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pacer_test.go
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pacer_test.go
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// Copyright 2019 The LevelDB-Go and Pebble Authors. All rights reserved. Use
// of this source code is governed by a BSD-style license that can be found in
// the LICENSE file.
package pebble
import (
"cmp"
"fmt"
"math"
"math/rand/v2"
"slices"
"testing"
"time"
"github.com/cockroachdb/crlib/crtime"
"github.com/stretchr/testify/require"
)
func TestDeletionPacer(t *testing.T) {
const MB = 1 << 20
const GB = 1 << 30
testCases := []struct {
freeBytes uint64
obsoleteBytes uint64
liveBytes uint64
// history of deletion reporting; first value in the pair is the time,
// second value is the deleted bytes. The time of pacing is the same as the
// last time in the history.
history [][2]int64
// expected pacing rate in MB/s.
expected float64
}{
{
freeBytes: 160 * GB,
obsoleteBytes: 1 * MB,
liveBytes: 160 * MB,
expected: 100.0,
},
// As freeBytes is 2GB below the free space threshold, rate should be
// increased by 204.8MB/s.
{
freeBytes: 14 * GB,
obsoleteBytes: 1 * MB,
liveBytes: 100 * MB,
expected: 304.8,
},
// As freeBytes is 10GB below the free space threshold, rate should be
// increased to by 1GB/s.
{
freeBytes: 6 * GB,
obsoleteBytes: 1 * MB,
liveBytes: 100 * MB,
expected: 1124.0,
},
// obsoleteBytesRatio is 50%. We need to delete 30GB within 5 minutes.
{
freeBytes: 500 * GB,
obsoleteBytes: 50 * GB,
liveBytes: 100 * GB,
expected: 202.4,
},
// When obsolete ratio unknown, there should be no throttling.
{
freeBytes: 500 * GB,
obsoleteBytes: 0,
liveBytes: 0,
expected: math.Inf(1),
},
// History shows 200MB/sec deletions on average over last 5 minutes.
{
freeBytes: 160 * GB,
obsoleteBytes: 1 * MB,
liveBytes: 160 * MB,
history: [][2]int64{{0, 5 * 60 * 200 * MB}},
expected: 200.0,
},
// History shows 200MB/sec deletions on average over last 5 minutes and
// freeBytes is 10GB below the threshold.
{
freeBytes: 6 * GB,
obsoleteBytes: 1 * MB,
liveBytes: 160 * MB,
history: [][2]int64{{0, 5 * 60 * 200 * MB}},
expected: 1224.0,
},
// History shows 200MB/sec deletions on average over last 5 minutes and
// obsoleteBytesRatio is 50%.
{
freeBytes: 500 * GB,
obsoleteBytes: 50 * GB,
liveBytes: 100 * GB,
history: [][2]int64{{0, 5 * 60 * 200 * MB}},
expected: 302.4,
},
// History shows 1000MB/sec deletions on average over last 5 minutes.
{
freeBytes: 160 * GB,
obsoleteBytes: 1 * MB,
liveBytes: 160 * MB,
history: [][2]int64{{0, 60 * 1000 * MB}, {3 * 60, 60 * 4 * 1000 * MB}, {4 * 60, 0}},
expected: 1000.0,
},
// First entry in history is too old, it should be discarded.
{
freeBytes: 160 * GB,
obsoleteBytes: 1 * MB,
liveBytes: 160 * MB,
history: [][2]int64{{0, 10 * 60 * 10000 * MB}, {3 * 60, 4 * 60 * 200 * MB}, {7 * 60, 1 * 60 * 200 * MB}},
expected: 200.0,
},
}
for tcIdx, tc := range testCases {
t.Run(fmt.Sprintf("%d", tcIdx), func(t *testing.T) {
getInfo := func() deletionPacerInfo {
return deletionPacerInfo{
freeBytes: tc.freeBytes,
liveBytes: tc.liveBytes,
obsoleteBytes: tc.obsoleteBytes,
}
}
start := crtime.NowMono()
last := start
pacer := newDeletionPacer(start, 100*MB, getInfo)
for _, h := range tc.history {
last = start + crtime.Mono(time.Second*time.Duration(h[0]))
pacer.ReportDeletion(last, uint64(h[1]))
}
result := 1.0 / pacer.PacingDelay(last, 1*MB)
require.InDelta(t, tc.expected, result, 1e-7)
})
}
}
// TestDeletionPacerHistory tests the history helper by crosschecking Sum()
// against a naive implementation.
func TestDeletionPacerHistory(t *testing.T) {
type event struct {
time crtime.Mono
// If report is 0, this event is a Sum(). Otherwise it is an Add().
report int64
}
numEvents := 1 + rand.IntN(200)
timeframe := time.Duration(1+rand.IntN(60*100)) * time.Second
events := make([]event, numEvents)
startTime := crtime.NowMono()
for i := range events {
events[i].time = startTime + crtime.Mono(rand.Int64N(int64(timeframe)))
if rand.IntN(3) == 0 {
events[i].report = 0
} else {
events[i].report = int64(rand.IntN(100000))
}
}
slices.SortFunc(events, func(a, b event) int { return cmp.Compare(a.time, b.time) })
var h history
h.Init(startTime, timeframe)
// partialSums[i] := SUM_j<i events[j].report
partialSums := make([]int64, len(events)+1)
for i := range events {
partialSums[i+1] = partialSums[i] + events[i].report
}
for i, e := range events {
if e.report != 0 {
h.Add(e.time, e.report)
continue
}
result := h.Sum(e.time)
// getIdx returns the largest event index <= i that is before the cutoff
// time.
getIdx := func(cutoff crtime.Mono) int {
for j := i; j >= 0; j-- {
if events[j].time < cutoff {
return j
}
}
return -1
}
// Sum all report values in the last timeframe, and see if recent events
// (allowing 1% error in the cutoff time) match the result.
a := getIdx(e.time - crtime.Mono(timeframe*(historyEpochs+1)/historyEpochs))
b := getIdx(e.time - crtime.Mono(timeframe*(historyEpochs-1)/historyEpochs))
found := false
for j := a; j <= b; j++ {
if partialSums[i+1]-partialSums[j+1] == result {
found = true
break
}
}
if !found {
t.Fatalf("incorrect Sum() result %d; %v", result, events[a+1:i+1])
}
}
}