package libgm import ( "crypto/sha256" "encoding/base64" "encoding/json" "fmt" "go.mau.fi/mautrix-gmessages/libgm/pblite" "go.mau.fi/mautrix-gmessages/libgm/binary" ) func (r *RPC) deduplicateHash(hash [32]byte) bool { const recentUpdatesLen = len(r.recentUpdates) for i := r.recentUpdatesPtr + recentUpdatesLen - 1; i >= r.recentUpdatesPtr; i-- { if r.recentUpdates[i%recentUpdatesLen] == hash { return true } } r.recentUpdates[r.recentUpdatesPtr] = hash r.recentUpdatesPtr = (r.recentUpdatesPtr + 1) % recentUpdatesLen return false } func (r *RPC) deduplicateUpdate(response *pblite.Response) bool { if response.Data.RawDecrypted != nil { contentHash := sha256.Sum256(response.Data.RawDecrypted) if r.deduplicateHash(contentHash) { r.client.Logger.Trace().Hex("data_hash", contentHash[:]).Msg("Ignoring duplicate update") return true } if r.client.Logger.Trace().Enabled() { r.client.Logger.Trace(). Str("proto_name", string(response.Data.Decrypted.ProtoReflect().Descriptor().FullName())). Str("data", base64.StdEncoding.EncodeToString(response.Data.RawDecrypted)). Hex("data_hash", contentHash[:]). Msg("Got event") } } return false } func (r *RPC) HandleRPCMsg(msgArr []interface{}) { response, decodeErr := pblite.DecodeAndDecryptInternalMessage(msgArr, r.client.authData.Cryptor) if decodeErr != nil { r.client.Logger.Error().Err(fmt.Errorf("failed to deserialize response %s", msgArr)).Msg("rpc deserialize msg err") return } //r.client.Logger.Debug().Any("byteLength", len(data)).Any("unmarshaled", response).Any("raw", string(data)).Msg("RPC Msg") if response == nil { r.client.Logger.Error().Err(fmt.Errorf("response data was nil %s", msgArr)).Msg("rpc msg data err") return } //r.client.Logger.Debug().Any("response", response).Msg("decrypted & decoded response") _, waitingForResponse := r.client.sessionHandler.requests[response.Data.RequestId] //r.client.Logger.Info().Any("raw", msgArr).Msg("Got msg") //r.client.Logger.Debug().Any("waiting", waitingForResponse).Msg("got request! waiting?") r.client.sessionHandler.addResponseAck(response.ResponseId) if waitingForResponse { if response.Data.Decrypted != nil && r.client.Logger.Trace().Enabled() { r.client.Logger.Trace(). Str("proto_name", string(response.Data.Decrypted.ProtoReflect().Descriptor().FullName())). Str("data", base64.StdEncoding.EncodeToString(response.Data.RawDecrypted)). Msg("Got response") } r.client.sessionHandler.respondToRequestChannel(response) } else { switch response.BugleRoute { case binary.BugleRoute_PairEvent: go r.client.handlePairingEvent(response) case binary.BugleRoute_DataEvent: if r.skipCount > 0 { r.skipCount-- r.client.Logger.Debug(). Any("action", response.Data.Action). Any("toSkip", r.skipCount). Msg("Skipped DataEvent") if response.Data.Decrypted != nil { r.client.Logger.Trace(). Str("proto_name", string(response.Data.Decrypted.ProtoReflect().Descriptor().FullName())). Str("data", base64.StdEncoding.EncodeToString(response.Data.RawDecrypted)). Msg("Skipped event data") } return } r.client.handleUpdatesEvent(response) default: r.client.Logger.Debug().Any("res", response).Msg("Got unknown bugleroute") } } } func (r *RPC) tryUnmarshalJSON(jsonData []byte, msgArr *[]interface{}) error { err := json.Unmarshal(jsonData, &msgArr) return err } func (r *RPC) HandleByLength(data []byte) { r.client.Logger.Debug().Any("byteLength", len(data)).Any("corrupt raw", string(data)).Msg("RPC Corrupt json") }