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 /*

  * Copyright (c) 2003, 2011, 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 "interpreter/interpreter.hpp"

 #include "jvmtifiles/jvmtiEnv.hpp"

 #include "memory/resourceArea.hpp"

 #include "prims/jvmtiEventController.hpp"

 #include "prims/jvmtiEventController.inline.hpp"

 #include "prims/jvmtiExport.hpp"

 #include "prims/jvmtiImpl.hpp"

 #include "prims/jvmtiThreadState.inline.hpp"

 #include "runtime/frame.hpp"

 #include "runtime/thread.hpp"

 #include "runtime/vframe.hpp"

 #include "runtime/vframe_hp.hpp"

 #include "runtime/vmThread.hpp"

 #include "runtime/vm_operations.hpp"

 #ifdef JVMTI_TRACE

 #define EC_TRACE(out) if (JvmtiTrace::trace_event_controller()) { SafeResourceMark rm; tty->print_cr out; } while (0)

 #else

 #define EC_TRACE(out)

 #endif /*JVMTI_TRACE */

 // bits for standard events

 static const jlong  SINGLE_STEP_BIT = (((jlong)1) << (JVMTI_EVENT_SINGLE_STEP - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  FRAME_POP_BIT = (((jlong)1) << (JVMTI_EVENT_FRAME_POP - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  BREAKPOINT_BIT = (((jlong)1) << (JVMTI_EVENT_BREAKPOINT - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  FIELD_ACCESS_BIT = (((jlong)1) << (JVMTI_EVENT_FIELD_ACCESS - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  FIELD_MODIFICATION_BIT = (((jlong)1) << (JVMTI_EVENT_FIELD_MODIFICATION - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  METHOD_ENTRY_BIT = (((jlong)1) << (JVMTI_EVENT_METHOD_ENTRY - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  METHOD_EXIT_BIT = (((jlong)1) << (JVMTI_EVENT_METHOD_EXIT - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  CLASS_FILE_LOAD_HOOK_BIT = (((jlong)1) << (JVMTI_EVENT_CLASS_FILE_LOAD_HOOK - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  NATIVE_METHOD_BIND_BIT = (((jlong)1) << (JVMTI_EVENT_NATIVE_METHOD_BIND - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  VM_START_BIT = (((jlong)1) << (JVMTI_EVENT_VM_START - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  VM_INIT_BIT = (((jlong)1) << (JVMTI_EVENT_VM_INIT - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  VM_DEATH_BIT = (((jlong)1) << (JVMTI_EVENT_VM_DEATH - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  CLASS_LOAD_BIT = (((jlong)1) << (JVMTI_EVENT_CLASS_LOAD - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  CLASS_PREPARE_BIT = (((jlong)1) << (JVMTI_EVENT_CLASS_PREPARE - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  THREAD_START_BIT = (((jlong)1) << (JVMTI_EVENT_THREAD_START - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  THREAD_END_BIT = (((jlong)1) << (JVMTI_EVENT_THREAD_END - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  EXCEPTION_THROW_BIT = (((jlong)1) << (JVMTI_EVENT_EXCEPTION - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  EXCEPTION_CATCH_BIT = (((jlong)1) << (JVMTI_EVENT_EXCEPTION_CATCH - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  MONITOR_CONTENDED_ENTER_BIT = (((jlong)1) << (JVMTI_EVENT_MONITOR_CONTENDED_ENTER - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  MONITOR_CONTENDED_ENTERED_BIT = (((jlong)1) << (JVMTI_EVENT_MONITOR_CONTENDED_ENTERED - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  MONITOR_WAIT_BIT = (((jlong)1) << (JVMTI_EVENT_MONITOR_WAIT - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  MONITOR_WAITED_BIT = (((jlong)1) << (JVMTI_EVENT_MONITOR_WAITED - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  DYNAMIC_CODE_GENERATED_BIT = (((jlong)1) << (JVMTI_EVENT_DYNAMIC_CODE_GENERATED - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  DATA_DUMP_BIT = (((jlong)1) << (JVMTI_EVENT_DATA_DUMP_REQUEST - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  COMPILED_METHOD_LOAD_BIT = (((jlong)1) << (JVMTI_EVENT_COMPILED_METHOD_LOAD - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  COMPILED_METHOD_UNLOAD_BIT = (((jlong)1) << (JVMTI_EVENT_COMPILED_METHOD_UNLOAD - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  GARBAGE_COLLECTION_START_BIT = (((jlong)1) << (JVMTI_EVENT_GARBAGE_COLLECTION_START - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  GARBAGE_COLLECTION_FINISH_BIT = (((jlong)1) << (JVMTI_EVENT_GARBAGE_COLLECTION_FINISH - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  OBJECT_FREE_BIT = (((jlong)1) << (JVMTI_EVENT_OBJECT_FREE - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  RESOURCE_EXHAUSTED_BIT = (((jlong)1) << (JVMTI_EVENT_RESOURCE_EXHAUSTED - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  VM_OBJECT_ALLOC_BIT = (((jlong)1) << (JVMTI_EVENT_VM_OBJECT_ALLOC - TOTAL_MIN_EVENT_TYPE_VAL));

 // bits for extension events

 static const jlong  CLASS_UNLOAD_BIT = (((jlong)1) << (EXT_EVENT_CLASS_UNLOAD - TOTAL_MIN_EVENT_TYPE_VAL));

 static const jlong  MONITOR_BITS = MONITOR_CONTENDED_ENTER_BIT | MONITOR_CONTENDED_ENTERED_BIT |

                           MONITOR_WAIT_BIT | MONITOR_WAITED_BIT;

 static const jlong  EXCEPTION_BITS = EXCEPTION_THROW_BIT | EXCEPTION_CATCH_BIT;

 static const jlong  INTERP_EVENT_BITS =  SINGLE_STEP_BIT | METHOD_ENTRY_BIT | METHOD_EXIT_BIT |

                                 FRAME_POP_BIT | FIELD_ACCESS_BIT | FIELD_MODIFICATION_BIT;

 static const jlong  THREAD_FILTERED_EVENT_BITS = INTERP_EVENT_BITS | EXCEPTION_BITS | MONITOR_BITS |

                                         BREAKPOINT_BIT | CLASS_LOAD_BIT | CLASS_PREPARE_BIT | THREAD_END_BIT;

 static const jlong  NEED_THREAD_LIFE_EVENTS = THREAD_FILTERED_EVENT_BITS | THREAD_START_BIT;

 static const jlong  EARLY_EVENT_BITS = CLASS_FILE_LOAD_HOOK_BIT |

                                VM_START_BIT | VM_INIT_BIT | VM_DEATH_BIT | NATIVE_METHOD_BIND_BIT |

                                THREAD_START_BIT | THREAD_END_BIT |

                                DYNAMIC_CODE_GENERATED_BIT;

 static const jlong  GLOBAL_EVENT_BITS = ~THREAD_FILTERED_EVENT_BITS;

 static const jlong  SHOULD_POST_ON_EXCEPTIONS_BITS = EXCEPTION_BITS | METHOD_EXIT_BIT | FRAME_POP_BIT;

 ///////////////////////////////////////////////////////////////

 //

 // JvmtiEventEnabled

 //

 JvmtiEventEnabled::JvmtiEventEnabled() {

   clear();

 }

 void JvmtiEventEnabled::clear() {

   _enabled_bits = 0;

 #ifndef PRODUCT

   _init_guard = JEE_INIT_GUARD;

 #endif

 }

 void JvmtiEventEnabled::set_enabled(jvmtiEvent event_type, bool enabled) {

   jlong bits = get_bits();

   jlong mask = bit_for(event_type);

   if (enabled) {

     bits |= mask;

   } else {

     bits &= ~mask;

   }

   set_bits(bits);

 }

 ///////////////////////////////////////////////////////////////

 //

 // JvmtiEnvThreadEventEnable

 //

 JvmtiEnvThreadEventEnable::JvmtiEnvThreadEventEnable() {

   _event_user_enabled.clear();

   _event_enabled.clear();

 }

 JvmtiEnvThreadEventEnable::~JvmtiEnvThreadEventEnable() {

   _event_user_enabled.clear();

   _event_enabled.clear();

 }

 ///////////////////////////////////////////////////////////////

 //

 // JvmtiThreadEventEnable

 //

 JvmtiThreadEventEnable::JvmtiThreadEventEnable() {

   _event_enabled.clear();

 }

 JvmtiThreadEventEnable::~JvmtiThreadEventEnable() {

   _event_enabled.clear();

 }

 ///////////////////////////////////////////////////////////////

 //

 // JvmtiEnvEventEnable

 //

 JvmtiEnvEventEnable::JvmtiEnvEventEnable() {

   _event_user_enabled.clear();

   _event_callback_enabled.clear();

   _event_enabled.clear();

 }

 JvmtiEnvEventEnable::~JvmtiEnvEventEnable() {

   _event_user_enabled.clear();

   _event_callback_enabled.clear();

   _event_enabled.clear();

 }

 ///////////////////////////////////////////////////////////////

 //

 // VM_EnterInterpOnlyMode

 //

 class VM_EnterInterpOnlyMode : public VM_Operation {

 private:

   JvmtiThreadState *_state;

 public:

   VM_EnterInterpOnlyMode(JvmtiThreadState *state);

   bool allow_nested_vm_operations() const        { return true; }

   VMOp_Type type() const { return VMOp_EnterInterpOnlyMode; }

   void doit();

   // to do: this same function is in jvmtiImpl - should be in one place

   bool can_be_deoptimized(vframe* vf) {

     return (vf->is_compiled_frame() && vf->fr().can_be_deoptimized());

   }

 };

 VM_EnterInterpOnlyMode::VM_EnterInterpOnlyMode(JvmtiThreadState *state)

   : _state(state)

 {

 }

 void VM_EnterInterpOnlyMode::doit() {

   // Set up the current stack depth for later tracking

   _state->invalidate_cur_stack_depth();

   _state->enter_interp_only_mode();

   JavaThread *thread = _state->get_thread();

   if (thread->has_last_Java_frame()) {

     // If running in fullspeed mode, single stepping is implemented

     // as follows: first, the interpreter does not dispatch to

     // compiled code for threads that have single stepping enabled;

     // second, we deoptimize all methods on the thread's stack when

     // interpreted-only mode is enabled the first time for a given

     // thread (nothing to do if no Java frames yet).

     int num_marked = 0;

     ResourceMark resMark;

     RegisterMap rm(thread, false);

     for (vframe* vf = thread->last_java_vframe(&rm); vf; vf = vf->sender()) {

       if (can_be_deoptimized(vf)) {

         ((compiledVFrame*) vf)->code()->mark_for_deoptimization();

         ++num_marked;

       }

     }

     if (num_marked > 0) {

       VM_Deoptimize op;

       VMThread::execute(&op);

     }

   }

 }

 ///////////////////////////////////////////////////////////////

 //

 // VM_ChangeSingleStep

 //

 class VM_ChangeSingleStep : public VM_Operation {

 private:

   bool _on;

 public:

   VM_ChangeSingleStep(bool on);

   VMOp_Type type() const                         { return VMOp_ChangeSingleStep; }

   bool allow_nested_vm_operations() const        { return true; }

   void doit();   // method definition is after definition of JvmtiEventControllerPrivate because of scoping

 };

 VM_ChangeSingleStep::VM_ChangeSingleStep(bool on)

   : _on(on != 0)

 {

 }

 ///////////////////////////////////////////////////////////////

 //

 // JvmtiEventControllerPrivate

 //

 // Private internal implementation methods for JvmtiEventController.

 //

 // These methods are thread safe either because they are called

 // in early VM initialization which is single threaded, or they

 // hold the JvmtiThreadState_lock.

 //

 class JvmtiEventControllerPrivate : public AllStatic {

   static bool _initialized;

 public:

   static void set_should_post_single_step(bool on);

   static void enter_interp_only_mode(JvmtiThreadState *state);

   static void leave_interp_only_mode(JvmtiThreadState *state);

   static void recompute_enabled();

   static jlong recompute_env_enabled(JvmtiEnvBase* env);

   static jlong recompute_env_thread_enabled(JvmtiEnvThreadState* ets, JvmtiThreadState* state);

   static jlong recompute_thread_enabled(JvmtiThreadState *state);

   static void event_init();

   static void set_user_enabled(JvmtiEnvBase *env, JavaThread *thread,

                         jvmtiEvent event_type, bool enabled);

   static void set_event_callbacks(JvmtiEnvBase *env,

                                   const jvmtiEventCallbacks* callbacks,

                                   jint size_of_callbacks);

   static void set_extension_event_callback(JvmtiEnvBase *env,

                                            jint extension_event_index,

                                            jvmtiExtensionEvent callback);

   static void set_frame_pop(JvmtiEnvThreadState *env_thread, JvmtiFramePop fpop);

   static void clear_frame_pop(JvmtiEnvThreadState *env_thread, JvmtiFramePop fpop);

   static void clear_to_frame_pop(JvmtiEnvThreadState *env_thread, JvmtiFramePop fpop);

   static void change_field_watch(jvmtiEvent event_type, bool added);

   static void thread_started(JavaThread *thread);

   static void thread_ended(JavaThread *thread);

   static void env_initialize(JvmtiEnvBase *env);

   static void env_dispose(JvmtiEnvBase *env);

   static void vm_start();

   static void vm_init();

   static void vm_death();

   static void trace_changed(JvmtiThreadState *state, jlong now_enabled, jlong changed);

   static void trace_changed(jlong now_enabled, jlong changed);

 };

 bool JvmtiEventControllerPrivate::_initialized = false;

 void JvmtiEventControllerPrivate::set_should_post_single_step(bool on) {

   // we have permission to do this, VM op doesn't

   JvmtiExport::set_should_post_single_step(on);

 }

 // This change must always be occur when at a safepoint.

 // Being at a safepoint causes the interpreter to use the

 // safepoint dispatch table which we overload to find single

 // step points.  Just to be sure that it has been set, we

 // call notice_safepoints when turning on single stepping.

 // When we leave our current safepoint, should_post_single_step

 // will be checked by the interpreter, and the table kept

 // or changed accordingly.

 void VM_ChangeSingleStep::doit() {

   JvmtiEventControllerPrivate::set_should_post_single_step(_on);

   if (_on) {

     Interpreter::notice_safepoints();

   }

 }

 void JvmtiEventControllerPrivate::enter_interp_only_mode(JvmtiThreadState *state) {

   EC_TRACE(("JVMTI [%s] # Entering interpreter only mode",

             JvmtiTrace::safe_get_thread_name(state->get_thread())));

   VM_EnterInterpOnlyMode op(state);

   VMThread::execute(&op);

 }

 void

 JvmtiEventControllerPrivate::leave_interp_only_mode(JvmtiThreadState *state) {

   EC_TRACE(("JVMTI [%s] # Leaving interpreter only mode",

             JvmtiTrace::safe_get_thread_name(state->get_thread())));

   state->leave_interp_only_mode();

 }

 void

 JvmtiEventControllerPrivate::trace_changed(JvmtiThreadState *state, jlong now_enabled, jlong changed) {

 #ifdef JVMTI_TRACE

   if (JvmtiTrace::trace_event_controller()) {

     SafeResourceMark rm;

     // traces standard events only

     for (int ei = JVMTI_MIN_EVENT_TYPE_VAL; ei <= JVMTI_MAX_EVENT_TYPE_VAL; ++ei) {

       jlong bit = JvmtiEventEnabled::bit_for((jvmtiEvent)ei);

       if (changed & bit) {

         // it changed, print it

         tty->print_cr("JVMTI [%s] # %s event %s",

                       JvmtiTrace::safe_get_thread_name(state->get_thread()),

                       (now_enabled & bit)? "Enabling" : "Disabling", JvmtiTrace::event_name((jvmtiEvent)ei));

       }

     }

   }

 #endif /*JVMTI_TRACE */

 }

 void

 JvmtiEventControllerPrivate::trace_changed(jlong now_enabled, jlong changed) {

 #ifdef JVMTI_TRACE

   if (JvmtiTrace::trace_event_controller()) {

     SafeResourceMark rm;

     // traces standard events only

     for (int ei = JVMTI_MIN_EVENT_TYPE_VAL; ei <= JVMTI_MAX_EVENT_TYPE_VAL; ++ei) {

       jlong bit = JvmtiEventEnabled::bit_for((jvmtiEvent)ei);

       if (changed & bit) {

         // it changed, print it

         tty->print_cr("JVMTI [-] # %s event %s",

                       (now_enabled & bit)? "Enabling" : "Disabling", JvmtiTrace::event_name((jvmtiEvent)ei));

       }

     }

   }

 #endif /*JVMTI_TRACE */

 }

 // For the specified env: compute the currently truly enabled events

 // set external state accordingly.

 // Return value and set value must include all events.

 // But outside this class, only non-thread-filtered events can be queried..

 jlong

 JvmtiEventControllerPrivate::recompute_env_enabled(JvmtiEnvBase* env) {

   jlong was_enabled = env->env_event_enable()->_event_enabled.get_bits();

   jlong now_enabled =

     env->env_event_enable()->_event_callback_enabled.get_bits() &

     env->env_event_enable()->_event_user_enabled.get_bits();

   switch (JvmtiEnv::get_phase()) {

   case JVMTI_PHASE_PRIMORDIAL:

   case JVMTI_PHASE_ONLOAD:

     // only these events allowed in primordial or onload phase

     now_enabled &= (EARLY_EVENT_BITS & ~THREAD_FILTERED_EVENT_BITS);

     break;

   case JVMTI_PHASE_START:

     // only these events allowed in start phase

     now_enabled &= EARLY_EVENT_BITS;

     break;

   case JVMTI_PHASE_LIVE:

     // all events allowed during live phase

     break;

   case JVMTI_PHASE_DEAD:

     // no events allowed when dead

     now_enabled = 0;

     break;

   default:

     assert(false, "no other phases - sanity check");

     break;

   }

   // will we really send these events to this env

   env->env_event_enable()->_event_enabled.set_bits(now_enabled);

   trace_changed(now_enabled, (now_enabled ^ was_enabled)  & ~THREAD_FILTERED_EVENT_BITS);

   return now_enabled;

 }

 // For the specified env and thread: compute the currently truly enabled events

 // set external state accordingly.  Only thread-filtered events are included.

 jlong

 JvmtiEventControllerPrivate::recompute_env_thread_enabled(JvmtiEnvThreadState* ets, JvmtiThreadState* state) {

   JvmtiEnv *env = ets->get_env();

   jlong was_enabled = ets->event_enable()->_event_enabled.get_bits();

   jlong now_enabled =  THREAD_FILTERED_EVENT_BITS &

     env->env_event_enable()->_event_callback_enabled.get_bits() &

     (env->env_event_enable()->_event_user_enabled.get_bits() |

      ets->event_enable()->_event_user_enabled.get_bits());

   // for frame pops and field watchs, computed enabled state

   // is only true if an event has been requested

   if (!ets->has_frame_pops()) {

     now_enabled &= ~FRAME_POP_BIT;

   }

   if (*((int *)JvmtiExport::get_field_access_count_addr()) == 0) {

     now_enabled &= ~FIELD_ACCESS_BIT;

   }

   if (*((int *)JvmtiExport::get_field_modification_count_addr()) == 0) {

     now_enabled &= ~FIELD_MODIFICATION_BIT;

   }

   switch (JvmtiEnv::get_phase()) {

   case JVMTI_PHASE_DEAD:

     // no events allowed when dead

     now_enabled = 0;

     break;

   }

   // if anything changed do update

   if (now_enabled != was_enabled) {

     // will we really send these events to this thread x env

     ets->event_enable()->_event_enabled.set_bits(now_enabled);

     // If the enabled status of the single step or breakpoint events changed,

     // the location status may need to change as well.

     jlong changed = now_enabled ^ was_enabled;

     if (changed & SINGLE_STEP_BIT) {

       ets->reset_current_location(JVMTI_EVENT_SINGLE_STEP, (now_enabled & SINGLE_STEP_BIT) != 0);

     }

     if (changed & BREAKPOINT_BIT) {

       ets->reset_current_location(JVMTI_EVENT_BREAKPOINT,  (now_enabled & BREAKPOINT_BIT) != 0);

     }

     trace_changed(state, now_enabled, changed);

   }

   return now_enabled;

 }

 // For the specified thread: compute the currently truly enabled events

 // set external state accordingly.  Only thread-filtered events are included.

 jlong

 JvmtiEventControllerPrivate::recompute_thread_enabled(JvmtiThreadState *state) {

   if (state == NULL) {

     // associated JavaThread is exiting

     return (jlong)0;

   }

   jlong was_any_env_enabled = state->thread_event_enable()->_event_enabled.get_bits();

   jlong any_env_enabled = 0;

   {

     // This iteration will include JvmtiEnvThreadStates whoses environments

     // have been disposed.  These JvmtiEnvThreadStates must not be filtered

     // as recompute must be called on them to disable their events,

     JvmtiEnvThreadStateIterator it(state);

     for (JvmtiEnvThreadState* ets = it.first(); ets != NULL; ets = it.next(ets)) {

       any_env_enabled |= recompute_env_thread_enabled(ets, state);

     }

   }

   if (any_env_enabled != was_any_env_enabled) {

     // mark if event is truly enabled on this thread in any environment

     state->thread_event_enable()->_event_enabled.set_bits(any_env_enabled);

     // compute interp_only mode

     bool should_be_interp = (any_env_enabled & INTERP_EVENT_BITS) != 0;

     bool is_now_interp = state->is_interp_only_mode();

     if (should_be_interp != is_now_interp) {

       if (should_be_interp) {

         enter_interp_only_mode(state);

       } else {

         leave_interp_only_mode(state);

       }

     }

     // update the JavaThread cached value for thread-specific should_post_on_exceptions value

     bool should_post_on_exceptions = (any_env_enabled & SHOULD_POST_ON_EXCEPTIONS_BITS) != 0;

     state->set_should_post_on_exceptions(should_post_on_exceptions);

   }

   return any_env_enabled;

 }

 // Compute truly enabled events - meaning if the event can and could be

 // sent.  An event is truly enabled if it is user enabled on the thread

 // or globally user enabled, but only if there is a callback or event hook

 // for it and, for field watch and frame pop, one has been set.

 // Compute if truly enabled, per thread, per environment, per combination

 // (thread x environment), and overall.  These merges are true if any is true.

 // True per thread if some environment has callback set and the event is globally

 // enabled or enabled for this thread.

 // True per environment if the callback is set and the event is globally

 // enabled in this environment or enabled for any thread in this environment.

 // True per combination if the environment has the callback set and the

 // event is globally enabled in this environment or the event is enabled

 // for this thread and environment.

 //

 // All states transitions dependent on these transitions are also handled here.

 void

 JvmtiEventControllerPrivate::recompute_enabled() {

   assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");

   // event enabled for any thread in any environment

   jlong was_any_env_thread_enabled = JvmtiEventController::_universal_global_event_enabled.get_bits();

   jlong any_env_thread_enabled = 0;

   EC_TRACE(("JVMTI [-] # recompute enabled - before %llx", was_any_env_thread_enabled));

   // compute non-thread-filters events.

   // This must be done separately from thread-filtered events, since some

   // events can occur before any threads exist.

   JvmtiEnvIterator it;

   for (JvmtiEnvBase* env = it.first(); env != NULL; env = it.next(env)) {

     any_env_thread_enabled |= recompute_env_enabled(env);

   }

   // We need to create any missing jvmti_thread_state if there are globally set thread

   // filtered events and there weren't last time

   if (    (any_env_thread_enabled & THREAD_FILTERED_EVENT_BITS) != 0 &&

       (was_any_env_thread_enabled & THREAD_FILTERED_EVENT_BITS) == 0) {

     assert(JvmtiEnv::is_vm_live() || (JvmtiEnv::get_phase()==JVMTI_PHASE_START),

       "thread filtered events should not be enabled when VM not in start or live phase");

     {

       MutexLocker mu(Threads_lock);   //hold the Threads_lock for the iteration

       for (JavaThread *tp = Threads::first(); tp != NULL; tp = tp->next()) {

         // state_for_while_locked() makes tp->is_exiting() check

         JvmtiThreadState::state_for_while_locked(tp);  // create the thread state if missing

       }

     }// release Threads_lock

   }

   // compute and set thread-filtered events

   for (JvmtiThreadState *state = JvmtiThreadState::first(); state != NULL; state = state->next()) {

     any_env_thread_enabled |= recompute_thread_enabled(state);

   }

   // set universal state (across all envs and threads)

   jlong delta = any_env_thread_enabled ^ was_any_env_thread_enabled;

   if (delta != 0) {

     JvmtiExport::set_should_post_field_access((any_env_thread_enabled & FIELD_ACCESS_BIT) != 0);

     JvmtiExport::set_should_post_field_modification((any_env_thread_enabled & FIELD_MODIFICATION_BIT) != 0);

     JvmtiExport::set_should_post_class_load((any_env_thread_enabled & CLASS_LOAD_BIT) != 0);

     JvmtiExport::set_should_post_class_file_load_hook((any_env_thread_enabled & CLASS_FILE_LOAD_HOOK_BIT) != 0);

     JvmtiExport::set_should_post_native_method_bind((any_env_thread_enabled & NATIVE_METHOD_BIND_BIT) != 0);

     JvmtiExport::set_should_post_dynamic_code_generated((any_env_thread_enabled & DYNAMIC_CODE_GENERATED_BIT) != 0);

     JvmtiExport::set_should_post_data_dump((any_env_thread_enabled & DATA_DUMP_BIT) != 0);

     JvmtiExport::set_should_post_class_prepare((any_env_thread_enabled & CLASS_PREPARE_BIT) != 0);

     JvmtiExport::set_should_post_class_unload((any_env_thread_enabled & CLASS_UNLOAD_BIT) != 0);

     JvmtiExport::set_should_post_monitor_contended_enter((any_env_thread_enabled & MONITOR_CONTENDED_ENTER_BIT) != 0);

     JvmtiExport::set_should_post_monitor_contended_entered((any_env_thread_enabled & MONITOR_CONTENDED_ENTERED_BIT) != 0);

     JvmtiExport::set_should_post_monitor_wait((any_env_thread_enabled & MONITOR_WAIT_BIT) != 0);

     JvmtiExport::set_should_post_monitor_waited((any_env_thread_enabled & MONITOR_WAITED_BIT) != 0);

     JvmtiExport::set_should_post_garbage_collection_start((any_env_thread_enabled & GARBAGE_COLLECTION_START_BIT) != 0);

     JvmtiExport::set_should_post_garbage_collection_finish((any_env_thread_enabled & GARBAGE_COLLECTION_FINISH_BIT) != 0);

     JvmtiExport::set_should_post_object_free((any_env_thread_enabled & OBJECT_FREE_BIT) != 0);

     JvmtiExport::set_should_post_resource_exhausted((any_env_thread_enabled & RESOURCE_EXHAUSTED_BIT) != 0);

     JvmtiExport::set_should_post_compiled_method_load((any_env_thread_enabled & COMPILED_METHOD_LOAD_BIT) != 0);

     JvmtiExport::set_should_post_compiled_method_unload((any_env_thread_enabled & COMPILED_METHOD_UNLOAD_BIT) != 0);

     JvmtiExport::set_should_post_vm_object_alloc((any_env_thread_enabled & VM_OBJECT_ALLOC_BIT) != 0);

     // need this if we want thread events or we need them to init data

     JvmtiExport::set_should_post_thread_life((any_env_thread_enabled & NEED_THREAD_LIFE_EVENTS) != 0);

     // If single stepping is turned on or off, execute the VM op to change it.

     if (delta & SINGLE_STEP_BIT) {

       switch (JvmtiEnv::get_phase()) {

       case JVMTI_PHASE_DEAD:

         // If the VM is dying we can't execute VM ops

         break;

       case JVMTI_PHASE_LIVE: {

         VM_ChangeSingleStep op((any_env_thread_enabled & SINGLE_STEP_BIT) != 0);

         VMThread::execute(&op);

         break;

       }

       default:

         assert(false, "should never come here before live phase");

         break;

       }

     }

     // set global truly enabled, that is, any thread in any environment

     JvmtiEventController::_universal_global_event_enabled.set_bits(any_env_thread_enabled);

     // set global should_post_on_exceptions

     JvmtiExport::set_should_post_on_exceptions((any_env_thread_enabled & SHOULD_POST_ON_EXCEPTIONS_BITS) != 0);

   }

   EC_TRACE(("JVMTI [-] # recompute enabled - after %llx", any_env_thread_enabled));

 }

 void

 JvmtiEventControllerPrivate::thread_started(JavaThread *thread) {

   assert(thread->is_Java_thread(), "Must be JavaThread");

   assert(thread == Thread::current(), "must be current thread");

   assert(JvmtiEnvBase::environments_might_exist(), "to enter event controller, JVM TI environments must exist");

   EC_TRACE(("JVMTI [%s] # thread started", JvmtiTrace::safe_get_thread_name(thread)));

   // if we have any thread filtered events globally enabled, create/update the thread state

   if ((JvmtiEventController::_universal_global_event_enabled.get_bits() & THREAD_FILTERED_EVENT_BITS) != 0) {

     MutexLocker mu(JvmtiThreadState_lock);

     // create the thread state if missing

     JvmtiThreadState *state = JvmtiThreadState::state_for_while_locked(thread);

     if (state != NULL) {    // skip threads with no JVMTI thread state

       recompute_thread_enabled(state);

     }

   }

 }

 void

 JvmtiEventControllerPrivate::thread_ended(JavaThread *thread) {

   // Removes the JvmtiThreadState associated with the specified thread.

   // May be called after all environments have been disposed.

   assert(JvmtiThreadState_lock->is_locked(), "sanity check");

   EC_TRACE(("JVMTI [%s] # thread ended", JvmtiTrace::safe_get_thread_name(thread)));

   JvmtiThreadState *state = thread->jvmti_thread_state();

   assert(state != NULL, "else why are we here?");

   delete state;

 }

 void JvmtiEventControllerPrivate::set_event_callbacks(JvmtiEnvBase *env,

                                                       const jvmtiEventCallbacks* callbacks,

                                                       jint size_of_callbacks) {

   assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");

   EC_TRACE(("JVMTI [*] # set event callbacks"));

   env->set_event_callbacks(callbacks, size_of_callbacks);

   jlong enabled_bits = 0;

   for (int ei = JVMTI_MIN_EVENT_TYPE_VAL; ei <= JVMTI_MAX_EVENT_TYPE_VAL; ++ei) {

     jvmtiEvent evt_t = (jvmtiEvent)ei;

     if (env->has_callback(evt_t)) {

       enabled_bits |= JvmtiEventEnabled::bit_for(evt_t);

     }

   }

   env->env_event_enable()->_event_callback_enabled.set_bits(enabled_bits);

   recompute_enabled();

 }

 void

 JvmtiEventControllerPrivate::set_extension_event_callback(JvmtiEnvBase *env,

                                                           jint extension_event_index,

                                                           jvmtiExtensionEvent callback)

 {

   assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");

   EC_TRACE(("JVMTI [*] # set extension event callback"));

   // extension events are allocated below JVMTI_MIN_EVENT_TYPE_VAL

   assert(extension_event_index >= (jint)EXT_MIN_EVENT_TYPE_VAL &&

          extension_event_index <= (jint)EXT_MAX_EVENT_TYPE_VAL, "sanity check");

   // As the bits for both standard (jvmtiEvent) and extension

   // (jvmtiExtEvents) are stored in the same word we cast here to

   // jvmtiEvent to set/clear the bit for this extension event.

   jvmtiEvent event_type = (jvmtiEvent)extension_event_index;

   // Prevent a possible race condition where events are re-enabled by a call to

   // set event callbacks, where the DisposeEnvironment occurs after the boiler-plate

   // environment check and before the lock is acquired.

   // We can safely do the is_valid check now, as JvmtiThreadState_lock is held.

   bool enabling = (callback != NULL) && (env->is_valid());

   env->env_event_enable()->set_user_enabled(event_type, enabling);

   // update the callback

   jvmtiExtEventCallbacks* ext_callbacks = env->ext_callbacks();

   switch (extension_event_index) {

     case EXT_EVENT_CLASS_UNLOAD :

       ext_callbacks->ClassUnload = callback;

       break;

     default:

       ShouldNotReachHere();

   }

   // update the callback enable/disable bit

   jlong enabled_bits = env->env_event_enable()->_event_callback_enabled.get_bits();

   jlong bit_for = JvmtiEventEnabled::bit_for(event_type);

   if (enabling) {

     enabled_bits |= bit_for;

   } else {

     enabled_bits &= ~bit_for;

   }

   env->env_event_enable()->_event_callback_enabled.set_bits(enabled_bits);

   recompute_enabled();

 }

 void

 JvmtiEventControllerPrivate::env_initialize(JvmtiEnvBase *env) {

   assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");

   EC_TRACE(("JVMTI [*] # env initialize"));

   if (JvmtiEnvBase::is_vm_live()) {

     // if we didn't initialize event info already (this is a late

     // launched environment), do it now.

     event_init();

   }

   env->initialize();

   // add the JvmtiEnvThreadState to each JvmtiThreadState

   for (JvmtiThreadState *state = JvmtiThreadState::first(); state != NULL; state = state->next()) {

     state->add_env(env);

     assert((JvmtiEnv*)(state->env_thread_state(env)->get_env()) == env, "sanity check");

   }

   JvmtiEventControllerPrivate::recompute_enabled();

 }

 void

 JvmtiEventControllerPrivate::env_dispose(JvmtiEnvBase *env) {

   assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");

   EC_TRACE(("JVMTI [*] # env dispose"));

   // Before the environment is marked disposed, disable all events on this

   // environment (by zapping the callbacks).  As a result, the disposed

   // environment will not call event handlers.

   set_event_callbacks(env, NULL, 0);

   for (jint extension_event_index = EXT_MIN_EVENT_TYPE_VAL;

        extension_event_index <= EXT_MAX_EVENT_TYPE_VAL;

        ++extension_event_index) {

     set_extension_event_callback(env, extension_event_index, NULL);

   }

   // Let the environment finish disposing itself.

   env->env_dispose();

 }

 void

 JvmtiEventControllerPrivate::set_user_enabled(JvmtiEnvBase *env, JavaThread *thread,

                                           jvmtiEvent event_type, bool enabled) {

   assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");

   EC_TRACE(("JVMTI [%s] # user %s event %s",

             thread==NULL? "ALL": JvmtiTrace::safe_get_thread_name(thread),

             enabled? "enabled" : "disabled", JvmtiTrace::event_name(event_type)));

   if (thread == NULL) {

     env->env_event_enable()->set_user_enabled(event_type, enabled);

   } else {

     // create the thread state (if it didn't exist before)

     JvmtiThreadState *state = JvmtiThreadState::state_for_while_locked(thread);

     if (state != NULL) {

       state->env_thread_state(env)->event_enable()->set_user_enabled(event_type, enabled);

     }

   }

   recompute_enabled();

 }

 void

 JvmtiEventControllerPrivate::set_frame_pop(JvmtiEnvThreadState *ets, JvmtiFramePop fpop) {

   EC_TRACE(("JVMTI [%s] # set frame pop - frame=%d",

             JvmtiTrace::safe_get_thread_name(ets->get_thread()),

             fpop.frame_number() ));

   ets->get_frame_pops()->set(fpop);

   recompute_thread_enabled(ets->get_thread()->jvmti_thread_state());

 }

 void

 JvmtiEventControllerPrivate::clear_frame_pop(JvmtiEnvThreadState *ets, JvmtiFramePop fpop) {

   EC_TRACE(("JVMTI [%s] # clear frame pop - frame=%d",

             JvmtiTrace::safe_get_thread_name(ets->get_thread()),

             fpop.frame_number() ));

   ets->get_frame_pops()->clear(fpop);

   recompute_thread_enabled(ets->get_thread()->jvmti_thread_state());

 }

 void

 JvmtiEventControllerPrivate::clear_to_frame_pop(JvmtiEnvThreadState *ets, JvmtiFramePop fpop) {

   int cleared_cnt = ets->get_frame_pops()->clear_to(fpop);

   EC_TRACE(("JVMTI [%s] # clear to frame pop - frame=%d, count=%d",

             JvmtiTrace::safe_get_thread_name(ets->get_thread()),

             fpop.frame_number(),

             cleared_cnt ));

   if (cleared_cnt > 0) {

     recompute_thread_enabled(ets->get_thread()->jvmti_thread_state());

   }

 }

 void

 JvmtiEventControllerPrivate::change_field_watch(jvmtiEvent event_type, bool added) {

   int *count_addr;

   switch (event_type) {

   case JVMTI_EVENT_FIELD_MODIFICATION:

     count_addr = (int *)JvmtiExport::get_field_modification_count_addr();

     break;

   case JVMTI_EVENT_FIELD_ACCESS:

     count_addr = (int *)JvmtiExport::get_field_access_count_addr();

     break;

   default:

     assert(false, "incorrect event");

     return;

   }

   EC_TRACE(("JVMTI [-] # change field watch - %s %s count=%d",

             event_type==JVMTI_EVENT_FIELD_MODIFICATION? "modification" : "access",

             added? "add" : "remove",

             *count_addr));

   if (added) {

     (*count_addr)++;

     if (*count_addr == 1) {

       recompute_enabled();

     }

   } else {

     if (*count_addr > 0) {

       (*count_addr)--;

       if (*count_addr == 0) {

         recompute_enabled();

       }

     } else {

       assert(false, "field watch out of phase");

     }

   }

 }

 void

 JvmtiEventControllerPrivate::event_init() {

   assert(JvmtiThreadState_lock->is_locked(), "sanity check");

   if (_initialized) {

     return;

   }

   EC_TRACE(("JVMTI [-] # VM live"));

 #ifdef ASSERT

   // check that our idea and the spec's idea of threaded events match

   for (int ei = JVMTI_MIN_EVENT_TYPE_VAL; ei <= JVMTI_MAX_EVENT_TYPE_VAL; ++ei) {

     jlong bit = JvmtiEventEnabled::bit_for((jvmtiEvent)ei);

     assert(((THREAD_FILTERED_EVENT_BITS & bit) != 0) == JvmtiUtil::event_threaded(ei),

            "thread filtered event list does not match");

   }

 #endif

   _initialized = true;

 }

 void

 JvmtiEventControllerPrivate::vm_start() {

   // some events are now able to be enabled (phase has changed)

   JvmtiEventControllerPrivate::recompute_enabled();

 }

 void

 JvmtiEventControllerPrivate::vm_init() {

   event_init();

   // all the events are now able to be enabled (phase has changed)

   JvmtiEventControllerPrivate::recompute_enabled();

 }

 void

 JvmtiEventControllerPrivate::vm_death() {

   // events are disabled (phase has changed)

   JvmtiEventControllerPrivate::recompute_enabled();

 }

 ///////////////////////////////////////////////////////////////

 //

 // JvmtiEventController

 //

 JvmtiEventEnabled JvmtiEventController::_universal_global_event_enabled;

 bool

 JvmtiEventController::is_global_event(jvmtiEvent event_type) {

   assert(is_valid_event_type(event_type), "invalid event type");

   jlong bit_for = ((jlong)1) << (event_type - TOTAL_MIN_EVENT_TYPE_VAL);

   return((bit_for & GLOBAL_EVENT_BITS)!=0);

 }

 void

 JvmtiEventController::set_user_enabled(JvmtiEnvBase *env, JavaThread *thread, jvmtiEvent event_type, bool enabled) {

   if (Threads::number_of_threads() == 0) {

     // during early VM start-up locks don't exist, but we are safely single threaded,

     // call the functionality without holding the JvmtiThreadState_lock.

     JvmtiEventControllerPrivate::set_user_enabled(env, thread, event_type, enabled);

   } else {

     MutexLocker mu(JvmtiThreadState_lock);

     JvmtiEventControllerPrivate::set_user_enabled(env, thread, event_type, enabled);

   }

 }

 void

 JvmtiEventController::set_event_callbacks(JvmtiEnvBase *env,

                                           const jvmtiEventCallbacks* callbacks,

                                           jint size_of_callbacks) {

   if (Threads::number_of_threads() == 0) {

     // during early VM start-up locks don't exist, but we are safely single threaded,

     // call the functionality without holding the JvmtiThreadState_lock.

     JvmtiEventControllerPrivate::set_event_callbacks(env, callbacks, size_of_callbacks);

   } else {

     MutexLocker mu(JvmtiThreadState_lock);

     JvmtiEventControllerPrivate::set_event_callbacks(env, callbacks, size_of_callbacks);

   }

 }

 void

 JvmtiEventController::set_extension_event_callback(JvmtiEnvBase *env,

                                                    jint extension_event_index,

                                                    jvmtiExtensionEvent callback) {

   if (Threads::number_of_threads() == 0) {

     JvmtiEventControllerPrivate::set_extension_event_callback(env, extension_event_index, callback);

   } else {

     MutexLocker mu(JvmtiThreadState_lock);

     JvmtiEventControllerPrivate::set_extension_event_callback(env, extension_event_index, callback);

   }

 }

 void

 JvmtiEventController::set_frame_pop(JvmtiEnvThreadState *ets, JvmtiFramePop fpop) {

   MutexLocker mu(JvmtiThreadState_lock);

   JvmtiEventControllerPrivate::set_frame_pop(ets, fpop);

 }

 void

 JvmtiEventController::clear_frame_pop(JvmtiEnvThreadState *ets, JvmtiFramePop fpop) {

   MutexLocker mu(JvmtiThreadState_lock);

   JvmtiEventControllerPrivate::clear_frame_pop(ets, fpop);

 }

 void

 JvmtiEventController::clear_to_frame_pop(JvmtiEnvThreadState *ets, JvmtiFramePop fpop) {

   MutexLocker mu(JvmtiThreadState_lock);

   JvmtiEventControllerPrivate::clear_to_frame_pop(ets, fpop);

 }

 void

 JvmtiEventController::change_field_watch(jvmtiEvent event_type, bool added) {

   MutexLocker mu(JvmtiThreadState_lock);

   JvmtiEventControllerPrivate::change_field_watch(event_type, added);

 }

 void

 JvmtiEventController::thread_started(JavaThread *thread) {

   // operates only on the current thread

   // JvmtiThreadState_lock grabbed only if needed.

   JvmtiEventControllerPrivate::thread_started(thread);

 }

 void

 JvmtiEventController::thread_ended(JavaThread *thread) {

   // operates only on the current thread

   // JvmtiThreadState_lock grabbed only if needed.

   JvmtiEventControllerPrivate::thread_ended(thread);

 }

 void

 JvmtiEventController::env_initialize(JvmtiEnvBase *env) {

   if (Threads::number_of_threads() == 0) {

     // during early VM start-up locks don't exist, but we are safely single threaded,

     // call the functionality without holding the JvmtiThreadState_lock.

     JvmtiEventControllerPrivate::env_initialize(env);

   } else {

     MutexLocker mu(JvmtiThreadState_lock);

     JvmtiEventControllerPrivate::env_initialize(env);

   }

 }

 void

 JvmtiEventController::env_dispose(JvmtiEnvBase *env) {

   if (Threads::number_of_threads() == 0) {

     // during early VM start-up locks don't exist, but we are safely single threaded,

     // call the functionality without holding the JvmtiThreadState_lock.

     JvmtiEventControllerPrivate::env_dispose(env);

   } else {

     MutexLocker mu(JvmtiThreadState_lock);

     JvmtiEventControllerPrivate::env_dispose(env);

   }

 }

 void

 JvmtiEventController::vm_start() {

   if (JvmtiEnvBase::environments_might_exist()) {

     MutexLocker mu(JvmtiThreadState_lock);

     JvmtiEventControllerPrivate::vm_start();

   }

 }

 void

 JvmtiEventController::vm_init() {

   if (JvmtiEnvBase::environments_might_exist()) {

     MutexLocker mu(JvmtiThreadState_lock);

     JvmtiEventControllerPrivate::vm_init();

   }

 }

 void

 JvmtiEventController::vm_death() {

   if (JvmtiEnvBase::environments_might_exist()) {

     MutexLocker mu(JvmtiThreadState_lock);

     JvmtiEventControllerPrivate::vm_death();

   }

 }