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Quickly find differences and similarities in disassembled code

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BinDiff Logo

Copyright 2011-2024 Google LLC.

BinDiff

This repository contains the BinDiff source code. BinDiff is an open-source comparison tool for binary files to quickly find differences and similarities in disassembled code.

Table of Contents

About BinDiff

BinDiff is an open-source comparison tool for binary files, that assists vulnerability researchers and engineers to quickly find differences and similarities in disassembled code.

With BinDiff, researchers can identify and isolate fixes for vulnerabilities in vendor-supplied patches. It can also be used to port symbols and comments between disassemblies of multiple versions of the same binary. This makes tracking changes over time easier and allows organizations to retain analysis results and enables knowledge transfer among binary analysts.

Use Cases

  • Compare binary files for x86, MIPS, ARM, PowerPC, and other architectures supported by popular disassemblers.
  • Identify identical and similar functions in different binaries
  • Port function names, comments and local names from one disassembly to the other
  • Detect and highlight changes between two variants of the same function

Quickstart

If you want to just get started using BinDiff, download prebuilt installation packages from the releases page.

Note: BinDiff relies on a separate disassembler. Out of the box, it ships with support for IDA Pro, Binary Ninja and Ghidra. The disassemblers page lists the supported configurations.

Documentation

A subset of the existing manual is available in the docs/ directory.

Codemap

BinDiff contains the following components:

  • cmake - CMake build files declaring external dependencies
  • fixtures - A collection of test files to exercise the BinDiff core engine
  • ida - Integration with the IDA Pro disassembler
  • java - Java source code. This contains the the BinDiff visual diff user interface and its corresponding utility library.
  • match - Matching algorithms for the BinDiff core engine
  • packaging - Package sources for the installation packages
  • tools - Helper executables that are shipped with the product

Building from Source

The instruction below should be enough to build both the native code and the Java based components.

More detailed build instructions will be added at a later date. This includes ready-made Dockerfiles and scripts for building the installation packages.

Native code

BinDiff uses CMake to generate its build files for those components that consist of native C++ code.

The following build dependencies are required:

  • BinExport 12, the companion plugin to BinDiff that also contains a lot of shared code
  • Boost 1.83.0 or higher (a partial copy of 1.83.0 ships with BinExport and will be used automatically)
  • CMake 3.14 or higher
  • Ninja for speedy builds
  • GCC 9 or a recent version of Clang on Linux/macOS. On Windows, use the Visual Studio 2019 compiler and the Windows SDK for Windows 10.
  • Git 1.8 or higher
  • Dependencies that will be downloaded:
    • Abseil, GoogleTest, Protocol Buffers (3.14), and SQLite3
    • Binary Ninja SDK

The following build dependencies are optional:

  • IDA Pro only: IDA SDK 8.2 or higher (unpack into deps/idasdk)

The general build steps are the same on Windows, Linux and macOS. The following shows the commands for Linux.

Download dependencies that won't be downloaded automatically:

mkdir -p build/out
git clone https://github.com/google/binexport build/binexport
unzip -q <path/to/idasdk_pro80.zip> -d build/idasdk

Next, configure the build directory and generate build files:

cmake -S . -B build/out -G Ninja \
  -DCMAKE_BUILD_TYPE=Release \
  -DCMAKE_INSTALL_PREFIX=build/out \
  -DBINDIFF_BINEXPORT_DIR=build/binexport \
  "-DIdaSdk_ROOT_DIR=${PWD}build/idasdk"

Finally, invoke the actual build. Binaries will be placed in build/out/bindiff-prefix:

cmake --build build/out --config Release
(cd build/out; ctest --build-config Release --output-on-failure)
cmake --install build/out --config Release

Building without IDA

To build without IDA, simply change the above configuration step to

cmake -S . -B build/out -G Ninja \
  -DCMAKE_BUILD_TYPE=Release \
  -DCMAKE_INSTALL_PREFIX=build/out \
  -DBINDIFF_BINEXPORT_DIR=build/binexport \
  -DBINEXPORT_ENABLE_IDAPRO=OFF

Java GUI and yFiles

Building the Java based GUI requires the commercial third-party graph visualisation library yFiles for graph display and layout. This library is immensely powerful, and not easily replaceable.

To build, BinDiff uses Gradle 6.x and Java 11 LTS. Refer to its installation guide for instructions on how to install.

Assuming you are a yFiles license holder, set the YFILES_DIR environment variable to a directory containing the yFiles y.jar and ysvg.jar.

Note: BinDiff still uses the older 2.x branch of yFiles.

Then invoke Gradle to download external dependencies and build:

Windows:

set YFILES_DIR=<path\to\yfiles_2.17>
cd java
gradle shadowJar

Linux or macOS:

export YFILES_DIR=<path/to/yfiles_2.17>
cd java
gradle shadowJar

Afterwards the directory ui/build/libs in the java sub-directory should contain the self-contained bindiff-ui-all.jar artifact, which can be run using the standard java -jar command.

Further reading / Similar tools

The original papers outlining the general ideas behind BinDiff:

  • Thomas Dullien and Rolf Rolles. Graph-Based Comparison of Executable Objects. bindiffsstic05-1.pdf. SSTIC ’05, Symposium sur la Sécurité des Technologies de l’Information et des Communications. 2005.
  • Halvar Flake. Structural Comparison of Executable Objects. dimva_paper2.pdf. pp 161-173. Detection of Intrusions and Malware & Vulnerability Assessment. 2004.3-88579-375-X.

Other tools in the same problem space:

  • Diaphora, an advanced program diffing tool implementing many of the same ideas.
  • TurboDiff, a now-defunct program diffing plugin for IDA Pro.

Projects using BinDiff:

  • VxSig, a tool to automatically generate AV byte signatures from sets of similar binaries.

License

BinDiff is licensed under the terms of the Apache license. See LICENSE for more information.

Getting Involved

If you want to contribute, please read CONTRIBUTING.md before sending pull requests. You can also report bugs or file feature requests.

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