/* * Copyright (c) 2012, 2018, 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 "jvm.h" #include "classfile/classLoaderStats.hpp" #include "classfile/javaClasses.hpp" #include "code/codeCache.hpp" #include "compiler/compileBroker.hpp" #include "gc_implementation/g1/g1HeapRegionEventSender.hpp" #include "gc_implementation/shared/gcConfiguration.hpp" #include "gc_implementation/shared/gcTrace.hpp" #include "gc_implementation/shared/objectCountEventSender.hpp" #include "gc_implementation/shared/vmGCOperations.hpp" #include "jfr/jfrEvents.hpp" #include "jfr/periodic/jfrOSInterface.hpp" #include "jfr/periodic/jfrThreadCPULoadEvent.hpp" #include "jfr/periodic/jfrThreadDumpEvent.hpp" #include "jfr/periodic/jfrNetworkUtilization.hpp" #include "jfr/recorder/jfrRecorder.hpp" #include "jfr/support/jfrThreadId.hpp" #include "jfr/utilities/jfrThreadIterator.hpp" #include "jfr/utilities/jfrTime.hpp" #include "jfrfiles/jfrPeriodic.hpp" #include "memory/heapInspection.hpp" #include "memory/resourceArea.hpp" #include "oops/oop.inline.hpp" #include "runtime/arguments.hpp" #include "runtime/globals.hpp" #include "runtime/os.hpp" #include "runtime/os_perf.hpp" #include "runtime/thread.inline.hpp" #include "runtime/sweeper.hpp" #include "runtime/vmThread.hpp" #include "services/classLoadingService.hpp" #include "services/management.hpp" #include "services/runtimeService.hpp" #include "services/threadService.hpp" #include "utilities/exceptions.hpp" #include "utilities/globalDefinitions.hpp" /** * JfrPeriodic class * Implementation of declarations in * xsl generated traceRequestables.hpp */ #define TRACE_REQUEST_FUNC(id) void JfrPeriodicEventSet::request##id(void) TRACE_REQUEST_FUNC(JVMInformation) { ResourceMark rm; EventJVMInformation event; event.set_jvmName(VM_Version::vm_name()); event.set_jvmVersion(VM_Version::internal_vm_info_string()); event.set_javaArguments(Arguments::java_command()); event.set_jvmArguments(Arguments::jvm_args()); event.set_jvmFlags(Arguments::jvm_flags()); event.set_jvmStartTime(Management::vm_init_done_time()); event.set_pid(os::current_process_id()); event.commit(); } TRACE_REQUEST_FUNC(OSInformation) { ResourceMark rm; char* os_name = NEW_RESOURCE_ARRAY(char, 2048); JfrOSInterface::os_version(&os_name); EventOSInformation event; event.set_osVersion(os_name); event.commit(); } /* * This is left empty on purpose, having ExecutionSample as a requestable * is a way of getting the period. The period is passed to ThreadSampling::update_period. * Implementation in jfrSamples.cpp */ TRACE_REQUEST_FUNC(ExecutionSample) { } TRACE_REQUEST_FUNC(NativeMethodSample) { } TRACE_REQUEST_FUNC(ThreadDump) { ResourceMark rm; EventThreadDump event; event.set_result(JfrDcmdEvent::thread_dump()); event.commit(); } static int _native_library_callback(const char* name, address base, address top, void *param) { EventNativeLibrary event(UNTIMED); event.set_name(name); event.set_baseAddress((u8)base); event.set_topAddress((u8)top); event.set_endtime(*(JfrTicks*) param); event.commit(); return 0; } TRACE_REQUEST_FUNC(NativeLibrary) { JfrTicks ts= JfrTicks::now(); os::get_loaded_modules_info(&_native_library_callback, (void *)&ts); } TRACE_REQUEST_FUNC(InitialEnvironmentVariable) { JfrOSInterface::generate_initial_environment_variable_events(); } TRACE_REQUEST_FUNC(CPUInformation) { CPUInformation cpu_info; int ret_val = JfrOSInterface::cpu_information(cpu_info); if (ret_val == OS_ERR) { if (LogJFR) tty->print_cr( "Unable to generate requestable event CPUInformation"); return; } if (ret_val == FUNCTIONALITY_NOT_IMPLEMENTED) { return; } if (ret_val == OS_OK) { EventCPUInformation event; event.set_cpu(cpu_info.cpu_name()); event.set_description(cpu_info.cpu_description()); event.set_sockets(cpu_info.number_of_sockets()); event.set_cores(cpu_info.number_of_cores()); event.set_hwThreads(cpu_info.number_of_hardware_threads()); event.commit(); } } TRACE_REQUEST_FUNC(CPULoad) { double u = 0; // user time double s = 0; // kernel time double t = 0; // total time int ret_val = JfrOSInterface::cpu_loads_process(&u, &s, &t); if (ret_val == OS_ERR) { if (LogJFR) tty->print_cr( "Unable to generate requestable event CPULoad"); return; } if (ret_val == OS_OK) { EventCPULoad event; event.set_jvmUser((float)u); event.set_jvmSystem((float)s); event.set_machineTotal((float)t); event.commit(); } } TRACE_REQUEST_FUNC(ThreadCPULoad) { JfrThreadCPULoadEvent::send_events(); } TRACE_REQUEST_FUNC(NetworkUtilization) { JfrNetworkUtilization::send_events(); } TRACE_REQUEST_FUNC(CPUTimeStampCounter) { EventCPUTimeStampCounter event; event.set_fastTimeEnabled(JfrTime::is_ft_enabled()); event.set_fastTimeAutoEnabled(JfrTime::is_ft_supported()); event.set_osFrequency(os::elapsed_frequency()); event.set_fastTimeFrequency(JfrTime::frequency()); event.commit(); } TRACE_REQUEST_FUNC(SystemProcess) { char pid_buf[16]; SystemProcess* processes = NULL; int num_of_processes = 0; JfrTicks start_time = JfrTicks::now(); int ret_val = JfrOSInterface::system_processes(&processes, &num_of_processes); if (ret_val == OS_ERR) { if (LogJFR) tty->print_cr( "Unable to generate requestable event SystemProcesses"); return; } JfrTicks end_time = JfrTicks::now(); if (ret_val == FUNCTIONALITY_NOT_IMPLEMENTED) { return; } if (ret_val == OS_OK) { // feature is implemented, write real event while (processes != NULL) { SystemProcess* tmp = processes; const char* info = processes->command_line(); if (info == NULL) { info = processes->path(); } if (info == NULL) { info = processes->name(); } if (info == NULL) { info = "?"; } jio_snprintf(pid_buf, sizeof(pid_buf), "%d", processes->pid()); EventSystemProcess event(UNTIMED); event.set_pid(pid_buf); event.set_commandLine(info); event.set_starttime(start_time); event.set_endtime(end_time); event.commit(); processes = processes->next(); delete tmp; } } } TRACE_REQUEST_FUNC(ThreadContextSwitchRate) { double rate = 0.0; int ret_val = JfrOSInterface::context_switch_rate(&rate); if (ret_val == OS_ERR) { if (LogJFR) tty->print_cr( "Unable to generate requestable event ThreadContextSwitchRate"); return; } if (ret_val == FUNCTIONALITY_NOT_IMPLEMENTED) { return; } if (ret_val == OS_OK) { EventThreadContextSwitchRate event; event.set_switchRate((float)rate + 0.0f); event.commit(); } } #define SEND_FLAGS_OF_TYPE(eventType, flagType) \ do { \ Flag *flag = Flag::flags; \ while (flag->_name != NULL) { \ if (flag->is_ ## flagType()) { \ if (flag->is_unlocked()) { \ Event ## eventType event; \ event.set_name(flag->_name); \ event.set_value(flag->get_ ## flagType()); \ event.set_origin(flag->get_origin()); \ event.commit(); \ } \ } \ ++flag; \ } \ } while (0) TRACE_REQUEST_FUNC(IntFlag) { SEND_FLAGS_OF_TYPE(IntFlag, intx); } TRACE_REQUEST_FUNC(UnsignedIntFlag) { SEND_FLAGS_OF_TYPE(UnsignedIntFlag, uintx); } TRACE_REQUEST_FUNC(LongFlag) { SEND_FLAGS_OF_TYPE(LongFlag, intx); } TRACE_REQUEST_FUNC(UnsignedLongFlag) { SEND_FLAGS_OF_TYPE(UnsignedLongFlag, uintx); SEND_FLAGS_OF_TYPE(UnsignedLongFlag, uint64_t); } TRACE_REQUEST_FUNC(DoubleFlag) { SEND_FLAGS_OF_TYPE(DoubleFlag, double); } TRACE_REQUEST_FUNC(BooleanFlag) { SEND_FLAGS_OF_TYPE(BooleanFlag, bool); } TRACE_REQUEST_FUNC(StringFlag) { SEND_FLAGS_OF_TYPE(StringFlag, ccstr); } class VM_GC_SendObjectCountEvent : public VM_GC_HeapInspection { public: VM_GC_SendObjectCountEvent() : VM_GC_HeapInspection(NULL, true) {} virtual void doit() { ObjectCountEventSender::enable_requestable_event(); collect(); ObjectCountEventSender::disable_requestable_event(); } }; TRACE_REQUEST_FUNC(ObjectCount) { VM_GC_SendObjectCountEvent op; VMThread::execute(&op); } class VM_G1SendHeapRegionInfoEvents : public VM_Operation { virtual void doit() { G1HeapRegionEventSender::send_events(); } virtual VMOp_Type type() const { return VMOp_HeapIterateOperation; } }; TRACE_REQUEST_FUNC(G1HeapRegionInformation) { if (UseG1GC) { VM_G1SendHeapRegionInfoEvents op; VMThread::execute(&op); } } // Java Mission Control (JMC) uses (Java) Long.MIN_VALUE to describe that a // long value is undefined. static jlong jmc_undefined_long = min_jlong; TRACE_REQUEST_FUNC(GCConfiguration) { GCConfiguration conf; jlong pause_target = conf.has_pause_target_default_value() ? jmc_undefined_long : conf.pause_target(); EventGCConfiguration event; event.set_youngCollector(conf.young_collector()); event.set_oldCollector(conf.old_collector()); event.set_parallelGCThreads(conf.num_parallel_gc_threads()); event.set_concurrentGCThreads(conf.num_concurrent_gc_threads()); event.set_usesDynamicGCThreads(conf.uses_dynamic_gc_threads()); event.set_isExplicitGCConcurrent(conf.is_explicit_gc_concurrent()); event.set_isExplicitGCDisabled(conf.is_explicit_gc_disabled()); event.set_gcTimeRatio(conf.gc_time_ratio()); event.set_pauseTarget((s8)pause_target); event.commit(); } TRACE_REQUEST_FUNC(GCTLABConfiguration) { GCTLABConfiguration conf; EventGCTLABConfiguration event; event.set_usesTLABs(conf.uses_tlabs()); event.set_minTLABSize(conf.min_tlab_size()); event.set_tlabRefillWasteLimit(conf.tlab_refill_waste_limit()); event.commit(); } TRACE_REQUEST_FUNC(GCSurvivorConfiguration) { GCSurvivorConfiguration conf; EventGCSurvivorConfiguration event; event.set_maxTenuringThreshold(conf.max_tenuring_threshold()); event.set_initialTenuringThreshold(conf.initial_tenuring_threshold()); event.commit(); } TRACE_REQUEST_FUNC(GCHeapConfiguration) { GCHeapConfiguration conf; EventGCHeapConfiguration event; event.set_minSize(conf.min_size()); event.set_maxSize(conf.max_size()); event.set_initialSize(conf.initial_size()); event.set_usesCompressedOops(conf.uses_compressed_oops()); event.set_compressedOopsMode(conf.narrow_oop_mode()); event.set_objectAlignment(conf.object_alignment_in_bytes()); event.set_heapAddressBits(conf.heap_address_size_in_bits()); event.commit(); } TRACE_REQUEST_FUNC(YoungGenerationConfiguration) { GCYoungGenerationConfiguration conf; jlong max_size = conf.has_max_size_default_value() ? jmc_undefined_long : conf.max_size(); EventYoungGenerationConfiguration event; event.set_maxSize((u8)max_size); event.set_minSize(conf.min_size()); event.set_newRatio(conf.new_ratio()); event.commit(); } TRACE_REQUEST_FUNC(InitialSystemProperty) { SystemProperty* p = Arguments::system_properties(); JfrTicks time_stamp = JfrTicks::now(); while (p != NULL) { if (true/* XXX fix me if you want !p->internal()*/) { EventInitialSystemProperty event(UNTIMED); event.set_key(p->key()); event.set_value(p->value()); event.set_endtime(time_stamp); event.commit(); } p = p->next(); } } TRACE_REQUEST_FUNC(ThreadAllocationStatistics) { ResourceMark rm; int initial_size = Threads::number_of_threads(); GrowableArray allocated(initial_size); GrowableArray thread_ids(initial_size); JfrTicks time_stamp = JfrTicks::now(); { // Collect allocation statistics while holding threads lock MutexLockerEx ml(Threads_lock); JfrJavaThreadIterator iter; while (iter.has_next()) { JavaThread* const jt = iter.next(); assert(jt != NULL, "invariant"); allocated.append(jt->cooked_allocated_bytes()); thread_ids.append(JFR_THREAD_ID(jt)); } } // Write allocation statistics to buffer. for(int i = 0; i < thread_ids.length(); i++) { EventThreadAllocationStatistics event(UNTIMED); event.set_allocated(allocated.at(i)); event.set_thread(thread_ids.at(i)); event.set_endtime(time_stamp); event.commit(); } } /** * PhysicalMemory event represents: * * @totalSize == The amount of physical memory (hw) installed and reported by the OS, in bytes. * @usedSize == The amount of physical memory currently in use in the system (reserved/committed), in bytes. * * Both fields are systemwide, i.e. represents the entire OS/HW environment. * These fields do not include virtual memory. * * If running inside a guest OS on top of a hypervisor in a virtualized environment, * the total memory reported is the amount of memory configured for the guest OS by the hypervisor. */ TRACE_REQUEST_FUNC(PhysicalMemory) { u8 totalPhysicalMemory = os::physical_memory(); EventPhysicalMemory event; event.set_totalSize(totalPhysicalMemory); event.set_usedSize(totalPhysicalMemory - os::available_memory()); event.commit(); } TRACE_REQUEST_FUNC(JavaThreadStatistics) { EventJavaThreadStatistics event; event.set_activeCount(ThreadService::get_live_thread_count()); event.set_daemonCount(ThreadService::get_daemon_thread_count()); event.set_accumulatedCount(ThreadService::get_total_thread_count()); event.set_peakCount(ThreadService::get_peak_thread_count()); event.commit(); } TRACE_REQUEST_FUNC(ClassLoadingStatistics) { EventClassLoadingStatistics event; event.set_loadedClassCount(ClassLoadingService::loaded_class_count()); event.set_unloadedClassCount(ClassLoadingService::unloaded_class_count()); event.commit(); } class JfrClassLoaderStatsClosure : public ClassLoaderStatsClosure { public: JfrClassLoaderStatsClosure() : ClassLoaderStatsClosure(NULL) {} bool do_entry(oop const& key, ClassLoaderStats* const& cls) { const ClassLoaderData* this_cld = cls->_class_loader != NULL ? java_lang_ClassLoader::loader_data(cls->_class_loader) : (ClassLoaderData*)NULL; const ClassLoaderData* parent_cld = cls->_parent != NULL ? java_lang_ClassLoader::loader_data(cls->_parent) : (ClassLoaderData*)NULL; EventClassLoaderStatistics event; event.set_classLoader(this_cld); event.set_parentClassLoader(parent_cld); event.set_classLoaderData((intptr_t)cls->_cld); event.set_classCount(cls->_classes_count); event.set_chunkSize(cls->_chunk_sz); event.set_blockSize(cls->_block_sz); event.set_anonymousClassCount(cls->_anon_classes_count); event.set_anonymousChunkSize(cls->_anon_chunk_sz); event.set_anonymousBlockSize(cls->_anon_block_sz); event.commit(); return true; } void createEvents(void) { _stats->iterate(this); } }; class JfrClassLoaderStatsVMOperation : public ClassLoaderStatsVMOperation { public: JfrClassLoaderStatsVMOperation() : ClassLoaderStatsVMOperation(NULL) { } void doit() { JfrClassLoaderStatsClosure clsc; ClassLoaderDataGraph::cld_do(&clsc); clsc.createEvents(); } }; TRACE_REQUEST_FUNC(ClassLoaderStatistics) { JfrClassLoaderStatsVMOperation op; VMThread::execute(&op); } TRACE_REQUEST_FUNC(CompilerStatistics) { EventCompilerStatistics event; event.set_compileCount(CompileBroker::get_total_compile_count()); event.set_bailoutCount(CompileBroker::get_total_bailout_count()); event.set_invalidatedCount(CompileBroker::get_total_invalidated_count()); event.set_osrCompileCount(CompileBroker::get_total_osr_compile_count()); event.set_standardCompileCount(CompileBroker::get_total_standard_compile_count()); event.set_osrBytesCompiled(CompileBroker::get_sum_osr_bytes_compiled()); event.set_standardBytesCompiled(CompileBroker::get_sum_standard_bytes_compiled()); event.set_nmetodsSize(CompileBroker::get_sum_nmethod_size()); event.set_nmetodCodeSize(CompileBroker::get_sum_nmethod_code_size()); event.set_peakTimeSpent(CompileBroker::get_peak_compilation_time()); event.set_totalTimeSpent(CompileBroker::get_total_compilation_time()); event.commit(); } TRACE_REQUEST_FUNC(CompilerConfiguration) { EventCompilerConfiguration event; event.set_threadCount(CICompilerCount); event.set_tieredCompilation(TieredCompilation); event.commit(); } TRACE_REQUEST_FUNC(CodeCacheStatistics) { EventCodeCacheStatistics event; event.set_codeBlobType((u1)0/*bt*/); // XXX event.set_startAddress((u8)CodeCache::low_bound()); event.set_reservedTopAddress((u8)CodeCache::high_bound()); event.set_entryCount(CodeCache::nof_blobs()); event.set_methodCount(CodeCache::nof_nmethods()); event.set_adaptorCount(CodeCache::nof_adapters()); event.set_unallocatedCapacity(CodeCache::unallocated_capacity()); event.set_fullCount(CodeCache::get_codemem_full_count()); event.commit(); } TRACE_REQUEST_FUNC(CodeCacheConfiguration) { EventCodeCacheConfiguration event; event.set_initialSize(InitialCodeCacheSize); event.set_reservedSize(ReservedCodeCacheSize); event.set_nonNMethodSize(0/*NonNMethodCodeHeapSize*/); // XXX event.set_profiledSize(0/*ProfiledCodeHeapSize*/); // XXX event.set_nonProfiledSize(0/*NonProfiledCodeHeapSize*/); // XXX event.set_expansionSize(CodeCacheExpansionSize); event.set_minBlockLength(CodeCacheMinBlockLength); event.set_startAddress((u8)CodeCache::low_bound()); event.set_reservedTopAddress((u8)CodeCache::high_bound()); event.commit(); } TRACE_REQUEST_FUNC(CodeSweeperStatistics) { EventCodeSweeperStatistics event; event.set_sweepCount(NMethodSweeper::traversal_count()); event.set_methodReclaimedCount(NMethodSweeper::total_nof_methods_reclaimed()); event.set_totalSweepTime(NMethodSweeper::total_time_sweeping()); event.set_peakFractionTime(NMethodSweeper::peak_sweep_fraction_time()); event.set_peakSweepTime(NMethodSweeper::peak_sweep_time()); event.commit(); } TRACE_REQUEST_FUNC(CodeSweeperConfiguration) { EventCodeSweeperConfiguration event; event.set_sweeperEnabled(MethodFlushing); event.set_flushingEnabled(UseCodeCacheFlushing); event.commit(); } TRACE_REQUEST_FUNC(SafepointStatistics) { EventSafepointStatistics event; event.set_totalCount(RuntimeService::safepoint_count()); event.set_syncTime(RuntimeService::safepoint_sync_time_ms()); event.set_safepointTime(RuntimeService::safepoint_time_ms()); event.set_applicationTime(RuntimeService::application_time_ms()); event.set_maxSyncTime(SafepointSynchronize::max_sync_time_ms()); event.set_maxVMOperatoinTime(SafepointSynchronize::max_vmop_time_ms()); event.commit(); }