mirror of
https://github.com/platomav/BIOSUtilities.git
synced 2025-05-13 06:34:42 -04:00
237 lines
8.3 KiB
Python
237 lines
8.3 KiB
Python
#!/usr/bin/env python3
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#coding=utf-8
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"""
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Panasonic BIOS Extract
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Panasonic BIOS Package Extractor
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Copyright (C) 2018-2022 Plato Mavropoulos
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"""
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TITLE = 'Panasonic BIOS Package Extractor v2.0_a7'
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import os
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import io
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import sys
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import lznt1
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import pefile
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# Stop __pycache__ generation
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sys.dont_write_bytecode = True
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from common.comp_szip import is_szip_supported, szip_decompress
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from common.path_ops import get_path_files, make_dirs, path_stem, safe_name
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from common.pe_ops import get_pe_file, get_pe_info, is_pe_file, show_pe_info
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from common.patterns import PAT_MICROSOFT_CAB
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from common.system import script_init, argparse_init, printer
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from common.text_ops import file_to_bytes
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from AMI_PFAT_Extract import get_ami_pfat, parse_pfat_file
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# Check if input is Panasonic BIOS Package PE
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def is_panasonic_pkg(in_file):
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in_buffer = file_to_bytes(in_file)
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pe_file = get_pe_file(in_buffer, fast=True)
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if not pe_file:
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return False
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pe_info = get_pe_info(pe_file)
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if not pe_info:
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return False
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if pe_info.get(b'FileDescription',b'').upper() != b'UNPACK UTILITY':
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return False
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if not PAT_MICROSOFT_CAB.search(in_buffer):
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return False
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return True
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# Search and Extract Panasonic BIOS Package PE CAB archive
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def panasonic_cab_extract(buffer, extract_path, padding=0):
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pe_path,pe_file,pe_info = [None] * 3
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cab_bgn = PAT_MICROSOFT_CAB.search(buffer).start()
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cab_len = int.from_bytes(buffer[cab_bgn + 0x8:cab_bgn + 0xC], 'little')
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cab_end = cab_bgn + cab_len
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cab_bin = buffer[cab_bgn:cab_end]
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cab_tag = f'[0x{cab_bgn:06X}-0x{cab_end:06X}]'
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cab_path = os.path.join(extract_path, f'CAB_{cab_tag}.cab')
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with open(cab_path, 'wb') as cab_file:
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cab_file.write(cab_bin) # Store CAB archive
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if is_szip_supported(cab_path, padding):
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printer(f'Panasonic BIOS Package > PE > CAB {cab_tag}', padding)
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if szip_decompress(cab_path, extract_path, 'CAB', padding + 4) == 0:
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os.remove(cab_path) # Successful extraction, delete CAB archive
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else:
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return pe_path, pe_file, pe_info
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else:
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return pe_path, pe_file, pe_info
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for file_path in get_path_files(extract_path):
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pe_file = get_pe_file(file_path, fast=True)
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if pe_file:
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pe_info = get_pe_info(pe_file)
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if pe_info.get(b'FileDescription',b'').upper() == b'BIOS UPDATE':
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pe_path = file_path
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break
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else:
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return pe_path, pe_file, pe_info
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return pe_path, pe_file, pe_info
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# Extract & Decompress Panasonic BIOS Update PE RCDATA (LZNT1)
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def panasonic_res_extract(pe_name, pe_file, extract_path, padding=0):
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is_rcdata = False
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# When fast_load is used, IMAGE_DIRECTORY_ENTRY_RESOURCE must be parsed prior to RCDATA Directories
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pe_file.parse_data_directories(directories=[pefile.DIRECTORY_ENTRY['IMAGE_DIRECTORY_ENTRY_RESOURCE']])
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# Parse all Resource Data Directories > RCDATA (ID = 10)
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for entry in pe_file.DIRECTORY_ENTRY_RESOURCE.entries:
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if entry.struct.name == 'IMAGE_RESOURCE_DIRECTORY_ENTRY' and entry.struct.Id == 0xA:
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is_rcdata = True
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for resource in entry.directory.entries:
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res_bgn = resource.directory.entries[0].data.struct.OffsetToData
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res_len = resource.directory.entries[0].data.struct.Size
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res_end = res_bgn + res_len
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res_bin = pe_file.get_data(res_bgn, res_len)
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res_tag = f'{pe_name} [0x{res_bgn:06X}-0x{res_end:06X}]'
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res_out = os.path.join(extract_path, f'{res_tag}')
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printer(res_tag, padding + 4)
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try:
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res_raw = lznt1.decompress(res_bin[0x8:])
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printer('Succesfull LZNT1 decompression via lznt1!', padding + 8)
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except:
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res_raw = res_bin
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printer('Succesfull PE Resource extraction!', padding + 8)
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# Detect & Unpack AMI BIOS Guard (PFAT) BIOS image
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pfat_match,pfat_buffer = get_ami_pfat(res_raw)
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if pfat_match:
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pfat_dir = os.path.join(extract_path, res_tag)
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parse_pfat_file(pfat_buffer, pfat_dir, padding + 12)
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else:
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if is_pe_file(res_raw):
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res_ext = 'exe'
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elif res_raw.startswith(b'[') and res_raw.endswith((b'\x0D\x0A',b'\x0A')):
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res_ext = 'txt'
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else:
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res_ext = 'bin'
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if res_ext == 'txt':
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printer(new_line=False)
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for line in io.BytesIO(res_raw).readlines():
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line_text = line.decode('utf-8','ignore').rstrip()
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printer(line_text, padding + 12, new_line=False)
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with open(f'{res_out}.{res_ext}', 'wb') as out_file:
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out_file.write(res_raw)
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return is_rcdata
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# Extract Panasonic BIOS Update PE Data when RCDATA is not available
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def panasonic_img_extract(pe_name, pe_path, pe_file, extract_path, padding=0):
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pe_data = file_to_bytes(pe_path)
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sec_bgn = pe_file.OPTIONAL_HEADER.DATA_DIRECTORY[pefile.DIRECTORY_ENTRY['IMAGE_DIRECTORY_ENTRY_SECURITY']].VirtualAddress
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img_bgn = pe_file.OPTIONAL_HEADER.BaseOfData + pe_file.OPTIONAL_HEADER.SizeOfInitializedData
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img_end = sec_bgn or len(pe_data)
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img_bin = pe_data[img_bgn:img_end]
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img_tag = f'{pe_name} [0x{img_bgn:X}-0x{img_end:X}]'
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img_out = os.path.join(extract_path, f'{img_tag}.bin')
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printer(img_tag, padding + 4)
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with open(img_out, 'wb') as out_img:
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out_img.write(img_bin)
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printer('Succesfull PE Data extraction!', padding + 8)
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return bool(img_bin)
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# Parse & Extract Panasonic BIOS Package PE
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def panasonic_pkg_extract(input_path, input_buffer, output_path, padding=0):
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is_upd_res,is_upd_img = [False] * 2
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extract_path = os.path.join(f'{output_path}_extracted')
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make_dirs(extract_path, delete=True)
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pkg_pe_file = get_pe_file(input_buffer, fast=True)
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if not pkg_pe_file:
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return 2
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pkg_pe_info = get_pe_info(pkg_pe_file)
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if not pkg_pe_info:
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return 3
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pkg_pe_name = path_stem(input_path)
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printer(f'Panasonic BIOS Package > PE ({pkg_pe_name})\n', padding)
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show_pe_info(pkg_pe_info, padding + 4)
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upd_pe_path,upd_pe_file,upd_pe_info = panasonic_cab_extract(input_buffer, extract_path, padding + 4)
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if not (upd_pe_path and upd_pe_file and upd_pe_info):
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return 4
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upd_pe_name = safe_name(path_stem(upd_pe_path))
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printer(f'Panasonic BIOS Update > PE ({upd_pe_name})\n', padding + 12)
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show_pe_info(upd_pe_info, padding + 16)
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is_upd_res = panasonic_res_extract(upd_pe_name, upd_pe_file, extract_path, padding + 16)
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if not is_upd_res:
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is_upd_img = panasonic_img_extract(upd_pe_name, upd_pe_path, upd_pe_file, extract_path, padding + 16)
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os.remove(upd_pe_path)
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return 0 if is_upd_res or is_upd_img else 1
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if __name__ == '__main__':
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# Set argparse Arguments
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argparser = argparse_init()
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arguments = argparser.parse_args()
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# Initialize script (must be after argparse)
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exit_code,input_files,output_path,padding = script_init(TITLE, arguments, 4)
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for input_file in input_files:
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input_name = os.path.basename(input_file)
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printer(['***', input_name], padding - 4)
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with open(input_file, 'rb') as in_file: input_buffer = in_file.read()
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# Check if Panasonic BIOS Package pattern was found on executable
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if not is_panasonic_pkg(input_buffer):
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printer('Error: This is not a Panasonic BIOS Package executable!', padding)
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continue # Next input file
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extract_path = os.path.join(output_path, input_name)
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if panasonic_pkg_extract(input_file, input_buffer, extract_path, padding) == 0:
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exit_code -= 1
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printer('Done!', pause=True)
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sys.exit(exit_code)
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