package torrent import ( "errors" "io" "os" "sync" ) // Accesses torrent data via a client. type Reader struct { t *Torrent responsive bool // Ensure operations that change the position are exclusive, like Read() // and Seek(). opMu sync.Mutex // Required when modifying pos and readahead, or reading them without // opMu. mu sync.Mutex pos int64 readahead int64 } var _ io.ReadCloser = &Reader{} // Don't wait for pieces to complete and be verified. Read calls return as // soon as they can when the underlying chunks become available. func (r *Reader) SetResponsive() { r.responsive = true } // Configure the number of bytes ahead of a read that should also be // prioritized in preparation for further reads. func (r *Reader) SetReadahead(readahead int64) { r.mu.Lock() defer r.mu.Unlock() r.readahead = readahead } func (r *Reader) readable(off int64) (ret bool) { if r.torrentClosed() { return true } req, ok := r.t.torrent.offsetRequest(off) if !ok { panic(off) } if r.responsive { return r.t.torrent.haveChunk(req) } return r.t.torrent.pieceComplete(int(req.Index)) } // How many bytes are available to read. Max is the most we could require. func (r *Reader) available(off, max int64) (ret int64) { for max > 0 { req, ok := r.t.torrent.offsetRequest(off) if !ok { break } if !r.t.torrent.haveChunk(req) { break } len1 := int64(req.Length) - (off - r.t.torrent.requestOffset(req)) max -= len1 ret += len1 off += len1 } // Ensure that ret hasn't exceeded our original max. if max < 0 { ret += max } return } func (r *Reader) tickleClient() { r.t.torrent.readersChanged() } func (r *Reader) waitReadable(off int64) { // We may have been sent back here because we were told we could read but // it failed. r.tickleClient() r.t.cl.event.Wait() } func (r *Reader) Read(b []byte) (n int, err error) { r.opMu.Lock() defer r.opMu.Unlock() for len(b) != 0 { var n1 int n1, err = r.readOnceAt(b, r.pos) if n1 == 0 { if err == nil { panic("expected error") } break } b = b[n1:] n += n1 r.mu.Lock() r.pos += int64(n1) r.mu.Unlock() } if r.pos >= r.t.torrent.length { err = io.EOF } else if err == io.EOF { err = io.ErrUnexpectedEOF } return } // Safe to call with or without client lock. func (r *Reader) torrentClosed() bool { return r.t.torrent.isClosed() } // Wait until some data should be available to read. Tickles the client if it // isn't. Returns how much should be readable without blocking. func (r *Reader) waitAvailable(pos, wanted int64) (avail int64) { r.t.cl.mu.Lock() defer r.t.cl.mu.Unlock() for !r.readable(pos) { r.waitReadable(pos) } return r.available(pos, wanted) } // Performs at most one successful read to torrent storage. func (r *Reader) readOnceAt(b []byte, pos int64) (n int, err error) { if pos >= r.t.torrent.length { err = io.EOF return } for { avail := r.waitAvailable(pos, int64(len(b))) if avail == 0 { if r.torrentClosed() { err = errors.New("torrent closed") return } } b1 := b[:avail] pi := int(pos / r.t.Info().PieceLength) ip := r.t.Info().Piece(pi) po := pos % ip.Length() if int64(len(b1)) > ip.Length()-po { b1 = b1[:ip.Length()-po] } n, err = r.t.torrent.readAt(b1, pos) if n != 0 { return } // log.Printf("%s: error reading from torrent storage pos=%d: %s", r.t, pos, err) r.t.cl.mu.Lock() r.t.torrent.updateAllPieceCompletions() r.t.torrent.updatePiecePriorities() r.t.cl.mu.Unlock() } } func (r *Reader) Close() error { r.t.deleteReader(r) r.t = nil return nil } func (r *Reader) posChanged() { r.t.cl.mu.Lock() defer r.t.cl.mu.Unlock() r.t.torrent.readersChanged() } func (r *Reader) Seek(off int64, whence int) (ret int64, err error) { r.opMu.Lock() defer r.opMu.Unlock() r.mu.Lock() switch whence { case os.SEEK_SET: r.pos = off case os.SEEK_CUR: r.pos += off case os.SEEK_END: r.pos = r.t.torrent.Info.TotalLength() + off default: err = errors.New("bad whence") } ret = r.pos r.mu.Unlock() r.posChanged() return } func (r *Reader) Torrent() *Torrent { return r.t }