io.camunda.zeebe.journal.file.JournalMetrics Maven / Gradle / Ivy
The newest version!
/*
* Copyright © 2017 camunda services GmbH ([email protected])
*
* 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 io.camunda.zeebe.journal.file;
import io.prometheus.client.Counter;
import io.prometheus.client.Gauge;
import io.prometheus.client.Gauge.Timer;
import io.prometheus.client.Histogram;
import io.prometheus.client.Histogram.Child;
final class JournalMetrics {
private static final String NAMESPACE = "atomix";
private static final String PARTITION_LABEL = "partition";
private static final Histogram SEGMENT_CREATION_TIME =
Histogram.build()
.namespace(NAMESPACE)
.name("segment_creation_time")
.help("Time spend to create a new segment")
.labelNames(PARTITION_LABEL)
.register();
private static final Histogram SEGMENT_TRUNCATE_TIME =
Histogram.build()
.namespace(NAMESPACE)
.name("segment_truncate_time")
.help("Time spend to truncate a segment")
.labelNames(PARTITION_LABEL)
.register();
private static final Histogram SEGMENT_FLUSH_TIME =
Histogram.build()
.namespace(NAMESPACE)
.name("segment_flush_time")
.help("Time spend to flush segment to disk")
.labelNames(PARTITION_LABEL)
.register();
private static final Histogram JOURNAL_FLUSH_TIME =
Histogram.build()
.namespace(NAMESPACE)
.name("journal_flush_time")
.help("Time spend to flush all dirty segments to disk")
.labelNames(PARTITION_LABEL)
.register();
private static final Gauge SEGMENT_COUNT =
Gauge.build()
.namespace(NAMESPACE)
.name("segment_count")
.help("Number of segments")
.labelNames(PARTITION_LABEL)
.register();
private static final Gauge JOURNAL_OPEN_DURATION =
Gauge.build()
.namespace(NAMESPACE)
.name("journal_open_time")
.help("Time taken to open the journal")
.labelNames(PARTITION_LABEL)
.register();
private static final Histogram SEGMENT_ALLOCATION_TIME =
Histogram.build()
.namespace(NAMESPACE)
.name("segment_allocation_time")
.help("Time spent to allocate a new segment")
.labelNames(PARTITION_LABEL)
.register();
private static final Counter APPEND_DATA_RATE =
Counter.build()
.namespace(NAMESPACE)
.name("journal_append_data_rate")
.help("The rate in KiB at which we append data to the journal")
.labelNames(PARTITION_LABEL)
.register();
private static final Counter APPEND_RATE =
Counter.build()
.namespace(NAMESPACE)
.name("journal_append_rate")
.help("The rate at which we append entries in the journal, by entry count")
.labelNames(PARTITION_LABEL)
.register();
private static final Histogram APPEND_LATENCY =
Histogram.build()
.namespace(NAMESPACE)
.name("journal_append_latency")
.help("Distribution of time spent appending journal records, excluding flushing")
.labelNames(PARTITION_LABEL)
.register();
private static final Histogram SEEK_LATENCY =
Histogram.build()
.namespace(NAMESPACE)
.name("journal_seek_latency")
.help("Distribution of time spent seeking to a specific index")
.labelNames(PARTITION_LABEL)
.buckets(0.0001, 0.001, .005, .01, .025, .05, .075, .1, .25, .5, .75, 1, 2.5, 5)
.register();
private final Histogram.Child segmentCreationTime;
private final Histogram.Child segmentTruncateTime;
private final Histogram.Child segmentFlushTime;
private final Histogram.Child journalFlushTime;
private final Gauge.Child segmentCount;
private final Gauge.Child journalOpenTime;
private final Histogram.Child segmentAllocationTime;
private final Histogram.Child appendLatency;
private final Counter.Child appendRate;
private final Counter.Child appendDataRate;
private final Child seekLatency;
JournalMetrics(final String partitionId) {
segmentCreationTime = SEGMENT_CREATION_TIME.labels(partitionId);
segmentTruncateTime = SEGMENT_TRUNCATE_TIME.labels(partitionId);
segmentFlushTime = SEGMENT_FLUSH_TIME.labels(partitionId);
journalFlushTime = JOURNAL_FLUSH_TIME.labels(partitionId);
segmentCount = SEGMENT_COUNT.labels(partitionId);
journalOpenTime = JOURNAL_OPEN_DURATION.labels(partitionId);
segmentAllocationTime = SEGMENT_ALLOCATION_TIME.labels(partitionId);
appendLatency = APPEND_LATENCY.labels(partitionId);
appendRate = APPEND_RATE.labels(partitionId);
appendDataRate = APPEND_DATA_RATE.labels(partitionId);
seekLatency = SEEK_LATENCY.labels(partitionId);
}
void observeSegmentCreation(final Runnable segmentCreation) {
segmentCreationTime.time(segmentCreation);
}
Histogram.Timer observeSegmentFlush() {
return segmentFlushTime.startTimer();
}
Histogram.Timer observeJournalFlush() {
return journalFlushTime.startTimer();
}
void observeSegmentTruncation(final Runnable segmentTruncation) {
segmentTruncateTime.time(segmentTruncation);
}
Timer startJournalOpenDurationTimer() {
return journalOpenTime.startTimer();
}
void incSegmentCount() {
segmentCount.inc();
}
void decSegmentCount() {
segmentCount.dec();
}
Histogram.Timer observeSegmentAllocation() {
return segmentAllocationTime.startTimer();
}
void observeAppend(final long appendedBytes) {
appendRate.inc();
appendDataRate.inc(appendedBytes / 1024f);
}
Histogram.Timer observeAppendLatency() {
return appendLatency.startTimer();
}
Histogram.Timer observeSeekLatency() {
return seekLatency.startTimer();
}
}