| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Wedson Almeida Filho | 321 | 71.81% | 2 | 28.57% |
| Kartik Prajapati | 49 | 10.96% | 1 | 14.29% |
| Alice Ryhl | 47 | 10.51% | 1 | 14.29% |
| Unknown | 27 | 6.04% | 1 | 14.29% |
| Miguel Ojeda Sandonis | 2 | 0.45% | 1 | 14.29% |
| Tamir Duberstein | 1 | 0.22% | 1 | 14.29% |
| Total | 447 | 7 |
// SPDX-License-Identifier: GPL-2.0
//! Internal reference counting support.
use core::{marker::PhantomData, mem::ManuallyDrop, ops::Deref, ptr::NonNull};
/// Types that are _always_ reference counted.
///
/// It allows such types to define their own custom ref increment and decrement functions.
/// Additionally, it allows users to convert from a shared reference `&T` to an owned reference
/// [`ARef<T>`].
///
/// This is usually implemented by wrappers to existing structures on the C side of the code. For
/// Rust code, the recommendation is to use [`Arc`](crate::sync::Arc) to create reference-counted
/// instances of a type.
///
/// # Safety
///
/// Implementers must ensure that increments to the reference count keep the object alive in memory
/// at least until matching decrements are performed.
///
/// Implementers must also ensure that all instances are reference-counted. (Otherwise they
/// won't be able to honour the requirement that [`AlwaysRefCounted::inc_ref`] keep the object
/// alive.)
pub unsafe trait AlwaysRefCounted {
/// Increments the reference count on the object.
fn inc_ref(&self);
/// Decrements the reference count on the object.
///
/// Frees the object when the count reaches zero.
///
/// # Safety
///
/// Callers must ensure that there was a previous matching increment to the reference count,
/// and that the object is no longer used after its reference count is decremented (as it may
/// result in the object being freed), unless the caller owns another increment on the refcount
/// (e.g., it calls [`AlwaysRefCounted::inc_ref`] twice, then calls
/// [`AlwaysRefCounted::dec_ref`] once).
unsafe fn dec_ref(obj: NonNull<Self>);
}
/// An owned reference to an always-reference-counted object.
///
/// The object's reference count is automatically decremented when an instance of [`ARef`] is
/// dropped. It is also automatically incremented when a new instance is created via
/// [`ARef::clone`].
///
/// # Invariants
///
/// The pointer stored in `ptr` is non-null and valid for the lifetime of the [`ARef`] instance. In
/// particular, the [`ARef`] instance owns an increment on the underlying object's reference count.
pub struct ARef<T: AlwaysRefCounted> {
ptr: NonNull<T>,
_p: PhantomData<T>,
}
// SAFETY: It is safe to send `ARef<T>` to another thread when the underlying `T` is `Sync` because
// it effectively means sharing `&T` (which is safe because `T` is `Sync`); additionally, it needs
// `T` to be `Send` because any thread that has an `ARef<T>` may ultimately access `T` using a
// mutable reference, for example, when the reference count reaches zero and `T` is dropped.
unsafe impl<T: AlwaysRefCounted + Sync + Send> Send for ARef<T> {}
// SAFETY: It is safe to send `&ARef<T>` to another thread when the underlying `T` is `Sync`
// because it effectively means sharing `&T` (which is safe because `T` is `Sync`); additionally,
// it needs `T` to be `Send` because any thread that has a `&ARef<T>` may clone it and get an
// `ARef<T>` on that thread, so the thread may ultimately access `T` using a mutable reference, for
// example, when the reference count reaches zero and `T` is dropped.
unsafe impl<T: AlwaysRefCounted + Sync + Send> Sync for ARef<T> {}
impl<T: AlwaysRefCounted> ARef<T> {
/// Creates a new instance of [`ARef`].
///
/// It takes over an increment of the reference count on the underlying object.
///
/// # Safety
///
/// Callers must ensure that the reference count was incremented at least once, and that they
/// are properly relinquishing one increment. That is, if there is only one increment, callers
/// must not use the underlying object anymore -- it is only safe to do so via the newly
/// created [`ARef`].
pub unsafe fn from_raw(ptr: NonNull<T>) -> Self {
// INVARIANT: The safety requirements guarantee that the new instance now owns the
// increment on the refcount.
Self {
ptr,
_p: PhantomData,
}
}
/// Consumes the `ARef`, returning a raw pointer.
///
/// This function does not change the refcount. After calling this function, the caller is
/// responsible for the refcount previously managed by the `ARef`.
///
/// # Examples
///
/// ```
/// use core::ptr::NonNull;
/// use kernel::types::{ARef, AlwaysRefCounted};
///
/// struct Empty {}
///
/// # // SAFETY: TODO.
/// unsafe impl AlwaysRefCounted for Empty {
/// fn inc_ref(&self) {}
/// unsafe fn dec_ref(_obj: NonNull<Self>) {}
/// }
///
/// let mut data = Empty {};
/// let ptr = NonNull::<Empty>::new(&mut data).unwrap();
/// # // SAFETY: TODO.
/// let data_ref: ARef<Empty> = unsafe { ARef::from_raw(ptr) };
/// let raw_ptr: NonNull<Empty> = ARef::into_raw(data_ref);
///
/// assert_eq!(ptr, raw_ptr);
/// ```
pub fn into_raw(me: Self) -> NonNull<T> {
ManuallyDrop::new(me).ptr
}
}
impl<T: AlwaysRefCounted> Clone for ARef<T> {
fn clone(&self) -> Self {
self.inc_ref();
// SAFETY: We just incremented the refcount above.
unsafe { Self::from_raw(self.ptr) }
}
}
impl<T: AlwaysRefCounted> Deref for ARef<T> {
type Target = T;
fn deref(&self) -> &Self::Target {
// SAFETY: The type invariants guarantee that the object is valid.
unsafe { self.ptr.as_ref() }
}
}
impl<T: AlwaysRefCounted> From<&T> for ARef<T> {
fn from(b: &T) -> Self {
b.inc_ref();
// SAFETY: We just incremented the refcount above.
unsafe { Self::from_raw(NonNull::from(b)) }
}
}
impl<T: AlwaysRefCounted> Drop for ARef<T> {
fn drop(&mut self) {
// SAFETY: The type invariants guarantee that the `ARef` owns the reference we're about to
// decrement.
unsafe { T::dec_ref(self.ptr) };
}
}
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