8203157: Object equals abstraction for BarrierSetAssembler
Reviewed-by: eosterlund, aph
/*
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* 2 along with this work; if not, write to the Free Software Foundation,
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/*
* @test
* @bug 6333528
* @summary Check that the initial threshold is properly used by the observed
* objects added before the counter monitor is started as well as by
* the observed objects which are added once the monitor is started.
* @author Luis-Miguel Alventosa
*
* @run clean CounterMonitorInitThresholdTest
* @run build CounterMonitorInitThresholdTest
* @run main CounterMonitorInitThresholdTest
*/
import java.lang.management.ManagementFactory;
import javax.management.MBeanServer;
import javax.management.MBeanServerInvocationHandler;
import javax.management.Notification;
import javax.management.NotificationEmitter;
import javax.management.NotificationListener;
import javax.management.ObjectName;
import javax.management.monitor.CounterMonitor;
import javax.management.monitor.CounterMonitorMBean;
import javax.management.monitor.MonitorNotification;
public class CounterMonitorInitThresholdTest {
public interface TestMBean {
public int getCounter();
public void setCounter(int count);
}
public static class Test implements TestMBean {
public int getCounter() {
return count;
}
public void setCounter(int count) {
this.count = count;
}
private int count = 0;
}
public static class Listener implements NotificationListener {
public void handleNotification(Notification n, Object hb) {
System.out.println("\tReceived notification: " + n.getType());
if (n instanceof MonitorNotification) {
MonitorNotification mn = (MonitorNotification) n;
System.out.println("\tSource: " +
mn.getSource());
System.out.println("\tType: " +
mn.getType());
System.out.println("\tTimeStamp: " +
mn.getTimeStamp());
System.out.println("\tObservedObject: " +
mn.getObservedObject());
System.out.println("\tObservedAttribute: " +
mn.getObservedAttribute());
System.out.println("\tDerivedGauge: " +
mn.getDerivedGauge());
System.out.println("\tTrigger: " +
mn.getTrigger());
}
}
}
public static void runTest() throws Exception {
// Retrieve the platform MBean server
//
System.out.println("\nRetrieve the platform MBean server");
MBeanServer mbs = ManagementFactory.getPlatformMBeanServer();
String domain = mbs.getDefaultDomain();
// Create and register TestMBeans
//
ObjectName name1 =
new ObjectName(domain +
":type=" + Test.class.getName() +
",name=1");
mbs.createMBean(Test.class.getName(), name1);
TestMBean mbean1 = (TestMBean)
MBeanServerInvocationHandler.newProxyInstance(
mbs, name1, TestMBean.class, false);
ObjectName name2 =
new ObjectName(domain +
":type=" + Test.class.getName() +
",name=2");
mbs.createMBean(Test.class.getName(), name2);
TestMBean mbean2 = (TestMBean)
MBeanServerInvocationHandler.newProxyInstance(
mbs, name2, TestMBean.class, false);
// Create and register CounterMonitorMBean
//
ObjectName cmn =
new ObjectName(domain +
":type=" + CounterMonitor.class.getName());
CounterMonitor m = new CounterMonitor();
mbs.registerMBean(m, cmn);
CounterMonitorMBean cm = (CounterMonitorMBean)
MBeanServerInvocationHandler.newProxyInstance(
mbs, cmn, CounterMonitorMBean.class, true);
((NotificationEmitter) cm).addNotificationListener(
new Listener(), null, null);
cm.setObservedAttribute("Counter");
cm.setGranularityPeriod(100);
cm.setInitThreshold(3);
cm.setNotify(true);
// Add observed object name1
//
System.out.println("\nObservedObject \"" + name1 +
"\" registered before starting the monitor");
cm.addObservedObject(name1);
// Start the monitor
//
System.out.println("\nStart monitoring...");
cm.start();
// Play with counter for name1
//
System.out.println("\nTest ObservedObject \"" + name1 + "\"");
for (int i = 0; i < 4; i++) {
mbean1.setCounter(i);
System.out.println("\nCounter = " + mbean1.getCounter());
Thread.sleep(300);
Number thresholdValue = cm.getThreshold(name1);
System.out.println("Threshold = " + thresholdValue);
if (thresholdValue.intValue() != 3) {
System.out.println("Wrong threshold! Current value = " +
thresholdValue + " Expected value = 3");
System.out.println("\nStop monitoring...");
cm.stop();
throw new IllegalArgumentException("wrong threshold");
}
Thread.sleep(300);
}
// Add observed object name2
//
System.out.println("\nObservedObject \"" + name2 +
"\" registered after starting the monitor");
cm.addObservedObject(name2);
// Play with counter for name2
//
System.out.println("\nTest ObservedObject \"" + name2 + "\"");
for (int i = 0; i < 4; i++) {
mbean2.setCounter(i);
System.out.println("\nCounter = " + mbean2.getCounter());
Thread.sleep(300);
Number thresholdValue = cm.getThreshold(name2);
System.out.println("Threshold = " + thresholdValue);
if (thresholdValue.intValue() != 3) {
System.out.println("Wrong threshold! Current value = " +
thresholdValue + " Expected value = 3");
System.out.println("\nStop monitoring...");
cm.stop();
throw new IllegalArgumentException("wrong threshold");
}
Thread.sleep(300);
}
// Stop the monitor
//
System.out.println("\nStop monitoring...");
cm.stop();
}
public static void main(String[] args) throws Exception {
runTest();
}
}