Dna

Dna is a static binary analysis framework built on top of LLVM. Notably it's written almost entirely in C#, including managed bindings for LLVM, Remill, and Souper.

Functionality

Dna implements an iterative control flow graph reconstruction inspired heavily by the SATURN paper. It iteratively applies recursive descent, lifting (using remill), and path solving until the complete control flow graph is recovered. In the case of jump tables, we use a recursive algorithm based on Souper and z3 to solve the set of possible jump table targets. You can find the iterative exploration algorithm here, and the jump table solving algorithm here.

Once a control flow graph has been fully explored, it can then be recompiled to x86 and reinserted into the binary using the algorithms from here and here. Though the compiled code is not pretty by any means, it should run so long as the recovered control flow graph is correct. That being said, it is still a research prototype - bugs and edge cases are expected. Control flow graph exploration may fail in the case of e.g. unbounded jump tables or unliftable instructions.

Some other notable features:

Some caveats:

Dependencies

Note that Dna is currently based on LLVM 17.

VMProtect

Dna contains a VMProtect devirtualization plugin located in Dna.BinaryTranslator/VMProtect. See this PR for more info.

Building

Dna currently targets LLVM 17 and is expected to be built on Windows x64 with Visual Studio 2022. Build Dna.LLVMInterop in Release mode; the native dependency tree is Release-built and Debug interop builds are not supported.

Prerequisites

Run the commands below from a VS x64 developer shell, or another shell with the VS C++ tools on PATH.

1. Build native dependencies

The dependency superbuild installs LLVM 17, Remill, Z3, XED, gflags/glog, and related native libraries into Dna.LLVMInterop/dependencies/install.

cmake -S Dna.LLVMInterop/dependencies `
      -B Dna.LLVMInterop/dependencies/build `
      -G Ninja `
      -DCMAKE_BUILD_TYPE=Release `
      -DCMAKE_C_COMPILER=clang-cl `
      -DCMAKE_CXX_COMPILER=clang-cl

cmake --build Dna.LLVMInterop/dependencies/build

If changing compiler, build type, or CRT settings, delete both Dna.LLVMInterop/dependencies/build and Dna.LLVMInterop/dependencies/install before reconfiguring.

2. Build the Rust simplifier DLL

Dna.Example and the simplifier projects copy eq_sat.dll from the Cargo release output.

cargo build --manifest-path Simplifier/EqSat/Cargo.toml --release

3. Build the solution

& "C:\Program Files\Microsoft Visual Studio\2022\Community\MSBuild\Current\Bin\MSBuild.exe" `
  Dna.sln `
  /restore `
  /p:Configuration=Release `
  /p:Platform=x64 `
  /m