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A fast, portable, and easy to use Oblivious Transfer Library

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A fast and portable C++14 library for Oblivious Transfer extension (OTe). The primary design goal of this library to obtain high performance while being easy to use. This library currently implements:

  • The semi-honest 1-out-of-2 OT [IKNP03].
  • The semi-honest 1-out-of-2 Silent OT [BCGIKRS19].
  • The semi-honest 1-out-of-2 Delta-OT [IKNP03],[BLNNOOSS15].
  • The semi-honest 1-out-of-2 OT [Roy22].
  • The semi-honest 1-out-of-N OT [KKRT16].
  • The malicious secure 1-out-of-2 Silent+Silver [CRR21].
  • The malicious secure 1-out-of-2 OT [KOS15].
  • The malicious secure 1-out-of-2 Delta-OT [KOS15],[BLNNOOSS15].
  • The malicious 1-out-of-2 OT [Roy22].
  • The malicious secure 1-out-of-N OT [OOS16].
  • The malicious secure approximate K-out-of-N OT [RR16].
  • The malicious secure 1-out-of-2 base OT [NP01].
  • The malicious secure 1-out-of-2 base OT [CO15] (Faster Linux ASM version disabled by default).
  • The malicious secure 1-out-of-2 base OT [MR19]
  • Several malicious secure batched 1-out-of-2 base OTs from [MRR21]

Introduction

This library provides several different classes of OT protocols. First is the base OT protocol of [CO15, MR19, MRR21]. These protocol bootstraps all the other OT extension protocols. Within the OT extension protocols, we have 1-out-of-2, 1-out-of-N and K-out-of-N, both in the semi-honest and malicious settings. See The frontend or libOTe_Tests folder for examples.

All implementations are highly optimized using fast SSE instructions and vectorization to obtain optimal performance both in the single and multi-threaded setting. See the Performance section for a comparison between protocols and to other libraries.

Networking can be performed using both the sockets provided by the library and external socket classes. See the coproto tutorial for an example.

Build

The library is cross platform and has been tested on Windows, Mac and Linux. There is one mandatory dependency on coproto (networking), and three optional dependencies on libsodium, Relic, or SimplestOT (Unix only) for Base OTs. CMake 3.15+ is required and the build script assumes python 3.

The library can be built as

git clone --recursive https://github.com/osu-crypto/libOTe.git
cd libOTe
python build.py --relic

The main executable with examples is frontend and is located in the build directory, eg out/build/linux/frontend/frontend.exe, out/build/x64-Release/frontend/Release/frontend.exe depending on the OS.

Build Options

LibOTe can be built with various only the selected protocols enabled. -D ENABLE_ALL_OT=ON will enable all available protocols depending on platform/dependancies. The ON/OFF options include

Malicious base OT:

  • ENABLE_SIMPLESTOT the SimplestOT [CO15] protocol (relic or sodium).
  • ENABLE_SIMPLESTOT_ASM the SimplestOT base OT protocol [CO15] protocol (linux assembly).
  • ENABLE_MRR the McQuoid Rosulek Roy [MRR20] protocol (relic or sodium).
  • ENABLE_MRR_TWIST the McQuoid Rosulek Roy [MRR21] protocol (sodium fork).
  • ENABLE_MR the Masny Rindal [MR19] protocol (relic or sodium).
  • ENABLE_MR_KYBER the Masny Rindal [MR19] protocol (Kyber fork).
  • ENABLE_NP the Naor Pinkas [NP01] base OT (relic or sodium).

1-out-of-2 OT Extension:

  • ENABLE_IKNP the Ishai et al [IKNP03] semi-honest protocol.
  • ENABLE_KOS the Keller et al [KOS15] malicious protocol.
  • ENABLE_DELTA_KOS the Burra et al [BLNNOOSS15],[KOS15] malicious Delta-OT protocol.
  • ENABLE_SOFTSPOKEN_OT the Roy Roy22 semi-honest/malicious protocol.
  • ENABLE_SILENTOT the Couteau et al [CRR21],[BCGIKRS19] semi-honest/malicious protocol.

Vole:

  • ENABLE_SILENT_VOLE the Couteau et al [CRR21] semi-honest/malicious protocol.

Addition options can be set for cryptoTools. See the cmake output.

Dependencies

Dependencies can be managed by cmake/build.py or installed via an external tool. If an external tool is used install to system location or set -D CMAKE_PREFIX_PATH=path/to/install. By default build.py calls cmake with the command line argument

-D FETCH_AUTO=true

. This tells cmake to first look for dependencies on the system and if not found then it will be downloaded and built automatically. If set to false then the build will fail if not found. Each dependency can downloaded and build for you by explicitly setting it's FETCH_*** variable to true. See blow. The python build.py script by default sets FETCH_AUTO=true and can be set to false by calling it with --noauto.

Enabling/Disabling Relic (for base OTs): The library can be built with Relic as

python build.py --relic

Relic can be disabled by removing --relic from the setup and setting -D ENABLE_RELIC=OFF. Relic can always be fetched and locally built using -D FETCH_RELIC=true.

Enabling/Disabling libsodium (for base OTs): The library can be built with libsodium as

python build.py --sodium

libsodium can be disabled by removing --sodium from the setup and setting -D ENABLE_SODIUM=OFF. Sodium can always be fetched and locally built using -D FETCH_SODIUM=true.

The McQuoid Rosulek Roy 2021 Base OTs uses a twisted curve which additionally require the noclamp option for Montgomery curves and is currently only in a fork of libsodium. If you prefer the stable libsodium, then install it and add -D SODIUM_MONTGOMERY=OFF as a cmake argument to libOTe.

Install

libOTe can be installed and linked the same way as other cmake projects. To install the library and all downloaded dependencies, run the following

python build.py --install

By default, sudo is not used. If installation requires sudo access, then add --sudo to the build.py script arguments. See python build.py --help for full details.

Linking

libOTe can be linked via cmake as

find_package(libOTe REQUIRED)
target_link_libraries(myProject oc::libOTe)

Other exposed targets are oc::cryptoTools, oc::tests_cryptoTools, oc::libOTe_Tests. In addition, cmake variables libOTe_LIB, libOTe_INC, ENABLE_XXX will be defined, where XXX is one of the libOTe options.

To ensure that cmake can find libOTe, you can either install libOTe or build it locally and set -D CMAKE_PREFIX_PATH=path/to/libOTe or provide its location as a cmake HINTS, i.e. find_package(libOTe HINTS path/to/libOTe).

Help

Contact Peter Rindal peterrindal@gmail.com for any assistance on building or running the library.

Citing

Spread the word!

@misc{libOTe,
    author = {Peter Rindal, Lance Roy},
    title = {{libOTe: an efficient, portable, and easy to use Oblivious Transfer Library}},
    howpublished = {\url{https://github.com/osu-crypto/libOTe}},
}

Citation

[NP01] - Moni Naor, Benny Pinkas, Efficient Oblivious Transfer Protocols.

[IKNP03] - Yuval Ishai and Joe Kilian and Kobbi Nissim and Erez Petrank, Extending Oblivious Transfers Efficiently.

[KOS15] - Marcel Keller and Emmanuela Orsini and Peter Scholl, Actively Secure OT Extension with Optimal Overhead. eprint/2015/546

[OOS16] - Michele Orrù and Emmanuela Orsini and Peter Scholl, Actively Secure 1-out-of-N OT Extension with Application to Private Set Intersection. eprint/2016/933

[KKRT16] - Vladimir Kolesnikov and Ranjit Kumaresan and Mike Rosulek and Ni Trieu, Efficient Batched Oblivious PRF with Applications to Private Set Intersection. eprint/2016/799

[RR16] - Peter Rindal and Mike Rosulek, Improved Private Set Intersection against Malicious Adversaries. eprint/2016/746

[BLNNOOSS15] - Sai Sheshank Burra and Enrique Larraia and Jesper Buus Nielsen and Peter Sebastian Nordholt and Claudio Orlandi and Emmanuela Orsini and Peter Scholl and Nigel P. Smart, High Performance Multi-Party Computation for Binary Circuits Based on Oblivious Transfer. eprint/2015/472

[ALSZ15] - Gilad Asharov and Yehuda Lindell and Thomas Schneider and Michael Zohner, More Efficient Oblivious Transfer Extensions with Security for Malicious Adversaries. eprint/2015/061

[CRR21] - Geoffroy Couteau ,Srinivasan Raghuraman and Peter Rindal, Silver: Silent VOLE and Oblivious Transfer from Hardness of Decoding Structured LDPC Codes.

[Roy22] - Lawrence Roy, SoftSpokenOT: Communication--Computation Tradeoffs in OT Extension. eprint/2022/192

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