#!/bin/bash # Copyright (c) 2011 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. # This script modifies a base image to act as a recovery installer. # If no kernel image is supplied, it will build a devkeys signed recovery # kernel. Alternatively, a signed recovery kernel can be used to # create a Chromium OS recovery image. SCRIPT_ROOT=$(dirname $(readlink -f "$0")) . "${SCRIPT_ROOT}/build_library/build_common.sh" || exit 1 . "${SCRIPT_ROOT}/build_library/disk_layout_util.sh" || exit 1 # Default recovery kernel name. RECOVERY_KERNEL_NAME=recovery_vmlinuz.image DEFINE_string board "$DEFAULT_BOARD" \ "board for which the image was built" \ b DEFINE_integer statefulfs_sectors 4096 \ "number of sectors in stateful filesystem when minimizing" DEFINE_string kernel_image "" \ "path to a pre-built recovery kernel" DEFINE_string kernel_outfile "" \ "emit recovery kernel to path/file ($RECOVERY_KERNEL_NAME if empty)" DEFINE_string image "" \ "source image to use ($CHROMEOS_IMAGE_NAME if empty)" DEFINE_string to "" \ "emit recovery image to path/file ($CHROMEOS_RECOVERY_IMAGE_NAME if empty)" DEFINE_boolean kernel_image_only $FLAGS_FALSE \ "only emit recovery kernel" DEFINE_boolean sync_keys $FLAGS_TRUE \ "update install kernel with the vblock from stateful" DEFINE_boolean minimize_image $FLAGS_TRUE \ "create a minimized recovery image from source image" DEFINE_boolean modify_in_place $FLAGS_FALSE \ "modify source image in place" DEFINE_integer jobs -1 \ "how many packages to build in parallel at maximum" \ j DEFINE_string build_root "/build" \ "root location for board sysroots" DEFINE_string keys_dir "/usr/share/vboot/devkeys" \ "directory containing the signing keys" DEFINE_boolean verbose $FLAGS_FALSE \ "log all commands to stdout" v DEFINE_boolean decrypt_stateful $FLAGS_FALSE \ "request a decryption of the stateful partition (implies --nominimize_image)" # Parse command line FLAGS "$@" || 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 'switch_to_strict_mode' is specified before now. switch_to_strict_mode if [ $FLAGS_verbose -eq $FLAGS_TRUE ]; then # Make debugging with -v easy. set -x fi # We need space for copying decrypted files to the recovery image, so force # --nominimize_image when using --decrypt_stateful. if [ $FLAGS_decrypt_stateful -eq $FLAGS_TRUE ]; then FLAGS_minimize_image=$FLAGS_FALSE fi # Load board options. . "${BUILD_LIBRARY_DIR}/board_options.sh" || exit 1 EMERGE_BOARD_CMD="emerge-$BOARD" get_install_vblock() { # If it exists, we need to copy the vblock over to stateful # This is the real vblock and not the recovery vblock. local stateful_offset=$(partoffset "$FLAGS_image" 1) local stateful_mnt=$(mktemp -d) local out=$(mktemp) set +e sudo mount -o ro,loop,offset=$((stateful_offset * 512)) \ "$FLAGS_image" $stateful_mnt sudo cp "$stateful_mnt/vmlinuz_hd.vblock" "$out" sudo chown $USER "$out" safe_umount "$stateful_mnt" rmdir "$stateful_mnt" switch_to_strict_mode echo "$out" } create_recovery_kernel_image() { local sysroot="$FACTORY_ROOT" local vmlinuz="$sysroot/boot/vmlinuz" local root_offset=$(partoffset "${RECOVERY_IMAGE}" 3) local root_size=$(partsize "${RECOVERY_IMAGE}" 3) local enable_rootfs_verification_flag=--noenable_rootfs_verification if grep -q enable_rootfs_verification "${IMAGE_DIR}/boot.desc"; then enable_rootfs_verification_flag=--enable_rootfs_verification fi # Tie the installed recovery kernel to the final kernel. If we don't # do this, a normal recovery image could be used to drop an unsigned # kernel on without a key-change check. # Doing this here means that the kernel and initramfs creation can # be done independently from the image to be modified as long as the # chromeos-recovery interfaces are the same. It allows for the signer # to just compute the new hash and update the kernel command line during # recovery image generation. (Alternately, it means an image can be created, # modified for recovery, then passed to a signer which can then sign both # partitions appropriately without needing any external dependencies.) local kern_offset=$(partoffset "${RECOVERY_IMAGE}" 2) local kern_size=$(partsize "${RECOVERY_IMAGE}" 2) local kern_tmp=$(mktemp) local kern_hash= dd if="${RECOVERY_IMAGE}" bs=512 count=$kern_size \ skip=$kern_offset of="$kern_tmp" 1>&2 # We're going to use the real signing block. if [ $FLAGS_sync_keys -eq $FLAGS_TRUE ]; then dd if="$INSTALL_VBLOCK" of="$kern_tmp" conv=notrunc 1>&2 fi local kern_hash=$(sha1sum "$kern_tmp" | cut -f1 -d' ') rm "$kern_tmp" # TODO(wad) add FLAGS_boot_args support too. ${SCRIPTS_DIR}/build_kernel_image.sh \ --arch="${ARCH}" \ --to="$RECOVERY_KERNEL_IMAGE" \ --hd_vblock="$RECOVERY_KERNEL_VBLOCK" \ --vmlinuz="$vmlinuz" \ --working_dir="${IMAGE_DIR}" \ --boot_args="noinitrd panic=60 cros_recovery kern_b_hash=$kern_hash" \ --keep_work \ --keys_dir="${FLAGS_keys_dir}" \ ${enable_rootfs_verification_flag} \ --nouse_dev_keys 1>&2 || failboat "build_kernel_image" #sudo mount | sed 's/^/16651 /' #sudo losetup -a | sed 's/^/16651 /' trap - RETURN # Update the EFI System Partition configuration so that the kern_hash check # passes. local block_size=$(get_block_size) local efi_offset=$(partoffset "${RECOVERY_IMAGE}" 12) local efi_size=$(partsize "${RECOVERY_IMAGE}" 12) local efi_offset_bytes=$(( $efi_offset * $block_size )) local efi_size_bytes=$(( $efi_size * $block_size )) local efi_dir=$(mktemp -d) sudo mount -o loop,offset=${efi_offset_bytes},sizelimit=${efi_size_bytes} \ "${RECOVERY_IMAGE}" "${efi_dir}" sudo sed -i -e "s/cros_legacy/cros_legacy kern_b_hash=$kern_hash/g" \ "$efi_dir/syslinux/usb.A.cfg" || true # This will leave the hash in the kernel for all boots, but that should be # safe. sudo sed -i -e "s/cros_efi/cros_efi kern_b_hash=$kern_hash/g" \ "$efi_dir/efi/boot/grub.cfg" || true safe_umount "$efi_dir" rmdir "$efi_dir" trap - EXIT } install_recovery_kernel() { local kern_a_offset=$(partoffset "$RECOVERY_IMAGE" 2) local kern_a_size=$(partsize "$RECOVERY_IMAGE" 2) local kern_b_offset=$(partoffset "$RECOVERY_IMAGE" 4) local kern_b_size=$(partsize "$RECOVERY_IMAGE" 4) if [ $kern_b_size -eq 1 ]; then echo "Image was created with no KERN-B partition reserved!" 1>&2 echo "Cannot proceed." 1>&2 return 1 fi # Backup original kernel to KERN-B dd if="$RECOVERY_IMAGE" of="$RECOVERY_IMAGE" bs=512 \ count=$kern_a_size \ skip=$kern_a_offset \ seek=$kern_b_offset \ conv=notrunc # We're going to use the real signing block. if [ $FLAGS_sync_keys -eq $FLAGS_TRUE ]; then dd if="$INSTALL_VBLOCK" of="$RECOVERY_IMAGE" bs=512 \ seek=$kern_b_offset \ conv=notrunc fi # Install the recovery kernel as primary. dd if="$RECOVERY_KERNEL_IMAGE" of="$RECOVERY_IMAGE" bs=512 \ seek=$kern_a_offset \ count=$kern_a_size \ conv=notrunc # Set the 'Success' flag to 1 (to prevent the firmware from updating # the 'Tries' flag). sudo $GPT add -i 2 -S 1 "$RECOVERY_IMAGE" # Repeat for the legacy bioses. # Replace vmlinuz.A with the recovery version we built. # TODO(wad): Extract the $RECOVERY_KERNEL_IMAGE and grab vmlinuz from there. local sysroot="$FACTORY_ROOT" local vmlinuz="$sysroot/boot/vmlinuz" local failed=0 if [ "$ARCH" = "x86" ]; then # There is no syslinux on ARM, so this copy only makes sense for x86. set +e local esp_offset=$(partoffset "$RECOVERY_IMAGE" 12) local esp_mnt=$(mktemp -d) sudo mount -o loop,offset=$((esp_offset * 512)) "$RECOVERY_IMAGE" "$esp_mnt" sudo cp "$vmlinuz" "$esp_mnt/syslinux/vmlinuz.A" || failed=1 safe_umount "$esp_mnt" rmdir "$esp_mnt" switch_to_strict_mode fi if [ $failed -eq 1 ]; then echo "Failed to copy recovery kernel to ESP" return 1 fi return 0 } maybe_resize_stateful() { # If we're not minimizing, then just copy and go. if [ $FLAGS_minimize_image -eq $FLAGS_FALSE ]; then return 0 fi # Rebuild the image with a 1 sector stateful partition local err=0 local small_stateful=$(mktemp) dd if=/dev/zero of="$small_stateful" bs=512 \ count=${FLAGS_statefulfs_sectors} 1>&2 trap "rm $small_stateful" RETURN # Don't bother with ext3 for such a small image. /sbin/mkfs.ext2 -F -b 4096 "$small_stateful" 1>&2 # If it exists, we need to copy the vblock over to stateful # This is the real vblock and not the recovery vblock. local new_stateful_mnt=$(mktemp -d) set +e sudo mount -o loop $small_stateful $new_stateful_mnt sudo cp "$INSTALL_VBLOCK" "$new_stateful_mnt/vmlinuz_hd.vblock" safe_umount "$new_stateful_mnt" rmdir "$new_stateful_mnt" switch_to_strict_mode # Create a recovery image of the right size # TODO(wad) Make the developer script case create a custom GPT with # just the kernel image and stateful. update_partition_table "${FLAGS_image}" "$small_stateful" \ ${FLAGS_statefulfs_sectors} \ "${RECOVERY_IMAGE}" 1>&2 return $err } cleanup() { set +e if [ "$FLAGS_image" != "$RECOVERY_IMAGE" ]; then rm "$RECOVERY_IMAGE" fi rm "$INSTALL_VBLOCK" } # Main process begins here. set -u # No image was provided, use standard latest image path. if [ -z "$FLAGS_image" ]; then DEFAULT_IMAGE_DIR="$($SCRIPT_ROOT/get_latest_image.sh --board=$BOARD)" FLAGS_image="$DEFAULT_IMAGE_DIR/$CHROMEOS_IMAGE_NAME" fi # Turn path into an absolute path. FLAGS_image=$(readlink -f "$FLAGS_image") # Abort early if we can't find the image. if [ ! -f "$FLAGS_image" ]; then die_notrace "Image not found: $FLAGS_image" fi IMAGE_DIR="$(dirname "$FLAGS_image")" IMAGE_NAME="$(basename "$FLAGS_image")" RECOVERY_IMAGE="${FLAGS_to:-$IMAGE_DIR/$CHROMEOS_RECOVERY_IMAGE_NAME}" RECOVERY_KERNEL_IMAGE=\ "${FLAGS_kernel_outfile:-$IMAGE_DIR/$RECOVERY_KERNEL_NAME}" RECOVERY_KERNEL_VBLOCK="${RECOVERY_KERNEL_IMAGE}.vblock" STATEFUL_DIR="$IMAGE_DIR/stateful_partition" SCRIPTS_DIR=${SCRIPT_ROOT} # Mounts gpt image and sets up var, /usr/local and symlinks. # If there's a dev payload, mount stateful # offset=$(partoffset "${FLAGS_from}/${filename}" 1) # sudo mount ${ro_flag} -o loop,offset=$(( offset * 512 )) \ # "${FLAGS_from}/${filename}" "${FLAGS_stateful_mountpt}" # If not, resize stateful to 1 sector. # if [ $FLAGS_kernel_image_only -eq $FLAGS_TRUE -a \ -n "$FLAGS_kernel_image" ]; then die_notrace "Cannot use --kernel_image_only with --kernel_image" fi if [ $FLAGS_modify_in_place -eq $FLAGS_TRUE ]; then if [ $FLAGS_minimize_image -eq $FLAGS_TRUE ]; then die_notrace "Cannot use --modify_in_place and --minimize_image together." fi RECOVERY_IMAGE="${FLAGS_image}" else cp "${FLAGS_image}" "${RECOVERY_IMAGE}" fi echo "Creating recovery image from ${FLAGS_image}" INSTALL_VBLOCK=$(get_install_vblock) if [ -z "$INSTALL_VBLOCK" ]; then die "Could not copy the vblock from stateful." fi # Build the recovery kernel. FACTORY_ROOT="${BOARD_ROOT}/factory-root" RECOVERY_KERNEL_FLAGS="fbconsole initramfs vfat tpm i2cdev" USE="${RECOVERY_KERNEL_FLAGS}" emerge_custom_kernel "$FACTORY_ROOT" || failboat "Cannot emerge custom kernel" if [ -z "$FLAGS_kernel_image" ]; then create_recovery_kernel_image echo "Recovery kernel created at $RECOVERY_KERNEL_IMAGE" else RECOVERY_KERNEL_IMAGE="$FLAGS_kernel_image" fi if [ $FLAGS_kernel_image_only -eq $FLAGS_TRUE ]; then echo "Kernel emitted. Stopping there." rm "$INSTALL_VBLOCK" exit 0 fi trap cleanup EXIT maybe_resize_stateful # Also copies the image if needed. if [ $FLAGS_decrypt_stateful -eq $FLAGS_TRUE ]; then stateful_mnt=$(mktemp -d) offset=$(partoffset "${RECOVERY_IMAGE}" 1) sudo mount -o loop,offset=$(( offset * 512 )) \ "${RECOVERY_IMAGE}" "${stateful_mnt}" echo -n "1" | sudo tee "${stateful_mnt}"/decrypt_stateful >/dev/null sudo umount "$stateful_mnt" rmdir "$stateful_mnt" fi install_recovery_kernel okboat echo "Recovery image created at $RECOVERY_IMAGE" print_time_elapsed trap - EXIT