java/com/google/gerrit/metrics/proc/ProcMetricModule.java - gerrit.git - Git at Google

 // Copyright (C) 2015 The Android Open Source Project
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 // http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package com.google.gerrit.metrics.proc;

 import com.google.common.base.Strings;
 import com.google.common.collect.ImmutableSet;
 import com.google.gerrit.common.Version;
 import com.google.gerrit.metrics.CallbackMetric0;
 import com.google.gerrit.metrics.CallbackMetric1;
 import com.google.gerrit.metrics.Description;
 import com.google.gerrit.metrics.Description.Units;
 import com.google.gerrit.metrics.Field;
 import com.google.gerrit.metrics.MetricMaker;
 import com.google.gerrit.server.logging.Metadata;
 import java.lang.management.GarbageCollectorMXBean;
 import java.lang.management.ManagementFactory;
 import java.lang.management.MemoryMXBean;
 import java.lang.management.MemoryPoolMXBean;
 import java.lang.management.MemoryUsage;
 import java.lang.management.OperatingSystemMXBean;
 import java.lang.management.ThreadMXBean;
 import java.util.concurrent.TimeUnit;

 public class ProcMetricModule extends MetricModule {
   @Override
   protected void configure(MetricMaker metrics) {
     buildLabel(metrics);
     procUptime(metrics);
     procCpuUsage(metrics);
     procCpuLoad(metrics);
     procJvmGc(metrics);
     procJvmMemory(metrics);
     procJvmMemoryPool(metrics);
     procJvmThread(metrics);
   }

   private void buildLabel(MetricMaker metrics) {
     metrics.newConstantMetric(
         "build/label",
         Strings.nullToEmpty(Version.getVersion()),
         new Description("Version of Gerrit server software"));
   }

   private void procUptime(MetricMaker metrics) {
     metrics.newConstantMetric(
         "proc/birth_timestamp",
         Long.valueOf(TimeUnit.MILLISECONDS.toMicros(System.currentTimeMillis())),
         new Description("Time at which the process started").setUnit(Units.MICROSECONDS));

     metrics.newCallbackMetric(
         "proc/uptime",
         Long.class,
         new Description("Uptime of this process").setUnit(Units.MILLISECONDS),
         ManagementFactory.getRuntimeMXBean()::getUptime);
   }

   private void procCpuUsage(MetricMaker metrics) {
     OperatingSystemMXBeanInterface provider = OperatingSystemMXBeanFactory.create();

     if (provider == null) {
       return;
     }

     if (provider.getProcessCpuTime() != -1) {
       metrics.newCallbackMetric(
           "proc/cpu/usage",
           Double.class,
           new Description("CPU time used by the process").setCumulative().setUnit(Units.SECONDS),
           () -> provider.getProcessCpuTime() / 1e9);
     }

     if (provider.getOpenFileDescriptorCount() != -1) {
       metrics.newCallbackMetric(
           "proc/num_open_fds",
           Long.class,
           new Description("Number of open file descriptors").setGauge().setUnit("fds"),
           provider::getOpenFileDescriptorCount);
     }
     metrics.newCallbackMetric(
         "proc/cpu/num_cores",
         Integer.class,
         new Description("Number of processors available to the Java virtual machine").setGauge(),
         Runtime.getRuntime()::availableProcessors);
   }

   private void procCpuLoad(MetricMaker metrics) {
     OperatingSystemMXBean provider =
         ManagementFactory.getPlatformMXBean(OperatingSystemMXBean.class);
     if (provider.getSystemLoadAverage() != -1) {
       metrics.newCallbackMetric(
           "proc/cpu/system_load",
           Double.class,
           new Description("System load average for the last minute").setGauge(),
           provider::getSystemLoadAverage);
     }
   }

   private void procJvmMemory(MetricMaker metrics) {
     CallbackMetric0<Long> heapCommitted =
         metrics.newCallbackMetric(
             "proc/jvm/memory/heap_committed",
             Long.class,
             new Description("Amount of memory guaranteed for user objects.")
                 .setGauge()
                 .setUnit(Units.BYTES));

     CallbackMetric0<Long> heapUsed =
         metrics.newCallbackMetric(
             "proc/jvm/memory/heap_used",
             Long.class,
             new Description("Amount of memory holding user objects.")
                 .setGauge()
                 .setUnit(Units.BYTES));

     CallbackMetric0<Long> nonHeapCommitted =
         metrics.newCallbackMetric(
             "proc/jvm/memory/non_heap_committed",
             Long.class,
             new Description("Amount of memory guaranteed for classes, etc.")
                 .setGauge()
                 .setUnit(Units.BYTES));

     CallbackMetric0<Long> nonHeapUsed =
         metrics.newCallbackMetric(
             "proc/jvm/memory/non_heap_used",
             Long.class,
             new Description("Amount of memory holding classes, etc.")
                 .setGauge()
                 .setUnit(Units.BYTES));

     CallbackMetric0<Integer> objectPendingFinalizationCount =
         metrics.newCallbackMetric(
             "proc/jvm/memory/object_pending_finalization_count",
             Integer.class,
             new Description("Approximate number of objects needing finalization.")
                 .setGauge()
                 .setUnit("objects"));

     MemoryMXBean memory = ManagementFactory.getMemoryMXBean();
     metrics.newTrigger(
         ImmutableSet.of(
             heapCommitted, heapUsed, nonHeapCommitted, nonHeapUsed, objectPendingFinalizationCount),
         () -> {
           try {
             MemoryUsage stats = memory.getHeapMemoryUsage();
             heapCommitted.set(stats.getCommitted());
             heapUsed.set(stats.getUsed());
           } catch (IllegalArgumentException e) {
             // MXBean may throw due to a bug in Java 7; ignore.
           }

           MemoryUsage stats = memory.getNonHeapMemoryUsage();
           nonHeapCommitted.set(stats.getCommitted());
           nonHeapUsed.set(stats.getUsed());

           objectPendingFinalizationCount.set(memory.getObjectPendingFinalizationCount());
         });
   }

   private void procJvmMemoryPool(MetricMaker metrics) {
     Field<String> poolName =
         Field.ofString("pool_name", Metadata.Builder::memoryPoolName)
             .description("The name of the memory pool")
             .build();

     CallbackMetric1<String, Long> committed =
         metrics.newCallbackMetric(
             "proc/jvm/memory/pool/committed",
             Long.class,
             new Description("Committed pool size").setUnit(Units.BYTES),
             poolName);

     CallbackMetric1<String, Long> max =
         metrics.newCallbackMetric(
             "proc/jvm/memory/pool/max",
             Long.class,
             new Description("Max pool size").setUnit(Units.BYTES),
             poolName);

     CallbackMetric1<String, Long> used =
         metrics.newCallbackMetric(
             "proc/jvm/memory/pool/used",
             Long.class,
             new Description("Used pool size").setUnit(Units.BYTES),
             poolName);

     metrics.newTrigger(
         committed,
         max,
         used,
         () -> {
           for (MemoryPoolMXBean pool : ManagementFactory.getMemoryPoolMXBeans()) {
             if (!pool.isValid()) {
               continue;
             }
             MemoryUsage u = pool.getUsage();
             committed.set(pool.getName(), u.getCommitted());
             max.set(pool.getName(), u.getMax());
             used.set(pool.getName(), u.getUsed());
           }
         });
   }

   private void procJvmGc(MetricMaker metrics) {
     Field<String> gcNameField =
         Field.ofString("gc_name", Metadata.Builder::garbageCollectorName)
             .description("The name of the garbage collector")
             .build();

     CallbackMetric1<String, Long> gcCount =
         metrics.newCallbackMetric(
             "proc/jvm/gc/count",
             Long.class,
             new Description("Number of GCs").setCumulative(),
             gcNameField);

     CallbackMetric1<String, Long> gcTime =
         metrics.newCallbackMetric(
             "proc/jvm/gc/time",
             Long.class,
             new Description("Approximate accumulated GC elapsed time")
                 .setCumulative()
                 .setUnit(Units.MILLISECONDS),
             gcNameField);

     metrics.newTrigger(
         gcCount,
         gcTime,
         () -> {
           for (GarbageCollectorMXBean gc : ManagementFactory.getGarbageCollectorMXBeans()) {
             long count = gc.getCollectionCount();
             if (count != -1) {
               gcCount.set(gc.getName(), count);
             }
             long time = gc.getCollectionTime();
             if (time != -1) {
               gcTime.set(gc.getName(), time);
             }
           }
         });
   }

   private void procJvmThread(MetricMaker metrics) {
     ThreadMXBean thread = ManagementFactory.getThreadMXBean();
     metrics.newCallbackMetric(
         "proc/jvm/thread/num_live",
         Integer.class,
         new Description("Current live thread count").setGauge().setUnit("threads"),
         thread::getThreadCount);
     metrics.newCallbackMetric(
         "proc/jvm/thread/num_daemon_live",
         Integer.class,
         new Description("Current live daemon threads count").setGauge().setUnit("threads"),
         thread::getDaemonThreadCount);
     metrics.newCallbackMetric(
         "proc/jvm/thread/num_peak_live",
         Integer.class,
         new Description(
                 "Peak live thread count since the Java virtual machine started or peak was reset")
             .setGauge()
             .setUnit("threads"),
         thread::getPeakThreadCount);
     metrics.newCallbackMetric(
         "proc/jvm/thread/num_total_started",
         Long.class,
         new Description(
                 "Total number of threads created and also started since the Java virtual machine started")
             .setGauge()
             .setUnit("threads"),
         thread::getTotalStartedThreadCount);
     if (thread.isSynchronizerUsageSupported()) {
       metrics.newCallbackMetric(
           "proc/jvm/thread/num_deadlocked_threads",
           Integer.class,
           new Description(
                   "number of threads that are deadlocked waiting for object monitors or ownable synchronizers")
               .setGauge()
               .setUnit("threads"),
           () -> {
             long[] deadlocked = thread.findDeadlockedThreads();
             if (deadlocked == null) {
               return 0;
             }
             return deadlocked.length;
           });
     } else {
       metrics.newCallbackMetric(
           "proc/jvm/thread/num_deadlocked_threads",
           Integer.class,
           new Description(
                   "number of threads that are deadlocked waiting to acquire object monitors")
               .setGauge()
               .setUnit("threads"),
           () -> {
             long[] deadlocked = thread.findMonitorDeadlockedThreads();
             if (deadlocked == null) {
               return 0;
             }
             return deadlocked.length;
           });
     }
   }
 }
	// Copyright (C) 2015 The Android Open Source Project
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package com.google.gerrit.metrics.proc;

	import com.google.common.base.Strings;
	import com.google.common.collect.ImmutableSet;
	import com.google.gerrit.common.Version;
	import com.google.gerrit.metrics.CallbackMetric0;
	import com.google.gerrit.metrics.CallbackMetric1;
	import com.google.gerrit.metrics.Description;
	import com.google.gerrit.metrics.Description.Units;
	import com.google.gerrit.metrics.Field;
	import com.google.gerrit.metrics.MetricMaker;
	import com.google.gerrit.server.logging.Metadata;
	import java.lang.management.GarbageCollectorMXBean;
	import java.lang.management.ManagementFactory;
	import java.lang.management.MemoryMXBean;
	import java.lang.management.MemoryPoolMXBean;
	import java.lang.management.MemoryUsage;
	import java.lang.management.OperatingSystemMXBean;
	import java.lang.management.ThreadMXBean;
	import java.util.concurrent.TimeUnit;

	public class ProcMetricModule extends MetricModule {
	@Override
	protected void configure(MetricMaker metrics) {
	buildLabel(metrics);
	procUptime(metrics);
	procCpuUsage(metrics);
	procCpuLoad(metrics);
	procJvmGc(metrics);
	procJvmMemory(metrics);
	procJvmMemoryPool(metrics);
	procJvmThread(metrics);
	}

	private void buildLabel(MetricMaker metrics) {
	metrics.newConstantMetric(
	"build/label",
	Strings.nullToEmpty(Version.getVersion()),
	new Description("Version of Gerrit server software"));
	}

	private void procUptime(MetricMaker metrics) {
	metrics.newConstantMetric(
	"proc/birth_timestamp",
	Long.valueOf(TimeUnit.MILLISECONDS.toMicros(System.currentTimeMillis())),
	new Description("Time at which the process started").setUnit(Units.MICROSECONDS));

	metrics.newCallbackMetric(
	"proc/uptime",
	Long.class,
	new Description("Uptime of this process").setUnit(Units.MILLISECONDS),
	ManagementFactory.getRuntimeMXBean()::getUptime);
	}

	private void procCpuUsage(MetricMaker metrics) {
	OperatingSystemMXBeanInterface provider = OperatingSystemMXBeanFactory.create();

	if (provider == null) {
	return;
	}

	if (provider.getProcessCpuTime() != -1) {
	metrics.newCallbackMetric(
	"proc/cpu/usage",
	Double.class,
	new Description("CPU time used by the process").setCumulative().setUnit(Units.SECONDS),
	() -> provider.getProcessCpuTime() / 1e9);
	}

	if (provider.getOpenFileDescriptorCount() != -1) {
	metrics.newCallbackMetric(
	"proc/num_open_fds",
	Long.class,
	new Description("Number of open file descriptors").setGauge().setUnit("fds"),
	provider::getOpenFileDescriptorCount);
	}
	metrics.newCallbackMetric(
	"proc/cpu/num_cores",
	Integer.class,
	new Description("Number of processors available to the Java virtual machine").setGauge(),
	Runtime.getRuntime()::availableProcessors);
	}

	private void procCpuLoad(MetricMaker metrics) {
	OperatingSystemMXBean provider =
	ManagementFactory.getPlatformMXBean(OperatingSystemMXBean.class);
	if (provider.getSystemLoadAverage() != -1) {
	metrics.newCallbackMetric(
	"proc/cpu/system_load",
	Double.class,
	new Description("System load average for the last minute").setGauge(),
	provider::getSystemLoadAverage);
	}
	}

	private void procJvmMemory(MetricMaker metrics) {
	CallbackMetric0<Long> heapCommitted =
	metrics.newCallbackMetric(
	"proc/jvm/memory/heap_committed",
	Long.class,
	new Description("Amount of memory guaranteed for user objects.")
	.setGauge()
	.setUnit(Units.BYTES));

	CallbackMetric0<Long> heapUsed =
	metrics.newCallbackMetric(
	"proc/jvm/memory/heap_used",
	Long.class,
	new Description("Amount of memory holding user objects.")
	.setGauge()
	.setUnit(Units.BYTES));

	CallbackMetric0<Long> nonHeapCommitted =
	metrics.newCallbackMetric(
	"proc/jvm/memory/non_heap_committed",
	Long.class,
	new Description("Amount of memory guaranteed for classes, etc.")
	.setGauge()
	.setUnit(Units.BYTES));

	CallbackMetric0<Long> nonHeapUsed =
	metrics.newCallbackMetric(
	"proc/jvm/memory/non_heap_used",
	Long.class,
	new Description("Amount of memory holding classes, etc.")
	.setGauge()
	.setUnit(Units.BYTES));

	CallbackMetric0<Integer> objectPendingFinalizationCount =
	metrics.newCallbackMetric(
	"proc/jvm/memory/object_pending_finalization_count",
	Integer.class,
	new Description("Approximate number of objects needing finalization.")
	.setGauge()
	.setUnit("objects"));

	MemoryMXBean memory = ManagementFactory.getMemoryMXBean();
	metrics.newTrigger(
	ImmutableSet.of(
	heapCommitted, heapUsed, nonHeapCommitted, nonHeapUsed, objectPendingFinalizationCount),
	() -> {
	try {
	MemoryUsage stats = memory.getHeapMemoryUsage();
	heapCommitted.set(stats.getCommitted());
	heapUsed.set(stats.getUsed());
	} catch (IllegalArgumentException e) {
	// MXBean may throw due to a bug in Java 7; ignore.
	}

	MemoryUsage stats = memory.getNonHeapMemoryUsage();
	nonHeapCommitted.set(stats.getCommitted());
	nonHeapUsed.set(stats.getUsed());

	objectPendingFinalizationCount.set(memory.getObjectPendingFinalizationCount());
	});
	}

	private void procJvmMemoryPool(MetricMaker metrics) {
	Field<String> poolName =
	Field.ofString("pool_name", Metadata.Builder::memoryPoolName)
	.description("The name of the memory pool")
	.build();

	CallbackMetric1<String, Long> committed =
	metrics.newCallbackMetric(
	"proc/jvm/memory/pool/committed",
	Long.class,
	new Description("Committed pool size").setUnit(Units.BYTES),
	poolName);

	CallbackMetric1<String, Long> max =
	metrics.newCallbackMetric(
	"proc/jvm/memory/pool/max",
	Long.class,
	new Description("Max pool size").setUnit(Units.BYTES),
	poolName);

	CallbackMetric1<String, Long> used =
	metrics.newCallbackMetric(
	"proc/jvm/memory/pool/used",
	Long.class,
	new Description("Used pool size").setUnit(Units.BYTES),
	poolName);

	metrics.newTrigger(
	committed,
	max,
	used,
	() -> {
	for (MemoryPoolMXBean pool : ManagementFactory.getMemoryPoolMXBeans()) {
	if (!pool.isValid()) {
	continue;
	}
	MemoryUsage u = pool.getUsage();
	committed.set(pool.getName(), u.getCommitted());
	max.set(pool.getName(), u.getMax());
	used.set(pool.getName(), u.getUsed());
	}
	});
	}

	private void procJvmGc(MetricMaker metrics) {
	Field<String> gcNameField =
	Field.ofString("gc_name", Metadata.Builder::garbageCollectorName)
	.description("The name of the garbage collector")
	.build();

	CallbackMetric1<String, Long> gcCount =
	metrics.newCallbackMetric(
	"proc/jvm/gc/count",
	Long.class,
	new Description("Number of GCs").setCumulative(),
	gcNameField);

	CallbackMetric1<String, Long> gcTime =
	metrics.newCallbackMetric(
	"proc/jvm/gc/time",
	Long.class,
	new Description("Approximate accumulated GC elapsed time")
	.setCumulative()
	.setUnit(Units.MILLISECONDS),
	gcNameField);

	metrics.newTrigger(
	gcCount,
	gcTime,
	() -> {
	for (GarbageCollectorMXBean gc : ManagementFactory.getGarbageCollectorMXBeans()) {
	long count = gc.getCollectionCount();
	if (count != -1) {
	gcCount.set(gc.getName(), count);
	}
	long time = gc.getCollectionTime();
	if (time != -1) {
	gcTime.set(gc.getName(), time);
	}
	}
	});
	}

	private void procJvmThread(MetricMaker metrics) {
	ThreadMXBean thread = ManagementFactory.getThreadMXBean();
	metrics.newCallbackMetric(
	"proc/jvm/thread/num_live",
	Integer.class,
	new Description("Current live thread count").setGauge().setUnit("threads"),
	thread::getThreadCount);
	metrics.newCallbackMetric(
	"proc/jvm/thread/num_daemon_live",
	Integer.class,
	new Description("Current live daemon threads count").setGauge().setUnit("threads"),
	thread::getDaemonThreadCount);
	metrics.newCallbackMetric(
	"proc/jvm/thread/num_peak_live",
	Integer.class,
	new Description(
	"Peak live thread count since the Java virtual machine started or peak was reset")
	.setGauge()
	.setUnit("threads"),
	thread::getPeakThreadCount);
	metrics.newCallbackMetric(
	"proc/jvm/thread/num_total_started",
	Long.class,
	new Description(
	"Total number of threads created and also started since the Java virtual machine started")
	.setGauge()
	.setUnit("threads"),
	thread::getTotalStartedThreadCount);
	if (thread.isSynchronizerUsageSupported()) {
	metrics.newCallbackMetric(
	"proc/jvm/thread/num_deadlocked_threads",
	Integer.class,
	new Description(
	"number of threads that are deadlocked waiting for object monitors or ownable synchronizers")
	.setGauge()
	.setUnit("threads"),
	() -> {
	long[] deadlocked = thread.findDeadlockedThreads();
	if (deadlocked == null) {
	return 0;
	}
	return deadlocked.length;
	});
	} else {
	metrics.newCallbackMetric(
	"proc/jvm/thread/num_deadlocked_threads",
	Integer.class,
	new Description(
	"number of threads that are deadlocked waiting to acquire object monitors")
	.setGauge()
	.setUnit("threads"),
	() -> {
	long[] deadlocked = thread.findMonitorDeadlockedThreads();
	if (deadlocked == null) {
	return 0;
	}
	return deadlocked.length;
	});
	}
	}
	}