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package sun.jvmstat.perfdata.monitor.protocol.rmi;

import sun.jvmstat.monitor.*;
import sun.jvmstat.monitor.event.*;
import sun.jvmstat.monitor.remote.*;
import sun.jvmstat.perfdata.monitor.*;
import java.lang.reflect.*;
import java.util.*;
import java.io.*;
import java.nio.ByteBuffer;
import java.rmi.*;

Concrete implementation of the AbstractMonitoredVm class for the rmi: protocol for the HotSpot PerfData monitoring implementation.

This class provides the ability to acquire to the instrumentation buffer of a live, remote target Java Virtual Machine through an RMI server.

Author:Brian Doherty
Since:1.5
/** * Concrete implementation of the AbstractMonitoredVm class for the * <em>rmi:</em> protocol for the HotSpot PerfData monitoring implementation. * <p> * This class provides the ability to acquire to the instrumentation buffer * of a live, remote target Java Virtual Machine through an RMI server. * * @author Brian Doherty * @since 1.5 */
public class RemoteMonitoredVm extends AbstractMonitoredVm { private ArrayList<VmListener> listeners; private NotifierTask notifierTask; private SamplerTask samplerTask; private Timer timer; private RemoteVm rvm; private ByteBuffer updateBuffer;
Create a RemoteMonitoredVm instance.
Params:
  • rvm – the proxy to the remote MonitoredVm instance.
  • vmid – the vm identifier specifying the remot target JVM
  • timer – the timer used to run polling tasks
  • interval – the sampling interval
/** * Create a RemoteMonitoredVm instance. * * @param rvm the proxy to the remote MonitoredVm instance. * @param vmid the vm identifier specifying the remot target JVM * @param timer the timer used to run polling tasks * @param interval the sampling interval */
public RemoteMonitoredVm(RemoteVm rvm, VmIdentifier vmid, Timer timer, int interval) throws MonitorException { super(vmid, interval); this.rvm = rvm; pdb = new PerfDataBuffer(rvm, vmid.getLocalVmId()); this.listeners = new ArrayList<VmListener>(); this.timer = timer; }
Method to attach to the remote MonitoredVm.
/** * Method to attach to the remote MonitoredVm. */
public void attach() throws MonitorException { updateBuffer = pdb.getByteBuffer().duplicate(); // if continuous sampling is requested, register with the sampler thread if (interval > 0) { samplerTask = new SamplerTask(); timer.schedule(samplerTask, 0, interval); } }
{@inheritDoc}
/** * {@inheritDoc} */
public void detach() { try { if (interval > 0) { if (samplerTask != null) { samplerTask.cancel(); samplerTask = null; } if (notifierTask != null) { notifierTask.cancel(); notifierTask = null; } sample(); } } catch (RemoteException e) { // XXX: - use logging api? throw an exception instead? System.err.println("Could not read data for remote JVM " + vmid); e.printStackTrace(); } finally { super.detach(); } }
Get a copy of the remote instrumentation buffer.

The data in the remote instrumentation buffer is copied into a local byte buffer.

Throws:
  • RemoteException – Thrown on any communications errors with the remote system.
/** * Get a copy of the remote instrumentation buffer. *<p> * The data in the remote instrumentation buffer is copied into * a local byte buffer. * * @throws RemoteException Thrown on any communications errors with * the remote system. */
public void sample() throws RemoteException { assert updateBuffer != null; ((PerfDataBuffer)pdb).sample(updateBuffer); }
Get the proxy to the remote MonitoredVm.
Returns:RemoteVm - the proxy to the remote MonitoredVm.
/** * Get the proxy to the remote MonitoredVm. * * @return RemoteVm - the proxy to the remote MonitoredVm. */
public RemoteVm getRemoteVm() { return rvm; }
{@inheritDoc}
/** * {@inheritDoc} */
public void addVmListener(VmListener l) { synchronized(listeners) { listeners.add(l); if (notifierTask == null) { notifierTask = new NotifierTask(); timer.schedule(notifierTask, 0, interval); } } }
{@inheritDoc}
/** * {@inheritDoc} */
public void removeVmListener(VmListener l) { synchronized(listeners) { listeners.remove(l); if (listeners.isEmpty() && (notifierTask != null)) { notifierTask.cancel(); notifierTask = null; } } }
{@inheritDoc}
/** * {@inheritDoc} */
public void setInterval(int newInterval) { synchronized(listeners) { if (newInterval == interval) { return; } int oldInterval = interval; super.setInterval(newInterval); if (samplerTask != null) { samplerTask.cancel(); SamplerTask oldSamplerTask = samplerTask; samplerTask = new SamplerTask(); CountedTimerTaskUtils.reschedule(timer, oldSamplerTask, samplerTask, oldInterval, newInterval); } if (notifierTask != null) { notifierTask.cancel(); NotifierTask oldNotifierTask = notifierTask; notifierTask = new NotifierTask(); CountedTimerTaskUtils.reschedule(timer, oldNotifierTask, notifierTask, oldInterval, newInterval); } } }
Fire MonitoredVmStructureChanged events.
Params:
  • inserted – List of Monitor objects inserted.
  • removed – List of Monitor objects removed.
/** * Fire MonitoredVmStructureChanged events. * * @param inserted List of Monitor objects inserted. * @param removed List of Monitor objects removed. */
@SuppressWarnings("unchecked") // Cast of result of clone void fireMonitorStatusChangedEvents(List<Monitor> inserted, List<Monitor> removed) { ArrayList<VmListener> registered = null; MonitorStatusChangeEvent ev = null; synchronized(listeners) { registered = (ArrayList)listeners.clone(); } for (Iterator<VmListener> i = registered.iterator(); i.hasNext(); /* empty */) { VmListener l = i.next(); if (ev == null) { ev = new MonitorStatusChangeEvent(this, inserted, removed); } l.monitorStatusChanged(ev); } }
Fire MonitoredVmStructureChanged events.
/** * Fire MonitoredVmStructureChanged events. */
@SuppressWarnings("unchecked") // Cast of result of clone void fireMonitorsUpdatedEvents() { ArrayList<VmListener> registered = null; VmEvent ev = null; synchronized(listeners) { registered = (ArrayList)listeners.clone(); } for (Iterator<VmListener> i = registered.iterator(); i.hasNext(); /* empty */) { VmListener l = i.next(); if (ev == null) { ev = new VmEvent(this); } l.monitorsUpdated(ev); } } /* * Timer Tasks. There are two separate timer tasks here. The SamplerTask * is active whenever we are attached to the remote JVM with a periodic * sampling interval > 0. The NotifierTask is only active if a VmListener * has registered with this RemoteMonitoredVm instance. Also, in the future * we may want to run these tasks at different intervals. Currently, * they run at the same interval and some significant work may * need to be done to complete the separation of these two intervals. */
Class to periodically check the state of the defined monitors for the remote MonitoredVm instance and to notify listeners of any detected changes.
/** * Class to periodically check the state of the defined monitors * for the remote MonitoredVm instance and to notify listeners of * any detected changes. */
private class NotifierTask extends CountedTimerTask { public void run() { super.run(); try { MonitorStatus status = getMonitorStatus(); List<Monitor> inserted = status.getInserted(); List<Monitor> removed = status.getRemoved(); if (!inserted.isEmpty() || !removed.isEmpty()) { fireMonitorStatusChangedEvents(inserted, removed); } } catch (MonitorException e) { // XXX: use logging api? fire disconnect events? mark errored? // fireDisconnectedEvents(); System.err.println("Exception updating monitors for " + getVmIdentifier()); e.printStackTrace(); // XXX: should we cancle the notifierTask here? // this.cancel(); } } }
Class to periodically sample the remote instrumentation byte buffer and refresh the local copy. Registered listeners are notified of the completion of a sampling event.
/** * Class to periodically sample the remote instrumentation byte buffer * and refresh the local copy. Registered listeners are notified of * the completion of a sampling event. */
private class SamplerTask extends CountedTimerTask { public void run() { super.run(); try { sample(); fireMonitorsUpdatedEvents(); } catch (RemoteException e) { // XXX: use logging api, mark vm as errored. System.err.println("Exception taking sample for " + getVmIdentifier()); e.printStackTrace(); this.cancel(); } } } }