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nest-open-source / manifest_repos / toolchain / 6143c57c644e0da7c4a10d1b4af322f92e74e6f7 / . / arm / usr / lib / rustlib / src / rust / library / std / src / sync / mpsc / sync_tests.rs
blob: 9d2f92ffc9b1415ec6e93a93189f10f64ed35042 [file] [log] [blame]
use super::*;
use crate::env;
use crate::sync::mpmc::SendTimeoutError;
use crate::thread;
use crate::time::Duration;
pub fn stress_factor() -> usize {
match env::var("RUST_TEST_STRESS") {
Ok(val) => val.parse().unwrap(),
Err(..) => 1,
}
}
#[test]
fn smoke() {
let (tx, rx) = sync_channel::<i32>(1);
tx.send(1).unwrap();
assert_eq!(rx.recv().unwrap(), 1);
}
#[test]
fn drop_full() {
let (tx, _rx) = sync_channel::<Box<isize>>(1);
tx.send(Box::new(1)).unwrap();
}
#[test]
fn smoke_shared() {
let (tx, rx) = sync_channel::<i32>(1);
tx.send(1).unwrap();
assert_eq!(rx.recv().unwrap(), 1);
let tx = tx.clone();
tx.send(1).unwrap();
assert_eq!(rx.recv().unwrap(), 1);
}
#[test]
fn recv_timeout() {
let (tx, rx) = sync_channel::<i32>(1);
assert_eq!(rx.recv_timeout(Duration::from_millis(1)), Err(RecvTimeoutError::Timeout));
tx.send(1).unwrap();
assert_eq!(rx.recv_timeout(Duration::from_millis(1)), Ok(1));
}
#[test]
fn send_timeout() {
let (tx, _rx) = sync_channel::<i32>(1);
assert_eq!(tx.send_timeout(1, Duration::from_millis(1)), Ok(()));
assert_eq!(tx.send_timeout(1, Duration::from_millis(1)), Err(SendTimeoutError::Timeout(1)));
}
#[test]
fn smoke_threads() {
let (tx, rx) = sync_channel::<i32>(0);
let _t = thread::spawn(move || {
tx.send(1).unwrap();
});
assert_eq!(rx.recv().unwrap(), 1);
}
#[test]
fn smoke_port_gone() {
let (tx, rx) = sync_channel::<i32>(0);
drop(rx);
assert!(tx.send(1).is_err());
}
#[test]
fn smoke_shared_port_gone2() {
let (tx, rx) = sync_channel::<i32>(0);
drop(rx);
let tx2 = tx.clone();
drop(tx);
assert!(tx2.send(1).is_err());
}
#[test]
fn port_gone_concurrent() {
let (tx, rx) = sync_channel::<i32>(0);
let _t = thread::spawn(move || {
rx.recv().unwrap();
});
while tx.send(1).is_ok() {}
}
#[test]
fn port_gone_concurrent_shared() {
let (tx, rx) = sync_channel::<i32>(0);
let tx2 = tx.clone();
let _t = thread::spawn(move || {
rx.recv().unwrap();
});
while tx.send(1).is_ok() && tx2.send(1).is_ok() {}
}
#[test]
fn smoke_chan_gone() {
let (tx, rx) = sync_channel::<i32>(0);
drop(tx);
assert!(rx.recv().is_err());
}
#[test]
fn smoke_chan_gone_shared() {
let (tx, rx) = sync_channel::<()>(0);
let tx2 = tx.clone();
drop(tx);
drop(tx2);
assert!(rx.recv().is_err());
}
#[test]
fn chan_gone_concurrent() {
let (tx, rx) = sync_channel::<i32>(0);
thread::spawn(move || {
tx.send(1).unwrap();
tx.send(1).unwrap();
});
while rx.recv().is_ok() {}
}
#[test]
fn stress() {
let count = if cfg!(miri) { 100 } else { 10000 };
let (tx, rx) = sync_channel::<i32>(0);
thread::spawn(move || {
for _ in 0..count {
tx.send(1).unwrap();
}
});
for _ in 0..count {
assert_eq!(rx.recv().unwrap(), 1);
}
}
#[test]
fn stress_recv_timeout_two_threads() {
let count = if cfg!(miri) { 100 } else { 10000 };
let (tx, rx) = sync_channel::<i32>(0);
thread::spawn(move || {
for _ in 0..count {
tx.send(1).unwrap();
}
});
let mut recv_count = 0;
loop {
match rx.recv_timeout(Duration::from_millis(1)) {
Ok(v) => {
assert_eq!(v, 1);
recv_count += 1;
}
Err(RecvTimeoutError::Timeout) => continue,
Err(RecvTimeoutError::Disconnected) => break,
}
}
assert_eq!(recv_count, count);
}
#[test]
fn stress_recv_timeout_shared() {
const AMT: u32 = if cfg!(miri) { 100 } else { 1000 };
const NTHREADS: u32 = 8;
let (tx, rx) = sync_channel::<i32>(0);
let (dtx, drx) = sync_channel::<()>(0);
thread::spawn(move || {
let mut recv_count = 0;
loop {
match rx.recv_timeout(Duration::from_millis(10)) {
Ok(v) => {
assert_eq!(v, 1);
recv_count += 1;
}
Err(RecvTimeoutError::Timeout) => continue,
Err(RecvTimeoutError::Disconnected) => break,
}
}
assert_eq!(recv_count, AMT * NTHREADS);
assert!(rx.try_recv().is_err());
dtx.send(()).unwrap();
});
for _ in 0..NTHREADS {
let tx = tx.clone();
thread::spawn(move || {
for _ in 0..AMT {
tx.send(1).unwrap();
}
});
}
drop(tx);
drx.recv().unwrap();
}
#[test]
fn stress_shared() {
const AMT: u32 = if cfg!(miri) { 100 } else { 1000 };
const NTHREADS: u32 = 8;
let (tx, rx) = sync_channel::<i32>(0);
let (dtx, drx) = sync_channel::<()>(0);
thread::spawn(move || {
for _ in 0..AMT * NTHREADS {
assert_eq!(rx.recv().unwrap(), 1);
}
match rx.try_recv() {
Ok(..) => panic!(),
_ => {}
}
dtx.send(()).unwrap();
});
for _ in 0..NTHREADS {
let tx = tx.clone();
thread::spawn(move || {
for _ in 0..AMT {
tx.send(1).unwrap();
}
});
}
drop(tx);
drx.recv().unwrap();
}
#[test]
fn oneshot_single_thread_close_port_first() {
// Simple test of closing without sending
let (_tx, rx) = sync_channel::<i32>(0);
drop(rx);
}
#[test]
fn oneshot_single_thread_close_chan_first() {
// Simple test of closing without sending
let (tx, _rx) = sync_channel::<i32>(0);
drop(tx);
}
#[test]
fn oneshot_single_thread_send_port_close() {
// Testing that the sender cleans up the payload if receiver is closed
let (tx, rx) = sync_channel::<Box<i32>>(0);
drop(rx);
assert!(tx.send(Box::new(0)).is_err());
}
#[test]
fn oneshot_single_thread_recv_chan_close() {
// Receiving on a closed chan will panic
let res = thread::spawn(move || {
let (tx, rx) = sync_channel::<i32>(0);
drop(tx);
rx.recv().unwrap();
})
.join();
// What is our res?
assert!(res.is_err());
}
#[test]
fn oneshot_single_thread_send_then_recv() {
let (tx, rx) = sync_channel::<Box<i32>>(1);
tx.send(Box::new(10)).unwrap();
assert!(*rx.recv().unwrap() == 10);
}
#[test]
fn oneshot_single_thread_try_send_open() {
let (tx, rx) = sync_channel::<i32>(1);
assert_eq!(tx.try_send(10), Ok(()));
assert!(rx.recv().unwrap() == 10);
}
#[test]
fn oneshot_single_thread_try_send_closed() {
let (tx, rx) = sync_channel::<i32>(0);
drop(rx);
assert_eq!(tx.try_send(10), Err(TrySendError::Disconnected(10)));
}
#[test]
fn oneshot_single_thread_try_send_closed2() {
let (tx, _rx) = sync_channel::<i32>(0);
assert_eq!(tx.try_send(10), Err(TrySendError::Full(10)));
}
#[test]
fn oneshot_single_thread_try_recv_open() {
let (tx, rx) = sync_channel::<i32>(1);
tx.send(10).unwrap();
assert!(rx.recv() == Ok(10));
}
#[test]
fn oneshot_single_thread_try_recv_closed() {
let (tx, rx) = sync_channel::<i32>(0);
drop(tx);
assert!(rx.recv().is_err());
}
#[test]
fn oneshot_single_thread_try_recv_closed_with_data() {
let (tx, rx) = sync_channel::<i32>(1);
tx.send(10).unwrap();
drop(tx);
assert_eq!(rx.try_recv(), Ok(10));
assert_eq!(rx.try_recv(), Err(TryRecvError::Disconnected));
}
#[test]
fn oneshot_single_thread_peek_data() {
let (tx, rx) = sync_channel::<i32>(1);
assert_eq!(rx.try_recv(), Err(TryRecvError::Empty));
tx.send(10).unwrap();
assert_eq!(rx.try_recv(), Ok(10));
}
#[test]
fn oneshot_single_thread_peek_close() {
let (tx, rx) = sync_channel::<i32>(0);
drop(tx);
assert_eq!(rx.try_recv(), Err(TryRecvError::Disconnected));
assert_eq!(rx.try_recv(), Err(TryRecvError::Disconnected));
}
#[test]
fn oneshot_single_thread_peek_open() {
let (_tx, rx) = sync_channel::<i32>(0);
assert_eq!(rx.try_recv(), Err(TryRecvError::Empty));
}
#[test]
fn oneshot_multi_task_recv_then_send() {
let (tx, rx) = sync_channel::<Box<i32>>(0);
let _t = thread::spawn(move || {
assert!(*rx.recv().unwrap() == 10);
});
tx.send(Box::new(10)).unwrap();
}
#[test]
fn oneshot_multi_task_recv_then_close() {
let (tx, rx) = sync_channel::<Box<i32>>(0);
let _t = thread::spawn(move || {
drop(tx);
});
let res = thread::spawn(move || {
assert!(*rx.recv().unwrap() == 10);
})
.join();
assert!(res.is_err());
}
#[test]
fn oneshot_multi_thread_close_stress() {
for _ in 0..stress_factor() {
let (tx, rx) = sync_channel::<i32>(0);
let _t = thread::spawn(move || {
drop(rx);
});
drop(tx);
}
}
#[test]
fn oneshot_multi_thread_send_close_stress() {
for _ in 0..stress_factor() {
let (tx, rx) = sync_channel::<i32>(0);
let _t = thread::spawn(move || {
drop(rx);
});
let _ = thread::spawn(move || {
tx.send(1).unwrap();
})
.join();
}
}
#[test]
fn oneshot_multi_thread_recv_close_stress() {
for _ in 0..stress_factor() {
let (tx, rx) = sync_channel::<i32>(0);
let _t = thread::spawn(move || {
let res = thread::spawn(move || {
rx.recv().unwrap();
})
.join();
assert!(res.is_err());
});
let _t = thread::spawn(move || {
thread::spawn(move || {
drop(tx);
});
});
}
}
#[test]
fn oneshot_multi_thread_send_recv_stress() {
for _ in 0..stress_factor() {
let (tx, rx) = sync_channel::<Box<i32>>(0);
let _t = thread::spawn(move || {
tx.send(Box::new(10)).unwrap();
});
assert!(*rx.recv().unwrap() == 10);
}
}
#[test]
fn stream_send_recv_stress() {
for _ in 0..stress_factor() {
let (tx, rx) = sync_channel::<Box<i32>>(0);
send(tx, 0);
recv(rx, 0);
fn send(tx: SyncSender<Box<i32>>, i: i32) {
if i == 10 {
return;
}
thread::spawn(move || {
tx.send(Box::new(i)).unwrap();
send(tx, i + 1);
});
}
fn recv(rx: Receiver<Box<i32>>, i: i32) {
if i == 10 {
return;
}
thread::spawn(move || {
assert!(*rx.recv().unwrap() == i);
recv(rx, i + 1);
});
}
}
}
#[test]
fn recv_a_lot() {
let count = if cfg!(miri) { 1000 } else { 10000 };
// Regression test that we don't run out of stack in scheduler context
let (tx, rx) = sync_channel(count);
for _ in 0..count {
tx.send(()).unwrap();
}
for _ in 0..count {
rx.recv().unwrap();
}
}
#[test]
fn shared_chan_stress() {
let (tx, rx) = sync_channel(0);
let total = stress_factor() + 100;
for _ in 0..total {
let tx = tx.clone();
thread::spawn(move || {
tx.send(()).unwrap();
});
}
for _ in 0..total {
rx.recv().unwrap();
}
}
#[test]
fn test_nested_recv_iter() {
let (tx, rx) = sync_channel::<i32>(0);
let (total_tx, total_rx) = sync_channel::<i32>(0);
let _t = thread::spawn(move || {
let mut acc = 0;
for x in rx.iter() {
acc += x;
}
total_tx.send(acc).unwrap();
});
tx.send(3).unwrap();
tx.send(1).unwrap();
tx.send(2).unwrap();
drop(tx);
assert_eq!(total_rx.recv().unwrap(), 6);
}
#[test]
fn test_recv_iter_break() {
let (tx, rx) = sync_channel::<i32>(0);
let (count_tx, count_rx) = sync_channel(0);
let _t = thread::spawn(move || {
let mut count = 0;
for x in rx.iter() {
if count >= 3 {
break;
} else {
count += x;
}
}
count_tx.send(count).unwrap();
});
tx.send(2).unwrap();
tx.send(2).unwrap();
tx.send(2).unwrap();
let _ = tx.try_send(2);
drop(tx);
assert_eq!(count_rx.recv().unwrap(), 4);
}
#[test]
fn try_recv_states() {
let (tx1, rx1) = sync_channel::<i32>(1);
let (tx2, rx2) = sync_channel::<()>(1);
let (tx3, rx3) = sync_channel::<()>(1);
let _t = thread::spawn(move || {
rx2.recv().unwrap();
tx1.send(1).unwrap();
tx3.send(()).unwrap();
rx2.recv().unwrap();
drop(tx1);
tx3.send(()).unwrap();
});
assert_eq!(rx1.try_recv(), Err(TryRecvError::Empty));
tx2.send(()).unwrap();
rx3.recv().unwrap();
assert_eq!(rx1.try_recv(), Ok(1));
assert_eq!(rx1.try_recv(), Err(TryRecvError::Empty));
tx2.send(()).unwrap();
rx3.recv().unwrap();
assert_eq!(rx1.try_recv(), Err(TryRecvError::Disconnected));
}
// This bug used to end up in a livelock inside of the Receiver destructor
// because the internal state of the Shared packet was corrupted
#[test]
fn destroy_upgraded_shared_port_when_sender_still_active() {
let (tx, rx) = sync_channel::<()>(0);
let (tx2, rx2) = sync_channel::<()>(0);
let _t = thread::spawn(move || {
rx.recv().unwrap(); // wait on a oneshot
drop(rx); // destroy a shared
tx2.send(()).unwrap();
});
// make sure the other thread has gone to sleep
for _ in 0..5000 {
thread::yield_now();
}
// upgrade to a shared chan and send a message
let t = tx.clone();
drop(tx);
t.send(()).unwrap();
// wait for the child thread to exit before we exit
rx2.recv().unwrap();
}
#[test]
fn send1() {
let (tx, rx) = sync_channel::<i32>(0);
let _t = thread::spawn(move || {
rx.recv().unwrap();
});
assert_eq!(tx.send(1), Ok(()));
}
#[test]
fn send2() {
let (tx, rx) = sync_channel::<i32>(0);
let _t = thread::spawn(move || {
drop(rx);
});
assert!(tx.send(1).is_err());
}
#[test]
fn send3() {
let (tx, rx) = sync_channel::<i32>(1);
assert_eq!(tx.send(1), Ok(()));
let _t = thread::spawn(move || {
drop(rx);
});
assert!(tx.send(1).is_err());
}
#[test]
fn send4() {
let (tx, rx) = sync_channel::<i32>(0);
let tx2 = tx.clone();
let (done, donerx) = channel();
let done2 = done.clone();
let _t = thread::spawn(move || {
assert!(tx.send(1).is_err());
done.send(()).unwrap();
});
let _t = thread::spawn(move || {
assert!(tx2.send(2).is_err());
done2.send(()).unwrap();
});
drop(rx);
donerx.recv().unwrap();
donerx.recv().unwrap();
}
#[test]
fn try_send1() {
let (tx, _rx) = sync_channel::<i32>(0);
assert_eq!(tx.try_send(1), Err(TrySendError::Full(1)));
}
#[test]
fn try_send2() {
let (tx, _rx) = sync_channel::<i32>(1);
assert_eq!(tx.try_send(1), Ok(()));
assert_eq!(tx.try_send(1), Err(TrySendError::Full(1)));
}
#[test]
fn try_send3() {
let (tx, rx) = sync_channel::<i32>(1);
assert_eq!(tx.try_send(1), Ok(()));
drop(rx);
assert_eq!(tx.try_send(1), Err(TrySendError::Disconnected(1)));
}
#[test]
fn issue_15761() {
fn repro() {
let (tx1, rx1) = sync_channel::<()>(3);
let (tx2, rx2) = sync_channel::<()>(3);
let _t = thread::spawn(move || {
rx1.recv().unwrap();
tx2.try_send(()).unwrap();
});
tx1.try_send(()).unwrap();
rx2.recv().unwrap();
}
for _ in 0..100 {
repro()
}
}