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wait.go
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wait.go
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/*
Copyright 2014 The Kubernetes Authors All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package wait
import (
"errors"
"math/rand"
"time"
"k8s.io/kubernetes/pkg/util/runtime"
)
// For any test of the style:
// ...
// <- time.After(timeout):
// t.Errorf("Timed out")
// The value for timeout should effectively be "forever." Obviously we don't want our tests to truly lock up forever, but 30s
// is long enough that it is effectively forever for the things that can slow down a run on a heavily contended machine
// (GC, seeks, etc), but not so long as to make a developer ctrl-c a test run if they do happen to break that test.
var ForeverTestTimeout = time.Second * 30
// NeverStop may be passed to Until to make it never stop.
var NeverStop <-chan struct{} = make(chan struct{})
// Forever is syntactic sugar on top of Until
func Forever(f func(), period time.Duration) {
Until(f, period, NeverStop)
}
// Until loops until stop channel is closed, running f every period.
// Until is syntactic sugar on top of JitterUntil with zero jitter factor
func Until(f func(), period time.Duration, stopCh <-chan struct{}) {
JitterUntil(f, period, 0.0, stopCh)
}
// JitterUntil loops until stop channel is closed, running f every period.
// If jitterFactor is positive, the period is jittered before every run of f.
// If jitterFactor is not positive, the period is unchanged.
// Catches any panics, and keeps going. f may not be invoked if
// stop channel is already closed. Pass NeverStop to Until if you
// don't want it stop.
func JitterUntil(f func(), period time.Duration, jitterFactor float64, stopCh <-chan struct{}) {
select {
case <-stopCh:
return
default:
}
for {
func() {
defer runtime.HandleCrash()
f()
}()
jitteredPeriod := period
if jitterFactor > 0.0 {
jitteredPeriod = Jitter(period, jitterFactor)
}
select {
case <-stopCh:
return
case <-time.After(jitteredPeriod):
}
}
}
// Jitter returns a time.Duration between duration and duration + maxFactor * duration,
// to allow clients to avoid converging on periodic behavior. If maxFactor is 0.0, a
// suggested default value will be chosen.
func Jitter(duration time.Duration, maxFactor float64) time.Duration {
if maxFactor <= 0.0 {
maxFactor = 1.0
}
wait := duration + time.Duration(rand.Float64()*maxFactor*float64(duration))
return wait
}
// ErrWaitTimeout is returned when the condition exited without success
var ErrWaitTimeout = errors.New("timed out waiting for the condition")
// ConditionFunc returns true if the condition is satisfied, or an error
// if the loop should be aborted.
type ConditionFunc func() (done bool, err error)
// Backoff is parameters applied to a Backoff function.
type Backoff struct {
Duration time.Duration
Factor float64
Jitter float64
Steps int
}
// ExponentialBackoff repeats a condition check up to steps times, increasing the wait
// by multipling the previous duration by factor. If jitter is greater than zero,
// a random amount of each duration is added (between duration and duration*(1+jitter)).
// If the condition never returns true, ErrWaitTimeout is returned. All other errors
// terminate immediately.
func ExponentialBackoff(backoff Backoff, condition ConditionFunc) error {
duration := backoff.Duration
for i := 0; i < backoff.Steps; i++ {
if i != 0 {
adjusted := duration
if backoff.Jitter > 0.0 {
adjusted = Jitter(duration, backoff.Jitter)
}
time.Sleep(adjusted)
duration = time.Duration(float64(duration) * backoff.Factor)
}
if ok, err := condition(); err != nil || ok {
return err
}
}
return ErrWaitTimeout
}
// Poll tries a condition func until it returns true, an error, or the timeout
// is reached. condition will always be invoked at least once but some intervals
// may be missed if the condition takes too long or the time window is too short.
// If you want to Poll something forever, see PollInfinite.
// Poll always waits the interval before the first check of the condition.
func Poll(interval, timeout time.Duration, condition ConditionFunc) error {
return pollInternal(poller(interval, timeout), condition)
}
func pollInternal(wait WaitFunc, condition ConditionFunc) error {
done := make(chan struct{})
defer close(done)
return WaitFor(wait, condition, done)
}
func PollImmediate(interval, timeout time.Duration, condition ConditionFunc) error {
return pollImmediateInternal(poller(interval, timeout), condition)
}
func pollImmediateInternal(wait WaitFunc, condition ConditionFunc) error {
done, err := condition()
if err != nil {
return err
}
if done {
return nil
}
return pollInternal(wait, condition)
}
// PollInfinite polls forever.
func PollInfinite(interval time.Duration, condition ConditionFunc) error {
done := make(chan struct{})
defer close(done)
return WaitFor(poller(interval, 0), condition, done)
}
// WaitFunc creates a channel that receives an item every time a test
// should be executed and is closed when the last test should be invoked.
type WaitFunc func(done <-chan struct{}) <-chan struct{}
// WaitFor gets a channel from wait(), and then invokes fn once for every value
// placed on the channel and once more when the channel is closed. If fn
// returns an error the loop ends and that error is returned, and if fn returns
// true the loop ends and nil is returned. ErrWaitTimeout will be returned if
// the channel is closed without fn ever returning true.
func WaitFor(wait WaitFunc, fn ConditionFunc, done <-chan struct{}) error {
c := wait(done)
for {
_, open := <-c
ok, err := fn()
if err != nil {
return err
}
if ok {
return nil
}
if !open {
break
}
}
return ErrWaitTimeout
}
// poller returns a WaitFunc that will send to the channel every
// interval until timeout has elapsed and then close the channel.
// Over very short intervals you may receive no ticks before
// the channel is closed. If timeout is 0, the channel
// will never be closed.
func poller(interval, timeout time.Duration) WaitFunc {
return WaitFunc(func(done <-chan struct{}) <-chan struct{} {
ch := make(chan struct{})
go func() {
defer close(ch)
tick := time.NewTicker(interval)
defer tick.Stop()
var after <-chan time.Time
if timeout != 0 {
// time.After is more convenient, but it
// potentially leaves timers around much longer
// than necessary if we exit early.
timer := time.NewTimer(timeout)
after = timer.C
defer timer.Stop()
}
for {
select {
case <-tick.C:
// If the consumer isn't ready for this signal drop it and
// check the other channels.
select {
case ch <- struct{}{}:
default:
}
case <-after:
return
case <-done:
return
}
}
}()
return ch
})
}