#!/usr/bin/env python # # Copyright (C) 2019 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. import logging import os.path import re import shlex import shutil import zipfile import apex_manifest import common from common import UnzipTemp, RunAndCheckOutput, MakeTempFile, OPTIONS import ota_metadata_pb2 logger = logging.getLogger(__name__) OPTIONS = common.OPTIONS APEX_PAYLOAD_IMAGE = 'apex_payload.img' APEX_PUBKEY = 'apex_pubkey' class ApexInfoError(Exception): """An Exception raised during Apex Information command.""" def __init__(self, message): Exception.__init__(self, message) class ApexSigningError(Exception): """An Exception raised during Apex Payload signing.""" def __init__(self, message): Exception.__init__(self, message) class ApexApkSigner(object): """Class to sign the apk files in a apex payload image and repack the apex""" def __init__(self, apex_path, key_passwords, codename_to_api_level_map): self.apex_path = apex_path if not key_passwords: self.key_passwords = dict() else: self.key_passwords = key_passwords self.codename_to_api_level_map = codename_to_api_level_map self.debugfs_path = os.path.join( OPTIONS.search_path, "bin", "debugfs_static") def ProcessApexFile(self, apk_keys, payload_key, signing_args=None): """Scans and signs the apk files and repack the apex Args: apk_keys: A dict that holds the signing keys for apk files. Returns: The repacked apex file containing the signed apk files. """ if not os.path.exists(self.debugfs_path): raise ApexSigningError( "Couldn't find location of debugfs_static: " + "Path {} does not exist. ".format(self.debugfs_path) + "Make sure bin/debugfs_static can be found in -p ") list_cmd = ['deapexer', '--debugfs_path', self.debugfs_path, 'list', self.apex_path] entries_names = common.RunAndCheckOutput(list_cmd).split() apk_entries = [name for name in entries_names if name.endswith('.apk')] # No need to sign and repack, return the original apex path. if not apk_entries: logger.info('No apk file to sign in %s', self.apex_path) return self.apex_path for entry in apk_entries: apk_name = os.path.basename(entry) if apk_name not in apk_keys: raise ApexSigningError('Failed to find signing keys for apk file {} in' ' apex {}. Use "-e =" to specify a key' .format(entry, self.apex_path)) if not any(dirname in entry for dirname in ['app/', 'priv-app/', 'overlay/']): logger.warning('Apk path does not contain the intended directory name:' ' %s', entry) payload_dir, has_signed_apk = self.ExtractApexPayloadAndSignApks( apk_entries, apk_keys) if not has_signed_apk: logger.info('No apk file has been signed in %s', self.apex_path) return self.apex_path return self.RepackApexPayload(payload_dir, payload_key, signing_args) def ExtractApexPayloadAndSignApks(self, apk_entries, apk_keys): """Extracts the payload image and signs the containing apk files.""" if not os.path.exists(self.debugfs_path): raise ApexSigningError( "Couldn't find location of debugfs_static: " + "Path {} does not exist. ".format(self.debugfs_path) + "Make sure bin/debugfs_static can be found in -p ") payload_dir = common.MakeTempDir() extract_cmd = ['deapexer', '--debugfs_path', self.debugfs_path, 'extract', self.apex_path, payload_dir] common.RunAndCheckOutput(extract_cmd) has_signed_apk = False for entry in apk_entries: apk_path = os.path.join(payload_dir, entry) assert os.path.exists(self.apex_path) key_name = apk_keys.get(os.path.basename(entry)) if key_name in common.SPECIAL_CERT_STRINGS: logger.info('Not signing: %s due to special cert string', apk_path) continue logger.info('Signing apk file %s in apex %s', apk_path, self.apex_path) # Rename the unsigned apk and overwrite the original apk path with the # signed apk file. unsigned_apk = common.MakeTempFile() os.rename(apk_path, unsigned_apk) common.SignFile( unsigned_apk, apk_path, key_name, self.key_passwords.get(key_name), codename_to_api_level_map=self.codename_to_api_level_map) has_signed_apk = True return payload_dir, has_signed_apk def RepackApexPayload(self, payload_dir, payload_key, signing_args=None): """Rebuilds the apex file with the updated payload directory.""" apex_dir = common.MakeTempDir() # Extract the apex file and reuse its meta files as repack parameters. common.UnzipToDir(self.apex_path, apex_dir) arguments_dict = { 'manifest': os.path.join(apex_dir, 'apex_manifest.pb'), 'build_info': os.path.join(apex_dir, 'apex_build_info.pb'), 'key': payload_key, } for filename in arguments_dict.values(): assert os.path.exists(filename), 'file {} not found'.format(filename) # The repack process will add back these files later in the payload image. for name in ['apex_manifest.pb', 'apex_manifest.json', 'lost+found']: path = os.path.join(payload_dir, name) if os.path.isfile(path): os.remove(path) elif os.path.isdir(path): shutil.rmtree(path) # TODO(xunchang) the signing process can be improved by using # '--unsigned_payload_only'. But we need to parse the vbmeta earlier for # the signing arguments, e.g. algorithm, salt, etc. payload_img = os.path.join(apex_dir, APEX_PAYLOAD_IMAGE) generate_image_cmd = ['apexer', '--force', '--payload_only', '--do_not_check_keyname', '--apexer_tool_path', os.getenv('PATH')] for key, val in arguments_dict.items(): generate_image_cmd.extend(['--' + key, val]) # Add quote to the signing_args as we will pass # --signing_args "--signing_helper_with_files=%path" to apexer if signing_args: generate_image_cmd.extend( ['--signing_args', '"{}"'.format(signing_args)]) # optional arguments for apex repacking manifest_json = os.path.join(apex_dir, 'apex_manifest.json') if os.path.exists(manifest_json): generate_image_cmd.extend(['--manifest_json', manifest_json]) generate_image_cmd.extend([payload_dir, payload_img]) if OPTIONS.verbose: generate_image_cmd.append('-v') common.RunAndCheckOutput(generate_image_cmd) # Add the payload image back to the apex file. common.ZipDelete(self.apex_path, APEX_PAYLOAD_IMAGE) with zipfile.ZipFile(self.apex_path, 'a', allowZip64=True) as output_apex: common.ZipWrite(output_apex, payload_img, APEX_PAYLOAD_IMAGE, compress_type=zipfile.ZIP_STORED) return self.apex_path def SignApexPayload(avbtool, payload_file, payload_key_path, payload_key_name, algorithm, salt, hash_algorithm, no_hashtree, signing_args=None): """Signs a given payload_file with the payload key.""" # Add the new footer. Old footer, if any, will be replaced by avbtool. cmd = [avbtool, 'add_hashtree_footer', '--do_not_generate_fec', '--algorithm', algorithm, '--key', payload_key_path, '--prop', 'apex.key:{}'.format(payload_key_name), '--image', payload_file, '--salt', salt, '--hash_algorithm', hash_algorithm] if no_hashtree: cmd.append('--no_hashtree') if signing_args: cmd.extend(shlex.split(signing_args)) try: common.RunAndCheckOutput(cmd) except common.ExternalError as e: raise ApexSigningError( 'Failed to sign APEX payload {} with {}:\n{}'.format( payload_file, payload_key_path, e)) # Verify the signed payload image with specified public key. logger.info('Verifying %s', payload_file) VerifyApexPayload(avbtool, payload_file, payload_key_path, no_hashtree) def VerifyApexPayload(avbtool, payload_file, payload_key, no_hashtree=False): """Verifies the APEX payload signature with the given key.""" cmd = [avbtool, 'verify_image', '--image', payload_file, '--key', payload_key] if no_hashtree: cmd.append('--accept_zeroed_hashtree') try: common.RunAndCheckOutput(cmd) except common.ExternalError as e: raise ApexSigningError( 'Failed to validate payload signing for {} with {}:\n{}'.format( payload_file, payload_key, e)) def ParseApexPayloadInfo(avbtool, payload_path): """Parses the APEX payload info. Args: avbtool: The AVB tool to use. payload_path: The path to the payload image. Raises: ApexInfoError on parsing errors. Returns: A dict that contains payload property-value pairs. The dict should at least contain Algorithm, Salt, Tree Size and apex.key. """ if not os.path.exists(payload_path): raise ApexInfoError('Failed to find image: {}'.format(payload_path)) cmd = [avbtool, 'info_image', '--image', payload_path] try: output = common.RunAndCheckOutput(cmd) except common.ExternalError as e: raise ApexInfoError( 'Failed to get APEX payload info for {}:\n{}'.format( payload_path, e)) # Extract the Algorithm / Hash Algorithm / Salt / Prop info / Tree size from # payload (i.e. an image signed with avbtool). For example, # Algorithm: SHA256_RSA4096 PAYLOAD_INFO_PATTERN = ( r'^\s*(?PAlgorithm|Hash Algorithm|Salt|Prop|Tree Size)\:\s*(?P.*?)$') payload_info_matcher = re.compile(PAYLOAD_INFO_PATTERN) payload_info = {} for line in output.split('\n'): line_info = payload_info_matcher.match(line) if not line_info: continue key, value = line_info.group('key'), line_info.group('value') if key == 'Prop': # Further extract the property key-value pair, from a 'Prop:' line. For # example, # Prop: apex.key -> 'com.android.runtime' # Note that avbtool writes single or double quotes around values. PROPERTY_DESCRIPTOR_PATTERN = r'^\s*(?P.*?)\s->\s*(?P.*?)$' prop_matcher = re.compile(PROPERTY_DESCRIPTOR_PATTERN) prop = prop_matcher.match(value) if not prop: raise ApexInfoError( 'Failed to parse prop string {}'.format(value)) prop_key, prop_value = prop.group('key'), prop.group('value') if prop_key == 'apex.key': # avbtool dumps the prop value with repr(), which contains single / # double quotes that we don't want. payload_info[prop_key] = prop_value.strip('\"\'') else: payload_info[key] = value # Validation check. for key in ('Algorithm', 'Salt', 'apex.key', 'Hash Algorithm'): if key not in payload_info: raise ApexInfoError( 'Failed to find {} prop in {}'.format(key, payload_path)) return payload_info def SignUncompressedApex(avbtool, apex_file, payload_key, container_key, container_pw, apk_keys, codename_to_api_level_map, no_hashtree, signing_args=None): """Signs the current uncompressed APEX with the given payload/container keys. Args: apex_file: Uncompressed APEX file. payload_key: The path to payload signing key (w/ extension). container_key: The path to container signing key (w/o extension). container_pw: The matching password of the container_key, or None. apk_keys: A dict that holds the signing keys for apk files. codename_to_api_level_map: A dict that maps from codename to API level. no_hashtree: Don't include hashtree in the signed APEX. signing_args: Additional args to be passed to the payload signer. Returns: The path to the signed APEX file. """ # 1. Extract the apex payload image and sign the containing apk files. Repack # the apex file after signing. apk_signer = ApexApkSigner(apex_file, container_pw, codename_to_api_level_map) apex_file = apk_signer.ProcessApexFile(apk_keys, payload_key, signing_args) # 2a. Extract and sign the APEX_PAYLOAD_IMAGE entry with the given # payload_key. payload_dir = common.MakeTempDir(prefix='apex-payload-') with zipfile.ZipFile(apex_file) as apex_fd: payload_file = apex_fd.extract(APEX_PAYLOAD_IMAGE, payload_dir) zip_items = apex_fd.namelist() payload_info = ParseApexPayloadInfo(avbtool, payload_file) if no_hashtree is None: no_hashtree = payload_info.get("Tree Size", 0) == 0 SignApexPayload( avbtool, payload_file, payload_key, payload_info['apex.key'], payload_info['Algorithm'], payload_info['Salt'], payload_info['Hash Algorithm'], no_hashtree, signing_args) # 2b. Update the embedded payload public key. payload_public_key = common.ExtractAvbPublicKey(avbtool, payload_key) common.ZipDelete(apex_file, APEX_PAYLOAD_IMAGE) if APEX_PUBKEY in zip_items: common.ZipDelete(apex_file, APEX_PUBKEY) apex_zip = zipfile.ZipFile(apex_file, 'a', allowZip64=True) common.ZipWrite(apex_zip, payload_file, arcname=APEX_PAYLOAD_IMAGE) common.ZipWrite(apex_zip, payload_public_key, arcname=APEX_PUBKEY) common.ZipClose(apex_zip) # 3. Sign the APEX container with container_key. signed_apex = common.MakeTempFile(prefix='apex-container-', suffix='.apex') # Specify the 4K alignment when calling SignApk. extra_signapk_args = OPTIONS.extra_signapk_args[:] extra_signapk_args.extend(['-a', '4096', '--align-file-size']) password = container_pw.get(container_key) if container_pw else None common.SignFile( apex_file, signed_apex, container_key, password, codename_to_api_level_map=codename_to_api_level_map, extra_signapk_args=extra_signapk_args) return signed_apex def SignCompressedApex(avbtool, apex_file, payload_key, container_key, container_pw, apk_keys, codename_to_api_level_map, no_hashtree, signing_args=None): """Signs the current compressed APEX with the given payload/container keys. Args: apex_file: Raw uncompressed APEX data. payload_key: The path to payload signing key (w/ extension). container_key: The path to container signing key (w/o extension). container_pw: The matching password of the container_key, or None. apk_keys: A dict that holds the signing keys for apk files. codename_to_api_level_map: A dict that maps from codename to API level. no_hashtree: Don't include hashtree in the signed APEX. signing_args: Additional args to be passed to the payload signer. Returns: The path to the signed APEX file. """ debugfs_path = os.path.join(OPTIONS.search_path, 'bin', 'debugfs_static') # 1. Decompress original_apex inside compressed apex. original_apex_file = common.MakeTempFile(prefix='original-apex-', suffix='.apex') # Decompression target path should not exist os.remove(original_apex_file) common.RunAndCheckOutput(['deapexer', '--debugfs_path', debugfs_path, 'decompress', '--input', apex_file, '--output', original_apex_file]) # 2. Sign original_apex signed_original_apex_file = SignUncompressedApex( avbtool, original_apex_file, payload_key, container_key, container_pw, apk_keys, codename_to_api_level_map, no_hashtree, signing_args) # 3. Compress signed original apex. compressed_apex_file = common.MakeTempFile(prefix='apex-container-', suffix='.capex') common.RunAndCheckOutput(['apex_compression_tool', 'compress', '--apex_compression_tool_path', os.getenv('PATH'), '--input', signed_original_apex_file, '--output', compressed_apex_file]) # 4. Sign the APEX container with container_key. signed_apex = common.MakeTempFile(prefix='apex-container-', suffix='.capex') password = container_pw.get(container_key) if container_pw else None common.SignFile( compressed_apex_file, signed_apex, container_key, password, codename_to_api_level_map=codename_to_api_level_map, extra_signapk_args=OPTIONS.extra_signapk_args) return signed_apex def SignApex(avbtool, apex_data, payload_key, container_key, container_pw, apk_keys, codename_to_api_level_map, no_hashtree, signing_args=None): """Signs the current APEX with the given payload/container keys. Args: apex_file: Path to apex file path. payload_key: The path to payload signing key (w/ extension). container_key: The path to container signing key (w/o extension). container_pw: The matching password of the container_key, or None. apk_keys: A dict that holds the signing keys for apk files. codename_to_api_level_map: A dict that maps from codename to API level. no_hashtree: Don't include hashtree in the signed APEX. signing_args: Additional args to be passed to the payload signer. Returns: The path to the signed APEX file. """ apex_file = common.MakeTempFile(prefix='apex-container-', suffix='.apex') with open(apex_file, 'wb') as output_fp: output_fp.write(apex_data) debugfs_path = os.path.join(OPTIONS.search_path, 'bin', 'debugfs_static') cmd = ['deapexer', '--debugfs_path', debugfs_path, 'info', '--print-type', apex_file] try: apex_type = common.RunAndCheckOutput(cmd).strip() if apex_type == 'UNCOMPRESSED': return SignUncompressedApex( avbtool, apex_file, payload_key=payload_key, container_key=container_key, container_pw=None, codename_to_api_level_map=codename_to_api_level_map, no_hashtree=no_hashtree, apk_keys=apk_keys, signing_args=signing_args) elif apex_type == 'COMPRESSED': return SignCompressedApex( avbtool, apex_file, payload_key=payload_key, container_key=container_key, container_pw=None, codename_to_api_level_map=codename_to_api_level_map, no_hashtree=no_hashtree, apk_keys=apk_keys, signing_args=signing_args) else: # TODO(b/172912232): support signing compressed apex raise ApexInfoError('Unsupported apex type {}'.format(apex_type)) except common.ExternalError as e: raise ApexInfoError( 'Failed to get type for {}:\n{}'.format(apex_file, e)) def GetApexInfoFromTargetFiles(input_file, partition, compressed_only=True): """ Get information about system APEX stored in the input_file zip Args: input_file: The filename of the target build target-files zip or directory. Return: A list of ota_metadata_pb2.ApexInfo() populated using the APEX stored in /system partition of the input_file """ # Extract the apex files so that we can run checks on them if not isinstance(input_file, str): raise RuntimeError("must pass filepath to target-files zip or directory") apex_subdir = os.path.join(partition.upper(), 'apex') if os.path.isdir(input_file): tmp_dir = input_file else: tmp_dir = UnzipTemp(input_file, [os.path.join(apex_subdir, '*')]) target_dir = os.path.join(tmp_dir, apex_subdir) # Partial target-files packages for vendor-only builds may not contain # a system apex directory. if not os.path.exists(target_dir): logger.info('No APEX directory at path: %s', target_dir) return [] apex_infos = [] debugfs_path = "debugfs" if OPTIONS.search_path: debugfs_path = os.path.join(OPTIONS.search_path, "bin", "debugfs_static") deapexer = 'deapexer' if OPTIONS.search_path: deapexer_path = os.path.join(OPTIONS.search_path, "bin", "deapexer") if os.path.isfile(deapexer_path): deapexer = deapexer_path for apex_filename in os.listdir(target_dir): apex_filepath = os.path.join(target_dir, apex_filename) if not os.path.isfile(apex_filepath) or \ not zipfile.is_zipfile(apex_filepath): logger.info("Skipping %s because it's not a zipfile", apex_filepath) continue apex_info = ota_metadata_pb2.ApexInfo() # Open the apex file to retrieve information manifest = apex_manifest.fromApex(apex_filepath) apex_info.package_name = manifest.name apex_info.version = manifest.version # Check if the file is compressed or not apex_type = RunAndCheckOutput([ deapexer, "--debugfs_path", debugfs_path, 'info', '--print-type', apex_filepath]).rstrip() if apex_type == 'COMPRESSED': apex_info.is_compressed = True elif apex_type == 'UNCOMPRESSED': apex_info.is_compressed = False else: raise RuntimeError('Not an APEX file: ' + apex_type) # Decompress compressed APEX to determine its size if apex_info.is_compressed: decompressed_file_path = MakeTempFile(prefix="decompressed-", suffix=".apex") # Decompression target path should not exist os.remove(decompressed_file_path) RunAndCheckOutput([deapexer, 'decompress', '--input', apex_filepath, '--output', decompressed_file_path]) apex_info.decompressed_size = os.path.getsize(decompressed_file_path) if not compressed_only or apex_info.is_compressed: apex_infos.append(apex_info) return apex_infos