// Decode uplink function. // // Input is an object with the following fields: // - bytes = Byte array containing the uplink payload, e.g. [255, 230, 255, 0] // - fPort = Uplink fPort. // - variables = Object containing the configured device variables. // // Output must be an object with the following fields: // - data = Object representing the decoded payload. function decodeUplink(input) { var bytes=input.bytes; if(bytes.length != 11) { return {"data": {}}; } //Payload Formats of LT33222 or LT22222 Deceive var hardware= (bytes[10] & 0xC0)>>6; var mode0= bytes[10] & 0xff; var mode= bytes[10] & 0x3f; var decode = {}; if(hardware=='0') { decode.Hardware_mode="LT33222"; decode.DO3_status=(bytes[8] &0x04)? false:true; // "L":"H"; if(mode0=='1') { decode.DI3_status= (bytes[8] &0x20)? true:false; // "H":"L"; } } else if(hardware=='1') { decode.Hardware_mode= "LT22222"; } if(mode!=6) { decode.DO1_status= (bytes[8] &0x01)? true:false; // "L":"H"; decode.DO2_status= (bytes[8] &0x02)? true:false; // "L":"H"; decode.RO1_status= (bytes[8] &0x80)? true:false; // "ON":"OFF"; decode.RO2_status= (bytes[8] &0x40)? true:false; // "ON":"OFF"; if(mode!=1) { if(mode!=5) { decode.Count1_times= (bytes[0]<<24 | bytes[1]<<16 | bytes[2]<<8 | bytes[3]); } decode.First_status= (bytes[8] &0x20)? true:false; // "Yes":"No"; } } if(mode=='1') { decode.Work_mode= "2ACI+2AVI"; decode.AVI1_V= parseFloat(((bytes[0]<<24>>16 | bytes[1])/1000).toFixed(3)); decode.AVI2_V= parseFloat(((bytes[2]<<24>>16 | bytes[3])/1000).toFixed(3)); decode.ACI1_mA= parseFloat(((bytes[4]<<24>>16 | bytes[5])/1000).toFixed(3)); decode.ACI2_mA= parseFloat(((bytes[6]<<24>>16 | bytes[7])/1000).toFixed(3)); decode.DI1_status= (bytes[8] &0x08)? true:false; // "H":"L"; decode.DI2_status= (bytes[8] &0x10)? true:false; // "H":"L" } else if(mode=='2') { decode.Work_mode= "Count mode 1"; decode.Count2_times= (bytes[4]<<24 | bytes[5]<<16 | bytes[6]<<8 | bytes[7]); } else if(mode=='3') { decode.Work_mode= "2ACI+1Count"; decode.ACI1_mA= parseFloat(((bytes[4]<<24>>16 | bytes[5])/1000).toFixed(3)); decode.ACI2_mA= parseFloat(((bytes[6]<<24>>16 | bytes[7])/1000).toFixed(3)); } else if(mode=='4') { decode.Work_mode= "Count mode 2"; decode.Acount_times= (bytes[4]<<24 | bytes[5]<<16 | bytes[6]<<8 | bytes[7]); } else if(mode=='5') { decode.Work_mode= " 1ACI+2AVI+1Count"; decode.AVI1_V= parseFloat(((bytes[0]<<24>>16 | bytes[1])/1000).toFixed(3)); decode.AVI2_V= parseFloat(((bytes[2]<<24>>16 | bytes[3])/1000).toFixed(3)); decode.ACI1_mA= parseFloat(((bytes[4]<<24>>16 | bytes[5])/1000).toFixed(3)); decode.Count1_times= bytes[6]<<8 | bytes[7]; } else if(mode=='6') { decode.Work_mode= "Exit mode"; decode.Mode_status= bytes[9] ? "True":"False"; decode.AV1L_flag= (bytes[0] &0x80)? true: false; // "True":"False"; decode.AV1H_flag= (bytes[0] &0x40)? true: false; // "True":"False"; decode.AV2L_flag= (bytes[0] &0x20)? true: false; // "True":"False"; decode.AV2H_flag= (bytes[0] &0x10)? true: false; // "True":"False"; decode.AC1L_flag= (bytes[0] &0x08)? true: false; // "True":"False"; decode.AC1H_flag= (bytes[0] &0x04)? true: false; // "True":"False"; decode.AC2L_flag= (bytes[0] &0x02)? true: false; // "True":"False"; decode.AC2H_flag= (bytes[0] &0x01)? true: false; // "True":"False"; decode.AV1L_status= (bytes[1] &0x80)? true: false; // "True":"False"; decode.AV1H_status= (bytes[1] &0x40)? true: false; // "True":"False"; decode.AV2L_status= (bytes[1] &0x20)? true: false; // "True":"False"; decode.AV2H_status= (bytes[1] &0x10)? true: false; // "True":"False"; decode.AC1L_status= (bytes[1] &0x08)? true: false; // "True":"False"; decode.AC1H_status= (bytes[1] &0x04)? true: false; // "True":"False"; decode.AC2L_status= (bytes[1] &0x02)? true: false; // "True":"False"; decode.AC2H_status= (bytes[1] &0x01)? true: false; // "True":"False"; decode.DI2_status= (bytes[2] &0x08)? true: false; // "True":"False"; decode.DI2_flag= (bytes[2] &0x04)? true: false; // "True":"False"; decode.DI1_status= (bytes[2] &0x02)? true: false; // "True":"False"; decode.DI1_flag= (bytes[2] &0x01)? true: false; // "True":"False"; } return {"data": decode}; } // Encode downlink function. // // Input is an object with the following fields: // - data = Object representing the payload that must be encoded. // - variables = Object containing the configured device variables. // // Output must be an object with the following fields: // - bytes = Byte array containing the downlink payload. function encodeDownlink(input) { var obj=input.data; // 11: No action, 00: Off, 01: On if(obj["method"] === "setRO1Value") { if(obj["params"]) { return {bytes: [0x03,0x01,0x11]}; // On // return [0x05,0x01,0x12,0x07,0xD0]; // On 2s and back to original state, 0x07D0 = 2000ms = 2s // return [0x05,0x00,0x12,0x07,0xD0]; // On 2s and back to inverter state, 0x07D0 = 2000ms = 2s } else { return {bytes: [0x03,0x00,0x11]}; // Off // return [0x05,0x01,0x02,0x07,0xD0]; // On 2s and back to original state, 0x07D0 = 2000ms = 2s } } else if(obj["method"] === "setRO2Value") { if(obj["params"]) { return {bytes: [0x03,0x11,0x01]}; // On // return [0x05,0x01,0x21,0x07,0xD0]; // On 2s and back to original state, 0x07D0 = 2000ms = 2s } else { return {bytes: [0x03,0x11,0x00]}; // Off // return [0x05,0x01,0x20,0x07,0xD0]; // On 2s and back to original state, 0x07D0 = 2000ms = 2s } } else if(obj["method"] === "setDO1Value") { if(obj["params"]) { return {bytes: [0x02,0x01,0x11,0x11]}; // On } else { return {bytes: [0x02,0x00,0x11,0x11]}; // Off } } else if(obj["method"] === "setDO2Value") { if(obj["params"]) { return {bytes: [0x02,0x11,0x01,0x11]}; // On } else { return {bytes: [0x02,0x11,0x00,0x11]}; // Off } } // Should not reach here return {bytes: []}; }