examples/udp-codec.rs - third_party/tokio-core - Git at Google

 //! This is a basic example of leveraging `UdpCodec` to create a simple UDP
 //! client and server which speak a custom protocol.
 //!
 //! Here we're using the a custom codec to convert a UDP socket to a stream of
 //! client messages. These messages are then processed and returned back as a
 //! new message with a new destination. Overall, we then use this to construct a
 //! "ping pong" pair where two sockets are sending messages back and forth.

 extern crate tokio_core;
 extern crate env_logger;
 extern crate futures;

 use std::io;
 use std::net::SocketAddr;
 use std::str;

 use futures::{Future, Stream, Sink};
 use tokio_core::net::{UdpSocket, UdpCodec};
 use tokio_core::reactor::Core;

 pub struct LineCodec;

 impl UdpCodec for LineCodec {
     type In = (SocketAddr, Vec<u8>);
     type Out = (SocketAddr, Vec<u8>);

     fn decode(&mut self, addr: &SocketAddr, buf: &[u8]) -> io::Result<Self::In> {
         Ok((*addr, buf.to_vec()))
     }

     fn encode(&mut self, (addr, buf): Self::Out, into: &mut Vec<u8>) -> SocketAddr {
         into.extend(buf);
         addr
     }
 }

 fn main() {
     drop(env_logger::init());

     let mut core = Core::new().unwrap();
     let handle = core.handle();

     let addr: SocketAddr = "127.0.0.1:0".parse().unwrap();

     // Bind both our sockets and then figure out what ports we got.
     let a = UdpSocket::bind(&addr, &handle).unwrap();
     let b = UdpSocket::bind(&addr, &handle).unwrap();
     let b_addr = b.local_addr().unwrap();

     // We're parsing each socket with the `LineCodec` defined above, and then we
     // `split` each codec into the sink/stream halves.
     let (a_sink, a_stream) = a.framed(LineCodec).split();
     let (b_sink, b_stream) = b.framed(LineCodec).split();

     // Start off by sending a ping from a to b, afterwards we just print out
     // what they send us and continually send pings
     // let pings = stream::iter((0..5).map(Ok));
     let a = a_sink.send((b_addr, b"PING".to_vec())).and_then(|a_sink| {
         let mut i = 0;
         let a_stream = a_stream.take(4).map(move |(addr, msg)| {
             i += 1;
             println!("[a] recv: {}", String::from_utf8_lossy(&msg));
             (addr, format!("PING {}", i).into_bytes())
         });
         a_sink.send_all(a_stream)
     });

     // The second client we have will receive the pings from `a` and then send
     // back pongs.
     let b_stream = b_stream.map(|(addr, msg)| {
         println!("[b] recv: {}", String::from_utf8_lossy(&msg));
         (addr, b"PONG".to_vec())
     });
     let b = b_sink.send_all(b_stream);

     // Spawn the sender of pongs and then wait for our pinger to finish.
     handle.spawn(b.then(|_| Ok(())));
     drop(core.run(a));
 }
	//! This is a basic example of leveraging `UdpCodec` to create a simple UDP
	//! client and server which speak a custom protocol.
	//!
	//! Here we're using the a custom codec to convert a UDP socket to a stream of
	//! client messages. These messages are then processed and returned back as a
	//! new message with a new destination. Overall, we then use this to construct a
	//! "ping pong" pair where two sockets are sending messages back and forth.

	extern crate tokio_core;
	extern crate env_logger;
	extern crate futures;

	use std::io;
	use std::net::SocketAddr;
	use std::str;

	use futures::{Future, Stream, Sink};
	use tokio_core::net::{UdpSocket, UdpCodec};
	use tokio_core::reactor::Core;

	pub struct LineCodec;

	impl UdpCodec for LineCodec {
	type In = (SocketAddr, Vec<u8>);
	type Out = (SocketAddr, Vec<u8>);

	fn decode(&mut self, addr: &SocketAddr, buf: &[u8]) -> io::Result<Self::In> {
	Ok((*addr, buf.to_vec()))
	}

	fn encode(&mut self, (addr, buf): Self::Out, into: &mut Vec<u8>) -> SocketAddr {
	into.extend(buf);
	addr
	}
	}

	fn main() {
	drop(env_logger::init());

	let mut core = Core::new().unwrap();
	let handle = core.handle();

	let addr: SocketAddr = "127.0.0.1:0".parse().unwrap();

	// Bind both our sockets and then figure out what ports we got.
	let a = UdpSocket::bind(&addr, &handle).unwrap();
	let b = UdpSocket::bind(&addr, &handle).unwrap();
	let b_addr = b.local_addr().unwrap();

	// We're parsing each socket with the `LineCodec` defined above, and then we
	// `split` each codec into the sink/stream halves.
	let (a_sink, a_stream) = a.framed(LineCodec).split();
	let (b_sink, b_stream) = b.framed(LineCodec).split();

	// Start off by sending a ping from a to b, afterwards we just print out
	// what they send us and continually send pings
	// let pings = stream::iter((0..5).map(Ok));
	let a = a_sink.send((b_addr, b"PING".to_vec())).and_then(\|a_sink\| {
	let mut i = 0;
	let a_stream = a_stream.take(4).map(move \|(addr, msg)\| {
	i += 1;
	println!("[a] recv: {}", String::from_utf8_lossy(&msg));
	(addr, format!("PING {}", i).into_bytes())
	});
	a_sink.send_all(a_stream)
	});

	// The second client we have will receive the pings from `a` and then send
	// back pongs.
	let b_stream = b_stream.map(\|(addr, msg)\| {
	println!("[b] recv: {}", String::from_utf8_lossy(&msg));
	(addr, b"PONG".to_vec())
	});
	let b = b_sink.send_all(b_stream);

	// Spawn the sender of pongs and then wait for our pinger to finish.
	handle.spawn(b.then(\|_\| Ok(())));
	drop(core.run(a));
	}