/* * Copyright (C) 2008 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 "java_lang_Class.h" #include #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_throws.h" #include "compat_framework.h" #include "dex/descriptors_names.h" #include "dex/dex_file-inl.h" #include "dex/dex_file_annotations.h" #include "dex/utf.h" #include "hidden_api.h" #include "jni/jni_internal.h" #include "mirror/class-alloc-inl.h" #include "mirror/class-inl.h" #include "mirror/class_loader.h" #include "mirror/field.h" #include "mirror/method.h" #include "mirror/method_handles_lookup.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/string-alloc-inl.h" #include "mirror/string-inl.h" #include "native_util.h" #include "nativehelper/jni_macros.h" #include "nativehelper/scoped_local_ref.h" #include "nativehelper/scoped_utf_chars.h" #include "nth_caller_visitor.h" #include "obj_ptr-inl.h" #include "reflection.h" #include "reflective_handle_scope-inl.h" #include "scoped_fast_native_object_access-inl.h" #include "scoped_thread_state_change-inl.h" #include "well_known_classes.h" namespace art { // Should be the same as dalvik.system.VMRuntime.PREVENT_META_REFLECTION_BLOCKLIST_ACCESS. // Corresponds to a bug id. static constexpr uint64_t kPreventMetaReflectionBlocklistAccess = 142365358; // Walks the stack, finds the caller of this reflective call and returns // a hiddenapi AccessContext formed from its declaring class. static hiddenapi::AccessContext GetReflectionCaller(Thread* self) REQUIRES_SHARED(Locks::mutator_lock_) { // Walk the stack and find the first frame not from java.lang.Class, // java.lang.invoke or java.lang.reflect. This is very expensive. // Save this till the last. struct FirstExternalCallerVisitor : public StackVisitor { explicit FirstExternalCallerVisitor(Thread* thread) : StackVisitor(thread, nullptr, StackVisitor::StackWalkKind::kIncludeInlinedFrames), caller(nullptr) { } bool VisitFrame() override REQUIRES_SHARED(Locks::mutator_lock_) { ArtMethod *m = GetMethod(); if (m == nullptr) { // Attached native thread. Assume this is *not* boot class path. caller = nullptr; return false; } else if (m->IsRuntimeMethod()) { // Internal runtime method, continue walking the stack. return true; } ObjPtr declaring_class = m->GetDeclaringClass(); if (declaring_class->IsBootStrapClassLoaded()) { if (declaring_class->IsClassClass()) { return true; } // Check classes in the java.lang.invoke package. At the time of writing, the // classes of interest are MethodHandles and MethodHandles.Lookup, but this // is subject to change so conservatively cover the entire package. // NB Static initializers within java.lang.invoke are permitted and do not // need further stack inspection. ObjPtr lookup_class = GetClassRoot(); if ((declaring_class == lookup_class || declaring_class->IsInSamePackage(lookup_class)) && !m->IsClassInitializer()) { return true; } // Check for classes in the java.lang.reflect package, except for java.lang.reflect.Proxy. // java.lang.reflect.Proxy does its own hidden api checks (https://r.android.com/915496), // and walking over this frame would cause a null pointer dereference // (e.g. in 691-hiddenapi-proxy). ObjPtr proxy_class = GetClassRoot(); CompatFramework& compat_framework = Runtime::Current()->GetCompatFramework(); if (declaring_class->IsInSamePackage(proxy_class) && declaring_class != proxy_class) { if (compat_framework.IsChangeEnabled(kPreventMetaReflectionBlocklistAccess)) { return true; } } } caller = m; return false; } ArtMethod* caller; }; FirstExternalCallerVisitor visitor(self); visitor.WalkStack(); // Construct AccessContext from the calling class found on the stack. // If the calling class cannot be determined, e.g. unattached threads, // we conservatively assume the caller is trusted. ObjPtr caller = (visitor.caller == nullptr) ? nullptr : visitor.caller->GetDeclaringClass(); return caller.IsNull() ? hiddenapi::AccessContext(/* is_trusted= */ true) : hiddenapi::AccessContext(caller); } static std::function GetHiddenapiAccessContextFunction(Thread* self) { return [=]() REQUIRES_SHARED(Locks::mutator_lock_) { return GetReflectionCaller(self); }; } // Returns true if the first non-ClassClass caller up the stack should not be // allowed access to `member`. template ALWAYS_INLINE static bool ShouldDenyAccessToMember(T* member, Thread* self) REQUIRES_SHARED(Locks::mutator_lock_) { return hiddenapi::ShouldDenyAccessToMember(member, GetHiddenapiAccessContextFunction(self), hiddenapi::AccessMethod::kReflection); } // Returns true if a class member should be discoverable with reflection given // the criteria. Some reflection calls only return public members // (public_only == true), some members should be hidden from non-boot class path // callers (hiddenapi_context). template ALWAYS_INLINE static bool IsDiscoverable(bool public_only, const hiddenapi::AccessContext& access_context, T* member) REQUIRES_SHARED(Locks::mutator_lock_) { if (public_only && ((member->GetAccessFlags() & kAccPublic) == 0)) { return false; } return !hiddenapi::ShouldDenyAccessToMember( member, access_context, hiddenapi::AccessMethod::kNone); } ALWAYS_INLINE static inline ObjPtr DecodeClass( const ScopedFastNativeObjectAccess& soa, jobject java_class) REQUIRES_SHARED(Locks::mutator_lock_) { ObjPtr c = soa.Decode(java_class); DCHECK(c != nullptr); DCHECK(c->IsClass()); // TODO: we could EnsureInitialized here, rather than on every reflective get/set or invoke . // For now, we conservatively preserve the old dalvik behavior. A quick "IsInitialized" check // every time probably doesn't make much difference to reflection performance anyway. return c; } // "name" is in "binary name" format, e.g. "dalvik.system.Debug$1". static jclass Class_classForName(JNIEnv* env, jclass, jstring javaName, jboolean initialize, jobject javaLoader) { ScopedFastNativeObjectAccess soa(env); ScopedUtfChars name(env, javaName); if (name.c_str() == nullptr) { return nullptr; } // We need to validate and convert the name (from x.y.z to x/y/z). This // is especially handy for array types, since we want to avoid // auto-generating bogus array classes. if (!IsValidBinaryClassName(name.c_str())) { soa.Self()->ThrowNewExceptionF("Ljava/lang/ClassNotFoundException;", "Invalid name: %s", name.c_str()); return nullptr; } std::string descriptor(DotToDescriptor(name.c_str())); StackHandleScope<2> hs(soa.Self()); Handle class_loader( hs.NewHandle(soa.Decode(javaLoader))); ClassLinker* class_linker = Runtime::Current()->GetClassLinker(); Handle c( hs.NewHandle(class_linker->FindClass(soa.Self(), descriptor.c_str(), class_loader))); if (c == nullptr) { ScopedLocalRef cause(env, env->ExceptionOccurred()); env->ExceptionClear(); jthrowable cnfe = reinterpret_cast( env->NewObject(WellKnownClasses::java_lang_ClassNotFoundException, WellKnownClasses::java_lang_ClassNotFoundException_init, javaName, cause.get())); if (cnfe != nullptr) { // Make sure allocation didn't fail with an OOME. env->Throw(cnfe); } return nullptr; } if (initialize) { class_linker->EnsureInitialized(soa.Self(), c, true, true); } return soa.AddLocalReference(c.Get()); } static jclass Class_getPrimitiveClass(JNIEnv* env, jclass, jstring name) { ScopedFastNativeObjectAccess soa(env); ObjPtr klass = mirror::Class::GetPrimitiveClass(soa.Decode(name)); return soa.AddLocalReference(klass); } static jstring Class_getNameNative(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); ObjPtr c = DecodeClass(soa, javaThis); return soa.AddLocalReference(mirror::Class::ComputeName(hs.NewHandle(c))); } static jobjectArray Class_getInterfacesInternal(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass = hs.NewHandle(DecodeClass(soa, javaThis)); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (klass->IsProxyClass()) { StackHandleScope<1> hs2(soa.Self()); Handle> interfaces = hs2.NewHandle(klass->GetProxyInterfaces()); return soa.AddLocalReference( mirror::ObjectArray::Clone(interfaces, soa.Self())); } const dex::TypeList* iface_list = klass->GetInterfaceTypeList(); if (iface_list == nullptr) { return nullptr; } ClassLinker* linker = Runtime::Current()->GetClassLinker(); const uint32_t num_ifaces = iface_list->Size(); ObjPtr class_array_class = GetClassRoot>(linker); ObjPtr> ifaces = mirror::ObjectArray::Alloc(soa.Self(), class_array_class, num_ifaces); if (ifaces.IsNull()) { DCHECK(soa.Self()->IsExceptionPending()); return nullptr; } // Check that we aren't in an active transaction, we call SetWithoutChecks // with kActiveTransaction == false. DCHECK(!Runtime::Current()->IsActiveTransaction()); for (uint32_t i = 0; i < num_ifaces; ++i) { const dex::TypeIndex type_idx = iface_list->GetTypeItem(i).type_idx_; ObjPtr interface = linker->LookupResolvedType(type_idx, klass.Get()); DCHECK(interface != nullptr); ifaces->SetWithoutChecks(i, interface); } return soa.AddLocalReference(ifaces); } static ObjPtr> GetDeclaredFields( Thread* self, ObjPtr klass, bool public_only, bool force_resolve) REQUIRES_SHARED(Locks::mutator_lock_) { if (UNLIKELY(klass->IsObsoleteObject())) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } StackHandleScope<1> hs(self); IterationRange> ifields = klass->GetIFields(); IterationRange> sfields = klass->GetSFields(); size_t array_size = klass->NumInstanceFields() + klass->NumStaticFields(); hiddenapi::AccessContext hiddenapi_context = GetReflectionCaller(self); // Lets go subtract all the non discoverable fields. for (ArtField& field : ifields) { if (!IsDiscoverable(public_only, hiddenapi_context, &field)) { --array_size; } } for (ArtField& field : sfields) { if (!IsDiscoverable(public_only, hiddenapi_context, &field)) { --array_size; } } size_t array_idx = 0; auto object_array = hs.NewHandle(mirror::ObjectArray::Alloc( self, GetClassRoot>(), array_size)); if (object_array == nullptr) { return nullptr; } for (ArtField& field : ifields) { if (IsDiscoverable(public_only, hiddenapi_context, &field)) { ObjPtr reflect_field = mirror::Field::CreateFromArtField(self, &field, force_resolve); if (reflect_field == nullptr) { if (kIsDebugBuild) { self->AssertPendingException(); } // Maybe null due to OOME or type resolving exception. return nullptr; } object_array->SetWithoutChecks(array_idx++, reflect_field); } } for (ArtField& field : sfields) { if (IsDiscoverable(public_only, hiddenapi_context, &field)) { ObjPtr reflect_field = mirror::Field::CreateFromArtField(self, &field, force_resolve); if (reflect_field == nullptr) { if (kIsDebugBuild) { self->AssertPendingException(); } return nullptr; } object_array->SetWithoutChecks(array_idx++, reflect_field); } } DCHECK_EQ(array_idx, array_size); return object_array.Get(); } static jobjectArray Class_getDeclaredFieldsUnchecked(JNIEnv* env, jobject javaThis, jboolean publicOnly) { ScopedFastNativeObjectAccess soa(env); return soa.AddLocalReference( GetDeclaredFields(soa.Self(), DecodeClass(soa, javaThis), publicOnly != JNI_FALSE, false)); } static jobjectArray Class_getDeclaredFields(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); return soa.AddLocalReference( GetDeclaredFields(soa.Self(), DecodeClass(soa, javaThis), false, true)); } static jobjectArray Class_getPublicDeclaredFields(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); return soa.AddLocalReference( GetDeclaredFields(soa.Self(), DecodeClass(soa, javaThis), true, true)); } // Performs a binary search through an array of fields, TODO: Is this fast enough if we don't use // the dex cache for lookups? I think CompareModifiedUtf8ToUtf16AsCodePointValues should be fairly // fast. ALWAYS_INLINE static inline ArtField* FindFieldByName(ObjPtr name, LengthPrefixedArray* fields) REQUIRES_SHARED(Locks::mutator_lock_) { if (fields == nullptr) { return nullptr; } size_t low = 0; size_t high = fields->size(); const bool is_name_compressed = name->IsCompressed(); const uint16_t* const data = (is_name_compressed) ? nullptr : name->GetValue(); const uint8_t* const data_compressed = (is_name_compressed) ? name->GetValueCompressed() : nullptr; const size_t length = name->GetLength(); while (low < high) { auto mid = (low + high) / 2; ArtField& field = fields->At(mid); int result = 0; if (is_name_compressed) { size_t field_length = strlen(field.GetName()); size_t min_size = (length < field_length) ? length : field_length; result = memcmp(field.GetName(), data_compressed, min_size); if (result == 0) { result = field_length - length; } } else { result = CompareModifiedUtf8ToUtf16AsCodePointValues(field.GetName(), data, length); } // Alternate approach, only a few % faster at the cost of more allocations. // int result = field->GetStringName(self, true)->CompareTo(name); if (result < 0) { low = mid + 1; } else if (result > 0) { high = mid; } else { return &field; } } if (kIsDebugBuild) { for (ArtField& field : MakeIterationRangeFromLengthPrefixedArray(fields)) { CHECK_NE(field.GetName(), name->ToModifiedUtf8()); } } return nullptr; } ALWAYS_INLINE static inline ObjPtr GetDeclaredField(Thread* self, ObjPtr c, ObjPtr name) REQUIRES_SHARED(Locks::mutator_lock_) { if (UNLIKELY(c->IsObsoleteObject())) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } ArtField* art_field = FindFieldByName(name, c->GetIFieldsPtr()); if (art_field != nullptr) { return mirror::Field::CreateFromArtField(self, art_field, true); } art_field = FindFieldByName(name, c->GetSFieldsPtr()); if (art_field != nullptr) { return mirror::Field::CreateFromArtField(self, art_field, true); } return nullptr; } static ObjPtr GetPublicFieldRecursive( Thread* self, ObjPtr clazz, ObjPtr name) REQUIRES_SHARED(Locks::mutator_lock_) { DCHECK(clazz != nullptr); DCHECK(name != nullptr); DCHECK(self != nullptr); if (UNLIKELY(clazz->IsObsoleteObject())) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } StackHandleScope<2> hs(self); MutableHandle h_clazz(hs.NewHandle(clazz)); Handle h_name(hs.NewHandle(name)); // We search the current class, its direct interfaces then its superclass. while (h_clazz != nullptr) { ObjPtr result = GetDeclaredField(self, h_clazz.Get(), h_name.Get()); if ((result != nullptr) && (result->GetAccessFlags() & kAccPublic)) { return result; } else if (UNLIKELY(self->IsExceptionPending())) { // Something went wrong. Bail out. return nullptr; } uint32_t num_direct_interfaces = h_clazz->NumDirectInterfaces(); for (uint32_t i = 0; i < num_direct_interfaces; i++) { ObjPtr iface = mirror::Class::ResolveDirectInterface(self, h_clazz, i); if (UNLIKELY(iface == nullptr)) { self->AssertPendingException(); return nullptr; } result = GetPublicFieldRecursive(self, iface, h_name.Get()); if (result != nullptr) { DCHECK(result->GetAccessFlags() & kAccPublic); return result; } else if (UNLIKELY(self->IsExceptionPending())) { // Something went wrong. Bail out. return nullptr; } } // We don't try the superclass if we are an interface. if (h_clazz->IsInterface()) { break; } // Get the next class. h_clazz.Assign(h_clazz->GetSuperClass()); } return nullptr; } static jobject Class_getPublicFieldRecursive(JNIEnv* env, jobject javaThis, jstring name) { ScopedFastNativeObjectAccess soa(env); auto name_string = soa.Decode(name); if (UNLIKELY(name_string == nullptr)) { ThrowNullPointerException("name == null"); return nullptr; } StackHandleScope<1> hs(soa.Self()); Handle field = hs.NewHandle(GetPublicFieldRecursive( soa.Self(), DecodeClass(soa, javaThis), name_string)); if (field.Get() == nullptr || ShouldDenyAccessToMember(field->GetArtField(), soa.Self())) { return nullptr; } return soa.AddLocalReference(field.Get()); } static jobject Class_getDeclaredField(JNIEnv* env, jobject javaThis, jstring name) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<3> hs(soa.Self()); Handle h_string = hs.NewHandle(soa.Decode(name)); if (h_string == nullptr) { ThrowNullPointerException("name == null"); return nullptr; } Handle h_klass = hs.NewHandle(DecodeClass(soa, javaThis)); Handle result = hs.NewHandle(GetDeclaredField(soa.Self(), h_klass.Get(), h_string.Get())); if (result == nullptr || ShouldDenyAccessToMember(result->GetArtField(), soa.Self())) { std::string name_str = h_string->ToModifiedUtf8(); if (name_str == "value" && h_klass->IsStringClass()) { // We log the error for this specific case, as the user might just swallow the exception. // This helps diagnose crashes when applications rely on the String#value field being // there. // Also print on the error stream to test it through run-test. std::string message("The String#value field is not present on Android versions >= 6.0"); LOG(ERROR) << message; std::cerr << message << std::endl; } // We may have a pending exception if we failed to resolve. if (!soa.Self()->IsExceptionPending()) { ThrowNoSuchFieldException(h_klass.Get(), name_str.c_str()); } return nullptr; } return soa.AddLocalReference(result.Get()); } static jobject Class_getDeclaredConstructorInternal( JNIEnv* env, jobject javaThis, jobjectArray args) { ScopedFastNativeObjectAccess soa(env); DCHECK_EQ(Runtime::Current()->GetClassLinker()->GetImagePointerSize(), kRuntimePointerSize); DCHECK(!Runtime::Current()->IsActiveTransaction()); StackHandleScope<1> hs(soa.Self()); ObjPtr klass = DecodeClass(soa, javaThis); if (UNLIKELY(klass->IsObsoleteObject())) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } Handle result = hs.NewHandle( mirror::Class::GetDeclaredConstructorInternal( soa.Self(), klass, soa.Decode>(args))); if (result == nullptr || ShouldDenyAccessToMember(result->GetArtMethod(), soa.Self())) { return nullptr; } return soa.AddLocalReference(result.Get()); } static ALWAYS_INLINE inline bool MethodMatchesConstructor( ArtMethod* m, bool public_only, const hiddenapi::AccessContext& hiddenapi_context) REQUIRES_SHARED(Locks::mutator_lock_) { DCHECK(m != nullptr); return m->IsConstructor() && !m->IsStatic() && IsDiscoverable(public_only, hiddenapi_context, m); } static jobjectArray Class_getDeclaredConstructorsInternal( JNIEnv* env, jobject javaThis, jboolean publicOnly) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<2> hs(soa.Self()); bool public_only = (publicOnly != JNI_FALSE); hiddenapi::AccessContext hiddenapi_context = GetReflectionCaller(soa.Self()); Handle h_klass = hs.NewHandle(DecodeClass(soa, javaThis)); if (UNLIKELY(h_klass->IsObsoleteObject())) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } size_t constructor_count = 0; // Two pass approach for speed. for (auto& m : h_klass->GetDirectMethods(kRuntimePointerSize)) { constructor_count += MethodMatchesConstructor(&m, public_only, hiddenapi_context) ? 1u : 0u; } auto h_constructors = hs.NewHandle(mirror::ObjectArray::Alloc( soa.Self(), GetClassRoot>(), constructor_count)); if (UNLIKELY(h_constructors == nullptr)) { soa.Self()->AssertPendingException(); return nullptr; } constructor_count = 0; for (auto& m : h_klass->GetDirectMethods(kRuntimePointerSize)) { if (MethodMatchesConstructor(&m, public_only, hiddenapi_context)) { DCHECK_EQ(Runtime::Current()->GetClassLinker()->GetImagePointerSize(), kRuntimePointerSize); DCHECK(!Runtime::Current()->IsActiveTransaction()); ObjPtr constructor = mirror::Constructor::CreateFromArtMethod(soa.Self(), &m); if (UNLIKELY(constructor == nullptr)) { soa.Self()->AssertPendingOOMException(); return nullptr; } h_constructors->SetWithoutChecks(constructor_count++, constructor); } } return soa.AddLocalReference(h_constructors.Get()); } static jobject Class_getDeclaredMethodInternal(JNIEnv* env, jobject javaThis, jstring name, jobjectArray args) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); DCHECK_EQ(Runtime::Current()->GetClassLinker()->GetImagePointerSize(), kRuntimePointerSize); DCHECK(!Runtime::Current()->IsActiveTransaction()); ObjPtr klass = DecodeClass(soa, javaThis); if (UNLIKELY(klass->IsObsoleteObject())) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } Handle result = hs.NewHandle( mirror::Class::GetDeclaredMethodInternal( soa.Self(), klass, soa.Decode(name), soa.Decode>(args), GetHiddenapiAccessContextFunction(soa.Self()))); if (result == nullptr || ShouldDenyAccessToMember(result->GetArtMethod(), soa.Self())) { return nullptr; } return soa.AddLocalReference(result.Get()); } static jobjectArray Class_getDeclaredMethodsUnchecked(JNIEnv* env, jobject javaThis, jboolean publicOnly) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<2> hs(soa.Self()); hiddenapi::AccessContext hiddenapi_context = GetReflectionCaller(soa.Self()); bool public_only = (publicOnly != JNI_FALSE); Handle klass = hs.NewHandle(DecodeClass(soa, javaThis)); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } size_t num_methods = 0; for (ArtMethod& m : klass->GetDeclaredMethods(kRuntimePointerSize)) { uint32_t modifiers = m.GetAccessFlags(); // Add non-constructor declared methods. if ((modifiers & kAccConstructor) == 0 && IsDiscoverable(public_only, hiddenapi_context, &m)) { ++num_methods; } } auto ret = hs.NewHandle(mirror::ObjectArray::Alloc( soa.Self(), GetClassRoot>(), num_methods)); if (ret == nullptr) { soa.Self()->AssertPendingOOMException(); return nullptr; } num_methods = 0; for (ArtMethod& m : klass->GetDeclaredMethods(kRuntimePointerSize)) { uint32_t modifiers = m.GetAccessFlags(); if ((modifiers & kAccConstructor) == 0 && IsDiscoverable(public_only, hiddenapi_context, &m)) { DCHECK_EQ(Runtime::Current()->GetClassLinker()->GetImagePointerSize(), kRuntimePointerSize); DCHECK(!Runtime::Current()->IsActiveTransaction()); ObjPtr method = mirror::Method::CreateFromArtMethod(soa.Self(), &m); if (method == nullptr) { soa.Self()->AssertPendingException(); return nullptr; } ret->SetWithoutChecks(num_methods++, method); } } return soa.AddLocalReference(ret.Get()); } static jobject Class_getDeclaredAnnotation(JNIEnv* env, jobject javaThis, jclass annotationClass) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<2> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } // Handle public contract to throw NPE if the "annotationClass" argument was null. if (UNLIKELY(annotationClass == nullptr)) { ThrowNullPointerException("annotationClass"); return nullptr; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return nullptr; } Handle annotation_class(hs.NewHandle(soa.Decode(annotationClass))); return soa.AddLocalReference( annotations::GetAnnotationForClass(klass, annotation_class)); } static jobjectArray Class_getDeclaredAnnotations(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { // Return an empty array instead of a null pointer. ObjPtr annotation_array_class = soa.Decode(WellKnownClasses::java_lang_annotation_Annotation__array); ObjPtr> empty_array = mirror::ObjectArray::Alloc(soa.Self(), annotation_array_class, /* length= */ 0); return soa.AddLocalReference(empty_array); } return soa.AddLocalReference(annotations::GetAnnotationsForClass(klass)); } static jobjectArray Class_getDeclaredClasses(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } ObjPtr> classes = nullptr; if (!klass->IsProxyClass() && klass->GetDexCache() != nullptr) { classes = annotations::GetDeclaredClasses(klass); } if (classes == nullptr) { // Return an empty array instead of a null pointer. if (soa.Self()->IsExceptionPending()) { // Pending exception from GetDeclaredClasses. return nullptr; } ObjPtr class_array_class = GetClassRoot>(); DCHECK(class_array_class != nullptr); ObjPtr> empty_array = mirror::ObjectArray::Alloc(soa.Self(), class_array_class, 0); return soa.AddLocalReference(empty_array); } return soa.AddLocalReference(classes); } static jclass Class_getEnclosingClass(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return nullptr; } return soa.AddLocalReference(annotations::GetEnclosingClass(klass)); } static jobject Class_getEnclosingConstructorNative(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return nullptr; } ObjPtr method = annotations::GetEnclosingMethod(klass); if (method != nullptr) { if (GetClassRoot() == method->GetClass()) { return soa.AddLocalReference(method); } } return nullptr; } static jobject Class_getEnclosingMethodNative(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return nullptr; } ObjPtr method = annotations::GetEnclosingMethod(klass); if (method != nullptr) { if (GetClassRoot() == method->GetClass()) { return soa.AddLocalReference(method); } } return nullptr; } static jint Class_getInnerClassFlags(JNIEnv* env, jobject javaThis, jint defaultValue) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return 0; } return mirror::Class::GetInnerClassFlags(klass, defaultValue); } static jstring Class_getInnerClassName(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return nullptr; } ObjPtr class_name = nullptr; if (!annotations::GetInnerClass(klass, &class_name)) { return nullptr; } return soa.AddLocalReference(class_name); } static jobjectArray Class_getSignatureAnnotation(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return nullptr; } return soa.AddLocalReference( annotations::GetSignatureAnnotationForClass(klass)); } static jboolean Class_isAnonymousClass(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return 0; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return false; } ObjPtr class_name = nullptr; if (!annotations::GetInnerClass(klass, &class_name)) { return false; } return class_name == nullptr; } static jboolean Class_isDeclaredAnnotationPresent(JNIEnv* env, jobject javaThis, jclass annotationType) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<2> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return false; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return false; } Handle annotation_class(hs.NewHandle(soa.Decode(annotationType))); return annotations::IsClassAnnotationPresent(klass, annotation_class); } static jclass Class_getDeclaringClass(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<1> hs(soa.Self()); Handle klass(hs.NewHandle(DecodeClass(soa, javaThis))); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (klass->IsProxyClass() || klass->GetDexCache() == nullptr) { return nullptr; } // Return null for anonymous classes. if (Class_isAnonymousClass(env, javaThis)) { return nullptr; } return soa.AddLocalReference(annotations::GetDeclaringClass(klass)); } static jobject Class_newInstance(JNIEnv* env, jobject javaThis) { ScopedFastNativeObjectAccess soa(env); StackHandleScope<4> hs(soa.Self()); Handle klass = hs.NewHandle(DecodeClass(soa, javaThis)); if (klass->IsObsoleteObject()) { ThrowRuntimeException("Obsolete Object!"); return nullptr; } if (UNLIKELY(klass->GetPrimitiveType() != 0 || klass->IsInterface() || klass->IsArrayClass() || klass->IsAbstract())) { soa.Self()->ThrowNewExceptionF("Ljava/lang/InstantiationException;", "%s cannot be instantiated", klass->PrettyClass().c_str()); return nullptr; } auto caller = hs.NewHandle(nullptr); // Verify that we can access the class. if (!klass->IsPublic()) { caller.Assign(GetCallingClass(soa.Self(), 1)); if (caller != nullptr && !caller->CanAccess(klass.Get())) { soa.Self()->ThrowNewExceptionF( "Ljava/lang/IllegalAccessException;", "%s is not accessible from %s", klass->PrettyClass().c_str(), caller->PrettyClass().c_str()); return nullptr; } } StackArtMethodHandleScope<1> mhs(soa.Self()); ReflectiveHandle constructor(mhs.NewMethodHandle(klass->GetDeclaredConstructor( soa.Self(), ScopedNullHandle>(), kRuntimePointerSize))); if (UNLIKELY(constructor == nullptr) || ShouldDenyAccessToMember(constructor.Get(), soa.Self())) { soa.Self()->ThrowNewExceptionF("Ljava/lang/InstantiationException;", "%s has no zero argument constructor", klass->PrettyClass().c_str()); return nullptr; } // Invoke the string allocator to return an empty string for the string class. if (klass->IsStringClass()) { gc::AllocatorType allocator_type = Runtime::Current()->GetHeap()->GetCurrentAllocator(); ObjPtr obj = mirror::String::AllocEmptyString(soa.Self(), allocator_type); if (UNLIKELY(soa.Self()->IsExceptionPending())) { return nullptr; } else { return soa.AddLocalReference(obj); } } auto receiver = hs.NewHandle(klass->AllocObject(soa.Self())); if (UNLIKELY(receiver == nullptr)) { soa.Self()->AssertPendingOOMException(); return nullptr; } // Verify that we can access the constructor. ObjPtr declaring_class = constructor->GetDeclaringClass(); if (!constructor->IsPublic()) { if (caller == nullptr) { caller.Assign(GetCallingClass(soa.Self(), 1)); } if (UNLIKELY(caller != nullptr && !VerifyAccess(receiver.Get(), declaring_class, constructor->GetAccessFlags(), caller.Get()))) { soa.Self()->ThrowNewExceptionF( "Ljava/lang/IllegalAccessException;", "%s is not accessible from %s", constructor->PrettyMethod().c_str(), caller->PrettyClass().c_str()); return nullptr; } } // Ensure that we are initialized. if (UNLIKELY(!declaring_class->IsVisiblyInitialized())) { Thread* self = soa.Self(); Handle h_class = hs.NewHandle(declaring_class); if (UNLIKELY(!Runtime::Current()->GetClassLinker()->EnsureInitialized( self, h_class, /*can_init_fields=*/ true, /*can_init_parents=*/ true))) { DCHECK(self->IsExceptionPending()); return nullptr; } DCHECK(h_class->IsInitializing()); } // Invoke the constructor. JValue result; uint32_t args[1] = { static_cast(reinterpret_cast(receiver.Get())) }; constructor->Invoke(soa.Self(), args, sizeof(args), &result, "V"); if (UNLIKELY(soa.Self()->IsExceptionPending())) { return nullptr; } // Constructors are ()V methods, so we shouldn't touch the result of InvokeMethod. return soa.AddLocalReference(receiver.Get()); } static JNINativeMethod gMethods[] = { FAST_NATIVE_METHOD(Class, classForName, "(Ljava/lang/String;ZLjava/lang/ClassLoader;)Ljava/lang/Class;"), FAST_NATIVE_METHOD(Class, getDeclaredAnnotation, "(Ljava/lang/Class;)Ljava/lang/annotation/Annotation;"), FAST_NATIVE_METHOD(Class, getDeclaredAnnotations, "()[Ljava/lang/annotation/Annotation;"), FAST_NATIVE_METHOD(Class, getDeclaredClasses, "()[Ljava/lang/Class;"), FAST_NATIVE_METHOD(Class, getDeclaredConstructorInternal, "([Ljava/lang/Class;)Ljava/lang/reflect/Constructor;"), FAST_NATIVE_METHOD(Class, getDeclaredConstructorsInternal, "(Z)[Ljava/lang/reflect/Constructor;"), FAST_NATIVE_METHOD(Class, getDeclaredField, "(Ljava/lang/String;)Ljava/lang/reflect/Field;"), FAST_NATIVE_METHOD(Class, getPublicFieldRecursive, "(Ljava/lang/String;)Ljava/lang/reflect/Field;"), FAST_NATIVE_METHOD(Class, getDeclaredFields, "()[Ljava/lang/reflect/Field;"), FAST_NATIVE_METHOD(Class, getDeclaredFieldsUnchecked, "(Z)[Ljava/lang/reflect/Field;"), FAST_NATIVE_METHOD(Class, getDeclaredMethodInternal, "(Ljava/lang/String;[Ljava/lang/Class;)Ljava/lang/reflect/Method;"), FAST_NATIVE_METHOD(Class, getDeclaredMethodsUnchecked, "(Z)[Ljava/lang/reflect/Method;"), FAST_NATIVE_METHOD(Class, getDeclaringClass, "()Ljava/lang/Class;"), FAST_NATIVE_METHOD(Class, getEnclosingClass, "()Ljava/lang/Class;"), FAST_NATIVE_METHOD(Class, getEnclosingConstructorNative, "()Ljava/lang/reflect/Constructor;"), FAST_NATIVE_METHOD(Class, getEnclosingMethodNative, "()Ljava/lang/reflect/Method;"), FAST_NATIVE_METHOD(Class, getInnerClassFlags, "(I)I"), FAST_NATIVE_METHOD(Class, getInnerClassName, "()Ljava/lang/String;"), FAST_NATIVE_METHOD(Class, getInterfacesInternal, "()[Ljava/lang/Class;"), FAST_NATIVE_METHOD(Class, getPrimitiveClass, "(Ljava/lang/String;)Ljava/lang/Class;"), FAST_NATIVE_METHOD(Class, getNameNative, "()Ljava/lang/String;"), FAST_NATIVE_METHOD(Class, getPublicDeclaredFields, "()[Ljava/lang/reflect/Field;"), FAST_NATIVE_METHOD(Class, getSignatureAnnotation, "()[Ljava/lang/String;"), FAST_NATIVE_METHOD(Class, isAnonymousClass, "()Z"), FAST_NATIVE_METHOD(Class, isDeclaredAnnotationPresent, "(Ljava/lang/Class;)Z"), FAST_NATIVE_METHOD(Class, newInstance, "()Ljava/lang/Object;"), }; void register_java_lang_Class(JNIEnv* env) { REGISTER_NATIVE_METHODS("java/lang/Class"); } } // namespace art