mirror of https://github.com/status-im/consul.git
157 lines
3.8 KiB
Go
157 lines
3.8 KiB
Go
package lib
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import (
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"time"
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)
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const (
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defaultMinFailures = 0
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defaultMaxWait = 2 * time.Minute
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)
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// Interface used for offloading jitter calculations from the RetryWaiter
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type Jitter interface {
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AddJitter(baseTime time.Duration) time.Duration
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}
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// Calculates a random jitter between 0 and up to a specific percentage of the baseTime
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type JitterRandomStagger struct {
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// int64 because we are going to be doing math against an int64 to represent nanoseconds
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percent int64
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}
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// Creates a new JitterRandomStagger
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func NewJitterRandomStagger(percent int) *JitterRandomStagger {
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if percent < 0 {
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percent = 0
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}
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return &JitterRandomStagger{
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percent: int64(percent),
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}
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}
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// Implments the Jitter interface
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func (j *JitterRandomStagger) AddJitter(baseTime time.Duration) time.Duration {
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if j.percent == 0 {
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return baseTime
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}
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// time.Duration is actually a type alias for int64 which is why casting
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// to the duration type and then dividing works
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return baseTime + RandomStagger((baseTime*time.Duration(j.percent))/100)
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}
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// RetryWaiter will record failed and successful operations and provide
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// a channel to wait on before a failed operation can be retried.
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type RetryWaiter struct {
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minFailures uint
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minWait time.Duration
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maxWait time.Duration
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jitter Jitter
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failures uint
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}
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// Creates a new RetryWaiter
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func NewRetryWaiter(minFailures int, minWait, maxWait time.Duration, jitter Jitter) *RetryWaiter {
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if minFailures < 0 {
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minFailures = defaultMinFailures
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}
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if maxWait <= 0 {
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maxWait = defaultMaxWait
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}
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if minWait <= 0 {
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minWait = 0 * time.Nanosecond
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}
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return &RetryWaiter{
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minFailures: uint(minFailures),
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minWait: minWait,
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maxWait: maxWait,
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failures: 0,
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jitter: jitter,
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}
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}
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// calculates the necessary wait time before the
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// next operation should be allowed.
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func (rw *RetryWaiter) calculateWait() time.Duration {
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waitTime := rw.minWait
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if rw.failures > rw.minFailures {
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shift := rw.failures - rw.minFailures - 1
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waitTime = rw.maxWait
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if shift < 31 {
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waitTime = (1 << shift) * time.Second
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}
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if waitTime > rw.maxWait {
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waitTime = rw.maxWait
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}
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if rw.jitter != nil {
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waitTime = rw.jitter.AddJitter(waitTime)
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}
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}
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if waitTime < rw.minWait {
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waitTime = rw.minWait
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}
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return waitTime
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}
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// calculates the waitTime and returns a chan
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// that will become selectable once that amount
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// of time has elapsed.
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func (rw *RetryWaiter) wait() <-chan struct{} {
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waitTime := rw.calculateWait()
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ch := make(chan struct{})
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if waitTime > 0 {
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time.AfterFunc(waitTime, func() { close(ch) })
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} else {
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// if there should be 0 wait time then we ensure
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// that the chan will be immediately selectable
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close(ch)
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}
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return ch
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}
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// Marks that an operation is successful which resets the failure count.
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// The chan that is returned will be immediately selectable
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func (rw *RetryWaiter) Success() <-chan struct{} {
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rw.Reset()
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return rw.wait()
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}
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// Marks that an operation failed. The chan returned will be selectable
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// once the calculated retry wait amount of time has elapsed
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func (rw *RetryWaiter) Failed() <-chan struct{} {
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rw.failures += 1
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ch := rw.wait()
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return ch
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}
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// Resets the internal failure counter
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func (rw *RetryWaiter) Reset() {
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rw.failures = 0
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}
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// WaitIf is a convenice method to record whether the last
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// operation was a success or failure and return a chan that
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// will be selectablw when the next operation can be done.
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func (rw *RetryWaiter) WaitIf(failure bool) <-chan struct{} {
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if failure {
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return rw.Failed()
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}
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return rw.Success()
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}
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// WaitIfErr is a convenience method to record whether the last
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// operation was a success or failure based on whether the err
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// is nil and then return a chan that will be selectable when
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// the next operation can be done.
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func (rw *RetryWaiter) WaitIfErr(err error) <-chan struct{} {
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return rw.WaitIf(err != nil)
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}
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