rust/kernel/interop/list.rs - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0

 //! Rust interface for C doubly circular intrusive linked lists.
 //!
 //! This module provides Rust abstractions for iterating over C `list_head`-based
 //! linked lists. It should only be used for cases where C and Rust code share
 //! direct access to the same linked list through a C interop interface.
 //!
 //! Note: This *must not* be used by Rust components that just need a linked list
 //! primitive. Use [`kernel::list::List`] instead.
 //!
 //! # Examples
 //!
 //! ```
 //! use kernel::{
 //!     bindings,
 //!     interop::list::clist_create,
 //!     types::Opaque,
 //! };
 //! # // Create test list with values (0, 10, 20) - normally done by C code but it is
 //! # // emulated here for doctests using the C bindings.
 //! # use core::mem::MaybeUninit;
 //! #
 //! # /// C struct with embedded `list_head` (typically will be allocated by C code).
 //! # #[repr(C)]
 //! # pub struct SampleItemC {
 //! #     pub value: i32,
 //! #     pub link: bindings::list_head,
 //! # }
 //! #
 //! # let mut head = MaybeUninit::<bindings::list_head>::uninit();
 //! #
 //! # let head = head.as_mut_ptr();
 //! # // SAFETY: `head` and all the items are test objects allocated in this scope.
 //! # unsafe { bindings::INIT_LIST_HEAD(head) };
 //! #
 //! # let mut items = [
 //! #     MaybeUninit::<SampleItemC>::uninit(),
 //! #     MaybeUninit::<SampleItemC>::uninit(),
 //! #     MaybeUninit::<SampleItemC>::uninit(),
 //! # ];
 //! #
 //! # for (i, item) in items.iter_mut().enumerate() {
 //! #     let ptr = item.as_mut_ptr();
 //! #     // SAFETY: `ptr` points to a valid `MaybeUninit<SampleItemC>`.
 //! #     unsafe { (*ptr).value = i as i32 * 10 };
 //! #     // SAFETY: `&raw mut` creates a pointer valid for `INIT_LIST_HEAD`.
 //! #     unsafe { bindings::INIT_LIST_HEAD(&raw mut (*ptr).link) };
 //! #     // SAFETY: `link` was just initialized and `head` is a valid list head.
 //! #     unsafe { bindings::list_add_tail(&mut (*ptr).link, head) };
 //! # }
 //!
 //! /// Rust wrapper for the C struct.
 //! ///
 //! /// The list item struct in this example is defined in C code as:
 //! ///
 //! /// ```c
 //! /// struct SampleItemC {
 //! ///     int value;
 //! ///     struct list_head link;
 //! /// };
 //! /// ```
 //! #[repr(transparent)]
 //! pub struct Item(Opaque<SampleItemC>);
 //!
 //! impl Item {
 //!     pub fn value(&self) -> i32 {
 //!         // SAFETY: `Item` has the same layout as `SampleItemC`.
 //!         unsafe { (*self.0.get()).value }
 //!     }
 //! }
 //!
 //! // Create typed [`CList`] from sentinel head.
 //! // SAFETY: `head` is valid and initialized, items are `SampleItemC` with
 //! // embedded `link` field, and `Item` is `#[repr(transparent)]` over `SampleItemC`.
 //! let list = unsafe { clist_create!(head, Item, SampleItemC, link) };
 //!
 //! // Iterate directly over typed items.
 //! let mut found_0 = false;
 //! let mut found_10 = false;
 //! let mut found_20 = false;
 //!
 //! for item in list.iter() {
 //!     let val = item.value();
 //!     if val == 0 { found_0 = true; }
 //!     if val == 10 { found_10 = true; }
 //!     if val == 20 { found_20 = true; }
 //! }
 //!
 //! assert!(found_0 && found_10 && found_20);
 //! ```

 use core::{
     iter::FusedIterator,
     marker::PhantomData, //
 };

 use crate::{
     bindings,
     types::Opaque, //
 };

 use pin_init::{
     pin_data,
     pin_init,
     PinInit, //
 };

 /// FFI wrapper for a C `list_head` object used in intrusive linked lists.
 ///
 /// # Invariants
 ///
 /// - The underlying `list_head` is initialized with valid non-`NULL` `next`/`prev` pointers.
 #[pin_data]
 #[repr(transparent)]
 pub struct CListHead {
     #[pin]
     inner: Opaque<bindings::list_head>,
 }

 impl CListHead {
     /// Create a `&CListHead` reference from a raw `list_head` pointer.
     ///
     /// # Safety
     ///
     /// - `ptr` must be a valid pointer to an initialized `list_head` (e.g. via
     ///   `INIT_LIST_HEAD()`), with valid non-`NULL` `next`/`prev` pointers.
     /// - `ptr` must remain valid for the lifetime `'a`.
     /// - The list and all linked `list_head` nodes must not be modified from
     ///   anywhere for the lifetime `'a`, unless done so via any [`CListHead`] APIs.
     #[inline]
     pub unsafe fn from_raw<'a>(ptr: *mut bindings::list_head) -> &'a Self {
         // SAFETY:
         // - `CListHead` has the same layout as `list_head`.
         // - `ptr` is valid and unmodified for `'a` per caller guarantees.
         unsafe { &*ptr.cast() }
     }

     /// Get the raw `list_head` pointer.
     #[inline]
     pub fn as_raw(&self) -> *mut bindings::list_head {
         self.inner.get()
     }

     /// Get the next [`CListHead`] in the list.
     #[inline]
     pub fn next(&self) -> &Self {
         let raw = self.as_raw();
         // SAFETY:
         // - `self.as_raw()` is valid and initialized per type invariants.
         // - The `next` pointer is valid and non-`NULL` per type invariants
         //   (initialized via `INIT_LIST_HEAD()` or equivalent).
         unsafe { Self::from_raw((*raw).next) }
     }

     /// Check if this node is linked in a list (not isolated).
     #[inline]
     pub fn is_linked(&self) -> bool {
         let raw = self.as_raw();
         // SAFETY: `self.as_raw()` is valid per type invariants.
         unsafe { (*raw).next != raw && (*raw).prev != raw }
     }

     /// Returns a pin-initializer for the list head.
     pub fn new() -> impl PinInit<Self> {
         pin_init!(Self {
             // SAFETY: `INIT_LIST_HEAD` initializes `slot` to a valid empty list.
             inner <- Opaque::ffi_init(|slot| unsafe { bindings::INIT_LIST_HEAD(slot) }),
         })
     }
 }

 // SAFETY: `list_head` contains no thread-bound state; it only holds
 // `next`/`prev` pointers.
 unsafe impl Send for CListHead {}

 // SAFETY: `CListHead` can be shared among threads as modifications are
 // not allowed at the moment.
 unsafe impl Sync for CListHead {}

 impl PartialEq for CListHead {
     #[inline]
     fn eq(&self, other: &Self) -> bool {
         core::ptr::eq(self, other)
     }
 }

 impl Eq for CListHead {}

 /// Low-level iterator over `list_head` nodes.
 ///
 /// An iterator used to iterate over a C intrusive linked list (`list_head`). The caller has to
 /// perform conversion of returned [`CListHead`] to an item (using [`container_of`] or similar).
 ///
 /// # Invariants
 ///
 /// `current` and `sentinel` are valid references into an initialized linked list.
 struct CListHeadIter<'a> {
     /// Current position in the list.
     current: &'a CListHead,
     /// The sentinel head (used to detect end of iteration).
     sentinel: &'a CListHead,
 }

 impl<'a> Iterator for CListHeadIter<'a> {
     type Item = &'a CListHead;

     #[inline]
     fn next(&mut self) -> Option<Self::Item> {
         // Check if we've reached the sentinel (end of list).
         if self.current == self.sentinel {
             return None;
         }

         let item = self.current;
         self.current = item.next();
         Some(item)
     }
 }

 impl<'a> FusedIterator for CListHeadIter<'a> {}

 /// A typed C linked list with a sentinel head intended for FFI use-cases where
 /// a C subsystem manages a linked list that Rust code needs to read. Generally
 /// required only for special cases.
 ///
 /// A sentinel head [`CListHead`] represents the entire linked list and can be used
 /// for iteration over items of type `T`; it is not associated with a specific item.
 ///
 /// The const generic `OFFSET` specifies the byte offset of the `list_head` field within
 /// the struct that `T` wraps.
 ///
 /// # Invariants
 ///
 /// - The sentinel [`CListHead`] has valid non-`NULL` `next`/`prev` pointers.
 /// - `OFFSET` is the byte offset of the `list_head` field within the struct that `T` wraps.
 /// - All the list's `list_head` nodes have valid non-`NULL` `next`/`prev` pointers.
 #[repr(transparent)]
 pub struct CList<T, const OFFSET: usize>(CListHead, PhantomData<T>);

 impl<T, const OFFSET: usize> CList<T, OFFSET> {
     /// Create a typed [`CList`] reference from a raw sentinel `list_head` pointer.
     ///
     /// # Safety
     ///
     /// - `ptr` must be a valid pointer to an initialized sentinel `list_head` (e.g. via
     ///   `INIT_LIST_HEAD()`), with valid non-`NULL` `next`/`prev` pointers.
     /// - `ptr` must remain valid for the lifetime `'a`.
     /// - The list and all linked nodes must not be concurrently modified for the lifetime `'a`.
     /// - The list must contain items where the `list_head` field is at byte offset `OFFSET`.
     /// - `T` must be `#[repr(transparent)]` over the C struct.
     #[inline]
     pub unsafe fn from_raw<'a>(ptr: *mut bindings::list_head) -> &'a Self {
         // SAFETY:
         // - `CList` has the same layout as `CListHead` due to `#[repr(transparent)]`.
         // - Caller guarantees `ptr` is a valid, sentinel `list_head` object.
         unsafe { &*ptr.cast() }
     }

     /// Check if the list is empty.
     #[inline]
     pub fn is_empty(&self) -> bool {
         !self.0.is_linked()
     }

     /// Create an iterator over typed items.
     #[inline]
     pub fn iter(&self) -> CListIter<'_, T, OFFSET> {
         let head = &self.0;
         CListIter {
             head_iter: CListHeadIter {
                 current: head.next(),
                 sentinel: head,
             },
             _phantom: PhantomData,
         }
     }
 }

 /// High-level iterator over typed list items.
 pub struct CListIter<'a, T, const OFFSET: usize> {
     head_iter: CListHeadIter<'a>,
     _phantom: PhantomData<&'a T>,
 }

 impl<'a, T, const OFFSET: usize> Iterator for CListIter<'a, T, OFFSET> {
     type Item = &'a T;

     #[inline]
     fn next(&mut self) -> Option<Self::Item> {
         let head = self.head_iter.next()?;

         // Convert to item using `OFFSET`.
         //
         // SAFETY: The pointer calculation is valid because `OFFSET` is derived
         // from `offset_of!` per type invariants.
         Some(unsafe { &*head.as_raw().byte_sub(OFFSET).cast::<T>() })
     }
 }

 impl<'a, T, const OFFSET: usize> FusedIterator for CListIter<'a, T, OFFSET> {}

 /// Create a C doubly-circular linked list interface [`CList`] from a raw `list_head` pointer.
 ///
 /// This macro creates a `CList<T, OFFSET>` that can iterate over items of type `$rust_type`
 /// linked via the `$field` field in the underlying C struct `$c_type`.
 ///
 /// # Arguments
 ///
 /// - `$head`: Raw pointer to the sentinel `list_head` object (`*mut bindings::list_head`).
 /// - `$rust_type`: Each item's Rust wrapper type.
 /// - `$c_type`: Each item's C struct type that contains the embedded `list_head`.
 /// - `$field`: The name of the `list_head` field within the C struct.
 ///
 /// # Safety
 ///
 /// The caller must ensure:
 ///
 /// - `$head` is a valid, initialized sentinel `list_head` (e.g. via `INIT_LIST_HEAD()`)
 ///   pointing to a list that is not concurrently modified for the lifetime of the [`CList`].
 /// - The list contains items of type `$c_type` linked via an embedded `$field`.
 /// - `$rust_type` is `#[repr(transparent)]` over `$c_type` or has compatible layout.
 ///
 /// # Examples
 ///
 /// Refer to the examples in the [`crate::interop::list`] module documentation.
 #[macro_export]
 macro_rules! clist_create {
     ($head:expr, $rust_type:ty, $c_type:ty, $($field:tt).+) => {{
         // Compile-time check that field path is a `list_head`.
         let _: fn(*const $c_type) -> *const $crate::bindings::list_head =
             |p| &raw const (*p).$($field).+;

         // Calculate offset and create `CList`.
         const OFFSET: usize = ::core::mem::offset_of!($c_type, $($field).+);
         $crate::interop::list::CList::<$rust_type, OFFSET>::from_raw($head)
     }};
 }
 pub use clist_create;
	// SPDX-License-Identifier: GPL-2.0

	//! Rust interface for C doubly circular intrusive linked lists.
	//!
	//! This module provides Rust abstractions for iterating over C `list_head`-based
	//! linked lists. It should only be used for cases where C and Rust code share
	//! direct access to the same linked list through a C interop interface.
	//!
	//! Note: This must not be used by Rust components that just need a linked list
	//! primitive. Use [`kernel::list::List`] instead.
	//!
	//! # Examples
	//!
	//! ```
	//! use kernel::{
	//! bindings,
	//! interop::list::clist_create,
	//! types::Opaque,
	//! };
	//! # // Create test list with values (0, 10, 20) - normally done by C code but it is
	//! # // emulated here for doctests using the C bindings.
	//! # use core::mem::MaybeUninit;
	//! #
	//! # /// C struct with embedded `list_head` (typically will be allocated by C code).
	//! # #[repr(C)]
	//! # pub struct SampleItemC {
	//! # pub value: i32,
	//! # pub link: bindings::list_head,
	//! # }
	//! #
	//! # let mut head = MaybeUninit::<bindings::list_head>::uninit();
	//! #
	//! # let head = head.as_mut_ptr();
	//! # // SAFETY: `head` and all the items are test objects allocated in this scope.
	//! # unsafe { bindings::INIT_LIST_HEAD(head) };
	//! #
	//! # let mut items = [
	//! # MaybeUninit::<SampleItemC>::uninit(),
	//! # MaybeUninit::<SampleItemC>::uninit(),
	//! # MaybeUninit::<SampleItemC>::uninit(),
	//! # ];
	//! #
	//! # for (i, item) in items.iter_mut().enumerate() {
	//! # let ptr = item.as_mut_ptr();
	//! # // SAFETY: `ptr` points to a valid `MaybeUninit<SampleItemC>`.
	//! # unsafe { (ptr).value = i as i32 10 };
	//! # // SAFETY: `&raw mut` creates a pointer valid for `INIT_LIST_HEAD`.
	//! # unsafe { bindings::INIT_LIST_HEAD(&raw mut (*ptr).link) };
	//! # // SAFETY: `link` was just initialized and `head` is a valid list head.
	//! # unsafe { bindings::list_add_tail(&mut (*ptr).link, head) };
	//! # }
	//!
	//! /// Rust wrapper for the C struct.
	//! ///
	//! /// The list item struct in this example is defined in C code as:
	//! ///
	//! /// ```c
	//! /// struct SampleItemC {
	//! /// int value;
	//! /// struct list_head link;
	//! /// };
	//! /// ```
	//! #[repr(transparent)]
	//! pub struct Item(Opaque<SampleItemC>);
	//!
	//! impl Item {
	//! pub fn value(&self) -> i32 {
	//! // SAFETY: `Item` has the same layout as `SampleItemC`.
	//! unsafe { (*self.0.get()).value }
	//! }
	//! }
	//!
	//! // Create typed [`CList`] from sentinel head.
	//! // SAFETY: `head` is valid and initialized, items are `SampleItemC` with
	//! // embedded `link` field, and `Item` is `#[repr(transparent)]` over `SampleItemC`.
	//! let list = unsafe { clist_create!(head, Item, SampleItemC, link) };
	//!
	//! // Iterate directly over typed items.
	//! let mut found_0 = false;
	//! let mut found_10 = false;
	//! let mut found_20 = false;
	//!
	//! for item in list.iter() {
	//! let val = item.value();
	//! if val == 0 { found_0 = true; }
	//! if val == 10 { found_10 = true; }
	//! if val == 20 { found_20 = true; }
	//! }
	//!
	//! assert!(found_0 && found_10 && found_20);
	//! ```

	use core::{
	iter::FusedIterator,
	marker::PhantomData, //
	};

	use crate::{
	bindings,
	types::Opaque, //
	};

	use pin_init::{
	pin_data,
	pin_init,
	PinInit, //
	};

	/// FFI wrapper for a C `list_head` object used in intrusive linked lists.
	///
	/// # Invariants
	///
	/// - The underlying `list_head` is initialized with valid non-`NULL` `next`/`prev` pointers.
	#[pin_data]
	#[repr(transparent)]
	pub struct CListHead {
	#[pin]
	inner: Opaque<bindings::list_head>,
	}

	impl CListHead {
	/// Create a `&CListHead` reference from a raw `list_head` pointer.
	///
	/// # Safety
	///
	/// - `ptr` must be a valid pointer to an initialized `list_head` (e.g. via
	/// `INIT_LIST_HEAD()`), with valid non-`NULL` `next`/`prev` pointers.
	/// - `ptr` must remain valid for the lifetime `'a`.
	/// - The list and all linked `list_head` nodes must not be modified from
	/// anywhere for the lifetime `'a`, unless done so via any [`CListHead`] APIs.
	#[inline]
	pub unsafe fn from_raw<'a>(ptr: *mut bindings::list_head) -> &'a Self {
	// SAFETY:
	// - `CListHead` has the same layout as `list_head`.
	// - `ptr` is valid and unmodified for `'a` per caller guarantees.
	unsafe { &*ptr.cast() }
	}

	/// Get the raw `list_head` pointer.
	#[inline]
	pub fn as_raw(&self) -> *mut bindings::list_head {
	self.inner.get()
	}

	/// Get the next [`CListHead`] in the list.
	#[inline]
	pub fn next(&self) -> &Self {
	let raw = self.as_raw();
	// SAFETY:
	// - `self.as_raw()` is valid and initialized per type invariants.
	// - The `next` pointer is valid and non-`NULL` per type invariants
	// (initialized via `INIT_LIST_HEAD()` or equivalent).
	unsafe { Self::from_raw((*raw).next) }
	}

	/// Check if this node is linked in a list (not isolated).
	#[inline]
	pub fn is_linked(&self) -> bool {
	let raw = self.as_raw();
	// SAFETY: `self.as_raw()` is valid per type invariants.
	unsafe { (raw).next != raw && (raw).prev != raw }
	}

	/// Returns a pin-initializer for the list head.
	pub fn new() -> impl PinInit<Self> {
	pin_init!(Self {
	// SAFETY: `INIT_LIST_HEAD` initializes `slot` to a valid empty list.
	inner <- Opaque::ffi_init(\|slot\| unsafe { bindings::INIT_LIST_HEAD(slot) }),
	})
	}
	}

	// SAFETY: `list_head` contains no thread-bound state; it only holds
	// `next`/`prev` pointers.
	unsafe impl Send for CListHead {}

	// SAFETY: `CListHead` can be shared among threads as modifications are
	// not allowed at the moment.
	unsafe impl Sync for CListHead {}

	impl PartialEq for CListHead {
	#[inline]
	fn eq(&self, other: &Self) -> bool {
	core::ptr::eq(self, other)
	}
	}

	impl Eq for CListHead {}

	/// Low-level iterator over `list_head` nodes.
	///
	/// An iterator used to iterate over a C intrusive linked list (`list_head`). The caller has to
	/// perform conversion of returned [`CListHead`] to an item (using [`container_of`] or similar).
	///
	/// # Invariants
	///
	/// `current` and `sentinel` are valid references into an initialized linked list.
	struct CListHeadIter<'a> {
	/// Current position in the list.
	current: &'a CListHead,
	/// The sentinel head (used to detect end of iteration).
	sentinel: &'a CListHead,
	}

	impl<'a> Iterator for CListHeadIter<'a> {
	type Item = &'a CListHead;

	#[inline]
	fn next(&mut self) -> Option<Self::Item> {
	// Check if we've reached the sentinel (end of list).
	if self.current == self.sentinel {
	return None;
	}

	let item = self.current;
	self.current = item.next();
	Some(item)
	}
	}

	impl<'a> FusedIterator for CListHeadIter<'a> {}

	/// A typed C linked list with a sentinel head intended for FFI use-cases where
	/// a C subsystem manages a linked list that Rust code needs to read. Generally
	/// required only for special cases.
	///
	/// A sentinel head [`CListHead`] represents the entire linked list and can be used
	/// for iteration over items of type `T`; it is not associated with a specific item.
	///
	/// The const generic `OFFSET` specifies the byte offset of the `list_head` field within
	/// the struct that `T` wraps.
	///
	/// # Invariants
	///
	/// - The sentinel [`CListHead`] has valid non-`NULL` `next`/`prev` pointers.
	/// - `OFFSET` is the byte offset of the `list_head` field within the struct that `T` wraps.
	/// - All the list's `list_head` nodes have valid non-`NULL` `next`/`prev` pointers.
	#[repr(transparent)]
	pub struct CList<T, const OFFSET: usize>(CListHead, PhantomData<T>);

	impl<T, const OFFSET: usize> CList<T, OFFSET> {
	/// Create a typed [`CList`] reference from a raw sentinel `list_head` pointer.
	///
	/// # Safety
	///
	/// - `ptr` must be a valid pointer to an initialized sentinel `list_head` (e.g. via
	/// `INIT_LIST_HEAD()`), with valid non-`NULL` `next`/`prev` pointers.
	/// - `ptr` must remain valid for the lifetime `'a`.
	/// - The list and all linked nodes must not be concurrently modified for the lifetime `'a`.
	/// - The list must contain items where the `list_head` field is at byte offset `OFFSET`.
	/// - `T` must be `#[repr(transparent)]` over the C struct.
	#[inline]
	pub unsafe fn from_raw<'a>(ptr: *mut bindings::list_head) -> &'a Self {
	// SAFETY:
	// - `CList` has the same layout as `CListHead` due to `#[repr(transparent)]`.
	// - Caller guarantees `ptr` is a valid, sentinel `list_head` object.
	unsafe { &*ptr.cast() }
	}

	/// Check if the list is empty.
	#[inline]
	pub fn is_empty(&self) -> bool {
	!self.0.is_linked()
	}

	/// Create an iterator over typed items.
	#[inline]
	pub fn iter(&self) -> CListIter<'_, T, OFFSET> {
	let head = &self.0;
	CListIter {
	head_iter: CListHeadIter {
	current: head.next(),
	sentinel: head,
	},
	_phantom: PhantomData,
	}
	}
	}

	/// High-level iterator over typed list items.
	pub struct CListIter<'a, T, const OFFSET: usize> {
	head_iter: CListHeadIter<'a>,
	_phantom: PhantomData<&'a T>,
	}

	impl<'a, T, const OFFSET: usize> Iterator for CListIter<'a, T, OFFSET> {
	type Item = &'a T;

	#[inline]
	fn next(&mut self) -> Option<Self::Item> {
	let head = self.head_iter.next()?;

	// Convert to item using `OFFSET`.
	//
	// SAFETY: The pointer calculation is valid because `OFFSET` is derived
	// from `offset_of!` per type invariants.
	Some(unsafe { &*head.as_raw().byte_sub(OFFSET).cast::<T>() })
	}
	}

	impl<'a, T, const OFFSET: usize> FusedIterator for CListIter<'a, T, OFFSET> {}

	/// Create a C doubly-circular linked list interface [`CList`] from a raw `list_head` pointer.
	///
	/// This macro creates a `CList<T, OFFSET>` that can iterate over items of type `$rust_type`
	/// linked via the `$field` field in the underlying C struct `$c_type`.
	///
	/// # Arguments
	///
	/// - `$head`: Raw pointer to the sentinel `list_head` object (`*mut bindings::list_head`).
	/// - `$rust_type`: Each item's Rust wrapper type.
	/// - `$c_type`: Each item's C struct type that contains the embedded `list_head`.
	/// - `$field`: The name of the `list_head` field within the C struct.
	///
	/// # Safety
	///
	/// The caller must ensure:
	///
	/// - `$head` is a valid, initialized sentinel `list_head` (e.g. via `INIT_LIST_HEAD()`)
	/// pointing to a list that is not concurrently modified for the lifetime of the [`CList`].
	/// - The list contains items of type `$c_type` linked via an embedded `$field`.
	/// - `$rust_type` is `#[repr(transparent)]` over `$c_type` or has compatible layout.
	///
	/// # Examples
	///
	/// Refer to the examples in the [`crate::interop::list`] module documentation.
	#[macro_export]
	macro_rules! clist_create {
	($head:expr, $rust_type:ty, $c_type:ty, $($field:tt).+) => {{
	// Compile-time check that field path is a `list_head`.
	let _: fn(const $c_type) -> const $crate::bindings::list_head =
	\|p\| &raw const (*p).$($field).+;

	// Calculate offset and create `CList`.
	const OFFSET: usize = ::core::mem::offset_of!($c_type, $($field).+);
	$crate::interop::list::CList::<$rust_type, OFFSET>::from_raw($head)
	}};
	}
	pub use clist_create;