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Add example that prints each packet from tcp client (#301)

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Roman 2018-04-10 23:08:55 +03:00 committed by Carl Lerche
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4
examples/README.md
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@ -19,6 +19,10 @@ A high level description of each example is:
connections and then echos back any contents that are read from each connected
client.
* [`print_each_packet`](print_each_packet.rs) - this server will create a TCP
listener, accept connections in a loop, and put down in the stdout everything
that's read off of each TCP connection.
* [`echo-udp`](echo-udp.rs) - again your standard "echo server", except for UDP
instead of TCP. This will echo back any packets received to the original
sender.

148
examples/print_each_packet.rs Normal file
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@ -0,0 +1,148 @@
//! A "print-each-packet" server with Tokio
//!
//! This server will create a TCP listener, accept connections in a loop, and
//! put down in the stdout everything that's read off of each TCP connection.
//!
//! Because the Tokio runtime uses a thread pool, each TCP connection is
//! processed concurrently with all other TCP connections across multiple
//! threads.
//!
//! To see this server in action, you can run this in one terminal:
//!
//! cargo run --example print\_each\_packet
//!
//! and in another terminal you can run:
//!
//! cargo run --example connect 127.0.0.1:8080
//!
//! Each line you type in to the `connect` terminal should be written to terminal!
//!
//! Minimal js example:
//!
//! ```js
//! var net = require("net");
//!
//! var listenPort = 8080;
//!
//! var server = net.createServer(function (socket) {
//! socket.on("data", function (bytes) {
//! console.log("bytes", bytes);
//! });
//!
//! socket.on("end", function() {
//! console.log("Socket received FIN packet and closed connection");
//! });
//! socket.on("error", function (error) {
//! console.log("Socket closed with error", error);
//! });
//!
//! socket.on("close", function (with_error) {
//! if (with_error) {
//! console.log("Socket closed with result: Err(SomeError)");
//! } else {
//! console.log("Socket closed with result: Ok(())");
//! }
//! });
//!
//! });
//!
//! server.listen(listenPort);
//!
//! console.log("Listening on:", listenPort);
//! ```
//!
#![deny(warnings)]
extern crate tokio;
extern crate tokio_io;
use tokio_io::codec::BytesCodec;
use tokio::net::TcpListener;
use tokio::prelude::*;
use std::env;
use std::net::SocketAddr;
fn main() {
// Allow passing an address to listen on as the first argument of this
// program, but otherwise we'll just set up our TCP listener on
// 127.0.0.1:8080 for connections.
let addr = env::args().nth(1).unwrap_or("127.0.0.1:8080".to_string());
let addr = addr.parse::<SocketAddr>().unwrap();
// Next up we create a TCP listener which will listen for incoming
// connections. This TCP listener is bound to the address we determined
// above and must be associated with an event loop, so we pass in a handle
// to our event loop. After the socket's created we inform that we're ready
// to go and start accepting connections.
let socket = TcpListener::bind(&addr).unwrap();
println!("Listening on: {}", addr);
// Here we convert the `TcpListener` to a stream of incoming connections
// with the `incoming` method. We then define how to process each element in
// the stream with the `for_each` method.
//
// This combinator, defined on the `Stream` trait, will allow us to define a
// computation to happen for all items on the stream (in this case TCP
// connections made to the server). The return value of the `for_each`
// method is itself a future representing processing the entire stream of
// connections, and ends up being our server.
let done = socket
.incoming()
.map_err(|e| println!("failed to accept socket; error = {:?}", e))
.for_each(move |socket| {
// Once we're inside this closure this represents an accepted client
// from our server. The `socket` is the client connection (similar to
// how the standard library operates).
//
// We're parsing each socket with the `BytesCodec` included in `tokio_io`,
// and then we `split` each codec into the reader/writer halves.
//
// See https://docs.rs/tokio-io/0.1/src/tokio_io/codec/bytes_codec.rs.html
let framed = socket.framed(BytesCodec::new());
let (_writer, reader) = framed.split();
let processor = reader
.for_each(|bytes| {
println!("bytes: {:?}", bytes);
Ok(())
})
// After our copy operation is complete we just print out some helpful
// information.
.and_then(|()| {
println!("Socket received FIN packet and closed connection");
Ok(())
})
.or_else(|err| {
println!("Socket closed with error: {:?}", err);
// We have to return the error to catch it in the next ``.then` call
Err(err)
})
.then(|result| {
println!("Socket closed with result: {:?}", result);
Ok(())
});
// And this is where much of the magic of this server happens. We
// crucially want all clients to make progress concurrently, rather than
// blocking one on completion of another. To achieve this we use the
// `tokio::spawn` function to execute the work in the background.
//
// This function will transfer ownership of the future (`msg` in this
// case) to the Tokio runtime thread pool that. The thread pool will
// drive the future to completion.
//
// Essentially here we're executing a new task to run concurrently,
// which will allow all of our clients to be processed concurrently.
tokio::spawn(processor)
});
// And finally now that we've define what our server is, we run it!
//
// This starts the Tokio runtime, spawns the server task, and blocks the
// current thread until all tasks complete execution. Since the `done` task
// never completes (it just keeps accepting sockets), `tokio::run` blocks
// forever (until ctrl-c is pressed).
tokio::run(done);
}