/* * Copyright (c) 2011, 2020, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ #include "precompiled.hpp" #include "classfile/symbolTable.hpp" #include "interpreter/linkResolver.hpp" #include "jvmci/jniAccessMark.inline.hpp" #include "jvmci/jvmciJavaClasses.hpp" #include "jvmci/jvmciRuntime.hpp" #include "memory/resourceArea.hpp" #include "runtime/jniHandles.inline.hpp" #include "runtime/fieldDescriptor.inline.hpp" // ------------------------------------------------------------------ oop HotSpotJVMCI::resolve(JVMCIObject obj) { return JNIHandles::resolve(obj.as_jobject()); } arrayOop HotSpotJVMCI::resolve(JVMCIArray obj) { return (arrayOop) JNIHandles::resolve(obj.as_jobject()); } objArrayOop HotSpotJVMCI::resolve(JVMCIObjectArray obj) { return (objArrayOop) JNIHandles::resolve(obj.as_jobject()); } typeArrayOop HotSpotJVMCI::resolve(JVMCIPrimitiveArray obj) { return (typeArrayOop) JNIHandles::resolve(obj.as_jobject()); } JVMCIObject HotSpotJVMCI::wrap(oop obj) { assert(Thread::current()->is_Java_thread(), "must be"); return JVMCIObject(JNIHandles::make_local(obj), true); } /** * Computes the field offset of a static or instance field. * It looks up the name and signature symbols without creating new ones; * all the symbols of these classes need to be already loaded. */ void HotSpotJVMCI::compute_offset(int &dest_offset, Klass* klass, const char* name, const char* signature, bool static_field, TRAPS) { InstanceKlass* ik = InstanceKlass::cast(klass); Symbol* name_symbol = SymbolTable::probe(name, (int)strlen(name)); Symbol* signature_symbol = SymbolTable::probe(signature, (int)strlen(signature)); if (name_symbol == NULL || signature_symbol == NULL) { #ifndef PRODUCT ik->print_on(tty); #endif fatal("symbol with name %s and signature %s was not found in symbol table (klass=%s)", name, signature, klass->name()->as_C_string()); } fieldDescriptor fd; if (!ik->find_field(name_symbol, signature_symbol, &fd)) { ResourceMark rm; fatal("Could not find field %s.%s with signature %s", ik->external_name(), name, signature); } guarantee(fd.is_static() == static_field, "static/instance mismatch"); dest_offset = fd.offset(); assert(dest_offset != 0, "must be valid offset"); if (static_field) { // Must ensure classes for static fields are initialized as the // accessor itself does not include a class initialization check. ik->initialize(CHECK); } JVMCI_event_2(" field offset for %s %s.%s = %d", signature, ik->external_name(), name, dest_offset); } #ifndef PRODUCT static void check_resolve_method(const char* call_type, Klass* resolved_klass, Symbol* method_name, Symbol* method_signature, TRAPS) { Method* method; LinkInfo link_info(resolved_klass, method_name, method_signature, NULL, LinkInfo::AccessCheck::skip_access_check); if (strcmp(call_type, "call_static") == 0) { method = LinkResolver::resolve_static_call_or_null(link_info); } else if (strcmp(call_type, "call_virtual") == 0) { method = LinkResolver::resolve_virtual_call_or_null(resolved_klass, link_info); } else if (strcmp(call_type, "call_special") == 0) { method = LinkResolver::resolve_special_call_or_null(link_info); } else { fatal("Unknown or unsupported call type: %s", call_type); } if (method == NULL) { fatal("Could not resolve %s.%s%s", resolved_klass->external_name(), method_name->as_C_string(), method_signature->as_C_string()); } } #endif jclass JNIJVMCI::_box_classes[T_CONFLICT+1]; jclass JNIJVMCI::_byte_array; jfieldID JNIJVMCI::_box_fields[T_CONFLICT+1]; jmethodID JNIJVMCI::_box_constructors[T_CONFLICT+1]; jmethodID JNIJVMCI::_Class_getName_method; jmethodID JNIJVMCI::_HotSpotResolvedJavaMethodImpl_fromMetaspace_method; jmethodID JNIJVMCI::_HotSpotConstantPool_fromMetaspace_method; jmethodID JNIJVMCI::_HotSpotResolvedObjectTypeImpl_fromMetaspace_method; jmethodID JNIJVMCI::_HotSpotResolvedPrimitiveType_fromMetaspace_method; #define START_CLASS(className, fullClassName) { \ Klass* k = SystemDictionary::resolve_or_fail(vmSymbols::fullClassName(), true, CHECK); \ className::_klass = InstanceKlass::cast(k); \ JVMCI_event_2(" klass for %s = " PTR_FORMAT, k->external_name(), p2i(k)); \ className::_klass->initialize(CHECK); #define END_CLASS } #define FIELD(className, name, signature, static_field) compute_offset(className::_##name##_offset, className::_klass, #name, signature, static_field, CHECK); #define CHAR_FIELD(className, name) FIELD(className, name, "C", false) #define INT_FIELD(className, name) FIELD(className, name, "I", false) #define BOOLEAN_FIELD(className, name) FIELD(className, name, "Z", false) #define LONG_FIELD(className, name) FIELD(className, name, "J", false) #define FLOAT_FIELD(className, name) FIELD(className, name, "F", false) #define OBJECT_FIELD(className, name, signature) FIELD(className, name, signature, false) #define STATIC_OBJECT_FIELD(className, name, signature) FIELD(className, name, signature, true) #define STATIC_INT_FIELD(className, name) FIELD(className, name, "I", true) #define STATIC_BOOLEAN_FIELD(className, name) FIELD(className, name, "Z", true) #ifdef PRODUCT #define METHOD(jniCallType, jniGetMethod, hsCallType, returnType, className, methodName, signatureSymbolName, args) #define CONSTRUCTOR(className, signature) #else #define METHOD(jniCallType, jniGetMethod, hsCallType, returnType, className, methodName, signatureSymbolName, args) \ check_resolve_method(#hsCallType, k, vmSymbols::methodName##_name(), vmSymbols::signatureSymbolName(), CHECK); #define CONSTRUCTOR(className, signature) { \ TempNewSymbol sig = SymbolTable::new_symbol(signature); \ check_resolve_method("call_special", k, vmSymbols::object_initializer_name(), sig, CHECK); \ } #endif /** * Computes and initializes the offsets used by HotSpotJVMCI. */ void HotSpotJVMCI::compute_offsets(TRAPS) { JVMCI_CLASSES_DO(START_CLASS, END_CLASS, CHAR_FIELD, INT_FIELD, BOOLEAN_FIELD, LONG_FIELD, FLOAT_FIELD, OBJECT_FIELD, OBJECT_FIELD, OBJECT_FIELD, STATIC_OBJECT_FIELD, STATIC_OBJECT_FIELD, STATIC_INT_FIELD, STATIC_BOOLEAN_FIELD, METHOD, CONSTRUCTOR) } #undef START_CLASS #undef END_CLASS #undef METHOD #undef CONSTRUCTOR #undef FIELD #undef CHAR_FIELD #undef INT_FIELD #undef BOOLEAN_FIELD #undef LONG_FIELD #undef FLOAT_FIELD #undef OBJECT_FIELD #undef PRIMARRAY_FIELD #undef OBJECTARRAY_FIELD #undef STATIC_FIELD #undef STATIC_OBJECT_FIELD #undef STATIC_OBJECTARRAY_FIELD #undef STATIC_INT_FIELD #undef STATIC_BOOLEAN_FIELD #undef EMPTY_CAST // ------------------------------------------------------------------ #define START_CLASS(className, fullClassName) \ void HotSpotJVMCI::className::initialize(JVMCI_TRAPS) { \ Thread* THREAD = Thread::current(); \ className::klass()->initialize(CHECK); \ } \ bool HotSpotJVMCI::className::is_instance(JVMCIEnv* env, JVMCIObject object) { \ return resolve(object)->is_a(className::klass()); \ } \ void HotSpotJVMCI::className::check(oop obj, const char* field_name, int offset) { \ assert(obj != NULL, "NULL field access of %s.%s", #className, field_name); \ assert(obj->is_a(className::klass()), "wrong class, " #className " expected, found %s", obj->klass()->external_name()); \ assert(offset != 0, "must be valid offset"); \ } \ InstanceKlass* HotSpotJVMCI::className::_klass = NULL; #define END_CLASS #define FIELD(className, name, type, accessor, cast) \ type HotSpotJVMCI::className::name(JVMCIEnv* env, oop obj) { className::check(obj, #name, className::_##name##_offset); return cast obj->accessor(className::_##name##_offset); } \ void HotSpotJVMCI::className::set_##name(JVMCIEnv* env, oop obj, type x) { className::check(obj, #name, className::_##name##_offset); obj->accessor##_put(className::_##name##_offset, x); } #define EMPTY_CAST #define CHAR_FIELD(className, name) FIELD(className, name, jchar, char_field, EMPTY_CAST) #define INT_FIELD(className, name) FIELD(className, name, jint, int_field, EMPTY_CAST) #define BOOLEAN_FIELD(className, name) FIELD(className, name, jboolean, bool_field, EMPTY_CAST) #define LONG_FIELD(className, name) FIELD(className, name, jlong, long_field, EMPTY_CAST) #define FLOAT_FIELD(className, name) FIELD(className, name, jfloat, float_field, EMPTY_CAST) #define OBJECT_FIELD(className, name, signature) FIELD(className, name, oop, obj_field, EMPTY_CAST) #define OBJECTARRAY_FIELD(className, name, signature) FIELD(className, name, objArrayOop, obj_field, (objArrayOop)) #define PRIMARRAY_FIELD(className, name, signature) FIELD(className, name, typeArrayOop, obj_field, (typeArrayOop)) #define STATIC_OBJECT_FIELD(className, name, signature) STATIC_OOPISH_FIELD(className, name, oop) #define STATIC_OBJECTARRAY_FIELD(className, name, signature) STATIC_OOPISH_FIELD(className, name, objArrayOop) #define STATIC_OOPISH_FIELD(className, name, type) \ type HotSpotJVMCI::className::name(JVMCIEnv* env) { \ assert(className::klass() != NULL && className::klass()->is_linked(), "Class not yet linked: " #className); \ InstanceKlass* ik = className::klass(); \ oop base = ik->static_field_base_raw(); \ oop result = HeapAccess<>::oop_load_at(base, className::_##name##_offset); \ return type(result); \ } \ void HotSpotJVMCI::className::set_##name(JVMCIEnv* env, type x) { \ assert(className::klass() != NULL && className::klass()->is_linked(), "Class not yet linked: " #className); \ assert(className::klass() != NULL, "Class not yet loaded: " #className); \ InstanceKlass* ik = className::klass(); \ oop base = ik->static_field_base_raw(); \ HeapAccess<>::oop_store_at(base, className::_##name##_offset, x); \ } #define STATIC_PRIMITIVE_FIELD(className, name, jtypename) \ jtypename HotSpotJVMCI::className::get_##name(JVMCIEnv* env) { \ assert(className::klass() != NULL && className::klass()->is_linked(), "Class not yet linked: " #className); \ InstanceKlass* ik = className::klass(); \ oop base = ik->static_field_base_raw(); \ return HeapAccess<>::load_at(base, className::_##name##_offset); \ } \ void HotSpotJVMCI::className::set_##name(JVMCIEnv* env, jtypename x) { \ assert(className::klass() != NULL && className::klass()->is_linked(), "Class not yet linked: " #className); \ InstanceKlass* ik = className::klass(); \ oop base = ik->static_field_base_raw(); \ HeapAccess<>::store_at(base, _##name##_offset, x); \ } #define STATIC_INT_FIELD(className, name) STATIC_PRIMITIVE_FIELD(className, name, jint) #define STATIC_BOOLEAN_FIELD(className, name) STATIC_PRIMITIVE_FIELD(className, name, jboolean) #define METHOD(jniCallType, jniGetMethod, hsCallType, returnType, className, methodName, signatureSymbolName, args) #define CONSTRUCTOR(className, signature) /** * Generates the method and field definitions for the classes in HotSpotJVMCI. For example: * * void HotSpotJVMCI::Architecture::initialize(JVMCIEnv* env) { ... } * bool HotSpotJVMCI::Architecture::is_instance(JVMCIEnv* env, JVMCIObject object) { ... } * void HotSpotJVMCI::Architecture::check(oop obj, const char* field_name, int offset) { ... } * oop HotSpotJVMCI::Architecture::wordKind(JVMCIEnv* env, oop obj) { ... } * void HotSpotJVMCI::Architecture::set_wordKind(JVMCIEnv* env, oop obj, oop x) { ... } * * InstanceKlass *HotSpotJVMCI::Architecture::_klass = NULL; */ JVMCI_CLASSES_DO(START_CLASS, END_CLASS, CHAR_FIELD, INT_FIELD, BOOLEAN_FIELD, LONG_FIELD, FLOAT_FIELD, OBJECT_FIELD, PRIMARRAY_FIELD, OBJECTARRAY_FIELD, STATIC_OBJECT_FIELD, STATIC_OBJECTARRAY_FIELD, STATIC_INT_FIELD, STATIC_BOOLEAN_FIELD, METHOD, CONSTRUCTOR) #undef START_CLASS #undef END_CLASS #undef METHOD #undef CONSTRUCTOR #undef FIELD #undef CHAR_FIELD #undef INT_FIELD #undef BOOLEAN_FIELD #undef LONG_FIELD #undef FLOAT_FIELD #undef OBJECT_FIELD #undef PRIMARRAY_FIELD #undef OBJECTARRAY_FIELD #undef STATIC_OOPISH_FIELD #undef STATIC_OBJECT_FIELD #undef STATIC_OBJECTARRAY_FIELD #undef STATIC_INT_FIELD #undef STATIC_BOOLEAN_FIELD #undef STATIC_PRIMITIVE_FIELD #undef EMPTY_CAST /** * Initializes the JNI id of a field. As per the JNI specification, * this ensures the declaring class is initialized. */ void JNIJVMCI::initialize_field_id(JNIEnv* env, jfieldID &fieldid, jclass clazz, const char* class_name, const char* name, const char* signature, bool static_field) { if (JVMCILibDumpJNIConfig != NULL) { fileStream* st = JVMCIGlobals::get_jni_config_file(); st->print_cr("field %s %s %s", class_name, name, signature); return; } if (env->ExceptionCheck()) { return; } jfieldID current = fieldid; if (static_field) { // Class initialization barrier fieldid = env->GetStaticFieldID(clazz, name, signature); } else { // Class initialization barrier fieldid = env->GetFieldID(clazz, name, signature); } JVMCI_event_2(" jfieldID for %s %s.%s = " PTR_FORMAT, signature, class_name, name, p2i(fieldid)); if (env->ExceptionCheck()) { env->ExceptionDescribe(); env->ExceptionClear(); ResourceMark rm; Thread* THREAD = Thread::current(); fatal("Could not find field %s.%s with signature %s", class_name, name, signature); } } #define START_CLASS(className, fullClassName) { \ current_class_name = vmSymbols::fullClassName()->as_C_string(); \ if (JVMCILibDumpJNIConfig != NULL) { \ fileStream* st = JVMCIGlobals::get_jni_config_file(); \ st->print_cr("class %s", current_class_name); \ } else { \ jclass k = env->FindClass(current_class_name); \ JVMCI_EXCEPTION_CHECK(env, "FindClass(%s)", current_class_name); \ assert(k != NULL, #fullClassName " not initialized"); \ k = (jclass) env->NewGlobalRef(k); \ JVMCI_event_2(" jclass for %s = " PTR_FORMAT, current_class_name, p2i(k)); \ className::_class = k; \ } #define END_CLASS current_class_name = NULL; } #define FIELD(className, name, signature, static_field) initialize_field_id(env, className::_##name##_field_id, className::_class, current_class_name, #name, signature, static_field); #define CHAR_FIELD(className, name) FIELD(className, name, "C", false) #define INT_FIELD(className, name) FIELD(className, name, "I", false) #define BOOLEAN_FIELD(className, name) FIELD(className, name, "Z", false) #define LONG_FIELD(className, name) FIELD(className, name, "J", false) #define FLOAT_FIELD(className, name) FIELD(className, name, "F", false) #define OBJECT_FIELD(className, name, signature) FIELD(className, name, signature, false) #define STATIC_OBJECT_FIELD(className, name, signature) FIELD(className, name, signature, true) #define STATIC_INT_FIELD(className, name) FIELD(className, name, "I", true) #define STATIC_BOOLEAN_FIELD(className, name) FIELD(className, name, "Z", true) #define GET_JNI_METHOD(jniGetMethod, dst, clazz, methodName, signature) \ if (JVMCILibDumpJNIConfig != NULL) { \ fileStream* st = JVMCIGlobals::get_jni_config_file(); \ st->print_cr("method %s %s %s", current_class_name, methodName, signature); \ } else { \ jmethodID current = dst; \ dst = env->jniGetMethod(clazz, methodName, signature); \ JVMCI_EXCEPTION_CHECK(env, #jniGetMethod "(%s.%s%s)", \ current_class_name, methodName, signature); \ assert(dst != NULL, "uninitialized"); \ JVMCI_event_2(" jmethodID for %s.%s%s = " PTR_FORMAT, \ current_class_name, methodName, signature, p2i(dst)); \ } #define GET_JNI_CONSTRUCTOR(clazz, signature) \ GET_JNI_METHOD(GetMethodID, JNIJVMCI::clazz::_constructor, clazz::_class, "", signature) \ #define METHOD(jniCallType, jniGetMethod, hsCallType, returnType, className, methodName, signatureSymbolName, args) \ GET_JNI_METHOD(jniGetMethod, \ className::_##methodName##_method, \ className::clazz(), \ vmSymbols::methodName##_name()->as_C_string(), \ vmSymbols::signatureSymbolName()->as_C_string()) #define CONSTRUCTOR(className, signature) \ GET_JNI_CONSTRUCTOR(className, signature) extern "C" { void JNICALL JVM_RegisterJVMCINatives(JNIEnv *env, jclass compilerToVMClass); jobject JNICALL JVM_GetJVMCIRuntime(JNIEnv *env, jclass c); } // Dumps symbols for public () and (String) methods of // non-abstract Throwable subtypes known by the VM. This is to // support the use of reflection in jdk.vm.ci.hotspot.TranslatedException.create(). class ThrowableInitDumper : public SymbolClosure { private: fileStream* _st; public: ThrowableInitDumper(fileStream* st) { _st = st; } void do_symbol(Symbol** p) { Thread* THREAD = Thread::current(); Symbol* name = *p; if (name == NULL) { return; } Klass* k = SystemDictionary::resolve_or_null(name, CHECK_EXIT); if (k != NULL && k->is_instance_klass()) { InstanceKlass* iklass = InstanceKlass::cast(k); if (iklass->is_subclass_of(SystemDictionary::Throwable_klass()) && iklass->is_public() && !iklass->is_abstract()) { const char* class_name = NULL; Array* methods = iklass->methods(); for (int i = 0; i < methods->length(); i++) { Method* m = methods->at(i); if (m->name() == vmSymbols::object_initializer_name() && m->is_public() && (m->signature() == vmSymbols::void_method_signature() || m->signature() == vmSymbols::string_void_signature())) { if (class_name == NULL) { class_name = name->as_C_string(); _st->print_cr("class %s", class_name); } _st->print_cr("method %s %s %s", class_name, m->name()->as_C_string(), m->signature()->as_C_string()); } } } } } }; #define IN_CLASS(fullClassName) current_class_name = vmSymbols::fullClassName()->as_C_string() /** * Initializes the JNI method and field ids used in JNIJVMCI. */ void JNIJVMCI::initialize_ids(JNIEnv* env) { ResourceMark rm; const char* current_class_name = NULL; JVMCI_CLASSES_DO(START_CLASS, END_CLASS, CHAR_FIELD, INT_FIELD, BOOLEAN_FIELD, LONG_FIELD, FLOAT_FIELD, OBJECT_FIELD, OBJECT_FIELD, OBJECT_FIELD, STATIC_OBJECT_FIELD, STATIC_OBJECT_FIELD, STATIC_INT_FIELD, STATIC_BOOLEAN_FIELD, METHOD, CONSTRUCTOR) IN_CLASS(java_lang_Class); GET_JNI_METHOD(GetMethodID, _Class_getName_method, Class::_class, "getName", "()Ljava/lang/String;"); IN_CLASS(jdk_vm_ci_hotspot_HotSpotResolvedPrimitiveType); GET_JNI_METHOD(GetStaticMethodID, _HotSpotResolvedPrimitiveType_fromMetaspace_method, HotSpotResolvedPrimitiveType::_class, vmSymbols::fromMetaspace_name()->as_C_string(), vmSymbols::primitive_fromMetaspace_signature()->as_C_string()); IN_CLASS(jdk_vm_ci_hotspot_HotSpotResolvedObjectTypeImpl); GET_JNI_METHOD(GetStaticMethodID, _HotSpotResolvedObjectTypeImpl_fromMetaspace_method, HotSpotResolvedObjectTypeImpl::_class, vmSymbols::fromMetaspace_name()->as_C_string(), vmSymbols::klass_fromMetaspace_signature()->as_C_string()); IN_CLASS(jdk_vm_ci_hotspot_HotSpotConstantPool); GET_JNI_METHOD(GetStaticMethodID, _HotSpotConstantPool_fromMetaspace_method, HotSpotConstantPool::_class, vmSymbols::fromMetaspace_name()->as_C_string(), vmSymbols::constantPool_fromMetaspace_signature()->as_C_string()); IN_CLASS(jdk_vm_ci_hotspot_HotSpotResolvedJavaMethodImpl); GET_JNI_METHOD(GetStaticMethodID, _HotSpotResolvedJavaMethodImpl_fromMetaspace_method, HotSpotResolvedJavaMethodImpl::_class, vmSymbols::fromMetaspace_name()->as_C_string(), vmSymbols::method_fromMetaspace_signature()->as_C_string()); #define BOX_CLASSES(generate) \ generate(Boolean, T_BOOLEAN, Z) \ generate(Byte, T_BYTE, B) \ generate(Character, T_CHAR, C) \ generate(Short, T_SHORT, S) \ generate(Integer, T_INT, I) \ generate(Long, T_LONG, J) \ generate(Float, T_FLOAT, F) \ generate(Double, T_DOUBLE, D) \ #define DO_BOX_CLASS(klass, basicType, type) \ current_class_name = "java/lang/" #klass; \ if (JVMCILibDumpJNIConfig == NULL) { \ _box_classes[basicType] = env->FindClass("java/lang/" #klass); \ JVMCI_EXCEPTION_CHECK(env, "FindClass(%s)", #klass); \ _box_classes[basicType] = (jclass) env->NewGlobalRef(_box_classes[basicType]); \ assert(_box_classes[basicType] != NULL, "uninitialized"); \ _box_fields[basicType] = env->GetFieldID(_box_classes[basicType], "value", #type); \ JVMCI_EXCEPTION_CHECK(env, "GetFieldID(%s, value, %s)", #klass, #type); \ GET_JNI_METHOD(GetMethodID, _box_constructors[basicType], _box_classes[basicType], "", "(" #type ")V"); \ } else { \ fileStream* st = JVMCIGlobals::get_jni_config_file(); \ st->print_cr("field %s value %s", current_class_name, #type); \ st->print_cr("method %s (%s)V", current_class_name, #type); \ } BOX_CLASSES(DO_BOX_CLASS); if (JVMCILibDumpJNIConfig == NULL) { _byte_array = env->FindClass("[B"); JVMCI_EXCEPTION_CHECK(env, "FindClass([B)"); _byte_array = (jclass) env->NewGlobalRef(_byte_array); assert(_byte_array != NULL, "uninitialized"); } else { fileStream* st = JVMCIGlobals::get_jni_config_file(); st->print_cr("class [B"); } #define DUMP_ALL_NATIVE_METHODS(class_symbol) do { \ current_class_name = class_symbol->as_C_string(); \ Klass* k = SystemDictionary::resolve_or_fail(class_symbol, true, CHECK_EXIT); \ InstanceKlass* iklass = InstanceKlass::cast(k); \ Array* methods = iklass->methods(); \ for (int i = 0; i < methods->length(); i++) { \ Method* m = methods->at(i); \ if (m->is_native()) { \ st->print_cr("method %s %s %s", current_class_name, m->name()->as_C_string(), m->signature()->as_C_string()); \ } \ } \ } while(0) if (JVMCILibDumpJNIConfig != NULL) { Thread* THREAD = Thread::current(); fileStream* st = JVMCIGlobals::get_jni_config_file(); DUMP_ALL_NATIVE_METHODS(vmSymbols::jdk_vm_ci_hotspot_CompilerToVM()); ThrowableInitDumper dumper(st); vmSymbols::symbols_do(&dumper); st->flush(); tty->print_cr("Dumped JVMCI shared library JNI configuration to %s", JVMCILibDumpJNIConfig); vm_exit(0); } #undef DUMP_ALL_NATIVE_METHODS #undef DO_BOX_CLASS #undef BOX_CLASSES #undef IN_CLASS #define CC (char*) /*cast a literal from (const char*)*/ #define FN_PTR(f) CAST_FROM_FN_PTR(void*, &(f)) } static void register_natives_for_class(JNIEnv* env, jclass clazz, const char* name, const JNINativeMethod *methods, jint nMethods) { if (clazz == NULL) { clazz = env->FindClass(name); if (env->ExceptionCheck()) { env->ExceptionDescribe(); fatal("Could not find class %s", name); } } env->RegisterNatives(clazz, methods, nMethods); if (env->ExceptionCheck()) { env->ExceptionDescribe(); fatal("Failure registering natives for %s", name); } } void JNIJVMCI::register_natives(JNIEnv* env) { if (env != JavaThread::current()->jni_environment()) { JNINativeMethod CompilerToVM_nmethods[] = {{ CC"registerNatives", CC"()V", FN_PTR(JVM_RegisterJVMCINatives) }}; JNINativeMethod JVMCI_nmethods[] = {{ CC"initializeRuntime", CC"()Ljdk/vm/ci/runtime/JVMCIRuntime;", FN_PTR(JVM_GetJVMCIRuntime) }}; register_natives_for_class(env, NULL, "jdk/vm/ci/hotspot/CompilerToVM", CompilerToVM_nmethods, 1); register_natives_for_class(env, JVMCI::clazz(), "jdk/vm/ci/runtime/JVMCI", JVMCI_nmethods, 1); } } #undef METHOD #undef CONSTRUCTOR #undef FIELD2 #define EMPTY0 #define EMPTY1(x) #define EMPTY2(x,y) #define FIELD3(className, name, sig) FIELD2(className, name) #define FIELD2(className, name) \ jfieldID JNIJVMCI::className::_##name##_field_id = 0; \ int HotSpotJVMCI::className::_##name##_offset = 0; #define METHOD(jniCallType, jniGetMethod, hsCallType, returnType, className, methodName, signatureSymbolName, args) #define CONSTRUCTOR(className, signature) // Generates the definitions of static fields used by the accessors. For example: // jfieldID JNIJVMCI::Architecture::_wordKind_field_id = 0; // jfieldID HotSpotJVMCI::Architecture::_wordKind_offset = 0; JVMCI_CLASSES_DO(EMPTY2, EMPTY0, FIELD2, FIELD2, FIELD2, FIELD2, FIELD2, FIELD3, FIELD3, FIELD3, FIELD3, FIELD3, FIELD2, FIELD2, METHOD, CONSTRUCTOR) #undef START_CLASS #undef END_CLASS #undef METHOD #undef CONSTRUCTOR #undef FIELD #undef CHAR_FIELD #undef INT_FIELD #undef BOOLEAN_FIELD #undef LONG_FIELD #undef FLOAT_FIELD #undef OBJECT_FIELD #undef PRIMARRAY_FIELD #undef OBJECTARRAY_FIELD #undef STATIC_FIELD #undef STATIC_OBJECT_FIELD #undef STATIC_OBJECTARRAY_FIELD #undef STATIC_INT_FIELD #undef STATIC_BOOLEAN_FIELD #undef EMPTY_CAST #define START_CLASS(className, fullClassName) \ void JNIJVMCI::className::initialize(JVMCI_TRAPS) { \ /* should already be initialized */ \ } \ bool JNIJVMCI::className::is_instance(JVMCIEnv* jvmciEnv, JVMCIObject object) { \ JNIAccessMark jni(jvmciEnv); \ return jni()->IsInstanceOf(object.as_jobject(), className::clazz()) != 0; \ } \ void JNIJVMCI::className::check(JVMCIEnv* jvmciEnv, JVMCIObject obj, const char* field_name, jfieldID offset) { \ assert(obj.is_non_null(), "NULL field access of %s.%s", #className, field_name); \ assert(jvmciEnv->isa_##className(obj), "wrong class, " #className " expected, found %s", jvmciEnv->klass_name(obj)); \ assert(offset != 0, "must be valid offset"); \ } \ jclass JNIJVMCI::className::_class = NULL; #define END_CLASS #define FIELD(className, name, type, accessor, cast) \ type JNIJVMCI::className::get_##name(JVMCIEnv* jvmciEnv, JVMCIObject obj) { \ className::check(jvmciEnv, obj, #name, className::_##name##_field_id); \ JNIAccessMark jni(jvmciEnv); \ return cast jni()->Get##accessor##Field(resolve_handle(obj), className::_##name##_field_id); \ } \ void JNIJVMCI::className::set_##name(JVMCIEnv* jvmciEnv, JVMCIObject obj, type x) { \ className::check(jvmciEnv, obj, #name, className::_##name##_field_id); \ JNIAccessMark jni(jvmciEnv); \ jni()->Set##accessor##Field(resolve_handle(obj), className::_##name##_field_id, x); \ } \ #define EMPTY_CAST #define CHAR_FIELD(className, name) FIELD(className, name, jchar, Char, EMPTY_CAST) #define INT_FIELD(className, name) FIELD(className, name, jint, Int, EMPTY_CAST) #define BOOLEAN_FIELD(className, name) FIELD(className, name, jboolean, Boolean, EMPTY_CAST) #define LONG_FIELD(className, name) FIELD(className, name, jlong, Long, EMPTY_CAST) #define FLOAT_FIELD(className, name) FIELD(className, name, jfloat, Float, EMPTY_CAST) #define OBJECT_FIELD(className, name, signature) OOPISH_FIELD(className, name, JVMCIObject, Object, EMPTY_CAST) #define OBJECTARRAY_FIELD(className, name, signature) OOPISH_FIELD(className, name, JVMCIObjectArray, Object, (JVMCIObjectArray)) #define PRIMARRAY_FIELD(className, name, signature) OOPISH_FIELD(className, name, JVMCIPrimitiveArray, Object, (JVMCIPrimitiveArray)) #define STATIC_OBJECT_FIELD(className, name, signature) STATIC_OOPISH_FIELD(className, name, JVMCIObject, Object, (JVMCIObject)) #define STATIC_OBJECTARRAY_FIELD(className, name, signature) STATIC_OOPISH_FIELD(className, name, JVMCIObjectArray, Object, (JVMCIObjectArray)) #define OOPISH_FIELD(className, name, type, accessor, cast) \ type JNIJVMCI::className::get_##name(JVMCIEnv* jvmciEnv, JVMCIObject obj) { \ className::check(jvmciEnv, obj, #name, className::_##name##_field_id); \ JNIAccessMark jni(jvmciEnv); \ return cast wrap(jni()->Get##accessor##Field(resolve_handle(obj), className::_##name##_field_id)); \ } \ void JNIJVMCI::className::set_##name(JVMCIEnv* jvmciEnv, JVMCIObject obj, type x) { \ className::check(jvmciEnv, obj, #name, className::_##name##_field_id); \ JNIAccessMark jni(jvmciEnv); \ jni()->Set##accessor##Field(resolve_handle(obj), className::_##name##_field_id, resolve_handle(x)); \ } #define STATIC_OOPISH_FIELD(className, name, type, accessor, cast) \ type JNIJVMCI::className::get_##name(JVMCIEnv* jvmciEnv) { \ JNIAccessMark jni(jvmciEnv); \ return cast wrap(jni()->GetStatic##accessor##Field(className::clazz(), className::_##name##_field_id)); \ } \ void JNIJVMCI::className::set_##name(JVMCIEnv* jvmciEnv, type x) { \ JNIAccessMark jni(jvmciEnv); \ jni()->SetStatic##accessor##Field(className::clazz(), className::_##name##_field_id, resolve_handle(x)); \ } #define STATIC_PRIMITIVE_FIELD(className, name, type, accessor, cast) \ type JNIJVMCI::className::get_##name(JVMCIEnv* jvmciEnv) { \ JNIAccessMark jni(jvmciEnv); \ return cast jni()->GetStatic##accessor##Field(className::clazz(), className::_##name##_field_id); \ } \ void JNIJVMCI::className::set_##name(JVMCIEnv* jvmciEnv, type x) { \ JNIAccessMark jni(jvmciEnv); \ jni()->SetStatic##accessor##Field(className::clazz(), className::_##name##_field_id, x); \ } #define STATIC_INT_FIELD(className, name) STATIC_PRIMITIVE_FIELD(className, name, jint, Int, EMPTY_CAST) #define STATIC_BOOLEAN_FIELD(className, name) STATIC_PRIMITIVE_FIELD(className, name, jboolean, Boolean, EMPTY_CAST) #define METHOD(jniCallType, jniGetMethod, hsCallType, returnType, className, methodName, signatureSymbolName, args) \ jmethodID JNIJVMCI::className::_##methodName##_method; #define CONSTRUCTOR(className, signature) \ jmethodID JNIJVMCI::className::_constructor; /** * Generates the method definitions for the classes in HotSpotJVMCI. */ JVMCI_CLASSES_DO(START_CLASS, END_CLASS, CHAR_FIELD, INT_FIELD, BOOLEAN_FIELD, LONG_FIELD, FLOAT_FIELD, OBJECT_FIELD, PRIMARRAY_FIELD, OBJECTARRAY_FIELD, STATIC_OBJECT_FIELD, STATIC_OBJECTARRAY_FIELD, STATIC_INT_FIELD, STATIC_BOOLEAN_FIELD, METHOD, CONSTRUCTOR) #undef METHOD #undef CONSTRUCTOR #undef START_CLASS #undef END_CLASS #undef FIELD #undef CHAR_FIELD #undef INT_FIELD #undef BOOLEAN_FIELD #undef LONG_FIELD #undef FLOAT_FIELD #undef OBJECT_FIELD #undef PRIMARRAY_FIELD #undef OBJECTARRAY_FIELD #undef STATIC_OOPISH_FIELD #undef STATIC_OBJECT_FIELD #undef STATIC_OBJECTARRAY_FIELD #undef STATIC_INT_FIELD #undef STATIC_BOOLEAN_FIELD #undef STATIC_PRIMITIVE_FIELD #undef OOPISH_FIELD #undef EMPTY_CAST