linux-x86/1.77.1/lib/rustlib/src/rust/library/std/src/sys/pal/teeos/locks/condvar.rs - platform/prebuilts/rust - Git at Google

 use crate::cell::UnsafeCell;
 use crate::ptr;
 use crate::sync::atomic::{AtomicPtr, Ordering::Relaxed};
 use crate::sys::locks::mutex::{self, Mutex};
 use crate::sys::time::TIMESPEC_MAX;
 use crate::sys_common::lazy_box::{LazyBox, LazyInit};
 use crate::time::Duration;

 extern "C" {
     pub fn pthread_cond_timedwait(
         cond: *mut libc::pthread_cond_t,
         lock: *mut libc::pthread_mutex_t,
         adstime: *const libc::timespec,
     ) -> libc::c_int;
 }

 struct AllocatedCondvar(UnsafeCell<libc::pthread_cond_t>);

 pub struct Condvar {
     inner: LazyBox<AllocatedCondvar>,
     mutex: AtomicPtr<libc::pthread_mutex_t>,
 }

 #[inline]
 fn raw(c: &Condvar) -> *mut libc::pthread_cond_t {
     c.inner.0.get()
 }

 unsafe impl Send for AllocatedCondvar {}
 unsafe impl Sync for AllocatedCondvar {}

 impl LazyInit for AllocatedCondvar {
     fn init() -> Box<Self> {
         let condvar = Box::new(AllocatedCondvar(UnsafeCell::new(libc::PTHREAD_COND_INITIALIZER)));

         let r = unsafe { libc::pthread_cond_init(condvar.0.get(), crate::ptr::null()) };
         assert_eq!(r, 0);

         condvar
     }
 }

 impl Drop for AllocatedCondvar {
     #[inline]
     fn drop(&mut self) {
         let r = unsafe { libc::pthread_cond_destroy(self.0.get()) };
         debug_assert_eq!(r, 0);
     }
 }

 impl Condvar {
     pub const fn new() -> Condvar {
         Condvar { inner: LazyBox::new(), mutex: AtomicPtr::new(ptr::null_mut()) }
     }

     #[inline]
     fn verify(&self, mutex: *mut libc::pthread_mutex_t) {
         match self.mutex.compare_exchange(ptr::null_mut(), mutex, Relaxed, Relaxed) {
             Ok(_) => {}                // Stored the address
             Err(n) if n == mutex => {} // Lost a race to store the same address
             _ => panic!("attempted to use a condition variable with two mutexes"),
         }
     }

     #[inline]
     pub fn notify_one(&self) {
         let r = unsafe { libc::pthread_cond_signal(raw(self)) };
         debug_assert_eq!(r, 0);
     }

     #[inline]
     pub fn notify_all(&self) {
         let r = unsafe { libc::pthread_cond_broadcast(raw(self)) };
         debug_assert_eq!(r, 0);
     }

     #[inline]
     pub unsafe fn wait(&self, mutex: &Mutex) {
         let mutex = mutex::raw(mutex);
         self.verify(mutex);
         let r = libc::pthread_cond_wait(raw(self), mutex);
         debug_assert_eq!(r, 0);
     }

     pub unsafe fn wait_timeout(&self, mutex: &Mutex, dur: Duration) -> bool {
         use crate::sys::time::Timespec;

         let mutex = mutex::raw(mutex);
         self.verify(mutex);

         let timeout = Timespec::now(libc::CLOCK_MONOTONIC)
             .checked_add_duration(&dur)
             .and_then(|t| t.to_timespec())
             .unwrap_or(TIMESPEC_MAX);

         let r = pthread_cond_timedwait(raw(self), mutex, &timeout);
         assert!(r == libc::ETIMEDOUT || r == 0);
         r == 0
     }
 }
	use crate::cell::UnsafeCell;
	use crate::ptr;
	use crate::sync::atomic::{AtomicPtr, Ordering::Relaxed};
	use crate::sys::locks::mutex::{self, Mutex};
	use crate::sys::time::TIMESPEC_MAX;
	use crate::sys_common::lazy_box::{LazyBox, LazyInit};
	use crate::time::Duration;

	extern "C" {
	pub fn pthread_cond_timedwait(
	cond: *mut libc::pthread_cond_t,
	lock: *mut libc::pthread_mutex_t,
	adstime: *const libc::timespec,
	) -> libc::c_int;
	}

	struct AllocatedCondvar(UnsafeCell<libc::pthread_cond_t>);

	pub struct Condvar {
	inner: LazyBox<AllocatedCondvar>,
	mutex: AtomicPtr<libc::pthread_mutex_t>,
	}

	#[inline]
	fn raw(c: &Condvar) -> *mut libc::pthread_cond_t {
	c.inner.0.get()
	}

	unsafe impl Send for AllocatedCondvar {}
	unsafe impl Sync for AllocatedCondvar {}

	impl LazyInit for AllocatedCondvar {
	fn init() -> Box<Self> {
	let condvar = Box::new(AllocatedCondvar(UnsafeCell::new(libc::PTHREAD_COND_INITIALIZER)));

	let r = unsafe { libc::pthread_cond_init(condvar.0.get(), crate::ptr::null()) };
	assert_eq!(r, 0);

	condvar
	}
	}

	impl Drop for AllocatedCondvar {
	#[inline]
	fn drop(&mut self) {
	let r = unsafe { libc::pthread_cond_destroy(self.0.get()) };
	debug_assert_eq!(r, 0);
	}
	}

	impl Condvar {
	pub const fn new() -> Condvar {
	Condvar { inner: LazyBox::new(), mutex: AtomicPtr::new(ptr::null_mut()) }
	}

	#[inline]
	fn verify(&self, mutex: *mut libc::pthread_mutex_t) {
	match self.mutex.compare_exchange(ptr::null_mut(), mutex, Relaxed, Relaxed) {
	Ok(_) => {} // Stored the address
	Err(n) if n == mutex => {} // Lost a race to store the same address
	_ => panic!("attempted to use a condition variable with two mutexes"),
	}
	}

	#[inline]
	pub fn notify_one(&self) {
	let r = unsafe { libc::pthread_cond_signal(raw(self)) };
	debug_assert_eq!(r, 0);
	}

	#[inline]
	pub fn notify_all(&self) {
	let r = unsafe { libc::pthread_cond_broadcast(raw(self)) };
	debug_assert_eq!(r, 0);
	}

	#[inline]
	pub unsafe fn wait(&self, mutex: &Mutex) {
	let mutex = mutex::raw(mutex);
	self.verify(mutex);
	let r = libc::pthread_cond_wait(raw(self), mutex);
	debug_assert_eq!(r, 0);
	}

	pub unsafe fn wait_timeout(&self, mutex: &Mutex, dur: Duration) -> bool {
	use crate::sys::time::Timespec;

	let mutex = mutex::raw(mutex);
	self.verify(mutex);

	let timeout = Timespec::now(libc::CLOCK_MONOTONIC)
	.checked_add_duration(&dur)
	.and_then(\|t\| t.to_timespec())
	.unwrap_or(TIMESPEC_MAX);

	let r = pthread_cond_timedwait(raw(self), mutex, &timeout);
	assert!(r == libc::ETIMEDOUT \|\| r == 0);
	r == 0
	}
	}