#![feature(async_await)] use std::future::Future; use std::pin::Pin; use std::task::Waker; use std::task::{Context, Poll}; use std::thread; use std::time::Duration; use async_task::Task; use crossbeam::atomic::AtomicCell; use crossbeam::channel; use lazy_static::lazy_static; // Creates a future with event counters. // // Usage: `future!(f, waker, POLL, DROP)` // // The future `f` always sleeps for 200 ms and returns `Poll::Pending`. // When it gets polled, `POLL` is incremented. // When it gets dropped, `DROP` is incremented. // // Every time the future is run, it stores the waker into a global variable. // This waker can be extracted using the `waker` function. macro_rules! future { ($name:pat, $waker:pat, $poll:ident, $drop:ident) => { lazy_static! { static ref $poll: AtomicCell = AtomicCell::new(0); static ref $drop: AtomicCell = AtomicCell::new(0); static ref WAKER: AtomicCell> = AtomicCell::new(None); } let ($name, $waker) = { struct Fut(Box); impl Future for Fut { type Output = (); fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll { WAKER.store(Some(cx.waker().clone())); $poll.fetch_add(1); thread::sleep(ms(200)); Poll::Pending } } impl Drop for Fut { fn drop(&mut self) { $drop.fetch_add(1); } } (Fut(Box::new(0)), || WAKER.swap(None).unwrap()) }; }; } // Creates a schedule function with event counters. // // Usage: `schedule!(s, chan, SCHED, DROP)` // // The schedule function `s` pushes the task into `chan`. // When it gets invoked, `SCHED` is incremented. // When it gets dropped, `DROP` is incremented. // // Receiver `chan` extracts the task when it is scheduled. macro_rules! schedule { ($name:pat, $chan:pat, $sched:ident, $drop:ident) => { lazy_static! { static ref $sched: AtomicCell = AtomicCell::new(0); static ref $drop: AtomicCell = AtomicCell::new(0); } let ($name, $chan) = { let (s, r) = channel::unbounded(); struct Guard(Box); impl Drop for Guard { fn drop(&mut self) { $drop.fetch_add(1); } } let guard = Guard(Box::new(0)); let sched = move |task: Task<_>| { &guard; $sched.fetch_add(1); s.send(task).unwrap(); }; (sched, r) }; }; } // Creates a task with event counters. // // Usage: `task!(task, handle f, s, DROP)` // // A task with future `f` and schedule function `s` is created. // The `Task` and `JoinHandle` are bound to `task` and `handle`, respectively. // When the tag inside the task gets dropped, `DROP` is incremented. macro_rules! task { ($task:pat, $handle: pat, $future:expr, $schedule:expr, $drop:ident) => { lazy_static! { static ref $drop: AtomicCell = AtomicCell::new(0); } let ($task, $handle) = { struct Tag(Box); impl Drop for Tag { fn drop(&mut self) { $drop.fetch_add(1); } } async_task::spawn($future, $schedule, Tag(Box::new(0))) }; }; } fn ms(ms: u64) -> Duration { Duration::from_millis(ms) } #[test] fn wake_during_run() { future!(f, waker, POLL, DROP_F); schedule!(s, chan, SCHEDULE, DROP_S); task!(task, _handle, f, s, DROP_D); task.run(); let w = waker(); w.wake_by_ref(); let task = chan.recv().unwrap(); crossbeam::scope(|scope| { scope.spawn(|_| { task.run(); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 2); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 1); }); thread::sleep(ms(100)); w.wake_by_ref(); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); thread::sleep(ms(200)); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 2); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 1); }) .unwrap(); chan.recv().unwrap(); drop(waker()); } #[test] fn cancel_during_run() { future!(f, waker, POLL, DROP_F); schedule!(s, chan, SCHEDULE, DROP_S); task!(task, handle, f, s, DROP_D); task.run(); let w = waker(); w.wake(); let task = chan.recv().unwrap(); crossbeam::scope(|scope| { scope.spawn(|_| { task.run(); drop(waker()); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 1); assert_eq!(DROP_S.load(), 1); assert_eq!(DROP_D.load(), 1); assert_eq!(chan.len(), 0); }); thread::sleep(ms(100)); handle.cancel(); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); drop(handle); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); thread::sleep(ms(200)); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 1); assert_eq!(DROP_S.load(), 1); assert_eq!(DROP_D.load(), 1); assert_eq!(chan.len(), 0); }) .unwrap(); } #[test] fn wake_and_cancel_during_run() { future!(f, waker, POLL, DROP_F); schedule!(s, chan, SCHEDULE, DROP_S); task!(task, handle, f, s, DROP_D); task.run(); let w = waker(); w.wake_by_ref(); let task = chan.recv().unwrap(); crossbeam::scope(|scope| { scope.spawn(|_| { task.run(); drop(waker()); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 1); assert_eq!(DROP_S.load(), 1); assert_eq!(DROP_D.load(), 1); assert_eq!(chan.len(), 0); }); thread::sleep(ms(100)); w.wake(); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); handle.cancel(); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); drop(handle); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); thread::sleep(ms(200)); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 1); assert_eq!(DROP_S.load(), 1); assert_eq!(DROP_D.load(), 1); assert_eq!(chan.len(), 0); }) .unwrap(); } #[test] fn cancel_and_wake_during_run() { future!(f, waker, POLL, DROP_F); schedule!(s, chan, SCHEDULE, DROP_S); task!(task, handle, f, s, DROP_D); task.run(); let w = waker(); w.wake_by_ref(); let task = chan.recv().unwrap(); crossbeam::scope(|scope| { scope.spawn(|_| { task.run(); drop(waker()); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 1); assert_eq!(DROP_S.load(), 1); assert_eq!(DROP_D.load(), 1); assert_eq!(chan.len(), 0); }); thread::sleep(ms(100)); handle.cancel(); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); drop(handle); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); w.wake(); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 0); assert_eq!(DROP_S.load(), 0); assert_eq!(DROP_D.load(), 0); assert_eq!(chan.len(), 0); thread::sleep(ms(200)); assert_eq!(POLL.load(), 2); assert_eq!(SCHEDULE.load(), 1); assert_eq!(DROP_F.load(), 1); assert_eq!(DROP_S.load(), 1); assert_eq!(DROP_D.load(), 1); assert_eq!(chan.len(), 0); }) .unwrap(); }