1*582523d9SAndreas Hindborg // SPDX-License-Identifier: GPL-2.0 2*582523d9SAndreas Hindborg 3*582523d9SAndreas Hindborg use super::HasHrTimer; 4*582523d9SAndreas Hindborg use super::HrTimer; 5*582523d9SAndreas Hindborg use super::HrTimerCallback; 6*582523d9SAndreas Hindborg use super::HrTimerHandle; 7*582523d9SAndreas Hindborg use super::RawHrTimerCallback; 8*582523d9SAndreas Hindborg use super::UnsafeHrTimerPointer; 9*582523d9SAndreas Hindborg use crate::time::Ktime; 10*582523d9SAndreas Hindborg use core::pin::Pin; 11*582523d9SAndreas Hindborg 12*582523d9SAndreas Hindborg /// A handle for a `Pin<&HasHrTimer>`. When the handle exists, the timer might be 13*582523d9SAndreas Hindborg /// running. 14*582523d9SAndreas Hindborg pub struct PinHrTimerHandle<'a, T> 15*582523d9SAndreas Hindborg where 16*582523d9SAndreas Hindborg T: HasHrTimer<T>, 17*582523d9SAndreas Hindborg { 18*582523d9SAndreas Hindborg pub(crate) inner: Pin<&'a T>, 19*582523d9SAndreas Hindborg } 20*582523d9SAndreas Hindborg 21*582523d9SAndreas Hindborg // SAFETY: We cancel the timer when the handle is dropped. The implementation of 22*582523d9SAndreas Hindborg // the `cancel` method will block if the timer handler is running. 23*582523d9SAndreas Hindborg unsafe impl<'a, T> HrTimerHandle for PinHrTimerHandle<'a, T> 24*582523d9SAndreas Hindborg where 25*582523d9SAndreas Hindborg T: HasHrTimer<T>, 26*582523d9SAndreas Hindborg { cancel(&mut self) -> bool27*582523d9SAndreas Hindborg fn cancel(&mut self) -> bool { 28*582523d9SAndreas Hindborg let self_ptr: *const T = self.inner.get_ref(); 29*582523d9SAndreas Hindborg 30*582523d9SAndreas Hindborg // SAFETY: As we got `self_ptr` from a reference above, it must point to 31*582523d9SAndreas Hindborg // a valid `T`. 32*582523d9SAndreas Hindborg let timer_ptr = unsafe { <T as HasHrTimer<T>>::raw_get_timer(self_ptr) }; 33*582523d9SAndreas Hindborg 34*582523d9SAndreas Hindborg // SAFETY: As `timer_ptr` is derived from a reference, it must point to 35*582523d9SAndreas Hindborg // a valid and initialized `HrTimer`. 36*582523d9SAndreas Hindborg unsafe { HrTimer::<T>::raw_cancel(timer_ptr) } 37*582523d9SAndreas Hindborg } 38*582523d9SAndreas Hindborg } 39*582523d9SAndreas Hindborg 40*582523d9SAndreas Hindborg impl<'a, T> Drop for PinHrTimerHandle<'a, T> 41*582523d9SAndreas Hindborg where 42*582523d9SAndreas Hindborg T: HasHrTimer<T>, 43*582523d9SAndreas Hindborg { drop(&mut self)44*582523d9SAndreas Hindborg fn drop(&mut self) { 45*582523d9SAndreas Hindborg self.cancel(); 46*582523d9SAndreas Hindborg } 47*582523d9SAndreas Hindborg } 48*582523d9SAndreas Hindborg 49*582523d9SAndreas Hindborg // SAFETY: We capture the lifetime of `Self` when we create a `PinHrTimerHandle`, 50*582523d9SAndreas Hindborg // so `Self` will outlive the handle. 51*582523d9SAndreas Hindborg unsafe impl<'a, T> UnsafeHrTimerPointer for Pin<&'a T> 52*582523d9SAndreas Hindborg where 53*582523d9SAndreas Hindborg T: Send + Sync, 54*582523d9SAndreas Hindborg T: HasHrTimer<T>, 55*582523d9SAndreas Hindborg T: HrTimerCallback<Pointer<'a> = Self>, 56*582523d9SAndreas Hindborg { 57*582523d9SAndreas Hindborg type TimerHandle = PinHrTimerHandle<'a, T>; 58*582523d9SAndreas Hindborg start(self, expires: Ktime) -> Self::TimerHandle59*582523d9SAndreas Hindborg unsafe fn start(self, expires: Ktime) -> Self::TimerHandle { 60*582523d9SAndreas Hindborg // Cast to pointer 61*582523d9SAndreas Hindborg let self_ptr: *const T = self.get_ref(); 62*582523d9SAndreas Hindborg 63*582523d9SAndreas Hindborg // SAFETY: 64*582523d9SAndreas Hindborg // - As we derive `self_ptr` from a reference above, it must point to a 65*582523d9SAndreas Hindborg // valid `T`. 66*582523d9SAndreas Hindborg // - We keep `self` alive by wrapping it in a handle below. 67*582523d9SAndreas Hindborg unsafe { T::start(self_ptr, expires) }; 68*582523d9SAndreas Hindborg 69*582523d9SAndreas Hindborg PinHrTimerHandle { inner: self } 70*582523d9SAndreas Hindborg } 71*582523d9SAndreas Hindborg } 72*582523d9SAndreas Hindborg 73*582523d9SAndreas Hindborg impl<'a, T> RawHrTimerCallback for Pin<&'a T> 74*582523d9SAndreas Hindborg where 75*582523d9SAndreas Hindborg T: HasHrTimer<T>, 76*582523d9SAndreas Hindborg T: HrTimerCallback<Pointer<'a> = Self>, 77*582523d9SAndreas Hindborg { 78*582523d9SAndreas Hindborg type CallbackTarget<'b> = Self; 79*582523d9SAndreas Hindborg run(ptr: *mut bindings::hrtimer) -> bindings::hrtimer_restart80*582523d9SAndreas Hindborg unsafe extern "C" fn run(ptr: *mut bindings::hrtimer) -> bindings::hrtimer_restart { 81*582523d9SAndreas Hindborg // `HrTimer` is `repr(C)` 82*582523d9SAndreas Hindborg let timer_ptr = ptr as *mut HrTimer<T>; 83*582523d9SAndreas Hindborg 84*582523d9SAndreas Hindborg // SAFETY: By the safety requirement of this function, `timer_ptr` 85*582523d9SAndreas Hindborg // points to a `HrTimer<T>` contained in an `T`. 86*582523d9SAndreas Hindborg let receiver_ptr = unsafe { T::timer_container_of(timer_ptr) }; 87*582523d9SAndreas Hindborg 88*582523d9SAndreas Hindborg // SAFETY: 89*582523d9SAndreas Hindborg // - By the safety requirement of this function, `timer_ptr` 90*582523d9SAndreas Hindborg // points to a `HrTimer<T>` contained in an `T`. 91*582523d9SAndreas Hindborg // - As per the safety requirements of the trait `HrTimerHandle`, the 92*582523d9SAndreas Hindborg // `PinHrTimerHandle` associated with this timer is guaranteed to 93*582523d9SAndreas Hindborg // be alive until this method returns. That handle borrows the `T` 94*582523d9SAndreas Hindborg // behind `receiver_ptr`, thus guaranteeing the validity of 95*582523d9SAndreas Hindborg // the reference created below. 96*582523d9SAndreas Hindborg let receiver_ref = unsafe { &*receiver_ptr }; 97*582523d9SAndreas Hindborg 98*582523d9SAndreas Hindborg // SAFETY: `receiver_ref` only exists as pinned, so it is safe to pin it 99*582523d9SAndreas Hindborg // here. 100*582523d9SAndreas Hindborg let receiver_pin = unsafe { Pin::new_unchecked(receiver_ref) }; 101*582523d9SAndreas Hindborg 102*582523d9SAndreas Hindborg T::run(receiver_pin).into_c() 103*582523d9SAndreas Hindborg } 104*582523d9SAndreas Hindborg } 105