org.apache.kafka.common.metrics.Sensor Maven / Gradle / Ivy
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* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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 org.apache.kafka.common.metrics;
import java.util.function.Supplier;
import org.apache.kafka.common.MetricName;
import org.apache.kafka.common.metrics.CompoundStat.NamedMeasurable;
import org.apache.kafka.common.metrics.stats.TokenBucket;
import org.apache.kafka.common.utils.Time;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.concurrent.TimeUnit;
import static java.util.Arrays.asList;
import static java.util.Collections.unmodifiableList;
/**
* A sensor applies a continuous sequence of numerical values to a set of associated metrics. For example a sensor on
* message size would record a sequence of message sizes using the {@link #record(double)} api and would maintain a set
* of metrics about request sizes such as the average or max.
*/
public final class Sensor {
private final Metrics registry;
private final String name;
private final Sensor[] parents;
private final List stats;
private final Map metrics;
private final MetricConfig config;
private final Time time;
private volatile long lastRecordTime;
private final long inactiveSensorExpirationTimeMs;
private final Object metricLock;
private static class StatAndConfig {
private final Stat stat;
private final Supplier configSupplier;
StatAndConfig(Stat stat, Supplier configSupplier) {
this.stat = stat;
this.configSupplier = configSupplier;
}
public Stat stat() {
return stat;
}
public MetricConfig config() {
return configSupplier.get();
}
@Override
public String toString() {
return "StatAndConfig(stat=" + stat + ')';
}
}
public enum RecordingLevel {
INFO(0, "INFO"), DEBUG(1, "DEBUG"), TRACE(2, "TRACE");
private static final RecordingLevel[] ID_TO_TYPE;
private static final int MIN_RECORDING_LEVEL_KEY = 0;
public static final int MAX_RECORDING_LEVEL_KEY;
static {
int maxRL = -1;
for (RecordingLevel level : RecordingLevel.values()) {
maxRL = Math.max(maxRL, level.id);
}
RecordingLevel[] idToName = new RecordingLevel[maxRL + 1];
for (RecordingLevel level : RecordingLevel.values()) {
idToName[level.id] = level;
}
ID_TO_TYPE = idToName;
MAX_RECORDING_LEVEL_KEY = maxRL;
}
/** an english description of the api--this is for debugging and can change */
public final String name;
/** the permanent and immutable id of an API--this can't change ever */
public final short id;
RecordingLevel(int id, String name) {
this.id = (short) id;
this.name = name;
}
public static RecordingLevel forId(int id) {
if (id < MIN_RECORDING_LEVEL_KEY || id > MAX_RECORDING_LEVEL_KEY)
throw new IllegalArgumentException(String.format("Unexpected RecordLevel id `%d`, it should be between `%d` " +
"and `%d` (inclusive)", id, MIN_RECORDING_LEVEL_KEY, MAX_RECORDING_LEVEL_KEY));
return ID_TO_TYPE[id];
}
/** Case insensitive lookup by protocol name */
public static RecordingLevel forName(String name) {
return RecordingLevel.valueOf(name.toUpperCase(Locale.ROOT));
}
public boolean shouldRecord(final int configId) {
if (configId == INFO.id) {
return this.id == INFO.id;
} else if (configId == DEBUG.id) {
return this.id == INFO.id || this.id == DEBUG.id;
} else if (configId == TRACE.id) {
return true;
} else {
throw new IllegalStateException("Did not recognize recording level " + configId);
}
}
}
private final RecordingLevel recordingLevel;
Sensor(Metrics registry, String name, Sensor[] parents, MetricConfig config, Time time,
long inactiveSensorExpirationTimeSeconds, RecordingLevel recordingLevel) {
super();
this.registry = registry;
this.name = Objects.requireNonNull(name);
this.parents = parents == null ? new Sensor[0] : parents;
this.metrics = new LinkedHashMap<>();
this.stats = new ArrayList<>();
this.config = config;
this.time = time;
this.inactiveSensorExpirationTimeMs = TimeUnit.MILLISECONDS.convert(inactiveSensorExpirationTimeSeconds, TimeUnit.SECONDS);
this.lastRecordTime = time.milliseconds();
this.recordingLevel = recordingLevel;
this.metricLock = new Object();
checkForest(new HashSet<>());
}
/* Validate that this sensor doesn't end up referencing itself */
private void checkForest(Set sensors) {
if (!sensors.add(this))
throw new IllegalArgumentException("Circular dependency in sensors: " + name() + " is its own parent.");
for (Sensor parent : parents)
parent.checkForest(sensors);
}
/**
* The name this sensor is registered with. This name will be unique among all registered sensors.
*/
public String name() {
return this.name;
}
List parents() {
return unmodifiableList(asList(parents));
}
/**
* @return true if the sensor's record level indicates that the metric will be recorded, false otherwise
*/
public boolean shouldRecord() {
return this.recordingLevel.shouldRecord(config.recordLevel().id);
}
/**
* Record an occurrence, this is just short-hand for {@link #record(double) record(1.0)}
*/
public void record() {
if (shouldRecord()) {
recordInternal(1.0d, time.milliseconds(), true);
}
}
/**
* Record a value with this sensor
* @param value The value to record
* @throws QuotaViolationException if recording this value moves a metric beyond its configured maximum or minimum
* bound
*/
public void record(double value) {
if (shouldRecord()) {
recordInternal(value, time.milliseconds(), true);
}
}
/**
* Record a value at a known time. This method is slightly faster than {@link #record(double)} since it will reuse
* the time stamp.
* @param value The value we are recording
* @param timeMs The current POSIX time in milliseconds
* @throws QuotaViolationException if recording this value moves a metric beyond its configured maximum or minimum
* bound
*/
public void record(double value, long timeMs) {
if (shouldRecord()) {
recordInternal(value, timeMs, true);
}
}
/**
* Record a value at a known time. This method is slightly faster than {@link #record(double)} since it will reuse
* the time stamp.
* @param value The value we are recording
* @param timeMs The current POSIX time in milliseconds
* @param checkQuotas Indicate if quota must be enforced or not
* @throws QuotaViolationException if recording this value moves a metric beyond its configured maximum or minimum
* bound
*/
public void record(double value, long timeMs, boolean checkQuotas) {
if (shouldRecord()) {
recordInternal(value, timeMs, checkQuotas);
}
}
private void recordInternal(double value, long timeMs, boolean checkQuotas) {
this.lastRecordTime = timeMs;
synchronized (this) {
synchronized (metricLock()) {
// increment all the stats
for (StatAndConfig statAndConfig : this.stats) {
statAndConfig.stat.record(statAndConfig.config(), value, timeMs);
}
}
if (checkQuotas)
checkQuotas(timeMs);
}
for (Sensor parent : parents)
parent.record(value, timeMs, checkQuotas);
}
/**
* Check if we have violated our quota for any metric that has a configured quota
*/
public void checkQuotas() {
checkQuotas(time.milliseconds());
}
public void checkQuotas(long timeMs) {
for (KafkaMetric metric : this.metrics.values()) {
MetricConfig config = metric.config();
if (config != null) {
Quota quota = config.quota();
if (quota != null) {
double value = metric.measurableValue(timeMs);
if (metric.measurable() instanceof TokenBucket) {
if (value < 0) {
throw new QuotaViolationException(metric, value, quota.bound());
}
} else {
if (!quota.acceptable(value)) {
throw new QuotaViolationException(metric, value, quota.bound());
}
}
}
}
}
}
/**
* Register a compound statistic with this sensor with no config override
* @param stat The stat to register
* @return true if stat is added to sensor, false if sensor is expired
*/
public boolean add(CompoundStat stat) {
return add(stat, null);
}
/**
* Register a compound statistic with this sensor which yields multiple measurable quantities (like a histogram)
* @param stat The stat to register
* @param config The configuration for this stat. If null then the stat will use the default configuration for this
* sensor.
* @return true if stat is added to sensor, false if sensor is expired
*/
public synchronized boolean add(CompoundStat stat, MetricConfig config) {
if (hasExpired())
return false;
final MetricConfig statConfig = config == null ? this.config : config;
stats.add(new StatAndConfig(Objects.requireNonNull(stat), () -> statConfig));
Object lock = metricLock();
for (NamedMeasurable m : stat.stats()) {
final KafkaMetric metric = new KafkaMetric(lock, m.name(), m.stat(), statConfig, time);
if (!metrics.containsKey(metric.metricName())) {
KafkaMetric existingMetric = registry.registerMetric(metric);
if (existingMetric != null) {
throw new IllegalArgumentException("A metric named '" + metric.metricName() + "' already exists, can't register another one.");
}
metrics.put(metric.metricName(), metric);
}
}
return true;
}
/**
* Register a metric with this sensor
* @param metricName The name of the metric
* @param stat The statistic to keep
* @return true if metric is added to sensor, false if sensor is expired
*/
public boolean add(MetricName metricName, MeasurableStat stat) {
return add(metricName, stat, null);
}
/**
* Register a metric with this sensor
*
* @param metricName The name of the metric
* @param stat The statistic to keep
* @param config A special configuration for this metric. If null use the sensor default configuration.
* @return true if metric is added to sensor, false if sensor is expired
*/
public synchronized boolean add(final MetricName metricName, final MeasurableStat stat, final MetricConfig config) {
if (hasExpired()) {
return false;
} else if (metrics.containsKey(metricName)) {
return true;
} else {
final MetricConfig statConfig = config == null ? this.config : config;
final KafkaMetric metric = new KafkaMetric(
metricLock(),
Objects.requireNonNull(metricName),
Objects.requireNonNull(stat),
statConfig,
time
);
KafkaMetric existingMetric = registry.registerMetric(metric);
if (existingMetric != null) {
throw new IllegalArgumentException("A metric named '" + metricName + "' already exists, can't register another one.");
}
metrics.put(metric.metricName(), metric);
stats.add(new StatAndConfig(Objects.requireNonNull(stat), metric::config));
return true;
}
}
/**
* Return if metrics were registered with this sensor.
*
* @return true if metrics were registered, false otherwise
*/
public synchronized boolean hasMetrics() {
return !metrics.isEmpty();
}
/**
* Return true if the Sensor is eligible for removal due to inactivity.
* false otherwise
*/
public boolean hasExpired() {
return (time.milliseconds() - this.lastRecordTime) > this.inactiveSensorExpirationTimeMs;
}
synchronized List metrics() {
return unmodifiableList(new ArrayList<>(this.metrics.values()));
}
/**
* KafkaMetrics of sensors which use SampledStat should be synchronized on the same lock
* for sensor record and metric value read to allow concurrent reads and updates. For simplicity,
* all sensors are synchronized on this object.
*
* Sensor object is not used as a lock for reading metric value since metrics reporter is
* invoked while holding Sensor and Metrics locks to report addition and removal of metrics
* and synchronized reporters may deadlock if Sensor lock is used for reading metrics values.
* Note that Sensor object itself is used as a lock to protect the access to stats and metrics
* while recording metric values, adding and deleting sensors.
*
* Locking order (assume all MetricsReporter methods may be synchronized):
*
* - Sensor#add: Sensor -> Metrics -> MetricsReporter
* - Metrics#removeSensor: Sensor -> Metrics -> MetricsReporter
* - KafkaMetric#metricValue: MetricsReporter -> Sensor#metricLock
* - Sensor#record: Sensor -> Sensor#metricLock
*
*
*/
private Object metricLock() {
return metricLock;
}
}
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