package storage import ( "bufio" "fmt" "io" "os" "time" ) // layerReadSeeker implements Layer and provides facilities for reading and // seeking. type layerReader struct { layerStore *layerStore rc io.ReadCloser brd *bufio.Reader name string // repo name of this layer tarSum string path string createdAt time.Time // offset is the current read offset offset int64 // size is the total layer size, if available. size int64 closedErr error // terminal error, if set, reader is closed } var _ Layer = &layerReader{} func (lrs *layerReader) Name() string { return lrs.name } func (lrs *layerReader) TarSum() string { return lrs.tarSum } func (lrs *layerReader) CreatedAt() time.Time { return lrs.createdAt } func (lrs *layerReader) Read(p []byte) (n int, err error) { if err := lrs.closed(); err != nil { return 0, err } rd, err := lrs.reader() if err != nil { return 0, err } n, err = rd.Read(p) lrs.offset += int64(n) // Simulate io.EOR error if we reach filesize. if err == nil && lrs.offset >= lrs.size { err = io.EOF } // TODO(stevvooe): More error checking is required here. If the reader // times out for some reason, we should reset the reader so we re-open the // connection. return n, err } func (lrs *layerReader) Seek(offset int64, whence int) (int64, error) { if err := lrs.closed(); err != nil { return 0, err } var err error newOffset := lrs.offset switch whence { case os.SEEK_CUR: newOffset += int64(whence) case os.SEEK_END: newOffset = lrs.size + int64(whence) case os.SEEK_SET: newOffset = int64(whence) } if newOffset < 0 { err = fmt.Errorf("cannot seek to negative position") } else if newOffset >= lrs.size { err = fmt.Errorf("cannot seek passed end of layer") } else { if lrs.offset != newOffset { lrs.resetReader() } // No problems, set the offset. lrs.offset = newOffset } return lrs.offset, err } // Close the layer. Should be called when the resource is no longer needed. func (lrs *layerReader) Close() error { if lrs.closedErr != nil { return lrs.closedErr } // TODO(sday): Must export this error. lrs.closedErr = fmt.Errorf("layer closed") // close and release reader chain if lrs.rc != nil { lrs.rc.Close() lrs.rc = nil } lrs.brd = nil return lrs.closedErr } // reader prepares the current reader at the lrs offset, ensuring its buffered // and ready to go. func (lrs *layerReader) reader() (io.Reader, error) { if err := lrs.closed(); err != nil { return nil, err } if lrs.rc != nil { return lrs.brd, nil } // If we don't have a reader, open one up. rc, err := lrs.layerStore.driver.ReadStream(lrs.path, uint64(lrs.offset)) if err != nil { return nil, err } lrs.rc = rc if lrs.brd == nil { // TODO(stevvooe): Set an optimal buffer size here. We'll have to // understand the latency characteristics of the underlying network to // set this correctly, so we may want to leave it to the driver. For // out of process drivers, we'll have to optimize this buffer size for // local communication. lrs.brd = bufio.NewReader(lrs.rc) } else { lrs.brd.Reset(lrs.rc) } return lrs.brd, nil } // resetReader resets the reader, forcing the read method to open up a new // connection and rebuild the buffered reader. This should be called when the // offset and the reader will become out of sync, such as during a seek // operation. func (lrs *layerReader) resetReader() { if err := lrs.closed(); err != nil { return } if lrs.rc != nil { lrs.rc.Close() lrs.rc = nil } } func (lrs *layerReader) closed() error { return lrs.closedErr }