/*
 * 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.File;
import java.io.IOException;
import java.io.InputStream;
import java.net.InetAddress;
import java.net.ServerSocket;
import java.net.Socket;
import java.net.SocketTimeoutException;
import java.net.URISyntaxException;
import java.net.URL;
import java.net.URLClassLoader;
import java.security.AccessControlException;
import java.util.Random;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.ScheduledThreadPoolExecutor;
import java.util.concurrent.TimeUnit;

import javax.management.InstanceNotFoundException;
import javax.management.MBeanException;
import javax.management.MBeanServer;
import javax.management.ObjectName;

import org.apache.catalina.Context;
import org.apache.catalina.Lifecycle;
import org.apache.catalina.LifecycleException;
import org.apache.catalina.LifecycleState;
import org.apache.catalina.Server;
import org.apache.catalina.Service;
import org.apache.catalina.deploy.NamingResourcesImpl;
import org.apache.catalina.mbeans.MBeanFactory;
import org.apache.catalina.startup.Catalina;
import org.apache.catalina.util.ExtensionValidator;
import org.apache.catalina.util.LifecycleMBeanBase;
import org.apache.catalina.util.ServerInfo;
import org.apache.juli.logging.Log;
import org.apache.juli.logging.LogFactory;
import org.apache.tomcat.util.ExceptionUtils;
import org.apache.tomcat.util.buf.StringCache;
import org.apache.tomcat.util.modeler.Registry;
import org.apache.tomcat.util.res.StringManager;
import org.apache.tomcat.util.threads.TaskThreadFactory;


Standard implementation of the Server interface, available for use (but not required) when deploying and starting Catalina.
Author:Craig R. McClanahan
/** * Standard implementation of the <b>Server</b> interface, available for use * (but not required) when deploying and starting Catalina. * * @author Craig R. McClanahan */
public final class StandardServer extends LifecycleMBeanBase implements Server { private static final Log log = LogFactory.getLog(StandardServer.class); // ------------------------------------------------------------ Constructor
Construct a default instance of this class.
/** * Construct a default instance of this class. */
public StandardServer() { super(); globalNamingResources = new NamingResourcesImpl(); globalNamingResources.setContainer(this); if (isUseNaming()) { namingContextListener = new NamingContextListener(); addLifecycleListener(namingContextListener); } else { namingContextListener = null; } } // ----------------------------------------------------- Instance Variables
Global naming resources context.
/** * Global naming resources context. */
private javax.naming.Context globalNamingContext = null;
Global naming resources.
/** * Global naming resources. */
private NamingResourcesImpl globalNamingResources = null;
The naming context listener for this web application.
/** * The naming context listener for this web application. */
private final NamingContextListener namingContextListener;
The port number on which we wait for shutdown commands.
/** * The port number on which we wait for shutdown commands. */
private int port = 8005; private int portOffset = 0;
The address on which we wait for shutdown commands.
/** * The address on which we wait for shutdown commands. */
private String address = "localhost";
A random number generator that is only used if the shutdown command string is longer than 1024 characters.
/** * A random number generator that is <strong>only</strong> used if * the shutdown command string is longer than 1024 characters. */
private Random random = null;
The set of Services associated with this Server.
/** * The set of Services associated with this Server. */
private Service services[] = new Service[0]; private final Object servicesLock = new Object();
The shutdown command string we are looking for.
/** * The shutdown command string we are looking for. */
private String shutdown = "SHUTDOWN";
The string manager for this package.
/** * The string manager for this package. */
private static final StringManager sm = StringManager.getManager(Constants.Package);
The property change support for this component.
/** * The property change support for this component. */
final PropertyChangeSupport support = new PropertyChangeSupport(this); private volatile boolean stopAwait = false; private Catalina catalina = null; private ClassLoader parentClassLoader = null;
Thread that currently is inside our await() method.
/** * Thread that currently is inside our await() method. */
private volatile Thread awaitThread = null;
Server socket that is used to wait for the shutdown command.
/** * Server socket that is used to wait for the shutdown command. */
private volatile ServerSocket awaitSocket = null; private File catalinaHome = null; private File catalinaBase = null; private final Object namingToken = new Object();
The number of threads available to process utility tasks in this service.
/** * The number of threads available to process utility tasks in this service. */
protected int utilityThreads = 2;
The utility threads daemon flag.
/** * The utility threads daemon flag. */
protected boolean utilityThreadsAsDaemon = false;
Utility executor with scheduling capabilities.
/** * Utility executor with scheduling capabilities. */
private ScheduledThreadPoolExecutor utilityExecutor = null;
Utility executor wrapper.
/** * Utility executor wrapper. */
private ScheduledExecutorService utilityExecutorWrapper = null;
Controller for the periodic lifecycle event.
/** * Controller for the periodic lifecycle event. */
private ScheduledFuture<?> periodicLifecycleEventFuture = null; private ScheduledFuture<?> monitorFuture;
The lifecycle event period in seconds.
/** * The lifecycle event period in seconds. */
protected int periodicEventDelay = 10; // ------------------------------------------------------------- Properties @Override public Object getNamingToken() { return namingToken; }
Return the global naming resources context.
/** * Return the global naming resources context. */
@Override public javax.naming.Context getGlobalNamingContext() { return this.globalNamingContext; }
Set the global naming resources context.
Params:
  • globalNamingContext – The new global naming resource context
/** * Set the global naming resources context. * * @param globalNamingContext The new global naming resource context */
public void setGlobalNamingContext(javax.naming.Context globalNamingContext) { this.globalNamingContext = globalNamingContext; }
Return the global naming resources.
/** * Return the global naming resources. */
@Override public NamingResourcesImpl getGlobalNamingResources() { return this.globalNamingResources; }
Set the global naming resources.
Params:
  • globalNamingResources – The new global naming resources
/** * Set the global naming resources. * * @param globalNamingResources The new global naming resources */
@Override public void setGlobalNamingResources (NamingResourcesImpl globalNamingResources) { NamingResourcesImpl oldGlobalNamingResources = this.globalNamingResources; this.globalNamingResources = globalNamingResources; this.globalNamingResources.setContainer(this); support.firePropertyChange("globalNamingResources", oldGlobalNamingResources, this.globalNamingResources); }
Report the current Tomcat Server Release number
Returns:Tomcat release identifier
/** * Report the current Tomcat Server Release number * @return Tomcat release identifier */
public String getServerInfo() { return ServerInfo.getServerInfo(); }
Return the current server built timestamp
Returns:server built timestamp.
/** * Return the current server built timestamp * @return server built timestamp. */
public String getServerBuilt() { return ServerInfo.getServerBuilt(); }
Return the current server's version number.
Returns:server's version number.
/** * Return the current server's version number. * @return server's version number. */
public String getServerNumber() { return ServerInfo.getServerNumber(); }
Return the port number we listen to for shutdown commands.
/** * Return the port number we listen to for shutdown commands. */
@Override public int getPort() { return this.port; }
Set the port number we listen to for shutdown commands.
Params:
  • port – The new port number
/** * Set the port number we listen to for shutdown commands. * * @param port The new port number */
@Override public void setPort(int port) { this.port = port; } @Override public int getPortOffset() { return portOffset; } @Override public void setPortOffset(int portOffset) { if (portOffset < 0) { throw new IllegalArgumentException( sm.getString("standardServer.portOffset.invalid", Integer.valueOf(portOffset))); } this.portOffset = portOffset; } @Override public int getPortWithOffset() { // Non-positive port values have special meanings and the offset should // not apply. int port = getPort(); if (port > 0) { return port + getPortOffset(); } else { return port; } }
Return the address on which we listen to for shutdown commands.
/** * Return the address on which we listen to for shutdown commands. */
@Override public String getAddress() { return this.address; }
Set the address on which we listen to for shutdown commands.
Params:
  • address – The new address
/** * Set the address on which we listen to for shutdown commands. * * @param address The new address */
@Override public void setAddress(String address) { this.address = address; }
Return the shutdown command string we are waiting for.
/** * Return the shutdown command string we are waiting for. */
@Override public String getShutdown() { return this.shutdown; }
Set the shutdown command we are waiting for.
Params:
  • shutdown – The new shutdown command
/** * Set the shutdown command we are waiting for. * * @param shutdown The new shutdown command */
@Override public void setShutdown(String shutdown) { this.shutdown = shutdown; }
Return the outer Catalina startup/shutdown component if present.
/** * Return the outer Catalina startup/shutdown component if present. */
@Override public Catalina getCatalina() { return catalina; }
Set the outer Catalina startup/shutdown component if present.
/** * Set the outer Catalina startup/shutdown component if present. */
@Override public void setCatalina(Catalina catalina) { this.catalina = catalina; } @Override public int getUtilityThreads() { return utilityThreads; }
Handles the special values.
/** * Handles the special values. */
private static int getUtilityThreadsInternal(int utilityThreads) { int result = utilityThreads; if (result <= 0) { result = Runtime.getRuntime().availableProcessors() + result; if (result < 2) { result = 2; } } return result; } @Override public void setUtilityThreads(int utilityThreads) { // Use local copies to ensure thread safety int oldUtilityThreads = this.utilityThreads; if (getUtilityThreadsInternal(utilityThreads) < getUtilityThreadsInternal(oldUtilityThreads)) { return; } this.utilityThreads = utilityThreads; if (oldUtilityThreads != utilityThreads && utilityExecutor != null) { reconfigureUtilityExecutor(getUtilityThreadsInternal(utilityThreads)); } } private synchronized void reconfigureUtilityExecutor(int threads) { // The ScheduledThreadPoolExecutor doesn't use MaximumPoolSize, only CorePoolSize is available if (utilityExecutor != null) { utilityExecutor.setCorePoolSize(threads); } else { ScheduledThreadPoolExecutor scheduledThreadPoolExecutor = new ScheduledThreadPoolExecutor(threads, new TaskThreadFactory("Catalina-utility-", utilityThreadsAsDaemon, Thread.MIN_PRIORITY)); scheduledThreadPoolExecutor.setKeepAliveTime(10, TimeUnit.SECONDS); scheduledThreadPoolExecutor.setRemoveOnCancelPolicy(true); scheduledThreadPoolExecutor.setExecuteExistingDelayedTasksAfterShutdownPolicy(false); utilityExecutor = scheduledThreadPoolExecutor; utilityExecutorWrapper = new org.apache.tomcat.util.threads.ScheduledThreadPoolExecutor(utilityExecutor); } }
Get if the utility threads are daemon threads.
Returns:the threads daemon flag
/** * Get if the utility threads are daemon threads. * @return the threads daemon flag */
public boolean getUtilityThreadsAsDaemon() { return utilityThreadsAsDaemon; }
Set the utility threads daemon flag. The default value is true.
Params:
  • utilityThreadsAsDaemon – the new thread daemon flag
/** * Set the utility threads daemon flag. The default value is true. * @param utilityThreadsAsDaemon the new thread daemon flag */
public void setUtilityThreadsAsDaemon(boolean utilityThreadsAsDaemon) { this.utilityThreadsAsDaemon = utilityThreadsAsDaemon; }
Returns:The period between two lifecycle events, in seconds
/** * @return The period between two lifecycle events, in seconds */
public final int getPeriodicEventDelay() { return periodicEventDelay; }
Set the new period between two lifecycle events in seconds.
Params:
  • periodicEventDelay – The period in seconds, negative or zero will disable events
/** * Set the new period between two lifecycle events in seconds. * @param periodicEventDelay The period in seconds, negative or zero will * disable events */
public final void setPeriodicEventDelay(int periodicEventDelay) { this.periodicEventDelay = periodicEventDelay; } // --------------------------------------------------------- Server Methods
Add a new Service to the set of defined Services.
Params:
  • service – The Service to be added
/** * Add a new Service to the set of defined Services. * * @param service The Service to be added */
@Override public void addService(Service service) { service.setServer(this); synchronized (servicesLock) { Service results[] = new Service[services.length + 1]; System.arraycopy(services, 0, results, 0, services.length); results[services.length] = service; services = results; if (getState().isAvailable()) { try { service.start(); } catch (LifecycleException e) { // Ignore } } // Report this property change to interested listeners support.firePropertyChange("service", null, service); } } public void stopAwait() { stopAwait=true; Thread t = awaitThread; if (t != null) { ServerSocket s = awaitSocket; if (s != null) { awaitSocket = null; try { s.close(); } catch (IOException e) { // Ignored } } t.interrupt(); try { t.join(1000); } catch (InterruptedException e) { // Ignored } } }
Wait until a proper shutdown command is received, then return. This keeps the main thread alive - the thread pool listening for http connections is daemon threads.
/** * Wait until a proper shutdown command is received, then return. * This keeps the main thread alive - the thread pool listening for http * connections is daemon threads. */
@Override public void await() { // Negative values - don't wait on port - tomcat is embedded or we just don't like ports if (getPortWithOffset() == -2) { // undocumented yet - for embedding apps that are around, alive. return; } if (getPortWithOffset() == -1) { try { awaitThread = Thread.currentThread(); while(!stopAwait) { try { Thread.sleep( 10000 ); } catch( InterruptedException ex ) { // continue and check the flag } } } finally { awaitThread = null; } return; } // Set up a server socket to wait on try { awaitSocket = new ServerSocket(getPortWithOffset(), 1, InetAddress.getByName(address)); } catch (IOException e) { log.error(sm.getString("standardServer.awaitSocket.fail", address, String.valueOf(getPortWithOffset()), String.valueOf(getPort()), String.valueOf(getPortOffset())), e); return; } try { awaitThread = Thread.currentThread(); // Loop waiting for a connection and a valid command while (!stopAwait) { ServerSocket serverSocket = awaitSocket; if (serverSocket == null) { break; } // Wait for the next connection Socket socket = null; StringBuilder command = new StringBuilder(); try { InputStream stream; long acceptStartTime = System.currentTimeMillis(); try { socket = serverSocket.accept(); socket.setSoTimeout(10 * 1000); // Ten seconds stream = socket.getInputStream(); } catch (SocketTimeoutException ste) { // This should never happen but bug 56684 suggests that // it does. log.warn(sm.getString("standardServer.accept.timeout", Long.valueOf(System.currentTimeMillis() - acceptStartTime)), ste); continue; } catch (AccessControlException ace) { log.warn(sm.getString("standardServer.accept.security"), ace); continue; } catch (IOException e) { if (stopAwait) { // Wait was aborted with socket.close() break; } log.error(sm.getString("standardServer.accept.error"), e); break; } // Read a set of characters from the socket int expected = 1024; // Cut off to avoid DoS attack while (expected < shutdown.length()) { if (random == null) random = new Random(); expected += (random.nextInt() % 1024); } while (expected > 0) { int ch = -1; try { ch = stream.read(); } catch (IOException e) { log.warn(sm.getString("standardServer.accept.readError"), e); ch = -1; } // Control character or EOF (-1) terminates loop if (ch < 32 || ch == 127) { break; } command.append((char) ch); expected--; } } finally { // Close the socket now that we are done with it try { if (socket != null) { socket.close(); } } catch (IOException e) { // Ignore } } // Match against our command string boolean match = command.toString().equals(shutdown); if (match) { log.info(sm.getString("standardServer.shutdownViaPort")); break; } else log.warn(sm.getString("standardServer.invalidShutdownCommand", command.toString())); } } finally { ServerSocket serverSocket = awaitSocket; awaitThread = null; awaitSocket = null; // Close the server socket and return if (serverSocket != null) { try { serverSocket.close(); } catch (IOException e) { // Ignore } } } }
Params:
  • name – Name of the Service to be returned
Returns:the specified Service (if it exists); otherwise return null.
/** * @return the specified Service (if it exists); otherwise return * <code>null</code>. * * @param name Name of the Service to be returned */
@Override public Service findService(String name) { if (name == null) { return null; } synchronized (servicesLock) { for (int i = 0; i < services.length; i++) { if (name.equals(services[i].getName())) { return services[i]; } } } return null; }
Returns:the set of Services defined within this Server.
/** * @return the set of Services defined within this Server. */
@Override public Service[] findServices() { return services; }
Returns:the JMX service names.
/** * @return the JMX service names. */
public ObjectName[] getServiceNames() { ObjectName onames[]=new ObjectName[ services.length ]; for( int i=0; i<services.length; i++ ) { onames[i]=((StandardService)services[i]).getObjectName(); } return onames; }
Remove the specified Service from the set associated from this Server.
Params:
  • service – The Service to be removed
/** * Remove the specified Service from the set associated from this * Server. * * @param service The Service to be removed */
@Override public void removeService(Service service) { synchronized (servicesLock) { int j = -1; for (int i = 0; i < services.length; i++) { if (service == services[i]) { j = i; break; } } if (j < 0) return; try { services[j].stop(); } catch (LifecycleException e) { // Ignore } int k = 0; Service results[] = new Service[services.length - 1]; for (int i = 0; i < services.length; i++) { if (i != j) results[k++] = services[i]; } services = results; // Report this property change to interested listeners support.firePropertyChange("service", service, null); } } @Override public File getCatalinaBase() { if (catalinaBase != null) { return catalinaBase; } catalinaBase = getCatalinaHome(); return catalinaBase; } @Override public void setCatalinaBase(File catalinaBase) { this.catalinaBase = catalinaBase; } @Override public File getCatalinaHome() { return catalinaHome; } @Override public void setCatalinaHome(File catalinaHome) { this.catalinaHome = catalinaHome; } // --------------------------------------------------------- Public Methods
Add a property change listener to this component.
Params:
  • listener – The listener to add
/** * Add a property change listener to this component. * * @param listener The listener to add */
public void addPropertyChangeListener(PropertyChangeListener listener) { support.addPropertyChangeListener(listener); }
Remove a property change listener from this component.
Params:
  • listener – The listener to remove
/** * Remove a property change listener from this component. * * @param listener The listener to remove */
public void removePropertyChangeListener(PropertyChangeListener listener) { support.removePropertyChangeListener(listener); }
Return a String representation of this component.
/** * Return a String representation of this component. */
@Override public String toString() { StringBuilder sb = new StringBuilder("StandardServer["); sb.append(getPort()); sb.append("]"); return sb.toString(); }
Write the configuration information for this entire Server out to the server.xml configuration file.
Throws:
  • InstanceNotFoundException – if the managed resource object cannot be found
  • MBeanException – if the initializer of the object throws an exception, or persistence is not supported
  • RuntimeOperationsException – if an exception is reported by the persistence mechanism
/** * Write the configuration information for this entire <code>Server</code> * out to the server.xml configuration file. * * @exception InstanceNotFoundException * if the managed resource object cannot be found * @exception MBeanException * if the initializer of the object throws an exception, or * persistence is not supported * @exception javax.management.RuntimeOperationsException * if an exception is reported by the persistence mechanism */
public synchronized void storeConfig() throws InstanceNotFoundException, MBeanException { try { // Note: Hard-coded domain used since this object is per Server/JVM ObjectName sname = new ObjectName("Catalina:type=StoreConfig"); MBeanServer server = Registry.getRegistry(null, null).getMBeanServer(); if (server.isRegistered(sname)) { server.invoke(sname, "storeConfig", null, null); } else { log.error(sm.getString("standardServer.storeConfig.notAvailable", sname)); } } catch (Throwable t) { ExceptionUtils.handleThrowable(t); log.error(sm.getString("standardServer.storeConfig.error"), t); } }
Write the configuration information for Context out to the specified configuration file.
Params:
  • context – the context which should save its configuration
Throws:
/** * Write the configuration information for <code>Context</code> * out to the specified configuration file. * * @param context the context which should save its configuration * @exception InstanceNotFoundException * if the managed resource object cannot be found * @exception MBeanException * if the initializer of the object throws an exception * or persistence is not supported * @exception javax.management.RuntimeOperationsException * if an exception is reported by the persistence mechanism */
public synchronized void storeContext(Context context) throws InstanceNotFoundException, MBeanException { try { // Note: Hard-coded domain used since this object is per Server/JVM ObjectName sname = new ObjectName("Catalina:type=StoreConfig"); MBeanServer server = Registry.getRegistry(null, null).getMBeanServer(); if (server.isRegistered(sname)) { server.invoke(sname, "store", new Object[] {context}, new String [] { "java.lang.String"}); } else { log.error(sm.getString("standardServer.storeConfig.notAvailable", sname)); } } catch (Throwable t) { ExceptionUtils.handleThrowable(t); log.error(sm.getString("standardServer.storeConfig.contextError", context.getName()), t); } }
Returns:true if naming should be used.
/** * @return <code>true</code> if naming should be used. */
private boolean isUseNaming() { boolean useNaming = true; // Reading the "catalina.useNaming" environment variable String useNamingProperty = System.getProperty("catalina.useNaming"); if ((useNamingProperty != null) && (useNamingProperty.equals("false"))) { useNaming = false; } return useNaming; }
Start nested components (Services) and implement the requirements of LifecycleBase.startInternal().
Throws:
  • LifecycleException – if this component detects a fatal error that prevents this component from being used
/** * Start nested components ({@link Service}s) 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 void startInternal() throws LifecycleException { fireLifecycleEvent(CONFIGURE_START_EVENT, null); setState(LifecycleState.STARTING); globalNamingResources.start(); // Start our defined Services synchronized (servicesLock) { for (int i = 0; i < services.length; i++) { services[i].start(); } } if (periodicEventDelay > 0) { monitorFuture = getUtilityExecutor().scheduleWithFixedDelay( new Runnable() { @Override public void run() { startPeriodicLifecycleEvent(); } }, 0, 60, TimeUnit.SECONDS); } } protected void startPeriodicLifecycleEvent() { if (periodicLifecycleEventFuture == null || (periodicLifecycleEventFuture != null && periodicLifecycleEventFuture.isDone())) { if (periodicLifecycleEventFuture != null && periodicLifecycleEventFuture.isDone()) { // There was an error executing the scheduled task, get it and log it try { periodicLifecycleEventFuture.get(); } catch (InterruptedException | ExecutionException e) { log.error(sm.getString("standardServer.periodicEventError"), e); } } periodicLifecycleEventFuture = getUtilityExecutor().scheduleAtFixedRate( new Runnable() { @Override public void run() { fireLifecycleEvent(Lifecycle.PERIODIC_EVENT, null); } }, periodicEventDelay, periodicEventDelay, TimeUnit.SECONDS); } }
Stop nested components (Services) and implement the requirements of LifecycleBase.stopInternal().
Throws:
/** * Stop nested components ({@link Service}s) and implement the requirements * of {@link org.apache.catalina.util.LifecycleBase#stopInternal()}. * * @exception LifecycleException if this component detects a fatal error * that needs to be reported */
@Override protected void stopInternal() throws LifecycleException { setState(LifecycleState.STOPPING); if (monitorFuture != null) { monitorFuture.cancel(true); monitorFuture = null; } if (periodicLifecycleEventFuture != null) { periodicLifecycleEventFuture.cancel(false); periodicLifecycleEventFuture = null; } fireLifecycleEvent(CONFIGURE_STOP_EVENT, null); // Stop our defined Services for (int i = 0; i < services.length; i++) { services[i].stop(); } globalNamingResources.stop(); stopAwait(); }
Invoke a pre-startup initialization. This is used to allow connectors to bind to restricted ports under Unix operating environments.
/** * Invoke a pre-startup initialization. This is used to allow connectors * to bind to restricted ports under Unix operating environments. */
@Override protected void initInternal() throws LifecycleException { super.initInternal(); // Initialize utility executor reconfigureUtilityExecutor(getUtilityThreadsInternal(utilityThreads)); register(utilityExecutor, "type=UtilityExecutor"); // Register global String cache // Note although the cache is global, if there are multiple Servers // present in the JVM (may happen when embedding) then the same cache // will be registered under multiple names onameStringCache = register(new StringCache(), "type=StringCache"); // Register the MBeanFactory MBeanFactory factory = new MBeanFactory(); factory.setContainer(this); onameMBeanFactory = register(factory, "type=MBeanFactory"); // Register the naming resources globalNamingResources.init(); // Populate the extension validator with JARs from common and shared // class loaders if (getCatalina() != null) { ClassLoader cl = getCatalina().getParentClassLoader(); // Walk the class loader hierarchy. Stop at the system class loader. // This will add the shared (if present) and common class loaders while (cl != null && cl != ClassLoader.getSystemClassLoader()) { if (cl instanceof URLClassLoader) { URL[] urls = ((URLClassLoader) cl).getURLs(); for (URL url : urls) { if (url.getProtocol().equals("file")) { try { File f = new File (url.toURI()); if (f.isFile() && f.getName().endsWith(".jar")) { ExtensionValidator.addSystemResource(f); } } catch (URISyntaxException e) { // Ignore } catch (IOException e) { // Ignore } } } } cl = cl.getParent(); } } // Initialize our defined Services for (int i = 0; i < services.length; i++) { services[i].init(); } } @Override protected void destroyInternal() throws LifecycleException { // Destroy our defined Services for (int i = 0; i < services.length; i++) { services[i].destroy(); } globalNamingResources.destroy(); unregister(onameMBeanFactory); unregister(onameStringCache); if (utilityExecutor != null) { utilityExecutor.shutdownNow(); unregister("type=UtilityExecutor"); utilityExecutor = null; } super.destroyInternal(); }
Return the parent class loader for this component.
/** * Return the parent class loader for this component. */
@Override public ClassLoader getParentClassLoader() { if (parentClassLoader != null) return parentClassLoader; if (catalina != null) { return catalina.getParentClassLoader(); } return ClassLoader.getSystemClassLoader(); }
Set the parent class loader for this server.
Params:
  • parent – The new parent class loader
/** * Set the parent class loader for this server. * * @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); } private ObjectName onameStringCache; private ObjectName onameMBeanFactory;
Obtain the MBean domain for this server. The domain is obtained using the following search order:
  1. Name of first Engine.
  2. Name of first Service.
/** * Obtain the MBean domain for this server. The domain is obtained using * the following search order: * <ol> * <li>Name of first {@link org.apache.catalina.Engine}.</li> * <li>Name of first {@link Service}.</li> * </ol> */
@Override protected String getDomainInternal() { String domain = null; Service[] services = findServices(); if (services.length > 0) { Service service = services[0]; if (service != null) { domain = service.getDomain(); } } return domain; } @Override protected final String getObjectNameKeyProperties() { return "type=Server"; } @Override public ScheduledExecutorService getUtilityExecutor() { return utilityExecutorWrapper; } }