// Copyright 2011 Google Inc. All Rights Reserved. #include "class_linker.h" #include #include "UniquePtr.h" #include "common_test.h" #include "dex_cache.h" #include "dex_file.h" #include "heap.h" #include "runtime_support.h" namespace art { class ClassLinkerTest : public CommonTest { protected: void AssertNonExistentClass(const std::string& descriptor) { EXPECT_TRUE(class_linker_->FindSystemClass(descriptor.c_str()) == NULL); Thread* self = Thread::Current(); EXPECT_TRUE(self->IsExceptionPending()); Object* exception = self->GetException(); self->ClearException(); Class* exception_class = class_linker_->FindSystemClass("Ljava/lang/NoClassDefFoundError;"); EXPECT_TRUE(exception->InstanceOf(exception_class)); } void AssertPrimitiveClass(const std::string& descriptor) { AssertPrimitiveClass(descriptor, class_linker_->FindSystemClass(descriptor.c_str())); } void AssertPrimitiveClass(const std::string& descriptor, const Class* primitive) { ClassHelper primitive_ch(primitive); ASSERT_TRUE(primitive != NULL); ASSERT_TRUE(primitive->GetClass() != NULL); ASSERT_EQ(primitive->GetClass(), primitive->GetClass()->GetClass()); EXPECT_TRUE(primitive->GetClass()->GetSuperClass() != NULL); ASSERT_STREQ(descriptor.c_str(), primitive_ch.GetDescriptor()); EXPECT_TRUE(primitive->GetSuperClass() == NULL); EXPECT_FALSE(primitive->HasSuperClass()); EXPECT_TRUE(primitive->GetClassLoader() == NULL); EXPECT_EQ(Class::kStatusInitialized, primitive->GetStatus()); EXPECT_FALSE(primitive->IsErroneous()); EXPECT_TRUE(primitive->IsLoaded()); EXPECT_TRUE(primitive->IsResolved()); EXPECT_TRUE(primitive->IsVerified()); EXPECT_TRUE(primitive->IsInitialized()); EXPECT_FALSE(primitive->IsArrayInstance()); EXPECT_FALSE(primitive->IsArrayClass()); EXPECT_TRUE(primitive->GetComponentType() == NULL); 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_ch.NumInterfaces()); EXPECT_TRUE(primitive->GetVTable() == NULL); EXPECT_EQ(0, primitive->GetIfTableCount()); EXPECT_TRUE(primitive->GetIfTable() == NULL); } void AssertArrayClass(const std::string& array_descriptor, const std::string& component_type, const ClassLoader* class_loader) { Class* array = class_linker_->FindClass(array_descriptor.c_str(), class_loader); ClassHelper array_component_ch(array->GetComponentType()); EXPECT_STREQ(component_type.c_str(), array_component_ch.GetDescriptor()); EXPECT_EQ(class_loader, array->GetClassLoader()); AssertArrayClass(array_descriptor, array); } void AssertArrayClass(const std::string& array_descriptor, Class* array) { ClassHelper kh(array); ASSERT_TRUE(array != NULL); ASSERT_TRUE(array->GetClass() != NULL); ASSERT_EQ(array->GetClass(), array->GetClass()->GetClass()); EXPECT_TRUE(array->GetClass()->GetSuperClass() != NULL); ASSERT_STREQ(array_descriptor.c_str(), kh.GetDescriptor()); EXPECT_TRUE(array->GetSuperClass() != NULL); EXPECT_EQ(class_linker_->FindSystemClass("Ljava/lang/Object;"), array->GetSuperClass()); EXPECT_TRUE(array->HasSuperClass()); ASSERT_TRUE(array->GetComponentType() != NULL); kh.ChangeClass(array->GetComponentType()); ASSERT_TRUE(kh.GetDescriptor() != NULL); EXPECT_EQ(Class::kStatusInitialized, array->GetStatus()); EXPECT_FALSE(array->IsErroneous()); EXPECT_TRUE(array->IsLoaded()); EXPECT_TRUE(array->IsResolved()); 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()); kh.ChangeClass(array); EXPECT_EQ(2U, kh.NumInterfaces()); EXPECT_TRUE(array->GetVTable() != NULL); EXPECT_EQ(2, array->GetIfTableCount()); ObjectArray* iftable = array->GetIfTable(); ASSERT_TRUE(iftable != NULL); kh.ChangeClass(kh.GetInterface(0)); EXPECT_STREQ(kh.GetDescriptor(), "Ljava/lang/Cloneable;"); kh.ChangeClass(array); kh.ChangeClass(kh.GetInterface(1)); EXPECT_STREQ(kh.GetDescriptor(), "Ljava/io/Serializable;"); } void AssertMethod(Class* klass, Method* method) { MethodHelper mh(method); EXPECT_TRUE(method != NULL); EXPECT_TRUE(method->GetClass() != NULL); EXPECT_TRUE(mh.GetName() != NULL); EXPECT_TRUE(mh.GetSignature() != NULL); EXPECT_TRUE(method->GetDexCacheStrings() != NULL); EXPECT_TRUE(method->GetDexCacheResolvedTypes() != NULL); EXPECT_TRUE(method->GetDexCacheResolvedMethods() != NULL); EXPECT_TRUE(method->GetDexCacheResolvedFields() != NULL); EXPECT_TRUE(method->GetDexCacheCodeAndDirectMethods() != NULL); EXPECT_TRUE(method->GetDexCacheInitializedStaticStorage() != NULL); EXPECT_EQ(method->GetDeclaringClass()->GetDexCache()->GetStrings(), method->GetDexCacheStrings()); EXPECT_EQ(method->GetDeclaringClass()->GetDexCache()->GetResolvedTypes(), method->GetDexCacheResolvedTypes()); EXPECT_EQ(method->GetDeclaringClass()->GetDexCache()->GetResolvedMethods(), method->GetDexCacheResolvedMethods()); EXPECT_EQ(method->GetDeclaringClass()->GetDexCache()->GetResolvedFields(), method->GetDexCacheResolvedFields()); EXPECT_EQ(method->GetDeclaringClass()->GetDexCache()->GetCodeAndDirectMethods(), method->GetDexCacheCodeAndDirectMethods()); EXPECT_EQ(method->GetDeclaringClass()->GetDexCache()->GetInitializedStaticStorage(), method->GetDexCacheInitializedStaticStorage()); } void AssertField(Class* klass, Field* field) { FieldHelper fh(field); EXPECT_TRUE(field != NULL); EXPECT_TRUE(field->GetClass() != NULL); EXPECT_EQ(klass, field->GetDeclaringClass()); EXPECT_TRUE(fh.GetName() != NULL); EXPECT_TRUE(fh.GetType() != NULL); } void AssertClass(const std::string& descriptor, Class* klass) { ClassHelper kh(klass); EXPECT_STREQ(descriptor.c_str(), kh.GetDescriptor()); if (descriptor == "Ljava/lang/Object;") { EXPECT_FALSE(klass->HasSuperClass()); } else { EXPECT_TRUE(klass->HasSuperClass()); EXPECT_TRUE(klass->GetSuperClass() != NULL); } EXPECT_TRUE(klass->GetClass() != NULL); EXPECT_EQ(klass->GetClass(), klass->GetClass()->GetClass()); EXPECT_TRUE(klass->GetDexCache() != NULL); EXPECT_TRUE(klass->IsLoaded()); EXPECT_TRUE(klass->IsResolved()); EXPECT_FALSE(klass->IsErroneous()); EXPECT_FALSE(klass->IsArrayClass()); EXPECT_TRUE(klass->GetComponentType() == NULL); EXPECT_TRUE(klass->IsInSamePackage(klass)); EXPECT_TRUE(Class::IsInSamePackage(kh.GetDescriptor(), kh.GetDescriptor())); if (klass->IsInterface()) { EXPECT_TRUE(klass->IsAbstract()); if (klass->NumDirectMethods() == 1) { MethodHelper mh(klass->GetDirectMethod(0)); EXPECT_TRUE(mh.IsClassInitializer()); EXPECT_TRUE(klass->GetDirectMethod(0)->IsDirect()); } else { EXPECT_EQ(0U, klass->NumDirectMethods()); } } else { if (!klass->IsSynthetic()) { EXPECT_NE(0U, klass->NumDirectMethods()); } } EXPECT_EQ(klass->IsInterface(), klass->GetVTable() == NULL); for (int i = 0; i < klass->GetIfTableCount(); i++) { const InterfaceEntry* interface_entry = klass->GetIfTable()->Get(i); ASSERT_TRUE(interface_entry != NULL); Class* interface = interface_entry->GetInterface(); ASSERT_TRUE(interface != NULL); EXPECT_TRUE(interface_entry->GetInterface() != NULL); if (klass->IsInterface()) { EXPECT_EQ(0U, interface_entry->GetMethodArrayCount()); } else { CHECK_EQ(interface->NumVirtualMethods(), interface_entry->GetMethodArrayCount()); EXPECT_EQ(interface->NumVirtualMethods(), interface_entry->GetMethodArrayCount()); } } 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)); for (size_t i = 0; i < klass->NumDirectMethods(); i++) { Method* method = klass->GetDirectMethod(i); AssertMethod(klass, method); EXPECT_TRUE(method->IsDirect()); EXPECT_EQ(klass, method->GetDeclaringClass()); } for (size_t i = 0; i < klass->NumVirtualMethods(); i++) { Method* method = klass->GetVirtualMethod(i); AssertMethod(klass, method); EXPECT_FALSE(method->IsDirect()); EXPECT_TRUE(method->GetDeclaringClass()->IsAssignableFrom(klass)); } for (size_t i = 0; i < klass->NumInstanceFields(); i++) { Field* field = klass->GetInstanceField(i); AssertField(klass, field); EXPECT_FALSE(field->IsStatic()); } for (size_t i = 0; i < klass->NumStaticFields(); i++) { Field* field = klass->GetStaticField(i); AssertField(klass, field); EXPECT_TRUE(field->IsStatic()); } // Confirm that all instances fields are packed together at the start EXPECT_GE(klass->NumInstanceFields(), klass->NumReferenceInstanceFields()); FieldHelper fh; for (size_t i = 0; i < klass->NumReferenceInstanceFields(); i++) { Field* field = klass->GetInstanceField(i); fh.ChangeField(field); ASSERT_TRUE(!fh.IsPrimitiveType()); Class* field_type = fh.GetType(); ASSERT_TRUE(field_type != NULL); ASSERT_TRUE(!field_type->IsPrimitive()); } for (size_t i = klass->NumReferenceInstanceFields(); i < klass->NumInstanceFields(); i++) { Field* field = klass->GetInstanceField(i); fh.ChangeField(field); Class* field_type = fh.GetType(); ASSERT_TRUE(field_type != NULL); if (!fh.IsPrimitiveType() || !field_type->IsPrimitive()) { // While Reference.referent is not primitive, the ClassLinker // treats it as such so that the garbage collector won't scan it. EXPECT_EQ(PrettyField(field), "java.lang.Object java.lang.ref.Reference.referent"); } } size_t total_num_reference_instance_fields = 0; Class* k = klass; while (k != NULL) { total_num_reference_instance_fields += k->NumReferenceInstanceFields(); k = k->GetSuperClass(); } EXPECT_EQ(klass->GetReferenceInstanceOffsets() == 0, total_num_reference_instance_fields == 0); } void AssertDexFileClass(ClassLoader* class_loader, const std::string& descriptor) { ASSERT_TRUE(descriptor != NULL); Class* klass = class_linker_->FindSystemClass(descriptor.c_str()); ASSERT_TRUE(klass != NULL); EXPECT_STREQ(descriptor.c_str(), ClassHelper(klass).GetDescriptor()); EXPECT_EQ(class_loader, klass->GetClassLoader()); if (klass->IsPrimitive()) { AssertPrimitiveClass(descriptor, klass); } else if (klass->IsArrayClass()) { AssertArrayClass(descriptor, klass); } else { AssertClass(descriptor, klass); } } void AssertDexFile(const DexFile* dex, ClassLoader* class_loader) { ASSERT_TRUE(dex != NULL); // Verify all the classes defined in this file for (size_t i = 0; i < dex->NumClassDefs(); i++) { const DexFile::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 DexFile::TypeId& type_id = dex->GetTypeId(i); const char* descriptor = dex->GetTypeDescriptor(type_id); AssertDexFileClass(class_loader, descriptor); } class_linker_->VisitRoots(TestRootVisitor, NULL); } static void TestRootVisitor(const Object* root, void* arg) { EXPECT_TRUE(root != NULL); } }; 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, const char* class_descriptor) : is_static(is_static), class_descriptor(class_descriptor) {} bool is_static; std::string class_descriptor; std::vector offsets; bool Check() { Class* klass = Runtime::Current()->GetClassLinker()->FindSystemClass(class_descriptor.c_str()); CHECK(klass != NULL) << class_descriptor; bool error = false; if (!klass->IsClassClass() && !is_static) { size_t expected_size = is_static ? klass->GetClassSize(): klass->GetObjectSize(); if (sizeof(T) != expected_size) { LG << "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) { LG << "Field count mismatch:" << " class=" << class_descriptor << " Java=" << num_fields << " C++=" << offsets.size(); error = true; } FieldHelper fh; for (size_t i = 0; i < offsets.size(); i++) { Field* field = is_static ? klass->GetStaticField(i) : klass->GetInstanceField(i); fh.ChangeField(field); StringPiece field_name(fh.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]; Field* field = is_static ? klass->GetStaticField(i) : klass->GetInstanceField(i); fh.ChangeField(field); StringPiece field_name(fh.GetName()); if (field_name != offsets[i].java_name) { LG << "JAVA FIELD ORDER MISMATCH NEXT LINE:"; } LG << "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]; Field* 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]; Field* field = is_static ? klass->GetStaticField(i) : klass->GetInstanceField(i); if (field->GetOffset().Uint32Value() != offset.cpp_offset) { LG << "OFFSET MISMATCH NEXT LINE:"; } LG << "Offset: class=" << class_descriptor << " field=" << offset.java_name << " Java=" << field->GetOffset().Uint32Value() << " C++=" << offset.cpp_offset; } } return !error; }; 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;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Object, klass_), "shadow$_klass_")); // alphabetical 32-bit offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Object, monitor_), "shadow$_monitor_")); }; }; struct FieldOffsets : public CheckOffsets { FieldOffsets() : CheckOffsets(false, "Ljava/lang/reflect/Field;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Field, declaring_class_), "declaringClass")); // alphabetical 32-bit offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Field, access_flags_), "accessFlags")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Field, field_dex_idx_), "fieldDexIndex")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Field, offset_), "offset")); }; }; struct MethodOffsets : public CheckOffsets { MethodOffsets() : CheckOffsets(false, "Ljava/lang/reflect/Method;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, declaring_class_), "declaringClass")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, dex_cache_code_and_direct_methods_), "dexCacheCodeAndDirectMethods")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, dex_cache_initialized_static_storage_), "dexCacheInitializedStaticStorage")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, dex_cache_resolved_fields_), "dexCacheResolvedFields")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, dex_cache_resolved_methods_), "dexCacheResolvedMethods")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, dex_cache_resolved_types_), "dexCacheResolvedTypes")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, dex_cache_strings_), "dexCacheStrings")); // alphabetical 32-bit offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, access_flags_), "accessFlags")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, code_), "code")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, code_item_offset_), "codeItemOffset")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, core_spill_mask_), "coreSpillMask")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, fp_spill_mask_), "fpSpillMask")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, frame_size_in_bytes_), "frameSizeInBytes")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, gc_map_), "gcMap")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, invoke_stub_), "invokeStub")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, mapping_table_), "mappingTable")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, method_dex_index_), "methodDexIndex")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, method_index_), "methodIndex")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, native_method_), "nativeMethod")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Method, vmap_table_), "vmapTable")); }; }; struct ConstructorOffsets : public MethodOffsets { ConstructorOffsets() : MethodOffsets() { // We use Method* for both java.lang.reflect.Constructor and java.lang.reflect.Method. class_descriptor = "Ljava/lang/reflect/Constructor;"; } }; struct ClassOffsets : public CheckOffsets { ClassOffsets() : CheckOffsets(false, "Ljava/lang/Class;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, class_loader_), "classLoader")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, component_type_), "componentType")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, dex_cache_), "dexCache")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, direct_methods_), "directMethods")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, ifields_), "iFields")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, iftable_), "ifTable")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, name_), "name")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, sfields_), "sFields")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, super_class_), "superClass")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, verify_error_class_), "verifyErrorClass")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, virtual_methods_), "virtualMethods")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, vtable_), "vtable")); // alphabetical 32-bit offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, access_flags_), "accessFlags")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, class_size_), "classSize")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, clinit_thread_id_), "clinitThreadId")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, dex_type_idx_), "dexTypeIndex")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, num_reference_instance_fields_), "numReferenceInstanceFields")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, num_reference_static_fields_), "numReferenceStaticFields")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, object_size_), "objectSize")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, primitive_type_), "primitiveType")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, reference_instance_offsets_), "referenceInstanceOffsets")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, reference_static_offsets_), "referenceStaticOffsets")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Class, status_), "status")); }; }; struct StringOffsets : public CheckOffsets { StringOffsets() : CheckOffsets(false, "Ljava/lang/String;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(String, array_), "value")); // alphabetical 32-bit offsets.push_back(CheckOffset(OFFSETOF_MEMBER(String, count_), "count")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(String, hash_code_), "hashCode")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(String, offset_), "offset")); }; }; struct ThrowableOffsets : public CheckOffsets { ThrowableOffsets() : CheckOffsets(false, "Ljava/lang/Throwable;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Throwable, cause_), "cause")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Throwable, detail_message_), "detailMessage")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Throwable, stack_state_), "stackState")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Throwable, stack_trace_), "stackTrace")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Throwable, suppressed_exceptions_), "suppressedExceptions")); }; }; struct StackTraceElementOffsets : public CheckOffsets { StackTraceElementOffsets() : CheckOffsets(false, "Ljava/lang/StackTraceElement;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(StackTraceElement, declaring_class_), "declaringClass")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(StackTraceElement, file_name_), "fileName")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(StackTraceElement, method_name_), "methodName")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(StackTraceElement, line_number_), "lineNumber")); }; }; struct ClassLoaderOffsets : public CheckOffsets { ClassLoaderOffsets() : CheckOffsets(false, "Ljava/lang/ClassLoader;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(ClassLoader, packages_), "packages")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(ClassLoader, parent_), "parent")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(ClassLoader, proxyCache_), "proxyCache")); }; }; struct BaseDexClassLoaderOffsets : public CheckOffsets { BaseDexClassLoaderOffsets() : CheckOffsets(false, "Ldalvik/system/BaseDexClassLoader;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(BaseDexClassLoader, original_path_), "originalPath")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(BaseDexClassLoader, path_list_), "pathList")); }; }; struct PathClassLoaderOffsets : public CheckOffsets { PathClassLoaderOffsets() : CheckOffsets(false, "Ldalvik/system/PathClassLoader;") {} }; struct ProxyOffsets : public CheckOffsets { ProxyOffsets() : CheckOffsets(false, "Ljava/lang/reflect/Proxy;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(Proxy, h_), "h")); }; }; struct ClassClassOffsets : public CheckOffsets { ClassClassOffsets() : CheckOffsets(true, "Ljava/lang/Class;") { // padding 32-bit CHECK_EQ(OFFSETOF_MEMBER(ClassClass, padding_) + 4, OFFSETOF_MEMBER(ClassClass, serialVersionUID_)); // alphabetical 64-bit offsets.push_back(CheckOffset(OFFSETOF_MEMBER(ClassClass, serialVersionUID_), "serialVersionUID")); }; }; struct StringClassOffsets : public CheckOffsets { StringClassOffsets() : CheckOffsets(true, "Ljava/lang/String;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(StringClass, ASCII_), "ASCII")); offsets.push_back(CheckOffset(OFFSETOF_MEMBER(StringClass, CASE_INSENSITIVE_ORDER_), "CASE_INSENSITIVE_ORDER")); // padding 32-bit offsets.push_back(CheckOffset(OFFSETOF_MEMBER(StringClass, REPLACEMENT_CHAR_), "REPLACEMENT_CHAR")); // alphabetical 64-bit offsets.push_back(CheckOffset(OFFSETOF_MEMBER(StringClass, serialVersionUID_), "serialVersionUID")); }; }; struct FieldClassOffsets : public CheckOffsets { FieldClassOffsets() : CheckOffsets(true, "Ljava/lang/reflect/Field;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(FieldClass, ORDER_BY_NAME_AND_DECLARING_CLASS_), "ORDER_BY_NAME_AND_DECLARING_CLASS")); }; }; struct MethodClassOffsets : public CheckOffsets { MethodClassOffsets() : CheckOffsets(true, "Ljava/lang/reflect/Method;") { // alphabetical references offsets.push_back(CheckOffset(OFFSETOF_MEMBER(MethodClass, ORDER_BY_SIGNATURE_), "ORDER_BY_SIGNATURE")); }; }; // 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) { EXPECT_TRUE(ObjectOffsets().Check()); EXPECT_TRUE(ConstructorOffsets().Check()); EXPECT_TRUE(FieldOffsets().Check()); EXPECT_TRUE(MethodOffsets().Check()); EXPECT_TRUE(ClassOffsets().Check()); EXPECT_TRUE(StringOffsets().Check()); EXPECT_TRUE(ThrowableOffsets().Check()); EXPECT_TRUE(StackTraceElementOffsets().Check()); EXPECT_TRUE(ClassLoaderOffsets().Check()); EXPECT_TRUE(BaseDexClassLoaderOffsets().Check()); EXPECT_TRUE(PathClassLoaderOffsets().Check()); EXPECT_TRUE(ProxyOffsets().Check()); EXPECT_TRUE(ClassClassOffsets().Check()); EXPECT_TRUE(StringClassOffsets().Check()); EXPECT_TRUE(FieldClassOffsets().Check()); EXPECT_TRUE(MethodClassOffsets().Check()); } TEST_F(ClassLinkerTest, FindClassNonexistent) { AssertNonExistentClass("NoSuchClass;"); AssertNonExistentClass("LNoSuchClass;"); } TEST_F(ClassLinkerTest, FindClassNested) { SirtRef class_loader(LoadDex("Nested")); Class* outer = class_linker_->FindClass("LNested;", class_loader.get()); ASSERT_TRUE(outer != NULL); EXPECT_EQ(0U, outer->NumVirtualMethods()); EXPECT_EQ(1U, outer->NumDirectMethods()); Class* inner = class_linker_->FindClass("LNested$Inner;", class_loader.get()); ASSERT_TRUE(inner != NULL); EXPECT_EQ(0U, inner->NumVirtualMethods()); EXPECT_EQ(1U, inner->NumDirectMethods()); } TEST_F(ClassLinkerTest, FindClass_Primitives) { const std::string expected("BCDFIJSZV"); for (int ch = 1; ch < 256; ++ch) { std::string descriptor; descriptor.push_back(ch); if (expected.find(ch) == std::string::npos) { AssertNonExistentClass(descriptor); } else { AssertPrimitiveClass(descriptor); } } } TEST_F(ClassLinkerTest, FindClass) { Class* JavaLangObject = class_linker_->FindSystemClass("Ljava/lang/Object;"); ClassHelper kh(JavaLangObject); ASSERT_TRUE(JavaLangObject != NULL); ASSERT_TRUE(JavaLangObject->GetClass() != NULL); ASSERT_EQ(JavaLangObject->GetClass(), JavaLangObject->GetClass()->GetClass()); EXPECT_EQ(JavaLangObject, JavaLangObject->GetClass()->GetSuperClass()); ASSERT_STREQ(kh.GetDescriptor(), "Ljava/lang/Object;"); EXPECT_TRUE(JavaLangObject->GetSuperClass() == NULL); EXPECT_FALSE(JavaLangObject->HasSuperClass()); EXPECT_TRUE(JavaLangObject->GetClassLoader() == NULL); EXPECT_EQ(Class::kStatusResolved, JavaLangObject->GetStatus()); EXPECT_FALSE(JavaLangObject->IsErroneous()); EXPECT_TRUE(JavaLangObject->IsLoaded()); EXPECT_TRUE(JavaLangObject->IsResolved()); EXPECT_FALSE(JavaLangObject->IsVerified()); EXPECT_FALSE(JavaLangObject->IsInitialized()); EXPECT_FALSE(JavaLangObject->IsArrayInstance()); EXPECT_FALSE(JavaLangObject->IsArrayClass()); EXPECT_TRUE(JavaLangObject->GetComponentType() == NULL); EXPECT_FALSE(JavaLangObject->IsInterface()); EXPECT_TRUE(JavaLangObject->IsPublic()); EXPECT_FALSE(JavaLangObject->IsFinal()); EXPECT_FALSE(JavaLangObject->IsPrimitive()); EXPECT_FALSE(JavaLangObject->IsSynthetic()); EXPECT_EQ(2U, JavaLangObject->NumDirectMethods()); EXPECT_EQ(11U, JavaLangObject->NumVirtualMethods()); EXPECT_EQ(2U, JavaLangObject->NumInstanceFields()); FieldHelper fh(JavaLangObject->GetInstanceField(0)); EXPECT_STREQ(fh.GetName(), "shadow$_klass_"); fh.ChangeField(JavaLangObject->GetInstanceField(1)); EXPECT_STREQ(fh.GetName(), "shadow$_monitor_"); EXPECT_EQ(0U, JavaLangObject->NumStaticFields()); EXPECT_EQ(0U, kh.NumInterfaces()); SirtRef class_loader(LoadDex("MyClass")); AssertNonExistentClass("LMyClass;"); Class* MyClass = class_linker_->FindClass("LMyClass;", class_loader.get()); kh.ChangeClass(MyClass); ASSERT_TRUE(MyClass != NULL); ASSERT_TRUE(MyClass->GetClass() != NULL); ASSERT_EQ(MyClass->GetClass(), MyClass->GetClass()->GetClass()); EXPECT_EQ(JavaLangObject, MyClass->GetClass()->GetSuperClass()); ASSERT_STREQ(kh.GetDescriptor(), "LMyClass;"); EXPECT_TRUE(MyClass->GetSuperClass() == JavaLangObject); EXPECT_TRUE(MyClass->HasSuperClass()); EXPECT_EQ(class_loader.get(), MyClass->GetClassLoader()); EXPECT_EQ(Class::kStatusResolved, MyClass->GetStatus()); EXPECT_FALSE(MyClass->IsErroneous()); EXPECT_TRUE(MyClass->IsLoaded()); EXPECT_TRUE(MyClass->IsResolved()); EXPECT_FALSE(MyClass->IsVerified()); EXPECT_FALSE(MyClass->IsInitialized()); EXPECT_FALSE(MyClass->IsArrayInstance()); EXPECT_FALSE(MyClass->IsArrayClass()); EXPECT_TRUE(MyClass->GetComponentType() == NULL); 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, kh.NumInterfaces()); EXPECT_EQ(JavaLangObject->GetClass()->GetClass(), MyClass->GetClass()->GetClass()); // created by class_linker AssertArrayClass("[C", "C", NULL); AssertArrayClass("[Ljava/lang/Object;", "Ljava/lang/Object;", NULL); // synthesized on the fly AssertArrayClass("[[C", "[C", NULL); AssertArrayClass("[[[LMyClass;", "[[LMyClass;", class_loader.get()); // or not available at all AssertNonExistentClass("[[[[LNonExistentClass;"); } TEST_F(ClassLinkerTest, LibCore) { AssertDexFile(java_lang_dex_file_.get(), NULL); } // The first reference array element must be a multiple of 8 bytes from the // start of the object TEST_F(ClassLinkerTest, ValidateObjectArrayElementsOffset) { Class* array_class = class_linker_->FindSystemClass("[Ljava/lang/String;"); ObjectArray* array = ObjectArray::Alloc(array_class, 0); uint32_t array_offset = reinterpret_cast(array); uint32_t data_offset = array_offset + ObjectArray::DataOffset().Uint32Value(); EXPECT_EQ(16U, data_offset - array_offset); } TEST_F(ClassLinkerTest, ValidatePrimitiveArrayElementsOffset) { SirtRef array(LongArray::Alloc(0)); EXPECT_EQ(class_linker_->FindSystemClass("[J"), array->GetClass()); uint32_t array_offset = reinterpret_cast(array.get()); uint32_t data_offset = reinterpret_cast(array->GetData()); EXPECT_EQ(16U, data_offset - array_offset); } 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. Class* c; c = class_linker_->FindClass("Ljava/lang/Boolean;", NULL); FieldHelper fh(c->GetIFields()->Get(0)); EXPECT_STREQ("value", fh.GetName()); c = class_linker_->FindClass("Ljava/lang/Byte;", NULL); fh.ChangeField(c->GetIFields()->Get(0)); EXPECT_STREQ("value", fh.GetName()); c = class_linker_->FindClass("Ljava/lang/Character;", NULL); fh.ChangeField(c->GetIFields()->Get(0)); EXPECT_STREQ("value", fh.GetName()); c = class_linker_->FindClass("Ljava/lang/Double;", NULL); fh.ChangeField(c->GetIFields()->Get(0)); EXPECT_STREQ("value", fh.GetName()); c = class_linker_->FindClass("Ljava/lang/Float;", NULL); fh.ChangeField(c->GetIFields()->Get(0)); EXPECT_STREQ("value", fh.GetName()); c = class_linker_->FindClass("Ljava/lang/Integer;", NULL); fh.ChangeField(c->GetIFields()->Get(0)); EXPECT_STREQ("value", fh.GetName()); c = class_linker_->FindClass("Ljava/lang/Long;", NULL); fh.ChangeField(c->GetIFields()->Get(0)); EXPECT_STREQ("value", fh.GetName()); c = class_linker_->FindClass("Ljava/lang/Short;", NULL); fh.ChangeField(c->GetIFields()->Get(0)); EXPECT_STREQ("value", fh.GetName()); } TEST_F(ClassLinkerTest, TwoClassLoadersOneClass) { SirtRef class_loader_1(LoadDex("MyClass")); SirtRef class_loader_2(LoadDex("MyClass")); Class* MyClass_1 = class_linker_->FindClass("LMyClass;", class_loader_1.get()); Class* MyClass_2 = class_linker_->FindClass("LMyClass;", class_loader_2.get()); EXPECT_TRUE(MyClass_1 != NULL); EXPECT_TRUE(MyClass_2 != NULL); EXPECT_NE(MyClass_1, MyClass_2); } TEST_F(ClassLinkerTest, StaticFields) { SirtRef class_loader(LoadDex("Statics")); Class* statics = class_linker_->FindClass("LStatics;", class_loader.get()); class_linker_->EnsureInitialized(statics, 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. Method* clinit = statics->FindDirectMethod("", "()V"); EXPECT_TRUE(clinit == NULL); EXPECT_EQ(9U, statics->NumStaticFields()); Field* s0 = statics->FindStaticField("s0", "Z"); FieldHelper fh(s0); EXPECT_STREQ(ClassHelper(s0->GetClass()).GetDescriptor(), "Ljava/lang/reflect/Field;"); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimBoolean); EXPECT_EQ(true, s0->GetBoolean(NULL)); s0->SetBoolean(NULL, false); Field* s1 = statics->FindStaticField("s1", "B"); fh.ChangeField(s1); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimByte); EXPECT_EQ(5, s1->GetByte(NULL)); s1->SetByte(NULL, 6); Field* s2 = statics->FindStaticField("s2", "C"); fh.ChangeField(s2); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimChar); EXPECT_EQ('a', s2->GetChar(NULL)); s2->SetChar(NULL, 'b'); Field* s3 = statics->FindStaticField("s3", "S"); fh.ChangeField(s3); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimShort); EXPECT_EQ(-536, s3->GetShort(NULL)); s3->SetShort(NULL, -535); Field* s4 = statics->FindStaticField("s4", "I"); fh.ChangeField(s4); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimInt); EXPECT_EQ(2000000000, s4->GetInt(NULL)); s4->SetInt(NULL, 2000000001); Field* s5 = statics->FindStaticField("s5", "J"); fh.ChangeField(s5); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimLong); EXPECT_EQ(0x1234567890abcdefLL, s5->GetLong(NULL)); s5->SetLong(NULL, 0x34567890abcdef12LL); Field* s6 = statics->FindStaticField("s6", "F"); fh.ChangeField(s6); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimFloat); EXPECT_EQ(0.5, s6->GetFloat(NULL)); s6->SetFloat(NULL, 0.75); Field* s7 = statics->FindStaticField("s7", "D"); fh.ChangeField(s7); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimDouble); EXPECT_EQ(16777217, s7->GetDouble(NULL)); s7->SetDouble(NULL, 16777219); Field* s8 = statics->FindStaticField("s8", "Ljava/lang/String;"); fh.ChangeField(s8); EXPECT_TRUE(fh.GetTypeAsPrimitiveType() == Primitive::kPrimNot); EXPECT_TRUE(s8->GetObject(NULL)->AsString()->Equals("android")); s8->SetObject(NULL, String::AllocFromModifiedUtf8("robot")); // TODO: Remove EXPECT_FALSE when GCC can handle EXPECT_EQ // http://code.google.com/p/googletest/issues/detail?id=322 EXPECT_FALSE( s0->GetBoolean(NULL)); EXPECT_EQ(6, s1->GetByte(NULL)); EXPECT_EQ('b', s2->GetChar(NULL)); EXPECT_EQ(-535, s3->GetShort(NULL)); EXPECT_EQ(2000000001, s4->GetInt(NULL)); EXPECT_EQ(0x34567890abcdef12LL, s5->GetLong(NULL)); EXPECT_EQ(0.75, s6->GetFloat(NULL)); EXPECT_EQ(16777219, s7->GetDouble(NULL)); EXPECT_TRUE(s8->GetObject(NULL)->AsString()->Equals("robot")); } TEST_F(ClassLinkerTest, Interfaces) { SirtRef class_loader(LoadDex("Interfaces")); Class* I = class_linker_->FindClass("LInterfaces$I;", class_loader.get()); Class* J = class_linker_->FindClass("LInterfaces$J;", class_loader.get()); Class* K = class_linker_->FindClass("LInterfaces$K;", class_loader.get()); Class* A = class_linker_->FindClass("LInterfaces$A;", class_loader.get()); Class* B = class_linker_->FindClass("LInterfaces$B;", class_loader.get()); EXPECT_TRUE(I->IsAssignableFrom(A)); EXPECT_TRUE(J->IsAssignableFrom(A)); EXPECT_TRUE(J->IsAssignableFrom(K)); EXPECT_TRUE(K->IsAssignableFrom(B)); EXPECT_TRUE(J->IsAssignableFrom(B)); Method* Ii = I->FindVirtualMethod("i", "()V"); Method* Jj1 = J->FindVirtualMethod("j1", "()V"); Method* Jj2 = J->FindVirtualMethod("j2", "()V"); Method* Kj1 = K->FindInterfaceMethod("j1", "()V"); Method* Kj2 = K->FindInterfaceMethod("j2", "()V"); Method* Kk = K->FindInterfaceMethod("k", "()V"); Method* Ai = A->FindVirtualMethod("i", "()V"); Method* Aj1 = A->FindVirtualMethod("j1", "()V"); Method* Aj2 = A->FindVirtualMethod("j2", "()V"); ASSERT_TRUE(Ii != NULL); ASSERT_TRUE(Jj1 != NULL); ASSERT_TRUE(Jj2 != NULL); ASSERT_TRUE(Kj1 != NULL); ASSERT_TRUE(Kj2 != NULL); ASSERT_TRUE(Kk != NULL); ASSERT_TRUE(Ai != NULL); ASSERT_TRUE(Aj1 != NULL); ASSERT_TRUE(Aj2 != NULL); 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, true)); EXPECT_EQ(Aj1, A->FindVirtualMethodForInterface(Jj1, true)); EXPECT_EQ(Aj2, A->FindVirtualMethodForInterface(Jj2, true)); EXPECT_EQ(Ai, A->FindVirtualMethodForVirtualOrInterface(Ii)); EXPECT_EQ(Aj1, A->FindVirtualMethodForVirtualOrInterface(Jj1)); EXPECT_EQ(Aj2, A->FindVirtualMethodForVirtualOrInterface(Jj2)); } 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 SirtRef class_loader(LoadDex("StaticsFromCode")); const DexFile* dex_file = ClassLoader::GetCompileTimeClassPath(class_loader.get())[0]; CHECK(dex_file != NULL); Class* klass = class_linker_->FindClass("LStaticsFromCode;", class_loader.get()); Method* clinit = klass->FindDirectMethod("", "()V"); Method* getS0 = klass->FindDirectMethod("getS0", "()Ljava/lang/Object;"); const DexFile::StringId* string_id = dex_file->FindStringId("LStaticsFromCode;"); ASSERT_TRUE(string_id != NULL); const DexFile::TypeId* type_id = dex_file->FindTypeId(dex_file->GetIndexForStringId(*string_id)); ASSERT_TRUE(type_id != NULL); uint32_t type_idx = dex_file->GetIndexForTypeId(*type_id); EXPECT_TRUE(clinit->GetDexCacheInitializedStaticStorage()->Get(type_idx) == NULL); StaticStorageBase* uninit = ResolveVerifyAndClinit(type_idx, clinit, Thread::Current(), true, false); EXPECT_TRUE(uninit != NULL); EXPECT_TRUE(clinit->GetDexCacheInitializedStaticStorage()->Get(type_idx) == NULL); StaticStorageBase* init = ResolveVerifyAndClinit(type_idx, getS0, Thread::Current(), true, false); EXPECT_TRUE(init != NULL); EXPECT_EQ(init, clinit->GetDexCacheInitializedStaticStorage()->Get(type_idx)); } TEST_F(ClassLinkerTest, FinalizableBit) { Class* c; // Object has a finalize method, but we know it's empty. c = class_linker_->FindSystemClass("Ljava/lang/Object;"); EXPECT_FALSE(c->IsFinalizable()); // Enum has a finalize method to prevent its subclasses from implementing one. c = class_linker_->FindSystemClass("Ljava/lang/Enum;"); EXPECT_FALSE(c->IsFinalizable()); // RoundingMode is an enum. c = class_linker_->FindSystemClass("Ljava/math/RoundingMode;"); EXPECT_FALSE(c->IsFinalizable()); // RandomAccessFile extends Object and overrides finalize. c = class_linker_->FindSystemClass("Ljava/io/RandomAccessFile;"); EXPECT_TRUE(c->IsFinalizable()); // FileInputStream is finalizable and extends InputStream which isn't. c = class_linker_->FindSystemClass("Ljava/io/InputStream;"); EXPECT_FALSE(c->IsFinalizable()); c = class_linker_->FindSystemClass("Ljava/io/FileInputStream;"); EXPECT_TRUE(c->IsFinalizable()); // ScheduledThreadPoolExecutor doesn't have a finalize method but // extends ThreadPoolExecutor which does. c = class_linker_->FindSystemClass("Ljava/util/concurrent/ThreadPoolExecutor;"); EXPECT_TRUE(c->IsFinalizable()); c = class_linker_->FindSystemClass("Ljava/util/concurrent/ScheduledThreadPoolExecutor;"); EXPECT_TRUE(c->IsFinalizable()); } TEST_F(ClassLinkerTest, ClassRootDescriptors) { ClassHelper kh; for (int i = 0; i < ClassLinker::kClassRootsMax; i++) { Class* klass = class_linker_->GetClassRoot(ClassLinker::ClassRoot(i)); kh.ChangeClass(klass); EXPECT_TRUE(kh.GetDescriptor() != NULL); EXPECT_STREQ(kh.GetDescriptor(), class_linker_->GetClassRootDescriptor(ClassLinker::ClassRoot(i))) << " i = " << i; } } } // namespace art