2019-02-07 20:01:13 +00:00
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// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information
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package sync2
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import (
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"context"
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"sync"
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"time"
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"golang.org/x/sync/errgroup"
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)
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// Cycle implements a controllable recurring event.
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//
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// Cycle control methods don't have any effect after the cycle has completed.
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type Cycle struct {
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interval time.Duration
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ticker *time.Ticker
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control chan interface{}
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stop chan struct{}
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init sync.Once
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}
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type (
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// cycle control messages
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cyclePause struct{}
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cycleContinue struct{}
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cycleStop struct{}
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cycleChangeInterval struct{ Interval time.Duration }
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cycleTrigger struct{ done chan struct{} }
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)
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// NewCycle creates a new cycle with the specified interval.
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func NewCycle(interval time.Duration) *Cycle {
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cycle := &Cycle{}
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cycle.SetInterval(interval)
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return cycle
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}
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// SetInterval allows to change the interval before starting.
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func (cycle *Cycle) SetInterval(interval time.Duration) {
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cycle.interval = interval
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}
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func (cycle *Cycle) initialize() {
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cycle.init.Do(func() {
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cycle.stop = make(chan struct{})
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cycle.control = make(chan interface{})
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})
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}
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// Start runs the specified function with an errgroup
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func (cycle *Cycle) Start(ctx context.Context, group *errgroup.Group, fn func(ctx context.Context) error) {
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group.Go(func() error {
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return cycle.Run(ctx, fn)
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})
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}
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// Run runs the specified in an interval.
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//
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// Every interval `fn` is started.
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// When `fn` is not fast enough, it may skip some of those executions.
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func (cycle *Cycle) Run(ctx context.Context, fn func(ctx context.Context) error) error {
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cycle.initialize()
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defer close(cycle.stop)
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currentInterval := cycle.interval
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cycle.ticker = time.NewTicker(currentInterval)
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if err := fn(ctx); err != nil {
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return err
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}
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for {
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select {
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case message := <-cycle.control:
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// handle control messages
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switch message := message.(type) {
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case cycleStop:
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return nil
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case cycleChangeInterval:
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currentInterval = message.Interval
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cycle.ticker.Stop()
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cycle.ticker = time.NewTicker(currentInterval)
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case cyclePause:
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cycle.ticker.Stop()
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// ensure we don't have ticks left
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select {
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case <-cycle.ticker.C:
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default:
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}
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case cycleContinue:
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cycle.ticker.Stop()
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cycle.ticker = time.NewTicker(currentInterval)
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case cycleTrigger:
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// trigger the function
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if err := fn(ctx); err != nil {
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return err
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}
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if message.done != nil {
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message.done <- struct{}{}
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}
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}
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case <-ctx.Done():
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// handle control messages
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return ctx.Err()
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case <-cycle.ticker.C:
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// trigger the function
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if err := fn(ctx); err != nil {
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return err
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}
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}
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}
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}
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// Close closes all resources associated with it.
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func (cycle *Cycle) Close() {
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2019-02-08 09:25:13 +00:00
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cycle.Stop()
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<-cycle.stop
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2019-02-07 20:01:13 +00:00
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close(cycle.control)
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}
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// sendControl sends a control message
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func (cycle *Cycle) sendControl(message interface{}) {
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cycle.initialize()
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select {
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case cycle.control <- message:
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case <-cycle.stop:
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}
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}
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// Stop stops the cycle permanently
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func (cycle *Cycle) Stop() {
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cycle.sendControl(cycleStop{})
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}
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// ChangeInterval allows to change the ticker interval after it has started.
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func (cycle *Cycle) ChangeInterval(interval time.Duration) {
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cycle.sendControl(cycleChangeInterval{interval})
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}
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// Pause pauses the cycle.
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func (cycle *Cycle) Pause() {
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cycle.sendControl(cyclePause{})
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}
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// Restart restarts the ticker from 0.
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func (cycle *Cycle) Restart() {
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cycle.sendControl(cycleContinue{})
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}
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// Trigger ensures that the loop is done at least once.
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// If it's currently running it waits for the previous to complete and then runs.
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func (cycle *Cycle) Trigger() {
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cycle.sendControl(cycleTrigger{})
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}
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// TriggerWait ensures that the loop is done at least once and waits for completion.
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// If it's currently running it waits for the previous to complete and then runs.
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func (cycle *Cycle) TriggerWait() {
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done := make(chan struct{})
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defer close(done)
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cycle.sendControl(cycleTrigger{done})
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select {
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case <-done:
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case <-cycle.stop:
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}
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}
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