package browserbiometrics import ( "bufio" "encoding/json" "io" "os" "github.com/quexten/goldwarden/agent/config" "github.com/quexten/goldwarden/browserbiometrics/logging" "github.com/quexten/goldwarden/client" "github.com/quexten/goldwarden/ipc/messages" ) var runtimeConfig *config.RuntimeConfig func readLoop(rtCfg *config.RuntimeConfig) { runtimeConfig = rtCfg v := bufio.NewReader(os.Stdin) s := bufio.NewReaderSize(v, bufferSize) lengthBytes := make([]byte, 4) lengthNum := int(0) logging.Debugf("Sending connected message") send(SendMessage{ Command: "connected", AppID: appID, }) logging.Debugf("Starting read loop") for b, err := s.Read(lengthBytes); b > 0 && err == nil; b, err = s.Read(lengthBytes) { lengthNum = readMessageLength(lengthBytes) content := make([]byte, lengthNum) _, err := s.Read(content) if err != nil && err != io.EOF { logging.Panicf(err.Error()) } parseMessage(content) } } func parseMessage(msg []byte) { logging.Debugf("Received message: " + string(msg)) var genericMessage GenericRecvMessage err := json.Unmarshal(msg, &genericMessage) if err != nil { logging.Panicf("Unable to unmarshal json to struct: " + err.Error()) } if _, ok := (genericMessage.Message.(map[string]interface{})["command"]); ok { logging.Debugf("Message is unencrypted") var unmsg UnencryptedRecvMessage err := json.Unmarshal(msg, &unmsg) if err != nil { logging.Panicf("Unable to unmarshal json to struct: " + err.Error()) } handleUnencryptedMessage(unmsg) } else { logging.Debugf("Message is encrypted") var encmsg EncryptedRecvMessage err := json.Unmarshal(msg, &encmsg) if err != nil { logging.Panicf("Unable to unmarshal json to struct: " + err.Error()) } decryptedMessage := decryptStringSymmetric(transportKey, encmsg.Message.IV, encmsg.Message.Data) var payloadMsg PayloadMessage err = json.Unmarshal([]byte(decryptedMessage), &payloadMsg) if err != nil { logging.Panicf("Unable to unmarshal json to struct: " + err.Error()) } handlePayloadMessage(payloadMsg, genericMessage.AppID) } } func handleUnencryptedMessage(msg UnencryptedRecvMessage) { logging.Debugf("Received unencrypted message: %+v", msg.Message) logging.Debugf(" with command: %s", msg.Message.Command) switch msg.Message.Command { case "setupEncryption": sharedSecret, err := rsaEncrypt(msg.Message.PublicKey, transportKey) if err != nil { logging.Panicf(err.Error()) } send(SendMessage{ Command: "setupEncryption", AppID: msg.AppID, SharedSecret: sharedSecret, }) break } } func handlePayloadMessage(msg PayloadMessage, appID string) { logging.Debugf("Received unencrypted message: %+v", msg) switch msg.Command { case "biometricUnlock": logging.Debugf("Biometric unlock requested") // logging.Debugf("Biometrics authorized: %t", isAuthorized) result, err := client.NewUnixSocketClient(runtimeConfig).SendToAgent(messages.GetBiometricsKeyRequest{}) if err != nil { logging.Errorf("Unable to send message to agent: %s", err.Error()) return } switch result.(type) { case messages.GetBiometricsKeyResponse: if err != nil { logging.Panicf(err.Error()) } var key = result.(messages.GetBiometricsKeyResponse).Key var payloadMsg ReceiveMessage = ReceiveMessage{ Command: "biometricUnlock", Response: "unlocked", Timestamp: msg.Timestamp, KeyB64: key, } payloadStr, err := json.Marshal(payloadMsg) if err != nil { logging.Panicf(err.Error()) } logging.Debugf("Payload: %s", payloadStr) encStr := encryptStringSymmetric(transportKey, payloadStr) send(SendMessage{ AppID: appID, Message: encStr, }) break } break } }