/* * 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 * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ /* * @test TestNewSizeFlags * @key gc * @bug 8025166 * @summary Verify that young gen size conforms values specified by NewSize, MaxNewSize and Xmn options * @requires vm.gc != "Z" & vm.gc != "Shenandoah" * @library /test/lib * @modules java.base/jdk.internal.misc * java.management * @build sun.hotspot.WhiteBox * @run driver ClassFileInstaller sun.hotspot.WhiteBox * @run driver/timeout=240 TestNewSizeFlags */ import java.io.IOException; import java.lang.management.MemoryUsage; import java.util.Arrays; import java.util.Collections; import java.util.LinkedList; import jdk.test.lib.process.OutputAnalyzer; import jdk.test.lib.process.ProcessTools; import jdk.test.lib.Utils; import sun.hotspot.WhiteBox; public class TestNewSizeFlags { public static final long M = 1024 * 1024; public static void main(String args[]) throws Exception { LinkedList options = new LinkedList<>( Arrays.asList(Utils.getFilteredTestJavaOpts("(-Xm[nsx][^ ]+)|" + "(-XX:(Max)?((New)|" + "(Heap))((Size)|" + "(Ratio))=[^ ]+)")) ); // Test NewSize and MaxNewSize testNewSizeFlags(20 * M, 10 * M, 30 * M, 40 * M, options, false); testNewSizeFlags(10 * M, 20 * M, 30 * M, 80 * M, options, false); testNewSizeFlags(-1, 20 * M, 30 * M, 40 * M, options, false); testNewSizeFlags(10 * M, -1, 30 * M, 40 * M, options, false); testNewSizeFlags(20 * M, 20 * M, 30 * M, 40 * M, options, false); testNewSizeFlags(20 * M, 30 * M, 40 * M, 50 * M, options, false); testNewSizeFlags(30 * M, 100 * M, 150 * M, 200 * M, options, false); testNewSizeFlags(20 * M, 30 * M, 128 * M, 128 * M, options, false); // Test -Xmn testXmnFlags(0, 30 * M, 40 * M, options, true); testXmnFlags(20 * M, 30 * M, 40 * M, options, false); testXmnFlags(50 * M, 70 * M, 100 * M, options, false); } /** * Verify that NewSize and MaxNewSize flags affect young gen size. * * @param newSize value of NewSize option, omitted if negative * @param maxNewSize value of MaxNewSize option, omitted if negative * @param heapSize value of HeapSize option * @param maxHeapSize value of MaxHeapSize option * @param options additional options for JVM * @param failureExpected true if JVM should fail with passed heap size options */ public static void testNewSizeFlags(long newSize, long maxNewSize, long heapSize, long maxHeapSize, LinkedList options, boolean failureExpected) throws Exception { long expectedNewSize = newSize; long expectedMaxNewSize = (maxNewSize >= 0 ? Math.max(maxNewSize, newSize) : maxNewSize); testVMOptions(newSize, maxNewSize, heapSize, maxHeapSize, expectedNewSize, expectedMaxNewSize, options, failureExpected); } /** * Verify that -Xmn flag affect young gen size. * * @param mnValue value of -Xmn option * @param heapSize value of HeapSize option * @param maxHeapSize value of MaxHeapSize option * @param options additional options for JVM * @param failureExpected true if JVM should fail with passed heap size options */ public static void testXmnFlags(long mnValue, long heapSize, long maxHeapSize, LinkedList options, boolean failureExpected) throws Exception { LinkedList newOptions = new LinkedList<>(options); newOptions.add("-Xmn" + mnValue); testVMOptions(-1, -1, heapSize, maxHeapSize, mnValue, mnValue, newOptions, failureExpected); } /** * Verify that NewSize and MaxNewSize flags affect young gen size. * * @param newSize value of NewSize option, omitted if negative * @param maxNewSize value of MaxNewSize option, omitted if negative * @param heapSize value of HeapSize option * @param maxHeapSize value of MaxHeapSize option * @param expectedNewSize expected initial young gen size * @param expectedMaxNewSize expected max young gen size * @param options additional options for JVM * @param failureExpected true if JVM should fail with passed heap size options */ public static void testVMOptions(long newSize, long maxNewSize, long heapSize, long maxHeapSize, long expectedNewSize, long expectedMaxNewSize, LinkedList options, boolean failureExpected) throws Exception { OutputAnalyzer analyzer = startVM(options, newSize, maxNewSize, heapSize, maxHeapSize, expectedNewSize, expectedMaxNewSize); if (failureExpected) { analyzer.shouldHaveExitValue(1); analyzer.shouldMatch("(Error occurred during initialization of VM)|" + "(Error: Could not create the Java Virtual Machine.)"); } else { analyzer.shouldHaveExitValue(0); } } private static OutputAnalyzer startVM(LinkedList options, long newSize, long maxNewSize, long heapSize, long maxHeapSize, long expectedNewSize, long expectedMaxNewSize) throws Exception, IOException { LinkedList vmOptions = new LinkedList<>(options); Collections.addAll(vmOptions, "-Xbootclasspath/a:.", "-XX:+UnlockDiagnosticVMOptions", "-XX:+WhiteBoxAPI", (newSize >= 0 ? "-XX:NewSize=" + newSize : ""), (maxNewSize >= 0 ? "-XX:MaxNewSize=" + maxNewSize : ""), "-Xmx" + maxHeapSize, "-Xms" + heapSize, "-XX:GCLockerEdenExpansionPercent=0", "-XX:-UseLargePages", NewSizeVerifier.class.getName(), Long.toString(expectedNewSize), Long.toString(expectedMaxNewSize), Long.toString(heapSize), Long.toString(maxHeapSize) ); vmOptions.removeIf(String::isEmpty); ProcessBuilder procBuilder = ProcessTools.createJavaProcessBuilder(vmOptions.toArray(new String[vmOptions.size()])); OutputAnalyzer analyzer = new OutputAnalyzer(procBuilder.start()); return analyzer; } /** * NewSizeVerifier checks that initial young gen size is equal to expected * regardful to alignment and that young gen size will not be greater than * expected max size. * In order to verify that young gen size will not be greater then expected * max size, NewSizeVerifier do some object allocation to force garbage * collection and heap expansion. */ public static class NewSizeVerifier { private static final WhiteBox WB = WhiteBox.getWhiteBox(); private static final GCTypes.YoungGCType YOUNG_GC_TYPE = GCTypes.YoungGCType.getYoungGCType(); private static final long HEAP_SPACE_ALIGNMENT = WB.getHeapSpaceAlignment(); private static final long HEAP_ALIGNMENT = WB.getHeapAlignment(); private static final long PS_VIRTUAL_SPACE_ALIGNMENT = (YOUNG_GC_TYPE == GCTypes.YoungGCType.PSNew) ? WB.psVirtualSpaceAlignment() : 0; public static final int ARRAY_LENGTH = 100; public static final int CHUNK_SIZE = 1024; public static final int MAX_ITERATIONS = 10; public static byte garbage[][] = new byte[ARRAY_LENGTH][]; public static void main(String args[]) throws Exception { if (args.length != 4) { throw new IllegalArgumentException("Expected 4 args: "); } final long newSize = Long.valueOf(args[0]); final long maxNewSize = Long.valueOf(args[1]); final long initialHeapSize = Long.valueOf(args[2]); final long maxHeapSize = Long.valueOf(args[3]); // verify initial size verifyNewSize(newSize, maxNewSize, initialHeapSize, maxHeapSize); // force GC and verify that size is still correct AllocationHelper allocator = new AllocationHelper(MAX_ITERATIONS, ARRAY_LENGTH, CHUNK_SIZE, () -> (verifyNewSize(newSize, maxNewSize, initialHeapSize, maxHeapSize))); allocator.allocateMemoryAndVerifyNoOOME(); } /** * Verify that actual young gen size conforms NewSize and MaxNewSize values. */ public static Void verifyNewSize(long newSize, long maxNewSize, long initialHeapSize, long maxHeapSize) { long alignedNewSize = alignGenSize(newSize); long alignedMaxNewSize = alignGenSize(maxNewSize); long alignedXms = alignHeapSize(initialHeapSize); long alignedXmx = alignHeapSize(maxHeapSize); MemoryUsage youngGenUsage = getYoungGenUsage(); long initSize = youngGenUsage.getInit(); long commitedSize = youngGenUsage.getCommitted(); long maxSize = youngGenUsage.getMax(); if (newSize != -1) { if (initSize < alignedNewSize) { throw new RuntimeException("initial new size < NewSize value: " + initSize + " < " + alignedNewSize); } if (commitedSize < alignedNewSize) { throw new RuntimeException("actual new size < NewSize value: " + commitedSize + " < " + alignedNewSize); } // for G1 max new size == committed new size if (YOUNG_GC_TYPE != GCTypes.YoungGCType.G1 && maxSize < alignedNewSize) { throw new RuntimeException("max new size < NewSize value: " + maxSize + " < " + alignedNewSize); } } if (maxNewSize != -1) { if (initSize > alignedMaxNewSize) { throw new RuntimeException("initial new size > MaxNewSize value: " + initSize + " > " + alignedMaxNewSize); } if (commitedSize > alignedMaxNewSize) { throw new RuntimeException("actual new size > MaxNewSize value: " + commitedSize + " > " + alignedMaxNewSize); } if (alignedXms != alignedXmx) { if (YOUNG_GC_TYPE != GCTypes.YoungGCType.G1 && maxSize != alignedMaxNewSize) { throw new RuntimeException("max new size != MaxNewSize value: " + maxSize + " != " + alignedMaxNewSize); } } else { if (YOUNG_GC_TYPE != GCTypes.YoungGCType.G1 && maxSize != alignedNewSize) { throw new RuntimeException("max new size != NewSize for case InitialHeapSize == MaxHeapSize value: " + maxSize + " != " + alignedNewSize + " HeapSize == " + alignedXms); } } } return null; } /** * Get young gen memory usage. * * For G1 it is EdenUsage + SurvivorUsage, * for other GCs it is EdenUsage + 2 * SurvivorUsage. * For G1 max value is just LONG_MAX. * For all GCs used value is 0. */ private static MemoryUsage getYoungGenUsage() { MemoryUsage edenUsage = HeapRegionUsageTool.getEdenUsage(); MemoryUsage survivorUsage = HeapRegionUsageTool.getSurvivorUsage(); long edenUsageInit = edenUsage.getInit(); long edenUsageCommited = edenUsage.getCommitted(); long survivorUsageInit = survivorUsage.getInit(); long survivorUsageCommited = survivorUsage.getCommitted(); if (YOUNG_GC_TYPE == GCTypes.YoungGCType.G1) { return new MemoryUsage(edenUsageInit + survivorUsageInit, 0, edenUsageCommited + survivorUsageCommited, Long.MAX_VALUE); } else { return new MemoryUsage(edenUsageInit + survivorUsageInit * 2, 0, edenUsageCommited + survivorUsageCommited * 2, edenUsage.getMax() + survivorUsage.getMax() * 2); } } /** * Align generation size regardful to used young GC. */ public static long alignGenSize(long value) { switch (YOUNG_GC_TYPE) { case DefNew: case ParNew: return HeapRegionUsageTool.alignDown(value, HEAP_SPACE_ALIGNMENT); case PSNew: return HeapRegionUsageTool.alignUp(HeapRegionUsageTool.alignDown(value, HEAP_SPACE_ALIGNMENT), PS_VIRTUAL_SPACE_ALIGNMENT); case G1: return HeapRegionUsageTool.alignUp(value, WB.g1RegionSize()); default: throw new RuntimeException("Unexpected young GC type"); } } /** * Align heap size. */ public static long alignHeapSize(long value){ return HeapRegionUsageTool.alignUp(value,HEAP_ALIGNMENT); } } }