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//
//  ========================================================================
//  Copyright (c) 1995-2012 Mort Bay Consulting Pty. Ltd.
//  ------------------------------------------------------------------------
//  All rights reserved. This program and the accompanying materials
//  are made available under the terms of the Eclipse Public License v1.0
//  and Apache License v2.0 which accompanies this distribution.
//
//      The Eclipse Public License is available at
//      http://www.eclipse.org/legal/epl-v10.html
//
//      The Apache License v2.0 is available at
//      http://www.opensource.org/licenses/apache2.0.php
//
//  You may elect to redistribute this code under either of these licenses.
//  ========================================================================
//

package org.eclipse.jetty.io;

import java.io.Closeable;
import java.io.IOException;
import java.net.ConnectException;
import java.net.Socket;
import java.net.SocketAddress;
import java.net.SocketTimeoutException;
import java.nio.channels.CancelledKeyException;
import java.nio.channels.ClosedChannelException;
import java.nio.channels.SelectionKey;
import java.nio.channels.Selector;
import java.nio.channels.ServerSocketChannel;
import java.nio.channels.SocketChannel;
import java.util.ArrayList;
import java.util.List;
import java.util.Queue;
import java.util.Set;
import java.util.concurrent.ConcurrentLinkedQueue;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.Executor;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;

import org.eclipse.jetty.util.TypeUtil;
import org.eclipse.jetty.util.component.AbstractLifeCycle;
import org.eclipse.jetty.util.component.ContainerLifeCycle;
import org.eclipse.jetty.util.component.Dumpable;
import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.log.Logger;
import org.eclipse.jetty.util.thread.Scheduler;

/**
 * 

{@link SelectorManager} manages a number of {@link ManagedSelector}s that * simplify the non-blocking primitives provided by the JVM via the {@code java.nio} package.

*

{@link SelectorManager} subclasses implement methods to return protocol-specific * {@link EndPoint}s and {@link Connection}s.

*/ public abstract class SelectorManager extends AbstractLifeCycle implements Dumpable { protected static final Logger LOG = Log.getLogger(SelectorManager.class); private final Executor executor; private final Scheduler scheduler; private final ManagedSelector[] _selectors; private long _connectTimeout = 15000; private long _selectorIndex; protected SelectorManager(Executor executor, Scheduler scheduler) { this(executor, scheduler, (Runtime.getRuntime().availableProcessors() + 1) / 2); } protected SelectorManager(Executor executor, Scheduler scheduler, int selectors) { this.executor = executor; this.scheduler = scheduler; _selectors = new ManagedSelector[selectors]; } public Executor getExecutor() { return executor; } public Scheduler getScheduler() { return scheduler; } public long getConnectTimeout() { return _connectTimeout; } public void setConnectTimeout(long connectTimeout) { _connectTimeout = connectTimeout; } /** * Executes the given task in a different thread. * * @param task the task to execute */ protected void execute(Runnable task) { executor.execute(task); } /** * @return the number of selectors in use */ public int getSelectorCount() { return _selectors.length; } private ManagedSelector chooseSelector() { // The ++ increment here is not atomic, but it does not matter, // so long as the value changes sometimes, then connections will // be distributed over the available selectors. long s = _selectorIndex++; int index = (int)(s % getSelectorCount()); return _selectors[index]; } /** *

Registers a channel to perform a non-blocking connect.

*

The channel must be set in non-blocking mode, and {@link SocketChannel#connect(SocketAddress)} * must be called prior to calling this method.

* * @param channel the channel to register * @param attachment the attachment object */ public void connect(SocketChannel channel, Object attachment) { ManagedSelector set = chooseSelector(); set.submit(set.new Connect(channel, attachment)); } /** *

Registers a channel to perform non-blocking read/write operations.

*

This method is called just after a channel has been accepted by {@link ServerSocketChannel#accept()}, * or just after having performed a blocking connect via {@link Socket#connect(SocketAddress, int)}.

* * @param channel the channel to register */ public void accept(final SocketChannel channel) { final ManagedSelector selector = chooseSelector(); selector.submit(selector.new Accept(channel)); } @Override protected void doStart() throws Exception { super.doStart(); for (int i = 0; i < _selectors.length; i++) { ManagedSelector selector = newSelector(i); _selectors[i] = selector; selector.start(); execute(selector); } } /** *

Factory method for {@link ManagedSelector}.

* * @param id an identifier for the {@link ManagedSelector to create} * @return a new {@link ManagedSelector} */ protected ManagedSelector newSelector(int id) { return new ManagedSelector(id); } @Override protected void doStop() throws Exception { for (ManagedSelector selector : _selectors) selector.stop(); super.doStop(); } /** *

Callback method invoked when an endpoint is opened.

* * @param endpoint the endpoint being opened */ protected void endPointOpened(EndPoint endpoint) { endpoint.onOpen(); } /** *

Callback method invoked when an endpoint is closed.

* * @param endpoint the endpoint being closed */ protected void endPointClosed(EndPoint endpoint) { endpoint.onClose(); } /** *

Callback method invoked when a connection is opened.

* * @param connection the connection just opened */ public void connectionOpened(Connection connection) { try { connection.onOpen(); } catch (Exception x) { LOG.info("Exception while notifying connection " + connection, x); } } /** *

Callback method invoked when a connection is closed.

* * @param connection the connection just closed */ public void connectionClosed(Connection connection) { try { connection.onClose(); } catch (Exception x) { LOG.info("Exception while notifying connection " + connection, x); } } protected boolean finishConnect(SocketChannel channel) throws IOException { return channel.finishConnect(); } /** *

Callback method invoked when a non-blocking connect cannot be completed.

*

By default it just logs with level warning.

* * @param channel the channel that attempted the connect * @param ex the exception that caused the connect to fail * @param attachment the attachment object associated at registration */ protected void connectionFailed(SocketChannel channel, Throwable ex, Object attachment) { LOG.warn(String.format("%s - %s", channel, attachment), ex); } /** *

Factory method to create {@link EndPoint}.

*

This method is invoked as a result of the registration of a channel via {@link #connect(SocketChannel, Object)} * or {@link #accept(SocketChannel)}.

* * @param channel the channel associated to the endpoint * @param selector the selector the channel is registered to * @param selectionKey the selection key * @return a new endpoint * @throws IOException if the endPoint cannot be created * @see #newConnection(SocketChannel, EndPoint, Object) */ protected abstract EndPoint newEndPoint(SocketChannel channel, SelectorManager.ManagedSelector selector, SelectionKey selectionKey) throws IOException; /** *

Factory method to create {@link Connection}.

* * @param channel the channel associated to the connection * @param endpoint the endpoint * @param attachment the attachment * @return a new connection * @throws IOException * @see #newEndPoint(SocketChannel, ManagedSelector, SelectionKey) */ public abstract Connection newConnection(SocketChannel channel, EndPoint endpoint, Object attachment) throws IOException; @Override public String dump() { return ContainerLifeCycle.dump(this); } @Override public void dump(Appendable out, String indent) throws IOException { ContainerLifeCycle.dumpObject(out, this); ContainerLifeCycle.dump(out, indent, TypeUtil.asList(_selectors)); } /** *

{@link ManagedSelector} wraps a {@link Selector} simplifying non-blocking operations on channels.

*

{@link ManagedSelector} runs the select loop, which waits on {@link Selector#select()} until events * happen for registered channels. When events happen, it notifies the {@link EndPoint} associated * with the channel.

*/ public class ManagedSelector extends AbstractLifeCycle implements Runnable, Dumpable { private final Queue _changes = new ConcurrentLinkedQueue<>(); private final int _id; private Selector _selector; private volatile Thread _thread; private boolean _needsWakeup = true; private boolean _runningChanges = false; public ManagedSelector(int id) { _id = id; setStopTimeout(5000); } @Override protected void doStart() throws Exception { super.doStart(); _selector = Selector.open(); } @Override protected void doStop() throws Exception { LOG.debug("Stopping {}", this); Stop stop = new Stop(); submit(stop); stop.await(getStopTimeout()); LOG.debug("Stopped {}", this); } /** *

Submits a change to be executed in the selector thread.

*

Changes may be submitted from any thread, and the selector thread woken up * (if necessary) to execute the change.

* * @param change the change to submit */ public void submit(Runnable change) { // if we have been called by the selector thread we can directly run the change if (_thread==Thread.currentThread()) { // If we are already iterating over the changes, just add this change to the list. // No race here because it is this thread that is iterating over the changes. if (_runningChanges) _changes.offer(change); else { // Otherwise we run the queued changes runChanges(); // and then directly run the passed change runChange(change); } } else { // otherwise we have to queue the change and wakeup the selector _changes.offer(change); LOG.debug("Queued change {}", change); boolean wakeup = _needsWakeup; if (wakeup) wakeup(); } } private void runChanges() { try { if (_runningChanges) throw new IllegalStateException(); _runningChanges=true; Runnable change; while ((change = _changes.poll()) != null) runChange(change); } finally { _runningChanges=false; } } protected void runChange(Runnable change) { LOG.debug("Running change {}", change); change.run(); } @Override public void run() { _thread = Thread.currentThread(); String name = _thread.getName(); try { _thread.setName(name + "-selector-" + _id); LOG.debug("Starting {} on {}", _thread, this); while (isRunning()) select(); processChanges(); } finally { LOG.debug("Stopped {} on {}", _thread, this); _thread.setName(name); } } /** *

Process changes and waits on {@link Selector#select()}.

* * @see #submit(Runnable) */ public void select() { boolean debug = LOG.isDebugEnabled(); try { processChanges(); if (debug) LOG.debug("Selector loop waiting on select"); int selected = _selector.select(); if (debug) LOG.debug("Selector loop woken up from select, {}/{} selected", selected, _selector.keys().size()); _needsWakeup = false; Set selectedKeys = _selector.selectedKeys(); for (SelectionKey key : selectedKeys) { if (key.isValid()) { processKey(key); } else { if (debug) LOG.debug("Selector loop ignoring invalid key for channel {}", key.channel()); Object attachment = key.attachment(); if (attachment instanceof EndPoint) ((EndPoint)attachment).close(); } } selectedKeys.clear(); } catch (Exception x) { if (isRunning()) LOG.warn(x); else LOG.ignore(x); } } private void processChanges() { runChanges(); // If tasks are submitted between these 2 statements, they will not // wakeup the selector, therefore below we run again the tasks _needsWakeup = true; // Run again the tasks to avoid the race condition where a task is // submitted but will not wake up the selector runChanges(); } private void processKey(SelectionKey key) { Object attachment = key.attachment(); try { if (attachment instanceof SelectableEndPoint) { ((SelectableEndPoint)attachment).onSelected(); } else if (key.isConnectable()) { processConnect(key, (Connect)attachment); } else { throw new IllegalStateException(); } } catch (CancelledKeyException x) { LOG.debug("Ignoring cancelled key for channel {}", key.channel()); if (attachment instanceof EndPoint) ((EndPoint)attachment).close(); } catch (Exception x) { LOG.warn("Could not process key for channel " + key.channel(), x); if (attachment instanceof EndPoint) ((EndPoint)attachment).close(); } } private void processConnect(SelectionKey key, Connect connect) { key.attach(connect.attachment); SocketChannel channel = (SocketChannel)key.channel(); try { boolean connected = finishConnect(channel); if (connected) { connect.timeout.cancel(); key.interestOps(0); EndPoint endpoint = createEndPoint(channel, key); key.attach(endpoint); } else { throw new ConnectException(); } } catch (Exception x) { connect.failed(x); closeNoExceptions(channel); } } private void closeNoExceptions(Closeable closeable) { try { closeable.close(); } catch (IOException x) { LOG.ignore(x); } } public void wakeup() { _selector.wakeup(); } public boolean isSelectorThread() { return Thread.currentThread() == _thread; } private EndPoint createEndPoint(SocketChannel channel, SelectionKey selectionKey) throws IOException { EndPoint endPoint = newEndPoint(channel, this, selectionKey); endPointOpened(endPoint); Connection connection = newConnection(channel, endPoint, selectionKey.attachment()); endPoint.setConnection(connection); connectionOpened(connection); LOG.debug("Created {}", endPoint); return endPoint; } public void destroyEndPoint(EndPoint endPoint) { LOG.debug("Destroyed {}", endPoint); Connection connection = endPoint.getConnection(); if (connection != null) connectionClosed(connection); endPointClosed(endPoint); } @Override public String dump() { return ContainerLifeCycle.dump(this); } @Override public void dump(Appendable out, String indent) throws IOException { out.append(String.valueOf(this)).append(" id=").append(String.valueOf(_id)).append("\n"); Thread selecting = _thread; Object where = "not selecting"; StackTraceElement[] trace = selecting == null ? null : selecting.getStackTrace(); if (trace != null) { for (StackTraceElement t : trace) if (t.getClassName().startsWith("org.eclipse.jetty.")) { where = t; break; } } Selector selector = _selector; if (selector != null) { final ArrayList dump = new ArrayList<>(selector.keys().size() * 2); dump.add(where); DumpKeys dumpKeys = new DumpKeys(dump); submit(dumpKeys); dumpKeys.await(5, TimeUnit.SECONDS); ContainerLifeCycle.dump(out, indent, dump); } } public void dumpKeysState(List dumps) { Selector selector = _selector; Set keys = selector.keys(); dumps.add(selector + " keys=" + keys.size()); for (SelectionKey key : keys) { if (key.isValid()) dumps.add(key.attachment() + " iOps=" + key.interestOps() + " rOps=" + key.readyOps()); else dumps.add(key.attachment() + " iOps=-1 rOps=-1"); } } @Override public String toString() { Selector selector = _selector; return String.format("%s keys=%d selected=%d", super.toString(), selector != null && selector.isOpen() ? selector.keys().size() : -1, selector != null && selector.isOpen() ? selector.selectedKeys().size() : -1); } private class DumpKeys implements Runnable { private final CountDownLatch latch = new CountDownLatch(1); private final List _dumps; private DumpKeys(List dumps) { this._dumps = dumps; } @Override public void run() { dumpKeysState(_dumps); latch.countDown(); } public boolean await(long timeout, TimeUnit unit) { try { return latch.await(timeout, unit); } catch (InterruptedException x) { return false; } } } private class Accept implements Runnable { private final SocketChannel _channel; public Accept(SocketChannel channel) { this._channel = channel; } @Override public void run() { try { SelectionKey key = _channel.register(_selector, 0, null); EndPoint endpoint = createEndPoint(_channel, key); key.attach(endpoint); } catch (IOException x) { LOG.debug(x); } } } private class Connect implements Runnable { private final AtomicBoolean failed = new AtomicBoolean(); private final SocketChannel channel; private final Object attachment; private final Scheduler.Task timeout; public Connect(SocketChannel channel, Object attachment) { this.channel = channel; this.attachment = attachment; this.timeout = scheduler.schedule(new ConnectTimeout(this), getConnectTimeout(), TimeUnit.MILLISECONDS); } @Override public void run() { try { channel.register(_selector, SelectionKey.OP_CONNECT, this); } catch (ClosedChannelException x) { LOG.debug(x); } } protected void failed(Throwable failure) { if (failed.compareAndSet(false, true)) connectionFailed(channel, failure, attachment); } } private class ConnectTimeout implements Runnable { private final Connect connect; private ConnectTimeout(Connect connect) { this.connect = connect; } @Override public void run() { SocketChannel channel = connect.channel; if (channel.isConnectionPending()) { LOG.debug("Channel {} timed out while connecting, closing it", channel); try { // This will unregister the channel from the selector channel.close(); } catch (IOException x) { LOG.ignore(x); } finally { connect.failed(new SocketTimeoutException()); } } } } private class Stop implements Runnable { private final CountDownLatch latch = new CountDownLatch(1); @Override public void run() { try { for (SelectionKey key : _selector.keys()) { Object attachment = key.attachment(); if (attachment instanceof EndPoint) { EndPointCloser closer = new EndPointCloser((EndPoint)attachment); execute(closer); // We are closing the SelectorManager, so we want to block the // selector thread here until we have closed all EndPoints. // This is different than calling close() directly, because close() // can wait forever, while here we are limited by the stop timeout. closer.await(getStopTimeout()); } } closeNoExceptions(_selector); } finally { latch.countDown(); } } public boolean await(long timeout) { try { return latch.await(timeout, TimeUnit.MILLISECONDS); } catch (InterruptedException x) { return false; } } } private class EndPointCloser implements Runnable { private final CountDownLatch latch = new CountDownLatch(1); private final EndPoint endPoint; private EndPointCloser(EndPoint endPoint) { this.endPoint = endPoint; } @Override public void run() { try { endPoint.getConnection().close(); } finally { latch.countDown(); } } private boolean await(long timeout) { try { return latch.await(timeout, TimeUnit.MILLISECONDS); } catch (InterruptedException x) { return false; } } } } /** * A {@link SelectableEndPoint} is an {@link EndPoint} that wish to be notified of * non-blocking events by the {@link ManagedSelector}. */ public interface SelectableEndPoint extends EndPoint { /** *

Callback method invoked when a read or write events has been detected by the {@link ManagedSelector} * for this endpoint.

*/ void onSelected(); } }