#!/usr/bin/env python # # Copyright (C) 2011 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. """ Builds output_image from the given input_directory, properties_file, and writes the image to target_output_directory. Usage: build_image input_directory properties_file output_image \\ target_output_directory """ from __future__ import print_function import logging import os import os.path import re import shutil import sys import common import verity_utils logger = logging.getLogger(__name__) OPTIONS = common.OPTIONS BLOCK_SIZE = common.BLOCK_SIZE BYTES_IN_MB = 1024 * 1024 class BuildImageError(Exception): """An Exception raised during image building.""" def __init__(self, message): Exception.__init__(self, message) def GetDiskUsage(path): """Returns the number of bytes that "path" occupies on host. Args: path: The directory or file to calculate size on. Returns: The number of bytes based on a 1K block_size. """ cmd = ["du", "-b", "-k", "-s", path] output = common.RunAndCheckOutput(cmd, verbose=False) return int(output.split()[0]) * 1024 def GetInodeUsage(path): """Returns the number of inodes that "path" occupies on host. Args: path: The directory or file to calculate inode number on. Returns: The number of inodes used. """ cmd = ["find", path, "-print"] output = common.RunAndCheckOutput(cmd, verbose=False) # increase by > 4% as number of files and directories is not whole picture. inodes = output.count('\n') spare_inodes = inodes * 4 // 100 min_spare_inodes = 12 if spare_inodes < min_spare_inodes: spare_inodes = min_spare_inodes return inodes + spare_inodes def GetFilesystemCharacteristics(image_path, sparse_image=True): """Returns various filesystem characteristics of "image_path". Args: image_path: The file to analyze. sparse_image: Image is sparse Returns: The characteristics dictionary. """ unsparse_image_path = image_path if sparse_image: unsparse_image_path = UnsparseImage(image_path, replace=False) cmd = ["tune2fs", "-l", unsparse_image_path] try: output = common.RunAndCheckOutput(cmd, verbose=False) finally: if sparse_image: os.remove(unsparse_image_path) fs_dict = {} for line in output.splitlines(): fields = line.split(":") if len(fields) == 2: fs_dict[fields[0].strip()] = fields[1].strip() return fs_dict def UnsparseImage(sparse_image_path, replace=True): img_dir = os.path.dirname(sparse_image_path) unsparse_image_path = "unsparse_" + os.path.basename(sparse_image_path) unsparse_image_path = os.path.join(img_dir, unsparse_image_path) if os.path.exists(unsparse_image_path): if replace: os.unlink(unsparse_image_path) else: return unsparse_image_path inflate_command = ["simg2img", sparse_image_path, unsparse_image_path] try: common.RunAndCheckOutput(inflate_command) except: os.remove(unsparse_image_path) raise return unsparse_image_path def ConvertBlockMapToBaseFs(block_map_file): base_fs_file = common.MakeTempFile(prefix="script_gen_", suffix=".base_fs") convert_command = ["blk_alloc_to_base_fs", block_map_file, base_fs_file] common.RunAndCheckOutput(convert_command) return base_fs_file def SetUpInDirAndFsConfig(origin_in, prop_dict): """Returns the in_dir and fs_config that should be used for image building. When building system.img for all targets, it creates and returns a staged dir that combines the contents of /system (i.e. in the given in_dir) and root. Args: origin_in: Path to the input directory. prop_dict: A property dict that contains info like partition size. Values may be updated. Returns: A tuple of in_dir and fs_config that should be used to build the image. """ fs_config = prop_dict.get("fs_config") if prop_dict["mount_point"] == "system_other": prop_dict["mount_point"] = "system" return origin_in, fs_config if prop_dict["mount_point"] != "system": return origin_in, fs_config if "first_pass" in prop_dict: prop_dict["mount_point"] = "/" return prop_dict["first_pass"] # Construct a staging directory of the root file system. in_dir = common.MakeTempDir() root_dir = prop_dict.get("root_dir") if root_dir: shutil.rmtree(in_dir) shutil.copytree(root_dir, in_dir, symlinks=True) in_dir_system = os.path.join(in_dir, "system") shutil.rmtree(in_dir_system, ignore_errors=True) shutil.copytree(origin_in, in_dir_system, symlinks=True) # Change the mount point to "/". prop_dict["mount_point"] = "/" if fs_config: # We need to merge the fs_config files of system and root. merged_fs_config = common.MakeTempFile( prefix="merged_fs_config", suffix=".txt") with open(merged_fs_config, "w") as fw: if "root_fs_config" in prop_dict: with open(prop_dict["root_fs_config"]) as fr: fw.writelines(fr.readlines()) with open(fs_config) as fr: fw.writelines(fr.readlines()) fs_config = merged_fs_config prop_dict["first_pass"] = (in_dir, fs_config) return in_dir, fs_config def CheckHeadroom(ext4fs_output, prop_dict): """Checks if there's enough headroom space available. Headroom is the reserved space on system image (via PRODUCT_SYSTEM_HEADROOM), which is useful for devices with low disk space that have system image variation between builds. The 'partition_headroom' in prop_dict is the size in bytes, while the numbers in 'ext4fs_output' are for 4K-blocks. Args: ext4fs_output: The output string from mke2fs command. prop_dict: The property dict. Raises: AssertionError: On invalid input. BuildImageError: On check failure. """ assert ext4fs_output is not None assert prop_dict.get('fs_type', '').startswith('ext4') assert 'partition_headroom' in prop_dict assert 'mount_point' in prop_dict ext4fs_stats = re.compile( r'Created filesystem with .* (?P[0-9]+)/' r'(?P[0-9]+) blocks') last_line = ext4fs_output.strip().split('\n')[-1] m = ext4fs_stats.match(last_line) used_blocks = int(m.groupdict().get('used_blocks')) total_blocks = int(m.groupdict().get('total_blocks')) headroom_blocks = int(prop_dict['partition_headroom']) // BLOCK_SIZE adjusted_blocks = total_blocks - headroom_blocks if used_blocks > adjusted_blocks: mount_point = prop_dict["mount_point"] raise BuildImageError( "Error: Not enough room on {} (total: {} blocks, used: {} blocks, " "headroom: {} blocks, available: {} blocks)".format( mount_point, total_blocks, used_blocks, headroom_blocks, adjusted_blocks)) def BuildImageMkfs(in_dir, prop_dict, out_file, target_out, fs_config): """Builds a pure image for the files under in_dir and writes it to out_file. Args: in_dir: Path to input directory. prop_dict: A property dict that contains info like partition size. Values will be updated with computed values. out_file: The output image file. target_out: Path to the TARGET_OUT directory as in Makefile. It actually points to the /system directory under PRODUCT_OUT. fs_config (the one under system/core/libcutils) reads device specific FS config files from there. fs_config: The fs_config file that drives the prototype Raises: BuildImageError: On build image failures. """ build_command = [] fs_type = prop_dict.get("fs_type", "") run_e2fsck = False needs_projid = prop_dict.get("needs_projid", 0) needs_casefold = prop_dict.get("needs_casefold", 0) if fs_type.startswith("ext"): build_command = [prop_dict["ext_mkuserimg"]] if "extfs_sparse_flag" in prop_dict: build_command.append(prop_dict["extfs_sparse_flag"]) run_e2fsck = True build_command.extend([in_dir, out_file, fs_type, prop_dict["mount_point"]]) build_command.append(prop_dict["image_size"]) if "journal_size" in prop_dict: build_command.extend(["-j", prop_dict["journal_size"]]) if "timestamp" in prop_dict: build_command.extend(["-T", str(prop_dict["timestamp"])]) if fs_config: build_command.extend(["-C", fs_config]) if target_out: build_command.extend(["-D", target_out]) if "block_list" in prop_dict: build_command.extend(["-B", prop_dict["block_list"]]) if "base_fs_file" in prop_dict: base_fs_file = ConvertBlockMapToBaseFs(prop_dict["base_fs_file"]) build_command.extend(["-d", base_fs_file]) build_command.extend(["-L", prop_dict["mount_point"]]) if "extfs_inode_count" in prop_dict: build_command.extend(["-i", prop_dict["extfs_inode_count"]]) if "extfs_rsv_pct" in prop_dict: build_command.extend(["-M", prop_dict["extfs_rsv_pct"]]) if "flash_erase_block_size" in prop_dict: build_command.extend(["-e", prop_dict["flash_erase_block_size"]]) if "flash_logical_block_size" in prop_dict: build_command.extend(["-o", prop_dict["flash_logical_block_size"]]) # Specify UUID and hash_seed if using mke2fs. if prop_dict["ext_mkuserimg"] == "mkuserimg_mke2fs": if "uuid" in prop_dict: build_command.extend(["-U", prop_dict["uuid"]]) if "hash_seed" in prop_dict: build_command.extend(["-S", prop_dict["hash_seed"]]) if prop_dict.get("ext4_share_dup_blocks") == "true": build_command.append("-c") if (needs_projid): build_command.extend(["--inode_size", "512"]) else: build_command.extend(["--inode_size", "256"]) if "selinux_fc" in prop_dict: build_command.append(prop_dict["selinux_fc"]) elif fs_type.startswith("squash"): build_command = ["mksquashfsimage.sh"] build_command.extend([in_dir, out_file]) if "squashfs_sparse_flag" in prop_dict: build_command.extend([prop_dict["squashfs_sparse_flag"]]) build_command.extend(["-m", prop_dict["mount_point"]]) if target_out: build_command.extend(["-d", target_out]) if fs_config: build_command.extend(["-C", fs_config]) if "selinux_fc" in prop_dict: build_command.extend(["-c", prop_dict["selinux_fc"]]) if "block_list" in prop_dict: build_command.extend(["-B", prop_dict["block_list"]]) if "squashfs_block_size" in prop_dict: build_command.extend(["-b", prop_dict["squashfs_block_size"]]) if "squashfs_compressor" in prop_dict: build_command.extend(["-z", prop_dict["squashfs_compressor"]]) if "squashfs_compressor_opt" in prop_dict: build_command.extend(["-zo", prop_dict["squashfs_compressor_opt"]]) if prop_dict.get("squashfs_disable_4k_align") == "true": build_command.extend(["-a"]) elif fs_type.startswith("f2fs"): build_command = ["mkf2fsuserimg.sh"] build_command.extend([out_file, prop_dict["image_size"]]) if "f2fs_sparse_flag" in prop_dict: build_command.extend([prop_dict["f2fs_sparse_flag"]]) if fs_config: build_command.extend(["-C", fs_config]) build_command.extend(["-f", in_dir]) if target_out: build_command.extend(["-D", target_out]) if "selinux_fc" in prop_dict: build_command.extend(["-s", prop_dict["selinux_fc"]]) build_command.extend(["-t", prop_dict["mount_point"]]) if "timestamp" in prop_dict: build_command.extend(["-T", str(prop_dict["timestamp"])]) build_command.extend(["-L", prop_dict["mount_point"]]) if (needs_projid): build_command.append("--prjquota") if (needs_casefold): build_command.append("--casefold") else: raise BuildImageError( "Error: unknown filesystem type: {}".format(fs_type)) try: mkfs_output = common.RunAndCheckOutput(build_command) except: try: du = GetDiskUsage(in_dir) du_str = "{} bytes ({} MB)".format(du, du // BYTES_IN_MB) # Suppress any errors from GetDiskUsage() to avoid hiding the real errors # from common.RunAndCheckOutput(). except Exception: # pylint: disable=broad-except logger.exception("Failed to compute disk usage with du") du_str = "unknown" print( "Out of space? Out of inodes? The tree size of {} is {}, " "with reserved space of {} bytes ({} MB).".format( in_dir, du_str, int(prop_dict.get("partition_reserved_size", 0)), int(prop_dict.get("partition_reserved_size", 0)) // BYTES_IN_MB)) print( "The max image size for filesystem files is {} bytes ({} MB), out of a " "total partition size of {} bytes ({} MB).".format( int(prop_dict["image_size"]), int(prop_dict["image_size"]) // BYTES_IN_MB, int(prop_dict["partition_size"]), int(prop_dict["partition_size"]) // BYTES_IN_MB)) raise if run_e2fsck and prop_dict.get("skip_fsck") != "true": unsparse_image = UnsparseImage(out_file, replace=False) # Run e2fsck on the inflated image file e2fsck_command = ["e2fsck", "-f", "-n", unsparse_image] try: common.RunAndCheckOutput(e2fsck_command) finally: os.remove(unsparse_image) return mkfs_output def BuildImage(in_dir, prop_dict, out_file, target_out=None): """Builds an image for the files under in_dir and writes it to out_file. Args: in_dir: Path to input directory. prop_dict: A property dict that contains info like partition size. Values will be updated with computed values. out_file: The output image file. target_out: Path to the TARGET_OUT directory as in Makefile. It actually points to the /system directory under PRODUCT_OUT. fs_config (the one under system/core/libcutils) reads device specific FS config files from there. Raises: BuildImageError: On build image failures. """ in_dir, fs_config = SetUpInDirAndFsConfig(in_dir, prop_dict) build_command = [] fs_type = prop_dict.get("fs_type", "") fs_spans_partition = True if fs_type.startswith("squash"): fs_spans_partition = False # Get a builder for creating an image that's to be verified by Verified Boot, # or None if not applicable. verity_image_builder = verity_utils.CreateVerityImageBuilder(prop_dict) if (prop_dict.get("use_dynamic_partition_size") == "true" and "partition_size" not in prop_dict): # If partition_size is not defined, use output of `du' + reserved_size. size = GetDiskUsage(in_dir) logger.info( "The tree size of %s is %d MB.", in_dir, size // BYTES_IN_MB) # If not specified, give us 16MB margin for GetDiskUsage error ... reserved_size = int(prop_dict.get("partition_reserved_size", BYTES_IN_MB * 16)) partition_headroom = int(prop_dict.get("partition_headroom", 0)) if fs_type.startswith("ext4") and partition_headroom > reserved_size: reserved_size = partition_headroom size += reserved_size # Round this up to a multiple of 4K so that avbtool works size = common.RoundUpTo4K(size) if fs_type.startswith("ext"): prop_dict["partition_size"] = str(size) prop_dict["image_size"] = str(size) if "extfs_inode_count" not in prop_dict: prop_dict["extfs_inode_count"] = str(GetInodeUsage(in_dir)) logger.info( "First Pass based on estimates of %d MB and %s inodes.", size // BYTES_IN_MB, prop_dict["extfs_inode_count"]) BuildImageMkfs(in_dir, prop_dict, out_file, target_out, fs_config) sparse_image = False if "extfs_sparse_flag" in prop_dict: sparse_image = True fs_dict = GetFilesystemCharacteristics(out_file, sparse_image) os.remove(out_file) block_size = int(fs_dict.get("Block size", "4096")) free_size = int(fs_dict.get("Free blocks", "0")) * block_size reserved_size = int(prop_dict.get("partition_reserved_size", 0)) partition_headroom = int(fs_dict.get("partition_headroom", 0)) if fs_type.startswith("ext4") and partition_headroom > reserved_size: reserved_size = partition_headroom if free_size <= reserved_size: logger.info( "Not worth reducing image %d <= %d.", free_size, reserved_size) else: size -= free_size size += reserved_size if reserved_size == 0: # add .3% margin size = size * 1003 // 1000 # Use a minimum size, otherwise we will fail to calculate an AVB footer # or fail to construct an ext4 image. size = max(size, 256 * 1024) if block_size <= 4096: size = common.RoundUpTo4K(size) else: size = ((size + block_size - 1) // block_size) * block_size extfs_inode_count = prop_dict["extfs_inode_count"] inodes = int(fs_dict.get("Inode count", extfs_inode_count)) inodes -= int(fs_dict.get("Free inodes", "0")) # add .2% margin or 1 inode, whichever is greater spare_inodes = inodes * 2 // 1000 min_spare_inodes = 1 if spare_inodes < min_spare_inodes: spare_inodes = min_spare_inodes inodes += spare_inodes prop_dict["extfs_inode_count"] = str(inodes) prop_dict["partition_size"] = str(size) logger.info( "Allocating %d Inodes for %s.", inodes, out_file) if verity_image_builder: size = verity_image_builder.CalculateDynamicPartitionSize(size) prop_dict["partition_size"] = str(size) logger.info( "Allocating %d MB for %s.", size // BYTES_IN_MB, out_file) prop_dict["image_size"] = prop_dict["partition_size"] # Adjust the image size to make room for the hashes if this is to be verified. if verity_image_builder: max_image_size = verity_image_builder.CalculateMaxImageSize() prop_dict["image_size"] = str(max_image_size) mkfs_output = BuildImageMkfs(in_dir, prop_dict, out_file, target_out, fs_config) # Check if there's enough headroom space available for ext4 image. if "partition_headroom" in prop_dict and fs_type.startswith("ext4"): CheckHeadroom(mkfs_output, prop_dict) if not fs_spans_partition and verity_image_builder: verity_image_builder.PadSparseImage(out_file) # Create the verified image if this is to be verified. if verity_image_builder: verity_image_builder.Build(out_file) def ImagePropFromGlobalDict(glob_dict, mount_point): """Build an image property dictionary from the global dictionary. Args: glob_dict: the global dictionary from the build system. mount_point: such as "system", "data" etc. """ d = {} if "build.prop" in glob_dict: timestamp = glob_dict["build.prop"].GetProp("ro.build.date.utc") if timestamp: d["timestamp"] = timestamp def copy_prop(src_p, dest_p): """Copy a property from the global dictionary. Args: src_p: The source property in the global dictionary. dest_p: The destination property. Returns: True if property was found and copied, False otherwise. """ if src_p in glob_dict: d[dest_p] = str(glob_dict[src_p]) return True return False common_props = ( "extfs_sparse_flag", "squashfs_sparse_flag", "f2fs_sparse_flag", "skip_fsck", "ext_mkuserimg", "verity", "verity_key", "verity_signer_cmd", "verity_fec", "verity_disable", "avb_enable", "avb_avbtool", "use_dynamic_partition_size", ) for p in common_props: copy_prop(p, p) d["mount_point"] = mount_point if mount_point == "system": copy_prop("avb_system_hashtree_enable", "avb_hashtree_enable") copy_prop("avb_system_add_hashtree_footer_args", "avb_add_hashtree_footer_args") copy_prop("avb_system_key_path", "avb_key_path") copy_prop("avb_system_algorithm", "avb_algorithm") copy_prop("avb_system_salt", "avb_salt") copy_prop("fs_type", "fs_type") # Copy the generic system fs type first, override with specific one if # available. copy_prop("system_fs_type", "fs_type") copy_prop("system_headroom", "partition_headroom") copy_prop("system_size", "partition_size") if not copy_prop("system_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("system_verity_block_device", "verity_block_device") copy_prop("system_root_image", "system_root_image") copy_prop("root_dir", "root_dir") copy_prop("root_fs_config", "root_fs_config") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") copy_prop("system_squashfs_compressor", "squashfs_compressor") copy_prop("system_squashfs_compressor_opt", "squashfs_compressor_opt") copy_prop("system_squashfs_block_size", "squashfs_block_size") copy_prop("system_squashfs_disable_4k_align", "squashfs_disable_4k_align") copy_prop("system_base_fs_file", "base_fs_file") copy_prop("system_extfs_inode_count", "extfs_inode_count") if not copy_prop("system_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("system_reserved_size", "partition_reserved_size") copy_prop("system_selinux_fc", "selinux_fc") elif mount_point == "system_other": # We inherit the selinux policies of /system since we contain some of its # files. copy_prop("avb_system_other_hashtree_enable", "avb_hashtree_enable") copy_prop("avb_system_other_add_hashtree_footer_args", "avb_add_hashtree_footer_args") copy_prop("avb_system_other_key_path", "avb_key_path") copy_prop("avb_system_other_algorithm", "avb_algorithm") copy_prop("avb_system_other_salt", "avb_salt") copy_prop("fs_type", "fs_type") copy_prop("system_fs_type", "fs_type") copy_prop("system_other_size", "partition_size") if not copy_prop("system_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("system_verity_block_device", "verity_block_device") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") copy_prop("system_squashfs_compressor", "squashfs_compressor") copy_prop("system_squashfs_compressor_opt", "squashfs_compressor_opt") copy_prop("system_squashfs_block_size", "squashfs_block_size") copy_prop("system_extfs_inode_count", "extfs_inode_count") if not copy_prop("system_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("system_reserved_size", "partition_reserved_size") copy_prop("system_selinux_fc", "selinux_fc") elif mount_point == "data": # Copy the generic fs type first, override with specific one if available. copy_prop("fs_type", "fs_type") copy_prop("userdata_fs_type", "fs_type") copy_prop("userdata_size", "partition_size") copy_prop("flash_logical_block_size", "flash_logical_block_size") copy_prop("flash_erase_block_size", "flash_erase_block_size") copy_prop("userdata_selinux_fc", "selinux_fc") copy_prop("needs_casefold", "needs_casefold") copy_prop("needs_projid", "needs_projid") elif mount_point == "cache": copy_prop("cache_fs_type", "fs_type") copy_prop("cache_size", "partition_size") copy_prop("cache_selinux_fc", "selinux_fc") elif mount_point == "vendor": copy_prop("avb_vendor_hashtree_enable", "avb_hashtree_enable") copy_prop("avb_vendor_add_hashtree_footer_args", "avb_add_hashtree_footer_args") copy_prop("avb_vendor_key_path", "avb_key_path") copy_prop("avb_vendor_algorithm", "avb_algorithm") copy_prop("avb_vendor_salt", "avb_salt") copy_prop("vendor_fs_type", "fs_type") copy_prop("vendor_size", "partition_size") if not copy_prop("vendor_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("vendor_verity_block_device", "verity_block_device") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") copy_prop("vendor_squashfs_compressor", "squashfs_compressor") copy_prop("vendor_squashfs_compressor_opt", "squashfs_compressor_opt") copy_prop("vendor_squashfs_block_size", "squashfs_block_size") copy_prop("vendor_squashfs_disable_4k_align", "squashfs_disable_4k_align") copy_prop("vendor_base_fs_file", "base_fs_file") copy_prop("vendor_extfs_inode_count", "extfs_inode_count") if not copy_prop("vendor_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("vendor_reserved_size", "partition_reserved_size") copy_prop("vendor_selinux_fc", "selinux_fc") elif mount_point == "product": copy_prop("avb_product_hashtree_enable", "avb_hashtree_enable") copy_prop("avb_product_add_hashtree_footer_args", "avb_add_hashtree_footer_args") copy_prop("avb_product_key_path", "avb_key_path") copy_prop("avb_product_algorithm", "avb_algorithm") copy_prop("avb_product_salt", "avb_salt") copy_prop("product_fs_type", "fs_type") copy_prop("product_size", "partition_size") if not copy_prop("product_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("product_verity_block_device", "verity_block_device") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") copy_prop("product_squashfs_compressor", "squashfs_compressor") copy_prop("product_squashfs_compressor_opt", "squashfs_compressor_opt") copy_prop("product_squashfs_block_size", "squashfs_block_size") copy_prop("product_squashfs_disable_4k_align", "squashfs_disable_4k_align") copy_prop("product_base_fs_file", "base_fs_file") copy_prop("product_extfs_inode_count", "extfs_inode_count") if not copy_prop("product_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("product_reserved_size", "partition_reserved_size") copy_prop("product_selinux_fc", "selinux_fc") elif mount_point == "system_ext": copy_prop("avb_system_ext_hashtree_enable", "avb_hashtree_enable") copy_prop("avb_system_ext_add_hashtree_footer_args", "avb_add_hashtree_footer_args") copy_prop("avb_system_ext_key_path", "avb_key_path") copy_prop("avb_system_ext_algorithm", "avb_algorithm") copy_prop("avb_system_ext_salt", "avb_salt") copy_prop("system_ext_fs_type", "fs_type") copy_prop("system_ext_size", "partition_size") if not copy_prop("system_ext_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("system_ext_verity_block_device", "verity_block_device") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") copy_prop("system_ext_squashfs_compressor", "squashfs_compressor") copy_prop("system_ext_squashfs_compressor_opt", "squashfs_compressor_opt") copy_prop("system_ext_squashfs_block_size", "squashfs_block_size") copy_prop("system_ext_squashfs_disable_4k_align", "squashfs_disable_4k_align") copy_prop("system_ext_base_fs_file", "base_fs_file") copy_prop("system_ext_extfs_inode_count", "extfs_inode_count") if not copy_prop("system_ext_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("system_ext_reserved_size", "partition_reserved_size") copy_prop("system_ext_selinux_fc", "selinux_fc") elif mount_point == "odm": copy_prop("avb_odm_hashtree_enable", "avb_hashtree_enable") copy_prop("avb_odm_add_hashtree_footer_args", "avb_add_hashtree_footer_args") copy_prop("avb_odm_key_path", "avb_key_path") copy_prop("avb_odm_algorithm", "avb_algorithm") copy_prop("avb_odm_salt", "avb_salt") copy_prop("odm_fs_type", "fs_type") copy_prop("odm_size", "partition_size") if not copy_prop("odm_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("odm_verity_block_device", "verity_block_device") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") copy_prop("odm_squashfs_compressor", "squashfs_compressor") copy_prop("odm_squashfs_compressor_opt", "squashfs_compressor_opt") copy_prop("odm_squashfs_block_size", "squashfs_block_size") copy_prop("odm_squashfs_disable_4k_align", "squashfs_disable_4k_align") copy_prop("odm_base_fs_file", "base_fs_file") copy_prop("odm_extfs_inode_count", "extfs_inode_count") if not copy_prop("odm_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("odm_reserved_size", "partition_reserved_size") copy_prop("odm_selinux_fc", "selinux_fc") elif mount_point == "vendor_dlkm": copy_prop("avb_vendor_dlkm_hashtree_enable", "avb_hashtree_enable") copy_prop("avb_vendor_dlkm_add_hashtree_footer_args", "avb_add_hashtree_footer_args") copy_prop("avb_vendor_dlkm_key_path", "avb_key_path") copy_prop("avb_vendor_dlkm_algorithm", "avb_algorithm") copy_prop("avb_vendor_dlkm_salt", "avb_salt") copy_prop("vendor_dlkm_fs_type", "fs_type") copy_prop("vendor_dlkm_size", "partition_size") if not copy_prop("vendor_dlkm_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("vendor_dlkm_verity_block_device", "verity_block_device") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") copy_prop("vendor_dlkm_squashfs_compressor", "squashfs_compressor") copy_prop("vendor_dlkm_squashfs_compressor_opt", "squashfs_compressor_opt") copy_prop("vendor_dlkm_squashfs_block_size", "squashfs_block_size") copy_prop("vendor_dlkm_squashfs_disable_4k_align", "squashfs_disable_4k_align") copy_prop("vendor_dlkm_base_fs_file", "base_fs_file") copy_prop("vendor_dlkm_extfs_inode_count", "extfs_inode_count") if not copy_prop("vendor_dlkm_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("vendor_dlkm_reserved_size", "partition_reserved_size") copy_prop("vendor_dlkm_selinux_fc", "selinux_fc") elif mount_point == "odm_dlkm": copy_prop("avb_odm_dlkm_hashtree_enable", "avb_hashtree_enable") copy_prop("avb_odm_dlkm_add_hashtree_footer_args", "avb_add_hashtree_footer_args") copy_prop("avb_odm_dlkm_key_path", "avb_key_path") copy_prop("avb_odm_dlkm_algorithm", "avb_algorithm") copy_prop("avb_odm_dlkm_salt", "avb_salt") copy_prop("odm_dlkm_fs_type", "fs_type") copy_prop("odm_dlkm_size", "partition_size") if not copy_prop("odm_dlkm_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("odm_dlkm_verity_block_device", "verity_block_device") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") copy_prop("odm_dlkm_squashfs_compressor", "squashfs_compressor") copy_prop("odm_dlkm_squashfs_compressor_opt", "squashfs_compressor_opt") copy_prop("odm_dlkm_squashfs_block_size", "squashfs_block_size") copy_prop("odm_dlkm_squashfs_disable_4k_align", "squashfs_disable_4k_align") copy_prop("odm_dlkm_base_fs_file", "base_fs_file") copy_prop("odm_dlkm_extfs_inode_count", "extfs_inode_count") if not copy_prop("odm_dlkm_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("odm_dlkm_reserved_size", "partition_reserved_size") copy_prop("odm_dlkm_selinux_fc", "selinux_fc") elif mount_point == "oem": copy_prop("fs_type", "fs_type") copy_prop("oem_size", "partition_size") if not copy_prop("oem_journal_size", "journal_size"): d["journal_size"] = "0" copy_prop("oem_extfs_inode_count", "extfs_inode_count") copy_prop("ext4_share_dup_blocks", "ext4_share_dup_blocks") if not copy_prop("oem_extfs_rsv_pct", "extfs_rsv_pct"): d["extfs_rsv_pct"] = "0" copy_prop("oem_selinux_fc", "selinux_fc") d["partition_name"] = mount_point return d def LoadGlobalDict(filename): """Load "name=value" pairs from filename""" d = {} f = open(filename) for line in f: line = line.strip() if not line or line.startswith("#"): continue k, v = line.split("=", 1) d[k] = v f.close() return d def GlobalDictFromImageProp(image_prop, mount_point): d = {} def copy_prop(src_p, dest_p): if src_p in image_prop: d[dest_p] = image_prop[src_p] return True return False if mount_point == "system": copy_prop("partition_size", "system_size") elif mount_point == "system_other": copy_prop("partition_size", "system_other_size") elif mount_point == "vendor": copy_prop("partition_size", "vendor_size") elif mount_point == "odm": copy_prop("partition_size", "odm_size") elif mount_point == "vendor_dlkm": copy_prop("partition_size", "vendor_dlkm_size") elif mount_point == "odm_dlkm": copy_prop("partition_size", "odm_dlkm_size") elif mount_point == "product": copy_prop("partition_size", "product_size") elif mount_point == "system_ext": copy_prop("partition_size", "system_ext_size") return d def main(argv): if len(argv) != 4: print(__doc__) sys.exit(1) common.InitLogging() in_dir = argv[0] glob_dict_file = argv[1] out_file = argv[2] target_out = argv[3] glob_dict = LoadGlobalDict(glob_dict_file) if "mount_point" in glob_dict: # The caller knows the mount point and provides a dictionary needed by # BuildImage(). image_properties = glob_dict else: image_filename = os.path.basename(out_file) mount_point = "" if image_filename == "system.img": mount_point = "system" elif image_filename == "system_other.img": mount_point = "system_other" elif image_filename == "userdata.img": mount_point = "data" elif image_filename == "cache.img": mount_point = "cache" elif image_filename == "vendor.img": mount_point = "vendor" elif image_filename == "odm.img": mount_point = "odm" elif image_filename == "vendor_dlkm.img": mount_point = "vendor_dlkm" elif image_filename == "odm_dlkm.img": mount_point = "odm_dlkm" elif image_filename == "oem.img": mount_point = "oem" elif image_filename == "product.img": mount_point = "product" elif image_filename == "system_ext.img": mount_point = "system_ext" else: logger.error("Unknown image file name %s", image_filename) sys.exit(1) image_properties = ImagePropFromGlobalDict(glob_dict, mount_point) try: BuildImage(in_dir, image_properties, out_file, target_out) except: logger.error("Failed to build %s from %s", out_file, in_dir) raise if __name__ == '__main__': try: main(sys.argv[1:]) finally: common.Cleanup()