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99 lines
2.9 KiB
Go
99 lines
2.9 KiB
Go
// Copyright 2022 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package base
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import "time"
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// ThroughputMetric is used to measure the byte throughput of some component
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// that performs work in a single-threaded manner. The throughput can be
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// approximated by Bytes/(WorkDuration+IdleTime). The idle time is represented
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// separately, so that the user of this metric could approximate the peak
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// throughput as Bytes/WorkTime. The metric is designed to be cumulative (see
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// Merge).
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type ThroughputMetric struct {
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// Bytes is the processes bytes by the component.
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Bytes int64
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// WorkDuration is the duration that the component spent doing work.
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WorkDuration time.Duration
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// IdleDuration is the duration that the component was idling, waiting for
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// work.
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IdleDuration time.Duration
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}
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// Merge accumulates the information from another throughput metric.
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func (tm *ThroughputMetric) Merge(x ThroughputMetric) {
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tm.Bytes += x.Bytes
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tm.WorkDuration += x.WorkDuration
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tm.IdleDuration += x.IdleDuration
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}
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// Subtract subtracts the information from another ThroughputMetric
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func (tm *ThroughputMetric) Subtract(x ThroughputMetric) {
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tm.Bytes -= x.Bytes
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tm.WorkDuration -= x.WorkDuration
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tm.IdleDuration -= x.IdleDuration
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}
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// PeakRate returns the approximate peak rate if there was no idling.
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func (tm *ThroughputMetric) PeakRate() int64 {
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if tm.Bytes == 0 {
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return 0
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}
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return int64((float64(tm.Bytes) / float64(tm.WorkDuration)) * float64(time.Second))
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}
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// Rate returns the observed rate.
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func (tm *ThroughputMetric) Rate() int64 {
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if tm.Bytes == 0 {
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return 0
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}
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return int64((float64(tm.Bytes) / float64(tm.WorkDuration+tm.IdleDuration)) *
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float64(time.Second))
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}
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// Utilization returns a percent [0, 1.0] indicating the percent of time
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// work was performed.
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func (tm *ThroughputMetric) Utilization() float64 {
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if tm.WorkDuration == 0 {
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return 0
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}
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return float64(tm.WorkDuration) / float64(tm.WorkDuration+tm.IdleDuration)
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}
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// GaugeSampleMetric is used to measure a gauge value (e.g. queue length) by
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// accumulating samples of that gauge.
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type GaugeSampleMetric struct {
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// The sum of all the samples.
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sampleSum int64
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// The number of samples.
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count int64
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}
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// AddSample adds the given sample.
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func (gsm *GaugeSampleMetric) AddSample(sample int64) {
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gsm.sampleSum += sample
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gsm.count++
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}
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// Merge accumulates the information from another gauge metric.
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func (gsm *GaugeSampleMetric) Merge(x GaugeSampleMetric) {
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gsm.sampleSum += x.sampleSum
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gsm.count += x.count
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}
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// Subtract subtracts the information from another gauge metric.
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func (gsm *GaugeSampleMetric) Subtract(x GaugeSampleMetric) {
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gsm.sampleSum -= x.sampleSum
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gsm.count -= x.count
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}
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// Mean returns the mean value.
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func (gsm *GaugeSampleMetric) Mean() float64 {
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if gsm.count == 0 {
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return 0
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}
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return float64(gsm.sampleSum) / float64(gsm.count)
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}
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