ADVobfuscator demonstates how to use C++11/14
language to generate, at compile time, obfuscated code without using any external tool and without modifying the compiler. The technics presented rely only on C++11/14
, as standardized by ISO. It shows also how to introduce some form of randomness to generate polymorphic code and it gives some concrete examples like the encryption of strings literals and the obfuscation of calls using finite state machines.
ADVobfuscator is delivered as a set of source file (source code library). You have to include them into your project and call the appropriate functions or macro. This is not a magic black box or some kind of code pre-processor or post-processor. It has to be integrated manually into your source code.
If you are looking for a more transparent obfuscator, look at Obfuscator-LLVM or strong.codes (commercial version of Obfuscator-LLVM). Note: I have no affiliation with Obfuscator-LLVM and strong.codes. I just know some of those swiss folks.
- Enhance the compatibility with compiler's optimizer (such as
GCC
withO3
). Previously, the code was sometimes overoptimized by the compiler and as a consequence, non-obfuscated strings remains in the binary code. This was more or less due to a bug in ADVobfuscator (I was not usingvolatile
). - Fix a stupid mistake in algorithm #2 (shift). Sometimes, the encryption key is 0.
- Clearly seperate the library code (under
Lib
) from the examples (underExamples
andDocCode
). - Check the compatibility with
C++14
. In the future, I will probably drop the support ofC++11
and keep onlyC++14
andC++17
compatibility.
Several enhancement (suppress warnings, fix some errors, enhance portability). In more details:
- Increase the warning level for Visual Studio and GCC
- Remove several (all) compilation warnings
- Replace
int
bysize_t
when it is appropriate (sizeof
,position
) - Remove unused parameters
- Keys are now of type
char
(were of typeint
, it was wrong) - Replace the non-portable
##__VA_ARGS__
by the portable__VA_ARGS__
. As a consequence, new macros (ending with0
) are defined when there are no parameters - Remove some (stupid) syntax errors (
;
at the end of some functions). C/C++ is odd: you have to put a;
when you define astruct
, but none when you define a function - A integral type is computed at compile time to store pointers to functions
ADVobfuscator code has been updated for Visual Studio 2015. ADVobfuscator is now compatible with the RTM release of Visual Studio 2015 (previous versions or CTP releases are not). The whitepaper is not yet updated. The code has also been modified in order to avoid problems with O3
optimization and GCC
. GCC
with O3
defeats obfuscation (because it optimizes too much) and sometimes generates wrong code (not clear yet if it is a bug in GCC
or in ADVobfuscator).
First you have to follow the requirements below. Then, you just have to include ADVobfuscator header files and use macros such as OBFUSCATED
to protect your strings or function calls.
Look at the examples in the Examples
folder.
- A
C++11
orC++14
compatible compiler (i.e. a compiler that is not too old) - Obfuscated strings: no other prerequisite
- Obfuscated calls and predicates: You have to install the Boost library. See below
You have to install the Boost library in order to use some features of ADVdetector (it is used by FSM). To install Boost
:
- Debian / Ubuntu:
sudo apt-get install libboost-all-dev
- Mac OS X:
brew install boost
- Windows: Download Boost and install it. Then you have to change the Visual Studio project to point to Boost
cd Examples
make
Each example is in its subdirectory.
Open ADVobfuscator.xcworkspace
and build each example.
Open ADVobfuscator.sln
. Be sure to change the path to Boost
library for each project (Properties | C/C++ | General | Additional Include Directories).
Debug builds are very special: Compiler do not have (and do not most of the time) respect statement such as inline
or constexpr
. All optimizations are also, by default, disabled. Compilers are doing this for a good reason: let you debug, single step, etc.
As a consequence, ADVobfuscator is not compatible with Debug builds. It works only for Release builds.
ADVobfuscator has been tested with:
- Xcode (LLVM) 8.1.0 under Mac OS X 10.12
- GCC 7.2.0 under Debian 10 (buster - testing)
- Visual Studio 2017 (15.3.3) under Windows 10
- Boost 1.65.0
Other compilers are probably compatible if they are C++11/14
compliant.
These are ideas for the next few months:
- Create version 5 of
MetaString
: instead of choosing one algorithm, it will combine several. This way, tools such as XOR breakers will not work. - Switch to
C++14
andC++17
. It will simplify some parts of the code andC++
is now well supported by compilers such asGCC
andCLANG
- Try to better support Visual Studio 2015, but only if it does not implies a restructuring of the code
- Introduce White Box Cryptography (AES in particular). Still in my mind but I am not very active for the moment
- Is my code compatible with ASLR? In fact, I don't konw and I have to solve this (I need it for another project)
- Apply the techniques used in
MetaString4.h
intoObfuscatedCall.h
- )ntroduce Unit Testing
Files and Folders | Description |
---|---|
README.md |
This file |
Lib |
ADVobfuscator library |
Examples |
Examples of using ADVobfuscator |
Examples/Makefile |
Make file that build all the examples |
Examples/ObfuscatedString |
Example of using ADVobfuscator to obfuscate strings |
Examples/ObfuscatedCalls |
Example of using ADVobfuscator to obfuscate function calls |
Examples/DetectDebugger |
Example of using ADVobfuscator to obfuscate function calls triggered by a predicate |
Docs |
My talks and white papers |
DocCode |
Code memtionned in the documents |
Files | Description |
---|---|
Indexes.h |
Generate list of indexes at compile time (0, 1, 2, ... N) |
MetaFSM.h |
Template to generate Finite State Machines at compile time |
MetaRandom.h |
Generate a pseudo-random number at compile time |
MetaString.h |
Obfuscated string - version 4 - Random encryption algorithm |
ObfuscatedCall.h |
Obfuscate function call |
ObfuscatedCallWithPredicate.h |
Obfuscate function call, execute a FSM based on a predicate |
ADVobfuscator.xcodeproj |
Project for Apple Xcode |
ADVobfuscator.sln |
Visual Studio 2015 Solution |
Files | Description |
---|---|
MetaFactorial.h |
Compute factorial at compile time |
MetaFibonacci.h |
Compute fibonacci sequence at compile time |
MetaString1.h |
Obfuscated string - version 1 |
MetaString2.h |
Obfuscated string - version 2 - Remove truncation |
MetaString3.h |
Obfuscated string - version 3 - Random key |
MetaString4.h |
Obfuscated string - version 4 - Random encryption algorithm |
Files | Description |
---|---|
DetectDebugger.cpp |
Debugger detection, implemented for Mac OS X and iOS. It is used by ObfuscatedCallWithPredicate (FSM) |
DetectDebugger.h |
Debugger detection, declaration |
main.cpp |
Samples |
Makefile |
Simple makefile for GCC |
ADVobfuscator.sln |
Visual Studio 2017 Solution |
ADVobfuscator.xcworkspace |
Xcode workspace |
Written by Sebastien Andrivet - Copyright © 2010-2017 Sebastien Andrivet.
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