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veloren/network/tests/integration.rs

310 lines
11 KiB
Rust
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use std::sync::Arc;
use tokio::runtime::Runtime;
use veloren_network::{NetworkError, StreamError};
mod helper;
use helper::{mpsc, network_participant_stream, quic, tcp, udp, SLEEP_EXTERNAL, SLEEP_INTERNAL};
use std::io::ErrorKind;
use veloren_network::{ConnectAddr, ListenAddr, Network, Pid, Promises};
#[test]
fn stream_simple() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(tcp());
s1_a.send("Hello World").unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("Hello World".to_string()));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
fn stream_try_recv() {
let (_, _) = helper::setup(false, 0);
let (_r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(tcp());
s1_a.send(4242u32).unwrap();
std::thread::sleep(SLEEP_EXTERNAL);
assert_eq!(s1_b.try_recv(), Ok(Some(4242u32)));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
fn stream_simple_3msg() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(tcp());
s1_a.send("Hello World").unwrap();
s1_a.send(1337).unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("Hello World".to_string()));
assert_eq!(r.block_on(s1_b.recv()), Ok(1337));
s1_a.send("3rdMessage").unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("3rdMessage".to_string()));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
fn stream_simple_mpsc() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(mpsc());
s1_a.send("Hello World").unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("Hello World".to_string()));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
fn stream_simple_mpsc_3msg() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(mpsc());
s1_a.send("Hello World").unwrap();
s1_a.send(1337).unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("Hello World".to_string()));
assert_eq!(r.block_on(s1_b.recv()), Ok(1337));
s1_a.send("3rdMessage").unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("3rdMessage".to_string()));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
fn stream_simple_quic() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(quic());
s1_a.send("Hello World").unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("Hello World".to_string()));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
fn stream_simple_quic_3msg() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(quic());
s1_a.send("Hello World").unwrap();
s1_a.send(1337).unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("Hello World".to_string()));
assert_eq!(r.block_on(s1_b.recv()), Ok(1337));
s1_a.send("3rdMessage").unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("3rdMessage".to_string()));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
#[ignore]
fn stream_simple_udp() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(udp());
s1_a.send("Hello World").unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("Hello World".to_string()));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
#[ignore]
fn stream_simple_udp_3msg() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(udp());
s1_a.send("Hello World").unwrap();
s1_a.send(1337).unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("Hello World".to_string()));
assert_eq!(r.block_on(s1_b.recv()), Ok(1337));
s1_a.send("3rdMessage").unwrap();
assert_eq!(r.block_on(s1_b.recv()), Ok("3rdMessage".to_string()));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
#[ignore]
fn tcp_and_udp_2_connections() -> std::result::Result<(), Box<dyn std::error::Error>> {
let (_, _) = helper::setup(false, 0);
let r = Arc::new(Runtime::new().unwrap());
let network = Network::new(Pid::new(), &r);
let remote = Network::new(Pid::new(), &r);
r.block_on(async {
let network = network;
let remote = remote;
remote
.listen(ListenAddr::Tcp("127.0.0.1:2000".parse().unwrap()))
.await?;
remote
.listen(ListenAddr::Udp("127.0.0.1:2001".parse().unwrap()))
.await?;
let p1 = network
.connect(ConnectAddr::Tcp("127.0.0.1:2000".parse().unwrap()))
.await?;
let p2 = network
.connect(ConnectAddr::Udp("127.0.0.1:2001".parse().unwrap()))
.await?;
assert_eq!(&p1, &p2);
Ok(())
})
}
#[test]
#[ignore]
fn failed_listen_on_used_ports() -> std::result::Result<(), Box<dyn std::error::Error>> {
let (_, _) = helper::setup(false, 0);
let r = Arc::new(Runtime::new().unwrap());
let network = Network::new(Pid::new(), &r);
let udp1 = udp();
let tcp1 = tcp();
r.block_on(network.listen(udp1.0.clone()))?;
r.block_on(network.listen(tcp1.0.clone()))?;
std::thread::sleep(SLEEP_INTERNAL);
let network2 = Network::new(Pid::new(), &r);
let e1 = r.block_on(network2.listen(udp1.0));
let e2 = r.block_on(network2.listen(tcp1.0));
match e1 {
Err(NetworkError::ListenFailed(e)) if e.kind() == ErrorKind::AddrInUse => (),
_ => panic!(),
};
match e2 {
Err(NetworkError::ListenFailed(e)) if e.kind() == ErrorKind::AddrInUse => (),
_ => panic!(),
};
drop((network, network2)); //clean teardown
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<dyn std::error::Error>> {
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 r = Arc::new(Runtime::new().unwrap());
let network = Network::new(Pid::new(), &r);
let remote = Network::new(Pid::new(), &r);
r.block_on(async {
let network = network;
let remote = remote;
network
.listen(ListenAddr::Tcp("127.0.0.1:1200".parse().unwrap()))
.await?;
let remote_p = remote
.connect(ConnectAddr::Tcp("127.0.0.1:1200".parse().unwrap()))
.await?;
// keep it alive
let _stream_p = remote_p
.open(4, Promises::ORDERED | Promises::CONSISTENCY, 0)
.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<dyn std::error::Error>> {
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 r = Arc::new(Runtime::new().unwrap());
let network = Network::new(Pid::new(), &r);
let remote = Network::new(Pid::new(), &r);
r.block_on(async {
let network = network;
let remote = remote;
network
.listen(ListenAddr::Tcp("127.0.0.1:1220".parse().unwrap()))
.await?;
let remote_p = remote
.connect(ConnectAddr::Tcp("127.0.0.1:1220".parse().unwrap()))
.await?;
let mut stream_p = remote_p
.open(4, Promises::ORDERED | Promises::CONSISTENCY, 0)
.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::<String>().await?);
Ok(())
})
}
#[test]
fn wrong_parse() {
let (_, _) = helper::setup(false, 0);
let (r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(tcp());
s1_a.send(1337).unwrap();
match r.block_on(s1_b.recv::<String>()) {
Err(StreamError::Deserialize(_)) => (),
_ => panic!("this should fail, but it doesnt!"),
}
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
#[test]
fn multiple_try_recv() {
let (_, _) = helper::setup(false, 0);
let (_r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(tcp());
s1_a.send("asd").unwrap();
s1_a.send(11u32).unwrap();
std::thread::sleep(SLEEP_EXTERNAL);
assert_eq!(s1_b.try_recv(), Ok(Some("asd".to_string())));
assert_eq!(s1_b.try_recv::<u32>(), Ok(Some(11u32)));
assert_eq!(s1_b.try_recv::<String>(), Ok(None));
drop(s1_a);
std::thread::sleep(SLEEP_EXTERNAL);
assert_eq!(s1_b.try_recv::<String>(), Err(StreamError::StreamClosed));
drop((_n_a, _n_b, _p_a, _p_b)); //clean teardown
}
/// If we listen on a IPv6 UNSPECIFIED address, on linux it will automatically
/// listen on the respective IPv4 address. This must not be as we should behave
/// similar under windows and linux.
///
/// As most CI servers don't have IPv6 configured, this would return
/// ConnectFailed(Io(Os { code: 99, kind: AddrNotAvailable, message: "Cannot
/// assign requested address" })) we have to disable this test in CI, but it was
/// manually tested on linux and windows
///
/// On Windows this test must be executed as root to listen on IPv6::UNSPECIFIED
#[test]
#[ignore]
fn listen_on_ipv6_doesnt_block_ipv4() {
let (_, _) = helper::setup(false, 0);
let tcpv4 = tcp();
let port = if let ListenAddr::Tcp(x) = tcpv4.0 {
x.port()
} else {
unreachable!()
};
let tcpv6 = (
ListenAddr::Tcp(std::net::SocketAddr::from((
std::net::Ipv6Addr::UNSPECIFIED,
port,
))),
ConnectAddr::Tcp(std::net::SocketAddr::from((
std::net::Ipv6Addr::UNSPECIFIED,
port,
))),
);
let (_r, _n_a, _p_a, mut s1_a, _n_b, _p_b, mut s1_b) = network_participant_stream(tcpv6);
std::thread::sleep(SLEEP_EXTERNAL);
let (_r2, _n_a2, _p_a2, mut s1_a2, _n_b2, _p_b2, mut s1_b2) = network_participant_stream(tcpv4);
s1_a.send(42u32).unwrap();
s1_a2.send(1337u32).unwrap();
std::thread::sleep(SLEEP_EXTERNAL);
assert_eq!(s1_b.try_recv::<u32>(), Ok(Some(42u32)));
assert_eq!(s1_b2.try_recv::<u32>(), Ok(Some(1337u32)));
drop((s1_a, s1_b, _n_a, _n_b, _p_a, _p_b));
drop((s1_a2, s1_b2, _n_a2, _n_b2, _p_a2, _p_b2)); //clean teardown
}
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