diff options
Diffstat (limited to 'vendor/futures-channel/tests/mpsc-close.rs')
| -rw-r--r-- | vendor/futures-channel/tests/mpsc-close.rs | 298 |
1 files changed, 298 insertions, 0 deletions
diff --git a/vendor/futures-channel/tests/mpsc-close.rs b/vendor/futures-channel/tests/mpsc-close.rs new file mode 100644 index 000000000..81203d334 --- /dev/null +++ b/vendor/futures-channel/tests/mpsc-close.rs @@ -0,0 +1,298 @@ +use futures::channel::mpsc; +use futures::executor::block_on; +use futures::future::Future; +use futures::sink::SinkExt; +use futures::stream::StreamExt; +use futures::task::{Context, Poll}; +use std::pin::Pin; +use std::sync::{Arc, Weak}; +use std::thread; +use std::time::{Duration, Instant}; + +#[test] +fn smoke() { + let (mut sender, receiver) = mpsc::channel(1); + + let t = thread::spawn(move || while let Ok(()) = block_on(sender.send(42)) {}); + + // `receiver` needs to be dropped for `sender` to stop sending and therefore before the join. + block_on(receiver.take(3).for_each(|_| futures::future::ready(()))); + + t.join().unwrap() +} + +#[test] +fn multiple_senders_disconnect() { + { + let (mut tx1, mut rx) = mpsc::channel(1); + let (tx2, mut tx3, mut tx4) = (tx1.clone(), tx1.clone(), tx1.clone()); + + // disconnect, dropping and Sink::poll_close should all close this sender but leave the + // channel open for other senders + tx1.disconnect(); + drop(tx2); + block_on(tx3.close()).unwrap(); + + assert!(tx1.is_closed()); + assert!(tx3.is_closed()); + assert!(!tx4.is_closed()); + + block_on(tx4.send(5)).unwrap(); + assert_eq!(block_on(rx.next()), Some(5)); + + // dropping the final sender will close the channel + drop(tx4); + assert_eq!(block_on(rx.next()), None); + } + + { + let (mut tx1, mut rx) = mpsc::unbounded(); + let (tx2, mut tx3, mut tx4) = (tx1.clone(), tx1.clone(), tx1.clone()); + + // disconnect, dropping and Sink::poll_close should all close this sender but leave the + // channel open for other senders + tx1.disconnect(); + drop(tx2); + block_on(tx3.close()).unwrap(); + + assert!(tx1.is_closed()); + assert!(tx3.is_closed()); + assert!(!tx4.is_closed()); + + block_on(tx4.send(5)).unwrap(); + assert_eq!(block_on(rx.next()), Some(5)); + + // dropping the final sender will close the channel + drop(tx4); + assert_eq!(block_on(rx.next()), None); + } +} + +#[test] +fn multiple_senders_close_channel() { + { + let (mut tx1, mut rx) = mpsc::channel(1); + let mut tx2 = tx1.clone(); + + // close_channel should shut down the whole channel + tx1.close_channel(); + + assert!(tx1.is_closed()); + assert!(tx2.is_closed()); + + let err = block_on(tx2.send(5)).unwrap_err(); + assert!(err.is_disconnected()); + + assert_eq!(block_on(rx.next()), None); + } + + { + let (tx1, mut rx) = mpsc::unbounded(); + let mut tx2 = tx1.clone(); + + // close_channel should shut down the whole channel + tx1.close_channel(); + + assert!(tx1.is_closed()); + assert!(tx2.is_closed()); + + let err = block_on(tx2.send(5)).unwrap_err(); + assert!(err.is_disconnected()); + + assert_eq!(block_on(rx.next()), None); + } +} + +#[test] +fn single_receiver_drop_closes_channel_and_drains() { + { + let ref_count = Arc::new(0); + let weak_ref = Arc::downgrade(&ref_count); + + let (sender, receiver) = mpsc::unbounded(); + sender.unbounded_send(ref_count).expect("failed to send"); + + // Verify that the sent message is still live. + assert!(weak_ref.upgrade().is_some()); + + drop(receiver); + + // The sender should know the channel is closed. + assert!(sender.is_closed()); + + // Verify that the sent message has been dropped. + assert!(weak_ref.upgrade().is_none()); + } + + { + let ref_count = Arc::new(0); + let weak_ref = Arc::downgrade(&ref_count); + + let (mut sender, receiver) = mpsc::channel(1); + sender.try_send(ref_count).expect("failed to send"); + + // Verify that the sent message is still live. + assert!(weak_ref.upgrade().is_some()); + + drop(receiver); + + // The sender should know the channel is closed. + assert!(sender.is_closed()); + + // Verify that the sent message has been dropped. + assert!(weak_ref.upgrade().is_none()); + assert!(sender.is_closed()); + } +} + +// Stress test that `try_send()`s occurring concurrently with receiver +// close/drops don't appear as successful sends. +#[test] +fn stress_try_send_as_receiver_closes() { + const AMT: usize = 10000; + // To provide variable timing characteristics (in the hopes of + // reproducing the collision that leads to a race), we busy-re-poll + // the test MPSC receiver a variable number of times before actually + // stopping. We vary this countdown between 1 and the following + // value. + const MAX_COUNTDOWN: usize = 20; + // When we detect that a successfully sent item is still in the + // queue after a disconnect, we spin for up to 100ms to confirm that + // it is a persistent condition and not a concurrency illusion. + const SPIN_TIMEOUT_S: u64 = 10; + const SPIN_SLEEP_MS: u64 = 10; + struct TestRx { + rx: mpsc::Receiver<Arc<()>>, + // The number of times to query `rx` before dropping it. + poll_count: usize, + } + struct TestTask { + command_rx: mpsc::Receiver<TestRx>, + test_rx: Option<mpsc::Receiver<Arc<()>>>, + countdown: usize, + } + impl TestTask { + /// Create a new TestTask + fn new() -> (TestTask, mpsc::Sender<TestRx>) { + let (command_tx, command_rx) = mpsc::channel::<TestRx>(0); + ( + TestTask { + command_rx, + test_rx: None, + countdown: 0, // 0 means no countdown is in progress. + }, + command_tx, + ) + } + } + impl Future for TestTask { + type Output = (); + + fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { + // Poll the test channel, if one is present. + if let Some(rx) = &mut self.test_rx { + if let Poll::Ready(v) = rx.poll_next_unpin(cx) { + let _ = v.expect("test finished unexpectedly!"); + } + self.countdown -= 1; + // Busy-poll until the countdown is finished. + cx.waker().wake_by_ref(); + } + // Accept any newly submitted MPSC channels for testing. + match self.command_rx.poll_next_unpin(cx) { + Poll::Ready(Some(TestRx { rx, poll_count })) => { + self.test_rx = Some(rx); + self.countdown = poll_count; + cx.waker().wake_by_ref(); + } + Poll::Ready(None) => return Poll::Ready(()), + Poll::Pending => {} + } + if self.countdown == 0 { + // Countdown complete -- drop the Receiver. + self.test_rx = None; + } + Poll::Pending + } + } + let (f, mut cmd_tx) = TestTask::new(); + let bg = thread::spawn(move || block_on(f)); + for i in 0..AMT { + let (mut test_tx, rx) = mpsc::channel(0); + let poll_count = i % MAX_COUNTDOWN; + cmd_tx.try_send(TestRx { rx, poll_count }).unwrap(); + let mut prev_weak: Option<Weak<()>> = None; + let mut attempted_sends = 0; + let mut successful_sends = 0; + loop { + // Create a test item. + let item = Arc::new(()); + let weak = Arc::downgrade(&item); + match test_tx.try_send(item) { + Ok(_) => { + prev_weak = Some(weak); + successful_sends += 1; + } + Err(ref e) if e.is_full() => {} + Err(ref e) if e.is_disconnected() => { + // Test for evidence of the race condition. + if let Some(prev_weak) = prev_weak { + if prev_weak.upgrade().is_some() { + // The previously sent item is still allocated. + // However, there appears to be some aspect of the + // concurrency that can legitimately cause the Arc + // to be momentarily valid. Spin for up to 100ms + // waiting for the previously sent item to be + // dropped. + let t0 = Instant::now(); + let mut spins = 0; + loop { + if prev_weak.upgrade().is_none() { + break; + } + assert!( + t0.elapsed() < Duration::from_secs(SPIN_TIMEOUT_S), + "item not dropped on iteration {} after \ + {} sends ({} successful). spin=({})", + i, + attempted_sends, + successful_sends, + spins + ); + spins += 1; + thread::sleep(Duration::from_millis(SPIN_SLEEP_MS)); + } + } + } + break; + } + Err(ref e) => panic!("unexpected error: {}", e), + } + attempted_sends += 1; + } + } + drop(cmd_tx); + bg.join().expect("background thread join"); +} + +#[test] +fn unbounded_try_next_after_none() { + let (tx, mut rx) = mpsc::unbounded::<String>(); + // Drop the sender, close the channel. + drop(tx); + // Receive the end of channel. + assert_eq!(Ok(None), rx.try_next().map_err(|_| ())); + // None received, check we can call `try_next` again. + assert_eq!(Ok(None), rx.try_next().map_err(|_| ())); +} + +#[test] +fn bounded_try_next_after_none() { + let (tx, mut rx) = mpsc::channel::<String>(17); + // Drop the sender, close the channel. + drop(tx); + // Receive the end of channel. + assert_eq!(Ok(None), rx.try_next().map_err(|_| ())); + // None received, check we can call `try_next` again. + assert_eq!(Ok(None), rx.try_next().map_err(|_| ())); +} |