#!/usr/bin/env python # # Copyright (C) 2022 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. # """Functions for merging META/* files from partial builds. Expects items in OPTIONS prepared by merge_target_files.py. """ import logging import os import re import shutil import build_image import common import merge_utils import sparse_img import verity_utils from ota_utils import ParseUpdateEngineConfig from common import ExternalError logger = logging.getLogger(__name__) OPTIONS = common.OPTIONS # In apexkeys.txt or apkcerts.txt, we will find partition tags on each entry in # the file. We use these partition tags to filter the entries in those files # from the two different target files packages to produce a merged apexkeys.txt # or apkcerts.txt file. A partition tag (e.g., for the product partition) looks # like this: 'partition="product"'. We use the group syntax grab the value of # the tag. We use non-greedy matching in case there are other fields on the # same line. PARTITION_TAG_PATTERN = re.compile(r'partition="(.*?)"') # The sorting algorithm for apexkeys.txt and apkcerts.txt does not include the # ".apex" or ".apk" suffix, so we use the following pattern to extract a key. MODULE_KEY_PATTERN = re.compile(r'name="(.+)\.(apex|apk)"') def MergeUpdateEngineConfig(framework_meta_dir, vendor_meta_dir, merged_meta_dir): """Merges META/update_engine_config.txt. The output is the configuration for maximum compatibility. """ _CONFIG_NAME = 'update_engine_config.txt' framework_config_path = os.path.join(framework_meta_dir, _CONFIG_NAME) vendor_config_path = os.path.join(vendor_meta_dir, _CONFIG_NAME) merged_config_path = os.path.join(merged_meta_dir, _CONFIG_NAME) if os.path.exists(framework_config_path): framework_config = ParseUpdateEngineConfig(framework_config_path) vendor_config = ParseUpdateEngineConfig(vendor_config_path) # Copy older config to merged target files for maximum compatibility # update_engine in system partition is from system side, but # update_engine_sideload in recovery is from vendor side. if framework_config < vendor_config: shutil.copy(framework_config_path, merged_config_path) else: shutil.copy(vendor_config_path, merged_config_path) else: if not OPTIONS.allow_partial_ab: raise FileNotFoundError(framework_config_path) shutil.copy(vendor_config_path, merged_config_path) def MergeMetaFiles(temp_dir, merged_dir, framework_partitions): """Merges various files in META/*.""" framework_meta_dir = os.path.join(temp_dir, 'framework_meta', 'META') merge_utils.CollectTargetFiles( input_zipfile_or_dir=OPTIONS.framework_target_files, output_dir=os.path.dirname(framework_meta_dir), item_list=('META/*',)) vendor_meta_dir = os.path.join(temp_dir, 'vendor_meta', 'META') merge_utils.CollectTargetFiles( input_zipfile_or_dir=OPTIONS.vendor_target_files, output_dir=os.path.dirname(vendor_meta_dir), item_list=('META/*',)) merged_meta_dir = os.path.join(merged_dir, 'META') # Merge META/misc_info.txt into OPTIONS.merged_misc_info, # but do not write it yet. The following functions may further # modify this dict. OPTIONS.merged_misc_info = MergeMiscInfo( framework_meta_dir=framework_meta_dir, vendor_meta_dir=vendor_meta_dir, merged_meta_dir=merged_meta_dir) CopyNamedFileContexts( framework_meta_dir=framework_meta_dir, vendor_meta_dir=vendor_meta_dir, merged_meta_dir=merged_meta_dir) if OPTIONS.merged_misc_info.get('use_dynamic_partitions') == 'true': MergeDynamicPartitionsInfo( framework_meta_dir=framework_meta_dir, vendor_meta_dir=vendor_meta_dir, merged_meta_dir=merged_meta_dir) if OPTIONS.merged_misc_info.get('ab_update') == 'true': MergeAbPartitions( framework_meta_dir=framework_meta_dir, vendor_meta_dir=vendor_meta_dir, merged_meta_dir=merged_meta_dir, framework_partitions=framework_partitions) UpdateCareMapImageSizeProps(images_dir=os.path.join(merged_dir, 'IMAGES')) for file_name in ('apkcerts.txt', 'apexkeys.txt'): MergePackageKeys( framework_meta_dir=framework_meta_dir, vendor_meta_dir=vendor_meta_dir, merged_meta_dir=merged_meta_dir, file_name=file_name) if OPTIONS.merged_misc_info.get('ab_update') == 'true': MergeUpdateEngineConfig( framework_meta_dir, vendor_meta_dir, merged_meta_dir) # Write the now-finalized OPTIONS.merged_misc_info. merge_utils.WriteSortedData( data=OPTIONS.merged_misc_info, path=os.path.join(merged_meta_dir, 'misc_info.txt')) def MergeAbPartitions(framework_meta_dir, vendor_meta_dir, merged_meta_dir, framework_partitions): """Merges META/ab_partitions.txt. The output contains the union of the partition names. """ framework_ab_partitions = [] framework_ab_config = os.path.join(framework_meta_dir, 'ab_partitions.txt') if os.path.exists(framework_ab_config): with open(framework_ab_config) as f: # Filter out some partitions here to support the case that the # ab_partitions.txt of framework-target-files has non-framework # partitions. This case happens when we use a complete merged target # files package as the framework-target-files. framework_ab_partitions.extend([ partition for partition in f.read().splitlines() if partition in framework_partitions ]) else: if not OPTIONS.allow_partial_ab: raise FileNotFoundError(framework_ab_config) logger.info('Use partial AB because framework ab_partitions.txt does not ' 'exist.') with open(os.path.join(vendor_meta_dir, 'ab_partitions.txt')) as f: vendor_ab_partitions = f.read().splitlines() merge_utils.WriteSortedData( data=set(framework_ab_partitions + vendor_ab_partitions), path=os.path.join(merged_meta_dir, 'ab_partitions.txt')) def MergeMiscInfo(framework_meta_dir, vendor_meta_dir, merged_meta_dir): """Merges META/misc_info.txt. The output contains a combination of key=value pairs from both inputs. Most pairs are taken from the vendor input, while some are taken from the framework input. """ OPTIONS.framework_misc_info = common.LoadDictionaryFromFile( os.path.join(framework_meta_dir, 'misc_info.txt')) OPTIONS.vendor_misc_info = common.LoadDictionaryFromFile( os.path.join(vendor_meta_dir, 'misc_info.txt')) # Merged misc info is a combination of vendor misc info plus certain values # from the framework misc info. merged_dict = OPTIONS.vendor_misc_info for key in OPTIONS.framework_misc_info_keys: if key in OPTIONS.framework_misc_info: merged_dict[key] = OPTIONS.framework_misc_info[key] # If AVB is enabled then ensure that we build vbmeta.img. # Partial builds with AVB enabled may set PRODUCT_BUILD_VBMETA_IMAGE=false to # skip building an incomplete vbmeta.img. if merged_dict.get('avb_enable') == 'true': merged_dict['avb_building_vbmeta_image'] = 'true' return merged_dict def MergeDynamicPartitionsInfo(framework_meta_dir, vendor_meta_dir, merged_meta_dir): """Merge META/dynamic_partitions_info.txt.""" framework_dynamic_partitions_dict = common.LoadDictionaryFromFile( os.path.join(framework_meta_dir, 'dynamic_partitions_info.txt')) vendor_dynamic_partitions_dict = common.LoadDictionaryFromFile( os.path.join(vendor_meta_dir, 'dynamic_partitions_info.txt')) merged_dynamic_partitions_dict = common.MergeDynamicPartitionInfoDicts( framework_dict=framework_dynamic_partitions_dict, vendor_dict=vendor_dynamic_partitions_dict) merge_utils.WriteSortedData( data=merged_dynamic_partitions_dict, path=os.path.join(merged_meta_dir, 'dynamic_partitions_info.txt')) # Merge misc info keys used for Dynamic Partitions. OPTIONS.merged_misc_info.update(merged_dynamic_partitions_dict) # Ensure that add_img_to_target_files rebuilds super split images for # devices that retrofit dynamic partitions. This flag may have been set to # false in the partial builds to prevent duplicate building of super.img. OPTIONS.merged_misc_info['build_super_partition'] = 'true' def MergePackageKeys(framework_meta_dir, vendor_meta_dir, merged_meta_dir, file_name): """Merges APK/APEX key list files.""" if file_name not in ('apkcerts.txt', 'apexkeys.txt'): raise ExternalError( 'Unexpected file_name provided to merge_package_keys_txt: %s', file_name) def read_helper(d): temp = {} with open(os.path.join(d, file_name)) as f: for line in f.read().splitlines(): line = line.strip() if line: name_search = MODULE_KEY_PATTERN.search(line.split()[0]) temp[name_search.group(1)] = line return temp framework_dict = read_helper(framework_meta_dir) vendor_dict = read_helper(vendor_meta_dir) merged_dict = {} def filter_into_merged_dict(item_dict, partition_set): for key, value in item_dict.items(): tag_search = PARTITION_TAG_PATTERN.search(value) if tag_search is None: raise ValueError('Entry missing partition tag: %s' % value) partition_tag = tag_search.group(1) if partition_tag in partition_set: if key in merged_dict: if OPTIONS.allow_duplicate_apkapex_keys: # TODO(b/150582573) Always raise on duplicates. logger.warning('Duplicate key %s' % key) continue else: raise ValueError('Duplicate key %s' % key) merged_dict[key] = value # Prioritize framework keys first. # Duplicate keys from vendor are an error, or ignored. filter_into_merged_dict(framework_dict, OPTIONS.framework_partition_set) filter_into_merged_dict(vendor_dict, OPTIONS.vendor_partition_set) # The following code is similar to WriteSortedData, but different enough # that we couldn't use that function. We need the output to be sorted by the # basename of the apex/apk (without the ".apex" or ".apk" suffix). This # allows the sort to be consistent with the framework/vendor input data and # eases comparison of input data with merged data. with open(os.path.join(merged_meta_dir, file_name), 'w') as output: for key, value in sorted(merged_dict.items()): output.write(value + '\n') def CopyNamedFileContexts(framework_meta_dir, vendor_meta_dir, merged_meta_dir): """Creates named copies of each partial build's file_contexts.bin. Used when regenerating images from the partial build. """ def copy_fc_file(source_dir, file_name): for name in (file_name, 'file_contexts.bin'): fc_path = os.path.join(source_dir, name) if os.path.exists(fc_path): shutil.copyfile(fc_path, os.path.join(merged_meta_dir, file_name)) return raise ValueError('Missing file_contexts file from %s: %s', source_dir, file_name) copy_fc_file(framework_meta_dir, 'framework_file_contexts.bin') copy_fc_file(vendor_meta_dir, 'vendor_file_contexts.bin') # Replace _selinux_fc values with framework or vendor file_contexts.bin # depending on which dictionary the key came from. # Only the file basename is required because all selinux_fc properties are # replaced with the full path to the file under META/ when misc_info.txt is # loaded from target files for repacking. See common.py LoadInfoDict(). for key in OPTIONS.vendor_misc_info: if key.endswith('_selinux_fc'): OPTIONS.merged_misc_info[key] = 'vendor_file_contexts.bin' for key in OPTIONS.framework_misc_info: if key.endswith('_selinux_fc'): OPTIONS.merged_misc_info[key] = 'framework_file_contexts.bin' def UpdateCareMapImageSizeProps(images_dir): """Sets _image_size props in misc_info. add_images_to_target_files uses these props to generate META/care_map.pb. Regenerated images will have this property set during regeneration. However, images copied directly from input partial target files packages need this value calculated here. """ for partition in common.PARTITIONS_WITH_CARE_MAP: image_path = os.path.join(images_dir, '{}.img'.format(partition)) if os.path.exists(image_path): partition_size = sparse_img.GetImagePartitionSize(image_path) image_props = build_image.ImagePropFromGlobalDict( OPTIONS.merged_misc_info, partition) verity_image_builder = verity_utils.CreateVerityImageBuilder(image_props) image_size = verity_image_builder.CalculateMaxImageSize(partition_size) OPTIONS.merged_misc_info['{}_image_size'.format(partition)] = image_size