Skip to content

Commit

Permalink
Rollup merge of rust-lang#62323 - Centril:clarify-read-unaligned, r=R…
Browse files Browse the repository at this point in the history
…alfJung

Clarify unaligned fields in ptr::{read,write}_unaligned

r? @RalfJung
  • Loading branch information
Centril authored Jul 5, 2019
2 parents 84527e4 + 54527db commit d3569dd
Showing 1 changed file with 53 additions and 35 deletions.
88 changes: 53 additions & 35 deletions src/libcore/ptr/mod.rs
Original file line number Diff line number Diff line change
Expand Up @@ -625,42 +625,50 @@ pub unsafe fn read<T>(src: *const T) -> T {
/// [read-ownership]: ./fn.read.html#ownership-of-the-returned-value
/// [valid]: ../ptr/index.html#safety
///
/// # Examples
/// ## On `packed` structs
///
/// Access members of a packed struct by reference:
/// It is currently impossible to create raw pointers to unaligned fields
/// of a packed struct.
///
/// ```
/// use std::ptr;
/// Attempting to create a raw pointer to an `unaligned` struct field with
/// an expression such as `&packed.unaligned as *const FieldType` creates an
/// intermediate unaligned reference before converting that to a raw pointer.
/// That this reference is temporary and immediately cast is inconsequential
/// as the compiler always expects references to be properly aligned.
/// As a result, using `&packed.unaligned as *const FieldType` causes immediate
/// *undefined behavior* in your program.
///
/// An example of what not to do and how this relates to `read_unaligned` is:
///
/// ```no_run
/// #[repr(packed, C)]
/// struct Packed {
/// _padding: u8,
/// unaligned: u32,
/// }
///
/// let x = Packed {
/// let packed = Packed {
/// _padding: 0x00,
/// unaligned: 0x01020304,
/// };
///
/// let v = unsafe {
/// // Take the address of a 32-bit integer which is not aligned.
/// // This must be done as a raw pointer; unaligned references are invalid.
/// let unaligned = &x.unaligned as *const u32;
///
/// // Dereferencing normally will emit an aligned load instruction,
/// // causing undefined behavior.
/// // let v = *unaligned; // ERROR
/// // Here we attempt to take the address of a 32-bit integer which is not aligned.
/// let unaligned =
/// // A temporary unaligned reference is created here which results in
/// // undefined behavior regardless of whether the reference is used or not.
/// &packed.unaligned
/// // Casting to a raw pointer doesn't help; the mistake already happened.
/// as *const u32;
///
/// // Instead, use `read_unaligned` to read improperly aligned values.
/// let v = ptr::read_unaligned(unaligned);
/// let v = std::ptr::read_unaligned(unaligned);
///
/// v
/// };
///
/// // Accessing unaligned values directly is safe.
/// assert!(x.unaligned == v);
/// ```
///
/// Accessing unaligned fields directly with e.g. `packed.unaligned` is safe however.
// FIXME: Update docs based on outcome of RFC #2582 and friends.
#[inline]
#[stable(feature = "ptr_unaligned", since = "1.17.0")]
pub unsafe fn read_unaligned<T>(src: *const T) -> T {
Expand Down Expand Up @@ -789,38 +797,48 @@ pub unsafe fn write<T>(dst: *mut T, src: T) {
///
/// [valid]: ../ptr/index.html#safety
///
/// # Examples
/// ## On `packed` structs
///
/// Access fields in a packed struct:
/// It is currently impossible to create raw pointers to unaligned fields
/// of a packed struct.
///
/// ```
/// use std::{mem, ptr};
/// Attempting to create a raw pointer to an `unaligned` struct field with
/// an expression such as `&packed.unaligned as *const FieldType` creates an
/// intermediate unaligned reference before converting that to a raw pointer.
/// That this reference is temporary and immediately cast is inconsequential
/// as the compiler always expects references to be properly aligned.
/// As a result, using `&packed.unaligned as *const FieldType` causes immediate
/// *undefined behavior* in your program.
///
/// An example of what not to do and how this relates to `write_unaligned` is:
///
/// ```no_run
/// #[repr(packed, C)]
/// #[derive(Default)]
/// struct Packed {
/// _padding: u8,
/// unaligned: u32,
/// }
///
/// let v = 0x01020304;
/// let mut x: Packed = unsafe { mem::zeroed() };
///
/// unsafe {
/// // Take a reference to a 32-bit integer which is not aligned.
/// let unaligned = &mut x.unaligned as *mut u32;
/// let mut packed: Packed = unsafe { std::mem::zeroed() };
///
/// // Dereferencing normally will emit an aligned store instruction,
/// // causing undefined behavior because the pointer is not aligned.
/// // *unaligned = v; // ERROR
/// let v = unsafe {
/// // Here we attempt to take the address of a 32-bit integer which is not aligned.
/// let unaligned =
/// // A temporary unaligned reference is created here which results in
/// // undefined behavior regardless of whether the reference is used or not.
/// &mut packed.unaligned
/// // Casting to a raw pointer doesn't help; the mistake already happened.
/// as *mut u32;
///
/// // Instead, use `write_unaligned` to write improperly aligned values.
/// ptr::write_unaligned(unaligned, v);
/// }
/// std::ptr::write_unaligned(unaligned, v);
///
/// // Accessing unaligned values directly is safe.
/// assert!(x.unaligned == v);
/// v
/// };
/// ```
///
/// Accessing unaligned fields directly with e.g. `packed.unaligned` is safe however.
// FIXME: Update docs based on outcome of RFC #2582 and friends.
#[inline]
#[stable(feature = "ptr_unaligned", since = "1.17.0")]
pub unsafe fn write_unaligned<T>(dst: *mut T, src: T) {
Expand Down

0 comments on commit d3569dd

Please sign in to comment.