vendor/tokio/examples/echo-udp.rs - toolchain/rustc - Git at Google

 //! An UDP echo server that just sends back everything that it receives.
 //!
 //! If you're on Unix you can test this out by in one terminal executing:
 //!
 //!     cargo run --example echo-udp
 //!
 //! and in another terminal you can run:
 //!
 //!     cargo run --example connect -- --udp 127.0.0.1:8080
 //!
 //! Each line you type in to the `nc` terminal should be echo'd back to you!

 #![deny(warnings)]

 #[macro_use]
 extern crate futures;
 extern crate tokio;

 use std::net::SocketAddr;
 use std::{env, io};

 use tokio::net::UdpSocket;
 use tokio::prelude::*;

 struct Server {
     socket: UdpSocket,
     buf: Vec<u8>,
     to_send: Option<(usize, SocketAddr)>,
 }

 impl Future for Server {
     type Item = ();
     type Error = io::Error;

     fn poll(&mut self) -> Poll<(), io::Error> {
         loop {
             // First we check to see if there's a message we need to echo back.
             // If so then we try to send it back to the original source, waiting
             // until it's writable and we're able to do so.
             if let Some((size, peer)) = self.to_send {
                 let amt = try_ready!(self.socket.poll_send_to(&self.buf[..size], &peer));
                 println!("Echoed {}/{} bytes to {}", amt, size, peer);
                 self.to_send = None;
             }

             // If we're here then `to_send` is `None`, so we take a look for the
             // next message we're going to echo back.
             self.to_send = Some(try_ready!(self.socket.poll_recv_from(&mut self.buf)));
         }
     }
 }

 fn main() -> Result<(), Box<std::error::Error>> {
     let addr = env::args().nth(1).unwrap_or("127.0.0.1:8080".to_string());
     let addr = addr.parse::<SocketAddr>()?;

     let socket = UdpSocket::bind(&addr)?;
     println!("Listening on: {}", socket.local_addr()?);

     let server = Server {
         socket: socket,
         buf: vec![0; 1024],
         to_send: None,
     };

     // This starts the server task.
     //
     // `map_err` handles the error by logging it and maps the future to a type
     // that can be spawned.
     //
     // `tokio::run` spawns the task on the Tokio runtime and starts running.
     tokio::run(server.map_err(|e| println!("server error = {:?}", e)));
     Ok(())
 }
	//! An UDP echo server that just sends back everything that it receives.
	//!
	//! If you're on Unix you can test this out by in one terminal executing:
	//!
	//! cargo run --example echo-udp
	//!
	//! and in another terminal you can run:
	//!
	//! cargo run --example connect -- --udp 127.0.0.1:8080
	//!
	//! Each line you type in to the `nc` terminal should be echo'd back to you!

	#![deny(warnings)]

	#[macro_use]
	extern crate futures;
	extern crate tokio;

	use std::net::SocketAddr;
	use std::{env, io};

	use tokio::net::UdpSocket;
	use tokio::prelude::*;

	struct Server {
	socket: UdpSocket,
	buf: Vec<u8>,
	to_send: Option<(usize, SocketAddr)>,
	}

	impl Future for Server {
	type Item = ();
	type Error = io::Error;

	fn poll(&mut self) -> Poll<(), io::Error> {
	loop {
	// First we check to see if there's a message we need to echo back.
	// If so then we try to send it back to the original source, waiting
	// until it's writable and we're able to do so.
	if let Some((size, peer)) = self.to_send {
	let amt = try_ready!(self.socket.poll_send_to(&self.buf[..size], &peer));
	println!("Echoed {}/{} bytes to {}", amt, size, peer);
	self.to_send = None;
	}

	// If we're here then `to_send` is `None`, so we take a look for the
	// next message we're going to echo back.
	self.to_send = Some(try_ready!(self.socket.poll_recv_from(&mut self.buf)));
	}
	}
	}

	fn main() -> Result<(), Box<std::error::Error>> {
	let addr = env::args().nth(1).unwrap_or("127.0.0.1:8080".to_string());
	let addr = addr.parse::<SocketAddr>()?;

	let socket = UdpSocket::bind(&addr)?;
	println!("Listening on: {}", socket.local_addr()?);

	let server = Server {
	socket: socket,
	buf: vec![0; 1024],
	to_send: None,
	};

	// This starts the server task.
	//
	// `map_err` handles the error by logging it and maps the future to a type
	// that can be spawned.
	//
	// `tokio::run` spawns the task on the Tokio runtime and starts running.
	tokio::run(server.map_err(\|e\| println!("server error = {:?}", e)));
	Ok(())
	}