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package sun.management;

import java.lang.management.MemoryPoolMXBean;

import java.lang.management.MemoryUsage;
import java.lang.management.MemoryType;
import java.lang.management.MemoryManagerMXBean;
import javax.management.openmbean.CompositeData;

import static java.lang.management.MemoryNotificationInfo.*;

Implementation class for a memory pool. Standard and committed hotspot-specific metrics if any. ManagementFactory.getMemoryPoolMXBeans() returns a list of instances of this class.
/** * Implementation class for a memory pool. * Standard and committed hotspot-specific metrics if any. * * ManagementFactory.getMemoryPoolMXBeans() returns a list of * instances of this class. */
class MemoryPoolImpl implements MemoryPoolMXBean { private final String name; private final boolean isHeap; private final boolean isValid; private final boolean collectionThresholdSupported; private final boolean usageThresholdSupported; private MemoryManagerMXBean[] managers; private long usageThreshold; private long collectionThreshold; private boolean usageSensorRegistered; private boolean gcSensorRegistered; private Sensor usageSensor; private Sensor gcSensor; MemoryPoolImpl(String name, boolean isHeap, long usageThreshold, long gcThreshold) { this.name = name; this.isHeap = isHeap; this.isValid = true; this.managers = null; this.usageThreshold = usageThreshold; this.collectionThreshold = gcThreshold; this.usageThresholdSupported = (usageThreshold >= 0); this.collectionThresholdSupported = (gcThreshold >= 0); this.usageSensor = new PoolSensor(this, name + " usage sensor"); this.gcSensor = new CollectionSensor(this, name + " collection sensor"); this.usageSensorRegistered = false; this.gcSensorRegistered = false; } public String getName() { return name; } public boolean isValid() { return isValid; } public MemoryType getType() { if (isHeap) { return MemoryType.HEAP; } else { return MemoryType.NON_HEAP; } } public MemoryUsage getUsage() { return getUsage0(); } public synchronized MemoryUsage getPeakUsage() { // synchronized since resetPeakUsage may be resetting the peak usage return getPeakUsage0(); } public synchronized long getUsageThreshold() { if (!isUsageThresholdSupported()) { throw new UnsupportedOperationException( "Usage threshold is not supported"); } return usageThreshold; } public void setUsageThreshold(long newThreshold) { if (!isUsageThresholdSupported()) { throw new UnsupportedOperationException( "Usage threshold is not supported"); } ManagementFactory.checkControlAccess(); MemoryUsage usage = getUsage0(); if (newThreshold < 0) { throw new IllegalArgumentException( "Invalid threshold: " + newThreshold); } if (usage.getMax() != -1 && newThreshold > usage.getMax()) { throw new IllegalArgumentException( "Invalid threshold: " + newThreshold + " must be <= maxSize." + " Committed = " + usage.getCommitted() + " Max = " + usage.getMax()); } synchronized (this) { if (!usageSensorRegistered) { // pass the sensor to VM to begin monitoring usageSensorRegistered = true; setPoolUsageSensor(usageSensor); } setUsageThreshold0(usageThreshold, newThreshold); this.usageThreshold = newThreshold; } } private synchronized MemoryManagerMXBean[] getMemoryManagers() { if (managers == null) { managers = getMemoryManagers0(); } return managers; } public String[] getMemoryManagerNames() { MemoryManagerMXBean[] mgrs = getMemoryManagers(); String[] names = new String[mgrs.length]; for (int i = 0; i < mgrs.length; i++) { names[i] = mgrs[i].getName(); } return names; } public void resetPeakUsage() { ManagementFactory.checkControlAccess(); synchronized (this) { // synchronized since getPeakUsage may be called concurrently resetPeakUsage0(); } } public boolean isUsageThresholdExceeded() { if (!isUsageThresholdSupported()) { throw new UnsupportedOperationException( "Usage threshold is not supported"); } // return false if usage threshold crossing checking is disabled if (usageThreshold == 0) { return false; } MemoryUsage u = getUsage0(); return (u.getUsed() >= usageThreshold || usageSensor.isOn()); } public long getUsageThresholdCount() { if (!isUsageThresholdSupported()) { throw new UnsupportedOperationException( "Usage threshold is not supported"); } return usageSensor.getCount(); } public boolean isUsageThresholdSupported() { return usageThresholdSupported; } public synchronized long getCollectionUsageThreshold() { if (!isCollectionUsageThresholdSupported()) { throw new UnsupportedOperationException( "CollectionUsage threshold is not supported"); } return collectionThreshold; } public void setCollectionUsageThreshold(long newThreshold) { if (!isCollectionUsageThresholdSupported()) { throw new UnsupportedOperationException( "CollectionUsage threshold is not supported"); } ManagementFactory.checkControlAccess(); MemoryUsage usage = getUsage0(); if (newThreshold < 0) { throw new IllegalArgumentException( "Invalid threshold: " + newThreshold); } if (usage.getMax() != -1 && newThreshold > usage.getMax()) { throw new IllegalArgumentException( "Invalid threshold: " + newThreshold + " > max (" + usage.getMax() + ")."); } synchronized (this) { if (!gcSensorRegistered) { // pass the sensor to VM to begin monitoring gcSensorRegistered = true; setPoolCollectionSensor(gcSensor); } setCollectionThreshold0(collectionThreshold, newThreshold); this.collectionThreshold = newThreshold; } } public boolean isCollectionUsageThresholdExceeded() { if (!isCollectionUsageThresholdSupported()) { throw new UnsupportedOperationException( "CollectionUsage threshold is not supported"); } // return false if usage threshold crossing checking is disabled if (collectionThreshold == 0) { return false; } MemoryUsage u = getCollectionUsage0(); return (gcSensor.isOn() || (u != null && u.getUsed() >= collectionThreshold)); } public long getCollectionUsageThresholdCount() { if (!isCollectionUsageThresholdSupported()) { throw new UnsupportedOperationException( "CollectionUsage threshold is not supported"); } return gcSensor.getCount(); } public MemoryUsage getCollectionUsage() { return getCollectionUsage0(); } public boolean isCollectionUsageThresholdSupported() { return collectionThresholdSupported; } // Native VM support private native MemoryUsage getUsage0(); private native MemoryUsage getPeakUsage0(); private native MemoryUsage getCollectionUsage0(); private native void setUsageThreshold0(long current, long newThreshold); private native void setCollectionThreshold0(long current, long newThreshold); private native void resetPeakUsage0(); private native MemoryManagerMXBean[] getMemoryManagers0(); private native void setPoolUsageSensor(Sensor s); private native void setPoolCollectionSensor(Sensor s); // package private
PoolSensor will be triggered by the VM when the memory usage of a memory pool is crossing the usage threshold. The VM will not trigger this sensor in subsequent crossing unless the memory usage has returned below the threshold.
/** * PoolSensor will be triggered by the VM when the memory * usage of a memory pool is crossing the usage threshold. * The VM will not trigger this sensor in subsequent crossing * unless the memory usage has returned below the threshold. */
class PoolSensor extends Sensor { MemoryPoolImpl pool; PoolSensor(MemoryPoolImpl pool, String name) { super(name); this.pool = pool; } void triggerAction(MemoryUsage usage) { // create and send notification MemoryImpl.createNotification(MEMORY_THRESHOLD_EXCEEDED, pool.getName(), usage, getCount()); } void triggerAction() { // Should not reach here throw new InternalError(); } void clearAction() { // do nothing } }
CollectionSensor will be triggered and cleared by the VM when the memory usage of a memory pool after GC is crossing the collection threshold. The VM will trigger this sensor in subsequent crossing regardless if the memory usage has changed siince the previous GC.
/** * CollectionSensor will be triggered and cleared by the VM * when the memory usage of a memory pool after GC is crossing * the collection threshold. * The VM will trigger this sensor in subsequent crossing * regardless if the memory usage has changed siince the previous GC. */
class CollectionSensor extends Sensor { MemoryPoolImpl pool; CollectionSensor(MemoryPoolImpl pool, String name) { super(name); this.pool = pool; } void triggerAction(MemoryUsage usage) { MemoryImpl.createNotification(MEMORY_COLLECTION_THRESHOLD_EXCEEDED, pool.getName(), usage, gcSensor.getCount()); } void triggerAction() { // Should not reach here throw new InternalError(); } void clearAction() { // do nothing } } }