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android / platform / prebuilts / rust / b13c2a93d1f3eb2e6bdcdce1ad4dd61c50bc36c6 / . / linux-x86 / 1.63.0 / src / stdlibs / library / std / src / sys / unix / locks / futex.rs
blob: a9a1a32c5afb09b41c434739d8de6bdcba73e194 [file] [log] [blame]
use crate::sync::atomic::{
AtomicU32,
Ordering::{Acquire, Relaxed, Release},
};
use crate::sys::futex::{futex_wait, futex_wake, futex_wake_all};
use crate::time::Duration;
pub type MovableMutex = Mutex;
pub type MovableCondvar = Condvar;
pub struct Mutex {
/// 0: unlocked
/// 1: locked, no other threads waiting
/// 2: locked, and other threads waiting (contended)
futex: AtomicU32,
}
impl Mutex {
#[inline]
pub const fn new() -> Self {
Self { futex: AtomicU32::new(0) }
}
#[inline]
pub unsafe fn init(&mut self) {}
#[inline]
pub unsafe fn try_lock(&self) -> bool {
self.futex.compare_exchange(0, 1, Acquire, Relaxed).is_ok()
}
#[inline]
pub unsafe fn lock(&self) {
if self.futex.compare_exchange(0, 1, Acquire, Relaxed).is_err() {
self.lock_contended();
}
}
#[cold]
fn lock_contended(&self) {
// Spin first to speed things up if the lock is released quickly.
let mut state = self.spin();
// If it's unlocked now, attempt to take the lock
// without marking it as contended.
if state == 0 {
match self.futex.compare_exchange(0, 1, Acquire, Relaxed) {
Ok(_) => return, // Locked!
Err(s) => state = s,
}
}
loop {
// Put the lock in contended state.
// We avoid an unnecessary write if it as already set to 2,
// to be friendlier for the caches.
if state != 2 && self.futex.swap(2, Acquire) == 0 {
// We changed it from 0 to 2, so we just succesfully locked it.
return;
}
// Wait for the futex to change state, assuming it is still 2.
futex_wait(&self.futex, 2, None);
// Spin again after waking up.
state = self.spin();
}
}
fn spin(&self) -> u32 {
let mut spin = 100;
loop {
// We only use `load` (and not `swap` or `compare_exchange`)
// while spinning, to be easier on the caches.
let state = self.futex.load(Relaxed);
// We stop spinning when the mutex is unlocked (0),
// but also when it's contended (2).
if state != 1 || spin == 0 {
return state;
}
crate::hint::spin_loop();
spin -= 1;
}
}
#[inline]
pub unsafe fn unlock(&self) {
if self.futex.swap(0, Release) == 2 {
// We only wake up one thread. When that thread locks the mutex, it
// will mark the mutex as contended (2) (see lock_contended above),
// which makes sure that any other waiting threads will also be
// woken up eventually.
self.wake();
}
}
#[cold]
fn wake(&self) {
futex_wake(&self.futex);
}
}
pub struct Condvar {
// The value of this atomic is simply incremented on every notification.
// This is used by `.wait()` to not miss any notifications after
// unlocking the mutex and before waiting for notifications.
futex: AtomicU32,
}
impl Condvar {
#[inline]
pub const fn new() -> Self {
Self { futex: AtomicU32::new(0) }
}
// All the memory orderings here are `Relaxed`,
// because synchronization is done by unlocking and locking the mutex.
pub unsafe fn notify_one(&self) {
self.futex.fetch_add(1, Relaxed);
futex_wake(&self.futex);
}
pub unsafe fn notify_all(&self) {
self.futex.fetch_add(1, Relaxed);
futex_wake_all(&self.futex);
}
pub unsafe fn wait(&self, mutex: &Mutex) {
self.wait_optional_timeout(mutex, None);
}
pub unsafe fn wait_timeout(&self, mutex: &Mutex, timeout: Duration) -> bool {
self.wait_optional_timeout(mutex, Some(timeout))
}
unsafe fn wait_optional_timeout(&self, mutex: &Mutex, timeout: Option<Duration>) -> bool {
// Examine the notification counter _before_ we unlock the mutex.
let futex_value = self.futex.load(Relaxed);
// Unlock the mutex before going to sleep.
mutex.unlock();
// Wait, but only if there hasn't been any
// notification since we unlocked the mutex.
let r = futex_wait(&self.futex, futex_value, timeout);
// Lock the mutex again.
mutex.lock();
r
}
}