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package com.sun.enterprise.v3.services.impl.monitor.stats;
import org.glassfish.external.probe.provider.annotations.ProbeListener;
import org.glassfish.external.probe.provider.annotations.ProbeParam;
import org.glassfish.external.statistics.CountStatistic;
import org.glassfish.external.statistics.annotations.Reset;
import org.glassfish.external.statistics.impl.CountStatisticImpl;
import org.glassfish.gmbal.AMXMetadata;
import org.glassfish.gmbal.Description;
import org.glassfish.gmbal.ManagedAttribute;
import org.glassfish.gmbal.ManagedObject;
import org.glassfish.grizzly.threadpool.ThreadPoolConfig;
/**
* Thread Pool statistics
*
* @author Alexey Stashok
*/
@AMXMetadata(type = "thread-pool-mon", group = "monitoring")
@ManagedObject
@Description("Thread Pool Statistics")
public class ThreadPoolStatsProvider implements StatsProvider {
private final String name;
protected final CountStatisticImpl maxThreadsCount = new CountStatisticImpl("MaxThreads", "count", "Maximum number of threads allowed in the thread pool");
protected final CountStatisticImpl coreThreadsCount = new CountStatisticImpl("CoreThreads", "count", "Core number of threads in the thread pool");
protected final CountStatisticImpl totalExecutedTasksCount = new CountStatisticImpl("TotalExecutedTasksCount", "count", "Provides the total number of tasks, which were executed by the thread pool");
protected final CountStatisticImpl currentThreadCount = new CountStatisticImpl("CurrentThreadCount", "count", "Provides the number of request processing threads currently in the listener thread pool");
protected final CountStatisticImpl currentThreadsBusy = new CountStatisticImpl("CurrentThreadsBusy", "count", "Provides the number of request processing threads currently in use in the listener thread pool serving requests");
protected volatile ThreadPoolConfig threadPoolConfig;
public ThreadPoolStatsProvider(String name) {
this.name = name;
}
@Override
public Object getStatsObject() {
return threadPoolConfig;
}
@Override
public void setStatsObject(Object object) {
if (object instanceof ThreadPoolConfig) {
threadPoolConfig = (ThreadPoolConfig) object;
} else {
threadPoolConfig = null;
}
}
@ManagedAttribute(id = "maxthreads")
@Description("Maximum number of threads allowed in the thread pool")
public CountStatistic getMaxThreadsCount() {
return maxThreadsCount;
}
@ManagedAttribute(id = "corethreads")
@Description("Core number of threads in the thread pool")
public CountStatistic getCoreThreadsCount() {
return coreThreadsCount;
}
@ManagedAttribute(id = "totalexecutedtasks")
@Description("Provides the total number of tasks, which were executed by the thread pool")
public CountStatistic getTotalExecutedTasksCount() {
return totalExecutedTasksCount;
}
@ManagedAttribute(id = "currentthreadcount")
@Description("Provides the number of request processing threads currently in the listener thread pool")
public CountStatistic getCurrentThreadCount() {
return currentThreadCount;
}
@ManagedAttribute(id = "currentthreadsbusy")
@Description("Provides the number of request processing threads currently in use in the listener thread pool serving requests.")
public CountStatistic getCurrentThreadsBusy() {
return currentThreadsBusy;
}
@ProbeListener("glassfish:kernel:thread-pool:setMaxThreadsEvent")
public void setMaxThreadsEvent(
@ProbeParam("monitoringId") String monitoringId,
@ProbeParam("threadPoolName") String threadPoolName,
@ProbeParam("maxNumberOfThreads") int maxNumberOfThreads) {
if (name.equals(monitoringId)) {
maxThreadsCount.setCount(maxNumberOfThreads);
}
}
@ProbeListener("glassfish:kernel:thread-pool:setCoreThreadsEvent")
public void setCoreThreadsEvent(
@ProbeParam("monitoringId") String monitoringId,
@ProbeParam("threadPoolName") String threadPoolName,
@ProbeParam("coreNumberOfThreads") int coreNumberOfThreads) {
if (name.equals(monitoringId)) {
coreThreadsCount.setCount(coreNumberOfThreads);
}
}
@ProbeListener("glassfish:kernel:thread-pool:threadAllocatedEvent")
public void threadAllocatedEvent(
@ProbeParam("monitoringId") String monitoringId,
@ProbeParam("threadPoolName") String threadPoolName,
@ProbeParam("threadId") long threadId) {
if (name.equals(monitoringId)) {
currentThreadCount.increment();
}
}
@ProbeListener("glassfish:kernel:thread-pool:threadReleasedEvent")
public void threadReleasedEvent(
@ProbeParam("monitoringId") String monitoringId,
@ProbeParam("threadPoolName") String threadPoolName,
@ProbeParam("threadId") long threadId) {
if (name.equals(monitoringId)) {
currentThreadCount.decrement();
}
}
@ProbeListener("glassfish:kernel:thread-pool:threadDispatchedFromPoolEvent")
public void threadDispatchedFromPoolEvent(
@ProbeParam("monitoringId") String monitoringId,
@ProbeParam("threadPoolName") String threadPoolName,
@ProbeParam("threadId") long threadId) {
if (name.equals(monitoringId)) {
currentThreadsBusy.increment();
}
}
@ProbeListener("glassfish:kernel:thread-pool:threadReturnedToPoolEvent")
public void threadReturnedToPoolEvent(
@ProbeParam("monitoringId") String monitoringId,
@ProbeParam("threadPoolName") String threadPoolName,
@ProbeParam("threadId") long threadId) {
if (name.equals(monitoringId)) {
totalExecutedTasksCount.increment();
currentThreadsBusy.decrement();
}
}
@Reset
public void reset() {
if (threadPoolConfig != null) {
maxThreadsCount.setCount(threadPoolConfig.getMaxPoolSize());
coreThreadsCount.setCount(threadPoolConfig.getCorePoolSize());
currentThreadCount.setCount(0);
currentThreadsBusy.setCount(0);
}
totalExecutedTasksCount.setCount(0);
}
}