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package load
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import (
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"errors"
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"fmt"
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"math"
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"sync/atomic"
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"time"
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"github.com/zeromicro/go-zero/core/collection"
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"github.com/zeromicro/go-zero/core/logx"
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"github.com/zeromicro/go-zero/core/stat"
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"github.com/zeromicro/go-zero/core/syncx"
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"github.com/zeromicro/go-zero/core/timex"
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)
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const (
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defaultBuckets = 50
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defaultWindow = time.Second * 5
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// using 1000m notation, 900m is like 80%, keep it as var for unit test
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defaultCpuThreshold = 900
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defaultMinRt = float64(time.Second / time.Millisecond)
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// moving average hyperparameter beta for calculating requests on the fly
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flyingBeta = 0.9
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coolOffDuration = time.Second
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)
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var (
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// ErrServiceOverloaded is returned by Shedder.Allow when the service is overloaded.
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ErrServiceOverloaded = errors.New("service overloaded")
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// default to be enabled
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enabled = syncx.ForAtomicBool(true)
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// default to be enabled
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logEnabled = syncx.ForAtomicBool(true)
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// make it a variable for unit test
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systemOverloadChecker = func(cpuThreshold int64) bool {
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return stat.CpuUsage() >= cpuThreshold
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}
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)
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type (
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// A Promise interface is returned by Shedder.Allow to let callers tell
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// whether the processing request is successful or not.
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Promise interface {
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// Pass lets the caller tell that the call is successful.
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Pass()
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// Fail lets the caller tell that the call is failed.
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Fail()
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}
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// Shedder is the interface that wraps the Allow method.
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Shedder interface {
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// Allow returns the Promise if allowed, otherwise ErrServiceOverloaded.
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Allow() (Promise, error)
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}
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// ShedderOption lets caller customize the Shedder.
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ShedderOption func(opts *shedderOptions)
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shedderOptions struct {
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window time.Duration
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buckets int
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cpuThreshold int64
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}
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adaptiveShedder struct {
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cpuThreshold int64
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windows int64
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flying int64
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avgFlying float64
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avgFlyingLock syncx.SpinLock
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dropTime *syncx.AtomicDuration
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droppedRecently *syncx.AtomicBool
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passCounter *collection.RollingWindow
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rtCounter *collection.RollingWindow
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}
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)
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// Disable lets callers disable load shedding.
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func Disable() {
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enabled.Set(false)
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}
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// DisableLog disables the stat logs for load shedding.
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func DisableLog() {
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logEnabled.Set(false)
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}
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// NewAdaptiveShedder returns an adaptive shedder.
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// opts can be used to customize the Shedder.
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func NewAdaptiveShedder(opts ...ShedderOption) Shedder {
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if !enabled.True() {
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return newNopShedder()
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}
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options := shedderOptions{
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window: defaultWindow,
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buckets: defaultBuckets,
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cpuThreshold: defaultCpuThreshold,
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}
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for _, opt := range opts {
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opt(&options)
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}
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bucketDuration := options.window / time.Duration(options.buckets)
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return &adaptiveShedder{
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cpuThreshold: options.cpuThreshold,
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windows: int64(time.Second / bucketDuration),
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dropTime: syncx.NewAtomicDuration(),
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droppedRecently: syncx.NewAtomicBool(),
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passCounter: collection.NewRollingWindow(options.buckets, bucketDuration,
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collection.IgnoreCurrentBucket()),
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rtCounter: collection.NewRollingWindow(options.buckets, bucketDuration,
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collection.IgnoreCurrentBucket()),
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}
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}
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// Allow implements Shedder.Allow.
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func (as *adaptiveShedder) Allow() (Promise, error) {
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if as.shouldDrop() {
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as.dropTime.Set(timex.Now())
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as.droppedRecently.Set(true)
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return nil, ErrServiceOverloaded
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}
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as.addFlying(1)
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return &promise{
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start: timex.Now(),
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shedder: as,
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}, nil
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}
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func (as *adaptiveShedder) addFlying(delta int64) {
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flying := atomic.AddInt64(&as.flying, delta)
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// update avgFlying when the request is finished.
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// this strategy makes avgFlying have a little bit lag against flying, and smoother.
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// when the flying requests increase rapidly, avgFlying increase slower, accept more requests.
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// when the flying requests drop rapidly, avgFlying drop slower, accept less requests.
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// it makes the service to serve as more requests as possible.
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if delta < 0 {
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as.avgFlyingLock.Lock()
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as.avgFlying = as.avgFlying*flyingBeta + float64(flying)*(1-flyingBeta)
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as.avgFlyingLock.Unlock()
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}
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}
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func (as *adaptiveShedder) highThru() bool {
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as.avgFlyingLock.Lock()
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avgFlying := as.avgFlying
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as.avgFlyingLock.Unlock()
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maxFlight := as.maxFlight()
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return int64(avgFlying) > maxFlight && atomic.LoadInt64(&as.flying) > maxFlight
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}
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func (as *adaptiveShedder) maxFlight() int64 {
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// windows = buckets per second
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// maxQPS = maxPASS * windows
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// minRT = min average response time in milliseconds
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// maxQPS * minRT / milliseconds_per_second
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return int64(math.Max(1, float64(as.maxPass()*as.windows)*(as.minRt()/1e3)))
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}
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func (as *adaptiveShedder) maxPass() int64 {
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var result float64 = 1
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as.passCounter.Reduce(func(b *collection.Bucket) {
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if b.Sum > result {
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result = b.Sum
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}
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})
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return int64(result)
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}
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func (as *adaptiveShedder) minRt() float64 {
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result := defaultMinRt
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as.rtCounter.Reduce(func(b *collection.Bucket) {
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if b.Count <= 0 {
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return
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}
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avg := math.Round(b.Sum / float64(b.Count))
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if avg < result {
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result = avg
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}
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})
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return result
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}
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func (as *adaptiveShedder) shouldDrop() bool {
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if as.systemOverloaded() || as.stillHot() {
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if as.highThru() {
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flying := atomic.LoadInt64(&as.flying)
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as.avgFlyingLock.Lock()
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avgFlying := as.avgFlying
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as.avgFlyingLock.Unlock()
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msg := fmt.Sprintf(
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"dropreq, cpu: %d, maxPass: %d, minRt: %.2f, hot: %t, flying: %d, avgFlying: %.2f",
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stat.CpuUsage(), as.maxPass(), as.minRt(), as.stillHot(), flying, avgFlying)
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logx.Error(msg)
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stat.Report(msg)
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return true
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}
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}
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return false
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}
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func (as *adaptiveShedder) stillHot() bool {
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if !as.droppedRecently.True() {
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return false
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}
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dropTime := as.dropTime.Load()
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if dropTime == 0 {
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return false
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}
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hot := timex.Since(dropTime) < coolOffDuration
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if !hot {
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as.droppedRecently.Set(false)
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}
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return hot
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}
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func (as *adaptiveShedder) systemOverloaded() bool {
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return systemOverloadChecker(as.cpuThreshold)
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}
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// WithBuckets customizes the Shedder with given number of buckets.
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func WithBuckets(buckets int) ShedderOption {
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return func(opts *shedderOptions) {
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opts.buckets = buckets
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}
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}
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// WithCpuThreshold customizes the Shedder with given cpu threshold.
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func WithCpuThreshold(threshold int64) ShedderOption {
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return func(opts *shedderOptions) {
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opts.cpuThreshold = threshold
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}
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}
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// WithWindow customizes the Shedder with given
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func WithWindow(window time.Duration) ShedderOption {
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return func(opts *shedderOptions) {
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opts.window = window
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}
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}
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type promise struct {
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start time.Duration
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shedder *adaptiveShedder
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}
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func (p *promise) Fail() {
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p.shedder.addFlying(-1)
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}
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func (p *promise) Pass() {
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rt := float64(timex.Since(p.start)) / float64(time.Millisecond)
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p.shedder.addFlying(-1)
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p.shedder.rtCounter.Add(math.Ceil(rt))
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p.shedder.passCounter.Add(1)
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}
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