// Package accounting providers an accounting and limiting reader package accounting import ( "fmt" "io" "sync" "time" "github.com/VividCortex/ewma" "github.com/ncw/rclone/fs" "github.com/ncw/rclone/fs/asyncreader" ) // Account limits and accounts for one transfer type Account struct { // The mutex is to make sure Read() and Close() aren't called // concurrently. Unfortunately the persistent connection loop // in http transport calls Read() after Do() returns on // CancelRequest so this race can happen when it apparently // shouldn't. mu sync.Mutex in io.Reader origIn io.ReadCloser close io.Closer size int64 name string statmu sync.Mutex // Separate mutex for stat values. bytes int64 // Total number of bytes read start time.Time // Start time of first read lpTime time.Time // Time of last average measurement lpBytes int // Number of bytes read since last measurement avg ewma.MovingAverage // Moving average of last few measurements closed bool // set if the file is closed exit chan struct{} // channel that will be closed when transfer is finished withBuf bool // is using a buffered in } // NewAccountSizeName makes a Account reader for an io.ReadCloser of // the given size and name func NewAccountSizeName(in io.ReadCloser, size int64, name string) *Account { acc := &Account{ in: in, close: in, origIn: in, size: size, name: name, exit: make(chan struct{}), avg: ewma.NewMovingAverage(), lpTime: time.Now(), } go acc.averageLoop() Stats.inProgress.set(acc.name, acc) return acc } // NewAccount makes a Account reader for an object func NewAccount(in io.ReadCloser, obj fs.Object) *Account { return NewAccountSizeName(in, obj.Size(), obj.Remote()) } // WithBuffer - If the file is above a certain size it adds an Async reader func (acc *Account) WithBuffer() *Account { acc.withBuf = true var buffers int if acc.size >= int64(fs.Config.BufferSize) || acc.size == -1 { buffers = int(int64(fs.Config.BufferSize) / asyncreader.BufferSize) } else { buffers = int(acc.size / asyncreader.BufferSize) } // On big files add a buffer if buffers > 0 { rc, err := asyncreader.New(acc.origIn, buffers) if err != nil { fs.Errorf(acc.name, "Failed to make buffer: %v", err) } else { acc.in = rc acc.close = rc } } return acc } // GetReader returns the underlying io.ReadCloser under any Buffer func (acc *Account) GetReader() io.ReadCloser { acc.mu.Lock() defer acc.mu.Unlock() return acc.origIn } // StopBuffering stops the async buffer doing any more buffering func (acc *Account) StopBuffering() { if asyncIn, ok := acc.in.(*asyncreader.AsyncReader); ok { asyncIn.Abandon() } } // UpdateReader updates the underlying io.ReadCloser stopping the // asynb buffer (if any) and re-adding it func (acc *Account) UpdateReader(in io.ReadCloser) { acc.mu.Lock() acc.StopBuffering() acc.in = in acc.close = in acc.origIn = in acc.WithBuffer() acc.mu.Unlock() } // averageLoop calculates averages for the stats in the background func (acc *Account) averageLoop() { tick := time.NewTicker(time.Second) defer tick.Stop() for { select { case now := <-tick.C: acc.statmu.Lock() // Add average of last second. elapsed := now.Sub(acc.lpTime).Seconds() avg := float64(acc.lpBytes) / elapsed acc.avg.Add(avg) acc.lpBytes = 0 acc.lpTime = now // Unlock stats acc.statmu.Unlock() case <-acc.exit: return } } } // read bytes from the io.Reader passed in and account them func (acc *Account) read(in io.Reader, p []byte) (n int, err error) { // Set start time. acc.statmu.Lock() if acc.start.IsZero() { acc.start = time.Now() } acc.statmu.Unlock() n, err = in.Read(p) // Update Stats acc.statmu.Lock() acc.lpBytes += n acc.bytes += int64(n) acc.statmu.Unlock() Stats.Bytes(int64(n)) limitBandwidth(n) return } // Read bytes from the object - see io.Reader func (acc *Account) Read(p []byte) (n int, err error) { acc.mu.Lock() defer acc.mu.Unlock() return acc.read(acc.in, p) } // Close the object func (acc *Account) Close() error { acc.mu.Lock() defer acc.mu.Unlock() if acc.closed { return nil } acc.closed = true close(acc.exit) Stats.inProgress.clear(acc.name) return acc.close.Close() } // progress returns bytes read as well as the size. // Size can be <= 0 if the size is unknown. func (acc *Account) progress() (bytes, size int64) { if acc == nil { return 0, 0 } acc.statmu.Lock() bytes, size = acc.bytes, acc.size acc.statmu.Unlock() return bytes, size } // speed returns the speed of the current file transfer // in bytes per second, as well a an exponentially weighted moving average // If no read has completed yet, 0 is returned for both values. func (acc *Account) speed() (bps, current float64) { if acc == nil { return 0, 0 } acc.statmu.Lock() defer acc.statmu.Unlock() if acc.bytes == 0 { return 0, 0 } // Calculate speed from first read. total := float64(time.Now().Sub(acc.start)) / float64(time.Second) bps = float64(acc.bytes) / total current = acc.avg.Value() return } // eta returns the ETA of the current operation, // rounded to full seconds. // If the ETA cannot be determined 'ok' returns false. func (acc *Account) eta() (eta time.Duration, ok bool) { if acc == nil || acc.size <= 0 { return 0, false } acc.statmu.Lock() defer acc.statmu.Unlock() if acc.bytes == 0 { return 0, false } left := acc.size - acc.bytes if left <= 0 { return 0, true } avg := acc.avg.Value() if avg <= 0 { return 0, false } seconds := float64(left) / acc.avg.Value() return time.Duration(time.Second * time.Duration(int(seconds))), true } // String produces stats for this file func (acc *Account) String() string { a, b := acc.progress() _, cur := acc.speed() eta, etaok := acc.eta() etas := "-" if etaok { if eta > 0 { etas = fmt.Sprintf("%v", eta) } else { etas = "0s" } } name := []rune(acc.name) if fs.Config.StatsFileNameLength > 0 { if len(name) > fs.Config.StatsFileNameLength { where := len(name) - fs.Config.StatsFileNameLength name = append([]rune{'.', '.', '.'}, name[where:]...) } } if fs.Config.DataRateUnit == "bits" { cur = cur * 8 } percentageDone := 0 if b > 0 { percentageDone = int(100 * float64(a) / float64(b)) } done := fmt.Sprintf("%2d%% /%s", percentageDone, fs.SizeSuffix(b)) return fmt.Sprintf("%45s: %s, %s/s, %s", string(name), done, fs.SizeSuffix(cur), etas, ) } // OldStream returns the top io.Reader func (acc *Account) OldStream() io.Reader { acc.mu.Lock() defer acc.mu.Unlock() return acc.in } // SetStream updates the top io.Reader func (acc *Account) SetStream(in io.Reader) { acc.mu.Lock() acc.in = in acc.mu.Unlock() } // WrapStream wraps an io Reader so it will be accounted in the same // way as account func (acc *Account) WrapStream(in io.Reader) io.Reader { return &accountStream{ acc: acc, in: in, } } // accountStream accounts a single io.Reader into a parent *Account type accountStream struct { acc *Account in io.Reader } // OldStream return the underlying stream func (a *accountStream) OldStream() io.Reader { return a.in } // SetStream set the underlying stream func (a *accountStream) SetStream(in io.Reader) { a.in = in } // WrapStream wrap in in an accounter func (a *accountStream) WrapStream(in io.Reader) io.Reader { return a.acc.WrapStream(in) } // Read bytes from the object - see io.Reader func (a *accountStream) Read(p []byte) (n int, err error) { return a.acc.read(a.in, p) } // Accounter accounts a stream allowing the accounting to be removed and re-added type Accounter interface { io.Reader OldStream() io.Reader SetStream(io.Reader) WrapStream(io.Reader) io.Reader } // WrapFn wraps an io.Reader (for accounting purposes usually) type WrapFn func(io.Reader) io.Reader // UnWrap unwraps a reader returning unwrapped and wrap, a function to // wrap it back up again. If `in` is an Accounter then this function // will take the accounting unwrapped and wrap will put it back on // again the new Reader passed in. // // This allows functions which wrap io.Readers to move the accounting // to the end of the wrapped chain of readers. This is very important // if buffering is being introduced and if the Reader might be wrapped // again. func UnWrap(in io.Reader) (unwrapped io.Reader, wrap WrapFn) { acc, ok := in.(Accounter) if !ok { return in, func(r io.Reader) io.Reader { return r } } return acc.OldStream(), acc.WrapStream }