shouichi/ChangeRequest.java

## ChangeRequest.java
import java.nio.channels.SocketChannel;

public class ChangeRequest {
	public static final int REGISTER = 1;
	public static final int CHANGEOPS = 2;

	public SocketChannel socket;
	public int type;
	public int ops;

	public ChangeRequest(SocketChannel socket, int type, int ops) {
		this.socket = socket;
		this.type = type;
		this.ops = ops;
	}
}

## EchoWorker.java
import java.nio.channels.SocketChannel;
import java.util.LinkedList;
import java.util.List;

public class EchoWorker implements Runnable {
	private List<ServerDataEvent> queue = new LinkedList<ServerDataEvent>();

	public void processData(NioServer server, SocketChannel socket, byte[] data, int count) {
		byte[] dataCopy = new byte[count];
		System.arraycopy(data, 0, dataCopy, 0, count);
		synchronized(queue) {
			queue.add(new ServerDataEvent(server, socket, dataCopy));
			queue.notify();
		}
	}

	public void run() {
		ServerDataEvent dataEvent;

		while(true) {
			// Wait for data to become available
			synchronized(queue) {
				while(queue.isEmpty()) {
					try {
						queue.wait();
					} catch (InterruptedException e) {
					}
				}
				dataEvent = (ServerDataEvent) queue.remove(0);
			}

			// Return to sender
			dataEvent.server.send(dataEvent.socket, dataEvent.data);
		}
	}
}

## jpf.properties
nio-server = ${config_path}
nio-server.classpath = ${config_path}
nio-server.sourcepath = ${config_path}

jpf-net-iocache.boot.peer.command=${config_path}/peer.sh

report.console.property_violation=result,error,trace,snapshot

## Makefile
RM=rm -f

JAVAC=javac
JAVAC_FLAGS=-g #-Xlint:unchecked

JAVA=java
JAVA_FLAGS=-ea

JPF=~/jpf/jpf-core/bin/jpf

SOURCES=ChangeRequest.java EchoWorker.java NioClient.java\
	NioServer.java RspHandler.java ServerDataEvent.java
CLASSES=$(SOURCES:.java=.class)

all: compile

compile: $(CLASSES)

server: compile
	$(JAVA) $(JAVA_FLAGS) NioServer

client: compile
	$(JAVA) $(JAVA_FLAGS) NioClient

jpf-server: compile
	$(JPF) NioServer

jpf-client: compile
	$(JPF) NioClient

.SUFFIXES:
.SUFFIXES: .java .class

.java.class:
	$(JAVAC) $(JAVAC_FLAGS) $<

.PHONY: clean
clean:
	$(RM) *.class

## NioClient.java

import java.io.IOException;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.Socket;
import java.nio.ByteBuffer;
import java.nio.channels.SelectionKey;
import java.nio.channels.Selector;
import java.nio.channels.SocketChannel;
import java.nio.channels.spi.SelectorProvider;
import java.util.*;

public class NioClient implements Runnable {
	// The host:port combination to connect to
	private InetAddress hostAddress;
	private int port;

	// The selector we'll be monitoring
	private Selector selector;

	// The buffer into which we'll read data when it's available
	private ByteBuffer readBuffer = ByteBuffer.allocate(8192);

	// A list of PendingChange instances
	private List pendingChanges = new LinkedList();

	// Maps a SocketChannel to a list of ByteBuffer instances
	private Map pendingData = new HashMap();

	// Maps a SocketChannel to a RspHandler
	private Map rspHandlers = Collections.synchronizedMap(new HashMap());

	public NioClient(InetAddress hostAddress, int port) throws IOException {
		this.hostAddress = hostAddress;
		this.port = port;
		this.selector = this.initSelector();
	}

	public void send(byte[] data, RspHandler handler) throws IOException {
		// Start a new connection
		SocketChannel socket = this.initiateConnection();

		// Register the response handler
		this.rspHandlers.put(socket, handler);

		// And queue the data we want written
		synchronized (this.pendingData) {
			List queue = (List) this.pendingData.get(socket);
			if (queue == null) {
				queue = new ArrayList();
				this.pendingData.put(socket, queue);
			}
			queue.add(ByteBuffer.wrap(data));
		}

		// Finally, wake up our selecting thread so it can make the required changes
		this.selector.wakeup();
	}

	public void run() {
		while (true) {
			try {
				// Process any pending changes
				synchronized (this.pendingChanges) {
					Iterator changes = this.pendingChanges.iterator();
					while (changes.hasNext()) {
						ChangeRequest change = (ChangeRequest) changes.next();
						switch (change.type) {
						case ChangeRequest.CHANGEOPS:
							SelectionKey key = change.socket.keyFor(this.selector);
							key.interestOps(change.ops);
							break;
						case ChangeRequest.REGISTER:
							change.socket.register(this.selector, change.ops);
							break;
						}
					}
					this.pendingChanges.clear();
				}

				// Wait for an event one of the registered channels
				this.selector.select(100);

				// Iterate over the set of keys for which events are available
				Iterator selectedKeys = this.selector.selectedKeys().iterator();
				while (selectedKeys.hasNext()) {
					SelectionKey key = (SelectionKey) selectedKeys.next();
					selectedKeys.remove();

					if (!key.isValid()) {
						continue;
					}

					// Check what event is available and deal with it
					if (key.isConnectable()) {
						this.finishConnection(key);
					} else if (key.isReadable()) {
						this.read(key);
					} else if (key.isWritable()) {
						this.write(key);
					}
				}
			} catch (Exception e) {
				e.printStackTrace();
			}
		}
	}

	private void read(SelectionKey key) throws IOException {
		SocketChannel socketChannel = (SocketChannel) key.channel();

		// Clear out our read buffer so it's ready for new data
		this.readBuffer.clear();

		// Attempt to read off the channel
		int numRead;
		try {
			numRead = socketChannel.read(this.readBuffer);
		} catch (IOException e) {
			// The remote forcibly closed the connection, cancel
			// the selection key and close the channel.
			key.cancel();
			socketChannel.close();
			return;
		}

		if (numRead == -1) {
			// Remote entity shut the socket down cleanly. Do the
			// same from our end and cancel the channel.
			key.channel().close();
			key.cancel();
			return;
		}

		// Handle the response
		this.handleResponse(socketChannel, this.readBuffer.array(), numRead);
	}

	private void handleResponse(SocketChannel socketChannel, byte[] data, int numRead) throws IOException {
		// Make a correctly sized copy of the data before handing it
		// to the client
		byte[] rspData = new byte[numRead];
		System.arraycopy(data, 0, rspData, 0, numRead);

		// Look up the handler for this channel
		RspHandler handler = (RspHandler) this.rspHandlers.get(socketChannel);

		// And pass the response to it
		if (handler.handleResponse(rspData)) {
			// The handler has seen enough, close the connection
			socketChannel.close();
			socketChannel.keyFor(this.selector).cancel();
		}
	}

	private void write(SelectionKey key) throws IOException {
		SocketChannel socketChannel = (SocketChannel) key.channel();

		synchronized (this.pendingData) {
			List queue = (List) this.pendingData.get(socketChannel);

			// Write until there's not more data ...
			while (!queue.isEmpty()) {
				ByteBuffer buf = (ByteBuffer) queue.get(0);
				socketChannel.write(buf);
				if (buf.remaining() > 0) {
					// ... or the socket's buffer fills up
					break;
				}
				queue.remove(0);
			}

			if (queue.isEmpty()) {
				// We wrote away all data, so we're no longer interested
				// in writing on this socket. Switch back to waiting for
				// data.
				key.interestOps(SelectionKey.OP_READ);
			}
		}
	}

	private void finishConnection(SelectionKey key) throws IOException {
		SocketChannel socketChannel = (SocketChannel) key.channel();

		// Finish the connection. If the connection operation failed
		// this will raise an IOException.
		try {
			socketChannel.finishConnect();
		} catch (IOException e) {
			// Cancel the channel's registration with our selector
			System.out.println(e);
			key.cancel();
			return;
		}

		// Register an interest in writing on this channel
		key.interestOps(SelectionKey.OP_WRITE);
	}

	private SocketChannel initiateConnection() throws IOException {
		// Create a non-blocking socket channel
		SocketChannel socketChannel = SocketChannel.open();
		socketChannel.configureBlocking(false);

		// Kick off connection establishment
		socketChannel.connect(new InetSocketAddress(this.hostAddress, this.port));

		// Queue a channel registration since the caller is not the
		// selecting thread. As part of the registration we'll register
		// an interest in connection events. These are raised when a channel
		// is ready to complete connection establishment.
		synchronized(this.pendingChanges) {
			this.pendingChanges.add(new ChangeRequest(socketChannel, ChangeRequest.REGISTER, SelectionKey.OP_CONNECT));
		}

		return socketChannel;
	}

	private Selector initSelector() throws IOException {
		// Create a new selector
		return SelectorProvider.provider().openSelector();
	}

	public static void main(String[] args) {
		try {
			NioClient client = new NioClient(InetAddress.getByName("localhost"), 9090);
			Thread t = new Thread(client);
			t.setDaemon(true);
			t.start();
			RspHandler handler = new RspHandler();
			client.send("GET / HTTP/1.0\r\n\r\n".getBytes(), handler);
			handler.waitForResponse();
		} catch (Exception e) {
			e.printStackTrace();
		}
	}
}

## NioServer.java
import java.io.IOException;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.Socket;
import java.nio.ByteBuffer;
import java.nio.channels.SelectionKey;
import java.nio.channels.Selector;
import java.nio.channels.ServerSocketChannel;
import java.nio.channels.SocketChannel;
import java.nio.channels.spi.SelectorProvider;
import java.util.*;

public class NioServer implements Runnable {
	// The host:port combination to listen on
	private InetAddress hostAddress;
	private int port;

	// The channel on which we'll accept connections
	private ServerSocketChannel serverChannel;

	// The selector we'll be monitoring
	private Selector selector;

	// The buffer into which we'll read data when it's available
	private ByteBuffer readBuffer = ByteBuffer.allocate(8192);

	private EchoWorker worker;

	// A list of PendingChange instances
	private List pendingChanges = new LinkedList();

	// Maps a SocketChannel to a list of ByteBuffer instances
	private Map pendingData = new HashMap();

	public NioServer(InetAddress hostAddress, int port, EchoWorker worker) throws IOException {
		this.hostAddress = hostAddress;
		this.port = port;
		this.selector = this.initSelector();
		this.worker = worker;
	}

	public void send(SocketChannel socket, byte[] data) {
		synchronized (this.pendingChanges) {
			// Indicate we want the interest ops set changed
			this.pendingChanges.add(new ChangeRequest(socket, ChangeRequest.CHANGEOPS, SelectionKey.OP_WRITE));

			// And queue the data we want written
			synchronized (this.pendingData) {
				List queue = (List) this.pendingData.get(socket);
				if (queue == null) {
					queue = new ArrayList();
					this.pendingData.put(socket, queue);
				}
				queue.add(ByteBuffer.wrap(data));
			}
		}

		// Finally, wake up our selecting thread so it can make the required changes
		this.selector.wakeup();
	}

	public void run() {
		while (true) {
			try {
				// Process any pending changes
				synchronized (this.pendingChanges) {
					Iterator changes = this.pendingChanges.iterator();
					while (changes.hasNext()) {
						ChangeRequest change = (ChangeRequest) changes.next();
						switch (change.type) {
						case ChangeRequest.CHANGEOPS:
							SelectionKey key = change.socket.keyFor(this.selector);
							if (key != null) {
								key.interestOps(change.ops);
							}
						}
					}
					this.pendingChanges.clear();
				}

				// Wait for an event one of the registered channels
				this.selector.select(100);

				// Iterate over the set of keys for which events are available
				Iterator selectedKeys = this.selector.selectedKeys().iterator();
				while (selectedKeys.hasNext()) {
					SelectionKey key = (SelectionKey) selectedKeys.next();
					selectedKeys.remove();

					if (!key.isValid()) {
						continue;
					}

					// Check what event is available and deal with it
					if (key.isAcceptable()) {
						this.accept(key);
					} else if (key.isReadable()) {
						this.read(key);
					} else if (key.isWritable()) {
						this.write(key);
					}
				}
			} catch (Exception e) {
				e.printStackTrace();
			}
		}
	}

	private void accept(SelectionKey key) throws IOException {
		// For an accept to be pending the channel must be a server socket channel.
		ServerSocketChannel serverSocketChannel = (ServerSocketChannel) key.channel();

		// Accept the connection and make it non-blocking
		SocketChannel socketChannel = serverSocketChannel.accept();
		Socket socket = socketChannel.socket();
		socketChannel.configureBlocking(false);

		// Register the new SocketChannel with our Selector, indicating
		// we'd like to be notified when there's data waiting to be read
		socketChannel.register(this.selector, SelectionKey.OP_READ);
	}

	private void read(SelectionKey key) throws IOException {
		SocketChannel socketChannel = (SocketChannel) key.channel();

		// Clear out our read buffer so it's ready for new data
		this.readBuffer.clear();

		// Attempt to read off the channel
		int numRead;
		try {
			numRead = socketChannel.read(this.readBuffer);
		} catch (IOException e) {
			// The remote forcibly closed the connection, cancel
			// the selection key and close the channel.
			key.cancel();
			socketChannel.close();
			return;
		}

		if (numRead == -1) {
			// Remote entity shut the socket down cleanly. Do the
			// same from our end and cancel the channel.
			key.channel().close();
			key.cancel();
			return;
		}

		// Hand the data off to our worker thread
		this.worker.processData(this, socketChannel, this.readBuffer.array(), numRead);
	}

	private void write(SelectionKey key) throws IOException {
		SocketChannel socketChannel = (SocketChannel) key.channel();

		synchronized (this.pendingData) {
			List queue = (List) this.pendingData.get(socketChannel);

			// Write until there's not more data ...
			while (!queue.isEmpty()) {
				ByteBuffer buf = (ByteBuffer) queue.get(0);
				socketChannel.write(buf);
				if (buf.remaining() > 0) {
					// ... or the socket's buffer fills up
					break;
				}
				queue.remove(0);
			}

			if (queue.isEmpty()) {
				// We wrote away all data, so we're no longer interested
				// in writing on this socket. Switch back to waiting for
				// data.
				key.interestOps(SelectionKey.OP_READ);
			}
		}
	}

	private Selector initSelector() throws IOException {
		// Create a new selector
		Selector socketSelector = SelectorProvider.provider().openSelector();

		// Create a new non-blocking server socket channel
		this.serverChannel = ServerSocketChannel.open();
		serverChannel.configureBlocking(false);

		// Bind the server socket to the specified address and port
		InetSocketAddress isa = new InetSocketAddress(this.hostAddress, this.port);
		serverChannel.socket().bind(isa);

		// Register the server socket channel, indicating an interest in
		// accepting new connections
		serverChannel.register(socketSelector, SelectionKey.OP_ACCEPT);

		return socketSelector;
	}

	public static void main(String[] args) {
		try {
			EchoWorker worker = new EchoWorker();
			new Thread(worker).start();
			new Thread(new NioServer(null, 9090, worker)).start();
		} catch (IOException e) {
			e.printStackTrace();
		}
	}
}

## peer.sh
#!/bin/sh

make client

## RspHandler.java

public class RspHandler {
	private byte[] rsp = null;

	public synchronized boolean handleResponse(byte[] rsp) {
		this.rsp = rsp;
		this.notify();
		return true;
	}

	public synchronized void waitForResponse() {
		while(this.rsp == null) {
			try {
				this.wait();
			} catch (InterruptedException e) {
			}
		}

		System.out.println(new String(this.rsp));
	}
}

## ServerDataEvent.java
import java.nio.channels.SocketChannel;

class ServerDataEvent {
	public NioServer server;
	public SocketChannel socket;
	public byte[] data;

	public ServerDataEvent(NioServer server, SocketChannel socket, byte[] data) {
		this.server = server;
		this.socket = socket;
		this.data = data;
	}
}
	import java.nio.channels.SocketChannel;

	public class ChangeRequest {
	public static final int REGISTER = 1;
	public static final int CHANGEOPS = 2;

	public SocketChannel socket;
	public int type;
	public int ops;

	public ChangeRequest(SocketChannel socket, int type, int ops) {
	this.socket = socket;
	this.type = type;
	this.ops = ops;
	}
	}
	import java.nio.channels.SocketChannel;
	import java.util.LinkedList;
	import java.util.List;

	public class EchoWorker implements Runnable {
	private List<ServerDataEvent> queue = new LinkedList<ServerDataEvent>();

	public void processData(NioServer server, SocketChannel socket, byte[] data, int count) {
	byte[] dataCopy = new byte[count];
	System.arraycopy(data, 0, dataCopy, 0, count);
	synchronized(queue) {
	queue.add(new ServerDataEvent(server, socket, dataCopy));
	queue.notify();
	}
	}

	public void run() {
	ServerDataEvent dataEvent;

	while(true) {
	// Wait for data to become available
	synchronized(queue) {
	while(queue.isEmpty()) {
	try {
	queue.wait();
	} catch (InterruptedException e) {
	}
	}
	dataEvent = (ServerDataEvent) queue.remove(0);
	}

	// Return to sender
	dataEvent.server.send(dataEvent.socket, dataEvent.data);
	}
	}
	}
	nio-server = ${config_path}
	nio-server.classpath = ${config_path}
	nio-server.sourcepath = ${config_path}

	jpf-net-iocache.boot.peer.command=${config_path}/peer.sh

	report.console.property_violation=result,error,trace,snapshot
	RM=rm -f

	JAVAC=javac
	JAVAC_FLAGS=-g #-Xlint:unchecked

	JAVA=java
	JAVA_FLAGS=-ea

	JPF=~/jpf/jpf-core/bin/jpf

	SOURCES=ChangeRequest.java EchoWorker.java NioClient.java\
	NioServer.java RspHandler.java ServerDataEvent.java
	CLASSES=$(SOURCES:.java=.class)

	all: compile

	compile: $(CLASSES)

	server: compile
	$(JAVA) $(JAVA_FLAGS) NioServer

	client: compile
	$(JAVA) $(JAVA_FLAGS) NioClient

	jpf-server: compile
	$(JPF) NioServer

	jpf-client: compile
	$(JPF) NioClient

	.SUFFIXES:
	.SUFFIXES: .java .class

	.java.class:
	$(JAVAC) $(JAVAC_FLAGS) $<

	.PHONY: clean
	clean:
	$(RM) *.class

	import java.io.IOException;
	import java.net.InetAddress;
	import java.net.InetSocketAddress;
	import java.net.Socket;
	import java.nio.ByteBuffer;
	import java.nio.channels.SelectionKey;
	import java.nio.channels.Selector;
	import java.nio.channels.SocketChannel;
	import java.nio.channels.spi.SelectorProvider;
	import java.util.*;

	public class NioClient implements Runnable {
	// The host:port combination to connect to
	private InetAddress hostAddress;
	private int port;

	// The selector we'll be monitoring
	private Selector selector;

	// The buffer into which we'll read data when it's available
	private ByteBuffer readBuffer = ByteBuffer.allocate(8192);

	// A list of PendingChange instances
	private List pendingChanges = new LinkedList();

	// Maps a SocketChannel to a list of ByteBuffer instances
	private Map pendingData = new HashMap();

	// Maps a SocketChannel to a RspHandler
	private Map rspHandlers = Collections.synchronizedMap(new HashMap());

	public NioClient(InetAddress hostAddress, int port) throws IOException {
	this.hostAddress = hostAddress;
	this.port = port;
	this.selector = this.initSelector();
	}

	public void send(byte[] data, RspHandler handler) throws IOException {
	// Start a new connection
	SocketChannel socket = this.initiateConnection();

	// Register the response handler
	this.rspHandlers.put(socket, handler);

	// And queue the data we want written
	synchronized (this.pendingData) {
	List queue = (List) this.pendingData.get(socket);
	if (queue == null) {
	queue = new ArrayList();
	this.pendingData.put(socket, queue);
	}
	queue.add(ByteBuffer.wrap(data));
	}

	// Finally, wake up our selecting thread so it can make the required changes
	this.selector.wakeup();
	}

	public void run() {
	while (true) {
	try {
	// Process any pending changes
	synchronized (this.pendingChanges) {
	Iterator changes = this.pendingChanges.iterator();
	while (changes.hasNext()) {
	ChangeRequest change = (ChangeRequest) changes.next();
	switch (change.type) {
	case ChangeRequest.CHANGEOPS:
	SelectionKey key = change.socket.keyFor(this.selector);
	key.interestOps(change.ops);
	break;
	case ChangeRequest.REGISTER:
	change.socket.register(this.selector, change.ops);
	break;
	}
	}
	this.pendingChanges.clear();
	}

	// Wait for an event one of the registered channels
	this.selector.select(100);

	// Iterate over the set of keys for which events are available
	Iterator selectedKeys = this.selector.selectedKeys().iterator();
	while (selectedKeys.hasNext()) {
	SelectionKey key = (SelectionKey) selectedKeys.next();
	selectedKeys.remove();

	if (!key.isValid()) {
	continue;
	}

	// Check what event is available and deal with it
	if (key.isConnectable()) {
	this.finishConnection(key);
	} else if (key.isReadable()) {
	this.read(key);
	} else if (key.isWritable()) {
	this.write(key);
	}
	}
	} catch (Exception e) {
	e.printStackTrace();
	}
	}
	}

	private void read(SelectionKey key) throws IOException {
	SocketChannel socketChannel = (SocketChannel) key.channel();

	// Clear out our read buffer so it's ready for new data
	this.readBuffer.clear();

	// Attempt to read off the channel
	int numRead;
	try {
	numRead = socketChannel.read(this.readBuffer);
	} catch (IOException e) {
	// The remote forcibly closed the connection, cancel
	// the selection key and close the channel.
	key.cancel();
	socketChannel.close();
	return;
	}

	if (numRead == -1) {
	// Remote entity shut the socket down cleanly. Do the
	// same from our end and cancel the channel.
	key.channel().close();
	key.cancel();
	return;
	}

	// Handle the response
	this.handleResponse(socketChannel, this.readBuffer.array(), numRead);
	}

	private void handleResponse(SocketChannel socketChannel, byte[] data, int numRead) throws IOException {
	// Make a correctly sized copy of the data before handing it
	// to the client
	byte[] rspData = new byte[numRead];
	System.arraycopy(data, 0, rspData, 0, numRead);

	// Look up the handler for this channel
	RspHandler handler = (RspHandler) this.rspHandlers.get(socketChannel);

	// And pass the response to it
	if (handler.handleResponse(rspData)) {
	// The handler has seen enough, close the connection
	socketChannel.close();
	socketChannel.keyFor(this.selector).cancel();
	}
	}

	private void write(SelectionKey key) throws IOException {
	SocketChannel socketChannel = (SocketChannel) key.channel();

	synchronized (this.pendingData) {
	List queue = (List) this.pendingData.get(socketChannel);

	// Write until there's not more data ...
	while (!queue.isEmpty()) {
	ByteBuffer buf = (ByteBuffer) queue.get(0);
	socketChannel.write(buf);
	if (buf.remaining() > 0) {
	// ... or the socket's buffer fills up
	break;
	}
	queue.remove(0);
	}

	if (queue.isEmpty()) {
	// We wrote away all data, so we're no longer interested
	// in writing on this socket. Switch back to waiting for
	// data.
	key.interestOps(SelectionKey.OP_READ);
	}
	}
	}

	private void finishConnection(SelectionKey key) throws IOException {
	SocketChannel socketChannel = (SocketChannel) key.channel();

	// Finish the connection. If the connection operation failed
	// this will raise an IOException.
	try {
	socketChannel.finishConnect();
	} catch (IOException e) {
	// Cancel the channel's registration with our selector
	System.out.println(e);
	key.cancel();
	return;
	}

	// Register an interest in writing on this channel
	key.interestOps(SelectionKey.OP_WRITE);
	}

	private SocketChannel initiateConnection() throws IOException {
	// Create a non-blocking socket channel
	SocketChannel socketChannel = SocketChannel.open();
	socketChannel.configureBlocking(false);

	// Kick off connection establishment
	socketChannel.connect(new InetSocketAddress(this.hostAddress, this.port));

	// Queue a channel registration since the caller is not the
	// selecting thread. As part of the registration we'll register
	// an interest in connection events. These are raised when a channel
	// is ready to complete connection establishment.
	synchronized(this.pendingChanges) {
	this.pendingChanges.add(new ChangeRequest(socketChannel, ChangeRequest.REGISTER, SelectionKey.OP_CONNECT));
	}

	return socketChannel;
	}

	private Selector initSelector() throws IOException {
	// Create a new selector
	return SelectorProvider.provider().openSelector();
	}

	public static void main(String[] args) {
	try {
	NioClient client = new NioClient(InetAddress.getByName("localhost"), 9090);
	Thread t = new Thread(client);
	t.setDaemon(true);
	t.start();
	RspHandler handler = new RspHandler();
	client.send("GET / HTTP/1.0\r\n\r\n".getBytes(), handler);
	handler.waitForResponse();
	} catch (Exception e) {
	e.printStackTrace();
	}
	}
	}

	public class RspHandler {
	private byte[] rsp = null;

	public synchronized boolean handleResponse(byte[] rsp) {
	this.rsp = rsp;
	this.notify();
	return true;
	}

	public synchronized void waitForResponse() {
	while(this.rsp == null) {
	try {
	this.wait();
	} catch (InterruptedException e) {
	}
	}

	System.out.println(new String(this.rsp));
	}
	}
	import java.nio.channels.SocketChannel;

	class ServerDataEvent {
	public NioServer server;
	public SocketChannel socket;
	public byte[] data;

	public ServerDataEvent(NioServer server, SocketChannel socket, byte[] data) {
	this.server = server;
	this.socket = socket;
	this.data = data;
	}
	}