#!/bin/bash # Copyright (c) 2010 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. # Helper script that generates the signed kernel image # --- BEGIN COMMON.SH BOILERPLATE --- # Load common CrOS utilities. Inside the chroot this file is installed in # /usr/lib/crosutils. Outside the chroot we find it relative to the script's # location. find_common_sh() { local common_paths=(/usr/lib/crosutils $(dirname "$(readlink -f "$0")")) local path SCRIPT_ROOT= for path in "${common_paths[@]}"; do if [ -r "${path}/common.sh" ]; then SCRIPT_ROOT=${path} break fi done } find_common_sh . "${SCRIPT_ROOT}/common.sh" || { echo "Unable to load common.sh"; exit 1; } # --- END COMMON.SH BOILERPLATE --- get_default_board # Flags. DEFINE_string arch "x86" \ "The boot architecture: arm or x86. (Default: x86)" DEFINE_string to "/tmp/vmlinuz.image" \ "The path to the kernel image to be created. (Default: /tmp/vmlinuz.image)" DEFINE_string hd_vblock "/tmp/vmlinuz_hd.vblock" \ "The path to the installed kernel's vblock (Default: /tmp/vmlinuz_hd.vblock)" DEFINE_string vmlinuz "vmlinuz" \ "The path to the kernel (Default: vmlinuz)" DEFINE_string working_dir "/tmp/vmlinuz.working" \ "Working directory for in-progress files. (Default: /tmp/vmlinuz.working)" DEFINE_boolean keep_work ${FLAGS_FALSE} \ "Keep temporary files (*.keyblock, *.vbpubk). (Default: false)" DEFINE_string keys_dir "${SRC_ROOT}/platform/vboot_reference/tests/testkeys" \ "Directory with the RSA signing keys. (Defaults to test keys)" DEFINE_boolean use_dev_keys ${FLAGS_FALSE} \ "Use developer keys for signing. (Default: false)" # Note, to enable verified boot, the caller would manually pass: # --boot_args='dm="... %U+1 %U+1 ..." \ # --root=/dev/dm-0 DEFINE_string boot_args "noinitrd" \ "Additional boot arguments to pass to the commandline (Default: noinitrd)" # By default, we use a firmware enumerated value, but it isn't reliable for # production use. If +%d can be added upstream, then we can use: # root=PARTUID=uuid+1 DEFINE_string root "PARTUUID=%U/PARTNROFF=1" \ "Expected device root partition" # If provided, will automatically add verified boot arguments. DEFINE_string rootfs_image "" \ "Optional path to the rootfs device or image.(Default: \"\")" DEFINE_string rootfs_hash "" \ "Optional path to output the rootfs hash to. (Default: \"\")" DEFINE_integer verity_error_behavior 2 \ "Verified boot error behavior [0: I/O errors, 1: reboot, 2: nothing] \ (Default: 2)" DEFINE_integer verity_max_ios -1 \ "Optional number of outstanding I/O operations. (Default: -1)" DEFINE_string verity_hash_alg "sha1" \ "Cryptographic hash algorithm used for dm-verity. (Default: sha1)" # Parse flags FLAGS "$@" || exit 1 eval set -- "${FLAGS_ARGV}" # Die on error set -e verity_args= # Even with a rootfs_image, root= is not changed unless specified. if [[ -n "${FLAGS_rootfs_image}" && -n "${FLAGS_rootfs_hash}" ]]; then # Gets the number of blocks. 4096 byte blocks _are_ expected. if [ -f "${FLAGS_rootfs_image}" ]; then root_fs_block_sz=4096 root_fs_sz=$(stat -c '%s' ${FLAGS_rootfs_image}) root_fs_blocks=$((root_fs_sz / ${root_fs_block_sz})) else root_fs_blocks=$(sudo dumpe2fs "${FLAGS_rootfs_image}" 2> /dev/null | grep "Block count" | tr -d ' ' | cut -f2 -d:) root_fs_block_sz=$(sudo dumpe2fs "${FLAGS_rootfs_image}" 2> /dev/null | grep "Block size" | tr -d ' ' | cut -f2 -d:) fi info "rootfs is ${root_fs_blocks} blocks of ${root_fs_block_sz} bytes" if [[ ${root_fs_block_sz} -ne 4096 ]]; then error "Root file system blocks are not 4k!" fi info "Generating root fs hash tree." # Runs as sudo in case the image is a block device. # First argument to verity is reserved/unused and MUST be 0 table=$(sudo verity mode=create \ alg=${FLAGS_verity_hash_alg} \ payload=${FLAGS_rootfs_image} \ payload_blocks=${root_fs_blocks} \ hashtree=${FLAGS_rootfs_hash}) if [[ -f "${FLAGS_rootfs_hash}" ]]; then sudo chmod a+r "${FLAGS_rootfs_hash}" fi # Don't claim the root device unless the root= flag is pointed to # the verified boot device. Doing so will claim /dev/sdDP out from # under the system. if [[ ${FLAGS_root} = "/dev/dm-0" ]]; then base_root='%U+1' # kern_guid + 1 table=${table//HASH_DEV/${base_root}} table=${table//ROOT_DEV/${base_root}} fi verity_args="dm=\"vroot none ro,${table}\"" info "dm-verity configuration: ${verity_args}" fi mkdir -p "${FLAGS_working_dir}" # Only let dm-verity block if rootfs verification is configured. dev_wait=0 if [[ ${FLAGS_root} = "/dev/dm-0" ]]; then dev_wait=1 fi cat < "${FLAGS_working_dir}/boot.config" root=${FLAGS_root} rootwait ro dm_verity.error_behavior=${FLAGS_verity_error_behavior} dm_verity.max_bios=${FLAGS_verity_max_ios} dm_verity.dev_wait=${dev_wait} ${verity_args} ${FLAGS_boot_args} EOF WORK="${WORK} ${FLAGS_working_dir}/boot.config" info "Emitted cross-platform boot params to ${FLAGS_working_dir}/boot.config" if [[ "${FLAGS_arch}" = "x86" ]]; then # Legacy BIOS will use the kernel in the rootfs (via syslinux), as will # standard EFI BIOS (via grub, from the EFI System Partition). Chrome OS # BIOS will use a separate signed kernel partition, which we'll create now. # FIXME: remove serial output, debugging messages. cat < "${FLAGS_working_dir}/config.txt" quiet loglevel=1 console=tty2 init=/sbin/init add_efi_memmap boot=local noresume noswap i915.modeset=1 cros_secure kern_guid=%U tpm_tis.force=1 tpm_tis.interrupts=0 nmi_watchdog=panic,lapic EOF WORK="${WORK} ${FLAGS_working_dir}/config.txt" bootloader_path="/lib64/bootstub/bootstub.efi" kernel_image="${FLAGS_vmlinuz}" elif [[ "${FLAGS_arch}" = "arm" ]]; then cat < "${FLAGS_working_dir}/config.txt" earlyprintk kern_guid=%U EOF WORK="${WORK} ${FLAGS_working_dir}/config.txt" # arm does not need/have a bootloader in kernel partition dd if="/dev/zero" of="${FLAGS_working_dir}/bootloader.bin" bs=512 count=1 WORK="${WORK} ${FLAGS_working_dir}/bootloader.bin" bootloader_path="${FLAGS_working_dir}/bootloader.bin" kernel_image="${FLAGS_vmlinuz/vmlinuz/vmlinux.uimg}" else error "Unknown arch: ${FLAGS_arch}" fi # We sign the image with the recovery_key, because this is what goes onto the # USB key. We can only boot from the USB drive in recovery mode. # For dev install shim, we need to use the installer keyblock instead of # the recovery keyblock because of the difference in flags. if [ ${FLAGS_use_dev_keys} -eq ${FLAGS_TRUE} ]; then USB_KEYBLOCK=installer_kernel.keyblock info "DEBUG: use dev install signing key" else USB_KEYBLOCK=recovery_kernel.keyblock info "DEBUG: use recovery signing key" fi # Create and sign the kernel blob vbutil_kernel \ --pack "${FLAGS_to}" \ --keyblock "${FLAGS_keys_dir}/${USB_KEYBLOCK}" \ --signprivate "${FLAGS_keys_dir}/recovery_kernel_data_key.vbprivk" \ --version 1 \ --config "${FLAGS_working_dir}/config.txt" \ --bootloader "${bootloader_path}" \ --vmlinuz "${kernel_image}" \ --arch "${FLAGS_arch}" # And verify it. vbutil_kernel \ --verify "${FLAGS_to}" \ --signpubkey "${FLAGS_keys_dir}/recovery_key.vbpubk" # Now we re-sign the same image using the normal keys. This is the kernel # image that is put on the hard disk by the installer. Note: To save space on # the USB image, we're only emitting the new verfication block, and the # installer just replaces that part of the hard disk's kernel partition. vbutil_kernel \ --repack "${FLAGS_hd_vblock}" \ --vblockonly \ --keyblock "${FLAGS_keys_dir}/kernel.keyblock" \ --signprivate "${FLAGS_keys_dir}/kernel_data_key.vbprivk" \ --oldblob "${FLAGS_to}" # To verify it, we have to replace the vblock from the original image. tempfile=$(mktemp) trap "rm -f $tempfile" EXIT cat "${FLAGS_hd_vblock}" > $tempfile dd if="${FLAGS_to}" bs=65536 skip=1 >> $tempfile vbutil_kernel \ --verify $tempfile \ --signpubkey "${FLAGS_keys_dir}/kernel_subkey.vbpubk" rm -f $tempfile trap - EXIT set +e # cleanup failure is a-ok if [[ ${FLAGS_keep_work} -eq ${FLAGS_FALSE} ]]; then info "Cleaning up temporary files: ${WORK}" rm ${WORK} rmdir ${FLAGS_working_dir} fi info "Kernel partition image emitted: ${FLAGS_to}" if [[ -f ${FLAGS_rootfs_hash} ]]; then info "Root filesystem hash emitted: ${FLAGS_rootfs_hash}" fi