08c190fc89
Chained vbmeta partitions (vbmeta_system, vbmeta_vendor) were added to
support dynamic partitions. validate_target_files.py misses the logic in
handling such partitions.
Bug: 132882632
Test: Run validate_target_files.py on a target_files.zip that uses
chained vbmeta_system partition.
Change-Id: Id06c575d13d5e9cc1b621f485ceb75d3e354c39f
Merged-In: Id06c575d13d5e9cc1b621f485ceb75d3e354c39f
(cherry picked from commit 814b14b3f7
)
403 lines
16 KiB
Python
Executable file
403 lines
16 KiB
Python
Executable file
#!/usr/bin/env python
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# Copyright (C) 2017 The Android Open Source Project
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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"""
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Validate a given (signed) target_files.zip.
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It performs the following checks to assert the integrity of the input zip.
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- It verifies the file consistency between the ones in IMAGES/system.img (read
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via IMAGES/system.map) and the ones under unpacked folder of SYSTEM/. The
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same check also applies to the vendor image if present.
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- It verifies the install-recovery script consistency, by comparing the
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checksums in the script against the ones of IMAGES/{boot,recovery}.img.
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- It verifies the signed Verified Boot related images, for both of Verified
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Boot 1.0 and 2.0 (aka AVB).
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"""
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import argparse
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import filecmp
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import logging
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import os.path
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import re
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import zipfile
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import common
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def _ReadFile(file_name, unpacked_name, round_up=False):
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"""Constructs and returns a File object. Rounds up its size if needed."""
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assert os.path.exists(unpacked_name)
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with open(unpacked_name, 'r') as f:
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file_data = f.read()
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file_size = len(file_data)
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if round_up:
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file_size_rounded_up = common.RoundUpTo4K(file_size)
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file_data += '\0' * (file_size_rounded_up - file_size)
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return common.File(file_name, file_data)
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def ValidateFileAgainstSha1(input_tmp, file_name, file_path, expected_sha1):
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"""Check if the file has the expected SHA-1."""
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logging.info('Validating the SHA-1 of %s', file_name)
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unpacked_name = os.path.join(input_tmp, file_path)
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assert os.path.exists(unpacked_name)
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actual_sha1 = _ReadFile(file_name, unpacked_name, False).sha1
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assert actual_sha1 == expected_sha1, \
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'SHA-1 mismatches for {}. actual {}, expected {}'.format(
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file_name, actual_sha1, expected_sha1)
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def ValidateFileConsistency(input_zip, input_tmp, info_dict):
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"""Compare the files from image files and unpacked folders."""
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def CheckAllFiles(which):
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logging.info('Checking %s image.', which)
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# Allow having shared blocks when loading the sparse image, because allowing
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# that doesn't affect the checks below (we will have all the blocks on file,
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# unless it's skipped due to the holes).
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image = common.GetSparseImage(which, input_tmp, input_zip, True)
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prefix = '/' + which
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for entry in image.file_map:
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# Skip entries like '__NONZERO-0'.
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if not entry.startswith(prefix):
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continue
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# Read the blocks that the file resides. Note that it will contain the
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# bytes past the file length, which is expected to be padded with '\0's.
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ranges = image.file_map[entry]
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# Use the original RangeSet if applicable, which includes the shared
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# blocks. And this needs to happen before checking the monotonicity flag.
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if ranges.extra.get('uses_shared_blocks'):
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file_ranges = ranges.extra['uses_shared_blocks']
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else:
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file_ranges = ranges
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incomplete = file_ranges.extra.get('incomplete', False)
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if incomplete:
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logging.warning('Skipping %s that has incomplete block list', entry)
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continue
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# TODO(b/79951650): Handle files with non-monotonic ranges.
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if not file_ranges.monotonic:
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logging.warning(
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'Skipping %s that has non-monotonic ranges: %s', entry, file_ranges)
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continue
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blocks_sha1 = image.RangeSha1(file_ranges)
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# The filename under unpacked directory, such as SYSTEM/bin/sh.
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unpacked_name = os.path.join(
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input_tmp, which.upper(), entry[(len(prefix) + 1):])
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unpacked_file = _ReadFile(entry, unpacked_name, True)
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file_sha1 = unpacked_file.sha1
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assert blocks_sha1 == file_sha1, \
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'file: %s, range: %s, blocks_sha1: %s, file_sha1: %s' % (
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entry, file_ranges, blocks_sha1, file_sha1)
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logging.info('Validating file consistency.')
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# TODO(b/79617342): Validate non-sparse images.
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if info_dict.get('extfs_sparse_flag') != '-s':
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logging.warning('Skipped due to target using non-sparse images')
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return
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# Verify IMAGES/system.img.
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CheckAllFiles('system')
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# Verify IMAGES/vendor.img if applicable.
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if 'VENDOR/' in input_zip.namelist():
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CheckAllFiles('vendor')
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# Not checking IMAGES/system_other.img since it doesn't have the map file.
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def ValidateInstallRecoveryScript(input_tmp, info_dict):
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"""Validate the SHA-1 embedded in install-recovery.sh.
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install-recovery.sh is written in common.py and has the following format:
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1. full recovery:
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...
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if ! applypatch --check type:device:size:sha1; then
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applypatch --flash /system/etc/recovery.img \\
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type:device:size:sha1 && \\
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...
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2. recovery from boot:
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...
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if ! applypatch --check type:recovery_device:recovery_size:recovery_sha1; then
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applypatch [--bonus bonus_args] \\
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--patch /system/recovery-from-boot.p \\
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--source type:boot_device:boot_size:boot_sha1 \\
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--target type:recovery_device:recovery_size:recovery_sha1 && \\
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...
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For full recovery, we want to calculate the SHA-1 of /system/etc/recovery.img
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and compare it against the one embedded in the script. While for recovery
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from boot, we want to check the SHA-1 for both recovery.img and boot.img
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under IMAGES/.
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"""
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script_path = 'SYSTEM/bin/install-recovery.sh'
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if not os.path.exists(os.path.join(input_tmp, script_path)):
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logging.info('%s does not exist in input_tmp', script_path)
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return
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logging.info('Checking %s', script_path)
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with open(os.path.join(input_tmp, script_path), 'r') as script:
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lines = script.read().strip().split('\n')
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assert len(lines) >= 10
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check_cmd = re.search(r'if ! applypatch --check (\w+:.+:\w+:\w+);',
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lines[1].strip())
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check_partition = check_cmd.group(1)
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assert len(check_partition.split(':')) == 4
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full_recovery_image = info_dict.get("full_recovery_image") == "true"
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if full_recovery_image:
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assert len(lines) == 10, "Invalid line count: {}".format(lines)
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# Expect something like "EMMC:/dev/block/recovery:28:5f9c..62e3".
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target = re.search(r'--target (.+) &&', lines[4].strip())
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assert target is not None, \
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"Failed to parse target line \"{}\"".format(lines[4])
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flash_partition = target.group(1)
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# Check we have the same recovery target in the check and flash commands.
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assert check_partition == flash_partition, \
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"Mismatching targets: {} vs {}".format(check_partition, flash_partition)
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# Validate the SHA-1 of the recovery image.
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recovery_sha1 = flash_partition.split(':')[3]
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ValidateFileAgainstSha1(
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input_tmp, 'recovery.img', 'SYSTEM/etc/recovery.img', recovery_sha1)
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else:
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assert len(lines) == 11, "Invalid line count: {}".format(lines)
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# --source boot_type:boot_device:boot_size:boot_sha1
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source = re.search(r'--source (\w+:.+:\w+:\w+) \\', lines[4].strip())
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assert source is not None, \
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"Failed to parse source line \"{}\"".format(lines[4])
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source_partition = source.group(1)
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source_info = source_partition.split(':')
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assert len(source_info) == 4, \
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"Invalid source partition: {}".format(source_partition)
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ValidateFileAgainstSha1(input_tmp, file_name='boot.img',
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file_path='IMAGES/boot.img',
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expected_sha1=source_info[3])
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# --target recovery_type:recovery_device:recovery_size:recovery_sha1
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target = re.search(r'--target (\w+:.+:\w+:\w+) && \\', lines[5].strip())
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assert target is not None, \
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"Failed to parse target line \"{}\"".format(lines[5])
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target_partition = target.group(1)
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# Check we have the same recovery target in the check and patch commands.
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assert check_partition == target_partition, \
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"Mismatching targets: {} vs {}".format(
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check_partition, target_partition)
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recovery_info = target_partition.split(':')
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assert len(recovery_info) == 4, \
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"Invalid target partition: {}".format(target_partition)
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ValidateFileAgainstSha1(input_tmp, file_name='recovery.img',
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file_path='IMAGES/recovery.img',
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expected_sha1=recovery_info[3])
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logging.info('Done checking %s', script_path)
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def ValidateVerifiedBootImages(input_tmp, info_dict, options):
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"""Validates the Verified Boot related images.
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For Verified Boot 1.0, it verifies the signatures of the bootable images
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(boot/recovery etc), as well as the dm-verity metadata in system images
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(system/vendor/product). For Verified Boot 2.0, it calls avbtool to verify
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vbmeta.img, which in turn verifies all the descriptors listed in vbmeta.
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Args:
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input_tmp: The top-level directory of unpacked target-files.zip.
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info_dict: The loaded info dict.
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options: A dict that contains the user-supplied public keys to be used for
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image verification. In particular, 'verity_key' is used to verify the
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bootable images in VB 1.0, and the vbmeta image in VB 2.0, where
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applicable. 'verity_key_mincrypt' will be used to verify the system
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images in VB 1.0.
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Raises:
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AssertionError: On any verification failure.
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"""
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# Verified boot 1.0 (images signed with boot_signer and verity_signer).
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if info_dict.get('boot_signer') == 'true':
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logging.info('Verifying Verified Boot images...')
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# Verify the boot/recovery images (signed with boot_signer), against the
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# given X.509 encoded pubkey (or falling back to the one in the info_dict if
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# none given).
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verity_key = options['verity_key']
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if verity_key is None:
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verity_key = info_dict['verity_key'] + '.x509.pem'
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for image in ('boot.img', 'recovery.img', 'recovery-two-step.img'):
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image_path = os.path.join(input_tmp, 'IMAGES', image)
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if not os.path.exists(image_path):
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continue
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cmd = ['boot_signer', '-verify', image_path, '-certificate', verity_key]
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proc = common.Run(cmd)
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stdoutdata, _ = proc.communicate()
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assert proc.returncode == 0, \
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'Failed to verify {} with boot_signer:\n{}'.format(image, stdoutdata)
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logging.info(
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'Verified %s with boot_signer (key: %s):\n%s', image, verity_key,
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stdoutdata.rstrip())
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# Verify verity signed system images in Verified Boot 1.0. Note that not using
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# 'elif' here, since 'boot_signer' and 'verity' are not bundled in VB 1.0.
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if info_dict.get('verity') == 'true':
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# First verify that the verity key that's built into the root image (as
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# /verity_key) matches the one given via command line, if any.
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if info_dict.get("system_root_image") == "true":
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verity_key_mincrypt = os.path.join(input_tmp, 'ROOT', 'verity_key')
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else:
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verity_key_mincrypt = os.path.join(
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input_tmp, 'BOOT', 'RAMDISK', 'verity_key')
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assert os.path.exists(verity_key_mincrypt), 'Missing verity_key'
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if options['verity_key_mincrypt'] is None:
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logging.warn(
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'Skipped checking the content of /verity_key, as the key file not '
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'provided. Use --verity_key_mincrypt to specify.')
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else:
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expected_key = options['verity_key_mincrypt']
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assert filecmp.cmp(expected_key, verity_key_mincrypt, shallow=False), \
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"Mismatching mincrypt verity key files"
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logging.info('Verified the content of /verity_key')
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# Then verify the verity signed system/vendor/product images, against the
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# verity pubkey in mincrypt format.
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for image in ('system.img', 'vendor.img', 'product.img'):
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image_path = os.path.join(input_tmp, 'IMAGES', image)
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# We are not checking if the image is actually enabled via info_dict (e.g.
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# 'system_verity_block_device=...'). Because it's most likely a bug that
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# skips signing some of the images in signed target-files.zip, while
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# having the top-level verity flag enabled.
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if not os.path.exists(image_path):
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continue
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cmd = ['verity_verifier', image_path, '-mincrypt', verity_key_mincrypt]
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proc = common.Run(cmd)
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stdoutdata, _ = proc.communicate()
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assert proc.returncode == 0, \
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'Failed to verify {} with verity_verifier (key: {}):\n{}'.format(
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image, verity_key_mincrypt, stdoutdata)
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logging.info(
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'Verified %s with verity_verifier (key: %s):\n%s', image,
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verity_key_mincrypt, stdoutdata.rstrip())
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# Handle the case of Verified Boot 2.0 (AVB).
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if info_dict.get("avb_enable") == "true":
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logging.info('Verifying Verified Boot 2.0 (AVB) images...')
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key = options['verity_key']
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if key is None:
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key = info_dict['avb_vbmeta_key_path']
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# avbtool verifies all the images that have descriptors listed in vbmeta.
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image = os.path.join(input_tmp, 'IMAGES', 'vbmeta.img')
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cmd = ['avbtool', 'verify_image', '--image', image, '--key', key]
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# Append the args for chained partitions if any.
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for partition in common.AVB_PARTITIONS + common.AVB_VBMETA_PARTITIONS:
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key_name = 'avb_' + partition + '_key_path'
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if info_dict.get(key_name) is not None:
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# Use the key file from command line if specified; otherwise fall back
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# to the one in info dict.
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key_file = options.get(key_name, info_dict[key_name])
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chained_partition_arg = common.GetAvbChainedPartitionArg(
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partition, info_dict, key_file)
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cmd.extend(["--expected_chain_partition", chained_partition_arg])
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proc = common.Run(cmd)
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stdoutdata, _ = proc.communicate()
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assert proc.returncode == 0, \
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'Failed to verify {} with avbtool (key: {}):\n{}'.format(
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image, key, stdoutdata)
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logging.info(
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'Verified %s with avbtool (key: %s):\n%s', image, key,
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stdoutdata.rstrip())
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def main():
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parser = argparse.ArgumentParser(
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description=__doc__,
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formatter_class=argparse.RawDescriptionHelpFormatter)
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parser.add_argument(
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'target_files',
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help='the input target_files.zip to be validated')
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parser.add_argument(
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'--verity_key',
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help='the verity public key to verify the bootable images (Verified '
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'Boot 1.0), or the vbmeta image (Verified Boot 2.0, aka AVB), where '
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'applicable')
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for partition in common.AVB_PARTITIONS + common.AVB_VBMETA_PARTITIONS:
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parser.add_argument(
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'--avb_' + partition + '_key_path',
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help='the public or private key in PEM format to verify AVB chained '
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'partition of {}'.format(partition))
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parser.add_argument(
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'--verity_key_mincrypt',
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help='the verity public key in mincrypt format to verify the system '
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'images, if target using Verified Boot 1.0')
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args = parser.parse_args()
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# Unprovided args will have 'None' as the value.
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options = vars(args)
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logging_format = '%(asctime)s - %(filename)s - %(levelname)-8s: %(message)s'
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date_format = '%Y/%m/%d %H:%M:%S'
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logging.basicConfig(level=logging.INFO, format=logging_format,
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datefmt=date_format)
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logging.info("Unzipping the input target_files.zip: %s", args.target_files)
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input_tmp = common.UnzipTemp(args.target_files)
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info_dict = common.LoadInfoDict(input_tmp)
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with zipfile.ZipFile(args.target_files, 'r') as input_zip:
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ValidateFileConsistency(input_zip, input_tmp, info_dict)
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ValidateInstallRecoveryScript(input_tmp, info_dict)
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ValidateVerifiedBootImages(input_tmp, info_dict, options)
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# TODO: Check if the OTA keys have been properly updated (the ones on /system,
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# in recovery image).
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logging.info("Done.")
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if __name__ == '__main__':
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try:
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main()
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finally:
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common.Cleanup()
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