package protocol import ( "compress/flate" "errors" "fmt" "io" "sync" "time" "github.com/calmh/syncthing/buffers" ) const ( messageTypeIndex = 1 messageTypeRequest = 2 messageTypeResponse = 3 messageTypePing = 4 messageTypePong = 5 messageTypeIndexUpdate = 6 ) const ( FlagDeleted = 1 << 12 FlagInvalid = 1 << 13 ) type FileInfo struct { Name string Flags uint32 Modified int64 Version uint32 Blocks []BlockInfo } type BlockInfo struct { Length uint32 Hash []byte } type Model interface { // An index was received from the peer node Index(nodeID string, files []FileInfo) // An index update was received from the peer node IndexUpdate(nodeID string, files []FileInfo) // A request was made by the peer node Request(nodeID, name string, offset uint64, size uint32, hash []byte) ([]byte, error) // The peer node closed the connection Close(nodeID string, err error) } type Connection struct { sync.RWMutex ID string receiver Model reader io.Reader mreader *marshalReader writer io.Writer mwriter *marshalWriter closed bool awaiting map[int]chan asyncResult nextId int indexSent map[string]int64 hasSentIndex bool hasRecvdIndex bool statisticsLock sync.Mutex } var ErrClosed = errors.New("Connection closed") type asyncResult struct { val []byte err error } const ( pingTimeout = 2 * time.Minute pingIdleTime = 5 * time.Minute ) func NewConnection(nodeID string, reader io.Reader, writer io.Writer, receiver Model) *Connection { flrd := flate.NewReader(reader) flwr, err := flate.NewWriter(writer, flate.BestSpeed) if err != nil { panic(err) } c := Connection{ receiver: receiver, reader: flrd, mreader: &marshalReader{r: flrd}, writer: flwr, mwriter: &marshalWriter{w: flwr}, awaiting: make(map[int]chan asyncResult), ID: nodeID, } go c.readerLoop() go c.pingerLoop() return &c } // Index writes the list of file information to the connected peer node func (c *Connection) Index(idx []FileInfo) { c.Lock() var msgType int if c.indexSent == nil { // This is the first time we send an index. msgType = messageTypeIndex c.indexSent = make(map[string]int64) for _, f := range idx { c.indexSent[f.Name] = f.Modified } } else { // We have sent one full index. Only send updates now. msgType = messageTypeIndexUpdate var diff []FileInfo for _, f := range idx { if modified, ok := c.indexSent[f.Name]; !ok || f.Modified != modified { diff = append(diff, f) c.indexSent[f.Name] = f.Modified } } idx = diff } c.mwriter.writeHeader(header{0, c.nextId, msgType}) c.mwriter.writeIndex(idx) err := c.flush() c.nextId = (c.nextId + 1) & 0xfff c.hasSentIndex = true c.Unlock() if err != nil { c.Close(err) return } else if c.mwriter.err != nil { c.Close(c.mwriter.err) return } } // Request returns the bytes for the specified block after fetching them from the connected peer. func (c *Connection) Request(name string, offset uint64, size uint32, hash []byte) ([]byte, error) { c.Lock() if c.closed { c.Unlock() return nil, ErrClosed } rc := make(chan asyncResult) c.awaiting[c.nextId] = rc c.mwriter.writeHeader(header{0, c.nextId, messageTypeRequest}) c.mwriter.writeRequest(request{name, offset, size, hash}) if c.mwriter.err != nil { c.Unlock() c.Close(c.mwriter.err) return nil, c.mwriter.err } err := c.flush() if err != nil { c.Unlock() c.Close(err) return nil, err } c.nextId = (c.nextId + 1) & 0xfff c.Unlock() res, ok := <-rc if !ok { return nil, ErrClosed } return res.val, res.err } func (c *Connection) Ping() bool { c.Lock() if c.closed { c.Unlock() return false } rc := make(chan asyncResult, 1) c.awaiting[c.nextId] = rc c.mwriter.writeHeader(header{0, c.nextId, messageTypePing}) err := c.flush() if err != nil { c.Unlock() c.Close(err) return false } else if c.mwriter.err != nil { c.Unlock() c.Close(c.mwriter.err) return false } c.nextId = (c.nextId + 1) & 0xfff c.Unlock() res, ok := <-rc return ok && res.err == nil } func (c *Connection) Stop() { } type flusher interface { Flush() error } func (c *Connection) flush() error { if f, ok := c.writer.(flusher); ok { return f.Flush() } return nil } func (c *Connection) Close(err error) { c.Lock() if c.closed { c.Unlock() return } c.closed = true for _, ch := range c.awaiting { close(ch) } c.awaiting = nil c.Unlock() c.receiver.Close(c.ID, err) } func (c *Connection) isClosed() bool { c.RLock() defer c.RUnlock() return c.closed } func (c *Connection) readerLoop() { loop: for { hdr := c.mreader.readHeader() if c.mreader.err != nil { c.Close(c.mreader.err) break loop } if hdr.version != 0 { c.Close(fmt.Errorf("Protocol error: %s: unknown message version %#x", c.ID, hdr.version)) break loop } switch hdr.msgType { case messageTypeIndex: files := c.mreader.readIndex() if c.mreader.err != nil { c.Close(c.mreader.err) break loop } else { c.receiver.Index(c.ID, files) } c.Lock() c.hasRecvdIndex = true c.Unlock() case messageTypeIndexUpdate: files := c.mreader.readIndex() if c.mreader.err != nil { c.Close(c.mreader.err) break loop } else { c.receiver.IndexUpdate(c.ID, files) } case messageTypeRequest: req := c.mreader.readRequest() if c.mreader.err != nil { c.Close(c.mreader.err) break loop } go c.processRequest(hdr.msgID, req) case messageTypeResponse: data := c.mreader.readResponse() if c.mreader.err != nil { c.Close(c.mreader.err) break loop } else { c.Lock() rc, ok := c.awaiting[hdr.msgID] delete(c.awaiting, hdr.msgID) c.Unlock() if ok { rc <- asyncResult{data, c.mreader.err} close(rc) } } case messageTypePing: c.Lock() c.mwriter.writeUint32(encodeHeader(header{0, hdr.msgID, messageTypePong})) err := c.flush() c.Unlock() if err != nil { c.Close(err) break loop } else if c.mwriter.err != nil { c.Close(c.mwriter.err) break loop } case messageTypePong: c.RLock() rc, ok := c.awaiting[hdr.msgID] c.RUnlock() if ok { rc <- asyncResult{} close(rc) c.Lock() delete(c.awaiting, hdr.msgID) c.Unlock() } default: c.Close(fmt.Errorf("Protocol error: %s: unknown message type %#x", c.ID, hdr.msgType)) break loop } } } func (c *Connection) processRequest(msgID int, req request) { data, _ := c.receiver.Request(c.ID, req.name, req.offset, req.size, req.hash) c.Lock() c.mwriter.writeUint32(encodeHeader(header{0, msgID, messageTypeResponse})) c.mwriter.writeResponse(data) err := c.flush() c.Unlock() buffers.Put(data) if err != nil { c.Close(err) } else if c.mwriter.err != nil { c.Close(c.mwriter.err) } } func (c *Connection) pingerLoop() { var rc = make(chan bool, 1) for { time.Sleep(pingIdleTime / 2) c.RLock() ready := c.hasRecvdIndex && c.hasSentIndex c.RUnlock() if ready { go func() { rc <- c.Ping() }() select { case ok := <-rc: if !ok { c.Close(fmt.Errorf("Ping failure")) } case <-time.After(pingTimeout): c.Close(fmt.Errorf("Ping timeout")) } } } } type Statistics struct { At time.Time InBytesTotal int OutBytesTotal int } func (c *Connection) Statistics() Statistics { c.statisticsLock.Lock() defer c.statisticsLock.Unlock() stats := Statistics{ At: time.Now(), InBytesTotal: int(c.mreader.getTot()), OutBytesTotal: int(c.mwriter.getTot()), } return stats }