perfermance: cache maxPass & minRt for reducing cpu calculation

pull/207/head
程飞 6 years ago
parent bbb46d1abe
commit a52895637c
  1. 55
      pkg/ratelimit/bbr/bbr.go
  2. 168
      pkg/ratelimit/bbr/bbr_test.go
  3. 5
      pkg/stat/metric/rolling_counter.go

@ -18,6 +18,7 @@ import (
var (
cpu int64
decay = 0.95
initTime = time.Now()
defaultConf = &Config{
Window: time.Second * 10,
WinBucket: 100,
@ -72,6 +73,9 @@ type BBR struct {
winBucketPerSec int64
conf *Config
prevDrop atomic.Value
prevDropHit int32
rawMaxPASS int64
rawMinRt int64
}
// Config contains configs of bbr limiter.
@ -85,9 +89,13 @@ type Config struct {
}
func (l *BBR) maxPASS() int64 {
val := int64(l.passStat.Reduce(func(iterator metric.Iterator) float64 {
rawMaxPass := atomic.LoadInt64(&l.rawMaxPASS)
if rawMaxPass > 0 && l.passStat.Timespan() < 1 {
return rawMaxPass
}
rawMaxPass = int64(l.passStat.Reduce(func(iterator metric.Iterator) float64 {
var result = 1.0
for iterator.Next() {
for i := 1; iterator.Next() && i < l.conf.WinBucket; i++ {
bucket := iterator.Bucket()
count := 0.0
for _, p := range bucket.Points {
@ -97,16 +105,21 @@ func (l *BBR) maxPASS() int64 {
}
return result
}))
if val == 0 {
return 1
if rawMaxPass == 0 {
rawMaxPass = 1
}
return val
atomic.StoreInt64(&l.rawMaxPASS, rawMaxPass)
return rawMaxPass
}
func (l *BBR) minRT() int64 {
val := l.rtStat.Reduce(func(iterator metric.Iterator) float64 {
rawMinRT := atomic.LoadInt64(&l.rawMinRt)
if rawMinRT > 0 && l.rtStat.Timespan() < 1 {
return rawMinRT
}
rawMinRT = int64(math.Ceil(l.rtStat.Reduce(func(iterator metric.Iterator) float64 {
var result = math.MaxFloat64
for iterator.Next() {
for i := 1; iterator.Next() && i < l.conf.WinBucket; i++ {
bucket := iterator.Bucket()
if len(bucket.Points) == 0 {
continue
@ -119,8 +132,12 @@ func (l *BBR) minRT() int64 {
result = math.Min(result, avg)
}
return result
})
return int64(math.Ceil(val))
})))
if rawMinRT <= 0 {
rawMinRT = 1
}
atomic.StoreInt64(&l.rawMinRt, rawMinRT)
return rawMinRT
}
func (l *BBR) maxFlight() int64 {
@ -129,20 +146,28 @@ func (l *BBR) maxFlight() int64 {
func (l *BBR) shouldDrop() bool {
if l.cpu() < l.conf.CPUThreshold {
prevDrop, ok := l.prevDrop.Load().(time.Time)
if !ok {
prevDrop, _ := l.prevDrop.Load().(time.Duration)
if prevDrop == 0 {
return false
}
if time.Since(prevDrop) <= time.Second {
if time.Since(initTime)-prevDrop <= time.Second {
if atomic.LoadInt32(&l.prevDropHit) == 0 {
atomic.StoreInt32(&l.prevDropHit, 1)
}
inFlight := atomic.LoadInt64(&l.inFlight)
return inFlight > 1 && inFlight > l.maxFlight()
}
l.prevDrop.Store(time.Duration(0))
return false
}
inFlight := atomic.LoadInt64(&l.inFlight)
drop := inFlight > 1 && inFlight > l.maxFlight()
if drop {
l.prevDrop.Store(time.Now())
prevDrop, _ := l.prevDrop.Load().(time.Duration)
if prevDrop != 0 {
return drop
}
l.prevDrop.Store(time.Since(initTime))
}
return drop
}
@ -169,9 +194,9 @@ func (l *BBR) Allow(ctx context.Context, opts ...limit.AllowOption) (func(info l
return nil, ecode.LimitExceed
}
atomic.AddInt64(&l.inFlight, 1)
stime := time.Now()
stime := time.Since(initTime)
return func(do limit.DoneInfo) {
rt := int64(time.Since(stime) / time.Millisecond)
rt := int64((time.Since(initTime) - stime) / time.Millisecond)
l.rtStat.Add(rt)
atomic.AddInt64(&l.inFlight, -1)
switch do.Op {

@ -3,7 +3,6 @@ package bbr
import (
"context"
"fmt"
"math"
"math/rand"
"sync"
"sync/atomic"
@ -15,6 +14,34 @@ import (
"github.com/stretchr/testify/assert"
)
func confForTest() *Config {
return &Config{
Window: time.Second,
WinBucket: 10,
CPUThreshold: 800,
}
}
func warmup(bbr *BBR, count int) {
for i := 0; i < count; i++ {
done, err := bbr.Allow(context.TODO())
time.Sleep(time.Millisecond * 1)
if err == nil {
done(ratelimit.DoneInfo{Op: ratelimit.Success})
}
}
}
func forceAllow(bbr *BBR) {
inflight := bbr.inFlight
bbr.inFlight = bbr.maxPASS() - 1
done, err := bbr.Allow(context.TODO())
if err == nil {
done(ratelimit.DoneInfo{Op: ratelimit.Success})
}
bbr.inFlight = inflight
}
func TestBBR(t *testing.T) {
cfg := &Config{
Window: time.Second * 5,
@ -46,26 +73,21 @@ func TestBBR(t *testing.T) {
func TestBBRMaxPass(t *testing.T) {
bucketDuration := time.Millisecond * 100
passStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
bbr := newLimiter(confForTest()).(*BBR)
for i := 1; i <= 10; i++ {
passStat.Add(int64(i * 100))
bbr.passStat.Add(int64(i * 100))
time.Sleep(bucketDuration)
}
bbr := &BBR{
passStat: passStat,
}
assert.Equal(t, int64(1000), bbr.maxPASS())
// default max pass is equal to 1.
passStat = metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
bbr = &BBR{
passStat: passStat,
}
bbr = newLimiter(confForTest()).(*BBR)
assert.Equal(t, int64(1), bbr.maxPASS())
}
func TestBBRMinRt(t *testing.T) {
bucketDuration := time.Millisecond * 100
bbr := newLimiter(confForTest()).(*BBR)
rtStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
for i := 0; i < 10; i++ {
for j := i*10 + 1; j <= i*10+10; j++ {
@ -75,26 +97,23 @@ func TestBBRMinRt(t *testing.T) {
time.Sleep(bucketDuration)
}
}
bbr := &BBR{
rtStat: rtStat,
}
bbr.rtStat = rtStat
assert.Equal(t, int64(6), bbr.minRT())
// default max min rt is equal to maxFloat64.
bucketDuration = time.Millisecond * 100
rtStat = metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
bbr = &BBR{
rtStat: rtStat,
}
assert.Equal(t, int64(math.Ceil(math.MaxFloat64)), bbr.minRT())
bbr = newLimiter(confForTest()).(*BBR)
bbr.rtStat = metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
assert.Equal(t, int64(1), bbr.minRT())
}
func TestBBRMaxQps(t *testing.T) {
bbr := newLimiter(confForTest()).(*BBR)
bucketDuration := time.Millisecond * 100
passStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
rtStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
for i := 0; i < 10; i++ {
passStat.Add(int64((i + 1) * 100))
passStat.Add(int64((i + 2) * 100))
for j := i*10 + 1; j <= i*10+10; j++ {
rtStat.Add(int64(j))
}
@ -102,17 +121,15 @@ func TestBBRMaxQps(t *testing.T) {
time.Sleep(bucketDuration)
}
}
bbr := &BBR{
passStat: passStat,
rtStat: rtStat,
winBucketPerSec: 10,
}
bbr.passStat = passStat
bbr.rtStat = rtStat
assert.Equal(t, int64(60), bbr.maxFlight())
}
func TestBBRShouldDrop(t *testing.T) {
var cpu int64
cpuGetter := func() int64 {
bbr := newLimiter(confForTest()).(*BBR)
bbr.cpu = func() int64 {
return cpu
}
bucketDuration := time.Millisecond * 100
@ -127,13 +144,8 @@ func TestBBRShouldDrop(t *testing.T) {
time.Sleep(bucketDuration)
}
}
bbr := &BBR{
cpu: cpuGetter,
passStat: passStat,
rtStat: rtStat,
winBucketPerSec: 10,
conf: defaultConf,
}
bbr.passStat = passStat
bbr.rtStat = rtStat
// cpu >= 800, inflight < maxQps
cpu = 800
bbr.inFlight = 50
@ -170,19 +182,10 @@ func TestGroup(t *testing.T) {
}
func BenchmarkBBRAllowUnderLowLoad(b *testing.B) {
cpuGetter := func() int64 {
bbr := newLimiter(confForTest()).(*BBR)
bbr.cpu = func() int64 {
return 500
}
bucketDuration := time.Millisecond * 100
passStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
rtStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
bbr := &BBR{
cpu: cpuGetter,
passStat: passStat,
rtStat: rtStat,
winBucketPerSec: 10,
conf: defaultConf,
}
b.ResetTimer()
for i := 0; i <= b.N; i++ {
done, err := bbr.Allow(context.TODO())
@ -193,21 +196,19 @@ func BenchmarkBBRAllowUnderLowLoad(b *testing.B) {
}
func BenchmarkBBRAllowUnderHighLoad(b *testing.B) {
cpuGetter := func() int64 {
bbr := newLimiter(confForTest()).(*BBR)
bbr.cpu = func() int64 {
return 900
}
bucketDuration := time.Millisecond * 100
passStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
rtStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
bbr := &BBR{
cpu: cpuGetter,
passStat: passStat,
rtStat: rtStat,
winBucketPerSec: 10,
conf: defaultConf,
}
bbr.inFlight = 1
b.ResetTimer()
for i := 0; i <= b.N; i++ {
if i%10000 == 0 {
maxFlight := bbr.maxFlight()
if maxFlight != 0 {
bbr.inFlight = rand.Int63n(bbr.maxFlight() * 2)
}
}
done, err := bbr.Allow(context.TODO())
if err == nil {
done(ratelimit.DoneInfo{Op: ratelimit.Success})
@ -216,26 +217,11 @@ func BenchmarkBBRAllowUnderHighLoad(b *testing.B) {
}
func BenchmarkBBRShouldDropUnderLowLoad(b *testing.B) {
cpuGetter := func() int64 {
bbr := newLimiter(confForTest()).(*BBR)
bbr.cpu = func() int64 {
return 500
}
bucketDuration := time.Millisecond * 100
passStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
rtStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
bbr := &BBR{
cpu: cpuGetter,
passStat: passStat,
rtStat: rtStat,
winBucketPerSec: 10,
conf: defaultConf,
}
for i := 0; i < 10000; i++ {
done, err := bbr.Allow(context.TODO())
time.Sleep(time.Millisecond * 1)
if err == nil {
done(ratelimit.DoneInfo{Op: ratelimit.Success})
}
}
warmup(bbr, 10000)
b.ResetTimer()
for i := 0; i <= b.N; i++ {
bbr.shouldDrop()
@ -243,28 +229,34 @@ func BenchmarkBBRShouldDropUnderLowLoad(b *testing.B) {
}
func BenchmarkBBRShouldDropUnderHighLoad(b *testing.B) {
cpuGetter := func() int64 {
bbr := newLimiter(confForTest()).(*BBR)
bbr.cpu = func() int64 {
return 900
}
bucketDuration := time.Millisecond * 100
passStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
rtStat := metric.NewRollingCounter(metric.RollingCounterOpts{Size: 10, BucketDuration: bucketDuration})
bbr := &BBR{
cpu: cpuGetter,
passStat: passStat,
rtStat: rtStat,
winBucketPerSec: 10,
conf: defaultConf,
}
for i := 0; i < 10000; i++ {
done, err := bbr.Allow(context.TODO())
time.Sleep(time.Millisecond * 1)
if err == nil {
done(ratelimit.DoneInfo{Op: ratelimit.Success})
warmup(bbr, 10000)
bbr.inFlight = 1000
b.ResetTimer()
for i := 0; i <= b.N; i++ {
bbr.shouldDrop()
if i%10000 == 0 {
forceAllow(bbr)
}
}
}
func BenchmarkBBRShouldDropUnderUnstableLoad(b *testing.B) {
bbr := newLimiter(confForTest()).(*BBR)
bbr.cpu = func() int64 {
return 500
}
warmup(bbr, 10000)
bbr.prevDrop.Store(time.Since(initTime))
bbr.inFlight = 1000
b.ResetTimer()
for i := 0; i <= b.N; i++ {
bbr.shouldDrop()
if i%100000 == 0 {
forceAllow(bbr)
}
}
}

@ -13,6 +13,7 @@ var _ Aggregation = &rollingCounter{}
type RollingCounter interface {
Metric
Aggregation
Timespan() int
// Reduce applies the reduction function to all buckets within the window.
Reduce(func(Iterator) float64) float64
}
@ -66,3 +67,7 @@ func (r *rollingCounter) Sum() float64 {
func (r *rollingCounter) Value() int64 {
return int64(r.Sum())
}
func (r *rollingCounter) Timespan() int {
return r.policy.timespan()
}

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