Add a kernel specific `Allocator` trait, that in contrast to the one in Rust's core library doesn't require unstable features and supports GFP flags. Subsequent patches add the following trait implementors: `Kmalloc`, `Vmalloc` and `KVmalloc`. Reviewed-by: Alice Ryhl <aliceryhl@xxxxxxxxxx> Reviewed-by: Benno Lossin <benno.lossin@xxxxxxxxx> Reviewed-by: Gary Guo <gary@xxxxxxxxxxx> Signed-off-by: Danilo Krummrich <dakr@xxxxxxxxxx> --- rust/kernel/alloc.rs | 101 +++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 101 insertions(+) diff --git a/rust/kernel/alloc.rs b/rust/kernel/alloc.rs index 1966bd407017..4deeea3488be 100644 --- a/rust/kernel/alloc.rs +++ b/rust/kernel/alloc.rs @@ -11,6 +11,7 @@ /// Indicates an allocation error. #[derive(Copy, Clone, PartialEq, Eq, Debug)] pub struct AllocError; +use core::{alloc::Layout, ptr::NonNull}; /// Flags to be used when allocating memory. /// @@ -86,3 +87,103 @@ pub mod flags { /// small allocations. pub const GFP_NOWAIT: Flags = Flags(bindings::GFP_NOWAIT); } + +/// The kernel's [`Allocator`] trait. +/// +/// An implementation of [`Allocator`] can allocate, re-allocate and free memory buffers described +/// via [`Layout`]. +/// +/// [`Allocator`] is designed to be implemented as a ZST; [`Allocator`] functions do not operate on +/// an object instance. +/// +/// In order to be able to support `#[derive(SmartPointer)]` later on, we need to avoid a design +/// that requires an `Allocator` to be instantiated, hence its functions must not contain any kind +/// of `self` parameter. +/// +/// # Safety +/// +/// - A memory allocation returned from an allocator must remain valid until it is explicitly freed. +/// +/// - Any pointer to a valid memory allocation must be valid to be passed to any other [`Allocator`] +/// function of the same type. +/// +/// - Implementers must ensure that all trait functions abide by the guarantees documented in the +/// `# Guarantees` sections. +pub unsafe trait Allocator { + /// Allocate memory based on `layout` and `flags`. + /// + /// On success, returns a buffer represented as `NonNull<[u8]>` that satisfies the layout + /// constraints (i.e. minimum size and alignment as specified by `layout`). + /// + /// This function is equivalent to `realloc` when called with `None`. + /// + /// # Guarantees + /// + /// When the return value is `Ok(ptr)`, then `ptr` is + /// - valid for reads and writes for `layout.size()` bytes, until it is passed to + /// [`Allocator::free`] or [`Allocator::realloc`], + /// - aligned to `layout.align()`, + /// + /// Additionally, `Flags` are honored as documented in + /// <https://docs.kernel.org/core-api/mm-api.html#mm-api-gfp-flags>. + fn alloc(layout: Layout, flags: Flags) -> Result<NonNull<[u8]>, AllocError> { + // SAFETY: Passing `None` to `realloc` is valid by it's safety requirements and asks for a + // new memory allocation. + unsafe { Self::realloc(None, layout, Layout::new::<()>(), flags) } + } + + /// Re-allocate an existing memory allocation to satisfy the requested `layout`. + /// + /// If the requested size is zero, `realloc` behaves equivalent to `free`. + /// + /// If the requested size is larger than the size of the existing allocation, a successful call + /// to `realloc` guarantees that the new or grown buffer has at least `Layout::size` bytes, but + /// may also be larger. + /// + /// If the requested size is smaller than the size of the existing allocation, `realloc` may or + /// may not shrink the buffer; this is implementation specific to the allocator. + /// + /// On allocation failure, the existing buffer, if any, remains valid. + /// + /// The buffer is represented as `NonNull<[u8]>`. + /// + /// # Safety + /// + /// - If `ptr == Some(p)`, then `p` must point to an existing and valid memory allocation + /// created by this [`Allocator`]; if `old_layout` is zero-sized `p` does not need to be a + /// pointer returned by this [`Allocator`]. + /// - `ptr` is allowed to be `None`; in this case a new memory allocation is created and + /// `old_layout` is ignored. + /// - `old_layout` must match the `Layout` the allocation has been created with. + /// + /// # Guarantees + /// + /// This function has the same guarantees as [`Allocator::alloc`]. When `ptr == Some(p)`, then + /// it additionally guarantees that: + /// - the contents of the memory pointed to by `p` are preserved up to the lesser of the new + /// and old size, i.e. `ret_ptr[0..min(layout.size(), old_layout.size())] == + /// p[0..min(layout.size(), old_layout.size())]`. + /// - when the return value is `Err(AllocError)`, then `ptr` is still valid. + unsafe fn realloc( + ptr: Option<NonNull<u8>>, + layout: Layout, + old_layout: Layout, + flags: Flags, + ) -> Result<NonNull<[u8]>, AllocError>; + + /// Free an existing memory allocation. + /// + /// # Safety + /// + /// - `ptr` must point to an existing and valid memory allocation created by this [`Allocator`]; + /// if `old_layout` is zero-sized `p` does not need to be a pointer returned by this + /// [`Allocator`]. + /// - `layout` must match the `Layout` the allocation has been created with. + /// - The memory allocation at `ptr` must never again be read from or written to. + unsafe fn free(ptr: NonNull<u8>, layout: Layout) { + // SAFETY: The caller guarantees that `ptr` points at a valid allocation created by this + // allocator. We are passing a `Layout` with the smallest possible alignment, so it is + // smaller than or equal to the alignment previously used with this allocation. + let _ = unsafe { Self::realloc(Some(ptr), Layout::new::<()>(), layout, Flags(0)) }; + } +} -- 2.46.1