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extract-firmware.sh
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extract-firmware.sh
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#!/bin/bash
BINDIR=`dirname $0`
. "$BINDIR/common.inc"
IMG="${1}"
DIR="${2}"
if [ "${DIR}" = "" ]; then
DIR="fmk"
fi
# Need to extract file systems as ROOT
if [ "$(id -ru)" != "0" ]; then
SUDO="sudo"
else
SUDO=""
fi
IMG=$(readlink -f $IMG)
DIR=$(readlink -f $DIR)
# Make sure we're operating out of the FMK directory
cd $(dirname $(readlink -f $0))
# Source in/Import shared settings. ${DIR} MUST be defined prior to this!
. ./shared-ng.inc
printf "Firmware Mod Kit (extract) ${VERSION}, (c)2011-2013 Craig Heffner, Jeremy Collake\n\n"
# Check usage
if [ "${IMG}" = "" ] || [ "${IMG}" = "-h" ]; then
printf "Usage: ${0} <firmware image>\n\n"
exit 1
fi
if [ ! -f "${IMG}" ]; then
echo "File does not exist!"
exit 1
fi
if [ -e "${DIR}" ]; then
echo "Directory ${DIR} already exists! Quitting..."
exit 1
fi
Build_Tools
# Get the size, in bytes, of the target firmware image
FW_SIZE=$(ls -l "${IMG}" | cut -d' ' -f5)
# Create output directories
mkdir -p "${DIR}/logs"
mkdir -p "${DIR}/image_parts"
echo "Scanning firmware..."
# Log binwalk results to the ${BINLOG} file, disable default filters, exclude invalid results,
# and search only for trx, uimage, dlob, squashfs, and cramfs results.
#${BINWALK} -f "${BINLOG}" -d -x invalid -y trx -y uimage -y dlob -y squashfs -y cramfs "${IMG}"
${BINWALK} -f "${BINLOG}" "${IMG}"
# Set Internal Field Separator (IFS) via two lines to newline only (bashism would be $'\n')
IFS='
'
# Header image offset is ALWAYS 0. Header checksums are simply updated by build-ng.sh.
HEADER_IMAGE_OFFSET=0
# Loop through binwalk log file
for LINE in IFS='
'$(sort -n ${BINLOG} | grep -v -e '^DECIMAL' -e '^---')
do
# Get decimal file offset and the first word of the description
OFFSET=$(echo ${LINE} | awk '{print $1}')
DESCRIPTION=$(echo ${LINE} | awk '{print tolower($3)}')
# Offset 0 is firmware header
if [ "${OFFSET}" = "0" ]; then
HEADER_OFFSET=${OFFSET}
HEADER_TYPE=${DESCRIPTION}
HEADER_SIZE=$(echo ${LINE} | sed -e 's/.*header size: //' | cut -d' ' -f1)
HEADER_IMAGE_SIZE=$(echo ${LINE} | sed -e 's/.*image size: //' | cut -d' ' -f1)
# Check to see if this line is a file system entry
elif [ "$(echo ${LINE} | grep -i filesystem)" != "" ]
then
FS_OFFSET=${OFFSET}
FS_TYPE=${DESCRIPTION}
# Need to know endianess for re-assembly
if [ "$(echo ${LINE} | grep -i 'big endian')" != "" ]; then
ENDIANESS="-be"
else
ENDIANESS="-le"
fi
# Check for compression type of the file system. Default to LZMA
if [ "$(echo ${LINE} | grep -i 'gzip')" != "" ]; then
FS_COMPRESSION="gzip"
else
FS_COMPRESSION="lzma"
fi
# Check for a block size (used only by squashfs)
if [ "$(echo ${LINE} | grep -i 'blocksize')" != "" ]; then
set -f
IFS=,
for fsparam in ${LINE}
do
if [[ $fsparam = *blocksize* ]]; then
fsparam="${fsparam##*blocksize: }"
FS_BLOCKSIZE="${fsparam%* bytes}"
break
fi
done
fi
set +f; unset IFS
fi
done
# Header image size is everything from the header image offset (0) up to the file system
HEADER_IMAGE_SIZE=$((${FS_OFFSET}-${HEADER_IMAGE_OFFSET}))
# Extract the header + image up to the file system
echo "Extracting ${HEADER_IMAGE_SIZE} bytes of ${HEADER_TYPE} header image at offset ${HEADER_IMAGE_OFFSET}"
dd if="${IMG}" bs=${HEADER_IMAGE_SIZE} skip=${HEADER_IMAGE_OFFSET} count=1 of="${HEADER_IMAGE}" 2>/dev/null
if [ "${FS_OFFSET}" != "" ]; then
echo "Extracting ${FS_TYPE} file system at offset ${FS_OFFSET}"
dd if="${IMG}" bs=${FS_OFFSET} skip=1 of="${FSIMG}" 2>/dev/null
else
echo "ERROR: No supported file system found! Aborting..."
rm -rf "${DIR}"
exit 1
fi
FOOTER_SIZE=0
FOOTER_OFFSET=0
# Try to determine if there is a footer at the end of the firmware image.
# Grab the last 10 lines of a hexdump of the firmware image, excluding the
# last line in the hexdump. Reverse the line order and replace any lines
# that start with '*' with the word 'FILLER'.
for LINE in $(hexdump -C ${IMG} | tail -11 | head -10 | sed -n '1!G;h;$p' | sed -e 's/^*/FILLER/')
do
if [ "${LINE}" = "FILLER" ]; then
break
else
FOOTER_SIZE=$((${FOOTER_SIZE}+16))
fi
done
# If a footer was found, dump it out
if [ "${FOOTER_SIZE}" != "0" ]; then
FOOTER_OFFSET=$((${FW_SIZE}-${FOOTER_SIZE}))
echo "Extracting ${FOOTER_SIZE} byte footer from offset ${FOOTER_OFFSET}"
dd if="${IMG}" bs=1 skip=${FOOTER_OFFSET} count=${FOOTER_SIZE} of="${FOOTER_IMAGE}" 2>/dev/null
else
FOOTER_OFFSET=${FW_SIZE}
fi
# Log the parsed values to the CONFLOG for use when re-building the firmware
echo "FW_SIZE='${FW_SIZE}'" > ${CONFLOG}
echo "HEADER_TYPE='${HEADER_TYPE}'" >> ${CONFLOG}
echo "HEADER_SIZE='${HEADER_SIZE}'" >> ${CONFLOG}
echo "HEADER_IMAGE_SIZE='${HEADER_IMAGE_SIZE}'" >> ${CONFLOG}
echo "HEADER_IMAGE_OFFSET='${HEADER_IMAGE_OFFSET}'" >> ${CONFLOG}
echo "FOOTER_SIZE='${FOOTER_SIZE}'" >> ${CONFLOG}
echo "FOOTER_OFFSET='${FOOTER_OFFSET}'" >> ${CONFLOG}
echo "FS_TYPE='${FS_TYPE}'" >> ${CONFLOG}
echo "FS_OFFSET='${FS_OFFSET}'" >> ${CONFLOG}
echo "FS_COMPRESSION='${FS_COMPRESSION}'" >> ${CONFLOG}
echo "FS_BLOCKSIZE='${FS_BLOCKSIZE}'" >> ${CONFLOG}
echo "ENDIANESS='${ENDIANESS}'" >> ${CONFLOG}
# Extract the file system and save the MKFS variable to the CONFLOG
case ${FS_TYPE} in
"squashfs")
echo "Extracting squashfs files..."
${SUDO} ./unsquashfs_all.sh "${FSIMG}" "${ROOTFS}" 2>/dev/null | grep MKFS >> "${CONFLOG}"
;;
"cramfs")
echo "Extracting CramFS file system..."
${SUDO} ./uncramfs_all.sh "${FSIMG}" "${ROOTFS}" ${ENDIANESS} 2>/dev/null | grep MKFS >> "${CONFLOG}"
;;
"yaffs")
echo "Extracting YAFFS file system..."
${SUDO} ./src/yaffs2utils/unyaffs2 "${FSIMG}" "${ROOTFS}" 2>/dev/null
echo "MKFS='./src/yaffs2utils/mkyaffs2'" >> "${CONFLOG}"
;;
"jffs2")
echo "Extracting JFFS2 file system..."
${SUDO} ./src/jffs2/unjffs2 "${FSIMG}" 1>&2 2>/dev/null
# unjffs2 extracts to hard-coded directory of 'rootfs'
if [ -e "rootfs" ]
then
${SUDO} mv rootfs "${ROOTFS}"
fi
echo "MKFS='./src/jffs2/mkjffs2'" >> "${CONFLOG}"
;;
*)
echo "Unsupported file system '${FS_TYPE}'! Quitting..."
rm -rf "${DIR}"
exit 1
;;
esac
# Check if file system extraction was successful
if [ ${?} -eq 0 ]; then
echo "Firmware extraction successful!"
echo "Firmware parts can be found in '${DIR}/*'"
else
echo "Firmware extraction failed!"
rm -rf "${DIR}"
exit 1
fi
exit 0