mirror of
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208 lines
7.1 KiB
Go
208 lines
7.1 KiB
Go
// The MIT License
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//
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// Copyright (c) 2020 Temporal Technologies Inc. All rights reserved.
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//
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// Copyright (c) 2020 Uber Technologies, Inc.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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// THE SOFTWARE.
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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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"time"
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"go.temporal.io/sdk/internal/common/retry"
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)
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const (
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done time.Duration = -1
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)
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type (
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// RetryPolicy is the API which needs to be implemented by various retry policy implementations
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RetryPolicy interface {
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ComputeNextDelay(elapsedTime time.Duration, attempt int) time.Duration
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GrpcRetryConfig() *retry.GrpcRetryConfig
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}
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// Retrier manages the state of retry operation
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Retrier interface {
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NextBackOff() time.Duration
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Reset()
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}
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// Clock used by ExponentialRetryPolicy implementation to get the current time. Mainly used for unit testing
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Clock interface {
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Now() time.Time
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}
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// ExponentialRetryPolicy provides the implementation for retry policy using a coefficient to compute the next delay.
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// Formula used to compute the next delay is: initialInterval * math.Pow(backoffCoefficient, currentAttempt)
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ExponentialRetryPolicy struct {
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initialInterval time.Duration
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backoffCoefficient float64
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maximumInterval time.Duration
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expirationInterval time.Duration
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maximumAttempts int
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}
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systemClock struct{}
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retrierImpl struct {
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policy RetryPolicy
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clock Clock
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currentAttempt int
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startTime time.Time
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}
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)
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// SystemClock implements Clock interface that uses time.Now().
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var SystemClock = systemClock{}
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// NewExponentialRetryPolicy returns an instance of ExponentialRetryPolicy using the provided initialInterval
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func NewExponentialRetryPolicy(initialInterval time.Duration) *ExponentialRetryPolicy {
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p := &ExponentialRetryPolicy{
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initialInterval: initialInterval,
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backoffCoefficient: retry.DefaultBackoffCoefficient,
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maximumInterval: retry.DefaultMaximumInterval,
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expirationInterval: retry.DefaultExpirationInterval,
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maximumAttempts: retry.DefaultMaximumAttempts,
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}
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return p
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}
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// NewRetrier is used for creating a new instance of Retrier
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func NewRetrier(policy RetryPolicy, clock Clock) Retrier {
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return &retrierImpl{
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policy: policy,
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clock: clock,
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startTime: clock.Now(),
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currentAttempt: 1,
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}
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}
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// SetInitialInterval sets the initial interval used by ExponentialRetryPolicy for the very first retry
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// All later retries are computed using the following formula:
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// initialInterval * math.Pow(backoffCoefficient, currentAttempt)
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func (p *ExponentialRetryPolicy) SetInitialInterval(initialInterval time.Duration) {
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p.initialInterval = initialInterval
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}
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// SetBackoffCoefficient sets the coefficient used by ExponentialRetryPolicy to compute next delay for each retry
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// All retries are computed using the following formula:
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// initialInterval * math.Pow(backoffCoefficient, currentAttempt)
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func (p *ExponentialRetryPolicy) SetBackoffCoefficient(backoffCoefficient float64) {
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p.backoffCoefficient = backoffCoefficient
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}
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// SetMaximumInterval sets the maximum interval for each retry
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func (p *ExponentialRetryPolicy) SetMaximumInterval(maximumInterval time.Duration) {
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p.maximumInterval = maximumInterval
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}
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// SetExpirationInterval sets the absolute expiration interval for all retries
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func (p *ExponentialRetryPolicy) SetExpirationInterval(expirationInterval time.Duration) {
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p.expirationInterval = expirationInterval
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}
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// SetMaximumAttempts sets the maximum number of retry attempts
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func (p *ExponentialRetryPolicy) SetMaximumAttempts(maximumAttempts int) {
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p.maximumAttempts = maximumAttempts
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}
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// ComputeNextDelay returns the next delay interval. This is used by Retrier to delay calling the operation again
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func (p *ExponentialRetryPolicy) ComputeNextDelay(elapsedTime time.Duration, attempt int) time.Duration {
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// Check to see if we ran out of maximum number of attempts
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if p.maximumAttempts != retry.UnlimitedMaximumAttempts && attempt >= p.maximumAttempts {
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return done
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}
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// Stop retrying after expiration interval is elapsed
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if p.expirationInterval != retry.UnlimitedInterval && elapsedTime > p.expirationInterval {
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return done
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}
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nextInterval := float64(p.initialInterval) * math.Pow(p.backoffCoefficient, float64(attempt-1))
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// Disallow retries if initialInterval is negative or nextInterval overflows
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if nextInterval <= 0 {
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return done
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}
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if p.maximumInterval != retry.UnlimitedInterval {
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nextInterval = math.Min(nextInterval, float64(p.maximumInterval))
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}
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if p.expirationInterval != retry.UnlimitedInterval {
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remainingTime := math.Max(0, float64(p.expirationInterval-elapsedTime))
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nextInterval = math.Min(remainingTime, nextInterval)
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}
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// Bail out if the next interval is smaller than initial retry interval
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nextDuration := time.Duration(nextInterval)
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if nextDuration < p.initialInterval {
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return done
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}
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// add jitter to avoid global synchronization
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jitterPortion := int(retry.DefaultJitter * nextInterval)
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// Prevent overflow
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if jitterPortion < 1 {
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jitterPortion = 1
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}
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nextInterval = nextInterval*(1-retry.DefaultJitter) + float64(rand.Intn(jitterPortion))
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return time.Duration(nextInterval)
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}
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// GrpcRetryConfig converts retry policy into retry config.
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func (p *ExponentialRetryPolicy) GrpcRetryConfig() *retry.GrpcRetryConfig {
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retryConfig := retry.NewGrpcRetryConfig(p.initialInterval)
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retryConfig.SetBackoffCoefficient(p.backoffCoefficient)
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retryConfig.SetExpirationInterval(p.expirationInterval)
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retryConfig.SetMaximumAttempts(p.maximumAttempts)
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retryConfig.SetMaximumInterval(p.maximumInterval)
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return retryConfig
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}
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// Now returns the current time using the system clock
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func (t systemClock) Now() time.Time {
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return time.Now()
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}
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// Reset will set the Retrier into initial state
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func (r *retrierImpl) Reset() {
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r.startTime = r.clock.Now()
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r.currentAttempt = 1
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}
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// NextBackOff returns the next delay interval. This is used by Retry to delay calling the operation again
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func (r *retrierImpl) NextBackOff() time.Duration {
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nextInterval := r.policy.ComputeNextDelay(r.getElapsedTime(), r.currentAttempt)
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// Now increment the current attempt
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r.currentAttempt++
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return nextInterval
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}
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func (r *retrierImpl) getElapsedTime() time.Duration {
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return r.clock.Now().Sub(r.startTime)
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}
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