/*
 * Copyright (c) 2004, 2008, 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
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package sun.tools.jconsole;

import com.sun.management.HotSpotDiagnosticMXBean;
import com.sun.tools.jconsole.JConsoleContext;
import java.beans.PropertyChangeListener;
import java.beans.PropertyChangeEvent;
import java.io.IOException;
import java.lang.management.*;
import static java.lang.management.ManagementFactory.*;
import java.lang.ref.WeakReference;
import java.lang.reflect.*;
import java.rmi.*;
import java.rmi.registry.*;
import java.rmi.server.*;
import java.util.*;
import javax.management.*;
import javax.management.remote.*;
import javax.management.remote.rmi.*;
import javax.rmi.ssl.SslRMIClientSocketFactory;
import javax.swing.event.SwingPropertyChangeSupport;
import sun.rmi.server.UnicastRef2;
import sun.rmi.transport.LiveRef;

public class ProxyClient implements JConsoleContext {

    private ConnectionState connectionState = ConnectionState.DISCONNECTED;

    // The SwingPropertyChangeSupport will fire events on the EDT
    private SwingPropertyChangeSupport propertyChangeSupport =
                                new SwingPropertyChangeSupport(this, true);

    private static Map<String, ProxyClient> cache =
        Collections.synchronizedMap(new HashMap<String, ProxyClient>());

    private volatile boolean isDead = true;
    private String hostName = null;
    private int port = 0;
    private String userName = null;
    private String password = null;
    private boolean hasPlatformMXBeans = false;
    private boolean hasHotSpotDiagnosticMXBean= false;
    private boolean hasCompilationMXBean = false;
    private boolean supportsLockUsage = false;

    // REVISIT: VMPanel and other places relying using getUrl().

    // set only if it's created for local monitoring
    private LocalVirtualMachine lvm;

    // set only if it's created from a given URL via the Advanced tab
    private String advancedUrl = null;

    private JMXServiceURL jmxUrl = null;
    private MBeanServerConnection mbsc = null;
    private SnapshotMBeanServerConnection server = null;
    private JMXConnector jmxc = null;
    private RMIServer stub = null;
    private static final SslRMIClientSocketFactory sslRMIClientSocketFactory =
            new SslRMIClientSocketFactory();
    private String registryHostName = null;
    private int registryPort = 0;
    private boolean vmConnector = false;
    private boolean sslRegistry = false;
    private boolean sslStub = false;
    final private String connectionName;
    final private String displayName;

    private ClassLoadingMXBean    classLoadingMBean = null;
    private CompilationMXBean     compilationMBean = null;
    private MemoryMXBean          memoryMBean = null;
    private OperatingSystemMXBean operatingSystemMBean = null;
    private RuntimeMXBean         runtimeMBean = null;
    private ThreadMXBean          threadMBean = null;

    private com.sun.management.OperatingSystemMXBean sunOperatingSystemMXBean = null;
    private HotSpotDiagnosticMXBean                  hotspotDiagnosticMXBean = null;

    private List<MemoryPoolProxy>           memoryPoolProxies = null;
    private List<GarbageCollectorMXBean>    garbageCollectorMBeans = null;

    final static private String HOTSPOT_DIAGNOSTIC_MXBEAN_NAME =
        "com.sun.management:type=HotSpotDiagnostic";

    private ProxyClient(String hostName, int port,
                        String userName, String password) throws IOException {
        this.connectionName = getConnectionName(hostName, port, userName);
        this.displayName = connectionName;
        if (hostName.equals("localhost") && port == 0) {
            // Monitor self
            this.hostName = hostName;
            this.port = port;
        } else {
            // Create an RMI connector client and connect it to
            // the RMI connector server
            final String urlPath = "/jndi/rmi://" + hostName + ":" + port +
                                   "/jmxrmi";
            JMXServiceURL url = new JMXServiceURL("rmi", "", 0, urlPath);
            setParameters(url, userName, password);
            vmConnector = true;
            registryHostName = hostName;
            registryPort = port;
            checkSslConfig();
        }
    }

    private ProxyClient(String url,
                        String userName, String password) throws IOException {
        this.advancedUrl = url;
        this.connectionName = getConnectionName(url, userName);
        this.displayName = connectionName;
        setParameters(new JMXServiceURL(url), userName, password);
    }

    private ProxyClient(LocalVirtualMachine lvm) throws IOException {
        this.lvm = lvm;
        this.connectionName = getConnectionName(lvm);
        this.displayName = "pid: " + lvm.vmid() + " " + lvm.displayName();
    }

    private void setParameters(JMXServiceURL url, String userName, String password) {
        this.jmxUrl = url;
        this.hostName = jmxUrl.getHost();
        this.port = jmxUrl.getPort();
        this.userName = userName;
        this.password = password;
    }

    private static void checkStub(Remote stub,
                                  Class<? extends Remote> stubClass) {
        // Check remote stub is from the expected class.
        //
        if (stub.getClass() != stubClass) {
            if (!Proxy.isProxyClass(stub.getClass())) {
                throw new SecurityException(
                    "Expecting a " + stubClass.getName() + " stub!");
            } else {
                InvocationHandler handler = Proxy.getInvocationHandler(stub);
                if (handler.getClass() != RemoteObjectInvocationHandler.class) {
                    throw new SecurityException(
                        "Expecting a dynamic proxy instance with a " +
                        RemoteObjectInvocationHandler.class.getName() +
                        " invocation handler!");
                } else {
                    stub = (Remote) handler;
                }
            }
        }
        // Check RemoteRef in stub is from the expected class
        // "sun.rmi.server.UnicastRef2".
        //
        RemoteRef ref = ((RemoteObject)stub).getRef();
        if (ref.getClass() != UnicastRef2.class) {
            throw new SecurityException(
                "Expecting a " + UnicastRef2.class.getName() +
                " remote reference in stub!");
        }
        // Check RMIClientSocketFactory in stub is from the expected class
        // "javax.rmi.ssl.SslRMIClientSocketFactory".
        //
        LiveRef liveRef = ((UnicastRef2)ref).getLiveRef();
        RMIClientSocketFactory csf = liveRef.getClientSocketFactory();
        if (csf == null || csf.getClass() != SslRMIClientSocketFactory.class) {
            throw new SecurityException(
                "Expecting a " + SslRMIClientSocketFactory.class.getName() +
                " RMI client socket factory in stub!");
        }
    }

    private static final String rmiServerImplStubClassName =
        "javax.management.remote.rmi.RMIServerImpl_Stub";
    private static final Class<? extends Remote> rmiServerImplStubClass;

    static {
        // FIXME: RMIServerImpl_Stub is generated at build time
        // after jconsole is built.  We need to investigate if
        // the Makefile can be fixed to build jconsole in the
        // right order.  As a workaround for now, we dynamically
        // load RMIServerImpl_Stub class instead of statically
        // referencing it.
        Class<? extends Remote> serverStubClass = null;
        try {
            serverStubClass = Class.forName(rmiServerImplStubClassName).asSubclass(Remote.class);
        } catch (ClassNotFoundException e) {
            // should never reach here
            throw (InternalError) new InternalError(e.getMessage()).initCause(e);
        }
        rmiServerImplStubClass = serverStubClass;
    }

    private void checkSslConfig() throws IOException {
        // Get the reference to the RMI Registry and lookup RMIServer stub
        //
        Registry registry;
        try {
            registry =
                LocateRegistry.getRegistry(registryHostName, registryPort,
                                           sslRMIClientSocketFactory);
            try {
                stub = (RMIServer) registry.lookup("jmxrmi");
            } catch (NotBoundException nbe) {
                throw (IOException)
                    new IOException(nbe.getMessage()).initCause(nbe);
            }
            sslRegistry = true;
        } catch (IOException e) {
            registry =
                LocateRegistry.getRegistry(registryHostName, registryPort);
            try {
                stub = (RMIServer) registry.lookup("jmxrmi");
            } catch (NotBoundException nbe) {
                throw (IOException)
                    new IOException(nbe.getMessage()).initCause(nbe);
            }
            sslRegistry = false;
        }
        // Perform the checks for secure stub
        //
        try {
            checkStub(stub, rmiServerImplStubClass);
            sslStub = true;
        } catch (SecurityException e) {
            sslStub = false;
        }
    }

    
Returns true if the underlying RMI registry is SSL-protected.
Throws:
  • UnsupportedOperationException – If this ProxyClient does not denote a JMX connector for a JMX VM agent.
/** * Returns true if the underlying RMI registry is SSL-protected. * * @exception UnsupportedOperationException If this {@code ProxyClient} * does not denote a JMX connector for a JMX VM agent. */
public boolean isSslRmiRegistry() { // Check for VM connector // if (!isVmConnector()) { throw new UnsupportedOperationException( "ProxyClient.isSslRmiRegistry() is only supported if this " + "ProxyClient is a JMX connector for a JMX VM agent"); } return sslRegistry; }
Returns true if the retrieved RMI stub is SSL-protected.
Throws:
  • UnsupportedOperationException – If this ProxyClient does not denote a JMX connector for a JMX VM agent.
/** * Returns true if the retrieved RMI stub is SSL-protected. * * @exception UnsupportedOperationException If this {@code ProxyClient} * does not denote a JMX connector for a JMX VM agent. */
public boolean isSslRmiStub() { // Check for VM connector // if (!isVmConnector()) { throw new UnsupportedOperationException( "ProxyClient.isSslRmiStub() is only supported if this " + "ProxyClient is a JMX connector for a JMX VM agent"); } return sslStub; }
Returns true if this ProxyClient denotes a JMX connector for a JMX VM agent.
/** * Returns true if this {@code ProxyClient} denotes * a JMX connector for a JMX VM agent. */
public boolean isVmConnector() { return vmConnector; } private void setConnectionState(ConnectionState state) { ConnectionState oldState = this.connectionState; this.connectionState = state; propertyChangeSupport.firePropertyChange(CONNECTION_STATE_PROPERTY, oldState, state); } public ConnectionState getConnectionState() { return this.connectionState; } void flush() { if (server != null) { server.flush(); } } void connect(boolean requireSSL) { setConnectionState(ConnectionState.CONNECTING); try { tryConnect(requireSSL); setConnectionState(ConnectionState.CONNECTED); } catch (Exception e) { if (JConsole.isDebug()) { e.printStackTrace(); } setConnectionState(ConnectionState.DISCONNECTED); } } private void tryConnect(boolean requireRemoteSSL) throws IOException { if (jmxUrl == null && "localhost".equals(hostName) && port == 0) { // Monitor self this.jmxc = null; this.mbsc = ManagementFactory.getPlatformMBeanServer(); this.server = Snapshot.newSnapshot(mbsc); } else { // Monitor another process if (lvm != null) { if (!lvm.isManageable()) { lvm.startManagementAgent(); if (!lvm.isManageable()) { // FIXME: what to throw throw new IOException(lvm + "not manageable"); } } if (this.jmxUrl == null) { this.jmxUrl = new JMXServiceURL(lvm.connectorAddress()); } } Map<String, Object> env = new HashMap<String, Object>(); if (requireRemoteSSL) { env.put("jmx.remote.x.check.stub", "true"); } // Need to pass in credentials ? if (userName == null && password == null) { if (isVmConnector()) { // Check for SSL config on reconnection only if (stub == null) { checkSslConfig(); } this.jmxc = new RMIConnector(stub, null); jmxc.connect(env); } else { this.jmxc = JMXConnectorFactory.connect(jmxUrl, env); } } else { env.put(JMXConnector.CREDENTIALS, new String[] {userName, password}); if (isVmConnector()) { // Check for SSL config on reconnection only if (stub == null) { checkSslConfig(); } this.jmxc = new RMIConnector(stub, null); jmxc.connect(env); } else { this.jmxc = JMXConnectorFactory.connect(jmxUrl, env); } } this.mbsc = jmxc.getMBeanServerConnection(); this.server = Snapshot.newSnapshot(mbsc); } this.isDead = false; try { ObjectName on = new ObjectName(THREAD_MXBEAN_NAME); this.hasPlatformMXBeans = server.isRegistered(on); this.hasHotSpotDiagnosticMXBean = server.isRegistered(new ObjectName(HOTSPOT_DIAGNOSTIC_MXBEAN_NAME)); // check if it has 6.0 new APIs if (this.hasPlatformMXBeans) { MBeanOperationInfo[] mopis = server.getMBeanInfo(on).getOperations(); // look for findDeadlockedThreads operations; for (MBeanOperationInfo op : mopis) { if (op.getName().equals("findDeadlockedThreads")) { this.supportsLockUsage = true; break; } } on = new ObjectName(COMPILATION_MXBEAN_NAME); this.hasCompilationMXBean = server.isRegistered(on); } } catch (MalformedObjectNameException e) { // should not reach here throw new InternalError(e.getMessage()); } catch (IntrospectionException e) { InternalError ie = new InternalError(e.getMessage()); ie.initCause(e); throw ie; } catch (InstanceNotFoundException e) { InternalError ie = new InternalError(e.getMessage()); ie.initCause(e); throw ie; } catch (ReflectionException e) { InternalError ie = new InternalError(e.getMessage()); ie.initCause(e); throw ie; } if (hasPlatformMXBeans) { // WORKAROUND for bug 5056632 // Check if the access role is correct by getting a RuntimeMXBean getRuntimeMXBean(); } }
Gets a proxy client for a given local virtual machine.
/** * Gets a proxy client for a given local virtual machine. */
public static ProxyClient getProxyClient(LocalVirtualMachine lvm) throws IOException { final String key = getCacheKey(lvm); ProxyClient proxyClient = cache.get(key); if (proxyClient == null) { proxyClient = new ProxyClient(lvm); cache.put(key, proxyClient); } return proxyClient; } public static String getConnectionName(LocalVirtualMachine lvm) { return Integer.toString(lvm.vmid()); } private static String getCacheKey(LocalVirtualMachine lvm) { return Integer.toString(lvm.vmid()); }
Gets a proxy client for a given JMXServiceURL.
/** * Gets a proxy client for a given JMXServiceURL. */
public static ProxyClient getProxyClient(String url, String userName, String password) throws IOException { final String key = getCacheKey(url, userName, password); ProxyClient proxyClient = cache.get(key); if (proxyClient == null) { proxyClient = new ProxyClient(url, userName, password); cache.put(key, proxyClient); } return proxyClient; } public static String getConnectionName(String url, String userName) { if (userName != null && userName.length() > 0) { return userName + "@" + url; } else { return url; } } private static String getCacheKey(String url, String userName, String password) { return (url == null ? "" : url) + ":" + (userName == null ? "" : userName) + ":" + (password == null ? "" : password); }
Gets a proxy client for a given "hostname:port".
/** * Gets a proxy client for a given "hostname:port". */
public static ProxyClient getProxyClient(String hostName, int port, String userName, String password) throws IOException { final String key = getCacheKey(hostName, port, userName, password); ProxyClient proxyClient = cache.get(key); if (proxyClient == null) { proxyClient = new ProxyClient(hostName, port, userName, password); cache.put(key, proxyClient); } return proxyClient; } public static String getConnectionName(String hostName, int port, String userName) { String name = hostName + ":" + port; if (userName != null && userName.length() > 0) { return userName + "@" + name; } else { return name; } } private static String getCacheKey(String hostName, int port, String userName, String password) { return (hostName == null ? "" : hostName) + ":" + port + ":" + (userName == null ? "" : userName) + ":" + (password == null ? "" : password); } public String connectionName() { return connectionName; } public String getDisplayName() { return displayName; } public String toString() { if (!isConnected()) { return Resources.format(Messages.CONNECTION_NAME__DISCONNECTED_, displayName); } else { return displayName; } } public MBeanServerConnection getMBeanServerConnection() { return mbsc; } public SnapshotMBeanServerConnection getSnapshotMBeanServerConnection() { return server; } public String getUrl() { return advancedUrl; } public String getHostName() { return hostName; } public int getPort() { return port; } public int getVmid() { return (lvm != null) ? lvm.vmid() : 0; } public String getUserName() { return userName; } public String getPassword() { return password; } public void disconnect() { // Reset remote stub stub = null; // Close MBeanServer connection if (jmxc != null) { try { jmxc.close(); } catch (IOException e) { // Ignore ??? } } // Reset platform MBean references classLoadingMBean = null; compilationMBean = null; memoryMBean = null; operatingSystemMBean = null; runtimeMBean = null; threadMBean = null; sunOperatingSystemMXBean = null; garbageCollectorMBeans = null; // Set connection state to DISCONNECTED if (!isDead) { isDead = true; setConnectionState(ConnectionState.DISCONNECTED); } }
Returns the list of domains in which any MBean is currently registered.
/** * Returns the list of domains in which any MBean is * currently registered. */
public String[] getDomains() throws IOException { return server.getDomains(); }
Returns a map of MBeans with ObjectName as the key and MBeanInfo value of a given domain. If domain is null, all MBeans are returned. If no MBean found, an empty map is returned.
/** * Returns a map of MBeans with ObjectName as the key and MBeanInfo value * of a given domain. If domain is <tt>null</tt>, all MBeans * are returned. If no MBean found, an empty map is returned. * */
public Map<ObjectName, MBeanInfo> getMBeans(String domain) throws IOException { ObjectName name = null; if (domain != null) { try { name = new ObjectName(domain + ":*"); } catch (MalformedObjectNameException e) { // should not reach here assert(false); } } Set<ObjectName> mbeans = server.queryNames(name, null); Map<ObjectName,MBeanInfo> result = new HashMap<ObjectName,MBeanInfo>(mbeans.size()); Iterator<ObjectName> iterator = mbeans.iterator(); while (iterator.hasNext()) { Object object = iterator.next(); if (object instanceof ObjectName) { ObjectName o = (ObjectName)object; try { MBeanInfo info = server.getMBeanInfo(o); result.put(o, info); } catch (IntrospectionException e) { // TODO: should log the error } catch (InstanceNotFoundException e) { // TODO: should log the error } catch (ReflectionException e) { // TODO: should log the error } } } return result; }
Returns a list of attributes of a named MBean.
/** * Returns a list of attributes of a named MBean. * */
public AttributeList getAttributes(ObjectName name, String[] attributes) throws IOException { AttributeList list = null; try { list = server.getAttributes(name, attributes); } catch (InstanceNotFoundException e) { // TODO: A MBean may have been unregistered. // need to set up listener to listen for MBeanServerNotification. } catch (ReflectionException e) { // TODO: should log the error } return list; }
Set the value of a specific attribute of a named MBean.
/** * Set the value of a specific attribute of a named MBean. */
public void setAttribute(ObjectName name, Attribute attribute) throws InvalidAttributeValueException, MBeanException, IOException { try { server.setAttribute(name, attribute); } catch (InstanceNotFoundException e) { // TODO: A MBean may have been unregistered. } catch (AttributeNotFoundException e) { assert(false); } catch (ReflectionException e) { // TODO: should log the error } }
Invokes an operation of a named MBean.
Throws:
  • MBeanException – Wraps an exception thrown by the MBean's invoked method.
/** * Invokes an operation of a named MBean. * * @throws MBeanException Wraps an exception thrown by * the MBean's invoked method. */
public Object invoke(ObjectName name, String operationName, Object[] params, String[] signature) throws IOException, MBeanException { Object result = null; try { result = server.invoke(name, operationName, params, signature); } catch (InstanceNotFoundException e) { // TODO: A MBean may have been unregistered. } catch (ReflectionException e) { // TODO: should log the error } return result; } public synchronized ClassLoadingMXBean getClassLoadingMXBean() throws IOException { if (hasPlatformMXBeans && classLoadingMBean == null) { classLoadingMBean = newPlatformMXBeanProxy(server, CLASS_LOADING_MXBEAN_NAME, ClassLoadingMXBean.class); } return classLoadingMBean; } public synchronized CompilationMXBean getCompilationMXBean() throws IOException { if (hasCompilationMXBean && compilationMBean == null) { compilationMBean = newPlatformMXBeanProxy(server, COMPILATION_MXBEAN_NAME, CompilationMXBean.class); } return compilationMBean; } public Collection<MemoryPoolProxy> getMemoryPoolProxies() throws IOException { // TODO: How to deal with changes to the list?? if (memoryPoolProxies == null) { ObjectName poolName = null; try { poolName = new ObjectName(MEMORY_POOL_MXBEAN_DOMAIN_TYPE + ",*"); } catch (MalformedObjectNameException e) { // should not reach here assert(false); } Set<ObjectName> mbeans = server.queryNames(poolName, null); if (mbeans != null) { memoryPoolProxies = new ArrayList<MemoryPoolProxy>(); Iterator<ObjectName> iterator = mbeans.iterator(); while (iterator.hasNext()) { ObjectName objName = (ObjectName) iterator.next(); MemoryPoolProxy p = new MemoryPoolProxy(this, objName); memoryPoolProxies.add(p); } } } return memoryPoolProxies; } public synchronized Collection<GarbageCollectorMXBean> getGarbageCollectorMXBeans() throws IOException { // TODO: How to deal with changes to the list?? if (garbageCollectorMBeans == null) { ObjectName gcName = null; try { gcName = new ObjectName(GARBAGE_COLLECTOR_MXBEAN_DOMAIN_TYPE + ",*"); } catch (MalformedObjectNameException e) { // should not reach here assert(false); } Set<ObjectName> mbeans = server.queryNames(gcName, null); if (mbeans != null) { garbageCollectorMBeans = new ArrayList<GarbageCollectorMXBean>(); Iterator<ObjectName> iterator = mbeans.iterator(); while (iterator.hasNext()) { ObjectName on = (ObjectName) iterator.next(); String name = GARBAGE_COLLECTOR_MXBEAN_DOMAIN_TYPE + ",name=" + on.getKeyProperty("name"); GarbageCollectorMXBean mBean = newPlatformMXBeanProxy(server, name, GarbageCollectorMXBean.class); garbageCollectorMBeans.add(mBean); } } } return garbageCollectorMBeans; } public synchronized MemoryMXBean getMemoryMXBean() throws IOException { if (hasPlatformMXBeans && memoryMBean == null) { memoryMBean = newPlatformMXBeanProxy(server, MEMORY_MXBEAN_NAME, MemoryMXBean.class); } return memoryMBean; } public synchronized RuntimeMXBean getRuntimeMXBean() throws IOException { if (hasPlatformMXBeans && runtimeMBean == null) { runtimeMBean = newPlatformMXBeanProxy(server, RUNTIME_MXBEAN_NAME, RuntimeMXBean.class); } return runtimeMBean; } public synchronized ThreadMXBean getThreadMXBean() throws IOException { if (hasPlatformMXBeans && threadMBean == null) { threadMBean = newPlatformMXBeanProxy(server, THREAD_MXBEAN_NAME, ThreadMXBean.class); } return threadMBean; } public synchronized OperatingSystemMXBean getOperatingSystemMXBean() throws IOException { if (hasPlatformMXBeans && operatingSystemMBean == null) { operatingSystemMBean = newPlatformMXBeanProxy(server, OPERATING_SYSTEM_MXBEAN_NAME, OperatingSystemMXBean.class); } return operatingSystemMBean; } public synchronized com.sun.management.OperatingSystemMXBean getSunOperatingSystemMXBean() throws IOException { try { ObjectName on = new ObjectName(OPERATING_SYSTEM_MXBEAN_NAME); if (sunOperatingSystemMXBean == null) { if (server.isInstanceOf(on, "com.sun.management.OperatingSystemMXBean")) { sunOperatingSystemMXBean = newPlatformMXBeanProxy(server, OPERATING_SYSTEM_MXBEAN_NAME, com.sun.management.OperatingSystemMXBean.class); } } } catch (InstanceNotFoundException e) { return null; } catch (MalformedObjectNameException e) { return null; // should never reach here } return sunOperatingSystemMXBean; } public synchronized HotSpotDiagnosticMXBean getHotSpotDiagnosticMXBean() throws IOException { if (hasHotSpotDiagnosticMXBean && hotspotDiagnosticMXBean == null) { hotspotDiagnosticMXBean = newPlatformMXBeanProxy(server, HOTSPOT_DIAGNOSTIC_MXBEAN_NAME, HotSpotDiagnosticMXBean.class); } return hotspotDiagnosticMXBean; } public <T> T getMXBean(ObjectName objName, Class<T> interfaceClass) throws IOException { return newPlatformMXBeanProxy(server, objName.toString(), interfaceClass); } // Return thread IDs of deadlocked threads or null if any. // It finds deadlocks involving only monitors if it's a Tiger VM. // Otherwise, it finds deadlocks involving both monitors and // the concurrent locks. public long[] findDeadlockedThreads() throws IOException { ThreadMXBean tm = getThreadMXBean(); if (supportsLockUsage && tm.isSynchronizerUsageSupported()) { return tm.findDeadlockedThreads(); } else { return tm.findMonitorDeadlockedThreads(); } } public synchronized void markAsDead() { disconnect(); } public boolean isDead() { return isDead; } boolean isConnected() { return !isDead(); } boolean hasPlatformMXBeans() { return this.hasPlatformMXBeans; } boolean hasHotSpotDiagnosticMXBean() { return this.hasHotSpotDiagnosticMXBean; } boolean isLockUsageSupported() { return supportsLockUsage; } public boolean isRegistered(ObjectName name) throws IOException { return server.isRegistered(name); } public void addPropertyChangeListener(PropertyChangeListener listener) { propertyChangeSupport.addPropertyChangeListener(listener); } public void addWeakPropertyChangeListener(PropertyChangeListener listener) { if (!(listener instanceof WeakPCL)) { listener = new WeakPCL(listener); } propertyChangeSupport.addPropertyChangeListener(listener); } public void removePropertyChangeListener(PropertyChangeListener listener) { if (!(listener instanceof WeakPCL)) { // Search for the WeakPCL holding this listener (if any) for (PropertyChangeListener pcl : propertyChangeSupport.getPropertyChangeListeners()) { if (pcl instanceof WeakPCL && ((WeakPCL)pcl).get() == listener) { listener = pcl; break; } } } propertyChangeSupport.removePropertyChangeListener(listener); }
The PropertyChangeListener is handled via a WeakReference so as not to pin down the listener.
/** * The PropertyChangeListener is handled via a WeakReference * so as not to pin down the listener. */
private class WeakPCL extends WeakReference<PropertyChangeListener> implements PropertyChangeListener { WeakPCL(PropertyChangeListener referent) { super(referent); } public void propertyChange(PropertyChangeEvent pce) { PropertyChangeListener pcl = get(); if (pcl == null) { // The referent listener was GC'ed, we're no longer // interested in PropertyChanges, remove the listener. dispose(); } else { pcl.propertyChange(pce); } } private void dispose() { removePropertyChangeListener(this); } } // // Snapshot MBeanServerConnection: // // This is an object that wraps an existing MBeanServerConnection and adds // caching to it, as follows: // // - The first time an attribute is called in a given MBean, the result is // cached. Every subsequent time getAttribute is called for that attribute // the cached result is returned. // // - Before every call to VMPanel.update() or when the Refresh button in the // Attributes table is pressed down the attributes cache is flushed. Then // any subsequent call to getAttribute will retrieve all the values for // the attributes that are known to the cache. // // - The attributes cache uses a learning approach and only the attributes // that are in the cache will be retrieved between two subsequent updates. // public interface SnapshotMBeanServerConnection extends MBeanServerConnection {
Flush all cached values of attributes.
/** * Flush all cached values of attributes. */
public void flush(); } public static class Snapshot { private Snapshot() { } public static SnapshotMBeanServerConnection newSnapshot(MBeanServerConnection mbsc) { final InvocationHandler ih = new SnapshotInvocationHandler(mbsc); return (SnapshotMBeanServerConnection) Proxy.newProxyInstance( Snapshot.class.getClassLoader(), new Class[] {SnapshotMBeanServerConnection.class}, ih); } } static class SnapshotInvocationHandler implements InvocationHandler { private final MBeanServerConnection conn; private Map<ObjectName, NameValueMap> cachedValues = newMap(); private Map<ObjectName, Set<String>> cachedNames = newMap(); @SuppressWarnings("serial") private static final class NameValueMap extends HashMap<String, Object> {} SnapshotInvocationHandler(MBeanServerConnection conn) { this.conn = conn; } synchronized void flush() { cachedValues = newMap(); } public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { final String methodName = method.getName(); if (methodName.equals("getAttribute")) { return getAttribute((ObjectName) args[0], (String) args[1]); } else if (methodName.equals("getAttributes")) { return getAttributes((ObjectName) args[0], (String[]) args[1]); } else if (methodName.equals("flush")) { flush(); return null; } else { try { return method.invoke(conn, args); } catch (InvocationTargetException e) { throw e.getCause(); } } } private Object getAttribute(ObjectName objName, String attrName) throws MBeanException, InstanceNotFoundException, AttributeNotFoundException, ReflectionException, IOException { final NameValueMap values = getCachedAttributes( objName, Collections.singleton(attrName)); Object value = values.get(attrName); if (value != null || values.containsKey(attrName)) { return value; } // Not in cache, presumably because it was omitted from the // getAttributes result because of an exception. Following // call will probably provoke the same exception. return conn.getAttribute(objName, attrName); } private AttributeList getAttributes( ObjectName objName, String[] attrNames) throws InstanceNotFoundException, ReflectionException, IOException { final NameValueMap values = getCachedAttributes( objName, new TreeSet<String>(Arrays.asList(attrNames))); final AttributeList list = new AttributeList(); for (String attrName : attrNames) { final Object value = values.get(attrName); if (value != null || values.containsKey(attrName)) { list.add(new Attribute(attrName, value)); } } return list; } private synchronized NameValueMap getCachedAttributes( ObjectName objName, Set<String> attrNames) throws InstanceNotFoundException, ReflectionException, IOException { NameValueMap values = cachedValues.get(objName); if (values != null && values.keySet().containsAll(attrNames)) { return values; } attrNames = new TreeSet<String>(attrNames); Set<String> oldNames = cachedNames.get(objName); if (oldNames != null) { attrNames.addAll(oldNames); } values = new NameValueMap(); final AttributeList attrs = conn.getAttributes( objName, attrNames.toArray(new String[attrNames.size()])); for (Attribute attr : attrs.asList()) { values.put(attr.getName(), attr.getValue()); } cachedValues.put(objName, values); cachedNames.put(objName, attrNames); return values; } // See http://www.artima.com/weblogs/viewpost.jsp?thread=79394 private static <K, V> Map<K, V> newMap() { return new HashMap<K, V>(); } } }