#![allow(unknown_lints, unexpected_cfgs)] #![warn(rust_2018_idioms)] #![cfg(feature = "full")] use futures::{ future::{pending, ready}, FutureExt, }; use tokio::runtime; use tokio::sync::{mpsc, oneshot}; use tokio::task::{self, LocalSet}; use tokio::time; #[cfg(not(target_os = "wasi"))] use std::cell::Cell; use std::sync::atomic::AtomicBool; #[cfg(not(target_os = "wasi"))] use std::sync::atomic::AtomicUsize; use std::sync::atomic::Ordering; #[cfg(not(target_os = "wasi"))] use std::sync::atomic::Ordering::SeqCst; use std::time::Duration; #[tokio::test(flavor = "current_thread")] async fn local_current_thread_scheduler() { LocalSet::new() .run_until(async { task::spawn_local(async {}).await.unwrap(); }) .await; } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[tokio::test(flavor = "multi_thread")] async fn local_threadpool() { thread_local! { static ON_RT_THREAD: Cell = const { Cell::new(false) }; } ON_RT_THREAD.with(|cell| cell.set(true)); LocalSet::new() .run_until(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); task::spawn_local(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); }) .await .unwrap(); }) .await; } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[tokio::test(flavor = "multi_thread")] async fn localset_future_threadpool() { thread_local! { static ON_LOCAL_THREAD: Cell = const { Cell::new(false) }; } ON_LOCAL_THREAD.with(|cell| cell.set(true)); let local = LocalSet::new(); local.spawn_local(async move { assert!(ON_LOCAL_THREAD.with(|cell| cell.get())); }); local.await; } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[tokio::test(flavor = "multi_thread")] async fn localset_future_timers() { static RAN1: AtomicBool = AtomicBool::new(false); static RAN2: AtomicBool = AtomicBool::new(false); let local = LocalSet::new(); local.spawn_local(async move { time::sleep(Duration::from_millis(5)).await; RAN1.store(true, Ordering::SeqCst); }); local.spawn_local(async move { time::sleep(Duration::from_millis(10)).await; RAN2.store(true, Ordering::SeqCst); }); local.await; assert!(RAN1.load(Ordering::SeqCst)); assert!(RAN2.load(Ordering::SeqCst)); } #[tokio::test] async fn localset_future_drives_all_local_futs() { static RAN1: AtomicBool = AtomicBool::new(false); static RAN2: AtomicBool = AtomicBool::new(false); static RAN3: AtomicBool = AtomicBool::new(false); let local = LocalSet::new(); local.spawn_local(async move { task::spawn_local(async { task::yield_now().await; RAN3.store(true, Ordering::SeqCst); }); task::yield_now().await; RAN1.store(true, Ordering::SeqCst); }); local.spawn_local(async move { task::yield_now().await; RAN2.store(true, Ordering::SeqCst); }); local.await; assert!(RAN1.load(Ordering::SeqCst)); assert!(RAN2.load(Ordering::SeqCst)); assert!(RAN3.load(Ordering::SeqCst)); } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[tokio::test(flavor = "multi_thread")] async fn local_threadpool_timer() { // This test ensures that runtime services like the timer are properly // set for the local task set. thread_local! { static ON_RT_THREAD: Cell = const { Cell::new(false) }; } ON_RT_THREAD.with(|cell| cell.set(true)); LocalSet::new() .run_until(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); let join = task::spawn_local(async move { assert!(ON_RT_THREAD.with(|cell| cell.get())); time::sleep(Duration::from_millis(10)).await; assert!(ON_RT_THREAD.with(|cell| cell.get())); }); join.await.unwrap(); }) .await; } #[test] fn enter_guard_spawn() { let local = LocalSet::new(); let _guard = local.enter(); // Run the local task set. let join = task::spawn_local(async { true }); let rt = runtime::Builder::new_current_thread() .enable_all() .build() .unwrap(); local.block_on(&rt, async move { assert!(join.await.unwrap()); }); } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support panic recovery #[test] // This will panic, since the thread that calls `block_on` cannot use // in-place blocking inside of `block_on`. #[should_panic] fn local_threadpool_blocking_in_place() { thread_local! { static ON_RT_THREAD: Cell = const { Cell::new(false) }; } ON_RT_THREAD.with(|cell| cell.set(true)); let rt = runtime::Builder::new_current_thread() .enable_all() .build() .unwrap(); LocalSet::new().block_on(&rt, async { assert!(ON_RT_THREAD.with(|cell| cell.get())); let join = task::spawn_local(async move { assert!(ON_RT_THREAD.with(|cell| cell.get())); task::block_in_place(|| {}); assert!(ON_RT_THREAD.with(|cell| cell.get())); }); join.await.unwrap(); }); } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[tokio::test(flavor = "multi_thread")] async fn local_threadpool_blocking_run() { thread_local! { static ON_RT_THREAD: Cell = const { Cell::new(false) }; } ON_RT_THREAD.with(|cell| cell.set(true)); LocalSet::new() .run_until(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); let join = task::spawn_local(async move { assert!(ON_RT_THREAD.with(|cell| cell.get())); task::spawn_blocking(|| { assert!( !ON_RT_THREAD.with(|cell| cell.get()), "blocking must not run on the local task set's thread" ); }) .await .unwrap(); assert!(ON_RT_THREAD.with(|cell| cell.get())); }); join.await.unwrap(); }) .await; } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[tokio::test(flavor = "multi_thread")] async fn all_spawns_are_local() { use futures::future; thread_local! { static ON_RT_THREAD: Cell = const { Cell::new(false) }; } ON_RT_THREAD.with(|cell| cell.set(true)); LocalSet::new() .run_until(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); let handles = (0..128) .map(|_| { task::spawn_local(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); }) }) .collect::>(); for joined in future::join_all(handles).await { joined.unwrap(); } }) .await; } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[tokio::test(flavor = "multi_thread")] async fn nested_spawn_is_local() { thread_local! { static ON_RT_THREAD: Cell = const { Cell::new(false) }; } ON_RT_THREAD.with(|cell| cell.set(true)); LocalSet::new() .run_until(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); task::spawn_local(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); task::spawn_local(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); task::spawn_local(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); task::spawn_local(async { assert!(ON_RT_THREAD.with(|cell| cell.get())); }) .await .unwrap(); }) .await .unwrap(); }) .await .unwrap(); }) .await .unwrap(); }) .await; } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[test] fn join_local_future_elsewhere() { thread_local! { static ON_RT_THREAD: Cell = const { Cell::new(false) }; } ON_RT_THREAD.with(|cell| cell.set(true)); let rt = runtime::Runtime::new().unwrap(); let local = LocalSet::new(); local.block_on(&rt, async move { let (tx, rx) = oneshot::channel(); let join = task::spawn_local(async move { assert!( ON_RT_THREAD.with(|cell| cell.get()), "local task must run on local thread, no matter where it is awaited" ); rx.await.unwrap(); "hello world" }); let join2 = task::spawn(async move { assert!( !ON_RT_THREAD.with(|cell| cell.get()), "spawned task should be on a worker" ); tx.send(()).expect("task shouldn't have ended yet"); join.await.expect("task should complete successfully"); }); join2.await.unwrap() }); } // Tests for #[cfg(not(target_os = "wasi"))] // Wasi doesn't support threads #[tokio::test(flavor = "multi_thread")] async fn localset_in_thread_local() { thread_local! { static LOCAL_SET: LocalSet = LocalSet::new(); } // holds runtime thread until end of main fn. let (_tx, rx) = oneshot::channel::<()>(); let handle = tokio::runtime::Handle::current(); std::thread::spawn(move || { LOCAL_SET.with(|local_set| { handle.block_on(local_set.run_until(async move { let _ = rx.await; })) }); }); } #[test] fn drop_cancels_tasks() { use std::rc::Rc; // This test reproduces issue #1842 let rt = rt(); let rc1 = Rc::new(()); let rc2 = rc1.clone(); let (started_tx, started_rx) = oneshot::channel(); let local = LocalSet::new(); local.spawn_local(async move { // Move this in let _rc2 = rc2; started_tx.send(()).unwrap(); futures::future::pending::<()>().await; }); local.block_on(&rt, async { started_rx.await.unwrap(); }); drop(local); drop(rt); assert_eq!(1, Rc::strong_count(&rc1)); } /// Runs a test function in a separate thread, and panics if the test does not /// complete within the specified timeout, or if the test function panics. /// /// This is intended for running tests whose failure mode is a hang or infinite /// loop that cannot be detected otherwise. fn with_timeout(timeout: Duration, f: impl FnOnce() + Send + 'static) { use std::sync::mpsc::RecvTimeoutError; let (done_tx, done_rx) = std::sync::mpsc::channel(); let thread = std::thread::spawn(move || { f(); // Send a message on the channel so that the test thread can // determine if we have entered an infinite loop: done_tx.send(()).unwrap(); }); // Since the failure mode of this test is an infinite loop, rather than // something we can easily make assertions about, we'll run it in a // thread. When the test thread finishes, it will send a message on a // channel to this thread. We'll wait for that message with a fairly // generous timeout, and if we don't receive it, we assume the test // thread has hung. // // Note that it should definitely complete in under a minute, but just // in case CI is slow, we'll give it a long timeout. match done_rx.recv_timeout(timeout) { Err(RecvTimeoutError::Timeout) => panic!( "test did not complete within {:?} seconds, \ we have (probably) entered an infinite loop!", timeout, ), // Did the test thread panic? We'll find out for sure when we `join` // with it. Err(RecvTimeoutError::Disconnected) => {} // Test completed successfully! Ok(()) => {} } thread.join().expect("test thread should not panic!") } #[cfg_attr( target_os = "wasi", ignore = "`unwrap()` in `with_timeout()` panics on Wasi" )] #[test] fn drop_cancels_remote_tasks() { // This test reproduces issue #1885. with_timeout(Duration::from_secs(60), || { let (tx, mut rx) = mpsc::channel::<()>(1024); let rt = rt(); let local = LocalSet::new(); local.spawn_local(async move { while rx.recv().await.is_some() {} }); local.block_on(&rt, async { time::sleep(Duration::from_millis(1)).await; }); drop(tx); // This enters an infinite loop if the remote notified tasks are not // properly cancelled. drop(local); }); } #[cfg_attr( target_os = "wasi", ignore = "FIXME: `task::spawn_local().await.unwrap()` panics on Wasi" )] #[test] fn local_tasks_wake_join_all() { // This test reproduces issue #2460. with_timeout(Duration::from_secs(60), || { use futures::future::join_all; use tokio::task::LocalSet; let rt = rt(); let set = LocalSet::new(); let mut handles = Vec::new(); for _ in 1..=128 { handles.push(set.spawn_local(async move { tokio::task::spawn_local(async move {}).await.unwrap(); })); } rt.block_on(set.run_until(join_all(handles))); }); } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support panic recovery #[test] fn local_tasks_are_polled_after_tick() { // This test depends on timing, so we run it up to five times. for _ in 0..4 { let res = std::panic::catch_unwind(local_tasks_are_polled_after_tick_inner); if res.is_ok() { // success return; } } // Test failed 4 times. Try one more time without catching panics. If it // fails again, the test fails. local_tasks_are_polled_after_tick_inner(); } #[cfg(not(target_os = "wasi"))] // Wasi doesn't support panic recovery #[tokio::main(flavor = "current_thread")] async fn local_tasks_are_polled_after_tick_inner() { // Reproduces issues #1899 and #1900 static RX1: AtomicUsize = AtomicUsize::new(0); static RX2: AtomicUsize = AtomicUsize::new(0); const EXPECTED: usize = 500; RX1.store(0, SeqCst); RX2.store(0, SeqCst); let (tx, mut rx) = mpsc::unbounded_channel(); let local = LocalSet::new(); local .run_until(async { let task2 = task::spawn(async move { // Wait a bit time::sleep(Duration::from_millis(10)).await; let mut oneshots = Vec::with_capacity(EXPECTED); // Send values for _ in 0..EXPECTED { let (oneshot_tx, oneshot_rx) = oneshot::channel(); oneshots.push(oneshot_tx); tx.send(oneshot_rx).unwrap(); } time::sleep(Duration::from_millis(10)).await; for tx in oneshots.drain(..) { tx.send(()).unwrap(); } loop { time::sleep(Duration::from_millis(20)).await; let rx1 = RX1.load(SeqCst); let rx2 = RX2.load(SeqCst); if rx1 == EXPECTED && rx2 == EXPECTED { break; } } }); while let Some(oneshot) = rx.recv().await { RX1.fetch_add(1, SeqCst); task::spawn_local(async move { oneshot.await.unwrap(); RX2.fetch_add(1, SeqCst); }); } task2.await.unwrap(); }) .await; } #[tokio::test] async fn acquire_mutex_in_drop() { use futures::future::pending; let (tx1, rx1) = oneshot::channel(); let (tx2, rx2) = oneshot::channel(); let local = LocalSet::new(); local.spawn_local(async move { let _ = rx2.await; unreachable!(); }); local.spawn_local(async move { let _ = rx1.await; tx2.send(()).unwrap(); unreachable!(); }); // Spawn a task that will never notify local.spawn_local(async move { pending::<()>().await; tx1.send(()).unwrap(); }); // Tick the loop local .run_until(async { task::yield_now().await; }) .await; // Drop the LocalSet drop(local); } #[tokio::test] async fn spawn_wakes_localset() { let local = LocalSet::new(); futures::select! { _ = local.run_until(pending::<()>()).fuse() => unreachable!(), ret = async { local.spawn_local(ready(())).await.unwrap()}.fuse() => ret } } /// Checks that the task wakes up with `enter`. /// Reproduces . #[tokio::test] async fn sleep_with_local_enter_guard() { let local = LocalSet::new(); let _guard = local.enter(); let (tx, rx) = oneshot::channel(); local .run_until(async move { tokio::task::spawn_local(async move { time::sleep(Duration::ZERO).await; tx.send(()).expect("failed to send"); }); assert_eq!(rx.await, Ok(())); }) .await; } #[test] fn store_local_set_in_thread_local_with_runtime() { use tokio::runtime::Runtime; thread_local! { static CURRENT: RtAndLocalSet = RtAndLocalSet::new(); } struct RtAndLocalSet { rt: Runtime, local: LocalSet, } impl RtAndLocalSet { fn new() -> RtAndLocalSet { RtAndLocalSet { rt: tokio::runtime::Builder::new_current_thread() .enable_all() .build() .unwrap(), local: LocalSet::new(), } } async fn inner_method(&self) { self.local .run_until(async move { tokio::task::spawn_local(async {}); }) .await } fn method(&self) { self.rt.block_on(self.inner_method()); } } CURRENT.with(|f| { f.method(); }); } #[cfg(tokio_unstable)] mod unstable { use tokio::runtime::UnhandledPanic; use tokio::task::LocalSet; #[tokio::test] #[should_panic( expected = "a spawned task panicked and the LocalSet is configured to shutdown on unhandled panic" )] async fn shutdown_on_panic() { LocalSet::new() .unhandled_panic(UnhandledPanic::ShutdownRuntime) .run_until(async { tokio::task::spawn_local(async { panic!("boom"); }); futures::future::pending::<()>().await; }) .await; } // This test compares that, when the task driving `run_until` has already // consumed budget, the `run_until` future has less budget than a "spawned" // task. // // "Budget" is a fuzzy metric as the Tokio runtime is able to change values // internally. This is why the test uses indirection to test this. #[tokio::test] async fn run_until_does_not_get_own_budget() { // Consume some budget tokio::task::consume_budget().await; LocalSet::new() .run_until(async { let spawned = tokio::spawn(async { let mut spawned_n = 0; { let mut spawned = tokio_test::task::spawn(async { loop { spawned_n += 1; tokio::task::consume_budget().await; } }); // Poll once assert!(!spawned.poll().is_ready()); } spawned_n }); let mut run_until_n = 0; { let mut run_until = tokio_test::task::spawn(async { loop { run_until_n += 1; tokio::task::consume_budget().await; } }); // Poll once assert!(!run_until.poll().is_ready()); } let spawned_n = spawned.await.unwrap(); assert_ne!(spawned_n, 0); assert_ne!(run_until_n, 0); assert!(spawned_n > run_until_n); }) .await } } fn rt() -> runtime::Runtime { tokio::runtime::Builder::new_current_thread() .enable_all() .build() .unwrap() }