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rapido

rapido is a minimal implementation of TCPLS atop picotls. It follows the TCPLS IETF draft specification.

Building rapido

If you have cloned rapido from git then ensure that you have initialised the submodules:

% git submodule update --init

Build using cmake:

% cmake .
% make rapido
% make check

Using the rapido command

Run the test server (at 127.0.0.1:8443):

% ./rapido -c /path/to/certificate.pem -k /path/to/private-key.pem  127.0.0.1 8443

Connect to the test server:

% ./rapido 127.0.0.1 8443

Other options are documented in the command:

% ./rapido -h

Public test server

We host a public server running an instance of the test server at 130.104.229.29 and 2001:6a8:308f:9:0:82ff:fe68:e51d on port 443. Be aware that it can only accept a single TCPLS session at a time. This test server is here for researchers to test their own implementation of TCPLS. After establishing a session, the server will continuously send data on its first stream until the client terminates the session.

To connect over IPv4 to the server:

./rapido -s 10 -n localhost 130.104.229.29 443

Documentation & API

The documentation and API can be found at https://mpiraux.github.io/rapido/. The rapido.h header file defines the functions and data structures available to the application leveraging TCPLS.

picotls

Picotls is a TLS 1.3 (RFC 8446) protocol stack written in C, with the following features:

Primary goal of the project is to create a fast, tiny, low-latency TLS 1.3 implementation that can be used with the HTTP/2 protocol stack and the upcoming QUIC stack of the H2O HTTP/2 server.

The TLS protocol implementation of picotls is licensed under the MIT license.

License and the cryptographic algorithms supported by the crypto bindings are as follows:

Binding License Key Exchange Certificate AEAD cipher
minicrypto CC0 / 2-clause BSD secp256r1, x25519 ECDSA (secp256r1)1 AES-128-GCM, chacha20-poly1305
OpenSSL OpenSSL secp256r1, secp384r1, secp521r1, x25519 RSA, ECDSA (secp256r1, secp384r1, secp521r1), ed25519 AES-128-GCM, AES-256-GCM, chacha20-poly1305

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.

Developer documentation

Developer documentation should be available on the 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).