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#!/usr/bin/env python3 | |
import argparse | |
import struct | |
# little endian, 32-bit words | |
# Could check for magic 0x01020304 / 0x04030201 to determine endianness | |
ENDI = '<' | |
WORD_PAT = ENDI + 'I' | |
WORD_SZ = struct.calcsize(WORD_PAT) | |
def get_word(buf, pos): | |
word = struct.unpack( | |
WORD_PAT, | |
buf[pos:pos + WORD_SZ])[0] | |
return word | |
def update_word(buf, pos, word): | |
buf[pos:pos + WORD_SZ] = \ | |
struct.pack(WORD_PAT, word) | |
def find_words(image_data, start, end, condition, limit=0): | |
"""Returns list of (address, word) tuples where | |
word satisfies condition lambda""" | |
results = [] | |
for i in range(start, end, WORD_SZ): | |
cur_word = get_word(image_data, i) | |
if condition(i, cur_word): | |
results.append((i, cur_word)) | |
if limit > 0 and len(results) >= limit: | |
break | |
if len(results) == 0: | |
return None | |
return results | |
def find_lc0(image_data): | |
end_search = min(0x500, len(image_data)) | |
candidates = find_words( | |
image_data, | |
0, end_search, | |
lambda addr, word: addr == word, | |
limit=1) | |
if candidates is not None: | |
lc0_pos, lc0_val = candidates[0] | |
return lc0_pos | |
return None | |
def get_lc0(image_data): | |
lc0_start = find_lc0(image_data) | |
if lc0_start is None: | |
raise Exception("Couldn't find LC0") | |
lc0_pattern = ENDI + ('I' * 9) | |
lc0_size = struct.calcsize(lc0_pattern) | |
lc0_data = struct.unpack( | |
lc0_pattern, | |
image_data[lc0_start:lc0_start + lc0_size]) | |
return lc0_data | |
def get_got(image_data, got_start, got_end): | |
got_count = (got_end - got_start) // WORD_SZ | |
got_pattern = ENDI + ('I' * got_count) | |
got_entries = struct.unpack( | |
got_pattern, | |
image_data[got_start:got_end]) | |
return got_entries | |
def find_magic(image_data, lc0_start): | |
zimage_magic = 0x16F2818 | |
magic_sig_cand = find_words( | |
image_data, | |
0, lc0_start, | |
lambda addr, word: word == zimage_magic, | |
limit=1) | |
if magic_sig_cand is None: | |
raise Exception('zimage magic not found') | |
return magic_sig_cand[0][0] | |
def pack_u32_table(u32_table): | |
u32_pattern = ENDI + ('I' * len(u32_table)) | |
return struct.pack( | |
u32_pattern, | |
*u32_table) | |
def fixup_ptrs(table, extend_size, piggy_start): | |
for i in range(len(table)): | |
if table[i] > piggy_start: | |
table[i] += extend_size | |
return table | |
def hexlist(dataz): | |
for i, entry in enumerate(list(dataz)): | |
print(f' {i:#04x}: {entry:#010x}') | |
def main(): | |
parser = argparse.ArgumentParser( | |
description="""Replace or extend compressed vmlinux in | |
ARM kernel zImages""") | |
parser.add_argument('zimage', type=str, | |
help='path of zImage to modify') | |
parser.add_argument('outfile', type=str, | |
help='path of output zImage') | |
mode_group = parser.add_mutually_exclusive_group(required=True) | |
mode_group.add_argument( | |
'--extend', type=int, | |
help='amount to extend piggy area') | |
mode_group.add_argument( | |
'--replace', type=str, default=None, | |
help="""replacement piggy data file. | |
remember to append the inflated size 32 bit word!""") | |
args = parser.parse_args() | |
with open(args.zimage, 'rb') as zimage: | |
image_data = zimage.read() | |
# Find LC0, GOT, and piggy | |
lc0_data = get_lc0(image_data) | |
lc0_start = lc0_data[0] | |
lc0_end = lc0_start + (WORD_SZ * len(lc0_data)) | |
print(f'LC0 @ {lc0_start:#06x} - {lc0_end:#06x}') | |
hexlist(lc0_data) | |
got_start = lc0_data[5] | |
got_end = lc0_data[6] | |
got_table = get_got(image_data, got_start, got_end) | |
print(f'GOT @ {got_start:#010x} - {got_end:#010x}') | |
hexlist(got_table) | |
piggy_start = got_table[3] | |
piggy_end = got_table[1] | |
piggy_size = piggy_end - piggy_start | |
piggy_infl_sz_ptr = lc0_data[4] | |
piggy_inflated_size = get_word(image_data, piggy_infl_sz_ptr) | |
print(f'piggy data @ {piggy_start:#010x} - {piggy_end:#010x}') | |
print(f'piggy compressed size: {piggy_size:#010x}') | |
print(f'piggy inflated size @ {piggy_infl_sz_ptr:#010x}') | |
print(f'piggy inflated size: {piggy_inflated_size:#010x}') | |
# Determine amount to increase image size | |
replace_piggy = None | |
if args.extend is not None: | |
# Zero-fill extend | |
incsize = args.extend | |
if incsize % 4 != 0: | |
raise Exception('piggy extend size must be multiple of 4') | |
elif args.replace is not None: | |
# Insert new piggy data from file | |
with open(args.replace, 'rb') as piggyf: | |
replace_piggy = piggyf.read() | |
# Help keep it 4 byte aligned | |
if len(replace_piggy) % 4 != 0: | |
raise Exception('replacement piggy size must be multiple of 4') | |
print(f'piggy new compressed size: {len(replace_piggy):#010x}') | |
if len(replace_piggy) > piggy_size: | |
incsize = len(replace_piggy) - piggy_size | |
else: | |
incsize = 0 | |
else: | |
print('must have extend size or replacement piggy data') | |
return | |
# fixup_ptrs does a simple offset, so figure out where inflate size | |
# and piggy end will really be located first | |
if replace_piggy is not None: | |
# For a replacement piggy, set inflated size ptr accordingly. | |
# It should be at the end of the XZ data. | |
new_pig_end = piggy_start + len(replace_piggy) | |
new_pig_sz_ptr = new_pig_end - 4 | |
else: | |
# Piggy inflated size stays in place for simple zero-fill | |
new_pig_end = piggy_end | |
new_pig_sz_ptr = piggy_infl_sz_ptr | |
# Update LC0 and GOT for extended image size | |
lc0_data_ext = fixup_ptrs(list(lc0_data), incsize, piggy_start) | |
got_table_ext = fixup_ptrs(list(got_table), incsize, piggy_start) | |
# Set real piggy inflated size and end pointers | |
lc0_data_ext[4] = new_pig_sz_ptr | |
got_table_ext[1] = new_pig_end | |
print(f'extending image by {incsize:#010x}') | |
print('LC0 extended:') | |
hexlist(lc0_data_ext) | |
print('GOT extended:') | |
hexlist(got_table_ext) | |
# Making the updated image now | |
new_image = bytearray(image_data) | |
# Compiled functions use an offset to the GOT. | |
# We need to find and update the base offsets. | |
# Rough minimum possible offset is from where the code ends | |
# to the GOT start. (got_start - piggy_start) | |
# Rough maximum offset is from code after LC0 | |
# to the GOT start. (got_start - lc0_end) | |
print('Searching for GOT offsets...') | |
goto_candidates = find_words( | |
new_image, | |
lc0_end, piggy_start, | |
lambda addr, word: word >= (got_start - piggy_start) and | |
word <= (got_start - lc0_end)) | |
for addr, word in goto_candidates: | |
print(f'Candidate GOT offset @ {addr:#06x}: {word:#010x}') | |
update_word(new_image, addr, word + incsize) | |
# Update LC0 | |
lc0_ext_packed = pack_u32_table(lc0_data_ext) | |
new_image[lc0_start:lc0_end] = lc0_ext_packed | |
# Update GOT | |
got_ext_packed = pack_u32_table(got_table_ext) | |
new_image[got_start:got_end] = got_ext_packed | |
# Update _magic_end | |
magic_sig_pos = find_magic(new_image, lc0_start) | |
magic_start_pos = magic_sig_pos + WORD_SZ | |
magic_end_pos = magic_sig_pos + WORD_SZ * 2 | |
magic_start = get_word(new_image, magic_start_pos) | |
magic_end = get_word(new_image, magic_end_pos) | |
print(f'magic start: {magic_start:#010x}') | |
print(f'magic end: {magic_end:#010x}') | |
magic_end += incsize | |
print(f'magic end updated: {magic_end:#010x}') | |
update_word(new_image, magic_end_pos, magic_end) | |
# Extend the image | |
if replace_piggy is not None: | |
# pad piggy if it's smaller than original | |
if len(replace_piggy) < piggy_size: | |
assert(piggy_size % 4 == 0) # ensure 4 byte aligned | |
replace_piggy += b'\x00' * (piggy_size - len(replace_piggy)) | |
new_image = new_image[:piggy_start] + \ | |
replace_piggy + \ | |
new_image[piggy_end:] | |
else: | |
new_image = new_image[:piggy_end] + \ | |
(b'\x00' * incsize) + \ | |
new_image[piggy_end:] | |
# Write the extended image to file | |
with open(args.outfile, 'wb') as new_file: | |
new_file.write(new_image) | |
print('wrote new image') | |
if __name__ == '__main__': | |
main() |
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