131d94d8fSWedson Almeida Filho // SPDX-License-Identifier: GPL-2.0
231d94d8fSWedson Almeida Filho
38ae740c3SDanilo Krummrich //! Implementation of the kernel's memory allocation infrastructure.
431d94d8fSWedson Almeida Filho
55a888c28SDanilo Krummrich #[cfg(not(any(test, testlib)))]
6a87a36f0SDanilo Krummrich pub mod allocator;
7c8cfa8d0SDanilo Krummrich pub mod kbox;
82aac4cd7SDanilo Krummrich pub mod kvec;
99e7bbfa1SBenno Lossin pub mod layout;
10b6a006e2SWedson Almeida Filho
115a888c28SDanilo Krummrich #[cfg(any(test, testlib))]
125a888c28SDanilo Krummrich pub mod allocator_test;
135a888c28SDanilo Krummrich
145a888c28SDanilo Krummrich #[cfg(any(test, testlib))]
155a888c28SDanilo Krummrich pub use self::allocator_test as allocator;
165a888c28SDanilo Krummrich
17c8cfa8d0SDanilo Krummrich pub use self::kbox::Box;
18c8cfa8d0SDanilo Krummrich pub use self::kbox::KBox;
19c8cfa8d0SDanilo Krummrich pub use self::kbox::KVBox;
20c8cfa8d0SDanilo Krummrich pub use self::kbox::VBox;
21c8cfa8d0SDanilo Krummrich
221d1d223aSDanilo Krummrich pub use self::kvec::IntoIter;
232aac4cd7SDanilo Krummrich pub use self::kvec::KVVec;
242aac4cd7SDanilo Krummrich pub use self::kvec::KVec;
252aac4cd7SDanilo Krummrich pub use self::kvec::VVec;
262aac4cd7SDanilo Krummrich pub use self::kvec::Vec;
272aac4cd7SDanilo Krummrich
282c109285SWedson Almeida Filho /// Indicates an allocation error.
292c109285SWedson Almeida Filho #[derive(Copy, Clone, PartialEq, Eq, Debug)]
302c109285SWedson Almeida Filho pub struct AllocError;
31b7a084baSDanilo Krummrich use core::{alloc::Layout, ptr::NonNull};
322c109285SWedson Almeida Filho
33b6a006e2SWedson Almeida Filho /// Flags to be used when allocating memory.
34b6a006e2SWedson Almeida Filho ///
35b6a006e2SWedson Almeida Filho /// They can be combined with the operators `|`, `&`, and `!`.
36b6a006e2SWedson Almeida Filho ///
37b6a006e2SWedson Almeida Filho /// Values can be used from the [`flags`] module.
38909037ceSDanilo Krummrich #[derive(Clone, Copy, PartialEq)]
39b6a006e2SWedson Almeida Filho pub struct Flags(u32);
40b6a006e2SWedson Almeida Filho
41fc6e66f4SAlice Ryhl impl Flags {
42fc6e66f4SAlice Ryhl /// Get the raw representation of this flag.
as_raw(self) -> u3243fc6e66f4SAlice Ryhl pub(crate) fn as_raw(self) -> u32 {
44fc6e66f4SAlice Ryhl self.0
45fc6e66f4SAlice Ryhl }
46909037ceSDanilo Krummrich
47909037ceSDanilo Krummrich /// Check whether `flags` is contained in `self`.
contains(self, flags: Flags) -> bool48909037ceSDanilo Krummrich pub fn contains(self, flags: Flags) -> bool {
49909037ceSDanilo Krummrich (self & flags) == flags
50909037ceSDanilo Krummrich }
51fc6e66f4SAlice Ryhl }
52fc6e66f4SAlice Ryhl
53b6a006e2SWedson Almeida Filho impl core::ops::BitOr for Flags {
54b6a006e2SWedson Almeida Filho type Output = Self;
bitor(self, rhs: Self) -> Self::Output55b6a006e2SWedson Almeida Filho fn bitor(self, rhs: Self) -> Self::Output {
56b6a006e2SWedson Almeida Filho Self(self.0 | rhs.0)
57b6a006e2SWedson Almeida Filho }
58b6a006e2SWedson Almeida Filho }
59b6a006e2SWedson Almeida Filho
60b6a006e2SWedson Almeida Filho impl core::ops::BitAnd for Flags {
61b6a006e2SWedson Almeida Filho type Output = Self;
bitand(self, rhs: Self) -> Self::Output62b6a006e2SWedson Almeida Filho fn bitand(self, rhs: Self) -> Self::Output {
63b6a006e2SWedson Almeida Filho Self(self.0 & rhs.0)
64b6a006e2SWedson Almeida Filho }
65b6a006e2SWedson Almeida Filho }
66b6a006e2SWedson Almeida Filho
67b6a006e2SWedson Almeida Filho impl core::ops::Not for Flags {
68b6a006e2SWedson Almeida Filho type Output = Self;
not(self) -> Self::Output69b6a006e2SWedson Almeida Filho fn not(self) -> Self::Output {
70b6a006e2SWedson Almeida Filho Self(!self.0)
71b6a006e2SWedson Almeida Filho }
72b6a006e2SWedson Almeida Filho }
73b6a006e2SWedson Almeida Filho
74b6a006e2SWedson Almeida Filho /// Allocation flags.
75b6a006e2SWedson Almeida Filho ///
76b6a006e2SWedson Almeida Filho /// These are meant to be used in functions that can allocate memory.
77b6a006e2SWedson Almeida Filho pub mod flags {
78b6a006e2SWedson Almeida Filho use super::Flags;
79b6a006e2SWedson Almeida Filho
80b6a006e2SWedson Almeida Filho /// Zeroes out the allocated memory.
81b6a006e2SWedson Almeida Filho ///
82b6a006e2SWedson Almeida Filho /// This is normally or'd with other flags.
83b6a006e2SWedson Almeida Filho pub const __GFP_ZERO: Flags = Flags(bindings::__GFP_ZERO);
84b6a006e2SWedson Almeida Filho
85ab44079eSAlice Ryhl /// Allow the allocation to be in high memory.
86ab44079eSAlice Ryhl ///
87ab44079eSAlice Ryhl /// Allocations in high memory may not be mapped into the kernel's address space, so this can't
88ab44079eSAlice Ryhl /// be used with `kmalloc` and other similar methods.
89ab44079eSAlice Ryhl ///
90ab44079eSAlice Ryhl /// This is normally or'd with other flags.
91ab44079eSAlice Ryhl pub const __GFP_HIGHMEM: Flags = Flags(bindings::__GFP_HIGHMEM);
92ab44079eSAlice Ryhl
93b6a006e2SWedson Almeida Filho /// Users can not sleep and need the allocation to succeed.
94b6a006e2SWedson Almeida Filho ///
95b6a006e2SWedson Almeida Filho /// A lower watermark is applied to allow access to "atomic reserves". The current
96b6a006e2SWedson Almeida Filho /// implementation doesn't support NMI and few other strict non-preemptive contexts (e.g.
97b6a006e2SWedson Almeida Filho /// raw_spin_lock). The same applies to [`GFP_NOWAIT`].
98b6a006e2SWedson Almeida Filho pub const GFP_ATOMIC: Flags = Flags(bindings::GFP_ATOMIC);
99b6a006e2SWedson Almeida Filho
100b6a006e2SWedson Almeida Filho /// Typical for kernel-internal allocations. The caller requires ZONE_NORMAL or a lower zone
101b6a006e2SWedson Almeida Filho /// for direct access but can direct reclaim.
102b6a006e2SWedson Almeida Filho pub const GFP_KERNEL: Flags = Flags(bindings::GFP_KERNEL);
103b6a006e2SWedson Almeida Filho
104b6a006e2SWedson Almeida Filho /// The same as [`GFP_KERNEL`], except the allocation is accounted to kmemcg.
105b6a006e2SWedson Almeida Filho pub const GFP_KERNEL_ACCOUNT: Flags = Flags(bindings::GFP_KERNEL_ACCOUNT);
106b6a006e2SWedson Almeida Filho
107d3ee24ccSAlice Ryhl /// For kernel allocations that should not stall for direct reclaim, start physical IO or
108b6a006e2SWedson Almeida Filho /// use any filesystem callback. It is very likely to fail to allocate memory, even for very
109b6a006e2SWedson Almeida Filho /// small allocations.
110b6a006e2SWedson Almeida Filho pub const GFP_NOWAIT: Flags = Flags(bindings::GFP_NOWAIT);
11101b2196eSDanilo Krummrich
11201b2196eSDanilo Krummrich /// Suppresses allocation failure reports.
11301b2196eSDanilo Krummrich ///
11401b2196eSDanilo Krummrich /// This is normally or'd with other flags.
11501b2196eSDanilo Krummrich pub const __GFP_NOWARN: Flags = Flags(bindings::__GFP_NOWARN);
116b6a006e2SWedson Almeida Filho }
117b7a084baSDanilo Krummrich
118b7a084baSDanilo Krummrich /// The kernel's [`Allocator`] trait.
119b7a084baSDanilo Krummrich ///
120b7a084baSDanilo Krummrich /// An implementation of [`Allocator`] can allocate, re-allocate and free memory buffers described
121b7a084baSDanilo Krummrich /// via [`Layout`].
122b7a084baSDanilo Krummrich ///
123b7a084baSDanilo Krummrich /// [`Allocator`] is designed to be implemented as a ZST; [`Allocator`] functions do not operate on
124b7a084baSDanilo Krummrich /// an object instance.
125b7a084baSDanilo Krummrich ///
126*47cb6bf7SXiangfei Ding /// In order to be able to support `#[derive(CoercePointee)]` later on, we need to avoid a design
127b7a084baSDanilo Krummrich /// that requires an `Allocator` to be instantiated, hence its functions must not contain any kind
128b7a084baSDanilo Krummrich /// of `self` parameter.
129b7a084baSDanilo Krummrich ///
130b7a084baSDanilo Krummrich /// # Safety
131b7a084baSDanilo Krummrich ///
132b7a084baSDanilo Krummrich /// - A memory allocation returned from an allocator must remain valid until it is explicitly freed.
133b7a084baSDanilo Krummrich ///
134b7a084baSDanilo Krummrich /// - Any pointer to a valid memory allocation must be valid to be passed to any other [`Allocator`]
135b7a084baSDanilo Krummrich /// function of the same type.
136b7a084baSDanilo Krummrich ///
137b7a084baSDanilo Krummrich /// - Implementers must ensure that all trait functions abide by the guarantees documented in the
138b7a084baSDanilo Krummrich /// `# Guarantees` sections.
139b7a084baSDanilo Krummrich pub unsafe trait Allocator {
140b7a084baSDanilo Krummrich /// Allocate memory based on `layout` and `flags`.
141b7a084baSDanilo Krummrich ///
142b7a084baSDanilo Krummrich /// On success, returns a buffer represented as `NonNull<[u8]>` that satisfies the layout
143b7a084baSDanilo Krummrich /// constraints (i.e. minimum size and alignment as specified by `layout`).
144b7a084baSDanilo Krummrich ///
145b7a084baSDanilo Krummrich /// This function is equivalent to `realloc` when called with `None`.
146b7a084baSDanilo Krummrich ///
147b7a084baSDanilo Krummrich /// # Guarantees
148b7a084baSDanilo Krummrich ///
149b7a084baSDanilo Krummrich /// When the return value is `Ok(ptr)`, then `ptr` is
150b7a084baSDanilo Krummrich /// - valid for reads and writes for `layout.size()` bytes, until it is passed to
151b7a084baSDanilo Krummrich /// [`Allocator::free`] or [`Allocator::realloc`],
152b7a084baSDanilo Krummrich /// - aligned to `layout.align()`,
153b7a084baSDanilo Krummrich ///
154b7a084baSDanilo Krummrich /// Additionally, `Flags` are honored as documented in
155b7a084baSDanilo Krummrich /// <https://docs.kernel.org/core-api/mm-api.html#mm-api-gfp-flags>.
alloc(layout: Layout, flags: Flags) -> Result<NonNull<[u8]>, AllocError>156b7a084baSDanilo Krummrich fn alloc(layout: Layout, flags: Flags) -> Result<NonNull<[u8]>, AllocError> {
157b7a084baSDanilo Krummrich // SAFETY: Passing `None` to `realloc` is valid by its safety requirements and asks for a
158b7a084baSDanilo Krummrich // new memory allocation.
159b7a084baSDanilo Krummrich unsafe { Self::realloc(None, layout, Layout::new::<()>(), flags) }
160b7a084baSDanilo Krummrich }
161b7a084baSDanilo Krummrich
162b7a084baSDanilo Krummrich /// Re-allocate an existing memory allocation to satisfy the requested `layout`.
163b7a084baSDanilo Krummrich ///
164b7a084baSDanilo Krummrich /// If the requested size is zero, `realloc` behaves equivalent to `free`.
165b7a084baSDanilo Krummrich ///
166b7a084baSDanilo Krummrich /// If the requested size is larger than the size of the existing allocation, a successful call
167b7a084baSDanilo Krummrich /// to `realloc` guarantees that the new or grown buffer has at least `Layout::size` bytes, but
168b7a084baSDanilo Krummrich /// may also be larger.
169b7a084baSDanilo Krummrich ///
170b7a084baSDanilo Krummrich /// If the requested size is smaller than the size of the existing allocation, `realloc` may or
171b7a084baSDanilo Krummrich /// may not shrink the buffer; this is implementation specific to the allocator.
172b7a084baSDanilo Krummrich ///
173b7a084baSDanilo Krummrich /// On allocation failure, the existing buffer, if any, remains valid.
174b7a084baSDanilo Krummrich ///
175b7a084baSDanilo Krummrich /// The buffer is represented as `NonNull<[u8]>`.
176b7a084baSDanilo Krummrich ///
177b7a084baSDanilo Krummrich /// # Safety
178b7a084baSDanilo Krummrich ///
179b7a084baSDanilo Krummrich /// - If `ptr == Some(p)`, then `p` must point to an existing and valid memory allocation
180b7a084baSDanilo Krummrich /// created by this [`Allocator`]; if `old_layout` is zero-sized `p` does not need to be a
181b7a084baSDanilo Krummrich /// pointer returned by this [`Allocator`].
182b7a084baSDanilo Krummrich /// - `ptr` is allowed to be `None`; in this case a new memory allocation is created and
183b7a084baSDanilo Krummrich /// `old_layout` is ignored.
184b7a084baSDanilo Krummrich /// - `old_layout` must match the `Layout` the allocation has been created with.
185b7a084baSDanilo Krummrich ///
186b7a084baSDanilo Krummrich /// # Guarantees
187b7a084baSDanilo Krummrich ///
188b7a084baSDanilo Krummrich /// This function has the same guarantees as [`Allocator::alloc`]. When `ptr == Some(p)`, then
189b7a084baSDanilo Krummrich /// it additionally guarantees that:
190b7a084baSDanilo Krummrich /// - the contents of the memory pointed to by `p` are preserved up to the lesser of the new
191b7a084baSDanilo Krummrich /// and old size, i.e. `ret_ptr[0..min(layout.size(), old_layout.size())] ==
192b7a084baSDanilo Krummrich /// p[0..min(layout.size(), old_layout.size())]`.
193b7a084baSDanilo Krummrich /// - when the return value is `Err(AllocError)`, then `ptr` is still valid.
realloc( ptr: Option<NonNull<u8>>, layout: Layout, old_layout: Layout, flags: Flags, ) -> Result<NonNull<[u8]>, AllocError>194b7a084baSDanilo Krummrich unsafe fn realloc(
195b7a084baSDanilo Krummrich ptr: Option<NonNull<u8>>,
196b7a084baSDanilo Krummrich layout: Layout,
197b7a084baSDanilo Krummrich old_layout: Layout,
198b7a084baSDanilo Krummrich flags: Flags,
199b7a084baSDanilo Krummrich ) -> Result<NonNull<[u8]>, AllocError>;
200b7a084baSDanilo Krummrich
201b7a084baSDanilo Krummrich /// Free an existing memory allocation.
202b7a084baSDanilo Krummrich ///
203b7a084baSDanilo Krummrich /// # Safety
204b7a084baSDanilo Krummrich ///
205b7a084baSDanilo Krummrich /// - `ptr` must point to an existing and valid memory allocation created by this [`Allocator`];
206b7a084baSDanilo Krummrich /// if `old_layout` is zero-sized `p` does not need to be a pointer returned by this
207b7a084baSDanilo Krummrich /// [`Allocator`].
208b7a084baSDanilo Krummrich /// - `layout` must match the `Layout` the allocation has been created with.
209b7a084baSDanilo Krummrich /// - The memory allocation at `ptr` must never again be read from or written to.
free(ptr: NonNull<u8>, layout: Layout)210b7a084baSDanilo Krummrich unsafe fn free(ptr: NonNull<u8>, layout: Layout) {
211b7a084baSDanilo Krummrich // SAFETY: The caller guarantees that `ptr` points at a valid allocation created by this
212b7a084baSDanilo Krummrich // allocator. We are passing a `Layout` with the smallest possible alignment, so it is
213b7a084baSDanilo Krummrich // smaller than or equal to the alignment previously used with this allocation.
214b7a084baSDanilo Krummrich let _ = unsafe { Self::realloc(Some(ptr), Layout::new::<()>(), layout, Flags(0)) };
215b7a084baSDanilo Krummrich }
216b7a084baSDanilo Krummrich }
2178a799831SDanilo Krummrich
2188a799831SDanilo Krummrich /// Returns a properly aligned dangling pointer from the given `layout`.
dangling_from_layout(layout: Layout) -> NonNull<u8>2198a799831SDanilo Krummrich pub(crate) fn dangling_from_layout(layout: Layout) -> NonNull<u8> {
2208a799831SDanilo Krummrich let ptr = layout.align() as *mut u8;
2218a799831SDanilo Krummrich
2228a799831SDanilo Krummrich // SAFETY: `layout.align()` (and hence `ptr`) is guaranteed to be non-zero.
2238a799831SDanilo Krummrich unsafe { NonNull::new_unchecked(ptr) }
2248a799831SDanilo Krummrich }
225