openethereum/util/reactor/src/lib.rs

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// Copyright 2015-2017 Parity Technologies (UK) Ltd.
// This file is part of Parity.
// Parity is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Parity is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
//! Tokio Core Reactor wrapper.
extern crate futures;
extern crate tokio_core;
use std::{fmt, thread};
use std::sync::mpsc;
use std::time::Duration;
use futures::{Future, IntoFuture};
pub use tokio_core::reactor::{Remote as TokioRemote, Handle, Timeout};
/// Event Loop for futures.
/// Wrapper around `tokio::reactor::Core`.
/// Runs in a separate thread.
pub struct EventLoop {
remote: Remote,
handle: EventLoopHandle,
}
impl EventLoop {
/// Spawns a new thread with `EventLoop` with given handler.
pub fn spawn() -> Self {
let (stop, stopped) = futures::oneshot();
let (tx, rx) = mpsc::channel();
let handle = thread::spawn(move || {
let mut el = tokio_core::reactor::Core::new().expect("Creating an event loop should not fail.");
tx.send(el.remote()).expect("Rx is blocking upper thread.");
let _ = el.run(futures::empty().select(stopped));
});
let remote = rx.recv().expect("tx is transfered to a newly spawned thread.");
EventLoop {
remote: Remote {
inner: Mode::Tokio(remote),
},
handle: EventLoopHandle {
close: Some(stop),
handle: Some(handle),
},
}
}
/// Returns this event loop raw remote.
///
/// Deprecated: Exists only to connect with current JSONRPC implementation.
pub fn raw_remote(&self) -> TokioRemote {
if let Mode::Tokio(ref remote) = self.remote.inner {
remote.clone()
} else {
panic!("Event loop is never initialized in other mode then Tokio.")
}
}
/// Returns event loop remote.
pub fn remote(&self) -> Remote {
self.remote.clone()
}
}
#[derive(Clone)]
enum Mode {
Tokio(TokioRemote),
Sync,
ThreadPerFuture,
}
impl fmt::Debug for Mode {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
use self::Mode::*;
match *self {
Tokio(_) => write!(fmt, "tokio"),
Sync => write!(fmt, "synchronous"),
ThreadPerFuture => write!(fmt, "thread per future"),
}
}
}
#[derive(Debug, Clone)]
pub struct Remote {
inner: Mode,
}
impl Remote {
/// Remote for existing event loop.
///
/// Deprecated: Exists only to connect with current JSONRPC implementation.
pub fn new(remote: TokioRemote) -> Self {
Remote {
inner: Mode::Tokio(remote),
}
}
/// Synchronous remote, used mostly for tests.
pub fn new_sync() -> Self {
Remote {
inner: Mode::Sync,
}
}
/// Spawns a new thread for each future (use only for tests).
pub fn new_thread_per_future() -> Self {
Remote {
inner: Mode::ThreadPerFuture,
}
}
/// Spawn a future to this event loop
pub fn spawn<R>(&self, r: R) where
R: IntoFuture<Item=(), Error=()> + Send + 'static,
R::Future: 'static,
{
match self.inner {
Mode::Tokio(ref remote) => remote.spawn(move |_| r),
Mode::Sync => {
let _= r.into_future().wait();
},
Mode::ThreadPerFuture => {
thread::spawn(move || {
let _= r.into_future().wait();
});
},
}
}
/// Spawn a new future returned by given closure.
pub fn spawn_fn<F, R>(&self, f: F) where
F: FnOnce(&Handle) -> R + Send + 'static,
R: IntoFuture<Item=(), Error=()>,
R::Future: 'static,
{
match self.inner {
Mode::Tokio(ref remote) => remote.spawn(move |handle| f(handle)),
Mode::Sync => {
let mut core = tokio_core::reactor::Core::new().expect("Creating an event loop should not fail.");
let handle = core.handle();
let _ = core.run(f(&handle).into_future());
},
Mode::ThreadPerFuture => {
thread::spawn(move || {
let mut core = tokio_core::reactor::Core::new().expect("Creating an event loop should not fail.");
let handle = core.handle();
let _ = core.run(f(&handle).into_future());
});
},
}
}
/// Spawn a new future and wait for it or for a timeout to occur.
pub fn spawn_with_timeout<F, R, T>(&self, f: F, duration: Duration, on_timeout: T) where
T: FnOnce() -> () + Send + 'static,
F: FnOnce(&Handle) -> R + Send + 'static,
R: IntoFuture<Item=(), Error=()>,
R::Future: 'static,
{
match self.inner {
Mode::Tokio(ref remote) => remote.spawn(move |handle| {
let future = f(handle).into_future();
let timeout = Timeout::new(duration, handle).expect("Event loop is still up.");
future.select(timeout.then(move |_| {
on_timeout();
Ok(())
})).then(|_| Ok(()))
}),
Mode::Sync => {
let mut core = tokio_core::reactor::Core::new().expect("Creating an event loop should not fail.");
let handle = core.handle();
let future = f(&handle).into_future();
let timeout = Timeout::new(duration, &handle).expect("Event loop is still up.");
let _: Result<(), ()> = core.run(future.select(timeout.then(move |_| {
on_timeout();
Ok(())
})).then(|_| Ok(())));
},
Mode::ThreadPerFuture => {
thread::spawn(move || {
let mut core = tokio_core::reactor::Core::new().expect("Creating an event loop should not fail.");
let handle = core.handle();
let future = f(&handle).into_future();
let timeout = Timeout::new(duration, &handle).expect("Event loop is still up.");
let _: Result<(), ()> = core.run(future.select(timeout.then(move |_| {
on_timeout();
Ok(())
})).then(|_| Ok(())));
});
},
}
}
}
/// A handle to running event loop. Dropping the handle will cause event loop to finish.
pub struct EventLoopHandle {
close: Option<futures::Complete<()>>,
handle: Option<thread::JoinHandle<()>>
}
impl From<EventLoop> for EventLoopHandle {
fn from(el: EventLoop) -> Self {
el.handle
}
}
impl Drop for EventLoopHandle {
fn drop(&mut self) {
self.close.take().map(|v| v.send(()));
}
}
impl EventLoopHandle {
/// Blocks current thread and waits until the event loop is finished.
pub fn wait(mut self) -> thread::Result<()> {
self.handle.take()
.expect("Handle is taken only in `wait`, `wait` is consuming; qed").join()
}
/// Finishes this event loop.
pub fn close(mut self) {
let _ = self.close.take()
.expect("Close is taken only in `close` and `drop`. `close` is consuming; qed")
.send(());
}
}