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Added VAIO Packaging Manager Extractor v3.0_a4

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85
README.md
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@ -5,31 +5,32 @@
<a href="https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=DJDZD3PRGCSCL"><img border="0" title="BIOS Utilities Donation via Paypal or Debit/Credit Card" alt="BIOS Utilities Donation via Paypal or Debit/Credit Card" src="https://user-images.githubusercontent.com/11527726/109392268-e0f68280-7923-11eb-83d8-0a63f0d20783.png"></a>
* [**Dell PFS Update Extractor**](#dell-pfs-update-extractor)
* [**AMI UCP Update Extractor**](#ami-ucp-update-extractor)
* [**AMI BIOS Guard Extractor**](#ami-bios-guard-extractor)
* [**AMI UCP Update Extractor**](#ami-ucp-update-extractor)
* [**Dell PFS Update Extractor**](#dell-pfs-update-extractor)
* [**Phoenix TDK Packer Extractor**](#phoenix-tdk-packer-extractor)
* [**Portwell EFI Update Extractor**](#portwell-efi-update-extractor)
* [**VAIO Packaging Manager Extractor**](#vaio-packaging-manager-extractor)
## **Dell PFS Update Extractor**
## **AMI BIOS Guard Extractor**
![]()
#### **Description**
Parses Dell PFS Update images and extracts their Firmware (e.g. SPI, BIOS/UEFI, EC, ME etc) and Utilities (e.g. Flasher etc) component sections. It supports all Dell PFS revisions and formats, including those which are originally LZMA compressed in ThinOS packages, ZLIB compressed or Intel BIOS Guard (PFAT) protected. The output comprises only final firmware components which are directly usable by end users.
Parses AMI BIOS Guard (a.k.a. PFAT, Platform Firmware Armoring Technology) images, extracts their SPI/BIOS/UEFI firmware components and decompiles the Intel BIOS Guard Scripts. It supports all AMI PFAT revisions and formats, including those with Index Information tables or nested AMI PFAT structures. The output comprises only final firmware components which are directly usable by end users.
Note that the AMI PFAT structure may not have an explicit component order. AMI's BIOS Guard Firmware Update Tool (AFUBGT) updates components based on the user/OEM provided Parameters and Options or Index Information table, when applicable. That means that merging all the components together does not usually yield a proper SPI/BIOS/UEFI image. The utility does generate such a merged file with the name "00 -- \<filename\>\_ALL.bin" but it is up to the end user to determine its usefulness. Moreover, any custom OEM data after the AMI PFAT structure are additionally stored in the last file with the name "\<n+1\> -- \_OOB.bin" and it is once again up to the end user to determine its usefulness. In cases where the trailing custom OEM data include a nested AMI PFAT structure, the utility will process and extract it automatically as well.
#### **Usage**
You can either Drag & Drop or manually enter Dell PFS Update images(s). Optional arguments:
You can either Drag & Drop or manually enter AMI BIOS Guard (PFAT) image file(s). Optional arguments:
* -h or --help : show help message and exit
* -v or --version : show utility name and version
* -i or --input-dir : extract from given input directory
* -o or --output-dir : extract in given output directory
* -e or --auto-exit : skip press enter to exit prompts
* -a or --advanced : extract signatures and metadata
* -s or --structure : show PFS structure information
#### **Compatibility**
@ -37,7 +38,7 @@ Should work at all Windows, Linux or macOS operating systems which have Python 3
#### **Prerequisites**
Optionally, to decompile the Intel BIOS Guard (PFAT) Scripts, you must have the following 3rd party utility at the "external" project directory:
Optionally, to decompile the AMI PFAT \> Intel BIOS Guard Scripts, you must have the following 3rd party utility at the "external" project directory:
* [BIOS Guard Script Tool](https://github.com/platomav/BGScriptTool) (i.e. big_script_tool.py)
@ -59,7 +60,7 @@ PyInstaller can build/freeze/compile the utility at all three supported platform
4. Build/Freeze/Compile:
> pyinstaller --add-data="external/*;external/" --noupx --onefile \<path-to-project\>\/Dell_PFS_Extract.py
> pyinstaller --add-data="external/*;external/" --noupx --onefile \<path-to-project\>\/AMI_PFAT_Extract.py
You should find the final utility executable at "dist" folder
@ -137,25 +138,25 @@ Some Anti-Virus software may claim that the built/frozen/compiled executable con
![]()
## **AMI BIOS Guard Extractor**
## **Dell PFS Update Extractor**
![]()
#### **Description**
Parses AMI BIOS Guard (a.k.a. PFAT, Platform Firmware Armoring Technology) images, extracts their SPI/BIOS/UEFI firmware components and decompiles the Intel BIOS Guard Scripts. It supports all AMI PFAT revisions and formats, including those with Index Information tables or nested AMI PFAT structures. The output comprises only final firmware components which are directly usable by end users.
Note that the AMI PFAT structure may not have an explicit component order. AMI's BIOS Guard Firmware Update Tool (AFUBGT) updates components based on the user/OEM provided Parameters and Options or Index Information table, when applicable. That means that merging all the components together does not usually yield a proper SPI/BIOS/UEFI image. The utility does generate such a merged file with the name "00 -- \<filename\>\_ALL.bin" but it is up to the end user to determine its usefulness. Moreover, any custom OEM data after the AMI PFAT structure are additionally stored in the last file with the name "\<n+1\> -- \_OOB.bin" and it is once again up to the end user to determine its usefulness. In cases where the trailing custom OEM data include a nested AMI PFAT structure, the utility will process and extract it automatically as well.
Parses Dell PFS Update images and extracts their Firmware (e.g. SPI, BIOS/UEFI, EC, ME etc) and Utilities (e.g. Flasher etc) component sections. It supports all Dell PFS revisions and formats, including those which are originally LZMA compressed in ThinOS packages, ZLIB compressed or Intel BIOS Guard (PFAT) protected. The output comprises only final firmware components which are directly usable by end users.
#### **Usage**
You can either Drag & Drop or manually enter AMI BIOS Guard (PFAT) image file(s). Optional arguments:
You can either Drag & Drop or manually enter Dell PFS Update images(s). Optional arguments:
* -h or --help : show help message and exit
* -v or --version : show utility name and version
* -i or --input-dir : extract from given input directory
* -o or --output-dir : extract in given output directory
* -e or --auto-exit : skip press enter to exit prompts
* -a or --advanced : extract signatures and metadata
* -s or --structure : show PFS structure information
#### **Compatibility**
@ -163,7 +164,7 @@ Should work at all Windows, Linux or macOS operating systems which have Python 3
#### **Prerequisites**
Optionally, to decompile the AMI PFAT \> Intel BIOS Guard Scripts, you must have the following 3rd party utility at the "external" project directory:
Optionally, to decompile the Intel BIOS Guard (PFAT) Scripts, you must have the following 3rd party utility at the "external" project directory:
* [BIOS Guard Script Tool](https://github.com/platomav/BGScriptTool) (i.e. big_script_tool.py)
@ -185,7 +186,7 @@ PyInstaller can build/freeze/compile the utility at all three supported platform
4. Build/Freeze/Compile:
> pyinstaller --add-data="external/*;external/" --noupx --onefile \<path-to-project\>\/AMI_PFAT_Extract.py
> pyinstaller --add-data="external/*;external/" --noupx --onefile \<path-to-project\>\/Dell_PFS_Extract.py
You should find the final utility executable at "dist" folder
@ -323,5 +324,57 @@ Some Anti-Virus software may claim that the built/frozen/compiled executable con
![]()
## **VAIO Packaging Manager Extractor**
![]()
#### **Description**
Parses VAIO Packaging Manager executables and extracts their firmware (e.g. SPI, BIOS/UEFI, EC, ME etc), utilities (e.g. WBFLASH etc) and driver (audio, video etc) components. If direct extraction fails, it attempts to unlock the executable in order to run at all non-VAIO systems and allow the user to choose the extraction location. It supports all VAIO Packaging Manager revisions and formats, including those which contain obfuscated Microsoft CAB archives or obfuscated unlock values. The output comprises only final firmware components which are directly usable by end users.
#### **Usage**
You can either Drag & Drop or manually enter VAIO Packaging Manager executable file(s). Optional arguments:
* -h or --help : show help message and exit
* -v or --version : show utility name and version
* -i or --input-dir : extract from given input directory
* -o or --output-dir : extract in given output directory
* -e or --auto-exit : skip press enter to exit prompts
#### **Compatibility**
Should work at all Windows, Linux or macOS operating systems which have Python 3.8 support.
#### **Prerequisites**
To run the utility, you do not need any prerequisites.
#### **Build/Freeze/Compile with PyInstaller**
PyInstaller can build/freeze/compile the utility at all three supported platforms, it is simple to run and gets updated often.
1. Make sure Python 3.8.0 or newer is installed:
> python --version
2. Use pip to install PyInstaller:
> pip3 install pyinstaller
3. Build/Freeze/Compile:
> pyinstaller --noupx --onefile \<path-to-project\>\/Phoenix_TDK_Extract.py
At dist folder you should find the final utility executable
#### **Anti-Virus False Positives**
Some Anti-Virus software may claim that the built/frozen/compiled executable contains viruses. Any such detections are false positives, usually of PyInstaller. You can switch to a better Anti-Virus software, report the false positive to their support, add the executable to the exclusions, build/freeze/compile yourself or use the Python script directly.
#### **Pictures**
![]()
###### _Donate Button Card Image: [Credit and Loan Pack](https://flaticon.com/free-icon/credit-card_3898076) by **Freepik** under Flaticon license_
###### _Donate Button Paypal Image: [Credit Cards Pack](https://flaticon.com/free-icon/paypal_349278) by **Freepik** under Flaticon license_

167
VAIO_Package_Extract.py Normal file
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#!/usr/bin/env python3
#coding=utf-8
"""
VAIO Package Extractor
VAIO Packaging Manager Extractor
Copyright (C) 2019-2022 Plato Mavropoulos
"""
TITLE = 'VAIO Packaging Manager Extractor v3.0_a4'
import os
import sys
# Stop __pycache__ generation
sys.dont_write_bytecode = True
from common.comp_szip import is_szip_supported, szip_decompress
from common.path_ops import make_dirs
from common.patterns import PAT_VAIO_CFG, PAT_VAIO_CHK, PAT_VAIO_EXT, PAT_VAIO_CAB
from common.system import script_init, argparse_init, printer
from common.text_ops import file_to_bytes
# Check if input is VAIO Packaging Manager
def is_vaio_pkg(in_file):
buffer = file_to_bytes(in_file)
return bool(PAT_VAIO_CFG.search(buffer))
# Extract VAIO Packaging Manager executable
def vaio_cabinet(name, buffer, extract_path, padding=0):
match_cab = PAT_VAIO_CAB.search(buffer) # Microsoft CAB Header XOR 0xFF
if not match_cab: return 1
printer('Detected obfuscated CAB archive!', padding)
# Determine the Microsoft CAB image size
cab_size = int.from_bytes(buffer[match_cab.start() + 0x8:match_cab.start() + 0xC], 'little') # Get LE XOR-ed CAB size
xor_size = int.from_bytes(b'\xFF' * 0x4, 'little') # Create CAB size XOR value
cab_size ^= xor_size # Perform XOR 0xFF and get actual CAB size
printer('Removing obfuscation...', padding + 4)
# Determine the Microsoft CAB image Data
cab_data = int.from_bytes(buffer[match_cab.start():match_cab.start() + cab_size], 'big') # Get BE XOR-ed CAB data
xor_data = int.from_bytes(b'\xFF' * cab_size, 'big') # Create CAB data XOR value
cab_data = (cab_data ^ xor_data).to_bytes(cab_size, 'big') # Perform XOR 0xFF and get actual CAB data
printer('Extracting archive...', padding + 4)
cab_path = os.path.join(extract_path, f'{name}_Temporary.cab')
with open(cab_path, 'wb') as cab_file: cab_file.write(cab_data) # Create temporary CAB archive
if is_szip_supported(cab_path, padding + 4):
if szip_decompress(cab_path, extract_path, 'CAB', padding + 8) == 0:
os.remove(cab_path) # Successful extraction, delete temporary CAB archive
else:
return 3
else:
return 2
return 0
# Unlock VAIO Packaging Manager executable
def vaio_unlock(name, buffer, extract_path, padding=0):
match_cfg = PAT_VAIO_CFG.search(buffer)
if not match_cfg: return 1
printer('Attempting to Unlock executable!', padding)
# Initialize VAIO Package Configuration file variables (assume overkill size of 0x500)
cfg_bgn,cfg_end,cfg_false,cfg_true = [match_cfg.start(), match_cfg.start() + 0x500, b'', b'']
# Get VAIO Package Configuration file info, split at new_line and stop at payload DOS header (EOF)
cfg_info = buffer[cfg_bgn:cfg_end].split(b'\x0D\x0A\x4D\x5A')[0].replace(b'\x0D',b'').split(b'\x0A')
printer('Retrieving True/False values...', padding + 4)
# Determine VAIO Package Configuration file True & False values
for info in cfg_info:
if info.startswith(b'ExtractPathByUser='):
cfg_false = bytearray(b'0' if info[18:] in (b'0',b'1') else info[18:]) # Should be 0/No/False
if info.startswith(b'UseCompression='):
cfg_true = bytearray(b'1' if info[15:] in (b'0',b'1') else info[15:]) # Should be 1/Yes/True
# Check if valid True/False values have been retrieved
if cfg_false == cfg_true or not cfg_false or not cfg_true:
printer('Error: Could not retrieve True/False values!', padding + 8)
return 2
printer('Adjusting UseVAIOCheck entry...', padding + 4)
# Find and replace UseVAIOCheck entry from 1/Yes/True to 0/No/False
vaio_check = PAT_VAIO_CHK.search(buffer[cfg_bgn:])
if vaio_check:
buffer[cfg_bgn + vaio_check.end():cfg_bgn + vaio_check.end() + len(cfg_true)] = cfg_false
else:
printer('Error: Could not find entry UseVAIOCheck!', padding + 8)
return 3
printer('Adjusting ExtractPathByUser entry...', padding + 4)
# Find and replace ExtractPathByUser entry from 0/No/False to 1/Yes/True
user_path = PAT_VAIO_EXT.search(buffer[cfg_bgn:])
if user_path:
buffer[cfg_bgn + user_path.end():cfg_bgn + user_path.end() + len(cfg_false)] = cfg_true
else:
printer('Error: Could not find entry ExtractPathByUser!', padding + 8)
return 4
printer('Storing unlocked executable...', padding + 4)
# Store Unlocked VAIO Packaging Manager executable
if vaio_check and user_path:
unlock_path = os.path.join(extract_path, f'{name}_Unlocked.exe')
with open(unlock_path, 'wb') as unl_file: unl_file.write(buffer)
return 0
# Parse & Extract or Unlock VAIO Packaging Manager
def vaio_pkg_extract(name, buffer, output_path, padding=0):
extract_path = os.path.join(f'{output_path}_extracted')
make_dirs(extract_path, delete=True)
if vaio_cabinet(name, buffer, extract_path, padding) == 0:
printer('Successfully Extracted!', padding)
elif vaio_unlock(name, bytearray(buffer), extract_path, padding) == 0:
printer('Successfully Unlocked!', padding)
else:
printer('Error: Failed to Extract or Unlock executable!', padding)
return 1
return 0
if __name__ == '__main__':
# Set argparse Arguments
argparser = argparse_init()
arguments = argparser.parse_args()
# Initialize script (must be after argparse)
exit_code,input_files,output_path,padding = script_init(TITLE, arguments, 4)
for input_file in input_files:
input_name = os.path.basename(input_file)
printer(['***', input_name], padding - 4)
with open(input_file, 'rb') as in_file: input_buffer = in_file.read()
# Check if VAIO Packaging Manager pattern was found on executable
if not is_vaio_pkg(input_buffer):
printer('Error: This is not a VAIO Packaging Manager executable!', padding)
continue # Next input file
extract_path = os.path.join(output_path, input_name)
if vaio_pkg_extract(input_name, input_buffer, extract_path, padding) == 0:
exit_code -= 1
printer('Done!', pause=True)
sys.exit(exit_code)

2
common/patterns.py
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@ -13,11 +13,11 @@ PAT_DELL_FTR = re.compile(br'\xEE\xAA\xEE\x8F\x49\x1B\xE8\xAE\x14\x37\x90')
PAT_DELL_HDR = re.compile(br'\xEE\xAA\x76\x1B\xEC\xBB\x20\xF1\xE6\x51.\x78\x9C', re.DOTALL)
PAT_DELL_PKG = re.compile(br'\x72\x13\x55\x00.{45}7zXZ', re.DOTALL)
PAT_INTEL_ENG = re.compile(br'\x04\x00{3}[\xA1\xE1]\x00{3}.{8}\x86\x80.{9}\x00\$((MN2)|(MAN))', re.DOTALL)
PAT_MICROSOFT_CAB_FF = re.compile(br'\xB2\xAC\xBC\xB9\xFF{4}.{4}\xFF{4}.{4}\xFF{4}\xFC\xFE', re.DOTALL)
PAT_MICROSOFT_MZ = re.compile(br'MZ')
PAT_MICROSOFT_PE = re.compile(br'PE\x00{2}')
PAT_PHOENIX_TDK = re.compile(br'\$PACK\x00{3}..\x00{2}.\x00{3}', re.DOTALL)
PAT_PORTWELL_EFI = re.compile(br'<U{2}>')
PAT_VAIO_CAB = re.compile(br'\xB2\xAC\xBC\xB9\xFF{4}.{4}\xFF{4}.{4}\xFF{4}\xFC\xFE', re.DOTALL)
PAT_VAIO_CFG = re.compile(br'\[Setting]\x0D\x0A')
PAT_VAIO_CHK = re.compile(br'\x0AUseVAIOCheck=')
PAT_VAIO_EXT = re.compile(br'\x0AExtractPathByUser=')