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/* Copyright (C) 2016 The Android Open Source Project
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This file implements interfaces from the file jvmti.h. This implementation
* is licensed under the same terms as the file jvmti.h. The
* copyright and license information for the file jvmti.h follows.
*
* 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. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* 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 "events-inl.h"
#include <array>
#include "art_field-inl.h"
#include "art_jvmti.h"
#include "art_method-inl.h"
#include "deopt_manager.h"
#include "dex/dex_file_types.h"
#include "gc/allocation_listener.h"
#include "gc/gc_pause_listener.h"
#include "gc/heap.h"
#include "gc/scoped_gc_critical_section.h"
#include "handle_scope-inl.h"
#include "instrumentation.h"
#include "jni_env_ext-inl.h"
#include "jni_internal.h"
#include "mirror/class.h"
#include "mirror/object-inl.h"
#include "monitor.h"
#include "nativehelper/scoped_local_ref.h"
#include "runtime.h"
#include "scoped_thread_state_change-inl.h"
#include "stack.h"
#include "thread-inl.h"
#include "thread_list.h"
#include "ti_phase.h"
namespace openjdkjvmti {
void ArtJvmtiEventCallbacks::CopyExtensionsFrom(const ArtJvmtiEventCallbacks* cb) {
if (art::kIsDebugBuild) {
ArtJvmtiEventCallbacks clean;
DCHECK_EQ(memcmp(&clean, this, sizeof(clean)), 0)
<< "CopyExtensionsFrom called with initialized eventsCallbacks!";
}
if (cb != nullptr) {
memcpy(this, cb, sizeof(*this));
} else {
memset(this, 0, sizeof(*this));
}
}
jvmtiError ArtJvmtiEventCallbacks::Set(jint index, jvmtiExtensionEvent cb) {
switch (index) {
case static_cast<jint>(ArtJvmtiEvent::kDdmPublishChunk):
DdmPublishChunk = reinterpret_cast<ArtJvmtiEventDdmPublishChunk>(cb);
return OK;
default:
return ERR(ILLEGAL_ARGUMENT);
}
}
bool IsExtensionEvent(jint e) {
return e >= static_cast<jint>(ArtJvmtiEvent::kMinEventTypeVal) &&
e <= static_cast<jint>(ArtJvmtiEvent::kMaxEventTypeVal) &&
IsExtensionEvent(static_cast<ArtJvmtiEvent>(e));
}
bool IsExtensionEvent(ArtJvmtiEvent e) {
switch (e) {
case ArtJvmtiEvent::kDdmPublishChunk:
return true;
default:
return false;
}
}
bool EventMasks::IsEnabledAnywhere(ArtJvmtiEvent event) {
return global_event_mask.Test(event) || unioned_thread_event_mask.Test(event);
}
EventMask& EventMasks::GetEventMask(art::Thread* thread) {
if (thread == nullptr) {
return global_event_mask;
}
for (auto& pair : thread_event_masks) {
const UniqueThread& unique_thread = pair.first;
if (unique_thread.first == thread &&
unique_thread.second == static_cast<uint32_t>(thread->GetTid())) {
return pair.second;
}
}
// TODO: Remove old UniqueThread with the same pointer, if exists.
thread_event_masks.emplace_back(UniqueThread(thread, thread->GetTid()), EventMask());
return thread_event_masks.back().second;
}
EventMask* EventMasks::GetEventMaskOrNull(art::Thread* thread) {
if (thread == nullptr) {
return &global_event_mask;
}
for (auto& pair : thread_event_masks) {
const UniqueThread& unique_thread = pair.first;
if (unique_thread.first == thread &&
unique_thread.second == static_cast<uint32_t>(thread->GetTid())) {
return &pair.second;
}
}
return nullptr;
}
void EventMasks::EnableEvent(ArtJvmTiEnv* env, art::Thread* thread, ArtJvmtiEvent event) {
DCHECK_EQ(&env->event_masks, this);
env->event_info_mutex_.AssertExclusiveHeld(art::Thread::Current());
DCHECK(EventMask::EventIsInRange(event));
GetEventMask(thread).Set(event);
if (thread != nullptr) {
unioned_thread_event_mask.Set(event, true);
}
}
void EventMasks::DisableEvent(ArtJvmTiEnv* env, art::Thread* thread, ArtJvmtiEvent event) {
DCHECK_EQ(&env->event_masks, this);
env->event_info_mutex_.AssertExclusiveHeld(art::Thread::Current());
DCHECK(EventMask::EventIsInRange(event));
GetEventMask(thread).Set(event, false);
if (thread != nullptr) {
// Regenerate union for the event.
bool union_value = false;
for (auto& pair : thread_event_masks) {
union_value |= pair.second.Test(event);
if (union_value) {
break;
}
}
unioned_thread_event_mask.Set(event, union_value);
}
}
void EventMasks::HandleChangedCapabilities(const jvmtiCapabilities& caps, bool caps_added) {
if (UNLIKELY(caps.can_retransform_classes == 1)) {
// If we are giving this env the retransform classes cap we need to switch all events of
// NonTransformable to Transformable and vice versa.
ArtJvmtiEvent to_remove = caps_added ? ArtJvmtiEvent::kClassFileLoadHookNonRetransformable
: ArtJvmtiEvent::kClassFileLoadHookRetransformable;
ArtJvmtiEvent to_add = caps_added ? ArtJvmtiEvent::kClassFileLoadHookRetransformable
: ArtJvmtiEvent::kClassFileLoadHookNonRetransformable;
if (global_event_mask.Test(to_remove)) {
CHECK(!global_event_mask.Test(to_add));
global_event_mask.Set(to_remove, false);
global_event_mask.Set(to_add, true);
}
if (unioned_thread_event_mask.Test(to_remove)) {
CHECK(!unioned_thread_event_mask.Test(to_add));
unioned_thread_event_mask.Set(to_remove, false);
unioned_thread_event_mask.Set(to_add, true);
}
for (auto thread_mask : thread_event_masks) {
if (thread_mask.second.Test(to_remove)) {
CHECK(!thread_mask.second.Test(to_add));
thread_mask.second.Set(to_remove, false);
thread_mask.second.Set(to_add, true);
}
}
}
}
void EventHandler::RegisterArtJvmTiEnv(ArtJvmTiEnv* env) {
art::WriterMutexLock mu(art::Thread::Current(), envs_lock_);
envs.push_back(env);
}
void EventHandler::RemoveArtJvmTiEnv(ArtJvmTiEnv* env) {
art::WriterMutexLock mu(art::Thread::Current(), envs_lock_);
// Since we might be currently iterating over the envs list we cannot actually erase elements.
// Instead we will simply replace them with 'nullptr' and skip them manually.
auto it = std::find(envs.begin(), envs.end(), env);
if (it != envs.end()) {
envs.erase(it);
for (size_t i = static_cast<size_t>(ArtJvmtiEvent::kMinEventTypeVal);
i <= static_cast<size_t>(ArtJvmtiEvent::kMaxEventTypeVal);
++i) {
RecalculateGlobalEventMaskLocked(static_cast<ArtJvmtiEvent>(i));
}
}
}
static bool IsThreadControllable(ArtJvmtiEvent event) {
switch (event) {
case ArtJvmtiEvent::kVmInit:
case ArtJvmtiEvent::kVmStart:
case ArtJvmtiEvent::kVmDeath:
case ArtJvmtiEvent::kThreadStart:
case ArtJvmtiEvent::kCompiledMethodLoad:
case ArtJvmtiEvent::kCompiledMethodUnload:
case ArtJvmtiEvent::kDynamicCodeGenerated:
case ArtJvmtiEvent::kDataDumpRequest:
return false;
default:
return true;
}
}
template<typename Type>
static Type AddLocalRef(art::JNIEnvExt* e, art::mirror::Object* obj)
REQUIRES_SHARED(art::Locks::mutator_lock_) {
return (obj == nullptr) ? nullptr : e->AddLocalReference<Type>(obj);
}
template<ArtJvmtiEvent kEvent, typename ...Args>
static void RunEventCallback(EventHandler* handler,
art::Thread* self,
art::JNIEnvExt* jnienv,
Args... args)
REQUIRES_SHARED(art::Locks::mutator_lock_) {
ScopedLocalRef<jthread> thread_jni(jnienv, AddLocalRef<jthread>(jnienv, self->GetPeer()));
handler->DispatchEvent<kEvent>(self,
static_cast<JNIEnv*>(jnienv),
thread_jni.get(),
args...);
}
static void SetupDdmTracking(art::DdmCallback* listener, bool enable) {
art::ScopedObjectAccess soa(art::Thread::Current());
if (enable) {
art::Runtime::Current()->GetRuntimeCallbacks()->AddDdmCallback(listener);
} else {
art::Runtime::Current()->GetRuntimeCallbacks()->RemoveDdmCallback(listener);
}
}
class JvmtiDdmChunkListener : public art::DdmCallback {
public:
explicit JvmtiDdmChunkListener(EventHandler* handler) : handler_(handler) {}
void DdmPublishChunk(uint32_t type, const art::ArrayRef<const uint8_t>& data)
OVERRIDE REQUIRES_SHARED(art::Locks::mutator_lock_) {
if (handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kDdmPublishChunk)) {
art::Thread* self = art::Thread::Current();
handler_->DispatchEvent<ArtJvmtiEvent::kDdmPublishChunk>(
self,
static_cast<JNIEnv*>(self->GetJniEnv()),
static_cast<jint>(type),
static_cast<jint>(data.size()),
reinterpret_cast<const jbyte*>(data.data()));
}
}
private:
EventHandler* handler_;
DISALLOW_COPY_AND_ASSIGN(JvmtiDdmChunkListener);
};
class JvmtiAllocationListener : public art::gc::AllocationListener {
public:
explicit JvmtiAllocationListener(EventHandler* handler) : handler_(handler) {}
void ObjectAllocated(art::Thread* self, art::ObjPtr<art::mirror::Object>* obj, size_t byte_count)
OVERRIDE REQUIRES_SHARED(art::Locks::mutator_lock_) {
DCHECK_EQ(self, art::Thread::Current());
if (handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kVmObjectAlloc)) {
art::StackHandleScope<1> hs(self);
auto h = hs.NewHandleWrapper(obj);
// jvmtiEventVMObjectAlloc parameters:
// jvmtiEnv *jvmti_env,
// JNIEnv* jni_env,
// jthread thread,
// jobject object,
// jclass object_klass,
// jlong size
art::JNIEnvExt* jni_env = self->GetJniEnv();
ScopedLocalRef<jobject> object(
jni_env, jni_env->AddLocalReference<jobject>(*obj));
ScopedLocalRef<jclass> klass(
jni_env, jni_env->AddLocalReference<jclass>(obj->Ptr()->GetClass()));
RunEventCallback<ArtJvmtiEvent::kVmObjectAlloc>(handler_,
self,
jni_env,
object.get(),
klass.get(),
static_cast<jlong>(byte_count));
}
}
private:
EventHandler* handler_;
};
static void SetupObjectAllocationTracking(art::gc::AllocationListener* listener, bool enable) {
// We must not hold the mutator lock here, but if we're in FastJNI, for example, we might. For
// now, do a workaround: (possibly) acquire and release.
art::ScopedObjectAccess soa(art::Thread::Current());
art::ScopedThreadSuspension sts(soa.Self(), art::ThreadState::kSuspended);
if (enable) {
art::Runtime::Current()->GetHeap()->SetAllocationListener(listener);
} else {
art::Runtime::Current()->GetHeap()->RemoveAllocationListener();
}
}
class JvmtiMonitorListener : public art::MonitorCallback {
public:
explicit JvmtiMonitorListener(EventHandler* handler) : handler_(handler) {}
void MonitorContendedLocking(art::Monitor* m)
OVERRIDE REQUIRES_SHARED(art::Locks::mutator_lock_) {
if (handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kMonitorContendedEnter)) {
art::Thread* self = art::Thread::Current();
art::JNIEnvExt* jnienv = self->GetJniEnv();
ScopedLocalRef<jobject> mon(jnienv, AddLocalRef<jobject>(jnienv, m->GetObject()));
RunEventCallback<ArtJvmtiEvent::kMonitorContendedEnter>(
handler_,
self,
jnienv,
mon.get());
}
}
void MonitorContendedLocked(art::Monitor* m)
OVERRIDE REQUIRES_SHARED(art::Locks::mutator_lock_) {
if (handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kMonitorContendedEntered)) {
art::Thread* self = art::Thread::Current();
art::JNIEnvExt* jnienv = self->GetJniEnv();
ScopedLocalRef<jobject> mon(jnienv, AddLocalRef<jobject>(jnienv, m->GetObject()));
RunEventCallback<ArtJvmtiEvent::kMonitorContendedEntered>(
handler_,
self,
jnienv,
mon.get());
}
}
void ObjectWaitStart(art::Handle<art::mirror::Object> obj, int64_t timeout)
OVERRIDE REQUIRES_SHARED(art::Locks::mutator_lock_) {
if (handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kMonitorWait)) {
art::Thread* self = art::Thread::Current();
art::JNIEnvExt* jnienv = self->GetJniEnv();
ScopedLocalRef<jobject> mon(jnienv, AddLocalRef<jobject>(jnienv, obj.Get()));
RunEventCallback<ArtJvmtiEvent::kMonitorWait>(
handler_,
self,
jnienv,
mon.get(),
static_cast<jlong>(timeout));
}
}
// Our interpretation of the spec is that the JVMTI_EVENT_MONITOR_WAITED will be sent immediately
// after a thread has woken up from a sleep caused by a call to Object#wait. If the thread will
// never go to sleep (due to not having the lock, having bad arguments, or having an exception
// propogated from JVMTI_EVENT_MONITOR_WAIT) we will not send this event.
//
// This does not fully match the RI semantics. Specifically, we will not send the
// JVMTI_EVENT_MONITOR_WAITED event in one situation where the RI would, there was an exception in
// the JVMTI_EVENT_MONITOR_WAIT event but otherwise the call was fine. In that case the RI would
// send this event and return without going to sleep.
//
// See b/65558434 for more discussion.
void MonitorWaitFinished(art::Monitor* m, bool timeout)
OVERRIDE REQUIRES_SHARED(art::Locks::mutator_lock_) {
if (handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kMonitorWaited)) {
art::Thread* self = art::Thread::Current();
art::JNIEnvExt* jnienv = self->GetJniEnv();
ScopedLocalRef<jobject> mon(jnienv, AddLocalRef<jobject>(jnienv, m->GetObject()));
RunEventCallback<ArtJvmtiEvent::kMonitorWaited>(
handler_,
self,
jnienv,
mon.get(),
static_cast<jboolean>(timeout));
}
}
private:
EventHandler* handler_;
};
static void SetupMonitorListener(art::MonitorCallback* listener, bool enable) {
// We must not hold the mutator lock here, but if we're in FastJNI, for example, we might. For
// now, do a workaround: (possibly) acquire and release.
art::ScopedObjectAccess soa(art::Thread::Current());
if (enable) {
art::Runtime::Current()->GetRuntimeCallbacks()->AddMonitorCallback(listener);
} else {
art::Runtime::Current()->GetRuntimeCallbacks()->RemoveMonitorCallback(listener);
}
}
// Report GC pauses (see spec) as GARBAGE_COLLECTION_START and GARBAGE_COLLECTION_END.
class JvmtiGcPauseListener : public art::gc::GcPauseListener {
public:
explicit JvmtiGcPauseListener(EventHandler* handler)
: handler_(handler),
start_enabled_(false),
finish_enabled_(false) {}
void StartPause() OVERRIDE {
handler_->DispatchEvent<ArtJvmtiEvent::kGarbageCollectionStart>(art::Thread::Current());
}
void EndPause() OVERRIDE {
handler_->DispatchEvent<ArtJvmtiEvent::kGarbageCollectionFinish>(art::Thread::Current());
}
bool IsEnabled() {
return start_enabled_ || finish_enabled_;
}
void SetStartEnabled(bool e) {
start_enabled_ = e;
}
void SetFinishEnabled(bool e) {
finish_enabled_ = e;
}
private:
EventHandler* handler_;
bool start_enabled_;
bool finish_enabled_;
};
static void SetupGcPauseTracking(JvmtiGcPauseListener* listener, ArtJvmtiEvent event, bool enable) {
bool old_state = listener->IsEnabled();
if (event == ArtJvmtiEvent::kGarbageCollectionStart) {
listener->SetStartEnabled(enable);
} else {
listener->SetFinishEnabled(enable);
}
bool new_state = listener->IsEnabled();
if (old_state != new_state) {
if (new_state) {
art::Runtime::Current()->GetHeap()->SetGcPauseListener(listener);
} else {
art::Runtime::Current()->GetHeap()->RemoveGcPauseListener();
}
}
}
class JvmtiMethodTraceListener FINAL : public art::instrumentation::InstrumentationListener {
public:
explicit JvmtiMethodTraceListener(EventHandler* handler) : event_handler_(handler) {}
// Call-back for when a method is entered.
void MethodEntered(art::Thread* self,
art::Handle<art::mirror::Object> this_object ATTRIBUTE_UNUSED,
art::ArtMethod* method,
uint32_t dex_pc ATTRIBUTE_UNUSED)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
if (!method->IsRuntimeMethod() &&
event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kMethodEntry)) {
art::JNIEnvExt* jnienv = self->GetJniEnv();
RunEventCallback<ArtJvmtiEvent::kMethodEntry>(event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method));
}
}
// Callback for when a method is exited with a reference return value.
void MethodExited(art::Thread* self,
art::Handle<art::mirror::Object> this_object ATTRIBUTE_UNUSED,
art::ArtMethod* method,
uint32_t dex_pc ATTRIBUTE_UNUSED,
art::Handle<art::mirror::Object> return_value)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
if (!method->IsRuntimeMethod() &&
event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kMethodExit)) {
DCHECK_EQ(method->GetReturnTypePrimitive(), art::Primitive::kPrimNot)
<< method->PrettyMethod();
DCHECK(!self->IsExceptionPending());
jvalue val;
art::JNIEnvExt* jnienv = self->GetJniEnv();
ScopedLocalRef<jobject> return_jobj(jnienv, AddLocalRef<jobject>(jnienv, return_value.Get()));
val.l = return_jobj.get();
RunEventCallback<ArtJvmtiEvent::kMethodExit>(
event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method),
/*was_popped_by_exception*/ static_cast<jboolean>(JNI_FALSE),
val);
}
}
// Call-back for when a method is exited.
void MethodExited(art::Thread* self,
art::Handle<art::mirror::Object> this_object ATTRIBUTE_UNUSED,
art::ArtMethod* method,
uint32_t dex_pc ATTRIBUTE_UNUSED,
const art::JValue& return_value)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
if (!method->IsRuntimeMethod() &&
event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kMethodExit)) {
DCHECK_NE(method->GetReturnTypePrimitive(), art::Primitive::kPrimNot)
<< method->PrettyMethod();
DCHECK(!self->IsExceptionPending());
jvalue val;
art::JNIEnvExt* jnienv = self->GetJniEnv();
// 64bit integer is the largest value in the union so we should be fine simply copying it into
// the union.
val.j = return_value.GetJ();
RunEventCallback<ArtJvmtiEvent::kMethodExit>(
event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method),
/*was_popped_by_exception*/ static_cast<jboolean>(JNI_FALSE),
val);
}
}
// Call-back for when a method is popped due to an exception throw. A method will either cause a
// MethodExited call-back or a MethodUnwind call-back when its activation is removed.
void MethodUnwind(art::Thread* self,
art::Handle<art::mirror::Object> this_object ATTRIBUTE_UNUSED,
art::ArtMethod* method,
uint32_t dex_pc ATTRIBUTE_UNUSED)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
if (!method->IsRuntimeMethod() &&
event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kMethodExit)) {
jvalue val;
// Just set this to 0xffffffffffffffff so it's not uninitialized.
val.j = static_cast<jlong>(-1);
art::JNIEnvExt* jnienv = self->GetJniEnv();
art::StackHandleScope<1> hs(self);
art::Handle<art::mirror::Throwable> old_exception(hs.NewHandle(self->GetException()));
CHECK(!old_exception.IsNull());
self->ClearException();
RunEventCallback<ArtJvmtiEvent::kMethodExit>(
event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method),
/*was_popped_by_exception*/ static_cast<jboolean>(JNI_TRUE),
val);
// Match RI behavior of just throwing away original exception if a new one is thrown.
if (LIKELY(!self->IsExceptionPending())) {
self->SetException(old_exception.Get());
}
}
}
// Call-back for when the dex pc moves in a method.
void DexPcMoved(art::Thread* self,
art::Handle<art::mirror::Object> this_object ATTRIBUTE_UNUSED,
art::ArtMethod* method,
uint32_t new_dex_pc)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
DCHECK(!method->IsRuntimeMethod());
// Default methods might be copied to multiple classes. We need to get the canonical version of
// this method so that we can check for breakpoints correctly.
// TODO We should maybe do this on other events to ensure that we are consistent WRT default
// methods. This could interact with obsolete methods if we ever let interface redefinition
// happen though.
method = method->GetCanonicalMethod();
art::JNIEnvExt* jnienv = self->GetJniEnv();
jmethodID jmethod = art::jni::EncodeArtMethod(method);
jlocation location = static_cast<jlocation>(new_dex_pc);
// Step event is reported first according to the spec.
if (event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kSingleStep)) {
RunEventCallback<ArtJvmtiEvent::kSingleStep>(event_handler_, self, jnienv, jmethod, location);
}
// Next we do the Breakpoint events. The Dispatch code will filter the individual
if (event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kBreakpoint)) {
RunEventCallback<ArtJvmtiEvent::kBreakpoint>(event_handler_, self, jnienv, jmethod, location);
}
}
// Call-back for when we read from a field.
void FieldRead(art::Thread* self,
art::Handle<art::mirror::Object> this_object,
art::ArtMethod* method,
uint32_t dex_pc,
art::ArtField* field)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
if (event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kFieldAccess)) {
art::JNIEnvExt* jnienv = self->GetJniEnv();
// DCHECK(!self->IsExceptionPending());
ScopedLocalRef<jobject> this_ref(jnienv, AddLocalRef<jobject>(jnienv, this_object.Get()));
ScopedLocalRef<jobject> fklass(jnienv,
AddLocalRef<jobject>(jnienv,
field->GetDeclaringClass().Ptr()));
RunEventCallback<ArtJvmtiEvent::kFieldAccess>(event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method),
static_cast<jlocation>(dex_pc),
static_cast<jclass>(fklass.get()),
this_ref.get(),
art::jni::EncodeArtField(field));
}
}
void FieldWritten(art::Thread* self,
art::Handle<art::mirror::Object> this_object,
art::ArtMethod* method,
uint32_t dex_pc,
art::ArtField* field,
art::Handle<art::mirror::Object> new_val)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
if (event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kFieldModification)) {
art::JNIEnvExt* jnienv = self->GetJniEnv();
// DCHECK(!self->IsExceptionPending());
ScopedLocalRef<jobject> this_ref(jnienv, AddLocalRef<jobject>(jnienv, this_object.Get()));
ScopedLocalRef<jobject> fklass(jnienv,
AddLocalRef<jobject>(jnienv,
field->GetDeclaringClass().Ptr()));
ScopedLocalRef<jobject> fval(jnienv, AddLocalRef<jobject>(jnienv, new_val.Get()));
jvalue val;
val.l = fval.get();
RunEventCallback<ArtJvmtiEvent::kFieldModification>(
event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method),
static_cast<jlocation>(dex_pc),
static_cast<jclass>(fklass.get()),
field->IsStatic() ? nullptr : this_ref.get(),
art::jni::EncodeArtField(field),
'L', // type_char
val);
}
}
// Call-back for when we write into a field.
void FieldWritten(art::Thread* self,
art::Handle<art::mirror::Object> this_object,
art::ArtMethod* method,
uint32_t dex_pc,
art::ArtField* field,
const art::JValue& field_value)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
if (event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kFieldModification)) {
art::JNIEnvExt* jnienv = self->GetJniEnv();
DCHECK(!self->IsExceptionPending());
ScopedLocalRef<jobject> this_ref(jnienv, AddLocalRef<jobject>(jnienv, this_object.Get()));
ScopedLocalRef<jobject> fklass(jnienv,
AddLocalRef<jobject>(jnienv,
field->GetDeclaringClass().Ptr()));
char type_char = art::Primitive::Descriptor(field->GetTypeAsPrimitiveType())[0];
jvalue val;
// 64bit integer is the largest value in the union so we should be fine simply copying it into
// the union.
val.j = field_value.GetJ();
RunEventCallback<ArtJvmtiEvent::kFieldModification>(
event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method),
static_cast<jlocation>(dex_pc),
static_cast<jclass>(fklass.get()),
field->IsStatic() ? nullptr : this_ref.get(), // nb static field modification get given
// the class as this_object for some
// reason.
art::jni::EncodeArtField(field),
type_char,
val);
}
}
void WatchedFramePop(art::Thread* self, const art::ShadowFrame& frame)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
art::JNIEnvExt* jnienv = self->GetJniEnv();
jboolean is_exception_pending = self->IsExceptionPending();
RunEventCallback<ArtJvmtiEvent::kFramePop>(
event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(frame.GetMethod()),
is_exception_pending,
&frame);
}
static void FindCatchMethodsFromThrow(art::Thread* self,
art::Handle<art::mirror::Throwable> exception,
/*out*/ art::ArtMethod** out_method,
/*out*/ uint32_t* dex_pc)
REQUIRES_SHARED(art::Locks::mutator_lock_) {
// Finds the location where this exception will most likely be caught. We ignore intervening
// native frames (which could catch the exception) and return the closest java frame with a
// compatible catch statement.
class CatchLocationFinder FINAL : public art::StackVisitor {
public:
CatchLocationFinder(art::Thread* target,
art::Handle<art::mirror::Class> exception_class,
art::Context* context,
/*out*/ art::ArtMethod** out_catch_method,
/*out*/ uint32_t* out_catch_pc)
REQUIRES_SHARED(art::Locks::mutator_lock_)
: StackVisitor(target, context, art::StackVisitor::StackWalkKind::kIncludeInlinedFrames),
exception_class_(exception_class),
catch_method_ptr_(out_catch_method),
catch_dex_pc_ptr_(out_catch_pc) {}
bool VisitFrame() OVERRIDE REQUIRES_SHARED(art::Locks::mutator_lock_) {
art::ArtMethod* method = GetMethod();
DCHECK(method != nullptr);
if (method->IsRuntimeMethod()) {
return true;
}
if (!method->IsNative()) {
uint32_t cur_dex_pc = GetDexPc();
if (cur_dex_pc == art::dex::kDexNoIndex) {
// This frame looks opaque. Just keep on going.
return true;
}
bool has_no_move_exception = false;
uint32_t found_dex_pc = method->FindCatchBlock(
exception_class_, cur_dex_pc, &has_no_move_exception);
if (found_dex_pc != art::dex::kDexNoIndex) {
// We found the catch. Store the result and return.
*catch_method_ptr_ = method;
*catch_dex_pc_ptr_ = found_dex_pc;
return false;
}
}
return true;
}
private:
art::Handle<art::mirror::Class> exception_class_;
art::ArtMethod** catch_method_ptr_;
uint32_t* catch_dex_pc_ptr_;
DISALLOW_COPY_AND_ASSIGN(CatchLocationFinder);
};
art::StackHandleScope<1> hs(self);
*out_method = nullptr;
*dex_pc = 0;
std::unique_ptr<art::Context> context(art::Context::Create());
CatchLocationFinder clf(self,
hs.NewHandle(exception->GetClass()),
context.get(),
/*out*/ out_method,
/*out*/ dex_pc);
clf.WalkStack(/* include_transitions */ false);
}
// Call-back when an exception is thrown.
void ExceptionThrown(art::Thread* self, art::Handle<art::mirror::Throwable> exception_object)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
DCHECK(self->IsExceptionThrownByCurrentMethod(exception_object.Get()));
// The instrumentation events get rid of this for us.
DCHECK(!self->IsExceptionPending());
if (event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kException)) {
art::JNIEnvExt* jnienv = self->GetJniEnv();
art::ArtMethod* catch_method;
uint32_t catch_pc;
FindCatchMethodsFromThrow(self, exception_object, &catch_method, &catch_pc);
uint32_t dex_pc = 0;
art::ArtMethod* method = self->GetCurrentMethod(&dex_pc,
/* check_suspended */ true,
/* abort_on_error */ art::kIsDebugBuild);
ScopedLocalRef<jobject> exception(jnienv,
AddLocalRef<jobject>(jnienv, exception_object.Get()));
RunEventCallback<ArtJvmtiEvent::kException>(
event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method),
static_cast<jlocation>(dex_pc),
exception.get(),
art::jni::EncodeArtMethod(catch_method),
static_cast<jlocation>(catch_pc));
}
return;
}
// Call-back when an exception is handled.
void ExceptionHandled(art::Thread* self, art::Handle<art::mirror::Throwable> exception_object)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
// Since the exception has already been handled there shouldn't be one pending.
DCHECK(!self->IsExceptionPending());
if (event_handler_->IsEventEnabledAnywhere(ArtJvmtiEvent::kExceptionCatch)) {
art::JNIEnvExt* jnienv = self->GetJniEnv();
uint32_t dex_pc;
art::ArtMethod* method = self->GetCurrentMethod(&dex_pc,
/* check_suspended */ true,
/* abort_on_error */ art::kIsDebugBuild);
ScopedLocalRef<jobject> exception(jnienv,
AddLocalRef<jobject>(jnienv, exception_object.Get()));
RunEventCallback<ArtJvmtiEvent::kExceptionCatch>(
event_handler_,
self,
jnienv,
art::jni::EncodeArtMethod(method),
static_cast<jlocation>(dex_pc),
exception.get());
}
return;
}
// Call-back for when we execute a branch.
void Branch(art::Thread* self ATTRIBUTE_UNUSED,
art::ArtMethod* method ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED,
int32_t dex_pc_offset ATTRIBUTE_UNUSED)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
return;
}
// Call-back for when we get an invokevirtual or an invokeinterface.
void InvokeVirtualOrInterface(art::Thread* self ATTRIBUTE_UNUSED,
art::Handle<art::mirror::Object> this_object ATTRIBUTE_UNUSED,
art::ArtMethod* caller ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED,
art::ArtMethod* callee ATTRIBUTE_UNUSED)
REQUIRES_SHARED(art::Locks::mutator_lock_) OVERRIDE {
return;
}
private:
EventHandler* const event_handler_;
};
static uint32_t GetInstrumentationEventsFor(ArtJvmtiEvent event) {
switch (event) {
case ArtJvmtiEvent::kMethodEntry:
return art::instrumentation::Instrumentation::kMethodEntered;
case ArtJvmtiEvent::kMethodExit:
return art::instrumentation::Instrumentation::kMethodExited |
art::instrumentation::Instrumentation::kMethodUnwind;
case ArtJvmtiEvent::kFieldModification:
return art::instrumentation::Instrumentation::kFieldWritten;
case ArtJvmtiEvent::kFieldAccess:
return art::instrumentation::Instrumentation::kFieldRead;
case ArtJvmtiEvent::kBreakpoint:
case ArtJvmtiEvent::kSingleStep:
return art::instrumentation::Instrumentation::kDexPcMoved;
case ArtJvmtiEvent::kFramePop:
return art::instrumentation::Instrumentation::kWatchedFramePop;
case ArtJvmtiEvent::kException:
return art::instrumentation::Instrumentation::kExceptionThrown;
case ArtJvmtiEvent::kExceptionCatch:
return art::instrumentation::Instrumentation::kExceptionHandled;
default:
LOG(FATAL) << "Unknown event ";
return 0;
}
}
static bool EventNeedsFullDeopt(ArtJvmtiEvent event) {
switch (event) {
case ArtJvmtiEvent::kBreakpoint:
case ArtJvmtiEvent::kException:
return false;
// TODO We should support more of these or at least do something to make them discriminate by
// thread.
case ArtJvmtiEvent::kMethodEntry:
case ArtJvmtiEvent::kExceptionCatch:
case ArtJvmtiEvent::kMethodExit:
case ArtJvmtiEvent::kFieldModification:
case ArtJvmtiEvent::kFieldAccess:
case ArtJvmtiEvent::kSingleStep:
case ArtJvmtiEvent::kFramePop:
return true;
default:
LOG(FATAL) << "Unexpected event type!";
UNREACHABLE();
}
}
void EventHandler::SetupTraceListener(JvmtiMethodTraceListener* listener,
ArtJvmtiEvent event,
bool enable) {
bool needs_full_deopt = EventNeedsFullDeopt(event);
// Make sure we can deopt.
{
art::ScopedObjectAccess soa(art::Thread::Current());
DeoptManager* deopt_manager = DeoptManager::Get();
if (enable) {
deopt_manager->AddDeoptimizationRequester();
if (needs_full_deopt) {
deopt_manager->AddDeoptimizeAllMethods();
}
} else {
if (needs_full_deopt) {
deopt_manager->RemoveDeoptimizeAllMethods();
}
deopt_manager->RemoveDeoptimizationRequester();
}
}
// Add the actual listeners.
uint32_t new_events = GetInstrumentationEventsFor(event);
if (new_events == art::instrumentation::Instrumentation::kDexPcMoved) {
// Need to skip adding the listeners if the event is breakpoint/single-step since those events
// share the same art-instrumentation underlying event. We need to give them their own deopt
// request though so the test waits until here.
DCHECK(event == ArtJvmtiEvent::kBreakpoint || event == ArtJvmtiEvent::kSingleStep);
ArtJvmtiEvent other = event == ArtJvmtiEvent::kBreakpoint ? ArtJvmtiEvent::kSingleStep
: ArtJvmtiEvent::kBreakpoint;
if (IsEventEnabledAnywhere(other)) {
// The event needs to be kept around/is already enabled by the other jvmti event that uses the
// same instrumentation event.
return;
}
}
art::ScopedThreadStateChange stsc(art::Thread::Current(), art::ThreadState::kNative);
art::instrumentation::Instrumentation* instr = art::Runtime::Current()->GetInstrumentation();
art::ScopedSuspendAll ssa("jvmti method tracing installation");
if (enable) {
instr->AddListener(listener, new_events);
} else {
instr->RemoveListener(listener, new_events);
}
}
// Makes sure that all compiled methods are AsyncDeoptimizable so we can deoptimize (and force to
// the switch interpreter) when we try to get or set a local variable.
void EventHandler::HandleLocalAccessCapabilityAdded() {
class UpdateEntryPointsClassVisitor : public art::ClassVisitor {
public:
explicit UpdateEntryPointsClassVisitor(art::Runtime* runtime)
: runtime_(runtime) {}
bool operator()(art::ObjPtr<art::mirror::Class> klass)
OVERRIDE REQUIRES(art::Locks::mutator_lock_) {
if (!klass->IsLoaded()) {
// Skip classes that aren't loaded since they might not have fully allocated and initialized
// their methods. Furthemore since the jvmti-plugin must have been loaded by this point
// these methods will definitately be using debuggable code.
return true;
}
for (auto& m : klass->GetMethods(art::kRuntimePointerSize)) {
const void* code = m.GetEntryPointFromQuickCompiledCode();
if (m.IsNative() || m.IsProxyMethod()) {
continue;
} else if (!runtime_->GetClassLinker()->IsQuickToInterpreterBridge(code) &&
!runtime_->IsAsyncDeoptimizeable(reinterpret_cast<uintptr_t>(code))) {
runtime_->GetInstrumentation()->UpdateMethodsCodeToInterpreterEntryPoint(&m);
}
}
return true;
}
private:
art::Runtime* runtime_;
};
art::ScopedObjectAccess soa(art::Thread::Current());
UpdateEntryPointsClassVisitor visitor(art::Runtime::Current());
art::Runtime::Current()->GetClassLinker()->VisitClasses(&visitor);
}
bool EventHandler::OtherMonitorEventsEnabledAnywhere(ArtJvmtiEvent event) {
std::array<ArtJvmtiEvent, 4> events {
{
ArtJvmtiEvent::kMonitorContendedEnter,
ArtJvmtiEvent::kMonitorContendedEntered,
ArtJvmtiEvent::kMonitorWait,
ArtJvmtiEvent::kMonitorWaited
}
};
for (ArtJvmtiEvent e : events) {
if (e != event && IsEventEnabledAnywhere(e)) {
return true;
}
}
return false;
}
void EventHandler::SetupFramePopTraceListener(bool enable) {
if (enable) {
frame_pop_enabled = true;
SetupTraceListener(method_trace_listener_.get(), ArtJvmtiEvent::kFramePop, enable);
} else {
// remove the listener if we have no outstanding frames.
{
art::ReaderMutexLock mu(art::Thread::Current(), envs_lock_);
for (ArtJvmTiEnv* env : envs) {
art::ReaderMutexLock event_mu(art::Thread::Current(), env->event_info_mutex_);
if (!env->notify_frames.empty()) {
// Leaving FramePop listener since there are unsent FramePop events.
return;
}
}
frame_pop_enabled = false;
}
SetupTraceListener(method_trace_listener_.get(), ArtJvmtiEvent::kFramePop, enable);
}
}
// Handle special work for the given event type, if necessary.
void EventHandler::HandleEventType(ArtJvmtiEvent event, bool enable) {
switch (event) {
case ArtJvmtiEvent::kDdmPublishChunk:
SetupDdmTracking(ddm_listener_.get(), enable);
return;
case ArtJvmtiEvent::kVmObjectAlloc:
SetupObjectAllocationTracking(alloc_listener_.get(), enable);
return;
case ArtJvmtiEvent::kGarbageCollectionStart:
case ArtJvmtiEvent::kGarbageCollectionFinish:
SetupGcPauseTracking(gc_pause_listener_.get(), event, enable);
return;
// FramePop can never be disabled once it's been turned on if it was turned off with outstanding
// pop-events since we would either need to deal with dangling pointers or have missed events.
case ArtJvmtiEvent::kFramePop:
if (enable && frame_pop_enabled) {
// The frame-pop event was held on by pending events so we don't need to do anything.
break;
} else {
SetupFramePopTraceListener(enable);
break;
}
case ArtJvmtiEvent::kMethodEntry:
case ArtJvmtiEvent::kMethodExit:
case ArtJvmtiEvent::kFieldAccess:
case ArtJvmtiEvent::kFieldModification:
case ArtJvmtiEvent::kException:
case ArtJvmtiEvent::kExceptionCatch:
case ArtJvmtiEvent::kBreakpoint:
case ArtJvmtiEvent::kSingleStep:
SetupTraceListener(method_trace_listener_.get(), event, enable);
return;
case ArtJvmtiEvent::kMonitorContendedEnter:
case ArtJvmtiEvent::kMonitorContendedEntered:
case ArtJvmtiEvent::kMonitorWait:
case ArtJvmtiEvent::kMonitorWaited:
if (!OtherMonitorEventsEnabledAnywhere(event)) {
SetupMonitorListener(monitor_listener_.get(), enable);
}
return;
default:
break;
}
}
// Checks to see if the env has the capabilities associated with the given event.
static bool HasAssociatedCapability(ArtJvmTiEnv* env,
ArtJvmtiEvent event) {
jvmtiCapabilities caps = env->capabilities;
switch (event) {
case ArtJvmtiEvent::kBreakpoint:
return caps.can_generate_breakpoint_events == 1;
case ArtJvmtiEvent::kCompiledMethodLoad:
case ArtJvmtiEvent::kCompiledMethodUnload:
return caps.can_generate_compiled_method_load_events == 1;
case ArtJvmtiEvent::kException:
case ArtJvmtiEvent::kExceptionCatch:
return caps.can_generate_exception_events == 1;
case ArtJvmtiEvent::kFieldAccess:
return caps.can_generate_field_access_events == 1;
case ArtJvmtiEvent::kFieldModification:
return caps.can_generate_field_modification_events == 1;
case ArtJvmtiEvent::kFramePop:
return caps.can_generate_frame_pop_events == 1;
case ArtJvmtiEvent::kGarbageCollectionStart:
case ArtJvmtiEvent::kGarbageCollectionFinish:
return caps.can_generate_garbage_collection_events == 1;
case ArtJvmtiEvent::kMethodEntry:
return caps.can_generate_method_entry_events == 1;
case ArtJvmtiEvent::kMethodExit:
return caps.can_generate_method_exit_events == 1;
case ArtJvmtiEvent::kMonitorContendedEnter:
case ArtJvmtiEvent::kMonitorContendedEntered:
case ArtJvmtiEvent::kMonitorWait:
case ArtJvmtiEvent::kMonitorWaited:
return caps.can_generate_monitor_events == 1;
case ArtJvmtiEvent::kNativeMethodBind:
return caps.can_generate_native_method_bind_events == 1;
case ArtJvmtiEvent::kObjectFree:
return caps.can_generate_object_free_events == 1;
case ArtJvmtiEvent::kSingleStep:
return caps.can_generate_single_step_events == 1;
case ArtJvmtiEvent::kVmObjectAlloc:
return caps.can_generate_vm_object_alloc_events == 1;
default:
return true;
}
}
jvmtiError EventHandler::SetEvent(ArtJvmTiEnv* env,
art::Thread* thread,
ArtJvmtiEvent event,
jvmtiEventMode mode) {
if (thread != nullptr) {
art::ThreadState state = thread->GetState();
if (state == art::ThreadState::kStarting ||
state == art::ThreadState::kTerminated ||
thread->IsStillStarting()) {
return ERR(THREAD_NOT_ALIVE);
}
if (!IsThreadControllable(event)) {
return ERR(ILLEGAL_ARGUMENT);
}
}
if (mode != JVMTI_ENABLE && mode != JVMTI_DISABLE) {
return ERR(ILLEGAL_ARGUMENT);
}
if (!EventMask::EventIsInRange(event)) {
return ERR(INVALID_EVENT_TYPE);
}
if (!HasAssociatedCapability(env, event)) {
return ERR(MUST_POSSESS_CAPABILITY);
}
bool old_state;
bool new_state;
{
// Change the event masks atomically.
art::Thread* self = art::Thread::Current();
art::WriterMutexLock mu(self, envs_lock_);
art::WriterMutexLock mu_env_info(self, env->event_info_mutex_);
old_state = global_mask.Test(event);
if (mode == JVMTI_ENABLE) {
env->event_masks.EnableEvent(env, thread, event);
global_mask.Set(event);
new_state = true;
} else {
DCHECK_EQ(mode, JVMTI_DISABLE);
env->event_masks.DisableEvent(env, thread, event);
RecalculateGlobalEventMaskLocked(event);
new_state = global_mask.Test(event);
}
}
// Handle any special work required for the event type.
if (new_state != old_state) {
HandleEventType(event, mode == JVMTI_ENABLE);
}
return ERR(NONE);
}
void EventHandler::HandleBreakpointEventsChanged(bool added) {
if (added) {
DeoptManager::Get()->AddDeoptimizationRequester();
} else {
DeoptManager::Get()->RemoveDeoptimizationRequester();
}
}
void EventHandler::Shutdown() {
// Need to remove the method_trace_listener_ if it's there.
art::Thread* self = art::Thread::Current();
art::gc::ScopedGCCriticalSection gcs(self,
art::gc::kGcCauseInstrumentation,
art::gc::kCollectorTypeInstrumentation);
art::ScopedSuspendAll ssa("jvmti method tracing uninstallation");
// Just remove every possible event.
art::Runtime::Current()->GetInstrumentation()->RemoveListener(method_trace_listener_.get(), ~0);
}
EventHandler::EventHandler()
: envs_lock_("JVMTI Environment List Lock", art::LockLevel::kTopLockLevel),
frame_pop_enabled(false) {
alloc_listener_.reset(new JvmtiAllocationListener(this));
ddm_listener_.reset(new JvmtiDdmChunkListener(this));
gc_pause_listener_.reset(new JvmtiGcPauseListener(this));
method_trace_listener_.reset(new JvmtiMethodTraceListener(this));
monitor_listener_.reset(new JvmtiMonitorListener(this));
}
EventHandler::~EventHandler() {
}
} // namespace openjdkjvmti