The Memory Process File System is an easy and convenient way of accessing physical memory as files a virtual file system.
Easy trivial point and click memory analysis without the need for complicated commandline arguments! Access memory content and artifacts via files in a mounted virtual file system or via a feature rich application library to include in your own projects!
Analyze memory dump files, live memory via DumpIt or WinPMEM, live memory in read-write mode via linked PCILeech and PCILeech-FPGA devices!
It's even possible to connect to a remote LeechAgent memory acquisition agent over a secured connection - allowing for remote live memory incident response - even over higher latency low band-width connections!
Use your favorite tools to analyze memory - use your favorite hex editors, your python and powershell scripts, WinDbg or your favorite disassemblers and debuggers - all will work trivally with the Memory Process File System by just reading and writing files!
Please check out the project wiki for more in-depth detailed information about the file system itself, its API and its plugin modules!
Please check out the LeechCore project for information about supported memory acquisition methods and remote memory access via the LeechService.
Fast and easy memory analysis via mounted file system:
No matter if you have no prior knowledge of memory analysis or are an advanced user the Memory Process File System (and the API) may be useful! Click around the memory objects in the file system
Everything in the Memory Process File System is exposed as APIs. APIs exist for both C/C++
vmmpy.py. The file system itself is made available virtually via the API without the need to mount it. Specialized process analysis and process alteration functionality is made easy by calling API functionality. It is possible to read both virtual process memory as well as physical memory! The example below shows reading 0x20 bytes from physical address 0x1000:
>>> from vmmpy import *
>>> print(VmmPy_UtilFillHexAscii(VmmPy_MemRead(-1, 0x1000, 0x20)))
0000 e9 4d 06 00 01 00 00 00 01 00 00 00 3f 00 18 10 .M..........?...
0010 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Modular Plugin Architecture:
Anyone is able to extend the Memory Process File System with custom plugins! It is as easy as dropping a python file in the correct directory or compiling a tiny C DLL. Existing functionality is already implemented as well documented C and Python plugins!
Download or clone the Memory Process File System github repository. Pre-built binaries are found in the files folder. If the Memory Process File System is used as an API it is only dependant on the Microsoft Visual C++ Redistributables for Visual Studio 2017 (see below).
The Memory Process File System is dependant on the LeechCore project for memory acquisition. The necessary leechcore.dll file is already pre-built and included in the files folder.
The Memory Process File System is also dependant in the Microsoft Visual C++ Redistributables for Visual Studio 2017. They can be downloaded from Microsoft here. Alternatively, if installing the Dokany file system driver please install the DokanSetup_redist version and it will install the required redistributables.
Mounting the file system requires the Dokany file system library to be installed. Please download and install the latest version of Dokany at: https://github.com/dokan-dev/dokany/releases/latest It is recommended to download and install the DokanSetup_redist version.
Python support requires Python 3.6 or later. The user may specify the path to the Python installation with the command line parameter
-pythonhome, alternatively download Python 3.7 - Windows x86-64 embeddable zip file and unzip its contents into the
files/pythonfolder when using Python modules in the file system. To use the Python API a normal 64-bit Python 3.6 or later installation for Windows is required.
To capture live memory (without PCILeech FPGA hardware) download DumpIt and start the Memory Process File System via the DumpIt /LIVEKD mode. Alternatively, get WinPMEM by downloading the most recent signed WinPMEM driver and place it alongside MemProcFS - detailed instructions in the LeechCore Wiki.
PCILeech FPGA will require hardware as well as FTD3XX.dll to be dropped in the files folder. Please check out the LeechCore project for instructions.
The memory process file system is not yet supported on Linux.
Start the Memory Process File System from the command line - possibly by using one of the examples below.
Or register the memory dump file extension with MemProcFS.exe so that the file system is automatically mounted when double-clicking on a memory dump file!
- mount the memory dump file as default M:
memprocfs.exe -device c:\temp\win10x64-dump.raw
- mount the memory dump file as default M: with extra verbosity:
memprocfs.exe -device c:\temp\win10x64-dump.raw -v
- mount the memory dump file as default M: with extra extra verbosity:
memprocfs.exe -device c:\temp\win10x64-dump.raw -v -vv
- mount the memory dump file as S:
memprocfs.exe -mount s -device c:\temp\win10x64-dump.raw
- mount live target memory, in verbose read-only mode, with DumpIt in /LIVEKD mode:
DumpIt.exe /LIVEKD /A memprocfs.exe /C "-v"
- mount live target memory, in read-only mode, with WinPMEM driver:
memprocfs.exe -device pmem
- mount live target memory, in read/write mode, with PCILeech FPGA memory acquisition device:
memprocfs.exe -device fpga
- mount live target memory, in read/write mode, with TotalMeltdown vulnerability acquisition device:
memprocfs.exe -device totalmeltdown
- mount an arbitrary x64 memory dump by specifying the process or kernel page table base in the cr3 option:
memprocfs.exe -device c:\temp\unknown-x64-dump.raw -cr3 0x1aa000
For additional documentation please check out the project wiki for in-depth detailed information about the file system itself, its API and its plugin modules! For additional information about memory acqusition methods check out the LeechCore project
Also check out my Microsoft BlueHatIL 2019 talk Practical Uses for Hardware-assisted Memory Visualization about MemProcFS at Youtube below:
Pre-built binaries and other supporting files are found in the files folder. The Memory Process File System binaries are built with Visual Studio. No binaries currently exists for Linux (future support - please see Current Limitations & Future Development below).
Detailed build instructions may be found in the Wiki in the Building section.
Current Limitations & Future Development:
The Memory Process File System is currently limited to analyzing Windows (32-bit and 64-bit XP to 10) memory dumps (other x64 dumps in a very limited way). Also, the Memory Process File System currently does not run on Linux.
Please find some ideas for possible future expansions of the memory process file system listed below. This is a list of ideas - not a list of features that will be implemented. Even though some items are put as prioritized there is no guarantee that they will be implemented in a timely fashion.
- More/new plugins.
- PFN support.
- Support for analyzing x64 Linux, macOS and UEFI memory dumps.
- Hash lookup of executable memory pages in DB.
- Blog: http://blog.frizk.net
- Twitter: https://twitter.com/UlfFrisk
- PCILeech: https://github.com/ufrisk/pcileech/
- LeechCore: https://github.com/ufrisk/LeechCore/
- YouTube: https://www.youtube.com/channel/UC2aAi-gjqvKiC7s7Opzv9rg
- Initial Release.
- Various updates. please see individual relases for more information.
- Major new release with multiple changes. Most noteworty are:
- Multi-Threading support.
- Performance optimizations.
- Memory acqusition via the LeechCore library with additional support for:
- Live memory acquisition with DumpIt in /LIVEKD mode or loaded kernel driver.
- Support for Microsoft Crash Dumps - such as created by default by Comae DumpIt.
- Hyper-V save files.
- Remote capture via remotely installed LeechService.
- New APIs:
- IAT/EAT hook functionality.
- Limited Windows 10 MemCompression support.
- Bug fixes.
- New API:
- Force refresh of process list and caches.
- Project upgrade to Visual Studio 2019.
- Bug fixes.
- Additional plugins for download available from MemProcFS-plugins.
- Python plugin updater - easy installs and updates from MemProcFS-plugins.
- Pypykatz plugin for 'mimikatz' style functionality available as separate download from MemProcFS-plugins project. Thanks to @SkelSec for the contribution.
- Python API support for version >3.6 (i.e Python 3.7 now fully supported).
- Bug fixes.
- New module: PEDump - best-effort reconstructed PE modules (.exe, .dll and .sys files) in process pedump sub-folder.
- Performance optimizations.
- Windows transition page support.
- New module: Registry - best-effort reconstructed registry hives in the registry/hive_files/ sub-folder.
- Additional performance optimizations.
- Support for process long names (previously capped to 15 chars), image path and command line.
- New module: SysInfo - system information including OS version number and process tree with command line.
- Bug fixes and optimizations.
- Network support: TCP connections added to SysInfo module.
- New module: Phys2Virt - search individual or all process address spaces for virtual addresses that map to specific physical address.
- Bug fixes.
- Windows 10 Compressed Memory support.
- Bug fixes and major internal refactorings.
- Full Registry support - Explore the Windows registry in the file system or via the API.
- NB! The v2.9 C/C++ API vfs (virtual file system) API is incompatible with earlier versions.
- Dump file support - create a WinDbg compatible
memory.dmpfile in the root folder.
- Early .pdb debugging subsystem with Microsoft symbol server integration.
- Process create/terminate timestamps on process directories.