packer-cn/common/retry/retry.go

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package retry
import (
"context"
"fmt"
"log"
"time"
)
// Config represents a retry config
type Config struct {
// The operation will be retried until StartTimeout has elapsed. 0 means
// forever.
StartTimeout time.Duration
// RetryDelay gives the time elapsed after a failure and before we try
// again. Returns 2s by default.
RetryDelay func() time.Duration
// Max number of retries, 0 means infinite
Tries int
// ShouldRetry tells wether error should be retried. Nil defaults to always
// true.
ShouldRetry func(error) bool
}
type RetryExhaustedError struct {
Err error
}
func (err *RetryExhaustedError) Error() string {
if err == nil || err.Err == nil {
return "<nil>"
}
return fmt.Sprintf("retry count exhausted. Last err: %s", err.Err)
}
// Run fn until context is cancelled up until StartTimeout time has passed.
func (cfg Config) Run(ctx context.Context, fn func(context.Context) error) error {
retryDelay := func() time.Duration { return 2 * time.Second }
if cfg.RetryDelay != nil {
retryDelay = cfg.RetryDelay
}
shouldRetry := func(error) bool { return true }
if cfg.ShouldRetry != nil {
shouldRetry = cfg.ShouldRetry
}
var startTimeout <-chan time.Time // nil chans never unlock !
if cfg.StartTimeout != 0 {
startTimeout = time.After(cfg.StartTimeout)
}
var err error
for try := 0; ; try++ {
if cfg.Tries != 0 && try == cfg.Tries {
return &RetryExhaustedError{err}
}
if err = fn(ctx); err == nil {
return nil
}
if !shouldRetry(err) {
return err
}
log.Print(fmt.Errorf("Retryable error: %s", err))
select {
case <-ctx.Done():
return err
case <-startTimeout:
return err
default:
time.Sleep(retryDelay())
}
}
}
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// Backoff is a self contained backoff time calculator. This struct should be
// passed around as a copy as it changes its own fields upon any Backoff call.
// Backoff is not thread safe. For now only a Linear backoff call is
// implemented and the Exponential call will be implemented when needed.
type Backoff struct {
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// Initial time to wait. A Backoff call will change this value.
InitialBackoff time.Duration
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// Maximum time returned.
MaxBackoff time.Duration
// For a Linear backoff, InitialBackoff will be multiplied by Multiplier
// after each call.
Multiplier float64
}
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// Linear Backoff returns a linearly increasing Duration.
// n = n * Multiplier.
// the first value of n is InitialBackoff. n is maxed by MaxBackoff.
func (lb *Backoff) Linear() time.Duration {
wait := lb.InitialBackoff
lb.InitialBackoff = time.Duration(lb.Multiplier * float64(lb.InitialBackoff))
if lb.MaxBackoff != 0 && lb.InitialBackoff > lb.MaxBackoff {
lb.InitialBackoff = lb.MaxBackoff
}
return wait
}
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// Exponential backoff panics: not implemented, yet.
func (lb *Backoff) Exponential() time.Duration {
panic("not implemented, yet")
}