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705 lines
24 KiB
Bash
Executable File
705 lines
24 KiB
Bash
Executable File
#!/bin/bash
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# Copyright (c) 2009 The Chromium OS Authors. All rights reserved.
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# Use of this source code is governed by a BSD-style license that can be
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# found in the LICENSE file.
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# Script to build a bootable keyfob-based chromeos system image from within
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# a chromiumos setup. This assumes that all needed packages have been built into
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# the given target's root with binary packages turned on. This script will
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# build the Chrome OS image using only pre-built binary packages.
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# Load common constants. This should be the first executable line.
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# The path to common.sh should be relative to your script's location.
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. "$(dirname "$0")/common.sh"
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. "$(dirname "$0")/chromeos-common.sh" # for partoffset
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locate_gpt
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# Script must be run inside the chroot.
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restart_in_chroot_if_needed $*
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get_default_board
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# Flags.
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DEFINE_string board "${DEFAULT_BOARD}" \
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"The board to build an image for."
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DEFINE_string build_root "/build" \
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"The root location for board sysroots."
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DEFINE_integer build_attempt 1 \
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"The build attempt for this image build."
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DEFINE_string output_root "${DEFAULT_BUILD_ROOT}/images" \
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"Directory in which to place image result directories (named by version)"
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DEFINE_boolean replace ${FLAGS_FALSE} \
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"Overwrite existing output, if any."
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DEFINE_boolean withdev ${FLAGS_TRUE} \
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"Include useful developer friendly utilities in the image."
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DEFINE_boolean installmask ${FLAGS_TRUE} \
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"Use INSTALL_MASK to shrink the resulting image."
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DEFINE_integer jobs -1 \
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"How many packages to build in parallel at maximum."
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DEFINE_boolean statefuldev ${FLAGS_TRUE} \
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"Install development packages on stateful partition rather than the rootfs"
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DEFINE_string to "" \
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"The target image file or device"
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DEFINE_boolean factory_install ${FLAGS_FALSE} \
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"Build a smaller image to overlay the factory install shim on; this argument \
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is also required in image_to_usb."
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DEFINE_string arm_extra_bootargs "" \
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"Additional command line options to pass to the ARM kernel."
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DEFINE_integer rootfs_partition_size 1024 \
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"rootfs parition size in MBs."
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DEFINE_integer rootfs_size 720 \
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"rootfs filesystem size in MBs."
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DEFINE_integer statefulfs_size 1024 \
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"stateful filesystem size in MBs."
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DEFINE_boolean preserve ${FLAGS_FALSE} \
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"Attempt to preserve the previous build image if one can be found (unstable, \
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kernel/firmware not updated)"
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DEFINE_boolean fast ${FLAGS_FALSE} \
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"Call many emerges in parallel (unstable)"
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DEFINE_string usb_disk /dev/sdb3 \
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"Path syslinux should use to do a usb boot. Default: /dev/sdb3"
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DEFINE_boolean use_vboot ${FLAGS_FALSE} \
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"Default the bootloaders to booting a verifying kernel. Default: False."
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DEFINE_integer vboot_behavior 2 \
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"Verified boot error behavior (0: I/O errors, 1: reboot, 2: nothing) \
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Default: 2"
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DEFINE_integer vboot_depth 1 \
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"Verified boot hash tree depth. Default: 1"
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DEFINE_integer vboot_max_ios 1024 \
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"Number of outstanding I/O operations dm-verity caps at. Default: 1024"
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DEFINE_string vboot_algorithm "sha1" \
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"Cryptographic hash algorithm used for vboot. Default : sha1"
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# Parse command line.
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FLAGS "$@" || exit 1
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eval set -- "${FLAGS_ARGV}"
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# Only now can we die on error. shflags functions leak non-zero error codes,
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# so will die prematurely if 'set -e' is specified before now.
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set -e
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if [ -z "${FLAGS_board}" ] ; then
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error "--board is required."
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exit 1
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fi
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if [ "${FLAGS_rootfs_size}" -gt "${FLAGS_rootfs_partition_size}" ] ; then
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error "rootfs (${FLAGS_rootfs_size} MB) is bigger than partition (${FLAGS_rootfs_partition_size} MB)."
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exit 1
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fi
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EMERGE_BOARD_CMD="emerge-${FLAGS_board}"
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if [ "${FLAGS_fast}" -eq "${FLAGS_TRUE}" ]; then
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echo "Using alternate emerge"
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EMERGE_BOARD_CMD="${SCRIPTS_DIR}/parallel_emerge --board=${FLAGS_board}"
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fi
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# Determine build version.
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. "${SCRIPTS_DIR}/chromeos_version.sh"
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# Use canonical path since some tools (e.g. mount) do not like symlinks.
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# Append build attempt to output directory.
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IMAGE_SUBDIR="${CHROMEOS_VERSION_STRING}-a${FLAGS_build_attempt}"
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OUTPUT_DIR="${FLAGS_output_root}/${FLAGS_board}/${IMAGE_SUBDIR}"
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OUTSIDE_OUTPUT_DIR="../build/images/${FLAGS_board}/${IMAGE_SUBDIR}"
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# If we are creating a developer image, also create a pristine image with a
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# different name.
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DEVELOPER_IMAGE_NAME=
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PRISTINE_IMAGE_NAME=chromiumos_image.bin
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if [ "${FLAGS_withdev}" -eq "${FLAGS_TRUE}" ]; then
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PRISTINE_IMAGE_NAME=chromiumos_base_image.bin
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DEVELOPER_IMAGE_NAME=chromiumos_image.bin
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fi
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PRISTINE_IMG="${OUTPUT_DIR}/${PRISTINE_IMAGE_NAME}"
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DEVELOPER_IMG="${OUTPUT_DIR}/${DEVELOPER_IMAGE_NAME}"
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BOARD="${FLAGS_board}"
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BOARD_ROOT="${FLAGS_build_root}/${BOARD}"
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ROOT_FS_IMG="${OUTPUT_DIR}/rootfs.image"
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ROOT_FS_DIR="${OUTPUT_DIR}/rootfs"
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ROOT_FS_HASH="${OUTPUT_DIR}/rootfs.hash"
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STATEFUL_FS_IMG="${OUTPUT_DIR}/stateful_partition.image"
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STATEFUL_FS_DIR="${OUTPUT_DIR}/stateful_partition"
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OEM_FS_IMG="${OUTPUT_DIR}/partner_partition.image"
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OEM_FS_DIR="${OUTPUT_DIR}/partner_partition"
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ESP_FS_IMG=${OUTPUT_DIR}/esp.image
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ESP_FS_DIR=${OUTPUT_DIR}/esp
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LOOP_DEV=
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STATEFUL_LOOP_DEV=
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OEM_LOOP_DEV=
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ESP_LOOP_DEV=
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# ${DEV_IMAGE_ROOT} specifies the location of where developer packages will
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# be installed on the stateful dir. On a Chromium OS system, this will
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# translate to /usr/local.
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DEV_IMAGE_ROOT="${STATEFUL_FS_DIR}/dev_image"
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# What cross-build are we targeting?
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. "${BOARD_ROOT}/etc/make.conf.board_setup"
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LIBC_VERSION=${LIBC_VERSION:-"2.10.1-r1"}
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INSTALL_MASK=""
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if [[ ${FLAGS_installmask} -eq ${FLAGS_TRUE} ]] ; then
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INSTALL_MASK="${DEFAULT_INSTALL_MASK}"
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fi
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# Reduce the size of factory install shim.
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# TODO: Build a separated ebuild for the factory install shim to reduce size.
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if [[ ${FLAGS_factory_install} -eq ${FLAGS_TRUE} ]] ; then
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INSTALL_MASK="${INSTALL_MASK} ${FACTORY_INSTALL_MASK}"
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fi
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if [[ ${FLAGS_jobs} -ne -1 ]]; then
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EMERGE_JOBS="--jobs=${FLAGS_jobs}"
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fi
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# Figure out ARCH from the given toolchain.
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# TODO: Move to common.sh as a function after scripts are switched over.
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TC_ARCH=$(echo "${CHOST}" | awk -F'-' '{ print $1 }')
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case "${TC_ARCH}" in
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arm*)
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ARCH="arm"
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;;
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*86)
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ARCH="x86"
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;;
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*)
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error "Unable to determine ARCH from toolchain: ${CHOST}"
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exit 1
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esac
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# Hack to fix bug where x86_64 CHOST line gets incorrectly added.
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# ToDo(msb): remove this hack.
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PACKAGES_FILE="${BOARD_ROOT}/packages/Packages"
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sudo sed -e "s/CHOST: x86_64-pc-linux-gnu//" -i "${PACKAGES_FILE}"
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# Handle existing directory.
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if [[ -e "${OUTPUT_DIR}" ]]; then
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if [[ ${FLAGS_replace} -eq ${FLAGS_TRUE} ]]; then
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sudo rm -rf "${OUTPUT_DIR}"
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else
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echo "Directory ${OUTPUT_DIR} already exists."
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echo "Use --build_attempt option to specify an unused attempt."
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echo "Or use --replace if you want to overwrite this directory."
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exit 1
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fi
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fi
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# Find previous build, if any...
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PREVIOUS_DIR=$($SCRIPTS_DIR/get_latest_image.sh --board="$BOARD")
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cleanup_rootfs_loop() {
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sudo umount -d "${ROOT_FS_DIR}"
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}
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cleanup_stateful_fs_loop() {
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sudo umount "${ROOT_FS_DIR}/usr/local"
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sudo umount "${ROOT_FS_DIR}/var"
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sudo umount -d "${STATEFUL_FS_DIR}"
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}
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cleanup_oem_fs_loop() {
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sudo umount -d "${OEM_FS_DIR}"
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}
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cleanup_esp_loop() {
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sudo umount -d "${ESP_FS_DIR}"
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}
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cleanup() {
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# Disable die on error.
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set +e
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if [[ -n "${STATEFUL_LOOP_DEV}" ]]; then
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cleanup_stateful_fs_loop
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STATEFUL_LOOP_DEV=
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fi
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if [[ -n "${OEM_LOOP_DEV}" ]]; then
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cleanup_oem_fs_loop
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fi
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if [[ -n "${LOOP_DEV}" ]]; then
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cleanup_rootfs_loop
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LOOP_DEV=
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fi
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if [[ -n "${ESP_LOOP_DEV}" ]]; then
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cleanup_esp_loop
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ESP_LOOP_DEV=
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fi
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# Turn die on error back on.
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set -e
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}
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delete_prompt() {
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echo "An error occurred in your build so your latest output directory" \
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"is invalid."
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read -p "Would you like to delete the output directory (y/N)? " SURE
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SURE="${SURE:0:1}" # Get just the first character.
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if [ "${SURE}" == "y" ] ; then
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sudo rm -rf "${OUTPUT_DIR}"
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echo "Deleted ${OUTPUT_DIR}"
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else
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echo "Not deleting ${OUTPUT_DIR}. Note dev server updates will not work" \
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"until you successfully build another image or delete this directory"
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fi
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}
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# $1 - Directory where developer rootfs is mounted.
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# $2 - Directory where developer stateful_partition is mounted.
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# $3 - Directory where the ESP partition is mounted.
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mount_gpt_cleanup() {
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local rootfs="${1-$ROOT_FS_DIR}"
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local statefs="${2-$STATEFUL_FS_DIR}"
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local espfs="${3-$ESP_FS_DIR}"
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"${SCRIPTS_DIR}/mount_gpt_image.sh" \
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-u -r "${rootfs}" -s "${statefs}" -e "${espfs}"
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delete_prompt
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}
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make_image_bootable() {
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local image_name="$1"
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cros_root=/dev/sd%D%P
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if [[ "${ARCH}" = "arm" ]]; then
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# TODO(wad) assumed like in build_gpt for now.
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cros_root=/dev/mmcblk1p3
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fi
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if [[ ${FLAGS_use_vboot} -eq ${FLAGS_TRUE} ]]; then
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cros_root=/dev/dm-0
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fi
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# TODO(wad) mount the root fs to LOOP_DEV from the image
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trap "mount_gpt_cleanup" EXIT
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${SCRIPTS_DIR}/mount_gpt_image.sh --from "${OUTPUT_DIR}" \
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--image "${image_name}" -r "${ROOT_FS_DIR}" \
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-s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}"
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sudo mount -o remount,ro "${ROOT_FS_DIR}"
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root_dev=$(mount | grep -- "${ROOT_FS_DIR}" | cut -f1 -d' ' | tail -1)
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DEVKEYSDIR="${SRC_ROOT}/platform/vboot_reference/tests/devkeys"
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# Builds the kernel partition image. The temporary files are kept around
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# so that we can perform a load_kernel_test later on the final image.
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${SCRIPTS_DIR}/build_kernel_image.sh \
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--arch="${ARCH}" \
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--to="${OUTPUT_DIR}/vmlinuz.image" \
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--hd_vblock="${OUTPUT_DIR}/vmlinuz_hd.vblock" \
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--vmlinuz="${OUTPUT_DIR}/boot/vmlinuz" \
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--working_dir="${OUTPUT_DIR}" \
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--keep_work \
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--rootfs_image=${root_dev} \
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--rootfs_hash=${OUTPUT_DIR}/rootfs.hash \
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--vboot_hash_alg=${FLAGS_vboot_algorithm} \
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--vboot_tree_depth=${FLAGS_vboot_depth} \
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--vboot_max_ios=${FLAGS_vboot_max_ios} \
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--vboot_error_behavior=${FLAGS_vboot_behavior} \
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--root=${cros_root} \
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--keys_dir="${DEVKEYSDIR}"
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# Move the verification block needed for the hard disk install to the
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# stateful partition. Mount stateful fs, copy file, and umount fs.
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# In original CL: http://codereview.chromium.org/2868044, this was done in
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# create_base_image(). However, it could break the build if it is a clean
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# build because vmlinuz_hd.vblock hasn't been created by build_kernel_image.sh
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if [[ "${ARCH}" = "x86" ]]; then
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STATEFUL_LOOP_DEV=$(sudo losetup -f)
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if [ -z "${STATEFUL_LOOP_DEV}" ] ; then
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echo "No free loop device. Free up a loop device or reboot. exiting. "
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exit 1
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fi
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sudo losetup "${STATEFUL_LOOP_DEV}" "${STATEFUL_FS_IMG}"
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sudo mount "${STATEFUL_LOOP_DEV}" "${STATEFUL_FS_DIR}"
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sudo cp "${OUTPUT_DIR}/vmlinuz_hd.vblock" "${STATEFUL_FS_DIR}"
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sudo umount -d "${STATEFUL_FS_DIR}"
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STATEFUL_LOOP_DEV=
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fi
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# START_KERN_A is set by the first call to install the gpt.
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local koffset="$(partoffset ${OUTPUT_DIR}/${image_name} 2)"
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sudo dd if="${OUTPUT_DIR}/vmlinuz.image" of="${OUTPUT_DIR}/${image_name}" \
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conv=notrunc bs=512 seek=${koffset}
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# Populate the legacy/efi bootloader partition.
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local kernel_part="--kernel_partition='${OUTPUT_DIR}/vmlinuz.image'"
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local bootloader_to="${ESP_FS_IMG}"
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local usb_disk="${FLAGS_usb_disk}"
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local bootloader_to="$(mount | grep ${ESP_FS_DIR} | cut -f1 -d' ')"
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if [[ "${ARCH}" == "arm" ]]; then
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# TODO(wad) mmcblk1p3 is hardcoded for arm for now!
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usb_disk="/dev/mmcblk1p3"
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kernel_part="--kernel_cmdline=\"${FLAGS_arm_extra_bootargs}\" "
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# TODO(wad) Integrate dmtable extraction into the arm build
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# E.g. $(cat ${OUTPUT_DIR}/boot.config | tr -s '\n' ' ')"
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local kpart_offset="--kernel_partition_offset=${koffset}"
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local kpart_size="--kernel_partition_sectors="
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kpart_size="${kpart_size}$(partsize ${OUTPUT_DIR}/${image_name} 2)"
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kernel_part="${kernel_part} ${kpart_size} ${kpart_offset}"
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info "Using addition bootloader arguments: ${kernel_part}"
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bootloader_to="${OUTPUT_DIR}/arm.mbr"
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fi
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# Update partition 12 / legacy bootloaders and arm.
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${SCRIPTS_DIR}/update_bootloaders.sh \
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--arch=${ARCH} \
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--to="${bootloader_to}" \
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--from="${OUTPUT_DIR}"/boot \
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--vmlinuz="${OUTPUT_DIR}"/boot/vmlinuz \
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--usb_disk="${usb_disk}" \
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$kernel_part
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if [[ "${ARCH}" == "arm" ]]; then
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sudo dd bs=1 conv=notrunc if="${bootloader_to}" \
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of="${OUTPUT_DIR}/${image_name}"
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sudo rm "${bootloader_to}"
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fi
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trap - EXIT
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${SCRIPTS_DIR}/mount_gpt_image.sh -u -r "${ROOT_FS_DIR}" \
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-s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}"
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}
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# Modifies an existing image to add development packages
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update_dev_packages() {
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local image_name=$1
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echo "Adding developer packages to ${image_name}"
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trap "mount_gpt_cleanup" EXIT
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${SCRIPTS_DIR}/mount_gpt_image.sh --from "${OUTPUT_DIR}" \
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--image "${image_name}" -r "${ROOT_FS_DIR}" \
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-s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}"
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# Determine the root dir for developer packages.
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local root_dev_dir="${ROOT_FS_DIR}"
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[ ${FLAGS_statefuldev} -eq ${FLAGS_TRUE} ] && \
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root_dev_dir="${ROOT_FS_DIR}/usr/local"
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# Install developer packages described in chromeos-dev.
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sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \
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--root="${root_dev_dir}" --root-deps=rdeps \
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--usepkg -uDNv chromeos-dev ${EMERGE_JOBS}
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if [[ $FLAGS_preserve -eq ${FLAGS_TRUE} ]] ; then
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# Clean out unused packages
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sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \
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--root="${ROOT_FS_DIR}" --root-deps=rdeps \
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--usepkg --depclean ${EMERGE_JOBS}
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fi
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# Re-run ldconfig to fix /etc/ldconfig.so.cache.
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sudo /sbin/ldconfig -r "${ROOT_FS_DIR}"
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# Mark the image as a developer image (input to chromeos_startup).
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sudo mkdir -p "${ROOT_FS_DIR}/root"
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sudo touch "${ROOT_FS_DIR}/root/.dev_mode"
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# Additional changes to developer image.
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# The ldd tool is a useful shell script but lives in glibc; just copy it.
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sudo cp -a "$(which ldd)" "${root_dev_dir}/usr/bin"
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# If vim is installed, then a vi symlink would probably help.
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if [[ -x "${ROOT_FS_DIR}/usr/local/bin/vim" ]]; then
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sudo ln -sf vim "${ROOT_FS_DIR}/usr/local/bin/vi"
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fi
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# Check that the image has been correctly created. Only do it if not
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# building a factory install image, as the INSTALL_MASK for it will
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# make test_image fail.
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if [[ ${FLAGS_factory_install} -eq ${FLAGS_FALSE} ]] ; then
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"${SCRIPTS_DIR}/test_image" \
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--root="${ROOT_FS_DIR}" \
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--target="${ARCH}"
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fi
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echo "Developer image built and stored at ${image_name}"
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trap - EXIT
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${SCRIPTS_DIR}/mount_gpt_image.sh -u -r "${ROOT_FS_DIR}" \
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-s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}"
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}
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# Update the base package on an existing image.
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update_base_packages() {
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local image_name=$1
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echo "Updating base packages on ${image_name}"
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# Create stateful partition of the same size as the rootfs.
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trap "mount_gpt_cleanup" EXIT
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${SCRIPTS_DIR}/mount_gpt_image.sh --from "${OUTPUT_DIR}" \
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--image "${image_name}" -r "${ROOT_FS_DIR}" \
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-s "${STATEFUL_FS_DIR}" -e "${ESP_FS_DIR}"
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# Emerge updated packages, exactly like when creating base image
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sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \
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--root="${ROOT_FS_DIR}" --root-deps=rdeps \
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--usepkg -uDNv chromeos ${EMERGE_JOBS}
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# Clean out unused packages
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sudo INSTALL_MASK="${INSTALL_MASK}" ${EMERGE_BOARD_CMD} \
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--root="${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 to fit on a 1GB memory stick.
|
|
# 1 GB in hard-drive-manufacturer-speak is 10^9, not 2^30. 950MB < 10^9 bytes.
|
|
if [[ ${FLAGS_factory_install} -eq ${FLAGS_TRUE} ]] ; then
|
|
ROOT_SIZE_BYTES=$((1024 * 1024 * 300))
|
|
else
|
|
ROOT_SIZE_BYTES=$((1024 * 1024 * ${FLAGS_rootfs_size}))
|
|
fi
|
|
|
|
dd if=/dev/zero of="${ROOT_FS_IMG}" bs=1 count=1 seek=$((ROOT_SIZE_BYTES - 1))
|
|
sudo losetup "${LOOP_DEV}" "${ROOT_FS_IMG}"
|
|
sudo mkfs.ext3 "${LOOP_DEV}"
|
|
|
|
# Tune and mount rootfs.
|
|
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}"
|
|
|
|
# -- 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.)
|
|
use_vboot=
|
|
[[ ${FLAGS_use_vboot} -eq ${FLAGS_TRUE} ]] && use_vboot="--use_vboot"
|
|
${SCRIPTS_DIR}/create_legacy_bootloader_templates.sh \
|
|
--arch=${ARCH} \
|
|
--to="${ROOT_FS_DIR}"/boot \
|
|
--install \
|
|
${use_vboot}
|
|
|
|
# Create a working copy so we don't need the rootfs mounted
|
|
sudo mkdir -p "${OUTPUT_DIR}"/boot
|
|
# This will include any built files dropped in /boot as well.
|
|
# Like the current vmlinuz.
|
|
sudo cp -r "${ROOT_FS_DIR}"/boot/. "${OUTPUT_DIR}"/boot/
|
|
sudo chmod -R a+r "${OUTPUT_DIR}"/boot/
|
|
|
|
# Don't test the factory install shim.
|
|
if [[ ${FLAGS_factory_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" "${STATEFUL_FS_DIR}"
|
|
|
|
# make_image_bootable will clobber vmlinuz.image for x86.
|
|
# Until then, just copy the kernel to vmlinuz.image. It is
|
|
# expected in build_gpt.sh and needed by ARM until it supports the
|
|
# full, signed kernel partition format.
|
|
cp "${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}
|
|
cp -r ${PREVIOUS_DIR}/boot ${OUTPUT_DIR}/boot
|
|
|
|
# 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
|
|
|
|
if [[ -f ${PRISTINE_IMG} ]] ; then
|
|
update_base_packages ${PRISTINE_IMAGE_NAME}
|
|
else
|
|
create_base_image ${PRISTINE_IMAGE_NAME}
|
|
fi
|
|
make_image_bootable ${PRISTINE_IMAGE_NAME}
|
|
|
|
# FIXME: only signing things for x86 right now.
|
|
if [[ "${ARCH}" = "x86" ]]; then
|
|
# Verify the final image.
|
|
load_kernel_test "${OUTPUT_DIR}/${PRISTINE_IMAGE_NAME}" \
|
|
"${DEVKEYSDIR}/recovery_key.vbpubk"
|
|
fi
|
|
|
|
# Create a developer image based on the chromium os base image.
|
|
if [ "${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}
|
|
make_image_bootable ${DEVELOPER_IMAGE_NAME}
|
|
fi
|
|
|
|
# Clean up temporary files.
|
|
rm -f "${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}"
|
|
|
|
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, OUTSIDE the chroot, do something like:"
|
|
echo " ./image_to_vmware.sh --from=${OUTSIDE_OUTPUT_DIR}"
|
|
echo "from the scripts directory where you entered the chroot."
|