#!/bin/sh
#
# Copyright (c) 2012 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 can change key (usually developer keys) in a firmware binary
# image or system live firmware (EEPROM), and assign proper HWID, FLAGS as well.
SCRIPT_BASE="$(dirname "$0")"
. "$SCRIPT_BASE/common_minimal.sh"
load_shflags || exit 1
# Constants used by DEFINE_*
VBOOT_BASE='/usr/share/vboot'
DEFAULT_KEYS_FOLDER="$VBOOT_BASE/devkeys"
DEFAULT_BACKUP_FOLDER='/mnt/stateful_partition/backups'
# DEFINE_string name default_value description flag
DEFINE_string from "" "Path of input file (empty for system live firmware)" "f"
DEFINE_string to "" "Path of output file (empty for system live firmware)" "t"
DEFINE_string keys "$DEFAULT_KEYS_FOLDER" "Path to folder of dev keys" "k"
DEFINE_string preamble_flags "" "Override preamble flags value. Known values:
0: None. (Using RW to boot in normal. aka, two-stop)
1: VB_FIRMWARE_PREAMBLE_USE_RO_NORMAL (one-stop)" "p"
DEFINE_boolean mod_gbb_flags \
$FLAGS_TRUE "Modify GBB flags to enable developer friendly features" ""
DEFINE_boolean force_backup \
$FLAGS_TRUE "Create backup even if source is not live" ""
DEFINE_string backup_dir \
"$DEFAULT_BACKUP_FOLDER" "Path of directory to store firmware backups" ""
# Parse command line
FLAGS "$@" || exit 1
eval set -- "$FLAGS_ARGV"
# Globals
# ----------------------------------------------------------------------------
set -e
# the image we are (temporary) working with
IMAGE="$(make_temp_file)"
IMAGE="$(readlink -f "$IMAGE")"
# a log file to keep the output results of executed command
EXEC_LOG="$(make_temp_file)"
# Functions
# ----------------------------------------------------------------------------
# Disables write protection status registers
disable_write_protection() {
# No need to change WP status in file mode
if [ -n "$FLAGS_to" ]; then
return $FLAGS_TRUE
fi
# --wp-disable command may return success even if WP is still enabled,
# so we should use --wp-status to verify the results.
echo "Disabling system software write protection status..."
(flashrom --wp-disable && flashrom --wp-status) 2>&1 |
tee "$EXEC_LOG" |
grep -q '^WP: .* is disabled\.$'
}
# Reads $IMAGE from $FLAGS_from
read_image() {
if [ -z "$FLAGS_from" ]; then
echo "Reading system live firmware..."
if is_debug_mode; then
flashrom -V -r "$IMAGE"
else
flashrom -r "$IMAGE" >"$EXEC_LOG" 2>&1
fi
else
debug_msg "reading from file: $FLAGS_from"
cp -f "$FLAGS_from" "$IMAGE"
fi
}
# Writes $IMAGE to $FLAGS_to
write_image() {
if [ -z "$FLAGS_to" ]; then
echo "Writing system live firmware..."
# TODO(hungte) we can enable partial write to make this faster
if is_debug_mode; then
flashrom -V -w "$IMAGE"
else
flashrom -w "$IMAGE" >"$EXEC_LOG" 2>&1
fi
else
debug_msg "writing to file: $FLAGS_to"
cp -f "$IMAGE" "$FLAGS_to"
chmod a+r "$FLAGS_to"
fi
}
# Converts HWID from $1 to proper format with "DEV" extension
echo_dev_hwid() {
local hwid="$1"
local hwid_no_dev="${hwid% DEV}"
# NOTE: Some DEV firmware image files may put GUID in HWID.
# These are not officially supported and they will see "{GUID} DEV".
if [ "$hwid" != "$hwid_no_dev" ]; then
hwid="$hwid_no_dev"
fi
local hwid_dev="$hwid DEV"
debug_msg "echo_dev_hwid: [$1] -> [$hwid_dev]"
echo "$hwid_dev"
}
# Main
# ----------------------------------------------------------------------------
main() {
# Check parameters
local root_pubkey="$FLAGS_keys/root_key.vbpubk"
local recovery_pubkey="$FLAGS_keys/recovery_key.vbpubk"
local firmware_keyblock="$FLAGS_keys/firmware.keyblock"
local firmware_prvkey="$FLAGS_keys/firmware_data_key.vbprivk"
local dev_firmware_keyblock="$FLAGS_keys/dev_firmware.keyblock"
local dev_firmware_prvkey="$FLAGS_keys/dev_firmware_data_key.vbprivk"
local kernel_sub_pubkey="$FLAGS_keys/kernel_subkey.vbpubk"
local is_from_live=0
local backup_image=
debug_msg "Prerequisite check"
ensure_files_exist \
"$root_pubkey" \
"$recovery_pubkey" \
"$firmware_keyblock" \
"$firmware_prvkey" \
"$kernel_sub_pubkey" ||
exit 1
if [ -z "$FLAGS_from" ]; then
is_from_live=1
else
ensure_files_exist "$FLAGS_from" || exit 1
fi
debug_msg "Checking software write protection status"
disable_write_protection ||
if is_debug_mode; then
err_die "Failed to disable WP. Diagnose Message: $(cat "$EXEC_LOG")"
else
err_die "Write protection is still enabled. " \
"Please verify that hardware write protection is disabled."
fi
debug_msg "Pulling image to $IMAGE"
(read_image && [ -s "$IMAGE" ]) ||
err_die "Failed to read image. Error message: $(cat "$EXEC_LOG")"
debug_msg "Prepare to backup the file"
if [ -n "$is_from_live" -o $FLAGS_force_backup = $FLAGS_TRUE ]; then
backup_image="$(make_temp_file)"
debug_msg "Creating backup file to $backup_image..."
cp -f "$IMAGE" "$backup_image"
fi
debug_msg "Detecting developer firmware keyblock"
local expanded_firmware_dir="$(make_temp_dir)"
local use_devfw_keyblock="$FLAGS_FALSE"
(cd "$expanded_firmware_dir"; dump_fmap -x "$IMAGE" >/dev/null 2>&1) ||
err_die "Failed to extract firmware image."
if [ -f "$expanded_firmware_dir/VBLOCK_A" ]; then
local has_dev=$FLAGS_TRUE has_norm=$FLAGS_TRUE
# In output of vbutil_keyblock, "!DEV" means "bootable on normal mode" and
# "DEV" means "bootable on developer mode". Here we try to match the pattern
# in output of vbutil_block, and disable the flags (has_dev, has_norm) if
# the pattern was not found.
vbutil_keyblock --unpack "$expanded_firmware_dir/VBLOCK_A" |
grep -qw '!DEV' || has_norm=$FLAGS_FALSE
vbutil_keyblock --unpack "$expanded_firmware_dir/VBLOCK_A" |
grep -qw '[^!]DEV' || has_dev=$FLAGS_FALSE
if [ "$has_norm" = "$FLAGS_FALSE" -a "$has_dev" = "$FLAGS_TRUE" ]; then
use_devfw_keyblock=$FLAGS_TRUE
fi
fi
if [ "$use_devfw_keyblock" = "$FLAGS_TRUE" ]; then
echo "Using keyblocks (developer, normal)..."
else
echo "Using keyblocks (normal, normal)..."
dev_firmware_prvkey="$firmware_prvkey"
dev_firmware_keyblock="$firmware_keyblock"
fi
# TODO(hungte) We can use vbutil_firmware to check if the current firmware is
# valid so that we know keys and vbutil_firmware are all working fine.
echo "Preparing new firmware image..."
debug_msg "Resign the firmware code (A/B) with new keys"
# Note resign_firmwarefd.sh needs the original rootkey to determine firmware
# body size, so we must resign image before changing GBB rootkey.
local unsigned_image="$(make_temp_file)"
local optional_opts=""
if [ -n "$FLAGS_preamble_flags" ]; then
# optional_opts: VERSION FLAGS
debug_msg "Setting new VERSION=1, FLAGS=$FLAGS_preamble_flags"
optional_opts="1 $FLAGS_preamble_flags"
fi
cp -f "$IMAGE" "$unsigned_image"
"$SCRIPT_BASE/resign_firmwarefd.sh" \
"$unsigned_image" \
"$IMAGE" \
"$firmware_prvkey" \
"$firmware_keyblock" \
"$dev_firmware_prvkey" \
"$dev_firmware_keyblock" \
"$kernel_sub_pubkey" \
$optional_opts >"$EXEC_LOG" 2>&1 ||
err_die "Failed to re-sign firmware. (message: $(cat "$EXEC_LOG"))"
if is_debug_mode; then
cat "$EXEC_LOG"
fi
debug_msg "Extract current HWID"
local old_hwid
old_hwid="$(gbb_utility --get --hwid "$IMAGE" 2>"$EXEC_LOG" |
sed -rne 's/^hardware_id: (.*)$/\1/p')"
debug_msg "Decide new HWID"
[ -z "$old_hwid" ] &&
err_die "Cannot find current HWID. (message: $(cat "$EXEC_LOG"))"
local new_hwid="$(echo_dev_hwid "$old_hwid")"
local old_gbb_flags
old_gbb_flags="$(gbb_utility --get --flags "$IMAGE" 2>"$EXEC_LOG" |
sed -rne 's/^flags: (.*)$/\1/p')"
debug_msg "Decide new GBB flags from: $old_gbb_flags"
[ -z "$old_gbb_flags" ] &&
err_die "Cannot find GBB flags. (message: $(cat "$EXEC_LOG"))"
# 0x30: GBB_FLAG_FORCE_DEV_BOOT_USB | GBB_FLAG_DISABLE_FW_ROLLBACK_CHECK
local new_gbb_flags="$((old_gbb_flags | 0x30))"
debug_msg "Replace GBB parts (gbb_utility allows changing on-the-fly)"
gbb_utility --set \
--hwid="$new_hwid" \
--rootkey="$root_pubkey" \
--recoverykey="$recovery_pubkey" \
"$IMAGE" >"$EXEC_LOG" 2>&1 ||
err_die "Failed to change GBB Data. (message: $(cat "$EXEC_LOG"))"
# Old firmware does not support GBB flags, so let's make it an exception.
if [ "$FLAGS_mod_gbb_flags" = "$FLAGS_TRUE" ]; then
debug_msg "Changing GBB flags from $old_gbb_flags to $new_gbb_flags"
gbb_utility --set \
--flags="$new_gbb_flags" \
"$IMAGE" >"$EXEC_LOG" 2>&1 ||
echo "Warning: GBB flags ($old_gbb_flags -> $new_gbb_flags) can't be set."
fi
# TODO(hungte) compare if the image really needs to be changed.
debug_msg "Check if we need to make backup file(s)"
if [ -n "$backup_image" ]; then
local backup_hwid_name="$(echo "$old_hwid" | sed 's/ /_/g')"
local backup_date_time="$(date +'%Y%m%d_%H%M%S')"
local backup_file_name="firmware_${backup_hwid_name}_${backup_date_time}.fd"
local backup_file_path="$FLAGS_backup_dir/$backup_file_name"
if mkdir -p "$FLAGS_backup_dir" &&
cp -f "$backup_image" "$backup_file_path"; then
true
elif cp -f "$backup_image" "/tmp/$backup_file_name"; then
backup_file_path="/tmp/$backup_file_name"
else
backup_file_path=''
fi
if [ -n "$backup_file_path" -a -s "$backup_file_path" ]; then
# TODO(hungte) maybe we can wrap the flashrom by 'make_dev_firmware.sh -r'
# so that the only command to remember would be make_dev_firmware.sh.
echo "
Backup of current firmware image is stored in:
$backup_file_path
Please copy the backup file to a safe place ASAP.
To stop using devkeys and restore original firmware, execute command:
flashrom -w [PATH_TO_BACKUP_IMAGE]
Ex: flashrom -w $backup_file_path
"
else
echo "WARNING: Cannot create file in $FLAGS_backup_dir... Ignore backups."
fi
fi
# TODO(hungte) use vbutil_firmware to check if the new firmware is valid.
# Or, do verification in resign_firmwarefd.sh and trust it.
debug_msg "Write the image"
write_image ||
err_die "Failed to write image. Error message: $(cat "$EXEC_LOG")"
debug_msg "Complete."
if [ -z "$FLAGS_to" ]; then
echo "Successfully changed firmware to Developer Keys. New HWID: $new_hwid"
else
echo "Firmware '$FLAGS_to' now uses Developer Keys. New HWID: $new_hwid"
fi
}
main