package yggdrasil import ( "errors" "fmt" "io" "net" "github.com/yggdrasil-network/yggdrasil-go/src/util" ) // Test that this matches the interface we expect var _ = linkInterfaceMsgIO(&stream{}) type stream struct { rwc io.ReadWriteCloser inputBuffer []byte // Incoming packet stream frag [2 * streamMsgSize]byte // Temporary data read off the underlying rwc, on its way to the inputBuffer //outputBuffer [2 * streamMsgSize]byte // Temporary data about to be written to the rwc outputBuffer net.Buffers } func (s *stream) close() error { return s.rwc.Close() } const streamMsgSize = 2048 + 65535 var streamMsg = [...]byte{0xde, 0xad, 0xb1, 0x75} // "dead bits" func (s *stream) init(rwc io.ReadWriteCloser) { // TODO have this also do the metadata handshake and create the peer struct s.rwc = rwc // TODO call something to do the metadata exchange } // writeMsg writes a message with stream padding, and is *not* thread safe. func (s *stream) writeMsg(bs []byte) (int, error) { buf := s.outputBuffer[:0] buf = append(buf, streamMsg[:]) l := wire_put_uint64(uint64(len(bs)), util.GetBytes()) defer util.PutBytes(l) buf = append(buf, l) padLen := len(buf[0]) + len(buf[1]) buf = append(buf, bs) totalLen := padLen + len(bs) var bn int for bn < totalLen { n, err := buf.WriteTo(s.rwc) bn += int(n) if err != nil { l := bn - padLen if l < 0 { l = 0 } return l, err } } return len(bs), nil } // readMsg reads a message from the stream, accounting for stream padding, and is *not* thread safe. func (s *stream) readMsg() ([]byte, error) { for { buf := s.inputBuffer msg, ok, err := stream_chopMsg(&buf) switch { case err != nil: // Something in the stream format is corrupt return nil, fmt.Errorf("message error: %v", err) case ok: // Copy the packet into bs, shift the buffer, and return msg = append(util.GetBytes(), msg...) s.inputBuffer = append(s.inputBuffer[:0], buf...) return msg, nil default: // Wait for the underlying reader to return enough info for us to proceed n, err := s.rwc.Read(s.frag[:]) if n > 0 { s.inputBuffer = append(s.inputBuffer, s.frag[:n]...) } else if err != nil { return nil, err } } } } // Writes metadata bytes without stream padding, meant to be temporary func (s *stream) _sendMetaBytes(metaBytes []byte) error { var written int for written < len(metaBytes) { n, err := s.rwc.Write(metaBytes) written += n if err != nil { return err } } return nil } // Reads metadata bytes without stream padding, meant to be temporary func (s *stream) _recvMetaBytes() ([]byte, error) { var meta version_metadata frag := meta.encode() metaBytes := make([]byte, 0, len(frag)) for len(metaBytes) < len(frag) { n, err := s.rwc.Read(frag) if err != nil { return nil, err } metaBytes = append(metaBytes, frag[:n]...) } return metaBytes, nil } // This takes a pointer to a slice as an argument. It checks if there's a // complete message and, if so, slices out those parts and returns the message, // true, and nil. If there's no error, but also no complete message, it returns // nil, false, and nil. If there's an error, it returns nil, false, and the // error, which the reader then handles (currently, by returning from the // reader, which causes the connection to close). func stream_chopMsg(bs *[]byte) ([]byte, bool, error) { // Returns msg, ok, err if len(*bs) < len(streamMsg) { return nil, false, nil } for idx := range streamMsg { if (*bs)[idx] != streamMsg[idx] { return nil, false, errors.New("bad message") } } msgLen, msgLenLen := wire_decode_uint64((*bs)[len(streamMsg):]) if msgLen > streamMsgSize { return nil, false, errors.New("oversized message") } msgBegin := len(streamMsg) + msgLenLen msgEnd := msgBegin + int(msgLen) if msgLenLen == 0 || len(*bs) < msgEnd { // We don't have the full message // Need to buffer this and wait for the rest to come in return nil, false, nil } msg := (*bs)[msgBegin:msgEnd] (*bs) = (*bs)[msgEnd:] return msg, true, nil }