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authorDanilo Krummrich <dakr@kernel.org>2024-07-23 18:58:48 +0200
committerDanilo Krummrich <dakr@kernel.org>2024-10-08 16:13:32 +0200
commite7bfec1fb2eac54233de6e779eeb3750c858cc27 (patch)
tree7f3bb4ba4f477fb16f4381cd46f49edbfbe3914d /rust/kernel
parentcea50fa9216c2fdf78c620692b1c91a50c8a2f3c (diff)
rust: alloc: implement kernel `Box`
`Box` provides the simplest way to allocate memory for a generic type with one of the kernel's allocators, e.g. `Kmalloc`, `Vmalloc` or `KVmalloc`. In contrast to Rust's `Box` type, the kernel `Box` type considers the kernel's GFP flags for all appropriate functions, always reports allocation failures through `Result<_, AllocError>` and remains independent from unstable features. Reviewed-by: Benno Lossin <benno.lossin@proton.me> Reviewed-by: Gary Guo <gary@garyguo.net> Signed-off-by: Danilo Krummrich <dakr@kernel.org>
Diffstat (limited to 'rust/kernel')
-rw-r--r--rust/kernel/alloc.rs6
-rw-r--r--rust/kernel/alloc/kbox.rs456
-rw-r--r--rust/kernel/prelude.rs2
3 files changed, 463 insertions, 1 deletions
diff --git a/rust/kernel/alloc.rs b/rust/kernel/alloc.rs
index 7954fb91a39b..145ea8cce53f 100644
--- a/rust/kernel/alloc.rs
+++ b/rust/kernel/alloc.rs
@@ -5,6 +5,7 @@
#[cfg(not(any(test, testlib)))]
pub mod allocator;
pub mod box_ext;
+pub mod kbox;
pub mod vec_ext;
#[cfg(any(test, testlib))]
@@ -13,6 +14,11 @@ pub mod allocator_test;
#[cfg(any(test, testlib))]
pub use self::allocator_test as allocator;
+pub use self::kbox::Box;
+pub use self::kbox::KBox;
+pub use self::kbox::KVBox;
+pub use self::kbox::VBox;
+
/// Indicates an allocation error.
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub struct AllocError;
diff --git a/rust/kernel/alloc/kbox.rs b/rust/kernel/alloc/kbox.rs
new file mode 100644
index 000000000000..ef1add933f60
--- /dev/null
+++ b/rust/kernel/alloc/kbox.rs
@@ -0,0 +1,456 @@
+// SPDX-License-Identifier: GPL-2.0
+
+//! Implementation of [`Box`].
+
+#[allow(unused_imports)] // Used in doc comments.
+use super::allocator::{KVmalloc, Kmalloc, Vmalloc};
+use super::{AllocError, Allocator, Flags};
+use core::alloc::Layout;
+use core::fmt;
+use core::marker::PhantomData;
+use core::mem::ManuallyDrop;
+use core::mem::MaybeUninit;
+use core::ops::{Deref, DerefMut};
+use core::pin::Pin;
+use core::ptr::NonNull;
+use core::result::Result;
+
+use crate::init::{InPlaceInit, InPlaceWrite, Init, PinInit};
+use crate::types::ForeignOwnable;
+
+/// The kernel's [`Box`] type -- a heap allocation for a single value of type `T`.
+///
+/// This is the kernel's version of the Rust stdlib's `Box`. There are several of differences,
+/// for example no `noalias` attribute is emitted and partially moving out of a `Box` is not
+/// supported. There are also several API differences, e.g. `Box` always requires an [`Allocator`]
+/// implementation to be passed as generic, page [`Flags`] when allocating memory and all functions
+/// that may allocate memory are fallible.
+///
+/// `Box` works with any of the kernel's allocators, e.g. [`Kmalloc`], [`Vmalloc`] or [`KVmalloc`].
+/// There are aliases for `Box` with these allocators ([`KBox`], [`VBox`], [`KVBox`]).
+///
+/// When dropping a [`Box`], the value is also dropped and the heap memory is automatically freed.
+///
+/// # Examples
+///
+/// ```
+/// let b = KBox::<u64>::new(24_u64, GFP_KERNEL)?;
+///
+/// assert_eq!(*b, 24_u64);
+/// # Ok::<(), Error>(())
+/// ```
+///
+/// ```
+/// # use kernel::bindings;
+/// const SIZE: usize = bindings::KMALLOC_MAX_SIZE as usize + 1;
+/// struct Huge([u8; SIZE]);
+///
+/// assert!(KBox::<Huge>::new_uninit(GFP_KERNEL | __GFP_NOWARN).is_err());
+/// ```
+///
+/// ```
+/// # use kernel::bindings;
+/// const SIZE: usize = bindings::KMALLOC_MAX_SIZE as usize + 1;
+/// struct Huge([u8; SIZE]);
+///
+/// assert!(KVBox::<Huge>::new_uninit(GFP_KERNEL).is_ok());
+/// ```
+///
+/// # Invariants
+///
+/// `self.0` is always properly aligned and either points to memory allocated with `A` or, for
+/// zero-sized types, is a dangling, well aligned pointer.
+#[repr(transparent)]
+pub struct Box<T: ?Sized, A: Allocator>(NonNull<T>, PhantomData<A>);
+
+/// Type alias for [`Box`] with a [`Kmalloc`] allocator.
+///
+/// # Examples
+///
+/// ```
+/// let b = KBox::new(24_u64, GFP_KERNEL)?;
+///
+/// assert_eq!(*b, 24_u64);
+/// # Ok::<(), Error>(())
+/// ```
+pub type KBox<T> = Box<T, super::allocator::Kmalloc>;
+
+/// Type alias for [`Box`] with a [`Vmalloc`] allocator.
+///
+/// # Examples
+///
+/// ```
+/// let b = VBox::new(24_u64, GFP_KERNEL)?;
+///
+/// assert_eq!(*b, 24_u64);
+/// # Ok::<(), Error>(())
+/// ```
+pub type VBox<T> = Box<T, super::allocator::Vmalloc>;
+
+/// Type alias for [`Box`] with a [`KVmalloc`] allocator.
+///
+/// # Examples
+///
+/// ```
+/// let b = KVBox::new(24_u64, GFP_KERNEL)?;
+///
+/// assert_eq!(*b, 24_u64);
+/// # Ok::<(), Error>(())
+/// ```
+pub type KVBox<T> = Box<T, super::allocator::KVmalloc>;
+
+// SAFETY: `Box` is `Send` if `T` is `Send` because the `Box` owns a `T`.
+unsafe impl<T, A> Send for Box<T, A>
+where
+ T: Send + ?Sized,
+ A: Allocator,
+{
+}
+
+// SAFETY: `Box` is `Sync` if `T` is `Sync` because the `Box` owns a `T`.
+unsafe impl<T, A> Sync for Box<T, A>
+where
+ T: Sync + ?Sized,
+ A: Allocator,
+{
+}
+
+impl<T, A> Box<T, A>
+where
+ T: ?Sized,
+ A: Allocator,
+{
+ /// Creates a new `Box<T, A>` from a raw pointer.
+ ///
+ /// # Safety
+ ///
+ /// For non-ZSTs, `raw` must point at an allocation allocated with `A` that is sufficiently
+ /// aligned for and holds a valid `T`. The caller passes ownership of the allocation to the
+ /// `Box`.
+ ///
+ /// For ZSTs, `raw` must be a dangling, well aligned pointer.
+ #[inline]
+ pub const unsafe fn from_raw(raw: *mut T) -> Self {
+ // INVARIANT: Validity of `raw` is guaranteed by the safety preconditions of this function.
+ // SAFETY: By the safety preconditions of this function, `raw` is not a NULL pointer.
+ Self(unsafe { NonNull::new_unchecked(raw) }, PhantomData)
+ }
+
+ /// Consumes the `Box<T, A>` and returns a raw pointer.
+ ///
+ /// This will not run the destructor of `T` and for non-ZSTs the allocation will stay alive
+ /// indefinitely. Use [`Box::from_raw`] to recover the [`Box`], drop the value and free the
+ /// allocation, if any.
+ ///
+ /// # Examples
+ ///
+ /// ```
+ /// let x = KBox::new(24, GFP_KERNEL)?;
+ /// let ptr = KBox::into_raw(x);
+ /// // SAFETY: `ptr` comes from a previous call to `KBox::into_raw`.
+ /// let x = unsafe { KBox::from_raw(ptr) };
+ ///
+ /// assert_eq!(*x, 24);
+ /// # Ok::<(), Error>(())
+ /// ```
+ #[inline]
+ pub fn into_raw(b: Self) -> *mut T {
+ ManuallyDrop::new(b).0.as_ptr()
+ }
+
+ /// Consumes and leaks the `Box<T, A>` and returns a mutable reference.
+ ///
+ /// See [Box::into_raw] for more details.
+ #[inline]
+ pub fn leak<'a>(b: Self) -> &'a mut T {
+ // SAFETY: `Box::into_raw` always returns a properly aligned and dereferenceable pointer
+ // which points to an initialized instance of `T`.
+ unsafe { &mut *Box::into_raw(b) }
+ }
+}
+
+impl<T, A> Box<MaybeUninit<T>, A>
+where
+ A: Allocator,
+{
+ /// Converts a `Box<MaybeUninit<T>, A>` to a `Box<T, A>`.
+ ///
+ /// It is undefined behavior to call this function while the value inside of `b` is not yet
+ /// fully initialized.
+ ///
+ /// # Safety
+ ///
+ /// Callers must ensure that the value inside of `b` is in an initialized state.
+ pub unsafe fn assume_init(self) -> Box<T, A> {
+ let raw = Self::into_raw(self);
+
+ // SAFETY: `raw` comes from a previous call to `Box::into_raw`. By the safety requirements
+ // of this function, the value inside the `Box` is in an initialized state. Hence, it is
+ // safe to reconstruct the `Box` as `Box<T, A>`.
+ unsafe { Box::from_raw(raw.cast()) }
+ }
+
+ /// Writes the value and converts to `Box<T, A>`.
+ pub fn write(mut self, value: T) -> Box<T, A> {
+ (*self).write(value);
+
+ // SAFETY: We've just initialized `b`'s value.
+ unsafe { self.assume_init() }
+ }
+}
+
+impl<T, A> Box<T, A>
+where
+ A: Allocator,
+{
+ /// Creates a new `Box<T, A>` and initializes its contents with `x`.
+ ///
+ /// New memory is allocated with `A`. The allocation may fail, in which case an error is
+ /// returned. For ZSTs no memory is allocated.
+ pub fn new(x: T, flags: Flags) -> Result<Self, AllocError> {
+ let b = Self::new_uninit(flags)?;
+ Ok(Box::write(b, x))
+ }
+
+ /// Creates a new `Box<T, A>` with uninitialized contents.
+ ///
+ /// New memory is allocated with `A`. The allocation may fail, in which case an error is
+ /// returned. For ZSTs no memory is allocated.
+ ///
+ /// # Examples
+ ///
+ /// ```
+ /// let b = KBox::<u64>::new_uninit(GFP_KERNEL)?;
+ /// let b = KBox::write(b, 24);
+ ///
+ /// assert_eq!(*b, 24_u64);
+ /// # Ok::<(), Error>(())
+ /// ```
+ pub fn new_uninit(flags: Flags) -> Result<Box<MaybeUninit<T>, A>, AllocError> {
+ let layout = Layout::new::<MaybeUninit<T>>();
+ let ptr = A::alloc(layout, flags)?;
+
+ // INVARIANT: `ptr` is either a dangling pointer or points to memory allocated with `A`,
+ // which is sufficient in size and alignment for storing a `T`.
+ Ok(Box(ptr.cast(), PhantomData))
+ }
+
+ /// Constructs a new `Pin<Box<T, A>>`. If `T` does not implement [`Unpin`], then `x` will be
+ /// pinned in memory and can't be moved.
+ #[inline]
+ pub fn pin(x: T, flags: Flags) -> Result<Pin<Box<T, A>>, AllocError>
+ where
+ A: 'static,
+ {
+ Ok(Self::new(x, flags)?.into())
+ }
+
+ /// Forgets the contents (does not run the destructor), but keeps the allocation.
+ fn forget_contents(this: Self) -> Box<MaybeUninit<T>, A> {
+ let ptr = Self::into_raw(this);
+
+ // SAFETY: `ptr` is valid, because it came from `Box::into_raw`.
+ unsafe { Box::from_raw(ptr.cast()) }
+ }
+
+ /// Drops the contents, but keeps the allocation.
+ ///
+ /// # Examples
+ ///
+ /// ```
+ /// let value = KBox::new([0; 32], GFP_KERNEL)?;
+ /// assert_eq!(*value, [0; 32]);
+ /// let value = KBox::drop_contents(value);
+ /// // Now we can re-use `value`:
+ /// let value = KBox::write(value, [1; 32]);
+ /// assert_eq!(*value, [1; 32]);
+ /// # Ok::<(), Error>(())
+ /// ```
+ pub fn drop_contents(this: Self) -> Box<MaybeUninit<T>, A> {
+ let ptr = this.0.as_ptr();
+
+ // SAFETY: `ptr` is valid, because it came from `this`. After this call we never access the
+ // value stored in `this` again.
+ unsafe { core::ptr::drop_in_place(ptr) };
+
+ Self::forget_contents(this)
+ }
+
+ /// Moves the `Box`' value out of the `Box` and consumes the `Box`.
+ pub fn into_inner(b: Self) -> T {
+ // SAFETY: By the type invariant `&*b` is valid for `read`.
+ let value = unsafe { core::ptr::read(&*b) };
+ let _ = Self::forget_contents(b);
+ value
+ }
+}
+
+impl<T, A> From<Box<T, A>> for Pin<Box<T, A>>
+where
+ T: ?Sized,
+ A: Allocator,
+{
+ /// Converts a `Box<T, A>` into a `Pin<Box<T, A>>`. If `T` does not implement [`Unpin`], then
+ /// `*b` will be pinned in memory and can't be moved.
+ ///
+ /// This moves `b` into `Pin` without moving `*b` or allocating and copying any memory.
+ fn from(b: Box<T, A>) -> Self {
+ // SAFETY: The value wrapped inside a `Pin<Box<T, A>>` cannot be moved or replaced as long
+ // as `T` does not implement `Unpin`.
+ unsafe { Pin::new_unchecked(b) }
+ }
+}
+
+impl<T, A> InPlaceWrite<T> for Box<MaybeUninit<T>, A>
+where
+ A: Allocator + 'static,
+{
+ type Initialized = Box<T, A>;
+
+ fn write_init<E>(mut self, init: impl Init<T, E>) -> Result<Self::Initialized, E> {
+ let slot = self.as_mut_ptr();
+ // SAFETY: When init errors/panics, slot will get deallocated but not dropped,
+ // slot is valid.
+ unsafe { init.__init(slot)? };
+ // SAFETY: All fields have been initialized.
+ Ok(unsafe { Box::assume_init(self) })
+ }
+
+ fn write_pin_init<E>(mut self, init: impl PinInit<T, E>) -> Result<Pin<Self::Initialized>, E> {
+ let slot = self.as_mut_ptr();
+ // SAFETY: When init errors/panics, slot will get deallocated but not dropped,
+ // slot is valid and will not be moved, because we pin it later.
+ unsafe { init.__pinned_init(slot)? };
+ // SAFETY: All fields have been initialized.
+ Ok(unsafe { Box::assume_init(self) }.into())
+ }
+}
+
+impl<T, A> InPlaceInit<T> for Box<T, A>
+where
+ A: Allocator + 'static,
+{
+ type PinnedSelf = Pin<Self>;
+
+ #[inline]
+ fn try_pin_init<E>(init: impl PinInit<T, E>, flags: Flags) -> Result<Pin<Self>, E>
+ where
+ E: From<AllocError>,
+ {
+ Box::<_, A>::new_uninit(flags)?.write_pin_init(init)
+ }
+
+ #[inline]
+ fn try_init<E>(init: impl Init<T, E>, flags: Flags) -> Result<Self, E>
+ where
+ E: From<AllocError>,
+ {
+ Box::<_, A>::new_uninit(flags)?.write_init(init)
+ }
+}
+
+impl<T: 'static, A> ForeignOwnable for Box<T, A>
+where
+ A: Allocator,
+{
+ type Borrowed<'a> = &'a T;
+
+ fn into_foreign(self) -> *const core::ffi::c_void {
+ Box::into_raw(self) as _
+ }
+
+ unsafe fn from_foreign(ptr: *const core::ffi::c_void) -> Self {
+ // SAFETY: The safety requirements of this function ensure that `ptr` comes from a previous
+ // call to `Self::into_foreign`.
+ unsafe { Box::from_raw(ptr as _) }
+ }
+
+ unsafe fn borrow<'a>(ptr: *const core::ffi::c_void) -> &'a T {
+ // SAFETY: The safety requirements of this method ensure that the object remains alive and
+ // immutable for the duration of 'a.
+ unsafe { &*ptr.cast() }
+ }
+}
+
+impl<T: 'static, A> ForeignOwnable for Pin<Box<T, A>>
+where
+ A: Allocator,
+{
+ type Borrowed<'a> = Pin<&'a T>;
+
+ fn into_foreign(self) -> *const core::ffi::c_void {
+ // SAFETY: We are still treating the box as pinned.
+ Box::into_raw(unsafe { Pin::into_inner_unchecked(self) }) as _
+ }
+
+ unsafe fn from_foreign(ptr: *const core::ffi::c_void) -> Self {
+ // SAFETY: The safety requirements of this function ensure that `ptr` comes from a previous
+ // call to `Self::into_foreign`.
+ unsafe { Pin::new_unchecked(Box::from_raw(ptr as _)) }
+ }
+
+ unsafe fn borrow<'a>(ptr: *const core::ffi::c_void) -> Pin<&'a T> {
+ // SAFETY: The safety requirements for this function ensure that the object is still alive,
+ // so it is safe to dereference the raw pointer.
+ // The safety requirements of `from_foreign` also ensure that the object remains alive for
+ // the lifetime of the returned value.
+ let r = unsafe { &*ptr.cast() };
+
+ // SAFETY: This pointer originates from a `Pin<Box<T>>`.
+ unsafe { Pin::new_unchecked(r) }
+ }
+}
+
+impl<T, A> Deref for Box<T, A>
+where
+ T: ?Sized,
+ A: Allocator,
+{
+ type Target = T;
+
+ fn deref(&self) -> &T {
+ // SAFETY: `self.0` is always properly aligned, dereferenceable and points to an initialized
+ // instance of `T`.
+ unsafe { self.0.as_ref() }
+ }
+}
+
+impl<T, A> DerefMut for Box<T, A>
+where
+ T: ?Sized,
+ A: Allocator,
+{
+ fn deref_mut(&mut self) -> &mut T {
+ // SAFETY: `self.0` is always properly aligned, dereferenceable and points to an initialized
+ // instance of `T`.
+ unsafe { self.0.as_mut() }
+ }
+}
+
+impl<T, A> fmt::Debug for Box<T, A>
+where
+ T: ?Sized + fmt::Debug,
+ A: Allocator,
+{
+ fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+ fmt::Debug::fmt(&**self, f)
+ }
+}
+
+impl<T, A> Drop for Box<T, A>
+where
+ T: ?Sized,
+ A: Allocator,
+{
+ fn drop(&mut self) {
+ let layout = Layout::for_value::<T>(self);
+
+ // SAFETY: The pointer in `self.0` is guaranteed to be valid by the type invariant.
+ unsafe { core::ptr::drop_in_place::<T>(self.deref_mut()) };
+
+ // SAFETY:
+ // - `self.0` was previously allocated with `A`.
+ // - `layout` is equal to the `Layout´ `self.0` was allocated with.
+ unsafe { A::free(self.0.cast(), layout) };
+ }
+}
diff --git a/rust/kernel/prelude.rs b/rust/kernel/prelude.rs
index 4571daec0961..a9210634a8c3 100644
--- a/rust/kernel/prelude.rs
+++ b/rust/kernel/prelude.rs
@@ -14,7 +14,7 @@
#[doc(no_inline)]
pub use core::pin::Pin;
-pub use crate::alloc::{box_ext::BoxExt, flags::*, vec_ext::VecExt};
+pub use crate::alloc::{box_ext::BoxExt, flags::*, vec_ext::VecExt, KBox, KVBox, VBox};
#[doc(no_inline)]
pub use alloc::{boxed::Box, vec::Vec};