[PATCH v7 4/4] rust: adding OwnableRefCounted and SimpleOwnableRefCounted

From: Oliver Mangold
Date: Mon Mar 10 2025 - 06:59:26 EST

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Types implementing one of these traits can safely convert between an
ARef<T> and an Owned<T>.

Signed-off-by: Oliver Mangold <oliver.mangold@xxxxx>
---
rust/kernel/types.rs | 275 +++++++++++++++++++++++++++++++++++++++++++++++++++
1 file changed, 275 insertions(+)

diff --git a/rust/kernel/types.rs b/rust/kernel/types.rs
index e6f3308f931d90718d405443c3034a216388e0af..3e703701b2bccf1a440f4064b6dd90afb204d937 100644
--- a/rust/kernel/types.rs
+++ b/rust/kernel/types.rs
@@ -552,6 +552,12 @@ fn from(b: &T) -> Self {
}
}

+impl<T: OwnableRefCounted> From<Owned<T>> for ARef<T> {
+ fn from(b: Owned<T>) -> Self {
+ T::into_shared(b)
+ }
+}
+
impl<T: RefCounted> Drop for ARef<T> {
fn drop(&mut self) {
// SAFETY: The type invariants guarantee that the `ARef` owns the reference
@@ -669,6 +675,275 @@ fn drop(&mut self) {
}
}

+/// A trait for objects that can be wrapped in either one of the reference types [`Owned`] and
+/// [`ARef`].
+///
+/// # Safety
+///
+/// Implementers must ensure that:
+///
+/// - Both the safety requirements for [`Ownable`] and [`RefCounted`] are fulfilled.
+/// - The uniqueness invariant of [`Owned`] is upheld until dropped.
+/// - [`try_from_shared()`](OwnableRefCounted::into_shared) only returns an [`Owned`] if exactly
+/// one [`ARef`] exists.
+/// - [`into_shared()`](OwnableRefCounted::into_shared) set the reference count to the value which
+/// the returned [`ARef`] expects for an object with a single reference
+/// in existence. This implies that if [`into_shared()`](OwnableRefCounted::into_shared) is left
+/// on the default implementation, which just rewraps the underlying object, the reference count
+/// needs not to be modified when converting a [`Owned`] to an [`ARef`].
+///
+/// # Examples
+///
+/// A minimal example implementation of [`OwnableRefCounted`], [`Ownable`] and its usage with
+/// [`ARef`] and [`Owned`] looks like this:
+///
+/// ```
+/// # #![expect(clippy::disallowed_names)]
+/// use core::cell::Cell;
+/// use core::ptr::NonNull;
+/// use kernel::alloc::{flags, kbox::KBox, AllocError};
+/// use kernel::types::{
+/// ARef, RefCounted, Owned, Ownable, OwnableRefCounted,
+/// };
+///
+/// struct Foo {
+/// refcount: Cell<usize>,
+/// }
+///
+/// impl Foo {
+/// fn new() -> Result<Owned<Self>, AllocError> {
+/// // Use a `KBox` to handle the actual allocation.
+/// let result = KBox::new(
+/// Foo {
+/// refcount: Cell::new(1),
+/// },
+/// flags::GFP_KERNEL,
+/// )?;
+/// let result = NonNull::new(KBox::into_raw(result))
+/// .expect("Raw pointer to newly allocation KBox is null, this should never happen.");
+/// // SAFETY: We just allocated the `Foo`, thus it is valid.
+/// Ok(unsafe { Owned::from_raw(result) })
+/// }
+/// }
+///
+/// // SAFETY: We increment and decrement each time the respective function is called and only free
+/// // the `Foo` when the refcount reaches zero.
+/// unsafe impl RefCounted for Foo {
+/// fn inc_ref(&self) {
+/// self.refcount.replace(self.refcount.get() + 1);
+/// }
+///
+/// unsafe fn dec_ref(this: NonNull<Self>) {
+/// // SAFETY: The underlying object is always valid when the function is called.
+/// let refcount = unsafe { &this.as_ref().refcount };
+/// let new_refcount = refcount.get() - 1;
+/// if new_refcount == 0 {
+/// // The `Foo` will be dropped when `KBox` goes out of scope.
+/// // SAFETY: The `Box<Foo>` is still alive as the old refcount is 1.
+/// unsafe { KBox::from_raw(this.as_ptr()) };
+/// } else {
+/// refcount.replace(new_refcount);
+/// }
+/// }
+/// }
+///
+/// // SAFETY: We only convert into an `Owned` when the refcount is 1.
+/// unsafe impl OwnableRefCounted for Foo {
+/// fn try_from_shared(this: ARef<Self>) -> Result<Owned<Self>, ARef<Self>> {
+/// if this.refcount.get() == 1 {
+/// // SAFETY: The `Foo` is still alive as the refcount is 1.
+/// Ok(unsafe { Owned::from_raw(ARef::into_raw(this)) })
+/// } else {
+/// Err(this)
+/// }
+/// }
+/// }
+///
+/// // SAFETY: We are not `AlwaysRefCounted`.
+/// unsafe impl Ownable for Foo {
+/// unsafe fn release(this: NonNull<Self>) {
+/// // SAFETY: Using `dec_ref()` from `RefCounted` to release is okay, as the refcount is
+/// // always 1 for an `Owned<Foo>`.
+/// unsafe{ Foo::dec_ref(this) };
+/// }
+/// }
+///
+/// let foo = Foo::new().unwrap();
+/// let mut foo = ARef::from(foo);
+/// {
+/// let bar = foo.clone();
+/// assert!(Owned::try_from(bar).is_err());
+/// }
+/// assert!(Owned::try_from(foo).is_ok());
+/// ```
+pub unsafe trait OwnableRefCounted: RefCounted + Ownable + Sized {
+ /// Checks if the [`ARef`] is unique and convert it to an [`Owned`] it that is that case.
+ /// Otherwise it returns again an [`ARef`] to the same underlying object.
+ fn try_from_shared(this: ARef<Self>) -> Result<Owned<Self>, ARef<Self>>;
+ /// Converts the [`Owned`] into an [`ARef`].
+
+ fn into_shared(this: Owned<Self>) -> ARef<Self> {
+ // SAFETY: Safe by the requirements on implementing the trait.
+ unsafe { ARef::from_raw(Owned::into_raw(this)) }
+ }
+}
+
+/// This trait allows to implement all of [`Ownable`], [`RefCounted`] and
+/// [`OwnableRefCounted`] together in a simplified way,
+/// only requiring to provide the methods [`inc_ref()`](SimpleOwnableRefCounted::inc_ref),
+/// [`dec_ref()`](SimpleOwnableRefCounted::dec_ref),
+/// and [`is_unique()`](SimpleOwnableRefCounted::is_unique).
+///
+/// For non-standard cases where conversion between [`Ownable`] and [`RefCounted`] needs
+/// or [`Ownable::release()`] and [`RefCounted::dec_ref()`] cannot be the same method,
+/// [`Ownable`], [`RefCounted`] and [`OwnableRefCounted`] should be implemented manually.
+///
+/// # Safety
+///
+/// Implementers must ensure that:
+///
+/// - Both the safety requirements as for [`Ownable`] and [`RefCounted`] are fulfilled.
+/// - [`is_unique`](SimpleOwnableRefCounted::is_unique) must only return `true` in case only one
+/// [`ARef`] exists and it is impossible for one to be obtained other than by cloning an existing
+/// [`ARef`] or converting an [`Owned`] to an [`ARef`].
+/// - It is safe to convert an unique [`ARef`] into an [`Owned`] simply by re-wrapping the
+/// underlying object without modifying the refcount.
+///
+/// # Examples
+///
+/// A minimal example implementation of [`SimpleOwnableRefCounted`]
+/// and its usage with [`ARef`] and [`Owned`] looks like this:
+///
+/// ```
+/// # #![expect(clippy::disallowed_names)]
+/// use core::cell::Cell;
+/// use core::ptr::NonNull;
+/// use kernel::alloc::{flags, kbox::KBox, AllocError};
+/// use kernel::types::{
+/// ARef, SimpleOwnableRefCounted, Owned,
+/// };
+///
+/// struct Foo {
+/// refcount: Cell<usize>,
+/// }
+///
+/// impl Foo {
+/// fn new() -> Result<Owned<Self>, AllocError> {
+/// // Use a KBox to handle the actual allocation.
+/// let result = KBox::new(
+/// Foo {
+/// refcount: Cell::new(1),
+/// },
+/// flags::GFP_KERNEL,
+/// )?;
+/// let result = NonNull::new(KBox::into_raw(result))
+/// .expect("Raw pointer to newly allocation KBox is null, this should never happen.");
+/// // SAFETY: We just allocated the `Foo`, thus it is valid.
+/// Ok(unsafe { Owned::from_raw(result) })
+/// }
+/// }
+///
+/// // SAFETY: we ensure that:
+/// // - The `Foo` is only dropped when the refcount is zero.
+/// // - `is_unique()` only returns `true` when the refcount is 1.
+/// unsafe impl SimpleOwnableRefCounted for Foo {
+/// fn inc_ref(&self) {
+/// self.refcount.replace(self.refcount.get() + 1);
+/// }
+///
+/// unsafe fn dec_ref(this: NonNull<Self>) {
+/// // SAFETY: The underlying object is always valid when the function is called.
+/// let refcount = unsafe { &this.as_ref().refcount };
+/// let new_refcount = refcount.get() - 1;
+/// if new_refcount == 0 {
+/// // The `Foo` will be dropped when KBox goes out of scope.
+/// // SAFETY: The `Box<Foo>` is still alive as the old refcount is 1.
+/// unsafe { KBox::from_raw(this.as_ptr()) };
+/// } else {
+/// refcount.replace(new_refcount);
+/// }
+/// }
+///
+/// fn is_unique(&self) -> bool {
+/// self.refcount.get() == 1
+/// }
+/// }
+///
+/// let foo = Foo::new().unwrap();
+/// let mut foo = ARef::from(foo);
+/// {
+/// let bar = foo.clone();
+/// assert!(Owned::try_from(bar).is_err());
+/// }
+/// assert!(Owned::try_from(foo).is_ok());
+/// ```
+pub unsafe trait SimpleOwnableRefCounted {
+ /// Checks if exactly one [`ARef`] to the object exists. In case the object is [`Sync`], the
+ /// check needs to be race-free.
+ fn is_unique(&self) -> bool;
+
+ /// Increments the reference count on the object.
+ fn inc_ref(&self);
+
+ /// Decrements the reference count on the object when the [`SimpleOwnableRefCounted`] is
+ /// dropped.
+ ///
+ /// Frees the object when the count reaches zero.
+ ///
+ /// # Safety
+ ///
+ /// The safety constraints for [`RefCounted::dec_ref`] and [`Ownable::release`] both apply to
+ /// this method, as it will be used to implement both of these traits.
+ unsafe fn dec_ref(obj: NonNull<Self>);
+}
+
+#[cfg_attr(RUSTC_HAS_DO_NOT_RECOMMEND, diagnostic::do_not_recommend)]
+// SAFETY: Safe by the requirements on implementation of [`SimpleOwnableRefCounted`].
+unsafe impl<T: SimpleOwnableRefCounted> OwnableRefCounted for T {
+ fn try_from_shared(this: ARef<Self>) -> Result<Owned<Self>, ARef<Self>> {
+ if T::is_unique(&*this) {
+ // SAFETY: Safe by the requirements on implementation of [`SimpleOwnable`].
+ Ok(unsafe { Owned::from_raw(ARef::into_raw(this)) })
+ } else {
+ Err(this)
+ }
+ }
+}
+
+#[cfg_attr(RUSTC_HAS_DO_NOT_RECOMMEND, diagnostic::do_not_recommend)]
+// SAFETY: Safe by the requirements on implementation of [`SimpleOwnableRefCounted`].
+unsafe impl<T: SimpleOwnableRefCounted> Ownable for T {
+ unsafe fn release(this: NonNull<Self>) {
+ // SAFETY: Safe by the requirements on implementation of
+ // [`SimpleOwnableRefCounted::dec_ref()`].
+ unsafe { SimpleOwnableRefCounted::dec_ref(this) };
+ }
+}
+
+#[cfg_attr(RUSTC_HAS_DO_NOT_RECOMMEND, diagnostic::do_not_recommend)]
+// SAFETY: Safe by the requirements on implementation of [`SimpleOwnableRefCounted`].
+unsafe impl<T: SimpleOwnableRefCounted> RefCounted for T {
+ fn inc_ref(&self) {
+ SimpleOwnableRefCounted::inc_ref(self);
+ }
+
+ unsafe fn dec_ref(this: NonNull<Self>) {
+ // SAFETY: Safe by the requirements on implementation of
+ // [`SimpleOwnableRefCounted::dec_ref()`].
+ unsafe { SimpleOwnableRefCounted::dec_ref(this) };
+ }
+}
+
+impl<T: OwnableRefCounted> TryFrom<ARef<T>> for Owned<T> {
+ type Error = ARef<T>;
+ /// Tries to convert the [`ARef`] to an [`Owned`] by calling
+ /// [`try_from_shared()`](OwnableRefCounted::try_from_shared). In case the [`ARef`] is not
+ /// unique, it returns again an [`ARef`] to the same underlying object.
+ fn try_from(b: ARef<T>) -> Result<Owned<T>, Self::Error> {
+ T::try_from_shared(b)
+ }
+}
+
/// A sum type that always holds either a value of type `L` or `R`.
///
/// # Examples

--
2.48.1

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