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Rollup merge of rust-lang#97140 - joboet:solid_parker, r=m-ou-se
std: use an event-flag-based thread parker on SOLID `Mutex` and `Condvar` are being replaced by more efficient implementations, which need thread parking themselves (see rust-lang#93740). Therefore, the generic `Parker` needs to be replaced on all platforms where the new lock implementation will be used, which, after rust-lang#96393, are SOLID, SGX and Hermit (more PRs coming soon). SOLID, conforming to the [μITRON specification](http://www.ertl.jp/ITRON/SPEC/FILE/mitron-400e.pdf), has event flags, which are a thread parking primitive very similar to `Parker`. However, they do not make any atomic ordering guarantees (even though those can probably be assumed) and necessitate a system call even when the thread token is already available. Hence, this `Parker`, like the Windows parker, uses an extra atomic state variable. I future-proofed the code by wrapping the event flag in a `WaitFlag` structure, as both SGX and Hermit can share the Parker implementation, they just have slightly different primitives (SGX uses signals and Hermit has a thread blocking API). `@kawadakk` I assume you are the target maintainer? Could you test this for me?
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Original file line number | Diff line number | Diff line change |
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@@ -0,0 +1,72 @@ | ||
use crate::mem::MaybeUninit; | ||
use crate::time::Duration; | ||
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use super::{ | ||
abi, | ||
error::{expect_success, fail}, | ||
time::with_tmos, | ||
}; | ||
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const CLEAR: abi::FLGPTN = 0; | ||
const RAISED: abi::FLGPTN = 1; | ||
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/// A thread parking primitive that is not susceptible to race conditions, | ||
/// but provides no atomic ordering guarantees and allows only one `raise` per wait. | ||
pub struct WaitFlag { | ||
flag: abi::ID, | ||
} | ||
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impl WaitFlag { | ||
/// Creates a new wait flag. | ||
pub fn new() -> WaitFlag { | ||
let flag = expect_success( | ||
unsafe { | ||
abi::acre_flg(&abi::T_CFLG { | ||
flgatr: abi::TA_FIFO | abi::TA_WSGL | abi::TA_CLR, | ||
iflgptn: CLEAR, | ||
}) | ||
}, | ||
&"acre_flg", | ||
); | ||
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WaitFlag { flag } | ||
} | ||
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/// Wait for the wait flag to be raised. | ||
pub fn wait(&self) { | ||
let mut token = MaybeUninit::uninit(); | ||
expect_success( | ||
unsafe { abi::wai_flg(self.flag, RAISED, abi::TWF_ORW, token.as_mut_ptr()) }, | ||
&"wai_flg", | ||
); | ||
} | ||
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/// Wait for the wait flag to be raised or the timeout to occur. | ||
/// | ||
/// Returns whether the flag was raised (`true`) or the operation timed out (`false`). | ||
pub fn wait_timeout(&self, dur: Duration) -> bool { | ||
let mut token = MaybeUninit::uninit(); | ||
let res = with_tmos(dur, |tmout| unsafe { | ||
abi::twai_flg(self.flag, RAISED, abi::TWF_ORW, token.as_mut_ptr(), tmout) | ||
}); | ||
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match res { | ||
abi::E_OK => true, | ||
abi::E_TMOUT => false, | ||
error => fail(error, &"twai_flg"), | ||
} | ||
} | ||
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/// Raise the wait flag. | ||
/// | ||
/// Calls to this function should be balanced with the number of successful waits. | ||
pub fn raise(&self) { | ||
expect_success(unsafe { abi::set_flg(self.flag, RAISED) }, &"set_flg"); | ||
} | ||
} | ||
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impl Drop for WaitFlag { | ||
fn drop(&mut self) { | ||
expect_success(unsafe { abi::del_flg(self.flag) }, &"del_flg"); | ||
} | ||
} |
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Original file line number | Diff line number | Diff line change |
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@@ -0,0 +1,102 @@ | ||
//! A wait-flag-based thread parker. | ||
//! | ||
//! Some operating systems provide low-level parking primitives like wait counts, | ||
//! event flags or semaphores which are not susceptible to race conditions (meaning | ||
//! the wakeup can occur before the wait operation). To implement the `std` thread | ||
//! parker on top of these primitives, we only have to ensure that parking is fast | ||
//! when the thread token is available, the atomic ordering guarantees are maintained | ||
//! and spurious wakeups are minimized. | ||
//! | ||
//! To achieve this, this parker uses an atomic variable with three states: `EMPTY`, | ||
//! `PARKED` and `NOTIFIED`: | ||
//! * `EMPTY` means the token has not been made available, but the thread is not | ||
//! currently waiting on it. | ||
//! * `PARKED` means the token is not available and the thread is parked. | ||
//! * `NOTIFIED` means the token is available. | ||
//! | ||
//! `park` and `park_timeout` change the state from `EMPTY` to `PARKED` and from | ||
//! `NOTIFIED` to `EMPTY`. If the state was `NOTIFIED`, the thread was unparked and | ||
//! execution can continue without calling into the OS. If the state was `EMPTY`, | ||
//! the token is not available and the thread waits on the primitive (here called | ||
//! "wait flag"). | ||
//! | ||
//! `unpark` changes the state to `NOTIFIED`. If the state was `PARKED`, the thread | ||
//! is or will be sleeping on the wait flag, so we raise it. | ||
use crate::pin::Pin; | ||
use crate::sync::atomic::AtomicI8; | ||
use crate::sync::atomic::Ordering::{Acquire, Relaxed, Release}; | ||
use crate::sys::wait_flag::WaitFlag; | ||
use crate::time::Duration; | ||
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const EMPTY: i8 = 0; | ||
const PARKED: i8 = -1; | ||
const NOTIFIED: i8 = 1; | ||
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pub struct Parker { | ||
state: AtomicI8, | ||
wait_flag: WaitFlag, | ||
} | ||
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impl Parker { | ||
/// Construct a parker for the current thread. The UNIX parker | ||
/// implementation requires this to happen in-place. | ||
pub unsafe fn new(parker: *mut Parker) { | ||
parker.write(Parker { state: AtomicI8::new(EMPTY), wait_flag: WaitFlag::new() }) | ||
} | ||
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// This implementation doesn't require `unsafe` and `Pin`, but other implementations do. | ||
pub unsafe fn park(self: Pin<&Self>) { | ||
match self.state.fetch_sub(1, Acquire) { | ||
// NOTIFIED => EMPTY | ||
NOTIFIED => return, | ||
// EMPTY => PARKED | ||
EMPTY => (), | ||
_ => panic!("inconsistent park state"), | ||
} | ||
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// Avoid waking up from spurious wakeups (these are quite likely, see below). | ||
loop { | ||
self.wait_flag.wait(); | ||
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match self.state.compare_exchange(NOTIFIED, EMPTY, Acquire, Relaxed) { | ||
Ok(_) => return, | ||
Err(PARKED) => (), | ||
Err(_) => panic!("inconsistent park state"), | ||
} | ||
} | ||
} | ||
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// This implementation doesn't require `unsafe` and `Pin`, but other implementations do. | ||
pub unsafe fn park_timeout(self: Pin<&Self>, dur: Duration) { | ||
match self.state.fetch_sub(1, Acquire) { | ||
NOTIFIED => return, | ||
EMPTY => (), | ||
_ => panic!("inconsistent park state"), | ||
} | ||
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self.wait_flag.wait_timeout(dur); | ||
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// Either a wakeup or a timeout occurred. Wakeups may be spurious, as there can be | ||
// a race condition when `unpark` is performed between receiving the timeout and | ||
// resetting the state, resulting in the eventflag being set unnecessarily. `park` | ||
// is protected against this by looping until the token is actually given, but | ||
// here we cannot easily tell. | ||
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// Use `swap` to provide acquire ordering. | ||
match self.state.swap(EMPTY, Acquire) { | ||
NOTIFIED => (), | ||
PARKED => (), | ||
_ => panic!("inconsistent park state"), | ||
} | ||
} | ||
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// This implementation doesn't require `Pin`, but other implementations do. | ||
pub fn unpark(self: Pin<&Self>) { | ||
let state = self.state.swap(NOTIFIED, Release); | ||
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if state == PARKED { | ||
self.wait_flag.raise(); | ||
} | ||
} | ||
} |