--- old/test/serviceability/tmtools/jstat/utils/GcProvoker.java 2016-11-16 21:43:24.872578554 +0300 +++ new/test/serviceability/tmtools/jstat/utils/GcProvoker.java 2016-11-16 21:43:24.756578558 +0300 @@ -1,5 +1,5 @@ /* - * Copyright (c) 2015, Oracle and/or its affiliates. All rights reserved. + * Copyright (c) 2015, 2016, 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 @@ -22,34 +22,136 @@ */ package utils; +import java.lang.management.ManagementFactory; +import java.lang.management.MemoryPoolMXBean; +import java.lang.management.MemoryUsage; +import java.util.ArrayList; +import java.util.List; + /** - * This is an interface used to provoke GC and perform other GC-related + * This is an class used to provoke GC and perform other GC-related * procedures * */ -public interface GcProvoker { +public class GcProvoker{ + + // Uses fixed small objects to avoid Humongous objects allocation in G1 + public static final int MEMORY_CHUNK = 2048; + public static final float ALLOCATION_TOLERANCE = 0.05f; + + public static List allocatedMetaspace; + public static List allocatedMemory; + + private final Runtime runtime; + + private List allocateHeap(float targetUsage) { + long maxMemory = runtime.maxMemory(); + List list = new ArrayList<>(); + long used = 0; + long target = (long) (maxMemory * targetUsage); + while (used < target) { + try { + list.add(new byte[MEMORY_CHUNK]); + used += MEMORY_CHUNK; + } catch (OutOfMemoryError e) { + list = null; + throw new RuntimeException("Unexpected OOME '" + e.getMessage() + "' while eating " + targetUsage + " of heap memory."); + } + } + return list; + } + + private List allocateAvailableHeap(float targetUsage) { + // Calculates size of free memory after allocation with small tolerance. + long minFreeMemory = (long) ((1.0 - (targetUsage + ALLOCATION_TOLERANCE)) * runtime.maxMemory()); + List list = new ArrayList<>(); + do { + try { + list.add(new byte[MEMORY_CHUNK]); + } catch (OutOfMemoryError e) { + list = null; + throw new RuntimeException("Unexpected OOME '" + e.getMessage() + "' while eating " + targetUsage + " of heap memory."); + } + } while (runtime.freeMemory() > minFreeMemory); + return list; + } /** - * The default implementation - * - * @return the default GC provoker + * This method provokes a GC */ - public static GcProvoker createGcProvoker() { - return new GcProvokerImpl(); + public void provokeGc() { + for (int i = 0; i < 3; i++) { + long edenSize = Pools.getEdenCommittedSize(); + long heapSize = Pools.getHeapCommittedSize(); + float targetPercent = ((float) edenSize) / (heapSize); + if ((targetPercent < 0) || (targetPercent > 1.0)) { + throw new RuntimeException("Error in the percent calculation" + " (eden size: " + edenSize + ", heap size: " + heapSize + ", calculated eden percent: " + targetPercent + ")"); + } + allocateHeap(targetPercent); + allocateHeap(targetPercent); + System.gc(); + } } /** - * This method provokes a GC + * Allocates heap and metaspace upon exit not less than targetMemoryUsagePercent percents + * of heap and metaspace have been consumed. + * + * @param targetMemoryUsagePercent how many percent of heap and metaspace to + * allocate */ - public void provokeGc(); + public void allocateMetaspaceAndHeap(float targetMemoryUsagePercent) { + // Metaspace should be filled before Java Heap to prevent unexpected OOME + // in the Java Heap while filling Metaspace + allocatedMetaspace = eatMetaspace(targetMemoryUsagePercent); + allocatedMemory = allocateHeap(targetMemoryUsagePercent); + } + /** - * Eats heap and metaspace Upon exit targetMemoryUsagePercent percents of - * heap and metaspace is have been eaten + * Allocates heap and metaspace upon exit targetMemoryUsagePercent percents + * of heap and metaspace have been consumed. * * @param targetMemoryUsagePercent how many percent of heap and metaspace to - * eat + * allocate */ - public void eatMetaspaceAndHeap(float targetMemoryUsagePercent); + public void allocateAvailableMetaspaceAndHeap(float targetMemoryUsagePercent) { + // Metaspace should be filled before Java Heap to prevent unexpected OOME + // in the Java Heap while filling Metaspace + allocatedMetaspace = eatMetaspace(targetMemoryUsagePercent); + allocatedMemory = allocateAvailableHeap(targetMemoryUsagePercent); + } + + private List eatMetaspace(float targetUsage) { + List list = new ArrayList<>(); + final String metaspacePoolName = "Metaspace"; + MemoryPoolMXBean metaspacePool = null; + for (MemoryPoolMXBean pool : ManagementFactory.getMemoryPoolMXBeans()) { + if (pool.getName().contains(metaspacePoolName)) { + metaspacePool = pool; + break; + } + } + if (metaspacePool == null) { + throw new RuntimeException("MXBean for Metaspace pool wasn't found"); + } + float currentUsage; + GeneratedClassProducer gp = new GeneratedClassProducer(); + do { + try { + list.add(gp.create(0)); + } catch (OutOfMemoryError oome) { + list = null; + throw new RuntimeException("Unexpected OOME '" + oome.getMessage() + "' while eating " + targetUsage + " of Metaspace."); + } + MemoryUsage memoryUsage = metaspacePool.getUsage(); + currentUsage = (((float) memoryUsage.getUsed()) / memoryUsage.getMax()); + } while (currentUsage < targetUsage); + return list; + } + + public GcProvoker() { + runtime = Runtime.getRuntime(); + } }