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use super::{ReadyEvent, Tick};
use crate::io::interest::Interest;
use crate::io::ready::Ready;
use crate::loom::sync::atomic::AtomicUsize;
use crate::loom::sync::Mutex;
use crate::util::bit;
use crate::util::slab::Entry;
use crate::util::WakeList;
use std::sync::atomic::Ordering::{AcqRel, Acquire, Release};
use std::task::{Context, Poll, Waker};
use super::Direction;
cfg_io_readiness! {
use crate::util::linked_list::{self, LinkedList};
use std::cell::UnsafeCell;
use std::future::Future;
use std::marker::PhantomPinned;
use std::pin::Pin;
use std::ptr::NonNull;
}
/// Stored in the I/O driver resource slab.
#[derive(Debug)]
pub(crate) struct ScheduledIo {
/// Packs the resource's readiness with the resource's generation.
readiness: AtomicUsize,
waiters: Mutex<Waiters>,
}
cfg_io_readiness! {
type WaitList = LinkedList<Waiter, <Waiter as linked_list::Link>::Target>;
}
#[derive(Debug, Default)]
struct Waiters {
#[cfg(feature = "net")]
/// List of all current waiters.
list: WaitList,
/// Waker used for AsyncRead.
reader: Option<Waker>,
/// Waker used for AsyncWrite.
writer: Option<Waker>,
}
cfg_io_readiness! {
#[derive(Debug)]
struct Waiter {
pointers: linked_list::Pointers<Waiter>,
/// The waker for this task.
waker: Option<Waker>,
/// The interest this waiter is waiting on.
interest: Interest,
is_ready: bool,
/// Should never be `!Unpin`.
_p: PhantomPinned,
}
generate_addr_of_methods! {
impl<> Waiter {
unsafe fn addr_of_pointers(self: NonNull<Self>) -> NonNull<linked_list::Pointers<Waiter>> {
&self.pointers
}
}
}
/// Future returned by `readiness()`.
struct Readiness<'a> {
scheduled_io: &'a ScheduledIo,
state: State,
/// Entry in the waiter `LinkedList`.
waiter: UnsafeCell<Waiter>,
}
enum State {
Init,
Waiting,
Done,
}
}
// The `ScheduledIo::readiness` (`AtomicUsize`) is packed full of goodness.
//
// | shutdown | generation | driver tick | readiness |
// |----------+------------+--------------+-----------|
// | 1 bit | 7 bits + 8 bits + 16 bits |
const READINESS: bit::Pack = bit::Pack::least_significant(16);
const TICK: bit::Pack = READINESS.then(8);
const GENERATION: bit::Pack = TICK.then(7);
const SHUTDOWN: bit::Pack = GENERATION.then(1);
#[test]
fn test_generations_assert_same() {
assert_eq!(super::GENERATION, GENERATION);
}
// ===== impl ScheduledIo =====
impl Entry for ScheduledIo {
fn reset(&self) {
let state = self.readiness.load(Acquire);
let generation = GENERATION.unpack(state);
let next = GENERATION.pack_lossy(generation + 1, 0);
self.readiness.store(next, Release);
}
}
impl Default for ScheduledIo {
fn default() -> ScheduledIo {
ScheduledIo {
readiness: AtomicUsize::new(0),
waiters: Mutex::new(Default::default()),
}
}
}
impl ScheduledIo {
pub(crate) fn generation(&self) -> usize {
GENERATION.unpack(self.readiness.load(Acquire))
}
/// Invoked when the IO driver is shut down; forces this ScheduledIo into a
/// permanently shutdown state.
pub(super) fn shutdown(&self) {
let mask = SHUTDOWN.pack(1, 0);
self.readiness.fetch_or(mask, AcqRel);
self.wake(Ready::ALL);
}
/// Sets the readiness on this `ScheduledIo` by invoking the given closure on
/// the current value, returning the previous readiness value.
///
/// # Arguments
/// - `token`: the token for this `ScheduledIo`.
/// - `tick`: whether setting the tick or trying to clear readiness for a
/// specific tick.
/// - `f`: a closure returning a new readiness value given the previous
/// readiness.
///
/// # Returns
///
/// If the given token's generation no longer matches the `ScheduledIo`'s
/// generation, then the corresponding IO resource has been removed and
/// replaced with a new resource. In that case, this method returns `Err`.
/// Otherwise, this returns the previous readiness.
pub(super) fn set_readiness(
&self,
token: Option<usize>,
tick: Tick,
f: impl Fn(Ready) -> Ready,
) -> Result<(), ()> {
let mut current = self.readiness.load(Acquire);
loop {
let current_generation = GENERATION.unpack(current);
if let Some(token) = token {
// Check that the generation for this access is still the
// current one.
if GENERATION.unpack(token) != current_generation {
return Err(());
}
}
// Mask out the tick/generation bits so that the modifying
// function doesn't see them.
let current_readiness = Ready::from_usize(current);
let new = f(current_readiness);
let packed = match tick {
Tick::Set(t) => TICK.pack(t as usize, new.as_usize()),
Tick::Clear(t) => {
if TICK.unpack(current) as u8 != t {
// Trying to clear readiness with an old event!
return Err(());
}
TICK.pack(t as usize, new.as_usize())
}
};
let next = GENERATION.pack(current_generation, packed);
match self
.readiness
.compare_exchange(current, next, AcqRel, Acquire)
{
Ok(_) => return Ok(()),
// we lost the race, retry!
Err(actual) => current = actual,
}
}
}
/// Notifies all pending waiters that have registered interest in `ready`.
///
/// There may be many waiters to notify. Waking the pending task **must** be
/// done from outside of the lock otherwise there is a potential for a
/// deadlock.
///
/// A stack array of wakers is created and filled with wakers to notify, the
/// lock is released, and the wakers are notified. Because there may be more
/// than 32 wakers to notify, if the stack array fills up, the lock is
/// released, the array is cleared, and the iteration continues.
pub(super) fn wake(&self, ready: Ready) {
let mut wakers = WakeList::new();
let mut waiters = self.waiters.lock();
// check for AsyncRead slot
if ready.is_readable() {
if let Some(waker) = waiters.reader.take() {
wakers.push(waker);
}
}
// check for AsyncWrite slot
if ready.is_writable() {
if let Some(waker) = waiters.writer.take() {
wakers.push(waker);
}
}
#[cfg(feature = "net")]
'outer: loop {
let mut iter = waiters.list.drain_filter(|w| ready.satisfies(w.interest));
while wakers.can_push() {
match iter.next() {
Some(waiter) => {
let waiter = unsafe { &mut *waiter.as_ptr() };
if let Some(waker) = waiter.waker.take() {
waiter.is_ready = true;
wakers.push(waker);
}
}
None => {
break 'outer;
}
}
}
drop(waiters);
wakers.wake_all();
// Acquire the lock again.
waiters = self.waiters.lock();
}
// Release the lock before notifying
drop(waiters);
wakers.wake_all();
}
pub(super) fn ready_event(&self, interest: Interest) -> ReadyEvent {
let curr = self.readiness.load(Acquire);
ReadyEvent {
tick: TICK.unpack(curr) as u8,
ready: interest.mask() & Ready::from_usize(READINESS.unpack(curr)),
is_shutdown: SHUTDOWN.unpack(curr) != 0,
}
}
/// Polls for readiness events in a given direction.
///
/// These are to support `AsyncRead` and `AsyncWrite` polling methods,
/// which cannot use the `async fn` version. This uses reserved reader
/// and writer slots.
pub(super) fn poll_readiness(
&self,
cx: &mut Context<'_>,
direction: Direction,
) -> Poll<ReadyEvent> {
let curr = self.readiness.load(Acquire);
let ready = direction.mask() & Ready::from_usize(READINESS.unpack(curr));
let is_shutdown = SHUTDOWN.unpack(curr) != 0;
if ready.is_empty() && !is_shutdown {
// Update the task info
let mut waiters = self.waiters.lock();
let slot = match direction {
Direction::Read => &mut waiters.reader,
Direction::Write => &mut waiters.writer,
};
// Avoid cloning the waker if one is already stored that matches the
// current task.
match slot {
Some(existing) => {
if !existing.will_wake(cx.waker()) {
*existing = cx.waker().clone();
}
}
None => {
*slot = Some(cx.waker().clone());
}
}
// Try again, in case the readiness was changed while we were
// taking the waiters lock
let curr = self.readiness.load(Acquire);
let ready = direction.mask() & Ready::from_usize(READINESS.unpack(curr));
let is_shutdown = SHUTDOWN.unpack(curr) != 0;
if is_shutdown {
Poll::Ready(ReadyEvent {
tick: TICK.unpack(curr) as u8,
ready: direction.mask(),
is_shutdown,
})
} else if ready.is_empty() {
Poll::Pending
} else {
Poll::Ready(ReadyEvent {
tick: TICK.unpack(curr) as u8,
ready,
is_shutdown,
})
}
} else {
Poll::Ready(ReadyEvent {
tick: TICK.unpack(curr) as u8,
ready,
is_shutdown,
})
}
}
pub(crate) fn clear_readiness(&self, event: ReadyEvent) {
// This consumes the current readiness state **except** for closed
// states. Closed states are excluded because they are final states.
let mask_no_closed = event.ready - Ready::READ_CLOSED - Ready::WRITE_CLOSED;
// result isn't important
let _ = self.set_readiness(None, Tick::Clear(event.tick), |curr| curr - mask_no_closed);
}
pub(crate) fn clear_wakers(&self) {
let mut waiters = self.waiters.lock();
waiters.reader.take();
waiters.writer.take();
}
}
impl Drop for ScheduledIo {
fn drop(&mut self) {
self.wake(Ready::ALL);
}
}
unsafe impl Send for ScheduledIo {}
unsafe impl Sync for ScheduledIo {}
cfg_io_readiness! {
impl ScheduledIo {
/// An async version of `poll_readiness` which uses a linked list of wakers.
pub(crate) async fn readiness(&self, interest: Interest) -> ReadyEvent {
self.readiness_fut(interest).await
}
// This is in a separate function so that the borrow checker doesn't think
// we are borrowing the `UnsafeCell` possibly over await boundaries.
//
// Go figure.
fn readiness_fut(&self, interest: Interest) -> Readiness<'_> {
Readiness {
scheduled_io: self,
state: State::Init,
waiter: UnsafeCell::new(Waiter {
pointers: linked_list::Pointers::new(),
waker: None,
is_ready: false,
interest,
_p: PhantomPinned,
}),
}
}
}
unsafe impl linked_list::Link for Waiter {
type Handle = NonNull<Waiter>;
type Target = Waiter;
fn as_raw(handle: &NonNull<Waiter>) -> NonNull<Waiter> {
*handle
}
unsafe fn from_raw(ptr: NonNull<Waiter>) -> NonNull<Waiter> {
ptr
}
unsafe fn pointers(target: NonNull<Waiter>) -> NonNull<linked_list::Pointers<Waiter>> {
Waiter::addr_of_pointers(target)
}
}
// ===== impl Readiness =====
impl Future for Readiness<'_> {
type Output = ReadyEvent;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
use std::sync::atomic::Ordering::SeqCst;
let (scheduled_io, state, waiter) = unsafe {
let me = self.get_unchecked_mut();
(&me.scheduled_io, &mut me.state, &me.waiter)
};
loop {
match *state {
State::Init => {
// Optimistically check existing readiness
let curr = scheduled_io.readiness.load(SeqCst);
let ready = Ready::from_usize(READINESS.unpack(curr));
let is_shutdown = SHUTDOWN.unpack(curr) != 0;
// Safety: `waiter.interest` never changes
let interest = unsafe { (*waiter.get()).interest };
let ready = ready.intersection(interest);
if !ready.is_empty() || is_shutdown {
// Currently ready!
let tick = TICK.unpack(curr) as u8;
*state = State::Done;
return Poll::Ready(ReadyEvent { tick, ready, is_shutdown });
}
// Wasn't ready, take the lock (and check again while locked).
let mut waiters = scheduled_io.waiters.lock();
let curr = scheduled_io.readiness.load(SeqCst);
let mut ready = Ready::from_usize(READINESS.unpack(curr));
let is_shutdown = SHUTDOWN.unpack(curr) != 0;
if is_shutdown {
ready = Ready::ALL;
}
let ready = ready.intersection(interest);
if !ready.is_empty() || is_shutdown {
// Currently ready!
let tick = TICK.unpack(curr) as u8;
*state = State::Done;
return Poll::Ready(ReadyEvent { tick, ready, is_shutdown });
}
// Not ready even after locked, insert into list...
// Safety: called while locked
unsafe {
(*waiter.get()).waker = Some(cx.waker().clone());
}
// Insert the waiter into the linked list
//
// safety: pointers from `UnsafeCell` are never null.
waiters
.list
.push_front(unsafe { NonNull::new_unchecked(waiter.get()) });
*state = State::Waiting;
}
State::Waiting => {
// Currently in the "Waiting" state, implying the caller has
// a waiter stored in the waiter list (guarded by
// `notify.waiters`). In order to access the waker fields,
// we must hold the lock.
let waiters = scheduled_io.waiters.lock();
// Safety: called while locked
let w = unsafe { &mut *waiter.get() };
if w.is_ready {
// Our waker has been notified.
*state = State::Done;
} else {
// Update the waker, if necessary.
if !w.waker.as_ref().unwrap().will_wake(cx.waker()) {
w.waker = Some(cx.waker().clone());
}
return Poll::Pending;
}
// Explicit drop of the lock to indicate the scope that the
// lock is held. Because holding the lock is required to
// ensure safe access to fields not held within the lock, it
// is helpful to visualize the scope of the critical
// section.
drop(waiters);
}
State::Done => {
// Safety: State::Done means it is no longer shared
let w = unsafe { &mut *waiter.get() };
let curr = scheduled_io.readiness.load(Acquire);
let is_shutdown = SHUTDOWN.unpack(curr) != 0;
// The returned tick might be newer than the event
// which notified our waker. This is ok because the future
// still didn't return `Poll::Ready`.
let tick = TICK.unpack(curr) as u8;
// The readiness state could have been cleared in the meantime,
// but we allow the returned ready set to be empty.
let curr_ready = Ready::from_usize(READINESS.unpack(curr));
let ready = curr_ready.intersection(w.interest);
return Poll::Ready(ReadyEvent {
tick,
ready,
is_shutdown,
});
}
}
}
}
}
impl Drop for Readiness<'_> {
fn drop(&mut self) {
let mut waiters = self.scheduled_io.waiters.lock();
// Safety: `waiter` is only ever stored in `waiters`
unsafe {
waiters
.list
.remove(NonNull::new_unchecked(self.waiter.get()))
};
}
}
unsafe impl Send for Readiness<'_> {}
unsafe impl Sync for Readiness<'_> {}
}