mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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136 lines
3.6 KiB
Go
136 lines
3.6 KiB
Go
// Copyright 2023 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 replay
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import (
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"math"
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"time"
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"github.com/guptarohit/asciigraph"
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)
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// SampledMetric holds a metric that is sampled at various points of workload
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// replay. Samples are collected when a new step in the workload is applied to
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// the database, and whenever a compaction completes.
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type SampledMetric struct {
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samples []sample
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first time.Time
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}
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type sample struct {
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since time.Duration
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value int64
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}
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func (m *SampledMetric) record(v int64) {
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if m.first.IsZero() {
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m.first = time.Now()
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}
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m.samples = append(m.samples, sample{
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since: time.Since(m.first),
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value: v,
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})
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}
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// Plot returns an ASCII graph plot of the metric over time, with the provided
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// width and height determining the size of the graph and the number of representable discrete x and y
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// points. All values are first
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// multiplied by the provided scale parameter before graphing.
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func (m *SampledMetric) Plot(width, height int, scale float64) string {
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values := m.Values(width)
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for i := range values {
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values[i] *= scale
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}
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return asciigraph.Plot(values, asciigraph.Height(height))
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}
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// PlotIncreasingPerSec returns an ASCII graph plot of the increasing delta of a
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// metric over time, per-second. The provided width and height determine the
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// size of the graph and the number of representable discrete x and y points.
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// All deltas are multiplied by the provided scale parameter and scaled to
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// per-second before graphing.
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func (m *SampledMetric) PlotIncreasingPerSec(width, height int, scale float64) string {
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bucketDur, values := m.values(width)
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deltas := make([]float64, width)
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for i := range values {
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if i == 0 {
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deltas[i] = (values[i] * scale) / bucketDur.Seconds()
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} else if values[i] > values[i-1] {
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deltas[i] = (values[i] - values[i-1]) * scale / bucketDur.Seconds()
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}
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}
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return asciigraph.Plot(deltas, asciigraph.Height(height))
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}
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// Mean calculates the mean value of the metric.
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func (m *SampledMetric) Mean() float64 {
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var sum float64
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if len(m.samples) == 0 {
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return 0.0
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}
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for _, s := range m.samples {
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sum += float64(s.value)
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}
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return sum / float64(len(m.samples))
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}
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// Min calculates the mininum value of the metric.
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func (m *SampledMetric) Min() int64 {
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min := int64(math.MaxInt64)
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for _, s := range m.samples {
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if min > s.value {
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min = s.value
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}
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}
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return min
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}
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// Max calculates the maximum value of the metric.
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func (m *SampledMetric) Max() int64 {
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var max int64
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for _, s := range m.samples {
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if max < s.value {
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max = s.value
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}
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}
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return max
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}
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// Values returns the values of the metric, distributed across n discrete
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// buckets that are equally spaced over time. If multiple values fall within a
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// bucket, the latest recorded value is used. If no values fall within a bucket,
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// the next recorded value is used.
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func (m *SampledMetric) Values(n int) []float64 {
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_, values := m.values(n)
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return values
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}
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func (m *SampledMetric) values(buckets int) (bucketDur time.Duration, values []float64) {
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if len(m.samples) == 0 || buckets < 1 {
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return bucketDur, nil
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}
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values = make([]float64, buckets)
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totalDur := m.samples[len(m.samples)-1].since
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bucketDur = totalDur / time.Duration(buckets)
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for i, b := 0, 0; i < len(m.samples); i++ {
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// Fill any buckets that precede this value with the previous value.
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bi := int(m.samples[i].since / bucketDur)
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if bi == buckets {
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bi = buckets - 1
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}
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if b < bi {
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b++
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for ; b < bi; b++ {
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values[b] = float64(m.samples[i].value)
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}
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}
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values[bi] = float64(m.samples[i].value)
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b = bi
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}
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return bucketDur, values
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}
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