/* * Copyright (c) 2019, 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 id=default * @summary Test virtual threads using park/unpark * @modules java.base/java.lang:+open jdk.management * @library /test/lib * @build LockingMode * @run junit Parking */ /* * @test id=Xint * @modules java.base/java.lang:+open jdk.management * @library /test/lib * @build LockingMode * @run junit/othervm -Xint Parking */ /* * @test id=Xcomp * @modules java.base/java.lang:+open jdk.management * @library /test/lib * @build LockingMode * @run junit/othervm -Xcomp Parking */ /* * @test id=Xcomp-noTieredCompilation * @modules java.base/java.lang:+open jdk.management * @library /test/lib * @build LockingMode * @run junit/othervm -Xcomp -XX:-TieredCompilation Parking */ import java.time.Duration; import java.util.concurrent.Executors; import java.util.concurrent.ExecutorService; import java.util.concurrent.CountDownLatch; import java.util.concurrent.ThreadFactory; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicBoolean; import java.util.concurrent.locks.LockSupport; import jdk.test.lib.thread.VThreadRunner; import jdk.test.lib.thread.VThreadScheduler; import org.junit.jupiter.api.Test; import org.junit.jupiter.api.condition.DisabledIf; import org.junit.jupiter.params.ParameterizedTest; import org.junit.jupiter.params.provider.ValueSource; import static org.junit.jupiter.api.Assertions.*; import static org.junit.jupiter.api.Assumptions.*; class Parking { static final int MAX_VTHREAD_COUNT = 4 * Runtime.getRuntime().availableProcessors(); static final Object lock = new Object(); /** * Park, unparked by platform thread. */ @Test void testPark1() throws Exception { var thread = Thread.ofVirtual().start(LockSupport::park); Thread.sleep(1000); // give time for virtual thread to park LockSupport.unpark(thread); thread.join(); } /** * Park, unparked by virtual thread. */ @Test void testPark2() throws Exception { var thread1 = Thread.ofVirtual().start(LockSupport::park); Thread.sleep(1000); // give time for virtual thread to park var thread2 = Thread.ofVirtual().start(() -> LockSupport.unpark(thread1)); thread1.join(); thread2.join(); } /** * Park while holding monitor, unparked by platform thread. */ @Test void testPark3() throws Exception { var thread = Thread.ofVirtual().start(() -> { synchronized (lock) { LockSupport.park(); } }); Thread.sleep(1000); // give time for virtual thread to park LockSupport.unpark(thread); thread.join(); } /** * Park with native frame on stack. */ @Test void testPark4() throws Exception { // not implemented } /** * Unpark before park. */ @Test void testPark5() throws Exception { var thread = Thread.ofVirtual().start(() -> { LockSupport.unpark(Thread.currentThread()); LockSupport.park(); }); thread.join(); } /** * 2 x unpark before park. */ @Test void testPark6() throws Exception { var thread = Thread.ofVirtual().start(() -> { Thread me = Thread.currentThread(); LockSupport.unpark(me); LockSupport.unpark(me); LockSupport.park(); LockSupport.park(); // should park }); Thread.sleep(1000); // give time for thread to park LockSupport.unpark(thread); thread.join(); } /** * 2 x park and unpark by platform thread. */ @Test void testPark7() throws Exception { var thread = Thread.ofVirtual().start(() -> { LockSupport.park(); LockSupport.park(); }); Thread.sleep(1000); // give time for thread to park // unpark, virtual thread should park again LockSupport.unpark(thread); Thread.sleep(1000); assertTrue(thread.isAlive()); // let it terminate LockSupport.unpark(thread); thread.join(); } /** * Park with interrupt status set. */ @Test void testPark8() throws Exception { VThreadRunner.run(() -> { Thread t = Thread.currentThread(); t.interrupt(); LockSupport.park(); assertTrue(t.isInterrupted()); }); } /** * Thread interrupt when parked. */ @Test void testPark9() throws Exception { VThreadRunner.run(() -> { Thread t = Thread.currentThread(); scheduleInterrupt(t, 1000); while (!Thread.currentThread().isInterrupted()) { LockSupport.park(); } }); } /** * Park while holding monitor and with interrupt status set. */ @Test void testPark10() throws Exception { VThreadRunner.run(() -> { Thread t = Thread.currentThread(); t.interrupt(); synchronized (lock) { LockSupport.park(); } assertTrue(t.isInterrupted()); }); } /** * Thread interrupt when parked while holding monitor */ @Test void testPark11() throws Exception { VThreadRunner.run(() -> { Thread t = Thread.currentThread(); scheduleInterrupt(t, 1000); while (!Thread.currentThread().isInterrupted()) { synchronized (lock) { LockSupport.park(); } } }); } /** * parkNanos(-1) completes immediately */ @Test void testParkNanos1() throws Exception { VThreadRunner.run(() -> LockSupport.parkNanos(-1)); } /** * parkNanos(0) completes immediately */ @Test void testParkNanos2() throws Exception { VThreadRunner.run(() -> LockSupport.parkNanos(0)); } /** * parkNanos(1000ms) parks thread. */ @Test void testParkNanos3() throws Exception { VThreadRunner.run(() -> { // park for 1000ms long nanos = TimeUnit.NANOSECONDS.convert(1000, TimeUnit.MILLISECONDS); long start = System.nanoTime(); LockSupport.parkNanos(nanos); // check that virtual thread parked for >= 900ms long elapsed = TimeUnit.MILLISECONDS.convert(System.nanoTime() - start, TimeUnit.NANOSECONDS); assertTrue(elapsed >= 900); }); } /** * Park with parkNanos, unparked by platform thread. */ @Test void testParkNanos4() throws Exception { var thread = Thread.ofVirtual().start(() -> { long nanos = TimeUnit.NANOSECONDS.convert(1, TimeUnit.DAYS); LockSupport.parkNanos(nanos); }); Thread.sleep(100); // give time for virtual thread to park LockSupport.unpark(thread); thread.join(); } /** * Park with parkNanos, unparked by virtual thread. */ @Test void testParkNanos5() throws Exception { var thread1 = Thread.ofVirtual().start(() -> { long nanos = TimeUnit.NANOSECONDS.convert(1, TimeUnit.DAYS); LockSupport.parkNanos(nanos); }); Thread.sleep(100); // give time for virtual thread to park var thread2 = Thread.ofVirtual().start(() -> LockSupport.unpark(thread1)); thread1.join(); thread2.join(); } /** * Unpark before parkNanos. */ @Test void testParkNanos6() throws Exception { VThreadRunner.run(() -> { LockSupport.unpark(Thread.currentThread()); long nanos = TimeUnit.NANOSECONDS.convert(1, TimeUnit.DAYS); LockSupport.parkNanos(nanos); }); } /** * Unpark before parkNanos(0), should consume parking permit. */ @Test void testParkNanos7() throws Exception { var thread = Thread.ofVirtual().start(() -> { LockSupport.unpark(Thread.currentThread()); LockSupport.parkNanos(0); // should consume parking permit LockSupport.park(); // should block }); boolean isAlive = thread.join(Duration.ofSeconds(2)); assertTrue(isAlive); LockSupport.unpark(thread); thread.join(); } /** * Park with parkNanos and interrupt status set. */ @Test void testParkNanos8() throws Exception { VThreadRunner.run(() -> { Thread t = Thread.currentThread(); t.interrupt(); LockSupport.parkNanos(Duration.ofDays(1).toNanos()); assertTrue(t.isInterrupted()); }); } /** * Thread interrupt when parked in parkNanos. */ @Test void testParkNanos9() throws Exception { VThreadRunner.run(() -> { Thread t = Thread.currentThread(); scheduleInterrupt(t, 1000); while (!Thread.currentThread().isInterrupted()) { LockSupport.parkNanos(Duration.ofDays(1).toNanos()); } }); } /** * Park with parkNanos while holding monitor and with interrupt status set. */ @Test void testParkNanos10() throws Exception { VThreadRunner.run(() -> { Thread t = Thread.currentThread(); t.interrupt(); synchronized (lock) { LockSupport.parkNanos(Duration.ofDays(1).toNanos()); } assertTrue(t.isInterrupted()); }); } /** * Thread interrupt when parked in parkNanos and while holding monitor. */ @Test void testParkNanos11() throws Exception { VThreadRunner.run(() -> { Thread t = Thread.currentThread(); scheduleInterrupt(t, 1000); while (!Thread.currentThread().isInterrupted()) { synchronized (lock) { LockSupport.parkNanos(Duration.ofDays(1).toNanos()); } } }); } /** * Test that parking while holding a monitor releases the carrier. */ @ParameterizedTest @ValueSource(booleans = { true, false }) @DisabledIf("LockingMode#isLegacy") void testParkWhenHoldingMonitor(boolean reenter) throws Exception { assumeTrue(VThreadScheduler.supportsCustomScheduler(), "No support for custom schedulers"); try (ExecutorService scheduler = Executors.newFixedThreadPool(1)) { ThreadFactory factory = VThreadScheduler.virtualThreadFactory(scheduler); var lock = new Object(); // thread enters (and maybe reenters) a monitor and parks var started = new CountDownLatch(1); var vthread1 = factory.newThread(() -> { started.countDown(); synchronized (lock) { if (reenter) { synchronized (lock) { LockSupport.park(); } } else { LockSupport.park(); } } }); vthread1.start(); try { // wait for thread to start and park started.await(); await(vthread1, Thread.State.WAITING); // carrier should be released, use it for another thread var executed = new AtomicBoolean(); var vthread2 = factory.newThread(() -> { executed.set(true); }); vthread2.start(); vthread2.join(); assertTrue(executed.get()); } finally { LockSupport.unpark(vthread1); vthread1.join(); } } } /** * Test lots of virtual threads parked while holding a monitor. If the number of * virtual threads exceeds the number of carrier threads then this test will hang if * parking doesn't release the carrier. */ @Test @DisabledIf("LockingMode#isLegacy") void testManyParkedWhenHoldingMonitor() throws Exception { Thread[] vthreads = new Thread[MAX_VTHREAD_COUNT]; var done = new AtomicBoolean(); for (int i = 0; i < MAX_VTHREAD_COUNT; i++) { var lock = new Object(); var started = new CountDownLatch(1); var vthread = Thread.ofVirtual().start(() -> { started.countDown(); synchronized (lock) { while (!done.get()) { LockSupport.park(); } } }); // wait for thread to start and park started.await(); await(vthread, Thread.State.WAITING); vthreads[i] = vthread; } // cleanup done.set(true); for (int i = 0; i < MAX_VTHREAD_COUNT; i++) { var vthread = vthreads[i]; LockSupport.unpark(vthread); vthread.join(); } } /** * Schedule a thread to be interrupted after a delay. */ private static void scheduleInterrupt(Thread thread, long delay) { Runnable interruptTask = () -> { try { Thread.sleep(delay); thread.interrupt(); } catch (Exception e) { e.printStackTrace(); } }; new Thread(interruptTask).start(); } /** * Waits for the given thread to reach a given state. */ private void await(Thread thread, Thread.State expectedState) throws InterruptedException { Thread.State state = thread.getState(); while (state != expectedState) { assertTrue(state != Thread.State.TERMINATED, "Thread has terminated"); Thread.sleep(10); state = thread.getState(); } } }