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// SPDX-License-Identifier: GPL-2.0
//! Pre-defined atomic types
use crate::static_assert;
use core::mem::{align_of, size_of};
// Ensure size and alignment requirements are checked.
static_assert!(size_of::<bool>() == size_of::<i8>());
static_assert!(align_of::<bool>() == align_of::<i8>());
// SAFETY: `bool` has the same size and alignment as `i8`, and Rust guarantees that `bool` has
// only two valid bit patterns: 0 (false) and 1 (true). Those are valid `i8` values, so `bool` is
// round-trip transmutable to `i8`.
unsafe impl super::AtomicType for bool {
type Repr = i8;
}
// SAFETY: `i8` has the same size and alignment with itself, and is round-trip transmutable to
// itself.
unsafe impl super::AtomicType for i8 {
type Repr = i8;
}
// SAFETY: `i16` has the same size and alignment with itself, and is round-trip transmutable to
// itself.
unsafe impl super::AtomicType for i16 {
type Repr = i16;
}
// SAFETY: `i32` has the same size and alignment with itself, and is round-trip transmutable to
// itself.
unsafe impl super::AtomicType for i32 {
type Repr = i32;
}
// SAFETY: The wrapping add result of two `i32`s is a valid `i32`.
unsafe impl super::AtomicAdd<i32> for i32 {
fn rhs_into_delta(rhs: i32) -> i32 {
rhs
}
}
// SAFETY: `i64` has the same size and alignment with itself, and is round-trip transmutable to
// itself.
unsafe impl super::AtomicType for i64 {
type Repr = i64;
}
// SAFETY: The wrapping add result of two `i64`s is a valid `i64`.
unsafe impl super::AtomicAdd<i64> for i64 {
fn rhs_into_delta(rhs: i64) -> i64 {
rhs
}
}
// Defines an internal type that always maps to the integer type which has the same size alignment
// as `isize` and `usize`, and `isize` and `usize` are always bi-directional transmutable to
// `isize_atomic_repr`, which also always implements `AtomicImpl`.
#[allow(non_camel_case_types)]
#[cfg(not(testlib))]
#[cfg(not(CONFIG_64BIT))]
type isize_atomic_repr = i32;
#[allow(non_camel_case_types)]
#[cfg(not(testlib))]
#[cfg(CONFIG_64BIT)]
type isize_atomic_repr = i64;
#[allow(non_camel_case_types)]
#[cfg(testlib)]
#[cfg(target_pointer_width = "32")]
type isize_atomic_repr = i32;
#[allow(non_camel_case_types)]
#[cfg(testlib)]
#[cfg(target_pointer_width = "64")]
type isize_atomic_repr = i64;
// Ensure size and alignment requirements are checked.
static_assert!(size_of::<isize>() == size_of::<isize_atomic_repr>());
static_assert!(align_of::<isize>() == align_of::<isize_atomic_repr>());
static_assert!(size_of::<usize>() == size_of::<isize_atomic_repr>());
static_assert!(align_of::<usize>() == align_of::<isize_atomic_repr>());
// SAFETY: `isize` has the same size and alignment with `isize_atomic_repr`, and is round-trip
// transmutable to `isize_atomic_repr`.
unsafe impl super::AtomicType for isize {
type Repr = isize_atomic_repr;
}
// SAFETY: The wrapping add result of two `isize_atomic_repr`s is a valid `usize`.
unsafe impl super::AtomicAdd<isize> for isize {
fn rhs_into_delta(rhs: isize) -> isize_atomic_repr {
rhs as isize_atomic_repr
}
}
// SAFETY: `u32` and `i32` has the same size and alignment, and `u32` is round-trip transmutable to
// `i32`.
unsafe impl super::AtomicType for u32 {
type Repr = i32;
}
// SAFETY: The wrapping add result of two `i32`s is a valid `u32`.
unsafe impl super::AtomicAdd<u32> for u32 {
fn rhs_into_delta(rhs: u32) -> i32 {
rhs as i32
}
}
// SAFETY: `u64` and `i64` has the same size and alignment, and `u64` is round-trip transmutable to
// `i64`.
unsafe impl super::AtomicType for u64 {
type Repr = i64;
}
// SAFETY: The wrapping add result of two `i64`s is a valid `u64`.
unsafe impl super::AtomicAdd<u64> for u64 {
fn rhs_into_delta(rhs: u64) -> i64 {
rhs as i64
}
}
// SAFETY: `usize` has the same size and alignment with `isize_atomic_repr`, and is round-trip
// transmutable to `isize_atomic_repr`.
unsafe impl super::AtomicType for usize {
type Repr = isize_atomic_repr;
}
// SAFETY: The wrapping add result of two `isize_atomic_repr`s is a valid `usize`.
unsafe impl super::AtomicAdd<usize> for usize {
fn rhs_into_delta(rhs: usize) -> isize_atomic_repr {
rhs as isize_atomic_repr
}
}
use crate::macros::kunit_tests;
#[kunit_tests(rust_atomics)]
mod tests {
use super::super::*;
// Call $fn($val) with each $type of $val.
macro_rules! for_each_type {
($val:literal in [$($type:ty),*] $fn:expr) => {
$({
let v: $type = $val;
$fn(v);
})*
}
}
#[test]
fn atomic_basic_tests() {
for_each_type!(42 in [i8, i16, i32, i64, u32, u64, isize, usize] |v| {
let x = Atomic::new(v);
assert_eq!(v, x.load(Relaxed));
});
}
#[test]
fn atomic_acquire_release_tests() {
for_each_type!(42 in [i8, i16, i32, i64, u32, u64, isize, usize] |v| {
let x = Atomic::new(0);
x.store(v, Release);
assert_eq!(v, x.load(Acquire));
});
}
#[test]
fn atomic_xchg_tests() {
for_each_type!(42 in [i8, i16, i32, i64, u32, u64, isize, usize] |v| {
let x = Atomic::new(v);
let old = v;
let new = v + 1;
assert_eq!(old, x.xchg(new, Full));
assert_eq!(new, x.load(Relaxed));
});
}
#[test]
fn atomic_cmpxchg_tests() {
for_each_type!(42 in [i8, i16, i32, i64, u32, u64, isize, usize] |v| {
let x = Atomic::new(v);
let old = v;
let new = v + 1;
assert_eq!(Err(old), x.cmpxchg(new, new, Full));
assert_eq!(old, x.load(Relaxed));
assert_eq!(Ok(old), x.cmpxchg(old, new, Relaxed));
assert_eq!(new, x.load(Relaxed));
});
}
#[test]
fn atomic_arithmetic_tests() {
for_each_type!(42 in [i32, i64, u32, u64, isize, usize] |v| {
let x = Atomic::new(v);
assert_eq!(v, x.fetch_add(12, Full));
assert_eq!(v + 12, x.load(Relaxed));
x.add(13, Relaxed);
assert_eq!(v + 25, x.load(Relaxed));
});
}
#[test]
fn atomic_bool_tests() {
let x = Atomic::new(false);
assert_eq!(false, x.load(Relaxed));
x.store(true, Relaxed);
assert_eq!(true, x.load(Relaxed));
assert_eq!(true, x.xchg(false, Relaxed));
assert_eq!(false, x.load(Relaxed));
assert_eq!(Err(false), x.cmpxchg(true, true, Relaxed));
assert_eq!(false, x.load(Relaxed));
assert_eq!(Ok(false), x.cmpxchg(false, true, Full));
}
}
|
