openjdkjvmti/events-inl.h - platform/art - Git at Google

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ART_OPENJDKJVMTI_EVENTS_INL_H_
 #define ART_OPENJDKJVMTI_EVENTS_INL_H_

 #include <array>
 #include <type_traits>
 #include <tuple>

 #include "base/mutex-inl.h"
 #include "events.h"
 #include "jni_internal.h"
 #include "nativehelper/scoped_local_ref.h"
 #include "scoped_thread_state_change-inl.h"
 #include "ti_breakpoint.h"

 #include "art_jvmti.h"

 namespace openjdkjvmti {

 static inline ArtJvmtiEvent GetArtJvmtiEvent(ArtJvmTiEnv* env, jvmtiEvent e) {
   if (UNLIKELY(e == JVMTI_EVENT_CLASS_FILE_LOAD_HOOK)) {
     if (env->capabilities.can_retransform_classes) {
       return ArtJvmtiEvent::kClassFileLoadHookRetransformable;
     } else {
       return ArtJvmtiEvent::kClassFileLoadHookNonRetransformable;
     }
   } else {
     return static_cast<ArtJvmtiEvent>(e);
   }
 }

 namespace impl {

 // Helper for ensuring that the dispatch environment is sane. Events with JNIEnvs need to stash
 // pending exceptions since they can cause new ones to be thrown. In accordance with the JVMTI
 // specification we allow exceptions originating from events to overwrite the current exception,
 // including exceptions originating from earlier events.
 class ScopedEventDispatchEnvironment FINAL : public art::ValueObject {
  public:
   ScopedEventDispatchEnvironment() : env_(nullptr), throw_(nullptr, nullptr) {
     DCHECK_EQ(art::Thread::Current()->GetState(), art::ThreadState::kNative);
   }

   explicit ScopedEventDispatchEnvironment(JNIEnv* env)
       : env_(env),
         throw_(env_, env_->ExceptionOccurred()) {
     DCHECK_EQ(art::Thread::Current()->GetState(), art::ThreadState::kNative);
     // The spec doesn't say how much local data should be there, so we just give 128 which seems
     // likely to be enough for most cases.
     env_->PushLocalFrame(128);
     env_->ExceptionClear();
   }

   ~ScopedEventDispatchEnvironment() {
     if (env_ != nullptr) {
       if (throw_.get() != nullptr && !env_->ExceptionCheck()) {
         // TODO It would be nice to add the overwritten exceptions to the suppressed exceptions list
         // of the newest exception.
         env_->Throw(throw_.get());
       }
       env_->PopLocalFrame(nullptr);
     }
     DCHECK_EQ(art::Thread::Current()->GetState(), art::ThreadState::kNative);
   }

  private:
   JNIEnv* env_;
   ScopedLocalRef<jthrowable> throw_;

   DISALLOW_COPY_AND_ASSIGN(ScopedEventDispatchEnvironment);
 };

 // Infrastructure to achieve type safety for event dispatch.

 #define FORALL_EVENT_TYPES(fn)                                                       \
   fn(VMInit,                  ArtJvmtiEvent::kVmInit)                                \
   fn(VMDeath,                 ArtJvmtiEvent::kVmDeath)                               \
   fn(ThreadStart,             ArtJvmtiEvent::kThreadStart)                           \
   fn(ThreadEnd,               ArtJvmtiEvent::kThreadEnd)                             \
   fn(ClassFileLoadHook,       ArtJvmtiEvent::kClassFileLoadHookRetransformable)      \
   fn(ClassFileLoadHook,       ArtJvmtiEvent::kClassFileLoadHookNonRetransformable)   \
   fn(ClassLoad,               ArtJvmtiEvent::kClassLoad)                             \
   fn(ClassPrepare,            ArtJvmtiEvent::kClassPrepare)                          \
   fn(VMStart,                 ArtJvmtiEvent::kVmStart)                               \
   fn(Exception,               ArtJvmtiEvent::kException)                             \
   fn(ExceptionCatch,          ArtJvmtiEvent::kExceptionCatch)                        \
   fn(SingleStep,              ArtJvmtiEvent::kSingleStep)                            \
   fn(FramePop,                ArtJvmtiEvent::kFramePop)                              \
   fn(Breakpoint,              ArtJvmtiEvent::kBreakpoint)                            \
   fn(FieldAccess,             ArtJvmtiEvent::kFieldAccess)                           \
   fn(FieldModification,       ArtJvmtiEvent::kFieldModification)                     \
   fn(MethodEntry,             ArtJvmtiEvent::kMethodEntry)                           \
   fn(MethodExit,              ArtJvmtiEvent::kMethodExit)                            \
   fn(NativeMethodBind,        ArtJvmtiEvent::kNativeMethodBind)                      \
   fn(CompiledMethodLoad,      ArtJvmtiEvent::kCompiledMethodLoad)                    \
   fn(CompiledMethodUnload,    ArtJvmtiEvent::kCompiledMethodUnload)                  \
   fn(DynamicCodeGenerated,    ArtJvmtiEvent::kDynamicCodeGenerated)                  \
   fn(DataDumpRequest,         ArtJvmtiEvent::kDataDumpRequest)                       \
   fn(MonitorWait,             ArtJvmtiEvent::kMonitorWait)                           \
   fn(MonitorWaited,           ArtJvmtiEvent::kMonitorWaited)                         \
   fn(MonitorContendedEnter,   ArtJvmtiEvent::kMonitorContendedEnter)                 \
   fn(MonitorContendedEntered, ArtJvmtiEvent::kMonitorContendedEntered)               \
   fn(ResourceExhausted,       ArtJvmtiEvent::kResourceExhausted)                     \
   fn(GarbageCollectionStart,  ArtJvmtiEvent::kGarbageCollectionStart)                \
   fn(GarbageCollectionFinish, ArtJvmtiEvent::kGarbageCollectionFinish)               \
   fn(ObjectFree,              ArtJvmtiEvent::kObjectFree)                            \
   fn(VMObjectAlloc,           ArtJvmtiEvent::kVmObjectAlloc)                         \
   fn(DdmPublishChunk,         ArtJvmtiEvent::kDdmPublishChunk)

 template <ArtJvmtiEvent kEvent>
 struct EventFnType {
 };

 #define EVENT_FN_TYPE(name, enum_name)                    \
 template <>                                               \
 struct EventFnType<enum_name> {                           \
   using type = decltype(ArtJvmtiEventCallbacks().name);   \
 };

 FORALL_EVENT_TYPES(EVENT_FN_TYPE)

 #undef EVENT_FN_TYPE

 #define MAKE_EVENT_HANDLER_FUNC(name, enum_name)                                          \
 template<>                                                                                \
 struct EventHandlerFunc<enum_name> {                                                      \
   using EventFnType = typename impl::EventFnType<enum_name>::type;                        \
   explicit EventHandlerFunc(ArtJvmTiEnv* env)                                             \
       : env_(env),                                                                        \
         fn_(env_->event_callbacks == nullptr ? nullptr : env_->event_callbacks->name) { } \
                                                                                           \
   template <typename ...Args>                                                             \
   ALWAYS_INLINE                                                                           \
   void ExecuteCallback(JNIEnv* jnienv, Args... args) const {                              \
     if (fn_ != nullptr) {                                                                 \
       ScopedEventDispatchEnvironment sede(jnienv);                                        \
       DoExecute(jnienv, args...);                                                         \
     }                                                                                     \
   }                                                                                       \
                                                                                           \
   template <typename ...Args>                                                             \
   ALWAYS_INLINE                                                                           \
   void ExecuteCallback(Args... args) const {                                              \
     if (fn_ != nullptr) {                                                                 \
       ScopedEventDispatchEnvironment sede;                                                \
       DoExecute(args...);                                                                 \
     }                                                                                     \
   }                                                                                       \
                                                                                           \
  private:                                                                                 \
   template <typename ...Args>                                                             \
   ALWAYS_INLINE                                                                           \
   inline void DoExecute(Args... args) const {                                             \
     static_assert(std::is_same<EventFnType, void(*)(jvmtiEnv*, Args...)>::value,          \
           "Unexpected different type of ExecuteCallback");                                \
     fn_(env_, args...);                                                                   \
   }                                                                                       \
                                                                                           \
  public:                                                                                  \
   ArtJvmTiEnv* env_;                                                                      \
   EventFnType fn_;                                                                        \
 };

 FORALL_EVENT_TYPES(MAKE_EVENT_HANDLER_FUNC)

 #undef MAKE_EVENT_HANDLER_FUNC

 #undef FORALL_EVENT_TYPES

 }  // namespace impl

 template <ArtJvmtiEvent kEvent, typename ...Args>
 inline std::vector<impl::EventHandlerFunc<kEvent>> EventHandler::CollectEvents(art::Thread* thread,
                                                                                Args... args) const {
   art::ReaderMutexLock mu(thread, envs_lock_);
   std::vector<impl::EventHandlerFunc<kEvent>> handlers;
   for (ArtJvmTiEnv* env : envs) {
     if (ShouldDispatch<kEvent>(env, thread, args...)) {
       impl::EventHandlerFunc<kEvent> h(env);
       handlers.push_back(h);
     }
   }
   return handlers;
 }

 // C++ does not allow partial template function specialization. The dispatch for our separated
 // ClassFileLoadHook event types is the same, so use this helper for code deduplication.
 template <ArtJvmtiEvent kEvent>
 inline void EventHandler::DispatchClassFileLoadHookEvent(art::Thread* thread,
                                                          JNIEnv* jnienv,
                                                          jclass class_being_redefined,
                                                          jobject loader,
                                                          const char* name,
                                                          jobject protection_domain,
                                                          jint class_data_len,
                                                          const unsigned char* class_data,
                                                          jint* new_class_data_len,
                                                          unsigned char** new_class_data) const {
   art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
   static_assert(kEvent == ArtJvmtiEvent::kClassFileLoadHookRetransformable ||
                 kEvent == ArtJvmtiEvent::kClassFileLoadHookNonRetransformable, "Unsupported event");
   DCHECK(*new_class_data == nullptr);
   jint current_len = class_data_len;
   unsigned char* current_class_data = const_cast<unsigned char*>(class_data);
   std::vector<impl::EventHandlerFunc<kEvent>> handlers =
       CollectEvents<kEvent>(thread,
                             jnienv,
                             class_being_redefined,
                             loader,
                             name,
                             protection_domain,
                             class_data_len,
                             class_data,
                             new_class_data_len,
                             new_class_data);
   ArtJvmTiEnv* last_env = nullptr;
   for (const impl::EventHandlerFunc<kEvent>& event : handlers) {
     jint new_len = 0;
     unsigned char* new_data = nullptr;
     ExecuteCallback<kEvent>(event,
                             jnienv,
                             class_being_redefined,
                             loader,
                             name,
                             protection_domain,
                             current_len,
                             static_cast<const unsigned char*>(current_class_data),
                             &new_len,
                             &new_data);
     if (new_data != nullptr && new_data != current_class_data) {
       // Destroy the data the last transformer made. We skip this if the previous state was the
       // initial one since we don't know here which jvmtiEnv allocated it.
       // NB Currently this doesn't matter since all allocations just go to malloc but in the
       // future we might have jvmtiEnv's keep track of their allocations for leak-checking.
       if (last_env != nullptr) {
         last_env->Deallocate(current_class_data);
       }
       last_env = event.env_;
       current_class_data = new_data;
       current_len = new_len;
     }
   }
   if (last_env != nullptr) {
     *new_class_data_len = current_len;
     *new_class_data = current_class_data;
   }
 }

 // Our goal for DispatchEvent: Do not allow implicit type conversion. Types of ...args must match
 // exactly the argument types of the corresponding Jvmti kEvent function pointer.

 template <ArtJvmtiEvent kEvent, typename ...Args>
 inline void EventHandler::DispatchEvent(art::Thread* thread, Args... args) const {
   art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
   static_assert(!std::is_same<JNIEnv*,
                               typename std::decay_t<
                                   std::tuple_element_t<0, std::tuple<Args..., nullptr_t>>>>::value,
                 "Should be calling DispatchEvent with explicit JNIEnv* argument!");
   DCHECK(thread == nullptr || !thread->IsExceptionPending());
   std::vector<impl::EventHandlerFunc<kEvent>> events = CollectEvents<kEvent>(thread, args...);
   for (auto event : events) {
     ExecuteCallback<kEvent>(event, args...);
   }
 }

 template <ArtJvmtiEvent kEvent, typename ...Args>
 inline void EventHandler::DispatchEvent(art::Thread* thread, JNIEnv* jnienv, Args... args) const {
   art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
   std::vector<impl::EventHandlerFunc<kEvent>> events = CollectEvents<kEvent>(thread,
                                                                              jnienv,
                                                                              args...);
   for (auto event : events) {
     ExecuteCallback<kEvent>(event, jnienv, args...);
   }
 }

 template <ArtJvmtiEvent kEvent, typename ...Args>
 inline void EventHandler::DispatchEventOnEnv(
     ArtJvmTiEnv* env, art::Thread* thread, JNIEnv* jnienv, Args... args) const {
   DCHECK(env != nullptr);
   if (ShouldDispatch<kEvent, JNIEnv*, Args...>(env, thread, jnienv, args...)) {
     art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
     impl::EventHandlerFunc<kEvent> func(env);
     ExecuteCallback<kEvent>(func, jnienv, args...);
   }
 }

 template <ArtJvmtiEvent kEvent, typename ...Args>
 inline void EventHandler::DispatchEventOnEnv(
     ArtJvmTiEnv* env, art::Thread* thread, Args... args) const {
   static_assert(!std::is_same<JNIEnv*,
                               typename std::decay_t<
                                   std::tuple_element_t<0, std::tuple<Args..., nullptr_t>>>>::value,
                 "Should be calling DispatchEventOnEnv with explicit JNIEnv* argument!");
   DCHECK(env != nullptr);
   if (ShouldDispatch<kEvent, Args...>(env, thread, args...)) {
     art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
     impl::EventHandlerFunc<kEvent> func(env);
     ExecuteCallback<kEvent>(func, args...);
   }
 }

 template <ArtJvmtiEvent kEvent, typename ...Args>
 inline void EventHandler::ExecuteCallback(impl::EventHandlerFunc<kEvent> handler, Args... args) {
   handler.ExecuteCallback(args...);
 }

 template <ArtJvmtiEvent kEvent, typename ...Args>
 inline void EventHandler::ExecuteCallback(impl::EventHandlerFunc<kEvent> handler,
                                           JNIEnv* jnienv,
                                           Args... args) {
   handler.ExecuteCallback(jnienv, args...);
 }

 // Events that need custom logic for if we send the event but are otherwise normal. This includes
 // the kBreakpoint, kFramePop, kFieldAccess, and kFieldModification events.

 // Need to give custom specializations for Breakpoint since it needs to filter out which particular
 // methods/dex_pcs agents get notified on.
 template <>
 inline bool EventHandler::ShouldDispatch<ArtJvmtiEvent::kBreakpoint>(
     ArtJvmTiEnv* env,
     art::Thread* thread,
     JNIEnv* jnienv ATTRIBUTE_UNUSED,
     jthread jni_thread ATTRIBUTE_UNUSED,
     jmethodID jmethod,
     jlocation location) const {
   art::ReaderMutexLock lk(art::Thread::Current(), env->event_info_mutex_);
   art::ArtMethod* method = art::jni::DecodeArtMethod(jmethod);
   return ShouldDispatchOnThread<ArtJvmtiEvent::kBreakpoint>(env, thread) &&
       env->breakpoints.find({method, location}) != env->breakpoints.end();
 }

 template <>
 inline bool EventHandler::ShouldDispatch<ArtJvmtiEvent::kFramePop>(
     ArtJvmTiEnv* env,
     art::Thread* thread,
     JNIEnv* jnienv ATTRIBUTE_UNUSED,
     jthread jni_thread ATTRIBUTE_UNUSED,
     jmethodID jmethod ATTRIBUTE_UNUSED,
     jboolean is_exception ATTRIBUTE_UNUSED,
     const art::ShadowFrame* frame) const {
   // Search for the frame. Do this before checking if we need to send the event so that we don't
   // have to deal with use-after-free or the frames being reallocated later.
   art::WriterMutexLock lk(art::Thread::Current(), env->event_info_mutex_);
   return env->notify_frames.erase(frame) != 0 &&
       ShouldDispatchOnThread<ArtJvmtiEvent::kFramePop>(env, thread);
 }

 // Need to give custom specializations for FieldAccess and FieldModification since they need to
 // filter out which particular fields agents want to get notified on.
 // TODO The spec allows us to do shortcuts like only allow one agent to ever set these watches. This
 // could make the system more performant.
 template <>
 inline bool EventHandler::ShouldDispatch<ArtJvmtiEvent::kFieldModification>(
     ArtJvmTiEnv* env,
     art::Thread* thread,
     JNIEnv* jnienv ATTRIBUTE_UNUSED,
     jthread jni_thread ATTRIBUTE_UNUSED,
     jmethodID method ATTRIBUTE_UNUSED,
     jlocation location ATTRIBUTE_UNUSED,
     jclass field_klass ATTRIBUTE_UNUSED,
     jobject object ATTRIBUTE_UNUSED,
     jfieldID field,
     char type_char ATTRIBUTE_UNUSED,
     jvalue val ATTRIBUTE_UNUSED) const {
   art::ReaderMutexLock lk(art::Thread::Current(), env->event_info_mutex_);
   return ShouldDispatchOnThread<ArtJvmtiEvent::kFieldModification>(env, thread) &&
       env->modify_watched_fields.find(
           art::jni::DecodeArtField(field)) != env->modify_watched_fields.end();
 }

 template <>
 inline bool EventHandler::ShouldDispatch<ArtJvmtiEvent::kFieldAccess>(
     ArtJvmTiEnv* env,
     art::Thread* thread,
     JNIEnv* jnienv ATTRIBUTE_UNUSED,
     jthread jni_thread ATTRIBUTE_UNUSED,
     jmethodID method ATTRIBUTE_UNUSED,
     jlocation location ATTRIBUTE_UNUSED,
     jclass field_klass ATTRIBUTE_UNUSED,
     jobject object ATTRIBUTE_UNUSED,
     jfieldID field) const {
   art::ReaderMutexLock lk(art::Thread::Current(), env->event_info_mutex_);
   return ShouldDispatchOnThread<ArtJvmtiEvent::kFieldAccess>(env, thread) &&
       env->access_watched_fields.find(
           art::jni::DecodeArtField(field)) != env->access_watched_fields.end();
 }

 // Need to give custom specializations for FramePop since it needs to filter out which particular
 // agents get the event. This specialization gets an extra argument so we can determine which (if
 // any) environments have the frame pop.
 // TODO It might be useful to use more template magic to have this only define ShouldDispatch or
 // something.
 template <>
 inline void EventHandler::ExecuteCallback<ArtJvmtiEvent::kFramePop>(
     impl::EventHandlerFunc<ArtJvmtiEvent::kFramePop> event,
     JNIEnv* jnienv,
     jthread jni_thread,
     jmethodID jmethod,
     jboolean is_exception,
     const art::ShadowFrame* frame ATTRIBUTE_UNUSED) {
   ExecuteCallback<ArtJvmtiEvent::kFramePop>(event, jnienv, jni_thread, jmethod, is_exception);
 }

 // Need to give a custom specialization for NativeMethodBind since it has to deal with an out
 // variable.
 template <>
 inline void EventHandler::DispatchEvent<ArtJvmtiEvent::kNativeMethodBind>(art::Thread* thread,
                                                                           JNIEnv* jnienv,
                                                                           jthread jni_thread,
                                                                           jmethodID method,
                                                                           void* cur_method,
                                                                           void** new_method) const {
   art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
   std::vector<impl::EventHandlerFunc<ArtJvmtiEvent::kNativeMethodBind>> events =
       CollectEvents<ArtJvmtiEvent::kNativeMethodBind>(thread,
                                                       jnienv,
                                                       jni_thread,
                                                       method,
                                                       cur_method,
                                                       new_method);
   *new_method = cur_method;
   for (auto event : events) {
     *new_method = cur_method;
     ExecuteCallback<ArtJvmtiEvent::kNativeMethodBind>(event,
                                                       jnienv,
                                                       jni_thread,
                                                       method,
                                                       cur_method,
                                                       new_method);
     if (*new_method != nullptr) {
       cur_method = *new_method;
     }
   }
   *new_method = cur_method;
 }

 // C++ does not allow partial template function specialization. The dispatch for our separated
 // ClassFileLoadHook event types is the same, and in the DispatchClassFileLoadHookEvent helper.
 // The following two DispatchEvent specializations dispatch to it.
 template <>
 inline void EventHandler::DispatchEvent<ArtJvmtiEvent::kClassFileLoadHookRetransformable>(
     art::Thread* thread,
     JNIEnv* jnienv,
     jclass class_being_redefined,
     jobject loader,
     const char* name,
     jobject protection_domain,
     jint class_data_len,
     const unsigned char* class_data,
     jint* new_class_data_len,
     unsigned char** new_class_data) const {
   return DispatchClassFileLoadHookEvent<ArtJvmtiEvent::kClassFileLoadHookRetransformable>(
       thread,
       jnienv,
       class_being_redefined,
       loader,
       name,
       protection_domain,
       class_data_len,
       class_data,
       new_class_data_len,
       new_class_data);
 }

 template <>
 inline void EventHandler::DispatchEvent<ArtJvmtiEvent::kClassFileLoadHookNonRetransformable>(
     art::Thread* thread,
     JNIEnv* jnienv,
     jclass class_being_redefined,
     jobject loader,
     const char* name,
     jobject protection_domain,
     jint class_data_len,
     const unsigned char* class_data,
     jint* new_class_data_len,
     unsigned char** new_class_data) const {
   return DispatchClassFileLoadHookEvent<ArtJvmtiEvent::kClassFileLoadHookNonRetransformable>(
       thread,
       jnienv,
       class_being_redefined,
       loader,
       name,
       protection_domain,
       class_data_len,
       class_data,
       new_class_data_len,
       new_class_data);
 }

 template <ArtJvmtiEvent kEvent>
 inline bool EventHandler::ShouldDispatchOnThread(ArtJvmTiEnv* env, art::Thread* thread) const {
   bool dispatch = env->event_masks.global_event_mask.Test(kEvent);

   if (!dispatch && thread != nullptr && env->event_masks.unioned_thread_event_mask.Test(kEvent)) {
     EventMask* mask = env->event_masks.GetEventMaskOrNull(thread);
     dispatch = mask != nullptr && mask->Test(kEvent);
   }
   return dispatch;
 }

 template <ArtJvmtiEvent kEvent, typename ...Args>
 inline bool EventHandler::ShouldDispatch(ArtJvmTiEnv* env,
                                          art::Thread* thread,
                                          Args... args ATTRIBUTE_UNUSED) const {
   static_assert(std::is_same<typename impl::EventFnType<kEvent>::type,
                              void(*)(jvmtiEnv*, Args...)>::value,
                 "Unexpected different type of shouldDispatch");

   return ShouldDispatchOnThread<kEvent>(env, thread);
 }

 inline void EventHandler::RecalculateGlobalEventMask(ArtJvmtiEvent event) {
   art::WriterMutexLock mu(art::Thread::Current(), envs_lock_);
   RecalculateGlobalEventMaskLocked(event);
 }

 inline void EventHandler::RecalculateGlobalEventMaskLocked(ArtJvmtiEvent event) {
   bool union_value = false;
   for (const ArtJvmTiEnv* stored_env : envs) {
     if (stored_env == nullptr) {
       continue;
     }
     union_value |= stored_env->event_masks.global_event_mask.Test(event);
     union_value |= stored_env->event_masks.unioned_thread_event_mask.Test(event);
     if (union_value) {
       break;
     }
   }
   global_mask.Set(event, union_value);
 }

 inline bool EventHandler::NeedsEventUpdate(ArtJvmTiEnv* env,
                                            const jvmtiCapabilities& caps,
                                            bool added) {
   ArtJvmtiEvent event = added ? ArtJvmtiEvent::kClassFileLoadHookNonRetransformable
                               : ArtJvmtiEvent::kClassFileLoadHookRetransformable;
   return (added && caps.can_access_local_variables == 1) ||
       caps.can_generate_breakpoint_events == 1 ||
       (caps.can_retransform_classes == 1 &&
        IsEventEnabledAnywhere(event) &&
        env->event_masks.IsEnabledAnywhere(event));
 }

 inline void EventHandler::HandleChangedCapabilities(ArtJvmTiEnv* env,
                                                     const jvmtiCapabilities& caps,
                                                     bool added) {
   if (UNLIKELY(NeedsEventUpdate(env, caps, added))) {
     env->event_masks.HandleChangedCapabilities(caps, added);
     if (caps.can_retransform_classes == 1) {
       RecalculateGlobalEventMask(ArtJvmtiEvent::kClassFileLoadHookRetransformable);
       RecalculateGlobalEventMask(ArtJvmtiEvent::kClassFileLoadHookNonRetransformable);
     }
     if (added && caps.can_access_local_variables == 1) {
       HandleLocalAccessCapabilityAdded();
     }
     if (caps.can_generate_breakpoint_events == 1) {
       HandleBreakpointEventsChanged(added);
     }
   }
 }

 }  // namespace openjdkjvmti

 #endif  // ART_OPENJDKJVMTI_EVENTS_INL_H_
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ART_OPENJDKJVMTI_EVENTS_INL_H_
	#define ART_OPENJDKJVMTI_EVENTS_INL_H_

	#include <array>
	#include <type_traits>
	#include <tuple>

	#include "base/mutex-inl.h"
	#include "events.h"
	#include "jni_internal.h"
	#include "nativehelper/scoped_local_ref.h"
	#include "scoped_thread_state_change-inl.h"
	#include "ti_breakpoint.h"

	#include "art_jvmti.h"

	namespace openjdkjvmti {

	static inline ArtJvmtiEvent GetArtJvmtiEvent(ArtJvmTiEnv* env, jvmtiEvent e) {
	if (UNLIKELY(e == JVMTI_EVENT_CLASS_FILE_LOAD_HOOK)) {
	if (env->capabilities.can_retransform_classes) {
	return ArtJvmtiEvent::kClassFileLoadHookRetransformable;
	} else {
	return ArtJvmtiEvent::kClassFileLoadHookNonRetransformable;
	}
	} else {
	return static_cast<ArtJvmtiEvent>(e);
	}
	}

	namespace impl {

	// Helper for ensuring that the dispatch environment is sane. Events with JNIEnvs need to stash
	// pending exceptions since they can cause new ones to be thrown. In accordance with the JVMTI
	// specification we allow exceptions originating from events to overwrite the current exception,
	// including exceptions originating from earlier events.
	class ScopedEventDispatchEnvironment FINAL : public art::ValueObject {
	public:
	ScopedEventDispatchEnvironment() : env_(nullptr), throw_(nullptr, nullptr) {
	DCHECK_EQ(art::Thread::Current()->GetState(), art::ThreadState::kNative);
	}

	explicit ScopedEventDispatchEnvironment(JNIEnv* env)
	: env_(env),
	throw_(env_, env_->ExceptionOccurred()) {
	DCHECK_EQ(art::Thread::Current()->GetState(), art::ThreadState::kNative);
	// The spec doesn't say how much local data should be there, so we just give 128 which seems
	// likely to be enough for most cases.
	env_->PushLocalFrame(128);
	env_->ExceptionClear();
	}

	~ScopedEventDispatchEnvironment() {
	if (env_ != nullptr) {
	if (throw_.get() != nullptr && !env_->ExceptionCheck()) {
	// TODO It would be nice to add the overwritten exceptions to the suppressed exceptions list
	// of the newest exception.
	env_->Throw(throw_.get());
	}
	env_->PopLocalFrame(nullptr);
	}
	DCHECK_EQ(art::Thread::Current()->GetState(), art::ThreadState::kNative);
	}

	private:
	JNIEnv* env_;
	ScopedLocalRef<jthrowable> throw_;

	DISALLOW_COPY_AND_ASSIGN(ScopedEventDispatchEnvironment);
	};

	// Infrastructure to achieve type safety for event dispatch.

	#define FORALL_EVENT_TYPES(fn) \
	fn(VMInit, ArtJvmtiEvent::kVmInit) \
	fn(VMDeath, ArtJvmtiEvent::kVmDeath) \
	fn(ThreadStart, ArtJvmtiEvent::kThreadStart) \
	fn(ThreadEnd, ArtJvmtiEvent::kThreadEnd) \
	fn(ClassFileLoadHook, ArtJvmtiEvent::kClassFileLoadHookRetransformable) \
	fn(ClassFileLoadHook, ArtJvmtiEvent::kClassFileLoadHookNonRetransformable) \
	fn(ClassLoad, ArtJvmtiEvent::kClassLoad) \
	fn(ClassPrepare, ArtJvmtiEvent::kClassPrepare) \
	fn(VMStart, ArtJvmtiEvent::kVmStart) \
	fn(Exception, ArtJvmtiEvent::kException) \
	fn(ExceptionCatch, ArtJvmtiEvent::kExceptionCatch) \
	fn(SingleStep, ArtJvmtiEvent::kSingleStep) \
	fn(FramePop, ArtJvmtiEvent::kFramePop) \
	fn(Breakpoint, ArtJvmtiEvent::kBreakpoint) \
	fn(FieldAccess, ArtJvmtiEvent::kFieldAccess) \
	fn(FieldModification, ArtJvmtiEvent::kFieldModification) \
	fn(MethodEntry, ArtJvmtiEvent::kMethodEntry) \
	fn(MethodExit, ArtJvmtiEvent::kMethodExit) \
	fn(NativeMethodBind, ArtJvmtiEvent::kNativeMethodBind) \
	fn(CompiledMethodLoad, ArtJvmtiEvent::kCompiledMethodLoad) \
	fn(CompiledMethodUnload, ArtJvmtiEvent::kCompiledMethodUnload) \
	fn(DynamicCodeGenerated, ArtJvmtiEvent::kDynamicCodeGenerated) \
	fn(DataDumpRequest, ArtJvmtiEvent::kDataDumpRequest) \
	fn(MonitorWait, ArtJvmtiEvent::kMonitorWait) \
	fn(MonitorWaited, ArtJvmtiEvent::kMonitorWaited) \
	fn(MonitorContendedEnter, ArtJvmtiEvent::kMonitorContendedEnter) \
	fn(MonitorContendedEntered, ArtJvmtiEvent::kMonitorContendedEntered) \
	fn(ResourceExhausted, ArtJvmtiEvent::kResourceExhausted) \
	fn(GarbageCollectionStart, ArtJvmtiEvent::kGarbageCollectionStart) \
	fn(GarbageCollectionFinish, ArtJvmtiEvent::kGarbageCollectionFinish) \
	fn(ObjectFree, ArtJvmtiEvent::kObjectFree) \
	fn(VMObjectAlloc, ArtJvmtiEvent::kVmObjectAlloc) \
	fn(DdmPublishChunk, ArtJvmtiEvent::kDdmPublishChunk)

	template <ArtJvmtiEvent kEvent>
	struct EventFnType {
	};

	#define EVENT_FN_TYPE(name, enum_name) \
	template <> \
	struct EventFnType<enum_name> { \
	using type = decltype(ArtJvmtiEventCallbacks().name); \
	};

	FORALL_EVENT_TYPES(EVENT_FN_TYPE)

	#undef EVENT_FN_TYPE

	#define MAKE_EVENT_HANDLER_FUNC(name, enum_name) \
	template<> \
	struct EventHandlerFunc<enum_name> { \
	using EventFnType = typename impl::EventFnType<enum_name>::type; \
	explicit EventHandlerFunc(ArtJvmTiEnv* env) \
	: env_(env), \
	fn_(env_->event_callbacks == nullptr ? nullptr : env_->event_callbacks->name) { } \
	\
	template <typename ...Args> \
	ALWAYS_INLINE \
	void ExecuteCallback(JNIEnv* jnienv, Args... args) const { \
	if (fn_ != nullptr) { \
	ScopedEventDispatchEnvironment sede(jnienv); \
	DoExecute(jnienv, args...); \
	} \
	} \
	\
	template <typename ...Args> \
	ALWAYS_INLINE \
	void ExecuteCallback(Args... args) const { \
	if (fn_ != nullptr) { \
	ScopedEventDispatchEnvironment sede; \
	DoExecute(args...); \
	} \
	} \
	\
	private: \
	template <typename ...Args> \
	ALWAYS_INLINE \
	inline void DoExecute(Args... args) const { \
	static_assert(std::is_same<EventFnType, void()(jvmtiEnv, Args...)>::value, \
	"Unexpected different type of ExecuteCallback"); \
	fn_(env_, args...); \
	} \
	\
	public: \
	ArtJvmTiEnv* env_; \
	EventFnType fn_; \
	};

	FORALL_EVENT_TYPES(MAKE_EVENT_HANDLER_FUNC)

	#undef MAKE_EVENT_HANDLER_FUNC

	#undef FORALL_EVENT_TYPES

	} // namespace impl

	template <ArtJvmtiEvent kEvent, typename ...Args>
	inline std::vector<impl::EventHandlerFunc<kEvent>> EventHandler::CollectEvents(art::Thread* thread,
	Args... args) const {
	art::ReaderMutexLock mu(thread, envs_lock_);
	std::vector<impl::EventHandlerFunc<kEvent>> handlers;
	for (ArtJvmTiEnv* env : envs) {
	if (ShouldDispatch<kEvent>(env, thread, args...)) {
	impl::EventHandlerFunc<kEvent> h(env);
	handlers.push_back(h);
	}
	}
	return handlers;
	}

	// C++ does not allow partial template function specialization. The dispatch for our separated
	// ClassFileLoadHook event types is the same, so use this helper for code deduplication.
	template <ArtJvmtiEvent kEvent>
	inline void EventHandler::DispatchClassFileLoadHookEvent(art::Thread* thread,
	JNIEnv* jnienv,
	jclass class_being_redefined,
	jobject loader,
	const char* name,
	jobject protection_domain,
	jint class_data_len,
	const unsigned char* class_data,
	jint* new_class_data_len,
	unsigned char** new_class_data) const {
	art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
	static_assert(kEvent == ArtJvmtiEvent::kClassFileLoadHookRetransformable \|\|
	kEvent == ArtJvmtiEvent::kClassFileLoadHookNonRetransformable, "Unsupported event");
	DCHECK(*new_class_data == nullptr);
	jint current_len = class_data_len;
	unsigned char* current_class_data = const_cast<unsigned char*>(class_data);
	std::vector<impl::EventHandlerFunc<kEvent>> handlers =
	CollectEvents<kEvent>(thread,
	jnienv,
	class_being_redefined,
	loader,
	name,
	protection_domain,
	class_data_len,
	class_data,
	new_class_data_len,
	new_class_data);
	ArtJvmTiEnv* last_env = nullptr;
	for (const impl::EventHandlerFunc<kEvent>& event : handlers) {
	jint new_len = 0;
	unsigned char* new_data = nullptr;
	ExecuteCallback<kEvent>(event,
	jnienv,
	class_being_redefined,
	loader,
	name,
	protection_domain,
	current_len,
	static_cast<const unsigned char*>(current_class_data),
	&new_len,
	&new_data);
	if (new_data != nullptr && new_data != current_class_data) {
	// Destroy the data the last transformer made. We skip this if the previous state was the
	// initial one since we don't know here which jvmtiEnv allocated it.
	// NB Currently this doesn't matter since all allocations just go to malloc but in the
	// future we might have jvmtiEnv's keep track of their allocations for leak-checking.
	if (last_env != nullptr) {
	last_env->Deallocate(current_class_data);
	}
	last_env = event.env_;
	current_class_data = new_data;
	current_len = new_len;
	}
	}
	if (last_env != nullptr) {
	*new_class_data_len = current_len;
	*new_class_data = current_class_data;
	}
	}

	// Our goal for DispatchEvent: Do not allow implicit type conversion. Types of ...args must match
	// exactly the argument types of the corresponding Jvmti kEvent function pointer.

	template <ArtJvmtiEvent kEvent, typename ...Args>
	inline void EventHandler::DispatchEvent(art::Thread* thread, Args... args) const {
	art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
	static_assert(!std::is_same<JNIEnv*,
	typename std::decay_t<
	std::tuple_element_t<0, std::tuple<Args..., nullptr_t>>>>::value,
	"Should be calling DispatchEvent with explicit JNIEnv* argument!");
	DCHECK(thread == nullptr \|\| !thread->IsExceptionPending());
	std::vector<impl::EventHandlerFunc<kEvent>> events = CollectEvents<kEvent>(thread, args...);
	for (auto event : events) {
	ExecuteCallback<kEvent>(event, args...);
	}
	}

	template <ArtJvmtiEvent kEvent, typename ...Args>
	inline void EventHandler::DispatchEvent(art::Thread* thread, JNIEnv* jnienv, Args... args) const {
	art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
	std::vector<impl::EventHandlerFunc<kEvent>> events = CollectEvents<kEvent>(thread,
	jnienv,
	args...);
	for (auto event : events) {
	ExecuteCallback<kEvent>(event, jnienv, args...);
	}
	}

	template <ArtJvmtiEvent kEvent, typename ...Args>
	inline void EventHandler::DispatchEventOnEnv(
	ArtJvmTiEnv* env, art::Thread* thread, JNIEnv* jnienv, Args... args) const {
	DCHECK(env != nullptr);
	if (ShouldDispatch<kEvent, JNIEnv*, Args...>(env, thread, jnienv, args...)) {
	art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
	impl::EventHandlerFunc<kEvent> func(env);
	ExecuteCallback<kEvent>(func, jnienv, args...);
	}
	}

	template <ArtJvmtiEvent kEvent, typename ...Args>
	inline void EventHandler::DispatchEventOnEnv(
	ArtJvmTiEnv* env, art::Thread* thread, Args... args) const {
	static_assert(!std::is_same<JNIEnv*,
	typename std::decay_t<
	std::tuple_element_t<0, std::tuple<Args..., nullptr_t>>>>::value,
	"Should be calling DispatchEventOnEnv with explicit JNIEnv* argument!");
	DCHECK(env != nullptr);
	if (ShouldDispatch<kEvent, Args...>(env, thread, args...)) {
	art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
	impl::EventHandlerFunc<kEvent> func(env);
	ExecuteCallback<kEvent>(func, args...);
	}
	}

	template <ArtJvmtiEvent kEvent, typename ...Args>
	inline void EventHandler::ExecuteCallback(impl::EventHandlerFunc<kEvent> handler, Args... args) {
	handler.ExecuteCallback(args...);
	}

	template <ArtJvmtiEvent kEvent, typename ...Args>
	inline void EventHandler::ExecuteCallback(impl::EventHandlerFunc<kEvent> handler,
	JNIEnv* jnienv,
	Args... args) {
	handler.ExecuteCallback(jnienv, args...);
	}

	// Events that need custom logic for if we send the event but are otherwise normal. This includes
	// the kBreakpoint, kFramePop, kFieldAccess, and kFieldModification events.

	// Need to give custom specializations for Breakpoint since it needs to filter out which particular
	// methods/dex_pcs agents get notified on.
	template <>
	inline bool EventHandler::ShouldDispatch<ArtJvmtiEvent::kBreakpoint>(
	ArtJvmTiEnv* env,
	art::Thread* thread,
	JNIEnv* jnienv ATTRIBUTE_UNUSED,
	jthread jni_thread ATTRIBUTE_UNUSED,
	jmethodID jmethod,
	jlocation location) const {
	art::ReaderMutexLock lk(art::Thread::Current(), env->event_info_mutex_);
	art::ArtMethod* method = art::jni::DecodeArtMethod(jmethod);
	return ShouldDispatchOnThread<ArtJvmtiEvent::kBreakpoint>(env, thread) &&
	env->breakpoints.find({method, location}) != env->breakpoints.end();
	}

	template <>
	inline bool EventHandler::ShouldDispatch<ArtJvmtiEvent::kFramePop>(
	ArtJvmTiEnv* env,
	art::Thread* thread,
	JNIEnv* jnienv ATTRIBUTE_UNUSED,
	jthread jni_thread ATTRIBUTE_UNUSED,
	jmethodID jmethod ATTRIBUTE_UNUSED,
	jboolean is_exception ATTRIBUTE_UNUSED,
	const art::ShadowFrame* frame) const {
	// Search for the frame. Do this before checking if we need to send the event so that we don't
	// have to deal with use-after-free or the frames being reallocated later.
	art::WriterMutexLock lk(art::Thread::Current(), env->event_info_mutex_);
	return env->notify_frames.erase(frame) != 0 &&
	ShouldDispatchOnThread<ArtJvmtiEvent::kFramePop>(env, thread);
	}

	// Need to give custom specializations for FieldAccess and FieldModification since they need to
	// filter out which particular fields agents want to get notified on.
	// TODO The spec allows us to do shortcuts like only allow one agent to ever set these watches. This
	// could make the system more performant.
	template <>
	inline bool EventHandler::ShouldDispatch<ArtJvmtiEvent::kFieldModification>(
	ArtJvmTiEnv* env,
	art::Thread* thread,
	JNIEnv* jnienv ATTRIBUTE_UNUSED,
	jthread jni_thread ATTRIBUTE_UNUSED,
	jmethodID method ATTRIBUTE_UNUSED,
	jlocation location ATTRIBUTE_UNUSED,
	jclass field_klass ATTRIBUTE_UNUSED,
	jobject object ATTRIBUTE_UNUSED,
	jfieldID field,
	char type_char ATTRIBUTE_UNUSED,
	jvalue val ATTRIBUTE_UNUSED) const {
	art::ReaderMutexLock lk(art::Thread::Current(), env->event_info_mutex_);
	return ShouldDispatchOnThread<ArtJvmtiEvent::kFieldModification>(env, thread) &&
	env->modify_watched_fields.find(
	art::jni::DecodeArtField(field)) != env->modify_watched_fields.end();
	}

	template <>
	inline bool EventHandler::ShouldDispatch<ArtJvmtiEvent::kFieldAccess>(
	ArtJvmTiEnv* env,
	art::Thread* thread,
	JNIEnv* jnienv ATTRIBUTE_UNUSED,
	jthread jni_thread ATTRIBUTE_UNUSED,
	jmethodID method ATTRIBUTE_UNUSED,
	jlocation location ATTRIBUTE_UNUSED,
	jclass field_klass ATTRIBUTE_UNUSED,
	jobject object ATTRIBUTE_UNUSED,
	jfieldID field) const {
	art::ReaderMutexLock lk(art::Thread::Current(), env->event_info_mutex_);
	return ShouldDispatchOnThread<ArtJvmtiEvent::kFieldAccess>(env, thread) &&
	env->access_watched_fields.find(
	art::jni::DecodeArtField(field)) != env->access_watched_fields.end();
	}

	// Need to give custom specializations for FramePop since it needs to filter out which particular
	// agents get the event. This specialization gets an extra argument so we can determine which (if
	// any) environments have the frame pop.
	// TODO It might be useful to use more template magic to have this only define ShouldDispatch or
	// something.
	template <>
	inline void EventHandler::ExecuteCallback<ArtJvmtiEvent::kFramePop>(
	impl::EventHandlerFunc<ArtJvmtiEvent::kFramePop> event,
	JNIEnv* jnienv,
	jthread jni_thread,
	jmethodID jmethod,
	jboolean is_exception,
	const art::ShadowFrame* frame ATTRIBUTE_UNUSED) {
	ExecuteCallback<ArtJvmtiEvent::kFramePop>(event, jnienv, jni_thread, jmethod, is_exception);
	}

	// Need to give a custom specialization for NativeMethodBind since it has to deal with an out
	// variable.
	template <>
	inline void EventHandler::DispatchEvent<ArtJvmtiEvent::kNativeMethodBind>(art::Thread* thread,
	JNIEnv* jnienv,
	jthread jni_thread,
	jmethodID method,
	void* cur_method,
	void** new_method) const {
	art::ScopedThreadStateChange stsc(thread, art::ThreadState::kNative);
	std::vector<impl::EventHandlerFunc<ArtJvmtiEvent::kNativeMethodBind>> events =
	CollectEvents<ArtJvmtiEvent::kNativeMethodBind>(thread,
	jnienv,
	jni_thread,
	method,
	cur_method,
	new_method);
	*new_method = cur_method;
	for (auto event : events) {
	*new_method = cur_method;
	ExecuteCallback<ArtJvmtiEvent::kNativeMethodBind>(event,
	jnienv,
	jni_thread,
	method,
	cur_method,
	new_method);
	if (*new_method != nullptr) {
	cur_method = *new_method;
	}
	}
	*new_method = cur_method;
	}

	// C++ does not allow partial template function specialization. The dispatch for our separated
	// ClassFileLoadHook event types is the same, and in the DispatchClassFileLoadHookEvent helper.
	// The following two DispatchEvent specializations dispatch to it.
	template <>
	inline void EventHandler::DispatchEvent<ArtJvmtiEvent::kClassFileLoadHookRetransformable>(
	art::Thread* thread,
	JNIEnv* jnienv,
	jclass class_being_redefined,
	jobject loader,
	const char* name,
	jobject protection_domain,
	jint class_data_len,
	const unsigned char* class_data,
	jint* new_class_data_len,
	unsigned char** new_class_data) const {
	return DispatchClassFileLoadHookEvent<ArtJvmtiEvent::kClassFileLoadHookRetransformable>(
	thread,
	jnienv,
	class_being_redefined,
	loader,
	name,
	protection_domain,
	class_data_len,
	class_data,
	new_class_data_len,
	new_class_data);
	}

	template <>
	inline void EventHandler::DispatchEvent<ArtJvmtiEvent::kClassFileLoadHookNonRetransformable>(
	art::Thread* thread,
	JNIEnv* jnienv,
	jclass class_being_redefined,
	jobject loader,
	const char* name,
	jobject protection_domain,
	jint class_data_len,
	const unsigned char* class_data,
	jint* new_class_data_len,
	unsigned char** new_class_data) const {
	return DispatchClassFileLoadHookEvent<ArtJvmtiEvent::kClassFileLoadHookNonRetransformable>(
	thread,
	jnienv,
	class_being_redefined,
	loader,
	name,
	protection_domain,
	class_data_len,
	class_data,
	new_class_data_len,
	new_class_data);
	}

	template <ArtJvmtiEvent kEvent>
	inline bool EventHandler::ShouldDispatchOnThread(ArtJvmTiEnv* env, art::Thread* thread) const {
	bool dispatch = env->event_masks.global_event_mask.Test(kEvent);

	if (!dispatch && thread != nullptr && env->event_masks.unioned_thread_event_mask.Test(kEvent)) {
	EventMask* mask = env->event_masks.GetEventMaskOrNull(thread);
	dispatch = mask != nullptr && mask->Test(kEvent);
	}
	return dispatch;
	}

	template <ArtJvmtiEvent kEvent, typename ...Args>
	inline bool EventHandler::ShouldDispatch(ArtJvmTiEnv* env,
	art::Thread* thread,
	Args... args ATTRIBUTE_UNUSED) const {
	static_assert(std::is_same<typename impl::EventFnType<kEvent>::type,
	void()(jvmtiEnv, Args...)>::value,
	"Unexpected different type of shouldDispatch");

	return ShouldDispatchOnThread<kEvent>(env, thread);
	}

	inline void EventHandler::RecalculateGlobalEventMask(ArtJvmtiEvent event) {
	art::WriterMutexLock mu(art::Thread::Current(), envs_lock_);
	RecalculateGlobalEventMaskLocked(event);
	}

	inline void EventHandler::RecalculateGlobalEventMaskLocked(ArtJvmtiEvent event) {
	bool union_value = false;
	for (const ArtJvmTiEnv* stored_env : envs) {
	if (stored_env == nullptr) {
	continue;
	}
	union_value \|= stored_env->event_masks.global_event_mask.Test(event);
	union_value \|= stored_env->event_masks.unioned_thread_event_mask.Test(event);
	if (union_value) {
	break;
	}
	}
	global_mask.Set(event, union_value);
	}

	inline bool EventHandler::NeedsEventUpdate(ArtJvmTiEnv* env,
	const jvmtiCapabilities& caps,
	bool added) {
	ArtJvmtiEvent event = added ? ArtJvmtiEvent::kClassFileLoadHookNonRetransformable
	: ArtJvmtiEvent::kClassFileLoadHookRetransformable;
	return (added && caps.can_access_local_variables == 1) \|\|
	caps.can_generate_breakpoint_events == 1 \|\|
	(caps.can_retransform_classes == 1 &&
	IsEventEnabledAnywhere(event) &&
	env->event_masks.IsEnabledAnywhere(event));
	}

	inline void EventHandler::HandleChangedCapabilities(ArtJvmTiEnv* env,
	const jvmtiCapabilities& caps,
	bool added) {
	if (UNLIKELY(NeedsEventUpdate(env, caps, added))) {
	env->event_masks.HandleChangedCapabilities(caps, added);
	if (caps.can_retransform_classes == 1) {
	RecalculateGlobalEventMask(ArtJvmtiEvent::kClassFileLoadHookRetransformable);
	RecalculateGlobalEventMask(ArtJvmtiEvent::kClassFileLoadHookNonRetransformable);
	}
	if (added && caps.can_access_local_variables == 1) {
	HandleLocalAccessCapabilityAdded();
	}
	if (caps.can_generate_breakpoint_events == 1) {
	HandleBreakpointEventsChanged(added);
	}
	}
	}

	} // namespace openjdkjvmti

	#endif // ART_OPENJDKJVMTI_EVENTS_INL_H_