Documentation ¶
Index ¶
- Constants
- Variables
- func FullJitter[T ~int64 | ~int | ~int32 | ~float64 | ~float32](input T) T
- func GetBackoffForNextSchedule(cronSchedule string, scheduledTime time.Time, now time.Time) time.Duration
- func GetBackoffForNextScheduleNonNegative(cronSchedule string, scheduledTime time.Time, now time.Time) *time.Duration
- func IgnoreErrors(errorsToExclude []error) func(error) bool
- func Jitter[T ~int64 | ~int | ~int32 | ~float64 | ~float32](input T, coefficient float64) T
- func ThrottleRetry(operation Operation, policy RetryPolicy, isRetryable IsRetryable) error
- func ThrottleRetryContext(ctx context.Context, operation OperationCtx, policy RetryPolicy, ...) error
- func ValidateSchedule(cronSchedule string) error
- type Clock
- type ConcurrentRetrier
- type ExponentialRetryPolicy
- func (p *ExponentialRetryPolicy) ComputeNextDelay(elapsedTime time.Duration, numAttempts int) time.Duration
- func (p *ExponentialRetryPolicy) WithBackoffCoefficient(backoffCoefficient float64) *ExponentialRetryPolicy
- func (p *ExponentialRetryPolicy) WithExpirationInterval(expirationInterval time.Duration) *ExponentialRetryPolicy
- func (p *ExponentialRetryPolicy) WithInitialInterval(initialInterval time.Duration) *ExponentialRetryPolicy
- func (p *ExponentialRetryPolicy) WithMaximumAttempts(maximumAttempts int) *ExponentialRetryPolicy
- func (p *ExponentialRetryPolicy) WithMaximumInterval(maximumInterval time.Duration) *ExponentialRetryPolicy
- type IsRetryable
- type Operation
- type OperationCtx
- type Retrier
- type RetryPolicy
- type TwoPhaseRetryPolicy
Examples ¶
Constants ¶
const NoBackoff = time.Duration(-1)
NoBackoff is used to represent backoff when no cron backoff is needed
const (
// NoInterval represents Maximim interval
NoInterval = 0
)
Variables ¶
var SystemClock = systemClock{}
SystemClock implements Clock interface that uses time.Now().UTC().
Functions ¶
func FullJitter ¶ added in v1.20.0
FullJitter return random number from 0 to input, inclusive, exclusive
func GetBackoffForNextSchedule ¶ added in v0.6.0
func GetBackoffForNextSchedule(cronSchedule string, scheduledTime time.Time, now time.Time) time.Duration
GetBackoffForNextSchedule calculates the backoff time for the next run given a cronSchedule, current scheduled time, and now.
func GetBackoffForNextScheduleNonNegative ¶ added in v0.28.0
func GetBackoffForNextScheduleNonNegative(cronSchedule string, scheduledTime time.Time, now time.Time) *time.Duration
GetBackoffForNextScheduleNonNegative calculates the backoff time and ensures a non-negative duration.
func IgnoreErrors ¶
IgnoreErrors can be used as IsRetryable handler for Retry function to exclude certain errors from the retry list
func Jitter ¶ added in v0.3.14
Jitter return random number from (1-coefficient)*input to (1+coefficient)*input, inclusive, exclusive
func ThrottleRetry ¶ added in v1.17.1
func ThrottleRetry(operation Operation, policy RetryPolicy, isRetryable IsRetryable) error
ThrottleRetry is a resource aware version of Retry. Resource exhausted error will be retried using a different throttle retry policy, instead of the specified one.
func ThrottleRetryContext ¶ added in v1.17.1
func ThrottleRetryContext( ctx context.Context, operation OperationCtx, policy RetryPolicy, isRetryable IsRetryable, ) error
ThrottleRetryContext is a context and resource aware version of Retry. Context timeout/cancellation errors are never retried, regardless of IsRetryable. Resource exhausted error will be retried using a different throttle retry policy, instead of the specified one. TODO: allow customizing throttle retry policy and what kind of error are categorized as throttle error.
func ValidateSchedule ¶ added in v0.6.0
ValidateSchedule validates a cron schedule spec
Types ¶
type Clock ¶
Clock used by ExponentialRetryPolicy implementation to get the current time. Mainly used for unit testing
type ConcurrentRetrier ¶
ConcurrentRetrier is used for client-side throttling. It determines whether to throttle outgoing traffic in case downstream backend server rejects requests due to out-of-quota or server busy errors.
func NewConcurrentRetrier ¶
func NewConcurrentRetrier(retryPolicy RetryPolicy) *ConcurrentRetrier
NewConcurrentRetrier returns an instance of concurrent backoff retrier.
func (*ConcurrentRetrier) Failed ¶
func (c *ConcurrentRetrier) Failed()
Failed marks client request failed because backend is busy.
func (*ConcurrentRetrier) Succeeded ¶
func (c *ConcurrentRetrier) Succeeded()
Succeeded marks client request succeeded.
func (*ConcurrentRetrier) Throttle ¶
func (c *ConcurrentRetrier) Throttle()
Throttle Sleep if there were failures since the last success call.
type ExponentialRetryPolicy ¶
type ExponentialRetryPolicy struct {
// contains filtered or unexported fields
}
ExponentialRetryPolicy provides the implementation for retry policy using a coefficient to compute the next delay. Formula used to compute the next delay is:
min(initialInterval * pow(backoffCoefficient, currentAttempt), maximumInterval)
func NewExponentialRetryPolicy ¶
func NewExponentialRetryPolicy(initialInterval time.Duration) *ExponentialRetryPolicy
NewExponentialRetryPolicy returns an instance of ExponentialRetryPolicy using the provided initialInterval
func (*ExponentialRetryPolicy) ComputeNextDelay ¶
func (p *ExponentialRetryPolicy) ComputeNextDelay(elapsedTime time.Duration, numAttempts int) time.Duration
ComputeNextDelay returns the next delay interval. This is used by Retrier to delay calling the operation again
func (*ExponentialRetryPolicy) WithBackoffCoefficient ¶ added in v1.17.3
func (p *ExponentialRetryPolicy) WithBackoffCoefficient(backoffCoefficient float64) *ExponentialRetryPolicy
WithBackoffCoefficient sets the coefficient used by ExponentialRetryPolicy to compute next delay for each retry All retries are computed using the following formula: initialInterval * math.Pow(backoffCoefficient, currentAttempt)
func (*ExponentialRetryPolicy) WithExpirationInterval ¶ added in v1.17.3
func (p *ExponentialRetryPolicy) WithExpirationInterval(expirationInterval time.Duration) *ExponentialRetryPolicy
WithExpirationInterval sets the absolute expiration interval for all retries
func (*ExponentialRetryPolicy) WithInitialInterval ¶ added in v1.17.3
func (p *ExponentialRetryPolicy) WithInitialInterval(initialInterval time.Duration) *ExponentialRetryPolicy
WithInitialInterval sets the initial interval used by ExponentialRetryPolicy for the very first retry All later retries are computed using the following formula: initialInterval * math.Pow(backoffCoefficient, currentAttempt)
func (*ExponentialRetryPolicy) WithMaximumAttempts ¶ added in v1.17.3
func (p *ExponentialRetryPolicy) WithMaximumAttempts(maximumAttempts int) *ExponentialRetryPolicy
WithMaximumAttempts sets the maximum number of retry attempts
func (*ExponentialRetryPolicy) WithMaximumInterval ¶ added in v1.17.3
func (p *ExponentialRetryPolicy) WithMaximumInterval(maximumInterval time.Duration) *ExponentialRetryPolicy
WithMaximumInterval sets the maximum interval for each retry. This does *not* cause the policy to stop retrying when the interval between retries reaches the supplied duration. That is what WithExpirationInterval does. Instead, this prevents the interval from exceeding maximumInterval.
Example ¶
ExampleExponentialRetryPolicy_WithMaximumInterval demonstrates example delays with a backoff coefficient of 2 and a maximum interval of 10 seconds. Keep in mind that there is a random jitter in these times, so they are not exactly what you'd expect.
rand.Seed(42) p1 := NewExponentialRetryPolicy(time.Second). WithBackoffCoefficient(2.0). WithMaximumInterval(0). WithMaximumAttempts(0). WithExpirationInterval(0) p1copy := *p1 p2 := &p1copy p2 = p2.WithMaximumInterval(time.Second * 10) var e1, e2 time.Duration fmt.Printf("%-10s| %15s| %15s\n", "Attempt", "Delay", "Capped Delay") for attempts := 0; attempts < 10; attempts++ { d1 := p1.ComputeNextDelay(e1, attempts) d2 := p2.ComputeNextDelay(e2, attempts) e1 += d1 e2 += d2 _, _ = fmt.Printf( "%-10d| %14.1fs| %14.1fs\n", attempts, d1.Round(100*time.Millisecond).Seconds(), d2.Round(100*time.Millisecond).Seconds(), ) }
Output: Attempt | Delay| Capped Delay 0 | 0.0s| 0.0s 1 | 0.8s| 0.9s 2 | 1.7s| 1.6s 3 | 3.3s| 3.2s 4 | 7.2s| 7.2s 5 | 15.1s| 9.6s 6 | 26.2s| 8.8s 7 | 62.8s| 9.4s 8 | 112.8s| 9.5s 9 | 219.7s| 8.3s
type IsRetryable ¶
IsRetryable handler can be used to exclude certain errors during retry
type OperationCtx ¶ added in v1.12.1
OperationCtx plays the same role as Operation but for context-aware retryable functions.
type Retrier ¶
Retrier manages the state of retry operation
func NewRetrier ¶
func NewRetrier(policy RetryPolicy, clock Clock) Retrier
NewRetrier is used for creating a new instance of Retrier
type RetryPolicy ¶
type RetryPolicy interface {
ComputeNextDelay(elapsedTime time.Duration, numAttempts int) time.Duration
}
RetryPolicy is the API which needs to be implemented by various retry policy implementations
var ( // DisabledRetryPolicy is a retry policy that never retries DisabledRetryPolicy RetryPolicy = &disabledRetryPolicyImpl{} )
type TwoPhaseRetryPolicy ¶ added in v1.1.0
type TwoPhaseRetryPolicy struct {
// contains filtered or unexported fields
}
TwoPhaseRetryPolicy implements a policy that first use one policy to get next delay, and once expired use the second policy for the following retry. It can achieve fast retries in first phase then slowly retires in second phase.
func (*TwoPhaseRetryPolicy) ComputeNextDelay ¶ added in v1.1.0
func (tp *TwoPhaseRetryPolicy) ComputeNextDelay(elapsedTime time.Duration, numAttempts int) time.Duration
ComputeNextDelay returns the next delay interval.