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160 lines
3.8 KiB
Go
160 lines
3.8 KiB
Go
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// Copyright 2012-2016 Oliver Eilhard. All rights reserved.
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// Use of this source code is governed by a MIT-license.
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// See http://olivere.mit-license.org/license.txt for details.
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package backoff
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import (
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"math"
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"math/rand"
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"sync"
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"sync/atomic"
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"time"
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)
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// Backoff is an interface for different types of backoff algorithms.
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type Backoff interface {
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Next() time.Duration
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Reset()
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}
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// Stop is used as a signal to indicate that no more retries should be made.
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const Stop time.Duration = -1
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// -- Simple Backoff --
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// SimpleBackoff takes a list of fixed values for backoff intervals.
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// Each call to Next returns the next value from that fixed list.
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// After each value is returned, subsequent calls to Next will only return
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// the last element. The caller may specify if the values are "jittered".
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type SimpleBackoff struct {
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sync.Mutex
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ticks []int
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index int
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jitter bool
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stop bool
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}
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// NewSimpleBackoff creates a SimpleBackoff algorithm with the specified
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// list of fixed intervals in milliseconds.
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func NewSimpleBackoff(ticks ...int) *SimpleBackoff {
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return &SimpleBackoff{
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ticks: ticks,
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index: 0,
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jitter: false,
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stop: false,
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}
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}
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// Jitter, when set, randomizes to return a value of [0.5*value .. 1.5*value].
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func (b *SimpleBackoff) Jitter(doJitter bool) *SimpleBackoff {
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b.Lock()
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defer b.Unlock()
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b.jitter = doJitter
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return b
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}
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// SendStop, when enables, makes Next to return Stop once
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// the list of values is exhausted.
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func (b *SimpleBackoff) SendStop(doStop bool) *SimpleBackoff {
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b.Lock()
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defer b.Unlock()
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b.stop = doStop
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return b
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}
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// Next returns the next wait interval.
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func (b *SimpleBackoff) Next() time.Duration {
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b.Lock()
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defer b.Unlock()
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i := b.index
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if i >= len(b.ticks) {
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if b.stop {
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return Stop
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}
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i = len(b.ticks) - 1
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b.index = i
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} else {
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b.index++
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}
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ms := b.ticks[i]
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if b.jitter {
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ms = jitter(ms)
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}
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return time.Duration(ms) * time.Millisecond
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}
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// Reset resets SimpleBackoff.
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func (b *SimpleBackoff) Reset() {
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b.Lock()
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b.index = 0
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b.Unlock()
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}
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// jitter randomizes the interval to return a value of [0.5*millis .. 1.5*millis].
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func jitter(millis int) int {
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if millis <= 0 {
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return 0
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}
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return millis/2 + rand.Intn(millis)
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}
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// -- Exponential --
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// ExponentialBackoff implements the simple exponential backoff described by
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// Douglas Thain at http://dthain.blogspot.de/2009/02/exponential-backoff-in-distributed.html.
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type ExponentialBackoff struct {
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sync.Mutex
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t float64 // initial timeout (in msec)
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f float64 // exponential factor (e.g. 2)
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m float64 // maximum timeout (in msec)
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n int64 // number of retries
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stop bool // indicates whether Next should send "Stop" whan max timeout is reached
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}
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// NewExponentialBackoff returns a ExponentialBackoff backoff policy.
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// Use initialTimeout to set the first/minimal interval
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// and maxTimeout to set the maximum wait interval.
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func NewExponentialBackoff(initialTimeout, maxTimeout time.Duration) *ExponentialBackoff {
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return &ExponentialBackoff{
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t: float64(int64(initialTimeout / time.Millisecond)),
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f: 2.0,
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m: float64(int64(maxTimeout / time.Millisecond)),
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n: 0,
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stop: false,
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}
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}
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// SendStop, when enables, makes Next to return Stop once
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// the maximum timeout is reached.
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func (b *ExponentialBackoff) SendStop(doStop bool) *ExponentialBackoff {
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b.Lock()
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defer b.Unlock()
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b.stop = doStop
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return b
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}
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// Next returns the next wait interval.
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func (t *ExponentialBackoff) Next() time.Duration {
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t.Lock()
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defer t.Unlock()
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n := float64(atomic.AddInt64(&t.n, 1))
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r := 1.0 + rand.Float64() // random number in [1..2]
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m := math.Min(r*t.t*math.Pow(t.f, n), t.m)
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if t.stop && m >= t.m {
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return Stop
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}
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d := time.Duration(int64(m)) * time.Millisecond
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return d
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}
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// Reset resets the backoff policy so that it can be reused.
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func (t *ExponentialBackoff) Reset() {
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t.Lock()
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t.n = 0
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t.Unlock()
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}
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