package multiplex import ( "errors" "io" "net" "time" log "github.com/sirupsen/logrus" "sync" "sync/atomic" ) var ErrBrokenStream = errors.New("broken stream") type Stream struct { id uint32 session *Session recvBuf recvBuffer // atomic nextSendSeq uint64 writingM sync.RWMutex // atomic closed uint32 obfsBuf []byte // we assign each stream a fixed underlying TCP connection to utilise order guarantee provided by TCP itself // so that frameSorter should have few to none ooo frames to deal with // overall the streams in a session should be uniformly distributed across all connections // This is not used in unordered connection mode assignedConnId uint32 } func makeStream(sesh *Session, id uint32, assignedConnId uint32) *Stream { var recvBuf recvBuffer if sesh.Unordered { recvBuf = NewDatagramBuffer() } else { recvBuf = NewStreamBuffer() } stream := &Stream{ id: id, session: sesh, recvBuf: recvBuf, obfsBuf: make([]byte, 17000), //TODO don't leave this hardcoded assignedConnId: assignedConnId, } return stream } func (s *Stream) isClosed() bool { return atomic.LoadUint32(&s.closed) == 1 } func (s *Stream) writeFrame(frame Frame) error { toBeClosed, err := s.recvBuf.Write(frame) if toBeClosed { return s.passiveClose() } return err } // Read implements io.Read func (s *Stream) Read(buf []byte) (n int, err error) { //log.Tracef("attempting to read from stream %v", s.id) if len(buf) == 0 { if s.isClosed() { return 0, ErrBrokenStream } else { return 0, nil } } n, err = s.recvBuf.Read(buf) if err == io.EOF { return n, ErrBrokenStream } log.Tracef("%v read from stream %v with err %v", n, s.id, err) return } // Write implements io.Write func (s *Stream) Write(in []byte) (n int, err error) { // RWMutex used here isn't really for RW. // we use it to exploit the fact that RLock doesn't create contention. // The use of RWMutex is so that the stream will not actively close // in the middle of the execution of Write. This may cause the closing frame // to be sent before the data frame and cause loss of packet. //log.Tracef("attempting to write %v bytes to stream %v",len(in),s.id) s.writingM.RLock() defer s.writingM.RUnlock() if s.isClosed() { return 0, ErrBrokenStream } f := &Frame{ StreamID: s.id, Seq: atomic.AddUint64(&s.nextSendSeq, 1) - 1, Closing: C_NOOP, Payload: in, } i, err := s.session.Obfs(f, s.obfsBuf) if err != nil { return i, err } n, err = s.session.sb.send(s.obfsBuf[:i], &s.assignedConnId) log.Tracef("%v sent to remote through stream %v with err %v", len(in), s.id, err) if err != nil { if err == errBrokenSwitchboard { s.session.SetTerminalMsg(err.Error()) s.session.passiveClose() } return } return len(in), nil } func (s *Stream) passiveClose() error { return s.session.closeStream(s, false) } // active close. Close locally and tell the remote that this stream is being closed func (s *Stream) Close() error { return s.session.closeStream(s, true) } // the following functions are purely for implementing net.Conn interface. // they are not used var errNotImplemented = errors.New("Not implemented") func (s *Stream) LocalAddr() net.Addr { return s.session.addrs.Load().([]net.Addr)[0] } func (s *Stream) RemoteAddr() net.Addr { return s.session.addrs.Load().([]net.Addr)[1] } // TODO: implement the following func (s *Stream) SetDeadline(t time.Time) error { return errNotImplemented } func (s *Stream) SetReadDeadline(t time.Time) error { return errNotImplemented } func (s *Stream) SetWriteDeadline(t time.Time) error { return errNotImplemented }