rust/kernel/time/hrtimer/tbox.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::HrTimerPointer;
 use super::RawHrTimerCallback;
 use crate::prelude::*;
 use core::ptr::NonNull;

 /// A handle for a [`Box<HasHrTimer<T>>`] returned by a call to
 /// [`HrTimerPointer::start`].
 ///
 /// # Invariants
 ///
 /// - `self.inner` comes from a `Box::into_raw` call.
 pub struct BoxHrTimerHandle<T, A>
 where
     T: HasHrTimer<T>,
     A: crate::alloc::Allocator,
 {
     pub(crate) inner: NonNull<T>,
     _p: core::marker::PhantomData<A>,
 }

 // SAFETY: We implement drop below, and we cancel the timer in the drop
 // implementation.
 unsafe impl<T, A> HrTimerHandle for BoxHrTimerHandle<T, A>
 where
     T: HasHrTimer<T>,
     A: crate::alloc::Allocator,
 {
     fn cancel(&mut self) -> bool {
         // SAFETY: As we obtained `self.inner` from a valid reference when we
         // created `self`, it must point to a valid `T`.
         let timer_ptr = unsafe { <T as HasHrTimer<T>>::raw_get_timer(self.inner.as_ptr()) };

         // SAFETY: As `timer_ptr` points into `T` and `T` is valid, `timer_ptr`
         // must point to a valid `HrTimer` instance.
         unsafe { HrTimer::<T>::raw_cancel(timer_ptr) }
     }
 }

 impl<T, A> Drop for BoxHrTimerHandle<T, A>
 where
     T: HasHrTimer<T>,
     A: crate::alloc::Allocator,
 {
     fn drop(&mut self) {
         self.cancel();
         // SAFETY: By type invariant, `self.inner` came from a `Box::into_raw`
         // call.
         drop(unsafe { Box::<T, A>::from_raw(self.inner.as_ptr()) })
     }
 }

 impl<T, A> HrTimerPointer for Pin<Box<T, A>>
 where
     T: 'static,
     T: Send + Sync,
     T: HasHrTimer<T>,
     T: for<'a> HrTimerCallback<Pointer<'a> = Pin<Box<T, A>>>,
     A: crate::alloc::Allocator,
 {
     type TimerMode = <T as HasHrTimer<T>>::TimerMode;
     type TimerHandle = BoxHrTimerHandle<T, A>;

     fn start(
         self,
         expires: <<T as HasHrTimer<T>>::TimerMode as HrTimerMode>::Expires,
     ) -> Self::TimerHandle {
         // SAFETY:
         //  - We will not move out of this box during timer callback (we pass an
         //    immutable reference to the callback).
         //  - `Box::into_raw` is guaranteed to return a valid pointer.
         let inner =
             unsafe { NonNull::new_unchecked(Box::into_raw(Pin::into_inner_unchecked(self))) };

         // SAFETY:
         //  - We keep `self` alive by wrapping it in a handle below.
         //  - Since we generate the pointer passed to `start` from a valid
         //    reference, it is a valid pointer.
         unsafe { T::start(inner.as_ptr(), expires) };

         // INVARIANT: `inner` came from `Box::into_raw` above.
         BoxHrTimerHandle {
             inner,
             _p: core::marker::PhantomData,
         }
     }
 }

 impl<T, A> RawHrTimerCallback for Pin<Box<T, A>>
 where
     T: 'static,
     T: HasHrTimer<T>,
     T: for<'a> HrTimerCallback<Pointer<'a> = Pin<Box<T, A>>>,
     A: crate::alloc::Allocator,
 {
     type CallbackTarget<'a> = Pin<&'a mut T>;

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

         // SAFETY: By C API contract `ptr` is the pointer we passed when
         // queuing the timer, so it is a `HrTimer<T>` embedded in a `T`.
         let data_ptr = unsafe { T::timer_container_of(timer_ptr) };

         // SAFETY:
         //  - As per the safety requirements of the trait `HrTimerHandle`, the
         //   `BoxHrTimerHandle` associated with this timer is guaranteed to
         //   be alive until this method returns. That handle owns the `T`
         //   behind `data_ptr` thus guaranteeing the validity of
         //   the reference created below.
         // - As `data_ptr` comes from a `Pin<Box<T>>`, only pinned references to
         //   `data_ptr` exist.
         let data_mut_ref = unsafe { Pin::new_unchecked(&mut *data_ptr) };

         T::run(data_mut_ref).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::HrTimerPointer;
	use super::RawHrTimerCallback;
	use crate::prelude::*;
	use core::ptr::NonNull;

	/// A handle for a [`Box<HasHrTimer<T>>`] returned by a call to
	/// [`HrTimerPointer::start`].
	///
	/// # Invariants
	///
	/// - `self.inner` comes from a `Box::into_raw` call.
	pub struct BoxHrTimerHandle<T, A>
	where
	T: HasHrTimer<T>,
	A: crate::alloc::Allocator,
	{
	pub(crate) inner: NonNull<T>,
	_p: core::marker::PhantomData<A>,
	}

	// SAFETY: We implement drop below, and we cancel the timer in the drop
	// implementation.
	unsafe impl<T, A> HrTimerHandle for BoxHrTimerHandle<T, A>
	where
	T: HasHrTimer<T>,
	A: crate::alloc::Allocator,
	{
	fn cancel(&mut self) -> bool {
	// SAFETY: As we obtained `self.inner` from a valid reference when we
	// created `self`, it must point to a valid `T`.
	let timer_ptr = unsafe { <T as HasHrTimer<T>>::raw_get_timer(self.inner.as_ptr()) };

	// SAFETY: As `timer_ptr` points into `T` and `T` is valid, `timer_ptr`
	// must point to a valid `HrTimer` instance.
	unsafe { HrTimer::<T>::raw_cancel(timer_ptr) }
	}
	}

	impl<T, A> Drop for BoxHrTimerHandle<T, A>
	where
	T: HasHrTimer<T>,
	A: crate::alloc::Allocator,
	{
	fn drop(&mut self) {
	self.cancel();
	// SAFETY: By type invariant, `self.inner` came from a `Box::into_raw`
	// call.
	drop(unsafe { Box::<T, A>::from_raw(self.inner.as_ptr()) })
	}
	}

	impl<T, A> HrTimerPointer for Pin<Box<T, A>>
	where
	T: 'static,
	T: Send + Sync,
	T: HasHrTimer<T>,
	T: for<'a> HrTimerCallback<Pointer<'a> = Pin<Box<T, A>>>,
	A: crate::alloc::Allocator,
	{
	type TimerMode = <T as HasHrTimer<T>>::TimerMode;
	type TimerHandle = BoxHrTimerHandle<T, A>;

	fn start(
	self,
	expires: <<T as HasHrTimer<T>>::TimerMode as HrTimerMode>::Expires,
	) -> Self::TimerHandle {
	// SAFETY:
	// - We will not move out of this box during timer callback (we pass an
	// immutable reference to the callback).
	// - `Box::into_raw` is guaranteed to return a valid pointer.
	let inner =
	unsafe { NonNull::new_unchecked(Box::into_raw(Pin::into_inner_unchecked(self))) };

	// SAFETY:
	// - We keep `self` alive by wrapping it in a handle below.
	// - Since we generate the pointer passed to `start` from a valid
	// reference, it is a valid pointer.
	unsafe { T::start(inner.as_ptr(), expires) };

	// INVARIANT: `inner` came from `Box::into_raw` above.
	BoxHrTimerHandle {
	inner,
	_p: core::marker::PhantomData,
	}
	}
	}

	impl<T, A> RawHrTimerCallback for Pin<Box<T, A>>
	where
	T: 'static,
	T: HasHrTimer<T>,
	T: for<'a> HrTimerCallback<Pointer<'a> = Pin<Box<T, A>>>,
	A: crate::alloc::Allocator,
	{
	type CallbackTarget<'a> = Pin<&'a mut T>;

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

	// SAFETY: By C API contract `ptr` is the pointer we passed when
	// queuing the timer, so it is a `HrTimer<T>` embedded in a `T`.
	let data_ptr = unsafe { T::timer_container_of(timer_ptr) };

	// SAFETY:
	// - As per the safety requirements of the trait `HrTimerHandle`, the
	// `BoxHrTimerHandle` associated with this timer is guaranteed to
	// be alive until this method returns. That handle owns the `T`
	// behind `data_ptr` thus guaranteeing the validity of
	// the reference created below.
	// - As `data_ptr` comes from a `Pin<Box<T>>`, only pinned references to
	// `data_ptr` exist.
	let data_mut_ref = unsafe { Pin::new_unchecked(&mut *data_ptr) };

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