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Description

1nsanity is a LLVM pass that obfuscates against symbolic execution. It includes mathematical obfuscation, bogus control flow injection, and tacks on additional complexity to switch cases and branch instructions. It also includes infinite loop traps along with the use of the Collatz Conjecture as an opaque predicate. Included are challenges solved with both Angr and Manticore along with solve times both before and after obfuscation. A variety of test cases were used ranging from basic ctf challenges to a simple unix shell.

Example

Simple C program

int main(){
  int f = 986;
  while (f != 1){
      printf("%d\n", f);
      if ((f & 1) == 1){
          f *= 3;
          f += 1;
       }
       else{
          f /= 2;
       }
    }
  return f;
}

Before Obfuscation

Binary Size: 8.0K

CFG in function main:

main cfg

After Obfuscation:

Obfuscated Binary Size: 8.0K

CFG in function main:

main cfg

Solve Times with Manticore:

Size: 12K
=====NORMAL=====
real	0m43.738s 
user	0m43.274s
sys	0m0.977s
=====NORMAL===== 
Size: 16K: 
===OBFUSCATED===== 
real	16m42.648s 
user	16m34.412s
sys	0m22.461s
===OBFUSCATED===== 

Solve Times with Angr:

Size: 12K
-----NORMAL------
real	1m17.714s 
user	1m3.453s 
sys	0m14.607s
-----NORMAL-------
Size: 20K: 
----OBFUSCATED---- 
real   10m34.944s 
user    10m17.969s
sys 0m17.233s
----OBFUSCATED----

Further Work

The end goal of 1nsanity would be to cause state explosion in all symbolic execution engines. An idea I want to implement is detecting symbolic buffers, and looping over each byte and seeing if it satisfies some predicate, I know this is a bit vague, but I have some ideas as to how to accomplish this with the LLVM API. Currently 1nsanity outputs 32 bit executables. 64 bit executables may be outputted, but I need to fix the way I am detecting integer types in the LLVM Pass.