extern crate actix; extern crate actix_web; extern crate bytes; extern crate futures; extern crate http; extern crate rand; use bytes::Bytes; use futures::Stream; use rand::distributions::Alphanumeric; use rand::Rng; #[cfg(feature = "alpn")] extern crate openssl; use actix::prelude::*; use actix_web::*; struct Ws; impl Actor for Ws { type Context = ws::WebsocketContext; } impl StreamHandler for Ws { fn handle(&mut self, msg: ws::Message, ctx: &mut Self::Context) { match msg { ws::Message::Ping(msg) => ctx.pong(&msg), ws::Message::Text(text) => ctx.text(text), ws::Message::Binary(bin) => ctx.binary(bin), ws::Message::Close(reason) => ctx.close(reason), _ => (), } } } #[test] fn test_simple() { let mut srv = test::TestServer::new(|app| app.handler(|req| ws::start(req, Ws))); let (reader, mut writer) = srv.ws().unwrap(); writer.text("text"); let (item, reader) = srv.execute(reader.into_future()).unwrap(); assert_eq!(item, Some(ws::Message::Text("text".to_owned()))); writer.binary(b"text".as_ref()); let (item, reader) = srv.execute(reader.into_future()).unwrap(); assert_eq!( item, Some(ws::Message::Binary(Bytes::from_static(b"text").into())) ); writer.ping("ping"); let (item, reader) = srv.execute(reader.into_future()).unwrap(); assert_eq!(item, Some(ws::Message::Pong("ping".to_owned()))); writer.close(Some(ws::CloseCode::Normal.into())); let (item, _) = srv.execute(reader.into_future()).unwrap(); assert_eq!( item, Some(ws::Message::Close(Some(ws::CloseCode::Normal.into()))) ); } #[test] fn test_empty_close_code() { let mut srv = test::TestServer::new(|app| app.handler(|req| ws::start(req, Ws))); let (reader, mut writer) = srv.ws().unwrap(); writer.close(None); let (item, _) = srv.execute(reader.into_future()).unwrap(); assert_eq!(item, Some(ws::Message::Close(None))); } #[test] fn test_close_description() { let mut srv = test::TestServer::new(|app| app.handler(|req| ws::start(req, Ws))); let (reader, mut writer) = srv.ws().unwrap(); let close_reason: ws::CloseReason = (ws::CloseCode::Normal, "close description").into(); writer.close(Some(close_reason.clone())); let (item, _) = srv.execute(reader.into_future()).unwrap(); assert_eq!(item, Some(ws::Message::Close(Some(close_reason)))); } #[test] fn test_large_text() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(65_536) .collect::(); let mut srv = test::TestServer::new(|app| app.handler(|req| ws::start(req, Ws))); let (mut reader, mut writer) = srv.ws().unwrap(); for _ in 0..100 { writer.text(data.clone()); let (item, r) = srv.execute(reader.into_future()).unwrap(); reader = r; assert_eq!(item, Some(ws::Message::Text(data.clone()))); } } #[test] fn test_large_bin() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(65_536) .collect::(); let mut srv = test::TestServer::new(|app| app.handler(|req| ws::start(req, Ws))); let (mut reader, mut writer) = srv.ws().unwrap(); for _ in 0..100 { writer.binary(data.clone()); let (item, r) = srv.execute(reader.into_future()).unwrap(); reader = r; assert_eq!(item, Some(ws::Message::Binary(Binary::from(data.clone())))); } } #[test] fn test_client_frame_size() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(131_072) .collect::(); let mut srv = test::TestServer::new(|app| { app.handler(|req| -> Result { let mut resp = ws::handshake(req)?; let stream = ws::WsStream::new(req.payload()).max_size(131_072); let body = ws::WebsocketContext::create(req.clone(), Ws, stream); Ok(resp.body(body)) }) }); let (reader, mut writer) = srv.ws().unwrap(); writer.binary(data.clone()); match srv.execute(reader.into_future()).err().unwrap().0 { ws::ProtocolError::Overflow => (), _ => panic!(), } } struct Ws2 { count: usize, bin: bool, } impl Actor for Ws2 { type Context = ws::WebsocketContext; fn started(&mut self, ctx: &mut Self::Context) { self.send(ctx); } } impl Ws2 { fn send(&mut self, ctx: &mut ws::WebsocketContext) { if self.bin { ctx.binary(Vec::from("0".repeat(65_536))); } else { ctx.text("0".repeat(65_536)); } ctx.drain() .and_then(|_, act, ctx| { act.count += 1; if act.count != 10_000 { act.send(ctx); } actix::fut::ok(()) }) .wait(ctx); } } impl StreamHandler for Ws2 { fn handle(&mut self, msg: ws::Message, ctx: &mut Self::Context) { match msg { ws::Message::Ping(msg) => ctx.pong(&msg), ws::Message::Text(text) => ctx.text(text), ws::Message::Binary(bin) => ctx.binary(bin), ws::Message::Close(reason) => ctx.close(reason), _ => (), } } } #[test] fn test_server_send_text() { let data = Some(ws::Message::Text("0".repeat(65_536))); let mut srv = test::TestServer::new(|app| { app.handler(|req| { ws::start( req, Ws2 { count: 0, bin: false, }, ) }) }); let (mut reader, _writer) = srv.ws().unwrap(); for _ in 0..10_000 { let (item, r) = srv.execute(reader.into_future()).unwrap(); reader = r; assert_eq!(item, data); } } #[test] fn test_server_send_bin() { let data = Some(ws::Message::Binary(Binary::from("0".repeat(65_536)))); let mut srv = test::TestServer::new(|app| { app.handler(|req| { ws::start( req, Ws2 { count: 0, bin: true, }, ) }) }); let (mut reader, _writer) = srv.ws().unwrap(); for _ in 0..10_000 { let (item, r) = srv.execute(reader.into_future()).unwrap(); reader = r; assert_eq!(item, data); } } #[test] #[cfg(feature = "alpn")] fn test_ws_server_ssl() { extern crate openssl; use openssl::ssl::{SslAcceptor, SslFiletype, SslMethod}; // load ssl keys let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap(); builder .set_private_key_file("tests/key.pem", SslFiletype::PEM) .unwrap(); builder .set_certificate_chain_file("tests/cert.pem") .unwrap(); let mut srv = test::TestServer::build().ssl(builder).start(|app| { app.handler(|req| { ws::start( req, Ws2 { count: 0, bin: false, }, ) }) }); let (mut reader, _writer) = srv.ws().unwrap(); let data = Some(ws::Message::Text("0".repeat(65_536))); for _ in 0..10_000 { let (item, r) = srv.execute(reader.into_future()).unwrap(); reader = r; assert_eq!(item, data); } }