package common import ( "sync" "time" ) // Used by RepeatTimer the first time, // and every time it's Reset() after Stop(). type TickerMaker func(dur time.Duration) Ticker // Ticker is a basic ticker interface. type Ticker interface { // Never changes, never closes. Chan() <-chan time.Time // Stopping a stopped Ticker will panic. Stop() } //---------------------------------------- // defaultTickerMaker func defaultTickerMaker(dur time.Duration) Ticker { ticker := time.NewTicker(dur) return (*defaultTicker)(ticker) } type defaultTicker time.Ticker // Implements Ticker func (t *defaultTicker) Chan() <-chan time.Time { return t.C } // Implements Ticker func (t *defaultTicker) Stop() { ((*time.Ticker)(t)).Stop() } //---------------------------------------- // LogicalTickerMaker // Construct a TickerMaker that always uses `source`. // It's useful for simulating a deterministic clock. func NewLogicalTickerMaker(source chan time.Time) TickerMaker { return func(dur time.Duration) Ticker { return newLogicalTicker(source, dur) } } type logicalTicker struct { source <-chan time.Time ch chan time.Time quit chan struct{} } func newLogicalTicker(source <-chan time.Time, interval time.Duration) Ticker { lt := &logicalTicker{ source: source, ch: make(chan time.Time), quit: make(chan struct{}), } go lt.fireRoutine(interval) return lt } // We need a goroutine to read times from t.source // and fire on t.Chan() when `interval` has passed. func (t *logicalTicker) fireRoutine(interval time.Duration) { source := t.source // Init `lasttime` lasttime := time.Time{} select { case lasttime = <-source: case <-t.quit: return } // Init `lasttime` end for { select { case newtime := <-source: elapsed := newtime.Sub(lasttime) if interval <= elapsed { // Block for determinism until the ticker is stopped. select { case t.ch <- newtime: case <-t.quit: return } // Reset timeleft. // Don't try to "catch up" by sending more. // "Ticker adjusts the intervals or drops ticks to make up for // slow receivers" - https://golang.org/pkg/time/#Ticker lasttime = newtime } case <-t.quit: return // done } } } // Implements Ticker func (t *logicalTicker) Chan() <-chan time.Time { return t.ch // immutable } // Implements Ticker func (t *logicalTicker) Stop() { close(t.quit) // it *should* panic when stopped twice. } //--------------------------------------------------------------------- /* RepeatTimer repeatedly sends a struct{}{} to `.Chan()` after each `dur` period. (It's good for keeping connections alive.) A RepeatTimer must be stopped, or it will keep a goroutine alive. */ type RepeatTimer struct { name string ch chan time.Time tm TickerMaker mtx sync.Mutex dur time.Duration ticker Ticker quit chan struct{} } // NewRepeatTimer returns a RepeatTimer with a defaultTicker. func NewRepeatTimer(name string, dur time.Duration) *RepeatTimer { return NewRepeatTimerWithTickerMaker(name, dur, defaultTickerMaker) } // NewRepeatTimerWithTicker returns a RepeatTimer with the given ticker // maker. func NewRepeatTimerWithTickerMaker(name string, dur time.Duration, tm TickerMaker) *RepeatTimer { var t = &RepeatTimer{ name: name, ch: make(chan time.Time), tm: tm, dur: dur, ticker: nil, quit: nil, } t.reset() return t } func (t *RepeatTimer) fireRoutine(ch <-chan time.Time, quit <-chan struct{}) { for { select { case t_ := <-ch: select { case t.ch <- t_: case <-quit: return } case <-quit: // NOTE: `t.quit` races. return } } } func (t *RepeatTimer) Chan() <-chan time.Time { return t.ch } func (t *RepeatTimer) Stop() { t.mtx.Lock() defer t.mtx.Unlock() t.stop() } // Wait the duration again before firing. func (t *RepeatTimer) Reset() { t.mtx.Lock() defer t.mtx.Unlock() t.reset() } //---------------------------------------- // Misc. // CONTRACT: (non-constructor) caller should hold t.mtx. func (t *RepeatTimer) reset() { if t.ticker != nil { t.stop() } t.ticker = t.tm(t.dur) t.quit = make(chan struct{}) go t.fireRoutine(t.ticker.Chan(), t.quit) } // CONTRACT: caller should hold t.mtx. func (t *RepeatTimer) stop() { if t.ticker == nil { /* Similar to the case of closing channels twice: https://groups.google.com/forum/#!topic/golang-nuts/rhxMiNmRAPk Stopping a RepeatTimer twice implies that you do not know whether you are done or not. If you're calling stop on a stopped RepeatTimer, you probably have race conditions. */ panic("Tried to stop a stopped RepeatTimer") } t.ticker.Stop() t.ticker = nil /* From https://golang.org/pkg/time/#Ticker: "Stop the ticker to release associated resources" "After Stop, no more ticks will be sent" So we shouldn't have to do the below. select { case <-t.ch: // read off channel if there's anything there default: } */ close(t.quit) }