platform_build/tools/releasetools/build_super_image.py

225 lines
7.0 KiB
Python
Executable File

#!/usr/bin/env python
#
# Copyright (C) 2018 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.
"""
Usage: build_super_image input_file output_dir_or_file
input_file: one of the following:
- directory containing extracted target files. It will load info from
META/misc_info.txt and build full super image / split images using source
images from IMAGES/.
- target files package. Same as above, but extracts the archive before
building super image.
- a dictionary file containing input arguments to build. Check
`dump-super-image-info' for details.
In addition:
- If source images should be included in the output image (for super.img
and super split images), a list of "*_image" should be paths of each
source images.
output_dir_or_file:
If a single super image is built (for super_empty.img, or super.img for
launch devices), this argument is the output file.
If a collection of split images are built (for retrofit devices), this
argument is the output directory.
"""
from __future__ import print_function
import logging
import os.path
import shlex
import sys
import zipfile
import common
import sparse_img
if sys.hexversion < 0x02070000:
print("Python 2.7 or newer is required.", file=sys.stderr)
sys.exit(1)
logger = logging.getLogger(__name__)
UNZIP_PATTERN = ["IMAGES/*", "META/*", "*/build.prop"]
def GetArgumentsForImage(partition, group, image=None):
image_size = sparse_img.GetImagePartitionSize(image) if image else 0
cmd = ["--partition",
"{}:readonly:{}:{}".format(partition, image_size, group)]
if image:
cmd += ["--image", "{}={}".format(partition, image)]
return cmd
def BuildSuperImageFromDict(info_dict, output):
cmd = [info_dict["lpmake"],
"--metadata-size", "65536",
"--super-name", info_dict["super_metadata_device"]]
ab_update = info_dict.get("ab_update") == "true"
virtual_ab = info_dict.get("virtual_ab") == "true"
virtual_ab_retrofit = info_dict.get("virtual_ab_retrofit") == "true"
retrofit = info_dict.get("dynamic_partition_retrofit") == "true"
block_devices = shlex.split(info_dict.get("super_block_devices", "").strip())
groups = shlex.split(info_dict.get("super_partition_groups", "").strip())
if ab_update and retrofit:
cmd += ["--metadata-slots", "2"]
elif ab_update:
cmd += ["--metadata-slots", "3"]
else:
cmd += ["--metadata-slots", "2"]
if ab_update and retrofit:
cmd.append("--auto-slot-suffixing")
if virtual_ab and not virtual_ab_retrofit:
cmd.append("--virtual-ab")
for device in block_devices:
size = info_dict["super_{}_device_size".format(device)]
cmd += ["--device", "{}:{}".format(device, size)]
append_suffix = ab_update and not retrofit
has_image = False
for group in groups:
group_size = info_dict["super_{}_group_size".format(group)]
if append_suffix:
cmd += ["--group", "{}_a:{}".format(group, group_size),
"--group", "{}_b:{}".format(group, group_size)]
else:
cmd += ["--group", "{}:{}".format(group, group_size)]
partition_list = shlex.split(
info_dict["super_{}_partition_list".format(group)].strip())
for partition in partition_list:
image = info_dict.get("{}_image".format(partition))
if image:
has_image = True
if not append_suffix:
cmd += GetArgumentsForImage(partition, group, image)
continue
# For A/B devices, super partition always contains sub-partitions in
# the _a slot, because this image should only be used for
# bootstrapping / initializing the device. When flashing the image,
# bootloader fastboot should always mark _a slot as bootable.
cmd += GetArgumentsForImage(partition + "_a", group + "_a", image)
other_image = None
if partition == "system" and "system_other_image" in info_dict:
other_image = info_dict["system_other_image"]
has_image = True
cmd += GetArgumentsForImage(partition + "_b", group + "_b", other_image)
if info_dict.get("build_non_sparse_super_partition") != "true":
cmd.append("--sparse")
cmd += ["--output", output]
common.RunAndCheckOutput(cmd)
if retrofit and has_image:
logger.info("Done writing images to directory %s", output)
else:
logger.info("Done writing image %s", output)
return True
def BuildSuperImageFromExtractedTargetFiles(inp, out):
info_dict = common.LoadInfoDict(inp)
partition_list = shlex.split(
info_dict.get("dynamic_partition_list", "").strip())
if "system" in partition_list:
image_path = os.path.join(inp, "IMAGES", "system_other.img")
if os.path.isfile(image_path):
info_dict["system_other_image"] = image_path
missing_images = []
for partition in partition_list:
image_path = os.path.join(inp, "IMAGES", "{}.img".format(partition))
if not os.path.isfile(image_path):
missing_images.append(image_path)
else:
info_dict["{}_image".format(partition)] = image_path
if missing_images:
logger.warning("Skip building super image because the following "
"images are missing from target files:\n%s",
"\n".join(missing_images))
return False
return BuildSuperImageFromDict(info_dict, out)
def BuildSuperImageFromTargetFiles(inp, out):
input_tmp = common.UnzipTemp(inp, UNZIP_PATTERN)
return BuildSuperImageFromExtractedTargetFiles(input_tmp, out)
def BuildSuperImage(inp, out):
if isinstance(inp, dict):
logger.info("Building super image from info dict...")
return BuildSuperImageFromDict(inp, out)
if isinstance(inp, str):
if os.path.isdir(inp):
logger.info("Building super image from extracted target files...")
return BuildSuperImageFromExtractedTargetFiles(inp, out)
if zipfile.is_zipfile(inp):
logger.info("Building super image from target files...")
return BuildSuperImageFromTargetFiles(inp, out)
if os.path.isfile(inp):
logger.info("Building super image from info dict...")
return BuildSuperImageFromDict(common.LoadDictionaryFromFile(inp), out)
raise ValueError("{} is not a dictionary or a valid path".format(inp))
def main(argv):
args = common.ParseOptions(argv, __doc__)
if len(args) != 2:
common.Usage(__doc__)
sys.exit(1)
common.InitLogging()
BuildSuperImage(args[0], args[1])
if __name__ == "__main__":
try:
common.CloseInheritedPipes()
main(sys.argv[1:])
except common.ExternalError:
logger.exception("\n ERROR:\n")
sys.exit(1)
finally:
common.Cleanup()