7a4eda156c
This also removes `godep` calls from make scripts. Of note is that currently `./...` checking in acceptance tests is disabled.
221 lines
5.8 KiB
Go
221 lines
5.8 KiB
Go
package hostpool
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import (
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"log"
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"math/rand"
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"time"
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)
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type epsilonHostPoolResponse struct {
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standardHostPoolResponse
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started time.Time
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ended time.Time
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}
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func (r *epsilonHostPoolResponse) Mark(err error) {
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r.Do(func() {
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r.ended = time.Now()
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doMark(err, r)
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})
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}
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type epsilonGreedyHostPool struct {
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standardHostPool // TODO - would be nifty if we could embed HostPool and Locker interfaces
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epsilon float32 // this is our exploration factor
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decayDuration time.Duration
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EpsilonValueCalculator // embed the epsilonValueCalculator
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timer
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quit chan bool
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}
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// Construct an Epsilon Greedy HostPool
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//
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// Epsilon Greedy is an algorithm that allows HostPool not only to track failure state,
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// but also to learn about "better" options in terms of speed, and to pick from available hosts
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// based on how well they perform. This gives a weighted request rate to better
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// performing hosts, while still distributing requests to all hosts (proportionate to their performance).
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// The interface is the same as the standard HostPool, but be sure to mark the HostResponse immediately
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// after executing the request to the host, as that will stop the implicitly running request timer.
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//
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// A good overview of Epsilon Greedy is here http://stevehanov.ca/blog/index.php?id=132
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//
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// To compute the weighting scores, we perform a weighted average of recent response times, over the course of
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// `decayDuration`. decayDuration may be set to 0 to use the default value of 5 minutes
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// We then use the supplied EpsilonValueCalculator to calculate a score from that weighted average response time.
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func NewEpsilonGreedy(hosts []string, decayDuration time.Duration, calc EpsilonValueCalculator) HostPool {
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if decayDuration <= 0 {
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decayDuration = defaultDecayDuration
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}
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stdHP := New(hosts).(*standardHostPool)
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p := &epsilonGreedyHostPool{
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standardHostPool: *stdHP,
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epsilon: float32(initialEpsilon),
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decayDuration: decayDuration,
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EpsilonValueCalculator: calc,
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timer: &realTimer{},
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quit: make(chan bool),
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}
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// allocate structures
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for _, h := range p.hostList {
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h.epsilonCounts = make([]int64, epsilonBuckets)
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h.epsilonValues = make([]int64, epsilonBuckets)
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}
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go p.epsilonGreedyDecay()
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return p
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}
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func (p *epsilonGreedyHostPool) Close() {
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// No need to do p.quit <- true as close(p.quit) does the trick.
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close(p.quit)
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}
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func (p *epsilonGreedyHostPool) SetEpsilon(newEpsilon float32) {
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p.Lock()
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defer p.Unlock()
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p.epsilon = newEpsilon
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}
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func (p *epsilonGreedyHostPool) SetHosts(hosts []string) {
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p.Lock()
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defer p.Unlock()
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p.standardHostPool.setHosts(hosts)
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for _, h := range p.hostList {
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h.epsilonCounts = make([]int64, epsilonBuckets)
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h.epsilonValues = make([]int64, epsilonBuckets)
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}
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}
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func (p *epsilonGreedyHostPool) epsilonGreedyDecay() {
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durationPerBucket := p.decayDuration / epsilonBuckets
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ticker := time.NewTicker(durationPerBucket)
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for {
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select {
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case <-p.quit:
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ticker.Stop()
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return
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case <-ticker.C:
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p.performEpsilonGreedyDecay()
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}
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}
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}
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func (p *epsilonGreedyHostPool) performEpsilonGreedyDecay() {
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p.Lock()
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for _, h := range p.hostList {
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h.epsilonIndex += 1
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h.epsilonIndex = h.epsilonIndex % epsilonBuckets
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h.epsilonCounts[h.epsilonIndex] = 0
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h.epsilonValues[h.epsilonIndex] = 0
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}
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p.Unlock()
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}
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func (p *epsilonGreedyHostPool) Get() HostPoolResponse {
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p.Lock()
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defer p.Unlock()
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host := p.getEpsilonGreedy()
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if host == "" {
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return nil
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}
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started := time.Now()
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return &epsilonHostPoolResponse{
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standardHostPoolResponse: standardHostPoolResponse{host: host, pool: p},
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started: started,
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}
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}
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func (p *epsilonGreedyHostPool) getEpsilonGreedy() string {
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var hostToUse *hostEntry
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// this is our exploration phase
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if rand.Float32() < p.epsilon {
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p.epsilon = p.epsilon * epsilonDecay
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if p.epsilon < minEpsilon {
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p.epsilon = minEpsilon
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}
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return p.getRoundRobin()
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}
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// calculate values for each host in the 0..1 range (but not ormalized)
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var possibleHosts []*hostEntry
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now := time.Now()
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var sumValues float64
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for _, h := range p.hostList {
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if h.canTryHost(now) {
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v := h.getWeightedAverageResponseTime()
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if v > 0 {
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ev := p.CalcValueFromAvgResponseTime(v)
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h.epsilonValue = ev
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sumValues += ev
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possibleHosts = append(possibleHosts, h)
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}
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}
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}
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if len(possibleHosts) != 0 {
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// now normalize to the 0..1 range to get a percentage
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for _, h := range possibleHosts {
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h.epsilonPercentage = h.epsilonValue / sumValues
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}
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// do a weighted random choice among hosts
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ceiling := 0.0
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pickPercentage := rand.Float64()
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for _, h := range possibleHosts {
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ceiling += h.epsilonPercentage
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if pickPercentage <= ceiling {
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hostToUse = h
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break
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}
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}
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}
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if hostToUse == nil {
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if len(possibleHosts) != 0 {
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log.Println("Failed to randomly choose a host, Dan loses")
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}
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return p.getRoundRobin()
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}
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if hostToUse.dead {
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hostToUse.willRetryHost(p.maxRetryInterval)
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}
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return hostToUse.host
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}
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func (p *epsilonGreedyHostPool) markSuccess(hostR HostPoolResponse) {
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// first do the base markSuccess - a little redundant with host lookup but cleaner than repeating logic
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p.standardHostPool.markSuccess(hostR)
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eHostR, ok := hostR.(*epsilonHostPoolResponse)
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if !ok {
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log.Printf("Incorrect type in eps markSuccess!") // TODO reflection to print out offending type
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return
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}
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host := eHostR.host
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duration := p.between(eHostR.started, eHostR.ended)
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p.Lock()
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defer p.Unlock()
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h, ok := p.hosts[host]
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if !ok {
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log.Fatalf("host %s not in HostPool %v", host, p.Hosts())
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}
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h.epsilonCounts[h.epsilonIndex]++
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h.epsilonValues[h.epsilonIndex] += int64(duration.Seconds() * 1000)
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}
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// --- timer: this just exists for testing
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type timer interface {
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between(time.Time, time.Time) time.Duration
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}
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type realTimer struct{}
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func (rt *realTimer) between(start time.Time, end time.Time) time.Duration {
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return end.Sub(start)
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}
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