lib/cros_image_common.sh - mirrors/cros/chromiumos/platform/crosutils - Git at Google

 #!/bin/bash

 # Copyright (c) 2009 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 contains common utility function to deal with disk images,
 # especially for being redistributed into platforms without complete Chromium OS
 # developing environment.

 # Checks if given command is available in current system
 image_has_command() {
   type "$1" >/dev/null 2>&1
 }

 # Prints error message and exit as 1 (error)
 image_die() {
   echo "ERROR: $@" >&2
   exit 1
 }

 # Finds the best gzip compressor and invoke it
 image_gzip_compress() {
   if image_has_command pigz; then
     # echo " ** Using parallel gzip **" >&2
     # Tested with -b 32, 64, 128(default), 256, 1024, 16384, and -b 32 (max
     # window size of Deflate) seems to be the best in output size.
     pigz -b 32 "$@"
   else
     gzip "$@"
   fi
 }

 # Finds the best bzip2 compressor and invoke it
 image_bzip2_compress() {
   if image_has_command pbzip2; then
     pbzip2 "$@"
   else
     bzip2 "$@"
   fi
 }

 # Finds if current system has tools for part_* commands
 image_has_part_tools() {
   image_has_command cgpt || image_has_command parted
 }

 # Finds the best partition tool and print partition offset
 image_part_offset() {
   local file="$1"
   local partno="$2"
   local unpack_file="$(dirname "$file")/unpack_partitions.sh"

   # TODO parted is available on most Linux so we may deprecate other code path
   if image_has_command cgpt; then
     cgpt show -b -i "$partno" "$file"
   elif image_has_command parted; then
     parted -m "$file" unit s print | awk -F ':' "/^$partno:/ { print int(\$2) }"
   elif [ -f "$unpack_file" ]; then
     awk "/ $partno  *Label:/ { print \$2 }" "$unpack_file"
   else
     exit 1
   fi
 }

 # Finds the best partition tool and print partition size
 image_part_size() {
   local file="$1"
   local partno="$2"
   local unpack_file="$(dirname "$file")/unpack_partitions.sh"

   # TODO parted is available on most Linux so we may deprecate other code path
   if image_has_command cgpt; then
     cgpt show -s -i "$partno" "$file"
   elif image_has_command parted; then
     parted -m "$file" unit s print | awk -F ':' "/^$partno:/ { print int(\$4) }"
   elif [ -s "$unpack_file" ]; then
     awk "/ $partno  *Label:/ { print \$3 }" "$unpack_file"
   else
     exit 1
   fi
 }

 # Dumps a file by given offset and size (in sectors)
 image_dump_partial_file() {
   local file="$1"
   local offset="$2"
   local sectors="$3"
   local bs=512

   # Try to use larger buffer if offset/size can be re-aligned.
   # 2M / 512 = 4096
   local buffer_ratio=4096
   if [ $((offset % buffer_ratio)) -eq 0 -a \
        $((sectors % buffer_ratio)) -eq 0 ]; then
     offset=$((offset / buffer_ratio))
     sectors=$((sectors / buffer_ratio))
     bs=$((bs * buffer_ratio))
   fi

   if image_has_command pv; then
     dd if="$file" bs=$bs skip="$offset" count="$sectors" \
       oflag=sync status=noxfer 2>/dev/null |
       pv -ptreb -B $bs -s $((sectors * bs))
   else
     dd if="$file" bs=$bs skip="$offset" count="$sectors" \
       oflag=sync status=noxfer 2>/dev/null
   fi
 }

 # Dumps a specific partition from given image file
 image_dump_partition() {
   local file="$1"
   local part_num="$2"
   local offset="$(image_part_offset "$file" "$part_num")" ||
     image_die "failed to find partition #$part_num from: $file"
   local size="$(image_part_size "$file" "$part_num")" ||
     image_die "failed to find partition #$part_num from: $file"

   image_dump_partial_file "$file" "$offset" "$size"
 }

 # Maps a specific partition from given image file to a loop device
 image_map_partition() {
   local file="$1"
   local part_num="$2"
   local offset="$(image_part_offset "$file" "$part_num")" ||
     image_die "failed to find partition #$part_num from: $file"
   local size="$(image_part_size "$file" "$part_num")" ||
     image_die "failed to find partition #$part_num from: $file"

   losetup --offset $((offset * 512)) --sizelimit=$((size * 512)) \
     -f --show "$file"
 }

 # Unmaps a loop device created by image_map_partition
 image_unmap_partition() {
   local map_point="$1"

   losetup -d "$map_point"
 }

 # Mounts a specific partition inside a given image file
 image_mount_partition() {
   local file="$1"
   local part_num="$2"
   local mount_point="$3"
   local mount_opt="$4"
   local offset="$(image_part_offset "$file" "$part_num")" ||
     image_die "failed to find partition #$part_num from: $file"
   local size="$(image_part_size "$file" "$part_num")" ||
     image_die "failed to find partition #$part_num from: $file"

   if [ -z "$mount_opt" ]; then
     # by default, mount as read-only.
     mount_opt=",ro"
   fi

   mount \
     -o "loop,offset=$((offset * 512)),sizelimit=$((size * 512)),$mount_opt" \
     "$file" \
     "$mount_point"
 }

 # Unmounts a partition mount point by mount_partition
 image_umount_partition() {
   local mount_point="$1"

   umount -d "$mount_point"
 }

 # Copy a partition from one image to another.
 image_partition_copy() {
   local src="$1"
   local srcpart="$2"
   local dst="$3"
   local dstpart="$4"

   local srcoffset=$(image_part_offset "${src}" "${srcpart}")
   local dstoffset=$(image_part_offset "${dst}" "${dstpart}")
   local length=$(image_part_size "${src}" "${srcpart}")
   local dstlength=$(image_part_size "${dst}" "${dstpart}")

   if [ "${length}" -gt  "${dstlength}" ]; then
     exit 1
   fi

   # Try to use larger buffer if offset/size can be re-aligned.
   # 2M / 512 = 4096
   local buffer_ratio=4096
   local bs=512
   if [ $((dstoffset % buffer_ratio)) -eq 0 -a \
        $((length % buffer_ratio)) -eq 0 ]; then
     dstoffset=$((dstoffset / buffer_ratio))
     bs=$((bs * buffer_ratio))
   fi

   image_dump_partition "${src}" "${srcpart}" |
       dd of="${dst}" bs="${bs}" seek="${dstoffset}" conv=notrunc oflag=dsync
 }
	#!/bin/bash

	# Copyright (c) 2009 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 contains common utility function to deal with disk images,
	# especially for being redistributed into platforms without complete Chromium OS
	# developing environment.

	# Checks if given command is available in current system
	image_has_command() {
	type "$1" >/dev/null 2>&1
	}

	# Prints error message and exit as 1 (error)
	image_die() {
	echo "ERROR: $@" >&2
	exit 1
	}

	# Finds the best gzip compressor and invoke it
	image_gzip_compress() {
	if image_has_command pigz; then
	# echo " Using parallel gzip " >&2
	# Tested with -b 32, 64, 128(default), 256, 1024, 16384, and -b 32 (max
	# window size of Deflate) seems to be the best in output size.
	pigz -b 32 "$@"
	else
	gzip "$@"
	fi
	}

	# Finds the best bzip2 compressor and invoke it
	image_bzip2_compress() {
	if image_has_command pbzip2; then
	pbzip2 "$@"
	else
	bzip2 "$@"
	fi
	}

	# Finds if current system has tools for part_* commands
	image_has_part_tools() {
	image_has_command cgpt \|\| image_has_command parted
	}

	# Finds the best partition tool and print partition offset
	image_part_offset() {
	local file="$1"
	local partno="$2"
	local unpack_file="$(dirname "$file")/unpack_partitions.sh"

	# TODO parted is available on most Linux so we may deprecate other code path
	if image_has_command cgpt; then
	cgpt show -b -i "$partno" "$file"
	elif image_has_command parted; then
	parted -m "$file" unit s print \| awk -F ':' "/^$partno:/ { print int(\$2) }"
	elif [ -f "$unpack_file" ]; then
	awk "/ $partno *Label:/ { print \$2 }" "$unpack_file"
	else
	exit 1
	fi
	}

	# Finds the best partition tool and print partition size
	image_part_size() {
	local file="$1"
	local partno="$2"
	local unpack_file="$(dirname "$file")/unpack_partitions.sh"

	# TODO parted is available on most Linux so we may deprecate other code path
	if image_has_command cgpt; then
	cgpt show -s -i "$partno" "$file"
	elif image_has_command parted; then
	parted -m "$file" unit s print \| awk -F ':' "/^$partno:/ { print int(\$4) }"
	elif [ -s "$unpack_file" ]; then
	awk "/ $partno *Label:/ { print \$3 }" "$unpack_file"
	else
	exit 1
	fi
	}

	# Dumps a file by given offset and size (in sectors)
	image_dump_partial_file() {
	local file="$1"
	local offset="$2"
	local sectors="$3"
	local bs=512

	# Try to use larger buffer if offset/size can be re-aligned.
	# 2M / 512 = 4096
	local buffer_ratio=4096
	if [ $((offset % buffer_ratio)) -eq 0 -a \
	$((sectors % buffer_ratio)) -eq 0 ]; then
	offset=$((offset / buffer_ratio))
	sectors=$((sectors / buffer_ratio))
	bs=$((bs * buffer_ratio))
	fi

	if image_has_command pv; then
	dd if="$file" bs=$bs skip="$offset" count="$sectors" \
	oflag=sync status=noxfer 2>/dev/null \|
	pv -ptreb -B $bs -s $((sectors * bs))
	else
	dd if="$file" bs=$bs skip="$offset" count="$sectors" \
	oflag=sync status=noxfer 2>/dev/null
	fi
	}

	# Dumps a specific partition from given image file
	image_dump_partition() {
	local file="$1"
	local part_num="$2"
	local offset="$(image_part_offset "$file" "$part_num")" \|\|
	image_die "failed to find partition #$part_num from: $file"
	local size="$(image_part_size "$file" "$part_num")" \|\|
	image_die "failed to find partition #$part_num from: $file"

	image_dump_partial_file "$file" "$offset" "$size"
	}

	# Maps a specific partition from given image file to a loop device
	image_map_partition() {
	local file="$1"
	local part_num="$2"
	local offset="$(image_part_offset "$file" "$part_num")" \|\|
	image_die "failed to find partition #$part_num from: $file"
	local size="$(image_part_size "$file" "$part_num")" \|\|
	image_die "failed to find partition #$part_num from: $file"

	losetup --offset $((offset * 512)) --sizelimit=$((size * 512)) \
	-f --show "$file"
	}

	# Unmaps a loop device created by image_map_partition
	image_unmap_partition() {
	local map_point="$1"

	losetup -d "$map_point"
	}

	# Mounts a specific partition inside a given image file
	image_mount_partition() {
	local file="$1"
	local part_num="$2"
	local mount_point="$3"
	local mount_opt="$4"
	local offset="$(image_part_offset "$file" "$part_num")" \|\|
	image_die "failed to find partition #$part_num from: $file"
	local size="$(image_part_size "$file" "$part_num")" \|\|
	image_die "failed to find partition #$part_num from: $file"

	if [ -z "$mount_opt" ]; then
	# by default, mount as read-only.
	mount_opt=",ro"
	fi

	mount \
	-o "loop,offset=$((offset * 512)),sizelimit=$((size * 512)),$mount_opt" \
	"$file" \
	"$mount_point"
	}

	# Unmounts a partition mount point by mount_partition
	image_umount_partition() {
	local mount_point="$1"

	umount -d "$mount_point"
	}

	# Copy a partition from one image to another.
	image_partition_copy() {
	local src="$1"
	local srcpart="$2"
	local dst="$3"
	local dstpart="$4"

	local srcoffset=$(image_part_offset "${src}" "${srcpart}")
	local dstoffset=$(image_part_offset "${dst}" "${dstpart}")
	local length=$(image_part_size "${src}" "${srcpart}")
	local dstlength=$(image_part_size "${dst}" "${dstpart}")

	if [ "${length}" -gt "${dstlength}" ]; then
	exit 1
	fi

	# Try to use larger buffer if offset/size can be re-aligned.
	# 2M / 512 = 4096
	local buffer_ratio=4096
	local bs=512
	if [ $((dstoffset % buffer_ratio)) -eq 0 -a \
	$((length % buffer_ratio)) -eq 0 ]; then
	dstoffset=$((dstoffset / buffer_ratio))
	bs=$((bs * buffer_ratio))
	fi

	image_dump_partition "${src}" "${srcpart}" \|
	dd of="${dst}" bs="${bs}" seek="${dstoffset}" conv=notrunc oflag=dsync
	}