/*
* Copyright (c) 2000, 2013, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
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*/
package com.sun.jmx.interceptor;
// JMX RI
import static com.sun.jmx.defaults.JmxProperties.MBEANSERVER_LOGGER;
import com.sun.jmx.mbeanserver.DynamicMBean2;
import com.sun.jmx.mbeanserver.Introspector;
import com.sun.jmx.mbeanserver.MBeanInstantiator;
import com.sun.jmx.mbeanserver.ModifiableClassLoaderRepository;
import com.sun.jmx.mbeanserver.NamedObject;
import com.sun.jmx.mbeanserver.Repository;
import com.sun.jmx.mbeanserver.Repository.RegistrationContext;
import com.sun.jmx.mbeanserver.Util;
import com.sun.jmx.remote.util.EnvHelp;
import java.io.ObjectInputStream;
import java.lang.ref.WeakReference;
import java.security.AccessControlContext;
import java.security.AccessController;
import java.security.Permission;
import java.security.PrivilegedAction;
import java.security.ProtectionDomain;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.WeakHashMap;
import java.util.logging.Level;
// JMX import
import javax.management.Attribute;
import javax.management.AttributeList;
import javax.management.AttributeNotFoundException;
import javax.management.DynamicMBean;
import javax.management.InstanceAlreadyExistsException;
import javax.management.InstanceNotFoundException;
import javax.management.IntrospectionException;
import javax.management.InvalidAttributeValueException;
import javax.management.JMRuntimeException;
import javax.management.ListenerNotFoundException;
import javax.management.MBeanException;
import javax.management.MBeanInfo;
import javax.management.MBeanPermission;
import javax.management.MBeanRegistration;
import javax.management.MBeanRegistrationException;
import javax.management.MBeanServer;
import javax.management.MBeanServerDelegate;
import javax.management.MBeanServerNotification;
import javax.management.MBeanTrustPermission;
import javax.management.NotCompliantMBeanException;
import javax.management.Notification;
import javax.management.NotificationBroadcaster;
import javax.management.NotificationEmitter;
import javax.management.NotificationFilter;
import javax.management.NotificationListener;
import javax.management.ObjectInstance;
import javax.management.ObjectName;
import javax.management.OperationsException;
import javax.management.QueryEval;
import javax.management.QueryExp;
import javax.management.ReflectionException;
import javax.management.RuntimeErrorException;
import javax.management.RuntimeMBeanException;
import javax.management.RuntimeOperationsException;
import javax.management.loading.ClassLoaderRepository;
This is the default class for MBean manipulation on the agent side. It
contains the methods necessary for the creation, registration, and
deletion of MBeans as well as the access methods for registered MBeans.
This is the core component of the JMX infrastructure.
Every MBean which is added to the MBean server becomes manageable: its attributes and operations
become remotely accessible through the connectors/adaptors connected to that MBean server.
A Java object cannot be registered in the MBean server unless it is a JMX compliant MBean.
When an MBean is registered or unregistered in the MBean server an MBeanServerNotification
Notification is emitted. To register an object as listener to MBeanServerNotifications you should call the MBean server method addNotificationListener
with ObjectName
the ObjectName
of the MBeanServerDelegate
. This ObjectName
is:
JMImplementation:type=MBeanServerDelegate
.
Since: 1.5
/**
* This is the default class for MBean manipulation on the agent side. It
* contains the methods necessary for the creation, registration, and
* deletion of MBeans as well as the access methods for registered MBeans.
* This is the core component of the JMX infrastructure.
* <P>
* Every MBean which is added to the MBean server becomes manageable: its attributes and operations
* become remotely accessible through the connectors/adaptors connected to that MBean server.
* A Java object cannot be registered in the MBean server unless it is a JMX compliant MBean.
* <P>
* When an MBean is registered or unregistered in the MBean server an
* {@link javax.management.MBeanServerNotification MBeanServerNotification}
* Notification is emitted. To register an object as listener to MBeanServerNotifications
* you should call the MBean server method {@link #addNotificationListener addNotificationListener} with <CODE>ObjectName</CODE>
* the <CODE>ObjectName</CODE> of the {@link javax.management.MBeanServerDelegate MBeanServerDelegate}.
* This <CODE>ObjectName</CODE> is:
* <BR>
* <CODE>JMImplementation:type=MBeanServerDelegate</CODE>.
*
* @since 1.5
*/
public class DefaultMBeanServerInterceptor implements MBeanServerInterceptor {
The MBeanInstantiator object used by the
DefaultMBeanServerInterceptor /** The MBeanInstantiator object used by the
* DefaultMBeanServerInterceptor */
private final transient MBeanInstantiator instantiator;
The MBean server object that is associated to the
DefaultMBeanServerInterceptor /** The MBean server object that is associated to the
* DefaultMBeanServerInterceptor */
private transient MBeanServer server = null;
The MBean server delegate object that is associated to the
DefaultMBeanServerInterceptor /** The MBean server delegate object that is associated to the
* DefaultMBeanServerInterceptor */
private final transient MBeanServerDelegate delegate;
The Repository object used by the DefaultMBeanServerInterceptor /** The Repository object used by the DefaultMBeanServerInterceptor */
private final transient Repository repository;
Wrappers for client listeners. /** Wrappers for client listeners. */
/* See the comment before addNotificationListener below. */
private final transient
WeakHashMap<ListenerWrapper, WeakReference<ListenerWrapper>>
listenerWrappers =
new WeakHashMap<ListenerWrapper,
WeakReference<ListenerWrapper>>();
The default domain of the object names /** The default domain of the object names */
private final String domain;
/** The sequence number identifying the notifications sent */
// Now sequence number is handled by MBeanServerDelegate.
// private int sequenceNumber=0;
Creates a DefaultMBeanServerInterceptor with the specified
repository instance.
Do not forget to call initialize(outer,delegate)
before using this object.
Params: - outer – A pointer to the MBeanServer object that must be passed to the MBeans when invoking their
MBeanRegistration
interface. - delegate – A pointer to the MBeanServerDelegate associated
with the new MBeanServer. The new MBeanServer must register
this MBean in its MBean repository.
- instantiator – The MBeanInstantiator that will be used to
instantiate MBeans and take care of class loading issues.
- repository – The repository to use for this MBeanServer.
/**
* Creates a DefaultMBeanServerInterceptor with the specified
* repository instance.
* <p>Do not forget to call <code>initialize(outer,delegate)</code>
* before using this object.
* @param outer A pointer to the MBeanServer object that must be
* passed to the MBeans when invoking their
* {@link javax.management.MBeanRegistration} interface.
* @param delegate A pointer to the MBeanServerDelegate associated
* with the new MBeanServer. The new MBeanServer must register
* this MBean in its MBean repository.
* @param instantiator The MBeanInstantiator that will be used to
* instantiate MBeans and take care of class loading issues.
* @param repository The repository to use for this MBeanServer.
*/
public DefaultMBeanServerInterceptor(MBeanServer outer,
MBeanServerDelegate delegate,
MBeanInstantiator instantiator,
Repository repository) {
if (outer == null) throw new
IllegalArgumentException("outer MBeanServer cannot be null");
if (delegate == null) throw new
IllegalArgumentException("MBeanServerDelegate cannot be null");
if (instantiator == null) throw new
IllegalArgumentException("MBeanInstantiator cannot be null");
if (repository == null) throw new
IllegalArgumentException("Repository cannot be null");
this.server = outer;
this.delegate = delegate;
this.instantiator = instantiator;
this.repository = repository;
this.domain = repository.getDefaultDomain();
}
public ObjectInstance createMBean(String className, ObjectName name)
throws ReflectionException, InstanceAlreadyExistsException,
MBeanRegistrationException, MBeanException,
NotCompliantMBeanException {
return createMBean(className, name, (Object[]) null, (String[]) null);
}
public ObjectInstance createMBean(String className, ObjectName name,
ObjectName loaderName)
throws ReflectionException, InstanceAlreadyExistsException,
MBeanRegistrationException, MBeanException,
NotCompliantMBeanException, InstanceNotFoundException {
return createMBean(className, name, loaderName, (Object[]) null,
(String[]) null);
}
public ObjectInstance createMBean(String className, ObjectName name,
Object[] params, String[] signature)
throws ReflectionException, InstanceAlreadyExistsException,
MBeanRegistrationException, MBeanException,
NotCompliantMBeanException {
try {
return createMBean(className, name, null, true,
params, signature);
} catch (InstanceNotFoundException e) {
/* Can only happen if loaderName doesn't exist, but we just
passed null, so we shouldn't get this exception. */
throw EnvHelp.initCause(
new IllegalArgumentException("Unexpected exception: " + e), e);
}
}
public ObjectInstance createMBean(String className, ObjectName name,
ObjectName loaderName,
Object[] params, String[] signature)
throws ReflectionException, InstanceAlreadyExistsException,
MBeanRegistrationException, MBeanException,
NotCompliantMBeanException, InstanceNotFoundException {
return createMBean(className, name, loaderName, false,
params, signature);
}
private ObjectInstance createMBean(String className, ObjectName name,
ObjectName loaderName,
boolean withDefaultLoaderRepository,
Object[] params, String[] signature)
throws ReflectionException, InstanceAlreadyExistsException,
MBeanRegistrationException, MBeanException,
NotCompliantMBeanException, InstanceNotFoundException {
Class<?> theClass;
if (className == null) {
final RuntimeException wrapped =
new IllegalArgumentException("The class name cannot be null");
throw new RuntimeOperationsException(wrapped,
"Exception occurred during MBean creation");
}
if (name != null) {
if (name.isPattern()) {
final RuntimeException wrapped =
new IllegalArgumentException("Invalid name->" +
name.toString());
final String msg = "Exception occurred during MBean creation";
throw new RuntimeOperationsException(wrapped, msg);
}
name = nonDefaultDomain(name);
}
checkMBeanPermission(className, null, null, "instantiate");
checkMBeanPermission(className, null, name, "registerMBean");
/* Load the appropriate class. */
if (withDefaultLoaderRepository) {
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"createMBean",
"ClassName = " + className + ", ObjectName = " + name);
}
theClass =
instantiator.findClassWithDefaultLoaderRepository(className);
} else if (loaderName == null) {
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"createMBean", "ClassName = " + className +
", ObjectName = " + name + ", Loader name = null");
}
theClass = instantiator.findClass(className,
server.getClass().getClassLoader());
} else {
loaderName = nonDefaultDomain(loaderName);
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"createMBean", "ClassName = " + className +
", ObjectName = " + name +
", Loader name = " + loaderName);
}
theClass = instantiator.findClass(className, loaderName);
}
checkMBeanTrustPermission(theClass);
// Check that the MBean can be instantiated by the MBeanServer.
Introspector.testCreation(theClass);
// Check the JMX MBean compliance of the class
Introspector.checkCompliance(theClass);
Object moi= instantiator.instantiate(theClass, params, signature,
server.getClass().getClassLoader());
final String infoClassName = getNewMBeanClassName(moi);
return registerObject(infoClassName, moi, name);
}
public ObjectInstance registerMBean(Object object, ObjectName name)
throws InstanceAlreadyExistsException, MBeanRegistrationException,
NotCompliantMBeanException {
// ------------------------------
// ------------------------------
Class<?> theClass = object.getClass();
Introspector.checkCompliance(theClass);
final String infoClassName = getNewMBeanClassName(object);
checkMBeanPermission(infoClassName, null, name, "registerMBean");
checkMBeanTrustPermission(theClass);
return registerObject(infoClassName, object, name);
}
private static String getNewMBeanClassName(Object mbeanToRegister)
throws NotCompliantMBeanException {
if (mbeanToRegister instanceof DynamicMBean) {
DynamicMBean mbean = (DynamicMBean) mbeanToRegister;
final String name;
try {
name = mbean.getMBeanInfo().getClassName();
} catch (Exception e) {
// Includes case where getMBeanInfo() returns null
NotCompliantMBeanException ncmbe =
new NotCompliantMBeanException("Bad getMBeanInfo()");
ncmbe.initCause(e);
throw ncmbe;
}
if (name == null) {
final String msg = "MBeanInfo has null class name";
throw new NotCompliantMBeanException(msg);
}
return name;
} else
return mbeanToRegister.getClass().getName();
}
private final Set<ObjectName> beingUnregistered =
new HashSet<ObjectName>();
public void unregisterMBean(ObjectName name)
throws InstanceNotFoundException, MBeanRegistrationException {
if (name == null) {
final RuntimeException wrapped =
new IllegalArgumentException("Object name cannot be null");
throw new RuntimeOperationsException(wrapped,
"Exception occurred trying to unregister the MBean");
}
name = nonDefaultDomain(name);
/* The semantics of preDeregister are tricky. If it throws an
exception, then the unregisterMBean fails. This allows an
MBean to refuse to be unregistered. If it returns
successfully, then the unregisterMBean can proceed. In
this case the preDeregister may have cleaned up some state,
and will not expect to be called a second time. So if two
threads try to unregister the same MBean at the same time
then one of them must wait for the other one to either (a)
call preDeregister and get an exception or (b) call
preDeregister successfully and unregister the MBean.
Suppose thread T1 is unregistering an MBean and thread T2
is trying to unregister the same MBean, so waiting for T1.
Then a deadlock is possible if the preDeregister for T1
ends up needing a lock held by T2. Given the semantics
just described, there does not seem to be any way to avoid
this. This will not happen to code where it is clear for
any given MBean what thread may unregister that MBean.
On the other hand we clearly do not want a thread that is
unregistering MBean A to have to wait for another thread
that is unregistering another MBean B (see bug 6318664). A
deadlock in this situation could reasonably be considered
gratuitous. So holding a global lock across the
preDeregister call would be bad.
So we have a set of ObjectNames that some thread is
currently unregistering. When a thread wants to unregister
a name, it must first check if the name is in the set, and
if so it must wait. When a thread successfully unregisters
a name it removes the name from the set and notifies any
waiting threads that the set has changed.
This implies that we must be very careful to ensure that
the name is removed from the set and waiters notified, no
matter what code path is taken. */
synchronized (beingUnregistered) {
while (beingUnregistered.contains(name)) {
try {
beingUnregistered.wait();
} catch (InterruptedException e) {
throw new MBeanRegistrationException(e, e.toString());
// pretend the exception came from preDeregister;
// in another execution sequence it could have
}
}
beingUnregistered.add(name);
}
try {
exclusiveUnregisterMBean(name);
} finally {
synchronized (beingUnregistered) {
beingUnregistered.remove(name);
beingUnregistered.notifyAll();
}
}
}
private void exclusiveUnregisterMBean(ObjectName name)
throws InstanceNotFoundException, MBeanRegistrationException {
DynamicMBean instance = getMBean(name);
// may throw InstanceNotFoundException
checkMBeanPermission(instance, null, name, "unregisterMBean");
if (instance instanceof MBeanRegistration)
preDeregisterInvoke((MBeanRegistration) instance);
final Object resource = getResource(instance);
// Unregisters the MBean from the repository.
// Returns the resource context that was used.
// The returned context does nothing for regular MBeans.
// For ClassLoader MBeans and JMXNamespace (and JMXDomain)
// MBeans - the context makes it possible to unregister these
// objects from the appropriate framework artifacts, such as
// the CLR or the dispatcher, from within the repository lock.
// In case of success, we also need to call context.done() at the
// end of this method.
//
final ResourceContext context =
unregisterFromRepository(resource, instance, name);
try {
if (instance instanceof MBeanRegistration)
postDeregisterInvoke(name,(MBeanRegistration) instance);
} finally {
context.done();
}
}
public ObjectInstance getObjectInstance(ObjectName name)
throws InstanceNotFoundException {
name = nonDefaultDomain(name);
DynamicMBean instance = getMBean(name);
checkMBeanPermission(instance, null, name, "getObjectInstance");
final String className = getClassName(instance);
return new ObjectInstance(name, className);
}
public Set<ObjectInstance> queryMBeans(ObjectName name, QueryExp query) {
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
// Check if the caller has the right to invoke 'queryMBeans'
//
checkMBeanPermission((String) null, null, null, "queryMBeans");
// Perform query without "query".
//
Set<ObjectInstance> list = queryMBeansImpl(name, null);
// Check if the caller has the right to invoke 'queryMBeans'
// on each specific classname/objectname in the list.
//
Set<ObjectInstance> allowedList =
new HashSet<ObjectInstance>(list.size());
for (ObjectInstance oi : list) {
try {
checkMBeanPermission(oi.getClassName(), null,
oi.getObjectName(), "queryMBeans");
allowedList.add(oi);
} catch (SecurityException e) {
// OK: Do not add this ObjectInstance to the list
}
}
// Apply query to allowed MBeans only.
//
return filterListOfObjectInstances(allowedList, query);
} else {
// Perform query.
//
return queryMBeansImpl(name, query);
}
}
private Set<ObjectInstance> queryMBeansImpl(ObjectName name,
QueryExp query) {
// Query the MBeans on the repository
//
Set<NamedObject> list = repository.query(name, query);
return (objectInstancesFromFilteredNamedObjects(list, query));
}
public Set<ObjectName> queryNames(ObjectName name, QueryExp query) {
Set<ObjectName> queryList;
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
// Check if the caller has the right to invoke 'queryNames'
//
checkMBeanPermission((String) null, null, null, "queryNames");
// Perform query without "query".
//
Set<ObjectInstance> list = queryMBeansImpl(name, null);
// Check if the caller has the right to invoke 'queryNames'
// on each specific classname/objectname in the list.
//
Set<ObjectInstance> allowedList =
new HashSet<ObjectInstance>(list.size());
for (ObjectInstance oi : list) {
try {
checkMBeanPermission(oi.getClassName(), null,
oi.getObjectName(), "queryNames");
allowedList.add(oi);
} catch (SecurityException e) {
// OK: Do not add this ObjectInstance to the list
}
}
// Apply query to allowed MBeans only.
//
Set<ObjectInstance> queryObjectInstanceList =
filterListOfObjectInstances(allowedList, query);
queryList = new HashSet<ObjectName>(queryObjectInstanceList.size());
for (ObjectInstance oi : queryObjectInstanceList) {
queryList.add(oi.getObjectName());
}
} else {
// Perform query.
//
queryList = queryNamesImpl(name, query);
}
return queryList;
}
private Set<ObjectName> queryNamesImpl(ObjectName name, QueryExp query) {
// Query the MBeans on the repository
//
Set<NamedObject> list = repository.query(name, query);
return (objectNamesFromFilteredNamedObjects(list, query));
}
public boolean isRegistered(ObjectName name) {
if (name == null) {
throw new RuntimeOperationsException(
new IllegalArgumentException("Object name cannot be null"),
"Object name cannot be null");
}
name = nonDefaultDomain(name);
/* No Permission check */
// isRegistered is always unchecked as per JMX spec.
return (repository.contains(name));
}
public String[] getDomains() {
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
// Check if the caller has the right to invoke 'getDomains'
//
checkMBeanPermission((String) null, null, null, "getDomains");
// Return domains
//
String[] domains = repository.getDomains();
// Check if the caller has the right to invoke 'getDomains'
// on each specific domain in the list.
//
List<String> result = new ArrayList<String>(domains.length);
for (int i = 0; i < domains.length; i++) {
try {
ObjectName dom = Util.newObjectName(domains[i] + ":x=x");
checkMBeanPermission((String) null, null, dom, "getDomains");
result.add(domains[i]);
} catch (SecurityException e) {
// OK: Do not add this domain to the list
}
}
// Make an array from result.
//
return result.toArray(new String[result.size()]);
} else {
return repository.getDomains();
}
}
public Integer getMBeanCount() {
return (repository.getCount());
}
public Object getAttribute(ObjectName name, String attribute)
throws MBeanException, AttributeNotFoundException,
InstanceNotFoundException, ReflectionException {
if (name == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("Object name cannot be null"),
"Exception occurred trying to invoke the getter on the MBean");
}
if (attribute == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("Attribute cannot be null"),
"Exception occurred trying to invoke the getter on the MBean");
}
name = nonDefaultDomain(name);
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"getAttribute",
"Attribute = " + attribute + ", ObjectName = " + name);
}
final DynamicMBean instance = getMBean(name);
checkMBeanPermission(instance, attribute, name, "getAttribute");
try {
return instance.getAttribute(attribute);
} catch (AttributeNotFoundException e) {
throw e;
} catch (Throwable t) {
rethrowMaybeMBeanException(t);
throw new AssertionError(); // not reached
}
}
public AttributeList getAttributes(ObjectName name, String[] attributes)
throws InstanceNotFoundException, ReflectionException {
if (name == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("ObjectName name cannot be null"),
"Exception occurred trying to invoke the getter on the MBean");
}
if (attributes == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("Attributes cannot be null"),
"Exception occurred trying to invoke the getter on the MBean");
}
name = nonDefaultDomain(name);
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"getAttributes", "ObjectName = " + name);
}
final DynamicMBean instance = getMBean(name);
final String[] allowedAttributes;
final SecurityManager sm = System.getSecurityManager();
if (sm == null)
allowedAttributes = attributes;
else {
final String classname = getClassName(instance);
// Check if the caller has the right to invoke 'getAttribute'
//
checkMBeanPermission(classname, null, name, "getAttribute");
// Check if the caller has the right to invoke 'getAttribute'
// on each specific attribute
//
List<String> allowedList =
new ArrayList<String>(attributes.length);
for (String attr : attributes) {
try {
checkMBeanPermission(classname, attr, name, "getAttribute");
allowedList.add(attr);
} catch (SecurityException e) {
// OK: Do not add this attribute to the list
}
}
allowedAttributes =
allowedList.toArray(new String[allowedList.size()]);
}
try {
return instance.getAttributes(allowedAttributes);
} catch (Throwable t) {
rethrow(t);
throw new AssertionError();
}
}
public void setAttribute(ObjectName name, Attribute attribute)
throws InstanceNotFoundException, AttributeNotFoundException,
InvalidAttributeValueException, MBeanException,
ReflectionException {
if (name == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("ObjectName name cannot be null"),
"Exception occurred trying to invoke the setter on the MBean");
}
if (attribute == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("Attribute cannot be null"),
"Exception occurred trying to invoke the setter on the MBean");
}
name = nonDefaultDomain(name);
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"setAttribute", "ObjectName = " + name +
", Attribute = " + attribute.getName());
}
DynamicMBean instance = getMBean(name);
checkMBeanPermission(instance, attribute.getName(), name, "setAttribute");
try {
instance.setAttribute(attribute);
} catch (AttributeNotFoundException e) {
throw e;
} catch (InvalidAttributeValueException e) {
throw e;
} catch (Throwable t) {
rethrowMaybeMBeanException(t);
throw new AssertionError();
}
}
public AttributeList setAttributes(ObjectName name,
AttributeList attributes)
throws InstanceNotFoundException, ReflectionException {
if (name == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("ObjectName name cannot be null"),
"Exception occurred trying to invoke the setter on the MBean");
}
if (attributes == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("AttributeList cannot be null"),
"Exception occurred trying to invoke the setter on the MBean");
}
name = nonDefaultDomain(name);
final DynamicMBean instance = getMBean(name);
final AttributeList allowedAttributes;
final SecurityManager sm = System.getSecurityManager();
if (sm == null)
allowedAttributes = attributes;
else {
String classname = getClassName(instance);
// Check if the caller has the right to invoke 'setAttribute'
//
checkMBeanPermission(classname, null, name, "setAttribute");
// Check if the caller has the right to invoke 'setAttribute'
// on each specific attribute
//
allowedAttributes = new AttributeList(attributes.size());
for (Attribute attribute : attributes.asList()) {
try {
checkMBeanPermission(classname, attribute.getName(),
name, "setAttribute");
allowedAttributes.add(attribute);
} catch (SecurityException e) {
// OK: Do not add this attribute to the list
}
}
}
try {
return instance.setAttributes(allowedAttributes);
} catch (Throwable t) {
rethrow(t);
throw new AssertionError();
}
}
public Object invoke(ObjectName name, String operationName,
Object params[], String signature[])
throws InstanceNotFoundException, MBeanException,
ReflectionException {
name = nonDefaultDomain(name);
DynamicMBean instance = getMBean(name);
checkMBeanPermission(instance, operationName, name, "invoke");
try {
return instance.invoke(operationName, params, signature);
} catch (Throwable t) {
rethrowMaybeMBeanException(t);
throw new AssertionError();
}
}
/* Centralize some of the tedious exception wrapping demanded by the JMX
spec. */
private static void rethrow(Throwable t)
throws ReflectionException {
try {
throw t;
} catch (ReflectionException e) {
throw e;
} catch (RuntimeOperationsException e) {
throw e;
} catch (RuntimeErrorException e) {
throw e;
} catch (RuntimeException e) {
throw new RuntimeMBeanException(e, e.toString());
} catch (Error e) {
throw new RuntimeErrorException(e, e.toString());
} catch (Throwable t2) {
// should not happen
throw new RuntimeException("Unexpected exception", t2);
}
}
private static void rethrowMaybeMBeanException(Throwable t)
throws ReflectionException, MBeanException {
if (t instanceof MBeanException)
throw (MBeanException) t;
rethrow(t);
}
Register object
in the repository, with the
given name
.
This method is called by the various createMBean() flavours
and by registerMBean() after all MBean compliance tests
have been performed.
This method does not performed any kind of test compliance,
and the caller should make sure that the given object
is MBean compliant.
This methods performed all the basic steps needed for object
registration:
- If the
object
implements the MBeanRegistration
interface, it invokes preRegister() on the object.
- Then the object is added to the repository with the given
name
.
- Finally, if the
object
implements the
MBeanRegistration interface, it invokes postRegister()
on the object.
Params: - object – A reference to a MBean compliant object.
- name – The ObjectName of the
object
MBean.
Throws: - InstanceAlreadyExistsException – if an object is already
registered with that name.
- MBeanRegistrationException – if an exception occurs during
registration.
Returns: the actual ObjectName with which the object was registered.
/**
* Register <code>object</code> in the repository, with the
* given <code>name</code>.
* This method is called by the various createMBean() flavours
* and by registerMBean() after all MBean compliance tests
* have been performed.
* <p>
* This method does not performed any kind of test compliance,
* and the caller should make sure that the given <code>object</code>
* is MBean compliant.
* <p>
* This methods performed all the basic steps needed for object
* registration:
* <ul>
* <li>If the <code>object</code> implements the MBeanRegistration
* interface, it invokes preRegister() on the object.</li>
* <li>Then the object is added to the repository with the given
* <code>name</code>.</li>
* <li>Finally, if the <code>object</code> implements the
* MBeanRegistration interface, it invokes postRegister()
* on the object.</li>
* </ul>
* @param object A reference to a MBean compliant object.
* @param name The ObjectName of the <code>object</code> MBean.
* @return the actual ObjectName with which the object was registered.
* @exception InstanceAlreadyExistsException if an object is already
* registered with that name.
* @exception MBeanRegistrationException if an exception occurs during
* registration.
**/
private ObjectInstance registerObject(String classname,
Object object, ObjectName name)
throws InstanceAlreadyExistsException,
MBeanRegistrationException,
NotCompliantMBeanException {
if (object == null) {
final RuntimeException wrapped =
new IllegalArgumentException("Cannot add null object");
throw new RuntimeOperationsException(wrapped,
"Exception occurred trying to register the MBean");
}
DynamicMBean mbean = Introspector.makeDynamicMBean(object);
return registerDynamicMBean(classname, mbean, name);
}
private ObjectInstance registerDynamicMBean(String classname,
DynamicMBean mbean,
ObjectName name)
throws InstanceAlreadyExistsException,
MBeanRegistrationException,
NotCompliantMBeanException {
name = nonDefaultDomain(name);
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"registerMBean", "ObjectName = " + name);
}
ObjectName logicalName = preRegister(mbean, server, name);
// preRegister returned successfully, so from this point on we
// must call postRegister(false) if there is any problem.
boolean registered = false;
boolean registerFailed = false;
ResourceContext context = null;
try {
if (mbean instanceof DynamicMBean2) {
try {
((DynamicMBean2) mbean).preRegister2(server, logicalName);
registerFailed = true; // until we succeed
} catch (Exception e) {
if (e instanceof RuntimeException)
throw (RuntimeException) e;
if (e instanceof InstanceAlreadyExistsException)
throw (InstanceAlreadyExistsException) e;
throw new RuntimeException(e);
}
}
if (logicalName != name && logicalName != null) {
logicalName =
ObjectName.getInstance(nonDefaultDomain(logicalName));
}
checkMBeanPermission(classname, null, logicalName, "registerMBean");
if (logicalName == null) {
final RuntimeException wrapped =
new IllegalArgumentException("No object name specified");
throw new RuntimeOperationsException(wrapped,
"Exception occurred trying to register the MBean");
}
final Object resource = getResource(mbean);
// Register the MBean with the repository.
// Returns the resource context that was used.
// The returned context does nothing for regular MBeans.
// For ClassLoader MBeans the context makes it possible to register these
// objects with the appropriate framework artifacts, such as
// the CLR, from within the repository lock.
// In case of success, we also need to call context.done() at the
// end of this method.
//
context = registerWithRepository(resource, mbean, logicalName);
registerFailed = false;
registered = true;
} finally {
try {
postRegister(logicalName, mbean, registered, registerFailed);
} finally {
if (registered && context!=null) context.done();
}
}
return new ObjectInstance(logicalName, classname);
}
private static void throwMBeanRegistrationException(Throwable t, String where)
throws MBeanRegistrationException {
if (t instanceof RuntimeException) {
throw new RuntimeMBeanException((RuntimeException)t,
"RuntimeException thrown " + where);
} else if (t instanceof Error) {
throw new RuntimeErrorException((Error)t,
"Error thrown " + where);
} else if (t instanceof MBeanRegistrationException) {
throw (MBeanRegistrationException)t;
} else if (t instanceof Exception) {
throw new MBeanRegistrationException((Exception)t,
"Exception thrown " + where);
} else // neither Error nor Exception??
throw new RuntimeException(t);
}
private static ObjectName preRegister(
DynamicMBean mbean, MBeanServer mbs, ObjectName name)
throws InstanceAlreadyExistsException, MBeanRegistrationException {
ObjectName newName = null;
try {
if (mbean instanceof MBeanRegistration)
newName = ((MBeanRegistration) mbean).preRegister(mbs, name);
} catch (Throwable t) {
throwMBeanRegistrationException(t, "in preRegister method");
}
if (newName != null) return newName;
else return name;
}
private static void postRegister(
ObjectName logicalName, DynamicMBean mbean,
boolean registrationDone, boolean registerFailed) {
if (registerFailed && mbean instanceof DynamicMBean2)
((DynamicMBean2) mbean).registerFailed();
try {
if (mbean instanceof MBeanRegistration)
((MBeanRegistration) mbean).postRegister(registrationDone);
} catch (RuntimeException e) {
MBEANSERVER_LOGGER.fine("While registering MBean ["+logicalName+
"]: " + "Exception thrown by postRegister: " +
"rethrowing <"+e+">, but keeping the MBean registered");
throw new RuntimeMBeanException(e,
"RuntimeException thrown in postRegister method: "+
"rethrowing <"+e+">, but keeping the MBean registered");
} catch (Error er) {
MBEANSERVER_LOGGER.fine("While registering MBean ["+logicalName+
"]: " + "Error thrown by postRegister: " +
"rethrowing <"+er+">, but keeping the MBean registered");
throw new RuntimeErrorException(er,
"Error thrown in postRegister method: "+
"rethrowing <"+er+">, but keeping the MBean registered");
}
}
private static void preDeregisterInvoke(MBeanRegistration moi)
throws MBeanRegistrationException {
try {
moi.preDeregister();
} catch (Throwable t) {
throwMBeanRegistrationException(t, "in preDeregister method");
}
}
private static void postDeregisterInvoke(ObjectName mbean,
MBeanRegistration moi) {
try {
moi.postDeregister();
} catch (RuntimeException e) {
MBEANSERVER_LOGGER.fine("While unregistering MBean ["+mbean+
"]: " + "Exception thrown by postDeregister: " +
"rethrowing <"+e+">, although the MBean is succesfully " +
"unregistered");
throw new RuntimeMBeanException(e,
"RuntimeException thrown in postDeregister method: "+
"rethrowing <"+e+
">, although the MBean is sucessfully unregistered");
} catch (Error er) {
MBEANSERVER_LOGGER.fine("While unregistering MBean ["+mbean+
"]: " + "Error thrown by postDeregister: " +
"rethrowing <"+er+">, although the MBean is succesfully " +
"unregistered");
throw new RuntimeErrorException(er,
"Error thrown in postDeregister method: "+
"rethrowing <"+er+
">, although the MBean is sucessfully unregistered");
}
}
Gets a specific MBean controlled by the DefaultMBeanServerInterceptor.
The name must have a non-default domain.
/**
* Gets a specific MBean controlled by the DefaultMBeanServerInterceptor.
* The name must have a non-default domain.
*/
private DynamicMBean getMBean(ObjectName name)
throws InstanceNotFoundException {
if (name == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("Object name cannot be null"),
"Exception occurred trying to get an MBean");
}
DynamicMBean obj = repository.retrieve(name);
if (obj == null) {
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"getMBean", name + " : Found no object");
}
throw new InstanceNotFoundException(name.toString());
}
return obj;
}
private static Object getResource(DynamicMBean mbean) {
if (mbean instanceof DynamicMBean2)
return ((DynamicMBean2) mbean).getResource();
else
return mbean;
}
private ObjectName nonDefaultDomain(ObjectName name) {
if (name == null || name.getDomain().length() > 0)
return name;
/* The ObjectName looks like ":a=b", and that's what its
toString() will return in this implementation. So
we can just stick the default domain in front of it
to get a non-default-domain name. We depend on the
fact that toString() works like that and that it
leaves wildcards in place (so we can detect an error
if one is supplied where it shouldn't be). */
final String completeName = domain + name;
return Util.newObjectName(completeName);
}
public String getDefaultDomain() {
return domain;
}
/*
* Notification handling.
*
* This is not trivial, because the MBeanServer translates the
* source of a received notification from a reference to an MBean
* into the ObjectName of that MBean. While that does make
* notification sending easier for MBean writers, it comes at a
* considerable cost. We need to replace the source of a
* notification, which is basically wrong if there are also
* listeners registered directly with the MBean (without going
* through the MBean server). We also need to wrap the listener
* supplied by the client of the MBeanServer with a listener that
* performs the substitution before forwarding. This is why we
* strongly discourage people from putting MBean references in the
* source of their notifications. Instead they should arrange to
* put the ObjectName there themselves.
*
* However, existing code relies on the substitution, so we are
* stuck with it.
*
* Here's how we handle it. When you add a listener, we make a
* ListenerWrapper around it. We look that up in the
* listenerWrappers map, and if there was already a wrapper for
* that listener with the given ObjectName, we reuse it. This map
* is a WeakHashMap, so a listener that is no longer registered
* with any MBean can be garbage collected.
*
* We cannot use simpler solutions such as always creating a new
* wrapper or always registering the same listener with the MBean
* and using the handback to find the client's original listener.
* The reason is that we need to support the removeListener
* variant that removes all (listener,filter,handback) triples on
* a broadcaster that have a given listener. And we do not have
* any way to inspect a broadcaster's internal list of triples.
* So the same client listener must always map to the same
* listener registered with the broadcaster.
*
* Another possible solution would be to map from ObjectName to
* list of listener wrappers (or IdentityHashMap of listener
* wrappers), making this list the first time a listener is added
* on a given MBean, and removing it when the MBean is removed.
* This is probably more costly in memory, but could be useful if
* some day we don't want to rely on weak references.
*/
public void addNotificationListener(ObjectName name,
NotificationListener listener,
NotificationFilter filter,
Object handback)
throws InstanceNotFoundException {
// ------------------------------
// ------------------------------
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"addNotificationListener", "ObjectName = " + name);
}
DynamicMBean instance = getMBean(name);
checkMBeanPermission(instance, null, name, "addNotificationListener");
NotificationBroadcaster broadcaster =
getNotificationBroadcaster(name, instance,
NotificationBroadcaster.class);
// ------------------
// Check listener
// ------------------
if (listener == null) {
throw new RuntimeOperationsException(new
IllegalArgumentException("Null listener"),"Null listener");
}
NotificationListener listenerWrapper =
getListenerWrapper(listener, name, instance, true);
broadcaster.addNotificationListener(listenerWrapper, filter, handback);
}
public void addNotificationListener(ObjectName name,
ObjectName listener,
NotificationFilter filter,
Object handback)
throws InstanceNotFoundException {
// ------------------------------
// ------------------------------
// ----------------
// Get listener object
// ----------------
DynamicMBean instance = getMBean(listener);
Object resource = getResource(instance);
if (!(resource instanceof NotificationListener)) {
throw new RuntimeOperationsException(new
IllegalArgumentException(listener.getCanonicalName()),
"The MBean " + listener.getCanonicalName() +
"does not implement the NotificationListener interface") ;
}
// ----------------
// Add a listener on an MBean
// ----------------
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"addNotificationListener",
"ObjectName = " + name + ", Listener = " + listener);
}
server.addNotificationListener(name,(NotificationListener) resource,
filter, handback) ;
}
public void removeNotificationListener(ObjectName name,
NotificationListener listener)
throws InstanceNotFoundException, ListenerNotFoundException {
removeNotificationListener(name, listener, null, null, true);
}
public void removeNotificationListener(ObjectName name,
NotificationListener listener,
NotificationFilter filter,
Object handback)
throws InstanceNotFoundException, ListenerNotFoundException {
removeNotificationListener(name, listener, filter, handback, false);
}
public void removeNotificationListener(ObjectName name,
ObjectName listener)
throws InstanceNotFoundException, ListenerNotFoundException {
NotificationListener instance = getListener(listener);
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"removeNotificationListener",
"ObjectName = " + name + ", Listener = " + listener);
}
server.removeNotificationListener(name, instance);
}
public void removeNotificationListener(ObjectName name,
ObjectName listener,
NotificationFilter filter,
Object handback)
throws InstanceNotFoundException, ListenerNotFoundException {
NotificationListener instance = getListener(listener);
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"removeNotificationListener",
"ObjectName = " + name + ", Listener = " + listener);
}
server.removeNotificationListener(name, instance, filter, handback);
}
private NotificationListener getListener(ObjectName listener)
throws ListenerNotFoundException {
// ----------------
// Get listener object
// ----------------
DynamicMBean instance;
try {
instance = getMBean(listener);
} catch (InstanceNotFoundException e) {
throw EnvHelp.initCause(
new ListenerNotFoundException(e.getMessage()), e);
}
Object resource = getResource(instance);
if (!(resource instanceof NotificationListener)) {
final RuntimeException exc =
new IllegalArgumentException(listener.getCanonicalName());
final String msg =
"MBean " + listener.getCanonicalName() + " does not " +
"implement " + NotificationListener.class.getName();
throw new RuntimeOperationsException(exc, msg);
}
return (NotificationListener) resource;
}
private void removeNotificationListener(ObjectName name,
NotificationListener listener,
NotificationFilter filter,
Object handback,
boolean removeAll)
throws InstanceNotFoundException, ListenerNotFoundException {
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"removeNotificationListener", "ObjectName = " + name);
}
DynamicMBean instance = getMBean(name);
checkMBeanPermission(instance, null, name, "removeNotificationListener");
/* We could simplify the code by assigning broadcaster after
assigning listenerWrapper, but that would change the error
behavior when both the broadcaster and the listener are
erroneous. */
Class<? extends NotificationBroadcaster> reqClass =
removeAll ? NotificationBroadcaster.class : NotificationEmitter.class;
NotificationBroadcaster broadcaster =
getNotificationBroadcaster(name, instance, reqClass);
NotificationListener listenerWrapper =
getListenerWrapper(listener, name, instance, false);
if (listenerWrapper == null)
throw new ListenerNotFoundException("Unknown listener");
if (removeAll)
broadcaster.removeNotificationListener(listenerWrapper);
else {
NotificationEmitter emitter = (NotificationEmitter) broadcaster;
emitter.removeNotificationListener(listenerWrapper,
filter,
handback);
}
}
private static <T extends NotificationBroadcaster>
T getNotificationBroadcaster(ObjectName name, Object instance,
Class<T> reqClass) {
if (reqClass.isInstance(instance))
return reqClass.cast(instance);
if (instance instanceof DynamicMBean2)
instance = ((DynamicMBean2) instance).getResource();
if (reqClass.isInstance(instance))
return reqClass.cast(instance);
final RuntimeException exc =
new IllegalArgumentException(name.getCanonicalName());
final String msg =
"MBean " + name.getCanonicalName() + " does not " +
"implement " + reqClass.getName();
throw new RuntimeOperationsException(exc, msg);
}
public MBeanInfo getMBeanInfo(ObjectName name)
throws InstanceNotFoundException, IntrospectionException,
ReflectionException {
// ------------------------------
// ------------------------------
DynamicMBean moi = getMBean(name);
final MBeanInfo mbi;
try {
mbi = moi.getMBeanInfo();
} catch (RuntimeMBeanException e) {
throw e;
} catch (RuntimeErrorException e) {
throw e;
} catch (RuntimeException e) {
throw new RuntimeMBeanException(e,
"getMBeanInfo threw RuntimeException");
} catch (Error e) {
throw new RuntimeErrorException(e, "getMBeanInfo threw Error");
}
if (mbi == null)
throw new JMRuntimeException("MBean " + name +
"has no MBeanInfo");
checkMBeanPermission(mbi.getClassName(), null, name, "getMBeanInfo");
return mbi;
}
public boolean isInstanceOf(ObjectName name, String className)
throws InstanceNotFoundException {
final DynamicMBean instance = getMBean(name);
checkMBeanPermission(instance, null, name, "isInstanceOf");
try {
Object resource = getResource(instance);
final String resourceClassName =
(resource instanceof DynamicMBean) ?
getClassName((DynamicMBean) resource) :
resource.getClass().getName();
if (resourceClassName.equals(className))
return true;
final ClassLoader cl = resource.getClass().getClassLoader();
final Class<?> classNameClass = Class.forName(className, false, cl);
if (classNameClass.isInstance(resource))
return true;
final Class<?> resourceClass = Class.forName(resourceClassName, false, cl);
return classNameClass.isAssignableFrom(resourceClass);
} catch (Exception x) {
/* Could be SecurityException or ClassNotFoundException */
if (MBEANSERVER_LOGGER.isLoggable(Level.FINEST)) {
MBEANSERVER_LOGGER.logp(Level.FINEST,
DefaultMBeanServerInterceptor.class.getName(),
"isInstanceOf", "Exception calling isInstanceOf", x);
}
return false;
}
}
Return the ClassLoader
that was used for loading the class of the named MBean.
Params: - mbeanName – The ObjectName of the MBean.
Throws: - InstanceNotFoundException – if the named MBean is not found.
Returns: The ClassLoader used for that MBean.
/**
* <p>Return the {@link java.lang.ClassLoader} that was used for
* loading the class of the named MBean.
* @param mbeanName The ObjectName of the MBean.
* @return The ClassLoader used for that MBean.
* @exception InstanceNotFoundException if the named MBean is not found.
*/
public ClassLoader getClassLoaderFor(ObjectName mbeanName)
throws InstanceNotFoundException {
DynamicMBean instance = getMBean(mbeanName);
checkMBeanPermission(instance, null, mbeanName, "getClassLoaderFor");
return getResource(instance).getClass().getClassLoader();
}
Return the named ClassLoader
.
Params: - loaderName – The ObjectName of the ClassLoader.
Throws: - InstanceNotFoundException – if the named ClassLoader
is not found.
Returns: The named ClassLoader.
/**
* <p>Return the named {@link java.lang.ClassLoader}.
* @param loaderName The ObjectName of the ClassLoader.
* @return The named ClassLoader.
* @exception InstanceNotFoundException if the named ClassLoader
* is not found.
*/
public ClassLoader getClassLoader(ObjectName loaderName)
throws InstanceNotFoundException {
if (loaderName == null) {
checkMBeanPermission((String) null, null, null, "getClassLoader");
return server.getClass().getClassLoader();
}
DynamicMBean instance = getMBean(loaderName);
checkMBeanPermission(instance, null, loaderName, "getClassLoader");
Object resource = getResource(instance);
/* Check if the given MBean is a ClassLoader */
if (!(resource instanceof ClassLoader))
throw new InstanceNotFoundException(loaderName.toString() +
" is not a classloader");
return (ClassLoader) resource;
}
Sends an MBeanServerNotifications with the specified type for the
MBean with the specified ObjectName
/**
* Sends an MBeanServerNotifications with the specified type for the
* MBean with the specified ObjectName
*/
private void sendNotification(String NotifType, ObjectName name) {
// ------------------------------
// ------------------------------
// ---------------------
// Create notification
// ---------------------
MBeanServerNotification notif = new MBeanServerNotification(
NotifType,MBeanServerDelegate.DELEGATE_NAME,0,name);
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"sendNotification", NotifType + " " + name);
}
delegate.sendNotification(notif);
}
Applies the specified queries to the set of NamedObjects.
/**
* Applies the specified queries to the set of NamedObjects.
*/
private Set<ObjectName>
objectNamesFromFilteredNamedObjects(Set<NamedObject> list,
QueryExp query) {
Set<ObjectName> result = new HashSet<ObjectName>();
// No query ...
if (query == null) {
for (NamedObject no : list) {
result.add(no.getName());
}
} else {
// Access the filter
final MBeanServer oldServer = QueryEval.getMBeanServer();
query.setMBeanServer(server);
try {
for (NamedObject no : list) {
boolean res;
try {
res = query.apply(no.getName());
} catch (Exception e) {
res = false;
}
if (res) {
result.add(no.getName());
}
}
} finally {
/*
* query.setMBeanServer is probably
* QueryEval.setMBeanServer so put back the old
* value. Since that method uses a ThreadLocal
* variable, this code is only needed for the
* unusual case where the user creates a custom
* QueryExp that calls a nested query on another
* MBeanServer.
*/
query.setMBeanServer(oldServer);
}
}
return result;
}
Applies the specified queries to the set of NamedObjects.
/**
* Applies the specified queries to the set of NamedObjects.
*/
private Set<ObjectInstance>
objectInstancesFromFilteredNamedObjects(Set<NamedObject> list,
QueryExp query) {
Set<ObjectInstance> result = new HashSet<ObjectInstance>();
// No query ...
if (query == null) {
for (NamedObject no : list) {
final DynamicMBean obj = no.getObject();
final String className = safeGetClassName(obj);
result.add(new ObjectInstance(no.getName(), className));
}
} else {
// Access the filter
MBeanServer oldServer = QueryEval.getMBeanServer();
query.setMBeanServer(server);
try {
for (NamedObject no : list) {
final DynamicMBean obj = no.getObject();
boolean res;
try {
res = query.apply(no.getName());
} catch (Exception e) {
res = false;
}
if (res) {
String className = safeGetClassName(obj);
result.add(new ObjectInstance(no.getName(), className));
}
}
} finally {
/*
* query.setMBeanServer is probably
* QueryEval.setMBeanServer so put back the old
* value. Since that method uses a ThreadLocal
* variable, this code is only needed for the
* unusual case where the user creates a custom
* QueryExp that calls a nested query on another
* MBeanServer.
*/
query.setMBeanServer(oldServer);
}
}
return result;
}
private static String safeGetClassName(DynamicMBean mbean) {
try {
return getClassName(mbean);
} catch (Exception e) {
if (MBEANSERVER_LOGGER.isLoggable(Level.FINEST)) {
MBEANSERVER_LOGGER.logp(Level.FINEST,
DefaultMBeanServerInterceptor.class.getName(),
"safeGetClassName",
"Exception getting MBean class name", e);
}
return null;
}
}
Applies the specified queries to the set of ObjectInstances.
/**
* Applies the specified queries to the set of ObjectInstances.
*/
private Set<ObjectInstance>
filterListOfObjectInstances(Set<ObjectInstance> list,
QueryExp query) {
// Null query.
//
if (query == null) {
return list;
} else {
Set<ObjectInstance> result = new HashSet<ObjectInstance>();
// Access the filter.
//
for (ObjectInstance oi : list) {
boolean res = false;
MBeanServer oldServer = QueryEval.getMBeanServer();
query.setMBeanServer(server);
try {
res = query.apply(oi.getObjectName());
} catch (Exception e) {
res = false;
} finally {
/*
* query.setMBeanServer is probably
* QueryEval.setMBeanServer so put back the old
* value. Since that method uses a ThreadLocal
* variable, this code is only needed for the
* unusual case where the user creates a custom
* QueryExp that calls a nested query on another
* MBeanServer.
*/
query.setMBeanServer(oldServer);
}
if (res) {
result.add(oi);
}
}
return result;
}
}
/*
* Get the existing wrapper for this listener, name, and mbean, if
* there is one. Otherwise, if "create" is true, create and
* return one. Otherwise, return null.
*
* We use a WeakHashMap so that if the only reference to a user
* listener is in listenerWrappers, it can be garbage collected.
* This requires a certain amount of care, because only the key in
* a WeakHashMap is weak; the value is strong. We need to recover
* the existing wrapper object (not just an object that is equal
* to it), so we would like listenerWrappers to map any
* ListenerWrapper to the canonical ListenerWrapper for that
* (listener,name,mbean) set. But we do not want this canonical
* wrapper to be referenced strongly. Therefore we put it inside
* a WeakReference and that is the value in the WeakHashMap.
*/
private NotificationListener getListenerWrapper(NotificationListener l,
ObjectName name,
DynamicMBean mbean,
boolean create) {
Object resource = getResource(mbean);
ListenerWrapper wrapper = new ListenerWrapper(l, name, resource);
synchronized (listenerWrappers) {
WeakReference<ListenerWrapper> ref = listenerWrappers.get(wrapper);
if (ref != null) {
NotificationListener existing = ref.get();
if (existing != null)
return existing;
}
if (create) {
ref = new WeakReference<ListenerWrapper>(wrapper);
listenerWrappers.put(wrapper, ref);
return wrapper;
} else
return null;
}
}
public Object instantiate(String className) throws ReflectionException,
MBeanException {
throw new UnsupportedOperationException("Not supported yet.");
}
public Object instantiate(String className, ObjectName loaderName) throws ReflectionException,
MBeanException,
InstanceNotFoundException {
throw new UnsupportedOperationException("Not supported yet.");
}
public Object instantiate(String className, Object[] params,
String[] signature) throws ReflectionException, MBeanException {
throw new UnsupportedOperationException("Not supported yet.");
}
public Object instantiate(String className, ObjectName loaderName,
Object[] params, String[] signature) throws ReflectionException,
MBeanException,
InstanceNotFoundException {
throw new UnsupportedOperationException("Not supported yet.");
}
public ObjectInputStream deserialize(ObjectName name, byte[] data) throws InstanceNotFoundException,
OperationsException {
throw new UnsupportedOperationException("Not supported yet.");
}
public ObjectInputStream deserialize(String className, byte[] data) throws OperationsException,
ReflectionException {
throw new UnsupportedOperationException("Not supported yet.");
}
public ObjectInputStream deserialize(String className, ObjectName loaderName,
byte[] data) throws InstanceNotFoundException, OperationsException,
ReflectionException {
throw new UnsupportedOperationException("Not supported yet.");
}
public ClassLoaderRepository getClassLoaderRepository() {
throw new UnsupportedOperationException("Not supported yet.");
}
private static class ListenerWrapper implements NotificationListener {
ListenerWrapper(NotificationListener l, ObjectName name,
Object mbean) {
this.listener = l;
this.name = name;
this.mbean = mbean;
}
public void handleNotification(Notification notification,
Object handback) {
if (notification != null) {
if (notification.getSource() == mbean)
notification.setSource(name);
}
/*
* Listeners are not supposed to throw exceptions. If
* this one does, we could remove it from the MBean. It
* might indicate that a connector has stopped working,
* for instance, and there is no point in sending future
* notifications over that connection. However, this
* seems rather drastic, so instead we propagate the
* exception and let the broadcaster handle it.
*/
listener.handleNotification(notification, handback);
}
@Override
public boolean equals(Object o) {
if (!(o instanceof ListenerWrapper))
return false;
ListenerWrapper w = (ListenerWrapper) o;
return (w.listener == listener && w.mbean == mbean
&& w.name.equals(name));
/*
* We compare all three, in case the same MBean object
* gets unregistered and then reregistered under a
* different name, or the same name gets assigned to two
* different MBean objects at different times. We do the
* comparisons in this order to avoid the slow
* ObjectName.equals when possible.
*/
}
@Override
public int hashCode() {
return (System.identityHashCode(listener) ^
System.identityHashCode(mbean));
/*
* We do not include name.hashCode() in the hash because
* computing it is slow and usually we will not have two
* instances of ListenerWrapper with the same mbean but
* different ObjectNames. That can happen if the MBean is
* unregistered from one name and reregistered with
* another, and there is no garbage collection between; or
* if the same object is registered under two names (which
* is not recommended because MBeanRegistration will
* break). But even in these unusual cases the hash code
* does not have to be unique.
*/
}
private NotificationListener listener;
private ObjectName name;
private Object mbean;
}
// SECURITY CHECKS
//----------------
private static String getClassName(DynamicMBean mbean) {
if (mbean instanceof DynamicMBean2)
return ((DynamicMBean2) mbean).getClassName();
else
return mbean.getMBeanInfo().getClassName();
}
private static void checkMBeanPermission(DynamicMBean mbean,
String member,
ObjectName objectName,
String actions) {
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
checkMBeanPermission(safeGetClassName(mbean),
member,
objectName,
actions);
}
}
private static void checkMBeanPermission(String classname,
String member,
ObjectName objectName,
String actions) {
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
Permission perm = new MBeanPermission(classname,
member,
objectName,
actions);
sm.checkPermission(perm);
}
}
private static void checkMBeanTrustPermission(final Class<?> theClass)
throws SecurityException {
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
Permission perm = new MBeanTrustPermission("register");
PrivilegedAction<ProtectionDomain> act =
new PrivilegedAction<ProtectionDomain>() {
public ProtectionDomain run() {
return theClass.getProtectionDomain();
}
};
ProtectionDomain pd = AccessController.doPrivileged(act);
AccessControlContext acc =
new AccessControlContext(new ProtectionDomain[] { pd });
sm.checkPermission(perm, acc);
}
}
// ------------------------------------------------------------------
//
// Dealing with registration of special MBeans in the repository.
//
// ------------------------------------------------------------------
A RegistrationContext that makes it possible to perform additional post registration actions (or post unregistration actions) outside of the repository lock, once postRegister (or postDeregister) has been called. The method done()
will be called in registerMBean or unregisterMBean, at the end. /**
* A RegistrationContext that makes it possible to perform additional
* post registration actions (or post unregistration actions) outside
* of the repository lock, once postRegister (or postDeregister) has
* been called.
* The method {@code done()} will be called in registerMBean or
* unregisterMBean, at the end.
*/
private static interface ResourceContext extends RegistrationContext {
public void done();
An empty ResourceContext which does nothing /** An empty ResourceContext which does nothing **/
public static final ResourceContext NONE = new ResourceContext() {
public void done() {}
public void registering() {}
public void unregistered() {}
};
}
Adds a MBean in the repository,
sends MBeanServerNotification.REGISTRATION_NOTIFICATION,
returns ResourceContext for special resources such as ClassLoaders
or JMXNamespaces. For regular MBean this method returns
ResourceContext.NONE.
Returns: a ResourceContext for special resources such as ClassLoaders
or JMXNamespaces.
/**
* Adds a MBean in the repository,
* sends MBeanServerNotification.REGISTRATION_NOTIFICATION,
* returns ResourceContext for special resources such as ClassLoaders
* or JMXNamespaces. For regular MBean this method returns
* ResourceContext.NONE.
* @return a ResourceContext for special resources such as ClassLoaders
* or JMXNamespaces.
*/
private ResourceContext registerWithRepository(
final Object resource,
final DynamicMBean object,
final ObjectName logicalName)
throws InstanceAlreadyExistsException,
MBeanRegistrationException {
// Creates a registration context, if needed.
//
final ResourceContext context =
makeResourceContextFor(resource, logicalName);
repository.addMBean(object, logicalName, context);
// May throw InstanceAlreadyExistsException
// ---------------------
// Send create event
// ---------------------
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"addObject", "Send create notification of object " +
logicalName.getCanonicalName());
}
sendNotification(
MBeanServerNotification.REGISTRATION_NOTIFICATION,
logicalName);
return context;
}
Removes a MBean in the repository,
sends MBeanServerNotification.UNREGISTRATION_NOTIFICATION,
returns ResourceContext for special resources such as ClassLoaders
or JMXNamespaces, or null. For regular MBean this method returns
ResourceContext.NONE.
Returns: a ResourceContext for special resources such as ClassLoaders
or JMXNamespaces.
/**
* Removes a MBean in the repository,
* sends MBeanServerNotification.UNREGISTRATION_NOTIFICATION,
* returns ResourceContext for special resources such as ClassLoaders
* or JMXNamespaces, or null. For regular MBean this method returns
* ResourceContext.NONE.
*
* @return a ResourceContext for special resources such as ClassLoaders
* or JMXNamespaces.
*/
private ResourceContext unregisterFromRepository(
final Object resource,
final DynamicMBean object,
final ObjectName logicalName)
throws InstanceNotFoundException {
// Creates a registration context, if needed.
//
final ResourceContext context =
makeResourceContextFor(resource, logicalName);
repository.remove(logicalName, context);
// ---------------------
// Send deletion event
// ---------------------
if (MBEANSERVER_LOGGER.isLoggable(Level.FINER)) {
MBEANSERVER_LOGGER.logp(Level.FINER,
DefaultMBeanServerInterceptor.class.getName(),
"unregisterMBean", "Send delete notification of object " +
logicalName.getCanonicalName());
}
sendNotification(MBeanServerNotification.UNREGISTRATION_NOTIFICATION,
logicalName);
return context;
}
Registers a ClassLoader with the CLR.
This method is called by the ResourceContext from within the
repository lock.
Params: - loader – The ClassLoader.
- logicalName – The ClassLoader MBean ObjectName.
/**
* Registers a ClassLoader with the CLR.
* This method is called by the ResourceContext from within the
* repository lock.
* @param loader The ClassLoader.
* @param logicalName The ClassLoader MBean ObjectName.
*/
private void addClassLoader(ClassLoader loader,
final ObjectName logicalName) {
/**
* Called when the newly registered MBean is a ClassLoader
* If so, tell the ClassLoaderRepository (CLR) about it. We do
* this even if the loader is a PrivateClassLoader. In that
* case, the CLR remembers the loader for use when it is
* explicitly named (e.g. as the loader in createMBean) but
* does not add it to the list that is consulted by
* ClassLoaderRepository.loadClass.
*/
final ModifiableClassLoaderRepository clr = getInstantiatorCLR();
if (clr == null) {
final RuntimeException wrapped =
new IllegalArgumentException(
"Dynamic addition of class loaders" +
" is not supported");
throw new RuntimeOperationsException(wrapped,
"Exception occurred trying to register" +
" the MBean as a class loader");
}
clr.addClassLoader(logicalName, loader);
}
Unregisters a ClassLoader from the CLR.
This method is called by the ResourceContext from within the
repository lock.
Params: - loader – The ClassLoader.
- logicalName – The ClassLoader MBean ObjectName.
/**
* Unregisters a ClassLoader from the CLR.
* This method is called by the ResourceContext from within the
* repository lock.
* @param loader The ClassLoader.
* @param logicalName The ClassLoader MBean ObjectName.
*/
private void removeClassLoader(ClassLoader loader,
final ObjectName logicalName) {
/**
* Removes the MBean from the default loader repository.
*/
if (loader != server.getClass().getClassLoader()) {
final ModifiableClassLoaderRepository clr = getInstantiatorCLR();
if (clr != null) {
clr.removeClassLoader(logicalName);
}
}
}
Creates a ResourceContext for a ClassLoader MBean.
The resource context makes it possible to add the ClassLoader to
(ResourceContext.registering) or resp. remove the ClassLoader from
(ResourceContext.unregistered) the CLR
when the associated MBean is added to or resp. removed from the
repository.
Params: - loader – The ClassLoader MBean being registered or
unregistered.
- logicalName – The name of the ClassLoader MBean.
Returns: a ResourceContext that takes in charge the addition or removal
of the loader to or from the CLR.
/**
* Creates a ResourceContext for a ClassLoader MBean.
* The resource context makes it possible to add the ClassLoader to
* (ResourceContext.registering) or resp. remove the ClassLoader from
* (ResourceContext.unregistered) the CLR
* when the associated MBean is added to or resp. removed from the
* repository.
*
* @param loader The ClassLoader MBean being registered or
* unregistered.
* @param logicalName The name of the ClassLoader MBean.
* @return a ResourceContext that takes in charge the addition or removal
* of the loader to or from the CLR.
*/
private ResourceContext createClassLoaderContext(
final ClassLoader loader,
final ObjectName logicalName) {
return new ResourceContext() {
public void registering() {
addClassLoader(loader, logicalName);
}
public void unregistered() {
removeClassLoader(loader, logicalName);
}
public void done() {
}
};
}
Creates a ResourceContext for the given resource.
If the resource does not need a ResourceContext, returns
ResourceContext.NONE.
At this time, only ClassLoaders need a ResourceContext.
Params: - resource – The resource being registered or unregistered.
- logicalName – The name of the associated MBean.
Returns:
/**
* Creates a ResourceContext for the given resource.
* If the resource does not need a ResourceContext, returns
* ResourceContext.NONE.
* At this time, only ClassLoaders need a ResourceContext.
*
* @param resource The resource being registered or unregistered.
* @param logicalName The name of the associated MBean.
* @return
*/
private ResourceContext makeResourceContextFor(Object resource,
ObjectName logicalName) {
if (resource instanceof ClassLoader) {
return createClassLoaderContext((ClassLoader) resource,
logicalName);
}
return ResourceContext.NONE;
}
private ModifiableClassLoaderRepository getInstantiatorCLR() {
return AccessController.doPrivileged(new PrivilegedAction<ModifiableClassLoaderRepository>() {
@Override
public ModifiableClassLoaderRepository run() {
return instantiator != null ? instantiator.getClassLoaderRepository() : null;
}
});
}
}