Crate tokio_core [] [src]

Future-powered I/O at the core of Tokio

This crate uses the futures crate to provide an event loop ("reactor core") which can be used to drive I/O like TCP and UDP, spawned future tasks, and other events like channels/timeouts. All asynchronous I/O is powered by the mio crate.

The concrete types provided in this crate are relatively bare bones but are intended to be the essential foundation for further projects needing an event loop. In this crate you'll find:

  • TCP, both streams and listeners
  • UDP sockets
  • Timeouts
  • An event loop to run futures

More functionality is likely to be added over time, but otherwise the crate is intended to be flexible, with the PollEvented type accepting any type that implements mio::Evented. For example, the tokio-uds crate uses PollEvented to provide support for Unix domain sockets.

Some other important tasks covered by this crate are:

  • The ability to spawn futures into an event loop. The Handle and Remote types have a spawn method which allows executing a future on an event loop. The Handle::spawn method crucially does not require the future itself to be Send.

  • The Io trait serves as an abstraction for future crates to build on top of. This packages up Read and Write functionality as well as the ability to poll for readiness on both ends.

  • All I/O is futures-aware. If any action in this crate returns "not ready" or "would block", then the current future task is scheduled to receive a notification when it would otherwise make progress.

You can find more extensive documentation in terms of tutorials at https://tokio.rs.

Examples

A simple TCP echo server:

extern crate futures;
extern crate tokio_core;
extern crate tokio_io;

use futures::{Future, Stream};
use tokio_io::AsyncRead;
use tokio_io::io::copy;
use tokio_core::net::TcpListener;
use tokio_core::reactor::Core;

fn main() {
    // Create the event loop that will drive this server
    let mut core = Core::new().unwrap();
    let handle = core.handle();

    // Bind the server's socket
    let addr = "127.0.0.1:12345".parse().unwrap();
    let listener = TcpListener::bind(&addr, &handle).unwrap();

    // Pull out a stream of sockets for incoming connections
    let server = listener.incoming().for_each(|(sock, _)| {
        // Split up the reading and writing parts of the
        // socket
        let (reader, writer) = sock.split();

        // A future that echos the data and returns how
        // many bytes were copied...
        let bytes_copied = copy(reader, writer);

        // ... after which we'll print what happened
        let handle_conn = bytes_copied.map(|amt| {
            println!("wrote {:?} bytes", amt)
        }).map_err(|err| {
            println!("IO error {:?}", err)
        });

        // Spawn the future as a concurrent task
        handle.spawn(handle_conn);

        Ok(())
    });

    // Spin up the server on the event loop
    core.run(server).unwrap();
}

Modules

net

TCP/UDP bindings for tokio-core

reactor

The core reactor driving all I/O

Macros

try_nb

A convenience macro for working with io::Result<T> from the Read and Write traits.