# PQ Crypto Catalog [![Build Status](https://drone.amongbytes.com/api/badges/kris/pqc/status.svg)](https://drone.amongbytes.com/kris/pqc) This is a repository of post-quantum schemes copied from either the submission to the NIST Post-Quantum Standardization or [PQClean](https://github.com/PQClean/PQClean) project. The goal of the library is to provide easy to use API which enables quick experimentation with some post-quantum cryptographic schemes. Users shouldn't expect any level of security provided by this code. The library is not meant to be used on live production systems. ## Schemes support | Name | NIST Round | x86 optimized | |--------------------------|------------|---------------| | Kyber | 3 | x | | NTRU | 3 | x | | SABER | 3 | x | | FrodoKEM | 3 | | | NTRU Prime | 3 | x | | HQC-RMRS | 3 | x | | Dilithium | 3 | x | | Falcon | 2 | | | Rainbow | 3 | | | SPHINCS+ SHA256/SHAKE256 | 3 | x | | SIKE/p434 | 3 | x | ## Building CMake is used to build the library: ```bash mkdir build cd build cmake -DCMAKE_BUILD_TYPE=Release .. make ``` Build outputs two libraries, a static ``libpqc_s.a`` and dynamic ``libpqc.so``, which can be linked with a project. ## API Library provides simple API, wrapping PQClean. For example to use KEM, one should call the library in following way: ```c #include std::vector ct(ciphertext_bsz(p)); std::vector ss1(shared_secret_bsz(p)); std::vector ss2(shared_secret_bsz(p)); std::vector sk(private_key_bsz(p)); std::vector pk(public_key_bsz(p)); const params_t *p = pqc_kem_alg_by_id(KYBER512); pqc_keygen(p, pk.data(), sk.data()); pqc_kem_encapsulate(p, ct.data(), ss1.data(), pk.data()); pqc_kem_decapsulate(p, ss2.data(), ct.data(), sk.data()); p = pqc_sig_alg_by_id(DILITHIUM2); size_t sigsz = sig.capacity(); pqc_keygen(p, pk.data(), sk.data()); pqc_sig_create(p, sig.data(), &sigsz, msg.data(), msg.size(), sk.data()); pqc_sig_verify(p, sig.data(), sig.size(), msg.data(), msg.size(), pk.data()); ``` See test implemetnation in ``test/ut.cpp`` for more details. ## Rust binding Rust bindgings are provided in the ``src/rustapi/pqc-sys`` and can be regenerated automatically by running ``cargo build`` in that directory. ## Testing against Known Answer Tests Algorithms are tested against KATs, by the Rust-based runner implemented in the ``test/katrunner`` (only verification/decpaulation). The runner uses ``katwalk`` crate for parsing NIST format. To run it: ```bash cd test/katrunner curl http://amongbytes.com/~flowher/permalinks/kat.zip --output kat.zip unzip kat.zip cargo run -- --katdir KAT ```