platform_build/tools/releasetools/add_img_to_target_files.py
Tao Bao 73dd4f45f3 releasetools: Set default stdout and stderr in common.Run().
stdout and stderr will default to subprocess.PIPE and subprocess.STDOUT
respectively (which is the expected behavior from most of the existing
callers), unless caller specifies any of them.

Test: `m dist`
Test: python -m unittest \
          test_common \
          test_add_img_to_target_files \
          test_ota_from_target_files \
          test_validate_target_files
Change-Id: I43b3f08edfa8a9bcfe54baf9848dc705c048e327
2018-10-04 17:05:09 -07:00

931 lines
32 KiB
Python
Executable file

#!/usr/bin/env python
#
# Copyright (C) 2014 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 that does not contain images (ie, does
not have an IMAGES/ top-level subdirectory), produce the images and
add them to the zipfile.
Usage: add_img_to_target_files [flag] target_files
-a (--add_missing)
Build and add missing images to "IMAGES/". If this option is
not specified, this script will simply exit when "IMAGES/"
directory exists in the target file.
-r (--rebuild_recovery)
Rebuild the recovery patch and write it to the system image. Only
meaningful when system image needs to be rebuilt.
--replace_verity_private_key
Replace the private key used for verity signing. (same as the option
in sign_target_files_apks)
--replace_verity_public_key
Replace the certificate (public key) used for verity verification. (same
as the option in sign_target_files_apks)
--is_signing
Skip building & adding the images for "userdata" and "cache" if we
are signing the target files.
"""
from __future__ import print_function
import datetime
import os
import shlex
import shutil
import sys
import uuid
import zipfile
import build_image
import common
import rangelib
import sparse_img
if sys.hexversion < 0x02070000:
print("Python 2.7 or newer is required.", file=sys.stderr)
sys.exit(1)
OPTIONS = common.OPTIONS
OPTIONS.add_missing = False
OPTIONS.rebuild_recovery = False
OPTIONS.replace_updated_files_list = []
OPTIONS.replace_verity_public_key = False
OPTIONS.replace_verity_private_key = False
OPTIONS.is_signing = False
# Use a fixed timestamp (01/01/2009 00:00:00 UTC) for files when packaging
# images. (b/24377993, b/80600931)
FIXED_FILE_TIMESTAMP = int((
datetime.datetime(2009, 1, 1, 0, 0, 0, 0, None) -
datetime.datetime.utcfromtimestamp(0)).total_seconds())
class OutputFile(object):
def __init__(self, output_zip, input_dir, prefix, name):
self._output_zip = output_zip
self.input_name = os.path.join(input_dir, prefix, name)
if self._output_zip:
self._zip_name = os.path.join(prefix, name)
root, suffix = os.path.splitext(name)
self.name = common.MakeTempFile(prefix=root + '-', suffix=suffix)
else:
self.name = self.input_name
def Write(self):
if self._output_zip:
common.ZipWrite(self._output_zip, self.name, self._zip_name)
def GetCareMap(which, imgname):
"""Returns the care_map string for the given partition.
Args:
which: The partition name, must be listed in PARTITIONS_WITH_CARE_MAP.
imgname: The filename of the image.
Returns:
(which, care_map_ranges): care_map_ranges is the raw string of the care_map
RangeSet.
"""
assert which in common.PARTITIONS_WITH_CARE_MAP
simg = sparse_img.SparseImage(imgname)
care_map_ranges = simg.care_map
key = which + "_image_blocks"
image_blocks = OPTIONS.info_dict.get(key)
if image_blocks:
assert image_blocks > 0, "blocks for {} must be positive".format(which)
care_map_ranges = care_map_ranges.intersect(
rangelib.RangeSet("0-{}".format(image_blocks)))
return [which, care_map_ranges.to_string_raw()]
def AddSystem(output_zip, recovery_img=None, boot_img=None):
"""Turn the contents of SYSTEM into a system image and store it in
output_zip. Returns the name of the system image file."""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "system.img")
if os.path.exists(img.input_name):
print("system.img already exists; no need to rebuild...")
return img.input_name
def output_sink(fn, data):
ofile = open(os.path.join(OPTIONS.input_tmp, "SYSTEM", fn), "w")
ofile.write(data)
ofile.close()
arc_name = "SYSTEM/" + fn
if arc_name in output_zip.namelist():
OPTIONS.replace_updated_files_list.append(arc_name)
else:
common.ZipWrite(output_zip, ofile.name, arc_name)
if OPTIONS.rebuild_recovery:
print("Building new recovery patch")
common.MakeRecoveryPatch(OPTIONS.input_tmp, output_sink, recovery_img,
boot_img, info_dict=OPTIONS.info_dict)
block_list = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "system.map")
CreateImage(OPTIONS.input_tmp, OPTIONS.info_dict, "system", img,
block_list=block_list)
return img.name
def AddSystemOther(output_zip):
"""Turn the contents of SYSTEM_OTHER into a system_other image
and store it in output_zip."""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "system_other.img")
if os.path.exists(img.input_name):
print("system_other.img already exists; no need to rebuild...")
return
CreateImage(OPTIONS.input_tmp, OPTIONS.info_dict, "system_other", img)
def AddVendor(output_zip):
"""Turn the contents of VENDOR into a vendor image and store in it
output_zip."""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "vendor.img")
if os.path.exists(img.input_name):
print("vendor.img already exists; no need to rebuild...")
return img.input_name
block_list = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "vendor.map")
CreateImage(OPTIONS.input_tmp, OPTIONS.info_dict, "vendor", img,
block_list=block_list)
return img.name
def AddProduct(output_zip):
"""Turn the contents of PRODUCT into a product image and store it in
output_zip."""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "product.img")
if os.path.exists(img.input_name):
print("product.img already exists; no need to rebuild...")
return img.input_name
block_list = OutputFile(
output_zip, OPTIONS.input_tmp, "IMAGES", "product.map")
CreateImage(
OPTIONS.input_tmp, OPTIONS.info_dict, "product", img,
block_list=block_list)
return img.name
def AddProductServices(output_zip):
"""Turn the contents of PRODUCT_SERVICES into a product_services image and
store it in output_zip."""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES",
"product_services.img")
if os.path.exists(img.input_name):
print("product_services.img already exists; no need to rebuild...")
return img.input_name
block_list = OutputFile(
output_zip, OPTIONS.input_tmp, "IMAGES", "product_services.map")
CreateImage(
OPTIONS.input_tmp, OPTIONS.info_dict, "product_services", img,
block_list=block_list)
return img.name
def AddOdm(output_zip):
"""Turn the contents of ODM into an odm image and store it in output_zip."""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "odm.img")
if os.path.exists(img.input_name):
print("odm.img already exists; no need to rebuild...")
return img.input_name
block_list = OutputFile(
output_zip, OPTIONS.input_tmp, "IMAGES", "odm.map")
CreateImage(
OPTIONS.input_tmp, OPTIONS.info_dict, "odm", img,
block_list=block_list)
return img.name
def AddDtbo(output_zip):
"""Adds the DTBO image.
Uses the image under IMAGES/ if it already exists. Otherwise looks for the
image under PREBUILT_IMAGES/, signs it as needed, and returns the image name.
"""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "dtbo.img")
if os.path.exists(img.input_name):
print("dtbo.img already exists; no need to rebuild...")
return img.input_name
dtbo_prebuilt_path = os.path.join(
OPTIONS.input_tmp, "PREBUILT_IMAGES", "dtbo.img")
assert os.path.exists(dtbo_prebuilt_path)
shutil.copy(dtbo_prebuilt_path, img.name)
# AVB-sign the image as needed.
if OPTIONS.info_dict.get("avb_enable") == "true":
avbtool = os.getenv('AVBTOOL') or OPTIONS.info_dict["avb_avbtool"]
part_size = OPTIONS.info_dict["dtbo_size"]
# The AVB hash footer will be replaced if already present.
cmd = [avbtool, "add_hash_footer", "--image", img.name,
"--partition_size", str(part_size), "--partition_name", "dtbo"]
common.AppendAVBSigningArgs(cmd, "dtbo")
args = OPTIONS.info_dict.get("avb_dtbo_add_hash_footer_args")
if args and args.strip():
cmd.extend(shlex.split(args))
proc = common.Run(cmd)
output, _ = proc.communicate()
assert proc.returncode == 0, \
"Failed to call 'avbtool add_hash_footer' for {}:\n{}".format(
img.name, output)
img.Write()
return img.name
def CreateImage(input_dir, info_dict, what, output_file, block_list=None):
print("creating " + what + ".img...")
image_props = build_image.ImagePropFromGlobalDict(info_dict, what)
fstab = info_dict["fstab"]
mount_point = "/" + what
if fstab and mount_point in fstab:
image_props["fs_type"] = fstab[mount_point].fs_type
image_props["timestamp"] = FIXED_FILE_TIMESTAMP
if what == "system":
fs_config_prefix = ""
else:
fs_config_prefix = what + "_"
fs_config = os.path.join(
input_dir, "META/" + fs_config_prefix + "filesystem_config.txt")
if not os.path.exists(fs_config):
fs_config = None
# Override values loaded from info_dict.
if fs_config:
image_props["fs_config"] = fs_config
if block_list:
image_props["block_list"] = block_list.name
# Use repeatable ext4 FS UUID and hash_seed UUID (based on partition name and
# build fingerprint).
uuid_seed = what + "-"
if "build.prop" in info_dict:
build_prop = info_dict["build.prop"]
if "ro.build.fingerprint" in build_prop:
uuid_seed += build_prop["ro.build.fingerprint"]
elif "ro.build.thumbprint" in build_prop:
uuid_seed += build_prop["ro.build.thumbprint"]
image_props["uuid"] = str(uuid.uuid5(uuid.NAMESPACE_URL, uuid_seed))
hash_seed = "hash_seed-" + uuid_seed
image_props["hash_seed"] = str(uuid.uuid5(uuid.NAMESPACE_URL, hash_seed))
build_image.BuildImage(
os.path.join(input_dir, what.upper()), image_props, output_file.name)
output_file.Write()
if block_list:
block_list.Write()
# Set the '_image_blocks' that excludes the verity metadata blocks of the
# given image. When AVB is enabled, this size is the max image size returned
# by the AVB tool.
is_verity_partition = "verity_block_device" in image_props
verity_supported = (image_props.get("verity") == "true" or
image_props.get("avb_enable") == "true")
is_avb_enable = image_props.get("avb_hashtree_enable") == "true"
if verity_supported and (is_verity_partition or is_avb_enable):
image_size = image_props.get("image_size")
if image_size:
image_blocks_key = what + "_image_blocks"
info_dict[image_blocks_key] = int(image_size) / 4096 - 1
def AddUserdata(output_zip):
"""Create a userdata image and store it in output_zip.
In most case we just create and store an empty userdata.img;
But the invoker can also request to create userdata.img with real
data from the target files, by setting "userdata_img_with_data=true"
in OPTIONS.info_dict.
"""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "userdata.img")
if os.path.exists(img.input_name):
print("userdata.img already exists; no need to rebuild...")
return
# Skip userdata.img if no size.
image_props = build_image.ImagePropFromGlobalDict(OPTIONS.info_dict, "data")
if not image_props.get("partition_size"):
return
print("creating userdata.img...")
image_props["timestamp"] = FIXED_FILE_TIMESTAMP
if OPTIONS.info_dict.get("userdata_img_with_data") == "true":
user_dir = os.path.join(OPTIONS.input_tmp, "DATA")
else:
user_dir = common.MakeTempDir()
fstab = OPTIONS.info_dict["fstab"]
if fstab:
image_props["fs_type"] = fstab["/data"].fs_type
build_image.BuildImage(user_dir, image_props, img.name)
common.CheckSize(img.name, "userdata.img", OPTIONS.info_dict)
img.Write()
def AppendVBMetaArgsForPartition(cmd, partition, image):
"""Appends the VBMeta arguments for partition.
It sets up the VBMeta argument by including the partition descriptor from the
given 'image', or by configuring the partition as a chained partition.
Args:
cmd: A list of command args that will be used to generate the vbmeta image.
The argument for the partition will be appended to the list.
partition: The name of the partition (e.g. "system").
image: The path to the partition image.
"""
# Check if chain partition is used.
key_path = OPTIONS.info_dict.get("avb_" + partition + "_key_path")
if key_path:
chained_partition_arg = common.GetAvbChainedPartitionArg(
partition, OPTIONS.info_dict)
cmd.extend(["--chain_partition", chained_partition_arg])
else:
cmd.extend(["--include_descriptors_from_image", image])
def AddVBMeta(output_zip, partitions, name, needed_partitions):
"""Creates a VBMeta image and stores it in output_zip.
It generates the requested VBMeta image. The requested image could be for
top-level or chained VBMeta image, which is determined based on the name.
Args:
output_zip: The output zip file, which needs to be already open.
partitions: A dict that's keyed by partition names with image paths as
values. Only valid partition names are accepted, as listed in
common.AVB_PARTITIONS.
name: Name of the VBMeta partition, e.g. 'vbmeta', 'vbmeta_mainline'.
needed_partitions: Partitions whose descriptors should be included into the
generated VBMeta image.
Raises:
AssertionError: On invalid input args.
"""
assert needed_partitions, "Needed partitions must be specified"
img = OutputFile(
output_zip, OPTIONS.input_tmp, "IMAGES", "{}.img".format(name))
if os.path.exists(img.input_name):
print("{}.img already exists; not rebuilding...".format(name))
return img.input_name
avbtool = os.getenv('AVBTOOL') or OPTIONS.info_dict["avb_avbtool"]
cmd = [avbtool, "make_vbmeta_image", "--output", img.name]
common.AppendAVBSigningArgs(cmd, name)
for partition, path in partitions.items():
if partition not in needed_partitions:
continue
assert partition in common.AVB_PARTITIONS, \
'Unknown partition: {}'.format(partition)
assert os.path.exists(path), \
'Failed to find {} for {}'.format(path, partition)
AppendVBMetaArgsForPartition(cmd, partition, path)
args = OPTIONS.info_dict.get("avb_{}_args".format(name))
if args and args.strip():
split_args = shlex.split(args)
for index, arg in enumerate(split_args[:-1]):
# Sanity check that the image file exists. Some images might be defined
# as a path relative to source tree, which may not be available at the
# same location when running this script (we have the input target_files
# zip only). For such cases, we additionally scan other locations (e.g.
# IMAGES/, RADIO/, etc) before bailing out.
if arg == '--include_descriptors_from_image':
image_path = split_args[index + 1]
if os.path.exists(image_path):
continue
found = False
for dir_name in ['IMAGES', 'RADIO', 'PREBUILT_IMAGES']:
alt_path = os.path.join(
OPTIONS.input_tmp, dir_name, os.path.basename(image_path))
if os.path.exists(alt_path):
split_args[index + 1] = alt_path
found = True
break
assert found, 'Failed to find {}'.format(image_path)
cmd.extend(split_args)
proc = common.Run(cmd)
stdoutdata, _ = proc.communicate()
assert proc.returncode == 0, \
"avbtool make_vbmeta_image failed:\n{}".format(stdoutdata)
img.Write()
def AddPartitionTable(output_zip):
"""Create a partition table image and store it in output_zip."""
img = OutputFile(
output_zip, OPTIONS.input_tmp, "IMAGES", "partition-table.img")
bpt = OutputFile(
output_zip, OPTIONS.input_tmp, "META", "partition-table.bpt")
# use BPTTOOL from environ, or "bpttool" if empty or not set.
bpttool = os.getenv("BPTTOOL") or "bpttool"
cmd = [bpttool, "make_table", "--output_json", bpt.name,
"--output_gpt", img.name]
input_files_str = OPTIONS.info_dict["board_bpt_input_files"]
input_files = input_files_str.split(" ")
for i in input_files:
cmd.extend(["--input", i])
disk_size = OPTIONS.info_dict.get("board_bpt_disk_size")
if disk_size:
cmd.extend(["--disk_size", disk_size])
args = OPTIONS.info_dict.get("board_bpt_make_table_args")
if args:
cmd.extend(shlex.split(args))
proc = common.Run(cmd)
stdoutdata, _ = proc.communicate()
assert proc.returncode == 0, \
"bpttool make_table failed:\n{}".format(stdoutdata)
img.Write()
bpt.Write()
def AddCache(output_zip):
"""Create an empty cache image and store it in output_zip."""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "cache.img")
if os.path.exists(img.input_name):
print("cache.img already exists; no need to rebuild...")
return
image_props = build_image.ImagePropFromGlobalDict(OPTIONS.info_dict, "cache")
# The build system has to explicitly request for cache.img.
if "fs_type" not in image_props:
return
print("creating cache.img...")
image_props["timestamp"] = FIXED_FILE_TIMESTAMP
user_dir = common.MakeTempDir()
fstab = OPTIONS.info_dict["fstab"]
if fstab:
image_props["fs_type"] = fstab["/cache"].fs_type
build_image.BuildImage(user_dir, image_props, img.name)
common.CheckSize(img.name, "cache.img", OPTIONS.info_dict)
img.Write()
def CheckAbOtaImages(output_zip, ab_partitions):
"""Checks that all the listed A/B partitions have their images available.
The images need to be available under IMAGES/ or RADIO/, with the former takes
a priority.
Args:
output_zip: The output zip file (needs to be already open), or None to
find images in OPTIONS.input_tmp/.
ab_partitions: The list of A/B partitions.
Raises:
AssertionError: If it can't find an image.
"""
for partition in ab_partitions:
img_name = partition.strip() + ".img"
# Assert that the image is present under IMAGES/ now.
if output_zip:
# Zip spec says: All slashes MUST be forward slashes.
images_path = "IMAGES/" + img_name
radio_path = "RADIO/" + img_name
available = (images_path in output_zip.namelist() or
radio_path in output_zip.namelist())
else:
images_path = os.path.join(OPTIONS.input_tmp, "IMAGES", img_name)
radio_path = os.path.join(OPTIONS.input_tmp, "RADIO", img_name)
available = os.path.exists(images_path) or os.path.exists(radio_path)
assert available, "Failed to find " + img_name
def AddCareMapForAbOta(output_zip, ab_partitions, image_paths):
"""Generates and adds care_map.pb for a/b partition that has care_map.
Args:
output_zip: The output zip file (needs to be already open), or None to
write care_map.pb to OPTIONS.input_tmp/.
ab_partitions: The list of A/B partitions.
image_paths: A map from the partition name to the image path.
"""
care_map_list = []
for partition in ab_partitions:
partition = partition.strip()
if partition not in common.PARTITIONS_WITH_CARE_MAP:
continue
verity_block_device = "{}_verity_block_device".format(partition)
avb_hashtree_enable = "avb_{}_hashtree_enable".format(partition)
if (verity_block_device in OPTIONS.info_dict or
OPTIONS.info_dict.get(avb_hashtree_enable) == "true"):
image_path = image_paths[partition]
assert os.path.exists(image_path)
care_map_list += GetCareMap(partition, image_path)
# adds fingerprint field to the care_map
build_props = OPTIONS.info_dict.get(partition + ".build.prop", {})
prop_name_list = ["ro.{}.build.fingerprint".format(partition),
"ro.{}.build.thumbprint".format(partition)]
present_props = [x for x in prop_name_list if x in build_props]
if not present_props:
print("Warning: fingerprint is not present for partition {}".
format(partition))
property_id, fingerprint = "unknown", "unknown"
else:
property_id = present_props[0]
fingerprint = build_props[property_id]
care_map_list += [property_id, fingerprint]
if not care_map_list:
return
# Converts the list into proto buf message by calling care_map_generator; and
# writes the result to a temp file.
temp_care_map_text = common.MakeTempFile(prefix="caremap_text-",
suffix=".txt")
with open(temp_care_map_text, 'w') as text_file:
text_file.write('\n'.join(care_map_list))
temp_care_map = common.MakeTempFile(prefix="caremap-", suffix=".pb")
care_map_gen_cmd = ["care_map_generator", temp_care_map_text, temp_care_map]
proc = common.Run(care_map_gen_cmd)
output, _ = proc.communicate()
assert proc.returncode == 0, \
"Failed to generate the care_map proto message:\n{}".format(output)
care_map_path = "META/care_map.pb"
if output_zip and care_map_path not in output_zip.namelist():
common.ZipWrite(output_zip, temp_care_map, arcname=care_map_path)
else:
shutil.copy(temp_care_map, os.path.join(OPTIONS.input_tmp, care_map_path))
if output_zip:
OPTIONS.replace_updated_files_list.append(care_map_path)
def AddPackRadioImages(output_zip, images):
"""Copies images listed in META/pack_radioimages.txt from RADIO/ to IMAGES/.
Args:
output_zip: The output zip file (needs to be already open), or None to
write images to OPTIONS.input_tmp/.
images: A list of image names.
Raises:
AssertionError: If a listed image can't be found.
"""
for image in images:
img_name = image.strip()
_, ext = os.path.splitext(img_name)
if not ext:
img_name += ".img"
prebuilt_path = os.path.join(OPTIONS.input_tmp, "IMAGES", img_name)
if os.path.exists(prebuilt_path):
print("%s already exists, no need to overwrite..." % (img_name,))
continue
img_radio_path = os.path.join(OPTIONS.input_tmp, "RADIO", img_name)
assert os.path.exists(img_radio_path), \
"Failed to find %s at %s" % (img_name, img_radio_path)
if output_zip:
common.ZipWrite(output_zip, img_radio_path, "IMAGES/" + img_name)
else:
shutil.copy(img_radio_path, prebuilt_path)
def AddSuperEmpty(output_zip):
"""Create a super_empty.img and store it in output_zip."""
img = OutputFile(output_zip, OPTIONS.input_tmp, "IMAGES", "super_empty.img")
cmd = [OPTIONS.info_dict.get('lpmake')]
cmd += shlex.split(OPTIONS.info_dict.get('lpmake_args').strip())
cmd += ['--output', img.name]
proc = common.Run(cmd)
stdoutdata, _ = proc.communicate()
assert proc.returncode == 0, \
"lpmake tool failed:\n{}".format(stdoutdata)
img.Write()
def ReplaceUpdatedFiles(zip_filename, files_list):
"""Updates all the ZIP entries listed in files_list.
For now the list includes META/care_map.pb, and the related files under
SYSTEM/ after rebuilding recovery.
"""
common.ZipDelete(zip_filename, files_list)
output_zip = zipfile.ZipFile(zip_filename, "a",
compression=zipfile.ZIP_DEFLATED,
allowZip64=True)
for item in files_list:
file_path = os.path.join(OPTIONS.input_tmp, item)
assert os.path.exists(file_path)
common.ZipWrite(output_zip, file_path, arcname=item)
common.ZipClose(output_zip)
def AddImagesToTargetFiles(filename):
"""Creates and adds images (boot/recovery/system/...) to a target_files.zip.
It works with either a zip file (zip mode), or a directory that contains the
files to be packed into a target_files.zip (dir mode). The latter is used when
being called from build/make/core/Makefile.
The images will be created under IMAGES/ in the input target_files.zip.
Args:
filename: the target_files.zip, or the zip root directory.
"""
if os.path.isdir(filename):
OPTIONS.input_tmp = os.path.abspath(filename)
else:
OPTIONS.input_tmp = common.UnzipTemp(filename)
if not OPTIONS.add_missing:
if os.path.isdir(os.path.join(OPTIONS.input_tmp, "IMAGES")):
print("target_files appears to already contain images.")
sys.exit(1)
OPTIONS.info_dict = common.LoadInfoDict(OPTIONS.input_tmp, repacking=True)
has_recovery = OPTIONS.info_dict.get("no_recovery") != "true"
# {vendor,odm,product,product_services}.img are unlike system.img or
# system_other.img. Because it could be built from source, or dropped into
# target_files.zip as a prebuilt blob. We consider either of them as
# {vendor,product,product_services}.img being available, which could be
# used when generating vbmeta.img for AVB.
has_vendor = (os.path.isdir(os.path.join(OPTIONS.input_tmp, "VENDOR")) or
os.path.exists(os.path.join(OPTIONS.input_tmp, "IMAGES",
"vendor.img")))
has_odm = (os.path.isdir(os.path.join(OPTIONS.input_tmp, "ODM")) or
os.path.exists(os.path.join(OPTIONS.input_tmp, "IMAGES",
"odm.img")))
has_product = (os.path.isdir(os.path.join(OPTIONS.input_tmp, "PRODUCT")) or
os.path.exists(os.path.join(OPTIONS.input_tmp, "IMAGES",
"product.img")))
has_product_services = (os.path.isdir(os.path.join(OPTIONS.input_tmp,
"PRODUCT_SERVICES")) or
os.path.exists(os.path.join(OPTIONS.input_tmp,
"IMAGES",
"product_services.img")))
has_system_other = os.path.isdir(os.path.join(OPTIONS.input_tmp,
"SYSTEM_OTHER"))
# Set up the output destination. It writes to the given directory for dir
# mode; otherwise appends to the given ZIP.
if os.path.isdir(filename):
output_zip = None
else:
output_zip = zipfile.ZipFile(filename, "a",
compression=zipfile.ZIP_DEFLATED,
allowZip64=True)
# Always make input_tmp/IMAGES available, since we may stage boot / recovery
# images there even under zip mode. The directory will be cleaned up as part
# of OPTIONS.input_tmp.
images_dir = os.path.join(OPTIONS.input_tmp, "IMAGES")
if not os.path.isdir(images_dir):
os.makedirs(images_dir)
# A map between partition names and their paths, which could be used when
# generating AVB vbmeta image.
partitions = dict()
def banner(s):
print("\n\n++++ " + s + " ++++\n\n")
banner("boot")
# common.GetBootableImage() returns the image directly if present.
boot_image = common.GetBootableImage(
"IMAGES/boot.img", "boot.img", OPTIONS.input_tmp, "BOOT")
# boot.img may be unavailable in some targets (e.g. aosp_arm64).
if boot_image:
partitions['boot'] = os.path.join(OPTIONS.input_tmp, "IMAGES", "boot.img")
if not os.path.exists(partitions['boot']):
boot_image.WriteToDir(OPTIONS.input_tmp)
if output_zip:
boot_image.AddToZip(output_zip)
recovery_image = None
if has_recovery:
banner("recovery")
recovery_image = common.GetBootableImage(
"IMAGES/recovery.img", "recovery.img", OPTIONS.input_tmp, "RECOVERY")
assert recovery_image, "Failed to create recovery.img."
partitions['recovery'] = os.path.join(
OPTIONS.input_tmp, "IMAGES", "recovery.img")
if not os.path.exists(partitions['recovery']):
recovery_image.WriteToDir(OPTIONS.input_tmp)
if output_zip:
recovery_image.AddToZip(output_zip)
banner("recovery (two-step image)")
# The special recovery.img for two-step package use.
recovery_two_step_image = common.GetBootableImage(
"IMAGES/recovery-two-step.img", "recovery-two-step.img",
OPTIONS.input_tmp, "RECOVERY", two_step_image=True)
assert recovery_two_step_image, "Failed to create recovery-two-step.img."
recovery_two_step_image_path = os.path.join(
OPTIONS.input_tmp, "IMAGES", "recovery-two-step.img")
if not os.path.exists(recovery_two_step_image_path):
recovery_two_step_image.WriteToDir(OPTIONS.input_tmp)
if output_zip:
recovery_two_step_image.AddToZip(output_zip)
banner("system")
partitions['system'] = AddSystem(
output_zip, recovery_img=recovery_image, boot_img=boot_image)
if has_vendor:
banner("vendor")
partitions['vendor'] = AddVendor(output_zip)
if has_product:
banner("product")
partitions['product'] = AddProduct(output_zip)
if has_product_services:
banner("product_services")
partitions['product_services'] = AddProductServices(output_zip)
if has_odm:
banner("odm")
partitions['odm'] = AddOdm(output_zip)
if has_system_other:
banner("system_other")
AddSystemOther(output_zip)
if not OPTIONS.is_signing:
banner("userdata")
AddUserdata(output_zip)
banner("cache")
AddCache(output_zip)
if OPTIONS.info_dict.get("board_bpt_enable") == "true":
banner("partition-table")
AddPartitionTable(output_zip)
if OPTIONS.info_dict.get("has_dtbo") == "true":
banner("dtbo")
partitions['dtbo'] = AddDtbo(output_zip)
if OPTIONS.info_dict.get("avb_enable") == "true":
# vbmeta_partitions includes the partitions that should be included into
# top-level vbmeta.img, which are the ones that are not included in any
# chained VBMeta image plus the chained VBMeta images themselves.
vbmeta_partitions = common.AVB_PARTITIONS[:]
vbmeta_mainline = OPTIONS.info_dict.get("avb_vbmeta_mainline", "").strip()
if vbmeta_mainline:
banner("vbmeta_mainline")
AddVBMeta(
output_zip, partitions, "vbmeta_mainline", vbmeta_mainline.split())
vbmeta_partitions = [
item for item in vbmeta_partitions
if item not in vbmeta_mainline.split()]
vbmeta_partitions.append("vbmeta_mainline")
vbmeta_vendor = OPTIONS.info_dict.get("avb_vbmeta_vendor", "").strip()
if vbmeta_vendor:
banner("vbmeta_vendor")
AddVBMeta(
output_zip, partitions, "vbmeta_vendor", vbmeta_vendor.split())
vbmeta_partitions = [
item for item in vbmeta_partitions
if item not in vbmeta_vendor.split()]
vbmeta_partitions.append("vbmeta_vendor")
banner("vbmeta")
AddVBMeta(output_zip, partitions, "vbmeta", vbmeta_partitions)
if OPTIONS.info_dict.get("super_size"):
banner("super_empty")
AddSuperEmpty(output_zip)
banner("radio")
ab_partitions_txt = os.path.join(OPTIONS.input_tmp, "META",
"ab_partitions.txt")
if os.path.exists(ab_partitions_txt):
with open(ab_partitions_txt, 'r') as f:
ab_partitions = f.readlines()
# For devices using A/B update, make sure we have all the needed images
# ready under IMAGES/ or RADIO/.
CheckAbOtaImages(output_zip, ab_partitions)
# Generate care_map.pb for ab_partitions, then write this file to
# target_files package.
AddCareMapForAbOta(output_zip, ab_partitions, partitions)
# Radio images that need to be packed into IMAGES/, and product-img.zip.
pack_radioimages_txt = os.path.join(
OPTIONS.input_tmp, "META", "pack_radioimages.txt")
if os.path.exists(pack_radioimages_txt):
with open(pack_radioimages_txt, 'r') as f:
AddPackRadioImages(output_zip, f.readlines())
if output_zip:
common.ZipClose(output_zip)
if OPTIONS.replace_updated_files_list:
ReplaceUpdatedFiles(output_zip.filename,
OPTIONS.replace_updated_files_list)
def main(argv):
def option_handler(o, a):
if o in ("-a", "--add_missing"):
OPTIONS.add_missing = True
elif o in ("-r", "--rebuild_recovery",):
OPTIONS.rebuild_recovery = True
elif o == "--replace_verity_private_key":
OPTIONS.replace_verity_private_key = (True, a)
elif o == "--replace_verity_public_key":
OPTIONS.replace_verity_public_key = (True, a)
elif o == "--is_signing":
OPTIONS.is_signing = True
else:
return False
return True
args = common.ParseOptions(
argv, __doc__, extra_opts="ar",
extra_long_opts=["add_missing", "rebuild_recovery",
"replace_verity_public_key=",
"replace_verity_private_key=",
"is_signing"],
extra_option_handler=option_handler)
if len(args) != 1:
common.Usage(__doc__)
sys.exit(1)
AddImagesToTargetFiles(args[0])
print("done.")
if __name__ == '__main__':
try:
common.CloseInheritedPipes()
main(sys.argv[1:])
except common.ExternalError as e:
print("\n ERROR: %s\n" % (e,))
sys.exit(1)
finally:
common.Cleanup()