src/java/org/eclipse/jetty/servlets/QoSFilter.java - platform/external/jetty - Git at Google

 //
 //  ========================================================================
 //  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.servlets;

 import java.io.IOException;
 import java.util.Queue;
 import java.util.concurrent.ConcurrentLinkedQueue;
 import java.util.concurrent.Semaphore;
 import java.util.concurrent.TimeUnit;

 import javax.servlet.Filter;
 import javax.servlet.FilterChain;
 import javax.servlet.FilterConfig;
 import javax.servlet.ServletContext;
 import javax.servlet.ServletException;
 import javax.servlet.ServletRequest;
 import javax.servlet.ServletResponse;
 import javax.servlet.http.HttpServletRequest;
 import javax.servlet.http.HttpServletResponse;
 import javax.servlet.http.HttpSession;

 import org.eclipse.jetty.continuation.Continuation;
 import org.eclipse.jetty.continuation.ContinuationListener;
 import org.eclipse.jetty.continuation.ContinuationSupport;
 import org.eclipse.jetty.server.handler.ContextHandler;

 /**
  * Quality of Service Filter.
  *
  * This filter limits the number of active requests to the number set by the "maxRequests" init parameter (default 10).
  * If more requests are received, they are suspended and placed on priority queues.  Priorities are determined by
  * the {@link #getPriority(ServletRequest)} method and are a value between 0 and the value given by the "maxPriority"
  * init parameter (default 10), with higher values having higher priority.
  * </p><p>
  * This filter is ideal to prevent wasting threads waiting for slow/limited
  * resources such as a JDBC connection pool.  It avoids the situation where all of a
  * containers thread pool may be consumed blocking on such a slow resource.
  * By limiting the number of active threads, a smaller thread pool may be used as
  * the threads are not wasted waiting.  Thus more memory may be available for use by
  * the active threads.
  * </p><p>
  * Furthermore, this filter uses a priority when resuming waiting requests. So that if
  * a container is under load, and there are many requests waiting for resources,
  * the {@link #getPriority(ServletRequest)} method is used, so that more important
  * requests are serviced first.     For example, this filter could be deployed with a
  * maxRequest limit slightly smaller than the containers thread pool and a high priority
  * allocated to admin users.  Thus regardless of load, admin users would always be
  * able to access the web application.
  * </p><p>
  * The maxRequest limit is policed by a {@link Semaphore} and the filter will wait a short while attempting to acquire
  * the semaphore. This wait is controlled by the "waitMs" init parameter and allows the expense of a suspend to be
  * avoided if the semaphore is shortly available.  If the semaphore cannot be obtained, the request will be suspended
  * for the default suspend period of the container or the valued set as the "suspendMs" init parameter.
  * </p><p>
  * If the "managedAttr" init parameter is set to true, then this servlet is set as a {@link ServletContext} attribute with the
  * filter name as the attribute name.  This allows context external mechanism (eg JMX via {@link ContextHandler#MANAGED_ATTRIBUTES}) to
  * manage the configuration of the filter.
  * </p>
  *
  *
  */
 public class QoSFilter implements Filter
 {
     final static int __DEFAULT_MAX_PRIORITY=10;
     final static int __DEFAULT_PASSES=10;
     final static int __DEFAULT_WAIT_MS=50;
     final static long __DEFAULT_TIMEOUT_MS = -1;

     final static String MANAGED_ATTR_INIT_PARAM="managedAttr";
     final static String MAX_REQUESTS_INIT_PARAM="maxRequests";
     final static String MAX_PRIORITY_INIT_PARAM="maxPriority";
     final static String MAX_WAIT_INIT_PARAM="waitMs";
     final static String SUSPEND_INIT_PARAM="suspendMs";

     ServletContext _context;

     protected long _waitMs;
     protected long _suspendMs;
     protected int _maxRequests;

     private Semaphore _passes;
     private Queue<Continuation>[] _queue;
     private ContinuationListener[] _listener;
     private String _suspended="QoSFilter@"+this.hashCode();

     /* ------------------------------------------------------------ */
     /**
      * @see javax.servlet.Filter#init(javax.servlet.FilterConfig)
      */
     public void init(FilterConfig filterConfig)
     {
         _context=filterConfig.getServletContext();

         int max_priority=__DEFAULT_MAX_PRIORITY;
         if (filterConfig.getInitParameter(MAX_PRIORITY_INIT_PARAM)!=null)
             max_priority=Integer.parseInt(filterConfig.getInitParameter(MAX_PRIORITY_INIT_PARAM));
         _queue=new Queue[max_priority+1];
         _listener = new ContinuationListener[max_priority + 1];
         for (int p=0;p<_queue.length;p++)
         {
             _queue[p]=new ConcurrentLinkedQueue<Continuation>();

             final int priority=p;
             _listener[p] = new ContinuationListener()
             {
                 public void onComplete(Continuation continuation)
                 {}

                 public void onTimeout(Continuation continuation)
                 {
                     _queue[priority].remove(continuation);
                 }
             };
         }

         int maxRequests=__DEFAULT_PASSES;
         if (filterConfig.getInitParameter(MAX_REQUESTS_INIT_PARAM)!=null)
             maxRequests=Integer.parseInt(filterConfig.getInitParameter(MAX_REQUESTS_INIT_PARAM));
         _passes=new Semaphore(maxRequests,true);
         _maxRequests = maxRequests;

         long wait = __DEFAULT_WAIT_MS;
         if (filterConfig.getInitParameter(MAX_WAIT_INIT_PARAM)!=null)
             wait=Integer.parseInt(filterConfig.getInitParameter(MAX_WAIT_INIT_PARAM));
         _waitMs=wait;

         long suspend = __DEFAULT_TIMEOUT_MS;
         if (filterConfig.getInitParameter(SUSPEND_INIT_PARAM)!=null)
             suspend=Integer.parseInt(filterConfig.getInitParameter(SUSPEND_INIT_PARAM));
         _suspendMs=suspend;

         if (_context!=null && Boolean.parseBoolean(filterConfig.getInitParameter(MANAGED_ATTR_INIT_PARAM)))
             _context.setAttribute(filterConfig.getFilterName(),this);
     }

     /* ------------------------------------------------------------ */
     /**
      * @see javax.servlet.Filter#doFilter(javax.servlet.ServletRequest, javax.servlet.ServletResponse, javax.servlet.FilterChain)
      */
     public void doFilter(ServletRequest request, ServletResponse response, FilterChain chain)
     throws IOException, ServletException
     {
         boolean accepted=false;
         try
         {
             if (request.getAttribute(_suspended)==null)
             {
                 accepted=_passes.tryAcquire(_waitMs,TimeUnit.MILLISECONDS);
                 if (accepted)
                 {
                     request.setAttribute(_suspended,Boolean.FALSE);
                 }
                 else
                 {
                     request.setAttribute(_suspended,Boolean.TRUE);
                     int priority = getPriority(request);
                     Continuation continuation = ContinuationSupport.getContinuation(request);
                     if (_suspendMs>0)
                         continuation.setTimeout(_suspendMs);
                     continuation.suspend();
                     continuation.addContinuationListener(_listener[priority]);
                     _queue[priority].add(continuation);
                     return;
                 }
             }
             else
             {
                 Boolean suspended=(Boolean)request.getAttribute(_suspended);

                 if (suspended.booleanValue())
                 {
                     request.setAttribute(_suspended,Boolean.FALSE);
                     if (request.getAttribute("javax.servlet.resumed")==Boolean.TRUE)
                     {
                         _passes.acquire();
                         accepted=true;
                     }
                     else
                     {
                         // Timeout! try 1 more time.
                         accepted = _passes.tryAcquire(_waitMs,TimeUnit.MILLISECONDS);
                     }
                 }
                 else
                 {
                     // pass through resume of previously accepted request
                     _passes.acquire();
                     accepted = true;
                 }
             }

             if (accepted)
             {
                 chain.doFilter(request,response);
             }
             else
             {
                 ((HttpServletResponse)response).sendError(HttpServletResponse.SC_SERVICE_UNAVAILABLE);
             }
         }
         catch(InterruptedException e)
         {
             _context.log("QoS",e);
             ((HttpServletResponse)response).sendError(HttpServletResponse.SC_SERVICE_UNAVAILABLE);
         }
         finally
         {
             if (accepted)
             {
                 for (int p=_queue.length;p-->0;)
                 {
                     Continuation continutaion=_queue[p].poll();
                     if (continutaion!=null && continutaion.isSuspended())
                     {
                         continutaion.resume();
                         break;
                     }
                 }
                 _passes.release();
             }
         }
     }

     /**
      * Get the request Priority.
      * <p> The default implementation assigns the following priorities:<ul>
      * <li> 2 - for a authenticated request
      * <li> 1 - for a request with valid /non new session
      * <li> 0 - for all other requests.
      * </ul>
      * This method may be specialised to provide application specific priorities.
      *
      * @param request
      * @return the request priority
      */
     protected int getPriority(ServletRequest request)
     {
         HttpServletRequest baseRequest = (HttpServletRequest)request;
         if (baseRequest.getUserPrincipal() != null )
             return 2;
         else
         {
             HttpSession session = baseRequest.getSession(false);
             if (session!=null && !session.isNew())
                 return 1;
             else
                 return 0;
         }
     }


     /* ------------------------------------------------------------ */
     /**
      * @see javax.servlet.Filter#destroy()
      */
     public void destroy(){}

     /* ------------------------------------------------------------ */
     /**
      * Get the (short) amount of time (in milliseconds) that the filter would wait
      * for the semaphore to become available before suspending a request.
      *
      * @return wait time (in milliseconds)
      */
     public long getWaitMs()
     {
         return _waitMs;
     }

     /* ------------------------------------------------------------ */
     /**
      * Set the (short) amount of time (in milliseconds) that the filter would wait
      * for the semaphore to become available before suspending a request.
      *
      * @param value wait time (in milliseconds)
      */
     public void setWaitMs(long value)
     {
         _waitMs = value;
     }

     /* ------------------------------------------------------------ */
     /**
      * Get the amount of time (in milliseconds) that the filter would suspend
      * a request for while waiting for the semaphore to become available.
      *
      * @return suspend time (in milliseconds)
      */
     public long getSuspendMs()
     {
         return _suspendMs;
     }

     /* ------------------------------------------------------------ */
     /**
      * Set the amount of time (in milliseconds) that the filter would suspend
      * a request for while waiting for the semaphore to become available.
      *
      * @param value suspend time (in milliseconds)
      */
     public void setSuspendMs(long value)
     {
         _suspendMs = value;
     }

     /* ------------------------------------------------------------ */
     /**
      * Get the maximum number of requests allowed to be processed
      * at the same time.
      *
      * @return maximum number of requests
      */
     public int getMaxRequests()
     {
         return _maxRequests;
     }

     /* ------------------------------------------------------------ */
     /**
      * Set the maximum number of requests allowed to be processed
      * at the same time.
      *
      * @param value the number of requests
      */
     public void setMaxRequests(int value)
     {
         _passes = new Semaphore((value-_maxRequests+_passes.availablePermits()), true);
         _maxRequests = value;
     }

 }
	//
	// ========================================================================
	// 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.servlets;

	import java.io.IOException;
	import java.util.Queue;
	import java.util.concurrent.ConcurrentLinkedQueue;
	import java.util.concurrent.Semaphore;
	import java.util.concurrent.TimeUnit;

	import javax.servlet.Filter;
	import javax.servlet.FilterChain;
	import javax.servlet.FilterConfig;
	import javax.servlet.ServletContext;
	import javax.servlet.ServletException;
	import javax.servlet.ServletRequest;
	import javax.servlet.ServletResponse;
	import javax.servlet.http.HttpServletRequest;
	import javax.servlet.http.HttpServletResponse;
	import javax.servlet.http.HttpSession;

	import org.eclipse.jetty.continuation.Continuation;
	import org.eclipse.jetty.continuation.ContinuationListener;
	import org.eclipse.jetty.continuation.ContinuationSupport;
	import org.eclipse.jetty.server.handler.ContextHandler;

	/**
	* Quality of Service Filter.
	*
	* This filter limits the number of active requests to the number set by the "maxRequests" init parameter (default 10).
	* If more requests are received, they are suspended and placed on priority queues. Priorities are determined by
	* the {@link #getPriority(ServletRequest)} method and are a value between 0 and the value given by the "maxPriority"
	* init parameter (default 10), with higher values having higher priority.
	* </p><p>
	* This filter is ideal to prevent wasting threads waiting for slow/limited
	* resources such as a JDBC connection pool. It avoids the situation where all of a
	* containers thread pool may be consumed blocking on such a slow resource.
	* By limiting the number of active threads, a smaller thread pool may be used as
	* the threads are not wasted waiting. Thus more memory may be available for use by
	* the active threads.
	* </p><p>
	* Furthermore, this filter uses a priority when resuming waiting requests. So that if
	* a container is under load, and there are many requests waiting for resources,
	* the {@link #getPriority(ServletRequest)} method is used, so that more important
	* requests are serviced first. For example, this filter could be deployed with a
	* maxRequest limit slightly smaller than the containers thread pool and a high priority
	* allocated to admin users. Thus regardless of load, admin users would always be
	* able to access the web application.
	* </p><p>
	* The maxRequest limit is policed by a {@link Semaphore} and the filter will wait a short while attempting to acquire
	* the semaphore. This wait is controlled by the "waitMs" init parameter and allows the expense of a suspend to be
	* avoided if the semaphore is shortly available. If the semaphore cannot be obtained, the request will be suspended
	* for the default suspend period of the container or the valued set as the "suspendMs" init parameter.
	* </p><p>
	* If the "managedAttr" init parameter is set to true, then this servlet is set as a {@link ServletContext} attribute with the
	* filter name as the attribute name. This allows context external mechanism (eg JMX via {@link ContextHandler#MANAGED_ATTRIBUTES}) to
	* manage the configuration of the filter.
	* </p>
	*
	*
	*/
	public class QoSFilter implements Filter
	{
	final static int __DEFAULT_MAX_PRIORITY=10;
	final static int __DEFAULT_PASSES=10;
	final static int __DEFAULT_WAIT_MS=50;
	final static long __DEFAULT_TIMEOUT_MS = -1;

	final static String MANAGED_ATTR_INIT_PARAM="managedAttr";
	final static String MAX_REQUESTS_INIT_PARAM="maxRequests";
	final static String MAX_PRIORITY_INIT_PARAM="maxPriority";
	final static String MAX_WAIT_INIT_PARAM="waitMs";
	final static String SUSPEND_INIT_PARAM="suspendMs";

	ServletContext _context;

	protected long _waitMs;
	protected long _suspendMs;
	protected int _maxRequests;

	private Semaphore _passes;
	private Queue<Continuation>[] _queue;
	private ContinuationListener[] _listener;
	private String _suspended="QoSFilter@"+this.hashCode();

	/* ------------------------------------------------------------ */
	/**
	* @see javax.servlet.Filter#init(javax.servlet.FilterConfig)
	*/
	public void init(FilterConfig filterConfig)
	{
	_context=filterConfig.getServletContext();

	int max_priority=__DEFAULT_MAX_PRIORITY;
	if (filterConfig.getInitParameter(MAX_PRIORITY_INIT_PARAM)!=null)
	max_priority=Integer.parseInt(filterConfig.getInitParameter(MAX_PRIORITY_INIT_PARAM));
	_queue=new Queue[max_priority+1];
	_listener = new ContinuationListener[max_priority + 1];
	for (int p=0;p<_queue.length;p++)
	{
	_queue[p]=new ConcurrentLinkedQueue<Continuation>();

	final int priority=p;
	_listener[p] = new ContinuationListener()
	{
	public void onComplete(Continuation continuation)
	{}

	public void onTimeout(Continuation continuation)
	{
	_queue[priority].remove(continuation);
	}
	};
	}

	int maxRequests=__DEFAULT_PASSES;
	if (filterConfig.getInitParameter(MAX_REQUESTS_INIT_PARAM)!=null)
	maxRequests=Integer.parseInt(filterConfig.getInitParameter(MAX_REQUESTS_INIT_PARAM));
	_passes=new Semaphore(maxRequests,true);
	_maxRequests = maxRequests;

	long wait = __DEFAULT_WAIT_MS;
	if (filterConfig.getInitParameter(MAX_WAIT_INIT_PARAM)!=null)
	wait=Integer.parseInt(filterConfig.getInitParameter(MAX_WAIT_INIT_PARAM));
	_waitMs=wait;

	long suspend = __DEFAULT_TIMEOUT_MS;
	if (filterConfig.getInitParameter(SUSPEND_INIT_PARAM)!=null)
	suspend=Integer.parseInt(filterConfig.getInitParameter(SUSPEND_INIT_PARAM));
	_suspendMs=suspend;

	if (_context!=null && Boolean.parseBoolean(filterConfig.getInitParameter(MANAGED_ATTR_INIT_PARAM)))
	_context.setAttribute(filterConfig.getFilterName(),this);
	}

	/* ------------------------------------------------------------ */
	/**
	* @see javax.servlet.Filter#doFilter(javax.servlet.ServletRequest, javax.servlet.ServletResponse, javax.servlet.FilterChain)
	*/
	public void doFilter(ServletRequest request, ServletResponse response, FilterChain chain)
	throws IOException, ServletException
	{
	boolean accepted=false;
	try
	{
	if (request.getAttribute(_suspended)==null)
	{
	accepted=_passes.tryAcquire(_waitMs,TimeUnit.MILLISECONDS);
	if (accepted)
	{
	request.setAttribute(_suspended,Boolean.FALSE);
	}
	else
	{
	request.setAttribute(_suspended,Boolean.TRUE);
	int priority = getPriority(request);
	Continuation continuation = ContinuationSupport.getContinuation(request);
	if (_suspendMs>0)
	continuation.setTimeout(_suspendMs);
	continuation.suspend();
	continuation.addContinuationListener(_listener[priority]);
	_queue[priority].add(continuation);
	return;
	}
	}
	else
	{
	Boolean suspended=(Boolean)request.getAttribute(_suspended);

	if (suspended.booleanValue())
	{
	request.setAttribute(_suspended,Boolean.FALSE);
	if (request.getAttribute("javax.servlet.resumed")==Boolean.TRUE)
	{
	_passes.acquire();
	accepted=true;
	}
	else
	{
	// Timeout! try 1 more time.
	accepted = _passes.tryAcquire(_waitMs,TimeUnit.MILLISECONDS);
	}
	}
	else
	{
	// pass through resume of previously accepted request
	_passes.acquire();
	accepted = true;
	}
	}

	if (accepted)
	{
	chain.doFilter(request,response);
	}
	else
	{
	((HttpServletResponse)response).sendError(HttpServletResponse.SC_SERVICE_UNAVAILABLE);
	}
	}
	catch(InterruptedException e)
	{
	_context.log("QoS",e);
	((HttpServletResponse)response).sendError(HttpServletResponse.SC_SERVICE_UNAVAILABLE);
	}
	finally
	{
	if (accepted)
	{
	for (int p=_queue.length;p-->0;)
	{
	Continuation continutaion=_queue[p].poll();
	if (continutaion!=null && continutaion.isSuspended())
	{
	continutaion.resume();
	break;
	}
	}
	_passes.release();
	}
	}
	}

	/**
	* Get the request Priority.
	* <p> The default implementation assigns the following priorities:<ul>
	* <li> 2 - for a authenticated request
	* <li> 1 - for a request with valid /non new session
	* <li> 0 - for all other requests.
	* </ul>
	* This method may be specialised to provide application specific priorities.
	*
	* @param request
	* @return the request priority
	*/
	protected int getPriority(ServletRequest request)
	{
	HttpServletRequest baseRequest = (HttpServletRequest)request;
	if (baseRequest.getUserPrincipal() != null )
	return 2;
	else
	{
	HttpSession session = baseRequest.getSession(false);
	if (session!=null && !session.isNew())
	return 1;
	else
	return 0;
	}
	}


	/* ------------------------------------------------------------ */
	/**
	* @see javax.servlet.Filter#destroy()
	*/
	public void destroy(){}

	/* ------------------------------------------------------------ */
	/**
	* Get the (short) amount of time (in milliseconds) that the filter would wait
	* for the semaphore to become available before suspending a request.
	*
	* @return wait time (in milliseconds)
	*/
	public long getWaitMs()
	{
	return _waitMs;
	}

	/* ------------------------------------------------------------ */
	/**
	* Set the (short) amount of time (in milliseconds) that the filter would wait
	* for the semaphore to become available before suspending a request.
	*
	* @param value wait time (in milliseconds)
	*/
	public void setWaitMs(long value)
	{
	_waitMs = value;
	}

	/* ------------------------------------------------------------ */
	/**
	* Get the amount of time (in milliseconds) that the filter would suspend
	* a request for while waiting for the semaphore to become available.
	*
	* @return suspend time (in milliseconds)
	*/
	public long getSuspendMs()
	{
	return _suspendMs;
	}

	/* ------------------------------------------------------------ */
	/**
	* Set the amount of time (in milliseconds) that the filter would suspend
	* a request for while waiting for the semaphore to become available.
	*
	* @param value suspend time (in milliseconds)
	*/
	public void setSuspendMs(long value)
	{
	_suspendMs = value;
	}

	/* ------------------------------------------------------------ */
	/**
	* Get the maximum number of requests allowed to be processed
	* at the same time.
	*
	* @return maximum number of requests
	*/
	public int getMaxRequests()
	{
	return _maxRequests;
	}

	/* ------------------------------------------------------------ */
	/**
	* Set the maximum number of requests allowed to be processed
	* at the same time.
	*
	* @param value the number of requests
	*/
	public void setMaxRequests(int value)
	{
	_passes = new Semaphore((value-_maxRequests+_passes.availablePermits()), true);
	_maxRequests = value;
	}

	}