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use crate::task::AtomicWaker; use futures_core::future::Future; use futures_core::task::{Context, Poll}; use pin_utils::unsafe_pinned; use core::pin::Pin; use core::sync::atomic::{AtomicBool, Ordering}; use alloc::sync::Arc; /// A future which can be remotely short-circuited using an `AbortHandle`. #[derive(Debug, Clone)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct Abortable<Fut> { future: Fut, inner: Arc<AbortInner>, } impl<Fut: Unpin> Unpin for Abortable<Fut> {} impl<Fut> Abortable<Fut> where Fut: Future { unsafe_pinned!(future: Fut); /// Creates a new `Abortable` future using an existing `AbortRegistration`. /// `AbortRegistration`s can be acquired through `AbortHandle::new`. /// /// When `abort` is called on the handle tied to `reg` or if `abort` has /// already been called, the future will complete immediately without making /// any further progress. /// /// Example: /// /// ``` /// #![feature(async_await)] /// # futures::executor::block_on(async { /// use futures::future::{ready, Abortable, AbortHandle, Aborted}; /// /// let (abort_handle, abort_registration) = AbortHandle::new_pair(); /// let future = Abortable::new(ready(2), abort_registration); /// abort_handle.abort(); /// assert_eq!(future.await, Err(Aborted)); /// # }); /// ``` pub fn new(future: Fut, reg: AbortRegistration) -> Self { Abortable { future, inner: reg.inner, } } } /// A registration handle for a `Abortable` future. /// Values of this type can be acquired from `AbortHandle::new` and are used /// in calls to `Abortable::new`. #[derive(Debug)] pub struct AbortRegistration { inner: Arc<AbortInner>, } /// A handle to a `Abortable` future. #[derive(Debug, Clone)] pub struct AbortHandle { inner: Arc<AbortInner>, } impl AbortHandle { /// Creates an (`AbortHandle`, `AbortRegistration`) pair which can be used /// to abort a running future. /// /// This function is usually paired with a call to `Abortable::new`. /// /// Example: /// /// ``` /// #![feature(async_await)] /// # futures::executor::block_on(async { /// use futures::future::{ready, Abortable, AbortHandle, Aborted}; /// /// let (abort_handle, abort_registration) = AbortHandle::new_pair(); /// let future = Abortable::new(ready(2), abort_registration); /// abort_handle.abort(); /// assert_eq!(future.await, Err(Aborted)); /// # }); /// ``` pub fn new_pair() -> (Self, AbortRegistration) { let inner = Arc::new(AbortInner { waker: AtomicWaker::new(), cancel: AtomicBool::new(false), }); ( AbortHandle { inner: inner.clone(), }, AbortRegistration { inner, }, ) } } // Inner type storing the waker to awaken and a bool indicating that it // should be cancelled. #[derive(Debug)] struct AbortInner { waker: AtomicWaker, cancel: AtomicBool, } /// Creates a new `Abortable` future and a `AbortHandle` which can be used to stop it. /// /// This function is a convenient (but less flexible) alternative to calling /// `AbortHandle::new` and `Abortable::new` manually. /// /// This function is only available when the `std` or `alloc` feature of this /// library is activated, and it is activated by default. pub fn abortable<Fut>(future: Fut) -> (Abortable<Fut>, AbortHandle) where Fut: Future { let (handle, reg) = AbortHandle::new_pair(); ( Abortable::new(future, reg), handle, ) } /// Indicator that the `Abortable` future was aborted. #[derive(Copy, Clone, Debug, Eq, PartialEq)] pub struct Aborted; impl<Fut> Future for Abortable<Fut> where Fut: Future { type Output = Result<Fut::Output, Aborted>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { // Check if the future has been aborted if self.inner.cancel.load(Ordering::Relaxed) { return Poll::Ready(Err(Aborted)) } // attempt to complete the future if let Poll::Ready(x) = self.as_mut().future().poll(cx) { return Poll::Ready(Ok(x)) } // Register to receive a wakeup if the future is aborted in the... future self.inner.waker.register(cx.waker()); // Check to see if the future was aborted between the first check and // registration. // Checking with `Relaxed` is sufficient because `register` introduces an // `AcqRel` barrier. if self.inner.cancel.load(Ordering::Relaxed) { return Poll::Ready(Err(Aborted)) } Poll::Pending } } impl AbortHandle { /// Abort the `Abortable` future associated with this handle. /// /// Notifies the Abortable future associated with this handle that it /// should abort. Note that if the future is currently being polled on /// another thread, it will not immediately stop running. Instead, it will /// continue to run until its poll method returns. pub fn abort(&self) { self.inner.cancel.store(true, Ordering::Relaxed); self.inner.waker.wake(); } }