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//! Allows a future or stream to execute for a maximum amount of time.
//!
//! See [`Timeout`] documentation for more details.
//!
//! [`Timeout`]: struct.Timeout.html
use clock::now;
use Delay;
use futures::{Async, Future, Poll, Stream};
use std::error;
use std::fmt;
use std::time::{Duration, Instant};
/// Allows a `Future` or `Stream` to execute for a limited amount of time.
///
/// If the future or stream completes before the timeout has expired, then
/// `Timeout` returns the completed value. Otherwise, `Timeout` returns an
/// [`Error`].
///
/// # Futures and Streams
///
/// The exact behavor depends on if the inner value is a `Future` or a `Stream`.
/// In the case of a `Future`, `Timeout` will require the future to complete by
/// a fixed deadline. In the case of a `Stream`, `Timeout` will allow each item
/// to take the entire timeout before returning an error.
///
/// In order to set an upper bound on the processing of the *entire* stream,
/// then a timeout should be set on the future that processes the stream. For
/// example:
///
/// ```rust
/// # extern crate futures;
/// # extern crate tokio;
/// // import the `timeout` function, usually this is done
/// // with `use tokio::prelude::*`
/// use tokio::prelude::FutureExt;
/// use futures::Stream;
/// use futures::sync::mpsc;
/// use std::time::Duration;
///
/// # fn main() {
/// let (tx, rx) = mpsc::unbounded();
/// # tx.unbounded_send(()).unwrap();
/// # drop(tx);
///
/// let process = rx.for_each(|item| {
/// // do something with `item`
/// # drop(item);
/// # Ok(())
/// });
///
/// # tokio::runtime::current_thread::block_on_all(
/// // Wrap the future with a `Timeout` set to expire in 10 milliseconds.
/// process.timeout(Duration::from_millis(10))
/// # ).unwrap();
/// # }
/// ```
///
/// # Cancelation
///
/// Cancelling a `Timeout` is done by dropping the value. No additional cleanup
/// or other work is required.
///
/// The original future or stream may be obtained by calling [`Timeout::into_inner`]. This
/// consumes the `Timeout`.
///
/// [`Error`]: struct.Error.html
/// [`Timeout::into_inner`]: struct.Timeout.html#method.into_iter
#[must_use = "futures do nothing unless polled"]
#[derive(Debug)]
pub struct Timeout<T> {
value: T,
delay: Delay,
}
/// Error returned by `Timeout`.
#[derive(Debug)]
pub struct Error<T>(Kind<T>);
/// Timeout error variants
#[derive(Debug)]
enum Kind<T> {
/// Inner value returned an error
Inner(T),
/// The timeout elapsed.
Elapsed,
/// Timer returned an error.
Timer(::Error),
}
impl<T> Timeout<T> {
/// Create a new `Timeout` that allows `value` to execute for a duration of
/// at most `timeout`.
///
/// The exact behavior depends on if `value` is a `Future` or a `Stream`.
///
/// See [type] level documentation for more details.
///
/// [type]: #
///
/// # Examples
///
/// Create a new `Timeout` set to expire in 10 milliseconds.
///
/// ```rust
/// # extern crate futures;
/// # extern crate tokio;
/// use tokio::timer::Timeout;
/// use futures::Future;
/// use futures::sync::oneshot;
/// use std::time::Duration;
///
/// # fn main() {
/// let (tx, rx) = oneshot::channel();
/// # tx.send(()).unwrap();
///
/// # tokio::runtime::current_thread::block_on_all(
/// // Wrap the future with a `Timeout` set to expire in 10 milliseconds.
/// Timeout::new(rx, Duration::from_millis(10))
/// # ).unwrap();
/// # }
/// ```
pub fn new(value: T, timeout: Duration) -> Timeout<T> {
let delay = Delay::new_timeout(now() + timeout, timeout);
Timeout::new_with_delay(value, delay)
}
pub(crate) fn new_with_delay(value: T, delay: Delay) -> Timeout<T> {
Timeout { value, delay }
}
/// Gets a reference to the underlying value in this timeout.
pub fn get_ref(&self) -> &T {
&self.value
}
/// Gets a mutable reference to the underlying value in this timeout.
pub fn get_mut(&mut self) -> &mut T {
&mut self.value
}
/// Consumes this timeout, returning the underlying value.
pub fn into_inner(self) -> T {
self.value
}
}
impl<T: Future> Timeout<T> {
/// Create a new `Timeout` that completes when `future` completes or when
/// `deadline` is reached.
///
/// This function differs from `new` in that:
///
/// * It only accepts `Future` arguments.
/// * It sets an explicit `Instant` at which the timeout expires.
pub fn new_at(future: T, deadline: Instant) -> Timeout<T> {
let delay = Delay::new(deadline);
Timeout {
value: future,
delay,
}
}
}
impl<T> Future for Timeout<T>
where
T: Future,
{
type Item = T::Item;
type Error = Error<T::Error>;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
// First, try polling the future
match self.value.poll() {
Ok(Async::Ready(v)) => return Ok(Async::Ready(v)),
Ok(Async::NotReady) => {}
Err(e) => return Err(Error::inner(e)),
}
// Now check the timer
match self.delay.poll() {
Ok(Async::NotReady) => Ok(Async::NotReady),
Ok(Async::Ready(_)) => Err(Error::elapsed()),
Err(e) => Err(Error::timer(e)),
}
}
}
impl<T> Stream for Timeout<T>
where
T: Stream,
{
type Item = T::Item;
type Error = Error<T::Error>;
fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
// First, try polling the future
match self.value.poll() {
Ok(Async::Ready(v)) => {
if v.is_some() {
self.delay.reset_timeout();
}
return Ok(Async::Ready(v));
}
Ok(Async::NotReady) => {}
Err(e) => return Err(Error::inner(e)),
}
// Now check the timer
match self.delay.poll() {
Ok(Async::NotReady) => Ok(Async::NotReady),
Ok(Async::Ready(_)) => {
self.delay.reset_timeout();
Err(Error::elapsed())
}
Err(e) => Err(Error::timer(e)),
}
}
}
// ===== impl Error =====
impl<T> Error<T> {
/// Create a new `Error` representing the inner value completing with `Err`.
pub fn inner(err: T) -> Error<T> {
Error(Kind::Inner(err))
}
/// Returns `true` if the error was caused by the inner value completing
/// with `Err`.
pub fn is_inner(&self) -> bool {
match self.0 {
Kind::Inner(_) => true,
_ => false,
}
}
/// Consumes `self`, returning the inner future error.
pub fn into_inner(self) -> Option<T> {
match self.0 {
Kind::Inner(err) => Some(err),
_ => None,
}
}
/// Create a new `Error` representing the inner value not completing before
/// the deadline is reached.
pub fn elapsed() -> Error<T> {
Error(Kind::Elapsed)
}
/// Returns `true` if the error was caused by the inner value not completing
/// before the deadline is reached.
pub fn is_elapsed(&self) -> bool {
match self.0 {
Kind::Elapsed => true,
_ => false,
}
}
/// Creates a new `Error` representing an error encountered by the timer
/// implementation
pub fn timer(err: ::Error) -> Error<T> {
Error(Kind::Timer(err))
}
/// Returns `true` if the error was caused by the timer.
pub fn is_timer(&self) -> bool {
match self.0 {
Kind::Timer(_) => true,
_ => false,
}
}
/// Consumes `self`, returning the error raised by the timer implementation.
pub fn into_timer(self) -> Option<::Error> {
match self.0 {
Kind::Timer(err) => Some(err),
_ => None,
}
}
}
impl<T: error::Error> error::Error for Error<T> {
fn description(&self) -> &str {
use self::Kind::*;
match self.0 {
Inner(ref e) => e.description(),
Elapsed => "deadline has elapsed",
Timer(ref e) => e.description(),
}
}
}
impl<T: fmt::Display> fmt::Display for Error<T> {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
use self::Kind::*;
match self.0 {
Inner(ref e) => e.fmt(fmt),
Elapsed => "deadline has elapsed".fmt(fmt),
Timer(ref e) => e.fmt(fmt),
}
}
}