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std: refactor
pthread
-based synchronization
The non-trivial code for `pthread_condvar` is duplicated across the thread parking and the `Mutex`/`Condvar` implementations. This PR moves that code into `sys::pal`, which now exposes an `unsafe` wrapper type for `pthread_mutex_t` and `pthread_condvar_t`. Additionally, this PR replaces `LazyBox` with `OnceBox`, thus simplifying the allocation logic.
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Original file line number | Diff line number | Diff line change |
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use super::Mutex; | ||
use crate::cell::UnsafeCell; | ||
use crate::pin::Pin; | ||
use crate::sys::pal::time::Timespec; | ||
#[cfg(not(target_os = "nto"))] | ||
use crate::sys::pal::time::TIMESPEC_MAX; | ||
#[cfg(target_os = "nto")] | ||
use crate::sys::pal::time::TIMESPEC_MAX_CAPPED; | ||
use crate::time::Duration; | ||
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pub struct Condvar { | ||
inner: UnsafeCell<libc::pthread_cond_t>, | ||
} | ||
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impl Condvar { | ||
pub fn new() -> Condvar { | ||
Condvar { inner: UnsafeCell::new(libc::PTHREAD_COND_INITIALIZER) } | ||
} | ||
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#[inline] | ||
fn raw(&self) -> *mut libc::pthread_cond_t { | ||
self.inner.get() | ||
} | ||
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/// # Safety | ||
/// `init` must have been called. | ||
#[inline] | ||
pub unsafe fn notify_one(self: Pin<&Self>) { | ||
let r = unsafe { libc::pthread_cond_signal(self.raw()) }; | ||
debug_assert_eq!(r, 0); | ||
} | ||
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/// # Safety | ||
/// `init` must have been called. | ||
#[inline] | ||
pub unsafe fn notify_all(self: Pin<&Self>) { | ||
let r = unsafe { libc::pthread_cond_broadcast(self.raw()) }; | ||
debug_assert_eq!(r, 0); | ||
} | ||
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/// # Safety | ||
/// * `init` must have been called. | ||
/// * `mutex` must be locked by the current thread. | ||
/// * This condition variable may only be used with the same mutex. | ||
#[inline] | ||
pub unsafe fn wait(self: Pin<&Self>, mutex: Pin<&Mutex>) { | ||
let r = unsafe { libc::pthread_cond_wait(self.raw(), mutex.raw()) }; | ||
debug_assert_eq!(r, 0); | ||
} | ||
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/// # Safety | ||
/// * `init` must have been called. | ||
/// * `mutex` must be locked by the current thread. | ||
/// * This condition variable may only be used with the same mutex. | ||
pub unsafe fn wait_timeout(&self, mutex: Pin<&Mutex>, dur: Duration) -> bool { | ||
let mutex = mutex.raw(); | ||
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// OSX implementation of `pthread_cond_timedwait` is buggy | ||
// with super long durations. When duration is greater than | ||
// 0x100_0000_0000_0000 seconds, `pthread_cond_timedwait` | ||
// in macOS Sierra returns error 316. | ||
// | ||
// This program demonstrates the issue: | ||
// https://gist.github.com/stepancheg/198db4623a20aad2ad7cddb8fda4a63c | ||
// | ||
// To work around this issue, the timeout is clamped to 1000 years. | ||
#[cfg(target_vendor = "apple")] | ||
let dur = Duration::min(dur, Duration::from_secs(1000 * 365 * 86400)); | ||
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let timeout = Timespec::now(Self::CLOCK).checked_add_duration(&dur); | ||
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#[cfg(not(target_os = "nto"))] | ||
let timeout = timeout.and_then(|t| t.to_timespec()).unwrap_or(TIMESPEC_MAX); | ||
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#[cfg(target_os = "nto")] | ||
let timeout = timeout.and_then(|t| t.to_timespec_capped()).unwrap_or(TIMESPEC_MAX_CAPPED); | ||
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let r = unsafe { libc::pthread_cond_timedwait(self.raw(), mutex, &timeout) }; | ||
assert!(r == libc::ETIMEDOUT || r == 0); | ||
r == 0 | ||
} | ||
} | ||
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#[cfg(not(any( | ||
target_os = "android", | ||
target_vendor = "apple", | ||
target_os = "espidf", | ||
target_os = "horizon", | ||
target_os = "l4re", | ||
target_os = "redox", | ||
)))] | ||
impl Condvar { | ||
pub const PRECISE_TIMEOUT: bool = true; | ||
const CLOCK: libc::clockid_t = libc::CLOCK_MONOTONIC; | ||
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/// # Safety | ||
/// May only be called once. | ||
pub unsafe fn init(self: Pin<&mut Self>) { | ||
use crate::mem::MaybeUninit; | ||
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struct AttrGuard<'a>(pub &'a mut MaybeUninit<libc::pthread_condattr_t>); | ||
impl Drop for AttrGuard<'_> { | ||
fn drop(&mut self) { | ||
unsafe { | ||
let result = libc::pthread_condattr_destroy(self.0.as_mut_ptr()); | ||
assert_eq!(result, 0); | ||
} | ||
} | ||
} | ||
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unsafe { | ||
let mut attr = MaybeUninit::<libc::pthread_condattr_t>::uninit(); | ||
let r = libc::pthread_condattr_init(attr.as_mut_ptr()); | ||
assert_eq!(r, 0); | ||
let attr = AttrGuard(&mut attr); | ||
let r = libc::pthread_condattr_setclock(attr.0.as_mut_ptr(), Self::CLOCK); | ||
assert_eq!(r, 0); | ||
let r = libc::pthread_cond_init(self.raw(), attr.0.as_ptr()); | ||
assert_eq!(r, 0); | ||
} | ||
} | ||
} | ||
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// `pthread_condattr_setclock` is unfortunately not supported on these platforms. | ||
#[cfg(any( | ||
target_os = "android", | ||
target_vendor = "apple", | ||
target_os = "espidf", | ||
target_os = "horizon", | ||
target_os = "l4re", | ||
target_os = "redox", | ||
))] | ||
impl Condvar { | ||
pub const PRECISE_TIMEOUT: bool = false; | ||
const CLOCK: libc::clockid_t = libc::CLOCK_REALTIME; | ||
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/// # Safety | ||
/// May only be called once. | ||
pub unsafe fn init(self: Pin<&mut Self>) { | ||
if cfg!(any(target_os = "espidf", target_os = "horizon")) { | ||
// NOTE: ESP-IDF's PTHREAD_COND_INITIALIZER support is not released yet | ||
// So on that platform, init() should always be called. | ||
// | ||
// Similar story for the 3DS (horizon). | ||
let r = unsafe { libc::pthread_cond_init(self.raw(), crate::ptr::null()) }; | ||
assert_eq!(r, 0); | ||
} | ||
} | ||
} | ||
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impl !Unpin for Condvar {} | ||
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unsafe impl Sync for Condvar {} | ||
unsafe impl Send for Condvar {} | ||
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impl Drop for Condvar { | ||
#[inline] | ||
fn drop(&mut self) { | ||
let r = unsafe { libc::pthread_cond_destroy(self.raw()) }; | ||
if cfg!(target_os = "dragonfly") { | ||
// On DragonFly pthread_cond_destroy() returns EINVAL if called on | ||
// a condvar that was just initialized with | ||
// libc::PTHREAD_COND_INITIALIZER. Once it is used or | ||
// pthread_cond_init() is called, this behaviour no longer occurs. | ||
debug_assert!(r == 0 || r == libc::EINVAL); | ||
} else { | ||
debug_assert_eq!(r, 0); | ||
} | ||
} | ||
} |
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#![forbid(unsafe_op_in_unsafe_fn)] | ||
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mod condvar; | ||
mod mutex; | ||
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pub use condvar::Condvar; | ||
pub use mutex::Mutex; |
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use super::super::cvt_nz; | ||
use crate::cell::UnsafeCell; | ||
use crate::io::Error; | ||
use crate::mem::MaybeUninit; | ||
use crate::pin::Pin; | ||
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pub struct Mutex { | ||
inner: UnsafeCell<libc::pthread_mutex_t>, | ||
} | ||
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impl Mutex { | ||
pub fn new() -> Mutex { | ||
Mutex { inner: UnsafeCell::new(libc::PTHREAD_MUTEX_INITIALIZER) } | ||
} | ||
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pub(super) fn raw(&self) -> *mut libc::pthread_mutex_t { | ||
self.inner.get() | ||
} | ||
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/// # Safety | ||
/// Must only be called once. | ||
pub unsafe fn init(self: Pin<&mut Self>) { | ||
// Issue #33770 | ||
// | ||
// A pthread mutex initialized with PTHREAD_MUTEX_INITIALIZER will have | ||
// a type of PTHREAD_MUTEX_DEFAULT, which has undefined behavior if you | ||
// try to re-lock it from the same thread when you already hold a lock | ||
// (https://pubs.opengroup.org/onlinepubs/9699919799/functions/pthread_mutex_init.html). | ||
// This is the case even if PTHREAD_MUTEX_DEFAULT == PTHREAD_MUTEX_NORMAL | ||
// (https://github.com/rust-lang/rust/issues/33770#issuecomment-220847521) -- in that | ||
// case, `pthread_mutexattr_settype(PTHREAD_MUTEX_DEFAULT)` will of course be the same | ||
// as setting it to `PTHREAD_MUTEX_NORMAL`, but not setting any mode will result in | ||
// a Mutex where re-locking is UB. | ||
// | ||
// In practice, glibc takes advantage of this undefined behavior to | ||
// implement hardware lock elision, which uses hardware transactional | ||
// memory to avoid acquiring the lock. While a transaction is in | ||
// progress, the lock appears to be unlocked. This isn't a problem for | ||
// other threads since the transactional memory will abort if a conflict | ||
// is detected, however no abort is generated when re-locking from the | ||
// same thread. | ||
// | ||
// Since locking the same mutex twice will result in two aliasing &mut | ||
// references, we instead create the mutex with type | ||
// PTHREAD_MUTEX_NORMAL which is guaranteed to deadlock if we try to | ||
// re-lock it from the same thread, thus avoiding undefined behavior. | ||
unsafe { | ||
let mut attr = MaybeUninit::<libc::pthread_mutexattr_t>::uninit(); | ||
cvt_nz(libc::pthread_mutexattr_init(attr.as_mut_ptr())).unwrap(); | ||
let attr = AttrGuard(&mut attr); | ||
cvt_nz(libc::pthread_mutexattr_settype( | ||
attr.0.as_mut_ptr(), | ||
libc::PTHREAD_MUTEX_NORMAL, | ||
)) | ||
.unwrap(); | ||
cvt_nz(libc::pthread_mutex_init(self.raw(), attr.0.as_ptr())).unwrap(); | ||
} | ||
} | ||
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/// # Safety | ||
/// * If `init` was not called, reentrant locking causes undefined behaviour. | ||
/// * Destroying a locked mutex causes undefined behaviour. | ||
pub unsafe fn lock(self: Pin<&Self>) { | ||
#[cold] | ||
#[inline(never)] | ||
fn fail(r: i32) -> ! { | ||
let error = Error::from_raw_os_error(r); | ||
panic!("failed to lock mutex: {error}"); | ||
} | ||
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let r = unsafe { libc::pthread_mutex_lock(self.raw()) }; | ||
// As we set the mutex type to `PTHREAD_MUTEX_NORMAL` above, we expect | ||
// the lock call to never fail. Unfortunately however, some platforms | ||
// (Solaris) do not conform to the standard, and instead always provide | ||
// deadlock detection. How kind of them! Unfortunately that means that | ||
// we need to check the error code here. To save us from UB on other | ||
// less well-behaved platforms in the future, we do it even on "good" | ||
// platforms like macOS. See #120147 for more context. | ||
if r != 0 { | ||
fail(r) | ||
} | ||
} | ||
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/// # Safety | ||
/// * If `init` was not called, reentrant locking causes undefined behaviour. | ||
/// * Destroying a locked mutex causes undefined behaviour. | ||
pub unsafe fn try_lock(self: Pin<&Self>) -> bool { | ||
unsafe { libc::pthread_mutex_trylock(self.raw()) == 0 } | ||
} | ||
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/// # Safety | ||
/// The mutex must be locked by the current thread. | ||
pub unsafe fn unlock(self: Pin<&Self>) { | ||
let r = unsafe { libc::pthread_mutex_unlock(self.raw()) }; | ||
debug_assert_eq!(r, 0); | ||
} | ||
} | ||
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impl !Unpin for Mutex {} | ||
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unsafe impl Send for Mutex {} | ||
unsafe impl Sync for Mutex {} | ||
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impl Drop for Mutex { | ||
fn drop(&mut self) { | ||
// SAFETY: | ||
// If `lock` or `init` was called, the mutex must have been pinned, so | ||
// it is still at the same location. Otherwise, `inner` must contain | ||
// `PTHREAD_MUTEX_INITIALIZER`, which is valid at all locations. Thus, | ||
// this call always destroys a valid mutex. | ||
let r = unsafe { libc::pthread_mutex_destroy(self.raw()) }; | ||
if cfg!(target_os = "dragonfly") { | ||
// On DragonFly pthread_mutex_destroy() returns EINVAL if called on a | ||
// mutex that was just initialized with libc::PTHREAD_MUTEX_INITIALIZER. | ||
// Once it is used (locked/unlocked) or pthread_mutex_init() is called, | ||
// this behaviour no longer occurs. | ||
debug_assert!(r == 0 || r == libc::EINVAL); | ||
} else { | ||
debug_assert_eq!(r, 0); | ||
} | ||
} | ||
} | ||
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struct AttrGuard<'a>(pub &'a mut MaybeUninit<libc::pthread_mutexattr_t>); | ||
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impl Drop for AttrGuard<'_> { | ||
fn drop(&mut self) { | ||
unsafe { | ||
let result = libc::pthread_mutexattr_destroy(self.0.as_mut_ptr()); | ||
assert_eq!(result, 0); | ||
} | ||
} | ||
} |
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