restic/internal/ui/backup/rate_estimator_test.go

234 lines
5.3 KiB
Go

package backup
import (
"math"
"testing"
"time"
)
const float64EqualityThreshold = 1e-6
func almostEqual(a, b float64) bool {
if math.IsNaN(a) || math.IsNaN(b) {
panic("almostEqual passed a NaN")
}
return math.Abs(a-b) <= float64EqualityThreshold
}
func TestEstimatorDefault(t *testing.T) {
var start time.Time
e := newRateEstimator(start)
r := e.rate(start)
if math.IsNaN(r) || r != 0 {
t.Fatalf("e.Rate == %v, want zero", r)
}
r = e.rate(start.Add(time.Hour))
if math.IsNaN(r) || r != 0 {
t.Fatalf("e.Rate == %v, want zero", r)
}
}
func TestEstimatorSimple(t *testing.T) {
var when time.Time
type testcase struct {
bytes uint64
when time.Duration
rate float64
}
cases := []testcase{
{0, 0, 0},
{1, time.Second, 1},
{60, time.Second, 60},
{60, time.Minute, 1},
}
for _, c := range cases {
e := newRateEstimator(when)
e.recordBytes(when.Add(time.Second), c.bytes)
rate := e.rate(when.Add(c.when))
if !almostEqual(rate, c.rate) {
t.Fatalf("e.Rate == %v, want %v (testcase %+v)", rate, c.rate, c)
}
}
}
func TestBucketWidth(t *testing.T) {
var when time.Time
// Recording byte transfers within a bucket width's time window uses one
// bucket.
e := newRateEstimator(when)
e.recordBytes(when, 1)
e.recordBytes(when.Add(bucketWidth-time.Nanosecond), 1)
if e.buckets.Len() != 1 {
t.Fatalf("e.buckets.Len() is %d, want 1", e.buckets.Len())
}
b := e.buckets.Back().Value.(*rateBucket)
if b.totalBytes != 2 {
t.Fatalf("b.totalBytes is %d, want 2", b.totalBytes)
}
if b.end != when.Add(bucketWidth) {
t.Fatalf("b.end is %v, want %v", b.end, when.Add(bucketWidth))
}
// Recording a byte outside the bucket width causes another bucket.
e.recordBytes(when.Add(bucketWidth), 1)
if e.buckets.Len() != 2 {
t.Fatalf("e.buckets.Len() is %d, want 2", e.buckets.Len())
}
b = e.buckets.Back().Value.(*rateBucket)
if b.totalBytes != 1 {
t.Fatalf("b.totalBytes is %d, want 1", b.totalBytes)
}
if b.end != when.Add(2*bucketWidth) {
t.Fatalf("b.end is %v, want %v", b.end, when.Add(bucketWidth))
}
// Recording a byte after a longer delay creates a sparse bucket list.
e.recordBytes(when.Add(time.Hour+time.Millisecond), 7)
if e.buckets.Len() != 3 {
t.Fatalf("e.buckets.Len() is %d, want 3", e.buckets.Len())
}
b = e.buckets.Back().Value.(*rateBucket)
if b.totalBytes != 7 {
t.Fatalf("b.totalBytes is %d, want 7", b.totalBytes)
}
if b.end != when.Add(time.Hour+time.Millisecond+time.Second) {
t.Fatalf("b.end is %v, want %v", b.end, when.Add(time.Hour+time.Millisecond+time.Second))
}
}
type chunk struct {
repetitions uint64 // repetition count
bytes uint64 // byte count (every second)
}
func applyChunk(c chunk, t time.Time, e *rateEstimator) time.Time {
for i := uint64(0); i < c.repetitions; i++ {
e.recordBytes(t, c.bytes)
t = t.Add(time.Second)
}
return t
}
func applyChunks(chunks []chunk, t time.Time, e *rateEstimator) time.Time {
for _, c := range chunks {
t = applyChunk(c, t, e)
}
return t
}
func TestEstimatorResponsiveness(t *testing.T) {
type testcase struct {
description string
chunks []chunk
rate float64
}
cases := []testcase{
{
"1000 bytes/sec over one second",
[]chunk{
{1, 1000},
},
1000,
},
{
"1000 bytes/sec over one minute",
[]chunk{
{60, 1000},
},
1000,
},
{
"1000 bytes/sec for 10 seconds, then 2000 bytes/sec for 10 seconds",
[]chunk{
{10, 1000},
{10, 2000},
},
1500,
},
{
"1000 bytes/sec for one minute, then 2000 bytes/sec for one minute",
[]chunk{
{60, 1000},
{60, 2000},
},
1500,
},
{
"rate doubles after 30 seconds",
[]chunk{
{30, minRateEstimatorBytes},
{90, 2 * minRateEstimatorBytes},
},
minRateEstimatorBytes * 1.75,
},
{
"rate doubles after 31 seconds",
[]chunk{
{31, minRateEstimatorBytes},
{90, 2 * minRateEstimatorBytes},
},
// The expected rate is the same as the prior test case because the
// first second has rolled off the estimator.
minRateEstimatorBytes * 1.75,
},
{
"rate doubles after 90 seconds",
[]chunk{
{90, minRateEstimatorBytes},
{90, 2 * minRateEstimatorBytes},
},
// The expected rate is the same as the prior test case because the
// first 60 seconds have rolled off the estimator.
minRateEstimatorBytes * 1.75,
},
{
"rate doubles for two full minutes",
[]chunk{
{60, minRateEstimatorBytes},
{120, 2 * minRateEstimatorBytes},
},
2 * minRateEstimatorBytes,
},
{
"rate falls to zero",
[]chunk{
{30, minRateEstimatorBytes},
{30, 0},
},
minRateEstimatorBytes / 2,
},
{
"rate falls to zero for extended time",
[]chunk{
{60, 1000},
{300, 0},
},
1000 * 60 / (60 + 300.0),
},
{
"rate falls to zero for extended time (from high rate)",
[]chunk{
{2 * minRateEstimatorBuckets, minRateEstimatorBytes},
{300, 0},
},
// Expect that only minRateEstimatorBuckets buckets are used in the
// rate estimate.
minRateEstimatorBytes * minRateEstimatorBuckets /
(minRateEstimatorBuckets + 300.0),
},
}
for i, c := range cases {
var w time.Time
e := newRateEstimator(w)
w = applyChunks(c.chunks, w, e)
r := e.rate(w)
if !almostEqual(r, c.rate) {
t.Fatalf("e.Rate == %f, want %f (testcase %d %+v)", r, c.rate, i, c)
}
}
}