use async_std::net::{TcpListener, TcpStream}; use async_std::task; use async_tungstenite::{accept_async, tungstenite::Error}; use futures::future::{select, Either}; use futures::prelude::*; use log::*; use std::net::SocketAddr; use std::time::Duration; use tungstenite::{Message, Result}; async fn accept_connection(peer: SocketAddr, stream: TcpStream) { if let Err(e) = handle_connection(peer, stream).await { match e { Error::ConnectionClosed | Error::Protocol(_) | Error::Utf8 => (), err => error!("Error processing connection: {}", err), } } } async fn handle_connection(peer: SocketAddr, stream: TcpStream) -> Result<()> { let ws_stream = accept_async(stream).await.expect("Failed to accept"); info!("New WebSocket connection: {}", peer); let (mut ws_sender, mut ws_receiver) = ws_stream.split(); let mut interval = async_std::stream::interval(Duration::from_millis(1000)); // Echo incoming WebSocket messages and send a message periodically every second. let mut msg_fut = ws_receiver.next(); let mut tick_fut = interval.next(); loop { match select(msg_fut, tick_fut).await { Either::Left((msg, tick_fut_continue)) => { match msg { Some(msg) => { let msg = msg?; if msg.is_text() || msg.is_binary() { ws_sender.send(msg).await?; } else if msg.is_close() { break; } tick_fut = tick_fut_continue; // Continue waiting for tick. msg_fut = ws_receiver.next(); // Receive next WebSocket message. } None => break, // WebSocket stream terminated. }; } Either::Right((_, msg_fut_continue)) => { ws_sender.send(Message::Text("tick".to_owned())).await?; msg_fut = msg_fut_continue; // Continue receiving the WebSocket message. tick_fut = interval.next(); // Wait for next tick. } } } Ok(()) } async fn run() { env_logger::init(); let addr = "127.0.0.1:9002"; let listener = TcpListener::bind(&addr).await.expect("Can't listen"); info!("Listening on: {}", addr); while let Ok((stream, _)) = listener.accept().await { let peer = stream .peer_addr() .expect("connected streams should have a peer address"); info!("Peer address: {}", peer); task::spawn(accept_connection(peer, stream)); } } fn main() { task::block_on(run()); }