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mod.rs
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use std::prelude::v1::*;
use std::cell::Cell;
use std::fmt;
use std::marker::PhantomData;
use std::mem;
use std::ptr;
use std::sync::{Arc, Mutex, Condvar, Once};
#[allow(deprecated)]
use std::sync::ONCE_INIT;
use std::sync::atomic::{AtomicUsize, Ordering};
use {Future, Stream, Sink, Poll, Async, StartSend, AsyncSink};
use super::core;
use super::{BorrowedTask, NotifyHandle, Spawn, spawn, Notify, UnsafeNotify};
mod unpark_mutex;
pub use self::unpark_mutex::UnparkMutex;
mod data;
pub use self::data::*;
mod task_rc;
#[allow(deprecated)]
#[cfg(feature = "with-deprecated")]
pub use self::task_rc::TaskRc;
pub use task_impl::core::init;
thread_local!(static CURRENT_TASK: Cell<*mut u8> = Cell::new(ptr::null_mut()));
/// Return whether the caller is running in a task (and so can use task_local!).
pub fn is_in_task() -> bool {
CURRENT_TASK.with(|task| !task.get().is_null())
}
#[allow(deprecated)]
static INIT: Once = ONCE_INIT;
pub fn get_ptr() -> Option<*mut u8> {
// Since this condition will always return true when TLS task storage is
// used (the default), the branch predictor will be able to optimize the
// branching and a dynamic dispatch will be avoided, which makes the
// compiler happier.
if core::is_get_ptr(0x1) {
Some(CURRENT_TASK.with(|c| c.get()))
} else {
core::get_ptr()
}
}
fn tls_slot() -> *const Cell<*mut u8> {
CURRENT_TASK.with(|c| c as *const _)
}
pub fn set<'a, F, R>(task: &BorrowedTask<'a>, f: F) -> R
where F: FnOnce() -> R
{
// Lazily initialize the get / set ptrs
//
// Note that we won't actually use these functions ever, we'll instead be
// testing the pointer's value elsewhere and calling our own functions.
INIT.call_once(|| unsafe {
let get = mem::transmute::<usize, _>(0x1);
let set = mem::transmute::<usize, _>(0x2);
init(get, set);
});
// Same as above.
if core::is_get_ptr(0x1) {
struct Reset(*const Cell<*mut u8>, *mut u8);
impl Drop for Reset {
#[inline]
fn drop(&mut self) {
unsafe {
(*self.0).set(self.1);
}
}
}
unsafe {
let slot = tls_slot();
let _reset = Reset(slot, (*slot).get());
(*slot).set(task as *const _ as *mut u8);
f()
}
} else {
core::set(task, f)
}
}
#[derive(Copy, Clone)]
#[allow(deprecated)]
pub enum BorrowedUnpark<'a> {
Old(&'a Arc<Unpark>),
New(core::BorrowedUnpark<'a>),
}
#[derive(Copy, Clone)]
#[allow(deprecated)]
pub enum BorrowedEvents<'a> {
None,
One(&'a UnparkEvent, &'a BorrowedEvents<'a>),
}
#[derive(Clone)]
pub enum TaskUnpark {
#[allow(deprecated)]
Old(Arc<Unpark>),
New(core::TaskUnpark),
}
#[derive(Clone)]
#[allow(deprecated)]
pub enum UnparkEvents {
None,
One(UnparkEvent),
Many(Box<[UnparkEvent]>),
}
impl<'a> BorrowedUnpark<'a> {
#[inline]
pub fn new(f: &'a Fn() -> NotifyHandle, id: usize) -> BorrowedUnpark<'a> {
BorrowedUnpark::New(core::BorrowedUnpark::new(f, id))
}
#[inline]
pub fn to_owned(&self) -> TaskUnpark {
match *self {
BorrowedUnpark::Old(old) => TaskUnpark::Old(old.clone()),
BorrowedUnpark::New(new) => TaskUnpark::New(new.to_owned()),
}
}
}
impl<'a> BorrowedEvents<'a> {
#[inline]
pub fn new() -> BorrowedEvents<'a> {
BorrowedEvents::None
}
#[inline]
pub fn to_owned(&self) -> UnparkEvents {
let mut one_event = None;
let mut list = Vec::new();
let mut cur = self;
while let BorrowedEvents::One(event, next) = *cur {
let event = event.clone();
match one_event.take() {
None if list.len() == 0 => one_event = Some(event),
None => list.push(event),
Some(event2) => {
list.push(event2);
list.push(event);
}
}
cur = next;
}
match one_event {
None if list.len() == 0 => UnparkEvents::None,
None => UnparkEvents::Many(list.into_boxed_slice()),
Some(e) => UnparkEvents::One(e),
}
}
}
impl UnparkEvents {
pub fn notify(&self) {
match *self {
UnparkEvents::None => {}
UnparkEvents::One(ref e) => e.unpark(),
UnparkEvents::Many(ref list) => {
for event in list.iter() {
event.unpark();
}
}
}
}
pub fn will_notify(&self, events: &BorrowedEvents) -> bool {
// Pessimistically assume that any unpark events mean that we're not
// equivalent to the current task.
match *self {
UnparkEvents::None => {}
_ => return false,
}
match *events {
BorrowedEvents::None => return true,
_ => {},
}
return false
}
}
#[allow(deprecated)]
impl TaskUnpark {
pub fn notify(&self) {
match *self {
TaskUnpark::Old(ref old) => old.unpark(),
TaskUnpark::New(ref new) => new.notify(),
}
}
pub fn will_notify(&self, unpark: &BorrowedUnpark) -> bool {
match (unpark, self) {
(&BorrowedUnpark::Old(old1), &TaskUnpark::Old(ref old2)) => {
&**old1 as *const Unpark == &**old2 as *const Unpark
}
(&BorrowedUnpark::New(ref new1), &TaskUnpark::New(ref new2)) => {
new2.will_notify(new1)
}
_ => false,
}
}
}
impl<F: Future> Spawn<F> {
#[doc(hidden)]
#[deprecated(note = "recommended to use `poll_future_notify` instead")]
#[allow(deprecated)]
pub fn poll_future(&mut self, unpark: Arc<Unpark>) -> Poll<F::Item, F::Error> {
self.enter(BorrowedUnpark::Old(&unpark), |f| f.poll())
}
/// Waits for the internal future to complete, blocking this thread's
/// execution until it does.
///
/// This function will call `poll_future` in a loop, waiting for the future
/// to complete. When a future cannot make progress it will use
/// `thread::park` to block the current thread.
pub fn wait_future(&mut self) -> Result<F::Item, F::Error> {
ThreadNotify::with_current(|notify| {
loop {
match self.poll_future_notify(notify, 0)? {
Async::NotReady => notify.park(),
Async::Ready(e) => return Ok(e),
}
}
})
}
#[doc(hidden)]
#[deprecated]
#[allow(deprecated)]
pub fn execute(self, exec: Arc<Executor>)
where F: Future<Item=(), Error=()> + Send + 'static,
{
exec.clone().execute(Run {
// Ideally this method would be defined directly on
// `Spawn<BoxFuture<(), ()>>` so we wouldn't have to box here and
// it'd be more explicit, but unfortunately that currently has a
// link error on nightly: rust-lang/rust#36155
spawn: spawn(Box::new(self.into_inner())),
inner: Arc::new(RunInner {
exec: exec,
mutex: UnparkMutex::new()
}),
})
}
}
impl<S: Stream> Spawn<S> {
#[deprecated(note = "recommended to use `poll_stream_notify` instead")]
#[allow(deprecated)]
#[doc(hidden)]
pub fn poll_stream(&mut self, unpark: Arc<Unpark>)
-> Poll<Option<S::Item>, S::Error> {
self.enter(BorrowedUnpark::Old(&unpark), |s| s.poll())
}
/// Like `wait_future`, except only waits for the next element to arrive on
/// the underlying stream.
pub fn wait_stream(&mut self) -> Option<Result<S::Item, S::Error>> {
ThreadNotify::with_current(|notify| {
loop {
match self.poll_stream_notify(notify, 0) {
Ok(Async::NotReady) => notify.park(),
Ok(Async::Ready(Some(e))) => return Some(Ok(e)),
Ok(Async::Ready(None)) => return None,
Err(e) => return Some(Err(e)),
}
}
})
}
}
impl<S: Sink> Spawn<S> {
#[doc(hidden)]
#[deprecated(note = "recommended to use `start_send_notify` instead")]
#[allow(deprecated)]
pub fn start_send(&mut self, value: S::SinkItem, unpark: &Arc<Unpark>)
-> StartSend<S::SinkItem, S::SinkError> {
self.enter(BorrowedUnpark::Old(unpark), |s| s.start_send(value))
}
#[deprecated(note = "recommended to use `poll_flush_notify` instead")]
#[allow(deprecated)]
#[doc(hidden)]
pub fn poll_flush(&mut self, unpark: &Arc<Unpark>)
-> Poll<(), S::SinkError> {
self.enter(BorrowedUnpark::Old(unpark), |s| s.poll_complete())
}
/// Blocks the current thread until it's able to send `value` on this sink.
///
/// This function will send the `value` on the sink that this task wraps. If
/// the sink is not ready to send the value yet then the current thread will
/// be blocked until it's able to send the value.
pub fn wait_send(&mut self, mut value: S::SinkItem)
-> Result<(), S::SinkError> {
ThreadNotify::with_current(|notify| {
loop {
value = match self.start_send_notify(value, notify, 0)? {
AsyncSink::NotReady(v) => v,
AsyncSink::Ready => return Ok(()),
};
notify.park();
}
})
}
/// Blocks the current thread until it's able to flush this sink.
///
/// This function will call the underlying sink's `poll_complete` method
/// until it returns that it's ready, proxying out errors upwards to the
/// caller if one occurs.
///
/// The thread will be blocked until `poll_complete` returns that it's
/// ready.
pub fn wait_flush(&mut self) -> Result<(), S::SinkError> {
ThreadNotify::with_current(|notify| {
loop {
if self.poll_flush_notify(notify, 0)?.is_ready() {
return Ok(())
}
notify.park();
}
})
}
/// Blocks the current thread until it's able to close this sink.
///
/// This function will close the sink that this task wraps. If the sink
/// is not ready to be close yet, then the current thread will be blocked
/// until it's closed.
pub fn wait_close(&mut self) -> Result<(), S::SinkError> {
ThreadNotify::with_current(|notify| {
loop {
if self.close_notify(notify, 0)?.is_ready() {
return Ok(())
}
notify.park();
}
})
}
}
/// A trait which represents a sink of notifications that a future is ready to
/// make progress.
///
/// This trait is provided as an argument to the `Spawn::poll_future` and
/// `Spawn::poll_stream` functions. It's transitively used as part of the
/// `Task::unpark` method to internally deliver notifications of readiness of a
/// future to move forward.
#[deprecated(note = "recommended to use `Notify` instead")]
pub trait Unpark: Send + Sync {
/// Indicates that an associated future and/or task are ready to make
/// progress.
///
/// Typically this means that the receiver of the notification should
/// arrange for the future to get poll'd in a prompt fashion.
fn unpark(&self);
}
/// A trait representing requests to poll futures.
///
/// This trait is an argument to the `Spawn::execute` which is used to run a
/// future to completion. An executor will receive requests to run a future and
/// an executor is responsible for ensuring that happens in a timely fashion.
///
/// Note that this trait is likely to be deprecated and/or renamed to avoid
/// clashing with the `future::Executor` trait. If you've got a use case for
/// this or would like to comment on the name please let us know!
#[deprecated]
#[allow(deprecated)]
pub trait Executor: Send + Sync + 'static {
/// Requests that `Run` is executed soon on the given executor.
fn execute(&self, r: Run);
}
/// Units of work submitted to an `Executor`, currently only created
/// internally.
#[deprecated]
pub struct Run {
spawn: Spawn<Box<Future<Item = (), Error = ()> + Send>>,
inner: Arc<RunInner>,
}
#[allow(deprecated)]
struct RunInner {
mutex: UnparkMutex<Run>,
exec: Arc<Executor>,
}
#[allow(deprecated)]
impl Run {
/// Actually run the task (invoking `poll` on its future) on the current
/// thread.
pub fn run(self) {
let Run { mut spawn, inner } = self;
// SAFETY: the ownership of this `Run` object is evidence that
// we are in the `POLLING`/`REPOLL` state for the mutex.
unsafe {
inner.mutex.start_poll();
loop {
match spawn.poll_future_notify(&inner, 0) {
Ok(Async::NotReady) => {}
Ok(Async::Ready(())) |
Err(()) => return inner.mutex.complete(),
}
let run = Run { spawn: spawn, inner: inner.clone() };
match inner.mutex.wait(run) {
Ok(()) => return, // we've waited
Err(r) => spawn = r.spawn, // someone's notified us
}
}
}
}
}
#[allow(deprecated)]
impl fmt::Debug for Run {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("Run")
.field("contents", &"...")
.finish()
}
}
#[allow(deprecated)]
impl Notify for RunInner {
fn notify(&self, _id: usize) {
match self.mutex.notify() {
Ok(run) => self.exec.execute(run),
Err(()) => {}
}
}
}
// ===== ThreadNotify =====
struct ThreadNotify {
state: AtomicUsize,
mutex: Mutex<()>,
condvar: Condvar,
}
const IDLE: usize = 0;
const NOTIFY: usize = 1;
const SLEEP: usize = 2;
thread_local! {
static CURRENT_THREAD_NOTIFY: Arc<ThreadNotify> = Arc::new(ThreadNotify {
state: AtomicUsize::new(IDLE),
mutex: Mutex::new(()),
condvar: Condvar::new(),
});
}
impl ThreadNotify {
fn with_current<F, R>(f: F) -> R
where F: FnOnce(&Arc<ThreadNotify>) -> R,
{
CURRENT_THREAD_NOTIFY.with(|notify| f(notify))
}
fn park(&self) {
// If currently notified, then we skip sleeping. This is checked outside
// of the lock to avoid acquiring a mutex if not necessary.
match self.state.compare_and_swap(NOTIFY, IDLE, Ordering::SeqCst) {
NOTIFY => return,
IDLE => {},
_ => unreachable!(),
}
// The state is currently idle, so obtain the lock and then try to
// transition to a sleeping state.
let mut m = self.mutex.lock().unwrap();
// Transition to sleeping
match self.state.compare_and_swap(IDLE, SLEEP, Ordering::SeqCst) {
NOTIFY => {
// Notified before we could sleep, consume the notification and
// exit
self.state.store(IDLE, Ordering::SeqCst);
return;
}
IDLE => {},
_ => unreachable!(),
}
// Loop until we've been notified
loop {
m = self.condvar.wait(m).unwrap();
// Transition back to idle, loop otherwise
if NOTIFY == self.state.compare_and_swap(NOTIFY, IDLE, Ordering::SeqCst) {
return;
}
}
}
}
impl Notify for ThreadNotify {
fn notify(&self, _unpark_id: usize) {
// First, try transitioning from IDLE -> NOTIFY, this does not require a
// lock.
match self.state.compare_and_swap(IDLE, NOTIFY, Ordering::SeqCst) {
IDLE | NOTIFY => return,
SLEEP => {}
_ => unreachable!(),
}
// The other half is sleeping, this requires a lock
let _m = self.mutex.lock().unwrap();
// Transition from SLEEP -> NOTIFY
match self.state.compare_and_swap(SLEEP, NOTIFY, Ordering::SeqCst) {
SLEEP => {}
_ => return,
}
// Wakeup the sleeper
self.condvar.notify_one();
}
}
// ===== UnparkEvent =====
/// For the duration of the given callback, add an "unpark event" to be
/// triggered when the task handle is used to unpark the task.
///
/// Unpark events are used to pass information about what event caused a task to
/// be unparked. In some cases, tasks are waiting on a large number of possible
/// events, and need precise information about the wakeup to avoid extraneous
/// polling.
///
/// Every `Task` handle comes with a set of unpark events which will fire when
/// `unpark` is called. When fired, these events insert an identifier into a
/// concurrent set, which the task can read from to determine what events
/// occurred.
///
/// This function immediately invokes the closure, `f`, but arranges things so
/// that `task::park` will produce a `Task` handle that includes the given
/// unpark event.
///
/// # Panics
///
/// This function will panic if a task is not currently being executed. That
/// is, this method can be dangerous to call outside of an implementation of
/// `poll`.
#[deprecated(note = "recommended to use `FuturesUnordered` instead")]
#[allow(deprecated)]
pub fn with_unpark_event<F, R>(event: UnparkEvent, f: F) -> R
where F: FnOnce() -> R
{
super::with(|task| {
let new_task = BorrowedTask {
id: task.id,
unpark: task.unpark,
events: BorrowedEvents::One(&event, &task.events),
map: task.map,
};
super::set(&new_task, f)
})
}
/// A set insertion to trigger upon `unpark`.
///
/// Unpark events are used to communicate information about *why* an unpark
/// occurred, in particular populating sets with event identifiers so that the
/// unparked task can avoid extraneous polling. See `with_unpark_event` for
/// more.
#[derive(Clone)]
#[deprecated(note = "recommended to use `FuturesUnordered` instead")]
#[allow(deprecated)]
pub struct UnparkEvent {
set: Arc<EventSet>,
item: usize,
}
#[allow(deprecated)]
impl UnparkEvent {
/// Construct an unpark event that will insert `id` into `set` when
/// triggered.
#[deprecated(note = "recommended to use `FuturesUnordered` instead")]
pub fn new(set: Arc<EventSet>, id: usize) -> UnparkEvent {
UnparkEvent {
set: set,
item: id,
}
}
fn unpark(&self) {
self.set.insert(self.item);
}
}
#[allow(deprecated)]
impl fmt::Debug for UnparkEvent {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("UnparkEvent")
.field("set", &"...")
.field("item", &self.item)
.finish()
}
}
/// A concurrent set which allows for the insertion of `usize` values.
///
/// `EventSet`s are used to communicate precise information about the event(s)
/// that triggered a task notification. See `task::with_unpark_event` for details.
#[deprecated(since="0.1.18", note = "recommended to use `FuturesUnordered` instead")]
pub trait EventSet: Send + Sync + 'static {
/// Insert the given ID into the set
fn insert(&self, id: usize);
}
// Safe implementation of `UnsafeNotify` for `Arc` in the standard library.
//
// Note that this is a very unsafe implementation! The crucial pieces is that
// these two values are considered equivalent:
//
// * Arc<T>
// * *const ArcWrapped<T>
//
// We don't actually know the layout of `ArcWrapped<T>` as it's an
// implementation detail in the standard library. We can work, though, by
// casting it through and back an `Arc<T>`.
//
// This also means that you won't actually fine `UnsafeNotify for Arc<T>`
// because it's the wrong level of indirection. These methods are sort of
// receiving Arc<T>, but not an owned version. It's... complicated. We may be
// one of the first users of unsafe trait objects!
struct ArcWrapped<T>(PhantomData<T>);
impl<T: Notify + 'static> Notify for ArcWrapped<T> {
fn notify(&self, id: usize) {
unsafe {
let me: *const ArcWrapped<T> = self;
T::notify(&*(&me as *const *const ArcWrapped<T> as *const Arc<T>),
id)
}
}
fn clone_id(&self, id: usize) -> usize {
unsafe {
let me: *const ArcWrapped<T> = self;
T::clone_id(&*(&me as *const *const ArcWrapped<T> as *const Arc<T>),
id)
}
}
fn drop_id(&self, id: usize) {
unsafe {
let me: *const ArcWrapped<T> = self;
T::drop_id(&*(&me as *const *const ArcWrapped<T> as *const Arc<T>),
id)
}
}
}
unsafe impl<T: Notify + 'static> UnsafeNotify for ArcWrapped<T> {
unsafe fn clone_raw(&self) -> NotifyHandle {
let me: *const ArcWrapped<T> = self;
let arc = (*(&me as *const *const ArcWrapped<T> as *const Arc<T>)).clone();
NotifyHandle::from(arc)
}
unsafe fn drop_raw(&self) {
let mut me: *const ArcWrapped<T> = self;
let me = &mut me as *mut *const ArcWrapped<T> as *mut Arc<T>;
ptr::drop_in_place(me);
}
}
impl<T> From<Arc<T>> for NotifyHandle
where T: Notify + 'static,
{
fn from(rc: Arc<T>) -> NotifyHandle {
unsafe {
let ptr = mem::transmute::<Arc<T>, *mut ArcWrapped<T>>(rc);
NotifyHandle::new(ptr)
}
}
}
#[cfg(feature = "nightly")]
mod nightly {
use super::{TaskUnpark, UnparkEvents};
use core::marker::Unpin;
impl Unpin for TaskUnpark {}
impl Unpin for UnparkEvents {}
}