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#!/usr/bin/env python3
#
# Copyright 2021, The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Repacks the boot image.
Unpacks the boot image and the ramdisk inside, then add files into
the ramdisk to repack the boot image.
"""
import argparse
import datetime
import enum
import glob
import os
import shlex
import shutil
import subprocess
import tempfile
class TempFileManager:
"""Manages temporary files and dirs."""
def __init__(self):
self._temp_files = []
def __del__(self):
"""Removes temp dirs and files."""
for f in self._temp_files:
if os.path.isdir(f):
shutil.rmtree(f, ignore_errors=True)
else:
os.remove(f)
def make_temp_dir(self, prefix='tmp', suffix=''):
"""Makes a temporary dir that will be cleaned up in the destructor.
Returns:
The absolute pathname of the new directory.
"""
dir_name = tempfile.mkdtemp(prefix=prefix, suffix=suffix)
self._temp_files.append(dir_name)
return dir_name
def make_temp_file(self, prefix='tmp', suffix=''):
"""Make a temp file that will be deleted in the destructor.
Returns:
The absolute pathname of the new file.
"""
fd, file_name = tempfile.mkstemp(prefix=prefix, suffix=suffix)
os.close(fd)
self._temp_files.append(file_name)
return file_name
class RamdiskFormat(enum.Enum):
"""Enum class for different ramdisk compression formats."""
LZ4 = 1
GZIP = 2
class BootImageType(enum.Enum):
"""Enum class for different boot image types."""
BOOT_IMAGE = 1
VENDOR_BOOT_IMAGE = 2
SINGLE_RAMDISK_FRAGMENT = 3
MULTIPLE_RAMDISK_FRAGMENTS = 4
class RamdiskImage:
"""A class that supports packing/unpacking a ramdisk."""
def __init__(self, ramdisk_img, unpack=True):
self._ramdisk_img = ramdisk_img
self._ramdisk_format = None
self._ramdisk_dir = None
self._temp_file_manager = TempFileManager()
if unpack:
self._unpack_ramdisk()
else:
self._ramdisk_dir = self._temp_file_manager.make_temp_dir(
suffix='_new_ramdisk')
def _unpack_ramdisk(self):
"""Unpacks the ramdisk."""
self._ramdisk_dir = self._temp_file_manager.make_temp_dir(
suffix='_' + os.path.basename(self._ramdisk_img))
# The compression format might be in 'lz4' or 'gzip' format,
# trying lz4 first.
for compression_type, compression_util in [
(RamdiskFormat.LZ4, 'lz4'),
(RamdiskFormat.GZIP, 'minigzip')]:
# Command arguments:
# -d: decompression
# -c: write to stdout
decompression_cmd = [
compression_util, '-d', '-c', self._ramdisk_img]
decompressed_result = subprocess.run(
decompression_cmd, check=False, capture_output=True)
if decompressed_result.returncode == 0:
self._ramdisk_format = compression_type
break
if self._ramdisk_format is not None:
# toybox cpio arguments:
# -i: extract files from stdin
# -d: create directories if needed
# -u: override existing files
subprocess.run(
['toybox', 'cpio', '-idu'], check=True,
input=decompressed_result.stdout, cwd=self._ramdisk_dir)
print(f"=== Unpacked ramdisk: '{self._ramdisk_img}' at "
f"'{self._ramdisk_dir}' ===")
else:
raise RuntimeError('Failed to decompress ramdisk.')
def repack_ramdisk(self, out_ramdisk_file):
"""Repacks a ramdisk from self._ramdisk_dir.
Args:
out_ramdisk_file: the output ramdisk file to save.
"""
compression_cmd = ['lz4', '-l', '-12', '--favor-decSpeed']
if self._ramdisk_format == RamdiskFormat.GZIP:
compression_cmd = ['minigzip']
print('Repacking ramdisk, which might take a few seconds ...')
mkbootfs_result = subprocess.run(
['mkbootfs', self._ramdisk_dir], check=True, capture_output=True)
with open(out_ramdisk_file, 'w') as output_fd:
subprocess.run(compression_cmd, check=True,
input=mkbootfs_result.stdout, stdout=output_fd)
print("=== Repacked ramdisk: '{}' ===".format(out_ramdisk_file))
@property
def ramdisk_dir(self):
"""Returns the internal ramdisk dir."""
return self._ramdisk_dir
class BootImage:
"""A class that supports packing/unpacking a boot.img and ramdisk."""
def __init__(self, bootimg):
self._bootimg = bootimg
self._bootimg_dir = None
self._bootimg_type = None
self._ramdisk = None
self._previous_mkbootimg_args = []
self._temp_file_manager = TempFileManager()
self._unpack_bootimg()
def _get_vendor_ramdisks(self):
"""Returns a list of vendor ramdisks after unpack."""
return sorted(glob.glob(
os.path.join(self._bootimg_dir, 'vendor_ramdisk*')))
def _unpack_bootimg(self):
"""Unpacks the boot.img and the ramdisk inside."""
self._bootimg_dir = self._temp_file_manager.make_temp_dir(
suffix='_' + os.path.basename(self._bootimg))
# Unpacks the boot.img first.
unpack_bootimg_cmds = [
'unpack_bootimg',
'--boot_img', self._bootimg,
'--out', self._bootimg_dir,
'--format=mkbootimg',
]
result = subprocess.run(unpack_bootimg_cmds, check=True,
capture_output=True, encoding='utf-8')
self._previous_mkbootimg_args = shlex.split(result.stdout)
print("=== Unpacked boot image: '{}' ===".format(self._bootimg))
# From the output dir, checks there is 'ramdisk' or 'vendor_ramdisk'.
ramdisk = os.path.join(self._bootimg_dir, 'ramdisk')
vendor_ramdisk = os.path.join(self._bootimg_dir, 'vendor_ramdisk')
vendor_ramdisks = self._get_vendor_ramdisks()
if os.path.exists(ramdisk):
self._ramdisk = RamdiskImage(ramdisk)
self._bootimg_type = BootImageType.BOOT_IMAGE
elif os.path.exists(vendor_ramdisk):
self._ramdisk = RamdiskImage(vendor_ramdisk)
self._bootimg_type = BootImageType.VENDOR_BOOT_IMAGE
elif len(vendor_ramdisks) == 1:
self._ramdisk = RamdiskImage(vendor_ramdisks[0])
self._bootimg_type = BootImageType.SINGLE_RAMDISK_FRAGMENT
elif len(vendor_ramdisks) > 1:
# Creates an empty RamdiskImage() below, without unpack.
# We'll then add files into this newly created ramdisk, then pack
# it with other vendor ramdisks together.
self._ramdisk = RamdiskImage(ramdisk_img=None, unpack=False)
self._bootimg_type = BootImageType.MULTIPLE_RAMDISK_FRAGMENTS
else:
raise RuntimeError('Both ramdisk and vendor_ramdisk do not exist.')
def repack_bootimg(self):
"""Repacks the ramdisk and rebuild the boot.img"""
new_ramdisk = self._temp_file_manager.make_temp_file(
prefix='ramdisk-patched')
self._ramdisk.repack_ramdisk(new_ramdisk)
mkbootimg_cmd = ['mkbootimg']
# Uses previous mkbootimg args, e.g., --vendor_cmdline, --dtb_offset.
mkbootimg_cmd.extend(self._previous_mkbootimg_args)
ramdisk_option = ''
if self._bootimg_type == BootImageType.BOOT_IMAGE:
ramdisk_option = '--ramdisk'
mkbootimg_cmd.extend(['--output', self._bootimg])
elif self._bootimg_type == BootImageType.VENDOR_BOOT_IMAGE:
ramdisk_option = '--vendor_ramdisk'
mkbootimg_cmd.extend(['--vendor_boot', self._bootimg])
elif self._bootimg_type == BootImageType.SINGLE_RAMDISK_FRAGMENT:
ramdisk_option = '--vendor_ramdisk_fragment'
mkbootimg_cmd.extend(['--vendor_boot', self._bootimg])
elif self._bootimg_type == BootImageType.MULTIPLE_RAMDISK_FRAGMENTS:
mkbootimg_cmd.extend(['--ramdisk_type', 'PLATFORM'])
ramdisk_name = (
'RAMDISK_' +
datetime.datetime.now().strftime('%Y-%m-%d_%H:%M:%S'))
mkbootimg_cmd.extend(['--ramdisk_name', ramdisk_name])
mkbootimg_cmd.extend(['--vendor_ramdisk_fragment', new_ramdisk])
mkbootimg_cmd.extend(['--vendor_boot', self._bootimg])
if ramdisk_option and ramdisk_option not in mkbootimg_cmd:
raise RuntimeError("Failed to find '{}' from:\n {}".format(
ramdisk_option, shlex.join(mkbootimg_cmd)))
# Replaces the original ramdisk with the newly packed ramdisk.
if ramdisk_option:
ramdisk_index = mkbootimg_cmd.index(ramdisk_option) + 1
mkbootimg_cmd[ramdisk_index] = new_ramdisk
subprocess.check_call(mkbootimg_cmd)
print("=== Repacked boot image: '{}' ===".format(self._bootimg))
def add_files(self, copy_pairs):
"""Copy files specified by copy_pairs into current ramdisk.
Args:
copy_pairs: a list of (src_pathname, dst_file) pairs.
"""
# Creates missing parent dirs with 0o755.
original_mask = os.umask(0o022)
for src_pathname, dst_file in copy_pairs:
dst_pathname = os.path.join(self.ramdisk_dir, dst_file)
dst_dir = os.path.dirname(dst_pathname)
if not os.path.exists(dst_dir):
print("Creating dir '{}'".format(dst_dir))
os.makedirs(dst_dir, 0o755)
print(f"Copying file '{src_pathname}' to '{dst_pathname}'")
shutil.copy2(src_pathname, dst_pathname, follow_symlinks=False)
os.umask(original_mask)
@property
def ramdisk_dir(self):
"""Returns the internal ramdisk dir."""
return self._ramdisk.ramdisk_dir
def _get_repack_usage():
return """Usage examples:
* --ramdisk_add
Specifies a list of files or src_file:dst_file pairs to copy.
If --src_bootimg is specified, copy files from the ramdisk of --src_bootimg
into the ramdisk of --dst_bootimg.
If --local is given, copy files from the local filesystem into the ramdisk
of --dst_bootimg.
$ %(prog)s \\
--src_bootimg boot-debug-5.4.img --dst_bootimg vendor_boot-debug.img \\
--ramdisk_add first_stage_ramdisk/userdebug_plat_sepolicy.cil:userdebug_plat_sepolicy.cil
The above command copies 'first_stage_ramdisk/userdebug_plat_sepolicy.cil'
from the ramdisk of --src_bootimg to 'userdebug_plat_sepolicy.cil' of the
ramdisk of --dst_bootimg, then repacks the --dst_bootimg.
$ %(prog)s \\
--local --dst_bootimg vendor_boot-debug.img \\
--ramdisk_add userdebug_plat_sepolicy.cil
The above command copies a local file 'userdebug_plat_sepolicy.cil' into the
ramdisk of --dst_bootimg.
$ %(prog)s \\
--src_bootimg boot-debug-5.4.img --dst_bootimg vendor_boot-debug.img \\
--ramdisk_add first_stage_ramdisk/userdebug_plat_sepolicy.cil
This is similar to the first example, but the source file path and
destination file path are the same:
'first_stage_ramdisk/userdebug_plat_sepolicy.cil'.
We can also combine both usage together with a list of copy instructions.
For example:
$ %(prog)s \\
--src_bootimg boot-debug-5.4.img --dst_bootimg vendor_boot-debug.img \\
--ramdisk_add file1 file2:subdir/file2 file3
"""
def _parse_args():
"""Parse command-line options."""
parser = argparse.ArgumentParser(
formatter_class=argparse.RawDescriptionHelpFormatter,
description='Repacks boot, recovery or vendor_boot image by importing '
'ramdisk files from --src_bootimg to --dst_bootimg.',
epilog=_get_repack_usage(),
)
src_group = parser.add_mutually_exclusive_group(required=True)
src_group.add_argument(
'--src_bootimg', help='filename to source boot image',
type=BootImage)
src_group.add_argument(
'--local', help='use local files as repack source',
action='store_true')
parser.add_argument(
'--dst_bootimg', help='filename to destination boot image',
type=BootImage, required=True)
parser.add_argument(
'--ramdisk_add', nargs='+',
help='a list of files or src_file:dst_file pairs to add into '
'the ramdisk',
default=['userdebug_plat_sepolicy.cil']
)
args = parser.parse_args()
# Parse args.ramdisk_add to a list of copy pairs.
if args.src_bootimg:
args.ramdisk_add = [
_parse_ramdisk_copy_pair(p, args.src_bootimg.ramdisk_dir)
for p in args.ramdisk_add
]
else:
# Repack from local files.
args.ramdisk_add = [
_parse_ramdisk_copy_pair(p) for p in args.ramdisk_add
]
return args
def _parse_ramdisk_copy_pair(pair, src_ramdisk_dir=None):
"""Parse a ramdisk copy pair argument."""
if ':' in pair:
src_file, dst_file = pair.split(':', maxsplit=1)
else:
src_file = dst_file = pair
# os.path.join() only works on relative path components.
# If a component is an absolute path, all previous components are thrown
# away and joining continues from the absolute path component.
# So make sure the file name is not absolute before calling os.path.join().
if src_ramdisk_dir:
if os.path.isabs(src_file):
raise ValueError('file name cannot be absolute when repacking from '
'a ramdisk: ' + src_file)
src_pathname = os.path.join(src_ramdisk_dir, src_file)
else:
src_pathname = src_file
if os.path.isabs(dst_file):
raise ValueError('destination file name cannot be absolute: ' +
dst_file)
return (src_pathname, dst_file)
def main():
"""Parse arguments and repack boot image."""
args = _parse_args()
args.dst_bootimg.add_files(args.ramdisk_add)
args.dst_bootimg.repack_bootimg()
if __name__ == '__main__':
main()