rust/kernel/time/hrtimer/pin.rs - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0

 use super::HasHrTimer;
 use super::HrTimer;
 use super::HrTimerCallback;
 use super::HrTimerHandle;
 use super::HrTimerMode;
 use super::RawHrTimerCallback;
 use super::UnsafeHrTimerPointer;
 use core::pin::Pin;

 /// A handle for a `Pin<&HasHrTimer>`. When the handle exists, the timer might be
 /// running.
 pub struct PinHrTimerHandle<'a, T>
 where
     T: HasHrTimer<T>,
 {
     pub(crate) inner: Pin<&'a T>,
 }

 // SAFETY: We cancel the timer when the handle is dropped. The implementation of
 // the `cancel` method will block if the timer handler is running.
 unsafe impl<'a, T> HrTimerHandle for PinHrTimerHandle<'a, T>
 where
     T: HasHrTimer<T>,
 {
     fn cancel(&mut self) -> bool {
         let self_ptr: *const T = self.inner.get_ref();

         // SAFETY: As we got `self_ptr` from a reference above, it must point to
         // a valid `T`.
         let timer_ptr = unsafe { <T as HasHrTimer<T>>::raw_get_timer(self_ptr) };

         // SAFETY: As `timer_ptr` is derived from a reference, it must point to
         // a valid and initialized `HrTimer`.
         unsafe { HrTimer::<T>::raw_cancel(timer_ptr) }
     }
 }

 impl<'a, T> Drop for PinHrTimerHandle<'a, T>
 where
     T: HasHrTimer<T>,
 {
     fn drop(&mut self) {
         self.cancel();
     }
 }

 // SAFETY: We capture the lifetime of `Self` when we create a `PinHrTimerHandle`,
 // so `Self` will outlive the handle.
 unsafe impl<'a, T> UnsafeHrTimerPointer for Pin<&'a T>
 where
     T: Send + Sync,
     T: HasHrTimer<T>,
     T: HrTimerCallback<Pointer<'a> = Self>,
 {
     type TimerMode = <T as HasHrTimer<T>>::TimerMode;
     type TimerHandle = PinHrTimerHandle<'a, T>;

     unsafe fn start(
         self,
         expires: <<T as HasHrTimer<T>>::TimerMode as HrTimerMode>::Expires,
     ) -> Self::TimerHandle {
         // Cast to pointer
         let self_ptr: *const T = self.get_ref();

         // SAFETY:
         //  - As we derive `self_ptr` from a reference above, it must point to a
         //    valid `T`.
         //  - We keep `self` alive by wrapping it in a handle below.
         unsafe { T::start(self_ptr, expires) };

         PinHrTimerHandle { inner: self }
     }
 }

 impl<'a, T> RawHrTimerCallback for Pin<&'a T>
 where
     T: HasHrTimer<T>,
     T: HrTimerCallback<Pointer<'a> = Self>,
 {
     type CallbackTarget<'b> = Self;

     unsafe extern "C" fn run(ptr: *mut bindings::hrtimer) -> bindings::hrtimer_restart {
         // `HrTimer` is `repr(C)`
         let timer_ptr = ptr.cast::<HrTimer<T>>();

         // SAFETY: By the safety requirement of this function, `timer_ptr`
         // points to a `HrTimer<T>` contained in an `T`.
         let receiver_ptr = unsafe { T::timer_container_of(timer_ptr) };

         // SAFETY:
         //  - By the safety requirement of this function, `timer_ptr`
         //    points to a `HrTimer<T>` contained in an `T`.
         //  - As per the safety requirements of the trait `HrTimerHandle`, the
         //    `PinHrTimerHandle` associated with this timer is guaranteed to
         //    be alive until this method returns. That handle borrows the `T`
         //    behind `receiver_ptr`, thus guaranteeing the validity of
         //    the reference created below.
         let receiver_ref = unsafe { &*receiver_ptr };

         // SAFETY: `receiver_ref` only exists as pinned, so it is safe to pin it
         // here.
         let receiver_pin = unsafe { Pin::new_unchecked(receiver_ref) };

         T::run(receiver_pin).into_c()
     }
 }
	// SPDX-License-Identifier: GPL-2.0

	use super::HasHrTimer;
	use super::HrTimer;
	use super::HrTimerCallback;
	use super::HrTimerHandle;
	use super::HrTimerMode;
	use super::RawHrTimerCallback;
	use super::UnsafeHrTimerPointer;
	use core::pin::Pin;

	/// A handle for a `Pin<&HasHrTimer>`. When the handle exists, the timer might be
	/// running.
	pub struct PinHrTimerHandle<'a, T>
	where
	T: HasHrTimer<T>,
	{
	pub(crate) inner: Pin<&'a T>,
	}

	// SAFETY: We cancel the timer when the handle is dropped. The implementation of
	// the `cancel` method will block if the timer handler is running.
	unsafe impl<'a, T> HrTimerHandle for PinHrTimerHandle<'a, T>
	where
	T: HasHrTimer<T>,
	{
	fn cancel(&mut self) -> bool {
	let self_ptr: *const T = self.inner.get_ref();

	// SAFETY: As we got `self_ptr` from a reference above, it must point to
	// a valid `T`.
	let timer_ptr = unsafe { <T as HasHrTimer<T>>::raw_get_timer(self_ptr) };

	// SAFETY: As `timer_ptr` is derived from a reference, it must point to
	// a valid and initialized `HrTimer`.
	unsafe { HrTimer::<T>::raw_cancel(timer_ptr) }
	}
	}

	impl<'a, T> Drop for PinHrTimerHandle<'a, T>
	where
	T: HasHrTimer<T>,
	{
	fn drop(&mut self) {
	self.cancel();
	}
	}

	// SAFETY: We capture the lifetime of `Self` when we create a `PinHrTimerHandle`,
	// so `Self` will outlive the handle.
	unsafe impl<'a, T> UnsafeHrTimerPointer for Pin<&'a T>
	where
	T: Send + Sync,
	T: HasHrTimer<T>,
	T: HrTimerCallback<Pointer<'a> = Self>,
	{
	type TimerMode = <T as HasHrTimer<T>>::TimerMode;
	type TimerHandle = PinHrTimerHandle<'a, T>;

	unsafe fn start(
	self,
	expires: <<T as HasHrTimer<T>>::TimerMode as HrTimerMode>::Expires,
	) -> Self::TimerHandle {
	// Cast to pointer
	let self_ptr: *const T = self.get_ref();

	// SAFETY:
	// - As we derive `self_ptr` from a reference above, it must point to a
	// valid `T`.
	// - We keep `self` alive by wrapping it in a handle below.
	unsafe { T::start(self_ptr, expires) };

	PinHrTimerHandle { inner: self }
	}
	}

	impl<'a, T> RawHrTimerCallback for Pin<&'a T>
	where
	T: HasHrTimer<T>,
	T: HrTimerCallback<Pointer<'a> = Self>,
	{
	type CallbackTarget<'b> = Self;

	unsafe extern "C" fn run(ptr: *mut bindings::hrtimer) -> bindings::hrtimer_restart {
	// `HrTimer` is `repr(C)`
	let timer_ptr = ptr.cast::<HrTimer<T>>();

	// SAFETY: By the safety requirement of this function, `timer_ptr`
	// points to a `HrTimer<T>` contained in an `T`.
	let receiver_ptr = unsafe { T::timer_container_of(timer_ptr) };

	// SAFETY:
	// - By the safety requirement of this function, `timer_ptr`
	// points to a `HrTimer<T>` contained in an `T`.
	// - As per the safety requirements of the trait `HrTimerHandle`, the
	// `PinHrTimerHandle` associated with this timer is guaranteed to
	// be alive until this method returns. That handle borrows the `T`
	// behind `receiver_ptr`, thus guaranteeing the validity of
	// the reference created below.
	let receiver_ref = unsafe { &*receiver_ptr };

	// SAFETY: `receiver_ref` only exists as pinned, so it is safe to pin it
	// here.
	let receiver_pin = unsafe { Pin::new_unchecked(receiver_ref) };

	T::run(receiver_pin).into_c()
	}
	}