OUTPUT_DIR}" \ --image "${image_name}" -r "${ROOT_FS_DIR}" \ -s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}" # Emerge updated packages, exactly like when creating base image sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \ --root="${ROOT_FS_DIR}" --root-deps=rdeps \ --usepkg -uDNv chromeos ${EMERGE_JOBS} # Clean out unused packages sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \ --root="${ROOT_FS_DIR}" --root-deps=rdeps \ --usepkg --depclean ${EMERGE_JOBS} trap - EXIT ${SCRIPTS_DIR}/mount_gpt_image.sh -u -r "${ROOT_FS_DIR}" \ -s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}" } create_base_image() { local image_name=$1 trap "cleanup && delete_prompt" EXIT UUID=$(uuidgen) # Create and format the root file system. # Check for loop device before creating image. LOOP_DEV=$(sudo losetup -f) if [ -z "${LOOP_DEV}" ] ; then echo "No free loop device. Free up a loop device or reboot. exiting. " exit 1 fi # Create root file system disk image. ROOT_SIZE_BYTES=$((1024 * 1024 * ${FLAGS_rootfs_size})) # Pad out for the hash tree. ROOT_HASH_PAD=$((FLAGS_rootfs_hash_pad * 1024 * 1024)) info "Padding the rootfs image by ${ROOT_HASH_PAD} bytes for hash data" dd if=/dev/zero of="${ROOT_FS_IMG}" bs=1 count=1 \ seek=$((ROOT_SIZE_BYTES + ROOT_HASH_PAD - 1)) sudo losetup "${LOOP_DEV}" "${ROOT_FS_IMG}" # Specify a block size and block count to avoid using the hash pad. sudo mkfs.ext3 -b 4096 "${LOOP_DEV}" "$((ROOT_SIZE_BYTES / 4096))" # Tune and mount rootfs. # TODO(wad) rename the disk label to match the GPT since we # can't change it later. DISK_LABEL="C-KEYFOB" sudo tune2fs -L "${DISK_LABEL}" -U "${UUID}" -c 0 -i 0 "${LOOP_DEV}" sudo mount "${LOOP_DEV}" "${ROOT_FS_DIR}" # Create stateful partition of the same size as the rootfs. STATEFUL_LOOP_DEV=$(sudo losetup -f) if [ -z "${STATEFUL_LOOP_DEV}" ] ; then echo "No free loop device. Free up a loop device or reboot. exiting. " exit 1 fi STATEFUL_SIZE_BYTES=$((1024 * 1024 * ${FLAGS_statefulfs_size})) dd if=/dev/zero of="${STATEFUL_FS_IMG}" bs=1 count=1 \ seek=$((STATEFUL_SIZE_BYTES - 1)) # Tune and mount the stateful partition. UUID=$(uuidgen) DISK_LABEL="C-STATE" sudo losetup "${STATEFUL_LOOP_DEV}" "${STATEFUL_FS_IMG}" sudo mkfs.ext3 "${STATEFUL_LOOP_DEV}" sudo tune2fs -L "${DISK_LABEL}" -U "${UUID}" -c 0 -i 0 "${STATEFUL_LOOP_DEV}" sudo mount "${STATEFUL_LOOP_DEV}" "${STATEFUL_FS_DIR}" # Create OEM partner partition. OEM_LOOP_DEV=$(sudo losetup -f) if [ -z "${OEM_LOOP_DEV}" ] ; then echo "No free loop device. Free up a loop device or reboot. exiting. " exit 1 fi OEM_SIZE_BYTES=$((1024 * 1024 * 16)) dd if=/dev/zero of="${OEM_FS_IMG}" bs=1 count=1 seek=$((OEM_SIZE_BYTES - 1)) # Tune and mount OEM partner partition. UUID=$(uuidgen) DISK_LABEL="C-OEM" sudo losetup "${OEM_LOOP_DEV}" "${OEM_FS_IMG}" sudo mkfs.ext3 "${OEM_LOOP_DEV}" sudo tune2fs -L "${DISK_LABEL}" -U "${UUID}" -c 0 -i 0 "${OEM_LOOP_DEV}" sudo mount "${OEM_LOOP_DEV}" "${OEM_FS_DIR}" # Populate OEM partner partition. if [ ! -z "${FLAGS_oem_customization}" ]; then if [ ! -d ${FLAGS_oem_customization} ]; then echo "Specified OEM content directory does not exist. exiting." exit 1 fi for ITEM in `ls -A ${FLAGS_oem_customization}` do sudo cp -a "${FLAGS_oem_customization}/$ITEM" "${OEM_FS_DIR}" done sudo find "${OEM_FS_DIR}" -type d -exec chmod 755 "{}" \; sudo find "${OEM_FS_DIR}" -type f -exec chmod 644 "{}" \; sudo chown -R root:root "${OEM_FS_DIR}" else echo "Empty OEM partition: OEM customizations will not be applied." fi # -- Install packages into the root file system -- # We need to install libc manually from the cross toolchain. # TODO: Improve this? We only want libc and not the whole toolchain. PKGDIR="/var/lib/portage/pkgs/cross/" sudo tar jxvpf \ "${PKGDIR}/${CHOST}/cross-${CHOST}"/glibc-${LIBC_VERSION}.tbz2 \ -C "${ROOT_FS_DIR}" --strip-components=3 \ --exclude=usr/include --exclude=sys-include --exclude=*.a --exclude=*.o # We need to install libstdc++ manually from the cross toolchain. # TODO: Figure out a better way of doing this? sudo cp -a "${BOARD_ROOT}"/lib/libgcc_s.so* "${ROOT_FS_DIR}/lib" sudo cp -a "${BOARD_ROOT}"/usr/lib/libstdc++.so* "${ROOT_FS_DIR}/usr/lib" # Prepare stateful partition with some pre-created directories. sudo mkdir -p "${DEV_IMAGE_ROOT}" sudo mkdir -p "${STATEFUL_FS_DIR}/var" # Create symlinks so that /usr/local/usr based directories are symlinked to # /usr/local/ directories e.g. /usr/local/usr/bin -> /usr/local/bin, etc. setup_symlinks_on_root "${DEV_IMAGE_ROOT}" "${STATEFUL_FS_DIR}/var" \ "${STATEFUL_FS_DIR}" # Perform binding rather than symlinking because directories must exist # on rootfs so that we can bind at run-time since rootfs is read-only. echo "Binding directories from stateful partition onto the rootfs" sudo mkdir -p "${ROOT_FS_DIR}/usr/local" sudo mount --bind "${DEV_IMAGE_ROOT}" "${ROOT_FS_DIR}/usr/local" sudo mkdir -p "${ROOT_FS_DIR}/var" sudo mount --bind "${STATEFUL_FS_DIR}/var" "${ROOT_FS_DIR}/var" sudo mkdir -p "${ROOT_FS_DIR}/dev" # We "emerge --root=${ROOT_FS_DIR} --root-deps=rdeps --usepkg" all of the # runtime packages for chrome os. This builds up a chrome os image from # binary packages with runtime dependencies only. We use INSTALL_MASK to # trim the image size as much as possible. sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \ --root="${ROOT_FS_DIR}" --root-deps=rdeps \ --usepkg chromeos ${EMERGE_JOBS} # Perform any customizations on the root file system that are needed. "${SCRIPTS_DIR}/customize_rootfs" \ --root="${ROOT_FS_DIR}" \ --target="${ARCH}" \ --board="${BOARD}" # Populates the root filesystem with legacy bootloader templates # appropriate for the platform. The autoupdater and installer will # use those templates to update the legacy boot partition (12/ESP) # on update. # (This script does not populate vmlinuz.A and .B needed by syslinux.) enable_rootfs_verification= if [[ ${FLAGS_enable_rootfs_verification} -eq ${FLAGS_TRUE} ]]; then enable_rootfs_verification="--enable_rootfs_verification" fi ${SCRIPTS_DIR}/create_legacy_bootloader_templates.sh \ --arch=${ARCH} \ --to="${ROOT_FS_DIR}"/boot \ --install \ ${enable_rootfs_verification} # Don't test the factory install shim or the dev install shim if [ ${FLAGS_factory_install} -eq ${FLAGS_FALSE} ] && [ ${FLAGS_dev_install} -eq ${FLAGS_FALSE} ]; then # Check that the image has been correctly created. "${SCRIPTS_DIR}/test_image" \ --root="${ROOT_FS_DIR}" \ --target="${ARCH}" fi # Clean up symlinks so they work on a running target rooted at "/". # Here development packages are rooted at /usr/local. However, do not # create /usr/local or /var on host (already exist on target). setup_symlinks_on_root "/usr/local" "/var" "${STATEFUL_FS_DIR}" # cros_make_image_bootable will clobber vmlinuz.image for x86. # Until then, just copy the kernel to vmlinuz.image. It is # expected in build_gpt.sh and needed by ARM until it supports the # full, signed kernel partition format. cp "${ROOT_FS_DIR}/boot/vmlinuz" "${OUTPUT_DIR}/vmlinuz.image" # Create an empty esp image to be updated in by update_bootloaders.sh. ${SCRIPTS_DIR}/create_esp.sh --to="${ESP_FS_IMG}" cleanup trap delete_prompt EXIT # Create the GPT-formatted image. ${SCRIPTS_DIR}/build_gpt.sh \ --arch=${ARCH} \ --board=${FLAGS_board} \ --arm_extra_bootargs="${FLAGS_arm_extra_bootargs}" \ --rootfs_partition_size=${FLAGS_rootfs_partition_size} \ "${OUTPUT_DIR}" \ "${OUTPUT_DIR}/${image_name}" trap - EXIT } # Create the output directory. mkdir -p "${OUTPUT_DIR}" mkdir -p "${ROOT_FS_DIR}" mkdir -p "${STATEFUL_FS_DIR}" mkdir -p "${OEM_FS_DIR}" mkdir -p "${ESP_FS_DIR}" # Preserve old images by copying them forward for --preserve. if [[ $FLAGS_preserve -eq ${FLAGS_TRUE} ]] ; then if [[ -f ${PREVIOUS_DIR}/${PRISTINE_IMAGE_NAME} ]] ; then # Copy forward pristine image, and associated files cp ${PREVIOUS_DIR}/*.sh ${PREVIOUS_DIR}/config.txt ${OUTPUT_DIR} cp ${PREVIOUS_DIR}/${PRISTINE_IMAGE_NAME} ${OUTPUT_DIR} # Copy forward the developer image, if we already copied forward the base. if [[ ${FLAGS_withdev} -eq ${FLAGS_TRUE} ]] && \ [[ -f ${PREVIOUS_DIR}/${DEVELOPER_IMAGE_NAME} ]] ; then cp ${PREVIOUS_DIR}/${DEVELOPER_IMAGE_NAME} ${OUTPUT_DIR} fi fi fi # Minimize rootfs size for dev install shim and factory installer if [ ${FLAGS_factory_install} -eq ${FLAGS_TRUE} -o \ ${FLAGS_dev_install} -eq ${FLAGS_TRUE} ] ; then info "Fixing the rootfs size at 300 MiB for the factory installer" FLAGS_rootfs_size=300 fi # Create the boot.desc file which stores the build-time configuration # information needed for making the image bootable after creation with # cros_make_image_bootable. create_boot_desc if [[ -f ${PRISTINE_IMG} ]] ; then update_base_packages ${PRISTINE_IMAGE_NAME} else create_base_image ${PRISTINE_IMAGE_NAME} fi USE_DEV_KEYS= if [ "${FLAGS_dev_install}" -eq "${FLAGS_TRUE}" ]; then USE_DEV_KEYS="--use_dev_keys" fi # Place flags before positional args ${SCRIPTS_DIR}/bin/cros_make_image_bootable "${OUTPUT_DIR}" \ "${PRISTINE_IMAGE_NAME}" \ ${USE_DEV_KEYS} # FIXME: only signing things for x86 right now. if [[ "${ARCH}" = "x86" ]]; then BOOT_FLAG= if [ "${FLAGS_dev_install}" -eq "${FLAGS_TRUE}" ] ; then BOOT_FLAG="-b 1" # BOOT_FLAG_DEVELOPER value defined in load_kernel_fw.h info "--dev_install set, pass BOOT_FLAG_DEVELOPER flag to load_kernel_test" fi # Verify the final image. load_kernel_test "${OUTPUT_DIR}/${PRISTINE_IMAGE_NAME}" \ "${DEVKEYSDIR}/recovery_key.vbpubk" ${BOOT_FLAG} fi # Create a developer image based on the chromium os base image. if [ "${FLAGS_withdev}" -eq "${FLAGS_TRUE}" ] ; then if [[ ! -f ${DEVELOPER_IMG} ]] ; then echo "Creating developer image from base image ${PRISTINE_IMAGE_NAME}" cp ${PRISTINE_IMG} ${DEVELOPER_IMG} fi update_dev_packages ${DEVELOPER_IMAGE_NAME} ${SCRIPTS_DIR}/bin/cros_make_image_bootable "${OUTPUT_DIR}" \ "${DEVELOPER_IMAGE_NAME}" fi # Clean up temporary files. rm -f "${ROOT_FS_IMG}" "${STATEFUL_FS_IMG}" "${OUTPUT_DIR}/vmlinuz.image" \ "${ESP_FS_IMG}" "${OEM_FS_IMG}" "${OUTPUT_DIR}/vmlinuz_hd.vblock" rmdir "${ROOT_FS_DIR}" "${STATEFUL_FS_DIR}" "${OEM_FS_DIR}" "${ESP_FS_DIR}" # Create a 'latest' link rm -f ${FLAGS_output_root}/${FLAGS_board}/latest ln -s $(basename ${OUTPUT_DIR}) ${FLAGS_output_root}/${FLAGS_board}/latest echo "Done. Image created in ${OUTPUT_DIR}" echo "Chromium OS image created as ${PRISTINE_IMAGE_NAME}" if [ "${FLAGS_withdev}" -eq "${FLAGS_TRUE}" ]; then echo "Developer image created as ${DEVELOPER_IMAGE_NAME}" fi print_time_elapsed echo "To copy to USB keyfob, OUTSIDE the chroot, do something like:" echo " ./image_to_usb.sh --from=${OUTSIDE_OUTPUT_DIR} --to=/dev/sdX" echo "To convert to VMWare image, INSIDE the chroot, do something like:" echo " ./image_to_vm.sh --from=${OUTSIDE_OUTPUT_DIR}" echo "from the scripts directory where you entered the chroot."