/* * Copyright (C) 2013 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 #include #include #include #include #include "art_method-inl.h" #include "base/runtime_debug.h" #include "jni.h" namespace art { static JavaVM* jvm = nullptr; static jint Java_Main_intFastNativeMethod(JNIEnv*, jclass, jint a, jint b, jint c); static jint Java_Main_intCriticalNativeMethod(jint a, jint b, jint c); static JNINativeMethod sMainMethods[] = { {"intFastNativeMethod", "(III)I", reinterpret_cast(Java_Main_intFastNativeMethod) }, {"intCriticalNativeMethod", "(III)I", reinterpret_cast(Java_Main_intCriticalNativeMethod) }, }; extern "C" JNIEXPORT jint JNI_OnLoad(JavaVM *vm, void*) { CHECK(vm != nullptr); CHECK(jvm == nullptr); jvm = vm; std::cout << "JNI_OnLoad called" << std::endl; return JNI_VERSION_1_6; } extern "C" JNIEXPORT void JNI_OnUnload(JavaVM*, void*) { // std::cout since LOG(INFO) adds extra stuff like pid. std::cout << "JNI_OnUnload called" << std::endl; // Clear jvm for CHECK in test 004-JniTest. jvm = nullptr; } static void* AttachHelper(void* arg) { CHECK(jvm != nullptr); JNIEnv* env = nullptr; JavaVMAttachArgs args = { JNI_VERSION_1_6, __FUNCTION__, nullptr }; int attach_result = jvm->AttachCurrentThread(&env, &args); CHECK_EQ(attach_result, 0); using Fn = void(*)(JNIEnv*); Fn fn = reinterpret_cast(arg); fn(env); int detach_result = jvm->DetachCurrentThread(); CHECK_EQ(detach_result, 0); return nullptr; } static void PthreadHelper(void (*fn)(JNIEnv*)) { pthread_t pthread; int pthread_create_result = pthread_create(&pthread, nullptr, AttachHelper, reinterpret_cast(fn)); CHECK_EQ(pthread_create_result, 0); int pthread_join_result = pthread_join(pthread, nullptr); CHECK_EQ(pthread_join_result, 0); } static void testFindClassOnAttachedNativeThread(JNIEnv* env) { jclass clazz = env->FindClass("Main"); CHECK(clazz != nullptr); CHECK(!env->ExceptionCheck()); jobjectArray array = env->NewObjectArray(0, clazz, nullptr); CHECK(array != nullptr); CHECK(!env->ExceptionCheck()); } extern "C" JNIEXPORT jint JNICALL Java_Main_getFieldSubclass(JNIEnv* env, jclass, jobject f_obj, jclass sub) { jfieldID f = env->FromReflectedField(f_obj); return env->GetStaticIntField(sub, f); } // http://b/10994325 extern "C" JNIEXPORT void JNICALL Java_Main_testFindClassOnAttachedNativeThread(JNIEnv*, jclass) { PthreadHelper(&testFindClassOnAttachedNativeThread); } static void testFindFieldOnAttachedNativeThread(JNIEnv* env) { jclass clazz = env->FindClass("Main"); CHECK(clazz != nullptr); CHECK(!env->ExceptionCheck()); jfieldID field = env->GetStaticFieldID(clazz, "testFindFieldOnAttachedNativeThreadField", "Z"); CHECK(field != nullptr); CHECK(!env->ExceptionCheck()); env->SetStaticBooleanField(clazz, field, JNI_TRUE); } extern "C" JNIEXPORT void JNICALL Java_Main_testFindFieldOnAttachedNativeThreadNative(JNIEnv*, jclass) { PthreadHelper(&testFindFieldOnAttachedNativeThread); } static void testReflectFieldGetFromAttachedNativeThread(JNIEnv* env) { jclass clazz = env->FindClass("Main"); CHECK(clazz != nullptr); CHECK(!env->ExceptionCheck()); jclass class_clazz = env->FindClass("java/lang/Class"); CHECK(class_clazz != nullptr); CHECK(!env->ExceptionCheck()); jmethodID getFieldMetodId = env->GetMethodID(class_clazz, "getField", "(Ljava/lang/String;)Ljava/lang/reflect/Field;"); CHECK(getFieldMetodId != nullptr); CHECK(!env->ExceptionCheck()); jstring field_name = env->NewStringUTF("testReflectFieldGetFromAttachedNativeThreadField"); CHECK(field_name != nullptr); CHECK(!env->ExceptionCheck()); jobject field = env->CallObjectMethod(clazz, getFieldMetodId, field_name); CHECK(field != nullptr); CHECK(!env->ExceptionCheck()); jclass field_clazz = env->FindClass("java/lang/reflect/Field"); CHECK(field_clazz != nullptr); CHECK(!env->ExceptionCheck()); jmethodID getBooleanMetodId = env->GetMethodID(field_clazz, "getBoolean", "(Ljava/lang/Object;)Z"); CHECK(getBooleanMetodId != nullptr); CHECK(!env->ExceptionCheck()); jboolean value = env->CallBooleanMethod(field, getBooleanMetodId, /* ignored */ clazz); CHECK(value == false); CHECK(!env->ExceptionCheck()); } // http://b/15539150 extern "C" JNIEXPORT void JNICALL Java_Main_testReflectFieldGetFromAttachedNativeThreadNative( JNIEnv*, jclass) { PthreadHelper(&testReflectFieldGetFromAttachedNativeThread); } // http://b/11243757 extern "C" JNIEXPORT void JNICALL Java_Main_testCallStaticVoidMethodOnSubClassNative(JNIEnv* env, jclass) { jclass super_class = env->FindClass("Main$testCallStaticVoidMethodOnSubClass_SuperClass"); CHECK(super_class != nullptr); jmethodID execute = env->GetStaticMethodID(super_class, "execute", "()V"); CHECK(execute != nullptr); jclass sub_class = env->FindClass("Main$testCallStaticVoidMethodOnSubClass_SubClass"); CHECK(sub_class != nullptr); env->CallStaticVoidMethod(sub_class, execute); } extern "C" JNIEXPORT jobject JNICALL Java_Main_testGetMirandaMethodNative(JNIEnv* env, jclass) { jclass abstract_class = env->FindClass("Main$testGetMirandaMethod_MirandaAbstract"); CHECK(abstract_class != nullptr); jmethodID miranda_method = env->GetMethodID(abstract_class, "inInterface", "()Z"); CHECK(miranda_method != nullptr); return env->ToReflectedMethod(abstract_class, miranda_method, JNI_FALSE); } // https://code.google.com/p/android/issues/detail?id=63055 extern "C" void JNICALL Java_Main_testZeroLengthByteBuffers(JNIEnv* env, jclass) { std::vector buffer(1); jobject byte_buffer = env->NewDirectByteBuffer(&buffer[0], 0); CHECK(byte_buffer != nullptr); CHECK(!env->ExceptionCheck()); CHECK_EQ(env->GetDirectBufferAddress(byte_buffer), &buffer[0]); CHECK_EQ(env->GetDirectBufferCapacity(byte_buffer), 0); } constexpr size_t kByteReturnSize = 7; jbyte byte_returns[kByteReturnSize] = { 0, 1, 2, 127, -1, -2, -128 }; extern "C" jbyte JNICALL Java_Main_byteMethod(JNIEnv*, jclass, jbyte b1, jbyte b2, jbyte b3, jbyte b4, jbyte b5, jbyte b6, jbyte b7, jbyte b8, jbyte b9, jbyte b10) { // We use b1 to drive the output. CHECK_EQ(b2, 2); CHECK_EQ(b3, -3); CHECK_EQ(b4, 4); CHECK_EQ(b5, -5); CHECK_EQ(b6, 6); CHECK_EQ(b7, -7); CHECK_EQ(b8, 8); CHECK_EQ(b9, -9); CHECK_EQ(b10, 10); CHECK_LE(0, b1); CHECK_LT(b1, static_cast(kByteReturnSize)); return byte_returns[b1]; } constexpr size_t kShortReturnSize = 9; jshort short_returns[kShortReturnSize] = { 0, 1, 2, 127, 32767, -1, -2, -128, static_cast(0x8000) }; // The weird static_cast is because short int is only guaranteed down to -32767, not Java's -32768. extern "C" jshort JNICALL Java_Main_shortMethod(JNIEnv*, jclass, jshort s1, jshort s2, jshort s3, jshort s4, jshort s5, jshort s6, jshort s7, jshort s8, jshort s9, jshort s10) { // We use s1 to drive the output. CHECK_EQ(s2, 2); CHECK_EQ(s3, -3); CHECK_EQ(s4, 4); CHECK_EQ(s5, -5); CHECK_EQ(s6, 6); CHECK_EQ(s7, -7); CHECK_EQ(s8, 8); CHECK_EQ(s9, -9); CHECK_EQ(s10, 10); CHECK_LE(0, s1); CHECK_LT(s1, static_cast(kShortReturnSize)); return short_returns[s1]; } extern "C" jboolean JNICALL Java_Main_booleanMethod(JNIEnv*, jclass, jboolean b1, jboolean b2, jboolean b3, jboolean b4, jboolean b5, jboolean b6, jboolean b7, jboolean b8, jboolean b9, jboolean b10) { // We use b1 to drive the output. CHECK_EQ(b2, JNI_TRUE); CHECK_EQ(b3, JNI_FALSE); CHECK_EQ(b4, JNI_TRUE); CHECK_EQ(b5, JNI_FALSE); CHECK_EQ(b6, JNI_TRUE); CHECK_EQ(b7, JNI_FALSE); CHECK_EQ(b8, JNI_TRUE); CHECK_EQ(b9, JNI_FALSE); CHECK_EQ(b10, JNI_TRUE); CHECK(b1 == JNI_TRUE || b1 == JNI_FALSE); return b1; } constexpr size_t kCharReturnSize = 8; jchar char_returns[kCharReturnSize] = { 0, 1, 2, 127, 255, 256, 15000, 34000 }; extern "C" jchar JNICALL Java_Main_charMethod(JNIEnv*, jclass, jchar c1, jchar c2, jchar c3, jchar c4, jchar c5, jchar c6, jchar c7, jchar c8, jchar c9, jchar c10) { // We use c1 to drive the output. CHECK_EQ(c2, 'a'); CHECK_EQ(c3, 'b'); CHECK_EQ(c4, 'c'); CHECK_EQ(c5, '0'); CHECK_EQ(c6, '1'); CHECK_EQ(c7, '2'); CHECK_EQ(c8, 1234); CHECK_EQ(c9, 2345); CHECK_EQ(c10, 3456); CHECK_LT(c1, static_cast(kCharReturnSize)); return char_returns[c1]; } extern "C" JNIEXPORT void JNICALL Java_Main_removeLocalObject(JNIEnv* env, jclass, jclass o) { // Delete the arg to see if it crashes. env->DeleteLocalRef(o); } extern "C" JNIEXPORT jboolean JNICALL Java_Main_nativeIsAssignableFrom(JNIEnv* env, jclass, jclass from, jclass to) { return env->IsAssignableFrom(from, to); } static void testShallowGetCallingClassLoader(JNIEnv* env) { // Test direct call. { jclass vmstack_clazz = env->FindClass("dalvik/system/VMStack"); CHECK(vmstack_clazz != nullptr); CHECK(!env->ExceptionCheck()); jmethodID getCallingClassLoaderMethodId = env->GetStaticMethodID(vmstack_clazz, "getCallingClassLoader", "()Ljava/lang/ClassLoader;"); CHECK(getCallingClassLoaderMethodId != nullptr); CHECK(!env->ExceptionCheck()); jobject class_loader = env->CallStaticObjectMethod(vmstack_clazz, getCallingClassLoaderMethodId); CHECK(class_loader == nullptr); CHECK(!env->ExceptionCheck()); } // Test one-level call. Use System.loadLibrary(). { jclass system_clazz = env->FindClass("java/lang/System"); CHECK(system_clazz != nullptr); CHECK(!env->ExceptionCheck()); jmethodID loadLibraryMethodId = env->GetStaticMethodID(system_clazz, "loadLibrary", "(Ljava/lang/String;)V"); CHECK(loadLibraryMethodId != nullptr); CHECK(!env->ExceptionCheck()); // Create a string object. jobject library_string = env->NewStringUTF("non_existing_library"); CHECK(library_string != nullptr); CHECK(!env->ExceptionCheck()); env->CallStaticVoidMethod(system_clazz, loadLibraryMethodId, library_string); CHECK(env->ExceptionCheck()); // We expect UnsatisfiedLinkError. jthrowable thrown = env->ExceptionOccurred(); env->ExceptionClear(); jclass unsatisfied_link_error_clazz = env->FindClass("java/lang/UnsatisfiedLinkError"); jclass thrown_class = env->GetObjectClass(thrown); CHECK(env->IsSameObject(unsatisfied_link_error_clazz, thrown_class)); } } // http://b/16867274 extern "C" JNIEXPORT void JNICALL Java_Main_nativeTestShallowGetCallingClassLoader(JNIEnv*, jclass) { PthreadHelper(&testShallowGetCallingClassLoader); } static void testShallowGetStackClass2(JNIEnv* env) { jclass vmstack_clazz = env->FindClass("dalvik/system/VMStack"); CHECK(vmstack_clazz != nullptr); CHECK(!env->ExceptionCheck()); // Test direct call. { jmethodID getStackClass2MethodId = env->GetStaticMethodID(vmstack_clazz, "getStackClass2", "()Ljava/lang/Class;"); CHECK(getStackClass2MethodId != nullptr); CHECK(!env->ExceptionCheck()); jobject caller_class = env->CallStaticObjectMethod(vmstack_clazz, getStackClass2MethodId); CHECK(caller_class == nullptr); CHECK(!env->ExceptionCheck()); } // Test one-level call. Use VMStack.getStackClass1(). { jmethodID getStackClass1MethodId = env->GetStaticMethodID(vmstack_clazz, "getStackClass1", "()Ljava/lang/Class;"); CHECK(getStackClass1MethodId != nullptr); CHECK(!env->ExceptionCheck()); jobject caller_class = env->CallStaticObjectMethod(vmstack_clazz, getStackClass1MethodId); CHECK(caller_class == nullptr); CHECK(!env->ExceptionCheck()); } // For better testing we would need to compile against libcore and have a two-deep stack // ourselves. } extern "C" JNIEXPORT void JNICALL Java_Main_nativeTestShallowGetStackClass2(JNIEnv*, jclass) { PthreadHelper(&testShallowGetStackClass2); } class JniCallNonvirtualVoidMethodTest { public: explicit JniCallNonvirtualVoidMethodTest(JNIEnv* env) : env_(env), check_jni_ri_(true), check_jni_android_(true), super_(GetClass("JniCallNonvirtualTest")), sub_(GetClass("JniCallNonvirtualTestSubclass")), super_constructor_(GetMethodID(super_, true, "")), super_static_(GetMethodID(super_, false, "staticMethod")), super_nonstatic_(GetMethodID(super_, true, "nonstaticMethod")), sub_constructor_(GetMethodID(sub_, true, "")), sub_static_(GetMethodID(sub_, false, "staticMethod")), sub_nonstatic_(GetMethodID(sub_, true, "nonstaticMethod")), super_field_(GetFieldID(super_, "nonstaticMethodSuperCalled")), sub_field_(GetFieldID(super_, "nonstaticMethodSubCalled")) {} void Test() { TestStaticCallNonvirtualMethod(); TestNewObject(); TestnonstaticCallNonvirtualMethod(); } JNIEnv* const env_; bool const check_jni_ri_; bool const check_jni_android_; jclass const super_; jclass const sub_; jmethodID const super_constructor_; jmethodID const super_static_; jmethodID const super_nonstatic_; jmethodID const sub_constructor_; jmethodID const sub_static_; jmethodID const sub_nonstatic_; jfieldID const super_field_; jfieldID const sub_field_; private: jclass GetClass(const char* class_name) { jclass c = env_->FindClass(class_name); if (env_->ExceptionCheck()) { env_->ExceptionDescribe(); env_->FatalError(__FUNCTION__); } CHECK(!env_->ExceptionCheck()); CHECK(c != nullptr); return c; } jmethodID GetMethodID(jclass c, bool nonstatic, const char* method_name) { jmethodID m = ((nonstatic) ? env_->GetMethodID(c, method_name, "()V") : env_->GetStaticMethodID(c, method_name, "()V")); if (env_->ExceptionCheck()) { env_->ExceptionDescribe(); env_->FatalError(__FUNCTION__); } CHECK(m != nullptr); return m; } jobject CallConstructor(jclass c, jmethodID m) { jobject o = env_->NewObject(c, m); if (env_->ExceptionCheck()) { env_->ExceptionDescribe(); env_->FatalError(__FUNCTION__); } CHECK(o != nullptr); return o; } void CallMethod(jobject o, jclass c, jmethodID m, bool nonstatic, const char* test_case) { printf("RUNNING %s\n", test_case); env_->CallNonvirtualVoidMethod(o, c, m); bool exception_check = env_->ExceptionCheck(); if (c == nullptr || !nonstatic) { if (!exception_check) { printf("FAILED %s due to missing exception\n", test_case); env_->FatalError("Expected NullPointerException with null jclass"); } env_->ExceptionClear(); } else if (exception_check) { printf("FAILED %s due to pending exception\n", test_case); env_->ExceptionDescribe(); env_->FatalError(test_case); } printf("PASSED %s\n", test_case); } jfieldID GetFieldID(jclass c, const char* field_name) { jfieldID m = env_->GetFieldID(c, field_name, "Z"); if (env_->ExceptionCheck()) { env_->ExceptionDescribe(); env_->FatalError(__FUNCTION__); } CHECK(m != nullptr); return m; } jboolean GetBooleanField(jobject o, jfieldID f) { jboolean b = env_->GetBooleanField(o, f); if (env_->ExceptionCheck()) { env_->ExceptionDescribe(); env_->FatalError(__FUNCTION__); } return b; } void TestStaticCallNonvirtualMethod() { if (!check_jni_ri_&& !check_jni_android_) { CallMethod(nullptr, nullptr, super_static_, false, "null object, null class, super static"); } if (!check_jni_android_) { CallMethod(nullptr, super_, super_static_, false, "null object, super class, super static"); } if (!check_jni_android_) { CallMethod(nullptr, sub_, super_static_, false, "null object, sub class, super static"); } if (!check_jni_ri_ && !check_jni_android_) { CallMethod(nullptr, nullptr, sub_static_, false, "null object, null class, sub static"); } if (!check_jni_android_) { CallMethod(nullptr, sub_, sub_static_, false, "null object, super class, sub static"); } if (!check_jni_android_) { CallMethod(nullptr, super_, sub_static_, false, "null object, super class, sub static"); } } void TestNewObject() { jobject super_super = CallConstructor(super_, super_constructor_); jobject super_sub = CallConstructor(super_, sub_constructor_); jobject sub_super = CallConstructor(sub_, super_constructor_); jobject sub_sub = CallConstructor(sub_, sub_constructor_); CHECK(env_->IsInstanceOf(super_super, super_)); CHECK(!env_->IsInstanceOf(super_super, sub_)); // Note that even though we called (and ran) the subclass // constructor, we are not the subclass. CHECK(env_->IsInstanceOf(super_sub, super_)); CHECK(!env_->IsInstanceOf(super_sub, sub_)); // Note that even though we called the superclass constructor, we // are still the subclass. CHECK(env_->IsInstanceOf(sub_super, super_)); CHECK(env_->IsInstanceOf(sub_super, sub_)); CHECK(env_->IsInstanceOf(sub_sub, super_)); CHECK(env_->IsInstanceOf(sub_sub, sub_)); } void TestnonstaticCallNonvirtualMethod(bool super_object, bool super_class, bool super_method, const char* test_case) { if (check_jni_android_) { if (super_object && !super_method) { return; // We don't allow a call with sub class method on the super class instance. } if (super_class && !super_method) { return; // We don't allow a call with the sub class method with the super class argument. } } jobject o = ((super_object) ? CallConstructor(super_, super_constructor_) : CallConstructor(sub_, sub_constructor_)); jclass c = (super_class) ? super_ : sub_; jmethodID m = (super_method) ? super_nonstatic_ : sub_nonstatic_; CallMethod(o, c, m, true, test_case); jboolean super_field = GetBooleanField(o, super_field_); jboolean sub_field = GetBooleanField(o, sub_field_); CHECK_EQ(super_field, super_method); CHECK_NE(sub_field, super_method); } void TestnonstaticCallNonvirtualMethod() { TestnonstaticCallNonvirtualMethod(true, true, true, "super object, super class, super nonstatic"); TestnonstaticCallNonvirtualMethod(true, false, true, "super object, sub class, super nonstatic"); TestnonstaticCallNonvirtualMethod(true, false, false, "super object, sub class, sub nonstatic"); TestnonstaticCallNonvirtualMethod(true, true, false, "super object, super class, sub nonstatic"); TestnonstaticCallNonvirtualMethod(false, true, true, "sub object, super class, super nonstatic"); TestnonstaticCallNonvirtualMethod(false, false, true, "sub object, sub class, super nonstatic"); TestnonstaticCallNonvirtualMethod(false, false, false, "sub object, sub class, sub nonstatic"); TestnonstaticCallNonvirtualMethod(false, true, false, "sub object, super class, sub nonstatic"); } }; extern "C" void JNICALL Java_Main_testCallNonvirtual(JNIEnv* env, jclass) { JniCallNonvirtualVoidMethodTest(env).Test(); } extern "C" JNIEXPORT void JNICALL Java_Main_testNewStringObject(JNIEnv* env, jclass) { jclass c = env->FindClass("java/lang/String"); CHECK(c != nullptr); jmethodID mid1 = env->GetMethodID(c, "", "()V"); CHECK(mid1 != nullptr); CHECK(!env->ExceptionCheck()); jmethodID mid2 = env->GetMethodID(c, "", "([B)V"); CHECK(mid2 != nullptr); CHECK(!env->ExceptionCheck()); jmethodID mid3 = env->GetMethodID(c, "", "([C)V"); CHECK(mid3 != nullptr); CHECK(!env->ExceptionCheck()); jmethodID mid4 = env->GetMethodID(c, "", "(Ljava/lang/String;)V"); CHECK(mid4 != nullptr); CHECK(!env->ExceptionCheck()); const char* test_array = "Test"; int byte_array_length = strlen(test_array); jbyteArray byte_array = env->NewByteArray(byte_array_length); env->SetByteArrayRegion(byte_array, 0, byte_array_length, reinterpret_cast(test_array)); // Test NewObject jstring s = reinterpret_cast(env->NewObject(c, mid2, byte_array)); CHECK(s != nullptr); CHECK_EQ(env->GetStringLength(s), byte_array_length); CHECK_EQ(env->GetStringUTFLength(s), byte_array_length); const char* chars = env->GetStringUTFChars(s, nullptr); CHECK_EQ(strcmp(test_array, chars), 0); env->ReleaseStringUTFChars(s, chars); // Test AllocObject and Call(Nonvirtual)VoidMethod jstring s1 = reinterpret_cast(env->AllocObject(c)); CHECK(s1 != nullptr); jstring s2 = reinterpret_cast(env->AllocObject(c)); CHECK(s2 != nullptr); jstring s3 = reinterpret_cast(env->AllocObject(c)); CHECK(s3 != nullptr); jstring s4 = reinterpret_cast(env->AllocObject(c)); CHECK(s4 != nullptr); jcharArray char_array = env->NewCharArray(5); jstring string_arg = env->NewStringUTF("helloworld"); // With Var Args env->CallVoidMethod(s1, mid1); env->CallNonvirtualVoidMethod(s2, c, mid2, byte_array); // With JValues jvalue args3[1]; args3[0].l = char_array; jvalue args4[1]; args4[0].l = string_arg; env->CallVoidMethodA(s3, mid3, args3); env->CallNonvirtualVoidMethodA(s4, c, mid4, args4); // Test with global and weak global references jstring s5 = reinterpret_cast(env->AllocObject(c)); CHECK(s5 != nullptr); s5 = reinterpret_cast(env->NewGlobalRef(s5)); jstring s6 = reinterpret_cast(env->AllocObject(c)); CHECK(s6 != nullptr); s6 = reinterpret_cast(env->NewWeakGlobalRef(s6)); env->CallVoidMethod(s5, mid1); env->CallNonvirtualVoidMethod(s6, c, mid2, byte_array); CHECK_EQ(env->GetStringLength(s5), 0); CHECK_EQ(env->GetStringLength(s6), byte_array_length); const char* chars6 = env->GetStringUTFChars(s6, nullptr); CHECK_EQ(strcmp(test_array, chars6), 0); env->ReleaseStringUTFChars(s6, chars6); } extern "C" JNIEXPORT jlong JNICALL Java_Main_testGetMethodID(JNIEnv* env, jclass, jclass c) { return reinterpret_cast(env->GetMethodID(c, "a", "()V")); } extern "C" JNIEXPORT void JNICALL Java_Main_enterJniCriticalSection(JNIEnv* env, jclass, jint arraySize, jbyteArray array0, jbyteArray array1) { for (int i = 0; i < 50000; ++i) { char* data0 = reinterpret_cast(env->GetPrimitiveArrayCritical(array0, nullptr)); char* data1 = reinterpret_cast(env->GetPrimitiveArrayCritical(array1, nullptr)); bool up = i % 2 == 0; for (int j = 0; j < arraySize; ++j) { if (up) { data1[j] = data0[j] + 1; } else { data0[j] = data1[j] + 1; } } env->ReleasePrimitiveArrayCritical(array1, data1, 0); env->ReleasePrimitiveArrayCritical(array0, data0, 0); } } class JniCallDefaultMethodsTest { public: explicit JniCallDefaultMethodsTest(JNIEnv* env) : env_(env), concrete_class_(env_->FindClass("ConcreteClass")) { CHECK(!env_->ExceptionCheck()); CHECK(concrete_class_ != nullptr); } void Test() { TestCalls("ConcreteClass", { "JniCallNonOverridenDefaultMethod", "JniCallOverridenDefaultMethod", "JniCallOverridenDefaultMethodWithSuper", "JniCallOverridenAbstractMethod", "JniCallConflictDefaultMethod", "JniCallSoftConflictMethod" }); TestCalls("DefaultInterface", { "JniCallNonOverridenDefaultMethod", "JniCallOverridenDefaultMethod", "JniCallOverridenAbstractMethod", "JniCallConflictDefaultMethod", "JniCallSoftConflictMethod" }); TestCalls("AbstractInterface", { "JniCallSoftConflictMethod" }); TestCalls("ConflictInterface", { "JniCallConflictDefaultMethod" }); } private: void TestCalls(const char* declaring_class, const std::vector& methods) { jmethodID new_method = env_->GetMethodID(concrete_class_, "", "()V"); jobject obj = env_->NewObject(concrete_class_, new_method); CHECK(!env_->ExceptionCheck()); CHECK(obj != nullptr); jclass decl_class = env_->FindClass(declaring_class); CHECK(!env_->ExceptionCheck()); CHECK(decl_class != nullptr); for (const char* method : methods) { jmethodID method_id = env_->GetMethodID(decl_class, method, "()V"); CHECK(!env_->ExceptionCheck()); printf("Calling method %s->%s on object of type ConcreteClass\n", declaring_class, method); env_->CallVoidMethod(obj, method_id); if (env_->ExceptionCheck()) { jthrowable thrown = env_->ExceptionOccurred(); env_->ExceptionClear(); jmethodID to_string = env_->GetMethodID( env_->FindClass("java/lang/Object"), "toString", "()Ljava/lang/String;"); jstring exception_string = (jstring) env_->CallObjectMethod(thrown, to_string); CHECK(!env_->ExceptionCheck()); const char* exception_string_utf8 = env_->GetStringUTFChars(exception_string, nullptr); CHECK(!env_->ExceptionCheck()); CHECK(exception_string_utf8 != nullptr); printf("EXCEPTION OCCURED: %s\n", exception_string_utf8); env_->ReleaseStringUTFChars(exception_string, exception_string_utf8); } } } JNIEnv* env_; jclass concrete_class_; }; extern "C" JNIEXPORT void JNICALL Java_Main_testCallDefaultMethods(JNIEnv* env) { JniCallDefaultMethodsTest(env).Test(); } static void InvokeSpecificMethod(JNIEnv* env, jobject obj, const char* method) { jclass lambda_class = env->FindClass("LambdaInterface"); CHECK(!env->ExceptionCheck()); CHECK(lambda_class != nullptr); jmethodID method_id = env->GetMethodID(lambda_class, method, "()V"); CHECK(!env->ExceptionCheck()); env->CallVoidMethod(obj, method_id); CHECK(!env->ExceptionCheck()); } extern "C" JNIEXPORT void JNICALL Java_Main_testInvokeLambdaDefaultMethod( JNIEnv* e, jclass, jobject l) { InvokeSpecificMethod(e, l, "sayHiTwice"); } extern "C" JNIEXPORT void JNICALL Java_Main_testInvokeLambdaMethod(JNIEnv* e, jclass, jobject l) { InvokeSpecificMethod(e, l, "sayHi"); } // Register on-demand because many tests share this JNI library and // we can't unconditionally register them. extern "C" JNIEXPORT jboolean JNICALL Java_Main_registerNativesJniTest(JNIEnv* e, jclass kls) { const size_t numMethods = sizeof(sMainMethods)/sizeof(JNINativeMethod); if (e->RegisterNatives(kls, sMainMethods, numMethods) < 0) { std::cerr << "RegisterNatives failed for 'Main'" << std::endl; return JNI_FALSE; } return JNI_TRUE; } // Annotated with @FastNative in Java code. Doesn't need to be explicitly registered with "!". // NOTE: Has to be registered explicitly to avoid mutator lock check failures. static jint Java_Main_intFastNativeMethod(JNIEnv*, jclass, jint a, jint b, jint c) { return a + b + c; } // Annotated with @CriticalNative in Java code. Doesn't need to be explicitly registered with "!". // NOTE: Has to be registered explicitly to avoid mutator lock check failures. static jint Java_Main_intCriticalNativeMethod(jint a, jint b, jint c) { // Note that unlike a "Fast Native" method this excludes JNIEnv and the jclass parameters. return a + b + c; } extern "C" JNIEXPORT jobject JNICALL Java_Main_lookupClinit(JNIEnv* env, jclass, jclass kls) { jmethodID clinit_id = env->GetStaticMethodID(kls, "", "()V"); if (clinit_id != nullptr) { jobject obj = env->ToReflectedMethod(kls, clinit_id, /*isStatic*/ true); CHECK(obj != nullptr); return obj; } else { return nullptr; } } extern "C" JNIEXPORT jboolean JNICALL Java_Main_isSlowDebug(JNIEnv*, jclass) { // Return whether slow-debug is on. Only relevant for debug builds. if (kIsDebugBuild) { // Register a dummy flag and get the default value it should be initialized with. static bool dummy_flag = false; dummy_flag = RegisterRuntimeDebugFlag(&dummy_flag); return dummy_flag ? JNI_TRUE : JNI_FALSE; } // To pass the Java-side test, just so "on" for release builds. return JNI_TRUE; } } // namespace art