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Linux/rust/kernel/sync/condvar.rs

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Diff markup

Differences between /rust/kernel/sync/condvar.rs (Architecture ppc) and /rust/kernel/sync/condvar.rs (Architecture alpha)


  1 // SPDX-License-Identifier: GPL-2.0                 1 // SPDX-License-Identifier: GPL-2.0
  2                                                     2 
  3 //! A condition variable.                           3 //! A condition variable.
  4 //!                                                 4 //!
  5 //! This module allows Rust code to use the ke      5 //! This module allows Rust code to use the kernel's [`struct wait_queue_head`] as a condition
  6 //! variable.                                       6 //! variable.
  7                                                     7 
  8 use super::{lock::Backend, lock::Guard, LockCl      8 use super::{lock::Backend, lock::Guard, LockClassKey};
  9 use crate::{                                        9 use crate::{
 10     init::PinInit,                                 10     init::PinInit,
 11     pin_init,                                      11     pin_init,
 12     str::CStr,                                     12     str::CStr,
 13     task::{MAX_SCHEDULE_TIMEOUT, TASK_INTERRUP     13     task::{MAX_SCHEDULE_TIMEOUT, TASK_INTERRUPTIBLE, TASK_NORMAL, TASK_UNINTERRUPTIBLE},
 14     time::Jiffies,                                 14     time::Jiffies,
 15     types::Opaque,                                 15     types::Opaque,
 16 };                                                 16 };
 17 use core::ffi::{c_int, c_long};                    17 use core::ffi::{c_int, c_long};
 18 use core::marker::PhantomPinned;                   18 use core::marker::PhantomPinned;
 19 use core::ptr;                                     19 use core::ptr;
 20 use macros::pin_data;                              20 use macros::pin_data;
 21                                                    21 
 22 /// Creates a [`CondVar`] initialiser with the     22 /// Creates a [`CondVar`] initialiser with the given name and a newly-created lock class.
 23 #[macro_export]                                    23 #[macro_export]
 24 macro_rules! new_condvar {                         24 macro_rules! new_condvar {
 25     ($($name:literal)?) => {                       25     ($($name:literal)?) => {
 26         $crate::sync::CondVar::new($crate::opt     26         $crate::sync::CondVar::new($crate::optional_name!($($name)?), $crate::static_lock_class!())
 27     };                                             27     };
 28 }                                                  28 }
 29 pub use new_condvar;                               29 pub use new_condvar;
 30                                                    30 
 31 /// A conditional variable.                        31 /// A conditional variable.
 32 ///                                                32 ///
 33 /// Exposes the kernel's [`struct wait_queue_h     33 /// Exposes the kernel's [`struct wait_queue_head`] as a condition variable. It allows the caller to
 34 /// atomically release the given lock and go t     34 /// atomically release the given lock and go to sleep. It reacquires the lock when it wakes up. And
 35 /// it wakes up when notified by another threa     35 /// it wakes up when notified by another thread (via [`CondVar::notify_one`] or
 36 /// [`CondVar::notify_all`]) or because the th     36 /// [`CondVar::notify_all`]) or because the thread received a signal. It may also wake up
 37 /// spuriously.                                    37 /// spuriously.
 38 ///                                                38 ///
 39 /// Instances of [`CondVar`] need a lock class     39 /// Instances of [`CondVar`] need a lock class and to be pinned. The recommended way to create such
 40 /// instances is with the [`pin_init`](crate::     40 /// instances is with the [`pin_init`](crate::pin_init) and [`new_condvar`] macros.
 41 ///                                                41 ///
 42 /// # Examples                                     42 /// # Examples
 43 ///                                                43 ///
 44 /// The following is an example of using a con     44 /// The following is an example of using a condvar with a mutex:
 45 ///                                                45 ///
 46 /// ```                                            46 /// ```
 47 /// use kernel::sync::{new_condvar, new_mutex,     47 /// use kernel::sync::{new_condvar, new_mutex, CondVar, Mutex};
 48 ///                                                48 ///
 49 /// #[pin_data]                                    49 /// #[pin_data]
 50 /// pub struct Example {                           50 /// pub struct Example {
 51 ///     #[pin]                                     51 ///     #[pin]
 52 ///     value: Mutex<u32>,                         52 ///     value: Mutex<u32>,
 53 ///                                                53 ///
 54 ///     #[pin]                                     54 ///     #[pin]
 55 ///     value_changed: CondVar,                    55 ///     value_changed: CondVar,
 56 /// }                                              56 /// }
 57 ///                                                57 ///
 58 /// /// Waits for `e.value` to become `v`.         58 /// /// Waits for `e.value` to become `v`.
 59 /// fn wait_for_value(e: &Example, v: u32) {       59 /// fn wait_for_value(e: &Example, v: u32) {
 60 ///     let mut guard = e.value.lock();            60 ///     let mut guard = e.value.lock();
 61 ///     while *guard != v {                        61 ///     while *guard != v {
 62 ///         e.value_changed.wait(&mut guard);      62 ///         e.value_changed.wait(&mut guard);
 63 ///     }                                          63 ///     }
 64 /// }                                              64 /// }
 65 ///                                                65 ///
 66 /// /// Increments `e.value` and notifies all      66 /// /// Increments `e.value` and notifies all potential waiters.
 67 /// fn increment(e: &Example) {                    67 /// fn increment(e: &Example) {
 68 ///     *e.value.lock() += 1;                      68 ///     *e.value.lock() += 1;
 69 ///     e.value_changed.notify_all();              69 ///     e.value_changed.notify_all();
 70 /// }                                              70 /// }
 71 ///                                                71 ///
 72 /// /// Allocates a new boxed `Example`.           72 /// /// Allocates a new boxed `Example`.
 73 /// fn new_example() -> Result<Pin<Box<Example     73 /// fn new_example() -> Result<Pin<Box<Example>>> {
 74 ///     Box::pin_init(pin_init!(Example {          74 ///     Box::pin_init(pin_init!(Example {
 75 ///         value <- new_mutex!(0),                75 ///         value <- new_mutex!(0),
 76 ///         value_changed <- new_condvar!(),       76 ///         value_changed <- new_condvar!(),
 77 ///     }), GFP_KERNEL)                            77 ///     }), GFP_KERNEL)
 78 /// }                                              78 /// }
 79 /// ```                                            79 /// ```
 80 ///                                                80 ///
 81 /// [`struct wait_queue_head`]: srctree/includ     81 /// [`struct wait_queue_head`]: srctree/include/linux/wait.h
 82 #[pin_data]                                        82 #[pin_data]
 83 pub struct CondVar {                               83 pub struct CondVar {
 84     #[pin]                                         84     #[pin]
 85     pub(crate) wait_queue_head: Opaque<binding     85     pub(crate) wait_queue_head: Opaque<bindings::wait_queue_head>,
 86                                                    86 
 87     /// A condvar needs to be pinned because i     87     /// A condvar needs to be pinned because it contains a [`struct list_head`] that is
 88     /// self-referential, so it cannot be safe     88     /// self-referential, so it cannot be safely moved once it is initialised.
 89     ///                                            89     ///
 90     /// [`struct list_head`]: srctree/include/     90     /// [`struct list_head`]: srctree/include/linux/types.h
 91     #[pin]                                         91     #[pin]
 92     _pin: PhantomPinned,                           92     _pin: PhantomPinned,
 93 }                                                  93 }
 94                                                    94 
 95 // SAFETY: `CondVar` only uses a `struct wait_     95 // SAFETY: `CondVar` only uses a `struct wait_queue_head`, which is safe to use on any thread.
 96 #[allow(clippy::non_send_fields_in_send_ty)]       96 #[allow(clippy::non_send_fields_in_send_ty)]
 97 unsafe impl Send for CondVar {}                    97 unsafe impl Send for CondVar {}
 98                                                    98 
 99 // SAFETY: `CondVar` only uses a `struct wait_     99 // SAFETY: `CondVar` only uses a `struct wait_queue_head`, which is safe to use on multiple threads
100 // concurrently.                                  100 // concurrently.
101 unsafe impl Sync for CondVar {}                   101 unsafe impl Sync for CondVar {}
102                                                   102 
103 impl CondVar {                                    103 impl CondVar {
104     /// Constructs a new condvar initialiser.     104     /// Constructs a new condvar initialiser.
105     pub fn new(name: &'static CStr, key: &'sta    105     pub fn new(name: &'static CStr, key: &'static LockClassKey) -> impl PinInit<Self> {
106         pin_init!(Self {                          106         pin_init!(Self {
107             _pin: PhantomPinned,                  107             _pin: PhantomPinned,
108             // SAFETY: `slot` is valid while t    108             // SAFETY: `slot` is valid while the closure is called and both `name` and `key` have
109             // static lifetimes so they live i    109             // static lifetimes so they live indefinitely.
110             wait_queue_head <- Opaque::ffi_ini    110             wait_queue_head <- Opaque::ffi_init(|slot| unsafe {
111                 bindings::__init_waitqueue_hea    111                 bindings::__init_waitqueue_head(slot, name.as_char_ptr(), key.as_ptr())
112             }),                                   112             }),
113         })                                        113         })
114     }                                             114     }
115                                                   115 
116     fn wait_internal<T: ?Sized, B: Backend>(      116     fn wait_internal<T: ?Sized, B: Backend>(
117         &self,                                    117         &self,
118         wait_state: c_int,                        118         wait_state: c_int,
119         guard: &mut Guard<'_, T, B>,              119         guard: &mut Guard<'_, T, B>,
120         timeout_in_jiffies: c_long,               120         timeout_in_jiffies: c_long,
121     ) -> c_long {                                 121     ) -> c_long {
122         let wait = Opaque::<bindings::wait_que    122         let wait = Opaque::<bindings::wait_queue_entry>::uninit();
123                                                   123 
124         // SAFETY: `wait` points to valid memo    124         // SAFETY: `wait` points to valid memory.
125         unsafe { bindings::init_wait(wait.get(    125         unsafe { bindings::init_wait(wait.get()) };
126                                                   126 
127         // SAFETY: Both `wait` and `wait_queue    127         // SAFETY: Both `wait` and `wait_queue_head` point to valid memory.
128         unsafe {                                  128         unsafe {
129             bindings::prepare_to_wait_exclusiv    129             bindings::prepare_to_wait_exclusive(self.wait_queue_head.get(), wait.get(), wait_state)
130         };                                        130         };
131                                                   131 
132         // SAFETY: Switches to another thread.    132         // SAFETY: Switches to another thread. The timeout can be any number.
133         let ret = guard.do_unlocked(|| unsafe     133         let ret = guard.do_unlocked(|| unsafe { bindings::schedule_timeout(timeout_in_jiffies) });
134                                                   134 
135         // SAFETY: Both `wait` and `wait_queue    135         // SAFETY: Both `wait` and `wait_queue_head` point to valid memory.
136         unsafe { bindings::finish_wait(self.wa    136         unsafe { bindings::finish_wait(self.wait_queue_head.get(), wait.get()) };
137                                                   137 
138         ret                                       138         ret
139     }                                             139     }
140                                                   140 
141     /// Releases the lock and waits for a noti    141     /// Releases the lock and waits for a notification in uninterruptible mode.
142     ///                                           142     ///
143     /// Atomically releases the given lock (wh    143     /// Atomically releases the given lock (whose ownership is proven by the guard) and puts the
144     /// thread to sleep, reacquiring the lock     144     /// thread to sleep, reacquiring the lock on wake up. It wakes up when notified by
145     /// [`CondVar::notify_one`] or [`CondVar::    145     /// [`CondVar::notify_one`] or [`CondVar::notify_all`]. Note that it may also wake up
146     /// spuriously.                               146     /// spuriously.
147     pub fn wait<T: ?Sized, B: Backend>(&self,     147     pub fn wait<T: ?Sized, B: Backend>(&self, guard: &mut Guard<'_, T, B>) {
148         self.wait_internal(TASK_UNINTERRUPTIBL    148         self.wait_internal(TASK_UNINTERRUPTIBLE, guard, MAX_SCHEDULE_TIMEOUT);
149     }                                             149     }
150                                                   150 
151     /// Releases the lock and waits for a noti    151     /// Releases the lock and waits for a notification in interruptible mode.
152     ///                                           152     ///
153     /// Similar to [`CondVar::wait`], except t    153     /// Similar to [`CondVar::wait`], except that the wait is interruptible. That is, the thread may
154     /// wake up due to signals. It may also wa    154     /// wake up due to signals. It may also wake up spuriously.
155     ///                                           155     ///
156     /// Returns whether there is a signal pend    156     /// Returns whether there is a signal pending.
157     #[must_use = "wait_interruptible returns i    157     #[must_use = "wait_interruptible returns if a signal is pending, so the caller must check the return value"]
158     pub fn wait_interruptible<T: ?Sized, B: Ba    158     pub fn wait_interruptible<T: ?Sized, B: Backend>(&self, guard: &mut Guard<'_, T, B>) -> bool {
159         self.wait_internal(TASK_INTERRUPTIBLE,    159         self.wait_internal(TASK_INTERRUPTIBLE, guard, MAX_SCHEDULE_TIMEOUT);
160         crate::current!().signal_pending()        160         crate::current!().signal_pending()
161     }                                             161     }
162                                                   162 
163     /// Releases the lock and waits for a noti    163     /// Releases the lock and waits for a notification in interruptible mode.
164     ///                                           164     ///
165     /// Atomically releases the given lock (wh    165     /// Atomically releases the given lock (whose ownership is proven by the guard) and puts the
166     /// thread to sleep. It wakes up when noti    166     /// thread to sleep. It wakes up when notified by [`CondVar::notify_one`] or
167     /// [`CondVar::notify_all`], or when a tim    167     /// [`CondVar::notify_all`], or when a timeout occurs, or when the thread receives a signal.
168     #[must_use = "wait_interruptible_timeout r    168     #[must_use = "wait_interruptible_timeout returns if a signal is pending, so the caller must check the return value"]
169     pub fn wait_interruptible_timeout<T: ?Size    169     pub fn wait_interruptible_timeout<T: ?Sized, B: Backend>(
170         &self,                                    170         &self,
171         guard: &mut Guard<'_, T, B>,              171         guard: &mut Guard<'_, T, B>,
172         jiffies: Jiffies,                         172         jiffies: Jiffies,
173     ) -> CondVarTimeoutResult {                   173     ) -> CondVarTimeoutResult {
174         let jiffies = jiffies.try_into().unwra    174         let jiffies = jiffies.try_into().unwrap_or(MAX_SCHEDULE_TIMEOUT);
175         let res = self.wait_internal(TASK_INTE    175         let res = self.wait_internal(TASK_INTERRUPTIBLE, guard, jiffies);
176                                                   176 
177         match (res as Jiffies, crate::current!    177         match (res as Jiffies, crate::current!().signal_pending()) {
178             (jiffies, true) => CondVarTimeoutR    178             (jiffies, true) => CondVarTimeoutResult::Signal { jiffies },
179             (0, false) => CondVarTimeoutResult    179             (0, false) => CondVarTimeoutResult::Timeout,
180             (jiffies, false) => CondVarTimeout    180             (jiffies, false) => CondVarTimeoutResult::Woken { jiffies },
181         }                                         181         }
182     }                                             182     }
183                                                   183 
184     /// Calls the kernel function to notify th    184     /// Calls the kernel function to notify the appropriate number of threads.
185     fn notify(&self, count: c_int) {              185     fn notify(&self, count: c_int) {
186         // SAFETY: `wait_queue_head` points to    186         // SAFETY: `wait_queue_head` points to valid memory.
187         unsafe {                                  187         unsafe {
188             bindings::__wake_up(                  188             bindings::__wake_up(
189                 self.wait_queue_head.get(),       189                 self.wait_queue_head.get(),
190                 TASK_NORMAL,                      190                 TASK_NORMAL,
191                 count,                            191                 count,
192                 ptr::null_mut(),                  192                 ptr::null_mut(),
193             )                                     193             )
194         };                                        194         };
195     }                                             195     }
196                                                   196 
197     /// Calls the kernel function to notify on    197     /// Calls the kernel function to notify one thread synchronously.
198     ///                                           198     ///
199     /// This method behaves like `notify_one`,    199     /// This method behaves like `notify_one`, except that it hints to the scheduler that the
200     /// current thread is about to go to sleep    200     /// current thread is about to go to sleep, so it should schedule the target thread on the same
201     /// CPU.                                      201     /// CPU.
202     pub fn notify_sync(&self) {                   202     pub fn notify_sync(&self) {
203         // SAFETY: `wait_queue_head` points to    203         // SAFETY: `wait_queue_head` points to valid memory.
204         unsafe { bindings::__wake_up_sync(self    204         unsafe { bindings::__wake_up_sync(self.wait_queue_head.get(), TASK_NORMAL) };
205     }                                             205     }
206                                                   206 
207     /// Wakes a single waiter up, if any.         207     /// Wakes a single waiter up, if any.
208     ///                                           208     ///
209     /// This is not 'sticky' in the sense that    209     /// This is not 'sticky' in the sense that if no thread is waiting, the notification is lost
210     /// completely (as opposed to automaticall    210     /// completely (as opposed to automatically waking up the next waiter).
211     pub fn notify_one(&self) {                    211     pub fn notify_one(&self) {
212         self.notify(1);                           212         self.notify(1);
213     }                                             213     }
214                                                   214 
215     /// Wakes all waiters up, if any.             215     /// Wakes all waiters up, if any.
216     ///                                           216     ///
217     /// This is not 'sticky' in the sense that    217     /// This is not 'sticky' in the sense that if no thread is waiting, the notification is lost
218     /// completely (as opposed to automaticall    218     /// completely (as opposed to automatically waking up the next waiter).
219     pub fn notify_all(&self) {                    219     pub fn notify_all(&self) {
220         self.notify(0);                           220         self.notify(0);
221     }                                             221     }
222 }                                                 222 }
223                                                   223 
224 /// The return type of `wait_timeout`.            224 /// The return type of `wait_timeout`.
225 pub enum CondVarTimeoutResult {                   225 pub enum CondVarTimeoutResult {
226     /// The timeout was reached.                  226     /// The timeout was reached.
227     Timeout,                                      227     Timeout,
228     /// Somebody woke us up.                      228     /// Somebody woke us up.
229     Woken {                                       229     Woken {
230         /// Remaining sleep duration.             230         /// Remaining sleep duration.
231         jiffies: Jiffies,                         231         jiffies: Jiffies,
232     },                                            232     },
233     /// A signal occurred.                        233     /// A signal occurred.
234     Signal {                                      234     Signal {
235         /// Remaining sleep duration.             235         /// Remaining sleep duration.
236         jiffies: Jiffies,                         236         jiffies: Jiffies,
237     },                                            237     },
238 }                                                 238 }
                                                      

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