#!/usr/bin/env python # # Copyright (C) 2008 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. """ Given a target-files zipfile, produces an OTA package that installs that build. An incremental OTA is produced if -i is given, otherwise a full OTA is produced. Usage: ota_from_target_files [options] input_target_files output_ota_package Common options that apply to both of non-A/B and A/B OTAs --downgrade Intentionally generate an incremental OTA that updates from a newer build to an older one (e.g. downgrading from P preview back to O MR1). "ota-downgrade=yes" will be set in the package metadata file. A data wipe will always be enforced when using this flag, so "ota-wipe=yes" will also be included in the metadata file. The update-binary in the source build will be used in the OTA package, unless --binary flag is specified. Please also check the comment for --override_timestamp below. -i (--incremental_from) Generate an incremental OTA using the given target-files zip as the starting build. -k (--package_key) Key to use to sign the package (default is the value of default_system_dev_certificate from the input target-files's META/misc_info.txt, or "build/target/product/security/testkey" if that value is not specified). For incremental OTAs, the default value is based on the source target-file, not the target build. --override_timestamp Intentionally generate an incremental OTA that updates from a newer build to an older one (based on timestamp comparison), by setting the downgrade flag in the package metadata. This differs from --downgrade flag, as we don't enforce a data wipe with this flag. Because we know for sure this is NOT an actual downgrade case, but two builds happen to be cut in a reverse order (e.g. from two branches). A legit use case is that we cut a new build C (after having A and B), but want to enfore an update path of A -> C -> B. Specifying --downgrade may not help since that would enforce a data wipe for C -> B update. We used to set a fake timestamp in the package metadata for this flow. But now we consolidate the two cases (i.e. an actual downgrade, or a downgrade based on timestamp) with the same "ota-downgrade=yes" flag, with the difference being whether "ota-wipe=yes" is set. --wipe_user_data Generate an OTA package that will wipe the user data partition when installed. Non-A/B OTA specific options -b (--binary) Use the given binary as the update-binary in the output package, instead of the binary in the build's target_files. Use for development only. --block Generate a block-based OTA for non-A/B device. We have deprecated the support for file-based OTA since O. Block-based OTA will be used by default for all non-A/B devices. Keeping this flag here to not break existing callers. -e (--extra_script) Insert the contents of file at the end of the update script. --full_bootloader Similar to --full_radio. When generating an incremental OTA, always include a full copy of bootloader image. --full_radio When generating an incremental OTA, always include a full copy of radio image. This option is only meaningful when -i is specified, because a full radio is always included in a full OTA if applicable. --log_diff Generate a log file that shows the differences in the source and target builds for an incremental package. This option is only meaningful when -i is specified. -o (--oem_settings) Comma seperated list of files used to specify the expected OEM-specific properties on the OEM partition of the intended device. Multiple expected values can be used by providing multiple files. Only the first dict will be used to compute fingerprint, while the rest will be used to assert OEM-specific properties. --oem_no_mount For devices with OEM-specific properties but without an OEM partition, do not mount the OEM partition in the updater-script. This should be very rarely used, since it's expected to have a dedicated OEM partition for OEM-specific properties. Only meaningful when -o is specified. --stash_threshold Specify the threshold that will be used to compute the maximum allowed stash size (defaults to 0.8). -t (--worker_threads) Specify the number of worker-threads that will be used when generating patches for incremental updates (defaults to 3). --verify Verify the checksums of the updated system and vendor (if any) partitions. Non-A/B incremental OTAs only. -2 (--two_step) Generate a 'two-step' OTA package, where recovery is updated first, so that any changes made to the system partition are done using the new recovery (new kernel, etc.). A/B OTA specific options --include_secondary Additionally include the payload for secondary slot images (default: False). Only meaningful when generating A/B OTAs. By default, an A/B OTA package doesn't contain the images for the secondary slot (e.g. system_other.img). Specifying this flag allows generating a separate payload that will install secondary slot images. Such a package needs to be applied in a two-stage manner, with a reboot in-between. During the first stage, the updater applies the primary payload only. Upon finishing, it reboots the device into the newly updated slot. It then continues to install the secondary payload to the inactive slot, but without switching the active slot at the end (needs the matching support in update_engine, i.e. SWITCH_SLOT_ON_REBOOT flag). Due to the special install procedure, the secondary payload will be always generated as a full payload. --payload_signer Specify the signer when signing the payload and metadata for A/B OTAs. By default (i.e. without this flag), it calls 'openssl pkeyutl' to sign with the package private key. If the private key cannot be accessed directly, a payload signer that knows how to do that should be specified. The signer will be supplied with "-inkey ", "-in " and "-out " parameters. --payload_signer_args Specify the arguments needed for payload signer. --skip_postinstall Skip the postinstall hooks when generating an A/B OTA package (default: False). Note that this discards ALL the hooks, including non-optional ones. Should only be used if caller knows it's safe to do so (e.g. all the postinstall work is to dexopt apps and a data wipe will happen immediately after). Only meaningful when generating A/B OTAs. """ from __future__ import print_function import logging import multiprocessing import os.path import shlex import shutil import struct import sys import tempfile import zipfile import common import edify_generator import verity_utils if sys.hexversion < 0x02070000: print("Python 2.7 or newer is required.", file=sys.stderr) sys.exit(1) logger = logging.getLogger(__name__) OPTIONS = common.OPTIONS OPTIONS.package_key = None OPTIONS.incremental_source = None OPTIONS.verify = False OPTIONS.patch_threshold = 0.95 OPTIONS.wipe_user_data = False OPTIONS.downgrade = False OPTIONS.extra_script = None OPTIONS.worker_threads = multiprocessing.cpu_count() // 2 if OPTIONS.worker_threads == 0: OPTIONS.worker_threads = 1 OPTIONS.two_step = False OPTIONS.include_secondary = False OPTIONS.no_signing = False OPTIONS.block_based = True OPTIONS.updater_binary = None OPTIONS.oem_source = None OPTIONS.oem_no_mount = False OPTIONS.full_radio = False OPTIONS.full_bootloader = False # Stash size cannot exceed cache_size * threshold. OPTIONS.cache_size = None OPTIONS.stash_threshold = 0.8 OPTIONS.log_diff = None OPTIONS.payload_signer = None OPTIONS.payload_signer_args = [] OPTIONS.extracted_input = None OPTIONS.key_passwords = [] OPTIONS.skip_postinstall = False METADATA_NAME = 'META-INF/com/android/metadata' POSTINSTALL_CONFIG = 'META/postinstall_config.txt' UNZIP_PATTERN = ['IMAGES/*', 'META/*'] class BuildInfo(object): """A class that holds the information for a given build. This class wraps up the property querying for a given source or target build. It abstracts away the logic of handling OEM-specific properties, and caches the commonly used properties such as fingerprint. There are two types of info dicts: a) build-time info dict, which is generated at build time (i.e. included in a target_files zip); b) OEM info dict that is specified at package generation time (via command line argument '--oem_settings'). If a build doesn't use OEM-specific properties (i.e. not having "oem_fingerprint_properties" in build-time info dict), all the queries would be answered based on build-time info dict only. Otherwise if using OEM-specific properties, some of them will be calculated from two info dicts. Users can query properties similarly as using a dict() (e.g. info['fstab']), or to query build properties via GetBuildProp() or GetVendorBuildProp(). Attributes: info_dict: The build-time info dict. is_ab: Whether it's a build that uses A/B OTA. oem_dicts: A list of OEM dicts. oem_props: A list of OEM properties that should be read from OEM dicts; None if the build doesn't use any OEM-specific property. fingerprint: The fingerprint of the build, which would be calculated based on OEM properties if applicable. device: The device name, which could come from OEM dicts if applicable. """ def __init__(self, info_dict, oem_dicts): """Initializes a BuildInfo instance with the given dicts. Note that it only wraps up the given dicts, without making copies. Arguments: info_dict: The build-time info dict. oem_dicts: A list of OEM dicts (which is parsed from --oem_settings). Note that it always uses the first dict to calculate the fingerprint or the device name. The rest would be used for asserting OEM properties only (e.g. one package can be installed on one of these devices). """ self.info_dict = info_dict self.oem_dicts = oem_dicts self._is_ab = info_dict.get("ab_update") == "true" self._oem_props = info_dict.get("oem_fingerprint_properties") if self._oem_props: assert oem_dicts, "OEM source required for this build" # These two should be computed only after setting self._oem_props. self._device = self.GetOemProperty("ro.product.device") self._fingerprint = self.CalculateFingerprint() @property def is_ab(self): return self._is_ab @property def device(self): return self._device @property def fingerprint(self): return self._fingerprint @property def vendor_fingerprint(self): if "vendor.build.prop" not in self.info_dict: return None vendor_build_prop = self.info_dict["vendor.build.prop"] if "ro.vendor.build.fingerprint" in vendor_build_prop: return vendor_build_prop["ro.vendor.build.fingerprint"] if "ro.vendor.build.thumbprint" in vendor_build_prop: return vendor_build_prop["ro.vendor.build.thumbprint"] return None @property def oem_props(self): return self._oem_props def __getitem__(self, key): return self.info_dict[key] def __setitem__(self, key, value): self.info_dict[key] = value def get(self, key, default=None): return self.info_dict.get(key, default) def items(self): return self.info_dict.items() def GetBuildProp(self, prop): """Returns the inquired build property.""" try: return self.info_dict.get("build.prop", {})[prop] except KeyError: raise common.ExternalError("couldn't find %s in build.prop" % (prop,)) def GetVendorBuildProp(self, prop): """Returns the inquired vendor build property.""" try: return self.info_dict.get("vendor.build.prop", {})[prop] except KeyError: raise common.ExternalError( "couldn't find %s in vendor.build.prop" % (prop,)) def GetOemProperty(self, key): if self.oem_props is not None and key in self.oem_props: return self.oem_dicts[0][key] return self.GetBuildProp(key) def CalculateFingerprint(self): if self.oem_props is None: return self.GetBuildProp("ro.build.fingerprint") return "%s/%s/%s:%s" % ( self.GetOemProperty("ro.product.brand"), self.GetOemProperty("ro.product.name"), self.GetOemProperty("ro.product.device"), self.GetBuildProp("ro.build.thumbprint")) def WriteMountOemScript(self, script): assert self.oem_props is not None recovery_mount_options = self.info_dict.get("recovery_mount_options") script.Mount("/oem", recovery_mount_options) def WriteDeviceAssertions(self, script, oem_no_mount): # Read the property directly if not using OEM properties. if not self.oem_props: script.AssertDevice(self.device) return # Otherwise assert OEM properties. if not self.oem_dicts: raise common.ExternalError( "No OEM file provided to answer expected assertions") for prop in self.oem_props.split(): values = [] for oem_dict in self.oem_dicts: if prop in oem_dict: values.append(oem_dict[prop]) if not values: raise common.ExternalError( "The OEM file is missing the property %s" % (prop,)) script.AssertOemProperty(prop, values, oem_no_mount) class PayloadSigner(object): """A class that wraps the payload signing works. When generating a Payload, hashes of the payload and metadata files will be signed with the device key, either by calling an external payload signer or by calling openssl with the package key. This class provides a unified interface, so that callers can just call PayloadSigner.Sign(). If an external payload signer has been specified (OPTIONS.payload_signer), it calls the signer with the provided args (OPTIONS.payload_signer_args). Note that the signing key should be provided as part of the payload_signer_args. Otherwise without an external signer, it uses the package key (OPTIONS.package_key) and calls openssl for the signing works. """ def __init__(self): if OPTIONS.payload_signer is None: # Prepare the payload signing key. private_key = OPTIONS.package_key + OPTIONS.private_key_suffix pw = OPTIONS.key_passwords[OPTIONS.package_key] cmd = ["openssl", "pkcs8", "-in", private_key, "-inform", "DER"] cmd.extend(["-passin", "pass:" + pw] if pw else ["-nocrypt"]) signing_key = common.MakeTempFile(prefix="key-", suffix=".key") cmd.extend(["-out", signing_key]) common.RunAndCheckOutput(cmd, verbose=False) self.signer = "openssl" self.signer_args = ["pkeyutl", "-sign", "-inkey", signing_key, "-pkeyopt", "digest:sha256"] else: self.signer = OPTIONS.payload_signer self.signer_args = OPTIONS.payload_signer_args def Sign(self, in_file): """Signs the given input file. Returns the output filename.""" out_file = common.MakeTempFile(prefix="signed-", suffix=".bin") cmd = [self.signer] + self.signer_args + ['-in', in_file, '-out', out_file] common.RunAndCheckOutput(cmd) return out_file class Payload(object): """Manages the creation and the signing of an A/B OTA Payload.""" PAYLOAD_BIN = 'payload.bin' PAYLOAD_PROPERTIES_TXT = 'payload_properties.txt' SECONDARY_PAYLOAD_BIN = 'secondary/payload.bin' SECONDARY_PAYLOAD_PROPERTIES_TXT = 'secondary/payload_properties.txt' def __init__(self, secondary=False): """Initializes a Payload instance. Args: secondary: Whether it's generating a secondary payload (default: False). """ self.payload_file = None self.payload_properties = None self.secondary = secondary def Generate(self, target_file, source_file=None, additional_args=None): """Generates a payload from the given target-files zip(s). Args: target_file: The filename of the target build target-files zip. source_file: The filename of the source build target-files zip; or None if generating a full OTA. additional_args: A list of additional args that should be passed to brillo_update_payload script; or None. """ if additional_args is None: additional_args = [] payload_file = common.MakeTempFile(prefix="payload-", suffix=".bin") cmd = ["brillo_update_payload", "generate", "--payload", payload_file, "--target_image", target_file] if source_file is not None: cmd.extend(["--source_image", source_file]) cmd.extend(additional_args) common.RunAndCheckOutput(cmd) self.payload_file = payload_file self.payload_properties = None def Sign(self, payload_signer): """Generates and signs the hashes of the payload and metadata. Args: payload_signer: A PayloadSigner() instance that serves the signing work. Raises: AssertionError: On any failure when calling brillo_update_payload script. """ assert isinstance(payload_signer, PayloadSigner) # 1. Generate hashes of the payload and metadata files. payload_sig_file = common.MakeTempFile(prefix="sig-", suffix=".bin") metadata_sig_file = common.MakeTempFile(prefix="sig-", suffix=".bin") cmd = ["brillo_update_payload", "hash", "--unsigned_payload", self.payload_file, "--signature_size", "256", "--metadata_hash_file", metadata_sig_file, "--payload_hash_file", payload_sig_file] common.RunAndCheckOutput(cmd) # 2. Sign the hashes. signed_payload_sig_file = payload_signer.Sign(payload_sig_file) signed_metadata_sig_file = payload_signer.Sign(metadata_sig_file) # 3. Insert the signatures back into the payload file. signed_payload_file = common.MakeTempFile(prefix="signed-payload-", suffix=".bin") cmd = ["brillo_update_payload", "sign", "--unsigned_payload", self.payload_file, "--payload", signed_payload_file, "--signature_size", "256", "--metadata_signature_file", signed_metadata_sig_file, "--payload_signature_file", signed_payload_sig_file] common.RunAndCheckOutput(cmd) # 4. Dump the signed payload properties. properties_file = common.MakeTempFile(prefix="payload-properties-", suffix=".txt") cmd = ["brillo_update_payload", "properties", "--payload", signed_payload_file, "--properties_file", properties_file] common.RunAndCheckOutput(cmd) if self.secondary: with open(properties_file, "a") as f: f.write("SWITCH_SLOT_ON_REBOOT=0\n") if OPTIONS.wipe_user_data: with open(properties_file, "a") as f: f.write("POWERWASH=1\n") self.payload_file = signed_payload_file self.payload_properties = properties_file def WriteToZip(self, output_zip): """Writes the payload to the given zip. Args: output_zip: The output ZipFile instance. """ assert self.payload_file is not None assert self.payload_properties is not None if self.secondary: payload_arcname = Payload.SECONDARY_PAYLOAD_BIN payload_properties_arcname = Payload.SECONDARY_PAYLOAD_PROPERTIES_TXT else: payload_arcname = Payload.PAYLOAD_BIN payload_properties_arcname = Payload.PAYLOAD_PROPERTIES_TXT # Add the signed payload file and properties into the zip. In order to # support streaming, we pack them as ZIP_STORED. So these entries can be # read directly with the offset and length pairs. common.ZipWrite(output_zip, self.payload_file, arcname=payload_arcname, compress_type=zipfile.ZIP_STORED) common.ZipWrite(output_zip, self.payload_properties, arcname=payload_properties_arcname, compress_type=zipfile.ZIP_STORED) def SignOutput(temp_zip_name, output_zip_name): pw = OPTIONS.key_passwords[OPTIONS.package_key] common.SignFile(temp_zip_name, output_zip_name, OPTIONS.package_key, pw, whole_file=True) def _LoadOemDicts(oem_source): """Returns the list of loaded OEM properties dict.""" if not oem_source: return None oem_dicts = [] for oem_file in oem_source: with open(oem_file) as fp: oem_dicts.append(common.LoadDictionaryFromLines(fp.readlines())) return oem_dicts def _WriteRecoveryImageToBoot(script, output_zip): """Find and write recovery image to /boot in two-step OTA. In two-step OTAs, we write recovery image to /boot as the first step so that we can reboot to there and install a new recovery image to /recovery. A special "recovery-two-step.img" will be preferred, which encodes the correct path of "/boot". Otherwise the device may show "device is corrupt" message when booting into /boot. Fall back to using the regular recovery.img if the two-step recovery image doesn't exist. Note that rebuilding the special image at this point may be infeasible, because we don't have the desired boot signer and keys when calling ota_from_target_files.py. """ recovery_two_step_img_name = "recovery-two-step.img" recovery_two_step_img_path = os.path.join( OPTIONS.input_tmp, "IMAGES", recovery_two_step_img_name) if os.path.exists(recovery_two_step_img_path): recovery_two_step_img = common.GetBootableImage( recovery_two_step_img_name, recovery_two_step_img_name, OPTIONS.input_tmp, "RECOVERY") common.ZipWriteStr( output_zip, recovery_two_step_img_name, recovery_two_step_img.data) logger.info( "two-step package: using %s in stage 1/3", recovery_two_step_img_name) script.WriteRawImage("/boot", recovery_two_step_img_name) else: logger.info("two-step package: using recovery.img in stage 1/3") # The "recovery.img" entry has been written into package earlier. script.WriteRawImage("/boot", "recovery.img") def HasRecoveryPatch(target_files_zip): namelist = [name for name in target_files_zip.namelist()] return ("SYSTEM/recovery-from-boot.p" in namelist or "SYSTEM/etc/recovery.img" in namelist) def HasVendorPartition(target_files_zip): try: target_files_zip.getinfo("VENDOR/") return True except KeyError: return False def HasTrebleEnabled(target_files_zip, target_info): return (HasVendorPartition(target_files_zip) and target_info.GetBuildProp("ro.treble.enabled") == "true") def WriteFingerprintAssertion(script, target_info, source_info): source_oem_props = source_info.oem_props target_oem_props = target_info.oem_props if source_oem_props is None and target_oem_props is None: script.AssertSomeFingerprint( source_info.fingerprint, target_info.fingerprint) elif source_oem_props is not None and target_oem_props is not None: script.AssertSomeThumbprint( target_info.GetBuildProp("ro.build.thumbprint"), source_info.GetBuildProp("ro.build.thumbprint")) elif source_oem_props is None and target_oem_props is not None: script.AssertFingerprintOrThumbprint( source_info.fingerprint, target_info.GetBuildProp("ro.build.thumbprint")) else: script.AssertFingerprintOrThumbprint( target_info.fingerprint, source_info.GetBuildProp("ro.build.thumbprint")) def AddCompatibilityArchiveIfTrebleEnabled(target_zip, output_zip, target_info, source_info=None): """Adds compatibility info into the output zip if it's Treble-enabled target. Metadata used for on-device compatibility verification is retrieved from target_zip then added to compatibility.zip which is added to the output_zip archive. Compatibility archive should only be included for devices that have enabled Treble support. Args: target_zip: Zip file containing the source files to be included for OTA. output_zip: Zip file that will be sent for OTA. target_info: The BuildInfo instance that holds the target build info. source_info: The BuildInfo instance that holds the source build info, if generating an incremental OTA; None otherwise. """ def AddCompatibilityArchive(system_updated, vendor_updated): """Adds compatibility info based on system/vendor update status. Args: system_updated: If True, the system image will be updated and therefore its metadata should be included. vendor_updated: If True, the vendor image will be updated and therefore its metadata should be included. """ # Determine what metadata we need. Files are names relative to META/. compatibility_files = [] vendor_metadata = ("vendor_manifest.xml", "vendor_matrix.xml") system_metadata = ("system_manifest.xml", "system_matrix.xml") if vendor_updated: compatibility_files += vendor_metadata if system_updated: compatibility_files += system_metadata # Create new archive. compatibility_archive = tempfile.NamedTemporaryFile() compatibility_archive_zip = zipfile.ZipFile( compatibility_archive, "w", compression=zipfile.ZIP_DEFLATED) # Add metadata. for file_name in compatibility_files: target_file_name = "META/" + file_name if target_file_name in target_zip.namelist(): data = target_zip.read(target_file_name) common.ZipWriteStr(compatibility_archive_zip, file_name, data) # Ensure files are written before we copy into output_zip. compatibility_archive_zip.close() # Only add the archive if we have any compatibility info. if compatibility_archive_zip.namelist(): common.ZipWrite(output_zip, compatibility_archive.name, arcname="compatibility.zip", compress_type=zipfile.ZIP_STORED) # Will only proceed if the target has enabled the Treble support (as well as # having a /vendor partition). if not HasTrebleEnabled(target_zip, target_info): return # Full OTA carries the info for system/vendor both. if source_info is None: AddCompatibilityArchive(True, True) return source_fp = source_info.fingerprint target_fp = target_info.fingerprint system_updated = source_fp != target_fp source_fp_vendor = source_info.vendor_fingerprint target_fp_vendor = target_info.vendor_fingerprint # vendor build fingerprints could be possibly blacklisted at build time. For # such a case, we consider the vendor images being changed. if source_fp_vendor is None or target_fp_vendor is None: vendor_updated = True else: vendor_updated = source_fp_vendor != target_fp_vendor AddCompatibilityArchive(system_updated, vendor_updated) def WriteFullOTAPackage(input_zip, output_file): target_info = BuildInfo(OPTIONS.info_dict, OPTIONS.oem_dicts) # We don't know what version it will be installed on top of. We expect the API # just won't change very often. Similarly for fstab, it might have changed in # the target build. target_api_version = target_info["recovery_api_version"] script = edify_generator.EdifyGenerator(target_api_version, target_info) if target_info.oem_props and not OPTIONS.oem_no_mount: target_info.WriteMountOemScript(script) metadata = GetPackageMetadata(target_info) if not OPTIONS.no_signing: staging_file = common.MakeTempFile(suffix='.zip') else: staging_file = output_file output_zip = zipfile.ZipFile( staging_file, "w", compression=zipfile.ZIP_DEFLATED) device_specific = common.DeviceSpecificParams( input_zip=input_zip, input_version=target_api_version, output_zip=output_zip, script=script, input_tmp=OPTIONS.input_tmp, metadata=metadata, info_dict=OPTIONS.info_dict) assert HasRecoveryPatch(input_zip) # Assertions (e.g. downgrade check, device properties check). ts = target_info.GetBuildProp("ro.build.date.utc") ts_text = target_info.GetBuildProp("ro.build.date") script.AssertOlderBuild(ts, ts_text) target_info.WriteDeviceAssertions(script, OPTIONS.oem_no_mount) device_specific.FullOTA_Assertions() # Two-step package strategy (in chronological order, which is *not* # the order in which the generated script has things): # # if stage is not "2/3" or "3/3": # write recovery image to boot partition # set stage to "2/3" # reboot to boot partition and restart recovery # else if stage is "2/3": # write recovery image to recovery partition # set stage to "3/3" # reboot to recovery partition and restart recovery # else: # (stage must be "3/3") # set stage to "" # do normal full package installation: # wipe and install system, boot image, etc. # set up system to update recovery partition on first boot # complete script normally # (allow recovery to mark itself finished and reboot) recovery_img = common.GetBootableImage("recovery.img", "recovery.img", OPTIONS.input_tmp, "RECOVERY") if OPTIONS.two_step: if not target_info.get("multistage_support"): assert False, "two-step packages not supported by this build" fs = target_info["fstab"]["/misc"] assert fs.fs_type.upper() == "EMMC", \ "two-step packages only supported on devices with EMMC /misc partitions" bcb_dev = {"bcb_dev": fs.device} common.ZipWriteStr(output_zip, "recovery.img", recovery_img.data) script.AppendExtra(""" if get_stage("%(bcb_dev)s") == "2/3" then """ % bcb_dev) # Stage 2/3: Write recovery image to /recovery (currently running /boot). script.Comment("Stage 2/3") script.WriteRawImage("/recovery", "recovery.img") script.AppendExtra(""" set_stage("%(bcb_dev)s", "3/3"); reboot_now("%(bcb_dev)s", "recovery"); else if get_stage("%(bcb_dev)s") == "3/3" then """ % bcb_dev) # Stage 3/3: Make changes. script.Comment("Stage 3/3") # Dump fingerprints script.Print("Target: {}".format(target_info.fingerprint)) device_specific.FullOTA_InstallBegin() system_progress = 0.75 if OPTIONS.wipe_user_data: system_progress -= 0.1 if HasVendorPartition(input_zip): system_progress -= 0.1 script.ShowProgress(system_progress, 0) # See the notes in WriteBlockIncrementalOTAPackage(). allow_shared_blocks = target_info.get('ext4_share_dup_blocks') == "true" # Full OTA is done as an "incremental" against an empty source image. This # has the effect of writing new data from the package to the entire # partition, but lets us reuse the updater code that writes incrementals to # do it. system_tgt = common.GetSparseImage("system", OPTIONS.input_tmp, input_zip, allow_shared_blocks) system_tgt.ResetFileMap() system_diff = common.BlockDifference("system", system_tgt, src=None) system_diff.WriteScript(script, output_zip, write_verify_script=OPTIONS.verify) boot_img = common.GetBootableImage( "boot.img", "boot.img", OPTIONS.input_tmp, "BOOT") if HasVendorPartition(input_zip): script.ShowProgress(0.1, 0) vendor_tgt = common.GetSparseImage("vendor", OPTIONS.input_tmp, input_zip, allow_shared_blocks) vendor_tgt.ResetFileMap() vendor_diff = common.BlockDifference("vendor", vendor_tgt) vendor_diff.WriteScript(script, output_zip, write_verify_script=OPTIONS.verify) AddCompatibilityArchiveIfTrebleEnabled(input_zip, output_zip, target_info) common.CheckSize(boot_img.data, "boot.img", target_info) common.ZipWriteStr(output_zip, "boot.img", boot_img.data) script.ShowProgress(0.05, 5) script.WriteRawImage("/boot", "boot.img") script.ShowProgress(0.2, 10) device_specific.FullOTA_InstallEnd() if OPTIONS.extra_script is not None: script.AppendExtra(OPTIONS.extra_script) script.UnmountAll() if OPTIONS.wipe_user_data: script.ShowProgress(0.1, 10) script.FormatPartition("/data") if OPTIONS.two_step: script.AppendExtra(""" set_stage("%(bcb_dev)s", ""); """ % bcb_dev) script.AppendExtra("else\n") # Stage 1/3: Nothing to verify for full OTA. Write recovery image to /boot. script.Comment("Stage 1/3") _WriteRecoveryImageToBoot(script, output_zip) script.AppendExtra(""" set_stage("%(bcb_dev)s", "2/3"); reboot_now("%(bcb_dev)s", ""); endif; endif; """ % bcb_dev) script.SetProgress(1) script.AddToZip(input_zip, output_zip, input_path=OPTIONS.updater_binary) metadata["ota-required-cache"] = str(script.required_cache) # We haven't written the metadata entry, which will be done in # FinalizeMetadata. common.ZipClose(output_zip) needed_property_files = ( NonAbOtaPropertyFiles(), ) FinalizeMetadata(metadata, staging_file, output_file, needed_property_files) def WriteMetadata(metadata, output_zip): value = "".join(["%s=%s\n" % kv for kv in sorted(metadata.iteritems())]) common.ZipWriteStr(output_zip, METADATA_NAME, value, compress_type=zipfile.ZIP_STORED) def HandleDowngradeMetadata(metadata, target_info, source_info): # Only incremental OTAs are allowed to reach here. assert OPTIONS.incremental_source is not None post_timestamp = target_info.GetBuildProp("ro.build.date.utc") pre_timestamp = source_info.GetBuildProp("ro.build.date.utc") is_downgrade = long(post_timestamp) < long(pre_timestamp) if OPTIONS.downgrade: if not is_downgrade: raise RuntimeError( "--downgrade or --override_timestamp specified but no downgrade " "detected: pre: %s, post: %s" % (pre_timestamp, post_timestamp)) metadata["ota-downgrade"] = "yes" else: if is_downgrade: raise RuntimeError( "Downgrade detected based on timestamp check: pre: %s, post: %s. " "Need to specify --override_timestamp OR --downgrade to allow " "building the incremental." % (pre_timestamp, post_timestamp)) def GetPackageMetadata(target_info, source_info=None): """Generates and returns the metadata dict. It generates a dict() that contains the info to be written into an OTA package (META-INF/com/android/metadata). It also handles the detection of downgrade / data wipe based on the global options. Args: target_info: The BuildInfo instance that holds the target build info. source_info: The BuildInfo instance that holds the source build info, or None if generating full OTA. Returns: A dict to be written into package metadata entry. """ assert isinstance(target_info, BuildInfo) assert source_info is None or isinstance(source_info, BuildInfo) metadata = { 'post-build' : target_info.fingerprint, 'post-build-incremental' : target_info.GetBuildProp( 'ro.build.version.incremental'), 'post-sdk-level' : target_info.GetBuildProp( 'ro.build.version.sdk'), 'post-security-patch-level' : target_info.GetBuildProp( 'ro.build.version.security_patch'), } if target_info.is_ab: metadata['ota-type'] = 'AB' metadata['ota-required-cache'] = '0' else: metadata['ota-type'] = 'BLOCK' if OPTIONS.wipe_user_data: metadata['ota-wipe'] = 'yes' is_incremental = source_info is not None if is_incremental: metadata['pre-build'] = source_info.fingerprint metadata['pre-build-incremental'] = source_info.GetBuildProp( 'ro.build.version.incremental') metadata['pre-device'] = source_info.device else: metadata['pre-device'] = target_info.device # Use the actual post-timestamp, even for a downgrade case. metadata['post-timestamp'] = target_info.GetBuildProp('ro.build.date.utc') # Detect downgrades and set up downgrade flags accordingly. if is_incremental: HandleDowngradeMetadata(metadata, target_info, source_info) return metadata class PropertyFiles(object): """A class that computes the property-files string for an OTA package. A property-files string is a comma-separated string that contains the offset/size info for an OTA package. The entries, which must be ZIP_STORED, can be fetched directly with the package URL along with the offset/size info. These strings can be used for streaming A/B OTAs, or allowing an updater to download package metadata entry directly, without paying the cost of downloading entire package. Computing the final property-files string requires two passes. Because doing the whole package signing (with signapk.jar) will possibly reorder the ZIP entries, which may in turn invalidate earlier computed ZIP entry offset/size values. This class provides functions to be called for each pass. The general flow is as follows. property_files = PropertyFiles() # The first pass, which writes placeholders before doing initial signing. property_files.Compute() SignOutput() # The second pass, by replacing the placeholders with actual data. property_files.Finalize() SignOutput() And the caller can additionally verify the final result. property_files.Verify() """ def __init__(self): self.name = None self.required = () self.optional = () def Compute(self, input_zip): """Computes and returns a property-files string with placeholders. We reserve extra space for the offset and size of the metadata entry itself, although we don't know the final values until the package gets signed. Args: input_zip: The input ZIP file. Returns: A string with placeholders for the metadata offset/size info, e.g. "payload.bin:679:343,payload_properties.txt:378:45,metadata: ". """ return self.GetPropertyFilesString(input_zip, reserve_space=True) class InsufficientSpaceException(Exception): pass def Finalize(self, input_zip, reserved_length): """Finalizes a property-files string with actual METADATA offset/size info. The input ZIP file has been signed, with the ZIP entries in the desired place (signapk.jar will possibly reorder the ZIP entries). Now we compute the ZIP entry offsets and construct the property-files string with actual data. Note that during this process, we must pad the property-files string to the reserved length, so that the METADATA entry size remains the same. Otherwise the entries' offsets and sizes may change again. Args: input_zip: The input ZIP file. reserved_length: The reserved length of the property-files string during the call to Compute(). The final string must be no more than this size. Returns: A property-files string including the metadata offset/size info, e.g. "payload.bin:679:343,payload_properties.txt:378:45,metadata:69:379 ". Raises: InsufficientSpaceException: If the reserved length is insufficient to hold the final string. """ result = self.GetPropertyFilesString(input_zip, reserve_space=False) if len(result) > reserved_length: raise self.InsufficientSpaceException( 'Insufficient reserved space: reserved={}, actual={}'.format( reserved_length, len(result))) result += ' ' * (reserved_length - len(result)) return result def Verify(self, input_zip, expected): """Verifies the input ZIP file contains the expected property-files string. Args: input_zip: The input ZIP file. expected: The property-files string that's computed from Finalize(). Raises: AssertionError: On finding a mismatch. """ actual = self.GetPropertyFilesString(input_zip) assert actual == expected, \ "Mismatching streaming metadata: {} vs {}.".format(actual, expected) def GetPropertyFilesString(self, zip_file, reserve_space=False): """ Constructs the property-files string per request. Args: zip_file: The input ZIP file. reserved_length: The reserved length of the property-files string. Returns: A property-files string including the metadata offset/size info, e.g. "payload.bin:679:343,payload_properties.txt:378:45,metadata: ". """ def ComputeEntryOffsetSize(name): """Computes the zip entry offset and size.""" info = zip_file.getinfo(name) offset = info.header_offset offset += zipfile.sizeFileHeader offset += len(info.extra) + len(info.filename) size = info.file_size return '%s:%d:%d' % (os.path.basename(name), offset, size) tokens = [] tokens.extend(self._GetPrecomputed(zip_file)) for entry in self.required: tokens.append(ComputeEntryOffsetSize(entry)) for entry in self.optional: if entry in zip_file.namelist(): tokens.append(ComputeEntryOffsetSize(entry)) # 'META-INF/com/android/metadata' is required. We don't know its actual # offset and length (as well as the values for other entries). So we reserve # 15-byte as a placeholder ('offset:length'), which is sufficient to cover # the space for metadata entry. Because 'offset' allows a max of 10-digit # (i.e. ~9 GiB), with a max of 4-digit for the length. Note that all the # reserved space serves the metadata entry only. if reserve_space: tokens.append('metadata:' + ' ' * 15) else: tokens.append(ComputeEntryOffsetSize(METADATA_NAME)) return ','.join(tokens) def _GetPrecomputed(self, input_zip): """Computes the additional tokens to be included into the property-files. This applies to tokens without actual ZIP entries, such as payload_metadadata.bin. We want to expose the offset/size to updaters, so that they can download the payload metadata directly with the info. Args: input_zip: The input zip file. Returns: A list of strings (tokens) to be added to the property-files string. """ # pylint: disable=no-self-use # pylint: disable=unused-argument return [] class StreamingPropertyFiles(PropertyFiles): """A subclass for computing the property-files for streaming A/B OTAs.""" def __init__(self): super(StreamingPropertyFiles, self).__init__() self.name = 'ota-streaming-property-files' self.required = ( # payload.bin and payload_properties.txt must exist. 'payload.bin', 'payload_properties.txt', ) self.optional = ( # care_map is available only if dm-verity is enabled. 'care_map.pb', 'care_map.txt', # compatibility.zip is available only if target supports Treble. 'compatibility.zip', ) class AbOtaPropertyFiles(StreamingPropertyFiles): """The property-files for A/B OTA that includes payload_metadata.bin info. Since P, we expose one more token (aka property-file), in addition to the ones for streaming A/B OTA, for a virtual entry of 'payload_metadata.bin'. 'payload_metadata.bin' is the header part of a payload ('payload.bin'), which doesn't exist as a separate ZIP entry, but can be used to verify if the payload can be applied on the given device. For backward compatibility, we keep both of the 'ota-streaming-property-files' and the newly added 'ota-property-files' in P. The new token will only be available in 'ota-property-files'. """ def __init__(self): super(AbOtaPropertyFiles, self).__init__() self.name = 'ota-property-files' def _GetPrecomputed(self, input_zip): offset, size = self._GetPayloadMetadataOffsetAndSize(input_zip) return ['payload_metadata.bin:{}:{}'.format(offset, size)] @staticmethod def _GetPayloadMetadataOffsetAndSize(input_zip): """Computes the offset and size of the payload metadata for a given package. (From system/update_engine/update_metadata.proto) A delta update file contains all the deltas needed to update a system from one specific version to another specific version. The update format is represented by this struct pseudocode: struct delta_update_file { char magic[4] = "CrAU"; uint64 file_format_version; uint64 manifest_size; // Size of protobuf DeltaArchiveManifest // Only present if format_version > 1: uint32 metadata_signature_size; // The Bzip2 compressed DeltaArchiveManifest char manifest[metadata_signature_size]; // The signature of the metadata (from the beginning of the payload up to // this location, not including the signature itself). This is a // serialized Signatures message. char medatada_signature_message[metadata_signature_size]; // Data blobs for files, no specific format. The specific offset // and length of each data blob is recorded in the DeltaArchiveManifest. struct { char data[]; } blobs[]; // These two are not signed: uint64 payload_signatures_message_size; char payload_signatures_message[]; }; 'payload-metadata.bin' contains all the bytes from the beginning of the payload, till the end of 'medatada_signature_message'. """ payload_info = input_zip.getinfo('payload.bin') payload_offset = payload_info.header_offset payload_offset += zipfile.sizeFileHeader payload_offset += len(payload_info.extra) + len(payload_info.filename) payload_size = payload_info.file_size with input_zip.open('payload.bin', 'r') as payload_fp: header_bin = payload_fp.read(24) # network byte order (big-endian) header = struct.unpack("!IQQL", header_bin) # 'CrAU' magic = header[0] assert magic == 0x43724155, "Invalid magic: {:x}".format(magic) manifest_size = header[2] metadata_signature_size = header[3] metadata_total = 24 + manifest_size + metadata_signature_size assert metadata_total < payload_size return (payload_offset, metadata_total) class NonAbOtaPropertyFiles(PropertyFiles): """The property-files for non-A/B OTA. For non-A/B OTA, the property-files string contains the info for METADATA entry, with which a system updater can be fetched the package metadata prior to downloading the entire package. """ def __init__(self): super(NonAbOtaPropertyFiles, self).__init__() self.name = 'ota-property-files' def FinalizeMetadata(metadata, input_file, output_file, needed_property_files): """Finalizes the metadata and signs an A/B OTA package. In order to stream an A/B OTA package, we need 'ota-streaming-property-files' that contains the offsets and sizes for the ZIP entries. An example property-files string is as follows. "payload.bin:679:343,payload_properties.txt:378:45,metadata:69:379" OTA server can pass down this string, in addition to the package URL, to the system update client. System update client can then fetch individual ZIP entries (ZIP_STORED) directly at the given offset of the URL. Args: metadata: The metadata dict for the package. input_file: The input ZIP filename that doesn't contain the package METADATA entry yet. output_file: The final output ZIP filename. needed_property_files: The list of PropertyFiles' to be generated. """ def ComputeAllPropertyFiles(input_file, needed_property_files): # Write the current metadata entry with placeholders. with zipfile.ZipFile(input_file) as input_zip: for property_files in needed_property_files: metadata[property_files.name] = property_files.Compute(input_zip) namelist = input_zip.namelist() if METADATA_NAME in namelist: common.ZipDelete(input_file, METADATA_NAME) output_zip = zipfile.ZipFile(input_file, 'a') WriteMetadata(metadata, output_zip) common.ZipClose(output_zip) if OPTIONS.no_signing: return input_file prelim_signing = common.MakeTempFile(suffix='.zip') SignOutput(input_file, prelim_signing) return prelim_signing def FinalizeAllPropertyFiles(prelim_signing, needed_property_files): with zipfile.ZipFile(prelim_signing) as prelim_signing_zip: for property_files in needed_property_files: metadata[property_files.name] = property_files.Finalize( prelim_signing_zip, len(metadata[property_files.name])) # SignOutput(), which in turn calls signapk.jar, will possibly reorder the ZIP # entries, as well as padding the entry headers. We do a preliminary signing # (with an incomplete metadata entry) to allow that to happen. Then compute # the ZIP entry offsets, write back the final metadata and do the final # signing. prelim_signing = ComputeAllPropertyFiles(input_file, needed_property_files) try: FinalizeAllPropertyFiles(prelim_signing, needed_property_files) except PropertyFiles.InsufficientSpaceException: # Even with the preliminary signing, the entry orders may change # dramatically, which leads to insufficiently reserved space during the # first call to ComputeAllPropertyFiles(). In that case, we redo all the # preliminary signing works, based on the already ordered ZIP entries, to # address the issue. prelim_signing = ComputeAllPropertyFiles( prelim_signing, needed_property_files) FinalizeAllPropertyFiles(prelim_signing, needed_property_files) # Replace the METADATA entry. common.ZipDelete(prelim_signing, METADATA_NAME) output_zip = zipfile.ZipFile(prelim_signing, 'a') WriteMetadata(metadata, output_zip) common.ZipClose(output_zip) # Re-sign the package after updating the metadata entry. if OPTIONS.no_signing: output_file = prelim_signing else: SignOutput(prelim_signing, output_file) # Reopen the final signed zip to double check the streaming metadata. with zipfile.ZipFile(output_file) as output_zip: for property_files in needed_property_files: property_files.Verify(output_zip, metadata[property_files.name].strip()) def WriteBlockIncrementalOTAPackage(target_zip, source_zip, output_file): target_info = BuildInfo(OPTIONS.target_info_dict, OPTIONS.oem_dicts) source_info = BuildInfo(OPTIONS.source_info_dict, OPTIONS.oem_dicts) target_api_version = target_info["recovery_api_version"] source_api_version = source_info["recovery_api_version"] if source_api_version == 0: logger.warning( "Generating edify script for a source that can't install it.") script = edify_generator.EdifyGenerator( source_api_version, target_info, fstab=source_info["fstab"]) if target_info.oem_props or source_info.oem_props: if not OPTIONS.oem_no_mount: source_info.WriteMountOemScript(script) metadata = GetPackageMetadata(target_info, source_info) if not OPTIONS.no_signing: staging_file = common.MakeTempFile(suffix='.zip') else: staging_file = output_file output_zip = zipfile.ZipFile( staging_file, "w", compression=zipfile.ZIP_DEFLATED) device_specific = common.DeviceSpecificParams( source_zip=source_zip, source_version=source_api_version, target_zip=target_zip, target_version=target_api_version, output_zip=output_zip, script=script, metadata=metadata, info_dict=source_info) source_boot = common.GetBootableImage( "/tmp/boot.img", "boot.img", OPTIONS.source_tmp, "BOOT", source_info) target_boot = common.GetBootableImage( "/tmp/boot.img", "boot.img", OPTIONS.target_tmp, "BOOT", target_info) updating_boot = (not OPTIONS.two_step and (source_boot.data != target_boot.data)) target_recovery = common.GetBootableImage( "/tmp/recovery.img", "recovery.img", OPTIONS.target_tmp, "RECOVERY") # When target uses 'BOARD_EXT4_SHARE_DUP_BLOCKS := true', images may contain # shared blocks (i.e. some blocks will show up in multiple files' block # list). We can only allocate such shared blocks to the first "owner", and # disable imgdiff for all later occurrences. allow_shared_blocks = (source_info.get('ext4_share_dup_blocks') == "true" or target_info.get('ext4_share_dup_blocks') == "true") system_src = common.GetSparseImage("system", OPTIONS.source_tmp, source_zip, allow_shared_blocks) hashtree_info_generator = verity_utils.CreateHashtreeInfoGenerator( "system", 4096, target_info) system_tgt = common.GetSparseImage("system", OPTIONS.target_tmp, target_zip, allow_shared_blocks, hashtree_info_generator) blockimgdiff_version = max( int(i) for i in target_info.get("blockimgdiff_versions", "1").split(",")) assert blockimgdiff_version >= 3 # Check the first block of the source system partition for remount R/W only # if the filesystem is ext4. system_src_partition = source_info["fstab"]["/system"] check_first_block = system_src_partition.fs_type == "ext4" # Disable using imgdiff for squashfs. 'imgdiff -z' expects input files to be # in zip formats. However with squashfs, a) all files are compressed in LZ4; # b) the blocks listed in block map may not contain all the bytes for a given # file (because they're rounded to be 4K-aligned). system_tgt_partition = target_info["fstab"]["/system"] disable_imgdiff = (system_src_partition.fs_type == "squashfs" or system_tgt_partition.fs_type == "squashfs") system_diff = common.BlockDifference("system", system_tgt, system_src, check_first_block, version=blockimgdiff_version, disable_imgdiff=disable_imgdiff) if HasVendorPartition(target_zip): if not HasVendorPartition(source_zip): raise RuntimeError("can't generate incremental that adds /vendor") vendor_src = common.GetSparseImage("vendor", OPTIONS.source_tmp, source_zip, allow_shared_blocks) hashtree_info_generator = verity_utils.CreateHashtreeInfoGenerator( "vendor", 4096, target_info) vendor_tgt = common.GetSparseImage( "vendor", OPTIONS.target_tmp, target_zip, allow_shared_blocks, hashtree_info_generator) # Check first block of vendor partition for remount R/W only if # disk type is ext4 vendor_partition = source_info["fstab"]["/vendor"] check_first_block = vendor_partition.fs_type == "ext4" disable_imgdiff = vendor_partition.fs_type == "squashfs" vendor_diff = common.BlockDifference("vendor", vendor_tgt, vendor_src, check_first_block, version=blockimgdiff_version, disable_imgdiff=disable_imgdiff) else: vendor_diff = None AddCompatibilityArchiveIfTrebleEnabled( target_zip, output_zip, target_info, source_info) # Assertions (e.g. device properties check). target_info.WriteDeviceAssertions(script, OPTIONS.oem_no_mount) device_specific.IncrementalOTA_Assertions() # Two-step incremental package strategy (in chronological order, # which is *not* the order in which the generated script has # things): # # if stage is not "2/3" or "3/3": # do verification on current system # write recovery image to boot partition # set stage to "2/3" # reboot to boot partition and restart recovery # else if stage is "2/3": # write recovery image to recovery partition # set stage to "3/3" # reboot to recovery partition and restart recovery # else: # (stage must be "3/3") # perform update: # patch system files, etc. # force full install of new boot image # set up system to update recovery partition on first boot # complete script normally # (allow recovery to mark itself finished and reboot) if OPTIONS.two_step: if not source_info.get("multistage_support"): assert False, "two-step packages not supported by this build" fs = source_info["fstab"]["/misc"] assert fs.fs_type.upper() == "EMMC", \ "two-step packages only supported on devices with EMMC /misc partitions" bcb_dev = {"bcb_dev" : fs.device} common.ZipWriteStr(output_zip, "recovery.img", target_recovery.data) script.AppendExtra(""" if get_stage("%(bcb_dev)s") == "2/3" then """ % bcb_dev) # Stage 2/3: Write recovery image to /recovery (currently running /boot). script.Comment("Stage 2/3") script.AppendExtra("sleep(20);\n") script.WriteRawImage("/recovery", "recovery.img") script.AppendExtra(""" set_stage("%(bcb_dev)s", "3/3"); reboot_now("%(bcb_dev)s", "recovery"); else if get_stage("%(bcb_dev)s") != "3/3" then """ % bcb_dev) # Stage 1/3: (a) Verify the current system. script.Comment("Stage 1/3") # Dump fingerprints script.Print("Source: {}".format(source_info.fingerprint)) script.Print("Target: {}".format(target_info.fingerprint)) script.Print("Verifying current system...") device_specific.IncrementalOTA_VerifyBegin() WriteFingerprintAssertion(script, target_info, source_info) # Check the required cache size (i.e. stashed blocks). size = [] if system_diff: size.append(system_diff.required_cache) if vendor_diff: size.append(vendor_diff.required_cache) if updating_boot: boot_type, boot_device = common.GetTypeAndDevice("/boot", source_info) d = common.Difference(target_boot, source_boot) _, _, d = d.ComputePatch() if d is None: include_full_boot = True common.ZipWriteStr(output_zip, "boot.img", target_boot.data) else: include_full_boot = False logger.info( "boot target: %d source: %d diff: %d", target_boot.size, source_boot.size, len(d)) common.ZipWriteStr(output_zip, "boot.img.p", d) script.PatchPartitionCheck( "{}:{}:{}:{}".format( boot_type, boot_device, target_boot.size, target_boot.sha1), "{}:{}:{}:{}".format( boot_type, boot_device, source_boot.size, source_boot.sha1)) size.append(target_boot.size) if size: script.CacheFreeSpaceCheck(max(size)) device_specific.IncrementalOTA_VerifyEnd() if OPTIONS.two_step: # Stage 1/3: (b) Write recovery image to /boot. _WriteRecoveryImageToBoot(script, output_zip) script.AppendExtra(""" set_stage("%(bcb_dev)s", "2/3"); reboot_now("%(bcb_dev)s", ""); else """ % bcb_dev) # Stage 3/3: Make changes. script.Comment("Stage 3/3") # Verify the existing partitions. system_diff.WriteVerifyScript(script, touched_blocks_only=True) if vendor_diff: vendor_diff.WriteVerifyScript(script, touched_blocks_only=True) script.Comment("---- start making changes here ----") device_specific.IncrementalOTA_InstallBegin() system_diff.WriteScript(script, output_zip, progress=0.8 if vendor_diff else 0.9, write_verify_script=OPTIONS.verify) if vendor_diff: vendor_diff.WriteScript(script, output_zip, progress=0.1, write_verify_script=OPTIONS.verify) if OPTIONS.two_step: common.ZipWriteStr(output_zip, "boot.img", target_boot.data) script.WriteRawImage("/boot", "boot.img") logger.info("writing full boot image (forced by two-step mode)") if not OPTIONS.two_step: if updating_boot: if include_full_boot: logger.info("boot image changed; including full.") script.Print("Installing boot image...") script.WriteRawImage("/boot", "boot.img") else: # Produce the boot image by applying a patch to the current # contents of the boot partition, and write it back to the # partition. logger.info("boot image changed; including patch.") script.Print("Patching boot image...") script.ShowProgress(0.1, 10) script.PatchPartition( '{}:{}:{}:{}'.format( boot_type, boot_device, target_boot.size, target_boot.sha1), '{}:{}:{}:{}'.format( boot_type, boot_device, source_boot.size, source_boot.sha1), 'boot.img.p') else: logger.info("boot image unchanged; skipping.") # Do device-specific installation (eg, write radio image). device_specific.IncrementalOTA_InstallEnd() if OPTIONS.extra_script is not None: script.AppendExtra(OPTIONS.extra_script) if OPTIONS.wipe_user_data: script.Print("Erasing user data...") script.FormatPartition("/data") if OPTIONS.two_step: script.AppendExtra(""" set_stage("%(bcb_dev)s", ""); endif; endif; """ % bcb_dev) script.SetProgress(1) # For downgrade OTAs, we prefer to use the update-binary in the source # build that is actually newer than the one in the target build. if OPTIONS.downgrade: script.AddToZip(source_zip, output_zip, input_path=OPTIONS.updater_binary) else: script.AddToZip(target_zip, output_zip, input_path=OPTIONS.updater_binary) metadata["ota-required-cache"] = str(script.required_cache) # We haven't written the metadata entry yet, which will be handled in # FinalizeMetadata(). common.ZipClose(output_zip) # Sign the generated zip package unless no_signing is specified. needed_property_files = ( NonAbOtaPropertyFiles(), ) FinalizeMetadata(metadata, staging_file, output_file, needed_property_files) def GetTargetFilesZipForSecondaryImages(input_file, skip_postinstall=False): """Returns a target-files.zip file for generating secondary payload. Although the original target-files.zip already contains secondary slot images (i.e. IMAGES/system_other.img), we need to rename the files to the ones without _other suffix. Note that we cannot instead modify the names in META/ab_partitions.txt, because there are no matching partitions on device. For the partitions that don't have secondary images, the ones for primary slot will be used. This is to ensure that we always have valid boot, vbmeta, bootloader images in the inactive slot. Args: input_file: The input target-files.zip file. skip_postinstall: Whether to skip copying the postinstall config file. Returns: The filename of the target-files.zip for generating secondary payload. """ target_file = common.MakeTempFile(prefix="targetfiles-", suffix=".zip") target_zip = zipfile.ZipFile(target_file, 'w', allowZip64=True) with zipfile.ZipFile(input_file, 'r') as input_zip: infolist = input_zip.infolist() namelist = input_zip.namelist() # Additionally unzip 'RADIO/*' if exists. unzip_pattern = UNZIP_PATTERN[:] if any([entry.startswith('RADIO/') for entry in namelist]): unzip_pattern.append('RADIO/*') input_tmp = common.UnzipTemp(input_file, unzip_pattern) for info in infolist: unzipped_file = os.path.join(input_tmp, *info.filename.split('/')) if info.filename == 'IMAGES/system_other.img': common.ZipWrite(target_zip, unzipped_file, arcname='IMAGES/system.img') # Primary images and friends need to be skipped explicitly. elif info.filename in ('IMAGES/system.img', 'IMAGES/system.map'): pass # Skip copying the postinstall config if requested. elif skip_postinstall and info.filename == POSTINSTALL_CONFIG: pass elif info.filename.startswith(('META/', 'IMAGES/', 'RADIO/')): common.ZipWrite(target_zip, unzipped_file, arcname=info.filename) common.ZipClose(target_zip) return target_file def GetTargetFilesZipWithoutPostinstallConfig(input_file): """Returns a target-files.zip that's not containing postinstall_config.txt. This allows brillo_update_payload script to skip writing all the postinstall hooks in the generated payload. The input target-files.zip file will be duplicated, with 'META/postinstall_config.txt' skipped. If input_file doesn't contain the postinstall_config.txt entry, the input file will be returned. Args: input_file: The input target-files.zip filename. Returns: The filename of target-files.zip that doesn't contain postinstall config. """ # We should only make a copy if postinstall_config entry exists. with zipfile.ZipFile(input_file, 'r') as input_zip: if POSTINSTALL_CONFIG not in input_zip.namelist(): return input_file target_file = common.MakeTempFile(prefix="targetfiles-", suffix=".zip") shutil.copyfile(input_file, target_file) common.ZipDelete(target_file, POSTINSTALL_CONFIG) return target_file def WriteABOTAPackageWithBrilloScript(target_file, output_file, source_file=None): """Generates an Android OTA package that has A/B update payload.""" # Stage the output zip package for package signing. if not OPTIONS.no_signing: staging_file = common.MakeTempFile(suffix='.zip') else: staging_file = output_file output_zip = zipfile.ZipFile(staging_file, "w", compression=zipfile.ZIP_DEFLATED) if source_file is not None: target_info = BuildInfo(OPTIONS.target_info_dict, OPTIONS.oem_dicts) source_info = BuildInfo(OPTIONS.source_info_dict, OPTIONS.oem_dicts) else: target_info = BuildInfo(OPTIONS.info_dict, OPTIONS.oem_dicts) source_info = None # Metadata to comply with Android OTA package format. metadata = GetPackageMetadata(target_info, source_info) if OPTIONS.skip_postinstall: target_file = GetTargetFilesZipWithoutPostinstallConfig(target_file) # Generate payload. payload = Payload() # Enforce a max timestamp this payload can be applied on top of. if OPTIONS.downgrade: max_timestamp = source_info.GetBuildProp("ro.build.date.utc") else: max_timestamp = metadata["post-timestamp"] additional_args = ["--max_timestamp", max_timestamp] payload.Generate(target_file, source_file, additional_args) # Sign the payload. payload_signer = PayloadSigner() payload.Sign(payload_signer) # Write the payload into output zip. payload.WriteToZip(output_zip) # Generate and include the secondary payload that installs secondary images # (e.g. system_other.img). if OPTIONS.include_secondary: # We always include a full payload for the secondary slot, even when # building an incremental OTA. See the comments for "--include_secondary". secondary_target_file = GetTargetFilesZipForSecondaryImages( target_file, OPTIONS.skip_postinstall) secondary_payload = Payload(secondary=True) secondary_payload.Generate(secondary_target_file, additional_args=additional_args) secondary_payload.Sign(payload_signer) secondary_payload.WriteToZip(output_zip) # If dm-verity is supported for the device, copy contents of care_map # into A/B OTA package. target_zip = zipfile.ZipFile(target_file, "r") if (target_info.get("verity") == "true" or target_info.get("avb_enable") == "true"): care_map_list = [x for x in ["care_map.pb", "care_map.txt"] if "META/" + x in target_zip.namelist()] # Adds care_map if either the protobuf format or the plain text one exists. if care_map_list: care_map_name = care_map_list[0] care_map_data = target_zip.read("META/" + care_map_name) # In order to support streaming, care_map needs to be packed as # ZIP_STORED. common.ZipWriteStr(output_zip, care_map_name, care_map_data, compress_type=zipfile.ZIP_STORED) else: logger.warning("Cannot find care map file in target_file package") AddCompatibilityArchiveIfTrebleEnabled( target_zip, output_zip, target_info, source_info) common.ZipClose(target_zip) # We haven't written the metadata entry yet, which will be handled in # FinalizeMetadata(). common.ZipClose(output_zip) # AbOtaPropertyFiles intends to replace StreamingPropertyFiles, as it covers # all the info of the latter. However, system updaters and OTA servers need to # take time to switch to the new flag. We keep both of the flags for # P-timeframe, and will remove StreamingPropertyFiles in later release. needed_property_files = ( AbOtaPropertyFiles(), StreamingPropertyFiles(), ) FinalizeMetadata(metadata, staging_file, output_file, needed_property_files) def main(argv): def option_handler(o, a): if o in ("-k", "--package_key"): OPTIONS.package_key = a elif o in ("-i", "--incremental_from"): OPTIONS.incremental_source = a elif o == "--full_radio": OPTIONS.full_radio = True elif o == "--full_bootloader": OPTIONS.full_bootloader = True elif o == "--wipe_user_data": OPTIONS.wipe_user_data = True elif o == "--downgrade": OPTIONS.downgrade = True OPTIONS.wipe_user_data = True elif o == "--override_timestamp": OPTIONS.downgrade = True elif o in ("-o", "--oem_settings"): OPTIONS.oem_source = a.split(',') elif o == "--oem_no_mount": OPTIONS.oem_no_mount = True elif o in ("-e", "--extra_script"): OPTIONS.extra_script = a elif o in ("-t", "--worker_threads"): if a.isdigit(): OPTIONS.worker_threads = int(a) else: raise ValueError("Cannot parse value %r for option %r - only " "integers are allowed." % (a, o)) elif o in ("-2", "--two_step"): OPTIONS.two_step = True elif o == "--include_secondary": OPTIONS.include_secondary = True elif o == "--no_signing": OPTIONS.no_signing = True elif o == "--verify": OPTIONS.verify = True elif o == "--block": OPTIONS.block_based = True elif o in ("-b", "--binary"): OPTIONS.updater_binary = a elif o == "--stash_threshold": try: OPTIONS.stash_threshold = float(a) except ValueError: raise ValueError("Cannot parse value %r for option %r - expecting " "a float" % (a, o)) elif o == "--log_diff": OPTIONS.log_diff = a elif o == "--payload_signer": OPTIONS.payload_signer = a elif o == "--payload_signer_args": OPTIONS.payload_signer_args = shlex.split(a) elif o == "--extracted_input_target_files": OPTIONS.extracted_input = a elif o == "--skip_postinstall": OPTIONS.skip_postinstall = True else: return False return True args = common.ParseOptions(argv, __doc__, extra_opts="b:k:i:d:e:t:2o:", extra_long_opts=[ "package_key=", "incremental_from=", "full_radio", "full_bootloader", "wipe_user_data", "downgrade", "override_timestamp", "extra_script=", "worker_threads=", "two_step", "include_secondary", "no_signing", "block", "binary=", "oem_settings=", "oem_no_mount", "verify", "stash_threshold=", "log_diff=", "payload_signer=", "payload_signer_args=", "extracted_input_target_files=", "skip_postinstall", ], extra_option_handler=option_handler) if len(args) != 2: common.Usage(__doc__) sys.exit(1) common.InitLogging() if OPTIONS.downgrade: # We should only allow downgrading incrementals (as opposed to full). # Otherwise the device may go back from arbitrary build with this full # OTA package. if OPTIONS.incremental_source is None: raise ValueError("Cannot generate downgradable full OTAs") # Load the build info dicts from the zip directly or the extracted input # directory. We don't need to unzip the entire target-files zips, because they # won't be needed for A/B OTAs (brillo_update_payload does that on its own). # When loading the info dicts, we don't need to provide the second parameter # to common.LoadInfoDict(). Specifying the second parameter allows replacing # some properties with their actual paths, such as 'selinux_fc', # 'ramdisk_dir', which won't be used during OTA generation. if OPTIONS.extracted_input is not None: OPTIONS.info_dict = common.LoadInfoDict(OPTIONS.extracted_input) else: with zipfile.ZipFile(args[0], 'r') as input_zip: OPTIONS.info_dict = common.LoadInfoDict(input_zip) logger.info("--- target info ---") common.DumpInfoDict(OPTIONS.info_dict) # Load the source build dict if applicable. if OPTIONS.incremental_source is not None: OPTIONS.target_info_dict = OPTIONS.info_dict with zipfile.ZipFile(OPTIONS.incremental_source, 'r') as source_zip: OPTIONS.source_info_dict = common.LoadInfoDict(source_zip) logger.info("--- source info ---") common.DumpInfoDict(OPTIONS.source_info_dict) # Load OEM dicts if provided. OPTIONS.oem_dicts = _LoadOemDicts(OPTIONS.oem_source) ab_update = OPTIONS.info_dict.get("ab_update") == "true" # Use the default key to sign the package if not specified with package_key. # package_keys are needed on ab_updates, so always define them if an # ab_update is getting created. if not OPTIONS.no_signing or ab_update: if OPTIONS.package_key is None: OPTIONS.package_key = OPTIONS.info_dict.get( "default_system_dev_certificate", "build/target/product/security/testkey") # Get signing keys OPTIONS.key_passwords = common.GetKeyPasswords([OPTIONS.package_key]) if ab_update: WriteABOTAPackageWithBrilloScript( target_file=args[0], output_file=args[1], source_file=OPTIONS.incremental_source) logger.info("done.") return # Sanity check the loaded info dicts first. if OPTIONS.info_dict.get("no_recovery") == "true": raise common.ExternalError( "--- target build has specified no recovery ---") # Non-A/B OTAs rely on /cache partition to store temporary files. cache_size = OPTIONS.info_dict.get("cache_size") if cache_size is None: logger.warning("--- can't determine the cache partition size ---") OPTIONS.cache_size = cache_size if OPTIONS.extra_script is not None: OPTIONS.extra_script = open(OPTIONS.extra_script).read() if OPTIONS.extracted_input is not None: OPTIONS.input_tmp = OPTIONS.extracted_input else: logger.info("unzipping target target-files...") OPTIONS.input_tmp = common.UnzipTemp(args[0], UNZIP_PATTERN) OPTIONS.target_tmp = OPTIONS.input_tmp # If the caller explicitly specified the device-specific extensions path via # -s / --device_specific, use that. Otherwise, use META/releasetools.py if it # is present in the target target_files. Otherwise, take the path of the file # from 'tool_extensions' in the info dict and look for that in the local # filesystem, relative to the current directory. if OPTIONS.device_specific is None: from_input = os.path.join(OPTIONS.input_tmp, "META", "releasetools.py") if os.path.exists(from_input): logger.info("(using device-specific extensions from target_files)") OPTIONS.device_specific = from_input else: OPTIONS.device_specific = OPTIONS.info_dict.get("tool_extensions") if OPTIONS.device_specific is not None: OPTIONS.device_specific = os.path.abspath(OPTIONS.device_specific) # Generate a full OTA. if OPTIONS.incremental_source is None: with zipfile.ZipFile(args[0], 'r') as input_zip: WriteFullOTAPackage( input_zip, output_file=args[1]) # Generate an incremental OTA. else: logger.info("unzipping source target-files...") OPTIONS.source_tmp = common.UnzipTemp( OPTIONS.incremental_source, UNZIP_PATTERN) with zipfile.ZipFile(args[0], 'r') as input_zip, \ zipfile.ZipFile(OPTIONS.incremental_source, 'r') as source_zip: WriteBlockIncrementalOTAPackage( input_zip, source_zip, output_file=args[1]) if OPTIONS.log_diff: with open(OPTIONS.log_diff, 'w') as out_file: import target_files_diff target_files_diff.recursiveDiff( '', OPTIONS.source_tmp, OPTIONS.input_tmp, out_file) logger.info("done.") if __name__ == '__main__': try: common.CloseInheritedPipes() main(sys.argv[1:]) except common.ExternalError: logger.exception("\n ERROR:\n") sys.exit(1) finally: common.Cleanup()