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// SPDX-License-Identifier: GPL-2.0
//! A kernel spinlock.
//!
//! This module allows Rust code to use the kernel's `spinlock_t`.
/// Creates a [`SpinLock`] initialiser with the given name and a newly-created lock class.
///
/// It uses the name if one is given, otherwise it generates one based on the file name and line
/// number.
#[macro_export]
macro_rules! new_spinlock {
($inner:expr $(, $name:literal)? $(,)?) => {
$crate::sync::SpinLock::new(
$inner, $crate::optional_name!($($name)?), $crate::static_lock_class!())
};
}
pub use new_spinlock;
/// A spinlock.
///
/// Exposes the kernel's [`spinlock_t`]. When multiple CPUs attempt to lock the same spinlock, only
/// one at a time is allowed to progress, the others will block (spinning) until the spinlock is
/// unlocked, at which point another CPU will be allowed to make progress.
///
/// Instances of [`SpinLock`] need a lock class and to be pinned. The recommended way to create such
/// instances is with the [`pin_init`](crate::pin_init) and [`new_spinlock`] macros.
///
/// # Examples
///
/// The following example shows how to declare, allocate and initialise a struct (`Example`) that
/// contains an inner struct (`Inner`) that is protected by a spinlock.
///
/// ```
/// use kernel::sync::{new_spinlock, SpinLock};
///
/// struct Inner {
/// a: u32,
/// b: u32,
/// }
///
/// #[pin_data]
/// struct Example {
/// c: u32,
/// #[pin]
/// d: SpinLock<Inner>,
/// }
///
/// impl Example {
/// fn new() -> impl PinInit<Self> {
/// pin_init!(Self {
/// c: 10,
/// d <- new_spinlock!(Inner { a: 20, b: 30 }),
/// })
/// }
/// }
///
/// // Allocate a boxed `Example`.
/// let e = KBox::pin_init(Example::new(), GFP_KERNEL)?;
/// assert_eq!(e.c, 10);
/// assert_eq!(e.d.lock().a, 20);
/// assert_eq!(e.d.lock().b, 30);
/// # Ok::<(), Error>(())
/// ```
///
/// The following example shows how to use interior mutability to modify the contents of a struct
/// protected by a spinlock despite only having a shared reference:
///
/// ```
/// use kernel::sync::SpinLock;
///
/// struct Example {
/// a: u32,
/// b: u32,
/// }
///
/// fn example(m: &SpinLock<Example>) {
/// let mut guard = m.lock();
/// guard.a += 10;
/// guard.b += 20;
/// }
/// ```
///
/// [`spinlock_t`]: srctree/include/linux/spinlock.h
pub type SpinLock<T> = super::Lock<T, SpinLockBackend>;
/// A kernel `spinlock_t` lock backend.
pub struct SpinLockBackend;
// SAFETY: The underlying kernel `spinlock_t` object ensures mutual exclusion. `relock` uses the
// default implementation that always calls the same locking method.
unsafe impl super::Backend for SpinLockBackend {
type State = bindings::spinlock_t;
type GuardState = ();
unsafe fn init(
ptr: *mut Self::State,
name: *const core::ffi::c_char,
key: *mut bindings::lock_class_key,
) {
// SAFETY: The safety requirements ensure that `ptr` is valid for writes, and `name` and
// `key` are valid for read indefinitely.
unsafe { bindings::__spin_lock_init(ptr, name, key) }
}
unsafe fn lock(ptr: *mut Self::State) -> Self::GuardState {
// SAFETY: The safety requirements of this function ensure that `ptr` points to valid
// memory, and that it has been initialised before.
unsafe { bindings::spin_lock(ptr) }
}
unsafe fn unlock(ptr: *mut Self::State, _guard_state: &Self::GuardState) {
// SAFETY: The safety requirements of this function ensure that `ptr` is valid and that the
// caller is the owner of the spinlock.
unsafe { bindings::spin_unlock(ptr) }
}
unsafe fn try_lock(ptr: *mut Self::State) -> Option<Self::GuardState> {
// SAFETY: The `ptr` pointer is guaranteed to be valid and initialized before use.
let result = unsafe { bindings::spin_trylock(ptr) };
if result != 0 {
Some(())
} else {
None
}
}
}
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