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 * and Distribution License("CDDL") (collectively, the "License").  You
 * may not use this file except in compliance with the License.  You can
 * obtain a copy of the License at
 * https://glassfish.dev.java.net/public/CDDL+GPL_1_1.html
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package com.pdd.pop.ext.glassfish.grizzly.nio;

import java.io.IOException;
import java.nio.channels.spi.SelectorProvider;
import java.util.HashSet;
import java.util.Set;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.ThreadFactory;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.locks.Lock;
import java.util.logging.Level;
import java.util.logging.Logger;

import com.pdd.pop.ext.glassfish.grizzly.AbstractTransport;
import com.pdd.pop.ext.glassfish.grizzly.Connection;
import com.pdd.pop.ext.glassfish.grizzly.GracefulShutdownListener;
import com.pdd.pop.ext.glassfish.grizzly.Grizzly;
import com.pdd.pop.ext.glassfish.grizzly.GrizzlyFuture;
import com.pdd.pop.ext.glassfish.grizzly.SocketBinder;
import com.pdd.pop.ext.glassfish.grizzly.SocketConnectorHandler;
import com.pdd.pop.ext.glassfish.grizzly.StandaloneProcessor;
import com.pdd.pop.ext.glassfish.grizzly.Transport;
import com.pdd.pop.ext.glassfish.grizzly.TransportProbe;
import com.pdd.pop.ext.glassfish.grizzly.asyncqueue.AsyncQueueEnabledTransport;
import com.pdd.pop.ext.glassfish.grizzly.impl.FutureImpl;
import com.pdd.pop.ext.glassfish.grizzly.localization.LogMessages;
import com.pdd.pop.ext.glassfish.grizzly.nio.tmpselectors.TemporarySelectorIO;
import com.pdd.pop.ext.glassfish.grizzly.nio.tmpselectors.TemporarySelectorPool;
import com.pdd.pop.ext.glassfish.grizzly.nio.tmpselectors.TemporarySelectorsEnabledTransport;
import com.pdd.pop.ext.glassfish.grizzly.strategies.SameThreadIOStrategy;
import com.pdd.pop.ext.glassfish.grizzly.strategies.WorkerThreadIOStrategy;
import com.pdd.pop.ext.glassfish.grizzly.threadpool.AbstractThreadPool;
import com.pdd.pop.ext.glassfish.grizzly.threadpool.GrizzlyExecutorService;
import com.pdd.pop.ext.glassfish.grizzly.threadpool.ThreadPoolConfig;
import com.pdd.pop.ext.glassfish.grizzly.utils.Futures;

/**
 *
 * @author oleksiys
 */
public abstract class NIOTransport extends AbstractTransport
        implements SocketBinder, SocketConnectorHandler,
        TemporarySelectorsEnabledTransport, AsyncQueueEnabledTransport {

    public static final int DEFAULT_SERVER_SOCKET_SO_TIMEOUT = 0;

    public static final boolean DEFAULT_REUSE_ADDRESS = true;
    public static final int DEFAULT_CLIENT_SOCKET_SO_TIMEOUT = 0;
    public static final int DEFAULT_CONNECTION_TIMEOUT =
            SocketConnectorHandler.DEFAULT_CONNECTION_TIMEOUT;
    public static final int DEFAULT_SELECTOR_RUNNER_COUNT = -1;
    public static final boolean DEFAULT_OPTIMIZED_FOR_MULTIPLEXING = false;

    private static final Logger LOGGER = Grizzly.logger(NIOTransport.class);

    protected SelectorHandler selectorHandler;
    protected SelectionKeyHandler selectionKeyHandler;
    /**
     * The server socket time out
     */
    int serverSocketSoTimeout = DEFAULT_SERVER_SOCKET_SO_TIMEOUT;
    /**
     * The socket reuseAddress
     */
    boolean reuseAddress = DEFAULT_REUSE_ADDRESS;
    /**
     * The socket time out
     */
    int clientSocketSoTimeout = DEFAULT_CLIENT_SOCKET_SO_TIMEOUT;
    /**
     * Default channel connection timeout
     */
    int connectionTimeout = DEFAULT_CONNECTION_TIMEOUT;
    
    protected ChannelConfigurator channelConfigurator;

    private int selectorRunnersCount = DEFAULT_SELECTOR_RUNNER_COUNT;

    private boolean optimizedForMultiplexing = DEFAULT_OPTIMIZED_FOR_MULTIPLEXING;

    protected SelectorRunner[] selectorRunners;
    
    protected NIOChannelDistributor nioChannelDistributor;

    protected SelectorProvider selectorProvider = SelectorProvider.provider();

    protected final TemporarySelectorIO temporarySelectorIO;

    protected Set shutdownListeners;

    /**
     * Future to control graceful shutdown status
     */
    protected FutureImpl shutdownFuture;

    /**
     * ExecutorService hosting shutdown listener threads.
     */
    protected ExecutorService shutdownService;

    public NIOTransport(final String name) {
        super(name);
        temporarySelectorIO = createTemporarySelectorIO();
    }

    @Override
    public abstract void unbindAll();

    @Override
    public boolean addShutdownListener(final GracefulShutdownListener shutdownListener) {
        final Lock lock = state.getStateLocker().writeLock();
        lock.lock();
        try {
            final State stateNow = state.getState();
            if (stateNow != State.STOPPING || stateNow != State.STOPPED) {
                if (shutdownListeners == null) {
                    shutdownListeners = new HashSet();
                }
                return shutdownListeners.add(shutdownListener);
            }
            return false;
        } finally {
            lock.unlock();
        }
    }

    public TemporarySelectorIO getTemporarySelectorIO() {
        return temporarySelectorIO;
    }

    public SelectionKeyHandler getSelectionKeyHandler() {
        return selectionKeyHandler;
    }

    public void setSelectionKeyHandler(final SelectionKeyHandler selectionKeyHandler) {
        this.selectionKeyHandler = selectionKeyHandler;
        notifyProbesConfigChanged(this);
    }

    public SelectorHandler getSelectorHandler() {
        return selectorHandler;
    }

    public void setSelectorHandler(final SelectorHandler selectorHandler) {
        this.selectorHandler = selectorHandler;
        notifyProbesConfigChanged(this);
    }

    /**
     * @return the configurator responsible for initial {@link SelectableChannel}
     * configuration
     */
    public ChannelConfigurator getChannelConfigurator() {
        return channelConfigurator;
    }

    /**
     * Sets the configurator responsible for initial {@link SelectableChannel}
     * configuration.
     * 
     * @param channelConfigurator {@link ChannelConfigurator}
     */
    public void setChannelConfigurator(
            final ChannelConfigurator channelConfigurator) {
        this.channelConfigurator = channelConfigurator;
        notifyProbesConfigChanged(this);
    }

    /**
     * @return the number of {@link SelectorRunner}s used for handling
     * NIO events
     */
    public int getSelectorRunnersCount() {
        if (selectorRunnersCount <= 0) {
            selectorRunnersCount = getDefaultSelectorRunnersCount();
        }
        
        return selectorRunnersCount;
    }

    /**
     * Sets the number of {@link SelectorRunner}s used for handling
     * NIO events.
     * @param selectorRunnersCount
     */
    public void setSelectorRunnersCount(final int selectorRunnersCount) {
        if (selectorRunnersCount > 0) {
            this.selectorRunnersCount = selectorRunnersCount;
            if (kernelPoolConfig != null &&
                    kernelPoolConfig.getMaxPoolSize() < selectorRunnersCount) {
                kernelPoolConfig.setCorePoolSize(selectorRunnersCount)
                                .setMaxPoolSize(selectorRunnersCount);
            }
            notifyProbesConfigChanged(this);
        }
    }

    /**
     * Get the {@link SelectorProvider} to be used by this transport.
     * 
     * @return the {@link SelectorProvider} to be used by this transport.
     */    
    public SelectorProvider getSelectorProvider() {
        return selectorProvider;
    }

    /**
     * Set the {@link SelectorProvider} to be used by this transport.
     *
     * @param selectorProvider the {@link SelectorProvider}.
     */
    public void setSelectorProvider(final SelectorProvider selectorProvider) {
        this.selectorProvider = selectorProvider != null
                ? selectorProvider
                : SelectorProvider.provider();
    }

    /**
     * Returns true, if NIOTransport is configured to use
     * {@link com.pdd.pop.ext.glassfish.grizzly.asyncqueue.AsyncQueueWriter}, optimized to be used in connection multiplexing
     * mode, or false otherwise.
     *
     * @return true, if NIOTransport is configured to use
     * {@link com.pdd.pop.ext.glassfish.grizzly.asyncqueue.AsyncQueueWriter}, optimized to be used in connection multiplexing
     * mode, or false otherwise.
     */
    @SuppressWarnings("UnusedDeclaration")
    public boolean isOptimizedForMultiplexing() {
        return optimizedForMultiplexing;
    }

    /**
     * Configures NIOTransport to be optimized for specific for the
     * connection multiplexing usecase, when different threads will try to
     * write data simultaneously.
     */
    public void setOptimizedForMultiplexing(final boolean optimizedForMultiplexing) {
        this.optimizedForMultiplexing = optimizedForMultiplexing;
        getAsyncQueueIO().getWriter().setAllowDirectWrite(!optimizedForMultiplexing);
    }

    protected synchronized void startSelectorRunners() throws IOException {
        selectorRunners = new SelectorRunner[selectorRunnersCount];
        
        for (int i = 0; i < selectorRunnersCount; i++) {
            final SelectorRunner runner = SelectorRunner.create(this);
            runner.start();
            selectorRunners[i] = runner;
        }
    }
    
    protected synchronized void stopSelectorRunners() {
        if (selectorRunners == null) {
            return;
        }

        for (int i = 0; i < selectorRunners.length; i++) {
            SelectorRunner runner = selectorRunners[i];
            if (runner != null) {
                runner.stop();
                selectorRunners[i] = null;
            }
        }

        selectorRunners = null;
    }

    public NIOChannelDistributor getNIOChannelDistributor() {
        return nioChannelDistributor;
    }

    public void setNIOChannelDistributor(final NIOChannelDistributor nioChannelDistributor) {
        this.nioChannelDistributor = nioChannelDistributor;
        notifyProbesConfigChanged(this);
    }

    /**
     * {@inheritDoc}
     */
    @Override
    public void notifyTransportError(final Throwable error) {
        notifyProbesError(this, error);
    }

    protected SelectorRunner[] getSelectorRunners() {
        return selectorRunners;
    }

    /**
     * Notify registered {@link TransportProbe}s about the error.
     *
     * @param transport the Transport event occurred on.
     */
    protected static void notifyProbesError(final NIOTransport transport,
            final Throwable error) {
        final TransportProbe[] probes =
                transport.transportMonitoringConfig.getProbesUnsafe();
        if (probes != null) {
            for (TransportProbe probe : probes) {
                probe.onErrorEvent(transport, error);
            }
        }
    }

    /**
     * Notify registered {@link TransportProbe}s about the start event.
     *
     * @param transport the Transport event occurred on.
     */
    protected static void notifyProbesStart(final NIOTransport transport) {
        final TransportProbe[] probes =
                transport.transportMonitoringConfig.getProbesUnsafe();
        if (probes != null) {
            for (TransportProbe probe : probes) {
                probe.onStartEvent(transport);
            }
        }
    }
    
    /**
     * Notify registered {@link TransportProbe}s about the stop event.
     *
     * @param transport the Transport event occurred on.
     */
    protected static void notifyProbesStop(final NIOTransport transport) {
        final TransportProbe[] probes =
                transport.transportMonitoringConfig.getProbesUnsafe();
        if (probes != null) {
            for (TransportProbe probe : probes) {
                probe.onStopEvent(transport);
            }
        }
    }

    /**
     * Notify registered {@link TransportProbe}s about the pause event.
     *
     * @param transport the Transport event occurred on.
     */
    protected static void notifyProbesPause(final NIOTransport transport) {
        final TransportProbe[] probes =
                transport.transportMonitoringConfig.getProbesUnsafe();
        if (probes != null) {
            for (TransportProbe probe : probes) {
                probe.onPauseEvent(transport);
            }
        }
    }

    /**
     * Notify registered {@link TransportProbe}s about the resume event.
     *
     * @param transport the Transport event occurred on.
     */
    protected static void notifyProbesResume(final NIOTransport transport) {
        final TransportProbe[] probes =
                transport.transportMonitoringConfig.getProbesUnsafe();
        if (probes != null) {
            for (TransportProbe probe : probes) {
                probe.onResumeEvent(transport);
            }
        }
    }

    /**
     * Start TCPNIOTransport.
     * 

* The transport will be started only if its current state is {@link State#STOPPED}, * otherwise the call will be ignored without exception thrown and the transport * state will remain the same as it was before the method call. */ @Override public void start() throws IOException { final Lock lock = state.getStateLocker().writeLock(); lock.lock(); try { State currentState = state.getState(); if (currentState != State.STOPPED) { LOGGER.log(Level.WARNING, LogMessages.WARNING_GRIZZLY_TRANSPORT_NOT_STOP_STATE_EXCEPTION()); return; } state.setState(State.STARTING); notifyProbesBeforeStart(this); if (selectorProvider == null) { selectorProvider = SelectorProvider.provider(); } if (selectorHandler == null) { selectorHandler = new DefaultSelectorHandler(); } if (selectionKeyHandler == null) { selectionKeyHandler = new DefaultSelectionKeyHandler(); } if (processor == null && processorSelector == null) { processor = new StandaloneProcessor(); } final int selectorRunnersCnt = getSelectorRunnersCount(); if (nioChannelDistributor == null) { nioChannelDistributor = new RoundRobinConnectionDistributor(this); } if (kernelPool == null) { if (kernelPoolConfig == null) { kernelPoolConfig = ThreadPoolConfig.defaultConfig() .setCorePoolSize(selectorRunnersCnt) .setMaxPoolSize(selectorRunnersCnt) .setPoolName("grizzly-nio-kernel"); } else if (kernelPoolConfig.getMaxPoolSize() < selectorRunnersCnt) { LOGGER.log(Level.INFO, "Adjusting kernel thread pool to max " + "size {0} to handle configured number of SelectorRunners", selectorRunnersCnt); kernelPoolConfig.setCorePoolSize(selectorRunnersCnt) .setMaxPoolSize(selectorRunnersCnt); } kernelPoolConfig.setMemoryManager(memoryManager); setKernelPool0( GrizzlyExecutorService.createInstance( kernelPoolConfig)); } if (workerThreadPool == null) { if (workerPoolConfig != null) { if (getThreadPoolMonitoringConfig().hasProbes()) { workerPoolConfig.getInitialMonitoringConfig().addProbes( getThreadPoolMonitoringConfig().getProbes()); } workerPoolConfig.setMemoryManager(memoryManager); setWorkerThreadPool0(GrizzlyExecutorService.createInstance( workerPoolConfig)); } } /* By default TemporarySelector pool size should be equal to the number of processing threads */ int selectorPoolSize = TemporarySelectorPool.DEFAULT_SELECTORS_COUNT; if (workerThreadPool instanceof AbstractThreadPool) { if (strategy instanceof SameThreadIOStrategy) { selectorPoolSize = selectorRunnersCnt; } else { selectorPoolSize = Math.min( ((AbstractThreadPool) workerThreadPool).getConfig() .getMaxPoolSize(), selectorPoolSize); } } if (strategy == null) { strategy = WorkerThreadIOStrategy.getInstance(); } temporarySelectorIO.setSelectorPool( new TemporarySelectorPool(selectorProvider, selectorPoolSize)); startSelectorRunners(); listen(); state.setState(State.STARTED); notifyProbesStart(this); } finally { lock.unlock(); } } @Override public GrizzlyFuture shutdown() { return shutdown(-1, TimeUnit.MILLISECONDS); } /** * {@inheritDoc} */ @Override public GrizzlyFuture shutdown(final long gracePeriod, final TimeUnit timeUnit) { final Lock lock = state.getStateLocker().writeLock(); lock.lock(); try { final State stateNow = state.getState(); if (stateNow == State.STOPPING) { // graceful shutdown in progress return shutdownFuture; } else if (stateNow == State.STOPPED) { return Futures.createReadyFuture(this); } else if (stateNow == State.PAUSED) { resume(); } state.setState(State.STOPPING); unbindAll(); final GrizzlyFuture resultFuture; if (shutdownListeners != null && !shutdownListeners.isEmpty()) { shutdownFuture = Futures.createSafeFuture(); shutdownService = createShutdownExecutorService(); shutdownService.execute( new GracefulShutdownRunner(this, shutdownListeners, shutdownService, gracePeriod, timeUnit)); shutdownListeners = null; resultFuture = shutdownFuture; } else { finalizeShutdown(); resultFuture = Futures.createReadyFuture(this); } return resultFuture; } finally { lock.unlock(); } } /** * {@inheritDoc} */ @Override public void shutdownNow() throws IOException { final Lock lock = state.getStateLocker().writeLock(); lock.lock(); try { final State stateNow = state.getState(); if (stateNow == State.STOPPED) { return; } if (stateNow == State.PAUSED) { // if Transport is paused - first we need to resume it // so selectorrunners can perform the close phase resume(); } state.setState(State.STOPPING); unbindAll(); finalizeShutdown(); } finally { lock.unlock(); } } @Override protected abstract void closeConnection(Connection connection) throws IOException; protected abstract TemporarySelectorIO createTemporarySelectorIO(); protected abstract void listen(); protected int getDefaultSelectorRunnersCount() { return Runtime.getRuntime().availableProcessors(); } protected void finalizeShutdown() { if (shutdownService != null && !shutdownService.isShutdown()) { final boolean isInterrupted = Thread.currentThread().isInterrupted(); shutdownService.shutdownNow(); shutdownService = null; if (!isInterrupted) { // if we're in shutdown thread and prev status was "not-interrupted" - // clear the interrupted flag, which might have been set // when we shutdownNow() the shutdownService. Thread.interrupted(); } } notifyProbesBeforeStop(this); stopSelectorRunners(); if (workerThreadPool != null && managedWorkerPool) { workerThreadPool.shutdown(); workerThreadPool = null; } if (kernelPool != null) { kernelPool.shutdownNow(); kernelPool = null; } state.setState(State.STOPPED); notifyProbesStop(this); if (shutdownFuture != null) { shutdownFuture.result(this); shutdownFuture = null; } } /** * Pause UDPNIOTransport, so I/O events coming on its {@link com.pdd.pop.ext.glassfish.grizzly.nio.transport.UDPNIOConnection}s * will not be processed. Use {@link #resume()} in order to resume UDPNIOTransport processing. * * The transport will be paused only if its current state is {@link com.pdd.pop.ext.glassfish.grizzly.Transport.State#STARTED}, * otherwise the call will be ignored without exception thrown and the transport * state will remain the same as it was before the method call. */ @Override public void pause() { final Lock lock = state.getStateLocker().writeLock(); lock.lock(); try { if (state.getState() != State.STARTED) { LOGGER.log(Level.WARNING, LogMessages.WARNING_GRIZZLY_TRANSPORT_NOT_START_STATE_EXCEPTION()); return; } state.setState(State.PAUSING); notifyProbesBeforePause(this); state.setState(State.PAUSED); notifyProbesPause(this); } finally { lock.unlock(); } } /** * Resume UDPNIOTransport, which has been paused before using {@link #pause()}. * * The transport will be resumed only if its current state is {@link com.pdd.pop.ext.glassfish.grizzly.Transport.State#PAUSED}, * otherwise the call will be ignored without exception thrown and the transport * state will remain the same as it was before the method call. */ @Override public void resume() { final Lock lock = state.getStateLocker().writeLock(); lock.lock(); try { if (state.getState() != State.PAUSED) { LOGGER.log(Level.WARNING, LogMessages.WARNING_GRIZZLY_TRANSPORT_NOT_PAUSE_STATE_EXCEPTION()); return; } state.setState(State.STARTING); notifyProbesBeforeResume(this); state.setState(State.STARTED); notifyProbesResume(this); } finally { lock.unlock(); } } protected void configureNIOConnection(NIOConnection connection) { connection.configureBlocking(isBlocking); connection.configureStandalone(isStandalone); connection.setProcessor(processor); connection.setProcessorSelector(processorSelector); connection.setReadTimeout(readTimeout, TimeUnit.MILLISECONDS); connection.setWriteTimeout(writeTimeout, TimeUnit.MILLISECONDS); if (connectionMonitoringConfig.hasProbes()) { connection.setMonitoringProbes(connectionMonitoringConfig.getProbes()); } } public boolean isReuseAddress() { return reuseAddress; } public void setReuseAddress(final boolean reuseAddress) { this.reuseAddress = reuseAddress; notifyProbesConfigChanged(this); } public int getClientSocketSoTimeout() { return clientSocketSoTimeout; } @SuppressWarnings({"UnusedDeclaration"}) public void setClientSocketSoTimeout(final int socketTimeout) { if (socketTimeout < 0) { throw new IllegalArgumentException("socketTimeout can't be negative value"); } this.clientSocketSoTimeout = socketTimeout; notifyProbesConfigChanged(this); } public int getConnectionTimeout() { return connectionTimeout; } @SuppressWarnings({"UnusedDeclaration"}) public void setConnectionTimeout(final int connectionTimeout) { this.connectionTimeout = connectionTimeout; notifyProbesConfigChanged(this); } public int getServerSocketSoTimeout() { return serverSocketSoTimeout; } @SuppressWarnings({"UnusedDeclaration"}) public void setServerSocketSoTimeout(final int serverSocketSoTimeout) { if (serverSocketSoTimeout < 0) { throw new IllegalArgumentException("socketTimeout can't be negative value"); } this.serverSocketSoTimeout = serverSocketSoTimeout; notifyProbesConfigChanged(this); } protected ExecutorService createShutdownExecutorService() { final String baseThreadIdentifier = this.getName() + '[' + Integer.toHexString(this.hashCode()) + "]-Shutdown-Thread"; final ThreadFactory factory = new ThreadFactory() { private int counter; @Override public Thread newThread(Runnable r) { Thread t = new Thread(r, baseThreadIdentifier + "(" + counter++ + ')'); t.setDaemon(true); return t; } }; return Executors.newFixedThreadPool(2, factory); } }





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