8233073: Make BitMap accessors more memory ordering friendly
Reviewed-by: kbarrett, pliden
/*
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* 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. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* 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
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package jdk.internal.platform.cgroupv1;
import java.io.IOException;
import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.stream.Stream;
import jdk.internal.platform.cgroupv1.SubSystem.MemorySubSystem;
public class Metrics implements jdk.internal.platform.Metrics {
private MemorySubSystem memory;
private SubSystem cpu;
private SubSystem cpuacct;
private SubSystem cpuset;
private SubSystem blkio;
private boolean activeSubSystems;
// Values returned larger than this number are unlimited.
static long unlimited_minimum = 0x7FFFFFFFFF000000L;
private static final Metrics INSTANCE = initContainerSubSystems();
private static final String PROVIDER_NAME = "cgroupv1";
private Metrics() {
activeSubSystems = false;
}
public static Metrics getInstance() {
return INSTANCE;
}
private static Metrics initContainerSubSystems() {
Metrics metrics = new Metrics();
/**
* Find the cgroup mount points for subsystems
* by reading /proc/self/mountinfo
*
* Example for docker MemorySubSystem subsystem:
* 219 214 0:29 /docker/7208cebd00fa5f2e342b1094f7bed87fa25661471a4637118e65f1c995be8a34 /sys/fs/cgroup/MemorySubSystem ro,nosuid,nodev,noexec,relatime - cgroup cgroup rw,MemorySubSystem
*
* Example for host:
* 34 28 0:29 / /sys/fs/cgroup/MemorySubSystem rw,nosuid,nodev,noexec,relatime shared:16 - cgroup cgroup rw,MemorySubSystem
*/
try (Stream<String> lines =
Files.lines(Paths.get("/proc/self/mountinfo"))) {
lines.filter(line -> line.contains(" - cgroup "))
.map(line -> line.split(" "))
.forEach(entry -> createSubSystem(metrics, entry));
} catch (IOException e) {
return null;
}
/**
* Read /proc/self/cgroup and map host mount point to
* local one via /proc/self/mountinfo content above
*
* Docker example:
* 5:memory:/docker/6558aed8fc662b194323ceab5b964f69cf36b3e8af877a14b80256e93aecb044
*
* Host example:
* 5:memory:/user.slice
*
* Construct a path to the process specific memory and cpuset
* cgroup directory.
*
* For a container running under Docker from memory example above
* the paths would be:
*
* /sys/fs/cgroup/memory
*
* For a Host from memory example above the path would be:
*
* /sys/fs/cgroup/memory/user.slice
*
*/
try (Stream<String> lines =
Files.lines(Paths.get("/proc/self/cgroup"))) {
lines.map(line -> line.split(":"))
.filter(line -> (line.length >= 3))
.forEach(line -> setSubSystemPath(metrics, line));
} catch (IOException e) {
return null;
}
// Return Metrics object if we found any subsystems.
if (metrics.activeSubSystems()) {
return metrics;
}
return null;
}
/**
* createSubSystem objects and initialize mount points
*/
private static void createSubSystem(Metrics metric, String[] mountentry) {
if (mountentry.length < 5) return;
Path p = Paths.get(mountentry[4]);
String[] subsystemNames = p.getFileName().toString().split(",");
for (String subsystemName: subsystemNames) {
switch (subsystemName) {
case "memory":
metric.setMemorySubSystem(new MemorySubSystem(mountentry[3], mountentry[4]));
break;
case "cpuset":
metric.setCpuSetSubSystem(new SubSystem(mountentry[3], mountentry[4]));
break;
case "cpuacct":
metric.setCpuAcctSubSystem(new SubSystem(mountentry[3], mountentry[4]));
break;
case "cpu":
metric.setCpuSubSystem(new SubSystem(mountentry[3], mountentry[4]));
break;
case "blkio":
metric.setBlkIOSubSystem(new SubSystem(mountentry[3], mountentry[4]));
break;
default:
// Ignore subsystems that we don't support
break;
}
}
}
/**
* setSubSystemPath based on the contents of /proc/self/cgroup
*/
private static void setSubSystemPath(Metrics metric, String[] entry) {
String controller;
String base;
SubSystem subsystem = null;
SubSystem subsystem2 = null;
controller = entry[1];
base = entry[2];
if (controller != null && base != null) {
switch (controller) {
case "memory":
subsystem = metric.MemorySubSystem();
break;
case "cpuset":
subsystem = metric.CpuSetSubSystem();
break;
case "cpu,cpuacct":
case "cpuacct,cpu":
subsystem = metric.CpuSubSystem();
subsystem2 = metric.CpuAcctSubSystem();
break;
case "cpuacct":
subsystem = metric.CpuAcctSubSystem();
break;
case "cpu":
subsystem = metric.CpuSubSystem();
break;
case "blkio":
subsystem = metric.BlkIOSubSystem();
break;
// Ignore subsystems that we don't support
default:
break;
}
}
if (subsystem != null) {
subsystem.setPath(base);
if (subsystem instanceof MemorySubSystem) {
MemorySubSystem memorySubSystem = (MemorySubSystem)subsystem;
boolean isHierarchial = getHierarchical(memorySubSystem);
memorySubSystem.setHierarchical(isHierarchial);
}
metric.setActiveSubSystems();
}
if (subsystem2 != null) {
subsystem2.setPath(base);
}
}
private static boolean getHierarchical(MemorySubSystem subsystem) {
long hierarchical = SubSystem.getLongValue(subsystem, "memory.use_hierarchy");
return hierarchical > 0;
}
private void setActiveSubSystems() {
activeSubSystems = true;
}
private boolean activeSubSystems() {
return activeSubSystems;
}
private void setMemorySubSystem(MemorySubSystem memory) {
this.memory = memory;
}
private void setCpuSubSystem(SubSystem cpu) {
this.cpu = cpu;
}
private void setCpuAcctSubSystem(SubSystem cpuacct) {
this.cpuacct = cpuacct;
}
private void setCpuSetSubSystem(SubSystem cpuset) {
this.cpuset = cpuset;
}
private void setBlkIOSubSystem(SubSystem blkio) {
this.blkio = blkio;
}
private SubSystem MemorySubSystem() {
return memory;
}
private SubSystem CpuSubSystem() {
return cpu;
}
private SubSystem CpuAcctSubSystem() {
return cpuacct;
}
private SubSystem CpuSetSubSystem() {
return cpuset;
}
private SubSystem BlkIOSubSystem() {
return blkio;
}
public String getProvider() {
return PROVIDER_NAME;
}
/*****************************************************************
* CPU Accounting Subsystem
****************************************************************/
public long getCpuUsage() {
return SubSystem.getLongValue(cpuacct, "cpuacct.usage");
}
public long[] getPerCpuUsage() {
String usagelist = SubSystem.getStringValue(cpuacct, "cpuacct.usage_percpu");
if (usagelist == null) {
return new long[0];
}
String list[] = usagelist.split(" ");
long percpu[] = new long[list.length];
for (int i = 0; i < list.length; i++) {
percpu[i] = Long.parseLong(list[i]);
}
return percpu;
}
public long getCpuUserUsage() {
return SubSystem.getLongEntry(cpuacct, "cpuacct.stat", "user");
}
public long getCpuSystemUsage() {
return SubSystem.getLongEntry(cpuacct, "cpuacct.stat", "system");
}
/*****************************************************************
* CPU Subsystem
****************************************************************/
public long getCpuPeriod() {
return SubSystem.getLongValue(cpu, "cpu.cfs_period_us");
}
public long getCpuQuota() {
return SubSystem.getLongValue(cpu, "cpu.cfs_quota_us");
}
public long getCpuShares() {
long retval = SubSystem.getLongValue(cpu, "cpu.shares");
if (retval == 0 || retval == 1024)
return -1;
else
return retval;
}
public long getCpuNumPeriods() {
return SubSystem.getLongEntry(cpu, "cpu.stat", "nr_periods");
}
public long getCpuNumThrottled() {
return SubSystem.getLongEntry(cpu, "cpu.stat", "nr_throttled");
}
public long getCpuThrottledTime() {
return SubSystem.getLongEntry(cpu, "cpu.stat", "throttled_time");
}
public long getEffectiveCpuCount() {
return Runtime.getRuntime().availableProcessors();
}
/*****************************************************************
* CPUSet Subsystem
****************************************************************/
public int[] getCpuSetCpus() {
return SubSystem.StringRangeToIntArray(SubSystem.getStringValue(cpuset, "cpuset.cpus"));
}
public int[] getEffectiveCpuSetCpus() {
return SubSystem.StringRangeToIntArray(SubSystem.getStringValue(cpuset, "cpuset.effective_cpus"));
}
public int[] getCpuSetMems() {
return SubSystem.StringRangeToIntArray(SubSystem.getStringValue(cpuset, "cpuset.mems"));
}
public int[] getEffectiveCpuSetMems() {
return SubSystem.StringRangeToIntArray(SubSystem.getStringValue(cpuset, "cpuset.effective_mems"));
}
public double getCpuSetMemoryPressure() {
return SubSystem.getDoubleValue(cpuset, "cpuset.memory_pressure");
}
public boolean isCpuSetMemoryPressureEnabled() {
long val = SubSystem.getLongValue(cpuset, "cpuset.memory_pressure_enabled");
return (val == 1);
}
/*****************************************************************
* Memory Subsystem
****************************************************************/
public long getMemoryFailCount() {
return SubSystem.getLongValue(memory, "memory.failcnt");
}
public long getMemoryLimit() {
long retval = SubSystem.getLongValue(memory, "memory.limit_in_bytes");
if (retval > unlimited_minimum) {
if (memory.isHierarchical()) {
// memory.limit_in_bytes returned unlimited, attempt
// hierarchical memory limit
String match = "hierarchical_memory_limit";
retval = SubSystem.getLongValueMatchingLine(memory,
"memory.stat",
match,
Metrics::convertHierachicalLimitLine);
}
}
return retval > unlimited_minimum ? -1L : retval;
}
public static long convertHierachicalLimitLine(String line) {
String[] tokens = line.split("\\s");
if (tokens.length == 2) {
String strVal = tokens[1];
return SubSystem.convertStringToLong(strVal);
}
return unlimited_minimum + 1; // unlimited
}
public long getMemoryMaxUsage() {
return SubSystem.getLongValue(memory, "memory.max_usage_in_bytes");
}
public long getMemoryUsage() {
return SubSystem.getLongValue(memory, "memory.usage_in_bytes");
}
public long getKernelMemoryFailCount() {
return SubSystem.getLongValue(memory, "memory.kmem.failcnt");
}
public long getKernelMemoryLimit() {
long retval = SubSystem.getLongValue(memory, "memory.kmem.limit_in_bytes");
return retval > unlimited_minimum ? -1L : retval;
}
public long getKernelMemoryMaxUsage() {
return SubSystem.getLongValue(memory, "memory.kmem.max_usage_in_bytes");
}
public long getKernelMemoryUsage() {
return SubSystem.getLongValue(memory, "memory.kmem.usage_in_bytes");
}
public long getTcpMemoryFailCount() {
return SubSystem.getLongValue(memory, "memory.kmem.tcp.failcnt");
}
public long getTcpMemoryLimit() {
long retval = SubSystem.getLongValue(memory, "memory.kmem.tcp.limit_in_bytes");
return retval > unlimited_minimum ? -1L : retval;
}
public long getTcpMemoryMaxUsage() {
return SubSystem.getLongValue(memory, "memory.kmem.tcp.max_usage_in_bytes");
}
public long getTcpMemoryUsage() {
return SubSystem.getLongValue(memory, "memory.kmem.tcp.usage_in_bytes");
}
public long getMemoryAndSwapFailCount() {
return SubSystem.getLongValue(memory, "memory.memsw.failcnt");
}
public long getMemoryAndSwapLimit() {
long retval = SubSystem.getLongValue(memory, "memory.memsw.limit_in_bytes");
if (retval > unlimited_minimum) {
if (memory.isHierarchical()) {
// memory.memsw.limit_in_bytes returned unlimited, attempt
// hierarchical memory limit
String match = "hierarchical_memsw_limit";
retval = SubSystem.getLongValueMatchingLine(memory,
"memory.stat",
match,
Metrics::convertHierachicalLimitLine);
}
}
return retval > unlimited_minimum ? -1L : retval;
}
public long getMemoryAndSwapMaxUsage() {
return SubSystem.getLongValue(memory, "memory.memsw.max_usage_in_bytes");
}
public long getMemoryAndSwapUsage() {
return SubSystem.getLongValue(memory, "memory.memsw.usage_in_bytes");
}
public boolean isMemoryOOMKillEnabled() {
long val = SubSystem.getLongEntry(memory, "memory.oom_control", "oom_kill_disable");
return (val == 0);
}
public long getMemorySoftLimit() {
long retval = SubSystem.getLongValue(memory, "memory.soft_limit_in_bytes");
return retval > unlimited_minimum ? -1L : retval;
}
/*****************************************************************
* BlKIO Subsystem
****************************************************************/
public long getBlkIOServiceCount() {
return SubSystem.getLongEntry(blkio, "blkio.throttle.io_service_bytes", "Total");
}
public long getBlkIOServiced() {
return SubSystem.getLongEntry(blkio, "blkio.throttle.io_serviced", "Total");
}
}