10494d9c8SWedson Almeida Filho // SPDX-License-Identifier: GPL-2.0 20494d9c8SWedson Almeida Filho 30494d9c8SWedson Almeida Filho //! Revocable objects. 40494d9c8SWedson Almeida Filho //! 50494d9c8SWedson Almeida Filho //! The [`Revocable`] type wraps other types and allows access to them to be revoked. The existence 60494d9c8SWedson Almeida Filho //! of a [`RevocableGuard`] ensures that objects remain valid. 70494d9c8SWedson Almeida Filho 80494d9c8SWedson Almeida Filho use crate::{bindings, prelude::*, sync::rcu, types::Opaque}; 90494d9c8SWedson Almeida Filho use core::{ 100494d9c8SWedson Almeida Filho marker::PhantomData, 110494d9c8SWedson Almeida Filho ops::Deref, 120494d9c8SWedson Almeida Filho ptr::drop_in_place, 130494d9c8SWedson Almeida Filho sync::atomic::{AtomicBool, Ordering}, 140494d9c8SWedson Almeida Filho }; 150494d9c8SWedson Almeida Filho 160494d9c8SWedson Almeida Filho /// An object that can become inaccessible at runtime. 170494d9c8SWedson Almeida Filho /// 180494d9c8SWedson Almeida Filho /// Once access is revoked and all concurrent users complete (i.e., all existing instances of 190494d9c8SWedson Almeida Filho /// [`RevocableGuard`] are dropped), the wrapped object is also dropped. 200494d9c8SWedson Almeida Filho /// 210494d9c8SWedson Almeida Filho /// # Examples 220494d9c8SWedson Almeida Filho /// 230494d9c8SWedson Almeida Filho /// ``` 240494d9c8SWedson Almeida Filho /// # use kernel::revocable::Revocable; 250494d9c8SWedson Almeida Filho /// 260494d9c8SWedson Almeida Filho /// struct Example { 270494d9c8SWedson Almeida Filho /// a: u32, 280494d9c8SWedson Almeida Filho /// b: u32, 290494d9c8SWedson Almeida Filho /// } 300494d9c8SWedson Almeida Filho /// 310494d9c8SWedson Almeida Filho /// fn add_two(v: &Revocable<Example>) -> Option<u32> { 320494d9c8SWedson Almeida Filho /// let guard = v.try_access()?; 330494d9c8SWedson Almeida Filho /// Some(guard.a + guard.b) 340494d9c8SWedson Almeida Filho /// } 350494d9c8SWedson Almeida Filho /// 360494d9c8SWedson Almeida Filho /// let v = KBox::pin_init(Revocable::new(Example { a: 10, b: 20 }), GFP_KERNEL).unwrap(); 370494d9c8SWedson Almeida Filho /// assert_eq!(add_two(&v), Some(30)); 380494d9c8SWedson Almeida Filho /// v.revoke(); 390494d9c8SWedson Almeida Filho /// assert_eq!(add_two(&v), None); 400494d9c8SWedson Almeida Filho /// ``` 410494d9c8SWedson Almeida Filho /// 420494d9c8SWedson Almeida Filho /// Sample example as above, but explicitly using the rcu read side lock. 430494d9c8SWedson Almeida Filho /// 440494d9c8SWedson Almeida Filho /// ``` 450494d9c8SWedson Almeida Filho /// # use kernel::revocable::Revocable; 460494d9c8SWedson Almeida Filho /// use kernel::sync::rcu; 470494d9c8SWedson Almeida Filho /// 480494d9c8SWedson Almeida Filho /// struct Example { 490494d9c8SWedson Almeida Filho /// a: u32, 500494d9c8SWedson Almeida Filho /// b: u32, 510494d9c8SWedson Almeida Filho /// } 520494d9c8SWedson Almeida Filho /// 530494d9c8SWedson Almeida Filho /// fn add_two(v: &Revocable<Example>) -> Option<u32> { 540494d9c8SWedson Almeida Filho /// let guard = rcu::read_lock(); 550494d9c8SWedson Almeida Filho /// let e = v.try_access_with_guard(&guard)?; 560494d9c8SWedson Almeida Filho /// Some(e.a + e.b) 570494d9c8SWedson Almeida Filho /// } 580494d9c8SWedson Almeida Filho /// 590494d9c8SWedson Almeida Filho /// let v = KBox::pin_init(Revocable::new(Example { a: 10, b: 20 }), GFP_KERNEL).unwrap(); 600494d9c8SWedson Almeida Filho /// assert_eq!(add_two(&v), Some(30)); 610494d9c8SWedson Almeida Filho /// v.revoke(); 620494d9c8SWedson Almeida Filho /// assert_eq!(add_two(&v), None); 630494d9c8SWedson Almeida Filho /// ``` 640494d9c8SWedson Almeida Filho #[pin_data(PinnedDrop)] 650494d9c8SWedson Almeida Filho pub struct Revocable<T> { 660494d9c8SWedson Almeida Filho is_available: AtomicBool, 670494d9c8SWedson Almeida Filho #[pin] 680494d9c8SWedson Almeida Filho data: Opaque<T>, 690494d9c8SWedson Almeida Filho } 700494d9c8SWedson Almeida Filho 710494d9c8SWedson Almeida Filho // SAFETY: `Revocable` is `Send` if the wrapped object is also `Send`. This is because while the 720494d9c8SWedson Almeida Filho // functionality exposed by `Revocable` can be accessed from any thread/CPU, it is possible that 730494d9c8SWedson Almeida Filho // this isn't supported by the wrapped object. 740494d9c8SWedson Almeida Filho unsafe impl<T: Send> Send for Revocable<T> {} 750494d9c8SWedson Almeida Filho 760494d9c8SWedson Almeida Filho // SAFETY: `Revocable` is `Sync` if the wrapped object is both `Send` and `Sync`. We require `Send` 770494d9c8SWedson Almeida Filho // from the wrapped object as well because of `Revocable::revoke`, which can trigger the `Drop` 780494d9c8SWedson Almeida Filho // implementation of the wrapped object from an arbitrary thread. 790494d9c8SWedson Almeida Filho unsafe impl<T: Sync + Send> Sync for Revocable<T> {} 800494d9c8SWedson Almeida Filho 810494d9c8SWedson Almeida Filho impl<T> Revocable<T> { 820494d9c8SWedson Almeida Filho /// Creates a new revocable instance of the given data. new(data: impl PinInit<T>) -> impl PinInit<Self>830494d9c8SWedson Almeida Filho pub fn new(data: impl PinInit<T>) -> impl PinInit<Self> { 840494d9c8SWedson Almeida Filho pin_init!(Self { 850494d9c8SWedson Almeida Filho is_available: AtomicBool::new(true), 860494d9c8SWedson Almeida Filho data <- Opaque::pin_init(data), 870494d9c8SWedson Almeida Filho }) 880494d9c8SWedson Almeida Filho } 890494d9c8SWedson Almeida Filho 900494d9c8SWedson Almeida Filho /// Tries to access the revocable wrapped object. 910494d9c8SWedson Almeida Filho /// 920494d9c8SWedson Almeida Filho /// Returns `None` if the object has been revoked and is therefore no longer accessible. 930494d9c8SWedson Almeida Filho /// 940494d9c8SWedson Almeida Filho /// Returns a guard that gives access to the object otherwise; the object is guaranteed to 950494d9c8SWedson Almeida Filho /// remain accessible while the guard is alive. In such cases, callers are not allowed to sleep 960494d9c8SWedson Almeida Filho /// because another CPU may be waiting to complete the revocation of this object. try_access(&self) -> Option<RevocableGuard<'_, T>>970494d9c8SWedson Almeida Filho pub fn try_access(&self) -> Option<RevocableGuard<'_, T>> { 980494d9c8SWedson Almeida Filho let guard = rcu::read_lock(); 990494d9c8SWedson Almeida Filho if self.is_available.load(Ordering::Relaxed) { 1000494d9c8SWedson Almeida Filho // Since `self.is_available` is true, data is initialised and has to remain valid 1010494d9c8SWedson Almeida Filho // because the RCU read side lock prevents it from being dropped. 1020494d9c8SWedson Almeida Filho Some(RevocableGuard::new(self.data.get(), guard)) 1030494d9c8SWedson Almeida Filho } else { 1040494d9c8SWedson Almeida Filho None 1050494d9c8SWedson Almeida Filho } 1060494d9c8SWedson Almeida Filho } 1070494d9c8SWedson Almeida Filho 1080494d9c8SWedson Almeida Filho /// Tries to access the revocable wrapped object. 1090494d9c8SWedson Almeida Filho /// 1100494d9c8SWedson Almeida Filho /// Returns `None` if the object has been revoked and is therefore no longer accessible. 1110494d9c8SWedson Almeida Filho /// 1120494d9c8SWedson Almeida Filho /// Returns a shared reference to the object otherwise; the object is guaranteed to 1130494d9c8SWedson Almeida Filho /// remain accessible while the rcu read side guard is alive. In such cases, callers are not 1140494d9c8SWedson Almeida Filho /// allowed to sleep because another CPU may be waiting to complete the revocation of this 1150494d9c8SWedson Almeida Filho /// object. try_access_with_guard<'a>(&'a self, _guard: &'a rcu::Guard) -> Option<&'a T>1160494d9c8SWedson Almeida Filho pub fn try_access_with_guard<'a>(&'a self, _guard: &'a rcu::Guard) -> Option<&'a T> { 1170494d9c8SWedson Almeida Filho if self.is_available.load(Ordering::Relaxed) { 1180494d9c8SWedson Almeida Filho // SAFETY: Since `self.is_available` is true, data is initialised and has to remain 1190494d9c8SWedson Almeida Filho // valid because the RCU read side lock prevents it from being dropped. 1200494d9c8SWedson Almeida Filho Some(unsafe { &*self.data.get() }) 1210494d9c8SWedson Almeida Filho } else { 1220494d9c8SWedson Almeida Filho None 1230494d9c8SWedson Almeida Filho } 1240494d9c8SWedson Almeida Filho } 1250494d9c8SWedson Almeida Filho 12680e62fceSAlexandre Courbot /// Tries to access the wrapped object and run a closure on it while the guard is held. 12780e62fceSAlexandre Courbot /// 12880e62fceSAlexandre Courbot /// This is a convenience method to run short non-sleepable code blocks while ensuring the 12980e62fceSAlexandre Courbot /// guard is dropped afterwards. [`Self::try_access`] carries the risk that the caller will 13080e62fceSAlexandre Courbot /// forget to explicitly drop that returned guard before calling sleepable code; this method 13180e62fceSAlexandre Courbot /// adds an extra safety to make sure it doesn't happen. 13280e62fceSAlexandre Courbot /// 13380e62fceSAlexandre Courbot /// Returns [`None`] if the object has been revoked and is therefore no longer accessible, or 13480e62fceSAlexandre Courbot /// the result of the closure wrapped in [`Some`]. If the closure returns a [`Result`] then the 13580e62fceSAlexandre Courbot /// return type becomes `Option<Result<>>`, which can be inconvenient. Users are encouraged to 13680e62fceSAlexandre Courbot /// define their own macro that turns the [`Option`] into a proper error code and flattens the 13780e62fceSAlexandre Courbot /// inner result into it if it makes sense within their subsystem. try_access_with<R, F: FnOnce(&T) -> R>(&self, f: F) -> Option<R>13880e62fceSAlexandre Courbot pub fn try_access_with<R, F: FnOnce(&T) -> R>(&self, f: F) -> Option<R> { 13980e62fceSAlexandre Courbot self.try_access().map(|t| f(&*t)) 14080e62fceSAlexandre Courbot } 14180e62fceSAlexandre Courbot 14246f91addSDanilo Krummrich /// Directly access the revocable wrapped object. 14346f91addSDanilo Krummrich /// 14446f91addSDanilo Krummrich /// # Safety 14546f91addSDanilo Krummrich /// 14646f91addSDanilo Krummrich /// The caller must ensure this [`Revocable`] instance hasn't been revoked and won't be revoked 14746f91addSDanilo Krummrich /// as long as the returned `&T` lives. access(&self) -> &T14846f91addSDanilo Krummrich pub unsafe fn access(&self) -> &T { 14946f91addSDanilo Krummrich // SAFETY: By the safety requirement of this function it is guaranteed that 15046f91addSDanilo Krummrich // `self.data.get()` is a valid pointer to an instance of `T`. 15146f91addSDanilo Krummrich unsafe { &*self.data.get() } 15246f91addSDanilo Krummrich } 15346f91addSDanilo Krummrich 1540494d9c8SWedson Almeida Filho /// # Safety 1550494d9c8SWedson Almeida Filho /// 1560494d9c8SWedson Almeida Filho /// Callers must ensure that there are no more concurrent users of the revocable object. revoke_internal<const SYNC: bool>(&self) -> bool157*4b76fafbSDanilo Krummrich unsafe fn revoke_internal<const SYNC: bool>(&self) -> bool { 158*4b76fafbSDanilo Krummrich let revoke = self.is_available.swap(false, Ordering::Relaxed); 159*4b76fafbSDanilo Krummrich 160*4b76fafbSDanilo Krummrich if revoke { 1610494d9c8SWedson Almeida Filho if SYNC { 1620494d9c8SWedson Almeida Filho // SAFETY: Just an FFI call, there are no further requirements. 1630494d9c8SWedson Almeida Filho unsafe { bindings::synchronize_rcu() }; 1640494d9c8SWedson Almeida Filho } 1650494d9c8SWedson Almeida Filho 1660494d9c8SWedson Almeida Filho // SAFETY: We know `self.data` is valid because only one CPU can succeed the 1670494d9c8SWedson Almeida Filho // `compare_exchange` above that takes `is_available` from `true` to `false`. 1680494d9c8SWedson Almeida Filho unsafe { drop_in_place(self.data.get()) }; 1690494d9c8SWedson Almeida Filho } 170*4b76fafbSDanilo Krummrich 171*4b76fafbSDanilo Krummrich revoke 1720494d9c8SWedson Almeida Filho } 1730494d9c8SWedson Almeida Filho 1740494d9c8SWedson Almeida Filho /// Revokes access to and drops the wrapped object. 1750494d9c8SWedson Almeida Filho /// 1760494d9c8SWedson Almeida Filho /// Access to the object is revoked immediately to new callers of [`Revocable::try_access`], 1770494d9c8SWedson Almeida Filho /// expecting that there are no concurrent users of the object. 1780494d9c8SWedson Almeida Filho /// 179*4b76fafbSDanilo Krummrich /// Returns `true` if `&self` has been revoked with this call, `false` if it was revoked 180*4b76fafbSDanilo Krummrich /// already. 181*4b76fafbSDanilo Krummrich /// 1820494d9c8SWedson Almeida Filho /// # Safety 1830494d9c8SWedson Almeida Filho /// 1840494d9c8SWedson Almeida Filho /// Callers must ensure that there are no more concurrent users of the revocable object. revoke_nosync(&self) -> bool185*4b76fafbSDanilo Krummrich pub unsafe fn revoke_nosync(&self) -> bool { 1860494d9c8SWedson Almeida Filho // SAFETY: By the safety requirement of this function, the caller ensures that nobody is 1870494d9c8SWedson Almeida Filho // accessing the data anymore and hence we don't have to wait for the grace period to 1880494d9c8SWedson Almeida Filho // finish. 1890494d9c8SWedson Almeida Filho unsafe { self.revoke_internal::<false>() } 1900494d9c8SWedson Almeida Filho } 1910494d9c8SWedson Almeida Filho 1920494d9c8SWedson Almeida Filho /// Revokes access to and drops the wrapped object. 1930494d9c8SWedson Almeida Filho /// 1940494d9c8SWedson Almeida Filho /// Access to the object is revoked immediately to new callers of [`Revocable::try_access`]. 1950494d9c8SWedson Almeida Filho /// 1960494d9c8SWedson Almeida Filho /// If there are concurrent users of the object (i.e., ones that called 1970494d9c8SWedson Almeida Filho /// [`Revocable::try_access`] beforehand and still haven't dropped the returned guard), this 1980494d9c8SWedson Almeida Filho /// function waits for the concurrent access to complete before dropping the wrapped object. 199*4b76fafbSDanilo Krummrich /// 200*4b76fafbSDanilo Krummrich /// Returns `true` if `&self` has been revoked with this call, `false` if it was revoked 201*4b76fafbSDanilo Krummrich /// already. revoke(&self) -> bool202*4b76fafbSDanilo Krummrich pub fn revoke(&self) -> bool { 2030494d9c8SWedson Almeida Filho // SAFETY: By passing `true` we ask `revoke_internal` to wait for the grace period to 2040494d9c8SWedson Almeida Filho // finish. 2050494d9c8SWedson Almeida Filho unsafe { self.revoke_internal::<true>() } 2060494d9c8SWedson Almeida Filho } 2070494d9c8SWedson Almeida Filho } 2080494d9c8SWedson Almeida Filho 2090494d9c8SWedson Almeida Filho #[pinned_drop] 2100494d9c8SWedson Almeida Filho impl<T> PinnedDrop for Revocable<T> { drop(self: Pin<&mut Self>)2110494d9c8SWedson Almeida Filho fn drop(self: Pin<&mut Self>) { 2120494d9c8SWedson Almeida Filho // Drop only if the data hasn't been revoked yet (in which case it has already been 2130494d9c8SWedson Almeida Filho // dropped). 2140494d9c8SWedson Almeida Filho // SAFETY: We are not moving out of `p`, only dropping in place 2150494d9c8SWedson Almeida Filho let p = unsafe { self.get_unchecked_mut() }; 2160494d9c8SWedson Almeida Filho if *p.is_available.get_mut() { 2170494d9c8SWedson Almeida Filho // SAFETY: We know `self.data` is valid because no other CPU has changed 2180494d9c8SWedson Almeida Filho // `is_available` to `false` yet, and no other CPU can do it anymore because this CPU 2190494d9c8SWedson Almeida Filho // holds the only reference (mutable) to `self` now. 2200494d9c8SWedson Almeida Filho unsafe { drop_in_place(p.data.get()) }; 2210494d9c8SWedson Almeida Filho } 2220494d9c8SWedson Almeida Filho } 2230494d9c8SWedson Almeida Filho } 2240494d9c8SWedson Almeida Filho 2250494d9c8SWedson Almeida Filho /// A guard that allows access to a revocable object and keeps it alive. 2260494d9c8SWedson Almeida Filho /// 2270494d9c8SWedson Almeida Filho /// CPUs may not sleep while holding on to [`RevocableGuard`] because it's in atomic context 2280494d9c8SWedson Almeida Filho /// holding the RCU read-side lock. 2290494d9c8SWedson Almeida Filho /// 2300494d9c8SWedson Almeida Filho /// # Invariants 2310494d9c8SWedson Almeida Filho /// 2320494d9c8SWedson Almeida Filho /// The RCU read-side lock is held while the guard is alive. 2330494d9c8SWedson Almeida Filho pub struct RevocableGuard<'a, T> { 2340494d9c8SWedson Almeida Filho data_ref: *const T, 2350494d9c8SWedson Almeida Filho _rcu_guard: rcu::Guard, 2360494d9c8SWedson Almeida Filho _p: PhantomData<&'a ()>, 2370494d9c8SWedson Almeida Filho } 2380494d9c8SWedson Almeida Filho 2390494d9c8SWedson Almeida Filho impl<T> RevocableGuard<'_, T> { new(data_ref: *const T, rcu_guard: rcu::Guard) -> Self2400494d9c8SWedson Almeida Filho fn new(data_ref: *const T, rcu_guard: rcu::Guard) -> Self { 2410494d9c8SWedson Almeida Filho Self { 2420494d9c8SWedson Almeida Filho data_ref, 2430494d9c8SWedson Almeida Filho _rcu_guard: rcu_guard, 2440494d9c8SWedson Almeida Filho _p: PhantomData, 2450494d9c8SWedson Almeida Filho } 2460494d9c8SWedson Almeida Filho } 2470494d9c8SWedson Almeida Filho } 2480494d9c8SWedson Almeida Filho 2490494d9c8SWedson Almeida Filho impl<T> Deref for RevocableGuard<'_, T> { 2500494d9c8SWedson Almeida Filho type Target = T; 2510494d9c8SWedson Almeida Filho deref(&self) -> &Self::Target2520494d9c8SWedson Almeida Filho fn deref(&self) -> &Self::Target { 2530494d9c8SWedson Almeida Filho // SAFETY: By the type invariants, we hold the rcu read-side lock, so the object is 2540494d9c8SWedson Almeida Filho // guaranteed to remain valid. 2550494d9c8SWedson Almeida Filho unsafe { &*self.data_ref } 2560494d9c8SWedson Almeida Filho } 2570494d9c8SWedson Almeida Filho } 258