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Each of the responses starts with a single byte (uint8) indicating the length of its payload (len) followed by that many bytes of payload. The payload consists of the raw Modbus response as sent by the Slave Device followed by 3 additional bytes: the first register/coil as uint16 (big endian) and the number of registers/coils as uint8 taken from the executed command. The following tables visualise the message structure. See the Example Section for some sample data messages explained down to the individual bytes. We also provide a Reference decoder in JavaScript that can read the format.

Reference Decoder


Reference decoder
Expand
Expand
title

Reference decoder

This is a decoder written in JavaScript that can be used to parse the device's LoRaWAN messages. It can be used as is in The Things Network.

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function readVersion(bytes) {
    if (bytes.length<3) {
        return null;
    }
    return "v" + bytes[0] + "." + bytes[1] + "." + bytes[2];
}
 
function int40_BE(bytes, idx) {
    bytes = bytes.slice(idx || 0);
    return bytes[0] << 32 |
        bytes[1] << 24 | bytes[2] << 16 | bytes[3] << 8 | bytes[4] << 0;
}
 
function int16_BE(bytes, idx) {
    bytes = bytes.slice(idx || 0);
    return bytes[0] << 8 | bytes[1] << 0;
}
 
function uint16_BE(bytes, idx) {
    bytes = bytes.slice(idx || 0);
    return bytes[0] << 8 | bytes[1] << 0;
}
 
function port1(bytes) {
    return {
        "port":1,
        "version":readVersion(bytes),
        "flags":bytes[3],
        "temp": int16_BE(bytes, 4) / 10,
        "vBat": int16_BE(bytes, 6) / 1000,
        "timestamp": int40_BE(bytes, 8),
        "operationMode": bytes[13],
        "noData": !!(bytes[3] & 0x01)
    };
}
 
function port2(bytes) {
    var regs = [];
    if (bytes.length > 5) {
        // loop through data packs
        var b = bytes.slice(5);
        while (b.length>=4) {
            var r = {
                "device":b[0],
                "register":int16_BE(b, 1),
                "count":b[3] & 0x3f,
                "error":!!(b[3]>>7),
                "data":null
            };
            var dataLen = r["count"]*2;
            if (b.length >= dataLen+4) {
                r["data"] = b.slice(4, 4 + dataLen);
            }
            regs.push(r);
            b = b.slice(4+dataLen);
        }
    }
    return {
        "port":2,
        "timestamp": int40_BE(bytes, 0),
        "registers": regs
    };
}
 
function modbusErrorString(code) {
    // Modbus exception codes
    // see https://en.wikipedia.org/wiki/Modbus#Exception_responses
    switch (code) {
        case 1:
            return "Illegal Function";
        case 2:
            return "Illegal Data Address";
        case 3:
            return "Illegal Data Value";
        case 4:
            return "Slave Device Failure";
        case 5:
            return "Acknowledge";
        case 6:
            return "Slave Device Busy";
        case 7:
            return "Negative Acknowledge";
        case 8:
            return "Memory Parity Error";
        case 10:
            return "Gateway Path Unavailable";
        case 11:
            return "Gateway Target Device Failed to Respond";
        default:
            return "Unknown error code";
    }
}
 
function parseModbusPayloadRegisters(payload) {
    if (payload.length < 1) {
        return null;
    }
    var byteCnt = payload[0];
    if (payload.length !== byteCnt + 1) {
        return null;
    }
    var vals = [];
    for (var i=0; i<byteCnt; i+=2) {
        vals.push([+payload[i+1], +payload[i+2]])
    }
    return vals;
 
}
function parseModbusResponse(raw) {
    var resp = {};
    if (raw.length >= 6) {
        var fun = raw[1] & 0xf;
        var error = !!(raw[1] & 0x80);
        var rawResp = raw.slice(0, raw.length - 3);
        resp["slave"] = raw[0];
        resp["function"] = fun;
        resp["error"] = error;
        resp["start"] = uint16_BE(raw, raw.length - 3);
        resp["cnt"] = raw[raw.length - 1];
        resp["raw"] = rawResp;
        if (error) {
            resp["errorCode"] = raw[2];
            resp["errorText"] = modbusErrorString(raw[2]);
        } else {
            resp["values"] = parseModbusPayloadRegisters(rawResp.slice(2))
            // TODO: coils
        }
    }
    return resp;
}
 
function FullResponses(bytes, port) {
    var timestamp = int40_BE(bytes);
    var pos = 5;
    var resps = [];
    while (pos < bytes.length) {
        var respLen = bytes[pos++];
        if (bytes.length >= pos + respLen) {
            var rawResponse = bytes.slice(pos, pos + respLen);
            resps.push(parseModbusResponse(rawResponse));
            pos += respLen;
        } else {
            break;
        }
    }
    return {
        "port": port,
        "timestamp" : timestamp,
        "responses": resps
    };
}
 
function bin2String(array) {
    var result = "";
    for (var i = 0; i < array.length; i++) {
        result += String.fromCharCode(array[i]);
    }
    return result;
}
 
function ConfigResponse(data) {
    var t = bin2String(data);
    return {
        "response" : t,
        "error" : (t.length === 0) || (t[0] === '!')
    }
}
 
/**
 * TTN decoder function.
 */
function Decoder(bytes, port) {
    switch (port) {
        case 1:
            // Status message:
            return port1(bytes);
        case 2:
            // not legacy format:
            return port2(bytes);
        case 3:
        case 4:
            // v1.0.0 format, full modbus responses:
            return FullResponses(bytes, port);
        case 5:
            // continuation of previous response:
            return {};
        case 6:
            // dense format with prefixed timestamp:
            return {};
        case 7:
            // dense format without timestamp:
            return {};
        case 128:
            return ConfigResponse(bytes);
    }
    return {"error":"invalid port", "port":port};
}
 
/**
 * LoRaServer decoder function.
 */
function Decode(fPort, bytes) {
    // wrap TTN Decoder:
    return Decoder(bytes, fPort);
}
function Parse(input) {
    var data = bytes(atob(input.data));
    var port = input.fPort;
    var fcnt = input.fCnt;
    var vals =  Decoder(data, port);
    vals["port"] = port;
    vals["data"] = data;
    vals["fnct"] = fcnt;
    var lastFcnt = Device.getProperty("lastFcnt");
    vals["reset"] = fcnt <= lastFcnt;
    Device.setProperty("lastFcnt", fcnt);
    return vals;
}


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