use async_std::task; use task::block_on; use veloren_network::{NetworkError, StreamError}; mod helper; use helper::{network_participant_stream, tcp, udp}; use std::io::ErrorKind; use veloren_network::{Network, Pid, ProtocolAddr, PROMISES_CONSISTENCY, PROMISES_ORDERED}; #[test] #[ignore] fn network_20s() { let (_, _) = helper::setup(false, 0); let (_n_a, _, _, _n_b, _, _) = block_on(network_participant_stream(tcp())); std::thread::sleep(std::time::Duration::from_secs(30)); } #[test] fn stream_simple() { let (_, _) = helper::setup(false, 0); let (_n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = block_on(network_participant_stream(tcp())); s1_a.send("Hello World").unwrap(); assert_eq!(block_on(s1_b.recv()), Ok("Hello World".to_string())); } #[test] fn stream_simple_3msg() { let (_, _) = helper::setup(false, 0); let (_n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = block_on(network_participant_stream(tcp())); s1_a.send("Hello World").unwrap(); s1_a.send(1337).unwrap(); assert_eq!(block_on(s1_b.recv()), Ok("Hello World".to_string())); assert_eq!(block_on(s1_b.recv()), Ok(1337)); s1_a.send("3rdMessage").unwrap(); assert_eq!(block_on(s1_b.recv()), Ok("3rdMessage".to_string())); } #[test] fn stream_simple_udp() { let (_, _) = helper::setup(false, 0); let (_n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = block_on(network_participant_stream(udp())); s1_a.send("Hello World").unwrap(); assert_eq!(block_on(s1_b.recv()), Ok("Hello World".to_string())); } #[test] fn stream_simple_udp_3msg() { let (_, _) = helper::setup(false, 0); let (_n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = block_on(network_participant_stream(udp())); s1_a.send("Hello World").unwrap(); s1_a.send(1337).unwrap(); assert_eq!(block_on(s1_b.recv()), Ok("Hello World".to_string())); assert_eq!(block_on(s1_b.recv()), Ok(1337)); s1_a.send("3rdMessage").unwrap(); assert_eq!(block_on(s1_b.recv()), Ok("3rdMessage".to_string())); } #[test] #[ignore] fn tcp_and_udp_2_connections() -> std::result::Result<(), Box> { let (_, _) = helper::setup(false, 0); let (network, f) = Network::new(Pid::new()); let (remote, fr) = Network::new(Pid::new()); std::thread::spawn(f); std::thread::spawn(fr); block_on(async { remote .listen(ProtocolAddr::Tcp("0.0.0.0:2000".parse().unwrap())) .await?; remote .listen(ProtocolAddr::Udp("0.0.0.0:2001".parse().unwrap())) .await?; let p1 = network .connect(ProtocolAddr::Tcp("127.0.0.1:2000".parse().unwrap())) .await?; let p2 = network .connect(ProtocolAddr::Udp("127.0.0.1:2001".parse().unwrap())) .await?; assert_eq!(&p1, &p2); Ok(()) }) } #[test] fn failed_listen_on_used_ports() -> std::result::Result<(), Box> { let (_, _) = helper::setup(false, 0); let (network, f) = Network::new(Pid::new()); std::thread::spawn(f); let udp1 = udp(); let tcp1 = tcp(); block_on(network.listen(udp1.clone()))?; block_on(network.listen(tcp1.clone()))?; std::thread::sleep(std::time::Duration::from_millis(200)); let (network2, f2) = Network::new(Pid::new()); std::thread::spawn(f2); let e1 = block_on(network2.listen(udp1)); let e2 = block_on(network2.listen(tcp1)); match e1 { Err(NetworkError::ListenFailed(e)) if e.kind() == ErrorKind::AddrInUse => (), _ => panic!(), }; match e2 { Err(NetworkError::ListenFailed(e)) if e.kind() == ErrorKind::AddrInUse => (), _ => panic!(), }; Ok(()) } /// There is a bug an impris-desktop-1 which fails the DOC tests, /// it fails exactly `api_stream_send_main` and `api_stream_recv_main` by /// deadlocking at different times! /// So i rather put the same test into a unit test, these are now duplicate to /// the api, but are left here, just to be save! #[test] fn api_stream_send_main() -> std::result::Result<(), Box> { let (_, _) = helper::setup(false, 0); // Create a Network, listen on Port `1200` and wait for a Stream to be opened, // then answer `Hello World` let (network, f) = Network::new(Pid::new()); let (remote, fr) = Network::new(Pid::new()); std::thread::spawn(f); std::thread::spawn(fr); block_on(async { network .listen(ProtocolAddr::Tcp("127.0.0.1:1200".parse().unwrap())) .await?; let remote_p = remote .connect(ProtocolAddr::Tcp("127.0.0.1:1200".parse().unwrap())) .await?; // keep it alive let _stream_p = remote_p .open(16, PROMISES_ORDERED | PROMISES_CONSISTENCY) .await?; let participant_a = network.connected().await?; let mut stream_a = participant_a.opened().await?; //Send Message stream_a.send("Hello World")?; Ok(()) }) } #[test] fn api_stream_recv_main() -> std::result::Result<(), Box> { let (_, _) = helper::setup(false, 0); // Create a Network, listen on Port `1220` and wait for a Stream to be opened, // then listen on it let (network, f) = Network::new(Pid::new()); let (remote, fr) = Network::new(Pid::new()); std::thread::spawn(f); std::thread::spawn(fr); block_on(async { network .listen(ProtocolAddr::Tcp("127.0.0.1:1220".parse().unwrap())) .await?; let remote_p = remote .connect(ProtocolAddr::Tcp("127.0.0.1:1220".parse().unwrap())) .await?; let mut stream_p = remote_p .open(16, PROMISES_ORDERED | PROMISES_CONSISTENCY) .await?; stream_p.send("Hello World")?; let participant_a = network.connected().await?; let mut stream_a = participant_a.opened().await?; //Send Message assert_eq!("Hello World".to_string(), stream_a.recv::().await?); Ok(()) }) } #[test] fn wrong_parse() { let (_, _) = helper::setup(false, 0); let (_n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = block_on(network_participant_stream(tcp())); s1_a.send(1337).unwrap(); match block_on(s1_b.recv::()) { Err(StreamError::DeserializeError(_)) => (), _ => panic!("this should fail, but it doesnt!"), } }