package progress import ( "os" "sync" "sync/atomic" "time" "github.com/restic/restic/internal/debug" ) // A Func is a callback for a Counter. // // The final argument is true if Counter.Done has been called, // which means that the current call will be the last. type Func func(value uint64, runtime time.Duration, final bool) // A Counter tracks a running count and controls a goroutine that passes its // value periodically to a Func. // // The Func is also called when SIGUSR1 (or SIGINFO, on BSD) is received. type Counter struct { report Func start time.Time stopped chan struct{} // Closed by run. stop chan struct{} // Close to stop run. tick *time.Ticker value uint64 } // New starts a new Counter. func New(interval time.Duration, report Func) *Counter { signals.Once.Do(func() { signals.ch = make(chan os.Signal, 1) setupSignals() }) c := &Counter{ report: report, start: time.Now(), stopped: make(chan struct{}), stop: make(chan struct{}), tick: time.NewTicker(interval), } go c.run() return c } // Add v to the Counter. This method is concurrency-safe. func (c *Counter) Add(v uint64) { if c == nil { return } atomic.AddUint64(&c.value, v) } // Done tells a Counter to stop and waits for it to report its final value. func (c *Counter) Done() { if c == nil { return } c.tick.Stop() close(c.stop) <-c.stopped // Wait for last progress report. *c = Counter{} // Prevent reuse. } func (c *Counter) get() uint64 { return atomic.LoadUint64(&c.value) } func (c *Counter) run() { defer close(c.stopped) defer func() { // Must be a func so that time.Since isn't called at defer time. c.report(c.get(), time.Since(c.start), true) }() for { var now time.Time select { case now = <-c.tick.C: case sig := <-signals.ch: debug.Log("Signal received: %v\n", sig) now = time.Now() case <-c.stop: return } c.report(c.get(), now.Sub(c.start), false) } } // XXX The fact that signals is a single global variable means that only one // Counter receives each incoming signal. var signals struct { ch chan os.Signal sync.Once }