void DeadlockCycle::print_on(outputStream* st) const {
  st->cr();
  st->print_cr("Found one Java-level deadlock:");
  st->print("=============================");

  JavaThread* currentThread;
  ObjectMonitor* waitingToLockMonitor;
  oop waitingToLockBlocker;
  int len = _threads->length();
  for (int i = 0; i < len; i++) {
    currentThread = _threads->at(i);
    waitingToLockMonitor = (ObjectMonitor*)currentThread->current_pending_monitor();
    waitingToLockBlocker = currentThread->current_park_blocker();
    st->cr();
    st->print_cr("\"%s\":", currentThread->get_thread_name());
    const char* owner_desc = ",\n  which is held by";
    if (waitingToLockMonitor != NULL) {
      st->print("  waiting to lock monitor " INTPTR_FORMAT, waitingToLockMonitor);
      oop obj = (oop)waitingToLockMonitor->object();
      if (obj != NULL) {
        st->print(" (object "INTPTR_FORMAT ", a %s)", (address)obj,
                   (instanceKlass::cast(obj->klass()))->external_name());

        if (!currentThread->current_pending_monitor_is_from_java()) {
          owner_desc = "\n  in JNI, which is held by";
        }
      } else {
        // No Java object associated - a JVMTI raw monitor
        owner_desc = " (JVMTI raw monitor),\n  which is held by";
      }
      currentThread = Threads::owning_thread_from_monitor_owner(
        (address)waitingToLockMonitor->owner(), false /* no locking needed */);
    } else {
      st->print("  waiting for ownable synchronizer " INTPTR_FORMAT ", (a %s)",
                (address)waitingToLockBlocker,
                (instanceKlass::cast(waitingToLockBlocker->klass()))->external_name());
      assert(waitingToLockBlocker->is_a(SystemDictionary::abstract_ownable_synchronizer_klass()),
             "Must be an AbstractOwnableSynchronizer");
      oop ownerObj = java_util_concurrent_locks_AbstractOwnableSynchronizer::get_owner_threadObj(waitingToLockBlocker);
      currentThread = java_lang_Thread::thread(ownerObj);
    }
    st->print("%s \"%s\"", owner_desc, currentThread->get_thread_name());
  }

  st->cr();
  st->cr();

  // Print stack traces
  bool oldJavaMonitorsInStackTrace = JavaMonitorsInStackTrace;
  JavaMonitorsInStackTrace = true;
  st->print_cr("Java stack information for the threads listed above:");
  st->print_cr("===================================================");
  for (int j = 0; j < len; j++) {
    currentThread = _threads->at(j);
    st->print_cr("\"%s\":", currentThread->get_thread_name());
    currentThread->print_stack_on(st);
  }
  JavaMonitorsInStackTrace = oldJavaMonitorsInStackTrace;
}
Ejemplo n.º 2
0
// Find deadlocks involving object monitors and concurrent locks if concurrent_locks is true
DeadlockCycle* ThreadService::find_deadlocks_at_safepoint(bool concurrent_locks) {
  // This code was modified from the original Threads::find_deadlocks code.
  int globalDfn = 0, thisDfn;
  ObjectMonitor* waitingToLockMonitor = NULL;
  oop waitingToLockBlocker = NULL;
  bool blocked_on_monitor = false;
  JavaThread *currentThread, *previousThread;
  int num_deadlocks = 0;

  for (JavaThread* p = Threads::first(); p != NULL; p = p->next()) {
    // Initialize the depth-first-number
    p->set_depth_first_number(-1);
  }

  DeadlockCycle* deadlocks = NULL;
  DeadlockCycle* last = NULL;
  DeadlockCycle* cycle = new DeadlockCycle();
  for (JavaThread* jt = Threads::first(); jt != NULL; jt = jt->next()) {
    if (jt->depth_first_number() >= 0) {
      // this thread was already visited
      continue;
    }

    thisDfn = globalDfn;
    jt->set_depth_first_number(globalDfn++);
    previousThread = jt;
    currentThread = jt;

    cycle->reset();

    // When there is a deadlock, all the monitors involved in the dependency
    // cycle must be contended and heavyweight. So we only care about the
    // heavyweight monitor a thread is waiting to lock.
    waitingToLockMonitor = (ObjectMonitor*)jt->current_pending_monitor();
    if (concurrent_locks) {
      waitingToLockBlocker = jt->current_park_blocker();
    }
    while (waitingToLockMonitor != NULL || waitingToLockBlocker != NULL) {
      cycle->add_thread(currentThread);
      if (waitingToLockMonitor != NULL) {
        address currentOwner = (address)waitingToLockMonitor->owner();
        if (currentOwner != NULL) {
          currentThread = Threads::owning_thread_from_monitor_owner(
                            currentOwner,
                            false /* no locking needed */);
          if (currentThread == NULL) {
            // This function is called at a safepoint so the JavaThread
            // that owns waitingToLockMonitor should be findable, but
            // if it is not findable, then the previous currentThread is
            // blocked permanently. We record this as a deadlock.
            num_deadlocks++;

            cycle->set_deadlock(true);

            // add this cycle to the deadlocks list
            if (deadlocks == NULL) {
              deadlocks = cycle;
            } else {
              last->set_next(cycle);
            }
            last = cycle;
            cycle = new DeadlockCycle();
            break;
          }
        }
      } else {
        if (concurrent_locks) {
          if (waitingToLockBlocker->is_a(SystemDictionary::abstract_ownable_synchronizer_klass())) {
            oop threadObj = java_util_concurrent_locks_AbstractOwnableSynchronizer::get_owner_threadObj(waitingToLockBlocker);
            currentThread = threadObj != NULL ? java_lang_Thread::thread(threadObj) : NULL;
          } else {
            currentThread = NULL;
          }
        }
      }

      if (currentThread == NULL) {
        // No dependency on another thread
        break;
      }
      if (currentThread->depth_first_number() < 0) {
        // First visit to this thread
        currentThread->set_depth_first_number(globalDfn++);
      } else if (currentThread->depth_first_number() < thisDfn) {
        // Thread already visited, and not on a (new) cycle
        break;
      } else if (currentThread == previousThread) {
        // Self-loop, ignore
        break;
      } else {
        // We have a (new) cycle
        num_deadlocks++;

        cycle->set_deadlock(true);

        // add this cycle to the deadlocks list
        if (deadlocks == NULL) {
          deadlocks = cycle;
        } else {
          last->set_next(cycle);
        }
        last = cycle;
        cycle = new DeadlockCycle();
        break;
      }
      previousThread = currentThread;
      waitingToLockMonitor = (ObjectMonitor*)currentThread->current_pending_monitor();
      if (concurrent_locks) {
        waitingToLockBlocker = currentThread->current_park_blocker();
      }
    }

  }
  delete cycle;
  return deadlocks;
}