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/*
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*
* Copyright (c) [2018-2023] Payara Foundation and/or its affiliates. All rights reserved.
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* and Distribution License("CDDL") (collectively, the "License"). You
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* Copyright 2010-2013 Coda Hale and Yammer, Inc.
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package fish.payara.microprofile.metrics.impl;
import fish.payara.microprofile.metrics.cdi.MetricUtils;
import jakarta.enterprise.inject.Vetoed;
import java.time.Duration;
import java.util.Collection;
import java.util.Map;
import java.util.Optional;
import java.util.concurrent.Callable;
import java.util.concurrent.TimeUnit;
import org.eclipse.microprofile.config.Config;
import org.eclipse.microprofile.metrics.Histogram;
import org.eclipse.microprofile.metrics.Snapshot;
import org.eclipse.microprofile.metrics.Timer;
import static fish.payara.microprofile.metrics.impl.MetricRegistryImpl.METRIC_TIMER_BUCKETS_PROPERTY;
/**
* A timer metric which aggregates timing durations and provides duration
* statistics.
*
* The timer measures duration in nanoseconds.
*
*/
@Vetoed
public class TimerImpl implements Timer {
private final Histogram histogram;
private final Clock clock;
private ExponentiallyDecayingReservoir reservoir;
private ConfigurationProperties configurationProperties;
public TimerImpl(String metricName, Map> percentilesConfigMap,
Map> timerBucketsConfigMap, Clock clock) {
this(clock);
validateMetricsConfiguration(metricName, percentilesConfigMap, timerBucketsConfigMap);
}
/**
* Creates a new {@link TimerImpl} using an
* {@link ExponentiallyDecayingReservoir} and the default {@link Clock}.
*/
public TimerImpl() {
this(new ExponentiallyDecayingReservoir());
}
/**
* Creates a new {@link TimerImpl} using an
* {@link ExponentiallyDecayingReservoir} and the provided {@link Clock}.
*
* @param clock the {@link Clock} implementation the created timer should use
*/
public TimerImpl(Clock clock) {
this(new ExponentiallyDecayingReservoir(), clock);
}
/**
* Creates a new {@link TimerImpl} that uses the given {@link Reservoir}.
*
* @param reservoir the {@link Reservoir} implementation the timer should
* use
*/
public TimerImpl(ExponentiallyDecayingReservoir reservoir) {
this(reservoir, Clock.defaultClock());
}
/**
* Creates a new {@link TimerImpl} that uses the given {@link Reservoir} and
* {@link Clock}.
*
* @param reservoir the {@link Reservoir} implementation the timer should
* use
* @param clock the {@link Clock} implementation the timer should use
*/
public TimerImpl(ExponentiallyDecayingReservoir reservoir, Clock clock) {
this.clock = clock;
this.reservoir = reservoir;
this.histogram = new HistogramImpl(reservoir);
}
/**
* Adds a recorded duration.
*
* @param duration the length of the duration
* @param unit the scale unit of {@code duration}
*/
public void update(long duration, TimeUnit unit) {
update(unit.toNanos(duration));
}
@Override
public void update(Duration duration) {
update(duration.toNanos());
}
/**
* Times and records the duration of event.
*
* @param event a {@link Callable} whose {@link Callable#call()} method
* implements a process whose duration should be timed
* @param the type of the value returned by {@code event}
* @return the value returned by {@code event}
* @throws Exception if {@code event} throws an {@link Exception}
*/
@Override
public T time(Callable event) throws Exception {
final long startTime = clock.getTick();
try {
return event.call();
} finally {
update(clock.getTick() - startTime);
}
}
/**
* Times and records the duration of event.
*
* @param event a {@link Runnable} whose {@link Runnable#run()} method
* implements a process whose duration should be timed
*/
@Override
public void time(Runnable event) {
final long startTime = clock.getTick();
try {
event.run();
} finally {
update(clock.getTick() - startTime);
}
}
/**
* Returns a new {@link Context}.
*
* @return a new {@link Context}
* @see Context
*/
@Override
public Timer.Context time() {
return new Context(this, clock);
}
@Override
public Duration getElapsedTime() {
return Duration.ofNanos(histogram.getSum());
}
@Override
public long getCount() {
return histogram.getCount();
}
@Override
public Snapshot getSnapshot() {
return histogram.getSnapshot();
}
private void update(long duration) {
if (duration >= 0) {
histogram.update(duration);
}
}
@Override
public String toString() {
return "Timer[" + getCount() + "]";
}
void validateMetricsConfiguration(String metricName, Map> percentilesConfigMap,
Map> timerBucketsConfigMap) {
Collection computedPercentiles = percentilesConfigMap
.computeIfAbsent(metricName, MetricsConfigParserUtil::processPercentileMap);
Collection computedTimersBuckets = timerBucketsConfigMap
.computeIfAbsent(metricName, this::processTimerBucketMap);
MetricsCustomPercentiles resultPercentile = null;
MetricsCustomBuckets resultBucket = null;
configurationProperties = new ConfigurationProperties();
if (computedPercentiles != null && !computedPercentiles.isEmpty()) {
resultPercentile = MetricsCustomPercentiles.matches(computedPercentiles, metricName);
}
if (resultPercentile != null && resultPercentile.getPercentiles() != null
&& resultPercentile.getPercentiles().length > 0) {
configurationProperties.setPercentilesFromConfig(resultPercentile.getPercentiles());
} else if (resultPercentile != null && resultPercentile.getPercentiles() == null
&& resultPercentile.isDisabled()) {
} else {
Double[] percentiles = {0.5, 0.75, 0.95, 0.98, 0.99, 0.999};
configurationProperties.setPercentilesFromConfig(percentiles);
}
if (computedTimersBuckets != null && computedTimersBuckets.size() != 0) {
resultBucket = MetricsCustomBuckets.matches(computedTimersBuckets, metricName);
}
if (resultBucket != null && resultBucket.getBuckets() != null && resultBucket.getBuckets().length > 0) {
configurationProperties.setBucketValuesFromConfig(resultBucket.getBuckets());
}
this.reservoir.setConfigAdapter(configurationProperties);
}
private Collection processTimerBucketMap(String appName) {
Config config = MetricUtils.getConfigProvider();
if (config != null) {
Optional customBuckets = config.getOptionalValue(METRIC_TIMER_BUCKETS_PROPERTY, String.class);
return (customBuckets.isPresent()) ? MetricsConfigParserUtil.parseTimerBuckets(customBuckets.get()) : null;
}
return null;
}
/**
* A timing context.
*
* @see TimerImpl#time()
*/
private static class Context implements Timer.Context {
private final Timer timer;
private final Clock clock;
private final long startTime;
Context(Timer timer, Clock clock) {
this.timer = timer;
this.clock = clock;
this.startTime = clock.getTick();
}
/**
* Updates the timer with the difference between current and start time.
* Call to this method will not reset the start time. Multiple calls
* result in multiple updates.
*
* @return the elapsed time in nanoseconds
*/
@Override
public long stop() {
final long elapsed = clock.getTick() - startTime;
timer.update(Duration.ofNanos(elapsed));
return elapsed;
}
/**
* Equivalent to calling {@link #stop()}.
*/
@Override
public void close() {
stop();
}
}
}
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