/* * Copyright (c) 2015, 2017, 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. */ import static java.lang.StackWalker.Option.*; import java.lang.StackWalker.StackFrame; import java.util.Arrays; import java.util.EnumSet; import java.util.HashSet; import java.util.List; import java.util.Random; import java.util.Set; import java.util.TreeSet; import jdk.test.lib.RandomFactory; /** * @test * @bug 8140450 * @summary Stack Walk Test (use -Dseed=X to set PRNG seed) * @library /test/lib * @build jdk.test.lib.RandomFactory * @compile StackRecorderUtil.java * @run main/othervm StackWalkTest * @run main/othervm/java.security.policy=stackwalktest.policy StackWalkTest * @run main/othervm StackWalkTest -random:50 * @run main/othervm/java.security.policy=stackwalktest.policy StackWalkTest -random:50 * @author danielfuchs, bchristi * @key randomness */ public class StackWalkTest { private static boolean random = false; private static boolean verbose = false; private static int randomRuns = 50; private static final int MAX_RANDOM_DEPTH = 1000; static final Set infrastructureClasses = new TreeSet<>(Arrays.asList( "jdk.internal.reflect.NativeMethodAccessorImpl", "jdk.internal.reflect.DelegatingMethodAccessorImpl", "java.lang.reflect.Method", "com.sun.javatest.regtest.MainWrapper$MainThread", "com.sun.javatest.regtest.agent.MainWrapper$MainThread", "java.lang.Thread" )); static final List> streamPipelines = Arrays.asList( classForName("java.util.stream.AbstractPipeline"), classForName("java.util.stream.TerminalOp") ); static Class classForName(String name) { try { return Class.forName(name); } catch (ClassNotFoundException e){ throw new RuntimeException(e); } } private static boolean isStreamPipeline(Class clazz) { for (Class c : streamPipelines) { if (c.isAssignableFrom(clazz)) { return true; } } return false; } StackRecorderUtil recorder; int count = 0; boolean didWalk = false; final int estDepth; final Set swOptions; public StackWalkTest() { this(EnumSet.noneOf(StackWalker.Option.class), -1); } public StackWalkTest(Set swOptions) { this(swOptions, -1); } public StackWalkTest(int estimatedDepth) { this(EnumSet.noneOf(StackWalker.Option.class), -1); } public StackWalkTest(Set swOptions, int estimatedDepth) { this.swOptions = swOptions; this.estDepth = estimatedDepth; } private StackWalker createStackWalker() { // test all StackWalker factory methods if (this.estDepth < 0) { if (swOptions.isEmpty()) { return StackWalker.getInstance(); } else { return StackWalker.getInstance(swOptions); } } return StackWalker.getInstance(swOptions, estDepth); } public void consume(StackFrame sf) { if (count == 0 && swOptions.contains(StackWalker.Option.RETAIN_CLASS_REFERENCE) && isStreamPipeline(sf.getDeclaringClass())) { return; } if (verbose) { System.out.println("\t" + sf.getClassName() + "." + sf.getMethodName()); } if (count >= recorder.frameCount()) { // We've gone past main()... if (infrastructureClasses.contains(sf.getClassName())) { // safe to ignore return; } } try { recorder.compareFrame(count, sf); } catch (IndexOutOfBoundsException e) { // Extra non-infra frame in stream throw new RuntimeException("extra non-infra stack frame at count " + count + ": <" + sf + ">", e); } count++; } public class Call { public void walk(int total, int markAt) { recorder.add(Call.class, "walk", "StackWalkTest.java"); long swFrameCount = createStackWalker().walk(s -> s.count()); if (verbose) { System.out.println("Call.walk() total=" + total + ", markAt=" + markAt); System.out.println("recorder frames:"); for (StackRecorderUtil.TestFrame f : recorder) { System.out.println("\t" + f.declaringClass + "." + f.methodName); } System.out.println("\nStackWalker recorded " + swFrameCount + " frames"); System.out.flush(); } long recFrameCount = (long)recorder.frameCount(); if (swFrameCount < recFrameCount) { throw new RuntimeException("StackWalker recorded fewer frames ("+ swFrameCount + ") than recorded ("+ recorder.frameCount() + ") - " + "estimatedDepth set to " + estDepth); } if (verbose) { System.out.println("StackWalker frames:"); } createStackWalker().forEach(StackWalkTest.this::consume); didWalk = true; } public void call(int total, int current, int markAt) { recorder.add(Call.class, "call", "StackWalkTest.java"); if (current < total) { testCall.call(total, current+1, markAt); } else { walk(total, markAt); } } } public class Marker extends Call { @Override public void call(int total, int current, int markAt) { recorder.add(Marker.class, "call", "StackWalkTest.java"); if (current < total) { testCall.call(total, current+1, markAt); } else { walk(total, markAt); } } } private Call markerCall = new Marker(); public class Test extends Call { @Override public void call(int total, int current, int markAt) { recorder.add(Test.class, "call", "StackWalkTest.java"); if (current < total) { int nexti = current + 1; if (nexti==markAt) { markerCall.call(total, nexti, markAt); } else { testCall.call2(total, nexti, markAt); } } else { walk(total, markAt); } } public void call2(int total, int current, int markAt) { recorder.add(Test.class, "call2", "StackWalkTest.java"); if (current < total) { int nexti = current + 1; if (nexti==markAt) { markerCall.call(total, nexti, markAt); } else { test2Call.call(total, nexti, markAt); } } else { walk(total, markAt); } } } private Test testCall = new Test(); /** Inherits call() from Call */ public class Test2 extends Call {} private Test2 test2Call = new Test2(); public void runTest(Class callerClass, String callerMethod, int stackDepth, int markAt) { if (didWalk) { throw new IllegalStateException("StackWalkTest already used"); } // Test may run into StackOverflow when running in -Xcomp mode on deep stack assert stackDepth <= 1000; assert markAt <= stackDepth : "markAt(" + markAt + ") > stackDepth(" + stackDepth + ")"; System.out.print("runTest(" + swOptions + "), estimatedDepth=" + estDepth); recorder = new StackRecorderUtil(swOptions); recorder.add(callerClass, callerMethod, "StackWalkTest.java"); recorder.add(StackWalkTest.class, "runTest", "StackWalkTest.java"); Test test1 = new Test(); test1.call(stackDepth, 0, markAt); System.out.println(" finished"); if (!didWalk) { throw new IllegalStateException("Test wasn't actually performed"); } } public static void main(String[] args) { String rand = "-random"; String randItems = "-random:"; for(String arg : args) { if (arg.startsWith(rand)) { random = true; try { if(arg.startsWith(randItems)) { randomRuns = Integer.valueOf(arg.substring(randItems.length())); } } catch(NumberFormatException e) {} } else if("-verbose".equals(arg)) { verbose = true; } } if (random) { Random rng = RandomFactory.getRandom(); for (int iters = 0; iters < randomRuns; iters++) { Set opts = new HashSet<>(); if (rng.nextBoolean()) { opts.add(RETAIN_CLASS_REFERENCE); } int depth = 1 + rng.nextInt(MAX_RANDOM_DEPTH); StackWalkTest swt; if (rng.nextBoolean() && depth > 1) { // Test that specifying an estimatedDepth doesn't prevent // full stack traversal swt = new StackWalkTest(opts, 1+rng.nextInt(depth-1)); } else { swt = new StackWalkTest(opts); } int markAt = rng.nextInt(depth+1); System.out.print(depth + "@" + markAt + " "); System.out.flush(); swt.runTest(StackWalkTest.class, "main", depth, markAt); } } else { // Long stack, default maxDepth StackWalkTest swt; swt = new StackWalkTest(); swt.runTest(StackWalkTest.class, "main", 1000, 10); // Long stack, matching maxDepth swt = new StackWalkTest(2000); swt.runTest(StackWalkTest.class, "main", 1000, 10); // Long stack, maximum maxDepth swt = new StackWalkTest(Integer.MAX_VALUE); swt.runTest(StackWalkTest.class, "main", 1000, 10); // // Single batch // swt = new StackWalkTest(); // default maxDepth swt.runTest(StackWalkTest.class, "main", 6, 3); swt = new StackWalkTest(4); // maxDepth < stack swt.runTest(StackWalkTest.class, "main", 6, 3); swt = new StackWalkTest(2); // maxDepth < marker swt.runTest(StackWalkTest.class, "main", 6, 4); // // 2 batches // swt = new StackWalkTest(); // default maxDepth swt.runTest(StackWalkTest.class, "main", 24, 10); swt = new StackWalkTest(18); // maxDepth < stack swt.runTest(StackWalkTest.class, "main", 24, 10); swt = new StackWalkTest(8); // maxDepth < marker swt.runTest(StackWalkTest.class, "main", 24, 10); // // 3 batch // swt = new StackWalkTest(); // default maxDepth swt.runTest(StackWalkTest.class, "main", 60, 20); swt = new StackWalkTest(35); // maxDepth < stack swt.runTest(StackWalkTest.class, "main", 60, 20); swt = new StackWalkTest(8); // maxDepth < marker swt.runTest(StackWalkTest.class, "main", 60, 20); // // StackWalker.Options // swt = new StackWalkTest(); swt.runTest(StackWalkTest.class, "main", 50, 10); swt = new StackWalkTest(EnumSet.of(RETAIN_CLASS_REFERENCE)); swt.runTest(StackWalkTest.class, "main", 80, 40); swt = new StackWalkTest(EnumSet.of(RETAIN_CLASS_REFERENCE), 50); swt.runTest(StackWalkTest.class, "main", 1000, 524); } } }