/** * Payload Encoder * * Copyright 2025 Milesight IoT * * @product EM300-TH */ var RAW_VALUE = 0x00; /* eslint no-redeclare: "off" */ /* eslint-disable */ // Chirpstack v4 function encodeDownlink(input) { var encoded = milesightDeviceEncode(input.data); return { bytes: encoded }; } // Chirpstack v3 function Encode(fPort, obj) { return milesightDeviceEncode(obj); } // The Things Network function Encoder(obj, port) { return milesightDeviceEncode(obj); } /* eslint-enable */ function milesightDeviceEncode(payload) { var encoded = []; if ("reboot" in payload) { encoded = encoded.concat(reboot(payload.reboot)); } if ("report_interval" in payload) { encoded = encoded.concat(setReportInterval(payload.report_interval)); } if ("collection_interval" in payload) { encoded = encoded.concat(setCollectionInterval(payload.collection_interval)); } if ("report_status" in payload) { encoded = encoded.concat(reportStatus(payload.report_status)); } if ("history_enable" in payload) { encoded = encoded.concat(setHistoryEnable(payload.history_enable)); } if ("fetch_history" in payload) { encoded = encoded.concat(fetchHistory(payload.fetch_history)); } if ("stop_transmit" in payload) { encoded = encoded.concat(stopTransmit(payload.stop_transmit)); } if ("clear_history" in payload) { encoded = encoded.concat(clearHistory(payload.clear_history)); } if ("retransmit_enable" in payload) { encoded = encoded.concat(setRetransmitEnable(payload.retransmit_enable)); } if ("retransmit_interval" in payload) { encoded = encoded.concat(setRetransmitInterval(payload.retransmit_interval)); } if ("resend_interval" in payload) { encoded = encoded.concat(setResendInterval(payload.resend_interval)); } if ("temperature_alarm_config" in payload) { encoded = encoded.concat(setTemperatureAlarmConfig(payload.temperature_alarm_config)); } if ("temperature_calibration_settings" in payload) { encoded = encoded.concat(setTemperatureCalibration(payload.temperature_calibration_settings)); } if ("humidity_calibration_settings" in payload) { encoded = encoded.concat(setHumidityCalibration(payload.humidity_calibration_settings)); } if ("d2d_master_config" in payload) { for (var i = 0; i < payload.d2d_master_config.length; i++) { encoded = encoded.concat(setD2DMasterConfig(payload.d2d_master_config[i])); } } return encoded; } /** * reboot device * @param {number} reboot values: (0: no, 1: yes) * @example { "reboot": 1 } */ function reboot(reboot) { var yes_no_map = { 0: "no", 1: "yes" }; var yes_no_values = getValues(yes_no_map); if (yes_no_values.indexOf(reboot) === -1) { throw new Error("reboot must be one of " + yes_no_values.join(", ")); } if (getValue(yes_no_map, reboot) === 0) { return []; } return [0xff, 0x10, 0xff]; } /** * report interval configuration * @param {number} report_interval uint: second, range: [1, 64800] * @example payload: { "report_interval": 600 } */ function setReportInterval(report_interval) { if (typeof report_interval !== "number") { throw new Error("report_interval must be a number"); } if (report_interval < 1 || report_interval > 64800) { throw new Error("report_interval must be in range [1, 64800]"); } var buffer = new Buffer(4); buffer.writeUInt8(0xff); buffer.writeUInt8(0x03); buffer.writeUInt16LE(report_interval); return buffer.toBytes(); } /** * set collection interval * @param {number} collection_interval unit: second * @example { "collection_interval": 300 } */ function setCollectionInterval(collection_interval) { if (typeof collection_interval !== "number") { throw new Error("collection_interval must be a number"); } var buffer = new Buffer(4); buffer.writeUInt8(0xff); buffer.writeUInt8(0x02); buffer.writeUInt16LE(collection_interval); return buffer.toBytes(); } /** * report status * @param {number} report_status values: (0: no, 1: yes) * @example { "report_status": 1 } */ function reportStatus(report_status) { var yes_no_map = { 0: "no", 1: "yes" }; var yes_no_values = getValues(yes_no_map); if (yes_no_values.indexOf(report_status) === -1) { throw new Error("report_status must be one of " + yes_no_values.join(", ")); } if (getValue(yes_no_map, report_status) === 0) { return []; } return [0xff, 0x28, 0xff]; } /** * history enable * @param {number} history_enable values: (0: disable, 1: enable) * @example { "history_enable": 1 } */ function setHistoryEnable(history_enable) { var enable_map = { 0: "disable", 1: "enable" }; var enable_values = getValues(enable_map); if (enable_values.indexOf(history_enable) === -1) { throw new Error("history_enable must be one of " + enable_values.join(", ")); } var buffer = new Buffer(3); buffer.writeUInt8(0xff); buffer.writeUInt8(0x68); buffer.writeUInt8(getValue(enable_map, history_enable)); return buffer.toBytes(); } /** * fetch history * @param {object} fetch_history * @param {number} fetch_history.start_time unit: second * @param {number} fetch_history.end_time unit: second * @example { "fetch_history": { "start_time": 1609459200, "end_time": 1609545600 } } */ function fetchHistory(fetch_history) { var start_time = fetch_history.start_time; var end_time = fetch_history.end_time; if (typeof start_time !== "number") { throw new Error("start_time must be a number"); } if ("end_time" in fetch_history && typeof end_time !== "number") { throw new Error("end_time must be a number"); } if ("end_time" in fetch_history && start_time > end_time) { throw new Error("start_time must be less than end_time"); } var buffer; if ("end_time" in fetch_history || end_time === 0) { buffer = new Buffer(6); buffer.writeUInt8(0xfd); buffer.writeUInt8(0x6b); buffer.writeUInt32LE(start_time); } else { buffer = new Buffer(10); buffer.writeUInt8(0xfd); buffer.writeUInt8(0x6c); buffer.writeUInt32LE(start_time); buffer.writeUInt32LE(end_time); } return buffer.toBytes(); } /** * history stop transmit * @param {number} stop_transmit values: (0: no, 1: yes) * @example { "stop_transmit": 1 } */ function stopTransmit(stop_transmit) { var yes_no_map = { 0: "no", 1: "yes" }; var yes_no_values = getValues(yes_no_map); if (yes_no_values.indexOf(stop_transmit) === -1) { throw new Error("stop_transmit must be one of " + yes_no_values.join(", ")); } if (getValue(yes_no_map, stop_transmit) === 0) { return []; } return [0xfd, 0x6d, 0xff]; } /** * clear history * @param {number} clear_history values: (0: no, 1: yes) * @example { "clear_history": 1 } */ function clearHistory(clear_history) { var yes_no_map = { 0: "no", 1: "yes" }; var yes_no_values = getValues(yes_no_map); if (yes_no_values.indexOf(clear_history) === -1) { throw new Error("clear_history must be one of " + yes_no_values.join(", ")); } if (getValue(yes_no_map, clear_history) === 0) { return []; } return [0xff, 0x27, 0x01]; } /** * set retransmit enable * @param {number} retransmit_enable values: (0: disable, 1: enable) * @example { "retransmit_enable": 1 } */ function setRetransmitEnable(retransmit_enable) { var enable_map = { 0: "disable", 1: "enable" }; var enable_values = getValues(enable_map); if (enable_values.indexOf(retransmit_enable) === -1) { throw new Error("retransmit_enable must be one of " + enable_values.join(", ")); } var buffer = new Buffer(3); buffer.writeUInt8(0xff); buffer.writeUInt8(0x69); buffer.writeUInt8(getValue(enable_map, retransmit_enable)); return buffer.toBytes(); } /** * set retransmit interval * @param {number} retransmit_interval unit: second, range: [1, 64800] * @example { "retransmit_interval": 600 } */ function setRetransmitInterval(retransmit_interval) { if (typeof retransmit_interval !== "number") { throw new Error("retransmit_interval must be a number"); } if (retransmit_interval < 1 || retransmit_interval > 64800) { throw new Error("retransmit_interval must be between 1 and 64800"); } var buffer = new Buffer(5); buffer.writeUInt8(0xff); buffer.writeUInt8(0x6a); buffer.writeUInt8(0x00); buffer.writeUInt16LE(retransmit_interval); return buffer.toBytes(); } /** * set resend interval * @param {number} resend_interval unit: second, range: [1, 64800] * @example { "resend_interval": 600 } */ function setResendInterval(resend_interval) { if (typeof resend_interval !== "number") { throw new Error("resend_interval must be a number"); } if (resend_interval < 1 || resend_interval > 64800) { throw new Error("resend_interval must be between 1 and 64800"); } var buffer = new Buffer(5); buffer.writeUInt8(0xff); buffer.writeUInt8(0x6a); buffer.writeUInt8(0x01); buffer.writeUInt16LE(resend_interval); return buffer.toBytes(); } /** * set temperature threshold alarm * @param {object} temperature_alarm_config * @param {number} temperature_alarm_config.condition values: (0: disable, 1: below, 2: above, 3: between, 4: outside) * @param {number} temperature_alarm_config.threshold_min condition=(below, within, outside) * @param {number} temperature_alarm_config.threshold_max condition=(above, within, outside) * @example { "temperature_alarm_config": { "condition": 2, "threshold_min": 10, "threshold_max": 30 } } */ function setTemperatureAlarmConfig(temperature_alarm_config) { var condition = temperature_alarm_config.condition; var threshold_min = temperature_alarm_config.threshold_min; var threshold_max = temperature_alarm_config.threshold_max; var condition_map = { 0: "disable", 1: "below", 2: "above", 3: "between", 4: "outside" }; var condition_values = getValues(condition_map); if (condition_values.indexOf(condition) === -1) { throw new Error("condition must be one of " + condition_values.join(", ")); } var data = getValue(condition_map, condition) | (1 << 3); var buffer = new Buffer(11); buffer.writeUInt8(0xff); buffer.writeUInt8(0x06); buffer.writeUInt8(data); buffer.writeInt16LE(threshold_min * 10); buffer.writeInt16LE(threshold_max * 10); buffer.writeUInt16LE(0x00); buffer.writeUInt16LE(0x00); return buffer.toBytes(); } /** * set temperature calibration * @since v1.8 * @param {object} temperature_calibration_settings * @param {number} temperature_calibration_settings.enable values: (0: disable, 1: enable) * @param {number} temperature_calibration_settings.calibration_value unit: °C * @example { "temperature_calibration_settings": { "enable": 1, "calibration_value": 10 } } */ function setTemperatureCalibration(temperature_calibration_settings) { var enable = temperature_calibration_settings.enable; var calibration_value = temperature_calibration_settings.calibration_value; var enable_map = { 0: "disable", 1: "enable" }; var enable_values = getValues(enable_map); if (enable_values.indexOf(enable) === -1) { throw new Error("temperature_calibration_settings.enable must be one of " + enable_values.join(", ")); } var data = (getValue(enable_map, enable) << 7) | 0x00; var buffer = new Buffer(5); buffer.writeUInt8(0xff); buffer.writeUInt8(0xea); buffer.writeUInt8(data); buffer.writeInt16LE(calibration_value * 10); return buffer.toBytes(); } /** * set humidity calibration * @since v1.8 * @param {object} humidity_calibration_settings * @param {number} humidity_calibration_settings.enable values: (0: disable, 1: enable) * @param {number} humidity_calibration_settings.calibration_value unit: %.R.H * @example { "humidity_calibration_settings": { "enable": 1, "calibration_value": 1.5 } } */ function setHumidityCalibration(humidity_calibration_settings) { var enable = humidity_calibration_settings.enable; var calibration_value = humidity_calibration_settings.calibration_value; var enable_map = { 0: "disable", 1: "enable" }; var enable_values = getValues(enable_map); if (enable_values.indexOf(enable) === -1) { throw new Error("humidity_calibration_settings.enable must be one of " + enable_values.join(", ")); } var data = (getValue(enable_map, enable) << 7) | 0x01; var buffer = new Buffer(5); buffer.writeUInt8(0xff); buffer.writeUInt8(0xea); buffer.writeUInt8(data); buffer.writeUInt16LE(calibration_value * 2); return buffer.toBytes(); } /** * set D2D configuration * @param {object} d2d_master_config * @param {number} d2d_master_config.mode values: (1: temperature_alarm, 2: temperature_alarm_release) * @param {number} d2d_master_config.report_type values: (0: lora, 1: d2d, 3: d2d_and_lora) * @param {string} d2d_master_config.d2d_cmd * @example { "d2d_master_config": { "mode": 1, "report_type": 1, "d2d_cmd": "0000" } } */ function setD2DMasterConfig(d2d_master_config) { var mode = d2d_master_config.mode; var report_type = d2d_master_config.report_type; var d2d_cmd = d2d_master_config.d2d_cmd; var mode_map = { 1: "temperature_alarm", 2: "temperature_alarm_release" }; var mode_values = getValues(mode_map); if (mode_values.indexOf(mode) === -1) { throw new Error("d2d_master_config._item.mode must be one of " + mode_values.join(", ")); } var report_type_map = { 0: "lora", 1: "d2d", 3: "d2d_and_lora" }; var report_type_values = getValues(report_type_map); if (report_type_values.indexOf(report_type) === -1) { throw new Error("d2d_master_config._item.report_type must be one of " + report_type_values.join(", ")); } var buffer = new Buffer(6); buffer.writeUInt8(0xff); buffer.writeUInt8(0x79); buffer.writeUInt8(getValue(mode_map, mode)); buffer.writeUInt8(getValue(report_type_map, report_type)); buffer.writeD2DCommand(d2d_cmd, "0000"); return buffer.toBytes(); } function getValues(map) { var values = []; for (var key in map) { values.push(RAW_VALUE ? parseInt(key) : map[key]); } return values; } function getValue(map, value) { if (RAW_VALUE) return value; for (var key in map) { if (map[key] === value) { return parseInt(key); } } throw new Error("not match in " + JSON.stringify(map)); } function Buffer(size) { this.buffer = new Array(size); this.offset = 0; for (var i = 0; i < size; i++) { this.buffer[i] = 0; } } Buffer.prototype._write = function (value, byteLength, isLittleEndian) { var offset = 0; for (var index = 0; index < byteLength; index++) { offset = isLittleEndian ? index << 3 : (byteLength - 1 - index) << 3; this.buffer[this.offset + index] = (value >> offset) & 0xff; } }; Buffer.prototype.writeUInt8 = function (value) { this._write(value, 1, true); this.offset += 1; }; Buffer.prototype.writeInt8 = function (value) { this._write(value < 0 ? value + 0x100 : value, 1, true); this.offset += 1; }; Buffer.prototype.writeUInt16LE = function (value) { this._write(value, 2, true); this.offset += 2; }; Buffer.prototype.writeInt16LE = function (value) { this._write(value < 0 ? value + 0x10000 : value, 2, true); this.offset += 2; }; Buffer.prototype.writeUInt32LE = function (value) { this._write(value, 4, true); this.offset += 4; }; Buffer.prototype.writeInt32LE = function (value) { this._write(value < 0 ? value + 0x100000000 : value, 4, true); this.offset += 4; }; Buffer.prototype.writeD2DCommand = function (value, defaultValue) { if (typeof value !== "string") { value = defaultValue; } if (value.length !== 4) { throw new Error("d2d_cmd length must be 4"); } this.buffer[this.offset] = parseInt(value.substr(2, 2), 16); this.buffer[this.offset + 1] = parseInt(value.substr(0, 2), 16); this.offset += 2; }; Buffer.prototype.toBytes = function () { return this.buffer; };