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Auto merge of rust-lang#96393 - joboet:pthread_parker, r=thomcc
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std: directly use pthread in UNIX parker implementation

`Mutex` and `Condvar` are being replaced by more efficient implementations, which need thread parking themselves (see rust-lang#93740). Therefore we should use the `pthread` synchronization primitives directly. Also, we can avoid allocating the mutex and condition variable because the `Parker` struct is being placed in an `Arc` anyways.

This basically is just a copy of the current `Mutex` and `Condvar` code, which will however be removed (again, see rust-lang#93740). An alternative implementation could be to use dedicated private `OsMutex` and `OsCondvar` types, but all the other platforms supported by std actually have their own thread parking primitives.

I used `Pin` to guarantee a stable address for the `Parker` struct, while the current implementation does not, rather using extra unsafe declaration. Since the thread struct is shared anyways, I assumed this would not add too much clutter while being clearer.
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bors committed Apr 28, 2022
2 parents e85edd9 + 1285fb7 commit baaa3b6
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Showing 9 changed files with 337 additions and 31 deletions.
1 change: 1 addition & 0 deletions library/std/src/sys/unix/mod.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -39,6 +39,7 @@ pub mod stdio;
pub mod thread;
pub mod thread_local_dtor;
pub mod thread_local_key;
pub mod thread_parker;
pub mod time;

#[cfg(target_os = "espidf")]
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265 changes: 265 additions & 0 deletions library/std/src/sys/unix/thread_parker.rs
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@@ -0,0 +1,265 @@
//! Thread parking without `futex` using the `pthread` synchronization primitives.

#![cfg(not(any(
target_os = "linux",
target_os = "android",
all(target_os = "emscripten", target_feature = "atomics")
)))]

use crate::cell::UnsafeCell;
use crate::marker::PhantomPinned;
use crate::pin::Pin;
use crate::ptr::addr_of_mut;
use crate::sync::atomic::AtomicUsize;
use crate::sync::atomic::Ordering::SeqCst;
use crate::time::Duration;

const EMPTY: usize = 0;
const PARKED: usize = 1;
const NOTIFIED: usize = 2;

unsafe fn lock(lock: *mut libc::pthread_mutex_t) {
let r = libc::pthread_mutex_lock(lock);
debug_assert_eq!(r, 0);
}

unsafe fn unlock(lock: *mut libc::pthread_mutex_t) {
let r = libc::pthread_mutex_unlock(lock);
debug_assert_eq!(r, 0);
}

unsafe fn notify_one(cond: *mut libc::pthread_cond_t) {
let r = libc::pthread_cond_signal(cond);
debug_assert_eq!(r, 0);
}

unsafe fn wait(cond: *mut libc::pthread_cond_t, lock: *mut libc::pthread_mutex_t) {
let r = libc::pthread_cond_wait(cond, lock);
debug_assert_eq!(r, 0);
}

const TIMESPEC_MAX: libc::timespec =
libc::timespec { tv_sec: <libc::time_t>::MAX, tv_nsec: 1_000_000_000 - 1 };

unsafe fn wait_timeout(
cond: *mut libc::pthread_cond_t,
lock: *mut libc::pthread_mutex_t,
dur: Duration,
) {
// Use the system clock on systems that do not support pthread_condattr_setclock.
// This unfortunately results in problems when the system time changes.
#[cfg(any(target_os = "macos", target_os = "ios", target_os = "espidf"))]
let (now, dur) = {
use super::time::SystemTime;
use crate::cmp::min;

// 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 return error 316.
//
// This program demonstrates the issue:
// https://gist.github.com/stepancheg/198db4623a20aad2ad7cddb8fda4a63c
//
// To work around this issue, and possible bugs of other OSes, timeout
// is clamped to 1000 years, which is allowable per the API of `park_timeout`
// because of spurious wakeups.
let dur = min(dur, Duration::from_secs(1000 * 365 * 86400));
let now = SystemTime::now().t;
(now, dur)
};
// Use the monotonic clock on other systems.
#[cfg(not(any(target_os = "macos", target_os = "ios", target_os = "espidf")))]
let (now, dur) = {
use super::time::Timespec;

(Timespec::now(libc::CLOCK_MONOTONIC), dur)
};

let timeout = now.checked_add_duration(&dur).map(|t| t.t).unwrap_or(TIMESPEC_MAX);
let r = libc::pthread_cond_timedwait(cond, lock, &timeout);
debug_assert!(r == libc::ETIMEDOUT || r == 0);
}

pub struct Parker {
state: AtomicUsize,
lock: UnsafeCell<libc::pthread_mutex_t>,
cvar: UnsafeCell<libc::pthread_cond_t>,
// The `pthread` primitives require a stable address, so make this struct `!Unpin`.
_pinned: PhantomPinned,
}

impl Parker {
/// Construct the UNIX parker in-place.
///
/// # Safety
/// The constructed parker must never be moved.
pub unsafe fn new(parker: *mut Parker) {
// Use the default mutex implementation to allow for simpler initialization.
// This could lead to undefined behaviour when deadlocking. This is avoided
// by not deadlocking. Note in particular the unlocking operation before any
// panic, as code after the panic could try to park again.
addr_of_mut!((*parker).state).write(AtomicUsize::new(EMPTY));
addr_of_mut!((*parker).lock).write(UnsafeCell::new(libc::PTHREAD_MUTEX_INITIALIZER));

cfg_if::cfg_if! {
if #[cfg(any(
target_os = "macos",
target_os = "ios",
target_os = "l4re",
target_os = "android",
target_os = "redox"
))] {
addr_of_mut!((*parker).cvar).write(UnsafeCell::new(libc::PTHREAD_COND_INITIALIZER));
} else if #[cfg(target_os = "espidf")] {
let r = libc::pthread_cond_init(addr_of_mut!((*parker).cvar).cast(), crate::ptr::null());
assert_eq!(r, 0);
} else {
use crate::mem::MaybeUninit;
let mut attr = MaybeUninit::<libc::pthread_condattr_t>::uninit();
let r = libc::pthread_condattr_init(attr.as_mut_ptr());
assert_eq!(r, 0);
let r = libc::pthread_condattr_setclock(attr.as_mut_ptr(), libc::CLOCK_MONOTONIC);
assert_eq!(r, 0);
let r = libc::pthread_cond_init(addr_of_mut!((*parker).cvar).cast(), attr.as_ptr());
assert_eq!(r, 0);
let r = libc::pthread_condattr_destroy(attr.as_mut_ptr());
assert_eq!(r, 0);
}
}
}

// This implementation doesn't require `unsafe`, but other implementations
// may assume this is only called by the thread that owns the Parker.
pub unsafe fn park(self: Pin<&Self>) {
// If we were previously notified then we consume this notification and
// return quickly.
if self.state.compare_exchange(NOTIFIED, EMPTY, SeqCst, SeqCst).is_ok() {
return;
}

// Otherwise we need to coordinate going to sleep
lock(self.lock.get());
match self.state.compare_exchange(EMPTY, PARKED, SeqCst, SeqCst) {
Ok(_) => {}
Err(NOTIFIED) => {
// We must read here, even though we know it will be `NOTIFIED`.
// This is because `unpark` may have been called again since we read
// `NOTIFIED` in the `compare_exchange` above. We must perform an
// acquire operation that synchronizes with that `unpark` to observe
// any writes it made before the call to unpark. To do that we must
// read from the write it made to `state`.
let old = self.state.swap(EMPTY, SeqCst);

unlock(self.lock.get());

assert_eq!(old, NOTIFIED, "park state changed unexpectedly");
return;
} // should consume this notification, so prohibit spurious wakeups in next park.
Err(_) => {
unlock(self.lock.get());

panic!("inconsistent park state")
}
}

loop {
wait(self.cvar.get(), self.lock.get());

match self.state.compare_exchange(NOTIFIED, EMPTY, SeqCst, SeqCst) {
Ok(_) => break, // got a notification
Err(_) => {} // spurious wakeup, go back to sleep
}
}

unlock(self.lock.get());
}

// This implementation doesn't require `unsafe`, but other implementations
// may assume this is only called by the thread that owns the Parker. Use
// `Pin` to guarantee a stable address for the mutex and condition variable.
pub unsafe fn park_timeout(self: Pin<&Self>, dur: Duration) {
// Like `park` above we have a fast path for an already-notified thread, and
// afterwards we start coordinating for a sleep.
// return quickly.
if self.state.compare_exchange(NOTIFIED, EMPTY, SeqCst, SeqCst).is_ok() {
return;
}

lock(self.lock.get());
match self.state.compare_exchange(EMPTY, PARKED, SeqCst, SeqCst) {
Ok(_) => {}
Err(NOTIFIED) => {
// We must read again here, see `park`.
let old = self.state.swap(EMPTY, SeqCst);
unlock(self.lock.get());

assert_eq!(old, NOTIFIED, "park state changed unexpectedly");
return;
} // should consume this notification, so prohibit spurious wakeups in next park.
Err(_) => {
unlock(self.lock.get());
panic!("inconsistent park_timeout state")
}
}

// Wait with a timeout, and if we spuriously wake up or otherwise wake up
// from a notification we just want to unconditionally set the state back to
// empty, either consuming a notification or un-flagging ourselves as
// parked.
wait_timeout(self.cvar.get(), self.lock.get(), dur);

match self.state.swap(EMPTY, SeqCst) {
NOTIFIED => unlock(self.lock.get()), // got a notification, hurray!
PARKED => unlock(self.lock.get()), // no notification, alas
n => {
unlock(self.lock.get());
panic!("inconsistent park_timeout state: {n}")
}
}
}

pub fn unpark(self: Pin<&Self>) {
// To ensure the unparked thread will observe any writes we made
// before this call, we must perform a release operation that `park`
// can synchronize with. To do that we must write `NOTIFIED` even if
// `state` is already `NOTIFIED`. That is why this must be a swap
// rather than a compare-and-swap that returns if it reads `NOTIFIED`
// on failure.
match self.state.swap(NOTIFIED, SeqCst) {
EMPTY => return, // no one was waiting
NOTIFIED => return, // already unparked
PARKED => {} // gotta go wake someone up
_ => panic!("inconsistent state in unpark"),
}

// There is a period between when the parked thread sets `state` to
// `PARKED` (or last checked `state` in the case of a spurious wake
// up) and when it actually waits on `cvar`. If we were to notify
// during this period it would be ignored and then when the parked
// thread went to sleep it would never wake up. Fortunately, it has
// `lock` locked at this stage so we can acquire `lock` to wait until
// it is ready to receive the notification.
//
// Releasing `lock` before the call to `notify_one` means that when the
// parked thread wakes it doesn't get woken only to have to wait for us
// to release `lock`.
unsafe {
lock(self.lock.get());
unlock(self.lock.get());
notify_one(self.cvar.get());
}
}
}

impl Drop for Parker {
fn drop(&mut self) {
unsafe {
libc::pthread_cond_destroy(self.cvar.get_mut());
libc::pthread_mutex_destroy(self.lock.get_mut());
}
}
}

unsafe impl Sync for Parker {}
unsafe impl Send for Parker {}
4 changes: 2 additions & 2 deletions library/std/src/sys/unix/time.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -132,7 +132,7 @@ mod inner {

#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct SystemTime {
t: Timespec,
pub(in crate::sys::unix) t: Timespec,
}

pub const UNIX_EPOCH: SystemTime = SystemTime { t: Timespec::zero() };
Expand Down Expand Up @@ -279,7 +279,7 @@ mod inner {

#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct SystemTime {
t: Timespec,
pub(in crate::sys::unix) t: Timespec,
}

pub const UNIX_EPOCH: SystemTime = SystemTime { t: Timespec::zero() };
Expand Down
20 changes: 13 additions & 7 deletions library/std/src/sys/windows/thread_parker.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -58,6 +58,7 @@
// [4]: Windows Internals, Part 1, ISBN 9780735671300

use crate::convert::TryFrom;
use crate::pin::Pin;
use crate::ptr;
use crate::sync::atomic::{
AtomicI8, AtomicPtr,
Expand Down Expand Up @@ -95,13 +96,16 @@ const NOTIFIED: i8 = 1;
// Ordering::Release when writing NOTIFIED (the 'token') in unpark(), and using
// Ordering::Acquire when reading this state in park() after waking up.
impl Parker {
pub fn new() -> Self {
Self { state: AtomicI8::new(EMPTY) }
/// Construct the Windows parker. The UNIX parker implementation
/// requires this to happen in-place.
pub unsafe fn new(parker: *mut Parker) {
parker.write(Self { state: AtomicI8::new(EMPTY) });
}

// Assumes this is only called by the thread that owns the Parker,
// which means that `self.state != PARKED`.
pub unsafe fn park(&self) {
// which means that `self.state != PARKED`. This implementation doesn't require `Pin`,
// but other implementations do.
pub unsafe fn park(self: Pin<&Self>) {
// Change NOTIFIED=>EMPTY or EMPTY=>PARKED, and directly return in the
// first case.
if self.state.fetch_sub(1, Acquire) == NOTIFIED {
Expand Down Expand Up @@ -132,8 +136,9 @@ impl Parker {
}

// Assumes this is only called by the thread that owns the Parker,
// which means that `self.state != PARKED`.
pub unsafe fn park_timeout(&self, timeout: Duration) {
// which means that `self.state != PARKED`. This implementation doesn't require `Pin`,
// but other implementations do.
pub unsafe fn park_timeout(self: Pin<&Self>, timeout: Duration) {
// Change NOTIFIED=>EMPTY or EMPTY=>PARKED, and directly return in the
// first case.
if self.state.fetch_sub(1, Acquire) == NOTIFIED {
Expand Down Expand Up @@ -184,7 +189,8 @@ impl Parker {
}
}

pub fn unpark(&self) {
// This implementation doesn't require `Pin`, but other implementations do.
pub fn unpark(self: Pin<&Self>) {
// Change PARKED=>NOTIFIED, EMPTY=>NOTIFIED, or NOTIFIED=>NOTIFIED, and
// wake the thread in the first case.
//
Expand Down
18 changes: 11 additions & 7 deletions library/std/src/sys_common/thread_parker/futex.rs
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Original file line number Diff line number Diff line change
@@ -1,3 +1,4 @@
use crate::pin::Pin;
use crate::sync::atomic::AtomicU32;
use crate::sync::atomic::Ordering::{Acquire, Release};
use crate::sys::futex::{futex_wait, futex_wake};
Expand Down Expand Up @@ -32,14 +33,15 @@ pub struct Parker {
// Ordering::Release when writing NOTIFIED (the 'token') in unpark(), and using
// Ordering::Acquire when checking for this state in park().
impl Parker {
#[inline]
pub const fn new() -> Self {
Parker { state: AtomicU32::new(EMPTY) }
/// Construct the futex parker. The UNIX parker implementation
/// requires this to happen in-place.
pub unsafe fn new(parker: *mut Parker) {
parker.write(Self { state: AtomicU32::new(EMPTY) });
}

// Assumes this is only called by the thread that owns the Parker,
// which means that `self.state != PARKED`.
pub unsafe fn park(&self) {
pub unsafe fn park(self: Pin<&Self>) {
// Change NOTIFIED=>EMPTY or EMPTY=>PARKED, and directly return in the
// first case.
if self.state.fetch_sub(1, Acquire) == NOTIFIED {
Expand All @@ -58,8 +60,9 @@ impl Parker {
}

// Assumes this is only called by the thread that owns the Parker,
// which means that `self.state != PARKED`.
pub unsafe fn park_timeout(&self, timeout: Duration) {
// which means that `self.state != PARKED`. This implementation doesn't
// require `Pin`, but other implementations do.
pub unsafe fn park_timeout(self: Pin<&Self>, timeout: Duration) {
// Change NOTIFIED=>EMPTY or EMPTY=>PARKED, and directly return in the
// first case.
if self.state.fetch_sub(1, Acquire) == NOTIFIED {
Expand All @@ -78,8 +81,9 @@ impl Parker {
}
}

// This implementation doesn't require `Pin`, but other implementations do.
#[inline]
pub fn unpark(&self) {
pub fn unpark(self: Pin<&Self>) {
// Change PARKED=>NOTIFIED, EMPTY=>NOTIFIED, or NOTIFIED=>NOTIFIED, and
// wake the thread in the first case.
//
Expand Down

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