New metadata system for oldobjects built on top of simplified tagging model. Caching and serialization improvements. Flushpoint checkpoint with chunkheader contents.
/*
* Copyright (c) 2012, 2019, 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 "jfr/jfrEvents.hpp"
#include "jfr/periodic/jfrNetworkUtilization.hpp"
#include "jfr/periodic/jfrOSInterface.hpp"
#include "memory/allocation.inline.hpp"
#include "memory/resourceArea.hpp"
#include "runtime/os.hpp"
#include "runtime/os_perf.hpp"
#include "utilities/ostream.hpp"
#include <stdlib.h> // for environment variables
#ifdef __APPLE__
#include <crt_externs.h>
#define environ (*_NSGetEnviron())
#endif
#ifndef environ
extern char** environ;
#endif
static JfrOSInterface* _instance = NULL;
JfrOSInterface& JfrOSInterface::instance() {
return *_instance;
}
JfrOSInterface* JfrOSInterface::create() {
assert(_instance == NULL, "invariant");
_instance = new JfrOSInterface();
return _instance;
}
void JfrOSInterface::destroy() {
JfrNetworkUtilization::destroy();
if (_instance != NULL) {
delete _instance;
_instance = NULL;
}
}
class JfrOSInterface::JfrOSInterfaceImpl : public JfrCHeapObj {
friend class JfrOSInterface;
private:
CPUInformationInterface* _cpu_info_interface;
CPUPerformanceInterface* _cpu_perf_interface;
SystemProcessInterface* _system_process_interface;
NetworkPerformanceInterface* _network_performance_interface;
CPUInformationInterface* cpu_info_interface();
CPUPerformanceInterface* cpu_perf_interface();
SystemProcessInterface* system_process_interface();
NetworkPerformanceInterface* network_performance_interface();
JfrOSInterfaceImpl();
bool initialize();
~JfrOSInterfaceImpl();
// cpu info
int cpu_information(CPUInformation& cpu_info);
int cpu_load(int which_logical_cpu, double* cpu_load);
int context_switch_rate(double* rate);
int cpu_load_total_process(double* cpu_load);
int cpu_loads_process(double* pjvmUserLoad, double* pjvmKernelLoad, double* psystemTotal);
// os information
int os_version(char** os_version) const;
// environment information
void generate_environment_variables_events();
// system processes information
int system_processes(SystemProcess** system_processes, int* no_of_sys_processes);
int network_utilization(NetworkInterface** network_interfaces);
};
JfrOSInterface::JfrOSInterfaceImpl::JfrOSInterfaceImpl() : _cpu_info_interface(NULL),
_cpu_perf_interface(NULL),
_system_process_interface(NULL),
_network_performance_interface(NULL) {}
template <typename T>
static T* create_interface() {
ResourceMark rm;
T* iface = new T();
if (iface != NULL) {
if (!iface->initialize()) {
delete iface;
iface = NULL;
}
}
return iface;
}
CPUInformationInterface* JfrOSInterface::JfrOSInterfaceImpl::cpu_info_interface() {
if (_cpu_info_interface == NULL) {
_cpu_info_interface = create_interface<CPUInformationInterface>();
}
return _cpu_info_interface;
}
CPUPerformanceInterface* JfrOSInterface::JfrOSInterfaceImpl::cpu_perf_interface() {
if (_cpu_perf_interface == NULL) {
_cpu_perf_interface = create_interface<CPUPerformanceInterface>();
}
return _cpu_perf_interface;
}
SystemProcessInterface* JfrOSInterface::JfrOSInterfaceImpl::system_process_interface() {
if (_system_process_interface == NULL) {
_system_process_interface = create_interface<SystemProcessInterface>();
}
return _system_process_interface;
}
NetworkPerformanceInterface* JfrOSInterface::JfrOSInterfaceImpl::network_performance_interface() {
if (_network_performance_interface == NULL) {
_network_performance_interface = create_interface<NetworkPerformanceInterface>();
}
return _network_performance_interface;
}
bool JfrOSInterface::JfrOSInterfaceImpl::initialize() {
return true;
}
JfrOSInterface::JfrOSInterfaceImpl::~JfrOSInterfaceImpl(void) {
if (_cpu_info_interface != NULL) {
delete _cpu_info_interface;
_cpu_info_interface = NULL;
}
if (_cpu_perf_interface != NULL) {
delete _cpu_perf_interface;
_cpu_perf_interface = NULL;
}
if (_system_process_interface != NULL) {
delete _system_process_interface;
_system_process_interface = NULL;
}
if (_network_performance_interface != NULL) {
delete _network_performance_interface;
_network_performance_interface = NULL;
}
}
int JfrOSInterface::JfrOSInterfaceImpl::cpu_information(CPUInformation& cpu_info) {
CPUInformationInterface* const iface = cpu_info_interface();
return iface == NULL ? OS_ERR : iface->cpu_information(cpu_info);
}
int JfrOSInterface::JfrOSInterfaceImpl::cpu_load(int which_logical_cpu, double* cpu_load) {
CPUPerformanceInterface* const iface = cpu_perf_interface();
return iface == NULL ? OS_ERR : iface->cpu_load(which_logical_cpu, cpu_load);
}
int JfrOSInterface::JfrOSInterfaceImpl::context_switch_rate(double* rate) {
CPUPerformanceInterface* const iface = cpu_perf_interface();
return iface == NULL ? OS_ERR : iface->context_switch_rate(rate);
}
int JfrOSInterface::JfrOSInterfaceImpl::cpu_load_total_process(double* cpu_load) {
CPUPerformanceInterface* const iface = cpu_perf_interface();
return iface == NULL ? OS_ERR : iface->cpu_load_total_process(cpu_load);
}
int JfrOSInterface::JfrOSInterfaceImpl::cpu_loads_process(double* pjvmUserLoad,
double* pjvmKernelLoad,
double* psystemTotal) {
CPUPerformanceInterface* const iface = cpu_perf_interface();
return iface == NULL ? OS_ERR : iface->cpu_loads_process(pjvmUserLoad, pjvmKernelLoad, psystemTotal);
}
int JfrOSInterface::JfrOSInterfaceImpl::system_processes(SystemProcess** system_processes, int* no_of_sys_processes) {
assert(system_processes != NULL, "system_processes pointer is NULL!");
assert(no_of_sys_processes != NULL, "no_of_sys_processes pointer is NULL!");
SystemProcessInterface* const iface = system_process_interface();
return iface == NULL ? OS_ERR : iface->system_processes(system_processes, no_of_sys_processes);
}
int JfrOSInterface::JfrOSInterfaceImpl::network_utilization(NetworkInterface** network_interfaces) {
NetworkPerformanceInterface* const iface = network_performance_interface();
return iface == NULL ? OS_ERR : iface->network_utilization(network_interfaces);
}
// assigned char* is RESOURCE_HEAP_ALLOCATED
// caller need to ensure proper ResourceMark placement.
int JfrOSInterface::JfrOSInterfaceImpl::os_version(char** os_version) const {
assert(os_version != NULL, "os_version pointer is NULL!");
stringStream os_ver_info;
os::print_os_info_brief(&os_ver_info);
*os_version = os_ver_info.as_string();
return OS_OK;
}
JfrOSInterface::JfrOSInterface() {
_impl = NULL;
}
bool JfrOSInterface::initialize() {
_impl = new JfrOSInterface::JfrOSInterfaceImpl();
return _impl != NULL && _impl->initialize();
}
JfrOSInterface::~JfrOSInterface() {
if (_impl != NULL) {
delete _impl;
_impl = NULL;
}
}
int JfrOSInterface::cpu_information(CPUInformation& cpu_info) {
return instance()._impl->cpu_information(cpu_info);
}
int JfrOSInterface::cpu_load(int which_logical_cpu, double* cpu_load) {
return instance()._impl->cpu_load(which_logical_cpu, cpu_load);
}
int JfrOSInterface::context_switch_rate(double* rate) {
return instance()._impl->context_switch_rate(rate);
}
int JfrOSInterface::cpu_load_total_process(double* cpu_load) {
return instance()._impl->cpu_load_total_process(cpu_load);
}
int JfrOSInterface::cpu_loads_process(double* jvm_user_load, double* jvm_kernel_load, double* system_total_load){
return instance()._impl->cpu_loads_process(jvm_user_load, jvm_kernel_load, system_total_load);
}
int JfrOSInterface::os_version(char** os_version) {
return instance()._impl->os_version(os_version);
}
const char* JfrOSInterface::virtualization_name() {
VirtualizationType vrt = VM_Version::get_detected_virtualization();
if (vrt == XenHVM) {
return "Xen hardware-assisted virtualization";
} else if (vrt == KVM) {
return "KVM virtualization";
} else if (vrt == VMWare) {
return "VMWare virtualization";
} else if (vrt == HyperV) {
return "HyperV virtualization";
} else if (vrt == PowerVM) {
return "PowerVM virtualization";
} else if (vrt == PowerKVM) {
return "Power KVM virtualization";
} else if (vrt == PowerFullPartitionMode) {
return "Power full partition";
}
return "No virtualization detected";
}
int JfrOSInterface::generate_initial_environment_variable_events() {
if (environ == NULL) {
return OS_ERR;
}
if (EventInitialEnvironmentVariable::is_enabled()) {
// One time stamp for all events, so they can be grouped together
JfrTicks time_stamp = JfrTicks::now();
for (char** p = environ; *p != NULL; p++) {
char* variable = *p;
char* equal_sign = strchr(variable, '=');
if (equal_sign != NULL) {
// Extract key/value
ResourceMark rm;
ptrdiff_t key_length = equal_sign - variable;
char* key = NEW_RESOURCE_ARRAY(char, key_length + 1);
char* value = equal_sign + 1;
strncpy(key, variable, key_length);
key[key_length] = '\0';
EventInitialEnvironmentVariable event(UNTIMED);
event.set_endtime(time_stamp);
event.set_key(key);
event.set_value(value);
event.commit();
}
}
}
return OS_OK;
}
int JfrOSInterface::system_processes(SystemProcess** sys_processes, int* no_of_sys_processes) {
return instance()._impl->system_processes(sys_processes, no_of_sys_processes);
}
int JfrOSInterface::network_utilization(NetworkInterface** network_interfaces) {
return instance()._impl->network_utilization(network_interfaces);
}