benches/tcp.rs - third_party/tokio-core - Git at Google

 #![feature(test)]

 extern crate futures;
 extern crate tokio_core;

 #[macro_use]
 extern crate tokio_io;

 pub extern crate test;

 mod prelude {
     pub use futures::*;
     pub use tokio_core::reactor::Core;
     pub use tokio_core::net::{TcpListener, TcpStream};
     pub use tokio_io::io::read_to_end;

     pub use test::{self, Bencher};
     pub use std::thread;
     pub use std::time::Duration;
     pub use std::io::{self, Read, Write};
 }

 mod connect_churn {
     use ::prelude::*;

     const NUM: usize = 300;
     const CONCURRENT: usize = 8;

     #[bench]
     fn one_thread(b: &mut Bencher) {
         let addr = "127.0.0.1:0".parse().unwrap();
         let mut core = Core::new().unwrap();
         let handle = core.handle();
         let listener = TcpListener::bind(&addr, &handle).unwrap();
         let addr = listener.local_addr().unwrap();

         // Spawn a single task that accepts & drops connections
         handle.spawn(
             listener.incoming()
                 .map_err(|e| panic!("server err: {:?}", e))
                 .for_each(|_| Ok(())));

         b.iter(move || {
             let connects = stream::iter((0..NUM).map(|_| {
                 Ok(TcpStream::connect(&addr, &handle)
                     .and_then(|sock| {
                         sock.set_linger(Some(Duration::from_secs(0))).unwrap();
                         read_to_end(sock, vec![])
                     }))
             }));

             core.run(
                 connects.buffer_unordered(CONCURRENT)
                     .map_err(|e| panic!("client err: {:?}", e))
                     .for_each(|_| Ok(()))).unwrap();
         });
     }

     fn n_workers(n: usize, b: &mut Bencher) {
         let (shutdown_tx, shutdown_rx) = sync::oneshot::channel();
         let (remote_tx, remote_rx) = ::std::sync::mpsc::channel();

         // Spawn reactor thread
         thread::spawn(move || {
             // Create the core
             let mut core = Core::new().unwrap();

             // Reactor handles
             let handle = core.handle();
             let remote = handle.remote().clone();

             // Bind the TCP listener
             let listener = TcpListener::bind(
                 &"127.0.0.1:0".parse().unwrap(), &handle).unwrap();

             // Get the address being listened on.
             let addr = listener.local_addr().unwrap();

             // Send the remote & address back to the main thread
             remote_tx.send((remote, addr)).unwrap();

             // Spawn a single task that accepts & drops connections
             handle.spawn(
                 listener.incoming()
                     .map_err(|e| panic!("server err: {:?}", e))
                     .for_each(|_| Ok(())));

             // Run the reactor
             core.run(shutdown_rx).unwrap();
         });

         // Get the remote info
         let (remote, addr) = remote_rx.recv().unwrap();

         b.iter(move || {
             use std::sync::{Barrier, Arc};

             // Create a barrier to coordinate threads
             let barrier = Arc::new(Barrier::new(n + 1));

             // Spawn worker threads
             let threads: Vec<_> = (0..n).map(|_| {
                 let barrier = barrier.clone();
                 let remote = remote.clone();
                 let addr = addr.clone();

                 thread::spawn(move || {
                     let connects = stream::iter((0..(NUM / n)).map(|_| {
                         // TODO: Once `Handle` is `Send / Sync`, update this

                         let (socket_tx, socket_rx) = sync::oneshot::channel();

                         remote.spawn(move |handle| {
                             TcpStream::connect(&addr, &handle)
                                 .map_err(|e| panic!("connect err: {:?}", e))
                                 .then(|res| socket_tx.send(res))
                                 .map_err(|_| ())
                         });

                         Ok(socket_rx
                             .then(|res| res.unwrap())
                             .and_then(|sock| {
                                 sock.set_linger(Some(Duration::from_secs(0))).unwrap();
                                 read_to_end(sock, vec![])
                             }))
                     }));

                     barrier.wait();

                     connects.buffer_unordered(CONCURRENT)
                         .map_err(|e| panic!("client err: {:?}", e))
                         .for_each(|_| Ok(())).wait().unwrap();
                 })
             }).collect();

             barrier.wait();

             for th in threads {
                 th.join().unwrap();
             }
         });

         // Shutdown the reactor
         shutdown_tx.send(()).unwrap();
     }

     #[bench]
     fn two_threads(b: &mut Bencher) {
         n_workers(1, b);
     }

     #[bench]
     fn multi_threads(b: &mut Bencher) {
         n_workers(4, b);
     }
 }

 mod transfer {
     use ::prelude::*;
     use std::{cmp, mem};

     const MB: usize = 3 * 1024 * 1024;

     struct Drain {
         sock: TcpStream,
         chunk: usize,
     }

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

         fn poll(&mut self) -> Poll<(), io::Error> {
             let mut buf: [u8; 1024] = unsafe { mem::uninitialized() };

             loop {
                 match try_nb!(self.sock.read(&mut buf[..self.chunk])) {
                     0 => return Ok(Async::Ready(())),
                     _ => {}
                 }
             }
         }
     }

     struct Transfer {
         sock: TcpStream,
         rem: usize,
         chunk: usize,
     }

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

         fn poll(&mut self) -> Poll<(), io::Error> {
             while self.rem > 0 {
                 let len = cmp::min(self.rem, self.chunk);
                 let buf = &DATA[..len];

                 let n = try_nb!(self.sock.write(&buf));
                 self.rem -= n;
             }

             Ok(Async::Ready(()))
         }
     }

     static DATA: [u8; 1024] = [0; 1024];

     fn one_thread(b: &mut Bencher, read_size: usize, write_size: usize) {
         let addr = "127.0.0.1:0".parse().unwrap();
         let mut core = Core::new().unwrap();
         let handle = core.handle();
         let listener = TcpListener::bind(&addr, &handle).unwrap();
         let addr = listener.local_addr().unwrap();

         let h2 = handle.clone();

         // Spawn a single task that accepts & drops connections
         handle.spawn(
             listener.incoming()
                 .map_err(|e| panic!("server err: {:?}", e))
                 .for_each(move |(sock, _)| {
                     sock.set_linger(Some(Duration::from_secs(0))).unwrap();
                     let drain = Drain {
                         sock: sock,
                         chunk: read_size,
                     };

                     h2.spawn(drain.map_err(|e| panic!("server error: {:?}", e)));

                     Ok(())
                 }));

         b.iter(move || {
             let client = TcpStream::connect(&addr, &handle)
                 .and_then(|sock| {
                     Transfer {
                         sock: sock,
                         rem: MB,
                         chunk: write_size,
                     }
                 });

             core.run(
                 client.map_err(|e| panic!("client err: {:?}", e))
                 ).unwrap();
         });
     }

     fn cross_thread(b: &mut Bencher, read_size: usize, write_size: usize) {
         let (shutdown_tx, shutdown_rx) = sync::oneshot::channel();
         let (remote_tx, remote_rx) = ::std::sync::mpsc::channel();

         // Spawn reactor thread
         thread::spawn(move || {
             // Create the core
             let mut core = Core::new().unwrap();

             // Reactor handles
             let handle = core.handle();
             let remote = handle.remote().clone();

             remote_tx.send(remote).unwrap();
             core.run(shutdown_rx).unwrap();
         });

         let remote = remote_rx.recv().unwrap();

         b.iter(move || {
             let (server_tx, server_rx) = sync::oneshot::channel();
             let (client_tx, client_rx) = sync::oneshot::channel();

             remote.spawn(|handle| {
                 let sock = TcpListener::bind(&"127.0.0.1:0".parse().unwrap(), &handle).unwrap();
                 server_tx.send(sock).unwrap();
                 Ok(())
             });

             let remote2 = remote.clone();

             server_rx.and_then(move |server| {
                 let addr = server.local_addr().unwrap();

                 remote2.spawn(move |handle| {
                     let fut = TcpStream::connect(&addr, &handle);
                     client_tx.send(fut).ok().unwrap();
                     Ok(())
                 });

                 let client = client_rx
                     .then(|res| res.unwrap())
                     .and_then(move |sock| {
                         Transfer {
                             sock: sock,
                             rem: MB,
                             chunk: write_size,
                         }
                     });

                 let server = server.incoming().into_future()
                     .map_err(|(e, _)| e)
                     .and_then(move |(sock, _)| {
                         let sock = sock.unwrap().0;
                         sock.set_linger(Some(Duration::from_secs(0))).unwrap();

                         Drain {
                             sock: sock,
                             chunk: read_size,
                         }
                     });

                 client
                     .join(server)
                     .then(|res| {
                         let _ = res.unwrap();
                         Ok(())
                     })
             }).wait().unwrap();
         });

         // Shutdown the reactor
         shutdown_tx.send(()).unwrap();
     }

     mod small_chunks {
         use ::prelude::*;

         #[bench]
         fn one_thread(b: &mut Bencher) {
             super::one_thread(b, 32, 32);
         }

         #[bench]
         fn cross_thread(b: &mut Bencher) {
             super::cross_thread(b, 32, 32);
         }
     }

     mod big_chunks {
         use ::prelude::*;

         #[bench]
         fn one_thread(b: &mut Bencher) {
             super::one_thread(b, 1_024, 1_024);
         }

         #[bench]
         fn cross_thread(b: &mut Bencher) {
             super::cross_thread(b, 1_024, 1_024);
         }
     }
 }
	#![feature(test)]

	extern crate futures;
	extern crate tokio_core;

	#[macro_use]
	extern crate tokio_io;

	pub extern crate test;

	mod prelude {
	pub use futures::*;
	pub use tokio_core::reactor::Core;
	pub use tokio_core::net::{TcpListener, TcpStream};
	pub use tokio_io::io::read_to_end;

	pub use test::{self, Bencher};
	pub use std::thread;
	pub use std::time::Duration;
	pub use std::io::{self, Read, Write};
	}

	mod connect_churn {
	use ::prelude::*;

	const NUM: usize = 300;
	const CONCURRENT: usize = 8;

	#[bench]
	fn one_thread(b: &mut Bencher) {
	let addr = "127.0.0.1:0".parse().unwrap();
	let mut core = Core::new().unwrap();
	let handle = core.handle();
	let listener = TcpListener::bind(&addr, &handle).unwrap();
	let addr = listener.local_addr().unwrap();

	// Spawn a single task that accepts & drops connections
	handle.spawn(
	listener.incoming()
	.map_err(\|e\| panic!("server err: {:?}", e))
	.for_each(\|_\| Ok(())));

	b.iter(move \|\| {
	let connects = stream::iter((0..NUM).map(\|_\| {
	Ok(TcpStream::connect(&addr, &handle)
	.and_then(\|sock\| {
	sock.set_linger(Some(Duration::from_secs(0))).unwrap();
	read_to_end(sock, vec![])
	}))
	}));

	core.run(
	connects.buffer_unordered(CONCURRENT)
	.map_err(\|e\| panic!("client err: {:?}", e))
	.for_each(\|_\| Ok(()))).unwrap();
	});
	}

	fn n_workers(n: usize, b: &mut Bencher) {
	let (shutdown_tx, shutdown_rx) = sync::oneshot::channel();
	let (remote_tx, remote_rx) = ::std::sync::mpsc::channel();

	// Spawn reactor thread
	thread::spawn(move \|\| {
	// Create the core
	let mut core = Core::new().unwrap();

	// Reactor handles
	let handle = core.handle();
	let remote = handle.remote().clone();

	// Bind the TCP listener
	let listener = TcpListener::bind(
	&"127.0.0.1:0".parse().unwrap(), &handle).unwrap();

	// Get the address being listened on.
	let addr = listener.local_addr().unwrap();

	// Send the remote & address back to the main thread
	remote_tx.send((remote, addr)).unwrap();

	// Spawn a single task that accepts & drops connections
	handle.spawn(
	listener.incoming()
	.map_err(\|e\| panic!("server err: {:?}", e))
	.for_each(\|_\| Ok(())));

	// Run the reactor
	core.run(shutdown_rx).unwrap();
	});

	// Get the remote info
	let (remote, addr) = remote_rx.recv().unwrap();

	b.iter(move \|\| {
	use std::sync::{Barrier, Arc};

	// Create a barrier to coordinate threads
	let barrier = Arc::new(Barrier::new(n + 1));

	// Spawn worker threads
	let threads: Vec<_> = (0..n).map(\|_\| {
	let barrier = barrier.clone();
	let remote = remote.clone();
	let addr = addr.clone();

	thread::spawn(move \|\| {
	let connects = stream::iter((0..(NUM / n)).map(\|_\| {
	// TODO: Once `Handle` is `Send / Sync`, update this

	let (socket_tx, socket_rx) = sync::oneshot::channel();

	remote.spawn(move \|handle\| {
	TcpStream::connect(&addr, &handle)
	.map_err(\|e\| panic!("connect err: {:?}", e))
	.then(\|res\| socket_tx.send(res))
	.map_err(\|_\| ())
	});

	Ok(socket_rx
	.then(\|res\| res.unwrap())
	.and_then(\|sock\| {
	sock.set_linger(Some(Duration::from_secs(0))).unwrap();
	read_to_end(sock, vec![])
	}))
	}));

	barrier.wait();

	connects.buffer_unordered(CONCURRENT)
	.map_err(\|e\| panic!("client err: {:?}", e))
	.for_each(\|_\| Ok(())).wait().unwrap();
	})
	}).collect();

	barrier.wait();

	for th in threads {
	th.join().unwrap();
	}
	});

	// Shutdown the reactor
	shutdown_tx.send(()).unwrap();
	}

	#[bench]
	fn two_threads(b: &mut Bencher) {
	n_workers(1, b);
	}

	#[bench]
	fn multi_threads(b: &mut Bencher) {
	n_workers(4, b);
	}
	}

	mod transfer {
	use ::prelude::*;
	use std::{cmp, mem};

	const MB: usize = 3 * 1024 * 1024;

	struct Drain {
	sock: TcpStream,
	chunk: usize,
	}

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

	fn poll(&mut self) -> Poll<(), io::Error> {
	let mut buf: [u8; 1024] = unsafe { mem::uninitialized() };

	loop {
	match try_nb!(self.sock.read(&mut buf[..self.chunk])) {
	0 => return Ok(Async::Ready(())),
	_ => {}
	}
	}
	}
	}

	struct Transfer {
	sock: TcpStream,
	rem: usize,
	chunk: usize,
	}

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

	fn poll(&mut self) -> Poll<(), io::Error> {
	while self.rem > 0 {
	let len = cmp::min(self.rem, self.chunk);
	let buf = &DATA[..len];

	let n = try_nb!(self.sock.write(&buf));
	self.rem -= n;
	}

	Ok(Async::Ready(()))
	}
	}

	static DATA: [u8; 1024] = [0; 1024];

	fn one_thread(b: &mut Bencher, read_size: usize, write_size: usize) {
	let addr = "127.0.0.1:0".parse().unwrap();
	let mut core = Core::new().unwrap();
	let handle = core.handle();
	let listener = TcpListener::bind(&addr, &handle).unwrap();
	let addr = listener.local_addr().unwrap();

	let h2 = handle.clone();

	// Spawn a single task that accepts & drops connections
	handle.spawn(
	listener.incoming()
	.map_err(\|e\| panic!("server err: {:?}", e))
	.for_each(move \|(sock, _)\| {
	sock.set_linger(Some(Duration::from_secs(0))).unwrap();
	let drain = Drain {
	sock: sock,
	chunk: read_size,
	};

	h2.spawn(drain.map_err(\|e\| panic!("server error: {:?}", e)));

	Ok(())
	}));

	b.iter(move \|\| {
	let client = TcpStream::connect(&addr, &handle)
	.and_then(\|sock\| {
	Transfer {
	sock: sock,
	rem: MB,
	chunk: write_size,
	}
	});

	core.run(
	client.map_err(\|e\| panic!("client err: {:?}", e))
	).unwrap();
	});
	}

	fn cross_thread(b: &mut Bencher, read_size: usize, write_size: usize) {
	let (shutdown_tx, shutdown_rx) = sync::oneshot::channel();
	let (remote_tx, remote_rx) = ::std::sync::mpsc::channel();

	// Spawn reactor thread
	thread::spawn(move \|\| {
	// Create the core
	let mut core = Core::new().unwrap();

	// Reactor handles
	let handle = core.handle();
	let remote = handle.remote().clone();

	remote_tx.send(remote).unwrap();
	core.run(shutdown_rx).unwrap();
	});

	let remote = remote_rx.recv().unwrap();

	b.iter(move \|\| {
	let (server_tx, server_rx) = sync::oneshot::channel();
	let (client_tx, client_rx) = sync::oneshot::channel();

	remote.spawn(\|handle\| {
	let sock = TcpListener::bind(&"127.0.0.1:0".parse().unwrap(), &handle).unwrap();
	server_tx.send(sock).unwrap();
	Ok(())
	});

	let remote2 = remote.clone();

	server_rx.and_then(move \|server\| {
	let addr = server.local_addr().unwrap();

	remote2.spawn(move \|handle\| {
	let fut = TcpStream::connect(&addr, &handle);
	client_tx.send(fut).ok().unwrap();
	Ok(())
	});

	let client = client_rx
	.then(\|res\| res.unwrap())
	.and_then(move \|sock\| {
	Transfer {
	sock: sock,
	rem: MB,
	chunk: write_size,
	}
	});

	let server = server.incoming().into_future()
	.map_err(\|(e, _)\| e)
	.and_then(move \|(sock, _)\| {
	let sock = sock.unwrap().0;
	sock.set_linger(Some(Duration::from_secs(0))).unwrap();

	Drain {
	sock: sock,
	chunk: read_size,
	}
	});

	client
	.join(server)
	.then(\|res\| {
	let _ = res.unwrap();
	Ok(())
	})
	}).wait().unwrap();
	});

	// Shutdown the reactor
	shutdown_tx.send(()).unwrap();
	}

	mod small_chunks {
	use ::prelude::*;

	#[bench]
	fn one_thread(b: &mut Bencher) {
	super::one_thread(b, 32, 32);
	}

	#[bench]
	fn cross_thread(b: &mut Bencher) {
	super::cross_thread(b, 32, 32);
	}
	}

	mod big_chunks {
	use ::prelude::*;

	#[bench]
	fn one_thread(b: &mut Bencher) {
	super::one_thread(b, 1_024, 1_024);
	}

	#[bench]
	fn cross_thread(b: &mut Bencher) {
	super::cross_thread(b, 1_024, 1_024);
	}
	}
	}