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548 lines
22 KiB
548 lines
22 KiB
#!/usr/bin/env python3
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#
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# Copyright 2018, The Android Open Source Project
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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"""Unpacks the boot image.
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Extracts the kernel, ramdisk, second bootloader, dtb and recovery dtbo images.
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"""
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from argparse import ArgumentParser, FileType, RawDescriptionHelpFormatter
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from struct import unpack
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import os
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import shlex
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BOOT_IMAGE_HEADER_V3_PAGESIZE = 4096
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VENDOR_RAMDISK_NAME_SIZE = 32
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VENDOR_RAMDISK_TABLE_ENTRY_BOARD_ID_SIZE = 16
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def create_out_dir(dir_path):
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"""creates a directory 'dir_path' if it does not exist"""
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if not os.path.exists(dir_path):
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os.makedirs(dir_path)
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def extract_image(offset, size, bootimage, extracted_image_name):
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"""extracts an image from the bootimage"""
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bootimage.seek(offset)
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with open(extracted_image_name, 'wb') as file_out:
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file_out.write(bootimage.read(size))
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def get_number_of_pages(image_size, page_size):
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"""calculates the number of pages required for the image"""
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return (image_size + page_size - 1) // page_size
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def cstr(s):
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"""Remove first NULL character and any character beyond."""
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return s.split('\0', 1)[0]
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def format_os_version(os_version):
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a = os_version >> 14
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b = os_version >> 7 & ((1<<7) - 1)
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c = os_version & ((1<<7) - 1)
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return '{}.{}.{}'.format(a, b, c)
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def format_os_patch_level(os_patch_level):
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y = os_patch_level >> 4
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y += 2000
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m = os_patch_level & ((1<<4) - 1)
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return '{:04d}-{:02d}'.format(y, m)
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def decode_os_version_patch_level(os_version_patch_level):
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"""Returns a tuple of (os_version, os_patch_level)."""
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os_version = os_version_patch_level >> 11
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os_patch_level = os_version_patch_level & ((1<<11) - 1)
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return (format_os_version(os_version),
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format_os_patch_level(os_patch_level))
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class BootImageInfoFormatter:
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"""Formats the boot image info."""
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def format_pretty_text(self):
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lines = []
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lines.append(f'boot magic: {self.boot_magic}')
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if self.header_version < 3:
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lines.append(f'kernel_size: {self.kernel_size}')
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lines.append(
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f'kernel load address: {self.kernel_load_address:#010x}')
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lines.append(f'ramdisk size: {self.ramdisk_size}')
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lines.append(
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f'ramdisk load address: {self.ramdisk_load_address:#010x}')
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lines.append(f'second bootloader size: {self.second_size}')
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lines.append(
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f'second bootloader load address: '
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f'{self.second_load_address:#010x}')
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lines.append(
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f'kernel tags load address: {self.tags_load_address:#010x}')
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lines.append(f'page size: {self.page_size}')
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else:
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lines.append(f'kernel_size: {self.kernel_size}')
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lines.append(f'ramdisk size: {self.ramdisk_size}')
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lines.append(f'os version: {self.os_version}')
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lines.append(f'os patch level: {self.os_patch_level}')
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lines.append(f'boot image header version: {self.header_version}')
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if self.header_version < 3:
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lines.append(f'product name: {self.product_name}')
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lines.append(f'command line args: {self.cmdline}')
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if self.header_version < 3:
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lines.append(f'additional command line args: {self.extra_cmdline}')
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if self.header_version in {1, 2}:
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lines.append(f'recovery dtbo size: {self.recovery_dtbo_size}')
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lines.append(
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f'recovery dtbo offset: {self.recovery_dtbo_offset:#018x}')
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lines.append(f'boot header size: {self.boot_header_size}')
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if self.header_version == 2:
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lines.append(f'dtb size: {self.dtb_size}')
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lines.append(f'dtb address: {self.dtb_load_address:#018x}')
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if self.header_version >= 4:
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lines.append(
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f'boot.img signature size: {self.boot_signature_size}')
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return '\n'.join(lines)
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def format_mkbootimg_argument(self):
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args = []
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args.extend(['--header_version', str(self.header_version)])
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args.extend(['--os_version', self.os_version])
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args.extend(['--os_patch_level', self.os_patch_level])
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args.extend(['--kernel', os.path.join(self.image_dir, 'kernel')])
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args.extend(['--ramdisk', os.path.join(self.image_dir, 'ramdisk')])
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if self.header_version <= 2:
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if self.second_size > 0:
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args.extend(['--second',
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os.path.join(self.image_dir, 'second')])
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if self.recovery_dtbo_size > 0:
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args.extend(['--recovery_dtbo',
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os.path.join(self.image_dir, 'recovery_dtbo')])
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if self.dtb_size > 0:
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args.extend(['--dtb', os.path.join(self.image_dir, 'dtb')])
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args.extend(['--pagesize', f'{self.page_size:#010x}'])
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# Kernel load address is base + kernel_offset in mkbootimg.py.
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# However we don't know the value of 'base' when unpacking a boot
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# image in this script, so we set 'base' to zero and 'kernel_offset'
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# to the kernel load address, 'ramdisk_offset' to the ramdisk load
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# address, ... etc.
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args.extend(['--base', f'{0:#010x}'])
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args.extend(['--kernel_offset',
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f'{self.kernel_load_address:#010x}'])
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args.extend(['--ramdisk_offset',
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f'{self.ramdisk_load_address:#010x}'])
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args.extend(['--second_offset',
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f'{self.second_load_address:#010x}'])
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args.extend(['--tags_offset', f'{self.tags_load_address:#010x}'])
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# dtb is added in boot image v2, and is absent in v1 or v0.
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if self.header_version == 2:
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# dtb_offset is uint64_t.
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args.extend(['--dtb_offset', f'{self.dtb_load_address:#018x}'])
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args.extend(['--board', self.product_name])
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args.extend(['--cmdline', self.cmdline + self.extra_cmdline])
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else:
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args.extend(['--cmdline', self.cmdline])
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return args
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def unpack_boot_image(args):
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"""extracts kernel, ramdisk, second bootloader and recovery dtbo"""
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info = BootImageInfoFormatter()
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info.boot_magic = unpack('8s', args.boot_img.read(8))[0].decode()
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kernel_ramdisk_second_info = unpack('9I', args.boot_img.read(9 * 4))
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# header_version is always at [8] regardless of the value of header_version.
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info.header_version = kernel_ramdisk_second_info[8]
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if info.header_version < 3:
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info.kernel_size = kernel_ramdisk_second_info[0]
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info.kernel_load_address = kernel_ramdisk_second_info[1]
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info.ramdisk_size = kernel_ramdisk_second_info[2]
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info.ramdisk_load_address = kernel_ramdisk_second_info[3]
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info.second_size = kernel_ramdisk_second_info[4]
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info.second_load_address = kernel_ramdisk_second_info[5]
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info.tags_load_address = kernel_ramdisk_second_info[6]
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info.page_size = kernel_ramdisk_second_info[7]
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os_version_patch_level = unpack('I', args.boot_img.read(1 * 4))[0]
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else:
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info.kernel_size = kernel_ramdisk_second_info[0]
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info.ramdisk_size = kernel_ramdisk_second_info[1]
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os_version_patch_level = kernel_ramdisk_second_info[2]
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info.second_size = 0
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info.page_size = BOOT_IMAGE_HEADER_V3_PAGESIZE
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info.os_version, info.os_patch_level = decode_os_version_patch_level(
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os_version_patch_level)
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if info.header_version < 3:
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info.product_name = cstr(unpack('16s',
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args.boot_img.read(16))[0].decode())
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info.cmdline = cstr(unpack('512s', args.boot_img.read(512))[0].decode())
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args.boot_img.read(32) # ignore SHA
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info.extra_cmdline = cstr(unpack('1024s',
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args.boot_img.read(1024))[0].decode())
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else:
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info.cmdline = cstr(unpack('1536s',
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args.boot_img.read(1536))[0].decode())
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if info.header_version in {1, 2}:
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info.recovery_dtbo_size = unpack('I', args.boot_img.read(1 * 4))[0]
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info.recovery_dtbo_offset = unpack('Q', args.boot_img.read(8))[0]
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info.boot_header_size = unpack('I', args.boot_img.read(4))[0]
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else:
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info.recovery_dtbo_size = 0
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if info.header_version == 2:
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info.dtb_size = unpack('I', args.boot_img.read(4))[0]
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info.dtb_load_address = unpack('Q', args.boot_img.read(8))[0]
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else:
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info.dtb_size = 0
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info.dtb_load_address = 0
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if info.header_version >= 4:
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info.boot_signature_size = unpack('I', args.boot_img.read(4))[0]
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else:
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info.boot_signature_size = 0
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# The first page contains the boot header
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num_header_pages = 1
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# Convenient shorthand.
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page_size = info.page_size
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num_kernel_pages = get_number_of_pages(info.kernel_size, page_size)
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kernel_offset = page_size * num_header_pages # header occupies a page
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image_info_list = [(kernel_offset, info.kernel_size, 'kernel')]
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num_ramdisk_pages = get_number_of_pages(info.ramdisk_size, page_size)
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ramdisk_offset = page_size * (num_header_pages + num_kernel_pages
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) # header + kernel
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image_info_list.append((ramdisk_offset, info.ramdisk_size, 'ramdisk'))
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if info.second_size > 0:
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second_offset = page_size * (
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num_header_pages + num_kernel_pages + num_ramdisk_pages
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) # header + kernel + ramdisk
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image_info_list.append((second_offset, info.second_size, 'second'))
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if info.recovery_dtbo_size > 0:
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image_info_list.append((info.recovery_dtbo_offset,
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info.recovery_dtbo_size,
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'recovery_dtbo'))
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if info.dtb_size > 0:
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num_second_pages = get_number_of_pages(info.second_size, page_size)
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num_recovery_dtbo_pages = get_number_of_pages(
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info.recovery_dtbo_size, page_size)
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dtb_offset = page_size * (
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num_header_pages + num_kernel_pages + num_ramdisk_pages +
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num_second_pages + num_recovery_dtbo_pages)
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image_info_list.append((dtb_offset, info.dtb_size, 'dtb'))
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if info.boot_signature_size > 0:
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# boot signature only exists in boot.img version >= v4.
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# There are only kernel and ramdisk pages before the signature.
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boot_signature_offset = page_size * (
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num_header_pages + num_kernel_pages + num_ramdisk_pages)
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image_info_list.append((boot_signature_offset, info.boot_signature_size,
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'boot_signature'))
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create_out_dir(args.out)
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for offset, size, name in image_info_list:
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extract_image(offset, size, args.boot_img, os.path.join(args.out, name))
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info.image_dir = args.out
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return info
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class VendorBootImageInfoFormatter:
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"""Formats the vendor_boot image info."""
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def format_pretty_text(self):
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lines = []
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lines.append(f'boot magic: {self.boot_magic}')
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lines.append(f'vendor boot image header version: {self.header_version}')
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lines.append(f'page size: {self.page_size:#010x}')
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lines.append(f'kernel load address: {self.kernel_load_address:#010x}')
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lines.append(f'ramdisk load address: {self.ramdisk_load_address:#010x}')
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if self.header_version > 3:
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lines.append(
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f'vendor ramdisk total size: {self.vendor_ramdisk_size}')
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else:
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lines.append(f'vendor ramdisk size: {self.vendor_ramdisk_size}')
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lines.append(f'vendor command line args: {self.cmdline}')
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lines.append(
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f'kernel tags load address: {self.tags_load_address:#010x}')
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lines.append(f'product name: {self.product_name}')
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lines.append(f'vendor boot image header size: {self.header_size}')
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lines.append(f'dtb size: {self.dtb_size}')
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lines.append(f'dtb address: {self.dtb_load_address:#018x}')
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if self.header_version > 3:
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lines.append(
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f'vendor ramdisk table size: {self.vendor_ramdisk_table_size}')
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lines.append('vendor ramdisk table: [')
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indent = lambda level: ' ' * 4 * level
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for entry in self.vendor_ramdisk_table:
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(output_ramdisk_name, ramdisk_size, ramdisk_offset,
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ramdisk_type, ramdisk_name, board_id) = entry
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lines.append(indent(1) + f'{output_ramdisk_name}: ''{')
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lines.append(indent(2) + f'size: {ramdisk_size}')
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lines.append(indent(2) + f'offset: {ramdisk_offset}')
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lines.append(indent(2) + f'type: {ramdisk_type:#x}')
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lines.append(indent(2) + f'name: {ramdisk_name}')
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lines.append(indent(2) + 'board_id: [')
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stride = 4
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for row_idx in range(0, len(board_id), stride):
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row = board_id[row_idx:row_idx + stride]
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lines.append(
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indent(3) + ' '.join(f'{e:#010x},' for e in row))
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lines.append(indent(2) + ']')
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lines.append(indent(1) + '}')
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lines.append(']')
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lines.append(
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f'vendor bootconfig size: {self.vendor_bootconfig_size}')
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return '\n'.join(lines)
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def format_mkbootimg_argument(self):
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args = []
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args.extend(['--header_version', str(self.header_version)])
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args.extend(['--pagesize', f'{self.page_size:#010x}'])
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args.extend(['--base', f'{0:#010x}'])
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args.extend(['--kernel_offset', f'{self.kernel_load_address:#010x}'])
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args.extend(['--ramdisk_offset', f'{self.ramdisk_load_address:#010x}'])
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args.extend(['--tags_offset', f'{self.tags_load_address:#010x}'])
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args.extend(['--dtb_offset', f'{self.dtb_load_address:#018x}'])
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args.extend(['--vendor_cmdline', self.cmdline])
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args.extend(['--board', self.product_name])
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args.extend(['--dtb', os.path.join(self.image_dir, 'dtb')])
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if self.header_version > 3:
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args.extend(['--vendor_bootconfig',
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os.path.join(self.image_dir, 'bootconfig')])
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for entry in self.vendor_ramdisk_table:
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(output_ramdisk_name, _, _, ramdisk_type,
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ramdisk_name, board_id) = entry
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args.extend(['--ramdisk_type', str(ramdisk_type)])
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args.extend(['--ramdisk_name', ramdisk_name])
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for idx, e in enumerate(board_id):
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if e:
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args.extend([f'--board_id{idx}', f'{e:#010x}'])
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vendor_ramdisk_path = os.path.join(
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self.image_dir, output_ramdisk_name)
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args.extend(['--vendor_ramdisk_fragment', vendor_ramdisk_path])
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else:
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args.extend(['--vendor_ramdisk',
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os.path.join(self.image_dir, 'vendor_ramdisk')])
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return args
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def unpack_vendor_boot_image(args):
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info = VendorBootImageInfoFormatter()
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info.boot_magic = unpack('8s', args.boot_img.read(8))[0].decode()
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info.header_version = unpack('I', args.boot_img.read(4))[0]
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info.page_size = unpack('I', args.boot_img.read(4))[0]
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info.kernel_load_address = unpack('I', args.boot_img.read(4))[0]
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info.ramdisk_load_address = unpack('I', args.boot_img.read(4))[0]
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info.vendor_ramdisk_size = unpack('I', args.boot_img.read(4))[0]
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info.cmdline = cstr(unpack('2048s', args.boot_img.read(2048))[0].decode())
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info.tags_load_address = unpack('I', args.boot_img.read(4))[0]
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info.product_name = cstr(unpack('16s', args.boot_img.read(16))[0].decode())
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info.header_size = unpack('I', args.boot_img.read(4))[0]
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info.dtb_size = unpack('I', args.boot_img.read(4))[0]
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info.dtb_load_address = unpack('Q', args.boot_img.read(8))[0]
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# Convenient shorthand.
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page_size = info.page_size
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# The first pages contain the boot header
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num_boot_header_pages = get_number_of_pages(info.header_size, page_size)
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num_boot_ramdisk_pages = get_number_of_pages(
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info.vendor_ramdisk_size, page_size)
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num_boot_dtb_pages = get_number_of_pages(info.dtb_size, page_size)
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ramdisk_offset_base = page_size * num_boot_header_pages
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image_info_list = []
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if info.header_version > 3:
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info.vendor_ramdisk_table_size = unpack('I', args.boot_img.read(4))[0]
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vendor_ramdisk_table_entry_num = unpack('I', args.boot_img.read(4))[0]
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vendor_ramdisk_table_entry_size = unpack('I', args.boot_img.read(4))[0]
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info.vendor_bootconfig_size = unpack('I', args.boot_img.read(4))[0]
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num_vendor_ramdisk_table_pages = get_number_of_pages(
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info.vendor_ramdisk_table_size, page_size)
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vendor_ramdisk_table_offset = page_size * (
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num_boot_header_pages + num_boot_ramdisk_pages + num_boot_dtb_pages)
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vendor_ramdisk_table = []
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vendor_ramdisk_symlinks = []
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for idx in range(vendor_ramdisk_table_entry_num):
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entry_offset = vendor_ramdisk_table_offset + (
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vendor_ramdisk_table_entry_size * idx)
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args.boot_img.seek(entry_offset)
|
|
ramdisk_size = unpack('I', args.boot_img.read(4))[0]
|
|
ramdisk_offset = unpack('I', args.boot_img.read(4))[0]
|
|
ramdisk_type = unpack('I', args.boot_img.read(4))[0]
|
|
ramdisk_name = cstr(unpack(
|
|
f'{VENDOR_RAMDISK_NAME_SIZE}s',
|
|
args.boot_img.read(VENDOR_RAMDISK_NAME_SIZE))[0].decode())
|
|
board_id = unpack(
|
|
f'{VENDOR_RAMDISK_TABLE_ENTRY_BOARD_ID_SIZE}I',
|
|
args.boot_img.read(
|
|
4 * VENDOR_RAMDISK_TABLE_ENTRY_BOARD_ID_SIZE))
|
|
output_ramdisk_name = f'vendor_ramdisk{idx:02}'
|
|
|
|
image_info_list.append((ramdisk_offset_base + ramdisk_offset,
|
|
ramdisk_size, output_ramdisk_name))
|
|
vendor_ramdisk_symlinks.append((output_ramdisk_name, ramdisk_name))
|
|
vendor_ramdisk_table.append(
|
|
(output_ramdisk_name, ramdisk_size, ramdisk_offset,
|
|
ramdisk_type, ramdisk_name, board_id))
|
|
|
|
info.vendor_ramdisk_table = vendor_ramdisk_table
|
|
|
|
bootconfig_offset = page_size * (num_boot_header_pages
|
|
+ num_boot_ramdisk_pages + num_boot_dtb_pages
|
|
+ num_vendor_ramdisk_table_pages)
|
|
image_info_list.append((bootconfig_offset, info.vendor_bootconfig_size,
|
|
'bootconfig'))
|
|
else:
|
|
image_info_list.append(
|
|
(ramdisk_offset_base, info.vendor_ramdisk_size, 'vendor_ramdisk'))
|
|
|
|
dtb_offset = page_size * (num_boot_header_pages + num_boot_ramdisk_pages
|
|
) # header + vendor_ramdisk
|
|
image_info_list.append((dtb_offset, info.dtb_size, 'dtb'))
|
|
|
|
create_out_dir(args.out)
|
|
for offset, size, name in image_info_list:
|
|
extract_image(offset, size, args.boot_img, os.path.join(args.out, name))
|
|
info.image_dir = args.out
|
|
|
|
if info.header_version > 3:
|
|
vendor_ramdisk_by_name_dir = os.path.join(
|
|
args.out, 'vendor-ramdisk-by-name')
|
|
create_out_dir(vendor_ramdisk_by_name_dir)
|
|
for src, dst in vendor_ramdisk_symlinks:
|
|
src_pathname = os.path.join('..', src)
|
|
dst_pathname = os.path.join(
|
|
vendor_ramdisk_by_name_dir, f'ramdisk_{dst}')
|
|
if os.path.lexists(dst_pathname):
|
|
os.remove(dst_pathname)
|
|
os.symlink(src_pathname, dst_pathname)
|
|
|
|
return info
|
|
|
|
|
|
def unpack_image(args):
|
|
boot_magic = unpack('8s', args.boot_img.read(8))[0].decode()
|
|
args.boot_img.seek(0)
|
|
if boot_magic == 'ANDROID!':
|
|
info = unpack_boot_image(args)
|
|
elif boot_magic == 'VNDRBOOT':
|
|
info = unpack_vendor_boot_image(args)
|
|
else:
|
|
raise ValueError(f'Not an Android boot image, magic: {boot_magic}')
|
|
|
|
if args.format == 'mkbootimg':
|
|
mkbootimg_args = info.format_mkbootimg_argument()
|
|
if args.null:
|
|
print('\0'.join(mkbootimg_args) + '\0', end='')
|
|
else:
|
|
print(shlex.join(mkbootimg_args))
|
|
else:
|
|
print(info.format_pretty_text())
|
|
|
|
|
|
def get_unpack_usage():
|
|
return """Output format:
|
|
|
|
* info
|
|
|
|
Pretty-printed info-rich text format suitable for human inspection.
|
|
|
|
* mkbootimg
|
|
|
|
Output shell-escaped (quoted) argument strings that can be used to
|
|
reconstruct the boot image. For example:
|
|
|
|
$ unpack_bootimg --boot_img vendor_boot.img --out out --format=mkbootimg |
|
|
tee mkbootimg_args
|
|
$ sh -c "mkbootimg $(cat mkbootimg_args) --vendor_boot repacked.img"
|
|
|
|
vendor_boot.img and repacked.img would be equivalent.
|
|
|
|
If the -0 option is specified, output unescaped null-terminated argument
|
|
strings that are suitable to be parsed by a shell script (xargs -0 format):
|
|
|
|
$ unpack_bootimg --boot_img vendor_boot.img --out out --format=mkbootimg \\
|
|
-0 | tee mkbootimg_args
|
|
$ declare -a MKBOOTIMG_ARGS=()
|
|
$ while IFS= read -r -d '' ARG; do
|
|
MKBOOTIMG_ARGS+=("${ARG}")
|
|
done <mkbootimg_args
|
|
$ mkbootimg "${MKBOOTIMG_ARGS[@]}" --vendor_boot repacked.img
|
|
"""
|
|
|
|
|
|
def parse_cmdline():
|
|
"""parse command line arguments"""
|
|
parser = ArgumentParser(
|
|
formatter_class=RawDescriptionHelpFormatter,
|
|
description='Unpacks boot, recovery or vendor_boot image.',
|
|
epilog=get_unpack_usage(),
|
|
)
|
|
parser.add_argument('--boot_img', type=FileType('rb'), required=True,
|
|
help='path to the boot, recovery or vendor_boot image')
|
|
parser.add_argument('--out', default='out',
|
|
help='output directory of the unpacked images')
|
|
parser.add_argument('--format', choices=['info', 'mkbootimg'],
|
|
default='info',
|
|
help='text output format (default: info)')
|
|
parser.add_argument('-0', '--null', action='store_true',
|
|
help='output null-terminated argument strings')
|
|
return parser.parse_args()
|
|
|
|
|
|
def main():
|
|
"""parse arguments and unpack boot image"""
|
|
args = parse_cmdline()
|
|
unpack_image(args)
|
|
|
|
|
|
if __name__ == '__main__':
|
|
main()
|