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* @bug 8312174
* @summary missing JVMTI events from vthreads parked during JVMTI attach
* @requires vm.continuations
* @requires vm.jvmti
* @requires vm.compMode != "Xcomp"
* @run main/othervm/native
- * -Djdk.virtualThreadScheduler.parallelism=9
* -Djdk.attach.allowAttachSelf=true -XX:+EnableDynamicAgentLoading VThreadEventTest attach
*/
import com.sun.tools.attach.VirtualMachine;
! import java.util.concurrent.ExecutorService;
- import java.util.concurrent.Executors;
import java.util.concurrent.locks.LockSupport;
import java.util.List;
import java.util.ArrayList;
!
- /*
- * The test uses custom implementation of the CountDownLatch class.
- * The reason is we want the state of tested thread to be predictable.
- * With java.util.concurrent.CountDownLatch it is not clear what thread state is expected.
- */
- class CountDownLatch {
- private int count = 0;
-
- CountDownLatch(int count) {
- this.count = count;
- }
-
- public synchronized void countDown() {
- count--;
- notify();
- }
-
- public synchronized void await() throws InterruptedException {
- while (count > 0) {
- wait(1);
- }
- }
- }
public class VThreadEventTest {
! static final int TCNT1 = 10;
! static final int TCNT2 = 4;
- static final int TCNT3 = 4;
- static final int THREAD_CNT = TCNT1 + TCNT2 + TCNT3;
private static void log(String msg) { System.out.println(msg); }
private static native int threadEndCount();
private static native int threadMountCount();
private static native int threadUnmountCount();
private static volatile boolean attached;
! private static boolean failed;
! private static List<Thread> test1Threads = new ArrayList(TCNT1);
!
! private static CountDownLatch ready0 = new CountDownLatch(THREAD_CNT);
- private static CountDownLatch ready1 = new CountDownLatch(TCNT1);
- private static CountDownLatch ready2 = new CountDownLatch(THREAD_CNT);
- private static CountDownLatch mready = new CountDownLatch(1);
-
- private static void await(CountDownLatch dumpedLatch) {
- try {
- dumpedLatch.await();
- } catch (InterruptedException e) {
- throw new RuntimeException(e);
- }
}
! // The test1 vthreads are kept unmounted until interrupted after agent attach.
! static final Runnable test1 = () -> {
! synchronized (test1Threads) {
! test1Threads.add(Thread.currentThread());
! }
! log("test1 vthread started");
! ready0.countDown();
! await(mready);
! ready1.countDown(); // to guaranty state is not State.WAITING after await(mready)
! try {
! Thread.sleep(20000); // big timeout to keep unmounted until interrupted
! } catch (InterruptedException ex) {
! // it is expected, ignore
}
! ready2.countDown();
! };
!
! // The test2 vthreads are kept mounted until agent attach.
! static final Runnable test2 = () -> {
! log("test2 vthread started");
! ready0.countDown();
! await(mready);
! while (!attached) {
! // keep mounted
}
! ready2.countDown();
! };
!
! // The test3 vthreads are kept mounted until agent attach.
! static final Runnable test3 = () -> {
! log("test3 vthread started");
- ready0.countDown();
- await(mready);
while (!attached) {
! // keep mounted
}
- LockSupport.parkNanos(10_000_000L); // will cause extra mount and unmount
- ready2.countDown();
- };
! public static void main(String[] args) throws Exception {
! if (Runtime.getRuntime().availableProcessors() < 8) {
! log("WARNING: test expects at least 8 processors.");
}
- try (ExecutorService executorService = Executors.newVirtualThreadPerTaskExecutor()) {
- for (int i = 0; i < TCNT1; i++) {
- executorService.execute(test1);
- }
- for (int i = 0; i < TCNT2; i++) {
- executorService.execute(test2);
- }
- for (int i = 0; i < TCNT3; i++) {
- executorService.execute(test3);
- }
- await(ready0);
- mready.countDown();
- await(ready1); // to guarantee state is not State.TIMED_WAITING after await(mready) in test1()
- // wait for test1 threads to reach TIMED_WAITING state in sleep()
- for (Thread t : test1Threads) {
- Thread.State state = t.getState();
- log("DBG: state: " + state);
- while (state != Thread.State.TIMED_WAITING) {
- Thread.sleep(10);
- state = t.getState();
- log("DBG: state: " + state);
- }
- }
-
- VirtualMachine vm = VirtualMachine.attach(String.valueOf(ProcessHandle.current().pid()));
- vm.loadAgentLibrary("VThreadEventTest");
- Thread.sleep(200); // to allow the agent to get ready
! attached = true;
! for (Thread t : test1Threads) {
! t.interrupt();
- }
- ready2.await();
}
! // wait until all VirtualThreadEnd events have been sent
! for (int sleepNo = 1; threadEndCount() < THREAD_CNT; sleepNo++) {
- Thread.sleep(100);
- if (sleepNo % 100 == 0) { // 10 sec period of waiting
- log("main: waited seconds: " + sleepNo/10);
- }
}
int threadEndCnt = threadEndCount();
int threadMountCnt = threadMountCount();
int threadUnmountCnt = threadUnmountCount();
- int threadEndExp = THREAD_CNT;
- int threadMountExp = THREAD_CNT - TCNT2;
- int threadUnmountExp = THREAD_CNT + TCNT3;
! log("ThreadEnd cnt: " + threadEndCnt + " (expected: " + threadEndExp + ")");
! log("ThreadMount cnt: " + threadMountCnt + " (expected: " + threadMountExp + ")");
! log("ThreadUnmount cnt: " + threadUnmountCnt + " (expected: " + threadUnmountExp + ")");
! if (threadEndCnt != threadEndExp) {
! log("FAILED: unexpected count of ThreadEnd events");
failed = true;
}
! if (threadMountCnt != threadMountExp) {
! log("FAILED: unexpected count of ThreadMount events");
failed = true;
}
! if (threadUnmountCnt != threadUnmountExp) {
! log("FAILED: unexpected count of ThreadUnmount events");
failed = true;
}
if (failed) {
throw new RuntimeException("FAILED: event count is wrong");
}
}
}
* @bug 8312174
* @summary missing JVMTI events from vthreads parked during JVMTI attach
* @requires vm.continuations
* @requires vm.jvmti
* @requires vm.compMode != "Xcomp"
+ * @modules java.base/java.lang:+open
+ * @library /test/lib
* @run main/othervm/native
* -Djdk.attach.allowAttachSelf=true -XX:+EnableDynamicAgentLoading VThreadEventTest attach
*/
import com.sun.tools.attach.VirtualMachine;
! import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.locks.LockSupport;
import java.util.List;
import java.util.ArrayList;
! import jdk.test.lib.thread.VThreadRunner;
public class VThreadEventTest {
! static final int PARKED_THREAD_COUNT = 4;
! static final int SPINNING_THREAD_COUNT = 4;
private static void log(String msg) { System.out.println(msg); }
private static native int threadEndCount();
private static native int threadMountCount();
private static native int threadUnmountCount();
private static volatile boolean attached;
!
! // called by agent when it is initialized and has enabled events
! static void agentStarted() {
! attached = true;
}
! public static void main(String[] args) throws Exception {
! VThreadRunner.ensureParallelism(SPINNING_THREAD_COUNT+1);
!
! // start threads that park (unmount)
! var threads1 = new ArrayList<Thread>();
! for (int i = 0; i < PARKED_THREAD_COUNT; i++) {
! var started = new AtomicBoolean();
! var thread = Thread.startVirtualThread(() -> {
! started.set(true);
! LockSupport.park();
! });
!
! // wait for thread to start execution + park
+ while (!started.get()) {
+ Thread.sleep(10);
+ }
+ await(thread, Thread.State.WAITING);
+ threads1.add(thread);
}
!
! // start threads that spin (stay mounted)
! var threads2 = new ArrayList<Thread>();
! for (int i = 0; i < SPINNING_THREAD_COUNT; i++) {
! var started = new AtomicBoolean();
! var thread = Thread.startVirtualThread(() -> {
! started.set(true);
! while (!attached) {
! Thread.onSpinWait();
! }
+ });
+
+ // wait for thread to start execution
+ while (!started.get()) {
+ Thread.sleep(10);
+ }
+ threads2.add(thread);
}
!
! // attach to the current VM
! VirtualMachine vm = VirtualMachine.attach(String.valueOf(ProcessHandle.current().pid()));
! vm.loadAgentLibrary("VThreadEventTest");
!
! // wait for agent to start
while (!attached) {
! Thread.sleep(10);
}
! // unpark the threads that were parked
! for (Thread thread : threads1) {
! LockSupport.unpark(thread);
}
! // wait for all threads to terminate
! for (Thread thread : threads1) {
! thread.join();
}
! for (Thread thread : threads2) {
! thread.join();
}
+
int threadEndCnt = threadEndCount();
int threadMountCnt = threadMountCount();
int threadUnmountCnt = threadUnmountCount();
! int threadCount = PARKED_THREAD_COUNT + SPINNING_THREAD_COUNT;
! log("VirtualThreadEnd events: " + threadEndCnt + ", expected: " + threadCount);
! log("VirtualThreadMount events: " + threadMountCnt + ", expected: " + PARKED_THREAD_COUNT);
+ log("VirtualThreadUnmount events: " + threadUnmountCnt + ", expected: " + threadCount);
!
! boolean failed = false;
+ if (threadEndCnt != threadCount) {
+ log("FAILED: unexpected count of VirtualThreadEnd events");
failed = true;
}
! if (threadMountCnt != PARKED_THREAD_COUNT) {
! log("FAILED: unexpected count of VirtualThreadMount events");
failed = true;
}
! if (threadUnmountCnt != threadCount) {
! log("FAILED: unexpected count of VirtualThreadUnmount events");
failed = true;
}
if (failed) {
throw new RuntimeException("FAILED: event count is wrong");
}
}
+ private static void await(Thread thread, Thread.State expectedState) throws InterruptedException {
+ Thread.State state = thread.getState();
+ while (state != expectedState) {
+ assert state != Thread.State.TERMINATED : "Thread has terminated";
+ Thread.sleep(10);
+ state = thread.getState();
+ }
+ }
+
}
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