gmsm/README.md

# GM-Standards SM2/SM3/SM4/SM9/ZUC for Go

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## Packages
* **SM2** - This is a SM2 sm2p256v1 implementation whose performance is similar like golang native NIST P256 under **amd64** and **arm64**, for implementation detail, please refer [SM2实现细节](https://github.com/emmansun/gmsm/wiki/SM2%E6%80%A7%E8%83%BD%E4%BC%98%E5%8C%96). It supports ShangMi sm2 digital signature, public key encryption algorithm and also key exchange.

* **SM3** - This is also a SM3 implementation whose performance is similar like golang native SHA 256 with SIMD under **amd64** and **arm64**, for implementation detail, please refer [SM3性能优化](https://github.com/emmansun/gmsm/wiki/SM3%E6%80%A7%E8%83%BD%E4%BC%98%E5%8C%96). It also provides A64 cryptographic instructions SM3 tested with QEMU.

* **SM4** - For SM4 implementation, SIMD & AES-NI are used under **amd64** and **arm64**, for detail please refer [SM4性能优化](https://github.com/emmansun/gmsm/wiki/SM4%E6%80%A7%E8%83%BD%E4%BC%98%E5%8C%96), it supports ECB/CBC/CFB/OFB/CTR/GCM/CCM/XTS modes. It also provides A64 cryptographic instructions SM4 tested with QEMU.

* **SM9** - For SM9 implementation, please reference [SM9实现及优化](https://github.com/emmansun/gmsm/wiki/SM9%E5%AE%9E%E7%8E%B0%E5%8F%8A%E4%BC%98%E5%8C%96)

* **ZUC** - For ZUC implementation, SIMD, AES-NI and CLMUL are used under **amd64** and **arm64**, for detail please refer [Efficient Software Implementations of ZUC](https://github.com/emmansun/gmsm/wiki/Efficient-Software-Implementations-of-ZUC)

* **CFCA** - some cfca specific implementations.

* **CIPHER** - ECB/CCM/XTS cipher modes, XTS mode also supports **GB/T 17964-2021**.

* **SMX509** - a fork of golang X509 that supports ShangMi.

* **PKCS7** - a fork of [mozilla-services/pkcs7](https://github.com/mozilla-services/pkcs7) that supports ShangMi.

* **PKCS8** - a fork of [youmark/pkcs8](https://github.com/youmark/pkcs8) that supports ShangMi.

* **ECDH** - a similar implementation of golang ECDH that supports SM2 ECDH & SM2MQV without usage of **big.Int**, a replacement of SM2 key exchange. For detail, pleaes refer [is my code constant time?](https://github.com/emmansun/gmsm/wiki/is-my-code-constant-time%3F)

* **DRBG** - Random Number Generation Using Deterministic Random Bit Generators, for detail, please reference **NIST Special Publication 800-90A** and **GM/T 0105-2021**: CTR-DRBG using derivation function and HASH-DRBG. NIST related implementations are tested with part of NIST provided test vectors. It's **NOT** concurrent safe! You can also use [randomness](https://github.com/Trisia/randomness) tool to check the generated random bits.

## Some Related Projects
* **[TLCP](https://github.com/Trisia/gotlcp)** - An implementation of GB/T 38636-2020 Information security technology Transport Layer Cryptography Protocol (TLCP). 
* **[PKCS12](https://github.com/emmansun/go-pkcs12)** - pkcs12 supports ShangMi, a fork of [SSLMate/go-pkcs12](https://github.com/SSLMate/go-pkcs12).
* **[MKSMCERT](https://github.com/emmansun/mksmcert)** - A simple tool for making locally-trusted development ShangMi certificates, a fork of [FiloSottile/mkcert](https://github.com/FiloSottile/mkcert).

## Acknowledgements
The basic architecture, design and some codes are from [golang crypto](https://github.com/golang/go/commits/master/src/crypto).

The SM4 amd64 SIMD AES-NI implementation is inspired by code from [mjosaarinen/sm4ni](https://github.com/mjosaarinen/sm4ni). 

The original SM9/BN256 version is based on code from [cloudflare/bn256](https://github.com/cloudflare/bn256).

The ZUC amd64 SIMD AES-NI, CLMUL implementation is inspired by code from [Intel(R) Multi-Buffer Crypto for IPsec Library](https://github.com/intel/intel-ipsec-mb/).

The pkcs7 is based on code from [mozilla-services/pkcs7](https://github.com/mozilla-services/pkcs7).

The pkcs8 is based on code from [youmark/pkcs8](https://github.com/youmark/pkcs8).

## Disclaimer

Please read [disclaimer](DISCLAIMER.md) carefully!