import 'dart:async'; import 'package:flutter/foundation.dart'; import 'package:flutter/material.dart'; import 'package:provider/provider.dart'; import '../l10n/l10n.dart'; import '../models/contact.dart'; import '../models/path_selection.dart'; import '../models/app_settings.dart'; import '../connector/meshcore_connector.dart'; import '../connector/meshcore_protocol.dart'; import '../services/app_settings_service.dart'; import '../services/repeater_command_service.dart'; import '../widgets/path_management_dialog.dart'; import '../helpers/cayenne_lpp.dart'; import '../utils/battery_utils.dart'; class TelemetryScreen extends StatefulWidget { final Contact repeater; final String password; const TelemetryScreen({ super.key, required this.repeater, required this.password, }); @override State createState() => _TelemetryScreenState(); } class _TelemetryScreenState extends State { static const int _statusPayloadOffset = 8; static const int _statusStatsSize = 52; static const int _statusResponseBytes = _statusPayloadOffset + _statusStatsSize; Uint8List _tagData = Uint8List(4); bool _isLoading = false; bool _isLoaded = false; bool _hasData = false; Timer? _statusTimeout; StreamSubscription? _frameSubscription; RepeaterCommandService? _commandService; PathSelection? _pendingStatusSelection; List>? _parsedTelemetry; @override void initState() { super.initState(); final connector = Provider.of(context, listen: false); _commandService = RepeaterCommandService(connector); _setupMessageListener(); _loadTelemetry(); _hasData = false; } void _setupMessageListener() { final connector = Provider.of(context, listen: false); // Listen for incoming text messages from the repeater _frameSubscription = connector.receivedFrames.listen((frame) { if (frame.isEmpty) return; if (frame[0] == respCodeSent) { _tagData = frame.sublist(2, 6); } // Check if it's a binary response if (frame[0] == pushCodeBinaryResponse && listEquals(frame.sublist(2, 6), _tagData)) { if (!mounted) return; _handleStatusResponse(frame.sublist(6)); } }); } void _handleStatusResponse(Uint8List frame) { final parsedTelemetry = CayenneLpp.parseByChannel(frame); final batteryMv = _extractTelemetryBatteryMillivolts(parsedTelemetry); if (batteryMv != null) { final connector = Provider.of(context, listen: false); connector.updateRepeaterBatterySnapshot( widget.repeater.publicKeyHex, batteryMv, source: 'telemetry', ); } if (!mounted) return; setState(() { _parsedTelemetry = parsedTelemetry; }); ScaffoldMessenger.of(context).showSnackBar( SnackBar( content: Text(context.l10n.telemetry_receivedData), backgroundColor: Colors.green, ), ); _statusTimeout?.cancel(); if (!mounted) return; setState(() { _isLoading = false; _isLoaded = true; _hasData = true; }); } Contact _resolveRepeater(MeshCoreConnector connector) { return connector.contacts.firstWhere( (c) => c.publicKeyHex == widget.repeater.publicKeyHex, orElse: () => widget.repeater, ); } Future _loadTelemetry() async { if (_commandService == null) return; setState(() { _isLoading = true; _isLoaded = false; }); try { final connector = Provider.of(context, listen: false); final repeater = _resolveRepeater(connector); final selection = await connector.preparePathForContactSend(repeater); _pendingStatusSelection = selection; final frame = buildSendBinaryReq( repeater.publicKey, payload: Uint8List.fromList([reqTypeGetTelemetry]), ); await connector.sendFrame(frame); final pathLengthValue = selection.useFlood ? -1 : selection.hopCount; var messageBytes = frame.length >= _statusResponseBytes ? frame.length : _statusResponseBytes; if (messageBytes < maxFrameSize) { messageBytes = maxFrameSize; } final timeoutMs = connector.calculateTimeout( pathLength: pathLengthValue, messageBytes: messageBytes, ); _statusTimeout?.cancel(); _statusTimeout = Timer(Duration(milliseconds: timeoutMs), () { if (!mounted) return; setState(() { _isLoading = false; _isLoaded = false; }); ScaffoldMessenger.of(context).showSnackBar( SnackBar( content: Text(context.l10n.telemetry_requestTimeout), backgroundColor: Colors.red, ), ); _recordStatusResult(false); }); } catch (e) { if (mounted) { setState(() { _isLoading = false; _isLoaded = false; }); ScaffoldMessenger.of(context).showSnackBar( SnackBar( content: Text(context.l10n.telemetry_errorLoading(e.toString())), backgroundColor: Colors.red, ), ); } } } void _recordStatusResult(bool success) { final selection = _pendingStatusSelection; if (selection == null) return; final connector = Provider.of(context, listen: false); final repeater = _resolveRepeater(connector); connector.recordRepeaterPathResult(repeater, selection, success, null); _pendingStatusSelection = null; } @override void dispose() { _frameSubscription?.cancel(); _commandService?.dispose(); _statusTimeout?.cancel(); super.dispose(); } @override Widget build(BuildContext context) { final l10n = context.l10n; final connector = context.watch(); final settings = context.watch().settings; final isImperialUnits = settings.unitSystem == UnitSystem.imperial; final repeater = _resolveRepeater(connector); final isFloodMode = repeater.pathOverride == -1; return Scaffold( appBar: AppBar( title: Column( crossAxisAlignment: CrossAxisAlignment.start, mainAxisSize: MainAxisSize.min, children: [ Text( l10n.repeater_telemetry, style: const TextStyle(fontSize: 18, fontWeight: FontWeight.bold), ), Text( repeater.name, style: const TextStyle( fontSize: 14, fontWeight: FontWeight.normal, ), ), ], ), centerTitle: false, actions: [ PopupMenuButton( icon: Icon(isFloodMode ? Icons.waves : Icons.route), tooltip: l10n.repeater_routingMode, onSelected: (mode) async { if (mode == 'flood') { await connector.setPathOverride(repeater, pathLen: -1); } else { await connector.setPathOverride(repeater, pathLen: null); } }, itemBuilder: (context) => [ PopupMenuItem( value: 'auto', child: Row( children: [ Icon( Icons.auto_mode, size: 20, color: !isFloodMode ? Theme.of(context).primaryColor : null, ), const SizedBox(width: 8), Text( l10n.repeater_autoUseSavedPath, style: TextStyle( fontWeight: !isFloodMode ? FontWeight.bold : FontWeight.normal, ), ), ], ), ), PopupMenuItem( value: 'flood', child: Row( children: [ Icon( Icons.waves, size: 20, color: isFloodMode ? Theme.of(context).primaryColor : null, ), const SizedBox(width: 8), Text( l10n.repeater_forceFloodMode, style: TextStyle( fontWeight: isFloodMode ? FontWeight.bold : FontWeight.normal, ), ), ], ), ), ], ), IconButton( icon: const Icon(Icons.timeline), tooltip: l10n.repeater_pathManagement, onPressed: () => PathManagementDialog.show(context, contact: repeater), ), IconButton( icon: _isLoading ? const SizedBox( width: 20, height: 20, child: CircularProgressIndicator(strokeWidth: 2), ) : const Icon(Icons.refresh), onPressed: _isLoading ? null : _loadTelemetry, tooltip: l10n.repeater_refresh, ), ], ), body: SafeArea( top: false, child: RefreshIndicator( onRefresh: _loadTelemetry, child: ListView( padding: const EdgeInsets.all(16), children: [ if (!_isLoaded && !_hasData && (_parsedTelemetry == null || _parsedTelemetry!.isEmpty)) Center( child: Text( l10n.telemetry_noData, style: const TextStyle(fontSize: 16, color: Colors.grey), ), ), if ((_isLoaded || _hasData) && _parsedTelemetry != null && _parsedTelemetry!.isNotEmpty) for (final entry in _parsedTelemetry ?? []) _buildChannelInfoCard( entry['values'], l10n.telemetry_channelTitle(entry['channel']), entry['channel'], isImperialUnits, ), ], ), ), ), ); } Widget _buildChannelInfoCard( Map channelData, String title, int channel, bool isImperialUnits, ) { final l10n = context.l10n; return Card( child: Padding( padding: const EdgeInsets.all(16), child: Column( crossAxisAlignment: CrossAxisAlignment.start, children: [ Row( children: [ Icon( Icons.info_outline, color: Theme.of(context).textTheme.headlineSmall?.color, ), const SizedBox(width: 8), Text( title, style: const TextStyle( fontSize: 18, fontWeight: FontWeight.bold, ), ), ], ), const Divider(), for (final entry in channelData.entries) if (entry.key == 'voltage' && channel == 1) _buildInfoRow( l10n.telemetry_batteryLabel, _batteryText(entry.value), ) else if (entry.key == 'voltage') _buildInfoRow( l10n.telemetry_voltageLabel, l10n.telemetry_voltageValue(entry.value.toString()), ) else if (entry.key == 'temperature' && channel == 1) _buildInfoRow( l10n.telemetry_mcuTemperatureLabel, _temperatureText(entry.value, isImperialUnits), ) else if (entry.key == 'temperature') _buildInfoRow( l10n.telemetry_temperatureLabel, _temperatureText(entry.value, isImperialUnits), ) else if (entry.key == 'current' && channel == 1) _buildInfoRow( l10n.telemetry_currentLabel, l10n.telemetry_currentValue(entry.value.toString()), ) else _buildInfoRow(entry.key, entry.value.toString()), ], ), ), ); } Widget _buildInfoRow(String label, String value) { return Padding( padding: const EdgeInsets.symmetric(vertical: 6), child: Row( crossAxisAlignment: CrossAxisAlignment.start, children: [ SizedBox( width: 130, child: Text( label, style: TextStyle( color: Colors.grey[600], fontWeight: FontWeight.w500, ), ), ), Expanded( child: Text( value, style: const TextStyle(fontWeight: FontWeight.w400), ), ), ], ), ); } int? _extractTelemetryBatteryMillivolts(List> entries) { for (final entry in entries) { if (entry['channel'] != 1) continue; final values = entry['values']; if (values is! Map) continue; final voltage = values['voltage']; if (voltage is num) return (voltage.toDouble() * 1000).round(); } return null; } String _batteryText(double? telemetryVolts) { final l10n = context.l10n; final connector = context.watch(); final batteryMv = connector.getRepeaterBatteryMillivolts(widget.repeater.publicKeyHex) ?? (telemetryVolts == null ? null : (telemetryVolts * 1000).round()); if (batteryMv == null) return l10n.common_notAvailable; final chemistry = _batteryChemistry(); final percent = estimateBatteryPercentFromMillivolts(batteryMv, chemistry); final volts = (batteryMv / 1000).toStringAsFixed(2); return l10n.telemetry_batteryValue(percent, volts); } String _batteryChemistry() { final settingsService = context.read(); return settingsService.batteryChemistryForRepeater( widget.repeater.publicKeyHex, ); } String _temperatureText(double? tempC, bool isImperialUnits) { final l10n = context.l10n; if (tempC == null) return l10n.common_notAvailable; final tempF = (tempC * 9 / 5) + 32; if (isImperialUnits) { return '${tempF.toStringAsFixed(1)}°F'; } return '${tempC.toStringAsFixed(1)}°C'; } }