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// SPDX-License-Identifier: Apache-2.0 OR MIT
//! This module contains API-internal items for pin-init.
//!
//! These items must not be used outside of
//! - `kernel/init.rs`
//! - `macros/pin_data.rs`
//! - `macros/pinned_drop.rs`
use super::*;
/// See the [nomicon] for what subtyping is. See also [this table].
///
/// [nomicon]: https://doc.rust-lang.org/nomicon/subtyping.html
/// [this table]: https://doc.rust-lang.org/nomicon/phantom-data.html#table-of-phantomdata-patterns
pub(super) type Invariant<T> = PhantomData<fn(*mut T) -> *mut T>;
/// This is the module-internal type implementing `PinInit` and `Init`. It is unsafe to create this
/// type, since the closure needs to fulfill the same safety requirement as the
/// `__pinned_init`/`__init` functions.
pub(crate) struct InitClosure<F, T: ?Sized, E>(pub(crate) F, pub(crate) Invariant<(E, T)>);
// SAFETY: While constructing the `InitClosure`, the user promised that it upholds the
// `__init` invariants.
unsafe impl<T: ?Sized, F, E> Init<T, E> for InitClosure<F, T, E>
where
F: FnOnce(*mut T) -> Result<(), E>,
{
#[inline]
unsafe fn __init(self, slot: *mut T) -> Result<(), E> {
(self.0)(slot)
}
}
// SAFETY: While constructing the `InitClosure`, the user promised that it upholds the
// `__pinned_init` invariants.
unsafe impl<T: ?Sized, F, E> PinInit<T, E> for InitClosure<F, T, E>
where
F: FnOnce(*mut T) -> Result<(), E>,
{
#[inline]
unsafe fn __pinned_init(self, slot: *mut T) -> Result<(), E> {
(self.0)(slot)
}
}
/// This trait is only implemented via the `#[pin_data]` proc-macro. It is used to facilitate
/// the pin projections within the initializers.
///
/// # Safety
///
/// Only the `init` module is allowed to use this trait.
pub unsafe trait HasPinData {
type PinData: PinData;
unsafe fn __pin_data() -> Self::PinData;
}
/// Marker trait for pinning data of structs.
///
/// # Safety
///
/// Only the `init` module is allowed to use this trait.
pub unsafe trait PinData: Copy {
type Datee: ?Sized + HasPinData;
/// Type inference helper function.
fn make_closure<F, O, E>(self, f: F) -> F
where
F: FnOnce(*mut Self::Datee) -> Result<O, E>,
{
f
}
}
/// This trait is automatically implemented for every type. It aims to provide the same type
/// inference help as `HasPinData`.
///
/// # Safety
///
/// Only the `init` module is allowed to use this trait.
pub unsafe trait HasInitData {
type InitData: InitData;
unsafe fn __init_data() -> Self::InitData;
}
/// Same function as `PinData`, but for arbitrary data.
///
/// # Safety
///
/// Only the `init` module is allowed to use this trait.
pub unsafe trait InitData: Copy {
type Datee: ?Sized + HasInitData;
/// Type inference helper function.
fn make_closure<F, O, E>(self, f: F) -> F
where
F: FnOnce(*mut Self::Datee) -> Result<O, E>,
{
f
}
}
pub struct AllData<T: ?Sized>(PhantomData<fn(Box<T>) -> Box<T>>);
impl<T: ?Sized> Clone for AllData<T> {
fn clone(&self) -> Self {
*self
}
}
impl<T: ?Sized> Copy for AllData<T> {}
unsafe impl<T: ?Sized> InitData for AllData<T> {
type Datee = T;
}
unsafe impl<T: ?Sized> HasInitData for T {
type InitData = AllData<T>;
unsafe fn __init_data() -> Self::InitData {
AllData(PhantomData)
}
}
/// Stack initializer helper type. Use [`stack_pin_init`] instead of this primitive.
///
/// # Invariants
///
/// If `self.is_init` is true, then `self.value` is initialized.
///
/// [`stack_pin_init`]: kernel::stack_pin_init
pub struct StackInit<T> {
value: MaybeUninit<T>,
is_init: bool,
}
impl<T> Drop for StackInit<T> {
#[inline]
fn drop(&mut self) {
if self.is_init {
// SAFETY: As we are being dropped, we only call this once. And since `self.is_init` is
// true, `self.value` is initialized.
unsafe { self.value.assume_init_drop() };
}
}
}
impl<T> StackInit<T> {
/// Creates a new [`StackInit<T>`] that is uninitialized. Use [`stack_pin_init`] instead of this
/// primitive.
///
/// [`stack_pin_init`]: kernel::stack_pin_init
#[inline]
pub fn uninit() -> Self {
Self {
value: MaybeUninit::uninit(),
is_init: false,
}
}
/// Initializes the contents and returns the result.
#[inline]
pub fn init<E>(self: Pin<&mut Self>, init: impl PinInit<T, E>) -> Result<Pin<&mut T>, E> {
// SAFETY: We never move out of `this`.
let this = unsafe { Pin::into_inner_unchecked(self) };
// The value is currently initialized, so it needs to be dropped before we can reuse
// the memory (this is a safety guarantee of `Pin`).
if this.is_init {
this.is_init = false;
// SAFETY: `this.is_init` was true and therefore `this.value` is initialized.
unsafe { this.value.assume_init_drop() };
}
// SAFETY: The memory slot is valid and this type ensures that it will stay pinned.
unsafe { init.__pinned_init(this.value.as_mut_ptr())? };
// INVARIANT: `this.value` is initialized above.
this.is_init = true;
// SAFETY: The slot is now pinned, since we will never give access to `&mut T`.
Ok(unsafe { Pin::new_unchecked(this.value.assume_init_mut()) })
}
}
/// When a value of this type is dropped, it drops a `T`.
///
/// Can be forgotten to prevent the drop.
pub struct DropGuard<T: ?Sized> {
ptr: *mut T,
}
impl<T: ?Sized> DropGuard<T> {
/// Creates a new [`DropGuard<T>`]. It will [`ptr::drop_in_place`] `ptr` when it gets dropped.
///
/// # Safety
///
/// `ptr` must be a valid pointer.
///
/// It is the callers responsibility that `self` will only get dropped if the pointee of `ptr`:
/// - has not been dropped,
/// - is not accessible by any other means,
/// - will not be dropped by any other means.
#[inline]
pub unsafe fn new(ptr: *mut T) -> Self {
Self { ptr }
}
}
impl<T: ?Sized> Drop for DropGuard<T> {
#[inline]
fn drop(&mut self) {
// SAFETY: A `DropGuard` can only be constructed using the unsafe `new` function
// ensuring that this operation is safe.
unsafe { ptr::drop_in_place(self.ptr) }
}
}
/// Token used by `PinnedDrop` to prevent calling the function without creating this unsafely
/// created struct. This is needed, because the `drop` function is safe, but should not be called
/// manually.
pub struct OnlyCallFromDrop(());
impl OnlyCallFromDrop {
/// # Safety
///
/// This function should only be called from the [`Drop::drop`] function and only be used to
/// delegate the destruction to the pinned destructor [`PinnedDrop::drop`] of the same type.
pub unsafe fn new() -> Self {
Self(())
}
}
/// Initializer that always fails.
///
/// Used by [`assert_pinned!`].
///
/// [`assert_pinned!`]: crate::assert_pinned
pub struct AlwaysFail<T: ?Sized> {
_t: PhantomData<T>,
}
impl<T: ?Sized> AlwaysFail<T> {
/// Creates a new initializer that always fails.
pub fn new() -> Self {
Self { _t: PhantomData }
}
}
impl<T: ?Sized> Default for AlwaysFail<T> {
fn default() -> Self {
Self::new()
}
}
// SAFETY: `__pinned_init` always fails, which is always okay.
unsafe impl<T: ?Sized> PinInit<T, ()> for AlwaysFail<T> {
unsafe fn __pinned_init(self, _slot: *mut T) -> Result<(), ()> {
Err(())
}
}