The version of Apache log4j used by SoundHelix.

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AsyncAppender.java

/*
 * Copyright (C) The Apache Software Foundation. All rights reserved.
 *
 * This software is published under the terms of the Apache Software
 * License version 1.1, a copy of which has been included with this
 * distribution in the LICENSE.APL file.  */

// Contibutors:  Aaron Greenhouse <aarong@cs.cmu.edu>

package org.apache.log4j;

import org.apache.log4j.Category;
import org.apache.log4j.spi.LoggingEvent;
import org.apache.log4j.helpers.BoundedFIFO;
import org.apache.log4j.helpers.OptionConverter;
import org.apache.log4j.spi.AppenderAttachable;
import org.apache.log4j.helpers.AppenderAttachableImpl;
import org.apache.log4j.helpers.LogLog;
import java.util.Enumeration;

/**
   The AsyncAppender lets users log events asynchronously. It uses a
   bounded buffer to store logging events.
   
   <p>The AsyncAppender will collect the events sent to it and then
   dispatch them to all the appenders that are attached to it. You can
   attach multiple appenders to an AsyncAppender.

   <p>The AsyncAppender uses a separate thread to serve the events in
   its bounded buffer. 

   <p>Refer to the results in {@link org.apache.log4j.performance.Logging}
   for the impact of using this appender.

   <p><b>Important note:</b> The <code>AsyncAppender</code> can only
   be script configured using the {@link
   org.apache.log4j.xml.DOMConfigurator}. Refer to example  configuration
   files <a href="xml/examples/doc-files/sample4.xml">sample4.xml</a>
   and <a href="xml/examples/doc-files/sample5.xml">sample5.xml</a>.


   
   @author Ceki G&uuml;lc&uuml;
   @since version 0.9.1 */
public class AsyncAppender extends AppenderSkeleton 
                                            implements AppenderAttachable {
  
  /**
     A string constant used in naming the option for setting the
     location information flag.  Current value of this string
     constant is <b>LocationInfo</b>.  

     <p>Note that all option keys are case sensitive.

     @deprecated Options are now handled using the JavaBeans paradigm.
     This constant is not longer needed and will be removed in the
     <em>near</em> term.
  */
  public static final String LOCATION_INFO_OPTION = "LocationInfo";


  /**
     A string constant used in naming the option for setting the size of the
     internal buffer where logging events are stored until they are written.
     Current value of this string constant is <b>BufferSize</b>.  

     <p>Note that all option keys are case sensitive.

     @deprecated Options are now handled using the JavaBeans paradigm.
     This constant is not longer needed and will be removed in the
     <em>near</em> term.
  */
  public static final String BUFFER_SIZE_OPTION = "BufferSize";

  /** The default buffer size is set to 128 events. */
  public static final int DEFAULT_BUFFER_SIZE = 128;

  //static Category cat = Category.getInstance(AsyncAppender.class.getName());

  BoundedFIFO bf = new BoundedFIFO(DEFAULT_BUFFER_SIZE);

  AppenderAttachableImpl aai;
  Dispatcher dispatcher;
  boolean locationInfo = false;

  boolean interruptedWarningMessage = false;

  public
  AsyncAppender() {
    // Note: The dispatcher code assumes that the aai is set once and
    // for all!!!
    aai = new AppenderAttachableImpl();
    dispatcher = new Dispatcher(bf, this);
    dispatcher.start();
  }
  

  public 
  void addAppender(Appender newAppender) {
    synchronized(aai) {
      aai.addAppender(newAppender);
    }
  } 

  public
  void append(LoggingEvent event) {
    // Set the NDC and thread name for the calling thread as these
    // LoggingEvent fields were not set at event creation time.
    event.getNDC();
    event.getThreadName();
    if(locationInfo) {
      event.getLocationInformation();	
    }
    synchronized(bf) {
      while(bf.isFull()) {
	try {
	  //LogLog.debug("Waiting for free space in buffer, "+bf.length());
	  bf.wait();
	} catch(InterruptedException e) {
	  if(!interruptedWarningMessage) {
	    interruptedWarningMessage = true;
	    LogLog.warn("AsyncAppender interrupted.", e);
	  } else {
	    LogLog.warn("AsyncAppender interrupted again.");
	  }
	}
      }
 
      //cat.debug("About to put new event in buffer.");      
      bf.put(event);
      if(bf.wasEmpty()) {
	//cat.debug("Notifying dispatcher to process events.");
	bf.notify();
      }
    }
  }

  /**
     Close this <code>AsyncAppender</code> by interrupting the
     dispatcher thread which will process all pending events before
     exiting. 
  */
  public 
  void close() {
    synchronized(this) {
      if(closed) // avoid multiple close, otherwise one gets NullPointerException
	return; 
      closed = true;
    }
    
    // The following cannot be synchronized on "this" because the
    // dispatcher synchronizes with "this" in its while loop. If we
    // did synhcronize we would systematically get deadlocks when
    // close was called.
    dispatcher.close();
    try {
      dispatcher.join();
    } catch(InterruptedException e) {
      LogLog.error("Got an InterruptedException while waiting for the "+
		   "dispatcher to finish.", e);
    }
    dispatcher = null;
    bf = null;
  }

  public
  Enumeration getAllAppenders() {
    synchronized(aai) {
      return aai.getAllAppenders();
    }
  }

  public
  Appender getAppender(String name) {
    synchronized(aai) {
      return aai.getAppender(name);
    }
  }

  /**
     Returns the current value of the <b>LocationInfo</b> option.
  */
  public
  boolean getLocationInfo() {
    return locationInfo;
  }

  
  /**
     The <code>AsyncAppender</code> does not require a layout. Hence,
     this method always returns <code>false</code>. */
  public 
  boolean requiresLayout() {
    return false;
  }

  public
  void removeAllAppenders() {
    synchronized(aai) {
      aai.removeAllAppenders();
    }
  }
  

  public
  void removeAppender(Appender appender) {
    synchronized(aai) {
      aai.removeAppender(appender);
    }
  }

  public
  void removeAppender(String name) {
    synchronized(aai) {
      aai.removeAppender(name);
    }
  }

  /**
     The <b>LocationInfo</b> option takes a boolean value. By
     default, it is set to false which means there will be no effort
     to extract the location information related to the event. As a
     result, the event that will be ultimately logged will likely to
     contain the wrong location information (if present in the log
     format).

     <p>Location information extraction is comparatively very slow and
     should be avoided unless performance is not a concern.
   */
  public
  void setLocationInfo(boolean flag) {
    locationInfo = flag;
  }
  
  
  /**
     The <b>BufferSize</b> option takes a non-negative integer
     value.  This integer value determines the maximum size of the
     bounded buffer. Increasing the size of the buffer is always
     safe. However, if an existing buffer holds unwritten elements,
     then <em>decreasing the buffer size will result in event
     loss.</em> Nevertheless, while script configuring the
     AsyncAppender, it is safe to set a buffer size smaller than the
     {@link #DEFAULT_BUFFER_SIZE default buffer size} because
     configurators guarantee that an appender cannot be used before
     being completely configured. 
   */
  public
  void setBufferSize(int size) {
    bf.resize(size);
  }
  
  /**
     Returns the current value of the <b>BufferSize</b> option.
   */
  public
  int getBufferSize() {
    return bf.getMaxSize();
  }

 /**
     Returns the option names for this component in addition in
     addition to the options of its super class {@link
     AppenderSkeleton}.  
     
     @deprecated We now use JavaBeans introspection to configure
     components. Options strings are no longer needed.
   */
  public
  String[] getOptionStrings() {
    return OptionConverter.concatanateArrays(super.getOptionStrings(),
          new String[] {LOCATION_INFO_OPTION, BUFFER_SIZE_OPTION});
  }

 /**
     Set AsyncAppender specific options:

     <p>On top of the options of the super class {@link
     AppenderSkeleton}, the only recognized options are
     <b>BufferSize</b> and <b>LocationInfo</b>.
     
     <p> The <b>BufferSize</b> option takes a non-negative integer
     value.  This integer value determines the maximum size of the
     bounded buffer. Increasing the size of the buffer is always
     safe. However, if an existing buffer holds unwritten elements,
     then <em>decreasing the buffer size will result in event
     loss.</em> Nevertheless, while script configuring the
     AsyncAppender, it is safe to set a buffer size smaller than the
     {@link #DEFAULT_BUFFER_SIZE default buffer size} because
     configurators guarantee that an appender cannot be used before
     being completely configured. 

     <p>The <b>LocationInfo</b> option takes a boolean value. By
     default, it is set to false which means there will be no effort
     to extract the location information related to the event. As a
     result, the event that will be ultimately logged will likely to
     contain the wrong location information (if present in the log
     format).

     <p>Location information extraction is comparatively very slow and
     should be avoided unless performance is not a concern.

     @deprecated Use the setter method for the option directly instead
     of the generic <code>setOption</code> method. 
 */
  public
  void setOption(String option, String value) {
    if(value == null) return;
    super.setOption(option, value);

    if (option.equals(LOCATION_INFO_OPTION))
      locationInfo = OptionConverter.toBoolean(value, locationInfo);
    else if (option.equals(BUFFER_SIZE_OPTION)) {
      int newSize = OptionConverter.toInt(value, DEFAULT_BUFFER_SIZE);
      bf.resize(newSize);
    }
  }
  
  /*
  public
  String getOption(String option) {
    if (option.equals(LOCATION_INFO_OPTION)) {
      return locationInfo ? "true" : "false";
    } else if (option.equals(BUFFER_SIZE_OPTION)) {
      return Integer.toString(bf.getMaxSize());
    } else {
      return super.getOption(option);
    }
  }
  */
}
// ------------------------------------------------------------------------------
// ------------------------------------------------------------------------------
// ----------------------------------------------------------------------------
class Dispatcher extends Thread {

  BoundedFIFO bf;
  AppenderAttachableImpl aai;
  boolean interrupted = false;
  AsyncAppender container;

  Dispatcher(BoundedFIFO bf, AsyncAppender container) {
    this.bf = bf;
    this.container = container;
    this.aai = container.aai;
    // set the dispatcher priority to lowest possible value
    this.setPriority(Thread.MIN_PRIORITY);
    this.setName("Dispatcher-"+getName());
    // set the dispatcher priority to MIN_PRIORITY plus or minus 2
    // depending on the direction of MIN to MAX_PRIORITY.
    //+ (Thread.MAX_PRIORITY > Thread.MIN_PRIORITY ? 1 : -1)*2);

  }

  void close() {
    synchronized(bf) {
      interrupted = true;   
      // We have a waiting dispacther if and only if bf.length is
      // zero.  In that case, we need to give it a death kiss.
      if(bf.length() == 0) {
	bf.notify();
      }
    }
  }



  /**
     The dispatching strategy is to wait until there are events in the
     buffer to process. After having processed an event, we release
     the monitor (variable bf) so that new events can be placed in the
     buffer, instead of keeping the monitor and processing the remaining
     events in the buffer. 

    <p>Other approaches might yield better results.

  */
  public
  void run() {

    //Category cat = Category.getInstance(Dispatcher.class.getName());

    LoggingEvent event;
    
    while(true) {
      synchronized(bf) {
	if(bf.length() == 0) {
	  // Exit loop if interrupted but only if the the buffer is empty.
	  if(interrupted) { 
	    //cat.info("Exiting.");
	    return;
	  }
	  try {
	    //LogLog.debug("Waiting for new event to dispatch.");
	    bf.wait();
	  } catch(InterruptedException e) {
	    LogLog.error("The dispathcer should not be interrupted.");
	    break;
	  }
	}
	event = bf.get();
	if(bf.wasFull()) {
	  //LogLog.debug("Notifying AsyncAppender about freed space.");
	  bf.notify();
	}
      } // synchronized
  
      // The synchronization on parent is necessary to protect against
      // operations on the aai object of the parent
      synchronized(container.aai) {
	if(aai != null && event != null) {
	  aai.appendLoopOnAppenders(event);
	}
      }
    } // while
  }
}