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bp-modbus-decoder.js
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/*
MIT License Copyright 2021, 2022 - Bitpool Pty Ltd
*/
module.exports = function (RED) {
var ENUM = require("./enum.js");
var TEMPLATE = require("./devices/template.js");
var sourceNodeId;
var selectedDeviceId;
function bpModbusDecoder(config) {
var node = this;
RED.nodes.createNode(node, config);
node.bpDeviceDecoderName = config.bpDeviceDecoderName;
node.bpChkShowDateOnLabel = config.bpChkShowDateOnLabel;
node.bpChkShowDebugWarnings = config.bpChkShowDebugWarnings;
node.bpChkConvertPFactor = config.bpChkConvertPFactor;
node.bpChkSetRealTo3Dp = config.bpChkSetRealTo3Dp;
this.status({});
node.on("input", function (msg) {
try {
if (isValidInputMsg(msg)) {
sourceNodeId = msg.modbusSource.node.sourceNodeId;
selectedDeviceId = msg.modbusSource.node.selectedDeviceId;
if (this.bpChkShowDateOnLabel) {
this.status({fill: "green", shape: "dot", text: new Date().toLocaleString()});
} else {
this.status({});
}
let regStartIndex = msg.modbusSource.startRegIndex;
let regDeviceDataSize = msg.modbusSource.deviceDataSize;
let regBlock = msg.modbusSource.registers;
let overrideModbusId;
let overrideUnitName;
if (msg.modbusSource.hasOwnProperty("overrideModbusId")) {
overrideModbusId = parseInt(msg.modbusSource.overrideModbusId);
}
if (msg.modbusSource.hasOwnProperty("overrideUnitName")) {
overrideUnitName = msg.modbusSource.overrideUnitName;
}
for (const index in regBlock) {
let FIX_DECIMAL_PLACES = 3;
var register = regBlock[index];
let regAddress = register.regAddress;
let regTopic = register.topic;
let regDataFormat = register.regFormat;
let regMultipler = register.regMultiplier;
let regSize = register.regSize;
let registerBuffer;
let value;
let msgOut = {};
msgOut.topic = regTopic;
msgOut.modbusSource = register;
if (overrideModbusId !== undefined) {
msgOut.modbusSource.modbusId = overrideModbusId;
}
if (overrideUnitName !== undefined) {
let updatedTopic =
convertToCapScore(overrideUnitName) +
"/" +
convertToCapScore(register.regName);
msgOut.modbusSource.topic = updatedTopic;
msgOut.topic = updatedTopic;
}
// Get the buffer from either output
if (
msg.hasOwnProperty("responseBuffer") &&
msg.responseBuffer.hasOwnProperty("buffer")
) {
registerBuffer = getBufferRegisterData(
msg.responseBuffer.buffer,
regStartIndex,
regAddress,
regSize,
regDeviceDataSize
);
} else {
registerBuffer = getBufferRegisterData(
msg.payload.buffer,
regStartIndex,
regAddress,
regSize,
regDeviceDataSize
);
}
// Reorder the buffer into format MSB to LSB
let { isSuccess, errMsg, bufferOrdered } = reorderToMsbLsb(
registerBuffer,
regDataFormat,
regSize
);
if (isSuccess) {
msgOut.modbusSource.inBuffer = registerBuffer;
msgOut.modbusSource.outBuffer = bufferOrdered;
switch (regDataFormat) {
// 8bit signed integer
case ENUM.ModbusDataType.T_8_BIT_INT:
value = bufferOrdered.readInt8() || 0;
value = value * parseFloat(regMultipler) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
// 8bit unsigned integer
case ENUM.ModbusDataType.T_8_BIT_UINT:
value = bufferOrdered.readUInt8() || 0;
value = value * parseFloat(regMultipler) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
// 16bit signed integer
case ENUM.ModbusDataType.T_16_BIT_INT_HI_FIRST:
case ENUM.ModbusDataType.T_16_BIT_INT_LOW_FIRST:
value = bufferOrdered.readInt16BE(0, 2) || 0;
value = value * parseFloat(regMultipler) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
// 16bit unsigned integer
case ENUM.ModbusDataType.T_16_BIT_UINT_HI_FIRST:
case ENUM.ModbusDataType.T_16_BIT_UINT_LOW_FIRST:
value = bufferOrdered.readUInt16BE(0, 2) || 0;
value = value * parseFloat(regMultipler) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
// 32bit Floats
case ENUM.ModbusDataType.T_32_BIT_FLT_1234:
case ENUM.ModbusDataType.T_32_BIT_FLT_4321:
case ENUM.ModbusDataType.T_32_BIT_FLT_2143:
case ENUM.ModbusDataType.T_32_BIT_FLT_3412:
value = bufferOrdered.readFloatBE(0, 4) || 0;
value = value * parseFloat(regMultipler) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
// 32bit signed unsigned integers
case ENUM.ModbusDataType.T_32_BIT_INT_1234:
case ENUM.ModbusDataType.T_32_BIT_INT_4321:
case ENUM.ModbusDataType.T_32_BIT_INT_2143:
case ENUM.ModbusDataType.T_32_BIT_INT_3412:
value = bufferOrdered.readInt32BE(0, 4) || 0;
value = value * parseFloat(regMultipler) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
case ENUM.ModbusDataType.T_32_BIT_UINT_1234:
case ENUM.ModbusDataType.T_32_BIT_UINT_4321:
case ENUM.ModbusDataType.T_32_BIT_UINT_2143:
case ENUM.ModbusDataType.T_32_BIT_UINT_3412:
value = bufferOrdered.readUInt32BE(0, 4) || 0;
value = value * parseFloat(regMultipler) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
// 64bit signed integers
case ENUM.ModbusDataType.T_64_BIT_INT_12345678:
case ENUM.ModbusDataType.T_64_BIT_INT_56781234:
value = bufferOrdered.readBigInt64BE(0) || 0;
value =
BigInt(value) / BigInt(parseInt(1 / regMultipler)) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
// 64bit unsigned integers
case ENUM.ModbusDataType.T_64_BIT_UINT_12345678:
case ENUM.ModbusDataType.T_64_BIT_UINT_56781234:
value = bufferOrdered.readBigUInt64BE(0) || 0;
value =
BigInt(value) / BigInt(parseInt(1 / regMultipler)) || 0;
msgOut.payload = node.bpChkSetRealTo3Dp
? Number(parseFloat(value).toFixed(FIX_DECIMAL_PLACES))
: Number(value);
node.send(
doValueConversions(
msgOut,
regAddress,
node.bpChkConvertPFactor
)
);
break;
// ASCII string characters
case ENUM.ModbusDataType.T_ASCII:
value = bufferOrdered.toString("utf8") || "";
msgOut.payload = String(value).trim() || "";
msgOut.payload = msgOut.payload.replace(/[^ -~]+/g, ""); // Remove non printable
node.send(msgOut);
break;
default:
if (this.bpChkShowDebugWarnings) {
this.warn("Could not decode data format type (" + regDataFormat + "), please refer the documentation.");
}
}
} else {
if (this.bpChkShowDebugWarnings) {
this.warn(errMsg);
}
}
}
} else {
if (this.bpChkShowDebugWarnings) {
this.warn("This module requires specific input parameters to the node, please refer the documentation.");
}
}
} catch (err) {
if (this.bpChkShowDebugWarnings) {
this.warn(err);
}
}
});
}
function convertToCapScore(text) {
if (text) {
let capScore = text.replace(/[^ -~]+/g, ""); // Remove non printable
capScore = capScore.replace(/\s+/g, " "); // Remove double spaces
capScore = capScore.replace(/\s/g, "_"); // Replace space with underscore
capScore = capScore.replace(/\\/g, "_"); // Replace \ with underscore
capScore = capScore.replace(/\//g, "_"); // Replace / with underscore
capScore = capScore.replace(/[^a-zA-Z0-9_]/g, ""); // Replace non-alphanumeric with underscore
return capScore.toUpperCase();
}
return text;
}
function getBufferRegisterData(
byteBuffer,
startRegIndex,
targetRegAddr,
targetRegLen,
deviceDataSize
) {
var retBuff = [];
try {
var dataSize = deviceDataSize || 2;
var begAddr = (targetRegAddr - startRegIndex) * dataSize;
var endAddr = begAddr + targetRegLen * dataSize;
retBuff = byteBuffer.slice(begAddr, endAddr);
} catch (error) {}
return retBuff;
}
function doValueConversions(msg, regAddress, convertPowerFactor) {
var msgConverted = Object.assign({}, msg);
let msgsConverted = [];
try {
var pf = msgConverted.payload;
var pfProp = {};
if (convertPowerFactor == true) {
var regUnitMeasure = msgConverted.modbusSource.regUnitName;
if (regUnitMeasure == "POWER_FACTOR") {
if (pf < -2) pf = -2;
if (pf > 2) pf = 2;
// -2 -1 0 1 2
// | Q3 | Q2 | Q1 | Q4 |
// | IND | CAP | IND | CAP |
// | VI | IV | VI | IV |
// | EXPORT | IMPORT |
// | | PF | |
// | | PF_Q2 | |
// | PF_Q4 |
pfProp.inputPf = pf;
if (pf >= 0 && pf <= 1) {
pfProp.quadrant = "Q1";
pfProp.powerType = pf == 1 ? "RESISTIVE" : "INDUCTIVE";
pfProp.impExp = "IMPORT";
} else if (pf >= -1 && pf <= 0) {
pfProp.quadrant = "Q2";
pfProp.powerType = pf == -1 ? "RESISTIVE" : "CAPACITIVE";
pfProp.impExp = "EXPORT";
} else if (pf >= -2 && pf <= -1) {
pf = -2 - pf;
pfProp.quadrant = "Q3";
pfProp.powerType = pf == -2 ? "RESISTIVE" : "INDUCTIVE";
pfProp.impExp = "EXPORT";
} else if (pf >= 1 && pf <= 2) {
pf = 2 - pf;
pfProp.quadrant = "Q4";
pfProp.powerType = pf == 2 ? "RESISTIVE" : "CAPACITIVE";
pfProp.impExp = "IMPORT";
}
pfProp.degsVtoI = parseFloat(convertPfToLeadLagDeg(pf));
var conv = {};
conv.powerFactor = pfProp;
msgConverted.modbusSource.conversion = conv;
msgConverted.payload = Number(pf);
}
msgsConverted.push(msgConverted);
}
} catch (err) {
// Restore the orginal
msgsConverted.push(msg);
}
return [msgsConverted];
}
function convertPfToLeadLagDeg(pf) {
var deg = (180 * Math.acos(pf)) / Math.PI;
if (pf < 0) deg = 180 - deg;
return deg.toFixed(2);
}
function isValidInputMsg(msg) {
if (
msg.hasOwnProperty("modbusSource") &&
msg.modbusSource.hasOwnProperty("startRegIndex") &&
msg.modbusSource.hasOwnProperty("fnCodeBlock") &&
msg.modbusSource.hasOwnProperty("totalBlockSize") &&
msg.modbusSource.hasOwnProperty("registers")
) {
if (
(msg.hasOwnProperty("responseBuffer") &&
msg.responseBuffer.hasOwnProperty("buffer")) ||
(msg.hasOwnProperty("payload") && msg.payload.hasOwnProperty("buffer"))
) {
return true;
}
return true;
}
return false;
}
function reorderToMsbLsb(bufferUnOrdered, regDataFormat, dataSize) {
let bufferOrdered;
let isSuccess = true;
let errMsg;
switch (regDataFormat) {
// 8bit signed unsigned integer
case ENUM.ModbusDataType.T_8_BIT_INT:
case ENUM.ModbusDataType.T_8_BIT_UINT:
bufferOrdered = Buffer.alloc(1);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 0);
break;
// 16bit signed unsigned integer
case ENUM.ModbusDataType.T_16_BIT_INT_HI_FIRST:
case ENUM.ModbusDataType.T_16_BIT_UINT_HI_FIRST:
bufferOrdered = Buffer.alloc(2);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 0);
bufferOrdered.writeUInt8(bufferUnOrdered[1], 1);
break;
// 16bit signed unsigned integer
case ENUM.ModbusDataType.T_16_BIT_INT_LOW_FIRST:
case ENUM.ModbusDataType.T_16_BIT_UINT_LOW_FIRST:
bufferOrdered = Buffer.alloc(2);
bufferOrdered.writeUInt8(bufferUnOrdered[1], 0);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 1);
break;
// 32bit 1234
case ENUM.ModbusDataType.T_32_BIT_FLT_1234:
case ENUM.ModbusDataType.T_32_BIT_INT_1234:
case ENUM.ModbusDataType.T_32_BIT_UINT_1234:
bufferOrdered = Buffer.alloc(4);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 0);
bufferOrdered.writeUInt8(bufferUnOrdered[1], 1);
bufferOrdered.writeUInt8(bufferUnOrdered[2], 2);
bufferOrdered.writeUInt8(bufferUnOrdered[3], 3);
break;
// 32bit 4321
case ENUM.ModbusDataType.T_32_BIT_FLT_4321:
case ENUM.ModbusDataType.T_32_BIT_INT_4321:
case ENUM.ModbusDataType.T_32_BIT_UINT_4321:
bufferOrdered = Buffer.alloc(4);
bufferOrdered.writeUInt8(bufferUnOrdered[3], 0);
bufferOrdered.writeUInt8(bufferUnOrdered[2], 1);
bufferOrdered.writeUInt8(bufferUnOrdered[1], 2);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 3);
break;
// 32bit 2143
case ENUM.ModbusDataType.T_32_BIT_FLT_2143:
case ENUM.ModbusDataType.T_32_BIT_INT_2143:
case ENUM.ModbusDataType.T_32_BIT_UINT_2143:
bufferOrdered = Buffer.alloc(4);
bufferOrdered.writeUInt8(bufferUnOrdered[1], 0);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 1);
bufferOrdered.writeUInt8(bufferUnOrdered[3], 2);
bufferOrdered.writeUInt8(bufferUnOrdered[2], 3);
break;
// 32bit 3412
case ENUM.ModbusDataType.T_32_BIT_FLT_3412:
case ENUM.ModbusDataType.T_32_BIT_INT_3412:
case ENUM.ModbusDataType.T_32_BIT_UINT_3412:
bufferOrdered = Buffer.alloc(4);
bufferOrdered.writeUInt8(bufferUnOrdered[2], 0);
bufferOrdered.writeUInt8(bufferUnOrdered[3], 1);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 2);
bufferOrdered.writeUInt8(bufferUnOrdered[1], 3);
break;
// 64bit 12345678
case ENUM.ModbusDataType.T_64_BIT_INT_12345678:
case ENUM.ModbusDataType.T_64_BIT_UINT_12345678:
bufferOrdered = Buffer.alloc(8);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 0);
bufferOrdered.writeUInt8(bufferUnOrdered[1], 1);
bufferOrdered.writeUInt8(bufferUnOrdered[2], 2);
bufferOrdered.writeUInt8(bufferUnOrdered[3], 3);
bufferOrdered.writeUInt8(bufferUnOrdered[4], 4);
bufferOrdered.writeUInt8(bufferUnOrdered[5], 5);
bufferOrdered.writeUInt8(bufferUnOrdered[6], 6);
bufferOrdered.writeUInt8(bufferUnOrdered[7], 7);
break;
// 64bit 56781234
case ENUM.ModbusDataType.T_64_BIT_INT_56781234:
case ENUM.ModbusDataType.T_64_BIT_UINT_56781234:
bufferOrdered = Buffer.alloc(8);
bufferOrdered.writeUInt8(bufferUnOrdered[5], 0);
bufferOrdered.writeUInt8(bufferUnOrdered[6], 1);
bufferOrdered.writeUInt8(bufferUnOrdered[7], 2);
bufferOrdered.writeUInt8(bufferUnOrdered[8], 3);
bufferOrdered.writeUInt8(bufferUnOrdered[0], 4);
bufferOrdered.writeUInt8(bufferUnOrdered[1], 5);
bufferOrdered.writeUInt8(bufferUnOrdered[2], 6);
bufferOrdered.writeUInt8(bufferUnOrdered[3], 7);
break;
// Character array
case ENUM.ModbusDataType.T_ASCII:
bufferOrdered = Buffer.alloc(dataSize);
bufferOrdered = bufferUnOrdered;
break;
// No format, return error
default:
errMsg = "Could not reorder the byte array. This order is undefined (" + dataFormat + ").";
isSuccess = false;
}
return { isSuccess, errMsg, bufferOrdered };
}
RED.nodes.registerType("bp-decoder", bpModbusDecoder);
};