examples/tcp_server.rs - third_party/mio - Git at Google

 // You can run this example from the root of the mio repo:
 // cargo run --example tcp_server --features="os-poll tcp"
 use mio::event::Event;
 use mio::net::{TcpListener, TcpStream};
 use mio::{Events, Interest, Poll, Registry, Token};
 use std::collections::HashMap;
 use std::io::{self, Read, Write};
 use std::str::from_utf8;

 // Setup some tokens to allow us to identify which event is for which socket.
 const SERVER: Token = Token(0);

 // Some data we'll send over the connection.
 const DATA: &[u8] = b"Hello world!\n";

 fn main() -> io::Result<()> {
     env_logger::init();

     // Create a poll instance.
     let mut poll = Poll::new()?;
     // Create storage for events.
     let mut events = Events::with_capacity(128);

     // Setup the TCP server socket.
     let addr = "127.0.0.1:9000".parse().unwrap();
     let mut server = TcpListener::bind(addr)?;

     // Register the server with poll we can receive events for it.
     poll.registry()
         .register(&mut server, SERVER, Interest::READABLE)?;

     // Map of `Token` -> `TcpStream`.
     let mut connections = HashMap::new();
     // Unique token for each incoming connection.
     let mut unique_token = Token(SERVER.0 + 1);

     println!("You can connect to the server using `nc`:");
     println!(" $ nc 127.0.0.1 9000");
     println!("You'll see our welcome message and anything you type we'll be printed here.");

     loop {
         poll.poll(&mut events, None)?;

         for event in events.iter() {
             match event.token() {
                 SERVER => loop {
                     // Received an event for the TCP server socket, which
                     // indicates we can accept an connection.
                     let (mut connection, address) = match server.accept() {
                         Ok((connection, address)) => (connection, address),
                         Err(e) if e.kind() == io::ErrorKind::WouldBlock => {
                             // If we get a `WouldBlock` error we know our
                             // listener has no more incoming connections queued,
                             // so we can return to polling and wait for some
                             // more.
                             break;
                         }
                         Err(e) => {
                             // If it was any other kind of error, something went
                             // wrong and we terminate with an error.
                             return Err(e);
                         }
                     };

                     println!("Accepted connection from: {}", address);

                     let token = next(&mut unique_token);
                     poll.registry().register(
                         &mut connection,
                         token,
                         Interest::READABLE.add(Interest::WRITABLE),
                     )?;

                     connections.insert(token, connection);
                 },
                 token => {
                     // Maybe received an event for a TCP connection.
                     let done = if let Some(connection) = connections.get_mut(&token) {
                         handle_connection_event(poll.registry(), connection, event)?
                     } else {
                         // Sporadic events happen, we can safely ignore them.
                         false
                     };
                     if done {
                         connections.remove(&token);
                     }
                 }
             }
         }
     }
 }

 fn next(current: &mut Token) -> Token {
     let next = current.0;
     current.0 += 1;
     Token(next)
 }

 /// Returns `true` if the connection is done.
 fn handle_connection_event(
     registry: &Registry,
     connection: &mut TcpStream,
     event: &Event,
 ) -> io::Result<bool> {
     if event.is_writable() {
         // We can (maybe) write to the connection.
         match connection.write(DATA) {
             // We want to write the entire `DATA` buffer in a single go. If we
             // write less we'll return a short write error (same as
             // `io::Write::write_all` does).
             Ok(n) if n < DATA.len() => return Err(io::ErrorKind::WriteZero.into()),
             Ok(_) => {
                 // After we've written something we'll reregister the connection
                 // to only respond to readable events.
                 registry.reregister(connection, event.token(), Interest::READABLE)?
             }
             // Would block "errors" are the OS's way of saying that the
             // connection is not actually ready to perform this I/O operation.
             Err(ref err) if would_block(err) => {}
             // Got interrupted (how rude!), we'll try again.
             Err(ref err) if interrupted(err) => {
                 return handle_connection_event(registry, connection, event)
             }
             // Other errors we'll consider fatal.
             Err(err) => return Err(err),
         }
     }

     if event.is_readable() {
         let mut connection_closed = false;
         let mut received_data = vec![0; 4096];
         let mut bytes_read = 0;
         // We can (maybe) read from the connection.
         loop {
             match connection.read(&mut received_data[bytes_read..]) {
                 Ok(0) => {
                     // Reading 0 bytes means the other side has closed the
                     // connection or is done writing, then so are we.
                     connection_closed = true;
                     break;
                 }
                 Ok(n) => {
                     bytes_read += n;
                     if bytes_read == received_data.len() {
                         received_data.resize(received_data.len() + 1024, 0);
                     }
                 }
                 // Would block "errors" are the OS's way of saying that the
                 // connection is not actually ready to perform this I/O operation.
                 Err(ref err) if would_block(err) => break,
                 Err(ref err) if interrupted(err) => continue,
                 // Other errors we'll consider fatal.
                 Err(err) => return Err(err),
             }
         }

         if bytes_read != 0 {
             let received_data = &received_data[..bytes_read];
             if let Ok(str_buf) = from_utf8(received_data) {
                 println!("Received data: {}", str_buf.trim_end());
             } else {
                 println!("Received (none UTF-8) data: {:?}", received_data);
             }
         }

         if connection_closed {
             println!("Connection closed");
             return Ok(true);
         }
     }

     Ok(false)
 }

 fn would_block(err: &io::Error) -> bool {
     err.kind() == io::ErrorKind::WouldBlock
 }

 fn interrupted(err: &io::Error) -> bool {
     err.kind() == io::ErrorKind::Interrupted
 }
	// You can run this example from the root of the mio repo:
	// cargo run --example tcp_server --features="os-poll tcp"
	use mio::event::Event;
	use mio::net::{TcpListener, TcpStream};
	use mio::{Events, Interest, Poll, Registry, Token};
	use std::collections::HashMap;
	use std::io::{self, Read, Write};
	use std::str::from_utf8;

	// Setup some tokens to allow us to identify which event is for which socket.
	const SERVER: Token = Token(0);

	// Some data we'll send over the connection.
	const DATA: &[u8] = b"Hello world!\n";

	fn main() -> io::Result<()> {
	env_logger::init();

	// Create a poll instance.
	let mut poll = Poll::new()?;
	// Create storage for events.
	let mut events = Events::with_capacity(128);

	// Setup the TCP server socket.
	let addr = "127.0.0.1:9000".parse().unwrap();
	let mut server = TcpListener::bind(addr)?;

	// Register the server with poll we can receive events for it.
	poll.registry()
	.register(&mut server, SERVER, Interest::READABLE)?;

	// Map of `Token` -> `TcpStream`.
	let mut connections = HashMap::new();
	// Unique token for each incoming connection.
	let mut unique_token = Token(SERVER.0 + 1);

	println!("You can connect to the server using `nc`:");
	println!(" $ nc 127.0.0.1 9000");
	println!("You'll see our welcome message and anything you type we'll be printed here.");

	loop {
	poll.poll(&mut events, None)?;

	for event in events.iter() {
	match event.token() {
	SERVER => loop {
	// Received an event for the TCP server socket, which
	// indicates we can accept an connection.
	let (mut connection, address) = match server.accept() {
	Ok((connection, address)) => (connection, address),
	Err(e) if e.kind() == io::ErrorKind::WouldBlock => {
	// If we get a `WouldBlock` error we know our
	// listener has no more incoming connections queued,
	// so we can return to polling and wait for some
	// more.
	break;
	}
	Err(e) => {
	// If it was any other kind of error, something went
	// wrong and we terminate with an error.
	return Err(e);
	}
	};

	println!("Accepted connection from: {}", address);

	let token = next(&mut unique_token);
	poll.registry().register(
	&mut connection,
	token,
	Interest::READABLE.add(Interest::WRITABLE),
	)?;

	connections.insert(token, connection);
	},
	token => {
	// Maybe received an event for a TCP connection.
	let done = if let Some(connection) = connections.get_mut(&token) {
	handle_connection_event(poll.registry(), connection, event)?
	} else {
	// Sporadic events happen, we can safely ignore them.
	false
	};
	if done {
	connections.remove(&token);
	}
	}
	}
	}
	}
	}

	fn next(current: &mut Token) -> Token {
	let next = current.0;
	current.0 += 1;
	Token(next)
	}

	/// Returns `true` if the connection is done.
	fn handle_connection_event(
	registry: &Registry,
	connection: &mut TcpStream,
	event: &Event,
	) -> io::Result<bool> {
	if event.is_writable() {
	// We can (maybe) write to the connection.
	match connection.write(DATA) {
	// We want to write the entire `DATA` buffer in a single go. If we
	// write less we'll return a short write error (same as
	// `io::Write::write_all` does).
	Ok(n) if n < DATA.len() => return Err(io::ErrorKind::WriteZero.into()),
	Ok(_) => {
	// After we've written something we'll reregister the connection
	// to only respond to readable events.
	registry.reregister(connection, event.token(), Interest::READABLE)?
	}
	// Would block "errors" are the OS's way of saying that the
	// connection is not actually ready to perform this I/O operation.
	Err(ref err) if would_block(err) => {}
	// Got interrupted (how rude!), we'll try again.
	Err(ref err) if interrupted(err) => {
	return handle_connection_event(registry, connection, event)
	}
	// Other errors we'll consider fatal.
	Err(err) => return Err(err),
	}
	}

	if event.is_readable() {
	let mut connection_closed = false;
	let mut received_data = vec![0; 4096];
	let mut bytes_read = 0;
	// We can (maybe) read from the connection.
	loop {
	match connection.read(&mut received_data[bytes_read..]) {
	Ok(0) => {
	// Reading 0 bytes means the other side has closed the
	// connection or is done writing, then so are we.
	connection_closed = true;
	break;
	}
	Ok(n) => {
	bytes_read += n;
	if bytes_read == received_data.len() {
	received_data.resize(received_data.len() + 1024, 0);
	}
	}
	// Would block "errors" are the OS's way of saying that the
	// connection is not actually ready to perform this I/O operation.
	Err(ref err) if would_block(err) => break,
	Err(ref err) if interrupted(err) => continue,
	// Other errors we'll consider fatal.
	Err(err) => return Err(err),
	}
	}

	if bytes_read != 0 {
	let received_data = &received_data[..bytes_read];
	if let Ok(str_buf) = from_utf8(received_data) {
	println!("Received data: {}", str_buf.trim_end());
	} else {
	println!("Received (none UTF-8) data: {:?}", received_data);
	}
	}

	if connection_closed {
	println!("Connection closed");
	return Ok(true);
	}
	}

	Ok(false)
	}

	fn would_block(err: &io::Error) -> bool {
	err.kind() == io::ErrorKind::WouldBlock
	}

	fn interrupted(err: &io::Error) -> bool {
	err.kind() == io::ErrorKind::Interrupted
	}