// Real BLE Manager для физических устройств import { BleManager, Device } from 'react-native-ble-plx'; import { Platform } from 'react-native'; import { IBLEManager, WPDevice, WiFiNetwork, WiFiStatus, BLE_CONFIG, BLE_COMMANDS, BLEConnectionState, BLEDeviceConnection, BLEEventListener, BLEConnectionEvent, SensorHealthMetrics, SensorHealthStatus, WiFiSignalQuality, CommunicationHealth, BulkOperationResult, BulkWiFiResult, ReconnectConfig, ReconnectState, DEFAULT_RECONNECT_CONFIG, } from './types'; import { requestBLEPermissions, checkBluetoothEnabled } from './permissions'; import base64 from 'react-native-base64'; export class RealBLEManager implements IBLEManager { private _manager: BleManager | null = null; private connectedDevices = new Map(); private connectionStates = new Map(); private eventListeners: BLEEventListener[] = []; private scanning = false; private connectingDevices = new Set(); // Track devices currently being connected // Health monitoring state private sensorHealthMetrics = new Map(); private communicationStats = new Map(); // Reconnect state private reconnectConfig: ReconnectConfig = { ...DEFAULT_RECONNECT_CONFIG }; private reconnectStates = new Map(); private reconnectTimers = new Map>(); private disconnectionSubscriptions = new Map(); // Device disconnect monitors // Lazy initialization to prevent crash on app startup private get manager(): BleManager { if (!this._manager) { this._manager = new BleManager(); } return this._manager; } // Empty constructor - using lazy initialization for BleManager /** * Update connection state and notify listeners */ private updateConnectionState( deviceId: string, state: BLEConnectionState, deviceName?: string, error?: string ): void { const existing = this.connectionStates.get(deviceId); const now = Date.now(); const connection: BLEDeviceConnection = { deviceId, deviceName: deviceName || existing?.deviceName || deviceId, state, error, connectedAt: state === BLEConnectionState.CONNECTED ? now : existing?.connectedAt, lastActivity: now, }; this.connectionStates.set(deviceId, connection); this.emitEvent(deviceId, 'state_changed', { state, error }); } /** * Emit event to all registered listeners */ private emitEvent(deviceId: string, event: BLEConnectionEvent, data?: any): void { this.eventListeners.forEach((listener) => { try { listener(deviceId, event, data); } catch { // Listener error should not crash the app } }); } /** * Get current connection state for a device */ getConnectionState(deviceId: string): BLEConnectionState { const connection = this.connectionStates.get(deviceId); return connection?.state || BLEConnectionState.DISCONNECTED; } /** * Get all active connections */ getAllConnections(): Map { return new Map(this.connectionStates); } /** * Add event listener */ addEventListener(listener: BLEEventListener): void { if (!this.eventListeners.includes(listener)) { this.eventListeners.push(listener); } } /** * Remove event listener */ removeEventListener(listener: BLEEventListener): void { const index = this.eventListeners.indexOf(listener); if (index > -1) { this.eventListeners.splice(index, 1); } } async scanDevices(): Promise { // Check permissions with graceful fallback const permissionStatus = await requestBLEPermissions(); if (!permissionStatus.granted) { throw new Error(permissionStatus.error || 'Bluetooth permissions not granted'); } // Check Bluetooth state const bluetoothStatus = await checkBluetoothEnabled(this.manager); if (!bluetoothStatus.enabled) { throw new Error(bluetoothStatus.error || 'Bluetooth is disabled. Please enable it in settings.'); } const foundDevices = new Map(); return new Promise((resolve, reject) => { this.scanning = true; this.manager.startDeviceScan( null, { allowDuplicates: false }, (error, device) => { if (error) { this.scanning = false; reject(error); return; } if (device && device.name?.startsWith(BLE_CONFIG.DEVICE_NAME_PREFIX)) { // Parse well_id from name (WP_497_81a14c -> 497) const wellIdMatch = device.name.match(/WP_(\d+)_/); const wellId = wellIdMatch ? parseInt(wellIdMatch[1], 10) : undefined; // Extract MAC from device name (last part after underscore) const macMatch = device.name.match(/_([a-fA-F0-9]{6})$/); const mac = macMatch ? macMatch[1].toUpperCase() : ''; foundDevices.set(device.id, { id: device.id, name: device.name, mac: mac, rssi: device.rssi || -100, wellId, }); } } ); // Stop scan after timeout setTimeout(() => { this.stopScan(); resolve(Array.from(foundDevices.values())); }, BLE_CONFIG.SCAN_TIMEOUT); }); } stopScan(): void { if (this.scanning) { this.manager.stopDeviceScan(); this.scanning = false; } } async connectDevice(deviceId: string): Promise { try { // Check if connection is already in progress if (this.connectingDevices.has(deviceId)) { throw new Error('Connection already in progress for this device'); } // Check if already connected const existingDevice = this.connectedDevices.get(deviceId); if (existingDevice) { const isConnected = await existingDevice.isConnected(); if (isConnected) { this.updateConnectionState(deviceId, BLEConnectionState.READY, existingDevice.name || undefined); this.emitEvent(deviceId, 'ready'); return true; } // Device was in map but disconnected, remove it this.connectedDevices.delete(deviceId); this.updateConnectionState(deviceId, BLEConnectionState.DISCONNECTED); } // Mark device as connecting this.connectingDevices.add(deviceId); // Update state to CONNECTING this.updateConnectionState(deviceId, BLEConnectionState.CONNECTING); // Step 0: Check permissions (required for Android 12+) const permissionStatus = await requestBLEPermissions(); if (!permissionStatus.granted) { const error = permissionStatus.error || 'Bluetooth permissions not granted'; this.updateConnectionState(deviceId, BLEConnectionState.ERROR, undefined, error); this.emitEvent(deviceId, 'connection_failed', { error }); throw new Error(error); } // Step 0.5: Check Bluetooth is enabled const bluetoothStatus = await checkBluetoothEnabled(this.manager); if (!bluetoothStatus.enabled) { const error = bluetoothStatus.error || 'Bluetooth is disabled. Please enable it in settings.'; this.updateConnectionState(deviceId, BLEConnectionState.ERROR, undefined, error); this.emitEvent(deviceId, 'connection_failed', { error }); throw new Error(error); } const device = await this.manager.connectToDevice(deviceId, { timeout: 10000, // 10 second timeout }); // Update state to CONNECTED this.updateConnectionState(deviceId, BLEConnectionState.CONNECTED, device.name || undefined); // Update state to DISCOVERING this.updateConnectionState(deviceId, BLEConnectionState.DISCOVERING, device.name || undefined); await device.discoverAllServicesAndCharacteristics(); // Request larger MTU for Android (default is 23 bytes which is too small) if (Platform.OS === 'android') { try { await device.requestMTU(512); } catch { // MTU request may fail on some devices - continue anyway } } this.connectedDevices.set(deviceId, device); // Update state to READY this.updateConnectionState(deviceId, BLEConnectionState.READY, device.name || undefined); this.emitEvent(deviceId, 'ready'); return true; } catch (error: any) { const errorMessage = error?.message || 'Connection failed'; this.updateConnectionState(deviceId, BLEConnectionState.ERROR, undefined, errorMessage); this.emitEvent(deviceId, 'connection_failed', { error: errorMessage }); return false; } finally { // Always remove from connecting set when done (success or failure) this.connectingDevices.delete(deviceId); } } async disconnectDevice(deviceId: string): Promise { const device = this.connectedDevices.get(deviceId); if (device) { try { // Update state to DISCONNECTING this.updateConnectionState(deviceId, BLEConnectionState.DISCONNECTING); // Cancel any pending operations before disconnecting // This helps prevent Android NullPointerException in monitor callbacks await device.cancelConnection(); // Update state to DISCONNECTED this.updateConnectionState(deviceId, BLEConnectionState.DISCONNECTED); this.emitEvent(deviceId, 'disconnected'); } catch { // Log but don't throw - device may already be disconnected this.updateConnectionState(deviceId, BLEConnectionState.DISCONNECTED); this.emitEvent(deviceId, 'disconnected'); } finally { this.connectedDevices.delete(deviceId); } } else { // Not in connected devices map, just update state this.updateConnectionState(deviceId, BLEConnectionState.DISCONNECTED); this.emitEvent(deviceId, 'disconnected'); } } isDeviceConnected(deviceId: string): boolean { return this.connectedDevices.has(deviceId); } /** * Update communication stats for a device */ private updateCommunicationStats(deviceKey: string, success: boolean, responseTime: number): void { const existing = this.communicationStats.get(deviceKey); const now = Date.now(); if (!existing) { this.communicationStats.set(deviceKey, { successfulCommands: success ? 1 : 0, failedCommands: success ? 0 : 1, averageResponseTime: responseTime, lastSuccessfulCommand: success ? now : 0, lastFailedCommand: success ? undefined : now, }); } else { const totalCommands = existing.successfulCommands + existing.failedCommands; const newAverage = (existing.averageResponseTime * totalCommands + responseTime) / (totalCommands + 1); this.communicationStats.set(deviceKey, { successfulCommands: existing.successfulCommands + (success ? 1 : 0), failedCommands: existing.failedCommands + (success ? 0 : 1), averageResponseTime: newAverage, lastSuccessfulCommand: success ? now : existing.lastSuccessfulCommand, lastFailedCommand: success ? existing.lastFailedCommand : now, }); } } async sendCommand(deviceId: string, command: string): Promise { const startTime = Date.now(); const device = this.connectedDevices.get(deviceId); if (!device) { throw new Error('Device not connected'); } // Verify device is still connected try { const isConnected = await device.isConnected(); if (!isConnected) { this.connectedDevices.delete(deviceId); throw new Error('Device disconnected'); } } catch { throw new Error('Failed to verify connection'); } // Generate unique transaction ID to prevent Android null pointer issues const transactionId = `cmd_${Date.now()}_${Math.random().toString(36).substring(2, 9)}`; return new Promise(async (resolve, reject) => { let responseReceived = false; let subscription: any = null; let timeoutId: ReturnType | null = null; const cleanup = () => { if (timeoutId) { clearTimeout(timeoutId); timeoutId = null; } if (subscription) { try { subscription.remove(); } catch { // Ignore errors during cleanup - device may already be disconnected } subscription = null; } }; // Safe reject wrapper to handle null error messages (Android BLE crash fix) const safeReject = (error: any) => { if (responseReceived) return; // Extract error code (numeric or string) const errorCode = error?.errorCode || error?.code || 'BLE_ERROR'; // Ignore "Operation was cancelled" (code 2) - this is expected when we cleanup // This happens when subscription is removed but BLE still tries to send callback if (errorCode === 2 || errorCode === 'OperationCancelled' || (error?.message && error.message.includes('cancelled'))) { return; } responseReceived = true; cleanup(); // Track failed command const responseTime = Date.now() - startTime; const deviceKey = `${deviceId}`; this.updateCommunicationStats(deviceKey, false, responseTime); // Ensure error has a valid message (fixes Android NullPointerException) const errorMessage = error?.message || error?.reason || 'BLE operation failed'; reject(new Error(`[${errorCode}] ${errorMessage}`)); }; try { // Subscribe to notifications with explicit transactionId subscription = device.monitorCharacteristicForService( BLE_CONFIG.SERVICE_UUID, BLE_CONFIG.CHAR_UUID, (error, characteristic) => { // Wrap callback in try-catch to prevent crashes try { if (error) { const errCode = (error as any)?.errorCode; // errorCode 2 = "Operation was cancelled" — normal BLE cleanup, not a real error if (errCode === 2) { } else { // Notification error } safeReject(error); return; } if (characteristic?.value) { const decoded = base64.decode(characteristic.value); if (!responseReceived) { responseReceived = true; cleanup(); // Track successful command const responseTime = Date.now() - startTime; const deviceKey = `${deviceId}`; this.updateCommunicationStats(deviceKey, true, responseTime); resolve(decoded); } } } catch (callbackError: any) { safeReject(callbackError); } }, transactionId // Explicit transaction ID prevents Android null pointer ); // Send command const encoded = base64.encode(command); await device.writeCharacteristicWithResponseForService( BLE_CONFIG.SERVICE_UUID, BLE_CONFIG.CHAR_UUID, encoded ); // Timeout timeoutId = setTimeout(() => { if (!responseReceived) { safeReject(new Error('Command timeout')); } }, BLE_CONFIG.COMMAND_TIMEOUT); } catch (error: any) { safeReject(error); } }); } async getWiFiList(deviceId: string): Promise { // Step 1: Unlock device const unlockResponse = await this.sendCommand(deviceId, BLE_COMMANDS.PIN_UNLOCK); if (!unlockResponse.includes('ok')) { throw new Error('Failed to unlock device'); } // Step 2: Get WiFi list const listResponse = await this.sendCommand(deviceId, BLE_COMMANDS.GET_WIFI_LIST); // Parse response: "mac,XXXXXX|w|COUNT|SSID1,RSSI1|SSID2,RSSI2|..." const parts = listResponse.split('|'); if (parts.length < 3) { throw new Error('Invalid WiFi list response'); } const count = parseInt(parts[2], 10); if (count < 0) { if (count === -1) { throw new Error('WiFi scan in progress, please wait'); } if (count === -2) { return []; // No networks found } } // Use Map to deduplicate by SSID, keeping the strongest signal const networksMap = new Map(); for (let i = 3; i < parts.length; i++) { const [ssid, rssiStr] = parts[i].split(','); if (ssid && rssiStr) { const trimmedSsid = ssid.trim(); const rssi = parseInt(rssiStr, 10); // Skip empty SSIDs if (!trimmedSsid) continue; // Keep the one with strongest signal if duplicate const existing = networksMap.get(trimmedSsid); if (!existing || rssi > existing.rssi) { networksMap.set(trimmedSsid, { ssid: trimmedSsid, rssi: rssi, }); } } } // Convert to array and sort by signal strength (strongest first) return Array.from(networksMap.values()).sort((a, b) => b.rssi - a.rssi); } async setWiFi(deviceId: string, ssid: string, password: string): Promise { // Pre-validate credentials before BLE transmission // Check for characters that would break BLE protocol parsing if (ssid.includes('|') || ssid.includes(',')) { throw new Error('Network name contains invalid characters. Please select a different network.'); } if (password.includes('|')) { throw new Error('Password contains an invalid character (|). Please use a different password.'); } // Step 1: Unlock device let unlockResponse: string; try { unlockResponse = await this.sendCommand(deviceId, BLE_COMMANDS.PIN_UNLOCK); } catch (err: any) { if (err.message?.includes('timeout')) { throw new Error('Sensor not responding. Please move closer and try again.'); } throw new Error(`Cannot communicate with sensor: ${err.message}`); } if (!unlockResponse.includes('ok')) { throw new Error('Sensor authentication failed. Please try reconnecting.'); } // Step 1.5: Check if already connected to the target WiFi // This prevents "W|fail" when sensor uses old saved credentials try { const statusResponse = await this.sendCommand(deviceId, BLE_COMMANDS.GET_WIFI_STATUS); // Parse: "mac,XXXXXX|a|SSID,RSSI" or "mac,XXXXXX|a|,0" (not connected) const parts = statusResponse.split('|'); if (parts.length >= 3) { const [currentSsid] = parts[2].split(','); if (currentSsid && currentSsid.trim().toLowerCase() === ssid.toLowerCase()) { return true; } } } catch { // Ignore status check errors - continue with WiFi config } // Step 2: Set WiFi credentials const command = `${BLE_COMMANDS.SET_WIFI}|${ssid},${password}`; let setResponse: string; try { setResponse = await this.sendCommand(deviceId, command); } catch (err: any) { if (err.message?.includes('timeout')) { throw new Error('Sensor did not respond to WiFi config. Please try again.'); } throw new Error(`WiFi configuration failed: ${err.message}`); } // Parse response: "mac,XXXXXX|W|ok" or "mac,XXXXXX|W|fail" or other errors if (setResponse.includes('|W|ok')) { return true; } // WiFi config failed - check if sensor is still connected (using old credentials) if (setResponse.includes('|W|fail')) { try { const recheckResponse = await this.sendCommand(deviceId, BLE_COMMANDS.GET_WIFI_STATUS); const parts = recheckResponse.split('|'); if (parts.length >= 3) { const [currentSsid, rssiStr] = parts[2].split(','); const rssi = parseInt(rssiStr, 10); // If connected to target SSID (using old credentials), consider it success if (currentSsid && currentSsid.trim().toLowerCase() === ssid.toLowerCase() && rssi < 0) { return true; } } } catch { // Ignore recheck errors - password was rejected } // Password was definitely wrong throw new Error('WiFi password is incorrect. Please check and try again.'); } if (setResponse.includes('timeout') || setResponse.includes('Timeout')) { throw new Error('Sensor did not respond to WiFi config. Please try again.'); } // Check for specific error patterns if (setResponse.includes('not found') || setResponse.includes('no network')) { throw new Error('WiFi network not found. Make sure the sensor is within range of your router.'); } // Unknown error - provide helpful message throw new Error('WiFi configuration failed. Please try again or contact support.'); } async getCurrentWiFi(deviceId: string): Promise { // Step 1: Unlock device const unlockResponse = await this.sendCommand(deviceId, BLE_COMMANDS.PIN_UNLOCK); if (!unlockResponse.includes('ok')) { throw new Error('Failed to unlock device'); } // Step 2: Get current WiFi status const statusResponse = await this.sendCommand(deviceId, BLE_COMMANDS.GET_WIFI_STATUS); // Parse response: "mac,XXXXXX|a|SSID,RSSI" or "mac,XXXXXX|a|,0" (not connected) const parts = statusResponse.split('|'); if (parts.length < 3) { return null; } const [ssid, rssiStr] = parts[2].split(','); if (!ssid || ssid.trim() === '') { return null; // Not connected } return { ssid: ssid.trim(), rssi: parseInt(rssiStr, 10), connected: true, }; } async rebootDevice(deviceId: string): Promise { // Step 1: Unlock device await this.sendCommand(deviceId, BLE_COMMANDS.PIN_UNLOCK); // Step 2: Reboot (device will disconnect) await this.sendCommand(deviceId, BLE_COMMANDS.REBOOT); // Remove from connected devices this.connectedDevices.delete(deviceId); } /** * Calculate WiFi signal quality from RSSI value */ private getWiFiSignalQuality(rssi: number | null): WiFiSignalQuality { if (rssi === null) return WiFiSignalQuality.UNKNOWN; if (rssi >= -50) return WiFiSignalQuality.EXCELLENT; if (rssi >= -60) return WiFiSignalQuality.GOOD; if (rssi >= -70) return WiFiSignalQuality.FAIR; return WiFiSignalQuality.WEAK; } /** * Calculate overall sensor health status */ private calculateOverallHealth( connectionStatus: 'online' | 'warning' | 'offline', wifiQuality: WiFiSignalQuality, commHealth: CommunicationHealth ): SensorHealthStatus { // Critical: offline or very poor communication if (connectionStatus === 'offline') { return SensorHealthStatus.CRITICAL; } // Calculate communication success rate const totalCommands = commHealth.successfulCommands + commHealth.failedCommands; const successRate = totalCommands > 0 ? commHealth.successfulCommands / totalCommands : 1; // Poor: warning status or high failure rate or weak WiFi if ( connectionStatus === 'warning' || successRate < 0.5 || wifiQuality === WiFiSignalQuality.WEAK ) { return SensorHealthStatus.POOR; } // Fair: moderate success rate or fair WiFi if (successRate < 0.8 || wifiQuality === WiFiSignalQuality.FAIR) { return SensorHealthStatus.FAIR; } // Good: high success rate and good WiFi if (successRate >= 0.9 && wifiQuality === WiFiSignalQuality.GOOD) { return SensorHealthStatus.GOOD; } // Excellent: perfect or near-perfect performance return SensorHealthStatus.EXCELLENT; } /** * Get sensor health metrics for a specific device * Attempts to connect to the device via BLE and query its WiFi status */ async getSensorHealth(wellId: number, mac: string): Promise { try { const deviceKey = `WP_${wellId}_${mac.slice(-6).toLowerCase()}`; // Try to find device via BLE scan const devices = await this.scanDevices(); const device = devices.find((d) => d.wellId === wellId && d.mac === mac); if (!device) { // Device not found via BLE - return null or cached metrics return this.sensorHealthMetrics.get(deviceKey) || null; } // Connect to device const connected = await this.connectDevice(device.id); if (!connected) { return this.sensorHealthMetrics.get(deviceKey) || null; } // Get WiFi status let wifiStatus: WiFiStatus | null = null; try { wifiStatus = await this.getCurrentWiFi(device.id); } catch { // WiFi status query failed - continue with partial data } // Get communication stats const commStats = this.communicationStats.get(deviceKey) || { successfulCommands: 0, failedCommands: 0, averageResponseTime: 0, lastSuccessfulCommand: Date.now(), }; // Calculate metrics const now = Date.now(); const lastSeenMinutesAgo = 0; // Just connected const wifiRssi = wifiStatus?.rssi || null; const wifiQuality = this.getWiFiSignalQuality(wifiRssi); const connectionStatus: 'online' | 'warning' | 'offline' = lastSeenMinutesAgo < 5 ? 'online' : lastSeenMinutesAgo < 60 ? 'warning' : 'offline'; const overallHealth = this.calculateOverallHealth(connectionStatus, wifiQuality, commStats); // Get connection state const connState = this.connectionStates.get(device.id); const metrics: SensorHealthMetrics = { deviceId: device.id, deviceName: deviceKey, overallHealth, connectionStatus, lastSeen: new Date(), lastSeenMinutesAgo, wifiSignalQuality: wifiQuality, wifiRssi, wifiSsid: wifiStatus?.ssid || null, wifiConnected: wifiStatus?.connected || false, communication: commStats, bleRssi: device.rssi, bleConnectionAttempts: 1, bleConnectionFailures: 0, lastHealthCheck: now, lastBleConnection: connState?.connectedAt, }; // Cache metrics this.sensorHealthMetrics.set(deviceKey, metrics); // Disconnect after health check await this.disconnectDevice(device.id); return metrics; } catch { return null; } } /** * Get all cached sensor health metrics */ getAllSensorHealth(): Map { return new Map(this.sensorHealthMetrics); } /** * Cleanup all BLE connections and state * Should be called on app logout to properly release resources */ async cleanup(): Promise { // Stop any ongoing scan if (this.scanning) { this.stopScan(); } // Cancel all pending reconnects for (const timer of this.reconnectTimers.values()) { clearTimeout(timer); } this.reconnectTimers.clear(); // Remove all disconnection subscriptions for (const subscription of this.disconnectionSubscriptions.values()) { try { subscription.remove(); } catch { // Ignore errors during cleanup } } this.disconnectionSubscriptions.clear(); // Clear reconnect states this.reconnectStates.clear(); // Disconnect all connected devices const deviceIds = Array.from(this.connectedDevices.keys()); for (const deviceId of deviceIds) { try { await this.disconnectDevice(deviceId); } catch { // Continue cleanup even if one device fails } } // Clear the maps and sets this.connectedDevices.clear(); this.connectionStates.clear(); this.connectingDevices.clear(); // Clear health monitoring data this.sensorHealthMetrics.clear(); this.communicationStats.clear(); // Clear event listeners this.eventListeners = []; } /** * Bulk disconnect multiple devices * Useful for cleanup or batch operations */ async bulkDisconnect(deviceIds: string[]): Promise { const results: BulkOperationResult[] = []; for (const deviceId of deviceIds) { const device = this.connectedDevices.get(deviceId); const deviceName = device?.name || deviceId; try { await this.disconnectDevice(deviceId); results.push({ deviceId, deviceName, success: true, }); } catch (error: any) { results.push({ deviceId, deviceName, success: false, error: error?.message || 'Disconnect failed', }); } } return results; } /** * Bulk reboot multiple devices * Useful for applying settings changes to multiple sensors */ async bulkReboot(deviceIds: string[]): Promise { const results: BulkOperationResult[] = []; for (const deviceId of deviceIds) { const device = this.connectedDevices.get(deviceId); const deviceName = device?.name || deviceId; try { // Connect if not already connected if (!this.isDeviceConnected(deviceId)) { const connected = await this.connectDevice(deviceId); if (!connected) { throw new Error('Could not connect to device'); } } // Reboot await this.rebootDevice(deviceId); results.push({ deviceId, deviceName, success: true, }); } catch (error: any) { results.push({ deviceId, deviceName, success: false, error: error?.message || 'Reboot failed', }); } } return results; } /** * Bulk WiFi configuration for multiple devices * Configures all devices with the same WiFi credentials sequentially */ async bulkSetWiFi( devices: { id: string; name: string }[], ssid: string, password: string, onProgress?: (deviceId: string, status: 'connecting' | 'configuring' | 'rebooting' | 'success' | 'error', error?: string) => void ): Promise { const results: BulkWiFiResult[] = []; for (const device of devices) { const { id: deviceId, name: deviceName } = device; try { // Step 1: Connect onProgress?.(deviceId, 'connecting'); const connected = await this.connectDevice(deviceId); if (!connected) { throw new Error('Could not connect to device'); } // Step 2: Set WiFi onProgress?.(deviceId, 'configuring'); await this.setWiFi(deviceId, ssid, password); // Step 3: Reboot onProgress?.(deviceId, 'rebooting'); await this.rebootDevice(deviceId); // Success onProgress?.(deviceId, 'success'); results.push({ deviceId, deviceName, success: true, }); } catch (error: any) { const errorMessage = error?.message || 'WiFi configuration failed'; onProgress?.(deviceId, 'error', errorMessage); results.push({ deviceId, deviceName, success: false, error: errorMessage, }); } } return results; } // ==================== RECONNECT FUNCTIONALITY ==================== /** * Set reconnect configuration */ setReconnectConfig(config: Partial): void { this.reconnectConfig = { ...this.reconnectConfig, ...config }; } /** * Get current reconnect configuration */ getReconnectConfig(): ReconnectConfig { return { ...this.reconnectConfig }; } /** * Enable auto-reconnect for a device * Monitors the device for disconnection and attempts to reconnect */ enableAutoReconnect(deviceId: string, deviceName?: string): void { const device = this.connectedDevices.get(deviceId); if (!device) { return; } // Initialize reconnect state this.reconnectStates.set(deviceId, { deviceId, deviceName: deviceName || device.name || deviceId, attempts: 0, lastAttemptTime: 0, isReconnecting: false, }); // Set up disconnection monitor this.setupDisconnectionMonitor(deviceId, deviceName || device.name || deviceId); } /** * Set up a monitor for device disconnection */ private setupDisconnectionMonitor(deviceId: string, deviceName: string): void { // Remove any existing subscription const existingSub = this.disconnectionSubscriptions.get(deviceId); if (existingSub) { try { existingSub.remove(); } catch { // Ignore removal errors } } const device = this.connectedDevices.get(deviceId); if (!device) { return; } // Monitor for disconnection const subscription = device.onDisconnected((error, disconnectedDevice) => { // Clean up device from connected map this.connectedDevices.delete(deviceId); this.updateConnectionState(deviceId, BLEConnectionState.DISCONNECTED, deviceName); this.emitEvent(deviceId, 'disconnected', { unexpected: true, error: error?.message }); // Check if auto-reconnect is enabled and should attempt if (this.reconnectConfig.enabled) { const state = this.reconnectStates.get(deviceId); if (state && state.attempts < this.reconnectConfig.maxAttempts) { this.scheduleReconnect(deviceId, deviceName); } } }); this.disconnectionSubscriptions.set(deviceId, subscription); } /** * Schedule a reconnection attempt */ private scheduleReconnect(deviceId: string, deviceName: string): void { const state = this.reconnectStates.get(deviceId); if (!state) return; // Calculate delay with exponential backoff const delay = Math.min( this.reconnectConfig.delayMs * Math.pow(this.reconnectConfig.backoffMultiplier, state.attempts), this.reconnectConfig.maxDelayMs ); const nextAttemptTime = Date.now() + delay; // Update state this.reconnectStates.set(deviceId, { ...state, nextAttemptTime, isReconnecting: true, }); // Emit event for UI updates this.emitEvent(deviceId, 'state_changed', { state: BLEConnectionState.CONNECTING, reconnecting: true, nextAttemptIn: delay, }); // Schedule reconnect attempt const timer = setTimeout(() => { this.attemptReconnect(deviceId, deviceName); }, delay); // Store timer for potential cancellation this.reconnectTimers.set(deviceId, timer); } /** * Attempt to reconnect to a device */ private async attemptReconnect(deviceId: string, deviceName: string): Promise { const state = this.reconnectStates.get(deviceId); if (!state) return; // Update attempt count const newAttempts = state.attempts + 1; this.reconnectStates.set(deviceId, { ...state, attempts: newAttempts, lastAttemptTime: Date.now(), isReconnecting: true, }); try { const success = await this.connectDevice(deviceId); if (success) { // Reset reconnect state on success this.reconnectStates.set(deviceId, { deviceId, deviceName, attempts: 0, lastAttemptTime: Date.now(), isReconnecting: false, }); // Re-enable monitoring this.setupDisconnectionMonitor(deviceId, deviceName); this.emitEvent(deviceId, 'ready', { reconnected: true }); } else { throw new Error('Connection failed'); } } catch (error: any) { const errorMessage = error?.message || 'Reconnection failed'; this.reconnectStates.set(deviceId, { ...state, attempts: newAttempts, lastAttemptTime: Date.now(), isReconnecting: newAttempts < this.reconnectConfig.maxAttempts, lastError: errorMessage, }); // Try again if under max attempts if (newAttempts < this.reconnectConfig.maxAttempts) { this.scheduleReconnect(deviceId, deviceName); } else { // Max attempts reached - emit failure event this.updateConnectionState(deviceId, BLEConnectionState.ERROR, deviceName, 'Max reconnection attempts reached'); this.emitEvent(deviceId, 'connection_failed', { error: 'Max reconnection attempts reached', reconnectFailed: true, }); } } } /** * Disable auto-reconnect for a device */ disableAutoReconnect(deviceId: string): void { // Cancel any pending reconnect this.cancelReconnect(deviceId); // Remove reconnect state this.reconnectStates.delete(deviceId); // Remove disconnection subscription const subscription = this.disconnectionSubscriptions.get(deviceId); if (subscription) { try { subscription.remove(); } catch { // Ignore removal errors } this.disconnectionSubscriptions.delete(deviceId); } } /** * Cancel a pending reconnect attempt */ cancelReconnect(deviceId: string): void { const timer = this.reconnectTimers.get(deviceId); if (timer) { clearTimeout(timer); this.reconnectTimers.delete(deviceId); } const state = this.reconnectStates.get(deviceId); if (state && state.isReconnecting) { this.reconnectStates.set(deviceId, { ...state, isReconnecting: false, nextAttemptTime: undefined, }); } } /** * Manually trigger a reconnect attempt * Resets the attempt counter and tries immediately */ async manualReconnect(deviceId: string): Promise { // Cancel any pending auto-reconnect this.cancelReconnect(deviceId); const state = this.reconnectStates.get(deviceId); const deviceName = state?.deviceName || this.connectionStates.get(deviceId)?.deviceName || deviceId; // Reset attempts for manual reconnect this.reconnectStates.set(deviceId, { deviceId, deviceName, attempts: 0, lastAttemptTime: Date.now(), isReconnecting: true, }); try { const success = await this.connectDevice(deviceId); if (success) { this.reconnectStates.set(deviceId, { deviceId, deviceName, attempts: 0, lastAttemptTime: Date.now(), isReconnecting: false, }); // Set up monitoring if auto-reconnect is enabled if (this.reconnectConfig.enabled) { this.setupDisconnectionMonitor(deviceId, deviceName); } } return success; } catch (error: any) { this.reconnectStates.set(deviceId, { deviceId, deviceName, attempts: 1, lastAttemptTime: Date.now(), isReconnecting: false, lastError: error?.message || 'Reconnection failed', }); return false; } } /** * Get reconnect state for a device */ getReconnectState(deviceId: string): ReconnectState | undefined { return this.reconnectStates.get(deviceId); } /** * Get all reconnect states */ getAllReconnectStates(): Map { return new Map(this.reconnectStates); } }