To support allocation trees, we introduce a new type MapleTreeAlloc for the case where the tree is created using MT_FLAGS_ALLOC_RANGE. To ensure that you can only call mtree_alloc_range on an allocation tree, we restrict thta method to the new MapleTreeAlloc type. However, all methods on MapleTree remain accessible to MapleTreeAlloc as allocation trees can use the other methods without issues. Signed-off-by: Alice Ryhl --- rust/kernel/maple_tree.rs | 158 ++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 158 insertions(+) diff --git a/rust/kernel/maple_tree.rs b/rust/kernel/maple_tree.rs index 17e4d8586ebad56aee87a97befdfec5741f147de..1a32960e6e721ca32ca45d8bb63fcffedeae3424 100644 --- a/rust/kernel/maple_tree.rs +++ b/rust/kernel/maple_tree.rs @@ -33,6 +33,26 @@ pub struct MapleTree { _p: PhantomData, } +/// A maple tree with `MT_FLAGS_ALLOC_RANGE` set. +/// +/// All methods on [`MapleTree`] are also accessible on this type. +#[pin_data] +#[repr(transparent)] +pub struct MapleTreeAlloc { + #[pin] + tree: MapleTree, +} + +// Make MapleTree methods usable on MapleTreeAlloc. +impl core::ops::Deref for MapleTreeAlloc { + type Target = MapleTree; + + #[inline] + fn deref(&self) -> &MapleTree { + &self.tree + } +} + /// A helper type used for navigating a [`MapleTree`]. /// /// # Invariants @@ -364,6 +384,107 @@ pub fn load(&mut self, index: usize) -> Option> { } } +impl MapleTreeAlloc { + /// Create a new allocation tree. + pub fn new() -> impl PinInit { + let tree = pin_init!(MapleTree { + // SAFETY: This initializes a maple tree into a pinned slot. The maple tree will be + // destroyed in Drop before the memory location becomes invalid. + tree <- Opaque::ffi_init(|slot| unsafe { + bindings::mt_init_flags(slot, bindings::MT_FLAGS_ALLOC_RANGE) + }), + _p: PhantomData, + }); + + pin_init!(MapleTreeAlloc { tree <- tree }) + } + + /// Insert an entry with the given size somewhere in the given range. + /// + /// The maple tree will search for a location in the given range where there is space to insert + /// the new range. If there is not enough available space, then an error will be returned. + /// + /// The index of the new range is returned. + /// + /// # Examples + /// + /// ``` + /// use kernel::maple_tree::{MapleTreeAlloc, AllocErrorKind}; + /// + /// let tree = KBox::pin_init(MapleTreeAlloc::>::new(), GFP_KERNEL)?; + /// + /// let ten = KBox::new(10, GFP_KERNEL)?; + /// let twenty = KBox::new(20, GFP_KERNEL)?; + /// let thirty = KBox::new(30, GFP_KERNEL)?; + /// let hundred = KBox::new(100, GFP_KERNEL)?; + /// + /// // Allocate three ranges. + /// let idx1 = tree.alloc_range(100, ten, ..1000, GFP_KERNEL)?; + /// let idx2 = tree.alloc_range(100, twenty, ..1000, GFP_KERNEL)?; + /// let idx3 = tree.alloc_range(100, thirty, ..1000, GFP_KERNEL)?; + /// + /// assert_eq!(idx1, 0); + /// assert_eq!(idx2, 100); + /// assert_eq!(idx3, 200); + /// + /// // This will fail because the remaining space is too small. + /// assert_eq!( + /// tree.alloc_range(800, hundred, ..1000, GFP_KERNEL).unwrap_err().cause, + /// AllocErrorKind::Busy, + /// ); + /// # Ok::<_, Error>(()) + /// ``` + pub fn alloc_range( + &self, + size: usize, + value: T, + range: R, + gfp: Flags, + ) -> Result> + where + R: RangeBounds, + { + let Some((min, max)) = to_maple_range(range) else { + return Err(AllocError { + value, + cause: AllocErrorKind::InvalidRequest, + }); + }; + + let ptr = T::into_foreign(value); + let mut index = 0; + + // SAFETY: The tree is valid, and we are passing a pointer to an owned instance of `T`. + let res = to_result(unsafe { + bindings::mtree_alloc_range( + self.tree.tree.get(), + &mut index, + ptr, + size, + min, + max, + gfp.as_raw(), + ) + }); + + if let Err(err) = res { + // SAFETY: As `mtree_alloc_range` failed, it is safe to take back ownership. + let value = unsafe { T::from_foreign(ptr) }; + + let cause = if err == ENOMEM { + AllocErrorKind::AllocError(kernel::alloc::AllocError) + } else if err == EBUSY { + AllocErrorKind::Busy + } else { + AllocErrorKind::InvalidRequest + }; + Err(AllocError { value, cause }) + } else { + Ok(index) + } + } +} + impl<'tree, T: ForeignOwnable> MaState<'tree, T> { /// Initialize a new `MaState` with the given tree. /// @@ -480,3 +601,40 @@ fn from(insert_err: InsertError) -> Error { Error::from(insert_err.cause) } } + +/// Error type for failure to insert a new value. +pub struct AllocError { + /// The value that could not be inserted. + pub value: T, + /// The reason for the failure to insert. + pub cause: AllocErrorKind, +} + +/// The reason for the failure to insert. +#[derive(PartialEq, Eq, Copy, Clone)] +pub enum AllocErrorKind { + /// There is not enough space for the requested allocation. + Busy, + /// Failure to allocate memory. + AllocError(kernel::alloc::AllocError), + /// The insertion request was invalid. + InvalidRequest, +} + +impl From for Error { + #[inline] + fn from(kind: AllocErrorKind) -> Error { + match kind { + AllocErrorKind::Busy => EBUSY, + AllocErrorKind::AllocError(kernel::alloc::AllocError) => ENOMEM, + AllocErrorKind::InvalidRequest => EINVAL, + } + } +} + +impl From> for Error { + #[inline] + fn from(insert_err: AllocError) -> Error { + Error::from(insert_err.cause) + } +} -- 2.51.0.rc1.167.g924127e9c0-goog