vendor/reqwest/src/blocking/wait.rs - toolchain/rustc - Git at Google

 use std::future::Future;
 use std::sync::Arc;
 use std::task::{Context, Poll};
 use std::thread::{self, Thread};
 use std::time::Duration;

 use tokio::time::Instant;

 pub(crate) fn timeout<F, I, E>(fut: F, timeout: Option<Duration>) -> Result<I, Waited<E>>
 where
     F: Future<Output = Result<I, E>>,
 {
     enter();

     let deadline = timeout.map(|d| {
         log::trace!("wait at most {:?}", d);
         Instant::now() + d
     });

     let thread = ThreadWaker(thread::current());
     // Arc shouldn't be necessary, since `Thread` is reference counted internally,
     // but let's just stay safe for now.
     let waker = futures_util::task::waker(Arc::new(thread));
     let mut cx = Context::from_waker(&waker);

     futures_util::pin_mut!(fut);

     loop {
         match fut.as_mut().poll(&mut cx) {
             Poll::Ready(Ok(val)) => return Ok(val),
             Poll::Ready(Err(err)) => return Err(Waited::Inner(err)),
             Poll::Pending => (), // fallthrough
         }

         if let Some(deadline) = deadline {
             let now = Instant::now();
             if now >= deadline {
                 log::trace!("wait timeout exceeded");
                 return Err(Waited::TimedOut(crate::error::TimedOut));
             }

             log::trace!(
                 "({:?}) park timeout {:?}",
                 thread::current().id(),
                 deadline - now
             );
             thread::park_timeout(deadline - now);
         } else {
             log::trace!("({:?}) park without timeout", thread::current().id());
             thread::park();
         }
     }
 }

 #[derive(Debug)]
 pub(crate) enum Waited<E> {
     TimedOut(crate::error::TimedOut),
     Inner(E),
 }

 struct ThreadWaker(Thread);

 impl futures_util::task::ArcWake for ThreadWaker {
     fn wake_by_ref(arc_self: &Arc<Self>) {
         arc_self.0.unpark();
     }
 }

 fn enter() {
     // Check we aren't already in a runtime
     #[cfg(debug_assertions)]
     {
         let _enter = tokio::runtime::Builder::new_current_thread()
             .build()
             .expect("build shell runtime")
             .enter();
     }
 }
	use std::future::Future;
	use std::sync::Arc;
	use std::task::{Context, Poll};
	use std::thread::{self, Thread};
	use std::time::Duration;

	use tokio::time::Instant;

	pub(crate) fn timeout<F, I, E>(fut: F, timeout: Option<Duration>) -> Result<I, Waited<E>>
	where
	F: Future<Output = Result<I, E>>,
	{
	enter();

	let deadline = timeout.map(\|d\| {
	log::trace!("wait at most {:?}", d);
	Instant::now() + d
	});

	let thread = ThreadWaker(thread::current());
	// Arc shouldn't be necessary, since `Thread` is reference counted internally,
	// but let's just stay safe for now.
	let waker = futures_util::task::waker(Arc::new(thread));
	let mut cx = Context::from_waker(&waker);

	futures_util::pin_mut!(fut);

	loop {
	match fut.as_mut().poll(&mut cx) {
	Poll::Ready(Ok(val)) => return Ok(val),
	Poll::Ready(Err(err)) => return Err(Waited::Inner(err)),
	Poll::Pending => (), // fallthrough
	}

	if let Some(deadline) = deadline {
	let now = Instant::now();
	if now >= deadline {
	log::trace!("wait timeout exceeded");
	return Err(Waited::TimedOut(crate::error::TimedOut));
	}

	log::trace!(
	"({:?}) park timeout {:?}",
	thread::current().id(),
	deadline - now
	);
	thread::park_timeout(deadline - now);
	} else {
	log::trace!("({:?}) park without timeout", thread::current().id());
	thread::park();
	}
	}
	}

	#[derive(Debug)]
	pub(crate) enum Waited<E> {
	TimedOut(crate::error::TimedOut),
	Inner(E),
	}

	struct ThreadWaker(Thread);

	impl futures_util::task::ArcWake for ThreadWaker {
	fn wake_by_ref(arc_self: &Arc<Self>) {
	arc_self.0.unpark();
	}
	}

	fn enter() {
	// Check we aren't already in a runtime
	#[cfg(debug_assertions)]
	{
	let _enter = tokio::runtime::Builder::new_current_thread()
	.build()
	.expect("build shell runtime")
	.enter();
	}
	}