mirror of
https://github.com/ceph/ceph-csi.git
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83559144b1
updated kubernetes packages to latest release. Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
408 lines
10 KiB
Go
408 lines
10 KiB
Go
/*
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Copyright 2014 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package clock
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import (
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"sync"
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"time"
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)
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// PassiveClock allows for injecting fake or real clocks into code
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// that needs to read the current time but does not support scheduling
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// activity in the future.
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type PassiveClock interface {
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Now() time.Time
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Since(time.Time) time.Duration
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}
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// Clock allows for injecting fake or real clocks into code that
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// needs to do arbitrary things based on time.
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type Clock interface {
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PassiveClock
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After(time.Duration) <-chan time.Time
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NewTimer(time.Duration) Timer
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Sleep(time.Duration)
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NewTicker(time.Duration) Ticker
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}
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// RealClock really calls time.Now()
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type RealClock struct{}
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// Now returns the current time.
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func (RealClock) Now() time.Time {
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return time.Now()
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}
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// Since returns time since the specified timestamp.
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func (RealClock) Since(ts time.Time) time.Duration {
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return time.Since(ts)
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}
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// After is the same as time.After(d).
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func (RealClock) After(d time.Duration) <-chan time.Time {
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return time.After(d)
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}
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// NewTimer returns a new Timer.
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func (RealClock) NewTimer(d time.Duration) Timer {
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return &realTimer{
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timer: time.NewTimer(d),
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}
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}
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// NewTicker returns a new Ticker.
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func (RealClock) NewTicker(d time.Duration) Ticker {
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return &realTicker{
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ticker: time.NewTicker(d),
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}
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}
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// Sleep pauses the RealClock for duration d.
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func (RealClock) Sleep(d time.Duration) {
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time.Sleep(d)
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}
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// FakePassiveClock implements PassiveClock, but returns an arbitrary time.
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type FakePassiveClock struct {
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lock sync.RWMutex
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time time.Time
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}
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// FakeClock implements Clock, but returns an arbitrary time.
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type FakeClock struct {
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FakePassiveClock
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// waiters are waiting for the fake time to pass their specified time
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waiters []fakeClockWaiter
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}
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type fakeClockWaiter struct {
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targetTime time.Time
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stepInterval time.Duration
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skipIfBlocked bool
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destChan chan time.Time
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}
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// NewFakePassiveClock returns a new FakePassiveClock.
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func NewFakePassiveClock(t time.Time) *FakePassiveClock {
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return &FakePassiveClock{
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time: t,
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}
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}
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// NewFakeClock returns a new FakeClock
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func NewFakeClock(t time.Time) *FakeClock {
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return &FakeClock{
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FakePassiveClock: *NewFakePassiveClock(t),
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}
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}
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// Now returns f's time.
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func (f *FakePassiveClock) Now() time.Time {
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f.lock.RLock()
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defer f.lock.RUnlock()
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return f.time
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}
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// Since returns time since the time in f.
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func (f *FakePassiveClock) Since(ts time.Time) time.Duration {
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f.lock.RLock()
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defer f.lock.RUnlock()
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return f.time.Sub(ts)
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}
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// SetTime sets the time on the FakePassiveClock.
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func (f *FakePassiveClock) SetTime(t time.Time) {
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f.lock.Lock()
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defer f.lock.Unlock()
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f.time = t
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}
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// After is the Fake version of time.After(d).
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func (f *FakeClock) After(d time.Duration) <-chan time.Time {
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f.lock.Lock()
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defer f.lock.Unlock()
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stopTime := f.time.Add(d)
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ch := make(chan time.Time, 1) // Don't block!
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f.waiters = append(f.waiters, fakeClockWaiter{
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targetTime: stopTime,
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destChan: ch,
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})
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return ch
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}
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// NewTimer is the Fake version of time.NewTimer(d).
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func (f *FakeClock) NewTimer(d time.Duration) Timer {
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f.lock.Lock()
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defer f.lock.Unlock()
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stopTime := f.time.Add(d)
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ch := make(chan time.Time, 1) // Don't block!
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timer := &fakeTimer{
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fakeClock: f,
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waiter: fakeClockWaiter{
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targetTime: stopTime,
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destChan: ch,
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},
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}
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f.waiters = append(f.waiters, timer.waiter)
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return timer
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}
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// NewTicker returns a new Ticker.
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func (f *FakeClock) NewTicker(d time.Duration) Ticker {
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f.lock.Lock()
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defer f.lock.Unlock()
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tickTime := f.time.Add(d)
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ch := make(chan time.Time, 1) // hold one tick
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f.waiters = append(f.waiters, fakeClockWaiter{
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targetTime: tickTime,
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stepInterval: d,
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skipIfBlocked: true,
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destChan: ch,
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})
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return &fakeTicker{
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c: ch,
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}
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}
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// Step moves clock by Duration, notifies anyone that's called After, Tick, or NewTimer
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func (f *FakeClock) Step(d time.Duration) {
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f.lock.Lock()
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defer f.lock.Unlock()
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f.setTimeLocked(f.time.Add(d))
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}
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// SetTime sets the time on a FakeClock.
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func (f *FakeClock) SetTime(t time.Time) {
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f.lock.Lock()
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defer f.lock.Unlock()
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f.setTimeLocked(t)
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}
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// Actually changes the time and checks any waiters. f must be write-locked.
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func (f *FakeClock) setTimeLocked(t time.Time) {
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f.time = t
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newWaiters := make([]fakeClockWaiter, 0, len(f.waiters))
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for i := range f.waiters {
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w := &f.waiters[i]
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if !w.targetTime.After(t) {
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if w.skipIfBlocked {
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select {
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case w.destChan <- t:
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default:
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}
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} else {
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w.destChan <- t
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}
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if w.stepInterval > 0 {
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for !w.targetTime.After(t) {
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w.targetTime = w.targetTime.Add(w.stepInterval)
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}
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newWaiters = append(newWaiters, *w)
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}
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} else {
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newWaiters = append(newWaiters, f.waiters[i])
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}
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}
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f.waiters = newWaiters
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}
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// HasWaiters returns true if After has been called on f but not yet satisfied (so you can
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// write race-free tests).
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func (f *FakeClock) HasWaiters() bool {
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f.lock.RLock()
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defer f.lock.RUnlock()
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return len(f.waiters) > 0
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}
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// Sleep pauses the FakeClock for duration d.
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func (f *FakeClock) Sleep(d time.Duration) {
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f.Step(d)
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}
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// IntervalClock implements Clock, but each invocation of Now steps the clock forward the specified duration
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type IntervalClock struct {
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Time time.Time
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Duration time.Duration
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}
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// Now returns i's time.
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func (i *IntervalClock) Now() time.Time {
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i.Time = i.Time.Add(i.Duration)
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return i.Time
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}
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// Since returns time since the time in i.
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func (i *IntervalClock) Since(ts time.Time) time.Duration {
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return i.Time.Sub(ts)
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}
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// After is currently unimplemented, will panic.
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// TODO: make interval clock use FakeClock so this can be implemented.
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func (*IntervalClock) After(d time.Duration) <-chan time.Time {
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panic("IntervalClock doesn't implement After")
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}
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// NewTimer is currently unimplemented, will panic.
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// TODO: make interval clock use FakeClock so this can be implemented.
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func (*IntervalClock) NewTimer(d time.Duration) Timer {
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panic("IntervalClock doesn't implement NewTimer")
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}
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// NewTicker is currently unimplemented, will panic.
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// TODO: make interval clock use FakeClock so this can be implemented.
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func (*IntervalClock) NewTicker(d time.Duration) Ticker {
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panic("IntervalClock doesn't implement NewTicker")
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}
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// Sleep is currently unimplemented; will panic.
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func (*IntervalClock) Sleep(d time.Duration) {
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panic("IntervalClock doesn't implement Sleep")
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}
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// Timer allows for injecting fake or real timers into code that
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// needs to do arbitrary things based on time.
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type Timer interface {
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C() <-chan time.Time
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Stop() bool
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Reset(d time.Duration) bool
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}
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// realTimer is backed by an actual time.Timer.
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type realTimer struct {
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timer *time.Timer
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}
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// C returns the underlying timer's channel.
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func (r *realTimer) C() <-chan time.Time {
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return r.timer.C
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}
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// Stop calls Stop() on the underlying timer.
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func (r *realTimer) Stop() bool {
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return r.timer.Stop()
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}
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// Reset calls Reset() on the underlying timer.
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func (r *realTimer) Reset(d time.Duration) bool {
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return r.timer.Reset(d)
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}
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// fakeTimer implements Timer based on a FakeClock.
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type fakeTimer struct {
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fakeClock *FakeClock
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waiter fakeClockWaiter
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}
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// C returns the channel that notifies when this timer has fired.
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func (f *fakeTimer) C() <-chan time.Time {
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return f.waiter.destChan
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}
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// Stop conditionally stops the timer. If the timer has neither fired
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// nor been stopped then this call stops the timer and returns true,
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// otherwise this call returns false. This is like time.Timer::Stop.
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func (f *fakeTimer) Stop() bool {
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f.fakeClock.lock.Lock()
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defer f.fakeClock.lock.Unlock()
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// The timer has already fired or been stopped, unless it is found
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// among the clock's waiters.
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stopped := false
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oldWaiters := f.fakeClock.waiters
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newWaiters := make([]fakeClockWaiter, 0, len(oldWaiters))
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seekChan := f.waiter.destChan
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for i := range oldWaiters {
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// Identify the timer's fakeClockWaiter by the identity of the
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// destination channel, nothing else is necessarily unique and
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// constant since the timer's creation.
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if oldWaiters[i].destChan == seekChan {
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stopped = true
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} else {
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newWaiters = append(newWaiters, oldWaiters[i])
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}
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}
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f.fakeClock.waiters = newWaiters
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return stopped
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}
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// Reset conditionally updates the firing time of the timer. If the
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// timer has neither fired nor been stopped then this call resets the
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// timer to the fake clock's "now" + d and returns true, otherwise
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// it creates a new waiter, adds it to the clock, and returns true.
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//
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// It is not possible to return false, because a fake timer can be reset
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// from any state (waiting to fire, already fired, and stopped).
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//
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// See the GoDoc for time.Timer::Reset for more context on why
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// the return value of Reset() is not useful.
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func (f *fakeTimer) Reset(d time.Duration) bool {
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f.fakeClock.lock.Lock()
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defer f.fakeClock.lock.Unlock()
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waiters := f.fakeClock.waiters
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seekChan := f.waiter.destChan
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for i := range waiters {
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if waiters[i].destChan == seekChan {
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waiters[i].targetTime = f.fakeClock.time.Add(d)
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return true
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}
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}
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// No existing waiter, timer has already fired or been reset.
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// We should still enable Reset() to succeed by creating a
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// new waiter and adding it to the clock's waiters.
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newWaiter := fakeClockWaiter{
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targetTime: f.fakeClock.time.Add(d),
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destChan: seekChan,
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}
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f.fakeClock.waiters = append(f.fakeClock.waiters, newWaiter)
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return true
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}
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// Ticker defines the Ticker interface
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type Ticker interface {
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C() <-chan time.Time
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Stop()
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}
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type realTicker struct {
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ticker *time.Ticker
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}
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func (t *realTicker) C() <-chan time.Time {
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return t.ticker.C
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}
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func (t *realTicker) Stop() {
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t.ticker.Stop()
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}
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type fakeTicker struct {
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c <-chan time.Time
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}
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func (t *fakeTicker) C() <-chan time.Time {
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return t.c
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}
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func (t *fakeTicker) Stop() {
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}
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