/* * Copyright (c) 2016, 2021, 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/javaClasses.inline.hpp" #include "classfile/modules.hpp" #include "classfile/symbolTable.hpp" #include "classfile/vmClasses.hpp" #include "classfile/vmSymbols.hpp" #include "jfr/jni/jfrJavaCall.hpp" #include "jfr/jni/jfrJavaSupport.hpp" #include "jfr/support/jfrThreadId.hpp" #include "logging/log.hpp" #include "memory/resourceArea.hpp" #include "oops/instanceOop.hpp" #include "oops/klass.inline.hpp" #include "oops/oop.inline.hpp" #include "oops/objArrayKlass.hpp" #include "oops/objArrayOop.inline.hpp" #include "runtime/handles.inline.hpp" #include "runtime/fieldDescriptor.inline.hpp" #include "runtime/java.hpp" #include "runtime/jniHandles.inline.hpp" #include "runtime/semaphore.inline.hpp" #include "runtime/synchronizer.hpp" #include "runtime/thread.inline.hpp" #include "runtime/threadSMR.hpp" #include "utilities/growableArray.hpp" #include "classfile/vmSymbols.hpp" #ifdef ASSERT void JfrJavaSupport::check_java_thread_in_vm(JavaThread* t) { assert(t != NULL, "invariant"); assert(t->thread_state() == _thread_in_vm, "invariant"); } void JfrJavaSupport::check_java_thread_in_native(JavaThread* t) { assert(t != NULL, "invariant"); assert(t->thread_state() == _thread_in_native, "invariant"); } static void check_new_unstarted_java_thread(JavaThread* t) { assert(t != NULL, "invariant"); assert(t->thread_state() == _thread_new, "invariant"); } #endif /* * Handles and references */ jobject JfrJavaSupport::local_jni_handle(const oop obj, JavaThread* t) { DEBUG_ONLY(check_java_thread_in_vm(t)); return t->active_handles()->allocate_handle(obj); } jobject JfrJavaSupport::local_jni_handle(const jobject handle, JavaThread* t) { DEBUG_ONLY(check_java_thread_in_vm(t)); const oop obj = JNIHandles::resolve(handle); return obj == NULL ? NULL : local_jni_handle(obj, t); } void JfrJavaSupport::destroy_local_jni_handle(jobject handle) { JNIHandles::destroy_local(handle); } jobject JfrJavaSupport::global_jni_handle(const oop obj, JavaThread* t) { DEBUG_ONLY(check_java_thread_in_vm(t)); HandleMark hm(t); return JNIHandles::make_global(Handle(t, obj)); } jobject JfrJavaSupport::global_jni_handle(const jobject handle, JavaThread* t) { const oop obj = JNIHandles::resolve(handle); return obj == NULL ? NULL : global_jni_handle(obj, t); } void JfrJavaSupport::destroy_global_jni_handle(jobject handle) { JNIHandles::destroy_global(handle); } jweak JfrJavaSupport::global_weak_jni_handle(const oop obj, JavaThread* t) { DEBUG_ONLY(check_java_thread_in_vm(t)); HandleMark hm(t); return JNIHandles::make_weak_global(Handle(t, obj)); } jweak JfrJavaSupport::global_weak_jni_handle(const jobject handle, JavaThread* t) { const oop obj = JNIHandles::resolve(handle); return obj == NULL ? NULL : global_weak_jni_handle(obj, t); } void JfrJavaSupport::destroy_global_weak_jni_handle(jweak handle) { JNIHandles::destroy_weak_global(handle); } oop JfrJavaSupport::resolve_non_null(jobject obj) { return JNIHandles::resolve_non_null(obj); } /* * Method invocation */ void JfrJavaSupport::call_static(JfrJavaArguments* args, TRAPS) { JfrJavaCall::call_static(args, THREAD); } void JfrJavaSupport::call_special(JfrJavaArguments* args, TRAPS) { JfrJavaCall::call_special(args, THREAD); } void JfrJavaSupport::call_virtual(JfrJavaArguments* args, TRAPS) { JfrJavaCall::call_virtual(args, THREAD); } void JfrJavaSupport::notify_all(jobject object, TRAPS) { assert(object != NULL, "invariant"); DEBUG_ONLY(check_java_thread_in_vm(THREAD)); HandleMark hm(THREAD); Handle h_obj(THREAD, resolve_non_null(object)); assert(h_obj.not_null(), "invariant"); ObjectSynchronizer::jni_enter(h_obj, THREAD); ObjectSynchronizer::notifyall(h_obj, THREAD); ObjectSynchronizer::jni_exit(h_obj(), THREAD); DEBUG_ONLY(check_java_thread_in_vm(THREAD)); } /* * Object construction */ static void object_construction(JfrJavaArguments* args, JavaValue* result, InstanceKlass* klass, TRAPS) { assert(args != NULL, "invariant"); assert(result != NULL, "invariant"); assert(klass != NULL, "invariant"); assert(klass->is_initialized(), "invariant"); HandleMark hm(THREAD); instanceOop obj = klass->allocate_instance(CHECK); instanceHandle h_obj(THREAD, obj); assert(h_obj.not_null(), "invariant"); args->set_receiver(h_obj); result->set_type(T_VOID); // constructor result type JfrJavaSupport::call_special(args, CHECK); result->set_type(T_OBJECT); // set back to original result type result->set_oop(h_obj()); } static void array_construction(JfrJavaArguments* args, JavaValue* result, InstanceKlass* klass, int array_length, TRAPS) { assert(args != NULL, "invariant"); assert(result != NULL, "invariant"); assert(klass != NULL, "invariant"); assert(klass->is_initialized(), "invariant"); Klass* const ak = klass->array_klass(THREAD); ObjArrayKlass::cast(ak)->initialize(THREAD); HandleMark hm(THREAD); objArrayOop arr = ObjArrayKlass::cast(ak)->allocate(array_length, CHECK); result->set_oop(arr); } static void create_object(JfrJavaArguments* args, JavaValue* result, TRAPS) { assert(args != NULL, "invariant"); assert(result != NULL, "invariant"); assert(result->get_type() == T_OBJECT, "invariant"); DEBUG_ONLY(JfrJavaSupport::check_java_thread_in_vm(THREAD)); InstanceKlass* const klass = static_cast(args->klass()); klass->initialize(CHECK); const int array_length = args->array_length(); if (array_length >= 0) { array_construction(args, result, klass, array_length, CHECK); } else { object_construction(args, result, klass, THREAD); } } static void handle_result(JavaValue* result, bool global_ref, JavaThread* t) { assert(result != NULL, "invariant"); DEBUG_ONLY(JfrJavaSupport::check_java_thread_in_vm(t)); const oop result_oop = result->get_oop(); if (result_oop == NULL) { return; } result->set_jobject(global_ref ? JfrJavaSupport::global_jni_handle(result_oop, t) : JfrJavaSupport::local_jni_handle(result_oop, t)); } void JfrJavaSupport::new_object(JfrJavaArguments* args, TRAPS) { assert(args != NULL, "invariant"); DEBUG_ONLY(check_java_thread_in_vm(THREAD)); create_object(args, args->result(), THREAD); } void JfrJavaSupport::new_object_local_ref(JfrJavaArguments* args, TRAPS) { assert(args != NULL, "invariant"); DEBUG_ONLY(check_java_thread_in_vm(THREAD)); JavaValue* const result = args->result(); assert(result != NULL, "invariant"); create_object(args, result, CHECK); handle_result(result, false, THREAD); } void JfrJavaSupport::new_object_global_ref(JfrJavaArguments* args, TRAPS) { assert(args != NULL, "invariant"); DEBUG_ONLY(check_java_thread_in_vm(THREAD)); JavaValue* const result = args->result(); assert(result != NULL, "invariant"); create_object(args, result, CHECK); handle_result(result, true, THREAD); } jstring JfrJavaSupport::new_string(const char* c_str, TRAPS) { assert(c_str != NULL, "invariant"); DEBUG_ONLY(check_java_thread_in_vm(THREAD)); const oop result = java_lang_String::create_oop_from_str(c_str, THREAD); return (jstring)local_jni_handle(result, THREAD); } jobjectArray JfrJavaSupport::new_string_array(int length, TRAPS) { DEBUG_ONLY(check_java_thread_in_vm(THREAD)); JavaValue result(T_OBJECT); JfrJavaArguments args(&result, "java/lang/String", "", "()V", CHECK_NULL); args.set_array_length(length); new_object_local_ref(&args, THREAD); return (jobjectArray)args.result()->get_jobject(); } jobject JfrJavaSupport::new_java_lang_Boolean(bool value, TRAPS) { DEBUG_ONLY(check_java_thread_in_vm(THREAD)); JavaValue result(T_OBJECT); JfrJavaArguments args(&result, "java/lang/Boolean", "", "(Z)V", CHECK_NULL); args.push_int(value ? (jint)JNI_TRUE : (jint)JNI_FALSE); new_object_local_ref(&args, THREAD); return args.result()->get_jobject(); } jobject JfrJavaSupport::new_java_lang_Integer(jint value, TRAPS) { DEBUG_ONLY(check_java_thread_in_vm(THREAD)); JavaValue result(T_OBJECT); JfrJavaArguments args(&result, "java/lang/Integer", "", "(I)V", CHECK_NULL); args.push_int(value); new_object_local_ref(&args, THREAD); return args.result()->get_jobject(); } jobject JfrJavaSupport::new_java_lang_Long(jlong value, TRAPS) { DEBUG_ONLY(check_java_thread_in_vm(THREAD)); JavaValue result(T_OBJECT); JfrJavaArguments args(&result, "java/lang/Long", "", "(J)V", CHECK_NULL); args.push_long(value); new_object_local_ref(&args, THREAD); return args.result()->get_jobject(); } void JfrJavaSupport::set_array_element(jobjectArray arr, jobject element, int index, JavaThread* t) { assert(arr != NULL, "invariant"); DEBUG_ONLY(check_java_thread_in_vm(t)); HandleMark hm(t); objArrayHandle a(t, (objArrayOop)resolve_non_null(arr)); a->obj_at_put(index, resolve_non_null(element)); } /* * Field access */ static void write_int_field(const Handle& h_oop, fieldDescriptor* fd, jint value) { assert(h_oop.not_null(), "invariant"); assert(fd != NULL, "invariant"); h_oop->int_field_put(fd->offset(), value); } static void write_float_field(const Handle& h_oop, fieldDescriptor* fd, jfloat value) { assert(h_oop.not_null(), "invariant"); assert(fd != NULL, "invariant"); h_oop->float_field_put(fd->offset(), value); } static void write_double_field(const Handle& h_oop, fieldDescriptor* fd, jdouble value) { assert(h_oop.not_null(), "invariant"); assert(fd != NULL, "invariant"); h_oop->double_field_put(fd->offset(), value); } static void write_long_field(const Handle& h_oop, fieldDescriptor* fd, jlong value) { assert(h_oop.not_null(), "invariant"); assert(fd != NULL, "invariant"); h_oop->long_field_put(fd->offset(), value); } static void write_oop_field(const Handle& h_oop, fieldDescriptor* fd, const oop value) { assert(h_oop.not_null(), "invariant"); assert(fd != NULL, "invariant"); h_oop->obj_field_put(fd->offset(), value); } static void write_specialized_field(JfrJavaArguments* args, const Handle& h_oop, fieldDescriptor* fd, bool static_field) { assert(args != NULL, "invariant"); assert(h_oop.not_null(), "invariant"); assert(fd != NULL, "invariant"); assert(fd->offset() > 0, "invariant"); assert(args->length() >= 1, "invariant"); // attempt must set a real value assert(args->param(1).get_type() != T_VOID, "invariant"); switch(fd->field_type()) { case T_BOOLEAN: case T_CHAR: case T_SHORT: case T_INT: write_int_field(h_oop, fd, args->param(1).get_jint()); break; case T_FLOAT: write_float_field(h_oop, fd, args->param(1).get_jfloat()); break; case T_DOUBLE: write_double_field(h_oop, fd, args->param(1).get_jdouble()); break; case T_LONG: write_long_field(h_oop, fd, args->param(1).get_jlong()); break; case T_OBJECT: write_oop_field(h_oop, fd, args->param(1).get_oop()); break; case T_ADDRESS: write_oop_field(h_oop, fd, JfrJavaSupport::resolve_non_null(args->param(1).get_jobject())); break; default: ShouldNotReachHere(); } } static void read_specialized_field(JavaValue* result, const Handle& h_oop, fieldDescriptor* fd) { assert(result != NULL, "invariant"); assert(h_oop.not_null(), "invariant"); assert(fd != NULL, "invariant"); assert(fd->offset() > 0, "invariant"); switch(fd->field_type()) { case T_BOOLEAN: case T_CHAR: case T_SHORT: case T_INT: result->set_jint(h_oop->int_field(fd->offset())); break; case T_FLOAT: result->set_jfloat(h_oop->float_field(fd->offset())); break; case T_DOUBLE: result->set_jdouble(h_oop->double_field(fd->offset())); break; case T_LONG: result->set_jlong(h_oop->long_field(fd->offset())); break; case T_OBJECT: result->set_oop(h_oop->obj_field(fd->offset())); break; default: ShouldNotReachHere(); } } static bool find_field(InstanceKlass* ik, Symbol* name_symbol, Symbol* signature_symbol, fieldDescriptor* fd, bool is_static = false, bool allow_super = false) { if (allow_super || is_static) { return ik->find_field(name_symbol, signature_symbol, is_static, fd) != NULL; } return ik->find_local_field(name_symbol, signature_symbol, fd); } static void lookup_field(JfrJavaArguments* args, InstanceKlass* klass, fieldDescriptor* fd, bool static_field) { assert(args != NULL, "invariant"); assert(klass != NULL, "invariant"); assert(klass->is_initialized(), "invariant"); assert(fd != NULL, "invariant"); find_field(klass, args->name(), args->signature(), fd, static_field, true); } static void read_field(JfrJavaArguments* args, JavaValue* result, TRAPS) { assert(args != NULL, "invariant"); assert(result != NULL, "invariant"); DEBUG_ONLY(JfrJavaSupport::check_java_thread_in_vm(THREAD)); InstanceKlass* const klass = static_cast(args->klass()); klass->initialize(CHECK); const bool static_field = !args->has_receiver(); fieldDescriptor fd; lookup_field(args, klass, &fd, static_field); assert(fd.offset() > 0, "invariant"); HandleMark hm(THREAD); Handle h_oop(static_field ? Handle(THREAD, klass->java_mirror()) : Handle(THREAD, args->receiver())); read_specialized_field(result, h_oop, &fd); } static void write_field(JfrJavaArguments* args, JavaValue* result, TRAPS) { assert(args != NULL, "invariant"); assert(result != NULL, "invariant"); DEBUG_ONLY(JfrJavaSupport::check_java_thread_in_vm(THREAD)); InstanceKlass* const klass = static_cast(args->klass()); klass->initialize(CHECK); const bool static_field = !args->has_receiver(); fieldDescriptor fd; lookup_field(args, klass, &fd, static_field); assert(fd.offset() > 0, "invariant"); HandleMark hm(THREAD); Handle h_oop(static_field ? Handle(THREAD, klass->java_mirror()) : Handle(THREAD, args->receiver())); write_specialized_field(args, h_oop, &fd, static_field); } void JfrJavaSupport::set_field(JfrJavaArguments* args, TRAPS) { assert(args != NULL, "invariant"); write_field(args, args->result(), THREAD); } void JfrJavaSupport::get_field(JfrJavaArguments* args, TRAPS) { assert(args != NULL, "invariant"); read_field(args, args->result(), THREAD); } void JfrJavaSupport::get_field_local_ref(JfrJavaArguments* args, TRAPS) { assert(args != NULL, "invariant"); DEBUG_ONLY(check_java_thread_in_vm(THREAD)); JavaValue* const result = args->result(); assert(result != NULL, "invariant"); assert(result->get_type() == T_OBJECT, "invariant"); read_field(args, result, CHECK); const oop obj = result->get_oop(); if (obj != NULL) { result->set_jobject(local_jni_handle(obj, THREAD)); } } void JfrJavaSupport::get_field_global_ref(JfrJavaArguments* args, TRAPS) { assert(args != NULL, "invariant"); DEBUG_ONLY(check_java_thread_in_vm(THREAD)); JavaValue* const result = args->result(); assert(result != NULL, "invariant"); assert(result->get_type() == T_OBJECT, "invariant"); read_field(args, result, CHECK); const oop obj = result->get_oop(); if (obj != NULL) { result->set_jobject(global_jni_handle(obj, THREAD)); } } /* * Misc */ Klass* JfrJavaSupport::klass(const jobject handle) { const oop obj = resolve_non_null(handle); assert(obj != NULL, "invariant"); return obj->klass(); } static char* allocate_string(bool c_heap, int length, JavaThread* jt) { return c_heap ? NEW_C_HEAP_ARRAY(char, length, mtTracing) : NEW_RESOURCE_ARRAY_IN_THREAD(jt, char, length); } const char* JfrJavaSupport::c_str(oop string, JavaThread* t, bool c_heap /* false */) { DEBUG_ONLY(check_java_thread_in_vm(t)); char* str = NULL; const typeArrayOop value = java_lang_String::value(string); if (value != NULL) { const int length = java_lang_String::utf8_length(string, value); str = allocate_string(c_heap, length + 1, t); if (str == NULL) { JfrJavaSupport::throw_out_of_memory_error("Unable to allocate native memory", t); return NULL; } java_lang_String::as_utf8_string(string, value, str, length + 1); } return str; } const char* JfrJavaSupport::c_str(jstring string, JavaThread* t, bool c_heap /* false */) { DEBUG_ONLY(check_java_thread_in_vm(t)); return string != NULL ? c_str(resolve_non_null(string), t, c_heap) : NULL; } /* * Exceptions and errors */ static void create_and_throw(Symbol* name, const char* message, TRAPS) { assert(name != NULL, "invariant"); DEBUG_ONLY(JfrJavaSupport::check_java_thread_in_vm(THREAD)); assert(!HAS_PENDING_EXCEPTION, "invariant"); THROW_MSG(name, message); } void JfrJavaSupport::throw_illegal_state_exception(const char* message, TRAPS) { create_and_throw(vmSymbols::java_lang_IllegalStateException(), message, THREAD); } void JfrJavaSupport::throw_internal_error(const char* message, TRAPS) { create_and_throw(vmSymbols::java_lang_InternalError(), message, THREAD); } void JfrJavaSupport::throw_illegal_argument_exception(const char* message, TRAPS) { create_and_throw(vmSymbols::java_lang_IllegalArgumentException(), message, THREAD); } void JfrJavaSupport::throw_out_of_memory_error(const char* message, TRAPS) { create_and_throw(vmSymbols::java_lang_OutOfMemoryError(), message, THREAD); } void JfrJavaSupport::throw_class_format_error(const char* message, TRAPS) { create_and_throw(vmSymbols::java_lang_ClassFormatError(), message, THREAD); } void JfrJavaSupport::throw_runtime_exception(const char* message, TRAPS) { create_and_throw(vmSymbols::java_lang_RuntimeException(), message, THREAD); } void JfrJavaSupport::abort(jstring errorMsg, JavaThread* t) { DEBUG_ONLY(check_java_thread_in_vm(t)); ResourceMark rm(t); const char* const error_msg = c_str(errorMsg, t); if (error_msg != NULL) { log_error(jfr, system)("%s",error_msg); } log_error(jfr, system)("%s", "An irrecoverable error in Jfr. Shutting down VM..."); vm_abort(); } JfrJavaSupport::CAUSE JfrJavaSupport::_cause = JfrJavaSupport::VM_ERROR; void JfrJavaSupport::set_cause(jthrowable throwable, JavaThread* t) { DEBUG_ONLY(check_java_thread_in_vm(t)); HandleMark hm(t); Handle ex(t, JNIHandles::resolve_external_guard(throwable)); if (ex.is_null()) { return; } if (ex->is_a(vmClasses::OutOfMemoryError_klass())) { _cause = OUT_OF_MEMORY; return; } if (ex->is_a(vmClasses::StackOverflowError_klass())) { _cause = STACK_OVERFLOW; return; } if (ex->is_a(vmClasses::Error_klass())) { _cause = VM_ERROR; return; } if (ex->is_a(vmClasses::RuntimeException_klass())) { _cause = RUNTIME_EXCEPTION; return; } if (ex->is_a(vmClasses::Exception_klass())) { _cause = UNKNOWN; return; } } void JfrJavaSupport::uncaught_exception(jthrowable throwable, JavaThread* t) { DEBUG_ONLY(check_java_thread_in_vm(t)); assert(throwable != NULL, "invariant"); set_cause(throwable, t); } JfrJavaSupport::CAUSE JfrJavaSupport::cause() { return _cause; } const char* const JDK_JFR_MODULE_NAME = "jdk.jfr"; const char* const JDK_JFR_PACKAGE_NAME = "jdk/jfr"; static bool is_jdk_jfr_module_in_readability_graph() { // take one of the packages in the module to be located and query for its definition. TempNewSymbol pkg_sym = SymbolTable::new_symbol(JDK_JFR_PACKAGE_NAME); return Modules::is_package_defined(pkg_sym, Handle()); } static void print_module_resolution_error(outputStream* stream) { assert(stream != NULL, "invariant"); stream->print_cr("Module %s not found.", JDK_JFR_MODULE_NAME); stream->print_cr("Flight Recorder can not be enabled."); } bool JfrJavaSupport::is_jdk_jfr_module_available() { return is_jdk_jfr_module_in_readability_graph(); } bool JfrJavaSupport::is_jdk_jfr_module_available(outputStream* stream, TRAPS) { if (!JfrJavaSupport::is_jdk_jfr_module_available()) { if (stream != NULL) { print_module_resolution_error(stream); } return false; } return true; } class ThreadExclusionListAccess : public StackObj { private: static Semaphore _mutex_semaphore; public: ThreadExclusionListAccess() { _mutex_semaphore.wait(); } ~ThreadExclusionListAccess() { _mutex_semaphore.signal(); } }; Semaphore ThreadExclusionListAccess::_mutex_semaphore(1); static GrowableArray* exclusion_list = NULL; static bool equals(const jweak excluded_thread, Handle target_thread) { return JfrJavaSupport::resolve_non_null(excluded_thread) == target_thread(); } static int find_exclusion_thread_idx(Handle thread) { if (exclusion_list != NULL) { for (int i = 0; i < exclusion_list->length(); ++i) { if (equals(exclusion_list->at(i), thread)) { return i; } } } return -1; } static Handle as_handle(jobject thread) { return Handle(Thread::current(), JfrJavaSupport::resolve_non_null(thread)); } static bool thread_is_not_excluded(Handle thread) { return -1 == find_exclusion_thread_idx(thread); } static bool thread_is_not_excluded(jobject thread) { return thread_is_not_excluded(as_handle(thread)); } static bool is_thread_excluded(jobject thread) { return !thread_is_not_excluded(thread); } #ifdef ASSERT static bool is_thread_excluded(Handle thread) { return !thread_is_not_excluded(thread); } #endif // ASSERT static int add_thread_to_exclusion_list(jobject thread) { ThreadExclusionListAccess lock; if (exclusion_list == NULL) { exclusion_list = new (ResourceObj::C_HEAP, mtTracing) GrowableArray(10, mtTracing); } assert(exclusion_list != NULL, "invariant"); assert(thread_is_not_excluded(thread), "invariant"); jweak ref = JfrJavaSupport::global_weak_jni_handle(thread, JavaThread::current()); const int idx = exclusion_list->append(ref); assert(is_thread_excluded(thread), "invariant"); return idx; } static void remove_thread_from_exclusion_list(Handle thread) { assert(exclusion_list != NULL, "invariant"); assert(is_thread_excluded(thread), "invariant"); assert(exclusion_list != NULL, "invariant"); const int idx = find_exclusion_thread_idx(thread); assert(idx >= 0, "invariant"); assert(idx < exclusion_list->length(), "invariant"); JfrJavaSupport::destroy_global_weak_jni_handle(exclusion_list->at(idx)); exclusion_list->delete_at(idx); assert(thread_is_not_excluded(thread), "invariant"); if (0 == exclusion_list->length()) { delete exclusion_list; exclusion_list = NULL; } } static void remove_thread_from_exclusion_list(jobject thread) { ThreadExclusionListAccess lock; remove_thread_from_exclusion_list(as_handle(thread)); } // includes removal static bool check_exclusion_state_on_thread_start(JavaThread* jt) { Handle h_obj(jt, jt->threadObj()); ThreadExclusionListAccess lock; if (thread_is_not_excluded(h_obj)) { return false; } remove_thread_from_exclusion_list(h_obj); return true; } static JavaThread* get_native(jobject thread) { ThreadsListHandle tlh; JavaThread* native_thread = NULL; (void)tlh.cv_internal_thread_to_JavaThread(thread, &native_thread, NULL); return native_thread; } jlong JfrJavaSupport::jfr_thread_id(jobject thread) { JavaThread* native_thread = get_native(thread); return native_thread != NULL ? JFR_THREAD_ID(native_thread) : 0; } void JfrJavaSupport::exclude(jobject thread) { JavaThread* native_thread = get_native(thread); if (native_thread != NULL) { JfrThreadLocal::exclude(native_thread); } else { // not started yet, track the thread oop add_thread_to_exclusion_list(thread); } } void JfrJavaSupport::include(jobject thread) { JavaThread* native_thread = get_native(thread); if (native_thread != NULL) { JfrThreadLocal::include(native_thread); } else { // not started yet, untrack the thread oop remove_thread_from_exclusion_list(thread); } } bool JfrJavaSupport::is_excluded(jobject thread) { JavaThread* native_thread = get_native(thread); return native_thread != NULL ? native_thread->jfr_thread_local()->is_excluded() : is_thread_excluded(thread); } static const Klass* get_handler_field_descriptor(const Handle& h_mirror, fieldDescriptor* descriptor, TRAPS) { assert(h_mirror.not_null(), "invariant"); assert(descriptor != NULL, "invariant"); Klass* const k = java_lang_Class::as_Klass(h_mirror()); assert(k->is_instance_klass(), "invariant"); InstanceKlass* const ik = InstanceKlass::cast(k); if (ik->is_not_initialized()) { ik->initialize(CHECK_NULL); } assert(ik->is_being_initialized() || ik->is_initialized(), "invariant"); const Klass* const typed_field_holder = ik->find_field(vmSymbols::eventHandler_name(), vmSymbols::jdk_jfr_internal_handlers_EventHandler_signature(), true, descriptor); return typed_field_holder != NULL ? typed_field_holder : ik->find_field(vmSymbols::eventHandler_name(), vmSymbols::object_signature(), // untyped true, descriptor); } jobject JfrJavaSupport::get_handler(jobject clazz, TRAPS) { DEBUG_ONLY(JfrJavaSupport::check_java_thread_in_vm(THREAD)); HandleMark hm(THREAD); const Handle h_mirror(Handle(THREAD, JNIHandles::resolve(clazz))); assert(h_mirror.not_null(), "invariant"); fieldDescriptor handler_field_descriptor; const Klass* const field_holder = get_handler_field_descriptor(h_mirror, &handler_field_descriptor, THREAD); if (field_holder == NULL) { // The only reason should be that klass initialization failed. return NULL; } assert(java_lang_Class::as_Klass(h_mirror()) == field_holder, "invariant"); oop handler_oop = h_mirror->obj_field(handler_field_descriptor.offset()); return handler_oop != NULL ? JfrJavaSupport::local_jni_handle(handler_oop, THREAD) : NULL; } bool JfrJavaSupport::set_handler(jobject clazz, jobject handler, TRAPS) { DEBUG_ONLY(JfrJavaSupport::check_java_thread_in_vm(THREAD)); HandleMark hm(THREAD); const Handle h_mirror(Handle(THREAD, JNIHandles::resolve(clazz))); assert(h_mirror.not_null(), "invariant"); fieldDescriptor handler_field_descriptor; const Klass* const field_holder = get_handler_field_descriptor(h_mirror, &handler_field_descriptor, THREAD); if (field_holder == NULL) { // The only reason should be that klass initialization failed. return false; } assert(java_lang_Class::as_Klass(h_mirror()) == field_holder, "invariant"); const oop handler_oop = JNIHandles::resolve(handler); assert(handler_oop != NULL, "invariant"); h_mirror->obj_field_put(handler_field_descriptor.offset(), handler_oop); return true; } void JfrJavaSupport::on_thread_start(Thread* t) { assert(t != NULL, "invariant"); assert(Thread::current() == t, "invariant"); if (!t->is_Java_thread()) { return; } DEBUG_ONLY(check_new_unstarted_java_thread(JavaThread::cast(t));) HandleMark hm(t); if (check_exclusion_state_on_thread_start(JavaThread::cast(t))) { JfrThreadLocal::exclude(t); } }