#[macro_use] extern crate actix; extern crate byteorder; extern crate bytes; extern crate futures; extern crate serde; extern crate serde_json; extern crate tokio_codec; extern crate tokio_io; extern crate tokio_tcp; #[macro_use] extern crate serde_derive; use actix::prelude::*; use futures::Future; use std::str::FromStr; use std::time::Duration; use std::{io, net, process, thread}; use tokio_codec::FramedRead; use tokio_io::io::WriteHalf; use tokio_io::AsyncRead; use tokio_tcp::TcpStream; mod codec; fn main() { let sys = actix::System::new("chat-client"); // Connect to server let addr = net::SocketAddr::from_str("127.0.0.1:12345").unwrap(); Arbiter::spawn( TcpStream::connect(&addr) .and_then(|stream| { let addr = ChatClient::create(|ctx| { let (r, w) = stream.split(); ChatClient::add_stream( FramedRead::new(r, codec::ClientChatCodec), ctx, ); ChatClient { framed: actix::io::FramedWrite::new( w, codec::ClientChatCodec, ctx, ), } }); // start console loop thread::spawn(move || loop { let mut cmd = String::new(); if io::stdin().read_line(&mut cmd).is_err() { println!("error"); return; } addr.do_send(ClientCommand(cmd)); }); futures::future::ok(()) }) .map_err(|e| { println!("Can not connect to server: {}", e); process::exit(1) }), ); println!("Running chat client"); sys.run(); } struct ChatClient { framed: actix::io::FramedWrite, codec::ClientChatCodec>, } #[derive(Message)] struct ClientCommand(String); impl Actor for ChatClient { type Context = Context; fn started(&mut self, ctx: &mut Context) { // start heartbeats otherwise server will disconnect after 10 seconds self.hb(ctx) } fn stopped(&mut self, _: &mut Context) { println!("Disconnected"); // Stop application on disconnect System::current().stop(); } } impl ChatClient { fn hb(&self, ctx: &mut Context) { ctx.run_later(Duration::new(1, 0), |act, ctx| { act.framed.write(codec::ChatRequest::Ping); act.hb(ctx); // client should also check for a timeout here, similar to the // server code }); } } impl actix::io::WriteHandler for ChatClient {} /// Handle stdin commands impl Handler for ChatClient { type Result = (); fn handle(&mut self, msg: ClientCommand, _: &mut Context) { let m = msg.0.trim(); if m.is_empty() { return; } // we check for /sss type of messages if m.starts_with('/') { let v: Vec<&str> = m.splitn(2, ' ').collect(); match v[0] { "/list" => { self.framed.write(codec::ChatRequest::List); } "/join" => { if v.len() == 2 { self.framed.write(codec::ChatRequest::Join(v[1].to_owned())); } else { println!("!!! room name is required"); } } _ => println!("!!! unknown command"), } } else { self.framed.write(codec::ChatRequest::Message(m.to_owned())); } } } /// Server communication impl StreamHandler for ChatClient { fn handle(&mut self, msg: codec::ChatResponse, _: &mut Context) { match msg { codec::ChatResponse::Message(ref msg) => { println!("message: {}", msg); } codec::ChatResponse::Joined(ref msg) => { println!("!!! joined: {}", msg); } codec::ChatResponse::Rooms(rooms) => { println!("\n!!! Available rooms:"); for room in rooms { println!("{}", room); } println!(""); } _ => (), } } }