view src/org/eclipse/jetty/server/AbstractConnector.java @ 884:cb78ee27b0e0

remove Server.getVersion()
author Franklin Schmidt <fschmidt@gmail.com>
date Tue, 04 Oct 2016 16:30:02 -0600
parents b9aa175d9a29
children
line wrap: on
line source

//
//  ========================================================================
//  Copyright (c) 1995-2014 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.server;

import java.io.IOException;
import java.net.InetAddress;
import java.net.Socket;
import java.net.UnknownHostException;
import java.util.concurrent.ThreadPoolExecutor;
import java.util.concurrent.atomic.AtomicLong;

import javax.servlet.ServletRequest;

import org.eclipse.jetty.http.HttpBuffers;
import org.eclipse.jetty.http.HttpBuffersImpl;
import org.eclipse.jetty.http.HttpFields;
import org.eclipse.jetty.http.HttpHeaders;
import org.eclipse.jetty.http.HttpSchemes;
import org.eclipse.jetty.io.Buffers;
import org.eclipse.jetty.io.Buffers.Type;
import org.eclipse.jetty.io.Connection;
import org.eclipse.jetty.io.EndPoint;
import org.eclipse.jetty.io.EofException;
import org.eclipse.jetty.util.component.AggregateLifeCycle;
import org.eclipse.jetty.util.component.Dumpable;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * Abstract Connector implementation. This abstract implementation of the Connector interface provides:
 * <ul>
 * <li>AbstractLifeCycle implementation</li>
 * <li>Implementations for connector getters and setters</li>
 * <li>Buffer management</li>
 * <li>Socket configuration</li>
 * <li>Base acceptor thread</li>
 * <li>Optional reverse proxy headers checking</li>
 * </ul>
 */
public abstract class AbstractConnector extends AggregateLifeCycle implements HttpBuffers, Connector, Dumpable
{
	private static final Logger LOG = LoggerFactory.getLogger(AbstractConnector.class);

	private String _name;

	private Server _server;
	private String _host;
	private int _port = 0;
	private String _integralScheme = HttpSchemes.HTTPS;
	private int _integralPort = 0;
	private String _confidentialScheme = HttpSchemes.HTTPS;
	private int _confidentialPort = 0;
	private int _acceptQueueSize = 0;
	private int _acceptors = 1;
	private int _acceptorPriorityOffset = 0;
	private boolean _useDNS;
	private boolean _forwarded;
	private String _hostHeader;

	private String _forwardedHostHeader = HttpHeaders.X_FORWARDED_HOST;
	private String _forwardedServerHeader = HttpHeaders.X_FORWARDED_SERVER;
	private String _forwardedForHeader = HttpHeaders.X_FORWARDED_FOR;
	private String _forwardedProtoHeader = HttpHeaders.X_FORWARDED_PROTO;
	private String _forwardedCipherSuiteHeader;
	private String _forwardedSslSessionIdHeader;
	private boolean _reuseAddress = true;

	protected int _maxIdleTime = 200000;
	protected int _lowResourceMaxIdleTime = -1;
	protected int _soLingerTime = -1;

	private transient Thread[] _acceptorThreads;

	protected final HttpBuffersImpl _buffers = new HttpBuffersImpl();

	/* ------------------------------------------------------------ */
	/**
	 */
	public AbstractConnector()
	{
		addBean(_buffers);
	}

	/* ------------------------------------------------------------ */
	/*
	 */
	public Server getServer()
	{
		return _server;
	}

	/* ------------------------------------------------------------ */
	public void setServer(Server server)
	{
		_server = server;
	}

	/* ------------------------------------------------------------ */
	public ThreadPoolExecutor getThreadPool()
	{
		return _server.threadPool;
	}

	/* ------------------------------------------------------------ */
	/**
	 */
	public void setHost(String host)
	{
		_host = host;
	}

	/* ------------------------------------------------------------ */
	/*
	 */
	public String getHost()
	{
		return _host;
	}

	/* ------------------------------------------------------------ */
	public void setPort(int port)
	{
		_port = port;
	}

	/* ------------------------------------------------------------ */
	public int getPort()
	{
		return _port;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return Returns the maxIdleTime.
	 */
	public int getMaxIdleTime()
	{
		return _maxIdleTime;
	}

	/* ------------------------------------------------------------ */
	/**
	 * Set the maximum Idle time for a connection, which roughly translates to the {@link Socket#setSoTimeout(int)} call, although with NIO implementations
	 * other mechanisms may be used to implement the timeout. The max idle time is applied:
	 * <ul>
	 * <li>When waiting for a new request to be received on a connection</li>
	 * <li>When reading the headers and content of a request</li>
	 * <li>When writing the headers and content of a response</li>
	 * </ul>
	 * Jetty interprets this value as the maximum time between some progress being made on the connection. So if a single byte is read or written, then the
	 * timeout (if implemented by jetty) is reset. However, in many instances, the reading/writing is delegated to the JVM, and the semantic is more strictly
	 * enforced as the maximum time a single read/write operation can take. Note, that as Jetty supports writes of memory mapped file buffers, then a write may
	 * take many 10s of seconds for large content written to a slow device.
	 * <p>
	 * Previously, Jetty supported separate idle timeouts and IO operation timeouts, however the expense of changing the value of soTimeout was significant, so
	 * these timeouts were merged. With the advent of NIO, it may be possible to again differentiate these values (if there is demand).
	 *
	 * @param maxIdleTime
	 *            The maxIdleTime to set.
	 */
	public void setMaxIdleTime(int maxIdleTime)
	{
		_maxIdleTime = maxIdleTime;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return Returns the maxIdleTime when resources are low.
	 */
	public int getLowResourcesMaxIdleTime()
	{
		return _lowResourceMaxIdleTime;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param maxIdleTime
	 *            The maxIdleTime to set when resources are low.
	 */
	public void setLowResourcesMaxIdleTime(int maxIdleTime)
	{
		_lowResourceMaxIdleTime = maxIdleTime;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return Returns the maxIdleTime when resources are low.
	 * @deprecated
	 */
	@Deprecated
	public final int getLowResourceMaxIdleTime()
	{
		return getLowResourcesMaxIdleTime();
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param maxIdleTime
	 *            The maxIdleTime to set when resources are low.
	 * @deprecated
	 */
	@Deprecated
	public final void setLowResourceMaxIdleTime(int maxIdleTime)
	{
		setLowResourcesMaxIdleTime(maxIdleTime);
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return Returns the soLingerTime.
	 */
	public int getSoLingerTime()
	{
		return _soLingerTime;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return Returns the acceptQueueSize.
	 */
	public int getAcceptQueueSize()
	{
		return _acceptQueueSize;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param acceptQueueSize
	 *            The acceptQueueSize to set.
	 */
	public void setAcceptQueueSize(int acceptQueueSize)
	{
		_acceptQueueSize = acceptQueueSize;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return Returns the number of acceptor threads.
	 */
	public int getAcceptors()
	{
		return _acceptors;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param acceptors
	 *            The number of acceptor threads to set.
	 */
	public void setAcceptors(int acceptors)
	{
		if (acceptors > 2 * Runtime.getRuntime().availableProcessors())
			LOG.warn("Acceptors should be <=2*availableProcessors: " + this);
		_acceptors = acceptors;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param soLingerTime
	 *            The soLingerTime to set or -1 to disable.
	 */
	public void setSoLingerTime(int soLingerTime)
	{
		_soLingerTime = soLingerTime;
	}

	/* ------------------------------------------------------------ */
	@Override
	protected void doStart() throws Exception
	{
		if (_server == null)
			throw new IllegalStateException("No server");

		// open listener port
		open();

		super.doStart();

		// Start selector thread
		synchronized (this)
		{
			_acceptorThreads = new Thread[getAcceptors()];

			ThreadPoolExecutor _threadPool = getThreadPool();
			for (int i = 0; i < _acceptorThreads.length; i++)
				_threadPool.execute(new Acceptor(i));
			if (_server.isLowOnThreads())
				LOG.warn("insufficient threads configured for {}",this);
		}

		LOG.info("Started {}",this);
	}

	/* ------------------------------------------------------------ */
	@Override
	protected void doStop() throws Exception
	{
		try
		{
			close();
		}
		catch (IOException e)
		{
			LOG.warn("",e);
		}

		super.doStop();

		Thread[] acceptors;
		synchronized (this)
		{
			acceptors = _acceptorThreads;
			_acceptorThreads = null;
		}
		if (acceptors != null)
		{
			for (Thread thread : acceptors)
			{
				if (thread != null)
					thread.interrupt();
			}
		}
	}

	/* ------------------------------------------------------------ */
	public void join() throws InterruptedException
	{
		Thread[] threads;
		synchronized(this)
		{
			threads=_acceptorThreads;
		}
		if (threads != null)
			for (Thread thread : threads)
				if (thread != null)
					thread.join();
	}

	/* ------------------------------------------------------------ */
	protected void configure(Socket socket) throws IOException
	{
		try
		{
			socket.setTcpNoDelay(true);
			if (_soLingerTime >= 0)
				socket.setSoLinger(true,_soLingerTime / 1000);
			else
				socket.setSoLinger(false,0);
		}
		catch (Exception e)
		{
			LOG.trace("",e);
		}
	}

	/* ------------------------------------------------------------ */
	public void customize(EndPoint endpoint, Request request) throws IOException
	{
		if (isForwarded())
			checkForwardedHeaders(endpoint,request);
	}

	/* ------------------------------------------------------------ */
	protected void checkForwardedHeaders(EndPoint endpoint, Request request) throws IOException
	{
		HttpFields httpFields = request.getConnection().getRequestFields();

		// Do SSL first
		if (getForwardedCipherSuiteHeader()!=null)
		{
			String cipher_suite=httpFields.getStringField(getForwardedCipherSuiteHeader());
			if (cipher_suite!=null)
				request.setAttribute("javax.servlet.request.cipher_suite",cipher_suite);
		}
		if (getForwardedSslSessionIdHeader()!=null)
		{
			String ssl_session_id=httpFields.getStringField(getForwardedSslSessionIdHeader());
			if(ssl_session_id!=null)
			{
				request.setAttribute("javax.servlet.request.ssl_session_id", ssl_session_id);
				request.setScheme(HttpSchemes.HTTPS);
			}
		}

		// Retrieving headers from the request
		String forwardedHost = getLeftMostFieldValue(httpFields,getForwardedHostHeader());
		String forwardedServer = getLeftMostFieldValue(httpFields,getForwardedServerHeader());
		String forwardedFor = getLeftMostFieldValue(httpFields,getForwardedForHeader());
		String forwardedProto = getLeftMostFieldValue(httpFields,getForwardedProtoHeader());

		if (_hostHeader != null)
		{
			// Update host header
			httpFields.put(HttpHeaders.HOST_BUFFER,_hostHeader);
			request.setServerName(null);
			request.setServerPort(-1);
			request.getServerName();
		}
		else if (forwardedHost != null)
		{
			// Update host header
			httpFields.put(HttpHeaders.HOST_BUFFER,forwardedHost);
			request.setServerName(null);
			request.setServerPort(-1);
			request.getServerName();
		}
		else if (forwardedServer != null)
		{
			// Use provided server name
			request.setServerName(forwardedServer);
		}

		if (forwardedFor != null)
		{
			request.setRemoteAddr(forwardedFor);
			InetAddress inetAddress = null;

			if (_useDNS)
			{
				try
				{
					inetAddress = InetAddress.getByName(forwardedFor);
				}
				catch (UnknownHostException e)
				{
					LOG.trace("",e);
				}
			}

			request.setRemoteHost(inetAddress == null?forwardedFor:inetAddress.getHostName());
		}

		if (forwardedProto != null)
		{
			request.setScheme(forwardedProto);
		}
	}

	/* ------------------------------------------------------------ */
	protected String getLeftMostFieldValue(HttpFields fields, String header)
	{
		if (header == null)
			return null;

		String headerValue = fields.getStringField(header);

		if (headerValue == null)
			return null;

		int commaIndex = headerValue.indexOf(',');

		if (commaIndex == -1)
		{
			// Single value
			return headerValue;
		}

		// The left-most value is the farthest downstream client
		return headerValue.substring(0,commaIndex);
	}

	/* ------------------------------------------------------------ */
	public void persist(EndPoint endpoint) throws IOException
	{
	}

	/* ------------------------------------------------------------ */
	/*
	 * @see org.eclipse.jetty.server.Connector#getConfidentialPort()
	 */
	public int getConfidentialPort()
	{
		return _confidentialPort;
	}

	/* ------------------------------------------------------------ */
	/* ------------------------------------------------------------ */
	/*
	 * @see org.eclipse.jetty.server.Connector#getConfidentialScheme()
	 */
	public String getConfidentialScheme()
	{
		return _confidentialScheme;
	}

	/* ------------------------------------------------------------ */
	/*
	 * @see org.eclipse.jetty.server.Connector#isConfidential(org.eclipse.jetty.server .Request)
	 */
	public boolean isIntegral(Request request)
	{
		return false;
	}

	/* ------------------------------------------------------------ */
	/*
	 * @see org.eclipse.jetty.server.Connector#getConfidentialPort()
	 */
	public int getIntegralPort()
	{
		return _integralPort;
	}

	/* ------------------------------------------------------------ */
	/*
	 * @see org.eclipse.jetty.server.Connector#getIntegralScheme()
	 */
	public String getIntegralScheme()
	{
		return _integralScheme;
	}

	/* ------------------------------------------------------------ */
	/*
	 * @see org.eclipse.jetty.server.Connector#isConfidential(org.eclipse.jetty.server.Request)
	 */
	public boolean isConfidential(Request request)
	{
		return _forwarded && request.getScheme().equalsIgnoreCase(HttpSchemes.HTTPS);
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param confidentialPort
	 *            The confidentialPort to set.
	 */
	public void setConfidentialPort(int confidentialPort)
	{
		_confidentialPort = confidentialPort;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param confidentialScheme
	 *            The confidentialScheme to set.
	 */
	public void setConfidentialScheme(String confidentialScheme)
	{
		_confidentialScheme = confidentialScheme;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param integralPort
	 *            The integralPort to set.
	 */
	public void setIntegralPort(int integralPort)
	{
		_integralPort = integralPort;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param integralScheme
	 *            The integralScheme to set.
	 */
	public void setIntegralScheme(String integralScheme)
	{
		_integralScheme = integralScheme;
	}

	/* ------------------------------------------------------------ */
	protected abstract void accept(int acceptorID) throws IOException, InterruptedException;

	/* ------------------------------------------------------------ */
	public void stopAccept(int acceptorID) throws Exception
	{
	}

	/* ------------------------------------------------------------ */
	public boolean getResolveNames()
	{
		return _useDNS;
	}

	/* ------------------------------------------------------------ */
	public void setResolveNames(boolean resolve)
	{
		_useDNS = resolve;
	}

	/* ------------------------------------------------------------ */
	/**
	 * Is reverse proxy handling on?
	 *
	 * @return true if this connector is checking the x-forwarded-for/host/server headers
	 */
	public boolean isForwarded()
	{
		return _forwarded;
	}

	/* ------------------------------------------------------------ */
	/**
	 * Set reverse proxy handling. If set to true, then the X-Forwarded headers (or the headers set in their place) are looked for to set the request protocol,
	 * host, server and client ip.
	 *
	 * @param check
	 *            true if this connector is checking the x-forwarded-for/host/server headers
	 * @see #setForwardedForHeader(String)
	 * @see #setForwardedHostHeader(String)
	 * @see #setForwardedProtoHeader(String)
	 * @see #setForwardedServerHeader(String)
	 */
	public void setForwarded(boolean check)
	{
		if (check)
			LOG.debug("{} is forwarded",this);
		_forwarded = check;
	}

	/* ------------------------------------------------------------ */
	public String getHostHeader()
	{
		return _hostHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * Set a forced valued for the host header to control what is returned by {@link ServletRequest#getServerName()} and {@link ServletRequest#getServerPort()}.
	 * This value is only used if {@link #isForwarded()} is true.
	 *
	 * @param hostHeader
	 *            The value of the host header to force.
	 */
	public void setHostHeader(String hostHeader)
	{
		_hostHeader = hostHeader;
	}

	/* ------------------------------------------------------------ */
	/*
	 *
	 * @see #setForwarded(boolean)
	 */
	public String getForwardedHostHeader()
	{
		return _forwardedHostHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param forwardedHostHeader
	 *            The header name for forwarded hosts (default x-forwarded-host)
	 * @see #setForwarded(boolean)
	 */
	public void setForwardedHostHeader(String forwardedHostHeader)
	{
		_forwardedHostHeader = forwardedHostHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return the header name for forwarded server.
	 * @see #setForwarded(boolean)
	 */
	public String getForwardedServerHeader()
	{
		return _forwardedServerHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param forwardedServerHeader
	 *            The header name for forwarded server (default x-forwarded-server)
	 * @see #setForwarded(boolean)
	 */
	public void setForwardedServerHeader(String forwardedServerHeader)
	{
		_forwardedServerHeader = forwardedServerHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @see #setForwarded(boolean)
	 */
	public String getForwardedForHeader()
	{
		return _forwardedForHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param forwardedRemoteAddressHeader
	 *            The header name for forwarded for (default x-forwarded-for)
	 * @see #setForwarded(boolean)
	 */
	public void setForwardedForHeader(String forwardedRemoteAddressHeader)
	{
		_forwardedForHeader = forwardedRemoteAddressHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * Get the forwardedProtoHeader.
	 *
	 * @return the forwardedProtoHeader (default X-Forwarded-For)
	 * @see #setForwarded(boolean)
	 */
	public String getForwardedProtoHeader()
	{
		return _forwardedProtoHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * Set the forwardedProtoHeader.
	 *
	 * @param forwardedProtoHeader
	 *            the forwardedProtoHeader to set (default X-Forwarded-For)
	 * @see #setForwarded(boolean)
	 */
	public void setForwardedProtoHeader(String forwardedProtoHeader)
	{
		_forwardedProtoHeader = forwardedProtoHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return The header name holding a forwarded cipher suite (default null)
	 */
	public String getForwardedCipherSuiteHeader()
	{
		return _forwardedCipherSuiteHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param forwardedCipherSuite
	 *            The header name holding a forwarded cipher suite (default null)
	 */
	public void setForwardedCipherSuiteHeader(String forwardedCipherSuite)
	{
		_forwardedCipherSuiteHeader = forwardedCipherSuite;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return The header name holding a forwarded SSL Session ID (default null)
	 */
	public String getForwardedSslSessionIdHeader()
	{
		return _forwardedSslSessionIdHeader;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param forwardedSslSessionId
	 *            The header name holding a forwarded SSL Session ID (default null)
	 */
	public void setForwardedSslSessionIdHeader(String forwardedSslSessionId)
	{
		_forwardedSslSessionIdHeader = forwardedSslSessionId;
	}

	public int getRequestBufferSize()
	{
		return _buffers.getRequestBufferSize();
	}

	public void setRequestBufferSize(int requestBufferSize)
	{
		_buffers.setRequestBufferSize(requestBufferSize);
	}

	public int getRequestHeaderSize()
	{
		return _buffers.getRequestHeaderSize();
	}

	public void setRequestHeaderSize(int requestHeaderSize)
	{
		_buffers.setRequestHeaderSize(requestHeaderSize);
	}

	public int getResponseBufferSize()
	{
		return _buffers.getResponseBufferSize();
	}

	public void setResponseBufferSize(int responseBufferSize)
	{
		_buffers.setResponseBufferSize(responseBufferSize);
	}

	public int getResponseHeaderSize()
	{
		return _buffers.getResponseHeaderSize();
	}

	public void setResponseHeaderSize(int responseHeaderSize)
	{
		_buffers.setResponseHeaderSize(responseHeaderSize);
	}

	public Type getRequestBufferType()
	{
		return _buffers.getRequestBufferType();
	}

	public Type getRequestHeaderType()
	{
		return _buffers.getRequestHeaderType();
	}

	public Type getResponseBufferType()
	{
		return _buffers.getResponseBufferType();
	}

	public Type getResponseHeaderType()
	{
		return _buffers.getResponseHeaderType();
	}

	public void setRequestBuffers(Buffers requestBuffers)
	{
		_buffers.setRequestBuffers(requestBuffers);
	}

	public void setResponseBuffers(Buffers responseBuffers)
	{
		_buffers.setResponseBuffers(responseBuffers);
	}

	public Buffers getRequestBuffers()
	{
		return _buffers.getRequestBuffers();
	}

	public Buffers getResponseBuffers()
	{
		return _buffers.getResponseBuffers();
	}

	public int getMaxBuffers()
	{
		return _buffers.getMaxBuffers();
	}

	/* ------------------------------------------------------------ */
	@Override
	public String toString()
	{
		return String.format("%s@%s:%d",
				getClass().getSimpleName(),
				getHost()==null?"0.0.0.0":getHost(),
				getLocalPort()<=0?getPort():getLocalPort());
	}

	/* ------------------------------------------------------------ */
	/* ------------------------------------------------------------ */
	/* ------------------------------------------------------------ */
	private class Acceptor implements Runnable
	{
		int _acceptor = 0;

		Acceptor(int id)
		{
			_acceptor = id;
		}

		/* ------------------------------------------------------------ */
		public void run()
		{
			Thread current = Thread.currentThread();
			String name;
			synchronized (AbstractConnector.this)
			{
				if (_acceptorThreads == null)
					return;

				_acceptorThreads[_acceptor] = current;
				name = _acceptorThreads[_acceptor].getName();
				current.setName(name + " Acceptor" + _acceptor + " " + AbstractConnector.this);
			}
			int old_priority = current.getPriority();

			try
			{
				current.setPriority(old_priority - _acceptorPriorityOffset);
				while (isRunning() && getConnection() != null)
				{
					try
					{
						accept(_acceptor);
					}
					catch (EofException e)
					{
						LOG.trace("",e);
					}
					catch (IOException e)
					{
						LOG.trace("",e);
					}
					catch (InterruptedException x)
					{
						// Connector has been stopped
						LOG.trace("",x);
					}
					catch (Throwable e)
					{
						LOG.warn("",e);
					}
				}
			}
			finally
			{
				current.setPriority(old_priority);
				current.setName(name);

				synchronized (AbstractConnector.this)
				{
					if (_acceptorThreads != null)
						_acceptorThreads[_acceptor] = null;
				}
			}
		}
	}

	/* ------------------------------------------------------------ */
	public String getName()
	{
		if (_name == null)
			_name = (getHost() == null?"0.0.0.0":getHost()) + ":" + (getLocalPort() <= 0?getPort():getLocalPort());
		return _name;
	}

	/* ------------------------------------------------------------ */
	public void setName(String name)
	{
		_name = name;
	}

	/* ------------------------------------------------------------ */
	protected void connectionOpened(Connection connection)
	{
	}

	/* ------------------------------------------------------------ */
	protected void connectionUpgraded(Connection oldConnection, Connection newConnection)
	{
	}

	/* ------------------------------------------------------------ */
	protected void connectionClosed(Connection connection)
	{
		connection.onClose();
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return the acceptorPriority
	 */
	public int getAcceptorPriorityOffset()
	{
		return _acceptorPriorityOffset;
	}

	/* ------------------------------------------------------------ */
	/**
	 * Set the priority offset of the acceptor threads. The priority is adjusted by this amount (default 0) to either favour the acceptance of new threads and
	 * newly active connections or to favour the handling of already dispatched connections.
	 *
	 * @param offset
	 *            the amount to alter the priority of the acceptor threads.
	 */
	public void setAcceptorPriorityOffset(int offset)
	{
		_acceptorPriorityOffset = offset;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @return True if the the server socket will be opened in SO_REUSEADDR mode.
	 */
	public boolean getReuseAddress()
	{
		return _reuseAddress;
	}

	/* ------------------------------------------------------------ */
	/**
	 * @param reuseAddress
	 *            True if the the server socket will be opened in SO_REUSEADDR mode.
	 */
	public void setReuseAddress(boolean reuseAddress)
	{
		_reuseAddress = reuseAddress;
	}

	/* ------------------------------------------------------------ */
	public final boolean isLowResources()
	{
		return _server.isLowOnThreads();
	}

	/* ------------------------------------------------------------ */
	private void updateNotEqual(AtomicLong valueHolder, long compare, long value)
	{
		long oldValue = valueHolder.get();
		while (compare != oldValue)
		{
			if (valueHolder.compareAndSet(oldValue,value))
				break;
			oldValue = valueHolder.get();
		}
	}
}