Lightweight stream-based WebSocket implementation for Rust.
use std::net::TcpListener;
use std::thread::spawn;
use tungstenite::server::accept;
/// A WebSocket echo server
fn main () {
let server = TcpListener::bind("127.0.0.1:9001").unwrap();
for stream in server.incoming() {
spawn (move || {
let mut websocket = accept(stream.unwrap()).unwrap();
loop {
let msg = websocket.read_message().unwrap();
// We do not want to send back ping/pong messages.
if msg.is_binary() || msg.is_text() {
websocket.write_message(msg).unwrap();
}
}
});
}
}
Take a look at the examples section to see how to write a simple client/server.
NOTE: tungstenite-rs
is more like a barebone to build reliable modern networking applications
using WebSockets. If you're looking for a modern production-ready "batteries included" WebSocket
library that allows you to efficiently use non-blocking sockets and do "full-duplex" communication,
take a look at tokio-tungstenite
.
This library provides an implementation of WebSockets, RFC6455. It allows for both synchronous (like TcpStream) and asynchronous usage and is easy to integrate into any third-party event loops including MIO. The API design abstracts away all the internals of the WebSocket protocol but still makes them accessible for those who wants full control over the network.
It's formerly WS2, the 2nd implementation of WS. WS2 is the chemical formula of tungsten disulfide, the tungstenite mineral.
Tungstenite provides a complete implementation of the WebSocket specification.
TLS is supported on all platforms using native-tls or rustls available through the native-tls
and rustls-tls
feature flags. By default no TLS feature is activated, so make sure you
use native-tls
or rustls-tls
feature if you need support of the TLS.
There is no support for permessage-deflate at the moment. It's planned.
Tungstenite is thoroughly tested and passes the Autobahn Test Suite for WebSockets. It is also covered by internal unit tests as well as possible.
Please report bugs and make feature requests here.