use std::{ collections::hash_map::{Entry, HashMap}, sync::Arc, }; use futures::{channel::mpsc, select, FutureExt, SinkExt}; use async_std::{ io::BufReader, net::{TcpListener, TcpStream, ToSocketAddrs}, prelude::*, task, }; type Result = std::result::Result>; type Sender = mpsc::UnboundedSender; type Receiver = mpsc::UnboundedReceiver; #[derive(Debug)] enum Void {} pub(crate) fn main() -> Result<()> { task::block_on(accept_loop("127.0.0.1:8080")) } async fn accept_loop(addr: impl ToSocketAddrs) -> Result<()> { let listener = TcpListener::bind(addr).await?; let (broker_sender, broker_receiver) = mpsc::unbounded(); let broker = task::spawn(broker_loop(broker_receiver)); let mut incoming = listener.incoming(); while let Some(stream) = incoming.next().await { let stream = stream?; println!("Accepting from: {}", stream.peer_addr()?); spawn_and_log_error(connection_loop(broker_sender.clone(), stream)); } drop(broker_sender); broker.await; Ok(()) } async fn connection_loop(mut broker: Sender, stream: TcpStream) -> Result<()> { let stream = Arc::new(stream); let reader = BufReader::new(&*stream); let mut lines = reader.lines(); let name = match lines.next().await { None => return Err("peer disconnected immediately".into()), Some(line) => line?, }; let (_shutdown_sender, shutdown_receiver) = mpsc::unbounded::(); broker .send(Event::NewPeer { name: name.clone(), stream: Arc::clone(&stream), shutdown: shutdown_receiver, }) .await .unwrap(); while let Some(line) = lines.next().await { let line = line?; let (dest, msg) = match line.find(':') { None => continue, Some(idx) => (&line[..idx], line[idx + 1..].trim()), }; let dest: Vec = dest .split(',') .map(|name| name.trim().to_string()) .collect(); let msg: String = msg.trim().to_string(); broker .send(Event::Message { from: name.clone(), to: dest, msg, }) .await .unwrap(); } Ok(()) } async fn connection_writer_loop( messages: &mut Receiver, stream: Arc, mut shutdown: Receiver, ) -> Result<()> { let mut stream = &*stream; loop { select! { msg = messages.next().fuse() => match msg { Some(msg) => stream.write_all(msg.as_bytes()).await?, None => break, }, void = shutdown.next().fuse() => match void { Some(void) => match void {}, None => break, } } } Ok(()) } #[derive(Debug)] enum Event { NewPeer { name: String, stream: Arc, shutdown: Receiver, }, Message { from: String, to: Vec, msg: String, }, } async fn broker_loop(mut events: Receiver) { let (disconnect_sender, mut disconnect_receiver) = mpsc::unbounded::<(String, Receiver)>(); let mut peers: HashMap> = HashMap::new(); loop { let event = select! { event = events.next().fuse() => match event { None => break, Some(event) => event, }, disconnect = disconnect_receiver.next().fuse() => { let (name, _pending_messages) = disconnect.unwrap(); assert!(peers.remove(&name).is_some()); continue; }, }; match event { Event::Message { from, to, msg } => { for addr in to { if let Some(peer) = peers.get_mut(&addr) { let msg = format!("from {}: {}\n", from, msg); peer.send(msg).await.unwrap(); } } } Event::NewPeer { name, stream, shutdown, } => match peers.entry(name.clone()) { Entry::Occupied(..) => (), Entry::Vacant(entry) => { let (client_sender, mut client_receiver) = mpsc::unbounded(); entry.insert(client_sender); let mut disconnect_sender = disconnect_sender.clone(); spawn_and_log_error(async move { let res = connection_writer_loop(&mut client_receiver, stream, shutdown).await; disconnect_sender .send((name, client_receiver)) .await .unwrap(); res }); } }, } } drop(peers); drop(disconnect_sender); while let Some((_name, _pending_messages)) = disconnect_receiver.next().await {} } fn spawn_and_log_error(fut: F) -> task::JoinHandle<()> where F: Future> + Send + 'static, { task::spawn(async move { if let Err(e) = fut.await { eprintln!("{}", e) } }) }