Post on 14-Jun-2015
description
Pwnstaller 1.0
Will@harmj0y
Veris GroupAdaptive Threat Division
$ whoami Security researcher and penetration tester/red
teamer for Veris Group’s Adaptive Threat Division
Co-founder of the Veil-Framework #avlol www.veil-framework.com Shmoocon ‘14: AV Evasion with the Veil
Framework co-wrote Veil-Evasion, wrote Veil-Catapult and Veil-
PowerView
BSides ATX ‘14: Wielding a Cortana Defcon ‘14 (accepted): Post-Exploitation 2.0
tl;dr Why we use Pyinstaller
DEP, Pyinstaller, and a weird Veil-Evasion bug
How Pyinstaller works
Pwnstaller v1.0
Questions
Caveat This is a proof of concept based off of an idea
Going to detail through the problem that prompted thinking about this, and walk through the thought process that led to the PoC solution
Probably a better way to do this, but seemed like an interesting concept and wanted to get the idea out there
Pyinstaller 101 Pyinstaller is “a program that converts
(packages) Python programs into stand-alone executables”
http://www.pyinstaller.org/
Packages Python scripts into OSX, Linux, or Windows self-extracting executables
Lets developers distribute projects without relying on an existing Python installation
Pyinstaller Repurposed Pentesters realized a few years ago that we could
use it to package malicious scripts
advantageous, as legitimate projects use Pyinstaller www.pyinstaller.org/wiki/ProjectsUsingPyInstaller
Dave Kennedy’s “PyInjector” was released in 2012 based on Debasish Mandal’s original post:
https://www.trustedsec.com/august-2012/new-tool-pyinjector-released-python-shellcode-injection/
http://www.debasish.in/2012_04_01_archive.html
Pyinstaller in Veil-Evasion
Veil-Evasion sets up Pyinstaller under Wine so Python payloads can be compliled natively to Windows .exe’s
Generation is transparent to the user
Allows for the dynamic generation of Windows Python payloads, all on Kali! We always want to preserve a single attack
platform
Veil Payloads and DEP Void pointer casting for shellcode injection may
fail, as the memory location used is not explicitly marked X
(*(void(*)()) shellcode)();
Most systems tend to default to an opt-in DEP enforcement policy
if the executable you're running opts-in, void pointer casting will fail with a memory access violation
A Weird Veil Bug Python void pointer payloads worked as .py files,
but failed as Pyinstaller executables The python.exe interpreter used by Pyinstaller is
not DEP enabled, but the resulting Pyinstaller payloads do in fact opt in to this protection
see http://www.veil-evasion.com/dep-pyinstaller/
How Pyinstaller Works Pyinstaller uses the CArchive data structure to
package up the main python .dll, any necessary libraries, and your target script
Basically like a compressed ZIP container
This CArchive is attached to then end of a “launcher” executable
We use the runw.exe version so we can hide the window, making execution transparent to the user
Pyinstaller .exe’s
http://www.pyinstaller.org/export/develop/project/doc/Manual.html#two-pass-execution
How Pyinstaller Works On execution, the launcher executable:
Decompresses the CArchive to a temporary location
Loads the python15.dll using LoadLibraryExA Maps all the entry points in the python .dll for
necessary methods Sets up env stuff and starts the Python process Imports all specified necessary modules Runs the extracted script using PyRun_SimpleString
How Pyinstaller Works: English
When the Pyinstaller produced executable is run, a minimal Python environment is extracted from a compressed attachment
Components necessary for the environment are registered and set up
The script attached is run
Lets you run Python scripts without Python being installed on a target machine!
Solving The Veil Bug So the DEP opt-in policy is determined by the
launcher .exe, not the Python interpreter
Our next step was to generate a Pyinstaller launcher that didn’t opt-in to DEP
Luckily Pyinstaller is open source
https://www.veil-framework.com/dep-pyinstaller/
Solving The Veil Bug Pyinstaller holds precompiled copies of 32-bit and
64-bit loaders for Linux, OSX and Windows in pyinstaller/support/loader/*
The sources for the loaders are included in pyinstaller/source/*
runw.exe is the loader we want to regenerate used for “windowed” executables
DEP
Turning Off DEP The binaries utilize the WAF build system to build
the loaders
./pyinstaller/source/wscript
add conf.env.append_value('LINKFLAGS', '/NXCOMPAT:NO') right after the other flags on lines 209 and 211
This will instruct the Visual Studio linker to turn off DEP compatibility
Problem?
Sweet, we have a shiny new launcher.exe
But our project is focused on evading AV
Including a static, custom-compiled launcher executable is a GREAT way to say “Hey vendors, check out this Veil-Evasion payload! Signatures lolz”
Solution Besides running Pyinstaller itself natively on Kali,
we can dynamically recompile the Pyinstaller launcher on using mingw!
This makes it trivial to makes some small changes and get a different SHA1 signature each time
Why don’t we make it *a little* harder to flag on?
Obfuscation: Phase 1 There are only a handful of source files needed to
recompile runw.exe
utils.c - some helper methods (246 lines) launch.c - “where the magic happens” (1617 lines) main.c - invokes launch.c (165 lines) ./zlib/* - extract of zlib v1.2.3
Lets start with some basic obfuscation
Obfuscation: Phase 1 The initial goal: make ssdeep as useless as
possible against “families” of our generated launcher
Any unnecessary code was stripped out (i.e. code for OSX and Linux binaries)
Thought process: randomize/shuffle wherever we can
A selection of random libraries imports thrown in
Obfuscation: Phase 2 Let’s go just a bit further and have a some fun
with anything doing basic dynamic analysis
How about interspersing lots of nested processing methods throughout the code
similar to our c/meterpreter/* payloads
This mucks up the call tree of the program without altering the actual execution
Finishing Touches The Pyinstaller icon is kind
of recognizable
How about some randomized .ico’s instead?
Putting It All Together The end result, every time the generator runs:
obfuscated code for all* source files associated with the Pyinstaller launcher are generated
a randomized icon is chosen for the final packaged result
mingw32 is used to compile everything into a new runw.exe, all on Kali
the new runw.exe is copied into the correct resource location to be used by Pyinstaller
*except some known zlib libraries
ssdeep comparison ssdeep is a ‘fuzzy hashing’ static malware comparison
tool, allowing for the comparison of malware families
Generated a run of 1000 runw.exe loaders (1000 choose 2) = 499500 possible comparison
combinations
367,073 pairings (74%) scored 30/100 or better 228,961 pairings (46%) scored 50/100 or better 34,420 pairings (7%) scored 70/100 or better 0 pairings scored at 90/100 or better
What this means: none of the loader pairings scored as a closely ‘similar’ malware family
ssdeep comparison
20 30 40 50 60 70 80 90 1000
5000
10000
15000
20000
25000
30000
35000
40000
45000
ssdeep matches
match %
occu
ran
ces
In Plain English Each generated Pyinstaller loader is reasonably
unique from a basic static malware analysis perspective
Competent reversers will be able to figure out what’s going on in very little time
But hopefully this is relatively resistant against static signatures I’m sure there are better obfuscation methods, so
go implement them!
Pwnstaller v1.0 http://www.harmj0y.net/blog/python/pwnstaller-1-
0/
The code is up on github: https://github.com/HarmJ0y/Pwnstaller
And it’s been integrated into Veil-Evasion
In the development branch now, hitting the master branch on the 5/15/2014 V-Day
All Python payloads can now utilize a dynamically generated Pwnstaller loader by choosing “2 - Pwnstaller” from the Python compilation menu
Pwnstaller in Veil-Evasion
Recap Pyinstaller is some cool stuff
Pwnstaller will hopefully extend the lifetime of Veil-Evasion Python payloads by making static signatures reasonably difficult to write
“This is script-kiddie garbage that will harm users of Pyinstaller when AVs flag it without benefiting anyone who matters. Hope you get booed off at Bsides.” – The Internet
Shameless Sidebar Want to research cool stuff like this? Want to work with 9 x OSCPs and 4 x OSCEs? Want to do some sweet red teaming? Hit me up to join the Adaptive Threat Division
Questions? Contact me:
@harmj0y will@harmj0y.net
Read more: http://www.harmj0y.net/blog/python/pwnstaller-1-0/
Get Pwnstaller: https://github.com/HarmJ0y/Pwnstaller Now in Veil-Evasion!