mirror of
https://github.com/denoland/deno.git
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156 lines
4.2 KiB
Rust
156 lines
4.2 KiB
Rust
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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use crate::resources::Resource;
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use futures;
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use futures::Future;
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use futures::Poll;
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use std::io;
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use std::mem;
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use std::net::SocketAddr;
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use tokio;
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use tokio::net::TcpStream;
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use tokio::runtime;
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pub fn create_threadpool_runtime() -> tokio::runtime::Runtime {
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runtime::Builder::new()
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.panic_handler(|err| std::panic::resume_unwind(err))
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.build()
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.unwrap()
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}
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pub fn run<F>(future: F)
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where
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F: Future<Item = (), Error = ()> + Send + 'static,
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{
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// tokio::runtime::current_thread::run(future)
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let rt = create_threadpool_runtime();
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rt.block_on_all(future).unwrap();
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}
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/// THIS IS A HACK AND SHOULD BE AVOIDED.
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///
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/// This creates a new tokio runtime, with many new threads, to execute the
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/// given future. This is useful when we want to block the main runtime to
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/// resolve a future without worrying that we'll use up all the threads in the
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/// main runtime.
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pub fn block_on<F, R, E>(future: F) -> Result<R, E>
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where
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F: Send + 'static + Future<Item = R, Error = E>,
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R: Send + 'static,
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E: Send + 'static,
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{
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use std::sync::mpsc::channel;
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use std::thread;
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let (sender, receiver) = channel();
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// Create a new runtime to evaluate the future asynchronously.
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thread::spawn(move || {
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let mut rt = create_threadpool_runtime();
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let r = rt.block_on(future);
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sender.send(r).unwrap();
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});
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receiver.recv().unwrap()
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}
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// Set the default executor so we can use tokio::spawn(). It's difficult to
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// pass around mut references to the runtime, so using with_default is
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// preferable. Ideally Tokio would provide this function.
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#[cfg(test)]
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pub fn init<F>(f: F)
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where
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F: FnOnce(),
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{
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let rt = create_threadpool_runtime();
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let mut executor = rt.executor();
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let mut enter = tokio_executor::enter().expect("Multiple executors at once");
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tokio_executor::with_default(&mut executor, &mut enter, move |_enter| f());
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}
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#[derive(Debug)]
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enum AcceptState {
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Pending(Resource),
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Empty,
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}
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/// Simply accepts a connection.
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pub fn accept(r: Resource) -> Accept {
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Accept {
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state: AcceptState::Pending(r),
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}
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}
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/// A future which can be used to easily read available number of bytes to fill
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/// a buffer.
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///
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/// Created by the [`read`] function.
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#[derive(Debug)]
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pub struct Accept {
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state: AcceptState,
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}
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impl Future for Accept {
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type Item = (TcpStream, SocketAddr);
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type Error = io::Error;
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fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
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let (stream, addr) = match self.state {
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// Similar to try_ready!, but also track/untrack accept task
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// in TcpListener resource.
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// In this way, when the listener is closed, the task can be
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// notified to error out (instead of stuck forever).
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AcceptState::Pending(ref mut r) => match r.poll_accept() {
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Ok(futures::prelude::Async::Ready(t)) => {
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r.untrack_task();
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t
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}
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Ok(futures::prelude::Async::NotReady) => {
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// Would error out if another accept task is being tracked.
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r.track_task()?;
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return Ok(futures::prelude::Async::NotReady);
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}
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Err(e) => {
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r.untrack_task();
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return Err(e);
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}
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},
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AcceptState::Empty => panic!("poll Accept after it's done"),
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};
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match mem::replace(&mut self.state, AcceptState::Empty) {
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AcceptState::Pending(_) => Ok((stream, addr).into()),
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AcceptState::Empty => panic!("invalid internal state"),
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}
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}
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}
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/// `futures::future::poll_fn` only support `F: FnMut()->Poll<T, E>`
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/// However, we require that `F: FnOnce()->Poll<T, E>`.
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/// Therefore, we created our version of `poll_fn`.
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pub fn poll_fn<T, E, F>(f: F) -> PollFn<F>
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where
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F: FnOnce() -> Poll<T, E>,
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{
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PollFn { inner: Some(f) }
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}
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pub struct PollFn<F> {
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inner: Option<F>,
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}
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impl<T, E, F> Future for PollFn<F>
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where
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F: FnOnce() -> Poll<T, E>,
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{
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type Item = T;
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type Error = E;
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fn poll(&mut self) -> Poll<T, E> {
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let f = self.inner.take().expect("Inner fn has been taken.");
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f()
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}
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}
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pub fn panic_on_error<I, E, F>(f: F) -> impl Future<Item = I, Error = ()>
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where
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F: Future<Item = I, Error = E>,
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E: std::fmt::Debug,
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{
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f.map_err(|err| panic!("Future got unexpected error: {:?}", err))
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}
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