unpack_bootimg.py - platform/system/tools/mkbootimg - Git at Google

 #!/usr/bin/env python
 # Copyright 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.

 """unpacks the bootimage.

 Extracts the kernel, ramdisk, second bootloader, dtb and recovery dtbo images.
 """

 from __future__ import print_function
 from argparse import ArgumentParser, FileType
 from struct import unpack
 import os

 BOOT_IMAGE_HEADER_V3_PAGESIZE = 4096
 VENDOR_BOOT_IMAGE_HEADER_V3_SIZE = 2108

 def create_out_dir(dir_path):
     """creates a directory 'dir_path' if it does not exist"""
     if not os.path.exists(dir_path):
         os.makedirs(dir_path)


 def extract_image(offset, size, bootimage, extracted_image_name):
     """extracts an image from the bootimage"""
     bootimage.seek(offset)
     with open(extracted_image_name, 'wb') as file_out:
         file_out.write(bootimage.read(size))


 def get_number_of_pages(image_size, page_size):
     """calculates the number of pages required for the image"""
     return (image_size + page_size - 1) // page_size


 def cstr(s):
     """Remove first NULL character and any character beyond."""
     return s.split('\0', 1)[0]


 def format_os_version(os_version):
     a = os_version >> 14
     b = os_version >> 7 & ((1<<7) - 1)
     c = os_version & ((1<<7) - 1)
     return '{}.{}.{}'.format(a, b, c)


 def format_os_patch_level(os_patch_level):
     y = os_patch_level >> 4
     y += 2000
     m = os_patch_level & ((1<<4) - 1)
     return '{:04d}-{:02d}'.format(y, m)


 def print_os_version_patch_level(value):
     os_version = value >> 11
     os_patch_level = value & ((1<<11) - 1)
     print('os version: %s' % format_os_version(os_version))
     print('os patch level: %s' % format_os_patch_level(os_patch_level))


 def unpack_bootimage(args):
     """extracts kernel, ramdisk, second bootloader and recovery dtbo"""
     kernel_ramdisk_second_info = unpack('9I', args.boot_img.read(9 * 4))
     version = kernel_ramdisk_second_info[8]
     if version < 3:
         print('kernel_size: %s' % kernel_ramdisk_second_info[0])
         print('kernel load address: %#x' % kernel_ramdisk_second_info[1])
         print('ramdisk size: %s' % kernel_ramdisk_second_info[2])
         print('ramdisk load address: %#x' % kernel_ramdisk_second_info[3])
         print('second bootloader size: %s' % kernel_ramdisk_second_info[4])
         print('second bootloader load address: %#x' % kernel_ramdisk_second_info[5])
         print('kernel tags load address: %#x' % kernel_ramdisk_second_info[6])
         print('page size: %s' % kernel_ramdisk_second_info[7])
         print_os_version_patch_level(unpack('I', args.boot_img.read(1 * 4))[0])
     else:
         print('kernel_size: %s' % kernel_ramdisk_second_info[0])
         print('ramdisk size: %s' % kernel_ramdisk_second_info[1])
         print_os_version_patch_level(kernel_ramdisk_second_info[2])

     print('boot image header version: %s' % version)

     if version < 3:
         product_name = cstr(unpack('16s', args.boot_img.read(16))[0].decode())
         print('product name: %s' % product_name)
         cmdline = cstr(unpack('512s', args.boot_img.read(512))[0].decode())
         print('command line args: %s' % cmdline)
     else:
         cmdline = cstr(unpack('1536s', args.boot_img.read(1536))[0].decode())
         print('command line args: %s' % cmdline)

     if version < 3:
         args.boot_img.read(32)  # ignore SHA

     if version < 3:
         extra_cmdline = cstr(unpack('1024s',
                                     args.boot_img.read(1024))[0].decode())
         print('additional command line args: %s' % extra_cmdline)

     if version < 3:
         kernel_size = kernel_ramdisk_second_info[0]
         ramdisk_size = kernel_ramdisk_second_info[2]
         second_size = kernel_ramdisk_second_info[4]
         page_size = kernel_ramdisk_second_info[7]
     else:
         kernel_size = kernel_ramdisk_second_info[0]
         ramdisk_size = kernel_ramdisk_second_info[1]
         second_size = 0
         page_size = BOOT_IMAGE_HEADER_V3_PAGESIZE

     if 0 < version < 3:
         recovery_dtbo_size = unpack('I', args.boot_img.read(1 * 4))[0]
         print('recovery dtbo size: %s' % recovery_dtbo_size)
         recovery_dtbo_offset = unpack('Q', args.boot_img.read(8))[0]
         print('recovery dtbo offset: %#x' % recovery_dtbo_offset)
         boot_header_size = unpack('I', args.boot_img.read(4))[0]
         print('boot header size: %s' % boot_header_size)
     else:
         recovery_dtbo_size = 0
     if 1 < version < 3:
         dtb_size = unpack('I', args.boot_img.read(4))[0]
         print('dtb size: %s' % dtb_size)
         dtb_load_address = unpack('Q', args.boot_img.read(8))[0]
         print('dtb address: %#x' % dtb_load_address)
     else:
         dtb_size = 0


     # The first page contains the boot header
     num_header_pages = 1

     num_kernel_pages = get_number_of_pages(kernel_size, page_size)
     kernel_offset = page_size * num_header_pages  # header occupies a page
     image_info_list = [(kernel_offset, kernel_size, 'kernel')]

     num_ramdisk_pages = get_number_of_pages(ramdisk_size, page_size)
     ramdisk_offset = page_size * (num_header_pages + num_kernel_pages
                                  ) # header + kernel
     image_info_list.append((ramdisk_offset, ramdisk_size, 'ramdisk'))

     if second_size > 0:
         second_offset = page_size * (
             num_header_pages + num_kernel_pages + num_ramdisk_pages
             )  # header + kernel + ramdisk
         image_info_list.append((second_offset, second_size, 'second'))

     if recovery_dtbo_size > 0:
         image_info_list.append((recovery_dtbo_offset, recovery_dtbo_size,
                                 'recovery_dtbo'))
     if dtb_size > 0:
         num_second_pages = get_number_of_pages(second_size, page_size)
         num_recovery_dtbo_pages = get_number_of_pages(recovery_dtbo_size, page_size)
         dtb_offset = page_size * (
             num_header_pages + num_kernel_pages + num_ramdisk_pages + num_second_pages +
             num_recovery_dtbo_pages
         )

         image_info_list.append((dtb_offset, dtb_size, 'dtb'))

     for image_info in image_info_list:
         extract_image(image_info[0], image_info[1], args.boot_img,
                       os.path.join(args.out, image_info[2]))


 def unpack_vendor_bootimage(args):
     kernel_ramdisk_info = unpack('5I', args.boot_img.read(5 * 4))
     print('vendor boot image header version: %s' % kernel_ramdisk_info[0])
     print('kernel load address: %#x' % kernel_ramdisk_info[2])
     print('ramdisk load address: %#x' % kernel_ramdisk_info[3])
     print('vendor ramdisk size: %s' % kernel_ramdisk_info[4])

     cmdline = cstr(unpack('2048s', args.boot_img.read(2048))[0].decode())
     print('vendor command line args: %s' % cmdline)

     tags_load_address = unpack('I', args.boot_img.read(1 * 4))[0]
     print('kernel tags load address: %#x' % tags_load_address)

     product_name = cstr(unpack('16s', args.boot_img.read(16))[0].decode())
     print('product name: %s' % product_name)

     dtb_size = unpack('2I', args.boot_img.read(2 * 4))[1]
     print('dtb size: %s' % dtb_size)
     dtb_load_address = unpack('Q', args.boot_img.read(8))[0]
     print('dtb address: %#x' % dtb_load_address)

     ramdisk_size = kernel_ramdisk_info[4]
     page_size = kernel_ramdisk_info[1]

     # The first pages contain the boot header
     num_boot_header_pages = get_number_of_pages(VENDOR_BOOT_IMAGE_HEADER_V3_SIZE, page_size)
     num_boot_ramdisk_pages = get_number_of_pages(ramdisk_size, page_size)
     ramdisk_offset = page_size * num_boot_header_pages
     image_info_list = [(ramdisk_offset, 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, dtb_size, 'dtb'))

     for image_info in image_info_list:
         extract_image(image_info[0], image_info[1], args.boot_img,
                       os.path.join(args.out, image_info[2]))


 def unpack_image(args):
     boot_magic = unpack('8s', args.boot_img.read(8))[0].decode()
     print('boot_magic: %s' % boot_magic)
     if boot_magic == "ANDROID!":
         unpack_bootimage(args)
     elif boot_magic == "VNDRBOOT":
         unpack_vendor_bootimage(args)


 def parse_cmdline():
     """parse command line arguments"""
     parser = ArgumentParser(
         description='Unpacks boot.img/recovery.img, extracts the kernel,'
         'ramdisk, second bootloader, recovery dtbo and dtb')
     parser.add_argument(
         '--boot_img',
         help='path to boot image',
         type=FileType('rb'),
         required=True)
     parser.add_argument('--out', help='path to out binaries', default='out')
     return parser.parse_args()


 def main():
     """parse arguments and unpack boot image"""
     args = parse_cmdline()
     create_out_dir(args.out)
     unpack_image(args)


 if __name__ == '__main__':
     main()
	#!/usr/bin/env python
	# Copyright 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.

	"""unpacks the bootimage.

	Extracts the kernel, ramdisk, second bootloader, dtb and recovery dtbo images.
	"""

	from __future__ import print_function
	from argparse import ArgumentParser, FileType
	from struct import unpack
	import os

	BOOT_IMAGE_HEADER_V3_PAGESIZE = 4096
	VENDOR_BOOT_IMAGE_HEADER_V3_SIZE = 2108

	def create_out_dir(dir_path):
	"""creates a directory 'dir_path' if it does not exist"""
	if not os.path.exists(dir_path):
	os.makedirs(dir_path)


	def extract_image(offset, size, bootimage, extracted_image_name):
	"""extracts an image from the bootimage"""
	bootimage.seek(offset)
	with open(extracted_image_name, 'wb') as file_out:
	file_out.write(bootimage.read(size))


	def get_number_of_pages(image_size, page_size):
	"""calculates the number of pages required for the image"""
	return (image_size + page_size - 1) // page_size


	def cstr(s):
	"""Remove first NULL character and any character beyond."""
	return s.split('\0', 1)[0]


	def format_os_version(os_version):
	a = os_version >> 14
	b = os_version >> 7 & ((1<<7) - 1)
	c = os_version & ((1<<7) - 1)
	return '{}.{}.{}'.format(a, b, c)


	def format_os_patch_level(os_patch_level):
	y = os_patch_level >> 4
	y += 2000
	m = os_patch_level & ((1<<4) - 1)
	return '{:04d}-{:02d}'.format(y, m)


	def print_os_version_patch_level(value):
	os_version = value >> 11
	os_patch_level = value & ((1<<11) - 1)
	print('os version: %s' % format_os_version(os_version))
	print('os patch level: %s' % format_os_patch_level(os_patch_level))


	def unpack_bootimage(args):
	"""extracts kernel, ramdisk, second bootloader and recovery dtbo"""
	kernel_ramdisk_second_info = unpack('9I', args.boot_img.read(9 * 4))
	version = kernel_ramdisk_second_info[8]
	if version < 3:
	print('kernel_size: %s' % kernel_ramdisk_second_info[0])
	print('kernel load address: %#x' % kernel_ramdisk_second_info[1])
	print('ramdisk size: %s' % kernel_ramdisk_second_info[2])
	print('ramdisk load address: %#x' % kernel_ramdisk_second_info[3])
	print('second bootloader size: %s' % kernel_ramdisk_second_info[4])
	print('second bootloader load address: %#x' % kernel_ramdisk_second_info[5])
	print('kernel tags load address: %#x' % kernel_ramdisk_second_info[6])
	print('page size: %s' % kernel_ramdisk_second_info[7])
	print_os_version_patch_level(unpack('I', args.boot_img.read(1 * 4))[0])
	else:
	print('kernel_size: %s' % kernel_ramdisk_second_info[0])
	print('ramdisk size: %s' % kernel_ramdisk_second_info[1])
	print_os_version_patch_level(kernel_ramdisk_second_info[2])

	print('boot image header version: %s' % version)

	if version < 3:
	product_name = cstr(unpack('16s', args.boot_img.read(16))[0].decode())
	print('product name: %s' % product_name)
	cmdline = cstr(unpack('512s', args.boot_img.read(512))[0].decode())
	print('command line args: %s' % cmdline)
	else:
	cmdline = cstr(unpack('1536s', args.boot_img.read(1536))[0].decode())
	print('command line args: %s' % cmdline)

	if version < 3:
	args.boot_img.read(32) # ignore SHA

	if version < 3:
	extra_cmdline = cstr(unpack('1024s',
	args.boot_img.read(1024))[0].decode())
	print('additional command line args: %s' % extra_cmdline)

	if version < 3:
	kernel_size = kernel_ramdisk_second_info[0]
	ramdisk_size = kernel_ramdisk_second_info[2]
	second_size = kernel_ramdisk_second_info[4]
	page_size = kernel_ramdisk_second_info[7]
	else:
	kernel_size = kernel_ramdisk_second_info[0]
	ramdisk_size = kernel_ramdisk_second_info[1]
	second_size = 0
	page_size = BOOT_IMAGE_HEADER_V3_PAGESIZE

	if 0 < version < 3:
	recovery_dtbo_size = unpack('I', args.boot_img.read(1 * 4))[0]
	print('recovery dtbo size: %s' % recovery_dtbo_size)
	recovery_dtbo_offset = unpack('Q', args.boot_img.read(8))[0]
	print('recovery dtbo offset: %#x' % recovery_dtbo_offset)
	boot_header_size = unpack('I', args.boot_img.read(4))[0]
	print('boot header size: %s' % boot_header_size)
	else:
	recovery_dtbo_size = 0
	if 1 < version < 3:
	dtb_size = unpack('I', args.boot_img.read(4))[0]
	print('dtb size: %s' % dtb_size)
	dtb_load_address = unpack('Q', args.boot_img.read(8))[0]
	print('dtb address: %#x' % dtb_load_address)
	else:
	dtb_size = 0


	# The first page contains the boot header
	num_header_pages = 1

	num_kernel_pages = get_number_of_pages(kernel_size, page_size)
	kernel_offset = page_size * num_header_pages # header occupies a page
	image_info_list = [(kernel_offset, kernel_size, 'kernel')]

	num_ramdisk_pages = get_number_of_pages(ramdisk_size, page_size)
	ramdisk_offset = page_size * (num_header_pages + num_kernel_pages
	) # header + kernel
	image_info_list.append((ramdisk_offset, ramdisk_size, 'ramdisk'))

	if second_size > 0:
	second_offset = page_size * (
	num_header_pages + num_kernel_pages + num_ramdisk_pages
	) # header + kernel + ramdisk
	image_info_list.append((second_offset, second_size, 'second'))

	if recovery_dtbo_size > 0:
	image_info_list.append((recovery_dtbo_offset, recovery_dtbo_size,
	'recovery_dtbo'))
	if dtb_size > 0:
	num_second_pages = get_number_of_pages(second_size, page_size)
	num_recovery_dtbo_pages = get_number_of_pages(recovery_dtbo_size, page_size)
	dtb_offset = page_size * (
	num_header_pages + num_kernel_pages + num_ramdisk_pages + num_second_pages +
	num_recovery_dtbo_pages
	)

	image_info_list.append((dtb_offset, dtb_size, 'dtb'))

	for image_info in image_info_list:
	extract_image(image_info[0], image_info[1], args.boot_img,
	os.path.join(args.out, image_info[2]))


	def unpack_vendor_bootimage(args):
	kernel_ramdisk_info = unpack('5I', args.boot_img.read(5 * 4))
	print('vendor boot image header version: %s' % kernel_ramdisk_info[0])
	print('kernel load address: %#x' % kernel_ramdisk_info[2])
	print('ramdisk load address: %#x' % kernel_ramdisk_info[3])
	print('vendor ramdisk size: %s' % kernel_ramdisk_info[4])

	cmdline = cstr(unpack('2048s', args.boot_img.read(2048))[0].decode())
	print('vendor command line args: %s' % cmdline)

	tags_load_address = unpack('I', args.boot_img.read(1 * 4))[0]
	print('kernel tags load address: %#x' % tags_load_address)

	product_name = cstr(unpack('16s', args.boot_img.read(16))[0].decode())
	print('product name: %s' % product_name)

	dtb_size = unpack('2I', args.boot_img.read(2 * 4))[1]
	print('dtb size: %s' % dtb_size)
	dtb_load_address = unpack('Q', args.boot_img.read(8))[0]
	print('dtb address: %#x' % dtb_load_address)

	ramdisk_size = kernel_ramdisk_info[4]
	page_size = kernel_ramdisk_info[1]

	# The first pages contain the boot header
	num_boot_header_pages = get_number_of_pages(VENDOR_BOOT_IMAGE_HEADER_V3_SIZE, page_size)
	num_boot_ramdisk_pages = get_number_of_pages(ramdisk_size, page_size)
	ramdisk_offset = page_size * num_boot_header_pages
	image_info_list = [(ramdisk_offset, 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, dtb_size, 'dtb'))

	for image_info in image_info_list:
	extract_image(image_info[0], image_info[1], args.boot_img,
	os.path.join(args.out, image_info[2]))


	def unpack_image(args):
	boot_magic = unpack('8s', args.boot_img.read(8))[0].decode()
	print('boot_magic: %s' % boot_magic)
	if boot_magic == "ANDROID!":
	unpack_bootimage(args)
	elif boot_magic == "VNDRBOOT":
	unpack_vendor_bootimage(args)


	def parse_cmdline():
	"""parse command line arguments"""
	parser = ArgumentParser(
	description='Unpacks boot.img/recovery.img, extracts the kernel,'
	'ramdisk, second bootloader, recovery dtbo and dtb')
	parser.add_argument(
	'--boot_img',
	help='path to boot image',
	type=FileType('rb'),
	required=True)
	parser.add_argument('--out', help='path to out binaries', default='out')
	return parser.parse_args()


	def main():
	"""parse arguments and unpack boot image"""
	args = parse_cmdline()
	create_out_dir(args.out)
	unpack_image(args)


	if __name__ == '__main__':
	main()