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android / platform / art / 5af086c98d46d7833a064c5015c5503fc5dd29f3 / . / test / 004-NativeAllocations / src-art / Main.java
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/*
* Copyright (C) 2013 The Android Open Source Project
*
* 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.
*/
import java.lang.Runtime;
import java.lang.ref.ReferenceQueue;
import java.lang.ref.PhantomReference;
import dalvik.system.VMRuntime;
public class Main {
static Object deadlockLock = new Object();
static VMRuntime runtime = VMRuntime.getRuntime();
static volatile boolean aboutToDeadlock = false;
// Save ref as a static field to ensure it doesn't get GC'd before the
// referent is enqueued.
static PhantomReference ref = null;
static class DeadlockingFinalizer {
protected void finalize() throws Exception {
aboutToDeadlock = true;
synchronized (deadlockLock) { }
}
}
private static void allocateDeadlockingFinalizer() {
new DeadlockingFinalizer();
}
public static PhantomReference allocPhantom(ReferenceQueue<Object> queue) {
return new PhantomReference(new Object(), queue);
}
// Test that calling registerNativeAllocation triggers a GC eventually
// after a substantial number of registered native bytes.
private static void checkRegisterNativeAllocation() throws Exception {
long maxMem = Runtime.getRuntime().maxMemory();
int size = (int)(maxMem / 32);
int allocationCount = 256;
int maxExpectedGcDurationMs = 2000;
ReferenceQueue<Object> queue = new ReferenceQueue<Object>();
ref = allocPhantom(queue);
long total = 0;
for (int i = 0; !ref.isEnqueued() && i < allocationCount; ++i) {
runtime.registerNativeAllocation(size);
total += size;
// Sleep a little bit to ensure not all of the calls to
// registerNativeAllocation complete while GC is in the process of
// running.
Thread.sleep(maxExpectedGcDurationMs / allocationCount);
}
// Wait up to maxExpectedGcDurationMs to give GC a chance to finish
// running. If the reference isn't enqueued after that, then it is
// pretty unlikely (though technically still possible) that GC was
// triggered as intended.
if (queue.remove(maxExpectedGcDurationMs) == null) {
throw new RuntimeException("GC failed to complete");
}
while (total > 0) {
runtime.registerNativeFree(size);
total -= size;
}
}
// Call registerNativeAllocation repeatedly at a high rate to trigger the
// case of blocking registerNativeAllocation.
private static void triggerBlockingRegisterNativeAllocation() throws Exception {
long maxMem = Runtime.getRuntime().maxMemory();
int size = (int)(maxMem / 5);
int allocationCount = 10;
long total = 0;
for (int i = 0; i < allocationCount; ++i) {
runtime.registerNativeAllocation(size);
total += size;
}
while (total > 0) {
runtime.registerNativeFree(size);
total -= size;
}
}
public static void main(String[] args) throws Exception {
// Test that registerNativeAllocation triggers GC.
// Run this a few times in a loop to reduce the chances that the test
// is flaky and make sure registerNativeAllocation continues to work
// after the first GC is triggered.
for (int i = 0; i < 20; ++i) {
checkRegisterNativeAllocation();
}
// Test that we don't get a deadlock if we call
// registerNativeAllocation with a blocked finalizer.
synchronized (deadlockLock) {
allocateDeadlockingFinalizer();
while (!aboutToDeadlock) {
Runtime.getRuntime().gc();
}
// Do more allocations now that the finalizer thread is deadlocked so that we force
// finalization and timeout.
triggerBlockingRegisterNativeAllocation();
}
System.out.println("Test complete");
}
}