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use crate::loom::cell::UnsafeCell;
use crate::loom::future::AtomicWaker;
use crate::loom::sync::atomic::AtomicUsize;
use crate::loom::sync::Arc;
use crate::runtime::park::CachedParkThread;
use crate::sync::mpsc::error::TryRecvError;
use crate::sync::mpsc::{bounded, list, unbounded};
use crate::sync::notify::Notify;
use crate::util::cacheline::CachePadded;
use std::fmt;
use std::process;
use std::sync::atomic::Ordering::{AcqRel, Acquire, Relaxed, Release};
use std::task::Poll::{Pending, Ready};
use std::task::{Context, Poll};
/// Channel sender.
pub(crate) struct Tx<T, S> {
inner: Arc<Chan<T, S>>,
}
impl<T, S: fmt::Debug> fmt::Debug for Tx<T, S> {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("Tx").field("inner", &self.inner).finish()
}
}
/// Channel receiver.
pub(crate) struct Rx<T, S: Semaphore> {
inner: Arc<Chan<T, S>>,
}
impl<T, S: Semaphore + fmt::Debug> fmt::Debug for Rx<T, S> {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("Rx").field("inner", &self.inner).finish()
}
}
pub(crate) trait Semaphore {
fn is_idle(&self) -> bool;
fn add_permit(&self);
fn add_permits(&self, n: usize);
fn close(&self);
fn is_closed(&self) -> bool;
}
pub(super) struct Chan<T, S> {
/// Handle to the push half of the lock-free list.
tx: CachePadded<list::Tx<T>>,
/// Receiver waker. Notified when a value is pushed into the channel.
rx_waker: CachePadded<AtomicWaker>,
/// Notifies all tasks listening for the receiver being dropped.
notify_rx_closed: Notify,
/// Coordinates access to channel's capacity.
semaphore: S,
/// Tracks the number of outstanding sender handles.
///
/// When this drops to zero, the send half of the channel is closed.
tx_count: AtomicUsize,
/// Tracks the number of outstanding weak sender handles.
tx_weak_count: AtomicUsize,
/// Only accessed by `Rx` handle.
rx_fields: UnsafeCell<RxFields<T>>,
}
impl<T, S> fmt::Debug for Chan<T, S>
where
S: fmt::Debug,
{
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("Chan")
.field("tx", &*self.tx)
.field("semaphore", &self.semaphore)
.field("rx_waker", &*self.rx_waker)
.field("tx_count", &self.tx_count)
.field("rx_fields", &"...")
.finish()
}
}
/// Fields only accessed by `Rx` handle.
struct RxFields<T> {
/// Channel receiver. This field is only accessed by the `Receiver` type.
list: list::Rx<T>,
/// `true` if `Rx::close` is called.
rx_closed: bool,
}
impl<T> fmt::Debug for RxFields<T> {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("RxFields")
.field("list", &self.list)
.field("rx_closed", &self.rx_closed)
.finish()
}
}
unsafe impl<T: Send, S: Send> Send for Chan<T, S> {}
unsafe impl<T: Send, S: Sync> Sync for Chan<T, S> {}
pub(crate) fn channel<T, S: Semaphore>(semaphore: S) -> (Tx<T, S>, Rx<T, S>) {
let (tx, rx) = list::channel();
let chan = Arc::new(Chan {
notify_rx_closed: Notify::new(),
tx: CachePadded::new(tx),
semaphore,
rx_waker: CachePadded::new(AtomicWaker::new()),
tx_count: AtomicUsize::new(1),
tx_weak_count: AtomicUsize::new(0),
rx_fields: UnsafeCell::new(RxFields {
list: rx,
rx_closed: false,
}),
});
(Tx::new(chan.clone()), Rx::new(chan))
}
// ===== impl Tx =====
impl<T, S> Tx<T, S> {
fn new(chan: Arc<Chan<T, S>>) -> Tx<T, S> {
Tx { inner: chan }
}
pub(super) fn strong_count(&self) -> usize {
self.inner.tx_count.load(Acquire)
}
pub(super) fn weak_count(&self) -> usize {
self.inner.tx_weak_count.load(Relaxed)
}
pub(super) fn downgrade(&self) -> Arc<Chan<T, S>> {
self.inner.increment_weak_count();
self.inner.clone()
}
// Returns the upgraded channel or None if the upgrade failed.
pub(super) fn upgrade(chan: Arc<Chan<T, S>>) -> Option<Self> {
let mut tx_count = chan.tx_count.load(Acquire);
loop {
if tx_count == 0 {
// channel is closed
return None;
}
match chan
.tx_count
.compare_exchange_weak(tx_count, tx_count + 1, AcqRel, Acquire)
{
Ok(_) => return Some(Tx { inner: chan }),
Err(prev_count) => tx_count = prev_count,
}
}
}
pub(super) fn semaphore(&self) -> &S {
&self.inner.semaphore
}
/// Send a message and notify the receiver.
pub(crate) fn send(&self, value: T) {
self.inner.send(value);
}
/// Wake the receive half
pub(crate) fn wake_rx(&self) {
self.inner.rx_waker.wake();
}
/// Returns `true` if senders belong to the same channel.
pub(crate) fn same_channel(&self, other: &Self) -> bool {
Arc::ptr_eq(&self.inner, &other.inner)
}
}
impl<T, S: Semaphore> Tx<T, S> {
pub(crate) fn is_closed(&self) -> bool {
self.inner.semaphore.is_closed()
}
pub(crate) async fn closed(&self) {
// In order to avoid a race condition, we first request a notification,
// **then** check whether the semaphore is closed. If the semaphore is
// closed the notification request is dropped.
let notified = self.inner.notify_rx_closed.notified();
if self.inner.semaphore.is_closed() {
return;
}
notified.await;
}
}
impl<T, S> Clone for Tx<T, S> {
fn clone(&self) -> Tx<T, S> {
// Using a Relaxed ordering here is sufficient as the caller holds a
// strong ref to `self`, preventing a concurrent decrement to zero.
self.inner.tx_count.fetch_add(1, Relaxed);
Tx {
inner: self.inner.clone(),
}
}
}
impl<T, S> Drop for Tx<T, S> {
fn drop(&mut self) {
if self.inner.tx_count.fetch_sub(1, AcqRel) != 1 {
return;
}
// Close the list, which sends a `Close` message
self.inner.tx.close();
// Notify the receiver
self.wake_rx();
}
}
// ===== impl Rx =====
impl<T, S: Semaphore> Rx<T, S> {
fn new(chan: Arc<Chan<T, S>>) -> Rx<T, S> {
Rx { inner: chan }
}
pub(crate) fn close(&mut self) {
self.inner.rx_fields.with_mut(|rx_fields_ptr| {
let rx_fields = unsafe { &mut *rx_fields_ptr };
if rx_fields.rx_closed {
return;
}
rx_fields.rx_closed = true;
});
self.inner.semaphore.close();
self.inner.notify_rx_closed.notify_waiters();
}
pub(crate) fn is_closed(&self) -> bool {
// There two internal states that can represent a closed channel
//
// 1. When `close` is called.
// In this case, the inner semaphore will be closed.
//
// 2. When all senders are dropped.
// In this case, the semaphore remains unclosed, and the `index` in the list won't
// reach the tail position. It is necessary to check the list if the last block is
// `closed`.
self.inner.semaphore.is_closed() || self.inner.tx_count.load(Acquire) == 0
}
pub(crate) fn is_empty(&self) -> bool {
self.inner.rx_fields.with(|rx_fields_ptr| {
let rx_fields = unsafe { &*rx_fields_ptr };
rx_fields.list.is_empty(&self.inner.tx)
})
}
pub(crate) fn len(&self) -> usize {
self.inner.rx_fields.with(|rx_fields_ptr| {
let rx_fields = unsafe { &*rx_fields_ptr };
rx_fields.list.len(&self.inner.tx)
})
}
/// Receive the next value
pub(crate) fn recv(&mut self, cx: &mut Context<'_>) -> Poll<Option<T>> {
use super::block::Read;
ready!(crate::trace::trace_leaf(cx));
// Keep track of task budget
let coop = ready!(crate::runtime::coop::poll_proceed(cx));
self.inner.rx_fields.with_mut(|rx_fields_ptr| {
let rx_fields = unsafe { &mut *rx_fields_ptr };
macro_rules! try_recv {
() => {
match rx_fields.list.pop(&self.inner.tx) {
Some(Read::Value(value)) => {
self.inner.semaphore.add_permit();
coop.made_progress();
return Ready(Some(value));
}
Some(Read::Closed) => {
// TODO: This check may not be required as it most
// likely can only return `true` at this point. A
// channel is closed when all tx handles are
// dropped. Dropping a tx handle releases memory,
// which ensures that if dropping the tx handle is
// visible, then all messages sent are also visible.
assert!(self.inner.semaphore.is_idle());
coop.made_progress();
return Ready(None);
}
None => {} // fall through
}
};
}
try_recv!();
self.inner.rx_waker.register_by_ref(cx.waker());
// It is possible that a value was pushed between attempting to read
// and registering the task, so we have to check the channel a
// second time here.
try_recv!();
if rx_fields.rx_closed && self.inner.semaphore.is_idle() {
coop.made_progress();
Ready(None)
} else {
Pending
}
})
}
/// Receives up to `limit` values into `buffer`
///
/// For `limit > 0`, receives up to limit values into `buffer`.
/// For `limit == 0`, immediately returns Ready(0).
pub(crate) fn recv_many(
&mut self,
cx: &mut Context<'_>,
buffer: &mut Vec<T>,
limit: usize,
) -> Poll<usize> {
use super::block::Read;
ready!(crate::trace::trace_leaf(cx));
// Keep track of task budget
let coop = ready!(crate::runtime::coop::poll_proceed(cx));
if limit == 0 {
coop.made_progress();
return Ready(0usize);
}
let mut remaining = limit;
let initial_length = buffer.len();
self.inner.rx_fields.with_mut(|rx_fields_ptr| {
let rx_fields = unsafe { &mut *rx_fields_ptr };
macro_rules! try_recv {
() => {
while remaining > 0 {
match rx_fields.list.pop(&self.inner.tx) {
Some(Read::Value(value)) => {
remaining -= 1;
buffer.push(value);
}
Some(Read::Closed) => {
let number_added = buffer.len() - initial_length;
if number_added > 0 {
self.inner.semaphore.add_permits(number_added);
}
// TODO: This check may not be required as it most
// likely can only return `true` at this point. A
// channel is closed when all tx handles are
// dropped. Dropping a tx handle releases memory,
// which ensures that if dropping the tx handle is
// visible, then all messages sent are also visible.
assert!(self.inner.semaphore.is_idle());
coop.made_progress();
return Ready(number_added);
}
None => {
break; // fall through
}
}
}
let number_added = buffer.len() - initial_length;
if number_added > 0 {
self.inner.semaphore.add_permits(number_added);
coop.made_progress();
return Ready(number_added);
}
};
}
try_recv!();
self.inner.rx_waker.register_by_ref(cx.waker());
// It is possible that a value was pushed between attempting to read
// and registering the task, so we have to check the channel a
// second time here.
try_recv!();
if rx_fields.rx_closed && self.inner.semaphore.is_idle() {
assert!(buffer.is_empty());
coop.made_progress();
Ready(0usize)
} else {
Pending
}
})
}
/// Try to receive the next value.
pub(crate) fn try_recv(&mut self) -> Result<T, TryRecvError> {
use super::list::TryPopResult;
self.inner.rx_fields.with_mut(|rx_fields_ptr| {
let rx_fields = unsafe { &mut *rx_fields_ptr };
macro_rules! try_recv {
() => {
match rx_fields.list.try_pop(&self.inner.tx) {
TryPopResult::Ok(value) => {
self.inner.semaphore.add_permit();
return Ok(value);
}
TryPopResult::Closed => return Err(TryRecvError::Disconnected),
TryPopResult::Empty => return Err(TryRecvError::Empty),
TryPopResult::Busy => {} // fall through
}
};
}
try_recv!();
// If a previous `poll_recv` call has set a waker, we wake it here.
// This allows us to put our own CachedParkThread waker in the
// AtomicWaker slot instead.
//
// This is not a spurious wakeup to `poll_recv` since we just got a
// Busy from `try_pop`, which only happens if there are messages in
// the queue.
self.inner.rx_waker.wake();
// Park the thread until the problematic send has completed.
let mut park = CachedParkThread::new();
let waker = park.waker().unwrap();
loop {
self.inner.rx_waker.register_by_ref(&waker);
// It is possible that the problematic send has now completed,
// so we have to check for messages again.
try_recv!();
park.park();
}
})
}
}
impl<T, S: Semaphore> Drop for Rx<T, S> {
fn drop(&mut self) {
use super::block::Read::Value;
self.close();
self.inner.rx_fields.with_mut(|rx_fields_ptr| {
let rx_fields = unsafe { &mut *rx_fields_ptr };
while let Some(Value(_)) = rx_fields.list.pop(&self.inner.tx) {
self.inner.semaphore.add_permit();
}
});
}
}
// ===== impl Chan =====
impl<T, S> Chan<T, S> {
fn send(&self, value: T) {
// Push the value
self.tx.push(value);
// Notify the rx task
self.rx_waker.wake();
}
pub(super) fn decrement_weak_count(&self) {
self.tx_weak_count.fetch_sub(1, Relaxed);
}
pub(super) fn increment_weak_count(&self) {
self.tx_weak_count.fetch_add(1, Relaxed);
}
pub(super) fn strong_count(&self) -> usize {
self.tx_count.load(Acquire)
}
pub(super) fn weak_count(&self) -> usize {
self.tx_weak_count.load(Relaxed)
}
}
impl<T, S> Drop for Chan<T, S> {
fn drop(&mut self) {
use super::block::Read::Value;
// Safety: the only owner of the rx fields is Chan, and being
// inside its own Drop means we're the last ones to touch it.
self.rx_fields.with_mut(|rx_fields_ptr| {
let rx_fields = unsafe { &mut *rx_fields_ptr };
while let Some(Value(_)) = rx_fields.list.pop(&self.tx) {}
unsafe { rx_fields.list.free_blocks() };
});
}
}
// ===== impl Semaphore for (::Semaphore, capacity) =====
impl Semaphore for bounded::Semaphore {
fn add_permit(&self) {
self.semaphore.release(1);
}
fn add_permits(&self, n: usize) {
self.semaphore.release(n)
}
fn is_idle(&self) -> bool {
self.semaphore.available_permits() == self.bound
}
fn close(&self) {
self.semaphore.close();
}
fn is_closed(&self) -> bool {
self.semaphore.is_closed()
}
}
// ===== impl Semaphore for AtomicUsize =====
impl Semaphore for unbounded::Semaphore {
fn add_permit(&self) {
let prev = self.0.fetch_sub(2, Release);
if prev >> 1 == 0 {
// Something went wrong
process::abort();
}
}
fn add_permits(&self, n: usize) {
let prev = self.0.fetch_sub(n << 1, Release);
if (prev >> 1) < n {
// Something went wrong
process::abort();
}
}
fn is_idle(&self) -> bool {
self.0.load(Acquire) >> 1 == 0
}
fn close(&self) {
self.0.fetch_or(1, Release);
}
fn is_closed(&self) -> bool {
self.0.load(Acquire) & 1 == 1
}
}