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gerrit-public.fairphone.software / platform / art / bcb6a72569a1401b36a3ad3b6aa4d13e29966cf0 / . / runtime / instrumentation_test.cc
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/*
* Copyright (C) 2015 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.
*/
#include "instrumentation.h"
#include "common_runtime_test.h"
#include "common_throws.h"
#include "class_linker-inl.h"
#include "dex_file.h"
#include "gc/scoped_gc_critical_section.h"
#include "handle_scope-inl.h"
#include "jvalue.h"
#include "runtime.h"
#include "scoped_thread_state_change.h"
#include "thread_list.h"
#include "thread-inl.h"
namespace art {
namespace instrumentation {
class TestInstrumentationListener FINAL : public instrumentation::InstrumentationListener {
public:
TestInstrumentationListener()
: received_method_enter_event(false), received_method_exit_event(false),
received_method_unwind_event(false), received_dex_pc_moved_event(false),
received_field_read_event(false), received_field_written_event(false),
received_exception_caught_event(false), received_branch_event(false),
received_invoke_virtual_or_interface_event(false) {}
virtual ~TestInstrumentationListener() {}
void MethodEntered(Thread* thread ATTRIBUTE_UNUSED,
mirror::Object* this_object ATTRIBUTE_UNUSED,
ArtMethod* method ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_method_enter_event = true;
}
void MethodExited(Thread* thread ATTRIBUTE_UNUSED,
mirror::Object* this_object ATTRIBUTE_UNUSED,
ArtMethod* method ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED,
const JValue& return_value ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_method_exit_event = true;
}
void MethodUnwind(Thread* thread ATTRIBUTE_UNUSED,
mirror::Object* this_object ATTRIBUTE_UNUSED,
ArtMethod* method ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_method_unwind_event = true;
}
void DexPcMoved(Thread* thread ATTRIBUTE_UNUSED,
mirror::Object* this_object ATTRIBUTE_UNUSED,
ArtMethod* method ATTRIBUTE_UNUSED,
uint32_t new_dex_pc ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_dex_pc_moved_event = true;
}
void FieldRead(Thread* thread ATTRIBUTE_UNUSED,
mirror::Object* this_object ATTRIBUTE_UNUSED,
ArtMethod* method ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED,
ArtField* field ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_field_read_event = true;
}
void FieldWritten(Thread* thread ATTRIBUTE_UNUSED,
mirror::Object* this_object ATTRIBUTE_UNUSED,
ArtMethod* method ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED,
ArtField* field ATTRIBUTE_UNUSED,
const JValue& field_value ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_field_written_event = true;
}
void ExceptionCaught(Thread* thread ATTRIBUTE_UNUSED,
mirror::Throwable* exception_object ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_exception_caught_event = true;
}
void Branch(Thread* thread ATTRIBUTE_UNUSED,
ArtMethod* method ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED,
int32_t dex_pc_offset ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_branch_event = true;
}
void InvokeVirtualOrInterface(Thread* thread ATTRIBUTE_UNUSED,
mirror::Object* this_object ATTRIBUTE_UNUSED,
ArtMethod* caller ATTRIBUTE_UNUSED,
uint32_t dex_pc ATTRIBUTE_UNUSED,
ArtMethod* callee ATTRIBUTE_UNUSED)
OVERRIDE SHARED_REQUIRES(Locks::mutator_lock_) {
received_invoke_virtual_or_interface_event = true;
}
void Reset() {
received_method_enter_event = false;
received_method_exit_event = false;
received_method_unwind_event = false;
received_dex_pc_moved_event = false;
received_field_read_event = false;
received_field_written_event = false;
received_exception_caught_event = false;
received_branch_event = false;
received_invoke_virtual_or_interface_event = false;
}
bool received_method_enter_event;
bool received_method_exit_event;
bool received_method_unwind_event;
bool received_dex_pc_moved_event;
bool received_field_read_event;
bool received_field_written_event;
bool received_exception_caught_event;
bool received_branch_event;
bool received_invoke_virtual_or_interface_event;
private:
DISALLOW_COPY_AND_ASSIGN(TestInstrumentationListener);
};
class InstrumentationTest : public CommonRuntimeTest {
public:
// Unique keys used to test Instrumentation::ConfigureStubs.
static constexpr const char* kClientOneKey = "TestClient1";
static constexpr const char* kClientTwoKey = "TestClient2";
void CheckConfigureStubs(const char* key, Instrumentation::InstrumentationLevel level) {
ScopedObjectAccess soa(Thread::Current());
instrumentation::Instrumentation* instr = Runtime::Current()->GetInstrumentation();
ScopedThreadSuspension sts(soa.Self(), kSuspended);
gc::ScopedGCCriticalSection gcs(soa.Self(),
gc::kGcCauseInstrumentation,
gc::kCollectorTypeInstrumentation);
ScopedSuspendAll ssa("Instrumentation::ConfigureStubs");
instr->ConfigureStubs(key, level);
}
Instrumentation::InstrumentationLevel GetCurrentInstrumentationLevel() {
return Runtime::Current()->GetInstrumentation()->GetCurrentInstrumentationLevel();
}
size_t GetInstrumentationUserCount() {
ScopedObjectAccess soa(Thread::Current());
return Runtime::Current()->GetInstrumentation()->requested_instrumentation_levels_.size();
}
void TestEvent(uint32_t instrumentation_event) {
ScopedObjectAccess soa(Thread::Current());
instrumentation::Instrumentation* instr = Runtime::Current()->GetInstrumentation();
TestInstrumentationListener listener;
{
ScopedThreadSuspension sts(soa.Self(), kSuspended);
ScopedSuspendAll ssa("Add instrumentation listener");
instr->AddListener(&listener, instrumentation_event);
}
ArtMethod* const event_method = nullptr;
mirror::Object* const event_obj = nullptr;
const uint32_t event_dex_pc = 0;
// Check the listener is registered and is notified of the event.
EXPECT_TRUE(HasEventListener(instr, instrumentation_event));
EXPECT_FALSE(DidListenerReceiveEvent(listener, instrumentation_event));
ReportEvent(instr, instrumentation_event, soa.Self(), event_method, event_obj, event_dex_pc);
EXPECT_TRUE(DidListenerReceiveEvent(listener, instrumentation_event));
listener.Reset();
{
ScopedThreadSuspension sts(soa.Self(), kSuspended);
ScopedSuspendAll ssa("Remove instrumentation listener");
instr->RemoveListener(&listener, instrumentation_event);
}
// Check the listener is not registered and is not notified of the event.
EXPECT_FALSE(HasEventListener(instr, instrumentation_event));
EXPECT_FALSE(DidListenerReceiveEvent(listener, instrumentation_event));
ReportEvent(instr, instrumentation_event, soa.Self(), event_method, event_obj, event_dex_pc);
EXPECT_FALSE(DidListenerReceiveEvent(listener, instrumentation_event));
}
void DeoptimizeMethod(Thread* self, ArtMethod* method, bool enable_deoptimization)
SHARED_REQUIRES(Locks::mutator_lock_) {
Runtime* runtime = Runtime::Current();
instrumentation::Instrumentation* instrumentation = runtime->GetInstrumentation();
ScopedThreadSuspension sts(self, kSuspended);
gc::ScopedGCCriticalSection gcs(self,
gc::kGcCauseInstrumentation,
gc::kCollectorTypeInstrumentation);
ScopedSuspendAll ssa("Single method deoptimization");
if (enable_deoptimization) {
instrumentation->EnableDeoptimization();
}
instrumentation->Deoptimize(method);
}
void UndeoptimizeMethod(Thread* self, ArtMethod* method,
const char* key, bool disable_deoptimization)
SHARED_REQUIRES(Locks::mutator_lock_) {
Runtime* runtime = Runtime::Current();
instrumentation::Instrumentation* instrumentation = runtime->GetInstrumentation();
ScopedThreadSuspension sts(self, kSuspended);
gc::ScopedGCCriticalSection gcs(self,
gc::kGcCauseInstrumentation,
gc::kCollectorTypeInstrumentation);
ScopedSuspendAll ssa("Single method undeoptimization");
instrumentation->Undeoptimize(method);
if (disable_deoptimization) {
instrumentation->DisableDeoptimization(key);
}
}
void DeoptimizeEverything(Thread* self, const char* key, bool enable_deoptimization)
SHARED_REQUIRES(Locks::mutator_lock_) {
Runtime* runtime = Runtime::Current();
instrumentation::Instrumentation* instrumentation = runtime->GetInstrumentation();
ScopedThreadSuspension sts(self, kSuspended);
gc::ScopedGCCriticalSection gcs(self,
gc::kGcCauseInstrumentation,
gc::kCollectorTypeInstrumentation);
ScopedSuspendAll ssa("Full deoptimization");
if (enable_deoptimization) {
instrumentation->EnableDeoptimization();
}
instrumentation->DeoptimizeEverything(key);
}
void UndeoptimizeEverything(Thread* self, const char* key, bool disable_deoptimization)
SHARED_REQUIRES(Locks::mutator_lock_) {
Runtime* runtime = Runtime::Current();
instrumentation::Instrumentation* instrumentation = runtime->GetInstrumentation();
ScopedThreadSuspension sts(self, kSuspended);
gc::ScopedGCCriticalSection gcs(self,
gc::kGcCauseInstrumentation,
gc::kCollectorTypeInstrumentation);
ScopedSuspendAll ssa("Full undeoptimization");
instrumentation->UndeoptimizeEverything(key);
if (disable_deoptimization) {
instrumentation->DisableDeoptimization(key);
}
}
void EnableMethodTracing(Thread* self, const char* key, bool needs_interpreter)
SHARED_REQUIRES(Locks::mutator_lock_) {
Runtime* runtime = Runtime::Current();
instrumentation::Instrumentation* instrumentation = runtime->GetInstrumentation();
ScopedThreadSuspension sts(self, kSuspended);
gc::ScopedGCCriticalSection gcs(self,
gc::kGcCauseInstrumentation,
gc::kCollectorTypeInstrumentation);
ScopedSuspendAll ssa("EnableMethodTracing");
instrumentation->EnableMethodTracing(key, needs_interpreter);
}
void DisableMethodTracing(Thread* self, const char* key)
SHARED_REQUIRES(Locks::mutator_lock_) {
Runtime* runtime = Runtime::Current();
instrumentation::Instrumentation* instrumentation = runtime->GetInstrumentation();
ScopedThreadSuspension sts(self, kSuspended);
gc::ScopedGCCriticalSection gcs(self,
gc::kGcCauseInstrumentation,
gc::kCollectorTypeInstrumentation);
ScopedSuspendAll ssa("EnableMethodTracing");
instrumentation->DisableMethodTracing(key);
}
private:
static bool HasEventListener(const instrumentation::Instrumentation* instr, uint32_t event_type)
SHARED_REQUIRES(Locks::mutator_lock_) {
switch (event_type) {
case instrumentation::Instrumentation::kMethodEntered:
return instr->HasMethodEntryListeners();
case instrumentation::Instrumentation::kMethodExited:
return instr->HasMethodExitListeners();
case instrumentation::Instrumentation::kMethodUnwind:
return instr->HasMethodUnwindListeners();
case instrumentation::Instrumentation::kDexPcMoved:
return instr->HasDexPcListeners();
case instrumentation::Instrumentation::kFieldRead:
return instr->HasFieldReadListeners();
case instrumentation::Instrumentation::kFieldWritten:
return instr->HasFieldWriteListeners();
case instrumentation::Instrumentation::kExceptionCaught:
return instr->HasExceptionCaughtListeners();
case instrumentation::Instrumentation::kBranch:
return instr->HasBranchListeners();
case instrumentation::Instrumentation::kInvokeVirtualOrInterface:
return instr->HasInvokeVirtualOrInterfaceListeners();
default:
LOG(FATAL) << "Unknown instrumentation event " << event_type;
UNREACHABLE();
}
}
static void ReportEvent(const instrumentation::Instrumentation* instr, uint32_t event_type,
Thread* self, ArtMethod* method, mirror::Object* obj,
uint32_t dex_pc)
SHARED_REQUIRES(Locks::mutator_lock_) {
switch (event_type) {
case instrumentation::Instrumentation::kMethodEntered:
instr->MethodEnterEvent(self, obj, method, dex_pc);
break;
case instrumentation::Instrumentation::kMethodExited: {
JValue value;
instr->MethodExitEvent(self, obj, method, dex_pc, value);
break;
}
case instrumentation::Instrumentation::kMethodUnwind:
instr->MethodUnwindEvent(self, obj, method, dex_pc);
break;
case instrumentation::Instrumentation::kDexPcMoved:
instr->DexPcMovedEvent(self, obj, method, dex_pc);
break;
case instrumentation::Instrumentation::kFieldRead:
instr->FieldReadEvent(self, obj, method, dex_pc, nullptr);
break;
case instrumentation::Instrumentation::kFieldWritten: {
JValue value;
instr->FieldWriteEvent(self, obj, method, dex_pc, nullptr, value);
break;
}
case instrumentation::Instrumentation::kExceptionCaught: {
ThrowArithmeticExceptionDivideByZero();
mirror::Throwable* event_exception = self->GetException();
instr->ExceptionCaughtEvent(self, event_exception);
self->ClearException();
break;
}
case instrumentation::Instrumentation::kBranch:
instr->Branch(self, method, dex_pc, -1);
break;
case instrumentation::Instrumentation::kInvokeVirtualOrInterface:
instr->InvokeVirtualOrInterface(self, obj, method, dex_pc, method);
break;
default:
LOG(FATAL) << "Unknown instrumentation event " << event_type;
UNREACHABLE();
}
}
static bool DidListenerReceiveEvent(const TestInstrumentationListener& listener,
uint32_t event_type) {
switch (event_type) {
case instrumentation::Instrumentation::kMethodEntered:
return listener.received_method_enter_event;
case instrumentation::Instrumentation::kMethodExited:
return listener.received_method_exit_event;
case instrumentation::Instrumentation::kMethodUnwind:
return listener.received_method_unwind_event;
case instrumentation::Instrumentation::kDexPcMoved:
return listener.received_dex_pc_moved_event;
case instrumentation::Instrumentation::kFieldRead:
return listener.received_field_read_event;
case instrumentation::Instrumentation::kFieldWritten:
return listener.received_field_written_event;
case instrumentation::Instrumentation::kExceptionCaught:
return listener.received_exception_caught_event;
case instrumentation::Instrumentation::kBranch:
return listener.received_branch_event;
case instrumentation::Instrumentation::kInvokeVirtualOrInterface:
return listener.received_invoke_virtual_or_interface_event;
default:
LOG(FATAL) << "Unknown instrumentation event " << event_type;
UNREACHABLE();
}
}
};
TEST_F(InstrumentationTest, NoInstrumentation) {
ScopedObjectAccess soa(Thread::Current());
instrumentation::Instrumentation* instr = Runtime::Current()->GetInstrumentation();
ASSERT_NE(instr, nullptr);
EXPECT_FALSE(instr->AreExitStubsInstalled());
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_FALSE(instr->IsActive());
EXPECT_FALSE(instr->ShouldNotifyMethodEnterExitEvents());
// Test interpreter table is the default one.
EXPECT_EQ(instrumentation::kMainHandlerTable, instr->GetInterpreterHandlerTable());
// Check there is no registered listener.
EXPECT_FALSE(instr->HasDexPcListeners());
EXPECT_FALSE(instr->HasExceptionCaughtListeners());
EXPECT_FALSE(instr->HasFieldReadListeners());
EXPECT_FALSE(instr->HasFieldWriteListeners());
EXPECT_FALSE(instr->HasMethodEntryListeners());
EXPECT_FALSE(instr->HasMethodExitListeners());
EXPECT_FALSE(instr->IsActive());
}
// Test instrumentation listeners for each event.
TEST_F(InstrumentationTest, MethodEntryEvent) {
TestEvent(instrumentation::Instrumentation::kMethodEntered);
}
TEST_F(InstrumentationTest, MethodExitEvent) {
TestEvent(instrumentation::Instrumentation::kMethodExited);
}
TEST_F(InstrumentationTest, MethodUnwindEvent) {
TestEvent(instrumentation::Instrumentation::kMethodUnwind);
}
TEST_F(InstrumentationTest, DexPcMovedEvent) {
TestEvent(instrumentation::Instrumentation::kDexPcMoved);
}
TEST_F(InstrumentationTest, FieldReadEvent) {
TestEvent(instrumentation::Instrumentation::kFieldRead);
}
TEST_F(InstrumentationTest, FieldWriteEvent) {
TestEvent(instrumentation::Instrumentation::kFieldWritten);
}
TEST_F(InstrumentationTest, ExceptionCaughtEvent) {
TestEvent(instrumentation::Instrumentation::kExceptionCaught);
}
TEST_F(InstrumentationTest, BranchEvent) {
TestEvent(instrumentation::Instrumentation::kBranch);
}
TEST_F(InstrumentationTest, InvokeVirtualOrInterfaceEvent) {
TestEvent(instrumentation::Instrumentation::kInvokeVirtualOrInterface);
}
TEST_F(InstrumentationTest, DeoptimizeDirectMethod) {
ScopedObjectAccess soa(Thread::Current());
jobject class_loader = LoadDex("Instrumentation");
Runtime* const runtime = Runtime::Current();
instrumentation::Instrumentation* instr = runtime->GetInstrumentation();
ClassLinker* class_linker = runtime->GetClassLinker();
StackHandleScope<1> hs(soa.Self());
Handle<mirror::ClassLoader> loader(hs.NewHandle(soa.Decode<mirror::ClassLoader*>(class_loader)));
mirror::Class* klass = class_linker->FindClass(soa.Self(), "LInstrumentation;", loader);
ASSERT_TRUE(klass != nullptr);
ArtMethod* method_to_deoptimize = klass->FindDeclaredDirectMethod("instanceMethod", "()V",
sizeof(void*));
ASSERT_TRUE(method_to_deoptimize != nullptr);
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_FALSE(instr->IsDeoptimized(method_to_deoptimize));
DeoptimizeMethod(soa.Self(), method_to_deoptimize, true);
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_TRUE(instr->AreExitStubsInstalled());
EXPECT_TRUE(instr->IsDeoptimized(method_to_deoptimize));
constexpr const char* instrumentation_key = "DeoptimizeDirectMethod";
UndeoptimizeMethod(soa.Self(), method_to_deoptimize, instrumentation_key, true);
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_FALSE(instr->IsDeoptimized(method_to_deoptimize));
}
TEST_F(InstrumentationTest, FullDeoptimization) {
ScopedObjectAccess soa(Thread::Current());
Runtime* const runtime = Runtime::Current();
instrumentation::Instrumentation* instr = runtime->GetInstrumentation();
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
constexpr const char* instrumentation_key = "FullDeoptimization";
DeoptimizeEverything(soa.Self(), instrumentation_key, true);
EXPECT_TRUE(instr->AreAllMethodsDeoptimized());
EXPECT_TRUE(instr->AreExitStubsInstalled());
UndeoptimizeEverything(soa.Self(), instrumentation_key, true);
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
}
TEST_F(InstrumentationTest, MixedDeoptimization) {
ScopedObjectAccess soa(Thread::Current());
jobject class_loader = LoadDex("Instrumentation");
Runtime* const runtime = Runtime::Current();
instrumentation::Instrumentation* instr = runtime->GetInstrumentation();
ClassLinker* class_linker = runtime->GetClassLinker();
StackHandleScope<1> hs(soa.Self());
Handle<mirror::ClassLoader> loader(hs.NewHandle(soa.Decode<mirror::ClassLoader*>(class_loader)));
mirror::Class* klass = class_linker->FindClass(soa.Self(), "LInstrumentation;", loader);
ASSERT_TRUE(klass != nullptr);
ArtMethod* method_to_deoptimize = klass->FindDeclaredDirectMethod("instanceMethod", "()V",
sizeof(void*));
ASSERT_TRUE(method_to_deoptimize != nullptr);
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_FALSE(instr->IsDeoptimized(method_to_deoptimize));
DeoptimizeMethod(soa.Self(), method_to_deoptimize, true);
// Deoptimizing a method does not change instrumentation level.
EXPECT_EQ(Instrumentation::InstrumentationLevel::kInstrumentNothing,
GetCurrentInstrumentationLevel());
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_TRUE(instr->AreExitStubsInstalled());
EXPECT_TRUE(instr->IsDeoptimized(method_to_deoptimize));
constexpr const char* instrumentation_key = "MixedDeoptimization";
DeoptimizeEverything(soa.Self(), instrumentation_key, false);
EXPECT_EQ(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter,
GetCurrentInstrumentationLevel());
EXPECT_TRUE(instr->AreAllMethodsDeoptimized());
EXPECT_TRUE(instr->AreExitStubsInstalled());
EXPECT_TRUE(instr->IsDeoptimized(method_to_deoptimize));
UndeoptimizeEverything(soa.Self(), instrumentation_key, false);
EXPECT_EQ(Instrumentation::InstrumentationLevel::kInstrumentNothing,
GetCurrentInstrumentationLevel());
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_TRUE(instr->AreExitStubsInstalled());
EXPECT_TRUE(instr->IsDeoptimized(method_to_deoptimize));
UndeoptimizeMethod(soa.Self(), method_to_deoptimize, instrumentation_key, true);
EXPECT_EQ(Instrumentation::InstrumentationLevel::kInstrumentNothing,
GetCurrentInstrumentationLevel());
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_FALSE(instr->IsDeoptimized(method_to_deoptimize));
}
TEST_F(InstrumentationTest, MethodTracing_Interpreter) {
ScopedObjectAccess soa(Thread::Current());
Runtime* const runtime = Runtime::Current();
instrumentation::Instrumentation* instr = runtime->GetInstrumentation();
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
constexpr const char* instrumentation_key = "MethodTracing";
EnableMethodTracing(soa.Self(), instrumentation_key, true);
EXPECT_EQ(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter,
GetCurrentInstrumentationLevel());
EXPECT_TRUE(instr->AreAllMethodsDeoptimized());
EXPECT_TRUE(instr->AreExitStubsInstalled());
DisableMethodTracing(soa.Self(), instrumentation_key);
EXPECT_EQ(Instrumentation::InstrumentationLevel::kInstrumentNothing,
GetCurrentInstrumentationLevel());
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
}
TEST_F(InstrumentationTest, MethodTracing_InstrumentationEntryExitStubs) {
ScopedObjectAccess soa(Thread::Current());
Runtime* const runtime = Runtime::Current();
instrumentation::Instrumentation* instr = runtime->GetInstrumentation();
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
constexpr const char* instrumentation_key = "MethodTracing";
EnableMethodTracing(soa.Self(), instrumentation_key, false);
EXPECT_EQ(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
GetCurrentInstrumentationLevel());
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
EXPECT_TRUE(instr->AreExitStubsInstalled());
DisableMethodTracing(soa.Self(), instrumentation_key);
EXPECT_EQ(Instrumentation::InstrumentationLevel::kInstrumentNothing,
GetCurrentInstrumentationLevel());
EXPECT_FALSE(instr->AreAllMethodsDeoptimized());
}
// We use a macro to print the line number where the test is failing.
#define CHECK_INSTRUMENTATION(_level, _user_count) \
do { \
Instrumentation* const instr = Runtime::Current()->GetInstrumentation(); \
bool interpreter = \
(_level == Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter); \
EXPECT_EQ(_level, GetCurrentInstrumentationLevel()); \
EXPECT_EQ(_user_count, GetInstrumentationUserCount()); \
if (instr->IsForcedInterpretOnly()) { \
EXPECT_TRUE(instr->InterpretOnly()); \
} else if (interpreter) { \
EXPECT_TRUE(instr->InterpretOnly()); \
} else { \
EXPECT_FALSE(instr->InterpretOnly()); \
} \
if (interpreter) { \
EXPECT_TRUE(instr->AreAllMethodsDeoptimized()); \
} else { \
EXPECT_FALSE(instr->AreAllMethodsDeoptimized()); \
} \
} while (false)
TEST_F(InstrumentationTest, ConfigureStubs_Nothing) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Check no-op.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, ConfigureStubs_InstrumentationStubs) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Check we can switch to instrumentation stubs
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// Check we can disable instrumentation.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, ConfigureStubs_Interpreter) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Check we can switch to interpreter
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 1U);
// Check we can disable instrumentation.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, ConfigureStubs_InstrumentationStubsToInterpreter) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Configure stubs with instrumentation stubs.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// Configure stubs with interpreter.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 1U);
// Check we can disable instrumentation.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, ConfigureStubs_InterpreterToInstrumentationStubs) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Configure stubs with interpreter.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 1U);
// Configure stubs with instrumentation stubs.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// Check we can disable instrumentation.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest,
ConfigureStubs_InstrumentationStubsToInterpreterToInstrumentationStubs) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Configure stubs with instrumentation stubs.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// Configure stubs with interpreter.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 1U);
// Configure stubs with instrumentation stubs again.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// Check we can disable instrumentation.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, MultiConfigureStubs_Nothing) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Check kInstrumentNothing with two clients.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
CheckConfigureStubs(kClientTwoKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, MultiConfigureStubs_InstrumentationStubs) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Configure stubs with instrumentation stubs for 1st client.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// Configure stubs with instrumentation stubs for 2nd client.
CheckConfigureStubs(kClientTwoKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
2U);
// 1st client requests instrumentation deactivation but 2nd client still needs
// instrumentation stubs.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// 2nd client requests instrumentation deactivation
CheckConfigureStubs(kClientTwoKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, MultiConfigureStubs_Interpreter) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Configure stubs with interpreter for 1st client.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 1U);
// Configure stubs with interpreter for 2nd client.
CheckConfigureStubs(kClientTwoKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 2U);
// 1st client requests instrumentation deactivation but 2nd client still needs interpreter.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 1U);
// 2nd client requests instrumentation deactivation
CheckConfigureStubs(kClientTwoKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, MultiConfigureStubs_InstrumentationStubsThenInterpreter) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Configure stubs with instrumentation stubs for 1st client.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// Configure stubs with interpreter for 2nd client.
CheckConfigureStubs(kClientTwoKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 2U);
// 1st client requests instrumentation deactivation but 2nd client still needs interpreter.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 1U);
// 2nd client requests instrumentation deactivation
CheckConfigureStubs(kClientTwoKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
TEST_F(InstrumentationTest, MultiConfigureStubs_InterpreterThenInstrumentationStubs) {
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
// Configure stubs with interpreter for 1st client.
CheckConfigureStubs(kClientOneKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 1U);
// Configure stubs with instrumentation stubs for 2nd client.
CheckConfigureStubs(kClientTwoKey,
Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInterpreter, 2U);
// 1st client requests instrumentation deactivation but 2nd client still needs
// instrumentation stubs.
CheckConfigureStubs(kClientOneKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentWithInstrumentationStubs,
1U);
// 2nd client requests instrumentation deactivation
CheckConfigureStubs(kClientTwoKey, Instrumentation::InstrumentationLevel::kInstrumentNothing);
CHECK_INSTRUMENTATION(Instrumentation::InstrumentationLevel::kInstrumentNothing, 0U);
}
} // namespace instrumentation
} // namespace art