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Microsoft Defending Democracy Program: ElectionGuard Core2

πŸ—³ ElectionGuard Core2

ElectionGuard Specification 1.1.0 Github Package Action license license

This monorepo contains the ElectionGuard 2.0+ code. The core functionality is implemented in C++ for performance and interoperability. It provides functionality for all ElectionGuard workflows including key ceremony, ballot encryption, tally, ballot decryption, and verification. It is designed to be integrated into existing (or new) voting system software. It includes a variety of interop layers to provide functionality to languages including C, .NET, and Java.

This repository is pre-release software to showcase the ElectionGuard API implemented in a native language. It is not feature complete and should not be used for production applications.

πŸ“ In This Repository

File/folder Description
.github Github workflows and issue templates
.vscode VS Code configurations
/bindings Binding interfaces for different languages
/cmake CMake dependencies`
/include Public include headers
/src ElectionGuard source code
/test Unit tests
.clang-format Style guidelines
.gitignore Define what to ignore at commit time.
CMakeLists.txt Root CMake file
CONTRIBUTING.md Guidelines for contributing to the sample.
README.md This README file.
LICENSE The license for the sample.

❓ What Is ElectionGuard?

ElectionGuard is an open source software development kit (SDK) that makes voting more secure, transparent and accessible. The ElectionGuard SDK leverages homomorphic encryption to ensure that votes recorded by electronic systems of any type remain encrypted, secure, and secret. Meanwhile, ElectionGuard also allows verifiable and accurate tallying of ballots by any 3rd party organization without compromising secrecy or security.

Learn More in the ElectionGuard Repository

🦸 How Can I use ElectionGuard?

ElectionGuard supports a variety of use cases. The Primary use case is to generate verifiable end-to-end (E2E) encrypted elections. The ElectionGuard process can also be used for other use cases such as privacy enhanced risk-limiting audits (RLAs). This implementation only includes encryption functions and cannot be used to generate election keys and it cannot decrypt tally results.

This C++ implementation also includes a C API that can be consumed from anywhere that can call C code directly. A .Net Standard package is also provided.

πŸ’» Requirements

All Platforms

  • A C++17 standard compliant compiler is required to build the core library. While any modern compiler should work, the library is tested on a subset. Check out the GitHub actions to see what is officially supported.
  • GNU Make is used to simplify the commands and GitHub Actions. This approach is recommended to simplify the command line experience. This is built in for MacOS and Linux. For Windows, setup is simpler with Chocolatey and installing the provided make package. The other Windows option is manually installing make.
  • CMake is used to simplify the build experience.

πŸ€– Android

To build for android, you need the Android SDK and platforms 21 and 26. The easiest way is to download android studio. Alternatively, you can use the SDK installation that ships with the Xamarin Tooling in Visual Studio. WE also require the use of the Android NDK. Android builds can be compiled on Linux, Mac, or Windows

🍏 iOS

To build for iOS you need XCode installed

Linux

The automated install of dependencies is currently only supported on debian-based systems. See the makefile for more information.

Web Assembly

Building for WebAssembly (wasm) is supported with the emscripten toolchain. This currently is setup for compiling on Linux and Mac only.

  • Install emscripten
  • Install Node Version Manager
  • Ensure the latest versions of both emscripten and node are activated
  • Ensure Emscripten and node are both in your path
  • run make test-wasm to build for wasm and validate the library.

πŸ–₯️ Windows (using MSVC)

Building on windows is supported using the MSVC toolchain. MSVC is the default toolchain on Windows. All of these tools should be installed as admin or in a command prompt as admin to make sure that all of the security settings are appropriate. As for the Visual Studio 2022 install, VS 2022 Community edition will work for developing ElectionGuard. You also may use Professional or Enterprise versions.

🚧 The Procedure Entry Point Could not be Located

When compiling with shared libraries, you may encounter an error running the unit tests project. This is likely due to windows resolving the incorrect implementation of libstdc++-6.dll. Solving this depends on your use case, but you can either ensure that the path modifications made above appear before any other paths which include this library (e.g. c\Windows\System32), or you can include a copy of the correct DLL in the output folder. See this StackOverflow post for more information

🌐 .NET Standard

A .NET Standard binding library is provided so that this package can be consumed from C# applications. At this time, MacOS, Linux and Windows are supported.

Build C++

Using make,

Download Dependencies

make environment

Build the Library for the current host (Release, default toolchain)

make build

Build the Library for the current host (Debug, default toolchain)

export TARGET=Debug && make build

Android

The Android Build currently Targets API Level 26 but can be configured by modifying the Makefile

Set the path to the NDK, replacing the version with your own

export NDK_PATH=/Users/$USER/Library/Android/sdk/ndk/21.3.6528147 && make build-android

iOS

The iOS build currently targets iPhone OS 12 but can be configured by modifying the Makefile

Creates a fat binary for the simulator and targets a recent version of iOS

make build-ios

Windows

Using the default MSVC 2022 toolchain (with optional platform builds):

make build
make build-arm64
make build-x86
make build-x64

Build Wrappers

.Net Standard 2.0

Wraps the build artifacts in a C# wrapper conforming to .Net Standard 2.0.

make build-netstandard

Test

Running the C++ and C tests on Windows using the MSVC toolchain

make test

Running the netstandard tests

To run the tests when building for the current host (Linux, Mac, windows:)

make build-netstandard
make test-netstandard

To run the tests when building for a mobile device, you can run the .Net Standard tests using the Xamarin Test runner on the Android Emulator or the iOS simulator:

NOTE: Xamarin build support is temporarily disabled while the project migrates to the new SDK style project format. Please refer to ISSUE #195 for more information.

make build-netstandard

Then, open Visual studio for Mac and run the ElectionGuard.Tests.Android or ElectionGuard.Tests.iOS project.

Command Line Interface

There is a command line interface in the ./apps/electionguard-cli folder. This is a tool useful for generating test data and interacting with ElectionGuard.

make build-cli
make test-cli
make verify

πŸ“„ Documentation

Contributing

This project encourages community contributions for development, testing, documentation, code review, and performance analysis, etc. For more information on how to contribute, see the contribution guidelines

Code of Conduct

This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact [email protected] with any additional questions or comments.

Reporting Issues

Please report any bugs, feature requests, or enhancements using the GitHub Issue Tracker. Please do not report any security vulnerabilities using the Issue Tracker. Instead, please report them to the Microsoft Security Response Center (MSRC) at https://msrc.microsoft.com/create-report. See the Security Documentation for more information.

Have Questions?

ElectionGuard would love for you to ask questions out in the open using GitHub Discussions.

License

This repository is licensed under the MIT License

Thanks! πŸŽ‰

A huge thank you to those who helped to contribute to this project so far, including:

Josh Benaloh (Microsoft)

Michael Naehrig (Microsoft)

Olivier Pereira (Microsoft)

RC Carter (Election Tech)

Steve Maier (InfernoRed Technology)

Keith Fung (InfernoRed Technology)

Matt Wilhelm (InfernoRed Technology)

Dan S. Wallach (Rice University)

Marina Polubelova (INRIA Paris)

Santiago Zanella-BΓ©guelin (Microsoft Research)

Jonathan Protzenko (Microsoft Research)