scripts/image_signing/resign_firmwarefd.sh - third_party/vboot_reference - Git at Google

 #!/bin/sh

 # 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.

 # Script to resign a firmware image using a different set of keys
 # for use on signing servers.
 #
 # arguments: src_fd, dst_fd, firmware_datakey, and firmware_keyblock
 #
 # src_fd: Input firmware image (in .fd format)
 # dst_fd: output firmware image name
 # firmware_datakey: Key used to sign firmware data (in .vbprivk format)
 # firmware_keyblock: Key block for firmware data key (in .keyblock format)
 #
 # Both the mosys tool and vbutil_firmware should be in the system path.
 #
 # This script parses the output of mosys tool from
 # http://code.google.com/p/mosys
 #
 # to determine the regions in the image containing "Firmware [A|B] Data" and
 # "Firmware [A|B] Key", which contain firmware data and firmware vblocks
 # respectively. It will then generate new vblocks using the set of keys
 # passed as arguments and output a new firmware image, with this new firmware
 # vblocks the old ones.
 #
 # Here is an example output of mosys:
 #
 # area_offset="0x001c0000" area_size="0x00040000" area_name="Boot Stub" \
 #   area_flags_raw="0x01" area_flags="static"
 # area_offset="0x001a0000" area_size="0x00020000" area_name="GBB Area" \
 #   area_flags_raw="0x01" area_flags="static"
 # area_offset="0x00008000" area_size="0x00002000" area_name="Firmware A Key" \
 #   area_flags_raw="0x01" area_flags="static"
 # area_offset="0x0000a000" area_size="0x0009e000" area_name="Firmware A Data" \
 #  area_flags_raw="0x03" area_flags="static,compressed"
 # area_offset="0x000a8000" area_size="0x00002000" area_name="Firmware B Key" \
 #  area_flags_raw="0x01" area_flags="static"
 # area_offset="0x000aa000" area_size="0x0002e000" area_name="Firmware B Data" \
 #  area_flags_raw="0x03" area_flags="static,compressed"
 # area_offset="0x00005200" area_size="0x00001000" area_name="RW VPD" \
 #  area_flags_raw="0x00" area_flags=""
 #
 # This shows that Firmware A Data is at offset 0x0000a0000 in the .fd image
 # and is of size 0x0009e000 bytes. This can be extracted to generate new vblocks
 # which can then replace old vblock for Firmware A ("Firmware A Key" region at
 # offset 0x00008000 and size 0x00002000).

 # Load common constants and variables.
 . "$(dirname "$0")/common_minimal.sh"

 # Abort on error
 set -e

 # Check arguments
 if [ $# -lt 7 ] || [ $# -gt 8 ]; then
   echo "Usage: $PROG src_fd dst_fd firmware_datakey firmware_keyblock"\
    "dev_firmware_datakey dev_firmware_keyblock kernel_subkey [version]"
   exit 1
 fi

 # Make sure the tools we need are available.
 for prog in mosys vbutil_firmware; do
   type "${prog}" &>/dev/null || \
     { echo "${prog} tool not found."; exit 1; }
 done

 SRC_FD=$1
 DST_FD=$2
 FIRMWARE_DATAKEY=$3
 FIRMWARE_KEYBLOCK=$4
 DEV_FIRMWARE_DATAKEY=$5
 DEV_FIRMWARE_KEYBLOCK=$6
 KERNEL_SUBKEY=$7
 VERSION=$8

 if [ -z $VERSION ]; then
   VERSION=1
 fi
 echo "Using firmware version: $VERSION"

 # Parse offsets and size of firmware data and vblocks
 for i in "A" "B"
 do
   line=$(mosys -f -k eeprom map $1 | grep "$i Key") ||
   line=$(mosys -f -k eeprom map $1 | grep "VBLOCK_$i") ||
    { echo "Couldn't parse vblock section $i from mosys output";
      exit 1; }

   offset="$(echo $line | sed -e 's/.*area_offset=\"\([a-f0-9x]*\)\".*/\1/')"
   eval fw${i}_vblock_offset=$((offset))
   size="$(echo $line | sed -e 's/.*area_size=\"\([a-f0-9x]*\)\".*/\1/')"
   eval fw${i}_vblock_size=$((size))

   line=$(mosys -f -k eeprom map $1 | grep "$i Data") ||
   line=$(mosys -f -k eeprom map $1 | grep "FW_MAIN_$i") ||
   { echo "Couldn't parse Firmware $i section from mosys output";
     exit 1; }

   offset="$(echo $line | sed -e 's/.*area_offset=\"\([a-f0-9x]*\)\".*/\1/')"
   eval fw${i}_offset=$((offset))
   size="$(echo $line | sed -e 's/.*area_size=\"\([a-f0-9x]*\)\".*/\1/')"
   eval fw${i}_size=$((size))
 done

 temp_fwimage=$(make_temp_file)
 temp_out_vb=$(make_temp_file)

 # Extract out Firmware A data and generate signature using the right keys.
 # Firmware A is the dev firmware.
 dd if="${SRC_FD}" of="${temp_fwimage}" skip="${fwA_offset}" bs=1 \
   count="${fwA_size}"

 echo "Re-calculating Firmware A vblock"
 vbutil_firmware \
   --vblock "${temp_out_vb}" \
   --keyblock "${DEV_FIRMWARE_KEYBLOCK}" \
   --signprivate "${DEV_FIRMWARE_DATAKEY}" \
   --version "${VERSION}" \
   --fv "${temp_fwimage}" \
   --kernelkey "${KERNEL_SUBKEY}"

 # Create a copy of the input image and put in the new vblock for firmware A
 cp "${SRC_FD}" "${DST_FD}"
 dd if="${temp_out_vb}" of="${DST_FD}" seek="${fwA_vblock_offset}" bs=1 \
   count="${fwA_vblock_size}" conv=notrunc

 # Firmware B is the normal firmware.
 dd if="${SRC_FD}" of="${temp_fwimage}" skip="${fwB_offset}" bs=1 \
   count="${fwB_size}"
 echo "Re-calculating Firmware B vblock"
 vbutil_firmware \
   --vblock "${temp_out_vb}" \
   --keyblock "${FIRMWARE_KEYBLOCK}" \
   --signprivate "${FIRMWARE_DATAKEY}" \
   --version "${VERSION}" \
   --fv "${temp_fwimage}" \
   --kernelkey "${KERNEL_SUBKEY}"

 # Destination image has already been created.
 dd if="${temp_out_vb}" of="${DST_FD}" seek="${fwB_vblock_offset}" bs=1 \
   count="${fwB_vblock_size}" conv=notrunc

 echo "New signed image was output to ${DST_FD}"
	#!/bin/sh

	# 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.

	# Script to resign a firmware image using a different set of keys
	# for use on signing servers.
	#
	# arguments: src_fd, dst_fd, firmware_datakey, and firmware_keyblock
	#
	# src_fd: Input firmware image (in .fd format)
	# dst_fd: output firmware image name
	# firmware_datakey: Key used to sign firmware data (in .vbprivk format)
	# firmware_keyblock: Key block for firmware data key (in .keyblock format)
	#
	# Both the mosys tool and vbutil_firmware should be in the system path.
	#
	# This script parses the output of mosys tool from
	# http://code.google.com/p/mosys
	#
	# to determine the regions in the image containing "Firmware [A\|B] Data" and
	# "Firmware [A\|B] Key", which contain firmware data and firmware vblocks
	# respectively. It will then generate new vblocks using the set of keys
	# passed as arguments and output a new firmware image, with this new firmware
	# vblocks the old ones.
	#
	# Here is an example output of mosys:
	#
	# area_offset="0x001c0000" area_size="0x00040000" area_name="Boot Stub" \
	# area_flags_raw="0x01" area_flags="static"
	# area_offset="0x001a0000" area_size="0x00020000" area_name="GBB Area" \
	# area_flags_raw="0x01" area_flags="static"
	# area_offset="0x00008000" area_size="0x00002000" area_name="Firmware A Key" \
	# area_flags_raw="0x01" area_flags="static"
	# area_offset="0x0000a000" area_size="0x0009e000" area_name="Firmware A Data" \
	# area_flags_raw="0x03" area_flags="static,compressed"
	# area_offset="0x000a8000" area_size="0x00002000" area_name="Firmware B Key" \
	# area_flags_raw="0x01" area_flags="static"
	# area_offset="0x000aa000" area_size="0x0002e000" area_name="Firmware B Data" \
	# area_flags_raw="0x03" area_flags="static,compressed"
	# area_offset="0x00005200" area_size="0x00001000" area_name="RW VPD" \
	# area_flags_raw="0x00" area_flags=""
	#
	# This shows that Firmware A Data is at offset 0x0000a0000 in the .fd image
	# and is of size 0x0009e000 bytes. This can be extracted to generate new vblocks
	# which can then replace old vblock for Firmware A ("Firmware A Key" region at
	# offset 0x00008000 and size 0x00002000).

	# Load common constants and variables.
	. "$(dirname "$0")/common_minimal.sh"

	# Abort on error
	set -e

	# Check arguments
	if [ $# -lt 7 ] \|\| [ $# -gt 8 ]; then
	echo "Usage: $PROG src_fd dst_fd firmware_datakey firmware_keyblock"\
	"dev_firmware_datakey dev_firmware_keyblock kernel_subkey [version]"
	exit 1
	fi

	# Make sure the tools we need are available.
	for prog in mosys vbutil_firmware; do
	type "${prog}" &>/dev/null \|\| \
	{ echo "${prog} tool not found."; exit 1; }
	done

	SRC_FD=$1
	DST_FD=$2
	FIRMWARE_DATAKEY=$3
	FIRMWARE_KEYBLOCK=$4
	DEV_FIRMWARE_DATAKEY=$5
	DEV_FIRMWARE_KEYBLOCK=$6
	KERNEL_SUBKEY=$7
	VERSION=$8

	if [ -z $VERSION ]; then
	VERSION=1
	fi
	echo "Using firmware version: $VERSION"

	# Parse offsets and size of firmware data and vblocks
	for i in "A" "B"
	do
	line=$(mosys -f -k eeprom map $1 \| grep "$i Key") \|\|
	line=$(mosys -f -k eeprom map $1 \| grep "VBLOCK_$i") \|\|
	{ echo "Couldn't parse vblock section $i from mosys output";
	exit 1; }

	offset="$(echo $line \| sed -e 's/.area_offset=\"\([a-f0-9x]\)\".*/\1/')"
	eval fw${i}_vblock_offset=$((offset))
	size="$(echo $line \| sed -e 's/.area_size=\"\([a-f0-9x]\)\".*/\1/')"
	eval fw${i}_vblock_size=$((size))

	line=$(mosys -f -k eeprom map $1 \| grep "$i Data") \|\|
	line=$(mosys -f -k eeprom map $1 \| grep "FW_MAIN_$i") \|\|
	{ echo "Couldn't parse Firmware $i section from mosys output";
	exit 1; }

	offset="$(echo $line \| sed -e 's/.area_offset=\"\([a-f0-9x]\)\".*/\1/')"
	eval fw${i}_offset=$((offset))
	size="$(echo $line \| sed -e 's/.area_size=\"\([a-f0-9x]\)\".*/\1/')"
	eval fw${i}_size=$((size))
	done

	temp_fwimage=$(make_temp_file)
	temp_out_vb=$(make_temp_file)

	# Extract out Firmware A data and generate signature using the right keys.
	# Firmware A is the dev firmware.
	dd if="${SRC_FD}" of="${temp_fwimage}" skip="${fwA_offset}" bs=1 \
	count="${fwA_size}"

	echo "Re-calculating Firmware A vblock"
	vbutil_firmware \
	--vblock "${temp_out_vb}" \
	--keyblock "${DEV_FIRMWARE_KEYBLOCK}" \
	--signprivate "${DEV_FIRMWARE_DATAKEY}" \
	--version "${VERSION}" \
	--fv "${temp_fwimage}" \
	--kernelkey "${KERNEL_SUBKEY}"

	# Create a copy of the input image and put in the new vblock for firmware A
	cp "${SRC_FD}" "${DST_FD}"
	dd if="${temp_out_vb}" of="${DST_FD}" seek="${fwA_vblock_offset}" bs=1 \
	count="${fwA_vblock_size}" conv=notrunc

	# Firmware B is the normal firmware.
	dd if="${SRC_FD}" of="${temp_fwimage}" skip="${fwB_offset}" bs=1 \
	count="${fwB_size}"
	echo "Re-calculating Firmware B vblock"
	vbutil_firmware \
	--vblock "${temp_out_vb}" \
	--keyblock "${FIRMWARE_KEYBLOCK}" \
	--signprivate "${FIRMWARE_DATAKEY}" \
	--version "${VERSION}" \
	--fv "${temp_fwimage}" \
	--kernelkey "${KERNEL_SUBKEY}"

	# Destination image has already been created.
	dd if="${temp_out_vb}" of="${DST_FD}" seek="${fwB_vblock_offset}" bs=1 \
	count="${fwB_vblock_size}" conv=notrunc

	echo "New signed image was output to ${DST_FD}"