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617 lines
21 KiB
Python
617 lines
21 KiB
Python
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#!/usr/bin/python
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"""ME7 Update binary parser."""
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# Copyright (C) 2020 Tom Hiller <thrilleratplay@gmail.com>
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# Copyright (C) 2016-2018 Nicola Corna <nicola@corna.info>
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# Based on the amazing me_cleaner, https://github.com/corna/me_cleaner, parses
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# the required signed partition from an ME update file to generate a valid
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# flashable ME binary.
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#
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# This was written for Heads ROM, https://github.com/osresearch/heads
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# to allow continuous integration reproducible builds for Lenovo xx20 models
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# (X220, T420, T520, etc).
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#
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# A full model list can be found:
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# https://download.lenovo.com/ibmdl/pub/pc/pccbbs/mobiles/83rf46ww.txt
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from struct import pack, unpack
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from typing import List
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import argparse
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import sys
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import hashlib
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import binascii
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import os.path
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#############################################################################
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FTPR_END = 0x76000
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MINIFIED_FTPR_OFFSET = 0x400 # offset start of Factory Partition (FTPR)
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ORIG_FTPR_OFFSET = 0xCC000
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PARTITION_HEADER_OFFSET = 0x30 # size of partition header
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DEFAULT_OUTPUT_FILE_NAME = "flashregion_2_intel_me.bin"
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#############################################################################
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class EntryFlags:
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"""EntryFlag bitmap values."""
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ExclBlockUse = 8192
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WOPDisable = 4096
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Logical = 2048
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Execute = 1024
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Write = 512
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Read = 256
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DirectAccess = 128
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Type = 64
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def generateHeader() -> bytes:
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"""Generate Header."""
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ROM_BYPASS_INSTR_0 = binascii.unhexlify("2020800F")
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ROM_BYPASS_INSTR_1 = binascii.unhexlify("40000010")
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ROM_BYPASS_INSTR_2 = pack("<I", 0)
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ROM_BYPASS_INSTR_3 = pack("<I", 0)
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# $FPT Partition table header
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HEADER_TAG = "$FPT".encode()
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HEADER_NUM_PARTITIONS = pack("<I", 1)
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HEADER_VERSION = b"\x20" # version 2.0
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HEADER_ENTRY_TYPE = b"\x10"
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HEADER_LENGTH = b"\x30"
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HEADER_CHECKSUM = pack("<B", 0)
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HEADER_FLASH_CYCLE_LIFE = pack("<H", 7)
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HEADER_FLASH_CYCLE_LIMIT = pack("<H", 100)
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HEADER_UMA_SIZE = pack("<H", 32)
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HEADER_FLAGS = binascii.unhexlify("000000FCFFFF")
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HEADER_FITMAJOR = pack("<H", 0)
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HEADER_FITMINOR = pack("<H", 0)
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HEADER_FITHOTFIX = pack("<H", 0)
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HEADER_FITBUILD = pack("<H", 0)
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FTPR_header_layout = bytearray(
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ROM_BYPASS_INSTR_0
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+ ROM_BYPASS_INSTR_1
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+ ROM_BYPASS_INSTR_2
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+ ROM_BYPASS_INSTR_3
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+ HEADER_TAG
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+ HEADER_NUM_PARTITIONS
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+ HEADER_VERSION
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+ HEADER_ENTRY_TYPE
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+ HEADER_LENGTH
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+ HEADER_CHECKSUM
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+ HEADER_FLASH_CYCLE_LIFE
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+ HEADER_FLASH_CYCLE_LIMIT
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+ HEADER_UMA_SIZE
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+ HEADER_FLAGS
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+ HEADER_FITMAJOR
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+ HEADER_FITMINOR
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+ HEADER_FITHOTFIX
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+ HEADER_FITBUILD
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)
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# Update checksum
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FTPR_header_layout[27] = (0x100 - sum(FTPR_header_layout) & 0xFF) & 0xFF
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return FTPR_header_layout
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def generateFtpPartition() -> bytes:
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"""Partition table entry."""
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ENTRY_NAME = binascii.unhexlify("46545052")
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ENTRY_OWNER = binascii.unhexlify("FFFFFFFF") # "None"
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ENTRY_OFFSET = binascii.unhexlify("00040000")
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ENTRY_LENGTH = binascii.unhexlify("00600700")
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ENTRY_START_TOKENS = pack("<I", 1)
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ENTRY_MAX_TOKENS = pack("<I", 1)
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ENTRY_SCRATCH_SECTORS = pack("<I", 0)
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ENTRY_FLAGS = pack(
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"<I",
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(
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EntryFlags.ExclBlockUse
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+ EntryFlags.Execute
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+ EntryFlags.Write
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+ EntryFlags.Read
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+ EntryFlags.DirectAccess
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),
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)
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partition = (
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ENTRY_NAME
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+ ENTRY_OWNER
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+ ENTRY_OFFSET
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+ ENTRY_LENGTH
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+ ENTRY_START_TOKENS
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+ ENTRY_MAX_TOKENS
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+ ENTRY_SCRATCH_SECTORS
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+ ENTRY_FLAGS
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)
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# offset of the partition - length of partition entry -length of header
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pad_len = MINIFIED_FTPR_OFFSET - (len(partition) + PARTITION_HEADER_OFFSET)
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padding = b""
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for i in range(0, pad_len):
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padding += b"\xFF"
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return partition + padding
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############################################################################
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class OutOfRegionException(Exception):
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"""Out of Region Exception."""
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pass
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class clean_ftpr:
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"""Clean Factory Parition (FTPR)."""
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UNREMOVABLE_MODULES = ("ROMP", "BUP")
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COMPRESSION_TYPE_NAME = ("uncomp.", "Huffman", "LZMA")
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def __init__(self, ftpr: bytes):
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"""Init."""
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self.orig_ftpr = ftpr
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self.ftpr = ftpr
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self.mod_headers: List[bytes] = []
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self.check_and_clean_ftpr()
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#####################################################################
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# tilities
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#####################################################################
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def slice(self, offset: int, size: int) -> bytes:
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"""Copy data of a given size from FTPR starting from offset."""
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offset_end = offset + size
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return self.ftpr[offset:offset_end]
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def unpack_next_int(self, offset: int) -> int:
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"""Sugar syntax for unpacking a little-endian UINT at offset."""
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return self.unpack_val(self.slice(offset, 4))
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def unpack_val(self, data: bytes) -> int:
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"""Sugar syntax for unpacking a little-endian unsigned integer."""
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return unpack("<I", data)[0]
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def bytes_to_ascii(self, data: bytes) -> str:
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"""Decode bytes into ASCII."""
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return data.rstrip(b"\x00").decode("ascii")
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def clear_ftpr_data(self, start: int, end: int) -> None:
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"""Replace values in range with 0xFF."""
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empty_data = bytes()
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for i in range(0, end - start):
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empty_data += b"\xff"
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self.write_ftpr_data(start, empty_data)
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def write_ftpr_data(self, start: int, data: bytes) -> None:
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"""Replace data in FTPR starting at a given offset."""
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end = len(data) + start
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new_partition = self.ftpr[:start]
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new_partition += data
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if end != FTPR_END:
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new_partition += self.ftpr[end:]
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self.ftpr = new_partition
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######################################################################
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# FTPR cleanig/checking functions
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######################################################################
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def get_chunks_offsets(self, llut: bytes):
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"""Calculate Chunk offsets from LLUT."""
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chunk_count = self.unpack_val(llut[0x04:0x08])
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huffman_stream_end = sum(unpack("<II", llut[0x10:0x18]))
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nonzero_offsets = [huffman_stream_end]
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offsets = []
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for i in range(0, chunk_count):
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llut_start = 0x40 + (i * 4)
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llut_end = 0x44 + (i * 4)
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chunk = llut[llut_start:llut_end]
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offset = 0
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if chunk[3] != 0x80:
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offset = self.unpack_val(chunk[0:3] + b"\x00")
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offsets.append([offset, 0])
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if offset != 0:
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nonzero_offsets.append(offset)
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nonzero_offsets.sort()
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for i in offsets:
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if i[0] != 0:
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i[1] = nonzero_offsets[nonzero_offsets.index(i[0]) + 1]
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return offsets
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def relocate_partition(self) -> int:
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"""Relocate partition."""
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new_offset = MINIFIED_FTPR_OFFSET
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name = self.bytes_to_ascii(self.slice(PARTITION_HEADER_OFFSET, 4))
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old_offset, partition_size = unpack(
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"<II", self.slice(PARTITION_HEADER_OFFSET + 0x8, 0x8)
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)
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llut_start = 0
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for mod_header in self.mod_headers:
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if (self.unpack_val(mod_header[0x50:0x54]) >> 4) & 7 == 0x01:
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llut_start = self.unpack_val(mod_header[0x38:0x3C])
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llut_start += old_offset
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break
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if self.mod_headers and llut_start != 0:
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# Bytes 0x9:0xb of the LLUT (bytes 0x1:0x3 of the AddrBase) are
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# added to the SpiBase (bytes 0xc:0x10 of the LLUT) to compute the
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# final start of the LLUT. Since AddrBase is not modifiable, we can
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# act only on SpiBase and here we compute the minimum allowed
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# new_offset.
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llut_start_corr = unpack("<H", self.slice(llut_start + 0x9, 2))[0]
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new_offset = max(
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new_offset, llut_start_corr - llut_start - 0x40 + old_offset
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)
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new_offset = ((new_offset + 0x1F) // 0x20) * 0x20
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offset_diff = new_offset - old_offset
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print(
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"Relocating {} from {:#x} - {:#x} to {:#x} - {:#x}...".format(
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name,
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old_offset,
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old_offset + partition_size,
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new_offset,
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new_offset + partition_size,
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)
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)
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print(" Adjusting FPT entry...")
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self.write_ftpr_data(
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PARTITION_HEADER_OFFSET + 0x08,
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pack("<I", new_offset),
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)
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if self.mod_headers:
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if llut_start != 0:
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if self.slice(llut_start, 4) == b"LLUT":
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print(" Adjusting LUT start offset...")
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llut_offset = pack(
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"<I", llut_start + offset_diff + 0x40 - llut_start_corr
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)
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self.write_ftpr_data(llut_start + 0x0C, llut_offset)
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print(" Adjusting Huffman start offset...")
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old_huff_offset = self.unpack_next_int(llut_start + 0x14)
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ftpr_offset_diff = MINIFIED_FTPR_OFFSET - ORIG_FTPR_OFFSET
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self.write_ftpr_data(
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llut_start + 0x14,
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pack("<I", old_huff_offset + ftpr_offset_diff),
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)
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print(" Adjusting chunks offsets...")
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chunk_count = self.unpack_next_int(llut_start + 0x4)
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offset = llut_start + 0x40
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offset_end = chunk_count * 4
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chunks = bytearray(self.slice(offset, offset_end))
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for i in range(0, offset_end, 4):
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i_plus_3 = i + 3
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if chunks[i_plus_3] != 0x80:
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chunks[i:i_plus_3] = pack(
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"<I",
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self.unpack_val(chunks[i:i_plus_3] + b"\x00")
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+ (MINIFIED_FTPR_OFFSET - ORIG_FTPR_OFFSET),
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)[0:3]
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self.write_ftpr_data(offset, bytes(chunks))
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else:
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sys.exit("Huffman modules present but no LLUT found!")
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else:
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print(" No Huffman modules found")
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print(" Moving data...")
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partition_size = min(partition_size, FTPR_END - old_offset)
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if (
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old_offset + partition_size <= FTPR_END
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and new_offset + partition_size <= FTPR_END
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):
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for i in range(0, partition_size, 4096):
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block_length = min(partition_size - i, 4096)
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block = self.slice(old_offset + i, block_length)
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self.clear_ftpr_data(old_offset + i, len(block))
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self.write_ftpr_data(new_offset + i, block)
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else:
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raise OutOfRegionException()
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return new_offset
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def remove_modules(self) -> int:
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"""Remove modules."""
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unremovable_huff_chunks = []
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chunks_offsets = []
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base = 0
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chunk_size = 0
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end_addr = 0
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for mod_header in self.mod_headers:
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name = self.bytes_to_ascii(mod_header[0x04:0x14])
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offset = self.unpack_val(mod_header[0x38:0x3C])
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size = self.unpack_val(mod_header[0x40:0x44])
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flags = self.unpack_val(mod_header[0x50:0x54])
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comp_type = (flags >> 4) & 7
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comp_type_name = self.COMPRESSION_TYPE_NAME[comp_type]
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print(" {:<16} ({:<7}, ".format(name, comp_type_name), end="")
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# If compresion type uncompressed or LZMA
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if comp_type == 0x00 or comp_type == 0x02:
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offset_end = offset + size
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range_msg = "0x{:06x} - 0x{:06x} ): "
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print(range_msg.format(offset, offset_end), end="")
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if name in self.UNREMOVABLE_MODULES:
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end_addr = max(end_addr, offset + size)
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print("NOT removed, essential")
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else:
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offset_end = min(offset + size, FTPR_END)
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self.clear_ftpr_data(offset, offset_end)
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print("removed")
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# Else if compression type huffman
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elif comp_type == 0x01:
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if not chunks_offsets:
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# Check if Local Look Up Table (LLUT) is present
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if self.slice(offset, 4) == b"LLUT":
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llut = self.slice(offset, 0x40)
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chunk_count = self.unpack_val(llut[0x4:0x8])
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base = self.unpack_val(llut[0x8:0xC]) + 0x10000000
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chunk_size = self.unpack_val(llut[0x30:0x34])
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llut = self.slice(offset, (chunk_count * 4) + 0x40)
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# calculate offsets of chunks from LLUT
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chunks_offsets = self.get_chunks_offsets(llut)
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else:
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no_llut_msg = "Huffman modules found,"
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no_llut_msg += "but LLUT is not present."
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sys.exit(no_llut_msg)
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module_base = self.unpack_val(mod_header[0x34:0x38])
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module_size = self.unpack_val(mod_header[0x3C:0x40])
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first_chunk_num = (module_base - base) // chunk_size
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last_chunk_num = first_chunk_num + module_size // chunk_size
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huff_size = 0
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chunk_length = last_chunk_num + 1
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for chunk in chunks_offsets[first_chunk_num:chunk_length]:
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huff_size += chunk[1] - chunk[0]
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size_in_kiB = "~" + str(int(round(huff_size / 1024))) + " KiB"
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print(
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"fragmented data, {:<9}): ".format(size_in_kiB),
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end="",
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)
|
||
|
|
||
|
# Check if module is in the unremovable list
|
||
|
if name in self.UNREMOVABLE_MODULES:
|
||
|
print("NOT removed, essential")
|
||
|
|
||
|
# add to list of unremovable chunks
|
||
|
for x in chunks_offsets[first_chunk_num:chunk_length]:
|
||
|
if x[0] != 0:
|
||
|
unremovable_huff_chunks.append(x)
|
||
|
else:
|
||
|
print("removed")
|
||
|
|
||
|
# Else unknown compression type
|
||
|
else:
|
||
|
unkwn_comp_msg = " 0x{:06x} - 0x{:06x}): "
|
||
|
unkwn_comp_msg += "unknown compression, skipping"
|
||
|
print(unkwn_comp_msg.format(offset, offset + size), end="")
|
||
|
|
||
|
if chunks_offsets:
|
||
|
removable_huff_chunks = []
|
||
|
|
||
|
for chunk in chunks_offsets:
|
||
|
# if chunk is not in a unremovable chunk, it must be removable
|
||
|
if all(
|
||
|
not (
|
||
|
unremovable_chk[0] <= chunk[0] < unremovable_chk[1]
|
||
|
or unremovable_chk[0] < chunk[1] <= unremovable_chk[1]
|
||
|
)
|
||
|
for unremovable_chk in unremovable_huff_chunks
|
||
|
):
|
||
|
removable_huff_chunks.append(chunk)
|
||
|
|
||
|
for removable_chunk in removable_huff_chunks:
|
||
|
if removable_chunk[1] > removable_chunk[0]:
|
||
|
chunk_start = removable_chunk[0] - ORIG_FTPR_OFFSET
|
||
|
chunk_end = removable_chunk[1] - ORIG_FTPR_OFFSET
|
||
|
self.clear_ftpr_data(chunk_start, chunk_end)
|
||
|
|
||
|
end_addr = max(
|
||
|
end_addr, max(unremovable_huff_chunks, key=lambda x: x[1])[1]
|
||
|
)
|
||
|
end_addr -= ORIG_FTPR_OFFSET
|
||
|
|
||
|
return end_addr
|
||
|
|
||
|
def find_mod_header_size(self) -> None:
|
||
|
"""Find module header size."""
|
||
|
self.mod_header_size = 0
|
||
|
data = self.slice(0x290, 0x84)
|
||
|
|
||
|
# check header size
|
||
|
if data[0x0:0x4] == b"$MME":
|
||
|
if data[0x60:0x64] == b"$MME" or self.num_modules == 1:
|
||
|
self.mod_header_size = 0x60
|
||
|
elif data[0x80:0x84] == b"$MME":
|
||
|
self.mod_header_size = 0x80
|
||
|
|
||
|
def find_mod_headers(self) -> None:
|
||
|
"""Find module headers."""
|
||
|
data = self.slice(0x290, self.mod_header_size * self.num_modules)
|
||
|
|
||
|
for i in range(0, self.num_modules):
|
||
|
header_start = i * self.mod_header_size
|
||
|
header_end = (i + 1) * self.mod_header_size
|
||
|
self.mod_headers.append(data[header_start:header_end])
|
||
|
|
||
|
def resize_partition(self, end_addr: int) -> None:
|
||
|
"""Resize partition."""
|
||
|
spared_blocks = 4
|
||
|
if end_addr > 0:
|
||
|
end_addr = (end_addr // 0x1000 + 1) * 0x1000
|
||
|
end_addr += spared_blocks * 0x1000
|
||
|
|
||
|
# partition header not added yet
|
||
|
# remove trailing data the same size as the header.
|
||
|
end_addr -= MINIFIED_FTPR_OFFSET
|
||
|
|
||
|
me_size_msg = "The ME minimum size should be {0} "
|
||
|
me_size_msg += "bytes ({0:#x} bytes)"
|
||
|
print(me_size_msg.format(end_addr))
|
||
|
print("Truncating file at {:#x}...".format(end_addr))
|
||
|
self.ftpr = self.ftpr[:end_addr]
|
||
|
|
||
|
def check_and_clean_ftpr(self) -> None:
|
||
|
"""Check and clean FTPR (factory partition)."""
|
||
|
self.num_modules = self.unpack_next_int(0x20)
|
||
|
self.find_mod_header_size()
|
||
|
|
||
|
if self.mod_header_size != 0:
|
||
|
self.find_mod_headers()
|
||
|
|
||
|
# ensure all of the headers begin with b'$MME'
|
||
|
if all(hdr.startswith(b"$MME") for hdr in self.mod_headers):
|
||
|
end_addr = self.remove_modules()
|
||
|
new_offset = self.relocate_partition()
|
||
|
end_addr += new_offset
|
||
|
|
||
|
self.resize_partition(end_addr)
|
||
|
|
||
|
# flip bit
|
||
|
# XXX: I have no idea why this works and passes RSA signiture
|
||
|
self.write_ftpr_data(0x39, b"\x00")
|
||
|
else:
|
||
|
sys.exit(
|
||
|
"Found less modules than expected in the FTPR "
|
||
|
"partition; skipping modules removal and exiting."
|
||
|
)
|
||
|
else:
|
||
|
sys.exit(
|
||
|
"Can't find the module header size; skipping modules"
|
||
|
"removal and exiting."
|
||
|
)
|
||
|
|
||
|
|
||
|
##########################################################################
|
||
|
|
||
|
|
||
|
def check_partition_signature(f, offset) -> bool:
|
||
|
"""check_partition_signature copied/shamelessly stolen from me_cleaner."""
|
||
|
f.seek(offset)
|
||
|
header = f.read(0x80)
|
||
|
modulus = int(binascii.hexlify(f.read(0x100)[::-1]), 16)
|
||
|
public_exponent = unpack("<I", f.read(4))[0]
|
||
|
signature = int(binascii.hexlify(f.read(0x100)[::-1]), 16)
|
||
|
|
||
|
header_len = unpack("<I", header[0x4:0x8])[0] * 4
|
||
|
manifest_len = unpack("<I", header[0x18:0x1C])[0] * 4
|
||
|
f.seek(offset + header_len)
|
||
|
|
||
|
sha256 = hashlib.sha256()
|
||
|
sha256.update(header)
|
||
|
tmp = f.read(manifest_len - header_len)
|
||
|
sha256.update(tmp)
|
||
|
|
||
|
decrypted_sig = pow(signature, public_exponent, modulus)
|
||
|
return "{:#x}".format(decrypted_sig).endswith(sha256.hexdigest()) # FIXME
|
||
|
|
||
|
|
||
|
##########################################################################
|
||
|
|
||
|
|
||
|
def generate_me_blob(input_file: str, output_file: str) -> None:
|
||
|
"""Generate ME blob."""
|
||
|
print("Starting ME 7.x Update parser.")
|
||
|
|
||
|
orig_f = open(input_file, "rb")
|
||
|
cleaned_ftpr = clean_ftpr(orig_f.read(FTPR_END))
|
||
|
orig_f.close()
|
||
|
|
||
|
fo = open(output_file, "wb")
|
||
|
fo.write(generateHeader())
|
||
|
fo.write(generateFtpPartition())
|
||
|
fo.write(cleaned_ftpr.ftpr)
|
||
|
fo.close()
|
||
|
|
||
|
|
||
|
def verify_output(output_file: str) -> None:
|
||
|
"""Verify Generated ME file."""
|
||
|
file_verifiy = open(output_file, "rb")
|
||
|
|
||
|
if check_partition_signature(file_verifiy, MINIFIED_FTPR_OFFSET):
|
||
|
print(output_file + " is VALID")
|
||
|
file_verifiy.close()
|
||
|
else:
|
||
|
print(output_file + " is INVALID!!")
|
||
|
file_verifiy.close()
|
||
|
sys.exit("The FTPR partition signature is not valid.")
|
||
|
|
||
|
|
||
|
if __name__ == "__main__":
|
||
|
parser = argparse.ArgumentParser(
|
||
|
description="Tool to remove as much code "
|
||
|
"as possible from Intel ME/TXE 7.x firmware "
|
||
|
"update and create paratition for a flashable ME parition."
|
||
|
)
|
||
|
|
||
|
|
||
|
parser.add_argument("file", help="ME/TXE image or full dump")
|
||
|
parser.add_argument(
|
||
|
"-O",
|
||
|
"--output",
|
||
|
metavar="output_file",
|
||
|
help="save "
|
||
|
"save file name other than the default '" + DEFAULT_OUTPUT_FILE_NAME + "'",
|
||
|
)
|
||
|
|
||
|
args = parser.parse_args()
|
||
|
|
||
|
output_file_name = DEFAULT_OUTPUT_FILE_NAME if not args.output else args.output
|
||
|
|
||
|
# Check if output file exists, ask to overwrite or exit
|
||
|
if os.path.isfile(output_file_name):
|
||
|
input_msg = output_file_name
|
||
|
input_msg += " exists. Do you want to overwrite? [y/N]: "
|
||
|
if not str(input(input_msg)).lower().startswith("y"):
|
||
|
sys.exit("Not overwriting file. Exiting.")
|
||
|
|
||
|
generate_me_blob(args.file, output_file_name)
|
||
|
verify_output(output_file_name)
|