picotls === [![Build Status](https://travis-ci.org/h2o/picotls.svg?branch=master)](https://travis-ci.org/h2o/picotls) Picotls is a [TLS 1.3](https://tlswg.github.io/tls13-spec/) implementation written in C. At the moment, the library implements draft-22 of the specification, including support 0-RTT resumption using PSK or PSK-DHE. Primary goal of the project is to create a fast, tiny TLS 1.3 implementation that can be used with the HTTP/2 protocol stack and possibly the upcoming QUIC stack of the [H2O HTTP/2 server](https://h2o.examp1e.net). Picotls only implements the communination protocol; cryptographic operations are delegated to cryptographic engines. At the moment, _minicrypto_ binding (uses [cifra](https://github.com/ctz/cifra/) and [micro-ecc](https://github.com/kmackay/micro-ecc)) and _openssl_ binding are provided. License and algorithms supported by the bindings are as follows: | Binding | License | Key Exchange | Certificate | AEAD cipher | |:-----:|:-----:|:-----:|:-----:|:-----:| | minicrypto | [CC0](https://github.com/ctz/cifra/) / [2-clause BSD](https://github.com/kmackay/micro-ecc) | secp256r1, x25519 | ECDSA (P256)1 | AES-128-GCM | | OpenSSL | OpenSSL | secp256r1 | RSA, ECDSA (P256) | AES-128-GCM | Note 1: Minicrypto binding is capable of signing a handshake using the certificate's key, but cannot verify a signature sent by the peer. Building picotls --- If you have cloned picotls from git then ensure that you have initialised the submodules: ``` % git submodule init % git submodule update ``` Build using cmake: ``` % cmake . % make % make check ``` A dedicated documentation for using picotls with Visual Studio can be found in [WindowsPort.md](WindowsPort.md). Developer documentation --- Developer documentation should be available on [the wiki](https://github.com/h2o/picotls/wiki). Using the cli command --- Run the test server (at 127.0.0.1:8443): ``` % ./cli -c /path/to/certificate.pem -k /path/to/private-key.pem 127.0.0.1 8443 ``` Connect to the test server: ``` % ./cli 127.0.0.1 8443 ``` Using resumption: ``` % ./cli -s session-file 127.0.0.1 8443 ``` The session-file is read-write. The cli server implements a single-entry session cache. The cli server sends NewSessionTicket when it first sends application data after receiving ClientFinished. Using early-data: ``` % ./cli -s session-file -e 127.0.0.1 8443 ``` When `-e` option is used, client first waits for user input, and then sends CLIENT_HELLO along with the early-data. License --- The software is provided under the MIT license. Note that additional licences apply if you use the minicrypto binding (see above).