mirror of https://github.com/jpillora/backoff.git
Make ForAttempt concurrent-safe in all cases, golint.
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62
backoff.go
62
backoff.go
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@ -1,3 +1,4 @@
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// Package backoff provides an exponential-backoff implementation.
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package backoff
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import (
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@ -6,14 +7,12 @@ import (
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"time"
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)
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//Backoff is a time.Duration counter. It starts at Min.
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//After every call to Duration() it is multiplied by Factor.
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//It is capped at Max. It returns to Min on every call to Reset().
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//Used in conjunction with the time package.
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// Backoff is a time.Duration counter, starting at Min. After every call to
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// the Duration method the current timing is multiplied by Factor, but it
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// never exceeds Max.
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//
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// Backoff is not threadsafe, but the ForAttempt method can be
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// used concurrently if non-zero values for Factor, Max, and Min
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// are set on the Backoff shared among threads.
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// Backoff is not generally concurrent-safe, but the ForAttempt method can
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// be used concurrently.
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type Backoff struct {
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//Factor is the multiplying factor for each increment step
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attempt, Factor float64
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@ -23,8 +22,8 @@ type Backoff struct {
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Min, Max time.Duration
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}
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//Returns the current value of the counter and then
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//multiplies it Factor
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// Duration returns the duration for the current attempt before incrementing
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// the attempt counter. See ForAttempt.
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func (b *Backoff) Duration() time.Duration {
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d := b.ForAttempt(b.attempt)
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b.attempt++
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@ -36,44 +35,47 @@ func (b *Backoff) Duration() time.Duration {
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// unnecessary memory storing the Backoff parameters per Backoff. The first
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// attempt should be 0.
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//
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// ForAttempt is threadsafe iff non-zero values for Factor, Max, and Min
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// are set before any calls to ForAttempt are made.
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// ForAttempt is concurrent-safe.
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func (b *Backoff) ForAttempt(attempt float64) time.Duration {
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if float64(b.Min) > float64(b.Max) {
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return b.Max
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}
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// Zero-values are nonsensical, so we use
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// them to apply defaults
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if b.Min == 0 {
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b.Min = 100 * time.Millisecond
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min := b.Min
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if min <= 0 {
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min = 100 * time.Millisecond
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}
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if b.Max == 0 {
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b.Max = 10 * time.Second
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max := b.Max
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if max <= 0 {
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max = 10 * time.Second
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}
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if b.Factor == 0 {
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b.Factor = 2
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if min >= max {
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// short-circuit
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return max
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}
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factor := b.Factor
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if factor <= 0 {
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factor = 2
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}
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//calculate this duration
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dur := float64(b.Min) * math.Pow(b.Factor, attempt)
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if b.Jitter == true {
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dur = rand.Float64()*(dur-float64(b.Min)) + float64(b.Min)
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minf := float64(min)
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durf := minf * math.Pow(factor, attempt)
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if b.Jitter {
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durf = rand.Float64()*(durf-minf) + minf
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}
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dur := time.Duration(durf)
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if dur > max {
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//cap!
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if dur > float64(b.Max) {
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return b.Max
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return max
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}
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//return as a time.Duration
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return time.Duration(dur)
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return dur
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}
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//Resets the current value of the counter back to Min
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// Reset restarts the current attempt counter at zero.
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func (b *Backoff) Reset() {
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b.attempt = 0
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}
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//Get the current backoff attempt
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// Attempt returns the current attempt counter value.
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func (b *Backoff) Attempt() float64 {
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return b.attempt
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}
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