open-consul/lib/retry/retry.go

106 lines
2.7 KiB
Go

package retry
import (
"context"
"math/rand"
"time"
)
// Jitter should return a new wait duration optionally with some time added or
// removed to create some randomness in wait time.
type Jitter func(baseTime time.Duration) time.Duration
// NewJitter returns a new random Jitter that is up to percent longer than the
// original wait time.
func NewJitter(percent int64) Jitter {
if percent < 0 {
percent = 0
}
return func(baseTime time.Duration) time.Duration {
if percent == 0 {
return baseTime
}
max := (int64(baseTime) * percent) / 100
if max < 0 { // overflow
return baseTime
}
return baseTime + time.Duration(rand.Int63n(max))
}
}
// Waiter records the number of failures and performs exponential backoff when
// when there are consecutive failures.
type Waiter struct {
// MinFailures before exponential backoff starts. Any failures before
// MinFailures is reached will wait MinWait time.
MinFailures uint
// MinWait time. Returned after the first failure.
MinWait time.Duration
// MaxWait time applied before Jitter. Note that the actual maximum wait time
// is MaxWait + MaxWait * Jitter.
MaxWait time.Duration
// Jitter to add to each wait time. The Jitter is applied after MaxWait, which
// may cause the actual wait time to exceed MaxWait.
Jitter Jitter
// Factor is the multiplier to use when calculating the delay. Defaults to
// 1 second.
Factor time.Duration
failures uint
}
// delay calculates the time to wait based on the number of failures
func (w *Waiter) delay() time.Duration {
if w.failures <= w.MinFailures {
return w.MinWait
}
factor := w.Factor
if factor == 0 {
factor = time.Second
}
shift := w.failures - w.MinFailures - 1
waitTime := w.MaxWait
if shift < 31 {
waitTime = (1 << shift) * factor
}
// apply MaxWait before jitter so that multiple waiters with the same MaxWait
// do not converge when they hit their max.
if w.MaxWait != 0 && waitTime > w.MaxWait {
waitTime = w.MaxWait
}
if w.Jitter != nil {
waitTime = w.Jitter(waitTime)
}
if waitTime < w.MinWait {
return w.MinWait
}
return waitTime
}
// Reset the failure count to 0.
func (w *Waiter) Reset() {
w.failures = 0
}
// Failures returns the count of consecutive failures.
func (w *Waiter) Failures() int {
return int(w.failures)
}
// Wait increase the number of failures by one, and then blocks until the context
// is cancelled, or until the wait time is reached.
// The wait time increases exponentially as the number of failures increases.
// Wait will return ctx.Err() if the context is cancelled.
func (w *Waiter) Wait(ctx context.Context) error {
w.failures++
timer := time.NewTimer(w.delay())
select {
case <-ctx.Done():
timer.Stop()
return ctx.Err()
case <-timer.C:
return nil
}
}