@ncd-io/node-red-enterprise-sensors
Version:
You can install this library through the Palette Manager in Node-Red's UI.
257 lines (246 loc) • 6.38 kB
JavaScript
const { toMac, signInt, msbLsb } = require('../utils');
// --- 1. DEFINE LOCAL FUNCTIONS ---
// These are defined as local variables so they can call each other easily.
module.exports = (globalDevices) => {
const get_write_buffer_size = (firmware) => {
return 16;
};
const get_config_map = (firmware) => {
console.log('Generating sync map for firmware version', firmware);
return {
"core_version": {
"read_index": 3,
"descriptions": {
"title": "Core Version",
"main_caption": "The version of the core communication stack."
},
"validator": {
"type": "uint8"
},
"tags": [
"system"
]
},
"firmware_version": {
"read_index": 4,
"descriptions": {
"title": "Firmware Version",
"main_caption": "The application-specific firmware version."
},
"validator": {
"type": "uint8"
},
"tags": [
"system"
]
},
"sensor_type": {
"read_index": 5,
"descriptions": {
"title": "Sensor Type",
"main_caption": "The hardware identifier for the specific sensor model."
},
"validator": {
"type": "uint16be"
},
"tags": [
"system"
]
},
"tx_lifetime_counter": {
"read_index": 7,
"descriptions": {
"title": "Sampling Interval",
"main_caption": "Set how often will the sensor transmit measurement data. Note: For this sensor, this value functions as the sampling interval rather than a traditional delay.",
"sub_caption": "Default value: 20 milliseconds."
},
"validator": {
"type": "uint32be"
},
"tags": [
"diagnostics"
]
},
"hardware_id": {
"read_index": 11,
"length": 3,
"descriptions": {
"title": "Hardware ID",
"main_caption": "A unique 3-byte hardware identifier."
},
"validator": {
"type": "buffer"
},
"tags": [
"system"
]
},
"network_id": {
"read_index": 14,
"write_index": 3,
"length": 2,
"descriptions": {
"title": "Network ID",
"main_caption": ""
},
"default_value": "7fff",
"validator": {
"type": "hex",
"length": 4
},
"html_id": "pan_id",
"tags": [
"communications"
]
},
"destination_address": {
"read_index": 16,
"write_index": 5,
"length": 4,
"descriptions": {
"title": "Destination Address",
"main_caption": ""
},
"default_value": "0000ffff",
"validator": {
"type": "mac",
"length": 8
},
"html_id": "destination",
"tags": [
"communications"
]
},
"node_id": {
"read_index": 20,
"write_index": 9,
"descriptions": {
"title": "Node ID",
"main_caption": ""
},
"default_value": "0",
"validator": {
"type": "uint8",
"min": 0,
"max": 255,
"generated": true
},
"html_id": "node_id",
"tags": [
"generic"
]
},
"report_rate": {
"read_index": 21,
"write_index": 10,
"descriptions": {
"title": "Delay",
"main_caption": ""
},
"default_value": 3,
"validator": {
"type": "uint32be"
},
"html_id": "delay"
},
"boot_time": {
"read_index": 25,
"write_index": 15,
"descriptions": {
"title": "Sensor Boot Time",
"main_caption": "This value represents the number of milliseconds to wait after applying power to the sensor before taking a reading."
},
"default_value": 10,
"validator": {
"type": "uint8"
},
"html_id": "sensor_boot_time_78"
}
};
};
const sync_parse = (rep_buffer) => {
let response = {
'human_readable': {},
'machine_values': {}
};
// Get the map based on the sensor type byte
const sync_map = get_config_map(rep_buffer[4]);
for (const [key, config] of Object.entries(sync_map)) {
// Destructure 'type' from inside 'validator' and rename 'read_index' to 'idx'
const { read_index: idx, length, validator: { type } = {}, converter, options } = config;
// If for some reason a config doesn't have a validator/type, skip it
if (!type) continue;
switch (type) {
case 'uint8':
response.machine_values[key] = rep_buffer[idx];
break;
case 'uint16be':
response.machine_values[key] = rep_buffer.readUInt16BE(idx);
break;
case 'uint32be':
response.machine_values[key] = rep_buffer.readUInt32BE(idx);
break;
case 'buffer':
response.machine_values[key] = rep_buffer.subarray(idx, idx + length);
break;
case 'hex':
response.machine_values[key] = rep_buffer.subarray(idx, idx + length).toString('hex');
break;
case 'mac':
response.machine_values[key] = rep_buffer.subarray(idx, idx + length).toString('hex');
break;
}
let human_value = response.machine_values[key];
if(options && options[response.machine_values[key]]){
human_value = options[response.machine_values[key]];
}else{
if(converter && converter.multiplier){
human_value = human_value * converter.multiplier;
}
if(converter && converter.units){
human_value = human_value + converter.units;
}
}
response.human_readable[key] = human_value;
}
if (Object.hasOwn(response.machine_values, 'destination_address') && response.machine_values.destination_address.toLowerCase() === '00000000') {
console.log('##############################');
console.log('#########Dest Override########');
console.log('##############################');
response.destination_address = "0000ffff";
response.auto_raw_destination_address = "0000ffff";
};
return response;
};
const parse = (payload, parsed, mac) => {
let status = parsed[7] >> 1; // status (1-bit left shifted)
let res = {
temperature: signInt(parsed.slice(8, 10).reduce(msbLsb), 16)/100,
dielectic_const: parsed.slice(10, 12).reduce(msbLsb)/100
};
if(status == 0){
res.error = {
temperature: "read_failed",
dielectic_const: "read_failed"
}
}
if(status == 1){
res.error = {
temperature: "addr_failed",
dielectic_const: "addr_failed"
}
}
return res;
};
// --- 2. EXPORT THE MODULE ---
// Export the module with all the necessary functions and properties
// that need to be called from outside the scrip
return {
type: 93,
name: 'Oil Temperature and Moisture Sensor',
parse,
get_write_buffer_size,
get_config_map,
sync_parse
};
};