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meshcore-open/lib/helpers/cayenne_lpp.dart
T
Winston Lowe 52a578777d Refactor AppBarTitle widget to remove unused style parameter; update related screens to reflect changes 
Improve SNR handling by adding validation for spreading factor range in snrUiFromSNR function
Update contact handling in MeshCoreConnector to fix variable naming and improve readability
Stop parsing unsupported LPP types in CayenneLpp to avoid misalignment
2026-02-15 19:38:34 -08:00

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import 'dart:typed_data';
import 'package:meshcore_open/utils/app_logger.dart';
import '../connector/meshcore_protocol.dart';
class CayenneLpp {
static const int lppDigitalInput = 0; // 1 byte
static const int lppDigitalOutput = 1; // 1 byte
static const int lppAnalogInput = 2; // 2 bytes, 0.01 signed
static const int lppAnalogOutput = 3; // 2 bytes, 0.01 signed
static const int lppGenericSensor = 100; // 4 bytes, unsigned
static const int lppLuminosity = 101; // 2 bytes, 1 lux unsigned
static const int lppPresence = 102; // 1 byte, bool
static const int lppTemperature = 103; // 2 bytes, 0.1°C signed
static const int lppRelativeHumidity = 104; // 1 byte, 0.5% unsigned
static const int lppAccelerometer = 113; // 2 bytes per axis, 0.001G
static const int lppBarometricPressure = 115; // 2 bytes 0.1hPa unsigned
static const int lppVoltage = 116; // 2 bytes 0.01V unsigned
static const int lppCurrent = 117; // 2 bytes 0.001A unsigned
static const int lppFrequency = 118; // 4 bytes 1Hz unsigned
static const int lppPercentage = 120; // 1 byte 1-100% unsigned
static const int lppAltitude = 121; // 2 byte 1m signed
static const int lppConcentration = 125; // 2 bytes, 1 ppm unsigned
static const int lppPower = 128; // 2 byte, 1W, unsigned
static const int lppDistance = 130; // 4 byte, 0.001m, unsigned
static const int lppEnergy = 131; // 4 byte, 0.001kWh, unsigned
static const int lppDirection = 132; // 2 bytes, 1deg, unsigned
static const int lppUnixTime = 133; // 4 bytes, unsigned
static const int lppGyrometer = 134; // 2 bytes per axis, 0.01 °/s
static const int lppColour = 135; // 1 byte per RGB Color
static const int lppGps =
136; // 3 byte lon/lat 0.0001 °, 3 bytes alt 0.01 meter
static const int lppSwitch = 142; // 1 byte, 0/1
static const int lppPolyline =
240; // 1 byte size, 1 byte delta factor, 3 byte lon/lat 0.0001° * factor, n (size-8) bytes deltas
final BufferWriter _writer = BufferWriter();
Uint8List toBytes() {
return _writer.toBytes();
}
void addDigitalInput(int channel, int value) {
_writer.writeByte(channel);
_writer.writeByte(lppDigitalInput);
_writer.writeByte(value);
}
void addTemperature(int channel, double value) {
_writer.writeByte(channel);
_writer.writeByte(lppTemperature);
final val = (value * 10).toInt();
_writer.writeBytes(_int16ToBE(val));
}
void addVoltage(int channel, double value) {
_writer.writeByte(channel);
_writer.writeByte(lppVoltage);
final val = (value * 100).toInt();
_writer.writeBytes(_int16ToBE(val));
}
void addGps(int channel, double lat, double lon, double alt) {
_writer.writeByte(channel);
_writer.writeByte(lppGps);
_writer.writeBytes(_int24ToBE((lat * 10000).toInt()));
_writer.writeBytes(_int24ToBE((lon * 10000).toInt()));
_writer.writeBytes(_int24ToBE((alt * 100).toInt()));
}
Uint8List _int16ToBE(int value) {
final bytes = Uint8List(2);
final data = ByteData.view(bytes.buffer);
data.setInt16(0, value, Endian.big);
return bytes;
}
Uint8List _int24ToBE(int value) {
final bytes = Uint8List(3);
bytes[0] = (value >> 16) & 0xFF;
bytes[1] = (value >> 8) & 0xFF;
bytes[2] = value & 0xFF;
return bytes;
}
static List<Map<String, dynamic>> parse(Uint8List bytes) {
final buffer = BufferReader(bytes);
final telemetry = <Map<String, dynamic>>[];
try {
while (buffer.remaining >= 2) {
final channel = buffer.readUInt8();
final type = buffer.readUInt8();
if (channel == 0 && type == 0) {
break;
}
switch (type) {
case lppGenericSensor:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readUInt32BE(),
});
break;
case lppLuminosity:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readUInt16BE(),
});
break;
case lppPresence:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readUInt8(),
});
break;
case lppTemperature:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readInt16BE() / 10,
});
break;
case lppRelativeHumidity:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readUInt8() / 2,
});
break;
case lppBarometricPressure:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readUInt16BE() / 10,
});
break;
case lppVoltage:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readInt16BE() / 100,
});
break;
case lppCurrent:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readInt16BE() / 1000,
});
break;
case lppPercentage:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readUInt8(),
});
break;
case lppConcentration:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readUInt16BE(),
});
break;
case lppPower:
telemetry.add({
'channel': channel,
'type': type,
'value': buffer.readUInt16BE(),
});
break;
case lppGps:
telemetry.add({
'channel': channel,
'type': type,
'value': {
'latitude': buffer.readInt24BE() / 10000,
'longitude': buffer.readInt24BE() / 10000,
'altitude': buffer.readInt24BE() / 100,
},
});
break;
default:
return telemetry;
}
}
return telemetry;
} catch (e) {
// Handle parsing errors, possibly due to malformed data
appLogger.error('Error parsing Cayenne LPP data: $e');
// Return any telemetry parsed so far to preserve partial data
return telemetry;
}
}
static List<Map<String, dynamic>> parseByChannel(Uint8List bytes) {
final buffer = BufferReader(bytes);
final Map<int, Map<String, dynamic>> channels = {};
try {
while (buffer.remaining >= 2) {
final channel = buffer.readUInt8();
final type = buffer.readUInt8();
// Optional: stop on padding (00 00)
if (channel == 0 && type == 0) {
break;
}
final channelData = channels.putIfAbsent(
channel,
() => {'channel': channel, 'values': <String, dynamic>{}},
);
switch (type) {
case lppGenericSensor:
channelData['values']['generic'] = buffer.readUInt32BE();
break;
case lppLuminosity:
channelData['values']['luminosity'] = buffer.readUInt16BE();
break;
case lppPresence:
channelData['values']['presence'] = buffer.readUInt8() != 0;
break;
case lppTemperature:
channelData['values']['temperature'] = buffer.readInt16BE() / 10.0;
break;
case lppRelativeHumidity:
channelData['values']['humidity'] = buffer.readUInt8() / 2.0;
break;
case lppBarometricPressure:
channelData['values']['pressure'] = buffer.readUInt16BE() / 10.0;
break;
case lppVoltage:
channelData['values']['voltage'] = buffer.readInt16BE() / 100.0;
break;
case lppCurrent:
channelData['values']['current'] = buffer.readInt16BE() / 1000.0;
break;
case lppPercentage:
channelData['values']['percentage'] = buffer.readUInt8();
break;
case lppConcentration:
channelData['values']['concentration'] = buffer.readUInt16BE();
break;
case lppPower:
channelData['values']['power'] = buffer.readUInt16BE();
break;
case lppGps:
channelData['values']['gps'] = {
'latitude': buffer.readInt24BE() / 10000.0,
'longitude': buffer.readInt24BE() / 10000.0,
'altitude': buffer.readInt24BE() / 100.0,
};
break;
// Add more types as needed...
default:
//Stopped parsing to avoid misalignment
return channels.values.toList();
}
}
final List<Map<String, dynamic>> channelsOut = channels.values.toList();
channelsOut.sort((a, b) => a['channel'].compareTo(b['channel']));
return channelsOut;
} catch (e) {
// Handle parsing errors, possibly due to malformed data
appLogger.error('Error parsing Cayenne LPP data: $e');
return <
Map<String, dynamic>
>[]; // Return an empty list on error to avoid crashing the app
}
}
}
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