async-tungstenite/examples/server-custom-accept.rs

//! A chat server that broadcasts a message to all connections.
//!
//! This is a simple line-based server which accepts WebSocket connections,
//! reads lines from those connections, and broadcasts the lines to all other
//! connected clients.
//!
//! You can test this out by running:
//!
//!     cargo run --example server 127.0.0.1:12345
//!
//! And then in another window run:
//!
//!     cargo run --example client ws://127.0.0.1:12345/socket
//!
//! You can run the second command in multiple windows and then chat between the
//! two, seeing the messages from the other client as they're received. For all
//! connected clients they'll all join the same room and see everyone else's
//! messages.

use std::{
    collections::HashMap,
    convert::Infallible,
    env,
    net::SocketAddr,
    sync::{Arc, Mutex},
};

use hyper::{
    header::{
        HeaderValue, CONNECTION, SEC_WEBSOCKET_ACCEPT, SEC_WEBSOCKET_KEY, SEC_WEBSOCKET_VERSION,
        UPGRADE,
    },
    server::conn::AddrStream,
    service::{make_service_fn, service_fn},
    upgrade::Upgraded,
    Body, Method, Request, Response, Server, StatusCode, Version,
};

use futures_channel::mpsc::{unbounded, UnboundedSender};
use futures_util::{future, pin_mut, stream::TryStreamExt, StreamExt};

use async_tungstenite::{tokio::TokioAdapter, WebSocketStream};
use tungstenite::{
    handshake::derive_accept_key,
    protocol::{Message, Role},
};

type Tx = UnboundedSender<Message>;
type PeerMap = Arc<Mutex<HashMap<SocketAddr, Tx>>>;

async fn handle_connection(
    peer_map: PeerMap,
    ws_stream: WebSocketStream<TokioAdapter<Upgraded>>,
    addr: SocketAddr,
) {
    println!("WebSocket connection established: {}", addr);

    // Insert the write part of this peer to the peer map.
    let (tx, rx) = unbounded();
    peer_map.lock().unwrap().insert(addr, tx);

    let (outgoing, incoming) = ws_stream.split();

    let broadcast_incoming = incoming.try_for_each(|msg| {
        println!(
            "Received a message from {}: {}",
            addr,
            msg.to_text().unwrap()
        );
        let peers = peer_map.lock().unwrap();

        // We want to broadcast the message to everyone except ourselves.
        let broadcast_recipients = peers
            .iter()
            .filter(|(peer_addr, _)| peer_addr != &&addr)
            .map(|(_, ws_sink)| ws_sink);

        for recp in broadcast_recipients {
            recp.unbounded_send(msg.clone()).unwrap();
        }

        future::ok(())
    });

    let receive_from_others = rx.map(Ok).forward(outgoing);

    pin_mut!(broadcast_incoming, receive_from_others);
    future::select(broadcast_incoming, receive_from_others).await;

    println!("{} disconnected", &addr);
    peer_map.lock().unwrap().remove(&addr);
}

async fn handle_request(
    peer_map: PeerMap,
    mut req: Request<Body>,
    addr: SocketAddr,
) -> Result<Response<Body>, Infallible> {
    println!("Received a new, potentially ws handshake");
    println!("The request's path is: {}", req.uri().path());
    println!("The request's headers are:");
    for (ref header, _value) in req.headers() {
        println!("* {}", header);
    }
    let upgrade = HeaderValue::from_static("Upgrade");
    let websocket = HeaderValue::from_static("websocket");
    let headers = req.headers();
    let key = headers.get(SEC_WEBSOCKET_KEY);
    let derived = key.map(|k| derive_accept_key(k.as_bytes()));
    if req.method() != Method::GET
        || req.version() < Version::HTTP_11
        || !headers
            .get(CONNECTION)
            .and_then(|h| h.to_str().ok())
            .map(|h| {
                h.split(|c| c == ' ' || c == ',')
                    .any(|p| p.eq_ignore_ascii_case(upgrade.to_str().unwrap()))
            })
            .unwrap_or(false)
        || !headers
            .get(UPGRADE)
            .and_then(|h| h.to_str().ok())
            .map(|h| h.eq_ignore_ascii_case("websocket"))
            .unwrap_or(false)
        || !headers
            .get(SEC_WEBSOCKET_VERSION)
            .map(|h| h == "13")
            .unwrap_or(false)
        || key.is_none()
        || req.uri() != "/socket"
    {
        return Ok(Response::new(Body::from("Hello World!")));
    }
    let ver = req.version();
    tokio::task::spawn(async move {
        match hyper::upgrade::on(&mut req).await {
            Ok(upgraded) => {
                handle_connection(
                    peer_map,
                    WebSocketStream::from_raw_socket(
                        TokioAdapter::new(upgraded),
                        Role::Server,
                        None,
                    )
                    .await,
                    addr,
                )
                .await;
            }
            Err(e) => println!("upgrade error: {}", e),
        }
    });
    let mut res = Response::new(Body::empty());
    *res.status_mut() = StatusCode::SWITCHING_PROTOCOLS;
    *res.version_mut() = ver;
    res.headers_mut().append(CONNECTION, upgrade);
    res.headers_mut().append(UPGRADE, websocket);
    res.headers_mut()
        .append(SEC_WEBSOCKET_ACCEPT, derived.unwrap().parse().unwrap());
    // Let's add an additional header to our response to the client.
    res.headers_mut()
        .append("MyCustomHeader", ":)".parse().unwrap());
    res.headers_mut()
        .append("SOME_TUNGSTENITE_HEADER", "header_value".parse().unwrap());
    Ok(res)
}

#[tokio::main]
async fn main() -> Result<(), hyper::Error> {
    let state = PeerMap::new(Mutex::new(HashMap::new()));

    let addr = env::args()
        .nth(1)
        .unwrap_or_else(|| "127.0.0.1:8080".to_string())
        .parse()
        .unwrap();

    let make_svc = make_service_fn(move |conn: &AddrStream| {
        let remote_addr = conn.remote_addr();
        let state = state.clone();
        let service = service_fn(move |req| handle_request(state.clone(), req, remote_addr));
        async { Ok::<_, Infallible>(service) }
    });

    let server = Server::bind(&addr).serve(make_svc);

    server.await?;

    Ok::<_, hyper::Error>(())
}