All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.apache.catalina.core.ContainerBase Maven / Gradle / Ivy

/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 * 
 *      http://www.apache.org/licenses/LICENSE-2.0
 * 
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.catalina.core;


import java.beans.PropertyChangeListener;
import java.beans.PropertyChangeSupport;
import java.io.IOException;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Hashtable;
import java.util.Iterator;

import javax.management.ObjectName;
import javax.naming.directory.DirContext;
import javax.servlet.ServletException;

import org.apache.catalina.AccessLog;
import org.apache.catalina.CatalinaFactory;
import org.apache.catalina.Cluster;
import org.apache.catalina.Container;
import org.apache.catalina.ContainerEvent;
import org.apache.catalina.ContainerListener;
import org.apache.catalina.Globals;
import org.apache.catalina.Lifecycle;
import org.apache.catalina.LifecycleException;
import org.apache.catalina.LifecycleState;
import org.apache.catalina.Loader;
import org.apache.catalina.Manager;
import org.apache.catalina.Pipeline;
import org.apache.catalina.Realm;
import org.apache.catalina.Valve;
import org.apache.catalina.connector.Request;
import org.apache.catalina.connector.Response;
import org.apache.catalina.mbeans.MBeanUtils;
import org.apache.catalina.util.LifecycleMBeanBase;
import org.apache.juli.logging.Log;
import org.apache.juli.logging.LogFactory;
import org.apache.naming.resources.ProxyDirContext;
import org.apache.tomcat.util.ExceptionUtils;
import org.apache.tomcat.util.res.StringManager;


/**
 * Abstract implementation of the Container interface, providing common
 * functionality required by nearly every implementation.  Classes extending
 * this base class must implement getInfo(), and may implement
 * a replacement for invoke().
 * 

* All subclasses of this abstract base class will include support for a * Pipeline object that defines the processing to be performed for each request * received by the invoke() method of this class, utilizing the * "Chain of Responsibility" design pattern. A subclass should encapsulate its * own processing functionality as a Valve, and configure this * Valve into the pipeline by calling setBasic(). *

* This implementation fires property change events, per the JavaBeans design * pattern, for changes in singleton properties. In addition, it fires the * following ContainerEvent events to listeners who register * themselves with addContainerListener(): *

* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
TypeDataDescription
addChildContainerChild container added to this Container.
addValveValveValve added to this Container.
removeChildContainerChild container removed from this Container.
removeValveValveValve removed from this Container.
startnullContainer was started.
stopnullContainer was stopped.
* Subclasses that fire additional events should document them in the * class comments of the implementation class. * * TODO: Review synchronisation around background processing. See bug 47024. * * @author Craig R. McClanahan */ public abstract class ContainerBase extends LifecycleMBeanBase implements Container { private static final org.apache.juli.logging.Log log= org.apache.juli.logging.LogFactory.getLog( ContainerBase.class ); /** * Perform addChild with the permissions of this class. * addChild can be called with the XML parser on the stack, * this allows the XML parser to have fewer privileges than * Tomcat. */ protected class PrivilegedAddChild implements PrivilegedAction { private Container child; PrivilegedAddChild(Container child) { this.child = child; } @Override public Void run() { addChildInternal(child); return null; } } // ----------------------------------------------------- Instance Variables /** * The child Containers belonging to this Container, keyed by name. */ protected HashMap children = new HashMap(); /** * The processor delay for this component. */ protected int backgroundProcessorDelay = -1; /** * The container event listeners for this Container. */ protected ArrayList listeners = new ArrayList(); /** * The Loader implementation with which this Container is associated. */ protected Loader loader = null; /** * The Logger implementation with which this Container is associated. */ protected Log logger = null; /** * Associated logger name. */ protected String logName = null; /** * The Manager implementation with which this Container is associated. */ protected Manager manager = null; /** * The cluster with which this Container is associated. */ protected Cluster cluster = null; /** * The human-readable name of this Container. */ protected String name = null; /** * The parent Container to which this Container is a child. */ protected Container parent = null; /** * The parent class loader to be configured when we install a Loader. */ protected ClassLoader parentClassLoader = null; /** * The Pipeline object with which this Container is associated. */ protected Pipeline pipeline = CatalinaFactory.getFactory().createPipeline(this); /** * The Realm with which this Container is associated. */ protected Realm realm = null; /** * The resources DirContext object with which this Container is associated. */ protected DirContext resources = null; /** * The string manager for this package. */ protected static final StringManager sm = StringManager.getManager(Constants.Package); /** * Will children be started automatically when they are added. */ protected boolean startChildren = true; /** * The property change support for this component. */ protected PropertyChangeSupport support = new PropertyChangeSupport(this); /** * The background thread. */ private Thread thread = null; /** * The background thread completion semaphore. */ private volatile boolean threadDone = false; /** * The access log to use for requests normally handled by this container * that have been handled earlier in the processing chain. */ protected volatile AccessLog accessLog = null; private volatile boolean accessLogScanComplete = false; // ------------------------------------------------------------- Properties /** * Get the delay between the invocation of the backgroundProcess method on * this container and its children. Child containers will not be invoked * if their delay value is not negative (which would mean they are using * their own thread). Setting this to a positive value will cause * a thread to be spawn. After waiting the specified amount of time, * the thread will invoke the executePeriodic method on this container * and all its children. */ @Override public int getBackgroundProcessorDelay() { return backgroundProcessorDelay; } /** * Set the delay between the invocation of the execute method on this * container and its children. * * @param delay The delay in seconds between the invocation of * backgroundProcess methods */ @Override public void setBackgroundProcessorDelay(int delay) { backgroundProcessorDelay = delay; } /** * Return descriptive information about this Container implementation and * the corresponding version number, in the format * <description>/<version>. */ @Override public String getInfo() { return this.getClass().getName(); } /** * Return the Loader with which this Container is associated. If there is * no associated Loader, return the Loader associated with our parent * Container (if any); otherwise, return null. */ @Override public Loader getLoader() { if (loader != null) return (loader); if (parent != null) return (parent.getLoader()); return (null); } /** * Set the Loader with which this Container is associated. * * @param loader The newly associated loader */ @Override public synchronized void setLoader(Loader loader) { // Change components if necessary Loader oldLoader = this.loader; if (oldLoader == loader) return; this.loader = loader; // Stop the old component if necessary if (getState().isAvailable() && (oldLoader != null) && (oldLoader instanceof Lifecycle)) { try { ((Lifecycle) oldLoader).stop(); } catch (LifecycleException e) { log.error("ContainerBase.setLoader: stop: ", e); } } // Start the new component if necessary if (loader != null) loader.setContainer(this); if (getState().isAvailable() && (loader != null) && (loader instanceof Lifecycle)) { try { ((Lifecycle) loader).start(); } catch (LifecycleException e) { log.error("ContainerBase.setLoader: start: ", e); } } // Report this property change to interested listeners support.firePropertyChange("loader", oldLoader, this.loader); } /** * Return the Logger for this Container. */ @Override public Log getLogger() { if (logger != null) return (logger); logger = LogFactory.getLog(logName()); return (logger); } /** * Return the Manager with which this Container is associated. If there is * no associated Manager, return the Manager associated with our parent * Container (if any); otherwise return null. */ @Override public Manager getManager() { if (manager != null) return (manager); if (parent != null) return (parent.getManager()); return (null); } /** * Set the Manager with which this Container is associated. * * @param manager The newly associated Manager */ @Override public synchronized void setManager(Manager manager) { // Change components if necessary Manager oldManager = this.manager; if (oldManager == manager) return; this.manager = manager; // Stop the old component if necessary if (getState().isAvailable() && (oldManager != null) && (oldManager instanceof Lifecycle)) { try { ((Lifecycle) oldManager).stop(); } catch (LifecycleException e) { log.error("ContainerBase.setManager: stop: ", e); } } // Start the new component if necessary if (manager != null) manager.setContainer(this); if (getState().isAvailable() && (manager != null) && (manager instanceof Lifecycle)) { try { ((Lifecycle) manager).start(); } catch (LifecycleException e) { log.error("ContainerBase.setManager: start: ", e); } } // Report this property change to interested listeners support.firePropertyChange("manager", oldManager, this.manager); } /** * Return an object which may be utilized for mapping to this component. */ @Override public Object getMappingObject() { return this; } /** * Return the Cluster with which this Container is associated. If there is * no associated Cluster, return the Cluster associated with our parent * Container (if any); otherwise return null. */ @Override public Cluster getCluster() { if (cluster != null) return (cluster); if (parent != null) return (parent.getCluster()); return (null); } /** * Set the Cluster with which this Container is associated. * * @param cluster The newly associated Cluster */ @Override public synchronized void setCluster(Cluster cluster) { // Change components if necessary Cluster oldCluster = this.cluster; if (oldCluster == cluster) return; this.cluster = cluster; // Stop the old component if necessary if (getState().isAvailable() && (oldCluster != null) && (oldCluster instanceof Lifecycle)) { try { ((Lifecycle) oldCluster).stop(); } catch (LifecycleException e) { log.error("ContainerBase.setCluster: stop: ", e); } } // Start the new component if necessary if (cluster != null) cluster.setContainer(this); if (getState().isAvailable() && (cluster != null) && (cluster instanceof Lifecycle)) { try { ((Lifecycle) cluster).start(); } catch (LifecycleException e) { log.error("ContainerBase.setCluster: start: ", e); } } // Report this property change to interested listeners support.firePropertyChange("cluster", oldCluster, this.cluster); } /** * Return a name string (suitable for use by humans) that describes this * Container. Within the set of child containers belonging to a particular * parent, Container names must be unique. */ @Override public String getName() { return (name); } /** * Set a name string (suitable for use by humans) that describes this * Container. Within the set of child containers belonging to a particular * parent, Container names must be unique. * * @param name New name of this container * * @exception IllegalStateException if this Container has already been * added to the children of a parent Container (after which the name * may not be changed) */ @Override public void setName(String name) { String oldName = this.name; this.name = name; support.firePropertyChange("name", oldName, this.name); } /** * Return if children of this container will be started automatically when * they are added to this container. */ public boolean getStartChildren() { return (startChildren); } /** * Set if children of this container will be started automatically when * they are added to this container. * * @param startChildren New value of the startChildren flag */ public void setStartChildren(boolean startChildren) { boolean oldStartChildren = this.startChildren; this.startChildren = startChildren; support.firePropertyChange("startChildren", oldStartChildren, this.startChildren); } /** * Return the Container for which this Container is a child, if there is * one. If there is no defined parent, return null. */ @Override public Container getParent() { return (parent); } /** * Set the parent Container to which this Container is being added as a * child. This Container may refuse to become attached to the specified * Container by throwing an exception. * * @param container Container to which this Container is being added * as a child * * @exception IllegalArgumentException if this Container refuses to become * attached to the specified Container */ @Override public void setParent(Container container) { Container oldParent = this.parent; this.parent = container; support.firePropertyChange("parent", oldParent, this.parent); } /** * Return the parent class loader (if any) for this web application. * This call is meaningful only after a Loader has * been configured. */ @Override public ClassLoader getParentClassLoader() { if (parentClassLoader != null) return (parentClassLoader); if (parent != null) { return (parent.getParentClassLoader()); } return (ClassLoader.getSystemClassLoader()); } /** * Set the parent class loader (if any) for this web application. * This call is meaningful only before a Loader has * been configured, and the specified value (if non-null) should be * passed as an argument to the class loader constructor. * * * @param parent The new parent class loader */ @Override public void setParentClassLoader(ClassLoader parent) { ClassLoader oldParentClassLoader = this.parentClassLoader; this.parentClassLoader = parent; support.firePropertyChange("parentClassLoader", oldParentClassLoader, this.parentClassLoader); } /** * Return the Pipeline object that manages the Valves associated with * this Container. */ @Override public Pipeline getPipeline() { return (this.pipeline); } /** * Return the Realm with which this Container is associated. If there is * no associated Realm, return the Realm associated with our parent * Container (if any); otherwise return null. */ @Override public Realm getRealm() { if (realm != null) return (realm); if (parent != null) return (parent.getRealm()); return (null); } /** * Set the Realm with which this Container is associated. * * @param realm The newly associated Realm */ @Override public synchronized void setRealm(Realm realm) { // Change components if necessary Realm oldRealm = this.realm; if (oldRealm == realm) return; this.realm = realm; // Stop the old component if necessary if (getState().isAvailable() && (oldRealm != null) && (oldRealm instanceof Lifecycle)) { try { ((Lifecycle) oldRealm).stop(); } catch (LifecycleException e) { log.error("ContainerBase.setRealm: stop: ", e); } } // Start the new component if necessary if (realm != null) realm.setContainer(this); if (getState().isAvailable() && (realm != null) && (realm instanceof Lifecycle)) { try { ((Lifecycle) realm).start(); } catch (LifecycleException e) { log.error("ContainerBase.setRealm: start: ", e); } } // Report this property change to interested listeners support.firePropertyChange("realm", oldRealm, this.realm); } /** * Return the resources DirContext object with which this Container is * associated. If there is no associated resources object, return the * resources associated with our parent Container (if any); otherwise * return null. */ @Override public DirContext getResources() { if (resources != null) return (resources); if (parent != null) return (parent.getResources()); return (null); } /** * Set the resources DirContext object with which this Container is * associated. * * @param resources The newly associated DirContext */ @Override public synchronized void setResources(DirContext resources) { // Called from StandardContext.setResources() // <- StandardContext.start() // <- ContainerBase.addChildInternal() // Change components if necessary DirContext oldResources = this.resources; if (oldResources == resources) return; Hashtable env = new Hashtable(); if (getParent() != null) env.put(ProxyDirContext.HOST, getParent().getName()); env.put(ProxyDirContext.CONTEXT, getName()); this.resources = new ProxyDirContext(env, resources); // Report this property change to interested listeners support.firePropertyChange("resources", oldResources, this.resources); } // ------------------------------------------------------ Container Methods /** * Add a new child Container to those associated with this Container, * if supported. Prior to adding this Container to the set of children, * the child's setParent() method must be called, with this * Container as an argument. This method may thrown an * IllegalArgumentException if this Container chooses not * to be attached to the specified Container, in which case it is not added * * @param child New child Container to be added * * @exception IllegalArgumentException if this exception is thrown by * the setParent() method of the child Container * @exception IllegalArgumentException if the new child does not have * a name unique from that of existing children of this Container * @exception IllegalStateException if this Container does not support * child Containers */ @Override public void addChild(Container child) { if (Globals.IS_SECURITY_ENABLED) { PrivilegedAction dp = new PrivilegedAddChild(child); AccessController.doPrivileged(dp); } else { addChildInternal(child); } } private void addChildInternal(Container child) { if( log.isDebugEnabled() ) log.debug("Add child " + child + " " + this); synchronized(children) { if (children.get(child.getName()) != null) throw new IllegalArgumentException("addChild: Child name '" + child.getName() + "' is not unique"); child.setParent(this); // May throw IAE children.put(child.getName(), child); } // Start child // Don't do this inside sync block - start can be a slow process and // locking the children object can cause problems elsewhere if ((getState().isAvailable() || LifecycleState.STARTING_PREP.equals(getState())) && startChildren) { boolean success = false; try { child.start(); success = true; } catch (LifecycleException e) { log.error("ContainerBase.addChild: start: ", e); throw new IllegalStateException ("ContainerBase.addChild: start: " + e); } finally { if (!success) { synchronized (children) { children.remove(child.getName()); } } } } fireContainerEvent(ADD_CHILD_EVENT, child); } /** * Add a container event listener to this component. * * @param listener The listener to add */ @Override public void addContainerListener(ContainerListener listener) { synchronized (listeners) { listeners.add(listener); } } /** * Add a property change listener to this component. * * @param listener The listener to add */ @Override public void addPropertyChangeListener(PropertyChangeListener listener) { support.addPropertyChangeListener(listener); } /** * Return the child Container, associated with this Container, with * the specified name (if any); otherwise, return null * * @param name Name of the child Container to be retrieved */ @Override public Container findChild(String name) { if (name == null) return (null); synchronized (children) { return children.get(name); } } /** * Return the set of children Containers associated with this Container. * If this Container has no children, a zero-length array is returned. */ @Override public Container[] findChildren() { synchronized (children) { Container results[] = new Container[children.size()]; return children.values().toArray(results); } } /** * Return the set of container listeners associated with this Container. * If this Container has no registered container listeners, a zero-length * array is returned. */ @Override public ContainerListener[] findContainerListeners() { synchronized (listeners) { ContainerListener[] results = new ContainerListener[listeners.size()]; return listeners.toArray(results); } } /** * Process the specified Request, to produce the corresponding Response, * by invoking the first Valve in our pipeline (if any), or the basic * Valve otherwise. * * @param request Request to be processed * @param response Response to be produced * * @exception IllegalStateException if neither a pipeline or a basic * Valve have been configured for this Container * @exception IOException if an input/output error occurred while * processing * @exception ServletException if a ServletException was thrown * while processing this request */ @Override public void invoke(Request request, Response response) throws IOException, ServletException { pipeline.getFirst().invoke(request, response); } /** * Remove an existing child Container from association with this parent * Container. * * @param child Existing child Container to be removed */ @Override public void removeChild(Container child) { if (child == null) { return; } synchronized(children) { if (children.get(child.getName()) == null) return; children.remove(child.getName()); } try { if (child.getState().isAvailable()) { child.stop(); } } catch (LifecycleException e) { log.error("ContainerBase.removeChild: stop: ", e); } fireContainerEvent(REMOVE_CHILD_EVENT, child); // Set child's parent to null to prevent a loop child.setParent(null); try { // child.destroy() may have already been called which would have // triggered this call. If that is the case, no need to destroy the // child again. if (!LifecycleState.DESTROYING.equals(child.getState())) { child.destroy(); } } catch (LifecycleException e) { log.error("ContainerBase.removeChild: destroy: ", e); } } /** * Remove a container event listener from this component. * * @param listener The listener to remove */ @Override public void removeContainerListener(ContainerListener listener) { synchronized (listeners) { listeners.remove(listener); } } /** * Remove a property change listener from this component. * * @param listener The listener to remove */ @Override public void removePropertyChangeListener(PropertyChangeListener listener) { support.removePropertyChangeListener(listener); } /** * Start this component and implement the requirements * of {@link org.apache.catalina.util.LifecycleBase#startInternal()}. * * @exception LifecycleException if this component detects a fatal error * that prevents this component from being used */ @Override protected synchronized void startInternal() throws LifecycleException { // Start our subordinate components, if any if ((loader != null) && (loader instanceof Lifecycle)) ((Lifecycle) loader).start(); logger = null; getLogger(); if ((logger != null) && (logger instanceof Lifecycle)) ((Lifecycle) logger).start(); if ((manager != null) && (manager instanceof Lifecycle)) ((Lifecycle) manager).start(); if ((cluster != null) && (cluster instanceof Lifecycle)) ((Lifecycle) cluster).start(); if ((realm != null) && (realm instanceof Lifecycle)) ((Lifecycle) realm).start(); if ((resources != null) && (resources instanceof Lifecycle)) ((Lifecycle) resources).start(); // Start our child containers, if any Container children[] = findChildren(); for (int i = 0; i < children.length; i++) { children[i].start(); } // Start the Valves in our pipeline (including the basic), if any if (pipeline instanceof Lifecycle) ((Lifecycle) pipeline).start(); setState(LifecycleState.STARTING); // Start our thread threadStart(); } /** * Stop this component and implement the requirements * of {@link org.apache.catalina.util.LifecycleBase#stopInternal()}. * * @exception LifecycleException if this component detects a fatal error * that prevents this component from being used */ @Override protected synchronized void stopInternal() throws LifecycleException { // Stop our thread threadStop(); setState(LifecycleState.STOPPING); // Stop the Valves in our pipeline (including the basic), if any if (pipeline instanceof Lifecycle) { ((Lifecycle) pipeline).stop(); } // Stop our child containers, if any Container children[] = findChildren(); for (int i = 0; i < children.length; i++) { children[i].stop(); } // Stop our subordinate components, if any if ((resources != null) && (resources instanceof Lifecycle)) { ((Lifecycle) resources).stop(); } if ((realm != null) && (realm instanceof Lifecycle)) { ((Lifecycle) realm).stop(); } if ((cluster != null) && (cluster instanceof Lifecycle)) { ((Lifecycle) cluster).stop(); } if ((manager != null) && (manager instanceof Lifecycle)) { ((Lifecycle) manager).stop(); } if ((logger != null) && (logger instanceof Lifecycle)) { ((Lifecycle) logger).stop(); } if ((loader != null) && (loader instanceof Lifecycle)) { ((Lifecycle) loader).stop(); } } @Override protected void destroyInternal() throws LifecycleException { // Stop the Valves in our pipeline (including the basic), if any if (pipeline instanceof Lifecycle) { ((Lifecycle) pipeline).destroy(); } // Remove children now this container is being destroyed for (Container child : findChildren()) { removeChild(child); } // Required if the child is destroyed directly. if (parent != null) { parent.removeChild(this); } super.destroyInternal(); } /** * Check this container for an access log and if none is found, look to the * parent. If there is no parent and still none is found, use the NoOp * access log. */ @Override public void logAccess(Request request, Response response, long time, boolean useDefault) { boolean logged = false; if (getAccessLog() != null) { getAccessLog().log(request, response, time); logged = true; } if (getParent() != null) { // No need to use default logger once request/response has been logged // once getParent().logAccess(request, response, time, (useDefault && !logged)); } } @Override public AccessLog getAccessLog() { if (accessLogScanComplete) { return accessLog; } Valve valves[] = getPipeline().getValves(); for (Valve valve : valves) { if (valve instanceof AccessLog) { accessLog = (AccessLog) valve; break; } } accessLogScanComplete = true; return accessLog; } // ------------------------------------------------------- Pipeline Methods /** * Convenience method, intended for use by the digester to simplify the * process of adding Valves to containers. See * {@link Pipeline#addValve(Valve)} for full details. Components other than * the digester should use {@link #getPipeline()}.{@link #addValve(Valve)} in case a * future implementation provides an alternative method for the digester to * use. * * @param valve Valve to be added * * @exception IllegalArgumentException if this Container refused to * accept the specified Valve * @exception IllegalArgumentException if the specified Valve refuses to be * associated with this Container * @exception IllegalStateException if the specified Valve is already * associated with a different Container */ public synchronized void addValve(Valve valve) { pipeline.addValve(valve); } /** * Execute a periodic task, such as reloading, etc. This method will be * invoked inside the classloading context of this container. Unexpected * throwables will be caught and logged. */ @Override public void backgroundProcess() { if (!getState().isAvailable()) return; if (cluster != null) { try { cluster.backgroundProcess(); } catch (Exception e) { log.warn(sm.getString("containerBase.backgroundProcess.cluster", cluster), e); } } if (loader != null) { try { loader.backgroundProcess(); } catch (Exception e) { log.warn(sm.getString("containerBase.backgroundProcess.loader", loader), e); } } if (manager != null) { try { manager.backgroundProcess(); } catch (Exception e) { log.warn(sm.getString("containerBase.backgroundProcess.manager", manager), e); } } if (realm != null) { try { realm.backgroundProcess(); } catch (Exception e) { log.warn(sm.getString("containerBase.backgroundProcess.realm", realm), e); } } Valve current = pipeline.getFirst(); while (current != null) { try { current.backgroundProcess(); } catch (Exception e) { log.warn(sm.getString("containerBase.backgroundProcess.valve", current), e); } current = current.getNext(); } fireLifecycleEvent(Lifecycle.PERIODIC_EVENT, null); } // ------------------------------------------------------ Protected Methods /** * Notify all container event listeners that a particular event has * occurred for this Container. The default implementation performs * this notification synchronously using the calling thread. * * @param type Event type * @param data Event data */ @Override public void fireContainerEvent(String type, Object data) { if (listeners.size() < 1) return; ContainerEvent event = new ContainerEvent(this, type, data); ContainerListener list[] = new ContainerListener[0]; synchronized (listeners) { list = listeners.toArray(list); } for (int i = 0; i < list.length; i++) list[i].containerEvent(event); } /** * Return the abbreviated name of this container for logging messages */ protected String logName() { if (logName != null) { return logName; } String loggerName = null; Container current = this; while (current != null) { String name = current.getName(); if ((name == null) || (name.equals(""))) { name = "/"; } else if (name.startsWith("##")) { name = "/" + name; } loggerName = "[" + name + "]" + ((loggerName != null) ? ("." + loggerName) : ""); current = current.getParent(); } logName = ContainerBase.class.getName() + "." + loggerName; return logName; } // -------------------- JMX and Registration -------------------- @Override protected String getDomainInternal() { return MBeanUtils.getDomain(this); } public ObjectName[] getChildren() { ObjectName result[]=new ObjectName[children.size()]; Iterator it=children.values().iterator(); int i=0; while( it.hasNext() ) { Object next=it.next(); if( next instanceof ContainerBase ) { result[i++]=((ContainerBase)next).getObjectName(); } } return result; } // -------------------- Background Thread -------------------- /** * Start the background thread that will periodically check for * session timeouts. */ protected void threadStart() { if (thread != null) return; if (backgroundProcessorDelay <= 0) return; threadDone = false; String threadName = "ContainerBackgroundProcessor[" + toString() + "]"; thread = new Thread(new ContainerBackgroundProcessor(), threadName); thread.setDaemon(true); thread.start(); } /** * Stop the background thread that is periodically checking for * session timeouts. */ protected void threadStop() { if (thread == null) return; threadDone = true; thread.interrupt(); try { thread.join(); } catch (InterruptedException e) { // Ignore } thread = null; } // -------------------------------------- ContainerExecuteDelay Inner Class /** * Private thread class to invoke the backgroundProcess method * of this container and its children after a fixed delay. */ protected class ContainerBackgroundProcessor implements Runnable { @Override public void run() { while (!threadDone) { try { Thread.sleep(backgroundProcessorDelay * 1000L); } catch (InterruptedException e) { // Ignore } if (!threadDone) { Container parent = (Container) getMappingObject(); ClassLoader cl = Thread.currentThread().getContextClassLoader(); if (parent.getLoader() != null) { cl = parent.getLoader().getClassLoader(); } processChildren(parent, cl); } } } protected void processChildren(Container container, ClassLoader cl) { try { if (container.getLoader() != null) { Thread.currentThread().setContextClassLoader (container.getLoader().getClassLoader()); } container.backgroundProcess(); } catch (Throwable t) { ExceptionUtils.handleThrowable(t); log.error("Exception invoking periodic operation: ", t); } finally { Thread.currentThread().setContextClassLoader(cl); } Container[] children = container.findChildren(); for (int i = 0; i < children.length; i++) { if (children[i].getBackgroundProcessorDelay() <= 0) { processChildren(children[i], cl); } } } } }




© 2015 - 2024 Weber Informatics LLC | Privacy Policy