/* * Copyright (C) 2005 The Guava Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.google.common.base; import static com.google.common.base.StandardSystemProperty.JAVA_CLASS_PATH; import static com.google.common.base.StandardSystemProperty.JAVA_SPECIFICATION_VERSION; import static com.google.common.base.StandardSystemProperty.PATH_SEPARATOR; import com.google.common.collect.ImmutableList; import com.google.common.testing.GcFinalization; import java.io.Closeable; import java.io.File; import java.lang.ref.WeakReference; import java.lang.reflect.Constructor; import java.lang.reflect.Field; import java.net.MalformedURLException; import java.net.URL; import java.net.URLClassLoader; import java.security.Permission; import java.security.Policy; import java.security.ProtectionDomain; import java.util.concurrent.Callable; import java.util.concurrent.Semaphore; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicReference; import junit.framework.TestCase; /** * Tests that the {@code ClassLoader} of {@link FinalizableReferenceQueue} can be unloaded. These * tests are separate from {@link FinalizableReferenceQueueTest} so that they can be excluded from * coverage runs, as the coverage system interferes with them. * * @author Eamonn McManus */ public class FinalizableReferenceQueueClassLoaderUnloadingTest extends TestCase { /* * The following tests check that the use of FinalizableReferenceQueue does not prevent the * ClassLoader that loaded that class from later being garbage-collected. If anything continues * to reference the FinalizableReferenceQueue class then its ClassLoader cannot be * garbage-collected, even if there are no more instances of FinalizableReferenceQueue itself. * The code in FinalizableReferenceQueue goes to considerable trouble to ensure that there are * no such references and the tests here check that that trouble has not been in vain. * * When we reference FinalizableReferenceQueue in this test, we are referencing a class that is * loaded by this test and that will obviously remain loaded for as long as the test is running. * So in order to check ClassLoader garbage collection we need to create a new ClassLoader and * make it load its own version of FinalizableReferenceQueue. Then we need to interact with that * parallel version through reflection in order to exercise the parallel * FinalizableReferenceQueue, and then check that the parallel ClassLoader can be * garbage-collected after that. */ public static class MyFinalizableWeakReference extends FinalizableWeakReference { public MyFinalizableWeakReference(Object x, FinalizableReferenceQueue queue) { super(x, queue); } @Override public void finalizeReferent() {} } private static class PermissivePolicy extends Policy { @Override public boolean implies(ProtectionDomain pd, Permission perm) { return true; } } private WeakReference useFrqInSeparateLoader() throws Exception { final ClassLoader myLoader = getClass().getClassLoader(); URLClassLoader sepLoader = new URLClassLoader(getClassPathUrls(), myLoader.getParent()); // sepLoader is the loader that we will use to load the parallel FinalizableReferenceQueue (FRQ) // and friends, and that we will eventually expect to see garbage-collected. The assumption // is that the ClassLoader of this test is a URLClassLoader, and that it loads FRQ itself // rather than delegating to a parent ClassLoader. If this assumption is violated the test will // fail and will need to be rewritten. Class frqC = FinalizableReferenceQueue.class; Class sepFrqC = sepLoader.loadClass(frqC.getName()); assertNotSame(frqC, sepFrqC); // Check the assumptions above. // FRQ tries to load the Finalizer class (for the reference-collecting thread) in a few ways. // If the class is accessible to the system ClassLoader (ClassLoader.getSystemClassLoader()) // then FRQ does not bother to load Finalizer.class through a separate ClassLoader. That happens // in our test environment, which foils the purpose of this test, so we disable the logic for // our test by setting a static field. We are changing the field in the parallel version of FRQ // and each test creates its own one of those, so there is no test interference here. Class sepFrqSystemLoaderC = sepLoader.loadClass(FinalizableReferenceQueue.SystemLoader.class.getName()); Field disabled = sepFrqSystemLoaderC.getDeclaredField("disabled"); disabled.setAccessible(true); disabled.set(null, true); // Now make a parallel FRQ and an associated FinalizableWeakReference to an object, in order to // exercise some classes from the parallel ClassLoader. AtomicReference sepFrqA = new AtomicReference(sepFrqC.getDeclaredConstructor().newInstance()); Class sepFwrC = sepLoader.loadClass(MyFinalizableWeakReference.class.getName()); Constructor sepFwrCons = sepFwrC.getConstructor(Object.class, sepFrqC); // The object that we will wrap in FinalizableWeakReference is a Stopwatch. Class sepStopwatchC = sepLoader.loadClass(Stopwatch.class.getName()); assertSame(sepLoader, sepStopwatchC.getClassLoader()); AtomicReference sepStopwatchA = new AtomicReference(sepStopwatchC.getMethod("createUnstarted").invoke(null)); AtomicReference> sepStopwatchRef = new AtomicReference>( (WeakReference) sepFwrCons.newInstance(sepStopwatchA.get(), sepFrqA.get())); assertNotNull(sepStopwatchA.get()); // Clear all references to the Stopwatch and wait for it to be gc'd. sepStopwatchA.set(null); GcFinalization.awaitClear(sepStopwatchRef.get()); // Return a weak reference to the parallel ClassLoader. This is the reference that should // eventually become clear if there are no other references to the ClassLoader. return new WeakReference(sepLoader); } private void doTestUnloadable() throws Exception { WeakReference loaderRef = useFrqInSeparateLoader(); GcFinalization.awaitClear(loaderRef); } /** * Tests that the use of a {@link FinalizableReferenceQueue} does not subsequently prevent the * loader of that class from being garbage-collected. */ public void testUnloadableWithoutSecurityManager() throws Exception { if (isJdk9OrHigher()) { return; } SecurityManager oldSecurityManager = System.getSecurityManager(); try { System.setSecurityManager(null); doTestUnloadable(); } finally { System.setSecurityManager(oldSecurityManager); } } /** * Tests that the use of a {@link FinalizableReferenceQueue} does not subsequently prevent the * loader of that class from being garbage-collected even if there is a {@link SecurityManager}. * The {@link SecurityManager} environment makes such leaks more likely because when you create a * {@link URLClassLoader} with a {@link SecurityManager}, the creating code's {@link * java.security.AccessControlContext} is captured, and that references the creating code's {@link * ClassLoader}. */ public void testUnloadableWithSecurityManager() throws Exception { if (isJdk9OrHigher()) { return; } Policy oldPolicy = Policy.getPolicy(); SecurityManager oldSecurityManager = System.getSecurityManager(); try { Policy.setPolicy(new PermissivePolicy()); System.setSecurityManager(new SecurityManager()); doTestUnloadable(); } finally { System.setSecurityManager(oldSecurityManager); Policy.setPolicy(oldPolicy); } } public static class FrqUser implements Callable> { public static FinalizableReferenceQueue frq = new FinalizableReferenceQueue(); public static final Semaphore finalized = new Semaphore(0); @Override public WeakReference call() { WeakReference wr = new FinalizableWeakReference(new Integer(23), frq) { @Override public void finalizeReferent() { finalized.release(); } }; return wr; } } public void testUnloadableInStaticFieldIfClosed() throws Exception { if (isJdk9OrHigher()) { return; } Policy oldPolicy = Policy.getPolicy(); SecurityManager oldSecurityManager = System.getSecurityManager(); try { Policy.setPolicy(new PermissivePolicy()); System.setSecurityManager(new SecurityManager()); WeakReference loaderRef = doTestUnloadableInStaticFieldIfClosed(); GcFinalization.awaitClear(loaderRef); } finally { System.setSecurityManager(oldSecurityManager); Policy.setPolicy(oldPolicy); } } // If you have a FinalizableReferenceQueue that is a static field of one of the classes of your // app (like the FrqUser class above), then the app's ClassLoader will never be gc'd. The reason // is that we attempt to run a thread in a separate ClassLoader that will detect when the FRQ // is no longer referenced, meaning that the app's ClassLoader has been gc'd, and when that // happens. But the thread's supposedly separate ClassLoader actually has a reference to the app's // ClasLoader via its AccessControlContext. It does not seem to be possible to make a // URLClassLoader without capturing this reference, and it probably would not be desirable for // security reasons anyway. Therefore, the FRQ.close() method provides a way to stop the thread // explicitly. This test checks that calling that method does allow an app's ClassLoader to be // gc'd even if there is a still a FinalizableReferenceQueue in a static field. (Setting the field // to null would also work, but only if there are no references to the FRQ anywhere else.) private WeakReference doTestUnloadableInStaticFieldIfClosed() throws Exception { final ClassLoader myLoader = getClass().getClassLoader(); URLClassLoader sepLoader = new URLClassLoader(getClassPathUrls(), myLoader.getParent()); Class frqC = FinalizableReferenceQueue.class; Class sepFrqC = sepLoader.loadClass(frqC.getName()); assertNotSame(frqC, sepFrqC); Class sepFrqSystemLoaderC = sepLoader.loadClass(FinalizableReferenceQueue.SystemLoader.class.getName()); Field disabled = sepFrqSystemLoaderC.getDeclaredField("disabled"); disabled.setAccessible(true); disabled.set(null, true); Class frqUserC = FrqUser.class; Class sepFrqUserC = sepLoader.loadClass(frqUserC.getName()); assertNotSame(frqUserC, sepFrqUserC); assertSame(sepLoader, sepFrqUserC.getClassLoader()); Callable sepFrqUser = (Callable) sepFrqUserC.getDeclaredConstructor().newInstance(); WeakReference finalizableWeakReference = (WeakReference) sepFrqUser.call(); GcFinalization.awaitClear(finalizableWeakReference); Field sepFrqUserFinalizedF = sepFrqUserC.getField("finalized"); Semaphore finalizeCount = (Semaphore) sepFrqUserFinalizedF.get(null); boolean finalized = finalizeCount.tryAcquire(5, TimeUnit.SECONDS); assertTrue(finalized); Field sepFrqUserFrqF = sepFrqUserC.getField("frq"); Closeable frq = (Closeable) sepFrqUserFrqF.get(null); frq.close(); return new WeakReference(sepLoader); } private URL[] getClassPathUrls() { ClassLoader classLoader = getClass().getClassLoader(); return classLoader instanceof URLClassLoader ? ((URLClassLoader) classLoader).getURLs() : parseJavaClassPath().toArray(new URL[0]); } /** * Returns the URLs in the class path specified by the {@code java.class.path} {@linkplain * System#getProperty system property}. */ // TODO(b/65488446): Make this a public API. private static ImmutableList parseJavaClassPath() { ImmutableList.Builder urls = ImmutableList.builder(); for (String entry : Splitter.on(PATH_SEPARATOR.value()).split(JAVA_CLASS_PATH.value())) { try { try { urls.add(new File(entry).toURI().toURL()); } catch (SecurityException e) { // File.toURI checks to see if the file is a directory urls.add(new URL("file", null, new File(entry).getAbsolutePath())); } } catch (MalformedURLException e) { throw new AssertionError("malformed class path entry: " + entry, e); } } return urls.build(); } /** * These tests fail in JDK 9 and JDK 10 for an unknown reason. It might be the test; it might be * the underlying functionality. Fixing this is not a high priority; if you need it to be fixed, * please comment on issue 3086. */ private static boolean isJdk9OrHigher() { return JAVA_SPECIFICATION_VERSION.value().startsWith("9") || JAVA_SPECIFICATION_VERSION.value().startsWith("10"); } }