/* * Copyright (c) 2004, 2024, 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 * @key stress randomness * * @summary converted from VM Testbase gc/gctests/LargeObjects/large001. * VM Testbase keywords: [gc, stress, stressopt, nonconcurrent, quick] * VM Testbase readme: * DESCRIPTION * The test checks that Garbage Collector correctly does not throw any * unexpected exceptions/errors while allocating large objects (classes * that have more than 65535 fields and classes that have less than 65535 * fields). 65535 of fields is a limitation for JVM (see JVM specification * Second edition 4.10). * Since it is impossible to create one class with about 65535 of fields * (javac cannot compile it), a child class extends a parent class, so the * fields are devided into two subsets. However, the child class still has * about 65535 of fields. * The test starts a number of threads. This number is either set in *.cfg * file or is calculated by the test itself based on the machine (see * nsk.share.gc.Algorithms.getThreadsCount() method). As soon as all threads * are started, each thread begins its checking. * There are 13 classes to be loaded by each thread. These classes are * generated by nsk.share.gc.Generator (see its javadoc for more details). * Each class has a huge number of fields, but this number is less than the JVM * limitation. * The test loads the classes with nsk.share.gc.GCClassUnloader class that * extends nsk.share.ClassUnloader and has a bit different algorith of eating * heap. As soon as a class is loaded, the test creates an instance of * it - allocates an object of that type. Then it drops references to the * class and to the instance and tries to unload the class. The test does not * expect any exceptions to be thrown. * * @library /vmTestbase * /test/lib * * @comment generate and compile nsk.share.gc.newclass.* classes * @run driver nsk.share.gc.GenClassesBuilder * * @run main/othervm/timeout=300 * -XX:-UseGCOverheadLimit * -Xlog:gc* * gc.gctests.LargeObjects.large001.large001 * -largeClassesPath classes * -isOverLimitFields false * -aggregationDepth 0 * -t 1 */ package gc.gctests.LargeObjects.large001; import java.lang.reflect.*; import java.lang.ref.WeakReference; import java.util.*; import nsk.share.TestFailure; import nsk.share.gc.*; import nsk.share.*; public class large001 extends ThreadedGCTest { // Package of the classes to be loaded final static String PREFIX = "nsk.share.gc.newclass."; // A bunch of classes that have number of fields more than JVM limitation final static String[] LCLASSES = {PREFIX + "private_int_lchild", PREFIX + "protected_short_lchild", PREFIX + "public_long_lchild", PREFIX + "public_Object_lchild", PREFIX + "static_byte_lchild", PREFIX + "static_float_lchild", PREFIX + "transient_boolean_lchild", PREFIX + "volatile_double_lchild", PREFIX + "protected_combination_lchild", PREFIX + "public_combination_lchild", PREFIX + "static_combination_lchild", PREFIX + "transient_combination_lchild", PREFIX + "volatile_combination_lchild" }; // A bunch of classes that have number of fields less than JVM limitation final static String[] SCLASSES = {PREFIX + "private_int_schild", PREFIX + "protected_short_schild", PREFIX + "public_long_schild", PREFIX + "public_Object_schild", PREFIX + "static_byte_schild", PREFIX + "static_float_schild", PREFIX + "transient_boolean_schild", PREFIX + "volatile_double_schild", PREFIX + "protected_combination_schild", PREFIX + "public_combination_schild", PREFIX + "static_combination_schild", PREFIX + "transient_combination_schild", PREFIX + "volatile_combination_schild" }; boolean isOverLimitFields = true; int aggregationDepth = 0; String largeClassesPath; private class Worker implements Runnable { int id; public Worker(int id) { this.id = id; } public void run() { try { // Use special ClassUnloader to load/unload classes ClassUnloader unloader = new ClassUnloader(); String[] classes = isOverLimitFields ? LCLASSES : SCLASSES; for (String name : classes) { // Load the class log.debug(id + ": Loading class: " + name); unloader.loadClass(name, largeClassesPath); log.debug(id + ": Class loaded: " + name); Class loadedClass = unloader.getLoadedClass(); Object loadedClassInstance = loadedClass.newInstance(); log.debug(id + ": Instance of the class: " + loadedClassInstance); int depth = aggregationDepth; List refs = new ArrayList(depth); addObjRef(loadedClassInstance, loadedClass, depth, refs); // Drop all references to the class and try to unload it Algorithms.eatMemory(getExecutionController()); log.debug(id + ": Testing non-null after GC force for: " + name); if (loadedClass == null || loadedClassInstance == null) { throw new Exception("Null class"); } verifyObjRef(loadedClassInstance, depth); for (WeakReference ref : refs) { if (ref.get() == null) { throw new Exception("Unexpected null reference"); } } refs = null; loadedClass = null; loadedClassInstance = null; log.debug(id + ": Unloading class: " + name); boolean result = unloader.unloadClass(getExecutionController()); log.debug(id + ": Result of uloading " + "class " + name + ": " + result); } } catch (OutOfMemoryError oome) { // just skip if we eat memory in several threads... // rethrow in the case of one thread if (runParams.getNumberOfThreads() == 1) { throw oome; } } catch (Throwable t) { throw new TestFailure("Unexpected exception: ", t); } } // This method recursively create chain of aggregated objects for given object public void addObjRef(Object object, Class clazz, int count, List list) throws Throwable { if (count == 0) { return; } Field[] fields = object.getClass().getFields(); for (Field field : fields) { if (field.getName().startsWith("obj")) { Object addedObject = clazz.newInstance(); field.set(object, addedObject); System.out.println("Added field " + field.getName() + " .... " + count); addObjRef(addedObject, clazz, count - 1, list); list.add(new WeakReference(addedObject)); } } } // This method recursively verfiy chain of aggregated objects for given object. // Throws null pointer exception of objP/C field is null public void verifyObjRef(Object object, int count) throws Throwable { if (count == 0) { return; } Field[] fields = object.getClass().getFields(); for (Field field : fields) { if (field.getName().startsWith("obj")) { Object obj = field.get(object); verifyObjRef(obj, count - 1); } } } } public large001(String[] args) { for (int i = 0; i < args.length; i++) { if (args[i].equals("-largeClassesPath")) { largeClassesPath = args[++i]; } else if (args[i].equals("-isOverLimitFields")) { isOverLimitFields = Boolean.getBoolean(args[++i]); } else if (args[i].equals("-aggregationDepth")) { aggregationDepth = Integer.parseInt(args[++i]); } } if (largeClassesPath == null || largeClassesPath.length() == 0) { throw new TestFailure("No classpath for large classes is given"); } } @Override protected Runnable createRunnable(int i) { return new Worker(i); } @Override public void run() { if (isOverLimitFields) { log.debug("Loading classes that have number " + "of fields over limitation (more " + "than 65535)"); } else { log.debug("Loading classes that have number " + "of fields under limitation (less " + "than 65535)"); } super.run(); } public static void main(String args[]) { GC.runTest(new large001(args), args); } }