/* * Copyright (C) 2011 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 "class_linker.h" #include #include #include #include "android-base/strings.h" #include "art_field-inl.h" #include "art_method-inl.h" #include "base/enums.h" #include "class_linker-inl.h" #include "class_root-inl.h" #include "common_runtime_test.h" #include "dex/dex_file_types.h" #include "dex/signature-inl.h" #include "dex/standard_dex_file.h" #include "entrypoints/entrypoint_utils-inl.h" #include "experimental_flags.h" #include "gc/heap.h" #include "handle_scope-inl.h" #include "mirror/array-alloc-inl.h" #include "mirror/accessible_object.h" #include "mirror/call_site.h" #include "mirror/class-inl.h" #include "mirror/class_ext.h" #include "mirror/dex_cache.h" #include "mirror/emulated_stack_frame.h" #include "mirror/executable.h" #include "mirror/field.h" #include "mirror/method_handle_impl.h" #include "mirror/method_handles_lookup.h" #include "mirror/method_type-inl.h" #include "mirror/object-inl.h" #include "mirror/object_array-alloc-inl.h" #include "mirror/object_array-inl.h" #include "mirror/proxy.h" #include "mirror/reference.h" #include "mirror/stack_trace_element.h" #include "mirror/string-inl.h" #include "mirror/var_handle.h" #include "scoped_thread_state_change-inl.h" #include "thread-current-inl.h" namespace art { class ClassLinkerTest : public CommonRuntimeTest { protected: void AssertNonExistentClass(const std::string& descriptor) REQUIRES_SHARED(Locks::mutator_lock_) { Thread* self = Thread::Current(); EXPECT_TRUE(class_linker_->FindSystemClass(self, descriptor.c_str()) == nullptr); EXPECT_TRUE(self->IsExceptionPending()); StackHandleScope<1> hs(self); Handle exception = hs.NewHandle(self->GetException()); self->ClearException(); ObjPtr exception_class = class_linker_->FindSystemClass(self, "Ljava/lang/NoClassDefFoundError;"); EXPECT_TRUE(exception->InstanceOf(exception_class)); } void AssertPrimitiveClass(const std::string& descriptor) REQUIRES_SHARED(Locks::mutator_lock_) { Thread* self = Thread::Current(); AssertPrimitiveClass(descriptor, class_linker_->FindSystemClass(self, descriptor.c_str())); } void AssertPrimitiveClass(const std::string& descriptor, ObjPtr primitive) REQUIRES_SHARED(Locks::mutator_lock_) { ASSERT_TRUE(primitive != nullptr); ASSERT_TRUE(primitive->GetClass() != nullptr); ASSERT_OBJ_PTR_EQ(primitive->GetClass(), primitive->GetClass()->GetClass()); EXPECT_TRUE(primitive->GetClass()->GetSuperClass() != nullptr); std::string temp; ASSERT_STREQ(descriptor.c_str(), primitive->GetDescriptor(&temp)); EXPECT_TRUE(primitive->GetSuperClass() == nullptr); EXPECT_FALSE(primitive->HasSuperClass()); EXPECT_TRUE(primitive->GetClassLoader() == nullptr); EXPECT_EQ(ClassStatus::kVisiblyInitialized, primitive->GetStatus()); EXPECT_FALSE(primitive->IsErroneous()); EXPECT_TRUE(primitive->IsLoaded()); EXPECT_TRUE(primitive->IsResolved()); EXPECT_FALSE(primitive->IsErroneousResolved()); EXPECT_TRUE(primitive->IsVerified()); EXPECT_TRUE(primitive->IsInitialized()); EXPECT_FALSE(primitive->IsArrayInstance()); EXPECT_FALSE(primitive->IsArrayClass()); EXPECT_TRUE(primitive->GetComponentType() == nullptr); EXPECT_FALSE(primitive->IsInterface()); EXPECT_TRUE(primitive->IsPublic()); EXPECT_TRUE(primitive->IsFinal()); EXPECT_TRUE(primitive->IsPrimitive()); EXPECT_FALSE(primitive->IsSynthetic()); EXPECT_EQ(0U, primitive->NumDirectMethods()); EXPECT_EQ(0U, primitive->NumVirtualMethods()); EXPECT_EQ(0U, primitive->NumInstanceFields()); EXPECT_EQ(0U, primitive->NumStaticFields()); EXPECT_EQ(0U, primitive->NumDirectInterfaces()); EXPECT_FALSE(primitive->HasVTable()); EXPECT_EQ(0, primitive->GetIfTableCount()); EXPECT_TRUE(primitive->GetIfTable() != nullptr); EXPECT_EQ(primitive->GetIfTable()->Count(), 0u); EXPECT_EQ(kAccPublic | kAccFinal | kAccAbstract | kAccVerificationAttempted, primitive->GetAccessFlags()); } void AssertObjectClass(ObjPtr JavaLangObject) REQUIRES_SHARED(Locks::mutator_lock_) { ASSERT_TRUE(JavaLangObject != nullptr); ASSERT_TRUE(JavaLangObject->GetClass() != nullptr); ASSERT_OBJ_PTR_EQ(JavaLangObject->GetClass(), JavaLangObject->GetClass()->GetClass()); EXPECT_OBJ_PTR_EQ(JavaLangObject, JavaLangObject->GetClass()->GetSuperClass()); std::string temp; ASSERT_STREQ(JavaLangObject->GetDescriptor(&temp), "Ljava/lang/Object;"); EXPECT_TRUE(JavaLangObject->GetSuperClass() == nullptr); EXPECT_FALSE(JavaLangObject->HasSuperClass()); EXPECT_TRUE(JavaLangObject->GetClassLoader() == nullptr); class_linker_->MakeInitializedClassesVisiblyInitialized(Thread::Current(), /*wait=*/ true); EXPECT_EQ(ClassStatus::kVisiblyInitialized, JavaLangObject->GetStatus()); EXPECT_FALSE(JavaLangObject->IsErroneous()); EXPECT_TRUE(JavaLangObject->IsLoaded()); EXPECT_TRUE(JavaLangObject->IsResolved()); EXPECT_FALSE(JavaLangObject->IsErroneousResolved()); EXPECT_TRUE(JavaLangObject->IsVerified()); EXPECT_TRUE(JavaLangObject->IsInitialized()); EXPECT_FALSE(JavaLangObject->IsArrayInstance()); EXPECT_FALSE(JavaLangObject->IsArrayClass()); EXPECT_TRUE(JavaLangObject->GetComponentType() == nullptr); EXPECT_FALSE(JavaLangObject->IsInterface()); EXPECT_TRUE(JavaLangObject->IsPublic()); EXPECT_FALSE(JavaLangObject->IsFinal()); EXPECT_FALSE(JavaLangObject->IsPrimitive()); EXPECT_FALSE(JavaLangObject->IsSynthetic()); EXPECT_EQ(4U, JavaLangObject->NumDirectMethods()); EXPECT_EQ(11U, JavaLangObject->NumVirtualMethods()); if (!kUseBrooksReadBarrier) { EXPECT_EQ(2U, JavaLangObject->NumInstanceFields()); } else { EXPECT_EQ(4U, JavaLangObject->NumInstanceFields()); } EXPECT_STREQ(JavaLangObject->GetInstanceField(0)->GetName(), "shadow$_klass_"); EXPECT_STREQ(JavaLangObject->GetInstanceField(1)->GetName(), "shadow$_monitor_"); if (kUseBrooksReadBarrier) { EXPECT_STREQ(JavaLangObject->GetInstanceField(2)->GetName(), "shadow$_x_rb_ptr_"); EXPECT_STREQ(JavaLangObject->GetInstanceField(3)->GetName(), "shadow$_x_xpadding_"); } EXPECT_EQ(0U, JavaLangObject->NumStaticFields()); EXPECT_EQ(0U, JavaLangObject->NumDirectInterfaces()); PointerSize pointer_size = class_linker_->GetImagePointerSize(); ArtMethod* unimplemented = runtime_->GetImtUnimplementedMethod(); ImTable* imt = JavaLangObject->GetImt(pointer_size); ASSERT_NE(nullptr, imt); for (size_t i = 0; i < ImTable::kSize; ++i) { ASSERT_EQ(unimplemented, imt->Get(i, pointer_size)); } } void AssertArrayClass(const std::string& array_descriptor, const std::string& component_type, ObjPtr class_loader) REQUIRES_SHARED(Locks::mutator_lock_) { Thread* self = Thread::Current(); StackHandleScope<2> hs(self); Handle loader(hs.NewHandle(class_loader)); Handle array( hs.NewHandle(class_linker_->FindClass(self, array_descriptor.c_str(), loader))); std::string temp; EXPECT_STREQ(component_type.c_str(), array->GetComponentType()->GetDescriptor(&temp)); EXPECT_OBJ_PTR_EQ(loader.Get(), array->GetClassLoader()); EXPECT_EQ(kAccFinal | kAccAbstract, (array->GetAccessFlags() & (kAccFinal | kAccAbstract))); AssertArrayClass(array_descriptor, array); } void AssertArrayClass(const std::string& array_descriptor, Handle array) REQUIRES_SHARED(Locks::mutator_lock_) { ASSERT_TRUE(array != nullptr); ASSERT_TRUE(array->GetClass() != nullptr); ASSERT_OBJ_PTR_EQ(array->GetClass(), array->GetClass()->GetClass()); EXPECT_TRUE(array->GetClass()->GetSuperClass() != nullptr); std::string temp; ASSERT_STREQ(array_descriptor.c_str(), array->GetDescriptor(&temp)); EXPECT_TRUE(array->GetSuperClass() != nullptr); Thread* self = Thread::Current(); EXPECT_OBJ_PTR_EQ(class_linker_->FindSystemClass(self, "Ljava/lang/Object;"), array->GetSuperClass()); EXPECT_TRUE(array->HasSuperClass()); ASSERT_TRUE(array->GetComponentType() != nullptr); ASSERT_GT(strlen(array->GetComponentType()->GetDescriptor(&temp)), 0U); EXPECT_EQ(ClassStatus::kVisiblyInitialized, array->GetStatus()); EXPECT_FALSE(array->IsErroneous()); EXPECT_TRUE(array->IsLoaded()); EXPECT_TRUE(array->IsResolved()); EXPECT_FALSE(array->IsErroneousResolved()); EXPECT_TRUE(array->IsVerified()); EXPECT_TRUE(array->IsInitialized()); EXPECT_FALSE(array->IsArrayInstance()); EXPECT_TRUE(array->IsArrayClass()); EXPECT_FALSE(array->IsInterface()); EXPECT_EQ(array->GetComponentType()->IsPublic(), array->IsPublic()); EXPECT_TRUE(array->IsFinal()); EXPECT_FALSE(array->IsPrimitive()); EXPECT_FALSE(array->IsSynthetic()); EXPECT_EQ(0U, array->NumDirectMethods()); EXPECT_EQ(0U, array->NumVirtualMethods()); EXPECT_EQ(0U, array->NumInstanceFields()); EXPECT_EQ(0U, array->NumStaticFields()); EXPECT_EQ(2U, array->NumDirectInterfaces()); EXPECT_TRUE(array->ShouldHaveImt()); EXPECT_TRUE(array->ShouldHaveEmbeddedVTable()); EXPECT_EQ(2, array->GetIfTableCount()); ASSERT_TRUE(array->GetIfTable() != nullptr); ObjPtr direct_interface0 = mirror::Class::GetDirectInterface(self, array.Get(), 0); EXPECT_TRUE(direct_interface0 != nullptr); EXPECT_STREQ(direct_interface0->GetDescriptor(&temp), "Ljava/lang/Cloneable;"); ObjPtr direct_interface1 = mirror::Class::GetDirectInterface(self, array.Get(), 1); EXPECT_STREQ(direct_interface1->GetDescriptor(&temp), "Ljava/io/Serializable;"); EXPECT_OBJ_PTR_EQ(class_linker_->FindArrayClass(self, array->GetComponentType()), array.Get()); PointerSize pointer_size = class_linker_->GetImagePointerSize(); ObjPtr JavaLangObject = class_linker_->FindSystemClass(self, "Ljava/lang/Object;"); ImTable* JavaLangObject_imt = JavaLangObject->GetImt(pointer_size); // IMT of a array class should be shared with the IMT of the java.lag.Object ASSERT_EQ(JavaLangObject_imt, array->GetImt(pointer_size)); } void AssertMethod(ArtMethod* method) REQUIRES_SHARED(Locks::mutator_lock_) { EXPECT_TRUE(method != nullptr); EXPECT_TRUE(method->GetDeclaringClass() != nullptr); EXPECT_TRUE(method->GetName() != nullptr); EXPECT_TRUE(method->GetSignature() != Signature::NoSignature()); } void AssertField(ObjPtr klass, ArtField* field) REQUIRES_SHARED(Locks::mutator_lock_) { EXPECT_TRUE(field != nullptr); EXPECT_OBJ_PTR_EQ(klass, field->GetDeclaringClass()); EXPECT_TRUE(field->GetName() != nullptr); EXPECT_TRUE(field->ResolveType() != nullptr); } void AssertClass(const std::string& descriptor, Handle klass) REQUIRES_SHARED(Locks::mutator_lock_) { std::string temp; EXPECT_STREQ(descriptor.c_str(), klass->GetDescriptor(&temp)); if (descriptor == "Ljava/lang/Object;") { EXPECT_FALSE(klass->HasSuperClass()); } else { EXPECT_TRUE(klass->HasSuperClass()); EXPECT_TRUE(klass->GetSuperClass() != nullptr); } EXPECT_TRUE(klass->GetClass() != nullptr); EXPECT_OBJ_PTR_EQ(klass->GetClass(), klass->GetClass()->GetClass()); EXPECT_TRUE(klass->GetDexCache() != nullptr); EXPECT_TRUE(klass->IsLoaded()); EXPECT_TRUE(klass->IsResolved()); EXPECT_FALSE(klass->IsErroneousResolved()); EXPECT_FALSE(klass->IsErroneous()); EXPECT_FALSE(klass->IsArrayClass()); EXPECT_TRUE(klass->GetComponentType() == nullptr); EXPECT_TRUE(klass->IsInSamePackage(klass.Get())); std::string temp2; EXPECT_TRUE(mirror::Class::IsInSamePackage(klass->GetDescriptor(&temp), klass->GetDescriptor(&temp2))); if (klass->IsInterface()) { EXPECT_TRUE(klass->IsAbstract()); // Check that all direct methods are static (either or a regular static method). for (ArtMethod& m : klass->GetDirectMethods(kRuntimePointerSize)) { EXPECT_TRUE(m.IsStatic()); EXPECT_TRUE(m.IsDirect()); } } else { if (!klass->IsSynthetic()) { EXPECT_NE(0U, klass->NumDirectMethods()); } } EXPECT_EQ(klass->IsInterface(), !klass->HasVTable()); ObjPtr iftable = klass->GetIfTable(); for (int i = 0; i < klass->GetIfTableCount(); i++) { ObjPtr interface = iftable->GetInterface(i); ASSERT_TRUE(interface != nullptr); if (klass->IsInterface()) { EXPECT_EQ(0U, iftable->GetMethodArrayCount(i)); } else { EXPECT_EQ(interface->NumDeclaredVirtualMethods(), iftable->GetMethodArrayCount(i)); } } if (klass->IsAbstract()) { EXPECT_FALSE(klass->IsFinal()); } else { EXPECT_FALSE(klass->IsAnnotation()); } if (klass->IsFinal()) { EXPECT_FALSE(klass->IsAbstract()); EXPECT_FALSE(klass->IsAnnotation()); } if (klass->IsAnnotation()) { EXPECT_FALSE(klass->IsFinal()); EXPECT_TRUE(klass->IsAbstract()); } EXPECT_FALSE(klass->IsPrimitive()); EXPECT_TRUE(klass->CanAccess(klass.Get())); for (ArtMethod& method : klass->GetDirectMethods(kRuntimePointerSize)) { AssertMethod(&method); EXPECT_TRUE(method.IsDirect()); EXPECT_OBJ_PTR_EQ(klass.Get(), method.GetDeclaringClass()); } for (ArtMethod& method : klass->GetDeclaredVirtualMethods(kRuntimePointerSize)) { AssertMethod(&method); EXPECT_FALSE(method.IsDirect()); EXPECT_OBJ_PTR_EQ(klass.Get(), method.GetDeclaringClass()); } for (ArtMethod& method : klass->GetCopiedMethods(kRuntimePointerSize)) { AssertMethod(&method); EXPECT_FALSE(method.IsDirect()); EXPECT_TRUE(method.IsCopied()); EXPECT_TRUE(method.GetDeclaringClass()->IsInterface()) << "declaring class: " << method.GetDeclaringClass()->PrettyClass(); EXPECT_TRUE(method.GetDeclaringClass()->IsAssignableFrom(klass.Get())) << "declaring class: " << method.GetDeclaringClass()->PrettyClass(); } for (size_t i = 0; i < klass->NumInstanceFields(); i++) { ArtField* field = klass->GetInstanceField(i); AssertField(klass.Get(), field); EXPECT_FALSE(field->IsStatic()); } for (size_t i = 0; i < klass->NumStaticFields(); i++) { ArtField* field = klass->GetStaticField(i); AssertField(klass.Get(), field); EXPECT_TRUE(field->IsStatic()); } // Confirm that all instances field offsets are packed together at the start. EXPECT_GE(klass->NumInstanceFields(), klass->NumReferenceInstanceFields()); MemberOffset start_ref_offset = klass->GetFirstReferenceInstanceFieldOffset(); MemberOffset end_ref_offset(start_ref_offset.Uint32Value() + klass->NumReferenceInstanceFields() * sizeof(mirror::HeapReference)); MemberOffset current_ref_offset = start_ref_offset; for (size_t i = 0; i < klass->NumInstanceFields(); i++) { ArtField* field = klass->GetInstanceField(i); ObjPtr field_type = field->ResolveType(); ASSERT_TRUE(field_type != nullptr); if (!field->IsPrimitiveType()) { ASSERT_TRUE(!field_type->IsPrimitive()); ASSERT_EQ(current_ref_offset.Uint32Value(), field->GetOffset().Uint32Value()); if (current_ref_offset.Uint32Value() == end_ref_offset.Uint32Value()) { // While Reference.referent is not primitive, the ClassLinker // treats it as such so that the garbage collector won't scan it. EXPECT_EQ(field->PrettyField(), "java.lang.Object java.lang.ref.Reference.referent"); } else { current_ref_offset = MemberOffset(current_ref_offset.Uint32Value() + sizeof(mirror::HeapReference)); } } else { if (field->GetOffset().Uint32Value() < end_ref_offset.Uint32Value()) { // Shuffled before references. ASSERT_LT(field->GetOffset().Uint32Value(), start_ref_offset.Uint32Value()); CHECK(!IsAligned<4>(field->GetOffset().Uint32Value())); } } } ASSERT_EQ(end_ref_offset.Uint32Value(), current_ref_offset.Uint32Value()); uint32_t total_num_reference_instance_fields = 0; ObjPtr k = klass.Get(); while (k != nullptr) { total_num_reference_instance_fields += k->NumReferenceInstanceFields(); k = k->GetSuperClass(); } EXPECT_GE(total_num_reference_instance_fields, 1U); // Should always have Object's class. if (klass->GetReferenceInstanceOffsets() != mirror::Class::kClassWalkSuper) { // The reference instance offsets have a bit set for each reference offset. // +1 for Object's class. EXPECT_EQ(static_cast(POPCOUNT(klass->GetReferenceInstanceOffsets())) + 1, total_num_reference_instance_fields); } } void AssertDexFileClass(ObjPtr class_loader, const std::string& descriptor) REQUIRES_SHARED(Locks::mutator_lock_) { ASSERT_FALSE(descriptor.empty()); Thread* self = Thread::Current(); StackHandleScope<1> hs(self); Handle klass( hs.NewHandle(class_linker_->FindSystemClass(self, descriptor.c_str()))); ASSERT_TRUE(klass != nullptr); std::string temp; EXPECT_STREQ(descriptor.c_str(), klass->GetDescriptor(&temp)); EXPECT_OBJ_PTR_EQ(class_loader, klass->GetClassLoader()); if (klass->IsPrimitive()) { AssertPrimitiveClass(descriptor, klass.Get()); } else if (klass->IsArrayClass()) { AssertArrayClass(descriptor, klass); } else { AssertClass(descriptor, klass); } } void AssertDexFile(const DexFile& dex, ObjPtr class_loader) REQUIRES_SHARED(Locks::mutator_lock_) { // Verify all the classes defined in this file for (size_t i = 0; i < dex.NumClassDefs(); i++) { const dex::ClassDef& class_def = dex.GetClassDef(i); const char* descriptor = dex.GetClassDescriptor(class_def); AssertDexFileClass(class_loader, descriptor); } // Verify all the types referenced by this file for (size_t i = 0; i < dex.NumTypeIds(); i++) { const dex::TypeId& type_id = dex.GetTypeId(dex::TypeIndex(i)); const char* descriptor = dex.GetTypeDescriptor(type_id); AssertDexFileClass(class_loader, descriptor); } TestRootVisitor visitor; class_linker_->VisitRoots(&visitor, kVisitRootFlagAllRoots); } class TestRootVisitor : public SingleRootVisitor { public: void VisitRoot(mirror::Object* root, const RootInfo& info ATTRIBUTE_UNUSED) override { EXPECT_TRUE(root != nullptr); } }; }; class ClassLinkerMethodHandlesTest : public ClassLinkerTest { protected: void SetUpRuntimeOptions(RuntimeOptions* options) override { CommonRuntimeTest::SetUpRuntimeOptions(options); } }; struct CheckOffset { size_t cpp_offset; const char* java_name; CheckOffset(size_t c, const char* j) : cpp_offset(c), java_name(j) {} }; template struct CheckOffsets { CheckOffsets(bool is_static_in, const char* class_descriptor_in) : is_static(is_static_in), class_descriptor(class_descriptor_in) {} bool is_static; std::string class_descriptor; std::vector offsets; bool Check() REQUIRES_SHARED(Locks::mutator_lock_) { Thread* self = Thread::Current(); ObjPtr klass = Runtime::Current()->GetClassLinker()->FindSystemClass(self, class_descriptor.c_str()); CHECK(klass != nullptr) << class_descriptor; CHECK(klass->IsMirrored()) << class_descriptor; bool error = false; // Classes have a different size due to padding field. Strings are variable length. if (!klass->IsClassClass() && !klass->IsStringClass() && !is_static) { // The RoundUp is required for some mirror classes that have a gap at the end, // such as AccessibleObject, ByteArrayViewVarHandle and ByteBufferViewVarHandle. // For example, the AccessibleObject has size 9 according to the class linker. // However, the C++ sizeof(AccessibleObject) is 12 bytes due to alignment, even // though members in C++ subclasses are actually starting at offset 9. // // TODO: We could define a subclass with a `uint8_t` member and check its offset instead. static constexpr size_t kPackAlignment = 4; size_t expected_size = RoundUp(klass->GetObjectSize(), kPackAlignment); if (sizeof(T) != expected_size) { LOG(ERROR) << "Class size mismatch:" << " class=" << class_descriptor << " Java=" << expected_size << " C++=" << sizeof(T); error = true; } } size_t num_fields = is_static ? klass->NumStaticFields() : klass->NumInstanceFields(); if (offsets.size() != num_fields) { LOG(ERROR) << "Field count mismatch:" << " class=" << class_descriptor << " Java=" << num_fields << " C++=" << offsets.size(); error = true; } for (size_t i = 0; i < offsets.size(); i++) { ArtField* field = is_static ? klass->GetStaticField(i) : klass->GetInstanceField(i); std::string_view field_name(field->GetName()); if (field_name != offsets[i].java_name) { error = true; } } if (error) { for (size_t i = 0; i < offsets.size(); i++) { CheckOffset& offset = offsets[i]; ArtField* field = is_static ? klass->GetStaticField(i) : klass->GetInstanceField(i); std::string_view field_name(field->GetName()); if (field_name != offsets[i].java_name) { LOG(ERROR) << "JAVA FIELD ORDER MISMATCH NEXT LINE:"; } LOG(ERROR) << "Java field order:" << " i=" << i << " class=" << class_descriptor << " Java=" << field_name << " CheckOffsets=" << offset.java_name; } } for (size_t i = 0; i < offsets.size(); i++) { CheckOffset& offset = offsets[i]; ArtField* field = is_static ? klass->GetStaticField(i) : klass->GetInstanceField(i); if (field->GetOffset().Uint32Value() != offset.cpp_offset) { error = true; } } if (error) { for (size_t i = 0; i < offsets.size(); i++) { CheckOffset& offset = offsets[i]; ArtField* field = is_static ? klass->GetStaticField(i) : klass->GetInstanceField(i); if (field->GetOffset().Uint32Value() != offset.cpp_offset) { LOG(ERROR) << "OFFSET MISMATCH NEXT LINE:"; } LOG(ERROR) << "Offset: class=" << class_descriptor << " field=" << offset.java_name << " Java=" << field->GetOffset().Uint32Value() << " C++=" << offset.cpp_offset; } } return !error; }; void addOffset(size_t offset, const char* name) { offsets.push_back(CheckOffset(offset, name)); } private: DISALLOW_IMPLICIT_CONSTRUCTORS(CheckOffsets); }; // Note that ClassLinkerTest.ValidateFieldOrderOfJavaCppUnionClasses // is first since if it is failing, others are unlikely to succeed. struct ObjectOffsets : public CheckOffsets { ObjectOffsets() : CheckOffsets(false, "Ljava/lang/Object;") { addOffset(OFFSETOF_MEMBER(mirror::Object, klass_), "shadow$_klass_"); addOffset(OFFSETOF_MEMBER(mirror::Object, monitor_), "shadow$_monitor_"); #ifdef USE_BROOKS_READ_BARRIER addOffset(OFFSETOF_MEMBER(mirror::Object, x_rb_ptr_), "shadow$_x_rb_ptr_"); addOffset(OFFSETOF_MEMBER(mirror::Object, x_xpadding_), "shadow$_x_xpadding_"); #endif } }; struct ClassOffsets : public CheckOffsets { ClassOffsets() : CheckOffsets(false, "Ljava/lang/Class;") { addOffset(OFFSETOF_MEMBER(mirror::Class, access_flags_), "accessFlags"); addOffset(OFFSETOF_MEMBER(mirror::Class, class_flags_), "classFlags"); addOffset(OFFSETOF_MEMBER(mirror::Class, class_loader_), "classLoader"); addOffset(OFFSETOF_MEMBER(mirror::Class, class_size_), "classSize"); addOffset(OFFSETOF_MEMBER(mirror::Class, clinit_thread_id_), "clinitThreadId"); addOffset(OFFSETOF_MEMBER(mirror::Class, component_type_), "componentType"); addOffset(OFFSETOF_MEMBER(mirror::Class, copied_methods_offset_), "copiedMethodsOffset"); addOffset(OFFSETOF_MEMBER(mirror::Class, dex_cache_), "dexCache"); addOffset(OFFSETOF_MEMBER(mirror::Class, dex_class_def_idx_), "dexClassDefIndex"); addOffset(OFFSETOF_MEMBER(mirror::Class, dex_type_idx_), "dexTypeIndex"); addOffset(OFFSETOF_MEMBER(mirror::Class, ext_data_), "extData"); addOffset(OFFSETOF_MEMBER(mirror::Class, ifields_), "iFields"); addOffset(OFFSETOF_MEMBER(mirror::Class, iftable_), "ifTable"); addOffset(OFFSETOF_MEMBER(mirror::Class, methods_), "methods"); addOffset(OFFSETOF_MEMBER(mirror::Class, name_), "name"); addOffset(OFFSETOF_MEMBER(mirror::Class, num_reference_instance_fields_), "numReferenceInstanceFields"); addOffset(OFFSETOF_MEMBER(mirror::Class, num_reference_static_fields_), "numReferenceStaticFields"); addOffset(OFFSETOF_MEMBER(mirror::Class, object_size_), "objectSize"); addOffset(OFFSETOF_MEMBER(mirror::Class, object_size_alloc_fast_path_), "objectSizeAllocFastPath"); addOffset(OFFSETOF_MEMBER(mirror::Class, primitive_type_), "primitiveType"); addOffset(OFFSETOF_MEMBER(mirror::Class, reference_instance_offsets_), "referenceInstanceOffsets"); addOffset(OFFSETOF_MEMBER(mirror::Class, sfields_), "sFields"); addOffset(OFFSETOF_MEMBER(mirror::Class, status_), "status"); addOffset(OFFSETOF_MEMBER(mirror::Class, super_class_), "superClass"); addOffset(OFFSETOF_MEMBER(mirror::Class, virtual_methods_offset_), "virtualMethodsOffset"); addOffset(OFFSETOF_MEMBER(mirror::Class, vtable_), "vtable"); } }; struct ClassExtOffsets : public CheckOffsets { ClassExtOffsets() : CheckOffsets(false, "Ldalvik/system/ClassExt;") { addOffset(OFFSETOF_MEMBER(mirror::ClassExt, instance_jfield_ids_), "instanceJfieldIDs"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, jmethod_ids_), "jmethodIDs"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, obsolete_class_), "obsoleteClass"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, obsolete_dex_caches_), "obsoleteDexCaches"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, obsolete_methods_), "obsoleteMethods"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, original_dex_file_), "originalDexFile"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, pre_redefine_class_def_index_), "preRedefineClassDefIndex"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, pre_redefine_dex_file_ptr_), "preRedefineDexFilePtr"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, static_jfield_ids_), "staticJfieldIDs"); addOffset(OFFSETOF_MEMBER(mirror::ClassExt, verify_error_), "verifyError"); } }; struct StringOffsets : public CheckOffsets { StringOffsets() : CheckOffsets(false, "Ljava/lang/String;") { addOffset(OFFSETOF_MEMBER(mirror::String, count_), "count"); addOffset(OFFSETOF_MEMBER(mirror::String, hash_code_), "hash"); } }; struct ThrowableOffsets : public CheckOffsets { ThrowableOffsets() : CheckOffsets(false, "Ljava/lang/Throwable;") { addOffset(OFFSETOF_MEMBER(mirror::Throwable, backtrace_), "backtrace"); addOffset(OFFSETOF_MEMBER(mirror::Throwable, cause_), "cause"); addOffset(OFFSETOF_MEMBER(mirror::Throwable, detail_message_), "detailMessage"); addOffset(OFFSETOF_MEMBER(mirror::Throwable, stack_trace_), "stackTrace"); addOffset(OFFSETOF_MEMBER(mirror::Throwable, suppressed_exceptions_), "suppressedExceptions"); } }; struct StackTraceElementOffsets : public CheckOffsets { StackTraceElementOffsets() : CheckOffsets( false, "Ljava/lang/StackTraceElement;") { addOffset(OFFSETOF_MEMBER(mirror::StackTraceElement, declaring_class_), "declaringClass"); addOffset(OFFSETOF_MEMBER(mirror::StackTraceElement, file_name_), "fileName"); addOffset(OFFSETOF_MEMBER(mirror::StackTraceElement, line_number_), "lineNumber"); addOffset(OFFSETOF_MEMBER(mirror::StackTraceElement, method_name_), "methodName"); } }; struct ClassLoaderOffsets : public CheckOffsets { ClassLoaderOffsets() : CheckOffsets(false, "Ljava/lang/ClassLoader;") { addOffset(OFFSETOF_MEMBER(mirror::ClassLoader, allocator_), "allocator"); addOffset(OFFSETOF_MEMBER(mirror::ClassLoader, class_table_), "classTable"); addOffset(OFFSETOF_MEMBER(mirror::ClassLoader, packages_), "packages"); addOffset(OFFSETOF_MEMBER(mirror::ClassLoader, parent_), "parent"); addOffset(OFFSETOF_MEMBER(mirror::ClassLoader, proxyCache_), "proxyCache"); } }; struct ProxyOffsets : public CheckOffsets { ProxyOffsets() : CheckOffsets(false, "Ljava/lang/reflect/Proxy;") { addOffset(OFFSETOF_MEMBER(mirror::Proxy, h_), "h"); } }; struct DexCacheOffsets : public CheckOffsets { DexCacheOffsets() : CheckOffsets(false, "Ljava/lang/DexCache;") { addOffset(OFFSETOF_MEMBER(mirror::DexCache, class_loader_), "classLoader"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, dex_file_), "dexFile"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, location_), "location"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, num_preresolved_strings_), "numPreResolvedStrings"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, num_resolved_call_sites_), "numResolvedCallSites"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, num_resolved_fields_), "numResolvedFields"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, num_resolved_method_types_), "numResolvedMethodTypes"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, num_resolved_methods_), "numResolvedMethods"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, num_resolved_types_), "numResolvedTypes"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, num_strings_), "numStrings"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, preresolved_strings_), "preResolvedStrings"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, resolved_call_sites_), "resolvedCallSites"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, resolved_fields_), "resolvedFields"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, resolved_method_types_), "resolvedMethodTypes"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, resolved_methods_), "resolvedMethods"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, resolved_types_), "resolvedTypes"); addOffset(OFFSETOF_MEMBER(mirror::DexCache, strings_), "strings"); } }; struct ReferenceOffsets : public CheckOffsets { ReferenceOffsets() : CheckOffsets(false, "Ljava/lang/ref/Reference;") { addOffset(OFFSETOF_MEMBER(mirror::Reference, pending_next_), "pendingNext"); addOffset(OFFSETOF_MEMBER(mirror::Reference, queue_), "queue"); addOffset(OFFSETOF_MEMBER(mirror::Reference, queue_next_), "queueNext"); addOffset(OFFSETOF_MEMBER(mirror::Reference, referent_), "referent"); } }; struct FinalizerReferenceOffsets : public CheckOffsets { FinalizerReferenceOffsets() : CheckOffsets( false, "Ljava/lang/ref/FinalizerReference;") { addOffset(OFFSETOF_MEMBER(mirror::FinalizerReference, next_), "next"); addOffset(OFFSETOF_MEMBER(mirror::FinalizerReference, prev_), "prev"); addOffset(OFFSETOF_MEMBER(mirror::FinalizerReference, zombie_), "zombie"); } }; struct AccessibleObjectOffsets : public CheckOffsets { AccessibleObjectOffsets() : CheckOffsets( false, "Ljava/lang/reflect/AccessibleObject;") { addOffset(mirror::AccessibleObject::FlagOffset().Uint32Value(), "override"); } }; struct FieldOffsets : public CheckOffsets { FieldOffsets() : CheckOffsets(false, "Ljava/lang/reflect/Field;") { addOffset(OFFSETOF_MEMBER(mirror::Field, access_flags_), "accessFlags"); addOffset(OFFSETOF_MEMBER(mirror::Field, art_field_index_), "artFieldIndex"); addOffset(OFFSETOF_MEMBER(mirror::Field, declaring_class_), "declaringClass"); addOffset(OFFSETOF_MEMBER(mirror::Field, offset_), "offset"); addOffset(OFFSETOF_MEMBER(mirror::Field, type_), "type"); } }; struct ExecutableOffsets : public CheckOffsets { ExecutableOffsets() : CheckOffsets( false, "Ljava/lang/reflect/Executable;") { addOffset(OFFSETOF_MEMBER(mirror::Executable, access_flags_), "accessFlags"); addOffset(OFFSETOF_MEMBER(mirror::Executable, art_method_), "artMethod"); addOffset(OFFSETOF_MEMBER(mirror::Executable, declaring_class_), "declaringClass"); addOffset(OFFSETOF_MEMBER(mirror::Executable, declaring_class_of_overridden_method_), "declaringClassOfOverriddenMethod"); addOffset(OFFSETOF_MEMBER(mirror::Executable, dex_method_index_), "dexMethodIndex"); addOffset(OFFSETOF_MEMBER(mirror::Executable, has_real_parameter_data_), "hasRealParameterData"); addOffset(OFFSETOF_MEMBER(mirror::Executable, parameters_), "parameters"); } }; struct MethodTypeOffsets : public CheckOffsets { MethodTypeOffsets() : CheckOffsets( false, "Ljava/lang/invoke/MethodType;") { addOffset(OFFSETOF_MEMBER(mirror::MethodType, form_), "form"); addOffset(OFFSETOF_MEMBER(mirror::MethodType, method_descriptor_), "methodDescriptor"); addOffset(OFFSETOF_MEMBER(mirror::MethodType, p_types_), "ptypes"); addOffset(OFFSETOF_MEMBER(mirror::MethodType, r_type_), "rtype"); addOffset(OFFSETOF_MEMBER(mirror::MethodType, wrap_alt_), "wrapAlt"); } }; struct MethodHandleOffsets : public CheckOffsets { MethodHandleOffsets() : CheckOffsets( false, "Ljava/lang/invoke/MethodHandle;") { addOffset(OFFSETOF_MEMBER(mirror::MethodHandle, art_field_or_method_), "artFieldOrMethod"); addOffset(OFFSETOF_MEMBER(mirror::MethodHandle, cached_spread_invoker_), "cachedSpreadInvoker"); addOffset(OFFSETOF_MEMBER(mirror::MethodHandle, handle_kind_), "handleKind"); addOffset(OFFSETOF_MEMBER(mirror::MethodHandle, nominal_type_), "nominalType"); addOffset(OFFSETOF_MEMBER(mirror::MethodHandle, method_type_), "type"); } }; struct MethodHandleImplOffsets : public CheckOffsets { MethodHandleImplOffsets() : CheckOffsets( false, "Ljava/lang/invoke/MethodHandleImpl;") { addOffset(OFFSETOF_MEMBER(mirror::MethodHandleImpl, info_), "info"); } }; struct MethodHandlesLookupOffsets : public CheckOffsets { MethodHandlesLookupOffsets() : CheckOffsets( false, "Ljava/lang/invoke/MethodHandles$Lookup;") { addOffset(OFFSETOF_MEMBER(mirror::MethodHandlesLookup, allowed_modes_), "allowedModes"); addOffset(OFFSETOF_MEMBER(mirror::MethodHandlesLookup, lookup_class_), "lookupClass"); } }; struct EmulatedStackFrameOffsets : public CheckOffsets { EmulatedStackFrameOffsets() : CheckOffsets( false, "Ldalvik/system/EmulatedStackFrame;") { addOffset(OFFSETOF_MEMBER(mirror::EmulatedStackFrame, callsite_type_), "callsiteType"); addOffset(OFFSETOF_MEMBER(mirror::EmulatedStackFrame, references_), "references"); addOffset(OFFSETOF_MEMBER(mirror::EmulatedStackFrame, stack_frame_), "stackFrame"); addOffset(OFFSETOF_MEMBER(mirror::EmulatedStackFrame, type_), "type"); } }; struct CallSiteOffsets : public CheckOffsets { CallSiteOffsets() : CheckOffsets( false, "Ljava/lang/invoke/CallSite;") { addOffset(OFFSETOF_MEMBER(mirror::CallSite, target_), "target"); } }; struct VarHandleOffsets : public CheckOffsets { VarHandleOffsets() : CheckOffsets( false, "Ljava/lang/invoke/VarHandle;") { addOffset(OFFSETOF_MEMBER(mirror::VarHandle, access_modes_bit_mask_), "accessModesBitMask"); addOffset(OFFSETOF_MEMBER(mirror::VarHandle, coordinate_type0_), "coordinateType0"); addOffset(OFFSETOF_MEMBER(mirror::VarHandle, coordinate_type1_), "coordinateType1"); addOffset(OFFSETOF_MEMBER(mirror::VarHandle, var_type_), "varType"); } }; struct FieldVarHandleOffsets : public CheckOffsets { FieldVarHandleOffsets() : CheckOffsets( false, "Ljava/lang/invoke/FieldVarHandle;") { addOffset(OFFSETOF_MEMBER(mirror::FieldVarHandle, art_field_), "artField"); } }; struct ArrayElementVarHandleOffsets : public CheckOffsets { ArrayElementVarHandleOffsets() : CheckOffsets( false, "Ljava/lang/invoke/ArrayElementVarHandle;") { } }; struct ByteArrayViewVarHandleOffsets : public CheckOffsets { ByteArrayViewVarHandleOffsets() : CheckOffsets( false, "Ljava/lang/invoke/ByteArrayViewVarHandle;") { addOffset(OFFSETOF_MEMBER(mirror::ByteArrayViewVarHandle, native_byte_order_), "nativeByteOrder"); } }; struct ByteBufferViewVarHandleOffsets : public CheckOffsets { ByteBufferViewVarHandleOffsets() : CheckOffsets( false, "Ljava/lang/invoke/ByteBufferViewVarHandle;") { addOffset(OFFSETOF_MEMBER(mirror::ByteBufferViewVarHandle, native_byte_order_), "nativeByteOrder"); } }; // C++ fields must exactly match the fields in the Java classes. If this fails, // reorder the fields in the C++ class. Managed class fields are ordered by // ClassLinker::LinkFields. TEST_F(ClassLinkerTest, ValidateFieldOrderOfJavaCppUnionClasses) { ScopedObjectAccess soa(Thread::Current()); EXPECT_TRUE(ObjectOffsets().Check()); EXPECT_TRUE(ClassOffsets().Check()); EXPECT_TRUE(ClassExtOffsets().Check()); EXPECT_TRUE(StringOffsets().Check()); EXPECT_TRUE(ThrowableOffsets().Check()); EXPECT_TRUE(StackTraceElementOffsets().Check()); EXPECT_TRUE(ClassLoaderOffsets().Check()); EXPECT_TRUE(ProxyOffsets().Check()); EXPECT_TRUE(DexCacheOffsets().Check()); EXPECT_TRUE(ReferenceOffsets().Check()); EXPECT_TRUE(FinalizerReferenceOffsets().Check()); EXPECT_TRUE(AccessibleObjectOffsets().Check()); EXPECT_TRUE(FieldOffsets().Check()); EXPECT_TRUE(ExecutableOffsets().Check()); EXPECT_TRUE(MethodTypeOffsets().Check()); EXPECT_TRUE(MethodHandleOffsets().Check()); EXPECT_TRUE(MethodHandleImplOffsets().Check()); EXPECT_TRUE(MethodHandlesLookupOffsets().Check()); EXPECT_TRUE(EmulatedStackFrameOffsets().Check()); EXPECT_TRUE(CallSiteOffsets().Check()); EXPECT_TRUE(VarHandleOffsets().Check()); EXPECT_TRUE(FieldVarHandleOffsets().Check()); EXPECT_TRUE(ArrayElementVarHandleOffsets().Check()); EXPECT_TRUE(ByteArrayViewVarHandleOffsets().Check()); EXPECT_TRUE(ByteBufferViewVarHandleOffsets().Check()); } TEST_F(ClassLinkerTest, FindClassNonexistent) { ScopedObjectAccess soa(Thread::Current()); AssertNonExistentClass("NoSuchClass;"); AssertNonExistentClass("LNoSuchClass;"); } TEST_F(ClassLinkerTest, GetDexFiles) { ScopedObjectAccess soa(Thread::Current()); jobject jclass_loader = LoadDex("Nested"); std::vector dex_files(GetDexFiles(jclass_loader)); ASSERT_EQ(dex_files.size(), 1U); EXPECT_TRUE(android::base::EndsWith(dex_files[0]->GetLocation(), "Nested.jar")); jobject jclass_loader2 = LoadDex("MultiDex"); std::vector dex_files2(GetDexFiles(jclass_loader2)); ASSERT_EQ(dex_files2.size(), 2U); EXPECT_TRUE(android::base::EndsWith(dex_files2[0]->GetLocation(), "MultiDex.jar")); } TEST_F(ClassLinkerTest, FindClassNested) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<1> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("Nested")))); ObjPtr outer = class_linker_->FindClass(soa.Self(), "LNested;", class_loader); ASSERT_TRUE(outer != nullptr); EXPECT_EQ(0U, outer->NumVirtualMethods()); EXPECT_EQ(1U, outer->NumDirectMethods()); ObjPtr inner = class_linker_->FindClass(soa.Self(), "LNested$Inner;", class_loader); ASSERT_TRUE(inner != nullptr); EXPECT_EQ(0U, inner->NumVirtualMethods()); EXPECT_EQ(1U, inner->NumDirectMethods()); } TEST_F(ClassLinkerTest, FindClass_Primitives) { ScopedObjectAccess soa(Thread::Current()); const std::string expected("BCDFIJSZV"); for (int ch = 1; ch < 256; ++ch) { std::string descriptor; descriptor.push_back(ch); if (expected.find(ch) == std::string::npos) { AssertNonExistentClass(descriptor); } else { AssertPrimitiveClass(descriptor); } } } TEST_F(ClassLinkerTest, FindClass) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<2> hs(soa.Self()); Handle JavaLangObject = hs.NewHandle( class_linker_->FindSystemClass(soa.Self(), "Ljava/lang/Object;")); AssertObjectClass(JavaLangObject.Get()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("MyClass")))); AssertNonExistentClass("LMyClass;"); ObjPtr MyClass = class_linker_->FindClass(soa.Self(), "LMyClass;", class_loader); ASSERT_TRUE(MyClass != nullptr); ASSERT_TRUE(MyClass->GetClass() != nullptr); ASSERT_OBJ_PTR_EQ(MyClass->GetClass(), MyClass->GetClass()->GetClass()); EXPECT_OBJ_PTR_EQ(JavaLangObject.Get(), MyClass->GetClass()->GetSuperClass()); std::string temp; ASSERT_STREQ(MyClass->GetDescriptor(&temp), "LMyClass;"); EXPECT_OBJ_PTR_EQ(MyClass->GetSuperClass(), JavaLangObject.Get()); EXPECT_TRUE(MyClass->HasSuperClass()); EXPECT_OBJ_PTR_EQ(class_loader.Get(), MyClass->GetClassLoader()); EXPECT_EQ(ClassStatus::kResolved, MyClass->GetStatus()); EXPECT_FALSE(MyClass->IsErroneous()); EXPECT_TRUE(MyClass->IsLoaded()); EXPECT_TRUE(MyClass->IsResolved()); EXPECT_FALSE(MyClass->IsErroneousResolved()); EXPECT_FALSE(MyClass->IsVerified()); EXPECT_FALSE(MyClass->IsInitialized()); EXPECT_FALSE(MyClass->IsArrayInstance()); EXPECT_FALSE(MyClass->IsArrayClass()); EXPECT_TRUE(MyClass->GetComponentType() == nullptr); EXPECT_FALSE(MyClass->IsInterface()); EXPECT_FALSE(MyClass->IsPublic()); EXPECT_FALSE(MyClass->IsFinal()); EXPECT_FALSE(MyClass->IsPrimitive()); EXPECT_FALSE(MyClass->IsSynthetic()); EXPECT_EQ(1U, MyClass->NumDirectMethods()); EXPECT_EQ(0U, MyClass->NumVirtualMethods()); EXPECT_EQ(0U, MyClass->NumInstanceFields()); EXPECT_EQ(0U, MyClass->NumStaticFields()); EXPECT_EQ(0U, MyClass->NumDirectInterfaces()); EXPECT_OBJ_PTR_EQ(JavaLangObject->GetClass()->GetClass(), MyClass->GetClass()->GetClass()); // created by class_linker AssertArrayClass("[C", "C", nullptr); AssertArrayClass("[Ljava/lang/Object;", "Ljava/lang/Object;", nullptr); // synthesized on the fly AssertArrayClass("[[C", "[C", nullptr); AssertArrayClass("[[[LMyClass;", "[[LMyClass;", class_loader.Get()); // or not available at all AssertNonExistentClass("[[[[LNonExistentClass;"); } TEST_F(ClassLinkerTest, LookupResolvedType) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<1> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("MyClass")))); AssertNonExistentClass("LMyClass;"); ObjPtr klass = class_linker_->FindClass(soa.Self(), "LMyClass;", class_loader); dex::TypeIndex type_idx = klass->GetClassDef()->class_idx_; ObjPtr dex_cache = klass->GetDexCache(); EXPECT_OBJ_PTR_EQ( class_linker_->LookupResolvedType(type_idx, dex_cache, class_loader.Get()), klass); // Zero out the resolved type and make sure LookupResolvedType still finds it. dex_cache->ClearResolvedType(type_idx); EXPECT_TRUE(dex_cache->GetResolvedType(type_idx) == nullptr); EXPECT_OBJ_PTR_EQ( class_linker_->LookupResolvedType(type_idx, dex_cache, class_loader.Get()), klass); } TEST_F(ClassLinkerTest, LookupResolvedTypeArray) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<2> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("AllFields")))); // Get the AllFields class for the dex cache and dex file. ObjPtr all_fields_klass = class_linker_->FindClass(soa.Self(), "LAllFields;", class_loader); ASSERT_TRUE(all_fields_klass != nullptr); Handle dex_cache = hs.NewHandle(all_fields_klass->GetDexCache()); const DexFile& dex_file = *dex_cache->GetDexFile(); // Get the index of the array class we want to test. const dex::TypeId* array_id = dex_file.FindTypeId("[Ljava/lang/Object;"); ASSERT_TRUE(array_id != nullptr); dex::TypeIndex array_idx = dex_file.GetIndexForTypeId(*array_id); // Check that the array class wasn't resolved yet. EXPECT_TRUE( class_linker_->LookupResolvedType(array_idx, dex_cache.Get(), class_loader.Get()) == nullptr); // Resolve the array class we want to test. ObjPtr array_klass = class_linker_->FindClass(soa.Self(), "[Ljava/lang/Object;", class_loader); ASSERT_TRUE(array_klass != nullptr); // Test that LookupResolvedType() finds the array class. EXPECT_OBJ_PTR_EQ( class_linker_->LookupResolvedType(array_idx, dex_cache.Get(), class_loader.Get()), array_klass); // Zero out the resolved type and make sure LookupResolvedType() still finds it. dex_cache->ClearResolvedType(array_idx); EXPECT_TRUE(dex_cache->GetResolvedType(array_idx) == nullptr); EXPECT_OBJ_PTR_EQ( class_linker_->LookupResolvedType(array_idx, dex_cache.Get(), class_loader.Get()), array_klass); } TEST_F(ClassLinkerTest, LookupResolvedTypeErroneousInit) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<3> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("ErroneousInit")))); AssertNonExistentClass("LErroneousInit;"); Handle klass = hs.NewHandle(class_linker_->FindClass(soa.Self(), "LErroneousInit;", class_loader)); ASSERT_TRUE(klass != nullptr); dex::TypeIndex type_idx = klass->GetClassDef()->class_idx_; Handle dex_cache = hs.NewHandle(klass->GetDexCache()); EXPECT_OBJ_PTR_EQ( class_linker_->LookupResolvedType(type_idx, dex_cache.Get(), class_loader.Get()), klass.Get()); // Zero out the resolved type and make sure LookupResolvedType still finds it. dex_cache->ClearResolvedType(type_idx); EXPECT_TRUE(dex_cache->GetResolvedType(type_idx) == nullptr); EXPECT_OBJ_PTR_EQ( class_linker_->LookupResolvedType(type_idx, dex_cache.Get(), class_loader.Get()), klass.Get()); // Force initialization to turn the class erroneous. bool initialized = class_linker_->EnsureInitialized(soa.Self(), klass, /* can_init_fields= */ true, /* can_init_parents= */ true); EXPECT_FALSE(initialized); EXPECT_TRUE(soa.Self()->IsExceptionPending()); soa.Self()->ClearException(); // Check that the LookupResolvedType() can still find the resolved type. EXPECT_OBJ_PTR_EQ( class_linker_->LookupResolvedType(type_idx, dex_cache.Get(), class_loader.Get()), klass.Get()); // Zero out the resolved type and make sure LookupResolvedType() still finds it. dex_cache->ClearResolvedType(type_idx); EXPECT_TRUE(dex_cache->GetResolvedType(type_idx) == nullptr); EXPECT_OBJ_PTR_EQ( class_linker_->LookupResolvedType(type_idx, dex_cache.Get(), class_loader.Get()), klass.Get()); } TEST_F(ClassLinkerTest, LibCore) { ScopedObjectAccess soa(Thread::Current()); ASSERT_TRUE(java_lang_dex_file_ != nullptr); AssertDexFile(*java_lang_dex_file_, nullptr); } // The first reference array element must be a multiple of 4 bytes from the // start of the object TEST_F(ClassLinkerTest, ValidateObjectArrayElementsOffset) { ScopedObjectAccess soa(Thread::Current()); ObjPtr array_class = class_linker_->FindSystemClass(soa.Self(), "[Ljava/lang/String;"); ObjPtr> array = mirror::ObjectArray::Alloc(soa.Self(), array_class, 0); uintptr_t data_offset = reinterpret_cast(array->GetRawData(sizeof(mirror::HeapReference), 0)); if (sizeof(mirror::HeapReference) == sizeof(int32_t)) { EXPECT_TRUE(IsAligned<4>(data_offset)); // Check 4 byte alignment. } else { EXPECT_TRUE(IsAligned<8>(data_offset)); // Check 8 byte alignment. } } TEST_F(ClassLinkerTest, ValidatePrimitiveArrayElementsOffset) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<5> hs(soa.Self()); Handle long_array(hs.NewHandle(mirror::LongArray::Alloc(soa.Self(), 0))); EXPECT_OBJ_PTR_EQ(class_linker_->FindSystemClass(soa.Self(), "[J"), long_array->GetClass()); uintptr_t data_offset = reinterpret_cast(long_array->GetData()); EXPECT_TRUE(IsAligned<8>(data_offset)); // Longs require 8 byte alignment Handle double_array(hs.NewHandle(mirror::DoubleArray::Alloc(soa.Self(), 0))); EXPECT_OBJ_PTR_EQ(class_linker_->FindSystemClass(soa.Self(), "[D"), double_array->GetClass()); data_offset = reinterpret_cast(double_array->GetData()); EXPECT_TRUE(IsAligned<8>(data_offset)); // Doubles require 8 byte alignment Handle int_array(hs.NewHandle(mirror::IntArray::Alloc(soa.Self(), 0))); EXPECT_OBJ_PTR_EQ(class_linker_->FindSystemClass(soa.Self(), "[I"), int_array->GetClass()); data_offset = reinterpret_cast(int_array->GetData()); EXPECT_TRUE(IsAligned<4>(data_offset)); // Ints require 4 byte alignment Handle char_array(hs.NewHandle(mirror::CharArray::Alloc(soa.Self(), 0))); EXPECT_OBJ_PTR_EQ(class_linker_->FindSystemClass(soa.Self(), "[C"), char_array->GetClass()); data_offset = reinterpret_cast(char_array->GetData()); EXPECT_TRUE(IsAligned<2>(data_offset)); // Chars require 2 byte alignment Handle short_array(hs.NewHandle(mirror::ShortArray::Alloc(soa.Self(), 0))); EXPECT_OBJ_PTR_EQ(class_linker_->FindSystemClass(soa.Self(), "[S"), short_array->GetClass()); data_offset = reinterpret_cast(short_array->GetData()); EXPECT_TRUE(IsAligned<2>(data_offset)); // Shorts require 2 byte alignment // Take it as given that bytes and booleans have byte alignment } TEST_F(ClassLinkerTest, ValidateBoxedTypes) { // Validate that the "value" field is always the 0th field in each of java.lang's box classes. // This lets UnboxPrimitive avoid searching for the field by name at runtime. ScopedObjectAccess soa(Thread::Current()); ScopedNullHandle class_loader; ObjPtr c; c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Boolean;", class_loader); EXPECT_STREQ("value", c->GetIFieldsPtr()->At(0).GetName()); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Byte;", class_loader); EXPECT_STREQ("value", c->GetIFieldsPtr()->At(0).GetName()); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Character;", class_loader); EXPECT_STREQ("value", c->GetIFieldsPtr()->At(0).GetName()); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Double;", class_loader); EXPECT_STREQ("value", c->GetIFieldsPtr()->At(0).GetName()); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Float;", class_loader); EXPECT_STREQ("value", c->GetIFieldsPtr()->At(0).GetName()); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Integer;", class_loader); EXPECT_STREQ("value", c->GetIFieldsPtr()->At(0).GetName()); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Long;", class_loader); EXPECT_STREQ("value", c->GetIFieldsPtr()->At(0).GetName()); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Short;", class_loader); EXPECT_STREQ("value", c->GetIFieldsPtr()->At(0).GetName()); } TEST_F(ClassLinkerTest, TwoClassLoadersOneClass) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<3> hs(soa.Self()); Handle class_loader_1( hs.NewHandle(soa.Decode(LoadDex("MyClass")))); Handle class_loader_2( hs.NewHandle(soa.Decode(LoadDex("MyClass")))); Handle MyClass_1 = hs.NewHandle( class_linker_->FindClass(soa.Self(), "LMyClass;", class_loader_1)); ObjPtr MyClass_2 = class_linker_->FindClass(soa.Self(), "LMyClass;", class_loader_2); EXPECT_TRUE(MyClass_1 != nullptr); EXPECT_TRUE(MyClass_2 != nullptr); EXPECT_OBJ_PTR_NE(MyClass_1.Get(), MyClass_2); } TEST_F(ClassLinkerTest, StaticFields) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<2> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("Statics")))); Handle statics( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LStatics;", class_loader))); class_linker_->EnsureInitialized(soa.Self(), statics, true, true); // Static final primitives that are initialized by a compile-time constant // expression resolve to a copy of a constant value from the constant pool. // So should be null. ArtMethod* clinit = statics->FindClassMethod("", "()V", kRuntimePointerSize); EXPECT_TRUE(clinit == nullptr); EXPECT_EQ(9U, statics->NumStaticFields()); ArtField* s0 = mirror::Class::FindStaticField(soa.Self(), statics.Get(), "s0", "Z"); EXPECT_EQ(s0->GetTypeAsPrimitiveType(), Primitive::kPrimBoolean); EXPECT_EQ(true, s0->GetBoolean(statics.Get())); s0->SetBoolean(statics.Get(), false); ArtField* s1 = mirror::Class::FindStaticField(soa.Self(), statics.Get(), "s1", "B"); EXPECT_EQ(s1->GetTypeAsPrimitiveType(), Primitive::kPrimByte); EXPECT_EQ(5, s1->GetByte(statics.Get())); s1->SetByte(statics.Get(), 6); ArtField* s2 = mirror::Class::FindStaticField(soa.Self(), statics.Get(), "s2", "C"); EXPECT_EQ(s2->GetTypeAsPrimitiveType(), Primitive::kPrimChar); EXPECT_EQ('a', s2->GetChar(statics.Get())); s2->SetChar(statics.Get(), 'b'); ArtField* s3 = mirror::Class::FindStaticField(soa.Self(), statics.Get(), "s3", "S"); EXPECT_EQ(s3->GetTypeAsPrimitiveType(), Primitive::kPrimShort); EXPECT_EQ(-536, s3->GetShort(statics.Get())); s3->SetShort(statics.Get(), -535); ArtField* s4 = mirror::Class::FindStaticField(soa.Self(), statics.Get(), "s4", "I"); EXPECT_EQ(s4->GetTypeAsPrimitiveType(), Primitive::kPrimInt); EXPECT_EQ(2000000000, s4->GetInt(statics.Get())); s4->SetInt(statics.Get(), 2000000001); ArtField* s5 = mirror::Class::FindStaticField(soa.Self(), statics.Get(), "s5", "J"); EXPECT_EQ(s5->GetTypeAsPrimitiveType(), Primitive::kPrimLong); EXPECT_EQ(0x1234567890abcdefLL, s5->GetLong(statics.Get())); s5->SetLong(statics.Get(), INT64_C(0x34567890abcdef12)); ArtField* s6 = mirror::Class::FindStaticField(soa.Self(), statics.Get(), "s6", "F"); EXPECT_EQ(s6->GetTypeAsPrimitiveType(), Primitive::kPrimFloat); EXPECT_DOUBLE_EQ(0.5, s6->GetFloat(statics.Get())); s6->SetFloat(statics.Get(), 0.75); ArtField* s7 = mirror::Class::FindStaticField(soa.Self(), statics.Get(), "s7", "D"); EXPECT_EQ(s7->GetTypeAsPrimitiveType(), Primitive::kPrimDouble); EXPECT_DOUBLE_EQ(16777217.0, s7->GetDouble(statics.Get())); s7->SetDouble(statics.Get(), 16777219); ArtField* s8 = mirror::Class::FindStaticField( soa.Self(), statics.Get(), "s8", "Ljava/lang/String;"); EXPECT_EQ(s8->GetTypeAsPrimitiveType(), Primitive::kPrimNot); EXPECT_TRUE(s8->GetObject(statics.Get())->AsString()->Equals("android")); ObjPtr str_value = mirror::String::AllocFromModifiedUtf8(soa.Self(), "robot"); s8->SetObject(s8->GetDeclaringClass(), str_value); // TODO: Remove EXPECT_FALSE when GCC can handle EXPECT_EQ // http://code.google.com/p/googletest/issues/detail?id=322 EXPECT_FALSE(s0->GetBoolean(statics.Get())); EXPECT_EQ(6, s1->GetByte(statics.Get())); EXPECT_EQ('b', s2->GetChar(statics.Get())); EXPECT_EQ(-535, s3->GetShort(statics.Get())); EXPECT_EQ(2000000001, s4->GetInt(statics.Get())); EXPECT_EQ(INT64_C(0x34567890abcdef12), s5->GetLong(statics.Get())); EXPECT_FLOAT_EQ(0.75, s6->GetFloat(statics.Get())); EXPECT_DOUBLE_EQ(16777219.0, s7->GetDouble(statics.Get())); EXPECT_TRUE(s8->GetObject(statics.Get())->AsString()->Equals("robot")); } TEST_F(ClassLinkerTest, Interfaces) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<6> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("Interfaces")))); Handle I( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LInterfaces$I;", class_loader))); Handle J( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LInterfaces$J;", class_loader))); Handle K( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LInterfaces$K;", class_loader))); Handle A( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LInterfaces$A;", class_loader))); Handle B( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LInterfaces$B;", class_loader))); EXPECT_TRUE(I->IsAssignableFrom(A.Get())); EXPECT_TRUE(J->IsAssignableFrom(A.Get())); EXPECT_TRUE(J->IsAssignableFrom(K.Get())); EXPECT_TRUE(K->IsAssignableFrom(B.Get())); EXPECT_TRUE(J->IsAssignableFrom(B.Get())); const std::string_view void_sig("()V"); ArtMethod* Ii = I->FindClassMethod("i", void_sig, kRuntimePointerSize); ArtMethod* Jj1 = J->FindClassMethod("j1", void_sig, kRuntimePointerSize); ArtMethod* Jj2 = J->FindClassMethod("j2", void_sig, kRuntimePointerSize); ArtMethod* Kj1 = K->FindInterfaceMethod("j1", void_sig, kRuntimePointerSize); ArtMethod* Kj2 = K->FindInterfaceMethod("j2", void_sig, kRuntimePointerSize); ArtMethod* Kk = K->FindInterfaceMethod("k", void_sig, kRuntimePointerSize); ArtMethod* Ai = A->FindClassMethod("i", void_sig, kRuntimePointerSize); ArtMethod* Aj1 = A->FindClassMethod("j1", void_sig, kRuntimePointerSize); ArtMethod* Aj2 = A->FindClassMethod("j2", void_sig, kRuntimePointerSize); ASSERT_TRUE(Ii != nullptr); ASSERT_FALSE(Ii->IsDirect()); ASSERT_TRUE(Jj1 != nullptr); ASSERT_FALSE(Jj1->IsDirect()); ASSERT_TRUE(Jj2 != nullptr); ASSERT_FALSE(Jj2->IsDirect()); ASSERT_TRUE(Kj1 != nullptr); ASSERT_TRUE(Kj2 != nullptr); ASSERT_TRUE(Kk != nullptr); ASSERT_TRUE(Ai != nullptr); ASSERT_FALSE(Ai->IsDirect()); ASSERT_TRUE(Aj1 != nullptr); ASSERT_FALSE(Aj1->IsDirect()); ASSERT_TRUE(Aj2 != nullptr); ASSERT_FALSE(Aj2->IsDirect()); EXPECT_NE(Ii, Ai); EXPECT_NE(Jj1, Aj1); EXPECT_NE(Jj2, Aj2); EXPECT_EQ(Kj1, Jj1); EXPECT_EQ(Kj2, Jj2); EXPECT_EQ(Ai, A->FindVirtualMethodForInterface(Ii, kRuntimePointerSize)); EXPECT_EQ(Aj1, A->FindVirtualMethodForInterface(Jj1, kRuntimePointerSize)); EXPECT_EQ(Aj2, A->FindVirtualMethodForInterface(Jj2, kRuntimePointerSize)); EXPECT_EQ(Ai, A->FindVirtualMethodForVirtualOrInterface(Ii, kRuntimePointerSize)); EXPECT_EQ(Aj1, A->FindVirtualMethodForVirtualOrInterface(Jj1, kRuntimePointerSize)); EXPECT_EQ(Aj2, A->FindVirtualMethodForVirtualOrInterface(Jj2, kRuntimePointerSize)); ArtField* Afoo = mirror::Class::FindStaticField(soa.Self(), A.Get(), "foo", "Ljava/lang/String;"); ArtField* Bfoo = mirror::Class::FindStaticField(soa.Self(), B.Get(), "foo", "Ljava/lang/String;"); ArtField* Jfoo = mirror::Class::FindStaticField(soa.Self(), J.Get(), "foo", "Ljava/lang/String;"); ArtField* Kfoo = mirror::Class::FindStaticField(soa.Self(), K.Get(), "foo", "Ljava/lang/String;"); ASSERT_TRUE(Afoo != nullptr); EXPECT_EQ(Afoo, Bfoo); EXPECT_EQ(Afoo, Jfoo); EXPECT_EQ(Afoo, Kfoo); } TEST_F(ClassLinkerTest, ResolveVerifyAndClinit) { // pretend we are trying to get the static storage for the StaticsFromCode class. // case 1, get the uninitialized storage from StaticsFromCode. // case 2, get the initialized storage from StaticsFromCode.getS0 ScopedObjectAccess soa(Thread::Current()); jobject jclass_loader = LoadDex("StaticsFromCode"); const DexFile* dex_file = GetFirstDexFile(jclass_loader); StackHandleScope<1> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(jclass_loader))); ObjPtr klass = class_linker_->FindClass(soa.Self(), "LStaticsFromCode;", class_loader); ArtMethod* clinit = klass->FindClassInitializer(kRuntimePointerSize); ArtMethod* getS0 = klass->FindClassMethod("getS0", "()Ljava/lang/Object;", kRuntimePointerSize); ASSERT_TRUE(getS0 != nullptr); ASSERT_TRUE(getS0->IsStatic()); const dex::TypeId* type_id = dex_file->FindTypeId("LStaticsFromCode;"); ASSERT_TRUE(type_id != nullptr); dex::TypeIndex type_idx = dex_file->GetIndexForTypeId(*type_id); ObjPtr uninit = ResolveVerifyAndClinit(type_idx, clinit, soa.Self(), /* can_run_clinit= */ true, /* verify_access= */ false); EXPECT_TRUE(uninit != nullptr); EXPECT_FALSE(uninit->IsInitialized()); ObjPtr init = ResolveVerifyAndClinit(type_idx, getS0, soa.Self(), /* can_run_clinit= */ true, /* verify_access= */ false); EXPECT_TRUE(init != nullptr); EXPECT_TRUE(init->IsInitialized()); } TEST_F(ClassLinkerTest, ErroneousClass) { ScopedObjectAccess soa(Thread::Current()); jobject jclass_loader = LoadMultiDex("ErroneousA", "ErroneousB"); StackHandleScope<1> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(jclass_loader))); hs.Self()->AssertNoPendingException(); const char* descriptor = "LErroneous;"; ObjPtr klass = class_linker_->FindClass(soa.Self(), descriptor, class_loader); // Erronenous since we are extending final class. hs.Self()->AssertPendingException(); EXPECT_TRUE(klass == nullptr); klass = class_linker_->LookupClass(soa.Self(), descriptor, class_loader.Get()); EXPECT_FALSE(klass == nullptr); EXPECT_TRUE(klass->IsErroneous()); EXPECT_TRUE(klass->GetIfTable() != nullptr); } TEST_F(ClassLinkerTest, FinalizableBit) { ScopedObjectAccess soa(Thread::Current()); ObjPtr c; // Object has a finalize method, but we know it's empty. c = class_linker_->FindSystemClass(soa.Self(), "Ljava/lang/Object;"); EXPECT_FALSE(c->IsFinalizable()); // Enum has a finalize method to prevent its subclasses from implementing one. c = class_linker_->FindSystemClass(soa.Self(), "Ljava/lang/Enum;"); EXPECT_FALSE(c->IsFinalizable()); // RoundingMode is an enum. c = class_linker_->FindSystemClass(soa.Self(), "Ljava/math/RoundingMode;"); EXPECT_FALSE(c->IsFinalizable()); // RandomAccessFile extends Object and overrides finalize. c = class_linker_->FindSystemClass(soa.Self(), "Ljava/io/RandomAccessFile;"); EXPECT_TRUE(c->IsFinalizable()); // FileInputStream is finalizable and extends InputStream which isn't. c = class_linker_->FindSystemClass(soa.Self(), "Ljava/io/InputStream;"); EXPECT_FALSE(c->IsFinalizable()); c = class_linker_->FindSystemClass(soa.Self(), "Ljava/io/FileInputStream;"); EXPECT_TRUE(c->IsFinalizable()); // ScheduledThreadPoolExecutor doesn't have a finalize method but // extends ThreadPoolExecutor which does. c = class_linker_->FindSystemClass(soa.Self(), "Ljava/util/concurrent/ThreadPoolExecutor;"); EXPECT_TRUE(c->IsFinalizable()); c = class_linker_->FindSystemClass(soa.Self(), "Ljava/util/concurrent/ScheduledThreadPoolExecutor;"); EXPECT_TRUE(c->IsFinalizable()); } TEST_F(ClassLinkerTest, ClassRootDescriptors) { ScopedObjectAccess soa(Thread::Current()); std::string temp; for (size_t i = 0; i < static_cast(ClassRoot::kMax); i++) { ObjPtr klass = GetClassRoot(ClassRoot(i), class_linker_); EXPECT_GT(strlen(klass->GetDescriptor(&temp)), 0U); EXPECT_STREQ(klass->GetDescriptor(&temp), GetClassRootDescriptor(ClassRoot(i))) << " i = " << i; } } TEST_F(ClassLinkerTest, ValidatePredefinedClassSizes) { ScopedObjectAccess soa(Thread::Current()); ScopedNullHandle class_loader; ObjPtr c; c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Class;", class_loader); ASSERT_TRUE(c != nullptr); EXPECT_EQ(c->GetClassSize(), mirror::Class::ClassClassSize(kRuntimePointerSize)); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/Object;", class_loader); ASSERT_TRUE(c != nullptr); EXPECT_EQ(c->GetClassSize(), mirror::Object::ClassSize(kRuntimePointerSize)); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/String;", class_loader); ASSERT_TRUE(c != nullptr); EXPECT_EQ(c->GetClassSize(), mirror::String::ClassSize(kRuntimePointerSize)); c = class_linker_->FindClass(soa.Self(), "Ljava/lang/DexCache;", class_loader); ASSERT_TRUE(c != nullptr); EXPECT_EQ(c->GetClassSize(), mirror::DexCache::ClassSize(kRuntimePointerSize)); } static void CheckMethod(ArtMethod* method, bool verified) REQUIRES_SHARED(Locks::mutator_lock_) { if (!method->IsNative() && !method->IsAbstract()) { EXPECT_EQ((method->GetAccessFlags() & kAccSkipAccessChecks) != 0U, verified) << method->PrettyMethod(true); } } static void CheckVerificationAttempted(ObjPtr c, bool preverified) REQUIRES_SHARED(Locks::mutator_lock_) { EXPECT_EQ((c->GetAccessFlags() & kAccVerificationAttempted) != 0U, preverified) << "Class " << mirror::Class::PrettyClass(c) << " not as expected"; for (auto& m : c->GetMethods(kRuntimePointerSize)) { CheckMethod(&m, preverified); } } TEST_F(ClassLinkerTest, Preverified_InitializedBoot) { ScopedObjectAccess soa(Thread::Current()); ObjPtr JavaLangObject = class_linker_->FindSystemClass(soa.Self(), "Ljava/lang/Object;"); ASSERT_TRUE(JavaLangObject != nullptr); EXPECT_TRUE(JavaLangObject->IsInitialized()) << "Not testing already initialized class from the " "core"; CheckVerificationAttempted(JavaLangObject, true); } TEST_F(ClassLinkerTest, Preverified_UninitializedBoot) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<1> hs(soa.Self()); Handle security_manager(hs.NewHandle(class_linker_->FindSystemClass( soa.Self(), "Ljava/lang/SecurityManager;"))); EXPECT_FALSE(security_manager->IsInitialized()) << "Not testing uninitialized class from the " "core"; CheckVerificationAttempted(security_manager.Get(), false); class_linker_->EnsureInitialized(soa.Self(), security_manager, true, true); CheckVerificationAttempted(security_manager.Get(), true); } TEST_F(ClassLinkerTest, Preverified_App) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<2> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("Statics")))); Handle statics( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LStatics;", class_loader))); CheckVerificationAttempted(statics.Get(), false); class_linker_->EnsureInitialized(soa.Self(), statics, true, true); CheckVerificationAttempted(statics.Get(), true); } TEST_F(ClassLinkerTest, IsBootStrapClassLoaded) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<3> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("Statics")))); // java.lang.Object is a bootstrap class. Handle jlo_class( hs.NewHandle(class_linker_->FindSystemClass(soa.Self(), "Ljava/lang/Object;"))); ASSERT_TRUE(jlo_class != nullptr); EXPECT_TRUE(jlo_class->IsBootStrapClassLoaded()); // Statics is not a bootstrap class. Handle statics( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LStatics;", class_loader))); ASSERT_TRUE(statics != nullptr); EXPECT_FALSE(statics->IsBootStrapClassLoaded()); } // Regression test for b/26799552. TEST_F(ClassLinkerTest, RegisterDexFileName) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<2> hs(soa.Self()); ClassLinker* class_linker = Runtime::Current()->GetClassLinker(); MutableHandle dex_cache(hs.NewHandle(nullptr)); { ReaderMutexLock mu(soa.Self(), *Locks::dex_lock_); for (const ClassLinker::DexCacheData& data : class_linker->GetDexCachesData()) { dex_cache.Assign(soa.Self()->DecodeJObject(data.weak_root)->AsDexCache()); if (dex_cache != nullptr) { break; } } ASSERT_TRUE(dex_cache != nullptr); } const uint16_t data[] = { 0x20AC, 0x20A1 }; Handle location(hs.NewHandle(mirror::String::AllocFromUtf16(soa.Self(), arraysize(data), data))); const DexFile* old_dex_file = dex_cache->GetDexFile(); std::unique_ptr dex_file(new StandardDexFile(old_dex_file->Begin(), old_dex_file->Size(), location->ToModifiedUtf8(), 0u, nullptr, nullptr)); // Make a copy of the dex cache with changed name. LinearAlloc* alloc = Runtime::Current()->GetLinearAlloc(); dex_cache.Assign(class_linker->AllocAndInitializeDexCache(Thread::Current(), *dex_file, alloc)); DCHECK_EQ(dex_cache->GetLocation()->CompareTo(location.Get()), 0); { WriterMutexLock mu(soa.Self(), *Locks::dex_lock_); // Check that inserting with a UTF16 name works. class_linker->RegisterDexFileLocked(*dex_file, dex_cache.Get(), /* class_loader= */ nullptr); } } TEST_F(ClassLinkerMethodHandlesTest, TestResolveMethodTypes) { ScopedObjectAccess soa(Thread::Current()); StackHandleScope<7> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(LoadDex("MethodTypes")))); Handle method_types( hs.NewHandle(class_linker_->FindClass(soa.Self(), "LMethodTypes;", class_loader))); class_linker_->EnsureInitialized(soa.Self(), method_types, true, true); ArtMethod* method1 = method_types->FindClassMethod( "method1", "(Ljava/lang/String;)Ljava/lang/String;", kRuntimePointerSize); ASSERT_TRUE(method1 != nullptr); ASSERT_FALSE(method1->IsDirect()); const DexFile& dex_file = *(method1->GetDexFile()); Handle dex_cache = hs.NewHandle( class_linker_->FindDexCache(soa.Self(), dex_file)); const dex::MethodId& method1_id = dex_file.GetMethodId(method1->GetDexMethodIndex()); // This is the MethodType corresponding to the prototype of // String MethodTypes# method1(String). // Its RType = Ljava/lang/String; // Its PTypes = { Ljava/lang/String; } Handle method1_type = hs.NewHandle( class_linker_->ResolveMethodType(soa.Self(), method1_id.proto_idx_, dex_cache, class_loader)); // Assert that the method type was resolved successfully. ASSERT_TRUE(method1_type != nullptr); // Assert that the return type and the method arguments are as we expect. Handle string_class(hs.NewHandle(class_linker_->FindClass(soa.Self(), "Ljava/lang/String;", class_loader))); ASSERT_OBJ_PTR_EQ(string_class.Get(), method1_type->GetRType()); ASSERT_OBJ_PTR_EQ(string_class.Get(), method1_type->GetPTypes()->Get(0)); // Resolve the method type again and assert that we get back the same value. Handle method1_type2 = hs.NewHandle( class_linker_->ResolveMethodType(soa.Self(), method1_id.proto_idx_, dex_cache, class_loader)); ASSERT_OBJ_PTR_EQ(method1_type.Get(), method1_type2.Get()); // Resolve the MethodType associated with a different method signature // and assert it's different. ArtMethod* method2 = method_types->FindClassMethod( "method2", "(Ljava/lang/String;Ljava/lang/String;)Ljava/lang/String;", kRuntimePointerSize); ASSERT_TRUE(method2 != nullptr); ASSERT_FALSE(method2->IsDirect()); const dex::MethodId& method2_id = dex_file.GetMethodId(method2->GetDexMethodIndex()); Handle method2_type = hs.NewHandle( class_linker_->ResolveMethodType(soa.Self(), method2_id.proto_idx_, dex_cache, class_loader)); ASSERT_OBJ_PTR_NE(method1_type.Get(), method2_type.Get()); } // Verify that ClassLinker's CreateWellknownClassLoader works as expected // by creating a chain of class loaders with various dex files. TEST_F(ClassLinkerTest, CreateWellKnownClassLoader) { // LoadDexIn*ClassLoader methods already assert that the parent loader is the expected one. // No need to check again. jobject class_loader_a = LoadDexInPathClassLoader("MyClass", nullptr); jobject class_loader_b = LoadDexInDelegateLastClassLoader("Nested", class_loader_a); jobject class_loader_c = LoadDexInPathClassLoader("MultiDex", class_loader_b); LoadDexInDelegateLastClassLoader("Interfaces", class_loader_c); } TEST_F(ClassLinkerTest, PrettyClass) { ScopedObjectAccess soa(Thread::Current()); EXPECT_EQ("null", mirror::Class::PrettyClass(nullptr)); ObjPtr c = class_linker_->FindSystemClass(soa.Self(), "[Ljava/lang/String;"); ASSERT_TRUE(c != nullptr); ObjPtr o = mirror::ObjectArray::Alloc(soa.Self(), c, 0); EXPECT_EQ("java.lang.Class", mirror::Class::PrettyClass(o->GetClass())); } TEST_F(ClassLinkerTest, PrettyClassAndClassLoader) { ScopedObjectAccess soa(Thread::Current()); EXPECT_EQ("null", mirror::Class::PrettyClassAndClassLoader(nullptr)); ObjPtr c = class_linker_->FindSystemClass(soa.Self(), "[Ljava/lang/String;"); ASSERT_TRUE(c != nullptr); ObjPtr o = mirror::ObjectArray::Alloc(soa.Self(), c, 0); EXPECT_EQ("java.lang.Class", mirror::Class::PrettyClassAndClassLoader(o->GetClass())); } TEST_F(ClassLinkerTest, PrettyField) { ScopedObjectAccess soa(Thread::Current()); EXPECT_EQ("null", ArtField::PrettyField(nullptr)); ObjPtr java_lang_String = class_linker_->FindSystemClass(soa.Self(), "Ljava/lang/String;"); ArtField* f; f = java_lang_String->FindDeclaredInstanceField("count", "I"); EXPECT_EQ("int java.lang.String.count", f->PrettyField()); EXPECT_EQ("java.lang.String.count", f->PrettyField(false)); } TEST_F(ClassLinkerTest, JniShortName_JniLongName) { ScopedObjectAccess soa(Thread::Current()); ObjPtr c = class_linker_->FindSystemClass(soa.Self(), "Ljava/lang/String;"); ASSERT_TRUE(c != nullptr); ArtMethod* m; m = c->FindClassMethod("charAt", "(I)C", kRuntimePointerSize); ASSERT_TRUE(m != nullptr); ASSERT_FALSE(m->IsDirect()); EXPECT_EQ("Java_java_lang_String_charAt", m->JniShortName()); EXPECT_EQ("Java_java_lang_String_charAt__I", m->JniLongName()); m = c->FindClassMethod("indexOf", "(Ljava/lang/String;I)I", kRuntimePointerSize); ASSERT_TRUE(m != nullptr); ASSERT_FALSE(m->IsDirect()); EXPECT_EQ("Java_java_lang_String_indexOf", m->JniShortName()); EXPECT_EQ("Java_java_lang_String_indexOf__Ljava_lang_String_2I", m->JniLongName()); m = c->FindClassMethod("copyValueOf", "([CII)Ljava/lang/String;", kRuntimePointerSize); ASSERT_TRUE(m != nullptr); ASSERT_TRUE(m->IsStatic()); EXPECT_EQ("Java_java_lang_String_copyValueOf", m->JniShortName()); EXPECT_EQ("Java_java_lang_String_copyValueOf___3CII", m->JniLongName()); } class ClassLinkerClassLoaderTest : public ClassLinkerTest { protected: // Verifies that the class identified by the given descriptor is loaded with // the expected_class_loader_obj when search from class_loader_to_search_obj. // When expected_class_loader_obj is null the check will be done against BootClassLoader. void VerifyClassResolution(const std::string& descriptor, jobject class_loader_to_search_obj, jobject expected_class_loader_obj, bool should_find = true) { Thread* self = Thread::Current(); ScopedObjectAccess soa(self); StackHandleScope<3> hs(self); Handle class_loader_to_search( hs.NewHandle(soa.Decode(class_loader_to_search_obj))); Handle klass = hs.NewHandle( class_linker_->FindClass(soa.Self(), descriptor.c_str(), class_loader_to_search)); if (!should_find) { if (self->IsExceptionPending()) { self->ClearException(); } ASSERT_TRUE(klass == nullptr); } else if (expected_class_loader_obj == nullptr) { ASSERT_TRUE(ClassLinker::IsBootClassLoader(soa, klass->GetClassLoader())); } else { ASSERT_TRUE(klass != nullptr) << descriptor; Handle expected_class_loader( hs.NewHandle(soa.Decode(expected_class_loader_obj))); ASSERT_OBJ_PTR_EQ(klass->GetClassLoader(), expected_class_loader.Get()); } } }; TEST_F(ClassLinkerClassLoaderTest, CreatePathClassLoader) { jobject class_loader_a = LoadDexInPathClassLoader("ForClassLoaderA", nullptr); VerifyClassResolution("LDefinedInA;", class_loader_a, class_loader_a); VerifyClassResolution("Ljava/lang/String;", class_loader_a, nullptr); VerifyClassResolution("LDefinedInB;", class_loader_a, nullptr, /*should_find=*/ false); } TEST_F(ClassLinkerClassLoaderTest, CreateDelegateLastClassLoader) { jobject class_loader_a = LoadDexInDelegateLastClassLoader("ForClassLoaderA", nullptr); VerifyClassResolution("LDefinedInA;", class_loader_a, class_loader_a); VerifyClassResolution("Ljava/lang/String;", class_loader_a, nullptr); VerifyClassResolution("LDefinedInB;", class_loader_a, nullptr, /*should_find=*/ false); } TEST_F(ClassLinkerClassLoaderTest, CreateClassLoaderChain) { // The chain is // ClassLoaderA (PathClassLoader, defines: A, AB, AC, AD) // ^ // | // ClassLoaderB (DelegateLastClassLoader, defines: B, AB, BC, BD) // ^ // | // ClassLoaderC (PathClassLoader, defines: C, AC, BC, CD) // ^ // | // ClassLoaderD (DelegateLastClassLoader, defines: D, AD, BD, CD) jobject class_loader_a = LoadDexInPathClassLoader("ForClassLoaderA", nullptr); jobject class_loader_b = LoadDexInDelegateLastClassLoader("ForClassLoaderB", class_loader_a); jobject class_loader_c = LoadDexInPathClassLoader("ForClassLoaderC", class_loader_b); jobject class_loader_d = LoadDexInDelegateLastClassLoader("ForClassLoaderD", class_loader_c); // Verify exclusive classes (present in only one class loader). VerifyClassResolution("LDefinedInD;", class_loader_d, class_loader_d); VerifyClassResolution("LDefinedInC;", class_loader_d, class_loader_c); VerifyClassResolution("LDefinedInB;", class_loader_d, class_loader_b); VerifyClassResolution("LDefinedInA;", class_loader_d, class_loader_a); // Verify classes that are defined in multiple classloader. // Classes defined in B should be found in B even if they are defined in A or C because // B is a DelegateLastClassLoader. VerifyClassResolution("LDefinedInAB;", class_loader_d, class_loader_b); VerifyClassResolution("LDefinedInABC;", class_loader_d, class_loader_b); VerifyClassResolution("LDefinedInBC;", class_loader_d, class_loader_b); // Classes defined in D should be found in D even if they are defined in parent class loaders // as well because D is a DelegateLastClassLoader. VerifyClassResolution("LDefinedInAD;", class_loader_d, class_loader_d); VerifyClassResolution("LDefinedInBD;", class_loader_d, class_loader_d); VerifyClassResolution("LDefinedInCD;", class_loader_d, class_loader_d); // Classes not defined in the DelegateLastClassLoaders (i.e. D or B) should be found // in the top parent. VerifyClassResolution("LDefinedInAC;", class_loader_d, class_loader_a); // Check that we don't find an undefined class. VerifyClassResolution("LNotDefined;", class_loader_d, nullptr, /*should_find=*/ false); } } // namespace art