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// SPDX-License-Identifier: GPL-2.0
//! Extensions to the [`pin-init`] crate.
//!
//! Most `struct`s from the [`sync`] module need to be pinned, because they contain self-referential
//! `struct`s from C. [Pinning][pinning] is Rust's way of ensuring data does not move.
//!
//! The [`pin-init`] crate is the way such structs are initialized on the Rust side. Please refer
//! to its documentation to better understand how to use it. Additionally, there are many examples
//! throughout the kernel, such as the types from the [`sync`] module. And the ones presented
//! below.
//!
//! [`sync`]: crate::sync
//! [pinning]: https://doc.rust-lang.org/std/pin/index.html
//! [`pin-init`]: https://rust.docs.kernel.org/pin_init/
//!
//! # [`Opaque<T>`]
//!
//! For the special case where initializing a field is a single FFI-function call that cannot fail,
//! there exist the helper function [`Opaque::ffi_init`]. This function initialize a single
//! [`Opaque<T>`] field by just delegating to the supplied closure. You can use these in
//! combination with [`pin_init!`].
//!
//! [`Opaque<T>`]: crate::types::Opaque
//! [`Opaque::ffi_init`]: crate::types::Opaque::ffi_init
//! [`pin_init!`]: pin_init::pin_init
//!
//! # Examples
//!
//! ## General Examples
//!
//! ```rust,ignore
//! # #![allow(clippy::disallowed_names)]
//! use kernel::types::Opaque;
//! use pin_init::pin_init_from_closure;
//!
//! // assume we have some `raw_foo` type in C:
//! #[repr(C)]
//! struct RawFoo([u8; 16]);
//! extern {
//! fn init_foo(_: *mut RawFoo);
//! }
//!
//! #[pin_data]
//! struct Foo {
//! #[pin]
//! raw: Opaque<RawFoo>,
//! }
//!
//! impl Foo {
//! fn setup(self: Pin<&mut Self>) {
//! pr_info!("Setting up foo\n");
//! }
//! }
//!
//! let foo = pin_init!(Foo {
//! raw <- unsafe {
//! Opaque::ffi_init(|s| {
//! // note that this cannot fail.
//! init_foo(s);
//! })
//! },
//! }).pin_chain(|foo| {
//! foo.setup();
//! Ok(())
//! });
//! ```
//!
//! ```rust,ignore
//! # #![allow(unreachable_pub, clippy::disallowed_names)]
//! use kernel::{prelude::*, types::Opaque};
//! use core::{ptr::addr_of_mut, marker::PhantomPinned, pin::Pin};
//! # mod bindings {
//! # #![allow(non_camel_case_types)]
//! # pub struct foo;
//! # pub unsafe fn init_foo(_ptr: *mut foo) {}
//! # pub unsafe fn destroy_foo(_ptr: *mut foo) {}
//! # pub unsafe fn enable_foo(_ptr: *mut foo, _flags: u32) -> i32 { 0 }
//! # }
//! # // `Error::from_errno` is `pub(crate)` in the `kernel` crate, thus provide a workaround.
//! # trait FromErrno {
//! # fn from_errno(errno: core::ffi::c_int) -> Error {
//! # // Dummy error that can be constructed outside the `kernel` crate.
//! # Error::from(core::fmt::Error)
//! # }
//! # }
//! # impl FromErrno for Error {}
//! /// # Invariants
//! ///
//! /// `foo` is always initialized
//! #[pin_data(PinnedDrop)]
//! pub struct RawFoo {
//! #[pin]
//! foo: Opaque<bindings::foo>,
//! #[pin]
//! _p: PhantomPinned,
//! }
//!
//! impl RawFoo {
//! pub fn new(flags: u32) -> impl PinInit<Self, Error> {
//! // SAFETY:
//! // - when the closure returns `Ok(())`, then it has successfully initialized and
//! // enabled `foo`,
//! // - when it returns `Err(e)`, then it has cleaned up before
//! unsafe {
//! pin_init::pin_init_from_closure(move |slot: *mut Self| {
//! // `slot` contains uninit memory, avoid creating a reference.
//! let foo = addr_of_mut!((*slot).foo);
//!
//! // Initialize the `foo`
//! bindings::init_foo(Opaque::raw_get(foo));
//!
//! // Try to enable it.
//! let err = bindings::enable_foo(Opaque::raw_get(foo), flags);
//! if err != 0 {
//! // Enabling has failed, first clean up the foo and then return the error.
//! bindings::destroy_foo(Opaque::raw_get(foo));
//! return Err(Error::from_errno(err));
//! }
//!
//! // All fields of `RawFoo` have been initialized, since `_p` is a ZST.
//! Ok(())
//! })
//! }
//! }
//! }
//!
//! #[pinned_drop]
//! impl PinnedDrop for RawFoo {
//! fn drop(self: Pin<&mut Self>) {
//! // SAFETY: Since `foo` is initialized, destroying is safe.
//! unsafe { bindings::destroy_foo(self.foo.get()) };
//! }
//! }
//! ```
use crate::{
alloc::{AllocError, Flags},
error::{self, Error},
};
use pin_init::{init_from_closure, pin_init_from_closure, Init, PinInit};
/// Smart pointer that can initialize memory in-place.
pub trait InPlaceInit<T>: Sized {
/// Pinned version of `Self`.
///
/// If a type already implicitly pins its pointee, `Pin<Self>` is unnecessary. In this case use
/// `Self`, otherwise just use `Pin<Self>`.
type PinnedSelf;
/// Use the given pin-initializer to pin-initialize a `T` inside of a new smart pointer of this
/// type.
///
/// If `T: !Unpin` it will not be able to move afterwards.
fn try_pin_init<E>(init: impl PinInit<T, E>, flags: Flags) -> Result<Self::PinnedSelf, E>
where
E: From<AllocError>;
/// Use the given pin-initializer to pin-initialize a `T` inside of a new smart pointer of this
/// type.
///
/// If `T: !Unpin` it will not be able to move afterwards.
fn pin_init<E>(init: impl PinInit<T, E>, flags: Flags) -> error::Result<Self::PinnedSelf>
where
Error: From<E>,
{
// SAFETY: We delegate to `init` and only change the error type.
let init = unsafe {
pin_init_from_closure(|slot| init.__pinned_init(slot).map_err(|e| Error::from(e)))
};
Self::try_pin_init(init, flags)
}
/// Use the given initializer to in-place initialize a `T`.
fn try_init<E>(init: impl Init<T, E>, flags: Flags) -> Result<Self, E>
where
E: From<AllocError>;
/// Use the given initializer to in-place initialize a `T`.
fn init<E>(init: impl Init<T, E>, flags: Flags) -> error::Result<Self>
where
Error: From<E>,
{
// SAFETY: We delegate to `init` and only change the error type.
let init = unsafe {
init_from_closure(|slot| init.__pinned_init(slot).map_err(|e| Error::from(e)))
};
Self::try_init(init, flags)
}
}
/// Construct an in-place fallible initializer for `struct`s.
///
/// This macro defaults the error to [`Error`]. If you need [`Infallible`], then use
/// [`init!`].
///
/// The syntax is identical to [`try_pin_init!`]. If you want to specify a custom error,
/// append `? $type` after the `struct` initializer.
/// The safety caveats from [`try_pin_init!`] also apply:
/// - `unsafe` code must guarantee either full initialization or return an error and allow
/// deallocation of the memory.
/// - the fields are initialized in the order given in the initializer.
/// - no references to fields are allowed to be created inside of the initializer.
///
/// # Examples
///
/// ```rust
/// use kernel::error::Error;
/// use pin_init::zeroed;
/// struct BigBuf {
/// big: KBox<[u8; 1024 * 1024 * 1024]>,
/// small: [u8; 1024 * 1024],
/// }
///
/// impl BigBuf {
/// fn new() -> impl Init<Self, Error> {
/// try_init!(Self {
/// big: KBox::init(zeroed(), GFP_KERNEL)?,
/// small: [0; 1024 * 1024],
/// }? Error)
/// }
/// }
/// ```
///
/// [`Infallible`]: core::convert::Infallible
/// [`init!`]: pin_init::init
/// [`try_pin_init!`]: crate::try_pin_init!
/// [`Error`]: crate::error::Error
#[macro_export]
macro_rules! try_init {
($(&$this:ident in)? $t:ident $(::<$($generics:ty),* $(,)?>)? {
$($fields:tt)*
}) => {
::pin_init::try_init!($(&$this in)? $t $(::<$($generics),* $(,)?>)? {
$($fields)*
}? $crate::error::Error)
};
($(&$this:ident in)? $t:ident $(::<$($generics:ty),* $(,)?>)? {
$($fields:tt)*
}? $err:ty) => {
::pin_init::try_init!($(&$this in)? $t $(::<$($generics),* $(,)?>)? {
$($fields)*
}? $err)
};
}
/// Construct an in-place, fallible pinned initializer for `struct`s.
///
/// If the initialization can complete without error (or [`Infallible`]), then use [`pin_init!`].
///
/// You can use the `?` operator or use `return Err(err)` inside the initializer to stop
/// initialization and return the error.
///
/// IMPORTANT: if you have `unsafe` code inside of the initializer you have to ensure that when
/// initialization fails, the memory can be safely deallocated without any further modifications.
///
/// This macro defaults the error to [`Error`].
///
/// The syntax is identical to [`pin_init!`] with the following exception: you can append `? $type`
/// after the `struct` initializer to specify the error type you want to use.
///
/// # Examples
///
/// ```rust
/// # #![feature(new_uninit)]
/// use kernel::error::Error;
/// use pin_init::zeroed;
/// #[pin_data]
/// struct BigBuf {
/// big: KBox<[u8; 1024 * 1024 * 1024]>,
/// small: [u8; 1024 * 1024],
/// ptr: *mut u8,
/// }
///
/// impl BigBuf {
/// fn new() -> impl PinInit<Self, Error> {
/// try_pin_init!(Self {
/// big: KBox::init(zeroed(), GFP_KERNEL)?,
/// small: [0; 1024 * 1024],
/// ptr: core::ptr::null_mut(),
/// }? Error)
/// }
/// }
/// ```
///
/// [`Infallible`]: core::convert::Infallible
/// [`pin_init!`]: pin_init::pin_init
/// [`Error`]: crate::error::Error
#[macro_export]
macro_rules! try_pin_init {
($(&$this:ident in)? $t:ident $(::<$($generics:ty),* $(,)?>)? {
$($fields:tt)*
}) => {
::pin_init::try_pin_init!($(&$this in)? $t $(::<$($generics),* $(,)?>)? {
$($fields)*
}? $crate::error::Error)
};
($(&$this:ident in)? $t:ident $(::<$($generics:ty),* $(,)?>)? {
$($fields:tt)*
}? $err:ty) => {
::pin_init::try_pin_init!($(&$this in)? $t $(::<$($generics),* $(,)?>)? {
$($fields)*
}? $err)
};
}