src/hotspot/share/jfr/periodic/sampling/jfrThreadSampler.cpp - platform/libcore - Git at Google

 /*
  * Copyright (c) 2012, 2018, 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.
  *
  */

 #include "precompiled.hpp"
 #include "jfr/jfrEvents.hpp"
 #include "jfr/recorder/jfrRecorder.hpp"
 #include "jfr/periodic/sampling/jfrCallTrace.hpp"
 #include "jfr/periodic/sampling/jfrThreadSampler.hpp"
 #include "jfr/recorder/service/jfrOptionSet.hpp"
 #include "jfr/recorder/stacktrace/jfrStackTraceRepository.hpp"
 #include "jfr/support/jfrThreadId.hpp"
 #include "jfr/utilities/jfrTime.hpp"
 #include "logging/log.hpp"
 #include "runtime/frame.inline.hpp"
 #include "runtime/os.hpp"
 #include "runtime/semaphore.hpp"
 #include "runtime/thread.inline.hpp"
 #include "runtime/threadSMR.hpp"

 enum JfrSampleType {
   NO_SAMPLE = 0,
   JAVA_SAMPLE = 1,
   NATIVE_SAMPLE = 2
 };

 static bool in_java_sample(JavaThread* thread) {
   switch (thread->thread_state()) {
   case _thread_new:
   case _thread_uninitialized:
   case _thread_new_trans:
   case _thread_in_vm_trans:
   case _thread_blocked_trans:
   case _thread_in_native_trans:
   case _thread_blocked:
   case _thread_in_vm:
   case _thread_in_native:
   case _thread_in_Java_trans:
     break;
   case _thread_in_Java:
     return true;
   default:
     ShouldNotReachHere();
     break;
   }
   return false;
 }

 static bool in_native_sample(JavaThread* thread) {
   switch (thread->thread_state()) {
   case _thread_new:
   case _thread_uninitialized:
   case _thread_new_trans:
   case _thread_blocked_trans:
   case _thread_blocked:
   case _thread_in_vm:
   case _thread_in_vm_trans:
   case _thread_in_Java_trans:
   case _thread_in_Java:
   case _thread_in_native_trans:
     break;
   case _thread_in_native:
     return true;
   default:
     ShouldNotReachHere();
     break;
   }
   return false;
 }

 class JfrThreadSampleClosure {
  public:
   JfrThreadSampleClosure(EventExecutionSample* events, EventNativeMethodSample* events_native);
   ~JfrThreadSampleClosure() {}
   EventExecutionSample* next_event() { return &_events[_added_java++]; }
   EventNativeMethodSample* next_event_native() { return &_events_native[_added_native++]; }
   void commit_events();
   int added() const { return _added_java; }
   JfrSampleType do_sample_thread(JavaThread* thread, JfrStackFrame* frames, u4 max_frames, bool java_sample, bool native_sample);
   int java_entries() { return _added_java; }
   int native_entries() { return _added_native; }

  private:
   bool sample_thread_in_java(JavaThread* thread, JfrStackFrame* frames, u4 max_frames);
   bool sample_thread_in_native(JavaThread* thread, JfrStackFrame* frames, u4 max_frames);
   EventExecutionSample* _events;
   EventNativeMethodSample* _events_native;
   Thread* _self;
   int _added_java;
   int _added_native;
 };

 class OSThreadSampler : public os::SuspendedThreadTask {
  public:
   OSThreadSampler(JavaThread* thread,
                   JfrThreadSampleClosure& closure,
                   JfrStackFrame *frames,
                   u4 max_frames) : os::SuspendedThreadTask((Thread*)thread),
     _success(false),
     _stacktrace(frames, max_frames),
     _closure(closure),
     _suspend_time() {}

   void take_sample();
   void do_task(const os::SuspendedThreadTaskContext& context);
   void protected_task(const os::SuspendedThreadTaskContext& context);
   bool success() const { return _success; }
   const JfrStackTrace& stacktrace() const { return _stacktrace; }

  private:
   bool _success;
   JfrStackTrace _stacktrace;
   JfrThreadSampleClosure& _closure;
   JfrTicks _suspend_time;
 };

 class OSThreadSamplerCallback : public os::CrashProtectionCallback {
  public:
   OSThreadSamplerCallback(OSThreadSampler& sampler, const os::SuspendedThreadTaskContext &context) :
     _sampler(sampler), _context(context) {
   }
   virtual void call() {
     _sampler.protected_task(_context);
   }
  private:
   OSThreadSampler& _sampler;
   const os::SuspendedThreadTaskContext& _context;
 };

 void OSThreadSampler::do_task(const os::SuspendedThreadTaskContext& context) {
 #ifndef ASSERT
   guarantee(JfrOptionSet::sample_protection(), "Sample Protection should be on in product builds");
 #endif
   assert(_suspend_time.value() == 0, "already timestamped!");
   _suspend_time = JfrTicks::now();

   if (JfrOptionSet::sample_protection()) {
     OSThreadSamplerCallback cb(*this, context);
     os::ThreadCrashProtection crash_protection;
     if (!crash_protection.call(cb)) {
       log_error(jfr)("Thread method sampler crashed");
     }
   } else {
     protected_task(context);
   }
 }

 /*
 * From this method and down the call tree we attempt to protect against crashes
 * using a signal handler / __try block. Don't take locks, rely on destructors or
 * leave memory (in case of signal / exception) in an inconsistent state. */
 void OSThreadSampler::protected_task(const os::SuspendedThreadTaskContext& context) {
   JavaThread* jth = (JavaThread*)context.thread();
   // Skip sample if we signaled a thread that moved to other state
   if (!in_java_sample(jth)) {
     return;
   }
   JfrGetCallTrace trace(true, jth);
   frame topframe;
   if (trace.get_topframe(context.ucontext(), topframe)) {
     if (_stacktrace.record_thread(*jth, topframe)) {
       /* If we managed to get a topframe and a stacktrace, create an event
       * and put it into our array. We can't call Jfr::_stacktraces.add()
       * here since it would allocate memory using malloc. Doing so while
       * the stopped thread is inside malloc would deadlock. */
       _success = true;
       EventExecutionSample *ev = _closure.next_event();
       ev->set_starttime(_suspend_time);
       ev->set_endtime(_suspend_time); // fake to not take an end time
       ev->set_sampledThread(JFR_THREAD_ID(jth));
       ev->set_state(java_lang_Thread::get_thread_status(jth->threadObj()));
     }
   }
 }

 void OSThreadSampler::take_sample() {
   run();
 }

 class JfrNativeSamplerCallback : public os::CrashProtectionCallback {
  public:
   JfrNativeSamplerCallback(JfrThreadSampleClosure& closure, JavaThread* jt, JfrStackFrame* frames, u4 max_frames) :
     _closure(closure), _jt(jt), _stacktrace(frames, max_frames), _success(false) {
   }
   virtual void call();
   bool success() { return _success; }
   JfrStackTrace& stacktrace() { return _stacktrace; }

  private:
   JfrThreadSampleClosure& _closure;
   JavaThread* _jt;
   JfrStackTrace _stacktrace;
   bool _success;
 };

 static void write_native_event(JfrThreadSampleClosure& closure, JavaThread* jt) {
   EventNativeMethodSample *ev = closure.next_event_native();
   ev->set_starttime(JfrTicks::now());
   ev->set_sampledThread(JFR_THREAD_ID(jt));
   ev->set_state(java_lang_Thread::get_thread_status(jt->threadObj()));
 }

 void JfrNativeSamplerCallback::call() {
   // When a thread is only attach it will be native without a last java frame
   if (!_jt->has_last_Java_frame()) {
     return;
   }

   frame topframe = _jt->last_frame();
   frame first_java_frame;
   Method* method = NULL;
   JfrGetCallTrace gct(false, _jt);
   if (!gct.find_top_frame(topframe, &method, first_java_frame)) {
     return;
   }
   if (method == NULL) {
     return;
   }
   topframe = first_java_frame;
   _success = _stacktrace.record_thread(*_jt, topframe);
   if (_success) {
     write_native_event(_closure, _jt);
   }
 }

 bool JfrThreadSampleClosure::sample_thread_in_java(JavaThread* thread, JfrStackFrame* frames, u4 max_frames) {
   OSThreadSampler sampler(thread, *this, frames, max_frames);
   sampler.take_sample();
   /* We don't want to allocate any memory using malloc/etc while the thread
   * is stopped, so everything is stored in stack allocated memory until this
   * point where the thread has been resumed again, if the sampling was a success
   * we need to store the stacktrace in the stacktrace repository and update
   * the event with the id that was returned. */
   if (!sampler.success()) {
     return false;
   }
   EventExecutionSample *event = &_events[_added_java - 1];
   traceid id = JfrStackTraceRepository::add(sampler.stacktrace());
   assert(id != 0, "Stacktrace id should not be 0");
   event->set_stackTrace(id);
   return true;
 }

 bool JfrThreadSampleClosure::sample_thread_in_native(JavaThread* thread, JfrStackFrame* frames, u4 max_frames) {
   JfrNativeSamplerCallback cb(*this, thread, frames, max_frames);
   if (JfrOptionSet::sample_protection()) {
     os::ThreadCrashProtection crash_protection;
     if (!crash_protection.call(cb)) {
       log_error(jfr)("Thread method sampler crashed for native");
     }
   } else {
     cb.call();
   }
   if (!cb.success()) {
     return false;
   }
   EventNativeMethodSample *event = &_events_native[_added_native - 1];
   traceid id = JfrStackTraceRepository::add(cb.stacktrace());
   assert(id != 0, "Stacktrace id should not be 0");
   event->set_stackTrace(id);
   return true;
 }

 void JfrThreadSampleClosure::commit_events() {
   for (int i = 0; i < _added_java; ++i) {
     _events[i].commit();
   }
   for (int i = 0; i < _added_native; ++i) {
     _events_native[i].commit();
   }
 }

 JfrThreadSampleClosure::JfrThreadSampleClosure(EventExecutionSample* events, EventNativeMethodSample* events_native) :
   _events(events),
   _events_native(events_native),
   _self(Thread::current()),
   _added_java(0),
   _added_native(0) {
 }

 class JfrThreadSampler : public Thread {
   friend class JfrThreadSampling;
  private:
   Semaphore _sample;
   Thread* _sampler_thread;
   JfrStackFrame* const _frames;
   JavaThread* _last_thread_java;
   JavaThread* _last_thread_native;
   size_t _interval_java;
   size_t _interval_native;
   int _cur_index;
   const u4 _max_frames;
   volatile bool _disenrolled;
   static Monitor* _transition_block_lock;

   JavaThread* next_thread(ThreadsList* t_list, JavaThread* first_sampled, JavaThread* current);
   void task_stacktrace(JfrSampleType type, JavaThread** last_thread);
   JfrThreadSampler(size_t interval_java, size_t interval_native, u4 max_frames);
   ~JfrThreadSampler();

   void start_thread();

   void enroll();
   void disenroll();
   void set_java_interval(size_t interval) { _interval_java = interval; };
   void set_native_interval(size_t interval) { _interval_native = interval; };
   size_t get_java_interval() { return _interval_java; };
   size_t get_native_interval() { return _interval_native; };

  public:
   void run();
   static Monitor* transition_block() { return _transition_block_lock; }
   static void on_javathread_suspend(JavaThread* thread);
 };

 Monitor* JfrThreadSampler::_transition_block_lock = new Monitor(Mutex::leaf, "Trace block", true, Monitor::_safepoint_check_never);

 static void clear_transition_block(JavaThread* jt) {
   jt->clear_trace_flag();
   JfrThreadLocal* const tl = jt->jfr_thread_local();
   if (tl->is_trace_block()) {
     MutexLockerEx ml(JfrThreadSampler::transition_block(), Mutex::_no_safepoint_check_flag);
     JfrThreadSampler::transition_block()->notify_all();
   }
 }

 JfrSampleType JfrThreadSampleClosure::do_sample_thread(JavaThread* thread, JfrStackFrame* frames, u4 max_frames, bool java_sample, bool native_sample) {
   assert(Threads_lock->owned_by_self(), "Holding the thread table lock.");
   if (thread->is_hidden_from_external_view()) {
     return NO_SAMPLE;
   }
   if (thread->in_deopt_handler()) {
     return NO_SAMPLE;
   }
   JfrSampleType ret = NO_SAMPLE;
   thread->set_trace_flag();
   if (!UseMembar) {
     os::serialize_thread_states();
   }
   if (in_java_sample(thread) && java_sample) {
     ret = sample_thread_in_java(thread, frames, max_frames) ? JAVA_SAMPLE : NO_SAMPLE;
   } else if (in_native_sample(thread) && native_sample) {
     ret = sample_thread_in_native(thread, frames, max_frames) ? NATIVE_SAMPLE : NO_SAMPLE;
   }
   clear_transition_block(thread);
   return ret;
 }

 JfrThreadSampler::JfrThreadSampler(size_t interval_java, size_t interval_native, u4 max_frames) :
   _sample(),
   _sampler_thread(NULL),
   _frames(JfrCHeapObj::new_array<JfrStackFrame>(max_frames)),
   _last_thread_java(NULL),
   _last_thread_native(NULL),
   _interval_java(interval_java),
   _interval_native(interval_native),
   _cur_index(-1),
   _max_frames(max_frames),
   _disenrolled(true) {
 }

 JfrThreadSampler::~JfrThreadSampler() {
   JfrCHeapObj::free(_frames, sizeof(JfrStackFrame) * _max_frames);
 }

 void JfrThreadSampler::on_javathread_suspend(JavaThread* thread) {
   JfrThreadLocal* const tl = thread->jfr_thread_local();
   tl->set_trace_block();
   {
     MutexLockerEx ml(transition_block(), Mutex::_no_safepoint_check_flag);
     while (thread->is_trace_suspend()) {
       transition_block()->wait(true);
     }
     tl->clear_trace_block();
   }
 }

 JavaThread* JfrThreadSampler::next_thread(ThreadsList* t_list, JavaThread* first_sampled, JavaThread* current) {
   assert(Threads_lock->owned_by_self(), "Holding the thread table lock.");
   if (current == NULL) {
     _cur_index = 0;
     return t_list->thread_at(_cur_index);
   }

   if (_cur_index == -1 || t_list->thread_at(_cur_index) != current) {
     // 'current' is not at '_cur_index' so find it:
     _cur_index = t_list->find_index_of_JavaThread(current);
     assert(_cur_index != -1, "current JavaThread should be findable.");
   }
   _cur_index++;

   JavaThread* next = NULL;
   // wrap
   if ((uint)_cur_index >= t_list->length()) {
     _cur_index = 0;
   }
   next = t_list->thread_at(_cur_index);

   // sample wrap
   if (next == first_sampled) {
     return NULL;
   }
   return next;
 }

 void JfrThreadSampler::start_thread() {
   if (os::create_thread(this, os::os_thread)) {
     os::start_thread(this);
   } else {
     log_error(jfr)("Failed to create thread for thread sampling");
   }
 }

 void JfrThreadSampler::enroll() {
   if (_disenrolled) {
     log_info(jfr)("Enrolling thread sampler");
     _sample.signal();
     _disenrolled = false;
   }
 }

 void JfrThreadSampler::disenroll() {
   if (!_disenrolled) {
     _sample.wait();
     _disenrolled = true;
     log_info(jfr)("Disenrolling thread sampler");
   }
 }

 static jlong get_monotonic_ms() {
   return os::javaTimeNanos() / 1000000;
 }

 void JfrThreadSampler::run() {
   assert(_sampler_thread == NULL, "invariant");
   _sampler_thread = this;

   jlong last_java_ms = get_monotonic_ms();
   jlong last_native_ms = last_java_ms;
   while (true) {
     if (!_sample.trywait()) {
       // disenrolled
       _sample.wait();
       last_java_ms = get_monotonic_ms();
       last_native_ms = last_java_ms;
     }
     _sample.signal();
     jlong java_interval = _interval_java == 0 ? max_jlong : MAX2<jlong>(_interval_java, 10);
     jlong native_interval = _interval_native == 0 ? max_jlong : MAX2<jlong>(_interval_native, 10);

     jlong now_ms = get_monotonic_ms();

     jlong next_j = java_interval + last_java_ms - now_ms;
     jlong next_n = native_interval + last_native_ms - now_ms;

     jlong sleep_to_next = MIN2<jlong>(next_j, next_n);

     if (sleep_to_next > 0) {
       os::naked_short_sleep(sleep_to_next);
     }

     if ((next_j - sleep_to_next) <= 0) {
       task_stacktrace(JAVA_SAMPLE, &_last_thread_java);
       last_java_ms = get_monotonic_ms();
     }
     if ((next_n - sleep_to_next) <= 0) {
       task_stacktrace(NATIVE_SAMPLE, &_last_thread_native);
       last_native_ms = get_monotonic_ms();
     }
   }
   delete this;
 }

 static const int MAX_NR_OF_SAMPLES = 5;

 void JfrThreadSampler::task_stacktrace(JfrSampleType type, JavaThread** last_thread) {
   ResourceMark rm;
   EventExecutionSample samples[MAX_NR_OF_SAMPLES];
   EventNativeMethodSample samples_native[MAX_NR_OF_SAMPLES];
   JfrThreadSampleClosure sample_task(samples, samples_native);

   int num_samples = 0;
   {
     elapsedTimer sample_time;
     sample_time.start();

     {
       MonitorLockerEx tlock(Threads_lock, Mutex::_allow_vm_block_flag);
       ThreadsListHandle tlh;
       JavaThread* current = tlh.includes(*last_thread) ? *last_thread : NULL;
       JavaThread* start = NULL;

       while (num_samples < MAX_NR_OF_SAMPLES) {
         current = next_thread(tlh.list(), start, current);
         if (current == NULL) {
           break;
         }
         if (start == NULL) {
           start = current;  // remember thread where we started sampling
         }
         if (current->is_Compiler_thread()) {
           continue;
         }
         *last_thread = current;  // remember thread we last sampled
         JfrSampleType ret = sample_task.do_sample_thread(current, _frames, _max_frames, type == JAVA_SAMPLE, type == NATIVE_SAMPLE);
         switch (type) {
         case JAVA_SAMPLE:
         case NATIVE_SAMPLE:
           ++num_samples;
           break;
         default:
           break;
         }
       }
     }
     sample_time.stop();
     log_trace(jfr)("JFR thread sampling done in %3.7f secs with %d java %d native samples",
       sample_time.seconds(), sample_task.java_entries(), sample_task.native_entries());
   }
   if (num_samples > 0) {
     sample_task.commit_events();
   }
 }

 static JfrThreadSampling* _instance = NULL;

 JfrThreadSampling& JfrThreadSampling::instance() {
   return *_instance;
 }

 JfrThreadSampling* JfrThreadSampling::create() {
   assert(_instance == NULL, "invariant");
   _instance = new JfrThreadSampling();
   return _instance;
 }

 void JfrThreadSampling::destroy() {
   if (_instance != NULL) {
     delete _instance;
     _instance = NULL;
   }
 }

 JfrThreadSampling::JfrThreadSampling() : _sampler(NULL) {}

 JfrThreadSampling::~JfrThreadSampling() {
   if (_sampler != NULL) {
     _sampler->disenroll();
   }
 }

 static void log(size_t interval_java, size_t interval_native) {
   log_info(jfr)("Updated thread sampler for java: " SIZE_FORMAT"  ms, native " SIZE_FORMAT " ms", interval_java, interval_native);
 }

 void JfrThreadSampling::start_sampler(size_t interval_java, size_t interval_native) {
   assert(_sampler == NULL, "invariant");
   log_info(jfr)("Enrolling thread sampler");
   _sampler = new JfrThreadSampler(interval_java, interval_native, JfrOptionSet::stackdepth());
   _sampler->start_thread();
   _sampler->enroll();
 }

 void JfrThreadSampling::set_sampling_interval(bool java_interval, size_t period) {
   size_t interval_java = 0;
   size_t interval_native = 0;
   if (_sampler != NULL) {
     interval_java = _sampler->get_java_interval();
     interval_native = _sampler->get_native_interval();
   }

   if (java_interval) {
     interval_java = period;
   } else {
     interval_native = period;
   }

   if (interval_java > 0 || interval_native > 0) {
     if (_sampler == NULL) {
       log_info(jfr)("Creating thread sampler for java:%zu ms, native %zu ms", interval_java, interval_native);
       start_sampler(interval_java, interval_native);
     } else {
       _sampler->set_java_interval(interval_java);
       _sampler->set_native_interval(interval_native);
       _sampler->enroll();
     }
     assert(_sampler != NULL, "invariant");
     log(interval_java, interval_native);
   } else if (_sampler != NULL) {
     _sampler->disenroll();
   }
 }

 void JfrThreadSampling::set_java_sample_interval(size_t period) {
   if (_instance == NULL && 0 == period) {
     return;
   }
   instance().set_sampling_interval(true, period);
 }

 void JfrThreadSampling::set_native_sample_interval(size_t period) {
   if (_instance == NULL && 0 == period) {
     return;
   }
   instance().set_sampling_interval(false, period);
 }

 void JfrThreadSampling::on_javathread_suspend(JavaThread* thread) {
   JfrThreadSampler::on_javathread_suspend(thread);
 }

 Thread* JfrThreadSampling::sampler_thread() {
   if (_instance == NULL) {
     return NULL;
   }
   return _instance->_sampler != NULL ? _instance->_sampler->_sampler_thread : NULL;
 }
	/*
	* Copyright (c) 2012, 2018, 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.
	*
	*/

	#include "precompiled.hpp"
	#include "jfr/jfrEvents.hpp"
	#include "jfr/recorder/jfrRecorder.hpp"
	#include "jfr/periodic/sampling/jfrCallTrace.hpp"
	#include "jfr/periodic/sampling/jfrThreadSampler.hpp"
	#include "jfr/recorder/service/jfrOptionSet.hpp"
	#include "jfr/recorder/stacktrace/jfrStackTraceRepository.hpp"
	#include "jfr/support/jfrThreadId.hpp"
	#include "jfr/utilities/jfrTime.hpp"
	#include "logging/log.hpp"
	#include "runtime/frame.inline.hpp"
	#include "runtime/os.hpp"
	#include "runtime/semaphore.hpp"
	#include "runtime/thread.inline.hpp"
	#include "runtime/threadSMR.hpp"

	enum JfrSampleType {
	NO_SAMPLE = 0,
	JAVA_SAMPLE = 1,
	NATIVE_SAMPLE = 2
	};

	static bool in_java_sample(JavaThread* thread) {
	switch (thread->thread_state()) {
	case _thread_new:
	case _thread_uninitialized:
	case _thread_new_trans:
	case _thread_in_vm_trans:
	case _thread_blocked_trans:
	case _thread_in_native_trans:
	case _thread_blocked:
	case _thread_in_vm:
	case _thread_in_native:
	case _thread_in_Java_trans:
	break;
	case _thread_in_Java:
	return true;
	default:
	ShouldNotReachHere();
	break;
	}
	return false;
	}

	static bool in_native_sample(JavaThread* thread) {
	switch (thread->thread_state()) {
	case _thread_new:
	case _thread_uninitialized:
	case _thread_new_trans:
	case _thread_blocked_trans:
	case _thread_blocked:
	case _thread_in_vm:
	case _thread_in_vm_trans:
	case _thread_in_Java_trans:
	case _thread_in_Java:
	case _thread_in_native_trans:
	break;
	case _thread_in_native:
	return true;
	default:
	ShouldNotReachHere();
	break;
	}
	return false;
	}

	class JfrThreadSampleClosure {
	public:
	JfrThreadSampleClosure(EventExecutionSample* events, EventNativeMethodSample* events_native);
	~JfrThreadSampleClosure() {}
	EventExecutionSample* next_event() { return &_events[_added_java++]; }
	EventNativeMethodSample* next_event_native() { return &_events_native[_added_native++]; }
	void commit_events();
	int added() const { return _added_java; }
	JfrSampleType do_sample_thread(JavaThread* thread, JfrStackFrame* frames, u4 max_frames, bool java_sample, bool native_sample);
	int java_entries() { return _added_java; }
	int native_entries() { return _added_native; }

	private:
	bool sample_thread_in_java(JavaThread* thread, JfrStackFrame* frames, u4 max_frames);
	bool sample_thread_in_native(JavaThread* thread, JfrStackFrame* frames, u4 max_frames);
	EventExecutionSample* _events;
	EventNativeMethodSample* _events_native;
	Thread* _self;
	int _added_java;
	int _added_native;
	};

	class OSThreadSampler : public os::SuspendedThreadTask {
	public:
	OSThreadSampler(JavaThread* thread,
	JfrThreadSampleClosure& closure,
	JfrStackFrame *frames,
	u4 max_frames) : os::SuspendedThreadTask((Thread*)thread),
	_success(false),
	_stacktrace(frames, max_frames),
	_closure(closure),
	_suspend_time() {}

	void take_sample();
	void do_task(const os::SuspendedThreadTaskContext& context);
	void protected_task(const os::SuspendedThreadTaskContext& context);
	bool success() const { return _success; }
	const JfrStackTrace& stacktrace() const { return _stacktrace; }

	private:
	bool _success;
	JfrStackTrace _stacktrace;
	JfrThreadSampleClosure& _closure;
	JfrTicks _suspend_time;
	};

	class OSThreadSamplerCallback : public os::CrashProtectionCallback {
	public:
	OSThreadSamplerCallback(OSThreadSampler& sampler, const os::SuspendedThreadTaskContext &context) :
	_sampler(sampler), _context(context) {
	}
	virtual void call() {
	_sampler.protected_task(_context);
	}
	private:
	OSThreadSampler& _sampler;
	const os::SuspendedThreadTaskContext& _context;
	};

	void OSThreadSampler::do_task(const os::SuspendedThreadTaskContext& context) {
	#ifndef ASSERT
	guarantee(JfrOptionSet::sample_protection(), "Sample Protection should be on in product builds");
	#endif
	assert(_suspend_time.value() == 0, "already timestamped!");
	_suspend_time = JfrTicks::now();

	if (JfrOptionSet::sample_protection()) {
	OSThreadSamplerCallback cb(*this, context);
	os::ThreadCrashProtection crash_protection;
	if (!crash_protection.call(cb)) {
	log_error(jfr)("Thread method sampler crashed");
	}
	} else {
	protected_task(context);
	}
	}

	/*
	* From this method and down the call tree we attempt to protect against crashes
	* using a signal handler / __try block. Don't take locks, rely on destructors or
	* leave memory (in case of signal / exception) in an inconsistent state. */
	void OSThreadSampler::protected_task(const os::SuspendedThreadTaskContext& context) {
	JavaThread* jth = (JavaThread*)context.thread();
	// Skip sample if we signaled a thread that moved to other state
	if (!in_java_sample(jth)) {
	return;
	}
	JfrGetCallTrace trace(true, jth);
	frame topframe;
	if (trace.get_topframe(context.ucontext(), topframe)) {
	if (_stacktrace.record_thread(*jth, topframe)) {
	/* If we managed to get a topframe and a stacktrace, create an event
	* and put it into our array. We can't call Jfr::_stacktraces.add()
	* here since it would allocate memory using malloc. Doing so while
	* the stopped thread is inside malloc would deadlock. */
	_success = true;
	EventExecutionSample *ev = _closure.next_event();
	ev->set_starttime(_suspend_time);
	ev->set_endtime(_suspend_time); // fake to not take an end time
	ev->set_sampledThread(JFR_THREAD_ID(jth));
	ev->set_state(java_lang_Thread::get_thread_status(jth->threadObj()));
	}
	}
	}

	void OSThreadSampler::take_sample() {
	run();
	}

	class JfrNativeSamplerCallback : public os::CrashProtectionCallback {
	public:
	JfrNativeSamplerCallback(JfrThreadSampleClosure& closure, JavaThread* jt, JfrStackFrame* frames, u4 max_frames) :
	_closure(closure), _jt(jt), _stacktrace(frames, max_frames), _success(false) {
	}
	virtual void call();
	bool success() { return _success; }
	JfrStackTrace& stacktrace() { return _stacktrace; }

	private:
	JfrThreadSampleClosure& _closure;
	JavaThread* _jt;
	JfrStackTrace _stacktrace;
	bool _success;
	};

	static void write_native_event(JfrThreadSampleClosure& closure, JavaThread* jt) {
	EventNativeMethodSample *ev = closure.next_event_native();
	ev->set_starttime(JfrTicks::now());
	ev->set_sampledThread(JFR_THREAD_ID(jt));
	ev->set_state(java_lang_Thread::get_thread_status(jt->threadObj()));
	}

	void JfrNativeSamplerCallback::call() {
	// When a thread is only attach it will be native without a last java frame
	if (!_jt->has_last_Java_frame()) {
	return;
	}

	frame topframe = _jt->last_frame();
	frame first_java_frame;
	Method* method = NULL;
	JfrGetCallTrace gct(false, _jt);
	if (!gct.find_top_frame(topframe, &method, first_java_frame)) {
	return;
	}
	if (method == NULL) {
	return;
	}
	topframe = first_java_frame;
	_success = _stacktrace.record_thread(*_jt, topframe);
	if (_success) {
	write_native_event(_closure, _jt);
	}
	}

	bool JfrThreadSampleClosure::sample_thread_in_java(JavaThread* thread, JfrStackFrame* frames, u4 max_frames) {
	OSThreadSampler sampler(thread, *this, frames, max_frames);
	sampler.take_sample();
	/* We don't want to allocate any memory using malloc/etc while the thread
	* is stopped, so everything is stored in stack allocated memory until this
	* point where the thread has been resumed again, if the sampling was a success
	* we need to store the stacktrace in the stacktrace repository and update
	* the event with the id that was returned. */
	if (!sampler.success()) {
	return false;
	}
	EventExecutionSample *event = &_events[_added_java - 1];
	traceid id = JfrStackTraceRepository::add(sampler.stacktrace());
	assert(id != 0, "Stacktrace id should not be 0");
	event->set_stackTrace(id);
	return true;
	}

	bool JfrThreadSampleClosure::sample_thread_in_native(JavaThread* thread, JfrStackFrame* frames, u4 max_frames) {
	JfrNativeSamplerCallback cb(*this, thread, frames, max_frames);
	if (JfrOptionSet::sample_protection()) {
	os::ThreadCrashProtection crash_protection;
	if (!crash_protection.call(cb)) {
	log_error(jfr)("Thread method sampler crashed for native");
	}
	} else {
	cb.call();
	}
	if (!cb.success()) {
	return false;
	}
	EventNativeMethodSample *event = &_events_native[_added_native - 1];
	traceid id = JfrStackTraceRepository::add(cb.stacktrace());
	assert(id != 0, "Stacktrace id should not be 0");
	event->set_stackTrace(id);
	return true;
	}

	void JfrThreadSampleClosure::commit_events() {
	for (int i = 0; i < _added_java; ++i) {
	_events[i].commit();
	}
	for (int i = 0; i < _added_native; ++i) {
	_events_native[i].commit();
	}
	}

	JfrThreadSampleClosure::JfrThreadSampleClosure(EventExecutionSample* events, EventNativeMethodSample* events_native) :
	_events(events),
	_events_native(events_native),
	_self(Thread::current()),
	_added_java(0),
	_added_native(0) {
	}

	class JfrThreadSampler : public Thread {
	friend class JfrThreadSampling;
	private:
	Semaphore _sample;
	Thread* _sampler_thread;
	JfrStackFrame* const _frames;
	JavaThread* _last_thread_java;
	JavaThread* _last_thread_native;
	size_t _interval_java;
	size_t _interval_native;
	int _cur_index;
	const u4 _max_frames;
	volatile bool _disenrolled;
	static Monitor* _transition_block_lock;

	JavaThread* next_thread(ThreadsList* t_list, JavaThread* first_sampled, JavaThread* current);
	void task_stacktrace(JfrSampleType type, JavaThread** last_thread);
	JfrThreadSampler(size_t interval_java, size_t interval_native, u4 max_frames);
	~JfrThreadSampler();

	void start_thread();

	void enroll();
	void disenroll();
	void set_java_interval(size_t interval) { _interval_java = interval; };
	void set_native_interval(size_t interval) { _interval_native = interval; };
	size_t get_java_interval() { return _interval_java; };
	size_t get_native_interval() { return _interval_native; };

	public:
	void run();
	static Monitor* transition_block() { return _transition_block_lock; }
	static void on_javathread_suspend(JavaThread* thread);
	};

	Monitor* JfrThreadSampler::_transition_block_lock = new Monitor(Mutex::leaf, "Trace block", true, Monitor::_safepoint_check_never);

	static void clear_transition_block(JavaThread* jt) {
	jt->clear_trace_flag();
	JfrThreadLocal* const tl = jt->jfr_thread_local();
	if (tl->is_trace_block()) {
	MutexLockerEx ml(JfrThreadSampler::transition_block(), Mutex::_no_safepoint_check_flag);
	JfrThreadSampler::transition_block()->notify_all();
	}
	}

	JfrSampleType JfrThreadSampleClosure::do_sample_thread(JavaThread* thread, JfrStackFrame* frames, u4 max_frames, bool java_sample, bool native_sample) {
	assert(Threads_lock->owned_by_self(), "Holding the thread table lock.");
	if (thread->is_hidden_from_external_view()) {
	return NO_SAMPLE;
	}
	if (thread->in_deopt_handler()) {
	return NO_SAMPLE;
	}
	JfrSampleType ret = NO_SAMPLE;
	thread->set_trace_flag();
	if (!UseMembar) {
	os::serialize_thread_states();
	}
	if (in_java_sample(thread) && java_sample) {
	ret = sample_thread_in_java(thread, frames, max_frames) ? JAVA_SAMPLE : NO_SAMPLE;
	} else if (in_native_sample(thread) && native_sample) {
	ret = sample_thread_in_native(thread, frames, max_frames) ? NATIVE_SAMPLE : NO_SAMPLE;
	}
	clear_transition_block(thread);
	return ret;
	}

	JfrThreadSampler::JfrThreadSampler(size_t interval_java, size_t interval_native, u4 max_frames) :
	_sample(),
	_sampler_thread(NULL),
	_frames(JfrCHeapObj::new_array<JfrStackFrame>(max_frames)),
	_last_thread_java(NULL),
	_last_thread_native(NULL),
	_interval_java(interval_java),
	_interval_native(interval_native),
	_cur_index(-1),
	_max_frames(max_frames),
	_disenrolled(true) {
	}

	JfrThreadSampler::~JfrThreadSampler() {
	JfrCHeapObj::free(_frames, sizeof(JfrStackFrame) * _max_frames);
	}

	void JfrThreadSampler::on_javathread_suspend(JavaThread* thread) {
	JfrThreadLocal* const tl = thread->jfr_thread_local();
	tl->set_trace_block();
	{
	MutexLockerEx ml(transition_block(), Mutex::_no_safepoint_check_flag);
	while (thread->is_trace_suspend()) {
	transition_block()->wait(true);
	}
	tl->clear_trace_block();
	}
	}

	JavaThread* JfrThreadSampler::next_thread(ThreadsList* t_list, JavaThread* first_sampled, JavaThread* current) {
	assert(Threads_lock->owned_by_self(), "Holding the thread table lock.");
	if (current == NULL) {
	_cur_index = 0;
	return t_list->thread_at(_cur_index);
	}

	if (_cur_index == -1 \|\| t_list->thread_at(_cur_index) != current) {
	// 'current' is not at '_cur_index' so find it:
	_cur_index = t_list->find_index_of_JavaThread(current);
	assert(_cur_index != -1, "current JavaThread should be findable.");
	}
	_cur_index++;

	JavaThread* next = NULL;
	// wrap
	if ((uint)_cur_index >= t_list->length()) {
	_cur_index = 0;
	}
	next = t_list->thread_at(_cur_index);

	// sample wrap
	if (next == first_sampled) {
	return NULL;
	}
	return next;
	}

	void JfrThreadSampler::start_thread() {
	if (os::create_thread(this, os::os_thread)) {
	os::start_thread(this);
	} else {
	log_error(jfr)("Failed to create thread for thread sampling");
	}
	}

	void JfrThreadSampler::enroll() {
	if (_disenrolled) {
	log_info(jfr)("Enrolling thread sampler");
	_sample.signal();
	_disenrolled = false;
	}
	}

	void JfrThreadSampler::disenroll() {
	if (!_disenrolled) {
	_sample.wait();
	_disenrolled = true;
	log_info(jfr)("Disenrolling thread sampler");
	}
	}

	static jlong get_monotonic_ms() {
	return os::javaTimeNanos() / 1000000;
	}

	void JfrThreadSampler::run() {
	assert(_sampler_thread == NULL, "invariant");
	_sampler_thread = this;

	jlong last_java_ms = get_monotonic_ms();
	jlong last_native_ms = last_java_ms;
	while (true) {
	if (!_sample.trywait()) {
	// disenrolled
	_sample.wait();
	last_java_ms = get_monotonic_ms();
	last_native_ms = last_java_ms;
	}
	_sample.signal();
	jlong java_interval = _interval_java == 0 ? max_jlong : MAX2<jlong>(_interval_java, 10);
	jlong native_interval = _interval_native == 0 ? max_jlong : MAX2<jlong>(_interval_native, 10);

	jlong now_ms = get_monotonic_ms();

	jlong next_j = java_interval + last_java_ms - now_ms;
	jlong next_n = native_interval + last_native_ms - now_ms;

	jlong sleep_to_next = MIN2<jlong>(next_j, next_n);

	if (sleep_to_next > 0) {
	os::naked_short_sleep(sleep_to_next);
	}

	if ((next_j - sleep_to_next) <= 0) {
	task_stacktrace(JAVA_SAMPLE, &_last_thread_java);
	last_java_ms = get_monotonic_ms();
	}
	if ((next_n - sleep_to_next) <= 0) {
	task_stacktrace(NATIVE_SAMPLE, &_last_thread_native);
	last_native_ms = get_monotonic_ms();
	}
	}
	delete this;
	}

	static const int MAX_NR_OF_SAMPLES = 5;

	void JfrThreadSampler::task_stacktrace(JfrSampleType type, JavaThread** last_thread) {
	ResourceMark rm;
	EventExecutionSample samples[MAX_NR_OF_SAMPLES];
	EventNativeMethodSample samples_native[MAX_NR_OF_SAMPLES];
	JfrThreadSampleClosure sample_task(samples, samples_native);

	int num_samples = 0;
	{
	elapsedTimer sample_time;
	sample_time.start();

	{
	MonitorLockerEx tlock(Threads_lock, Mutex::_allow_vm_block_flag);
	ThreadsListHandle tlh;
	JavaThread* current = tlh.includes(last_thread) ? last_thread : NULL;
	JavaThread* start = NULL;

	while (num_samples < MAX_NR_OF_SAMPLES) {
	current = next_thread(tlh.list(), start, current);
	if (current == NULL) {
	break;
	}
	if (start == NULL) {
	start = current; // remember thread where we started sampling
	}
	if (current->is_Compiler_thread()) {
	continue;
	}
	*last_thread = current; // remember thread we last sampled
	JfrSampleType ret = sample_task.do_sample_thread(current, _frames, _max_frames, type == JAVA_SAMPLE, type == NATIVE_SAMPLE);
	switch (type) {
	case JAVA_SAMPLE:
	case NATIVE_SAMPLE:
	++num_samples;
	break;
	default:
	break;
	}
	}
	}
	sample_time.stop();
	log_trace(jfr)("JFR thread sampling done in %3.7f secs with %d java %d native samples",
	sample_time.seconds(), sample_task.java_entries(), sample_task.native_entries());
	}
	if (num_samples > 0) {
	sample_task.commit_events();
	}
	}

	static JfrThreadSampling* _instance = NULL;

	JfrThreadSampling& JfrThreadSampling::instance() {
	return *_instance;
	}

	JfrThreadSampling* JfrThreadSampling::create() {
	assert(_instance == NULL, "invariant");
	_instance = new JfrThreadSampling();
	return _instance;
	}

	void JfrThreadSampling::destroy() {
	if (_instance != NULL) {
	delete _instance;
	_instance = NULL;
	}
	}

	JfrThreadSampling::JfrThreadSampling() : _sampler(NULL) {}

	JfrThreadSampling::~JfrThreadSampling() {
	if (_sampler != NULL) {
	_sampler->disenroll();
	}
	}

	static void log(size_t interval_java, size_t interval_native) {
	log_info(jfr)("Updated thread sampler for java: " SIZE_FORMAT" ms, native " SIZE_FORMAT " ms", interval_java, interval_native);
	}

	void JfrThreadSampling::start_sampler(size_t interval_java, size_t interval_native) {
	assert(_sampler == NULL, "invariant");
	log_info(jfr)("Enrolling thread sampler");
	_sampler = new JfrThreadSampler(interval_java, interval_native, JfrOptionSet::stackdepth());
	_sampler->start_thread();
	_sampler->enroll();
	}

	void JfrThreadSampling::set_sampling_interval(bool java_interval, size_t period) {
	size_t interval_java = 0;
	size_t interval_native = 0;
	if (_sampler != NULL) {
	interval_java = _sampler->get_java_interval();
	interval_native = _sampler->get_native_interval();
	}

	if (java_interval) {
	interval_java = period;
	} else {
	interval_native = period;
	}

	if (interval_java > 0 \|\| interval_native > 0) {
	if (_sampler == NULL) {
	log_info(jfr)("Creating thread sampler for java:%zu ms, native %zu ms", interval_java, interval_native);
	start_sampler(interval_java, interval_native);
	} else {
	_sampler->set_java_interval(interval_java);
	_sampler->set_native_interval(interval_native);
	_sampler->enroll();
	}
	assert(_sampler != NULL, "invariant");
	log(interval_java, interval_native);
	} else if (_sampler != NULL) {
	_sampler->disenroll();
	}
	}

	void JfrThreadSampling::set_java_sample_interval(size_t period) {
	if (_instance == NULL && 0 == period) {
	return;
	}
	instance().set_sampling_interval(true, period);
	}

	void JfrThreadSampling::set_native_sample_interval(size_t period) {
	if (_instance == NULL && 0 == period) {
	return;
	}
	instance().set_sampling_interval(false, period);
	}

	void JfrThreadSampling::on_javathread_suspend(JavaThread* thread) {
	JfrThreadSampler::on_javathread_suspend(thread);
	}

	Thread* JfrThreadSampling::sampler_thread() {
	if (_instance == NULL) {
	return NULL;
	}
	return _instance->_sampler != NULL ? _instance->_sampler->_sampler_thread : NULL;
	}