1use super::arc_wake::ArcWake;
2use alloc::sync::Arc;
3use core::mem;
4use core::task::{RawWaker, RawWakerVTable, Waker};
5
6pub(super) fn waker_vtable<W: ArcWake>() -> &'static RawWakerVTable {
7 &RawWakerVTable::new(
8 clone_arc_raw::<W>,
9 wake_arc_raw::<W>,
10 wake_by_ref_arc_raw::<W>,
11 drop_arc_raw::<W>,
12 )
13}
14
15/// Creates a [`Waker`] from an `Arc<impl ArcWake>`.
16///
17/// The returned [`Waker`] will call
18/// [`ArcWake.wake()`](ArcWake::wake) if awoken.
19pub fn waker<W>(wake: Arc<W>) -> Waker
20where
21 W: ArcWake + 'static,
22{
23 let ptr = Arc::into_raw(wake).cast::<()>();
24
25 unsafe { Waker::from_raw(RawWaker::new(ptr, waker_vtable::<W>())) }
26}
27
28// FIXME: panics on Arc::clone / refcount changes could wreak havoc on the
29// code here. We should guard against this by aborting.
30
31#[allow(clippy::redundant_clone)] // The clone here isn't actually redundant.
32unsafe fn increase_refcount<T: ArcWake>(data: *const ()) {
33 // Retain Arc, but don't touch refcount by wrapping in ManuallyDrop
34 let arc = mem::ManuallyDrop::new(Arc::<T>::from_raw(data.cast::<T>()));
35 // Now increase refcount, but don't drop new refcount either
36 let _arc_clone: mem::ManuallyDrop<_> = arc.clone();
37}
38
39// used by `waker_ref`
40unsafe fn clone_arc_raw<T: ArcWake>(data: *const ()) -> RawWaker {
41 increase_refcount::<T>(data);
42 RawWaker::new(data, waker_vtable::<T>())
43}
44
45unsafe fn wake_arc_raw<T: ArcWake>(data: *const ()) {
46 let arc: Arc<T> = Arc::from_raw(data.cast::<T>());
47 ArcWake::wake(arc);
48}
49
50// used by `waker_ref`
51unsafe fn wake_by_ref_arc_raw<T: ArcWake>(data: *const ()) {
52 // Retain Arc, but don't touch refcount by wrapping in ManuallyDrop
53 let arc = mem::ManuallyDrop::new(Arc::<T>::from_raw(data.cast::<T>()));
54 ArcWake::wake_by_ref(&arc);
55}
56
57unsafe fn drop_arc_raw<T: ArcWake>(data: *const ()) {
58 drop(Arc::<T>::from_raw(data.cast::<T>()))
59}
60