package libgm import ( "bufio" "bytes" "encoding/base64" "encoding/json" "errors" "fmt" "io" "net/http" "time" "github.com/rs/zerolog" "go.mau.fi/mautrix-gmessages/libgm/events" "go.mau.fi/mautrix-gmessages/libgm/pblite" "go.mau.fi/mautrix-gmessages/libgm/binary" "go.mau.fi/mautrix-gmessages/libgm/util" ) type RPC struct { client *Client http *http.Client conn io.ReadCloser stopping bool rpcSessionId string listenID int skipCount int recentUpdates [8][32]byte recentUpdatesPtr int } func (r *RPC) ListenReceiveMessages(payload []byte) { r.listenID++ listenID := r.listenID errored := true for r.listenID == listenID { if r.client.authData.DevicePair != nil && r.client.authData.AuthenticatedAt.Add(20*time.Hour).Before(time.Now()) { r.client.Logger.Debug().Msg("Refreshing auth token before starting new long-polling request") err := r.client.refreshAuthToken() if err != nil { r.client.Logger.Err(err).Msg("Error refreshing auth token") r.client.triggerEvent(&events.ListenFatalError{Error: fmt.Errorf("failed to refresh auth token: %w", err)}) return } } r.client.Logger.Debug().Msg("Starting new long-polling request") req, err := http.NewRequest("POST", util.RECEIVE_MESSAGES, bytes.NewReader(payload)) if err != nil { panic(fmt.Errorf("Error creating request: %v", err)) } util.BuildRelayHeaders(req, "application/json+protobuf", "*/*") resp, reqErr := r.http.Do(req) if reqErr != nil { r.client.triggerEvent(&events.ListenTemporaryError{Error: reqErr}) errored = true r.client.Logger.Err(err).Msg("Error making listen request, retrying in 5 seconds") time.Sleep(5 * time.Second) continue } if resp.StatusCode >= 400 && resp.StatusCode < 500 { r.client.Logger.Error().Int("status_code", resp.StatusCode).Msg("Error making listen request") r.client.triggerEvent(&events.ListenFatalError{Error: events.HTTPError{Action: "polling", Resp: resp}}) return } else if resp.StatusCode >= 500 { r.client.triggerEvent(&events.ListenTemporaryError{Error: events.HTTPError{Action: "polling", Resp: resp}}) errored = true r.client.Logger.Debug().Int("statusCode", resp.StatusCode).Msg("5xx error in long polling, retrying in 5 seconds") time.Sleep(5 * time.Second) continue } if errored { errored = false r.client.triggerEvent(&events.ListenRecovered{}) } r.client.Logger.Debug().Int("statusCode", resp.StatusCode).Msg("Long polling opened") r.conn = resp.Body if r.client.authData.DevicePair != nil { go func() { err := r.client.NotifyDittoActivity() if err != nil { r.client.Logger.Err(err).Msg("Error notifying ditto activity") } }() } r.startReadingData(resp.Body) r.conn = nil } } /* The start of a message always begins with byte 44 (",") If the message is parsable (after , has been removed) as an array of interfaces: func (r *RPC) tryUnmarshalJSON(jsonData []byte, msgArr *[]interface{}) error { err := json.Unmarshal(jsonData, &msgArr) return err } then the message is complete and it should continue to the HandleRPCMsg function and it should also reset the buffer so that the next message can be received properly. if it's not parsable, it should just append the received data to the buf and attempt to parse it until it's parsable. Because that would indicate that the full msg has been received */ func (r *RPC) startReadingData(rc io.ReadCloser) { r.stopping = false defer rc.Close() reader := bufio.NewReader(rc) buf := make([]byte, 2621440) var accumulatedData []byte n, err := reader.Read(buf[:2]) if err != nil { r.client.Logger.Err(err).Msg("Error reading opening bytes") return } else if n != 2 || string(buf[:2]) != "[[" { r.client.Logger.Err(err).Msg("Opening is not [[") return } var expectEOF bool for { n, err = reader.Read(buf) if err != nil { var logEvt *zerolog.Event if (errors.Is(err, io.EOF) && expectEOF) || r.stopping { logEvt = r.client.Logger.Debug() } else { logEvt = r.client.Logger.Warn() } logEvt.Err(err).Msg("Stopped reading data from server") return } else if expectEOF { r.client.Logger.Warn().Msg("Didn't get EOF after stream end marker") } chunk := buf[:n] if len(accumulatedData) == 0 { if len(chunk) == 2 && string(chunk) == "]]" { r.client.Logger.Debug().Msg("Got stream end marker") expectEOF = true continue } chunk = bytes.TrimPrefix(chunk, []byte{','}) } accumulatedData = append(accumulatedData, chunk...) if !json.Valid(accumulatedData) { r.client.Logger.Debug().Str("data", string(chunk)).Msg("Invalid JSON") continue } currentBlock := accumulatedData accumulatedData = accumulatedData[:0] msg := &binary.InternalMessage{} err = pblite.Unmarshal(currentBlock, msg) if err != nil { r.client.Logger.Err(err).Msg("Error deserializing pblite message") continue } switch { case msg.GetData() != nil: r.HandleRPCMsg(msg) case msg.GetAck() != nil: r.client.Logger.Debug().Int32("count", msg.GetAck().GetCount()).Msg("Got startup ack count message") r.skipCount = int(msg.GetAck().GetCount()) case msg.GetStartRead() != nil: r.client.Logger.Trace().Msg("Got startRead message") case msg.GetHeartbeat() != nil: r.client.Logger.Trace().Msg("Got heartbeat message") default: r.client.Logger.Warn(). Str("data", base64.StdEncoding.EncodeToString(currentBlock)). Msg("Got unknown message") } } } func (r *RPC) CloseConnection() { if r.conn != nil { r.client.Logger.Debug().Msg("Closing connection manually") r.stopping = true r.conn.Close() r.conn = nil } } func (r *RPC) sendMessageRequest(url string, payload []byte) (*http.Response, error) { req, err := http.NewRequest("POST", url, bytes.NewReader(payload)) if err != nil { return nil, fmt.Errorf("error creating request: %w", err) } util.BuildRelayHeaders(req, "application/json+protobuf", "*/*") resp, reqErr := r.client.http.Do(req) if reqErr != nil { return nil, fmt.Errorf("error making request: %w", err) } return resp, reqErr }