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Location: CSY/reowolf/src/runtime/my_tests.rs - annotation
48b0400c877f
2.9 KiB
application/rls-services+xml
clearer input output wiring
44a98be4e4b4 1bacc6467d19 1bacc6467d19 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 1bacc6467d19 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 1bacc6467d19 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 1bacc6467d19 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 1bacc6467d19 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 1bacc6467d19 44a98be4e4b4 1bacc6467d19 1bacc6467d19 1bacc6467d19 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 1bacc6467d19 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 44a98be4e4b4 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 1bacc6467d19 | use crate as reowolf;
use crossbeam_utils::thread::scope;
use reowolf::{Connector, EndpointSetup, Polarity::*, ProtocolDescription};
use std::net::SocketAddr;
use std::{sync::Arc, time::Duration};
fn next_test_addr() -> SocketAddr {
use std::{
net::{Ipv4Addr, SocketAddrV4},
sync::atomic::{AtomicU16, Ordering::SeqCst},
};
static TEST_PORT: AtomicU16 = AtomicU16::new(5_000);
let port = TEST_PORT.fetch_add(1, SeqCst);
SocketAddrV4::new(Ipv4Addr::LOCALHOST, port).into()
}
lazy_static::lazy_static! {
static ref MINIMAL_PROTO: Arc<ProtocolDescription> =
{ Arc::new(reowolf::ProtocolDescription::parse(b"").unwrap()) };
}
#[test]
fn simple_connector() {
let c = Connector::new_simple(MINIMAL_PROTO.clone(), 0);
println!("{:#?}", c);
}
#[test]
fn add_port_pair() {
let mut c = Connector::new_simple(MINIMAL_PROTO.clone(), 0);
let [_, _] = c.add_port_pair();
let [_, _] = c.add_port_pair();
println!("{:#?}", c);
}
#[test]
fn add_sync() {
let mut c = Connector::new_simple(MINIMAL_PROTO.clone(), 0);
let [o, i] = c.add_port_pair();
c.add_component(b"sync", &[i, o]).unwrap();
println!("{:#?}", c);
}
#[test]
fn add_net_port() {
let mut c = Connector::new_simple(MINIMAL_PROTO.clone(), 0);
let sock_addr = next_test_addr();
let _ =
c.add_net_port(EndpointSetup { polarity: Getter, sock_addr, is_active: false }).unwrap();
let _ = c.add_net_port(EndpointSetup { polarity: Putter, sock_addr, is_active: true }).unwrap();
println!("{:#?}", c);
}
#[test]
fn trivial_connect() {
let mut c = Connector::new_simple(MINIMAL_PROTO.clone(), 0);
c.connect(Duration::from_secs(1)).unwrap();
println!("{:#?}", c);
}
#[test]
fn single_node_connect() {
let sock_addr = next_test_addr();
let mut c = Connector::new_simple(MINIMAL_PROTO.clone(), 0);
let _ =
c.add_net_port(EndpointSetup { polarity: Getter, sock_addr, is_active: false }).unwrap();
let _ = c.add_net_port(EndpointSetup { polarity: Putter, sock_addr, is_active: true }).unwrap();
c.connect(Duration::from_secs(1)).unwrap();
println!("{:#?}", c);
c.get_logger().dump_log(&mut std::io::stdout().lock());
}
#[test]
fn multithreaded_connect() {
let sock_addr = next_test_addr();
scope(|s| {
s.spawn(|_| {
let mut c = Connector::new_simple(MINIMAL_PROTO.clone(), 0);
let es = EndpointSetup { polarity: Getter, sock_addr, is_active: true };
let _ = c.add_net_port(es).unwrap();
c.connect(Duration::from_secs(1)).unwrap();
c.print_state();
});
s.spawn(|_| {
let mut c = Connector::new_simple(MINIMAL_PROTO.clone(), 1);
let es = EndpointSetup { polarity: Putter, sock_addr, is_active: false };
let _ = c.add_net_port(es).unwrap();
c.connect(Duration::from_secs(1)).unwrap();
c.print_state();
});
})
.unwrap();
}
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