diff --git a/config b/config
index 60af4d9..b10cd71 100644
--- a/config
+++ b/config
@@ -1,13 +1,12 @@
 name                         : Total.js Flow
-
-default_timezone	:	Europe/Bratislava
+default_timezone	: Europe/Bratislava
 
 // Packages settings
 package#flow       (Object)  : { url: '/' }
 
 
 table.relays     : line:number|tbname:string|contactor:number|profile:string
-table.nodes     : node:number|tbname:string|line:number|dimming:number|profile:string|processed:boolean|status:boolean
+table.nodes     : node:number|tbname:string|line:number|profile:string|processed:boolean|status:boolean
 table.settings     : rvo_name:string|lang:string|temperature_adress:string|latitude:number|longitude:number|mqtt_host:string|mqtt_clientid:string|mqtt_username:string|mqtt_port:number|maintanace_mode:boolean|projects_id:number|controller_type:string|serial_port:string|backup_on_failure:boolean|restore_from_backup:number|restore_backup_wait:number
 table.pins     : pin:string|type:string|line:number
 table.notifications     : key:string|weight:string|sk:string|en:string
diff --git a/databases/modbus_config.js b/databases/modbus_config.js
new file mode 100644
index 0000000..b73116a
--- /dev/null
+++ b/databases/modbus_config.js
@@ -0,0 +1,114 @@
+const timeoutInterval = 150000;
+
+const deviceConfig = [
+  {
+    device: "em340",
+    deviceAddress: 1,
+    stream: [
+      {
+        "tbAttribute": "Phase_1_voltage",
+        "register": 0,
+        "size": 2,
+        "multiplier": 0.1
+      },
+      {
+        "tbAttribute": "Phase_2_voltage",
+        "register": 2,
+        "size": 2,
+        "multiplier": 0.1
+      },
+      {
+        "tbAttribute": "Phase_3_voltage",
+        "register": 4,
+        "size": 2,
+        "multiplier": 0.1
+      },
+     {
+       "tbAttribute": "Phase_1_current",
+       "register": 12,
+       "size": 2,
+       "multiplier": 0.001
+     },
+     {
+       "tbAttribute": "Phase_2_current",
+       "register": 14,
+       "size": 2,
+       "multiplier": 0.001
+     },
+     {
+       "tbAttribute": "Phase_3_current",
+       "register": 16,
+       "size": 2,
+       "multiplier": 0.001
+     },
+     {
+       "tbAttribute": "Phase_1_power",
+       "register": 18,
+       "size": 2,
+       "multiplier": 0.1
+     },
+     {
+       "tbAttribute": "Phase_2_power",
+       "register": 20,
+       "size": 2,
+       "multiplier": 0.1
+     },
+     {
+       "tbAttribute": "Phase_3_power",
+       "register": 22,
+       "size": 2,
+       "multiplier": 0.1
+     },
+     {
+       "tbAttribute": "total_power",
+       "register": 40,
+       "size": 2,
+       "multiplier": 0.1
+     },
+     {
+       "tbAttribute": "total_energy",
+       "register": 52,
+       "size": 2,
+       "multiplier": 0.1
+     },
+     {
+       "tbAttribute": "Phase_1_pow_factor",
+       "register": 46,
+       "size": 1,
+       "multiplier": 0.001
+     },
+     {
+       "tbAttribute": "Phase_2_pow_factor",
+       "register": 47,
+       "size": 1,
+       "multiplier": 0.001
+     },
+     {
+       "tbAttribute": "Phase_3_pow_factor",
+       "register": 48,
+       "size": 1,
+       "multiplier": 0.001
+     },
+     {
+       "tbAttribute": "power_factor",
+       "register": 49,
+       "size": 1,
+       "multiplier": 0.001
+     }
+    ]
+  },
+  {
+    device: "twilight_sensor",
+    deviceAddress: 2,
+    stream: [
+      {  
+        "tbAttribute": "twilight_sensor",
+        "register": 60,
+        "size": 2,
+        "multiplier": 1
+      }
+    ]
+  } 
+];
+
+module.exports = { timeoutInterval, deviceConfig };
\ No newline at end of file
diff --git a/databases/notifications.table b/databases/notifications.table
index b207fe7..a0590d3 100644
--- a/databases/notifications.table
+++ b/databases/notifications.table
@@ -31,4 +31,7 @@ key:string|weight:string|sk:string|en:string
 +|voltage_on_phase_restored|NOTICE|Napätie na fáze č. ${phase} bolo obnovené|Voltage on phase no. ${phase} has been restored|...............
 +|flow_start|NOTICE|FLOW bol spustený|FLOW has been started |...............
 +|twilight_sensor_nok|ERROR|Sensor súmraku neodpovedá|Twilight sensor is not responding|...............
-+|twilight_sensor_ok|NOTICE|Sensor súmraku znovu odpovedá|Twilight sensor is responding again|...............
\ No newline at end of file
++|twilight_sensor_ok|NOTICE|Sensor súmraku znovu odpovedá|Twilight sensor is responding again|...............
++|lamps_have_turned_on|NOTICE|Lampy sa zapli|Lamps have turned on|...............
++|lamps_have_turned_off|NOTICE|Lampy sa vypli|Lamps have turned off|...............
++|flow_restart|NOTICE|Restart flowu|Flow has been restarted|...............
diff --git a/flow/cmd_manager.js b/flow/cmd_manager.js
index f92e8d4..48b4987 100644
--- a/flow/cmd_manager.js
+++ b/flow/cmd_manager.js
@@ -1,4410 +1,3793 @@
-exports.id = 'cmd_manager';
-exports.title = 'CMD Manager';
-exports.group = 'Worksys';
-exports.color = '#5D9CEC';
-exports.version = '0.0.3';
-exports.output = ['red', 'blue', 'yellow', 'blue', 'white'];
-
-//blue - send message to relays
-
-exports.input = true;
-exports.author = 'Daniel Segeš';
-exports.icon = 'cloud-upload';
-//exports.npm = ['serialport' , 'child_process'];
-
-exports.html = `
-<div class="padding">
-  <div class="row">
-    <div class="col-md-12">
-      <div>RPC - run RPC calls</div><br>
-    </div>
-  </div>
-  <div data-jc="textbox" data-jc-path="username" class="m" data-jc-config="required:true">@(User)</div>
-  <div class="row">
-    <div class="col-md-6 m">
-      <div data-jc="textbox" data-jc-path="userpassword" data-jc-config="required:true">@(Password)</div>
-    </div>
-    <div class="col-md-6 m">
-      <div data-jc="textbox" data-jc-path="edge" data-jc-config="required:true">@(My edge)</div>
-    </div>
-  </div>
-</div>
-`;
-
-exports.readme = `Manager for CMD calls`;
-
-const SerialPort = require('serialport');
-const { exec } = require('child_process');
-const { crc8, crc16, crc32 } = require('easy-crc');
-const { openPort, runSyncExec, writeData } = require('./helper/serialport_helper.js');
-const { bytesToInt, longToByteArray, addZeroBefore, isEmptyObject, convertUTCDateToLocalDate } = require('./helper/utils');
-const bitwise = require('bitwise');
-
-var SunCalc = require('./helper/suncalc.js');
-const DataToTbHandler = require('./helper/DataToTbHandler.js');
-const ErrorToServiceHandler = require('./helper/ErrorToServiceHandler.js');
-const { promisifyBuilder } = require('./helper/db_helper.js');
-const { sendNotification, initNotifications, ERRWEIGHT } = require('./helper/notification_reporter.js');
-
-//https://github.com/log4js-node/log4js-node/blob/master/examples/example.js
-//file: { type: 'file', filename: path.join(__dirname, 'log/file.log') }
-
-var path = require('path');
-var log4js = require("log4js");
-const process = require('process');
-
-log4js.configure({
-  appenders: {
-    errLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'err.txt') },
-    monitorLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'monitor.txt') },
-    console: { type: 'console' }
-  },
-  categories: {
-    errLogs: { appenders: ['console', 'errLogs'], level: 'error' },
-    monitorLogs: { appenders: ['console', 'monitorLogs'], level: 'trace' },
-    //another: { appenders: ['console'], level: 'trace' },
-    default: { appenders: ['console'], level: 'trace' }
-  }
-});
-
-const errLogger = log4js.getLogger("errLogs");
-const logger = log4js.getLogger();
-const monitor = log4js.getLogger("monitorLogs");
-
-//USAGE
-//logger.debug("text")
-//monitor.info('info');
-//errLogger.error("some error");
-
-//load from settings
-let latitude = 48.70826502;//48.682255758;
-let longitude = 17.28455203;//17.278910807;
-
-const gmtOffset = 0;
-
-//ak nie je nastaveny 
-//https://www.tecmint.com/set-time-timezone-and-synchronize-time-using-timedatectl-command/
-//https://stackoverflow.com/questions/16086962/how-to-get-a-time-zone-from-a-location-using-latitude-and-longitude-coordinates
-
-//priorities for registers
-let priorities = [];
-
-let minutes = 0.2;
-priorities["1"] = minutes;
-priorities["42"] = minutes;
-
-minutes = 1;
-priorities["0"] = minutes;
-priorities["104"] = minutes;
-
-minutes = 5;
-priorities["74"] = minutes;
-priorities["75"] = minutes;
-priorities["76"] = minutes;
-priorities["77"] = minutes;
-priorities["78"] = minutes;
-priorities["79"] = minutes;
-priorities["84"] = minutes;
-
-minutes = 10; 
-priorities["87"] = minutes;
-priorities["6"] = minutes;
-priorities["7"] = minutes;
-priorities["80"] = minutes;
-priorities["8"] = minutes;
-priorities["3"] = minutes;
-priorities["89"] = minutes;
-priorities["95"] = minutes;
-
-//prikazy kt sa budu spustat na dany node - see config.js in terminal-oms.app
-let listOfCommands = [0,1,3,6,7,8,42,74,75,76,77,78,79,80,84,87,89,95,104];
-
-//1 - dimming
-
-const dbNodes = TABLE("nodes");
-const dbRelays = TABLE("relays");
-const dbSettings = TABLE("settings");
-
-const errorHandler = new ErrorToServiceHandler();
-
-let rotary_switch_state = "Off";
-let lux_sensor;
-let state_of_breaker = {};//key is line, value is On/Off
-let disconnectedReport = {};//key is tbname, value true/false
-
-let relaysData = {};//key is line, value is data from db
-let nodesData = {};//key is node, value data from db
-
-//helper container for counting resolved group of commands (commands related to set profile)
-let cmdCounter = {};//key is node, value is counter
-let cmdNOKNodeCounter = {};//key is node, value is counter
-function cmdCounterResolve(address)
-{
-  if(cmdCounter.hasOwnProperty(address))
-  {
-    cmdCounter[address] = cmdCounter[address] - 1;
-    
-    let result = cmdCounter[address];
-    if(result == 0) delete cmdCounter[address];
-
-    return result;
-  }
-
-  return -1;
-}
-
-function getParams(priority)
-{
-  let params = {};
-
-  //core rpc values
-  params.address = 0;//if(recipient === 0) address = 0;
-  params.byte1 = 0;//msb, podla dokumentacie data3
-  params.byte2 = 0;//podla dokumentacie data2
-  params.byte3 = 0;//podla dokumentacie data1
-  params.byte4 = 0;//lsb, podla dokumentacie data0
-  params.recipient = 0;//0: Master, 1: Slave, 2: Broadcast
-  params.register = -1;//register number
-  params.rw = 0;//0: read, 1: write
-
-  //other values
-  //params.type = "cmd"; "relay" "cmd-terminal"
-  //params.tbname = tbname;
-  params.priority = priorityTypes.node_cmd;//default priority
-  params.timestamp = 0;//execution time
-  if(priority != undefined )
-  {
-    params.timestamp = priority;
-    params.priority = priority;
-  }
-  
-  params.addMinutesToTimestamp = 0;//repeat if > 0,
-
-  //params.isDusk = false;
-  //params.isDawn = false;
-  //params.info = "";
-
-  return params;
-}
-
-async function loadSettings()
-{
-  let responseSettings = await promisifyBuilder(dbSettings.find());
-
-  latitude = responseSettings[0]["latitude"];
-  longitude = responseSettings[0]["longitude"];
-
-  //globals
-  FLOW.OMS_language = responseSettings[0]["lang"];
-  FLOW.OMS_rvo_name = responseSettings[0]["rvo_name"];
-  FLOW.OMS_projects_id = responseSettings[0]["projects_id"];
-  //FLOW.OMS_rvo_tbname = responseSettings[0]["tbname"];
-  FLOW.OMS_temperature_adress = responseSettings[0]["temperature_adress"];
-  FLOW.OMS_controller_type = responseSettings[0]["controller_type"];
-  FLOW.OMS_serial_port = responseSettings[0]["serial_port"];
-
-  //logger.log("", "settings", responseSettings[0], "-------------------------------------");
-  logger.debug('settings', responseSettings[0]);
-
-  //FLOW.OMS_tem
-  //rvo_name:string|lang:string|temperature_adress:string|latitude:number|longitude:number
-
-  initNotifications();
-} 
-
-//nastav profil nodu
-function processNodeProfile(node)
-{
-  if(rotary_switch_state != "Automatic")
-  {
-    logger.debug("unable to process profile for node", node, "rotary_switch_state != Automatic");
-    return;
-  }
-
-  let nodeObj = nodesData[node];
-  let line = nodeObj.line;
-
-  if(relaysData[line].contactor == 0)
-  {
-    logger.debug("line line is off", line, node);
-    return;
-  }
-
-  if(nodeObj.processed == 1)
-  {
-    logger.debug("node was already processed", node);
-    return;
-  }
-
-  let profile = nodeObj.profile;
-
-  logger.debug("processNodeProfile: start - set profile for ", node, profile);
-
-  let nodeProfile;
-  try {
-
-    nodeProfile = JSON.parse( profile );
-
-    if(Object.keys(nodeProfile).length === 0) {
-
-      //ak nie je pre node nastaveny profil, nastavime dimming nodu podla hodnoty v nodes.table
-      console.log('____________ttttt', nodeObj.tbname, node, nodeObj.dimming)
-      let params = getParams(priorityTypes.high_priority);
-      params.type = "cmd";
-      params.tbname = nodeObj.tbname;
-      params.address = node;
-      params.register = 1;//dimming
-      params.recipient = 1;//slave
-      params.byte4 = nodeObj.dimming;
-      params.rw = 1;//write
-      params.timestamp = priorityTypes.high_priority;
-      params.info = 'setNodeDimming';
-      //params.debug = true;
-      logger.debug("dimming", params);
-      tasks.push(params);
-      
-      throw ("profile is not defined");
-
-    }
-  } catch (error) {} 
-
-  //test reset profilu
-  //nodeProfile = undefined;
-
-  logger.debug("processNodeProfile", node, line, nodeObj, nodeProfile);
-  //return;
-
-  //let timestamp = priorityTypes.node_cmd;
-
-  //let now = new Date();
-  //now.setSeconds(now.getSeconds() + 10);
-  //let timestamp = now.getTime();
-
-  let timestamp = priorityTypes.node_cmd;
-
-  //nodeProfile = undefined;
-  removeTask({type: "set_node_profile", address: node});
-  cmdNOKNodeCounter[node] = 0;
-
-  //co ked sa prave spracovava?
-  //if(cmdNOKNodeCounter[params.address] < 5) saveToTb = false;
-
-
-  if(nodeProfile === undefined)
-  {
-    //vypneme profil nodu, posleme cmd
-    //Pokiaľ je hodnota rovná 1 – Profil sa zapne, ostatné bity sa nezmenia.
-    //Pokiaľ sa hodnota rovná 2 – profil sa vypne, ostatné bity sa nezmenia
-
-    logger.debug("turn off profile");
-
-    let params = getParams(priorityTypes.node_cmd);
-    params.type = "set_node_profile";
-    params.address = node;
-    params.byte1 = 0;
-    params.byte2 = 0;
-    params.byte3 = 0;
-    params.byte4 = 32;
-    params.recipient = 1;
-    params.register = 8;
-    params.rw = 1;//write
-    params.timestamp = timestamp;
-    params.addMinutesToTimestamp = 0;
-    params.info = 'turn off/reset node profile';
-
-    cmdCounter[node] = 1;
-
-    tasks.push(params);
-
-    //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.NOTICE, "Master node is working again", "", instanceSendTo.tb, instance );
-  }
-  else
-  {
-    let tasksProfile = [];
-    //cmdCounter[node] = tasksProfile.length;
-    //tasks.push(tasksProfile);
-    
-    //let timestamp = priorityTypes.node_cmd;
-
-    //vypneme profil -  Zapísať hodnotu 32 do registra Time Schedule Settings – reset profilu
-    let params = getParams(priorityTypes.node_cmd);
-    params.type = "set_node_profile";
-    params.address = node;
-    params.byte1 = 0;
-    params.byte2 = 0;
-    params.byte3 = 0;
-    params.byte4 = 32;
-    params.recipient = 1;
-    params.register = 8;
-    params.rw = 1;//write
-    params.timestamp = timestamp;
-    params.addMinutesToTimestamp = 0;
-    params.info = 'turn off node profile';
-
-    tasksProfile.push(params);
-
-    timestamp++;
-
-    logger.debug("processNodeProfile: TS1 Time point a TS1 Time Point Levels ", node);
-
-//     "intervals": [
-//             {
-//               "cct": 3000,
-//               "value": 0,
-//               "end_time": "17:50",
-//               "start_time": "13:00"
-//             },
-//             {
-//               "cct": 3000,
-//               "value": 100,
-//               "end_time": "21:30",
-//               "start_time": "17:50"
-//             }
-//    ]
-
-    //TS1 Time point a TS1 Time Point Levels
-    let register = 9;
-    for(let i = 0; i < nodeProfile.intervals.length; i++)
-    {
-      let obj = nodeProfile.intervals[i];
-      //let timePoint = obj.time_point;
-      let dim_value = obj.value; 
-      let cct = obj.cct;
-
-      //Reg 9 až Reg 40
-
-      /*
-      Samotný profil sa zapisuje do max. 16 párov – časový bod a úroveň.
-      Prázdny profil je vtedy keď časový bod obsahuje hodnotu 0xFFFFFFFF (táto hodnota sa zapíše do registrov keď sa aktivuje reset profilu do registru 8).
-      Páry sa prechádzajú časovo zoradené takže teoreticky je jedno v akom poradí sa zapisujú ale je lepšie ich zapisovať v chronologickom poradí od 13:00.
-      Časový bod má formát:
-      Byte 3: hodiny  Byte 2: minúty  Byte 1: sekundy   Byte 0 – rezervované
-      Register úrovne má rovnaký formát ako dimming register (Reg 1). 
-      */
-
-      //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
-      //params.byte1 = 0;//msb, podla dokumentacie data3
-      //params.byte2 = 0;//podla dokumentacie data2
-      //params.byte3 = 0;//podla dokumentacie data1
-      //params.byte4 = 0;//lsb, podla dokumentacie data0
-      //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
-
-      let start_time = obj.start_time;
-      let t = start_time.split(":");
-      //if(timePoint != undefined) t = timePoint.split(":");
-      //else t = [0,0];
-
-      logger.debug("processNodeProfile: TS1 Time point ", (i + 1), node);
-
-      params = getParams(priorityTypes.node_cmd);
-      params.type = "set_node_profile";
-      params.address = node;
-      params.byte1 = parseInt(t[0]);//hh
-      params.byte2 = parseInt(t[1]);//mm
-      params.byte3 = 0;//ss
-      params.byte4 = 0;//
-      params.recipient = 1;
-      params.register = register;
-      params.rw = 1;//write
-      params.timestamp = timestamp;
-      params.addMinutesToTimestamp = 0;
-      params.info = 'TS1 Time point ' + (i + 1);
-
-      tasksProfile.push(params);
-
-      register++;
-      timestamp++;
-
-      // ked zapisujeme Time point levels, zapisujeme:
-      // byte1 = 1, byte2 = CCT_H, byte3 = CCT_L, byte 4 = dimming
-      byte2 = Math.floor(cct/256);
-      byte3 = cct - (byte2 * 256);
-
-      params = getParams(priorityTypes.node_cmd);
-      params.type = "set_node_profile";
-      params.address = node;
-      params.byte1 = 1;
-      params.byte2 = byte2;
-      params.byte3 = byte3;
-      params.byte4 = parseInt(dim_value) + 128;
-      params.recipient = 1;
-      params.register = register;
-      params.rw = 1;//write
-      params.timestamp = timestamp;
-      params.addMinutesToTimestamp = 0;
-      params.info = 'TS1 Time point Levels ' + (i + 1);
-
-      tasksProfile.push(params);
-
-      register++;
-      timestamp++;
-    }
-
-    //Threshold lux level for DUSK/DAWN
-    //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
-    //params.byte1 = 0;//msb, podla dokumentacie data3
-    //params.byte2 = 0;//podla dokumentacie data2
-    //params.byte3 = 0;//podla dokumentacie data1
-    //params.byte4 = 0;//lsb, podla dokumentacie data0
-    //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
-
-
-    //Time schedule settings na koniec
-    //if(nodeProfile.dusk_lux_sensor || nodeProfile.dawn_lux_sensor)
-    {
-
-      logger.debug("processNodeProfile: Threshold lux level for DUSK/DAWN", node);
-
-      let params = getParams(priorityTypes.node_cmd);
-      params.type = "set_node_profile";
-      params.address = node;
-      params.register = 96;
-      params.recipient = 1;
-      params.rw = 1;//write
-      params.timestamp = timestamp;
-      params.addMinutesToTimestamp = 0;
-      params.info = "Threshold lux level for DUSK/DAWN";
-
-      if(nodeProfile.dusk_lux_sensor)
-      {
-        let v = nodeProfile.dusk_lux_sensor_value;
-        let ba = longToByteArray(v);
-
-        params.byte1 = ba[1];//msb
-        params.byte2 = ba[0];
-      }
-
-      if(nodeProfile.dawn_lux_sensor)
-      {
-        let v = nodeProfile.dawn_lux_sensor_value;
-        let ba = longToByteArray(v);
-
-        params.byte3 = ba[1];//msb
-        params.byte4 = ba[0];
-      }
-
-      tasksProfile.push(params);
-      timestamp++;
-
-    }
-
-    //DUSK/DAWN max. adjust period
-    {
-
-      logger.debug("processNodeProfile: DUSK/DAWN max. adjust period", node);
-
-      let params = getParams(priorityTypes.node_cmd);
-      params.type = "set_node_profile";
-      params.address = node;
-      params.register = 97;
-      params.recipient = 1;
-      params.rw = 1;//write
-      params.timestamp = timestamp;
-      params.addMinutesToTimestamp = 0;
-      params.info = "DUSK/DAWN max. adjust period";
-
-      if(nodeProfile.astro_clock)
-      {
-        let v = nodeProfile.dusk_lux_sensor_time_window;
-        let ba = longToByteArray(v);
-
-        params.byte1 = ba[1];//msb
-        params.byte2 = ba[0];
-      }
-
-      if(nodeProfile.astro_clock)
-      {
-        let v = nodeProfile.dawn_lux_sensor_time_window;
-        let ba = longToByteArray(v);
-
-        params.byte3 = ba[1];//msb
-        params.byte4 = ba[0];
-      }
-
-      tasksProfile.push(params);
-      timestamp++;
-
-    }
-
-    //Static offset
-    {
-
-      //Statický offset pre časy úsvitu a súmraku. Byte 1 je pre DUSK, Byte 0 je pre DAWN. Formát:
-      //Bity 0 – 6: hodnota v minútach
-      //Bit 7:  znamienko (1 – mínus)
-      
-      logger.debug("processNodeProfile: Static offset", node);
-
-      let params = getParams(priorityTypes.node_cmd);
-      params.type = "set_node_profile";
-      params.address = node;
-      params.register = 98;
-      params.recipient = 1;
-      params.rw = 1;//write
-      params.timestamp = timestamp;
-      params.addMinutesToTimestamp = 0;
-      params.info = "Static offset";
-
-      if(nodeProfile.astro_clock)
-      {
-        let dusk_astro_clock_offset = parseInt(nodeProfile.dusk_astro_clock_offset);
-        let dawn_astro_clock_offset = parseInt(nodeProfile.dawn_astro_clock_offset);
-
-        if(dusk_astro_clock_offset < 0)
-        {
-          params.byte3 = (dusk_astro_clock_offset * -1) + 128;
-        }
-        else
-        {
-          params.byte3 = dusk_astro_clock_offset;
-        }
-
-        if(dawn_astro_clock_offset < 0)
-        {
-          params.byte4 = (dawn_astro_clock_offset * -1) + 128;
-        }
-        else
-        {
-          params.byte4 = dawn_astro_clock_offset;
-        }
-      }
-
-      tasksProfile.push(params);
-      timestamp++;
-    }
-
-    logger.debug("Time schedule settings - turn on", node);
-
-    params = getParams(priorityTypes.node_cmd);
-    params.type = "set_node_profile";
-    params.address = node;
-    params.register = 8;
-    params.recipient = 1;
-    params.rw = 1;//write
-    
-    
-
-    //Time schedule settings
-    let bits = [];
-
-    //Byte 0 (LSB):
-    //Bit 0 (LSB) – zapnutie/vypnutie profilov ako takých (1 – zapnuté). 
-    bits.push(1);
-    //Bit 1 – 3     - zatiaľ nepoužité (zapisovať 0)
-    bits.push(0);
-    bits.push(0);
-    bits.push(0);
-    if(nodeProfile.astro_clock == true)
-    {
-      //Bit 4 – ak je nastavený profil sa riadi podľa astrohodín, a je 0 tak profil je jednoduchý
-      bits.push(1);
-    }
-    else bits.push(0);
-
-    //Bit 5 – zápis 1 spôsobí reset nastavení profilu (nastavenie prázdneho profilu)
-    bits.push(0);
-
-    //Bity 6-7    - zatiaľ nepoužité
-    bits.push(0);
-    bits.push(0);
-
-    params.byte4 = bitwise.byte.write(bits.reverse());
-
-    //Byte 2 – nastavenie pre lux senzor:
-    bits = [];
-
-    //Bit 0 (LSB) – riadenie súmraku podľa lux senzoru (1 – zapnuté). Súmrak sa môže posúvať v rámci  času v registri 97 podľa intenzity osvetlenia
-    if(nodeProfile.dusk_lux_sensor == true)//sumrak
-    {
-      bits.push(1);
-    }
-    else bits.push(0);
-
-    //Bit 1 - riadenie úsvitu podľa lux senzoru (1 – zapnuté). Úsvit sa môže posúvať v rámci  času v registri 97 podľa intenzity osvetlenia
-    if(profile.dawn_lux_sensor == true)//usvit
-    {
-      bits.push(1);
-    }
-    else bits.push(0);
-
-    //Bit 2 – zdroj pre hodnotu luxov – 0 – RVO posiela hodnoty zo svojho luxmetra, 1 – node má pripojený svoj vlastný lux meter.
-    bits.push(0);//zatial neimplementovane
-
-    //Bit 3 – 7  - nepoužité
-    bits.push(0);
-    bits.push(0);
-    bits.push(0);
-    bits.push(0);
-    bits.push(0);
-
-    params.byte2 = bitwise.byte.write(bits.reverse());
-    params.timestamp = timestamp;
-    params.info = "Time schedule settings - turn on";
-
-    tasksProfile.push(params);
-
-    //zaver
-    cmdCounter[node] = tasksProfile.length;
-
-    //tasks.push(tasksProfile);
-    tasks = tasks.concat(tasksProfile); 
-
-  }
-
-  logger.debug("finished set profile for ", node);
-
-}
-
-const instanceSendTo = {
-  debug: 0,
-  tb: 1,
-  http_response: 2,
-  di_do_controller: 3,
-  infoSender: 4
-}
-
-const priorityTypes = {
-  terminal: 0,
-  fw_detection: 1,//reserved only for FW detection - FLOW.OMS_masterNodeIsResponding
-  high_priority: 2,//reserverd only for: read dimming / brightness (after set dimming from platform)
-  relay_profile: 3,
-  node_broadcast: 4,
-  node_profile: 5,
-  node_cmd: 6
-}
-
-
-let interval = null;//timeout for procesing tasks
-let refFlowdata = null;//holds reference to httprequest flowdata
-let refFlowdataObj = {};
-
-function cleanUpRefFlowdataObj()
-{
-      let now = new Date();
-      let timestamp = now.getTime();
-
-      //clear old refFlowdata references
-      let keys = Object.keys(refFlowdataObj);
-      for(let i = 0; i < keys.length; i++)
-      {
-        let timestampKey = keys[i];
-
-        if((timestamp - timestampKey) > 60*1000 )
-        {
-          console.log("cleanUpRefFlowdataObj delete", timestampKey);
-          delete refFlowdataObj[ timestampKey ]; 
-        }
-      }
-}
-
-let tasks = [];//list of command calls to process
-
-function removeTask(obj)
-{
-
-  let keys = Object.keys(obj);
-  tasks = tasks.filter((task) => {
-
-    let counter = 0;
-    for(let i = 0; i < keys.length; i++)
-    {
-      let key = keys[i];
-      if(task.hasOwnProperty(key) && obj.hasOwnProperty(key))
-      {
-        if(task[key] == obj[key]) counter++;
-      }
-
-    }
-  
-    if(counter == keys.length) return false;
-    return true;
-
-  });
-
-}
-
-
-//TODO - to remove?
-const shortIterval = 10;
-const longInterval = 100;
-
-loadSettings();
-
-exports.install = function(instance) {
-
-  process.on('uncaughtException', function (err) {
-
-    //TODO send to service
-  
-    errLogger.error('uncaughtException:', err.message)
-    errLogger.error(err.stack);
-
-    errorHandler.sendMessageToService(err.message + "\n" + err.stack, 0, "js_error");
-    //process.exit(1);
-  })
-  
-  //te();//force error
-
-  const tbHandler = new DataToTbHandler(instanceSendTo.tb);
-  tbHandler.setSender(exports.title);
-
-  //FLOW.OMS_projects_id, name: FLOW.OMS_rvo_name
-  //const errorHandler = new ErrorToServiceHandler(instance, instanceSendTo.infoSender);
-  errorHandler.setProjectsId(FLOW.OMS_projects_id);
-  //const errorHandler = new ErrorToServiceHandler(instance);
-  //errorHandler.sendMessageToService("ahoj", 0);
-
-
-  async function loadRelaysData(line)
-  {
-    logger.debug("loadRelaysData", line);
-  
-    //ak zapiname liniu, mali by sme skontrolovat kde processed je false
-    //nodes.table: node:number|tbname:string|line:number|profile:string|processed:boolean
-    //vyselektujem vsetky nodes a spracujem profil
-  
-    return new Promise((resolve, reject) => {
-  
-      dbRelays.find().make(function(builder) {
-        builder.callback(function(err, response) {
-  
-          if(err != null) reject(err);
-    
-          let relaysDataTmp = {};
-          for(let i = 0; i < response.length; i++)
-          {
-            let record = response[i];
-            let line = record["line"];
-            relaysDataTmp[ record["line"] ] = record;
-  
-            //porovname predchadzajuce hodnoty
-            //ak record.contactor == 1, a aktualna hodnota record.contactor == 0
-            //to znamena, ze sa zmenil stav - linia bola vypnuta
-  
-            let prevData = relaysData[ record["line"] ];
-  
-            //ugly but do not remove!!!
-            relaysData[ record["line"] ] = record;
-  
-            let state = "";//on, off or empty (no change)
-            if(prevData != undefined)
-            {
-              /*
-              if(prevData.contactor == 1 && record.contactor == 0)
-              {
-                state = "off";
-                reportOfflineNodeStatus(line);
-              }
-  
-              if(prevData.contactor == 0 && record.contactor == 1)
-              {
-                state = "on";
-                reportOnlineNodeStatus(line);
-              }
-              */
-              
-            }
-            else
-            {
-              //start flowu
-              state = "start";
-            }
-  
-            if(line != undefined)
-            {
-              //ak sa jedna o update profilu linie - pozor di_co_controller posiela command pre loadRelaysData
-              if(line !=  record["line"] ) continue;
-            }
-  
-            //je zapnuta linia? contactor = 1 a processed = false, spracujeme profil
-            if(record.contactor == 1)
-            {
-  
-              //nespracovany profil, zapisem do nodu
-              //rotary_switch_state = Automatic - profilu pre nody sa vykonavaju
-              //ak je spracovany, a automatic - tak ho zapnem
-              
-              if(rotary_switch_state == "Automatic")
-              {
-                //prejs nodes - nacitame vsetky nody z pre danu liniu
-                for (let k in nodesData) {
-                  //node:number|tbname:string|line:number|profile:string|processed:boolean
-  
-
-
-                  let node = nodesData[k];
-
-                  //potrebujem nody k danej linii
-                  if(record.line == node.line)
-                  {
-                    let address = node.node;
-                  console.log('^^^^ggggggg',address)
-                    let processed = node.processed;
-                    let dimming = node.dimming;
-                    if(!node.profile)
-                    {
-                      console.log('+-+-+----llllll - posielam dimming')
-                      let params = getParams(priorityTypes.high_priority);
-
-                      //set dimming - LUM1_13 - 647 je node linie 1 kt. dobre vidime
-                      params.type = "cmd";
-                      params.tbname = node.tbname;
-                      params.address = address;
-                      params.register = 1;//dimming
-                      params.recipient = 1;//slave
-                      params.byte4 = dimming;
-                      params.rw = 1;//write
-                      params.timestamp = priorityTypes.high_priority;
-                      params.info = 'setNodeDimming';
-                      //params.debug = true;
-
-                      tasks.push(params)
-                    }
-  
-                    if(!processed)
-                    {
-                      console.log('=====procesujem profille')
-                      processNodeProfile(address);
-                    }
-                    else 
-                    {
-                      //logger.debug( `node ${node} profile for line ${nodesData[k].line} was already processed`);
-                    }
-                  }
-                }
-  
-              }
-              else
-              {
-                logger.debug("unable to process profile - rotary_switch_state is", rotary_switch_state);
-              }
-  
-            }
-          }
-    
-          relaysData = {...relaysDataTmp};
-  
-          resolve("OK");
-    
-        });
-      });    
-      //resolve(stdout);
-      //reject(error);
-  
-    })
-  }
-
-  function reportOnlineNodeStatus(line)
-  {
-    //broadcast cas, o 1-2 sek neskor - status, brightness
-
-    //Po zapnutí línie broadcastovo aktualizovať predtým čas.
-
-    logger.debug("--->reportOnlineNodeStatus for line", line);
-
-    //return;
-
-    {
-      //run broadcast //Actual time
-      addMinutesToTimestamp = 0;
-
-      let params = {};
-
-      let recipient = 2;//2 broadcast, address = 0
-      let address = 0;//0
-      if(recipient === 2)
-      {
-          address = 0xffffffff;//Broadcast
-      }
-
-      var d = new Date();
-      let hours = d.getHours();
-      let minutes = d.getMinutes();
-      let seconds = d.getSeconds();
-
-      params.address = address;//broadcast
-      params.byte1 = hours;//h
-      params.byte2 = minutes;//m
-      params.byte3 = seconds;//s
-      params.byte4 = 0;
-      params.recipient = recipient;
-      params.register = 87;//Actual time
-      params.rw = 1;//write
-
-      let timestampStart = priorityTypes.node_broadcast;
-
-      //other values
-      params.type = "cmd";
-      //params.tbname = tbname;
-      params.timestamp = timestampStart;
-      params.addMinutesToTimestamp = addMinutesToTimestamp;
-      params.info = "run broadcast: Actual time";
-
-      tasks.push(params);
-
-      let sec = 3;
-      setTimeout(function(){
-        //Po zapnutí línie - spraviť hromadný refresh stavu práve zapnutých svietidiel
-
-        for (let k in nodesData) {
-          
-          //potrebujem nody k danej linii
-          if(line == nodesData[k].line || line == undefined)
-          {
-            let tbname = nodesData[k].tbname;
-            let node = nodesData[k].node;
-
-            //prud, vykon - current, input power pre liniu pre vsetky nody
-      
-            //a pridame aj vyreportovanie dimmingu
-            {
-              let params = getParams(priorityTypes.high_priority);
-
-              params.type = "cmd";
-              params.tbname = tbname;
-              params.address = node;
-              params.register = 1;//dimming
-              params.recipient = 1;//slave
-              params.rw = 0;//read
-              params.timestamp = priorityTypes.high_priority;
-              params.info = 'read dimming / brightness (after set dimming from platform)';
-              //params.debug = true;
-
-              tasks.push(params);
-            }
-
-            //Prúd
-            {
-              let params = getParams(priorityTypes.high_priority);
-
-              params.type = "cmd";
-              params.tbname = tbname;
-              params.address = node;
-              params.register = 75;//prud
-              params.recipient = 1;//slave
-              params.rw = 0;//read
-              params.timestamp = priorityTypes.high_priority;
-              params.info = 'read current (after set dimming from platform)';
-              //params.debug = true;
-
-              tasks.push(params);
-            }
-
-            //výkon
-            {
-              let params = getParams(priorityTypes.high_priority);
-
-              params.type = "cmd";
-              params.tbname = tbname;
-              params.address = node;
-              params.register = 76;//výkon
-              params.recipient = 1;//slave
-              params.rw = 0;//read
-              params.timestamp = priorityTypes.high_priority;
-              params.info = 'read power (after set dimming from platform)';
-              //params.debug = true;
-
-              tasks.push(params);
-            }
-            
-          }
-        }
-
-      },sec*1000);
-
-    }
-
-  }
-
-  function reportOfflineNodeStatus(line)
-  {
-
-    logger.debug("--->reportOfflineNodeStatus for line", line);
-
-    values = {};
-    values["dimming"] = 0;//brightness
-    values["power"] = 0;//výkon
-    values["current"] = 0;//prúd
-    values["status"] = "OFFLINE";//prúd
-  
-    for (let k in nodesData) {
-          
-      //potrebujem nody k danej linii
-      if(line == nodesData[k].line || line == undefined)
-      {
-        let tbname = nodesData[k].tbname;
-
-        //logger.debug("node:", tbname);
-  
-        let dataToTb = {
-          [tbname]: [
-              { 
-                "ts": Date.now(),
-                "values": values
-              }
-            ]
-          }
-  
-          //instance.send(instanceSendTo.tb, dataToTb);
-          tbHandler.sendToTb(dataToTb, instance);
-      }
-    }
-
-    //report OFFLINE for line
-    //relaysData[line].tbname; 
-
-    //values = {};
-    //values["status"] = "OFFLINE";//prúd
-  }
-
-  let now = new Date();
-  console.log("CMD Manager installed", now.toLocaleString("sk-SK"));
-
-  function turnOnLine(line, info)
-  {
-    let obj = {
-        line: line,
-        command: "turnOn",
-        info: info
-    };
-
-    logger.debug("linia", line, obj);
-
-    instance.send(instanceSendTo.di_do_controller, obj);
-  }
-  
-  function turnOffLine(line, info)
-  {
-    let obj = {
-        line: line,
-        command: "turnOff",
-        info: info
-      };
-
-      logger.debug("linia", line, obj);
-
-    instance.send(instanceSendTo.di_do_controller, obj);
-  }
-
-  function detectIfResponseIsValid(bytes)
-  {
-
-    //ak sa odpoved zacina 0 - je to v poriadku, inak je NOK
-
-    let type = "RESPONSE";
-    if(bytes[4] == 0) type = "RESPONSE";
-    else if(bytes[4] == 1) type = "ERROR";
-    else if(bytes[4] == 2) type = "EVENT";
-    else type = "UNKNOWN";
-    
-    let crc = crc16('ARC', bytes.slice(0, 9));
-    let c1 = (crc >> 8) & 0xFF;
-    let c2 = crc & 0xFF;
-  
-    let message = "OK";
-    let error = "";
-    if(c1 != bytes[9])
-    {
-      //CRC_ERROR
-      message = "NOK";
-      error = "CRC_ERROR c1";
-      instance.send(instanceSendTo.debug, "CRC_ERROR c1");
-    }
-  
-    if(c2 != bytes[10])
-    {
-      //CRC_ERROR
-      message = "NOK";
-      error = "CRC_ERROR c2";
-      instance.send(instanceSendTo.debug, "CRC_ERROR c2");
-    }
-    
-    //crc error
-    if(type != "RESPONSE") 
-    {
-      instance.send(instanceSendTo.debug, bytes);
-      instance.send(instanceSendTo.debug, "RESPONSE " + type + " - " + bytes[4]);
-
-      //logger.debug(instanceSendTo.debug, "RESPONSE " + type + " - " + bytes[4], bytes);
-
-      error = "type is: " + type;
-
-      message = "NOK";
-    }
-  
-    return {message: message, type: type, error: error};
-  }
-
-  function buildTasks(params)
-  {
-
-    //report FLOW.OMS_edge_fw_version as fw_version
-    //report date as startdate
-
-    monitor.info("buildTasks - params", params);
-
-    let processLine;  //defined line
-
-    let init = false;
-    let processLineProfiles = true;
-    let processBroadcast = true;
-    let processNodes = true;
-
-    if(params == undefined) 
-    {
-      init = true;
-      tasks = [];
-
-      logger.debug("-->buildTasks clear tasks");
-    }
-    else
-    {
-      processLineProfiles = false;
-      processBroadcast = false;
-      processNodes = false;
-
-      processLineProfiles = params.processLineProfiles;
-      processLine = params.line;
-    }
-
-    //load profiles pre linie
-    //relaysData[ record["line"] ]
-
-    let now = new Date();
-
-    if(processLineProfiles)
-    {
-      //process line profiles
-      let keys = Object.keys(relaysData);
-      for(let i = 0; i < keys.length; i++)
-      {
-        let line = keys[i];//line is turned off by default
-        let profilestr = relaysData[line].profile;
-
-        //Reset linii
-        let resetLine = false;
-        if(FLOW.OMS_rvo_name == "Kovalov RVO 2" && line != '0' && init == true) resetLine = true;
-
-        if(resetLine)
-        {
-          /*
-
-          Takže v Koválove sú nastavené offesty pre dusk a dawn nasledovne:
-          
-          DUSK: offset +20 minút – teda napr. namiesto 17:00 bude 17:20 a reštart by sa robil v čase 17:19, teda o minútu skôr. Tak aby keď budeš robiť zapnutie o 17:20 tak na RVO1 sa svietidlá zapnú v rovnakom čase. Teda: vypnutie v čase DUSK_TIME + 19 minút, zapnutie v čase DUSK_TIME + 20 minút
-          DAWN: offset -30 minút – teda napr. namiesto 7:00 bude 6:30   a reštart by sa robil v čase 6:30, tak aby sa svietidlá zhasli rovnako s RVO1. Zapnutie by bolo 6:31.
-          
-          Teda: vypnutie v čase DAWN_TIME -30 minút, zapnutie v čase DAWN_TIME -29 minút
-          
-          Vždy po reštarte asi 30 sekúnd po zapnutí treba poslať aktuálny čas na nody. 
-          */
-
-          //function calculateDuskDown(date, line, duskOffset = 0, dawnOffset = 0)
-          let duskOffset = 20;
-          let dawnOffset = -30;
-          let sunCalcResult = calculateDuskDown(new Date(), undefined, duskOffset, dawnOffset);
-
-          console.log(sunCalcResult);
-
-          //if(isDusk) time_points[t].value = 1;//sumrak - zapneme svetlo
-          //if(isDawn) time_points[t].value = 0;//vychod - vypneme svetlo
-
-          //DUSK - sumrak
-          {
-
-            //vypneme liniu a o minitu zapneme
-            {
-              let value = 0;//vypneme liniu
-              let isDusk = true;
-              let isDawn = false;
-  
-              let dusk_time = sunCalcResult.dusk_time;
-              if(dusk_time < now.getTime()) dusk_time = dusk_time + 24*60*60*1000;//1den
-              
-              let params = getParams(priorityTypes.relay_profile);
-              params.type = "relay";
-              params.line = line;
-              params.value = value;
-              params.tbname = relaysData[line].tbname;
-              params.timestamp = dusk_time;
-              params.duskOffset = duskOffset;
-              params.useProfile = false;
-  
-              //once a day
-              params.addMinutesToTimestamp = 24*60;
-  
-              //this will be recalculated
-              params.isDusk = isDusk;
-              params.isDawn = isDawn;
-  
-              if(params.value == 0) params.info = "reset - KOVALOV - force turn off line: " + line;
-              else if(params.value == 1) params.info = "reset - KOVALOV - force turn on line: " + line;
-  
-              params.debug = true;
-  
-              //turn on/off line
-              tasks.push(params);
-  
-              console.log(params);
-            }
-
-            //a o minutu zapneme
-            {
-              let value = 1;//zapneme liniu
-              let isDusk = true;
-              let isDawn = false;
-  
-              let dusk_time = sunCalcResult.dusk_time + 60*1000;//o minutu neskor po vypnuti zapneme
-              if(dusk_time < now.getTime()) dusk_time = dusk_time + 24*60*60*1000;//1den
-              
-              let params = getParams(priorityTypes.relay_profile);
-              params.type = "relay";
-              params.line = line;
-              params.value = value;
-              params.tbname = relaysData[line].tbname;
-              params.timestamp = dusk_time;
-              params.duskOffset = duskOffset + 1;
-              params.useProfile = false;
-  
-              //once a day
-              params.addMinutesToTimestamp = 24*60;
-  
-              //this will be recalculated
-              params.isDusk = isDusk;
-              params.isDawn = isDawn;
-  
-              if(params.value == 0) params.info = "reset - KOVALOV - force turn off line: " + line;
-              else if(params.value == 1) params.info = "reset - KOVALOV - force turn on line: " + line;
-  
-              params.debug = true;
-  
-              //turn on/off line
-              tasks.push(params);
-  
-              console.log(params);
-            }
-
-
-          }
-          
-          //DAWN - vychod
-          {
-            //vypneme liniu a o minitu zapneme
-            {
-              let value = 0;//vypneme liniu
-              let isDusk = false;
-              let isDawn = true;
-  
-              let dawn_time = sunCalcResult.dawn_time;
-              if(dawn_time < now.getTime()) dawn_time = dawn_time + 24*60*60*1000;//1den
-              
-              let params = getParams(priorityTypes.relay_profile);
-              params.type = "relay";
-              params.line = line;
-              params.value = value;
-              params.tbname = relaysData[line].tbname;
-              params.timestamp = dawn_time;
-  
-              params.dawnOffset = dawnOffset;
-              params.useProfile = false;
-  
-              //once a day
-              params.addMinutesToTimestamp = 24*60;
-  
-              //this will be recalculated
-              params.isDusk = isDusk;
-              params.isDawn = isDawn;
-  
-              if(params.value == 0) params.info = "reset - KOVALOV - force turn off line: " + line;
-              else if(params.value == 1) params.info = "reset - KOVALOV - force turn on line: " + line;
-  
-              params.debug = true;
-  
-              //turn on/off line
-              tasks.push(params);
-  
-              console.log(params);
-            }
-
-            //a o minitu zapneme
-            {
-              let value = 1;//vypneme liniu
-              let isDusk = false;
-              let isDawn = true;
-  
-              let dawn_time = sunCalcResult.dawn_time + 1000*60;//o minutu neskor po vypnuti zapneme
-              if(dawn_time < now.getTime()) dawn_time = dawn_time + 24*60*60*1000;//1den
-              
-              let params = getParams(priorityTypes.relay_profile);
-              params.type = "relay";
-              params.line = line;
-              params.value = value;
-              params.tbname = relaysData[line].tbname;
-              params.timestamp = dawn_time;
-  
-              params.dawnOffset = dawnOffset + 1;
-              params.useProfile = false;
-  
-              //once a day
-              params.addMinutesToTimestamp = 24*60;
-  
-              //this will be recalculated
-              params.isDusk = isDusk;
-              params.isDawn = isDawn;
-  
-              if(params.value == 0) params.info = "reset - KOVALOV - force turn off line: " + line;
-              else if(params.value == 1) params.info = "reset - KOVALOV - force turn on line: " + line;
-  
-              params.debug = true;
-  
-              //turn on/off line
-              tasks.push(params);
-  
-              console.log(params);
-            }
-
-
-          }
-
-          //console.log("-------------------------Kovalov RVO 2----");
-        }
-
-        if(processLine != undefined)
-        {
-          if(processLine != line) continue;
-        }
-
-        try{
-
-          if(profilestr === "") throw ("profile is not defined");
-          let profile = JSON.parse(profilestr);
-          if(Object.keys(profile).length === 0) throw ("profile is not defined");
-
-          monitor.info("buildTasks: profile for line", line);
-          monitor.info("profile:", profile);
-
-          let time_points = profile.time_points;
-          if(time_points == undefined) time_points = profile.intervals;
-
-          // monitor.info("buildTasks: time_points", time_points);
-
-          let currentValue = 0;
-          if(time_points.length > 0) currentValue = time_points[ time_points.length - 1].value;
-
-          //create task for tun on + turn off, calculate dusk/down
-          if(profile.astro_clock == true)
-          {
-            //let now = new Date().toLocaleString("en-US", {timeZone: "Europe/Bratislava"});
-            let sunCalcResult = calculateDuskDown(new Date(), line);
-
-            monitor.info("dusk and dawn sunCalcResult", line, sunCalcResult);
-
-            //add to timpoints
-            if(profile.dawn_lux_sensor == false) time_points.push( {"start_time": sunCalcResult["dawn"], "value": 1, "isDawn": true}  );
-            if(profile.dusk_lux_sensor == false) time_points.push( {"start_time": sunCalcResult["dusk"], "value": 0, "isDusk": true}  );
-
-            //aby nam to neostalo svietit
-            if(profile.dawn_lux_sensor == true)
-            {
-                //force to turn off after timestamp: dawn + dawn_lux_sensor_time_window
-                let [ahours, aminutes, aseconds] = sunCalcResult["dawn"].split(':');
-
-                let ad = new Date();
-                ad.setHours( parseInt(ahours) );
-                ad.setMinutes( parseInt(aminutes) + profile.dawn_lux_sensor_time_window );
-                ad.setSeconds(0);
-
-                let strDate = ad.getHours() + ":" + ad.getMinutes();
-
-                time_points.push( {"value": 0, "start_time": strDate}  );
-            }
-
-            if(profile.dusk_lux_sensor == true)
-            {
-                //force to turn off after timestamp: dawn + dawn_lux_sensor_time_window
-                let [ahours, aminutes, aseconds] = sunCalcResult["dusk"].split(':');
-
-                let ad = new Date();
-                ad.setHours( parseInt(ahours) );
-                ad.setMinutes( parseInt(aminutes) + profile.dawn_lux_sensor_time_window );
-                ad.setSeconds(0);
-
-                let strDate = ad.getHours() + ":" + ad.getMinutes();
-
-                time_points.push( {"value": 1, "start_time": strDate}  );
-            }
-          }
-
-          //sort time_points
-          time_points.sort(function (a, b) {
-
-            let [ahours, aminutes, aseconds] = a.start_time.split(':');
-            let [bhours, bminutes, bseconds] = b.start_time.split(':');
-        
-            let ad = new Date();
-            ad.setHours( parseInt(ahours) );
-            ad.setMinutes( parseInt(aminutes) );
-            ad.setSeconds(0);
-        
-            let bd = new Date();
-            bd.setHours( parseInt(bhours) );
-            bd.setMinutes( parseInt(bminutes) );
-            ad.setSeconds(0);
-        
-            return ad.getTime() - bd.getTime();
-          });
-
-          monitor.info("-->comming events turn on/off lines:");
-          for(let t = 0; t < time_points.length; t++)
-          {
-            
-            let start_time = new Date();
-
-            let isDusk = false;
-            let isDawn = false;
-            if(time_points[t].hasOwnProperty("isDusk")) isDusk = time_points[t].isDusk;
-            if(time_points[t].hasOwnProperty("isDawn")) isDawn = time_points[t].isDawn;
-
-            if(isDusk) time_points[t].value = 1;//sumrak - zapneme svetlo
-            if(isDawn) time_points[t].value = 0;//vychod - vypneme svetlo
-
-            if(time_points[t].hasOwnProperty("start_time"))
-            {
-              let [hours, minutes, seconds] = time_points[t].start_time.split(':');
-
-              start_time.setHours( parseInt(hours) );
-              start_time.setMinutes( parseInt(minutes) );
-              start_time.setSeconds(0);
-            }
-            
-            //task is the past
-            if(now.getTime() > start_time.getTime())
-            {
-              currentValue = time_points[t].value;
-
-              //je v minulosti, pridame 24h
-              start_time.setDate(start_time.getDate() + 1);
-            }
-        
-            let params = getParams(priorityTypes.relay_profile);
-            params.type = "relay";
-            params.line = line;
-            params.value = time_points[t].value;
-            params.tbname = relaysData[line].tbname;
-            params.timestamp = start_time.getTime();
-
-            params.addMinutesToTimestamp = 0;
-
-            //once a day
-            if(!isDusk && !isDawn) params.addMinutesToTimestamp = 24*60;
-
-            //inak sa cas vypocita dynamicky
-
-            //this will be recalculated
-            params.isDusk = isDusk;
-            params.isDawn = isDawn;
-
-            //if(profile.astro_clock == true && profile.dusk_lux_sensor == false && profile.dawn_lux_sensor == false)
-
-            if(params.value == 0) 
-            {
-              params.info = "turn off line: " + line;
-              if(isDusk) params.info = "dusk: turn off line: " + line;
-              if(isDawn) params.info = "dawn: turn off line: " + line;
-            }
-            else if(params.value == 1) 
-            {
-              params.info = "turn on line: " + line;
-              if(isDusk) params.info = "dusk: turn on line: " + line;
-              if(isDawn) params.info = "dawn: turn on line: " + line;
-            }
-
-            params.debug = true;
-
-            //turn on/off line
-            tasks.push(params);
-
-            monitor.info(params.info, start_time);
-
-          }
-
-          monitor.info("-->time_points final", line, time_points);
-
-          //ensure to turn on/off according to calculated value
-          let params = getParams(priorityTypes.terminal);
-          params.type = "relay";
-          params.line = parseInt(line);
-          params.tbname = relaysData[line].tbname;
-          params.value = currentValue;
-          params.isDusk = false;
-          params.isDawn = false;
-
-          params.timestamp = priorityTypes.terminal;
-          params.addMinutesToTimestamp = 0;
-          params.debug = true;
-
-          //logger.debug(now.toLocaleString("sk-SK"));
-          monitor.info("-->currentValue for relay", line, currentValue);
-
-          //turn on/off line
-          if(params.value == 0) params.info = "turn off line on startup: " + line;
-          else if(params.value == 1) params.info = "turn on line on startup: " + line;
-
-          tasks.push(params);
-
-
-        } catch (error) {
-          if(profilestr !=="" ) 
-          {
-            //errLogger.error(profilestr, error);
-            errorHandler.sendMessageToService(profilestr + "-" + error, 0, "js_error");
-          }
-        }
-
-      }
-
-      //logger.debug("tasks:");
-      //logger.debug(tasks);
-    }
-
-
-    //PROCESS DEFAULT BROADCASTS
-
-    //RPC pre nody / broadcast
-    //Time of dusk, Time of dawn
-    //Actual Time
-
-    if(processBroadcast)
-    {
-      let addMinutesToTimestamp = 5;
-
-      {
-        //run broadcast Time of dusk
-        addMinutesToTimestamp = 60*3;
-  
-        let params = getParams(priorityTypes.node_broadcast);
-  
-        let recipient = 2;//2 broadcast, address = 0
-        let address = 0;//0
-        if(recipient === 2)
-        {
-            address = 0xffffffff;//Broadcast
-        }
-  
-        let sunCalcResult = calculateDuskDown();
-        let dusk_hours = sunCalcResult["dusk_hours"];
-        let dusk_minutes = sunCalcResult["dusk_minutes"];
-  
-        params.address = address;//broadcast
-        params.byte1 = dusk_hours;//h
-        params.byte2 = dusk_minutes;//m
-        params.byte3 = 0;//s
-        params.byte4 = 0;
-        params.recipient = recipient;
-        params.register = 6;//Time of dusk - Reg 6
-        params.rw = 1;//write
-  
-        let timestampStart = priorityTypes.node_broadcast;
-  
-        //other values
-        params.type = "cmd";
-        //params.tbname = tbname;
-        params.timestamp = timestampStart;
-        params.addMinutesToTimestamp = addMinutesToTimestamp;
-        params.info = "Broadcast-duskTime";
-  
-        tasks.push(params);
-  
-      }
-  
-      {
-        //run broadcast Time of dawn
-        addMinutesToTimestamp = 60*3;
-  
-        let params = getParams(priorityTypes.node_broadcast);
-  
-        let recipient = 2;//2 broadcast, address = 0
-        let address = 0;//0
-        if(recipient === 2)
-        {
-            address = 0xffffffff;//Broadcast
-        }
-  
-        let sunCalcResult = calculateDuskDown();
-        let dawn_hours = sunCalcResult["dawn_hours"];
-        let dawn_minutes = sunCalcResult["dawn_minutes"];
-  
-        params.address = address;//broadcast
-        params.byte1 = dawn_hours;//h
-        params.byte2 = dawn_minutes;//m
-        params.byte3 = 0;//s
-        params.byte4 = 0;
-        params.recipient = recipient;
-        params.register = 7;//Time of dawn - Reg 6
-        params.rw = 1;//write
-  
-        let timestampStart = priorityTypes.node_broadcast;
-  
-        //other values
-        params.type = "cmd";
-        //params.tbname = tbname;
-        params.timestamp = timestampStart;
-        params.addMinutesToTimestamp = addMinutesToTimestamp;
-        params.info = "Broadcast-dawnTime";
-  
-        tasks.push(params);
-      }
-  
-      
-      {
-        //run broadcast //Actual time
-        addMinutesToTimestamp = 5;
-  
-        let params = getParams(priorityTypes.node_broadcast);
-  
-        let recipient = 2;//2 broadcast, address = 0
-        let address = 0;//0
-        if(recipient === 2)
-        {
-            address = 0xffffffff;//Broadcast
-        }
-  
-        var d = new Date();
-        let hours = d.getHours();
-        let minutes = d.getMinutes();
-        let seconds = d.getSeconds();
-  
-        params.address = address;//broadcast
-        params.byte1 = hours;//h
-        params.byte2 = minutes;//m
-        params.byte3 = seconds;//s
-        params.byte4 = 0;
-        params.recipient = recipient;
-        params.register = 87;//Actual time
-        params.rw = 1;//write
-  
-        let timestampStart = priorityTypes.node_broadcast;
-  
-        //other values
-        params.type = "cmd";
-        //params.tbname = tbname;
-        params.timestamp = timestampStart;
-        params.addMinutesToTimestamp = addMinutesToTimestamp;
-        params.info = "run broadcast: Actual time";
-  
-        tasks.push(params);
-  
-      }
-
-      {
-        //run broadcast Actual Lux level from cabinet
-
-        //Do tohto registra posiela riadiaca jednotka hodnotu intenzity osvetlenia ktorú meria jej senzor pre potreby riadenia časov súmraku resp. úsvitu podľa intenzity osvetlenia.
-        //Byty 0 (LSB) a 1 obsahujú 16 bitový integer s luxami.
-
-        let params = getParams(priorityTypes.node_broadcast);
-
-        addMinutesToTimestamp = 15;
-
-        let recipient = 2;//2 broadcast, address = 0
-        let address = 0;//0
-        if(recipient === 2)
-        {
-            address = 0xffffffff;//Broadcast
-        }
-
-        //TODO
-        //16 bitový integer s luxami
-        params.byte3 = lux_sensor;
-        params.byte4 = lux_sensor;
-        params.timestamp = priorityTypes.node_broadcast;
-        params.addMinutesToTimestamp = addMinutesToTimestamp;
-        params.info = "run broadcast: Actual Lux level from cabinet";
-        params.register = 95;//Actual Lux level from cabinet
-        params.rw = 1;//write
-
-      }
-    }
-
-    //process nodes & tasks
-    //reportovanie pre platformu
-    if(processNodes)
-    {
-      for (let k in nodesData) {
-        let address = parseInt(k);
-        let tbname = nodesData[k].tbname;
-        let register = 0;
-  
-        //logger.debug("generated cmd - buildTasks for node:", address);
-        
-        //listOfCommands - READ
-        for(let i = 0; i < listOfCommands.length; i++)
-        {
-          register = listOfCommands[i];
-          
-          let params = getParams(priorityTypes.node_cmd);
-  
-          //core rpc values
-          params.address = address;
-          params.byte1 = 0;
-          params.byte2 = 0;
-          params.byte3 = 0;
-          params.byte4 = 0;
-          params.recipient = 1;
-          params.register = register;
-          params.rw = 0;
-  
-          let addMinutesToTimestamp = priorities[register];
-  
-          let timestampStart = priorityTypes.node_cmd; //run imediatelly in function runTasks
-          if(addMinutesToTimestamp > 1)
-          {
-            timestampStart = timestampStart + addMinutesToTimestamp * 60000;
-          }
-  
-          //other values
-          params.type = "cmd";
-          params.tbname = tbname;
-          params.timestamp = timestampStart;
-          params.addMinutesToTimestamp = addMinutesToTimestamp;
-          params.info = "generated cmd - buildTasks (node)";
-  
-          //monitor last node && last command
-          /*
-          if(register == listOfCommands[ listOfCommands.length - 1 ])
-          {
-            //if(k == 632) params.debug = true;
-            if(k == 698) params.debug = true;
-          }
-          */
-  
-          tasks.push(params);
-  
-        }
-      }
-    }
-
-
-
-    //niektore ulohy sa vygeneruju iba 1x pri starte!!!
-    if(!init) return;
-
-
-    //Priebežne (raz za cca 5 minút) je potrebné vyčítať z Master nodu verziu jeho FW.
-    //Jedná sa o register 10. Rovnaká interpretácia ako pri FW verzii nodu.
-    //Adresa mastera je 0. V prípade že kedykoľvek nastane situácia že Master Node neodpovedá (napríklad pri vyčítaní telemetrie z nodu nevráti žiadne dáta),
-    //tak treba vyreportovať string "NOK".
-    {
-      let params = getParams(priorityTypes.fw_detection);
-      params.type = "cmd";
-      params.register = 4;
-      params.address = 0;
-
-      let timestampStart = priorityTypes.fw_detection;
-      params.timestamp = timestampStart;
-      params.addMinutesToTimestamp = 5;
-      params.tbname = FLOW.OMS_edgeName;
-      params.info = "Master node FW verzia";
-      //params.debug = true;
-
-      //this will set FLOW.OMS_masterNodeIsResponding
-      
-      tasks.push(params);
-    }
-
-    //kazdu hodinu skontrolovat nastavenie profilov
-    {
-      let params = getParams(priorityTypes.fw_detection);
-      params.type = "process_profiles";
-
-      let timestampStart = priorityTypes.relay_profile;
-      params.timestamp = timestampStart;
-      params.addMinutesToTimestamp = 60;//60 = every hour
-      params.info = "detekcia nespracovaných profilov linie a nodov";
-      //params.debug = true;
-      
-      tasks.push(params);
-    }
-
-    {
-      //edge_date_time
-
-      let params = getParams(priorityTypes.node_cmd);
-      params.type = "edge_date_time";
-
-      let timestampStart = priorityTypes.node_cmd;
-      params.timestamp = timestampStart;
-      params.addMinutesToTimestamp = 1;
-      params.tbname = FLOW.OMS_edgeName;
-      params.info = "reportovanie aktuálneho času na LM - EDGE-Date Time";
-      //logger.debug("BUILD Master node FW verzia");
-      tasks.push(params);
-    }
-
-    {
-      //edge_date_time
-
-      let params = getParams(priorityTypes.node_cmd);
-      params.type = "number_of_luminaires";
-
-      let timestampStart = priorityTypes.node_cmd + 1;
-      params.timestamp = timestampStart;
-      params.addMinutesToTimestamp = 1;
-      params.tbname = FLOW.OMS_edgeName;
-      params.info = "reportovanie number_of_luminaires";
-
-      tasks.push(params);
-    }
-
-    monitor.info("tasks created:", tasks.length);
-  }
-
-  function turnOnOffLinesAccordingToLuxSensor(lux_sensor_value)
-  {
-    //let dusk_hours = sunCalcResult["dusk_hours"];
-    //let dusk_minutes = sunCalcResult["dusk_minutes"];
-
-    let duskTimeStamp;
-    let downTimeStamp;
-
-    //prejedme si line s profilom, kde mame "astro_clock": true
-
-    /*
-    "dawn_lux_sensor": true,
-  "dusk_lux_sensor": true,
-  "dawn_lux_sensor_value": 5,
-  "dusk_lux_sensor_value": 5,
-  "dawn_astro_clock_offset": 0,
-  "dusk_astro_clock_offset": 10,
-  "dawn_lux_sensor_time_window": 30,
-  "dusk_lux_sensor_time_window": 30,
-  "dawn_astro_clock_time_window": 60,
-  "dusk_astro_clock_time_window": 60
-    */
-
-    //ak sme pred/po vychode a lux value <= lux_sensor_value, liniu zapneme
-
-    //ak sme pred/po zapade a lux_value <= lux_sensor_value, liniu zapneme
-
-    let now = new Date();
-    let currentTimestamp = now.getTime();
-
-    let keys = Object.keys(relaysData);
-    for(let i = 0; i < keys.length; i++)
-    {
-      let line = keys[i];//line is turned off by default
-      let profilestr = relaysData[line].profile;
-
-      try{
-
-        let profile = JSON.parse(profilestr);
-        if(Object.keys(profile).length === 0) throw ("profile is not defined");
-
-        if(profile.astro_clock == true)
-        {
-            let sunCalcResult = calculateDuskDown(date, line);
-
-            //dawn: usvit/vychod - lux je nad hranicou - vypnem
-            //dusk: zapad pod hranicou - zapnem 
-
-            //"dawn_lux_sensor_time_window": 30,
-            //"dusk_lux_sensor_time_window": 30,
-
-            //vychod
-            if(profile.dawn_lux_sensor == true)
-            {
-                let lux_sensor_time_window1 = sunCalcResult.dawn_time - parseInt( profile.dawn_lux_sensor_time_window );
-                let lux_sensor_time_window2 = sunCalcResult.dawn_time + parseInt( profile.dawn_lux_sensor_time_window );
-
-                if(currentTimestamp >= lux_sensor_time_window1 && currentTimestamp <= lux_sensor_time_window2)
-                {
-                    //dawn: usvit/vychod - lux je nad hranicou - vypnem
-                    if(lux_sensor_value > profile.dawn_lux_sensor_value)
-                    {
-                        //vypnem
-                        turnOffLine(line, "profile: dawn - turnOff line according to lux sensor");
-                    }
-                    else
-                    {
-                        //zapnem
-                        turnOnLine(line, "profile: dawn - turnOn line according to lux sensor");
-                    }
-
-                }
-
-                //ak sme po vychode
-                if(currentTimestamp > lux_sensor_time_window2)
-                {
-                    //vypneme
-                    //urobime jednorazovy prikaz
-                }
-            }
-
-            //zapad
-            if(profile.dusk_lux_sensor == true)
-            {
-                let lux_sensor_time_window1 = sunCalcResult.dusk_time - parseInt( profile.dusk_lux_sensor_time_window );
-                let lux_sensor_time_window2 = sunCalcResult.dusk_time + parseInt( profile.dusk_lux_sensor_time_window );
-
-                if(currentTimestamp >= lux_sensor_time_window1 && currentTimestamp <= lux_sensor_time_window2)
-                {
-                    //dusk: zapad pod hranicou - zapnem 
-                    if(lux_sensor_value < profile.dusk_lux_sensor_value)
-                    {
-                        //zapnem
-                        turnOnLine(line, "profile: dusk - turnOff line according to lux sensor");
-                    }
-                    else
-                    {
-                        //vypnem
-                        turnOffLine(line, "profile: dusk - turnOff line according to lux sensor");
-                    }
-
-                }
-            }
-            
-
-        }
-
-      } catch (error) {
-        //if(profilestr !=="" ) logger.debug(profilestr, error);
-      }
-    }
-  }
-
-  let sunCalcResult = calculateDuskDown();
-
-  let reportDuskDawn = {
-    dusk_time: sunCalcResult.dusk_time,
-    dawn_time: sunCalcResult.dawn_time,
-    dusk_time_reported: undefined,
-    dawn_time_reported: undefined
-  };
-
-  async function upateNodeStatus(node, status)
-  {
-    //MASTER
-    if(node == 0) return;
-
-    let nodeObj = nodesData[node];
-    if(nodeObj == undefined) return;
-
-    if(status)
-    {
-      cmdNOKNodeCounter[node] = 0;
-    }
-    else cmdNOKNodeCounter[node]++;
-
-    if(nodeObj.status !== status)
-    {
-      await dbNodes.modify({ status: status }).where("node", node).make(function(builder) {
-        builder.callback(function(err, response) {
-          if(err == null) nodesData[node].status = status;
-        });
-      });
-    }
-  }
-
-  async function updateNodeDimming(node, value) {
-    if(node == 0) return;
-
-
-    let nodeObj = nodesData[node];
-    console.log('-------nodeObjjjj', nodeObj);
-
-    if(nodeObj == undefined || value == undefined) return;
-
-    console.log('*-*-**-pppppp',nodeObj.dimming, value)
-    if(nodeObj.dimming !== value)
-    {
-      await dbNodes.modify({ dimming: value }).where("node", node).make(function(builder) {
-        builder.callback(function(err, response) {
-          if(err == null) nodesData[node].dimming = value;
-          console.log('+++//** NDffff',nodesData)
-        });
-      });
-    }
-  }
-    
-
-  async function runTasks() {
-
-    clearInterval(interval);
-
-    let currentTimestamp = Date.now();
-
-    //report dusk, dawn---------------------------------
-    if(reportDuskDawn.dusk_time < currentTimestamp)
-    {
-      //vyreportuj iba ak nie je velky rozdiel napr. 60 sekund
-      if( (currentTimestamp - reportDuskDawn.dusk_time) < 60 * 1000)
-      {
-        //reportovali sme?
-        if(reportDuskDawn.dusk_time_reported != sunCalcResult.dusk_time)
-        {
-          sendNotification("CMD Manager: calculated Time of dusk", FLOW.OMS_edgeName, "dusk_has_occured", {value: sunCalcResult["dusk"]}, "", instanceSendTo.tb, instance);
-          reportDuskDawn.dusk_time_reported = sunCalcResult.dusk_time;
-        }
-      }
-
-      var nextDay = new Date();
-      nextDay.setDate(nextDay.getDate() + 1);
-
-      sunCalcResult = calculateDuskDown(nextDay);
-      reportDuskDawn.dusk_time = sunCalcResult.dusk_time;
-    }
-
-    if(reportDuskDawn.dawn_time < currentTimestamp)
-    {
-      //vyreportuj iba ak nie je velky rozdiel napr. 60 sekund
-      if( (currentTimestamp - reportDuskDawn.dawn_time) < 60 * 1000)
-      {
-        //reportovali sme?
-        if(reportDuskDawn.dawn_time_reported != sunCalcResult.dawn_time)
-        {
-          sendNotification("CMD Manager: calculated Time of dawn", FLOW.OMS_edgeName, "dawn_has_occured", {value: sunCalcResult["dawn"]}, "", instanceSendTo.tb, instance);
-          reportDuskDawn.dawn_time_reported = sunCalcResult.dawn_time;
-        }
-      }
-
-      var nextDay = new Date();
-      nextDay.setDate(nextDay.getDate() + 1);
-
-      sunCalcResult = calculateDuskDown(nextDay);
-      reportDuskDawn.dawn_time = sunCalcResult.dawn_time;
-
-    }
-    //--------------------------------------------------------
-
-    //sort tasks
-    //tasks.sort((a,b) => a.timestamp - b.timestamp );
-
-    tasks.sort(function (a, b) { 
-      
-      if(a.timestamp <= currentTimestamp && b.timestamp <= currentTimestamp)
-      {
-        return a.priority - b.priority;
-      }
-    
-      return a.timestamp - b.timestamp;
-    });
-
-    if(tasks.length == 0 )
-    {
-      instance.send(instanceSendTo.debug, "no tasks created");
-      interval = setInterval(runTasks, longInterval);
-
-      return;
-    }
-
-    if(!rsPort.isOpen)
-    {
-      instance.send(instanceSendTo.debug, "!rsPort.isOpen");
-      //await rsPort.open();
-
-      //continue
-    }
-
-    let currentTask = tasks[0];
-
-    if(currentTask.debug)
-    {
-      //logger.debug("--->task to process", currentTask);
-    }
-
-    if(currentTask.timestamp <= currentTimestamp)
-    {
-      let params = {...tasks[0]};
-
-      if(FLOW.OMS_maintenance_mode)
-      {
-
-        //allow terminal commands
-        if(params.type == "cmd-terminal");
-        else
-        {
-          interval = setInterval(runTasks, longInterval);
-          return;
-        }
-      }
-
-      let type = params.type;
-      let tbname = params.tbname;
-      let nodeKey = params.address;
-
-      let useProfile = params.useProfile;
-      if(useProfile === undefined) useProfile = true;
-      let duskOffset = params.duskOffset;
-      let dawnOffset = params.dawnOffset;
-
-      let line = null;
-      //rpc related
-      if(nodesData[nodeKey] !== undefined) line = nodesData[nodeKey].line;
-      if(params.line !== undefined) line = params.line;
-
-      let repeatTask = false;
-      if(params.addMinutesToTimestamp > 0) repeatTask = true;
-      if(params.isDawn || params.isDusk) repeatTask = true;
-
-      if(repeatTask)
-      {
-        if(type == "cmd")
-        {
-          //set next start time automatically
-          tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
-        }        
-      }
-      else 
-      {
-        //terminal data...
-        tasks.shift();
-      }
-
-      //custom tasks
-      if(type == "number_of_luminaires")
-      {
-        tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
-
-        //treba reportovat node status
-        {
-          //number_of_luminaires
-          //number_of_ok_luminaires
-          //number_of_nok_luminaires
-
-          let keys = Object.keys(nodesData);
-
-          let number_of_luminaires = keys.length;
-          let number_of_ok_luminaires = 0;
-          let number_of_nok_luminaires = 0;
-          
-          for(let i = 0; i < keys.length; i++)
-          {
-            let key = keys[i];
-            let nodeObj = nodesData[key];
-            if(nodeObj.tbname == undefined) continue;
-
-            if(nodeObj.status) number_of_ok_luminaires++;
-            else number_of_nok_luminaires++;
-          }
-        
-          let values = {
-            number_of_luminaires: number_of_luminaires,
-            number_of_ok_luminaires: number_of_ok_luminaires,
-            number_of_nok_luminaires: number_of_nok_luminaires
-          };
-
-          let dataToTb = {
-            [FLOW.OMS_edgeName]: [
-                { 
-                  "ts": Date.now(),
-                  "values": values
-                }
-              ]
-            }
-
-          //instance.send(instanceSendTo.tb, dataToTb);
-          tbHandler.sendToTb(dataToTb, instance);
-
-          interval = setInterval(runTasks, shortIterval);
-
-          return;
-        }
-      }
-
-      //kontrola nespracovanych profilov nodov
-      if(type == "process_profiles")
-      {
-        tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
-
-        //select nespracovane nody
-        //node:number|tbname:string|line:number|profile:string|processed:boolean|status:boolean
-
-        //buildTasks({processLineProfiles: true, line: line});
-
-        /*
-        let keys = Object.keys(nodesData);
-        for(let i = 0; i < keys.length; i++)
-        {
-          let node = keys[i];
-          let line = node.line;
-
-          if(node.processed) continue;
-
-          if(relaysData[line] != undefined)
-          {
-            let relayStatus = relaysData[line].contactor;
-            if(relayStatus == 1)
-            {
-              //linia je zapnuta
-              //await loadRelaysData(flowdata.data.line);
-            }
-          }
-
-        }
-        */
-    
-        //vsetky linie kt. su zapnute, a spracuju sa nespracovane profily nodov
-        loadRelaysData();
-
-        interval = setInterval(runTasks, shortIterval);
-        return;
-      }
-
-      if(type == "edge_date_time")
-      {
-
-        //var d = new Date();
-        //let hours = addZeroBefore(d.getHours());
-        //let minutes = addZeroBefore(d.getMinutes());
-        //let seconds = addZeroBefore(d.getSeconds());
-        //let values = {"edge_date_time": `${hours}:${minutes}:${seconds}`};
-
-        let values = {"edge_date_time": Date.now()};
-        
-        let dataToTb = {
-          [tbname]: [
-              { 
-                "ts": Date.now(),
-                "values": values
-              }
-            ]
-          }
-        
-        tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
-
-        //instance.send(instanceSendTo.tb, dataToTb);
-        tbHandler.sendToTb(dataToTb, instance);
-
-        interval = setInterval(runTasks, shortIterval);
-        
-        return;
-      }
-
-      //relay
-      if(type == "relay")
-      {
-
-        //ak je dusk, alebo dawn, vypocitame si dynamicky nove values
-        if(params.isDawn || params.isDusk)
-        {
-          let date = new Date();
-          date.setDate(date.getDate() + 1);//next day
-
-          let sunCalcResult;
-          if(useProfile) sunCalcResult = calculateDuskDown(date, params.line);
-          else
-          {
-            //do not use profile, line is there for undefined
-            sunCalcResult = calculateDuskDown(date, undefined, duskOffset, dawnOffset);
-          }
-
-          if(params.isDawn)
-          {
-            tasks[0].timestamp = sunCalcResult.dawn_time;
-          }
-
-          if(params.isDusk)
-          {
-            tasks[0].timestamp = sunCalcResult.dusk_time;
-          }
-        }
-        else
-        {
-          if(tasks[0].addMinutesToTimestamp == 0);// tasks.shift();
-          else tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
-        }
-
-        let info;
-        if(useProfile) info = "aplikovaný bod profilu";
-        else info = params.info;
-
-        let message = "";
-        if(params.value == 1)
-        {
-          turnOnLine(params.line, info);
-          message = "on";
-        }
-        else if(params.value == 0)
-        {
-          turnOffLine(params.line, info);
-          message = "off";
-        }
-
-        //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.INFO, "aplikovaný bod profilu línie " + params.line + " - stav: " + message, "", instanceSendTo.tb, instance, null );
-        if(useProfile) sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "switching_profile_point_applied_to_line", {line: params.line, value: message}, "", instanceSendTo.tb, instance );
-
-        interval = setInterval(runTasks, shortIterval);
-        return;
-      }
-
-      //zhodeny hlavny istic
-      let disconnected = false;
-      //if(rotary_switch_state == "Off") disconnected = true;
-
-      //state_of_breaker[line] - alebo istic linie
-      if(state_of_breaker.hasOwnProperty(line))
-      {
-        //if(state_of_breaker[line] == "Off") disconnected = true;
-      }
-
-      //toto sa reportuje po prijati dat z di_do_controlera
-      if(disconnected)
-      {
-        
-        let values = {"status": "OFFLINE"};
-
-        logger.debug("disconnected", values);
-        logger.debug("rotary_switch_state", rotary_switch_state);
-        logger.debug("state_of_breaker", state_of_breaker[line]);
-
-        let dataToTb = {
-          [tbname]: [
-              { 
-                "ts": Date.now(),
-                "values": values
-              }
-            ]
-          }
-
-        //report only once!
-        if(!disconnectedReport.hasOwnProperty(tbname)) disconnectedReport[tbname] = false;
-
-        if(!disconnectedReport[tbname])
-        {
-          //instance.send(instanceSendTo.tb, dataToTb);
-          tbHandler.sendToTb(dataToTb, instance);
-        }
-
-        interval = setInterval(runTasks, shortIterval);
-
-        return;
-      }
-
-      disconnectedReport[tbname] = false;
-
-      //high_priority
-      if(!FLOW.OMS_masterNodeIsResponding)
-      {
-        //ak neodpoveda, nebudeme vykonavat ziadne commands, okrem cmd-terminal, a fw version
-        errorHandler.sendMessageToService("Master node is not responding");
-
-        let stop = true;
-        if(params.type == "cmd-terminal") stop = false;
-
-        //fw version - register == 4
-        if(params.type == "cmd" && params.register == 4 && params.address == 0) stop = false;
-
-        if(stop)
-        {
-          interval = setInterval(runTasks, longInterval);
-          return;
-        }
-
-      }
-
-      let relayStatus = 1;
-      if(relaysData[line] != undefined)
-      {
-        relayStatus = relaysData[line].contactor;
-      }
-
-      if(line == 0) relayStatus = 0;
-      if(params.type == "cmd-terminal") relayStatus = 1;
-
-      //check if rotary_switch_state == "Off"
-
-      if(relayStatus == 0)
-      {
-        //console.log("------------------------------------relayStatus", relayStatus, line);
-        let values = {"status": "OFFLINE"};
-        
-        let dataToTb = {
-          [tbname]: [
-              { 
-                "ts": Date.now(),
-                "values": values
-              }
-            ]
-          }
-
-        //instance.send(instanceSendTo.tb, dataToTb);
-        tbHandler.sendToTb(dataToTb, instance);
-        
-        interval = setInterval(runTasks, shortIterval);
-
-        return;
-      }
-
-      if(!rsPort.isOpen)
-      {
-        interval = setInterval(runTasks, longInterval);
-        return;
-      }
-      
-      //RE-CALCULATE VALUES
-      //set actual time for broadcast
-      if(params.register == 87 && params.recipient === 2)
-      {
-        var d = new Date();
-        let hours = d.getHours();
-        let minutes = d.getMinutes();
-        let seconds = d.getSeconds();
-
-        params.byte1 = hours;//h
-        params.byte2 = minutes;//m
-        params.byte3 = seconds;//s
-        params.byte4 = 0;
-      }
-
-      //set dusk/down for broadcast
-
-
-
-      //Time of dusk
-      if(params.register == 6 && params.recipient === 2)
-      {
-
-        if(params.type != "cmd-terminal")
-        {
-          let sunCalcResult = calculateDuskDown();
-          let dusk_hours = sunCalcResult["dusk_hours"];
-          let dusk_minutes = sunCalcResult["dusk_minutes"];
-    
-          params.byte1 = dusk_hours;//h
-          params.byte2 = dusk_minutes;//m
-          params.byte3 = 0;//s
-          params.byte4 = 0;
-
-          //TODO astrohodiny
-          let dusk = "Time of dusk: " + sunCalcResult["dusk"];
-          //sendNotification("CMD Manager: calculated Time of dusk", relaysData[0].tbname, ERRWEIGHT.INFO, dusk, "", instanceSendTo.tb, instance, null );
-        }
-      }
-
-      //Time of dawn
-      if(params.register == 7 && params.recipient === 2)
-      {
-        if(params.type != "cmd-terminal")
-        {
-          let sunCalcResult = calculateDuskDown();
-          let dawn_hours = sunCalcResult["dawn_hours"];
-          let dawn_minutes = sunCalcResult["dawn_minutes"];
-    
-          params.byte1 = dawn_hours;//h
-          params.byte2 = dawn_minutes;//m
-          params.byte3 = 0;//s
-          params.byte4 = 0;
-
-          //TODO astrohodiny
-          let dawn = "Time of dawn: " + sunCalcResult["dawn"];
-          //sendNotification("CMD Manager: calculated Time of dusk", relaysData[0].tbname, ERRWEIGHT.INFO, dawn, "", instanceSendTo.tb, instance, null );
-        }
-       
-      }
-      //-----------------------
-
-
-      let register =  params.register;
-      instance.send(instanceSendTo.debug, "address: " + params.address + " register:" + params.register + "type: " + params.type);
-
-      var startTime, endTime;
-      startTime = new Date();
-
-      let resp = com_generic(params.address, params.recipient, params.rw, params.register, params.name, params.byte1, params.byte2, params.byte3, params.byte4);
-
-      let readBytes = 11;
-
-      //if broadcast WRITE - do not read
-      //if(params.recipient == 2) readBytes = 0;
-
-      //WRITE + BROADCAST = readBytes = 0;
-      // if(params.rw == 1 && params.recipient == 2) readBytes = 0;
-
-      if(params.hasOwnProperty("debug"))
-      {
-        //console.log("--->readBytes", readBytes, params);
-      }
-
-      await writeData(rsPort, resp, readBytes).then(function (data) {
-
-        endTime = new Date();
-        var timeDiff = endTime - startTime;
-
-        //--1-4 adresa, 5 status ak je status 0 - ok, nasleduju 4 byty data
-        //let bytes = data.slice(0);
-        let bytes = data;
-        let dataBytes = data.slice(5,9);
-
-        let result = detectIfResponseIsValid(bytes);
-        
-        let message = result.message;
-        let type = result.type;
-        let error = result.error;
-
-        //ak sa odpoved zacina 0 - je to v poriadku, inak je NOK
-
-        if(params.debug != "generated cmd")
-        {
-          //debug("writeData: done " + type + " duration: " + timeDiff + " type: " + params.debug, params);
-        }
-
-        if(params.hasOwnProperty("debug"))
-        {
-          if(params.debug)
-          {
-            console.log("detected response:", result);
-
-            logger.debug("writeData: done " + type + " duration: " + timeDiff + " type: " + params.debug, params, result);
-          }
-        }
-
-        //debug("writeData: done " + type + " duration: " + timeDiff + " type: " + params.debug);
-        //debug("writeData done", type, "duration", timeDiff, "type", params.debug, result);
-
-        let tbname = params.tbname;
-
-        let saveToTb = true;
-        if(tbname == null || tbname == undefined || tbname == "")  saveToTb = false;
-        //--
-
-        //CMD FINISHED
-        if(message == "OK")
-        {
-
-          upateNodeStatus(params.address, true);
-
-          //write
-          if(params.type == "set_node_profile")
-          {
-            let result = cmdCounterResolve(params.address);
-            if(result == 0)
-            {
-
-              dbNodes.modify({ processed: true }).where("node", params.address).make(function(builder) {
-
-                builder.callback(function(err, response) {
-
-                    sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "dimming_profile_was_successfully_received_by_node",  {node:  params.address}, "", instanceSendTo.tb, instance );
-                    
-                    logger.debug( "--> profil úspešne odoslaný na node č. " + params.address);
-                    nodesData[params.address].processed = true;
-
-                  });
-                });
-            }
-          }
-
-          // ak nastavujeme dimming z platformy, zapiseme ho do nodes.table. Ak sa spusta flow, a node nema profil, nacitame dimming z nodes.table
-          if(params.info == "setNodeDimming")
-          {
-            console.log('++++++eeeeeeeee',params)
-            console.log('*********aaaa',params.address, params.byte4);
-            updateNodeDimming(params.address, params.byte4);
-          }
-
-          //parse read response
-          let values = {};
-          if(params.rw == 0) {
-            values = processResponse(register, dataBytes);//read
-            // console.log('-------****', values);
-          }
-
-          if(params.rw == 1)
-          { 
-            //write command
-            //set command dimming
-
-            if(params.register == 1) 
-            {
-                values = {"comm_status": message};
-            }
-
-          }
-
-          if(params.info == 'Dimming for CCT')
-          {
-            //Now we have node dimming value. We use it to set cct with following task (dimming value is byte 4): 
-            let setCCT = getParams(priorityTypes.high_priority);
-            setCCT.type = "cmd";
-            setCCT.tbname = tbname;
-            setCCT.address = params.address;
-            setCCT.register = 1; //dimming
-            setCCT.recipient = 1; //slave
-            setCCT.byte1 = 1;
-            setCCT.byte2 = params.cct.byte2;
-            setCCT.byte3 = params.cct.byte3;
-            setCCT.byte4 = dataBytes[3] //dimming value + 128;
-            // setCCT.cct = params.cct.value; // we have cct value from platform call.
-            setCCT.rw = 1;//write
-            setCCT.timestamp = priorityTypes.high_priority;
-            setCCT.info = 'SetCCT';
-            setCCT.debug = true;
-
-            tasks.push(setCCT);
-            return;
-          }
-
-          if(params.info == 'dimming_no_mov')
-          {
-            //Now we have 4 bytes from 42 register. We leave first 3 bytes, and overwrite byte 4 with value from platform: 
-            let setDNM = getParams(priorityTypes.high_priority);
-            setDNM.type = "cmd";
-            setDNM.tbname = tbname;
-            setDNM.address = params.address;
-            setDNM.register = 42; //dimming
-            setDNM.recipient = 1; //slave
-            setDNM.byte1 = 1;
-            setDNM.byte2 = dataBytes[1];
-            setDNM.byte3 = dataBytes[2];
-            setDNM.byte4 = params.value + 128;
-            setDNM.rw = 1;//write
-            setDNM.timestamp = priorityTypes.high_priority;
-            setDNM.info = 'setDNM';
-            setDNM.debug = true;
-
-            tasks.push(setDNM);
-            return;
-          }
-
-          if(params.info == "cct_no_mov")
-          {
-            //Now we have 4 bytes from register 42. We leave byte 0 and byte 4, and overwrite byte 2 and 3 with values from platform: 
-            let setCCT = getParams(priorityTypes.high_priority);
-            setCCT.type = "cmd";
-            setCCT.tbname = tbname;
-            setCCT.address = params.address;
-            setCCT.register = 42; //dimming
-            setCCT.recipient = 1; //slave
-            setCCT.byte1 = 1;
-            setCCT.byte2 = params.cct.byte2;
-            setCCT.byte3 = params.cct.byte3;
-            setCCT.byte4 = dataBytes[3]; // should be byte4, that we got from register 42
-            setCCT.rw = 1;//write
-            setCCT.timestamp = priorityTypes.high_priority;
-            setCCT.info = 'setCCT';
-            setCCT.debug = true;
-
-            tasks.push(setCCT);
-            return;
-          }
-
-
-          if(params.register == 0) values["status"] = message;
-
-          //fw version - register == 4
-          if(params.register == 4) values["edge_fw_version"] = FLOW.OMS_edge_fw_version;
-
-          if(params.address == 0)
-          {
-            //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.NOTICE, "Master node is working again", "", instanceSendTo.tb, instance, "rvo_status" );
-            //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, "master_node_is_responding_again", {}, "", instanceSendTo.tb, instance, "rvo_status" );
-            sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "master_node_is_responding_again", {}, "", instanceSendTo.tb, instance, "rvo_status" );
-            FLOW.OMS_masterNodeIsResponding = true;
-          }
-
-          //odoslanie príkazu z terminálu - dáta
-          if(params.type == "cmd-terminal")
-          {
-            //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.DEBUG, "odoslanie príkazu z terminálu", params, instanceSendTo.tb, instance, null );
-            sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "command_was_sent_from_terminal_interface", {}, params, instanceSendTo.tb, instance );
-          }
-
-          if(params.debug)
-          {
-            logger.debug("saveToTb", saveToTb, tbname, values);
-          }
-
-          if(saveToTb)
-          {
-            let dataToTb = {
-              [tbname]: [
-                  { 
-                    "ts": Date.now(),
-                    "values": values
-                  }
-                ]
-              }
-  
-            //instance.send(instanceSendTo.tb, dataToTb);
-            tbHandler.sendToTb(dataToTb, instance);
-            
-          }
-          else
-          {
-
-            if(params.type == "cmd-terminal")
-            {
-              if(params.refFlowdataKey != undefined)
-              {
-  
-                logger.debug("cmd-terminal SUCCESS");
-                logger.debug(currentTask);
-
-                //make http response
-                let responseObj = {};
-                responseObj["type"] = "SUCESS";
-                responseObj["bytes"] = data;
-  
-                //params.refFlowdata.data = responseObj;
-                //instance.send(instanceSendTo.http_response, params.refFlowdata);
-
-                let refFlowdata = refFlowdataObj[ params.refFlowdataKey ];
-                refFlowdata.data = responseObj;
-                instance.send(instanceSendTo.http_response, refFlowdata);
-
-              }
-              else
-              {
-                console.log("params.refFlowdataKey is undefined", params);
-              }
-            }
-
-          }
-
-        }
-        else
-        {
-
-          upateNodeStatus(params.address, false);
-
-          if(params.refFlowdataKey != undefined)
-          {
-
-            logger.debug("cmd-terminal FAILED");
-            logger.debug(currentTask);
-
-            //make http response
-            let responseObj = {};
-            responseObj["type"] = "ERROR";
-            responseObj["bytes"] = data;
-
-            //params.refFlowdata.data = responseObj;
-            //instance.send(instanceSendTo.http_response, params.refFlowdata);
-
-            let refFlowdata = refFlowdataObj[ params.refFlowdataKey ];
-            if(refFlowdata !== undefined)
-            {
-              refFlowdata.data = responseObj;
-              instance.send(instanceSendTo.http_response, refFlowdata);
-            }
-
-
-          }
-
-          /*
-          if(params.type == "cmd-terminal")
-          {
-            if(params.refFlowdata != undefined)
-            {
-      
-              logger.debug("cmd-terminal FAILED");
-              logger.debug(currentTask);
-        
-              //make http response
-              let responseObj = {};
-              responseObj["type"] = "ERROR";
-              responseObj["bytes"] = data;
-        
-              params.refFlowdata.data = responseObj;
-              instance.send(instanceSendTo.http_response, params.refFlowdata);
-  
-            }
-          }
-          */
-
-          if(params.address == 0)
-          {
-            //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.ALERT, "Master node not responding", "", instanceSendTo.tb, instance, "rvo_status");
-            sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "master_node_is_not_responding", {}, "", instanceSendTo.tb, instance, "rvo_status");
-            logger.debug("master_node_is_not_responding", params);
-            FLOW.OMS_masterNodeIsResponding = false;
-          }
-
-          if(params.type == "set_node_profile")
-          {
-            delete cmdCounter[params.address];
-            let tbname = nodesData[ params.address ].tbname;
-
-
-            //! LOG SPRACOVANIA PROFILU
-            //logger.debug( "profil nebol úspešne odoslaný na node č.  ", params, result, resp);
-
-            //sendNotification("CMD Manager: process cmd", tbname, ERRWEIGHT.ALERT, "profil nebol úspešne odoslaný na node č. " + params.address, "", instanceSendTo.tb, instance, null );
-            sendNotification("CMD Manager: process cmd", tbname, "configuration_of_dimming_profile_to_node_failed", {node: params.address}, "", instanceSendTo.tb, instance );
-          }
-
-          //is it node?
-          if(nodesData.hasOwnProperty(params.address))
-          {
-            if(cmdNOKNodeCounter[params.address] < 5) saveToTb = false;
-          }
-
-          //Master node version
-          //if(params.register == 4 && saveToTb)
-          if(saveToTb)
-          {
-            let values = {
-              "status": "NOK"
-            };
-
-            let dataToTb = {
-              [tbname]: [
-                  { 
-                    "ts": Date.now(),
-                    "values": values
-                  }
-                ]
-              }
-  
-            //instance.send(instanceSendTo.tb, dataToTb);
-            tbHandler.sendToTb(dataToTb, instance);
-          }
-
-          //instance.send(instanceSendTo.debug, result);
-
-          if(params.hasOwnProperty("debug"))
-          {
-            if(params.debug)
-            {
-              logger.debug("writeData err: ", error, result, params);
-            }
-          }
-
-          //logger.debug(error, result, params);
-        }
-
-      }).catch(function (reason) {
-
-        console.log("writeData catch exception", reason);
-        logger.debug(currentTask);
-
-        if(params.refFlowdataKey != undefined)
-        {
-
-          logger.debug("catch: cmd-terminal FAILED");
-          logger.debug(currentTask);
-
-          //make http response
-          let responseObj = {};
-          responseObj["type"] = "ERROR";//
-          responseObj["message"] = "ERROR WRITE FAILED: " + reason;//
-
-          //params.refFlowdata.data = responseObj;
-          //instance.send(instanceSendTo.http_response, params.refFlowdata);
-
-          let refFlowdata = refFlowdataObj[ params.refFlowdataKey ];
-          if(refFlowdata !== undefined)
-          {
-            refFlowdata.data = responseObj;
-            instance.send(instanceSendTo.http_response, refFlowdata);
-          }
-
-
-        }
-        /*
-        if(params.type == "cmd-terminal")
-        {
-          if(params.refFlowdata != undefined)
-          {
-      
-            logger.debug("cmd-terminal FAILED");
-            logger.debug(currentTask);
-        
-            //make http response
-            let responseObj = {};
-            responseObj["type"] = "ERROR WRITE FAILED: " + reason;
-            //responseObj["bytes"] = data;
-        
-            params.refFlowdata.data = responseObj;
-            instance.send(instanceSendTo.http_response, params.refFlowdata);
-  
-            //refFlowdata = undefined;
-          }
-        }
-        */
-
-        if(params.hasOwnProperty("debug"))
-        {
-          if(params.debug)
-          {
-            logger.debug("-->WRITE FAILED: " + reason, params.debug, params);
-          }
-        }
-
-        upateNodeStatus(params.address, false);
-
-        let tbname = params.tbname;
-
-        let saveToTb = true;
-        if(tbname == null || tbname == undefined || tbname == "") saveToTb = false;
-
-        if(params.address == 0)
-        {
-          //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.ALERT, "Master node not responding", "", instanceSendTo.tb, instance, "rvo_status");
-          sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "master_node_is_not_responding", {}, "", instanceSendTo.tb, instance, "rvo_status");
-          logger.debug("master_node_is_not_responding", params);
-
-          FLOW.OMS_masterNodeIsResponding = false;
-        }
-
-        if(params.type == "set_node_profile")
-        {
-          delete cmdCounter[params.address];
-          let tbname = nodesData[ params.address ].tbname;
-
-          logger.debug( "profil nebol úspešne odoslaný na node č.  ", params, resp);
-
-          //sendNotification("CMD Manager: process cmd", tbname, ERRWEIGHT.ALERT, "odosielanie profilu na node č. " + params.address + " zlyhalo", "", instanceSendTo.tb, instance, null );
-          sendNotification("CMD Manager: process cmd", tbname, "configuration_of_dimming_profile_to_node_failed", {node: params.address}, "", instanceSendTo.tb, instance );
-        }
-
-        //is it node?
-        if(nodesData.hasOwnProperty(params.address))
-        {
-          if(cmdNOKNodeCounter[params.address] < 5) saveToTb = false;
-        }
-
-        //Master node version
-        if(params.register == 4 && saveToTb)
-        {
-          let values = {
-            "status": "NOK",
-            "master_node_version": "NOK"
-          };
-
-          let dataToTb = {
-            [tbname]: [
-                { 
-                  "ts": Date.now(),
-                  "values": values
-                }
-              ]
-            }
-
-          //instance.send(instanceSendTo.tb, dataToTb);
-          tbHandler.sendToTb(dataToTb, instance);
-
-          FLOW.OMS_masterNodeIsResponding = false;
-        }
-        //treba?
-        /*
-        else if(saveToTb)
-        {
-          let values = {
-            "comm_status": "no_comm"
-          };
-
-          let dataToTb = {
-            [tbname]: [
-                { 
-                  "ts": Date.now(),
-                  "values": values
-                }
-              ]
-            }
-
-          instance.send(instanceSendTo.tb, dataToTb);
-        }
-        */
-
-        instance.send(instanceSendTo.debug, reason);
-      });
-      
-    }
-    else
-    {
-      if(currentTask.debug)
-      {
-        //currentTask.timestamp <= currentTimestamp
-        logger.debug("currentTask is not processed - task is in the future", currentTask);
-      }
-
-      interval = setInterval(runTasks, longInterval);
-      return;
-    }    
-
-    //console.log("----->runTasks - setInterval", new Date());
-    interval = setInterval(runTasks, shortIterval);
-  } 
-
-  //! rsPort LM = "/dev/ttymxc4", rsPort UNIPI = "/dev/ttyUSB0"
-  // const rsPort = new SerialPort("/dev/ttymxc4", { autoOpen: false });  //LM
-  // const rsPort = new SerialPort("/dev/ttyUSB0", { autoOpen: false });  // UNIPI
-
-  if(FLOW.OMS_serial_port == "") FLOW.OMS_serial_port = "ttymxc4";
-  if(FLOW.OMS_serial_port == undefined) FLOW.OMS_serial_port = "ttymxc4";
-  if(FLOW.OMS_serial_port.length === 1) FLOW.OMS_serial_port = "ttymxc4";
-
-  const rsPort = new SerialPort(`/dev/${FLOW.OMS_serial_port}`, { autoOpen: false });
-  //(node:16372) MaxListenersExceededWarning: Possible EventEmitter memory leak detected. 13 data listeners added to [SerialPort]. Use emitter.setMaxListeners() to increase limit
-  //rsPort.setMaxListeners(0);
-
-  rsPort.on('open', async function() {
-
-    logger.debug("CMD manager - rsPort opened sucess");
-
-    await loadRelaysData();
-
-    await runSyncExec(`stty -F /dev/${FLOW.OMS_serial_port} 115200 min 1 time 5 ignbrk -brkint -icrnl -imaxbel -opost -isig -icanon -iexten -echo -echoe -echok -echoctl -echoke`).then(function (status) {     
-            instance.send(instanceSendTo.debug, "RPC runSyncExec - Promise Resolved:" + status);
-
-            logger.debug(0, "RPC runSyncExec - Promise Resolved:" + status);
-
-            //APP START
-            let dataToInfoSender = {id: FLOW.OMS_projects_id, name: FLOW.OMS_rvo_name};
-            dataToInfoSender.fw_version = FLOW.OMS_edge_fw_version;
-            dataToInfoSender.startdate = new Date().toISOString().slice(0, 19).replace('T', ' ');
-            dataToInfoSender.__force__ = true;
-                
-            instance.send(instanceSendTo.infoSender, dataToInfoSender);
-
-            logger.debug(0, "---------------------------->START message send to service", dataToInfoSender);
-
-            //----
-
-            nodesData = {};
-
-            dbNodes.find().make(function(builder) {
-              builder.callback(function(err, response) {
-
-                for(let i = 0; i < response.length; i++)
-                {
-                  let node = response[i];
-                  let key = node["node"];
-
-                  nodesData[ key ] = node;
-                }
-
-                //buildTasks();
-                //interval = setInterval(runTasks, longInterval);
-                // console.log('******** nodesData',nodesData);
-
-              });
-            });
-
-    }).catch(function (reason) {
-      instance.send(instanceSendTo.debug, "CMD manager - RPC runSyncExec - promise rejected:" + reason);
-    });
-
-  });
-
-  rsPort.on('error', function(err) {
-    
-      //TODO report to service!!!
-      //errLogger.error(exports.title, "unable to open port", FLOW.OMS_serial_port, err.message);
-      errorHandler.sendMessageToService([exports.title, "unable to open port", FLOW.OMS_serial_port, err.message], 0);
-
-      instance.send(instanceSendTo.debug, err.message);
-  });
-
-  rsPort.on("close", () => {
-    rsPort.close();
-  });
-
-  //loadRelaysData();
-  rsPort.open();
-
-  instance.on("close", () => {
-    clearInterval(interval);
-    rsPort.close();
-  });
-
-
-  // list of available node commands from platform
-  const rpcNodeCommands = ["dimming", "dimming_no_mov", "cct", "cct_no_mov", "timeout"];
-
-  //finds node, whose value needs to be modified from rpc platform call
-  function findNode(tbname)
-  {
-    let keys = Object.keys(nodesData);
-    let node = null;
-
-    for(let i = 0; i < keys.length; i++)
-    {
-      node = keys[i];
-      if(tbname == nodesData[node].tbname.trim()) return node;
-    }
-
-    return null;
-  }
-
-  //onData
-  instance.on("data", async function(flowdata) {
-    //instance.on("data", (data) => {
-
-    //instance.send(instanceSendTo.debug, "on Data");
-    //instance.send(instanceSendTo.debug, flowdata);
-    
-    //logger.debug(flowdata.data);
-
-    //just testing functions
-    if(flowdata.data == "open")
-    {
-      if(!rsPort.isOpen) rsPort.open();
-      return;
-    }
-    else if(flowdata.data == "close")
-    {
-      rsPort.close();
-      return;
-    }
-    else if(flowdata.data == "clean")
-    {
-      tasks = [];
-      return;
-    }
-    else if(flowdata.data == "buildtasks")
-    {
-      //build & run
-      return;
-    }
-    else if(flowdata.data == "run")
-    {
-      //durations = [];
-
-      if(tasks.length == 0)
-      {
-
-        buildTasks();
-
-        if(rsPort.isOpen)
-        {
-            interval = setInterval(runTasks, 100);
-        }
-        else
-        {
-            instance.send(instanceSendTo.debug, "port is not opened!!!");
-        }
-      }
-    }
-    else
-    {
-      //terminal data - object
-      //logger.debug("flowdata", flowdata.data);
-
-      if(typeof flowdata.data === 'object')
-      {
-        //logger.debug("dido", flowdata.data);
-        if(flowdata.data.hasOwnProperty("sender"))
-        {
-          //data from di_do_controller
-          if(flowdata.data.sender == "di_do_controller")
-          {
-
-            if(flowdata.data.hasOwnProperty("cmd"))
-            {
-              let cmd = flowdata.data.cmd;
-
-              
-              if(cmd == "buildTasks")
-              {
-                clearInterval(interval);
-
-                logger.debug("-->CMD MANAGER - BUILD TASKS");
-                buildTasks();
-
-                //logger.debug("tasks:");
-                //logger.debug(tasks);
-
-                logger.debug("-->CMD MANAGER - RUN TASKS");
-                interval = setInterval(runTasks, longInterval);
-              }
-              else if(cmd == "reload_relays")
-              {
-                await loadRelaysData(flowdata.data.line);
-
-                if(flowdata.data.dataChanged)
-                {
-                  if(!flowdata.data.value)
-                  {
-                    reportOfflineNodeStatus(flowdata.data.line);
-                  }
-                  else 
-                  {
-                    reportOnlineNodeStatus(flowdata.data.line);
-                  }
-                }
-                
-              }
-              else if(cmd == "rotary_switch_state")
-              {
-                //state was changed
-                if(rotary_switch_state != flowdata.data.value) 
-                {
-                  if(rotary_switch_state == "Off")
-                  {
-                    //vyreportovat vsetky svietdla
-                    reportOfflineNodeStatus();
-                  }
-                  else reportOnlineNodeStatus();
-
-                }
-
-                rotary_switch_state = flowdata.data.value;
-              }
-              else if(cmd == "lux_sensor")
-              {
-                lux_sensor = parseInt(flowdata.data.value);
-
-                //process profiles
-                turnOnOffLinesAccordingToLuxSensor(lux_sensor);
-              }
-              else if(cmd == "state_of_breaker")
-              {
-                //istic linie
-                let value = flowdata.data.value;
-                let line = parseInt(flowdata.data.line);
-
-                let dataChanged = false;
-                if(state_of_breaker[line] != value) dataChanged = true;
-
-                state_of_breaker[line] = value;
-
-                let status = "OK";
-                let weight = ERRWEIGHT.NOTICE;
-                let message = `zapnutý istič línie č. ${line}`;
-                if(value == "Off") 
-                {
-                  weight = ERRWEIGHT.ERROR;
-                  message = `vypnutý istič línie č. ${line}`;
-                  status = "NOK";
-                }
-
-                if(dataChanged) {
-
-                  if(relaysData.hasOwnProperty(line))
-                  {
-                    let tbname = relaysData[line].tbname;
-
-                    if(value == "Off") sendNotification("CMD Manager: onData", tbname, "circuit_breaker_was_turned_off_line", {line: line}, "", instanceSendTo.tb, instance, "circuit_breaker");
-                    else sendNotification("CMD Manager: onData", tbname, "circuit_breaker_was_turned_on_line", {line: line}, "", instanceSendTo.tb, instance, "circuit_breaker");
-
-                    //report status liniu
-                    let values = {
-                      "status": status
-                    };
-        
-                    let dataToTb = {
-                      [tbname]: [
-                          { 
-                            "ts": Date.now(),
-                            "values": values
-                          }
-                        ]
-                      }
-          
-                    //instance.send(instanceSendTo.tb, dataToTb);
-                    tbHandler.sendToTb(dataToTb, instance);
-
-                    //current value
-                    if(value == "Off")
-                    {
-                      //vyreportovat vsetky svietdla na linii
-                      reportOfflineNodeStatus(line);
-                    }
-                    else reportOnlineNodeStatus(line);
-                  }
-
-                }
-              }
-              else{
-                logger.debug("undefined cmd", cmd);
-              }
-            }
-          }
-
-          return;
-        }
-
-
-        //data from worksys
-        if(flowdata.data.hasOwnProperty("topic"))
-        {
-
-          let data = flowdata.data.content.data;
-
-          let command = data.params.command;
-          let method = data.method;
-          let profile = data.params.payload;
-          if(profile == undefined) profile = "";
-          let entity = data.params.entities[0];
-          let entity_type = entity.entity_type;
-          let tbname = entity.tb_name;
-
-          instance.send(instanceSendTo.debug, flowdata.data);
-          logger.debug("--->worksys", flowdata.data, data.params, entity, entity_type, command, method);
-          logger.debug("----------------------------");
-
-          if(entity_type == "street_luminaire" || entity_type === "street_luminaire_v4_1" || entity_type === "street_luminaire_v4_1cez" || entity_type === "street_luminaire_v4")
- 
-          {
-            if(method == "set_command")
-            {
-
-              //let command = data.params.command;
-              let value = data.params.payload.value;
-              
-              //we find node to set new value to from nodes.table
-              let node = null;
-
-              if(rpcNodeCommands.includes(command))
-              {
-                node = findNode(tbname);
-                if(!node)
-                {
-                  logger.debug(`rpc set command - ${command} : unable to find tbname: ${tbname}`);
-                  return;
-                }
-              }
-              else
-              {
-                instance.send(instanceSendTo.debug, "undefined command " + command);
-                logger.debug("undefined command", command);
-                return;
-              }
-              
-              if(command == "dimming")
-              {
-
-                let params = getParams(priorityTypes.high_priority);
-
-                value = parseInt(value);
-                if(value > 0) value = value + 128;
-
-                //set dimming - LUM1_13 - 647 je node linie 1 kt. dobre vidime
-                params.type = "cmd";
-                params.tbname = tbname;
-                params.address = node;
-                params.register = 1;//dimming
-                params.recipient = 1;//slave
-                params.byte4 = value;
-                params.rw = 1;//write
-                params.timestamp = priorityTypes.high_priority;
-                params.info = 'setNodeDimming';
-                //params.debug = true;
-
-                //ak linia je 
-
-                //debug(params);
-                logger.debug("dimming", params);
-
-                tasks.push(params);
-
-                updateNodeDimming(node, value);
-
-                setTimeout(function() {
-
-                  //spustime o 4 sekundy neskor, s prioritou priorityTypes.high_priority
-                  //a pridame aj vyreportovanie dimmingu
-                  {
-                    let params = getParams(priorityTypes.high_priority);
-
-                    params.type = "cmd";
-                    params.tbname = tbname;
-                    params.address = node;
-                    params.register = 1;//dimming
-                    params.recipient = 1;//slave
-                    params.rw = 0;//read
-                    params.timestamp = priorityTypes.high_priority;
-                    params.info = 'read dimming (after set dimming from platform)';
-                    params.debug = true;
-
-                    tasks.push(params);
-                  }
-
-                  //pridame aj vyreportovanie - vykon
-                  {
-                    let params = getParams(priorityTypes.high_priority);
-
-                    params.type = "cmd";
-                    params.tbname = tbname;
-                    params.address = node;
-                    params.register = 76;
-                    params.recipient = 1;//slave
-                    params.rw = 0;//read
-                    params.timestamp = priorityTypes.high_priority;
-                    params.info = 'read Input Power (after set dimming from platform)';
-                    params.debug = true;
-
-                    tasks.push(params);
-                  }
-
-                  //pridame aj vyreportovanie - prud svietidla
-                  {
-                    let params = getParams(priorityTypes.high_priority);
-
-                    params.type = "cmd";
-                    params.tbname = tbname;
-                    params.address = node;
-                    params.register = 75;
-                    params.recipient = 1;//slave
-                    params.rw = 0;//read
-                    params.timestamp = priorityTypes.high_priority;
-                    params.info = 'read Input Current (after set dimming from platform)';
-                    params.debug = true;
-
-                    tasks.push(params);
-                  }
-
-                  //pridame aj vyreportovanie - power faktor - ucinnik
-                  {
-                    let params = getParams(priorityTypes.high_priority);
-
-                    params.type = "cmd";
-                    params.tbname = tbname;
-                    params.address = node;
-                    params.register = 77;
-                    params.recipient = 1;//slave
-                    params.rw = 0;//read
-                    params.timestamp = priorityTypes.high_priority;
-                    params.info = 'read power factor - Cos phi (after set dimming from platform)';
-                    params.debug = true;
-
-                    tasks.push(params);
-                  }
-
-                },5000);
-                        
-              }
-              else if(command === "cct") 
-              {
-             
-                let params = getParams(priorityTypes.high_priority);
-
-                value = parseInt(value);
-                byte2 = Math.floor(value/256);
-                byte3 = value - (byte2 * 256);
-
-                // To set cct, we need to get node dimming first. We send this command. After we get dimming 
-                // value from rsPort (in writeData function), we send command to set cct. Byte2 and 3 are cct
-                // byte4 is dimming (for example 100 or 50)
-                params.type = "cmd";
-                params.tbname = tbname;
-                params.address = node;
-                params.register = 1; //dimming
-                params.recipient = 1; //slave
-                params.rw = 0; //read
-                params.timestamp = priorityTypes.high_priority;
-                params.info = 'Dimming for CCT';
-                params.cct = {byte2: byte2, byte3: byte3, value: value};
-                params.debug = true;
-
-                console.log('-------- cct queued in tasks');
-
-                tasks.push(params);
-              }
-              else if(command == "timeout")
-              {
-                let params = getParams(priorityTypes.high_priority);
-
-                value = parseInt(value);
-                byte3 = Math.floor(value/256);
-                byte4 = value - (byte3 * 256);
-
-                params.type = "cmd";
-                params.tbname = tbname;
-                params.address = node;
-                params.register = 104; //timeout
-                params.recipient = 1; //slave
-                params.rw = 1;//write
-                params.byte3 = byte3;
-                params.byte4 = byte4;
-                params.value = value;
-                params.timestamp = priorityTypes.high_priority;
-                params.info = 'SetNodeTimeout';
-                params.debug = true;
-
-                console.log('-------- SetNodeTimeout queued in tasks');
-
-                tasks.push(params);
-
-                setTimeout(function() {
-
-                  // vyreportujeme nodeTimeoutMovement na platformu
-                  let params = getParams(priorityTypes.high_priority);
-
-                  params.type = "cmd";
-                  params.tbname = tbname;
-                  params.address = node;
-                  params.register = 104;//dimming
-                  params.recipient = 1;//slave
-                  params.rw = 0;//read
-                  params.timestamp = priorityTypes.high_priority;
-                  params.info = 'ReadNodeTimeout';
-                  params.debug = false;
-
-                  tasks.push(params);
-
-                },5000);
-
-              }
-              else if(command == "dimming_no_mov")
-              {
-                let params = getParams(priorityTypes.high_priority);
-
-                value = parseInt(value);
-
-                // To set dimming_no_mov, we need to get node cct_no_mov first. We send this command. After we get cct 
-                // value from rsPort (in writeData function), we send command to set dimming_no_mov. Byte2 and 3 are cct
-                // byte4 is dimming from platform (for example 100 or 50)
-                params.type = "cmd";
-                params.tbname = tbname;
-                params.address = node;
-                params.register = 42; //dimming
-                params.recipient = 1; //slave
-                params.rw = 0; //read
-                params.timestamp = priorityTypes.high_priority;
-                params.info = 'dimming_no_mov';
-                params.value = value;
-                params.debug = true;
-
-                console.log('-------- dimming_no_mov queued in tasks');
-
-                tasks.push(params);
-              }
-              else if(command == "cct_no_mov")
-              {
-                let params = getParams(priorityTypes.high_priority);
-
-                value = parseInt(value);
-                byte2 = Math.floor(value/256);
-                byte3 = value - (byte2 * 256);
-
-                // To set cct_no_mov, we need to get node dimming_no_mov first. We send this command. After we get dimming 
-                // value from rsPort (in writeData function), we send command to set cct_no_mov. Byte2 and 3 are cct from platform
-                // byte4 is dimming (for example 100 or 50)
-                params.type = "cmd";
-                params.tbname = tbname;
-                params.address = node;
-                params.register = 42; //dimming_no_mov
-                params.recipient = 1; //slave
-                params.rw = 0; //read
-                params.timestamp = priorityTypes.high_priority;
-                params.info = "cct_no_mov";
-                params.cct = {byte2: byte2, byte3: byte3};
-                params.debug = true;
-
-                console.log('-------- cct_no_mov queued in tasks');
-
-                tasks.push(params);
-              }
-
-              return;
-
-            }
-            else if(method == "set_profile")
-            {
-              //nastav profil nodu
-              logger.debug("-->set_profile for node", data.params);
-              logger.debug("------profile data", profile);
-              //instance.send(instanceSendTo.debug, "set_profile" + command);
-
-              let keys = Object.keys(nodesData);
-              for(let i = 0; i < keys.length; i++)
-              {
-                let node = keys[i];
-                if(tbname == nodesData[node].tbname.trim())
-                {
-
-                  if(profile == "") 
-                  {
-                    // ak nie je profile, nastavime dimming svietidla podla nodes.table
-                    let params = getParams(priorityTypes.high_priority);
-                    params.type = "cmd";
-                    params.tbname = tbname;
-                    params.address = node;
-                    params.register = 1;//dimming
-                    params.recipient = 1;//slave
-                    params.byte4 = nodesData[node].dimming;
-                    params.rw = 1;//write
-                    params.timestamp = priorityTypes.high_priority;
-                    params.info = 'setNodeDimming';
-                    //params.debug = true;
-                    logger.debug("dimming", params);
-                    tasks.push(params);
-
-                  }
-                  else
-                  {
-                    profile = JSON.stringify(profile);
-                  }
-
-                  dbNodes.modify({ processed: false, profile: profile }).where("node", node).make(function(builder) {
-
-                    builder.callback(function(err, response) {
-
-                      logger.debug("worksys - update node profile done", profile);
-                      if(profile === "") logger.debug("worksys - update node profile done - profile is empty");
-
-                      //profil úspešne prijatý pre node č. xx
-                      //sendNotification("CMD manager", tbname, ERRWEIGHT.INFO, `profil úspešne poslaný z platformy na RVO pre node č. ${node}`, profile, instanceSendTo.tb, instance, null );
-                      sendNotification("CMD manager", tbname, "dimming_profile_was_processed_for_node", {node: node}, profile, instanceSendTo.tb, instance );
-
-                      nodesData[node].processed = false;
-                      nodesData[node].profile = profile;
-
-                      let line = nodesData[node].line;
-                      processNodeProfile(node);
-
-                    });
-                  });
-                }
-              }
-            }
-            else
-            {
-
-              instance.send(instanceSendTo.debug, "unknown method " + method);
-              logger.debug("unknown method", method);
-
-              return;
-            }
-            
-          }
-
-          //nastav profil linie z platformy
-          else if(entity_type == "edb_line" || entity_type == "edb"|| entity_type == "edb_line_ver4")
-          {
-            //profil linie
-            //relays.table line:number|tbname:string|contactor:number|profile:string
-            //najdeme line relaysData
-
-            if(method == "set_profile")
-            {
-
-              logger.debug("-->set_profile for line", data.params);
-              logger.debug("profile data:", profile);
-
-              let keys = Object.keys(relaysData);
-              for(let i = 0; i < keys.length; i++)
-              {
-                let line = keys[i];
-                if(tbname == relaysData[line].tbname)
-                {
-                  //zmazeme tasky
-                  removeTask({type: "relay", line: line});
-                  
-                  if(profile != "") profile = JSON.stringify(profile);
-                  dbRelays.modify({ profile: profile }).where("line", line).make(function(builder) {
-
-                    builder.callback(function(err, response) {
-
-                        //update profile
-                        logger.debug("worksys - update relay profile done:", profile);
-                        instance.send(instanceSendTo.debug, "worksys - update relay profile done");
-
-                        loadRelaysData(line).then(function (data) {
-                          logger.debug("loadRelaysData DONE for line", line);
-                          buildTasks({processLineProfiles: true, line: line});
-                        });
-                        
-                        sendNotification("CMD manager - set profile from worksys", tbname, "switching_profile_was_processed_for_line", {line: line}, profile, instanceSendTo.tb, instance );
-
-                      });
-                    });
-                    
-                  break;
-                }
-              }
-            }
-            else if(method == "set_command")
-            {
-              let value = data.params.payload.value;
-
-              if(command === "switch")
-              {
-
-                // if we receive rpc from platform, to switch maintenance mode, we set OMS_maintenance_mode flow variable to value;
-                if(entity_type === "edb" || entity_type === "edb_ver4_se") FLOW.variables.OMS_maintenance_mode = value;
-
-                let responseRelays = await promisifyBuilder(dbRelays.find().where("tbname", tbname));
-
-                let line = 0;
-                if(responseRelays.length == 1) line = responseRelays[0].line;
-              
-                if(value == false) turnOffLine(line, "command received form platform");
-                else turnOnLine(line, "command received form platform");
-              }
-
-            }
-            else
-            {
-              instance.send(instanceSendTo.debug, "undefined method " + method);
-              logger.debug("undefined method", method);
-            }
-
-            return;
-
-          }
-          else{
-            instance.send(instanceSendTo.debug, "UNKNOW entity_type " + entity_type);
-            logger.debug("UNKNOW entity_type", entity_type);
-          }
-
-          return;
-        }
-
-        //terminal
-        if(!rsPort.isOpen) await rsPort.open();
-
-        let params = flowdata.data.body;
-        if(params == undefined)
-        {
-          //logger.debug("CMD manager flowdata.data.body is undefined");
-          return;
-        }
-
-        params.priority = priorityTypes.terminal;
-        params.type = "cmd-terminal";
-        params.tbname = "";
-        params.timestamp = priorityTypes.terminal;
-        params.addMinutesToTimestamp = 0;// do not repeat task!!!
-        params.debug = true;
-
-        let timestamp = Date.now();
-        params.refFlowdataKey = timestamp;
-        //params.refFlowdata = flowdata;
-        //refFlowdata = flowdata;
-
-        //console.log("flowdata", flowdata);
-
-        cleanUpRefFlowdataObj();
-
-        refFlowdataObj[ timestamp ] = flowdata;
-
-        //fix
-        //params.address = params.adress;
-        logger.debug("received from terminal", params);
-        logger.debug("date/time:", new Date());
-        logger.debug("tasks length:", tasks.length);
-
-        //tasks = [];
-
-        //add to tasks
-        tasks.push(params);
-
-      }
-    }
-  })
-} // end of exports.install = function(instance)
-
-
-
-/**
- * setCorrectTime function runs once per hour
- * If it is 3 o'clock, it sets actual time, which is got from services
- * https://service-prod01.worksys.io/gettime
- * If also detects Read Only Filesystem once a day
- */
-function setCorrectPlcTimeOnceADay()
-{
-
-  const currentTime = new Date();
-  if(currentTime.getHours() != 3) return;
-
-  RESTBuilder.make(function(builder) {
-
-    if(!builder) return;
-
-    builder.method('GET');
-    builder.url('http://192.168.252.2:8004/gettime?projects_id=1');
-
-    builder.callback(function(err, response, output) {
-
-      if (err) {
-        console.log(err);
-        return;
-      }
-
-      const res = output.response;
-
-      try {
-
-        const obj = JSON.parse(res);
-        let d = new Date(obj.date);
-
-        const now = new Date();
-
-        let diffInMinutes = now.getTimezoneOffset();
-        console.log("---->TimezoneOffset", diffInMinutes);
-
-        if(d instanceof Date)
-        {
-
-          // monitor.info("----------->setCorrectPlcTimeOnceADay() current js date:", d, d.getHours());
-        
-          let year = d.getFullYear();
-          let month = addZeroBefore(d.getMonth() + 1);
-          let day = addZeroBefore(d.getDate());
-          
-          let hours = addZeroBefore(d.getHours());
-          let minutes = addZeroBefore(d.getMinutes() );
-          let seconds = addZeroBefore(d.getSeconds());
-
-          let dateStr = `${year}-${month}-${day} ${hours}:${minutes}:${seconds}`;
-          
-          exec(`sudo timedatectl set-time "${dateStr}"`, (err, stdout, stderr) => {
-            if (err || stderr) {
-              console.error(err);
-              console.log(stderr);
-              console.log(dateStr);
-
-              monitor.info("failed timedatectl set-time", err, stderr);
-            }
-            else
-            {
-              monitor.info("setCorrectPlcTimeOnceADay() --> Nastaveny cas na: ", dateStr);
-            }
-
-          });
-        }
-
-      } catch (error) {
-        logger.debug("setCorrectPlcTimeOnceADay - function error", error, res);
-        monitor.info("setCorrectPlcTimeOnceADay - function error", error, res);
-      }
-
-      // we detect readOnlyFileSystem once an hour as well
-      detectReadOnlyFilesystem();
-
-    });
-  });
-
-}
-
-
-function detectReadOnlyFilesystem()
-{
-  exec(`sudo egrep " ro,|,ro " /proc/mounts`, (err, stdout, stderr) => {
-    if (err || stderr) {
-      console.error(err);
-      console.log(stderr);
-
-    } else {
-      //console.log("Read-only", stdout);
-      
-      let lines = stdout + "";
-      lines = lines.split("\n");
-
-      let readOnlyDetected = "";
-      for(let i = 0; i < lines.length; i++)
-      {
-        if(lines[i].startsWith("/dev/mmcblk0p2"))
-        {
-          readOnlyDetected = lines[i];
-        }
-      }
-      
-      if(readOnlyDetected !== "")
-      {
-        errorHandler.sendMessageToService("Detected: Read-only file system: " + readOnlyDetected);
-        monitor.info("Read only filesystem detected");
-      }
-      
-    }
-  });
-}
-
-let setCorrectTime = setInterval(setCorrectPlcTimeOnceADay, 60000 * 60);  // 1 hour
-setCorrectPlcTimeOnceADay();
-
-
-
-
-
-
-
-
-
-
-///helper functions
-
-function calculateDuskDown(date, line, duskOffset = 0, dawnOffset = 0)
-{
-
-  if(date === undefined) date = new Date();
-  //if(duskOffset === undefined) duskOffset = 0;
-  //if(dawnOffset === undefined) dawnOffset = 0;
-
-  //let line = keys[i];
-  let profilestr = "";
-  if(relaysData[line] != undefined) profilestr = relaysData[line].profile;
-
-  let result = {};
-
-  var times = SunCalc.getTimes(date, latitude, longitude);
-  let dawn = new Date(times.sunrise);//usvit
-  let dusk = new Date(times.sunset);//sumrak
-  
-
-  //http://suncalc.net/#/48.5598,18.169,11/2021.04.07/11:06
-  //https://mapa.zoznam.sk/zisti-gps-suradnice-m6
-
-
-  let dusk_astro_clock_offset = duskOffset;//minutes
-  let dawn_astro_clock_offset = dawnOffset;//minutes
-
-  try{
-
-    let profile = JSON.parse(profilestr);
-    if(Object.keys(profile).length === 0) throw ("profile is not defined");
-
-    //Jednoduchý režim
-    if(profile.astro_clock == false && profile.dusk_lux_sensor == false && profile.dawn_lux_sensor == false)
-    {
-
-    }
-
-    //Režim astrohodín
-    if(profile.astro_clock == true)
-    {
-      //if(profile.dusk_lux_sensor == false)
-      {
-          if(profile.hasOwnProperty("dusk_astro_clock_offset")) dusk_astro_clock_offset = parseInt( profile.dusk_astro_clock_offset );
-      }
-
-      //if(profile.dawn_lux_sensor == false)
-      {
-          if(profile.hasOwnProperty("dawn_astro_clock_offset")) dawn_astro_clock_offset = parseInt( profile.dawn_astro_clock_offset );
-      }
-      
-    }
-
-    //dusk - súmrak 
-    //down, sunrise - svitanie
-    
-  } catch (error) {
-    if(profilestr != "")
-    {
-      logger.debug(profilestr);
-      logger.debug(error);
-    }
-  } 
-
-  result.dusk_no_offset = addZeroBefore(dusk.getHours()) + ":" + addZeroBefore(dusk.getMinutes());
-  result.dawn_no_offset = addZeroBefore(dawn.getHours()) + ":" + addZeroBefore(dawn.getMinutes());
-
-  dusk = new Date(dusk.getTime() + gmtOffset + dusk_astro_clock_offset*60000);
-  dawn = new Date(dawn.getTime() + gmtOffset + dawn_astro_clock_offset*60000);
-
-  result.dusk = addZeroBefore(dusk.getHours()) + ":" + addZeroBefore(dusk.getMinutes());
-  result.dusk_hours = dusk.getHours();
-  result.dusk_minutes = dusk.getMinutes();
-
-  result.dawn = addZeroBefore(dawn.getHours()) + ":" + addZeroBefore(dawn.getMinutes());
-  result.dawn_hours = dawn.getHours();
-  result.dawn_minutes = dawn.getMinutes();
-
-  result.dusk_time = dusk.getTime();
-  result.dawn_time = dawn.getTime();
-
-  result.dusk_astro_clock_offset = dusk_astro_clock_offset;
-  result.dawn_astro_clock_offset = dawn_astro_clock_offset;
-
-  return result;
-}
-
-function processResponse(register, bytes)
-{
-
-  let values = {};
-
-  let byte3 = bytes[0];
-  let byte2 = bytes[1];
-  let byte1 = bytes[2];
-  let byte0 = bytes[3];
-
-  //status
-  if(register == 0)
-  {
-    let statecode = bytesToInt(bytes);
-    values = {"statecode": statecode};
-    return values;
-  }
-
-  //Dimming, CCT
-  if(register == 1)
-  {
-    let brightness = 0;
-    let dimming = byte0;
-    if(dimming > 128) {
-      brightness = dimming - 128;
-    }
-
-    values["dimming"] = brightness;
-
-    let cct;
-    if(byte3 == 1) cct = (byte2 * 256) + byte1;
-    //else cct = bytesToInt(bytes.slice(0, 3));
-
-    if(cct) values["cct"] = cct;
-    return values;
-  }
-
-  //Dimming_no_mov
-  if(register == 42)
-  {
-    values["dimming_no_mov"] = byte0 - 128;
-
-    let cct;
-    if(byte3 == 1) cct = (byte2 * 256) + byte1;
-
-    if(cct) values["cct_no_mov"] = cct;
-
-    return values;
-  }
-
-
-  //
-  if(register == 4)
-  {
-    values["master_node_version"] = bytes[1] + "." + bytes[2];
-    //logger.debug("FW Version", register, bytes);
-  }
-
-  //Napätie
-  if(register == 74)
-  {
-    let voltage = (bytesToInt(bytes) * 0.1).toFixed(1);
-    values["voltage"] = Number(voltage);
-  }
-
-  //Prúd
-  if(register == 75)
-  {
-    let current = bytesToInt(bytes);
-    values["current"] = current;
-  }
-
-  //výkon
-  if(register == 76)
-  {
-    let power = (bytesToInt(bytes) * 0.1).toFixed(2);
-    values["power"] = Number(power);
-  }
-
-  //účinník
-  if(register == 77)
-  {
-    let power_factor = Math.cos(bytesToInt(bytes) * 0.1).toFixed(2);
-    values["power_factor"] = Number(power_factor);
-  }
-
-  //frekvencia
-  if(register == 78)
-  {
-    let frequency = (bytesToInt(bytes) * 0.1).toFixed(2);
-    values["frequency"] = Number(frequency);
-  }
-
-  //energia
-  if(register == 79)
-  {
-    let energy = bytesToInt(bytes);
-
-    //Energiu treba reportovať v kWh. Teda číslo, ktoré príde treba podeliť 1000. Toto som ti možno zle napísal.
-
-    values["energy"] = energy / 1000;
-  }
-
-  //doba života
-  if(register == 80)
-  {
-    let lifetime = ( bytesToInt(bytes) / 60).toFixed(2);
-    values["lifetime"] = Number(lifetime);
-  }
-
-  //nastavenie profilu
-  if(register == 8)
-  {
-    let time_schedule_settings = bytesToInt(bytes);
-    values["time_schedule_settings"] = time_schedule_settings;
-  }
-
-  //skupinová adresa 1
-  if(register == 3)
-  {
-    let gr_add_1 = bytesToInt(byte0);
-    values["gr_add_1"] = gr_add_1;
-
-    let gr_add_2 = bytesToInt(byte1);
-    values["gr_add_2"] = gr_add_2;
-
-    let gr_add_3 = bytesToInt(byte2);
-    values["gr_add_3"] = gr_add_3;
-
-    let gr_add_4 = bytesToInt(byte3);
-    values["gr_add_4"] = gr_add_4;
-  }
-
-  //naklon
-  if(register == 84)
-  {
-      let temp;
-      if(byte3 >= 128)
-      {
-        temp = (byte3 - 128) * (-1);
-      }
-      else
-      {
-        temp = byte3;
-      }
-
-      let inclination_x;
-      if(byte2 >= 128)
-      {
-        inclination_x = (byte2 - 128) * (-1);
-      }
-      else
-      {
-        inclination_x = byte2;
-      }
-
-      let inclination_y;
-      if(byte1 >= 128)
-      {
-        inclination_y = (byte1 - 128) * (-1);
-      }
-      else
-      {
-        inclination_y = byte1;
-      }
-
-      let inclination_z;
-      if(byte0 >= 128)
-      {
-        inclination_z = (byte0 - 128) * (-1);
-      }
-      else
-      {
-        inclination_z = byte0;
-      }
-
-      values["temperature"] = temp;
-
-      //náklon x
-      values["inclination_x"] = inclination_x;
-
-      //náklon y
-      values["inclination_y"] = inclination_y;
-
-      //náklon z
-      values["inclination_z"] = inclination_z;
-  }
-
-  let h = byte3;
-  let m = byte2;
-  let s = byte1;
-
-  let timestamp;
-
-  if(register == 87 || register == 6 || register == 7 )
-  {
-    //if(byte3 < 10) h = "0" + byte3;
-    //if(byte2 < 10) m = "0" + byte2;
-    //if(byte1 < 10) s = "0" + byte1;
-
-    var d = new Date();
-    d.setHours(h);
-    d.setMinutes(m);
-    d.setSeconds(s);
-
-    timestamp = d.getTime();
-  }
-
-
-  //aktuálny čas
-  if(register == 87)
-  {
-    //Byte3 - hodiny, Byte 2 - minúty, Byte 1 -sek.
-    //values["actual_time"] = h + ":" + m + ":" + s;
-
-    values["actual_time"] = timestamp;
-  }
-
-  //čas súmraku
-  if(register == 6)
-  {
-    //Byte3 - hodiny, Byte 2 - minúty, Byte 1 -sek.
-    //values["dusk_time"] = h + ":" + m + ":" + s;
-
-    values["dusk_time"] = timestamp;
-  }
-
-  //čas úsvitu
-  if(register == 7)
-  {
-    //Byte3 - hodiny, Byte 2 - minúty, Byte 1 -sek.
-    //values["dawn_time"] = h + ":" + m + ":" + s;
-
-    values["dawn_time"] = timestamp;
-  }
-
-  //FW verzia
-  if(register == 89)
-  {
-    //formát: "Byte3: Byte2.Byte1 (Byte0)"
-
-    values["fw_version"] = byte3 + ":" + byte2 + "." + byte1 + "(" + byte0 + ")";
-  }
-
-  if(register == 95)
-  {
-    values["lux_level"] = (byte1 * 256) + byte0;
-  }
-
-  if(register == 104)
-  {
-    values["movement_timeout"] = (byte1 * 256) + byte0;
-    values["movement_state"] = byte2;
-  }
-
-  return values;
-}
-
-//byte1 MSB = data3, byte2 = data2, byte3 = data1, byte4 = data0 LSB
-function com_generic(adresa, rec, rw, register, name, byte1, byte2, byte3, byte4) {
-  let resp = [];
-  
-  let cmd = register;
-
-  if (typeof adresa === 'string') adresa = parseInt(adresa);
-  if (typeof byte1 === 'string') byte1 = parseInt(byte1);
-  if (typeof byte2 === 'string') byte2 = parseInt(byte2);
-  if (typeof byte3 === 'string') byte3 = parseInt(byte3);
-  if (typeof byte4 === 'string') byte4 = parseInt(byte4);
-  
-  if (rw === 0)
-  {
-      cmd = cmd + 0x8000;
-  }
-  
-  //master
-  if(rec === 0) adresa = 0;
-
-  if(rec === 2)
-  {
-    adresa = 0xffffffff;//Broadcast
-  }
-
-  //recipient
-  if (rec === 3)
-  {
-      resp.push(0xFF);
-      resp.push(0xFF);
-      resp.push(0xFF);
-      resp.push(0xFF);
-      resp.push( adresa & 0xFF );//band
-  }
-  else
-  {
-      resp.push( (adresa >> 24) &  0xFF);//rshift
-      resp.push( (adresa >> 16) &  0xFF);
-      resp.push( (adresa >> 8) &  0xFF);
-      resp.push( adresa & 0xFF );
-
-      if (rec === 2)
-      {
-          resp.push(0xFF);
-      }
-      else resp.push(0);
-  }
-
-  resp.push( (cmd >> 8) &  0xFF);//rshift
-  resp.push( cmd & 0xFF );//band
-  resp.push( byte1 & 0xFF );//band
-  resp.push( byte2 & 0xFF );//band
-  resp.push( byte3 & 0xFF );//band
-  resp.push( byte4 & 0xFF );//band
-
-  //let data = '12345';
-  let crc = crc16('ARC', resp);
-  let c1 = (crc >> 8) & 0xFF;
-  let c2 = crc & 0xFF;
-
-  resp.push(c1);
-  resp.push(c2);
-
-  //logger.debug("checksum", crc);
-  //logger.debug("resp", resp);
-
-  return resp;
-
-}
-
-
-
-
-
-
-
-// Node profile rpc
-// {
-//   "topic": "v1/gateway/rpc",
-//   "content": {
-//     "device": "KjbN4q7JPZmexgdnz2yKQ98YAWwO0Q3BMX6ERLoV",
-//     "data": {
-//       "id": 53,
-//       "method": "set_profile",
-//       "params": {
-//         "entities": [
-//           {
-//             "entity_type": "street_luminaire",
-//             "tb_name": "LpkVlmq4b3jMwJQxBZ8akayrXAP6o97Ke0aOYEg2"
-//           }
-//         ],
-//         "payload": {
-//           "intervals": [
-//             {
-//               "cct": 3000,
-//               "value": 0,
-//               "end_time": "17:50",
-//               "start_time": "13:00"
-//             },
-//             {
-//               "cct": 3000,
-//               "value": 100,
-//               "end_time": "21:30",
-//               "start_time": "17:50"
-//             },
-//             {
-//               "cct": 3000,
-//               "value": 0,
-//               "end_time": "13:00",
-//               "start_time": "07:10"
-//             },
-//             {
-//               "cct": 3000,
-//               "value": 50,
-//               "end_time": "00:00",
-//               "start_time": "21:30"
-//             },
-//             {
-//               "cct": 3000,
-//               "value": 10,
-//               "end_time": "04:30",
-//               "start_time": "00:00"
-//             },
-//             {
-//               "cct": 3000,
-//               "value": 100,
-//               "end_time": "07:10",
-//               "start_time": "04:30"
-//             }
-//           ],
-//           "astro_clock": true,
-//           "dawn_lux_sensor": false,
-//           "dusk_lux_sensor": false,
-//           "dawn_lux_sensor_value": 5,
-//           "dusk_lux_sensor_value": 5,
-//           "dawn_astro_clock_offset": 30,
-//           "dusk_astro_clock_offset": 20,
-//           "dawn_lux_sensor_time_window": 30,
-//           "dusk_lux_sensor_time_window": 30,
-//           "dawn_astro_clock_time_window": 60,
-//           "dusk_astro_clock_time_window": 60
-//         }
-//       }
-//     }
-//   }
-// }
+exports.id = 'cmd_manager';
+exports.title = 'CMD Manager';
+exports.group = 'Worksys';
+exports.color = '#5D9CEC';
+exports.version = '0.0.3';
+exports.output = ['red', 'blue', 'yellow', 'blue', 'white'];
+
+//blue - send message to relays
+
+exports.input = true;
+exports.author = 'Daniel Segeš';
+exports.icon = 'cloud-upload';
+//exports.npm = ['serialport' , 'child_process'];
+
+exports.html = `
+<div class="padding">
+  <div class="row">
+    <div class="col-md-12">
+      <div>RPC - run RPC calls</div><br>
+    </div>
+  </div>
+  <div data-jc="textbox" data-jc-path="username" class="m" data-jc-config="required:true">@(User)</div>
+  <div class="row">
+    <div class="col-md-6 m">
+      <div data-jc="textbox" data-jc-path="userpassword" data-jc-config="required:true">@(Password)</div>
+    </div>
+    <div class="col-md-6 m">
+      <div data-jc="textbox" data-jc-path="edge" data-jc-config="required:true">@(My edge)</div>
+    </div>
+  </div>
+</div>
+`;
+
+exports.readme = `Manager for CMD calls`;
+
+const SerialPort = require('serialport');
+const { exec } = require('child_process');
+const { crc8, crc16, crc32 } = require('easy-crc');
+const { openPort, runSyncExec, writeData } = require('./helper/serialport_helper.js');
+const { bytesToInt, longToByteArray, addZeroBefore, isEmptyObject, convertUTCDateToLocalDate } = require('./helper/utils');
+const bitwise = require('bitwise');
+
+var SunCalc = require('./helper/suncalc.js');
+const DataToTbHandler = require('./helper/DataToTbHandler.js');
+const ErrorToServiceHandler = require('./helper/ErrorToServiceHandler.js');
+const { promisifyBuilder, makeMapFromDbResult} = require('./helper/db_helper.js');
+const { sendNotification, initNotifications, ERRWEIGHT } = require('./helper/notification_reporter.js');
+
+const dbNodes = TABLE("nodes");
+const dbRelays = TABLE("relays");
+const dbSettings = TABLE("settings");
+
+//https://github.com/log4js-node/log4js-node/blob/master/examples/example.js
+//file: { type: 'file', filename: path.join(__dirname, 'log/file.log') }
+var path = require('path');
+var log4js = require("log4js");
+const process = require('process');
+
+//TODO - to remove?
+// runTasks intervals
+const SHORT_INTERVAL = 30;
+const LONG_INTERVAL = 300;
+
+//send data to following instances:
+const SEND_TO = {
+  debug: 0,
+  tb: 1,
+  http_response: 2,
+  dido_controller: 3,
+  infoSender: 4
+}
+
+const PRIORITY_TYPES = {
+  terminal: 0,
+  fw_detection: 1,//reserved only for FW detection - FLOW.OMS_masterNodeIsResponding
+  high_priority: 2,//reserverd only for: read dimming / brightness (after set dimming from platform)
+  relay_profile: 3,
+  node_broadcast: 4,
+  node_profile: 5,
+  node_cmd: 6
+}
+
+//list of command calls to process. Processing in runTasks function
+let tasks = [];
+
+let interval = null;//timeout for procesing tasks
+let refFlowdata = null;//holds reference to httprequest flowdata
+let refFlowdataObj = {};
+
+//load from settings
+let latitude = 48.70826502;//48.682255758;
+let longitude = 17.28455203;//17.278910807;
+
+const gmtOffset = 0;
+
+//ak nie je nastaveny 
+//https://www.tecmint.com/set-time-timezone-and-synchronize-time-using-timedatectl-command/
+//https://stackoverflow.com/questions/16086962/how-to-get-a-time-zone-from-a-location-using-latitude-and-longitude-coordinates
+
+//priorities for registers
+let priorities = [];
+
+let minutes = 1;
+priorities["0"] = minutes;
+priorities["1"] = minutes;
+
+minutes = 5;
+priorities["74"] = minutes;
+priorities["75"] = minutes;
+priorities["76"] = minutes;
+priorities["77"] = minutes;
+priorities["78"] = minutes;
+priorities["79"] = minutes;
+priorities["84"] = minutes;
+
+minutes = 10; 
+priorities["87"] = minutes;
+priorities["6"] = minutes;
+priorities["7"] = minutes;
+priorities["80"] = minutes;
+priorities["8"] = minutes;
+priorities["3"] = minutes;
+priorities["89"] = minutes;
+
+//prikazy kt sa budu spustat na dany node - see config.js in terminal-oms.app. (1 - dimming)
+let listOfCommands = [0,1,3,6,7,8,74,75,76,77,78,79,80,84,87,89];
+
+const errorHandler = new ErrorToServiceHandler();
+
+let rotary_switch_state = "Off";
+let lux_sensor;
+let state_of_breaker = {};//key is line, value is On/Off
+let disconnectedReport = {};//key is tbname, value true/false
+
+let relaysData = {};//key is line, value is data from db
+let nodesData = {};//key is node, value data from db
+
+//helper container for counting resolved group of commands (commands related to set profile)
+let cmdCounter = {};//key is node, value is counter
+let cmdNOKNodeCounter = {};//key is node, value is counter
+
+//END OF VARIABLE SETTINGS
+//--------------------------------
+
+
+log4js.configure({
+  appenders: {
+    errLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'err.txt') },
+    monitorLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'monitor.txt') },
+    console: { type: 'console' }
+  },
+  categories: {
+    errLogs: { appenders: ['console', 'errLogs'], level: 'error' },
+    monitorLogs: { appenders: ['console', 'monitorLogs'], level: 'trace' },
+    //another: { appenders: ['console'], level: 'trace' },
+    default: { appenders: ['console'], level: 'trace' }
+  }
+});
+
+const errLogger = log4js.getLogger("errLogs");
+const logger = log4js.getLogger();
+const monitor = log4js.getLogger("monitorLogs");
+
+//USAGE
+//logger.debug("text")
+//monitor.info('info');
+//errLogger.error("some error");
+
+
+function cmdCounterResolve(address)
+{
+  if(cmdCounter.hasOwnProperty(address))
+  {
+    cmdCounter[address] = cmdCounter[address] - 1;
+    
+    let result = cmdCounter[address];
+    if(result == 0) delete cmdCounter[address];
+    return result;
+  }
+  return -1;
+}
+
+
+function getParams(priority)
+{
+  let params = {};
+
+  //core rpc values
+  params.address = 0;//if(recipient === 0) address = 0;
+  params.byte1 = 0;//msb, podla dokumentacie data3
+  params.byte2 = 0;//podla dokumentacie data2
+  params.byte3 = 0;//podla dokumentacie data1
+  params.byte4 = 0;//lsb, podla dokumentacie data0
+  params.recipient = 0;//0: Master, 1: Slave, 2: Broadcast
+  params.register = -1;//register number
+  params.rw = 0;//0: read, 1: write
+
+  //other values
+  //params.type = "cmd"; "relay" "cmd-terminal" "set_node_profile" "process_profiles" "edge_date_time" "number_of_luminaires"
+  //params.tbname = tbname;
+  params.priority = PRIORITY_TYPES.node_cmd; //default priority - if more tasks with the same timestamp, we sort them based on priority
+  params.timestamp = 0; //execution time - if timestamp < Date.now(), the task is processed
+  if(priority != undefined )
+  {
+    params.timestamp = priority;
+    params.priority = priority;
+  }
+  
+  params.addMinutesToTimestamp = 0;//repeat task if value is > 0,
+
+  //params.timePointName = "luxOff" // "luxOn", "dusk", "dawn", "profileTimepoint"
+  //params.info = "";
+
+  return params;
+}
+
+
+async function loadSettings()
+{
+  let responseSettings = await promisifyBuilder(dbSettings.find());
+
+  latitude = responseSettings[0]["latitude"];
+  longitude = responseSettings[0]["longitude"];
+
+  //globals
+  FLOW.OMS_language = responseSettings[0]["lang"];
+  FLOW.OMS_rvo_name = responseSettings[0]["rvo_name"];
+  FLOW.OMS_projects_id = responseSettings[0]["projects_id"];
+  //FLOW.OMS_rvo_tbname = responseSettings[0]["tbname"];
+  FLOW.OMS_temperature_adress = responseSettings[0]["temperature_adress"];
+  FLOW.OMS_controller_type = responseSettings[0]["controller_type"];
+  FLOW.OMS_serial_port = responseSettings[0]["serial_port"];
+
+  //logger.debug('settings', responseSettings[0]);
+
+  initNotifications();
+} 
+
+loadSettings();
+
+
+async function loadNodes()
+{
+  const responseNodes = await promisifyBuilder(dbNodes.find());
+  nodesData = makeMapFromDbResult(responseNodes, "node");
+}
+
+loadNodes();
+
+
+//nastav profil nodu
+function processNodeProfile(node)
+{
+  if(rotary_switch_state != "Automatic")
+  {
+    logger.debug("unable to process profile for node", node, "rotary_switch_state != Automatic");
+    return;
+  }
+
+  let nodeObj = nodesData[node];
+  let line = nodeObj.line;
+
+  if(relaysData[line].contactor == 0)
+  {
+    logger.debug("line line is off", line, node);
+    return;
+  }
+
+  if(nodeObj.processed == 1)
+  {
+    logger.debug("node was already processed", node);
+    return;
+  }
+
+  let profile = nodeObj.profile;
+
+  logger.debug("processNodeProfile: start - set profile for ", node, profile);
+
+  let nodeProfile;
+  try{
+    nodeProfile = JSON.parse( profile );
+    if(Object.keys(nodeProfile).length === 0) throw ("profile is not defined");
+  } catch (error) {
+    logger.debug("Error parsing node profile", error);
+  } 
+
+  logger.debug("processNodeProfile", node, line, nodeObj, nodeProfile);
+
+  let timestamp = PRIORITY_TYPES.node_cmd;
+
+  removeTask({type: "set_node_profile", address: node});
+  cmdNOKNodeCounter[node] = 0;
+
+  //co ked sa prave spracovava?
+  //if(cmdNOKNodeCounter[params.address] < 5) saveToTb = false;
+
+  if(nodeProfile === undefined)
+  {
+    //vypneme profil nodu, posleme cmd
+    //Pokiaľ je hodnota rovná 1 – Profil sa zapne, ostatné bity sa nezmenia.
+    //Pokiaľ sa hodnota rovná 2 – profil sa vypne, ostatné bity sa nezmenia
+
+    logger.debug("turn off profile");
+
+    let params = getParams(PRIORITY_TYPES.node_cmd);
+    params.type = "set_node_profile";
+    params.address = node;
+    params.byte1 = 0;
+    params.byte2 = 0;
+    params.byte3 = 0;
+    params.byte4 = 96;
+    params.recipient = 1;
+    params.register = 8;
+    params.rw = 1;//write
+    params.timestamp = timestamp;
+    params.addMinutesToTimestamp = 0;
+    params.info = 'turn off/reset node profile';
+
+    cmdCounter[node] = 1;
+
+    tasks.push(params);
+
+    //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.NOTICE, "Master node is working again", "", SEND_TO.tb, instance );
+  }
+  else
+  {
+    let tasksProfile = [];
+    //cmdCounter[node] = tasksProfile.length;
+    //tasks.push(tasksProfile);
+    
+    //let timestamp = PRIORITY_TYPES.node_cmd;
+
+    //vypneme profil -  Zapísať hodnotu 32 do registra Time Schedule Settings – reset profilu
+    let params = getParams(PRIORITY_TYPES.node_cmd);
+    params.type = "set_node_profile";
+    params.address = node;
+    params.byte1 = 0;
+    params.byte2 = 0;
+    params.byte3 = 0;
+    params.byte4 = 96;
+    params.recipient = 1;
+    params.register = 8;
+    params.rw = 1;//write
+    params.timestamp = timestamp;
+    params.addMinutesToTimestamp = 0;
+    params.info = 'turn off node profile';
+
+    tasksProfile.push(params);
+
+    timestamp++;
+
+    logger.debug("processNodeProfile: TS1 Time point a TS1 Time Point Levels ", node);
+
+    //TS1 Time point a TS1 Time Point Levels
+    let register = 9;
+    for(let i = 0; i < nodeProfile.intervals.length; i++)
+    {
+      let obj = nodeProfile.intervals[i];
+      //let timePoint = obj.time_point;
+      let dim_value = obj.value; 
+
+
+      //Reg 9 až Reg 40
+
+      /*
+      Samotný profil sa zapisuje do max. 16 párov – časový bod a úroveň.
+      Prázdny profil je vtedy keď časový bod obsahuje hodnotu 0xFFFFFFFF (táto hodnota sa zapíše do registrov keď sa aktivuje reset profilu do registru 8).
+      Páry sa prechádzajú časovo zoradené takže teoreticky je jedno v akom poradí sa zapisujú ale je lepšie ich zapisovať v chronologickom poradí od 13:00.
+      Časový bod má formát:
+      Byte 3: hodiny  Byte 2: minúty  Byte 1: sekundy   Byte 0 – rezervované
+      Register úrovne má rovnaký formát ako dimming register (Reg 1). 
+      */
+
+    //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+    //params.byte1 = 0;//msb, podla dokumentacie data3
+    //params.byte2 = 0;//podla dokumentacie data2
+    //params.byte3 = 0;//podla dokumentacie data1
+    //params.byte4 = 0;//lsb, podla dokumentacie data0
+    //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+
+      let start_time = obj.start_time;
+      let t = start_time.split(":");
+      //if(timePoint != undefined) t = timePoint.split(":");
+      //else t = [0,0];
+
+      logger.debug("processNodeProfile: TS1 Time point ", (i + 1), node);
+
+      params = getParams(PRIORITY_TYPES.node_cmd);
+      params.type = "set_node_profile";
+      params.address = node;
+      params.byte1 = parseInt(t[0]);//hh
+      params.byte2 = parseInt(t[1]);//mm
+      params.byte3 = 0;//ss
+      params.byte4 = 0;//
+      params.recipient = 1;
+      params.register = register;
+      params.rw = 1;//write
+      params.timestamp = timestamp;
+      params.addMinutesToTimestamp = 0;
+      params.info = 'TS1 Time point ' + (i + 1);
+
+      tasksProfile.push(params);
+
+      register++;
+      timestamp++;
+
+      params = getParams(PRIORITY_TYPES.node_cmd);
+      params.type = "set_node_profile";
+      params.address = node;
+      params.byte1 = 0;
+      params.byte2 = 0;
+      params.byte3 = 0;//ss
+      params.byte4 = parseInt(dim_value) + 128;//
+      params.recipient = 1;
+      params.register = register;
+      params.rw = 1;//write
+      params.timestamp = timestamp;
+      params.addMinutesToTimestamp = 0;
+      params.info = 'TS1 Time point Levels ' + (i + 1);
+
+      tasksProfile.push(params);
+
+      register++;
+      timestamp++;
+    }
+
+    //Threshold lux level for DUSK/DAWN
+    //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+    //params.byte1 = 0;//msb, podla dokumentacie data3
+    //params.byte2 = 0;//podla dokumentacie data2
+    //params.byte3 = 0;//podla dokumentacie data1
+    //params.byte4 = 0;//lsb, podla dokumentacie data0
+    //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+
+
+    //Time schedule settings na koniec
+    //if(nodeProfile.dusk_lux_sensor || nodeProfile.dawn_lux_sensor)
+    {
+
+      logger.debug("processNodeProfile: Threshold lux level for DUSK/DAWN", node);
+
+      let params = getParams(PRIORITY_TYPES.node_cmd);
+      params.type = "set_node_profile";
+      params.address = node;
+      params.register = 96;
+      params.recipient = 1;
+      params.rw = 1;//write
+      params.timestamp = timestamp;
+      params.addMinutesToTimestamp = 0;
+      params.info = "Threshold lux level for DUSK/DAWN";
+
+      if(nodeProfile.dusk_lux_sensor)
+      {
+        let v = nodeProfile.dusk_lux_sensor_value;
+        let ba = longToByteArray(v);
+
+        params.byte1 = ba[1];//msb
+        params.byte2 = ba[0];
+      }
+
+      if(nodeProfile.dawn_lux_sensor)
+      {
+        let v = nodeProfile.dawn_lux_sensor_value;
+        let ba = longToByteArray(v);
+
+        params.byte3 = ba[1];//msb
+        params.byte4 = ba[0];
+      }
+
+      tasksProfile.push(params);
+      timestamp++;
+
+    }
+
+    //DUSK/DAWN max. adjust period
+    {
+
+      logger.debug("processNodeProfile: DUSK/DAWN max. adjust period", node);
+
+      let params = getParams(PRIORITY_TYPES.node_cmd);
+      params.type = "set_node_profile";
+      params.address = node;
+      params.register = 97;
+      params.recipient = 1;
+      params.rw = 1;//write
+      params.timestamp = timestamp;
+      params.addMinutesToTimestamp = 0;
+      params.info = "DUSK/DAWN max. adjust period";
+
+      if(nodeProfile.astro_clock)
+      {
+        let v = nodeProfile.dusk_lux_sensor_time_window;
+        let ba = longToByteArray(v);
+
+        params.byte1 = ba[1];//msb
+        params.byte2 = ba[0];
+      }
+
+      if(nodeProfile.astro_clock)
+      {
+        let v = nodeProfile.dawn_lux_sensor_time_window;
+        let ba = longToByteArray(v);
+
+        params.byte3 = ba[1];//msb
+        params.byte4 = ba[0];
+      }
+
+      tasksProfile.push(params);
+      timestamp++;
+
+    }
+
+    //Static offset
+    {
+
+      //Statický offset pre časy úsvitu a súmraku. Byte 1 je pre DUSK, Byte 0 je pre DAWN. Formát:
+      //Bity 0 – 6: hodnota v minútach
+      //Bit 7:  znamienko (1 – mínus)
+      
+      logger.debug("processNodeProfile: Static offset", node);
+
+      let params = getParams(PRIORITY_TYPES.node_cmd);
+      params.type = "set_node_profile";
+      params.address = node;
+      params.register = 98;
+      params.recipient = 1;
+      params.rw = 1;//write
+      params.timestamp = timestamp;
+      params.addMinutesToTimestamp = 0;
+      params.info = "Static offset";
+
+      if(nodeProfile.astro_clock)
+      {
+        let dusk_astro_clock_offset = parseInt(nodeProfile.dusk_astro_clock_offset);
+        let dawn_astro_clock_offset = parseInt(nodeProfile.dawn_astro_clock_offset);
+
+        if(dusk_astro_clock_offset < 0)
+        {
+          params.byte3 = (dusk_astro_clock_offset * -1) + 128;
+        }
+        else
+        {
+          params.byte3 = dusk_astro_clock_offset;
+        }
+
+        if(dawn_astro_clock_offset < 0)
+        {
+          params.byte4 = (dawn_astro_clock_offset * -1) + 128;
+        }
+        else
+        {
+          params.byte4 = dawn_astro_clock_offset;
+        }
+      }
+
+      tasksProfile.push(params);
+      timestamp++;
+    }
+
+    logger.debug("Time schedule settings - turn on", node);
+
+    params = getParams(PRIORITY_TYPES.node_cmd);
+    params.type = "set_node_profile";
+    params.address = node;
+    params.register = 8;
+    params.recipient = 1;
+    params.rw = 1;//write
+    
+    
+
+    //Time schedule settings
+    let bits = [];
+
+    //Byte 0 (LSB):
+    //Bit 0 (LSB) – zapnutie/vypnutie profilov ako takých (1 – zapnuté). 
+    bits.push(1);
+    //Bit 1 – 3     - zatiaľ nepoužité (zapisovať 0)
+    bits.push(0);
+    bits.push(0);
+    bits.push(0);
+    if(nodeProfile.astro_clock == true)
+    {
+      //Bit 4 – ak je nastavený profil sa riadi podľa astrohodín, a je 0 tak profil je jednoduchý
+      bits.push(1);
+    }
+    else bits.push(0);
+
+    //Bit 5 – zápis 1 spôsobí reset nastavení profilu (nastavenie prázdneho profilu)
+    bits.push(0);
+
+    //Bity 6-7    - zatiaľ nepoužité
+    bits.push(0);
+    bits.push(0);
+
+    params.byte4 = bitwise.byte.write(bits.reverse());
+
+    //Byte 2 – nastavenie pre lux senzor:
+    bits = [];
+
+    //Bit 0 (LSB) – riadenie súmraku podľa lux senzoru (1 – zapnuté). Súmrak sa môže posúvať v rámci  času v registri 97 podľa intenzity osvetlenia
+    if(nodeProfile.dusk_lux_sensor == true)//sumrak
+    {
+      bits.push(1);
+    }
+    else bits.push(0);
+
+    //Bit 1 - riadenie úsvitu podľa lux senzoru (1 – zapnuté). Úsvit sa môže posúvať v rámci  času v registri 97 podľa intenzity osvetlenia
+    if(nodeProfile.dawn_lux_sensor == true)//usvit
+    {
+      bits.push(1);
+    }
+    else bits.push(0);
+
+    //Bit 2 – zdroj pre hodnotu luxov – 0 – RVO posiela hodnoty zo svojho luxmetra, 1 – node má pripojený svoj vlastný lux meter.
+    bits.push(0);//zatial neimplementovane
+
+    //Bit 3 – 7  - nepoužité
+    bits.push(0);
+    bits.push(0);
+    bits.push(0);
+    bits.push(0);
+    bits.push(0);
+
+    params.byte2 = bitwise.byte.write(bits.reverse());
+    params.timestamp = timestamp;
+    params.info = "Time schedule settings - turn on";
+
+    tasksProfile.push(params);
+
+    //zaver
+    cmdCounter[node] = tasksProfile.length;
+
+    //tasks.push(tasksProfile);
+    tasks = tasks.concat(tasksProfile); 
+
+  }
+
+  logger.debug("finished set profile for ", node);
+
+}
+
+
+function cleanUpRefFlowdataObj()
+{
+  let now = new Date();
+  let timestamp = now.getTime();
+
+  //clear old refFlowdata references
+  let keys = Object.keys(refFlowdataObj);
+  for(let i = 0; i < keys.length; i++)
+  {
+    let timestampKey = keys[i];
+
+    if((timestamp - timestampKey) > 60*1000 )
+    {
+      console.log("cleanUpRefFlowdataObj delete", timestampKey);
+      delete refFlowdataObj[ timestampKey ]; 
+    }
+  }
+}
+
+
+function removeTask(obj)
+{
+  let keys = Object.keys(obj);
+  tasks = tasks.filter((task) => {
+
+    let counter = 0;
+    for(let i = 0; i < keys.length; i++)
+    {
+      let key = keys[i];
+      if(task.hasOwnProperty(key) && obj.hasOwnProperty(key))
+      {
+        if(task[key] == obj[key]) counter++;
+      }
+    }
+  
+    if(counter == keys.length) return false;
+    return true;
+  });
+}
+
+
+
+
+exports.install = function(instance) {
+
+  let now = new Date();
+  console.log("CMD Manager installed", now.toLocaleString("sk-SK"));
+  
+  const tbHandler = new DataToTbHandler(SEND_TO.tb);
+  tbHandler.setSender(exports.title);
+
+  //FLOW.OMS_projects_id, name: FLOW.OMS_rvo_name
+  //const errorHandler = new ErrorToServiceHandler(instance, SEND_TO.infoSender);
+  errorHandler.setProjectsId(FLOW.OMS_projects_id);
+  //const errorHandler = new ErrorToServiceHandler(instance);
+  //errorHandler.sendMessageToService("ahoj", 0);
+
+  let sunCalcResult = calculateDuskDawn();
+
+  let reportDuskDawn = {
+    dusk_time: sunCalcResult.dusk_time,
+    dawn_time: sunCalcResult.dawn_time,
+    dusk_time_reported: undefined,
+    dawn_time_reported: undefined
+  };
+
+
+  process.on('uncaughtException', function (err) {
+
+    //TODO send to service
+  
+    errLogger.error('uncaughtException:', err.message)
+    errLogger.error(err.stack);
+
+    errorHandler.sendMessageToService(err.message + "\n" + err.stack, 0, "js_error");
+    //process.exit(1);
+  })
+  
+  //te();//force error
+
+
+  function processAllNodeProfilesOnLine(line)
+  {
+
+    for (let k in nodesData) {
+      //node:number|tbname:string|line:number|profile:string|processed:boolean
+
+      if(line == nodesData[k].line)
+      {
+        let node = nodesData[k].node;
+        let processed = nodesData[k].processed;
+
+        if(!processed)
+        {
+          processNodeProfile(node);
+        }
+        else
+        {
+          logger.debug( `Node ${node} profile for line ${nodesData[k].line} was already processed`);
+        }
+      }
+    } 
+  }
+
+
+  async function loadRelaysData(line) {
+
+    relaysData = await promisifyBuilder(dbRelays.find());
+    relaysData = makeMapFromDbResult(relaysData, "line");
+
+    for (const [key, value] of Object.entries(relaysData)) 
+    {
+      if(key == "0") continue;
+      if(line != undefined)
+      {
+        //ak sa jedna o update profilu linie - pozor dido_controller posiela command pre loadRelaysData
+        if(line !=  value.line ) continue;
+      }
+
+      if(value.contactor == 1) processAllNodeProfilesOnLine(value.line);
+    }
+
+//    console.log('.........', relaysData);
+  }
+
+
+  function reportOnlineNodeStatus(line)
+  {
+    //broadcast cas, o 3 sek neskor - status, brightness
+    //Po zapnutí línie broadcastovo aktualizovať predtým čas.
+
+    logger.debug("--->reportOnlineNodeStatus for line", line);
+
+    //return;
+  
+    //run broadcast //Actual time
+    addMinutesToTimestamp = 0;
+
+    let params = {};
+
+    let recipient = 2;//2 broadcast, address = 0
+    let address = 0;//0
+    if(recipient === 2)
+    {
+        address = 0xffffffff;//Broadcast
+    }
+
+    var d = new Date();
+    let hours = d.getHours();
+    let minutes = d.getMinutes();
+    let seconds = d.getSeconds();
+
+    params.address = address;//broadcast
+    params.byte1 = hours;//h
+    params.byte2 = minutes;//m
+    params.byte3 = seconds;//s
+    params.byte4 = 0;
+    params.recipient = recipient;
+    params.register = 87;//Actual time
+    params.rw = 1;//write
+
+    let timestampStart = PRIORITY_TYPES.node_broadcast;
+
+    //other values
+    params.type = "cmd";
+    //params.tbname = tbname;
+    params.timestamp = timestampStart;
+    params.addMinutesToTimestamp = addMinutesToTimestamp;
+    params.info = "run broadcast: Actual time";
+
+    tasks.push(params);
+
+    let sec = 3;
+    setTimeout(function(){
+      //Po zapnutí línie - spraviť hromadný refresh stavu práve zapnutých svietidiel
+
+      for (let k in nodesData) {
+        
+        //potrebujem nody k danej linii
+        if(line == nodesData[k].line || line == undefined)
+        {
+          let tbname = nodesData[k].tbname;
+          let node = nodesData[k].node;
+
+          //prud, vykon - current, input power pre liniu pre vsetky nody
+    
+          //a pridame aj vyreportovanie dimmingu
+          {
+            let params = getParams(PRIORITY_TYPES.high_priority);
+
+            params.type = "cmd";
+            params.tbname = tbname;
+            params.address = node;
+            params.register = 1;//dimming
+            params.recipient = 1;//slave
+            params.rw = 0;//read
+            params.timestamp = PRIORITY_TYPES.high_priority;
+            params.info = 'read dimming';
+            //params.debug = true;
+
+            tasks.push(params);
+          }
+
+          //Prúd
+          {
+            let params = getParams(PRIORITY_TYPES.high_priority);
+
+            params.type = "cmd";
+            params.tbname = tbname;
+            params.address = node;
+            params.register = 75;//prud
+            params.recipient = 1;//slave
+            params.rw = 0;//read
+            params.timestamp = PRIORITY_TYPES.high_priority;
+            params.info = 'read current';
+            //params.debug = true;
+
+            tasks.push(params);
+          }
+
+          //výkon
+          {
+            let params = getParams(PRIORITY_TYPES.high_priority);
+
+            params.type = "cmd";
+            params.tbname = tbname;
+            params.address = node;
+            params.register = 76;//výkon
+            params.recipient = 1;//slave
+            params.rw = 0;//read
+            params.timestamp = PRIORITY_TYPES.high_priority;
+            params.info = 'read power';
+            //params.debug = true;
+
+            tasks.push(params);
+          }
+        }
+      }
+    },sec*1000);
+  }
+
+
+  function reportOfflineNodeStatus(line)
+  {
+    logger.debug("--->reportOfflineNodeStatus for line", line);
+
+    values = {};
+    values["dimming"] = 0;//brightness
+    values["power"] = 0;//výkon
+    values["current"] = 0;//prúd
+    values["status"] = "OFFLINE";//prúd
+  
+    for (let k in nodesData) {
+          
+      //potrebujem nody k danej linii
+      if(line == nodesData[k].line || line == undefined)
+      {
+        let tbname = nodesData[k].tbname;
+
+        //logger.debug("node:", tbname);
+  
+        let dataToTb = {
+          [tbname]: [
+              { 
+                "ts": Date.now(),
+                "values": values
+              }
+            ]
+          }
+  
+          //instance.send(SEND_TO.tb, dataToTb);
+          tbHandler.sendToTb(dataToTb, instance);
+      }
+    }
+
+    //report OFFLINE for line
+    //relaysData[line].tbname; 
+
+    //values = {};
+    //values["status"] = "OFFLINE";//prúd
+  }
+
+
+  function turnOnLine(line, info)
+  {
+    let obj = {
+      line: line,
+      command: "turnOn",
+      info: info
+    };
+
+    logger.debug("linia", line, obj);
+    instance.send(SEND_TO.dido_controller, obj);
+  }
+  
+  function turnOffLine(line, info)
+  {
+    let obj = {
+      line: line,
+      command: "turnOff",
+      info: info
+    };
+
+    logger.debug("linia", line, obj);
+    instance.send(SEND_TO.dido_controller, obj);
+  }
+
+
+  function detectIfResponseIsValid(bytes)
+  {
+    //ak sa odpoved zacina 0 - je to v poriadku, inak je NOK
+    let type = "RESPONSE";
+    if(bytes[4] == 0) type = "RESPONSE";
+    else if(bytes[4] == 1) type = "ERROR";
+    else if(bytes[4] == 2) type = "EVENT";
+    else type = "UNKNOWN";
+    
+    let crc = crc16('ARC', bytes.slice(0, 9));
+    let c1 = (crc >> 8) & 0xFF;
+    let c2 = crc & 0xFF;
+  
+    let message = "OK";
+    let error = "";
+    if(c1 != bytes[9])
+    {
+      //CRC_ERROR
+      message = "NOK";
+      error = "CRC_ERROR c1";
+      instance.send(SEND_TO.debug, "CRC_ERROR c1");
+    }
+  
+    if(c2 != bytes[10])
+    {
+      //CRC_ERROR
+      message = "NOK";
+      error = "CRC_ERROR c2";
+      instance.send(SEND_TO.debug, "CRC_ERROR c2");
+    }
+    
+    //crc error
+    if(type != "RESPONSE") 
+    {
+      instance.send(SEND_TO.debug, bytes);
+      instance.send(SEND_TO.debug, "RESPONSE " + type + " - " + bytes[4]);
+
+      //logger.debug(SEND_TO.debug, "RESPONSE " + type + " - " + bytes[4], bytes);
+
+      error = "type is: " + type;
+
+      message = "NOK";
+    }
+  
+    return {message: message, type: type, error: error};
+  }
+
+
+  //BUILD TASKS//
+  function buildTasks(params)
+  {
+    //report FLOW.OMS_edge_fw_version as fw_version
+    //report date as startdate
+
+    //return;
+
+    monitor.info("buildTasks - params", params);
+
+    let processLine;  //defined line
+    let init = false;
+    let processLineProfiles = true;
+    let processBroadcast = true;
+    let processNodes = true;
+
+    if(params == undefined) 
+    {
+      init = true;
+      tasks = [];
+      logger.debug("-->buildTasks clear tasks");
+    }
+    else
+    {
+      processLineProfiles = false;
+      processBroadcast = false;
+      processNodes = false;
+
+      processLineProfiles = params.processLineProfiles;
+      processLine = params.line;
+    }
+
+    //load profiles pre linie
+    //relaysData[ record["line"] ]
+
+    let now = new Date();
+
+    if(processLineProfiles)
+    {
+      //process line profiles
+      let keys = Object.keys(relaysData);
+      for(let i = 0; i < keys.length; i++)
+      {
+        let line = parseInt(keys[i]); //line is turned off by default
+        let profilestr = relaysData[line].profile;
+
+        if(processLine != undefined)
+        {
+          if(processLine != line) continue;
+        }
+
+        try {
+
+          /**
+           * we process line profiles: timepoints, astro clock, lux_sensor, offsets ...
+           */
+          if(profilestr === "") throw ("Profile is not defined");
+          let profile = JSON.parse(profilestr);
+          if(Object.keys(profile).length === 0) throw ("Profile is empty");
+
+          monitor.info("buildTasks: profile for line", line);
+          monitor.info("profile:", profile);
+
+          let time_points = profile.time_points;
+          if(time_points == undefined) time_points = profile.intervals;
+
+          // add name to regular profile timepoint and delete unused end_time key:
+          time_points.forEach(point => {
+            point.name = "profileTimepoint"
+            delete point.end_time;
+          });
+
+          //monitor.info("buildTasks: time_points", time_points);
+
+          let currentValue = 0;
+          if(time_points.length > 0) currentValue = time_points[time_points.length - 1].value;
+
+
+          /**
+           * if astro_clock is true, we create timepoints, that switch on/off relays accordingly. 
+           * we need to manage, astro clock timepoints has the greatest priority - normal timepoints will not switch off/on lines before dusk or dawn
+           * if dawn/dusk_lux_sensor is true, it has higher priority than astro_clock switching
+          */
+          if(profile.astro_clock == true)
+          {
+
+            // if astro clock true, we remove all regular profile points
+            time_points = [];
+
+            let sunCalcResult = calculateDuskDawn(new Date(), line);
+
+            // adding dusk dawn to timpoints
+            if(profile.dawn_lux_sensor == false) time_points.push({"start_time": sunCalcResult["dawn"], "value": 0, "name":"dawn"});
+            if(profile.dusk_lux_sensor == false) time_points.push({"start_time": sunCalcResult["dusk"], "value": 1, "name":"dusk"});
+
+            //if dusk/dawn is true, lines will switch on/off according to lux_sensor value. In case it fails, we create lux_timepoints, to make sure lines will switch on/off (aby nam to nezostalo svietit)
+            //force to turn off after timestamp: dawn + dawn_lux_sensor_time_window
+            if(profile.dawn_lux_sensor == true)
+            {
+                let [ahours, aminutes, aseconds] = sunCalcResult["dawn"].split(':');
+                let ad = new Date();
+                ad.setHours(parseInt(ahours));
+                ad.setMinutes(parseInt(aminutes) + profile.dawn_lux_sensor_time_window);
+                ad.setSeconds(0);
+
+                let strDate = ad.getHours() + ":" + ad.getMinutes();
+
+                time_points.push({"value": 0, "start_time": strDate, "name": "luxOff"});
+            }
+
+            if(profile.dusk_lux_sensor == true)
+            {
+                let [ahours, aminutes, aseconds] = sunCalcResult["dusk"].split(':');
+                let ad = new Date();
+                ad.setHours(parseInt(ahours));
+                ad.setMinutes(parseInt(aminutes) + profile.dusk_lux_sensor_time_window);
+                ad.setSeconds(0);
+
+                let strDate = ad.getHours() + ":" + ad.getMinutes();
+
+                time_points.push({"value": 1, "start_time": strDate, "name": "luxOn"});
+                //time_points.push({"value": 1, "start_time": "15:19", "name": "luxOn"}); //testing
+            }
+          }
+
+          //sort time_points
+          time_points.sort(function (a, b) {
+
+            let [ahours, aminutes, aseconds] = a.start_time.split(':');
+            let [bhours, bminutes, bseconds] = b.start_time.split(':');
+        
+            let ad = new Date();
+            ad.setHours( parseInt(ahours) );
+            ad.setMinutes( parseInt(aminutes) );
+            ad.setSeconds(0);
+        
+            let bd = new Date();
+            bd.setHours( parseInt(bhours) );
+            bd.setMinutes( parseInt(bminutes) );
+            ad.setSeconds(0);
+        
+            return ad.getTime() - bd.getTime();
+          });
+
+          console.log("line timepoints ........", time_points);
+
+          monitor.info("-->comming events turn on/off lines:");
+          for(let t = 0; t < time_points.length; t++)
+          {
+            
+            let start_time = new Date();
+            let [hours, minutes, seconds] = time_points[t].start_time.split(':');
+
+            start_time.setHours( parseInt(hours) );
+            start_time.setMinutes( parseInt(minutes) );
+            start_time.setSeconds(0);
+            
+            //task is the past
+            if(now.getTime() > start_time.getTime())
+            {
+              currentValue = time_points[t].value;
+
+              //timepoint is in past, we add 24 hours
+              start_time.setDate(start_time.getDate() + 1);
+            }
+        
+            let params = getParams(PRIORITY_TYPES.relay_profile);
+            params.type = "relay";
+            params.line = parseInt(line);
+            params.value = time_points[t].value;
+            params.tbname = relaysData[line].tbname;
+            params.timestamp = start_time.getTime();
+
+            params.addMinutesToTimestamp = 0;
+
+            // it timepoints are not calculated (dawn, dusk, lux_timepoint), but static points in line profile, we just repeat the task every day
+            if(time_points[t].name == "profileTimepoint") params.addMinutesToTimestamp = 24*60;
+
+            //astro timepoints will be recalculated dynamically:
+            params.timePointName = time_points[t].name;
+
+            // if astro timepoint, we save time window:
+            if(['luxOn', 'luxOff', 'dusk','dawn'].includes(params.timePointName))
+            {
+              params.dawn_lux_sensor_time_window = profile.dawn_lux_sensor_time_window;
+              params.dusk_lux_sensor_time_window = profile.dusk_lux_sensor_time_window;
+            }
+
+            if(params.value == 0) params.info = `${params.timePointName}: turn off line: ` + line;
+            else if(params.value == 1) params.info = `${params.timePointName}: turn on line: ` + line;
+
+            params.debug = true;
+
+            //turn on/off line
+            tasks.push(params);
+            monitor.info(params.info, start_time);
+
+          }
+
+          monitor.info("-->time_points final", line, time_points);
+
+          //ensure to turn on/off according to calculated value
+          let params = getParams(PRIORITY_TYPES.terminal);
+          params.type = "relay";
+          params.line = parseInt(line);
+          params.tbname = relaysData[line].tbname;
+          params.value = currentValue;
+
+          params.timestamp = PRIORITY_TYPES.terminal;
+          params.addMinutesToTimestamp = 0;
+          params.debug = true;
+
+          //logger.debug(now.toLocaleString("sk-SK"));
+          monitor.info("-->currentValue for relay", line, currentValue);
+
+          //turn on/off line
+          if(params.value == 0) params.info = "turn off line on startup: " + line;
+          else if(params.value == 1) params.info = "turn on line on startup: " + line;
+
+          tasks.push(params);
+
+        } catch (error) {
+          if(profilestr !=="" ) 
+          {
+            //errLogger.error(profilestr, error);
+            errorHandler.sendMessageToService(profilestr + "-" + error, 0, "js_error");
+          }
+        }
+
+      }
+
+      //logger.debug("tasks:");
+      //logger.debug(tasks);
+    }
+
+
+    //PROCESS DEFAULT BROADCASTS
+
+    //RPC pre nody / broadcast
+    //Time of dusk, Time of dawn
+    //Actual Time
+
+    if(processBroadcast)
+    {
+      let addMinutesToTimestamp = 5;
+
+      {
+        //run broadcast Time of dusk
+        addMinutesToTimestamp = 60 * 3; //kazde 3 hodiny zisti novy dusk
+  
+        let params = getParams(PRIORITY_TYPES.node_broadcast);
+  
+        let sunCalcResult = calculateDuskDawn();
+        let dusk_hours = sunCalcResult["dusk_hours"];
+        let dusk_minutes = sunCalcResult["dusk_minutes"];
+  
+        params.address = 0xffffffff;//broadcast
+        params.byte1 = dusk_hours;//h
+        params.byte2 = dusk_minutes;//m
+        params.byte3 = 0;//s
+        params.byte4 = 0;
+        params.recipient =  2;//2 broadcast, 
+        params.register = 6;//Time of dusk - Reg 6
+        params.rw = 1;//write
+  
+        let timestampStart = PRIORITY_TYPES.node_broadcast;
+  
+        //other values
+        params.type = "cmd";
+        //params.tbname = tbname;
+        params.timestamp = timestampStart;
+        params.addMinutesToTimestamp = addMinutesToTimestamp;
+        params.info = "Broadcast-duskTime";
+
+        tasks.push(params);
+  
+      }
+  
+      {
+  
+        //run broadcast Time of dawn
+        // addMinutesToTimestamp = 60*5;
+        addMinutesToTimestamp = 60 * 3; //kazde 3 hodiny zisti novy dawn
+  
+        let params = getParams(PRIORITY_TYPES.node_broadcast);
+  
+        let sunCalcResult = calculateDuskDawn();
+        let dawn_hours = sunCalcResult["dawn_hours"];
+        let dawn_minutes = sunCalcResult["dawn_minutes"];
+  
+        params.address = 0xffffffff;//broadcast
+        params.byte1 = dawn_hours;//h
+        params.byte2 = dawn_minutes;//m
+        params.byte3 = 0;//s
+        params.byte4 = 0;
+        params.recipient = 2; //2 broadcast
+        params.register = 7;//Time of dawn - Reg 6
+        params.rw = 1;//write
+  
+        let timestampStart = PRIORITY_TYPES.node_broadcast;
+  
+        //other values
+        params.type = "cmd";
+        //params.tbname = tbname;
+        params.timestamp = timestampStart;
+        params.addMinutesToTimestamp = addMinutesToTimestamp;
+        params.info = "Broadcast-dawnTime";
+  
+        tasks.push(params);
+      }
+  
+      {
+        //run broadcast //Actual time
+        addMinutesToTimestamp = 5;
+  
+        let params = getParams(PRIORITY_TYPES.node_broadcast);
+  
+        var d = new Date();
+        let hours = d.getHours();
+        let minutes = d.getMinutes();
+        let seconds = d.getSeconds();
+  
+        params.address = 0xffffffff;//broadcast
+        params.byte1 = hours;//h
+        params.byte2 = minutes;//m
+        params.byte3 = seconds;//s
+        params.byte4 = 0;
+        params.recipient = 2; //2 broadcast
+        params.register = 87;//Actual time
+        params.rw = 1;//write
+  
+        let timestampStart = PRIORITY_TYPES.node_broadcast;
+  
+        //other values
+        params.type = "cmd";
+        //params.tbname = tbname;
+        params.timestamp = timestampStart;
+        params.addMinutesToTimestamp = addMinutesToTimestamp;
+        params.info = "run broadcast: Actual time";
+  
+        tasks.push(params);
+      }
+
+    }
+
+    //process nodes & tasks
+    //reportovanie pre platformu
+    if(processNodes)
+    {
+      for (let k in nodesData) {
+        let address = parseInt(k);
+        let tbname = nodesData[k].tbname;
+        let register = 0;
+  
+        //logger.debug("generated cmd - buildTasks for node:", address);
+        
+        //listOfCommands - READ
+        for(let i = 0; i < listOfCommands.length; i++)
+        {
+          register = listOfCommands[i];
+          
+          let params = getParams(PRIORITY_TYPES.node_cmd);
+  
+          //core rpc values
+          params.address = address;
+          params.byte1 = 0;
+          params.byte2 = 0;
+          params.byte3 = 0;
+          params.byte4 = 0;
+          params.recipient = 1;
+          params.register = register;
+          params.rw = 0;
+  
+          let addMinutesToTimestamp = priorities[register];
+  
+          let timestampStart = PRIORITY_TYPES.node_cmd; //run imediatelly in function runTasks
+          if(addMinutesToTimestamp > 1)
+          {
+            timestampStart = timestampStart + addMinutesToTimestamp * 60000;
+          }
+  
+          //other values
+          params.type = "cmd";
+          params.tbname = tbname;
+          params.timestamp = timestampStart;
+          params.addMinutesToTimestamp = addMinutesToTimestamp;
+          params.info = "generated cmd - buildTasks (node)";
+  
+          //monitor last node && last command
+          /*
+          if(register == listOfCommands[ listOfCommands.length - 1 ])
+          {
+            //if(k == 632) params.debug = true;
+            if(k == 698) params.debug = true;
+          }
+          */
+  
+          tasks.push(params);
+  
+        }
+      }
+    }
+
+
+
+    //niektore ulohy sa vygeneruju iba 1x pri starte!!!
+    if(!init) return;
+
+
+    //Priebežne (raz za cca 5 minút) je potrebné vyčítať z Master nodu verziu jeho FW.
+    //Jedná sa o register 10. Rovnaká interpretácia ako pri FW verzii nodu.
+    //Adresa mastera je 0. V prípade že kedykoľvek nastane situácia že Master Node neodpovedá (napríklad pri vyčítaní telemetrie z nodu nevráti žiadne dáta),
+    //tak treba vyreportovať string "NOK".
+    {
+      let params = getParams(PRIORITY_TYPES.fw_detection);
+      params.type = "cmd";
+      params.register = 4;
+      params.address = 0;
+
+      let timestampStart = PRIORITY_TYPES.fw_detection;
+      params.timestamp = timestampStart;
+      params.addMinutesToTimestamp = 5;
+      params.tbname = FLOW.OMS_edgeName;
+      params.info = "Master node FW verzia";
+      //params.debug = true;
+
+      //this will set FLOW.OMS_masterNodeIsResponding
+      
+      tasks.push(params);
+    }
+
+    //kazdu hodinu skontrolovat nastavenie profilov
+    {
+      let params = getParams(PRIORITY_TYPES.fw_detection);
+      params.type = "process_profiles";
+
+      let timestampStart = PRIORITY_TYPES.relay_profile;
+      params.timestamp = timestampStart;
+      params.addMinutesToTimestamp = 60;//60 = every hour
+      params.info = "detekcia nespracovaných profilov linie a nodov";
+      //params.debug = true;
+      
+      tasks.push(params);
+    }
+
+    {
+      //edge_date_time
+
+      let params = getParams(PRIORITY_TYPES.node_cmd);
+      params.type = "edge_date_time";
+
+      let timestampStart = PRIORITY_TYPES.node_cmd;
+      params.timestamp = timestampStart;
+      params.addMinutesToTimestamp = 1;
+      params.tbname = FLOW.OMS_edgeName;
+      params.info = "reportovanie aktuálneho času na LM - EDGE-Date Time";
+      //logger.debug("BUILD Master node FW verzia");
+      tasks.push(params);
+    }
+
+    {
+      //edge_date_time
+
+      let params = getParams(PRIORITY_TYPES.node_cmd);
+      params.type = "number_of_luminaires";
+
+      let timestampStart = PRIORITY_TYPES.node_cmd + 1;
+      params.timestamp = timestampStart;
+      params.addMinutesToTimestamp = 1;
+      params.tbname = FLOW.OMS_edgeName;
+      params.info = "reportovanie number_of_luminaires";
+
+      tasks.push(params);
+    }
+
+    monitor.info("tasks created:", tasks.length);
+  }
+
+
+  /**
+   * We process line profile, where "astro_clock": true
+   * example profile:
+   * 
+        "dawn_lux_sensor": true,
+        "dusk_lux_sensor": true,
+        "dawn_lux_sensor_value": 5,
+        "dusk_lux_sensor_value": 5,
+        "dawn_astro_clock_offset": 0,
+        "dusk_astro_clock_offset": 10,
+        "dawn_lux_sensor_time_window": 30,
+        "dusk_lux_sensor_time_window": 30,
+        "dawn_astro_clock_time_window": 60,
+        "dusk_astro_clock_time_window": 60
+
+   * if dawn: if currentTimestamp is in timewindow "dawnTime + and - dawn_lux_sensor_time_window" and lux value >= lux_sensor_value, we switch off the line.
+   * if dusk: we do oposite
+   * 
+   * dawn: usvit - lux je nad hranicou - vypnem
+   * dusk: sumrak - lux je pod hranicou - zapnem 
+   */
+  function turnOnOffLinesAccordingToLuxSensor(lux_sensor_value)
+  {
+
+    let now = new Date();
+    let currentTimestamp = now.getTime();
+    let keys = Object.keys(relaysData);
+
+    for(let i = 0; i < keys.length; i++)
+    {
+
+      let line = keys[i]; //line is turned off by default
+      let profilestr = relaysData[line].profile;
+      const contactor = relaysData[line].contactor;
+
+      try {
+
+        let profile = JSON.parse(profilestr);
+        if(Object.keys(profile).length === 0) throw ("turnOnOffLinesAccordingToLuxSensor - profile is not defined");
+
+        if(profile.astro_clock == true)
+        {
+          let sunCalcResult = calculateDuskDawn(now, line);
+
+          //usvit
+          if(profile.dawn_lux_sensor == true)
+          {
+            let lux_sensor_time_window1 = sunCalcResult.dawn_time - (parseInt( profile.dawn_lux_sensor_time_window ) * 1000 * 60); // LUX_SENSOR_TIME_WINDOW x 1000 x 60 --> dostaneme odpocet/pripocitanie minut
+            let lux_sensor_time_window2 = sunCalcResult.dawn_time + (parseInt( profile.dawn_lux_sensor_time_window ) * 1000 * 60);
+
+            if(currentTimestamp >= lux_sensor_time_window1 && currentTimestamp <= lux_sensor_time_window2)
+            {
+              if(lux_sensor_value > profile.dawn_lux_sensor_value)
+              {
+                if(contactor) turnOffLine(line, "Profile: dawn - turnOff line according to lux sensor");
+              }
+            }
+          }
+
+          //sumrak
+          if(profile.dusk_lux_sensor == true)
+          {
+            let lux_sensor_time_window1 = sunCalcResult.dusk_time - (parseInt( profile.dusk_lux_sensor_time_window ) * 1000 * 60);
+            let lux_sensor_time_window2 = sunCalcResult.dusk_time + (parseInt( profile.dusk_lux_sensor_time_window ) * 1000 * 60);
+
+            if(currentTimestamp >= lux_sensor_time_window1 && currentTimestamp <= lux_sensor_time_window2)
+            {
+              if(lux_sensor_value < profile.dusk_lux_sensor_value)
+              {
+                if(!contactor) turnOnLine(line, "Profile: dusk - turnOn line according to lux sensor");
+              }
+            }
+          }
+
+        }
+
+      } catch (error) {
+        if(profilestr !== "" ) monitor.info('Error parsing profile in turnOnOffLinesAccordingToLuxSensor', error);
+      }
+
+    }
+
+  }
+
+
+  async function upateNodeStatus(node, status)
+  {
+    //MASTER
+    if(node == 0) return;
+
+    let nodeObj = nodesData[node];
+    if(nodeObj == undefined) return;
+
+    if(status)
+    {
+      cmdNOKNodeCounter[node] = 0;
+    }
+    else cmdNOKNodeCounter[node]++;
+
+    if(nodeObj.status !== status)
+    {
+      await dbNodes.modify({ status: status }).where("node", node).make(function(builder) {
+        builder.callback(function(err, response) {
+          if(err == null) nodesData[node].status = status;
+        });
+      });
+    }
+  }
+
+
+  async function runTasks() {
+
+    clearInterval(interval);
+
+    let currentTimestamp = Date.now();
+
+    //report dusk, dawn---------------------------------
+    if(reportDuskDawn.dusk_time < currentTimestamp)
+    {
+      //vyreportuj iba ak nie je velky rozdiel napr. 60 sekund
+      if( (currentTimestamp - reportDuskDawn.dusk_time) < 60 * 1000)
+      {
+        //reportovali sme?
+        if(reportDuskDawn.dusk_time_reported != sunCalcResult.dusk_time)
+        {
+          sendNotification("CMD Manager: calculated Time of dusk", FLOW.OMS_edgeName, "dusk_has_occured", {value: sunCalcResult["dusk"]}, "", SEND_TO.tb, instance);
+          reportDuskDawn.dusk_time_reported = sunCalcResult.dusk_time;
+        }
+      }
+
+      var nextDay = new Date();
+      nextDay.setDate(nextDay.getDate() + 1);
+
+      sunCalcResult = calculateDuskDawn(nextDay);
+      reportDuskDawn.dusk_time = sunCalcResult.dusk_time;
+    }
+
+    if(reportDuskDawn.dawn_time < currentTimestamp)
+    {
+      //vyreportuj iba ak nie je velky rozdiel napr. 60 sekund
+      if( (currentTimestamp - reportDuskDawn.dawn_time) < 60 * 1000)
+      {
+        //reportovali sme?
+        if(reportDuskDawn.dawn_time_reported != sunCalcResult.dawn_time)
+        {
+          sendNotification("CMD Manager: calculated Time of dawn", FLOW.OMS_edgeName, "dawn_has_occured", {value: sunCalcResult["dawn"]}, "", SEND_TO.tb, instance);
+          reportDuskDawn.dawn_time_reported = sunCalcResult.dawn_time;
+        }
+      }
+
+      var nextDay = new Date();
+      nextDay.setDate(nextDay.getDate() + 1);
+
+      sunCalcResult = calculateDuskDawn(nextDay);
+      reportDuskDawn.dawn_time = sunCalcResult.dawn_time;
+
+    }
+    //--------------------------------------------------------
+
+    //sort tasks based on timestamp
+    tasks.sort(function (a, b) { 
+      if(a.timestamp <= currentTimestamp && b.timestamp <= currentTimestamp)
+      {
+        return a.priority - b.priority;
+      }
+      return a.timestamp - b.timestamp;
+    });
+
+    if(tasks.length == 0 )
+    {
+      instance.send(SEND_TO.debug, "no tasks created");
+      interval = setInterval(runTasks, LONG_INTERVAL);
+      return;
+    }
+
+    if(!rsPort.isOpen)
+    {
+      instance.send(SEND_TO.debug, "!rsPort.isOpen");
+      //await rsPort.open();
+    }
+
+    let currentTask = tasks[0];
+
+    if(currentTask.debug)
+    {
+      //logger.debug("--->task to process", currentTask);
+    }
+
+    if(currentTask.timestamp <= currentTimestamp)
+    {
+      let params = {...tasks[0]};
+
+      //allow terminal commands
+      if(FLOW.OMS_maintenance_mode && params.type !== "cmd-terminal")
+      {
+        interval = setInterval(runTasks, LONG_INTERVAL);
+        return;
+      }
+
+      let type = params.type;
+      let tbname = params.tbname;
+      let nodeKey = params.address;
+
+      let line = null;
+
+      //rpc related
+      if(nodesData[nodeKey] !== undefined) line = nodesData[nodeKey].line;
+      if(params.line !== undefined) line = params.line;
+
+      let repeatTask = false;
+      if(params.addMinutesToTimestamp > 0 || params.timePointName) repeatTask = true;
+
+      if(repeatTask)
+      {
+        if(type === "cmd")
+        {
+          //set next start time automatically
+          tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
+        }
+      }
+      else 
+      {
+        tasks.shift();
+      }
+
+      //custom tasks
+      if(type == "number_of_luminaires")
+      {
+        tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
+
+        //treba reportovat node status
+        {
+          //number_of_luminaires
+          //number_of_ok_luminaires
+          //number_of_nok_luminaires
+
+          let keys = Object.keys(nodesData);
+
+          let number_of_luminaires = keys.length;
+          let number_of_ok_luminaires = 0;
+          let number_of_nok_luminaires = 0;
+          
+          for(let i = 0; i < keys.length; i++)
+          {
+            let key = keys[i];
+            let nodeObj = nodesData[key];
+            if(nodeObj.tbname == undefined) continue;
+
+            if(nodeObj.status) number_of_ok_luminaires++;
+            else number_of_nok_luminaires++;
+          }
+        
+          let values = {
+            number_of_luminaires: number_of_luminaires,
+            number_of_ok_luminaires: number_of_ok_luminaires,
+            number_of_nok_luminaires: number_of_nok_luminaires
+          };
+
+          let dataToTb = {
+            [FLOW.OMS_edgeName]: [
+                { 
+                  "ts": Date.now(),
+                  "values": values
+                }
+              ]
+            }
+
+          //instance.send(SEND_TO.tb, dataToTb);
+          tbHandler.sendToTb(dataToTb, instance);
+
+          interval = setInterval(runTasks, SHORT_INTERVAL);
+
+          return;
+        }
+      }
+
+
+      //kontrola nespracovanych profilov nodov
+      if(type == "process_profiles")
+      {
+        tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
+
+        //select nespracovane nody
+        //node:number|tbname:string|line:number|profile:string|processed:boolean|status:boolean
+
+        //buildTasks({processLineProfiles: true, line: line});
+
+        /*
+        let keys = Object.keys(nodesData);
+        for(let i = 0; i < keys.length; i++)
+        {
+          let node = keys[i];
+          let line = node.line;
+
+          if(node.processed) continue;
+
+          if(relaysData[line] != undefined)
+          {
+            let relayStatus = relaysData[line].contactor;
+            if(relayStatus == 1)
+            {
+              //linia je zapnuta
+              //await loadRelaysData(flowdata.data.line);
+            }
+          }
+
+        }
+        */
+    
+        //vsetky linie kt. su zapnute, a spracuju sa nespracovane profily nodov
+        loadRelaysData();
+
+        interval = setInterval(runTasks, SHORT_INTERVAL);
+        return;
+      }
+
+      if(type == "edge_date_time")
+      {
+        const ts = Date.now();
+
+        let values = {"edge_date_time": ts};
+        
+        let dataToTb = {
+          [tbname]: [
+              { 
+                "ts": ts,
+                "values": values
+              }
+            ]
+          }
+        
+        tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
+
+        instance.send(SEND_TO.tb, dataToTb);
+        interval = setInterval(runTasks, SHORT_INTERVAL);
+        return;
+      }
+
+      //relay
+      if(type == "relay")
+      {
+
+        const timePointName = params.timePointName;
+        const value = params.value;
+
+        let date = new Date();
+        date.setDate(date.getDate() + 1);//next day
+
+        let sunCalcResult;
+        sunCalcResult = calculateDuskDawn(date, params.line);
+
+        if(timePointName == "dawn")
+        {
+          tasks[0].timestamp = sunCalcResult.dawn_time;
+        }
+        else if(timePointName == "dusk")
+        {
+          tasks[0].timestamp = sunCalcResult.dusk_time;
+        }
+        else if(timePointName == "luxOn")
+        {
+          tasks[0].timestamp = sunCalcResult.dusk_time + params.dusk_lux_sensor_time_window * 60000;
+        }
+        else if(timePointName == "luxOff")
+        {
+          tasks[0].timestamp = sunCalcResult.dawn_time + params.dawn_lux_sensor_time_window * 60000;
+        }
+        else if(timePointName == "profileTimepoint")
+        {
+          tasks[0].timestamp = currentTimestamp + tasks[0].addMinutesToTimestamp * 60000;
+        }
+
+        let info = "aplikovany bod profilu";
+        let message = "";
+        if(value == 1)
+        {
+          turnOnLine(params.line, info);
+          message = "on";
+        }
+        else if(value == 0)
+        {
+          turnOffLine(params.line, info);
+          message = "off";
+        }
+
+        //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.INFO, "aplikovaný bod profilu línie " + params.line + " - stav: " + message, "", SEND_TO.tb, instance, null );
+        sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "switching_profile_point_applied_to_line", {line: params.line, value: message}, "", SEND_TO.tb, instance );
+
+        interval = setInterval(runTasks, SHORT_INTERVAL);
+        return;
+      }
+
+      //zhodeny hlavny istic
+      let disconnected = false;
+      //if(rotary_switch_state == "Off") disconnected = true;
+
+      //state_of_breaker[line] - alebo istic linie
+      if(state_of_breaker.hasOwnProperty(line))
+      {
+        //if(state_of_breaker[line] == "Off") disconnected = true;
+      }
+
+      //toto sa reportuje po prijati dat z dido_controlera
+      if(disconnected)
+      {
+        
+        let values = {"status": "OFFLINE"};
+
+        logger.debug("disconnected", values);
+        logger.debug("rotary_switch_state", rotary_switch_state);
+        logger.debug("state_of_breaker", state_of_breaker[line]);
+
+        let dataToTb = {
+          [tbname]: [
+              { 
+                "ts": Date.now(),
+                "values": values
+              }
+            ]
+          }
+
+        //report only once!
+        if(!disconnectedReport.hasOwnProperty(tbname)) disconnectedReport[tbname] = false;
+
+        if(!disconnectedReport[tbname])
+        {
+          //instance.send(SEND_TO.tb, dataToTb);
+          tbHandler.sendToTb(dataToTb, instance);
+        }
+
+        interval = setInterval(runTasks, SHORT_INTERVAL);
+
+        return;
+      }
+
+      disconnectedReport[tbname] = false;
+
+      //high_priority
+      if(!FLOW.OMS_masterNodeIsResponding)
+      {
+        //ak neodpoveda, nebudeme vykonavat ziadne commands, okrem cmd-terminal, a fw version
+        errorHandler.sendMessageToService("Master node is not responding");
+
+        let stop = true;
+        if(params.type == "cmd-terminal") stop = false;
+
+        //fw version - register == 4
+        if(params.type == "cmd" && params.register == 4 && params.address == 0) stop = false;
+
+        if(stop)
+        {
+          interval = setInterval(runTasks, LONG_INTERVAL);
+          return;
+        }
+      }
+
+      let relayStatus = 1;
+      if(relaysData[line] != undefined)
+      {
+        relayStatus = relaysData[line].contactor;
+      }
+
+      if(line == 0) relayStatus = 0;
+      if(params.type == "cmd-terminal") relayStatus = 1;
+
+      //check if rotary_switch_state == "Off"
+
+      if(relayStatus == 0)
+      {
+        //console.log("------------------------------------relayStatus", relayStatus, line);
+        let values = {"status": "OFFLINE"};
+        
+        let dataToTb = {
+          [tbname]: [
+              { 
+                "ts": Date.now(),
+                "values": values
+              }
+            ]
+          }
+
+        //instance.send(SEND_TO.tb, dataToTb);
+        tbHandler.sendToTb(dataToTb, instance);
+        
+        interval = setInterval(runTasks, SHORT_INTERVAL);
+        return;
+      }
+
+      if(!rsPort.isOpen)
+      {
+        interval = setInterval(runTasks, LONG_INTERVAL);
+        return;
+      }
+      
+      //RE-CALCULATE VALUES
+      //set actual time for broadcast
+      if(params.register == 87 && params.recipient === 2)
+      {
+        var d = new Date();
+        let hours = d.getHours();
+        let minutes = d.getMinutes();
+        let seconds = d.getSeconds();
+
+        params.byte1 = hours;//h
+        params.byte2 = minutes;//m
+        params.byte3 = seconds;//s
+        params.byte4 = 0;
+      }
+
+      //SET DUSK/DAWN FOR BROADCAST
+      //Time of dusk
+      if(params.register == 6 && params.recipient === 2)
+      {
+
+        if(params.type != "cmd-terminal")
+        {
+          let sunCalcResult = calculateDuskDawn();
+          let dusk_hours = sunCalcResult["dusk_hours"];
+          let dusk_minutes = sunCalcResult["dusk_minutes"];
+    
+          params.byte1 = dusk_hours;//h
+          params.byte2 = dusk_minutes;//m
+          params.byte3 = 0;//s
+          params.byte4 = 0;
+
+          //TODO astrohodiny
+          let dusk = "Time of dusk: " + sunCalcResult["dusk"];
+          //sendNotification("CMD Manager: calculated Time of dusk", relaysData[0].tbname, ERRWEIGHT.INFO, dusk, "", SEND_TO.tb, instance, null );
+        }
+      }
+
+      //Time of dawn
+      if(params.register == 7 && params.recipient === 2)
+      {
+        if(params.type != "cmd-terminal")
+        {
+          let sunCalcResult = calculateDuskDawn();
+          let dawn_hours = sunCalcResult["dawn_hours"];
+          let dawn_minutes = sunCalcResult["dawn_minutes"];
+    
+          params.byte1 = dawn_hours;//h
+          params.byte2 = dawn_minutes;//m
+          params.byte3 = 0;//s
+          params.byte4 = 0;
+
+          //TODO astrohodiny
+          let dawn = "Time of dawn: " + sunCalcResult["dawn"];
+          //sendNotification("CMD Manager: calculated Time of dusk", relaysData[0].tbname, ERRWEIGHT.INFO, dawn, "", SEND_TO.tb, instance, null );
+        }
+       
+      }
+      //-----------------------
+
+
+      let register =  params.register;
+      instance.send(SEND_TO.debug, "address: " + params.address + " register:" + params.register + "type: " + params.type);
+
+      var startTime, endTime;
+      startTime = new Date();
+
+      let resp = com_generic(params.address, params.recipient, params.rw, params.register, params.name, params.byte1, params.byte2, params.byte3, params.byte4);
+      let readBytes = 11;
+      let timeout = 5000;
+
+      await writeData(rsPort, resp, readBytes, timeout).then(function (data) {
+
+        endTime = new Date();
+        var timeDiff = endTime - startTime;
+
+        //--1-4 adresa, 5 status ak je status 0 - ok, nasleduju 4 byty data
+        //let bytes = data.slice(0);
+        let bytes = data;
+        let dataBytes = data.slice(5,9);
+
+        let result = detectIfResponseIsValid(bytes);
+        
+        let message = result.message;
+        let type = result.type;
+        let error = result.error;
+
+        //ak sa odpoved zacina 0 - je to v poriadku, inak je NOK
+
+        if(params.debug != "generated cmd")
+        {
+          //debug("writeData: done " + type + " duration: " + timeDiff + " type: " + params.debug, params);
+        }
+
+        if(params.hasOwnProperty("debug"))
+        {
+          if(params.debug)
+          {
+            console.log("detected response:", result);
+
+            logger.debug("writeData: done " + type + " duration: " + timeDiff + " type: " + params.debug, params, result);
+          }
+        }
+
+        //debug("writeData: done " + type + " duration: " + timeDiff + " type: " + params.debug);
+        //debug("writeData done", type, "duration", timeDiff, "type", params.debug, result);
+
+        let tbname = params.tbname;
+
+        let saveToTb = true;
+        if(tbname == null || tbname == undefined || tbname == "")  saveToTb = false;
+        //--
+
+        //CMD FINISHED
+        if(message == "OK")
+        {
+
+          upateNodeStatus(params.address, true);
+
+          //write
+          if(params.type == "set_node_profile")
+          {
+            let result = cmdCounterResolve(params.address);
+            if(result == 0)
+            {
+
+              dbNodes.modify({ processed: true }).where("node", params.address).make(function(builder) {
+
+                builder.callback(function(err, response) {
+
+                    sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "dimming_profile_was_successfully_received_by_node",  {node:  params.address}, "", SEND_TO.tb, instance );
+                    
+                    logger.debug( "--> profil úspešne odoslaný na node č. " + params.address);
+                    nodesData[params.address].processed = true;
+
+                  });
+                });
+            }
+          }
+
+          //parse read response
+          let values = {};
+          if(params.rw == 0) {
+            values = processResponse(register, dataBytes);//read
+          }
+          if(params.rw == 1)
+          { //write command
+            //set command dimming
+            if(params.register == 1) values = {"comm_status": message};
+          }
+
+          if(params.register == 0) values["status"] = message;
+
+          //fw version - register == 4
+          if(params.register == 4) values["edge_fw_version"] = FLOW.OMS_edge_fw_version;
+
+          if(params.address == 0)
+          {
+            //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.NOTICE, "Master node is working again", "", SEND_TO.tb, instance, "rvo_status" );
+            //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, "master_node_is_responding_again", {}, "", SEND_TO.tb, instance, "rvo_status" );
+            sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "master_node_is_responding_again", {}, "", SEND_TO.tb, instance, "rvo_status" );
+            FLOW.OMS_masterNodeIsResponding = true;
+          }
+
+          //odoslanie príkazu z terminálu - dáta
+          if(params.type == "cmd-terminal")
+          {
+            //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.DEBUG, "odoslanie príkazu z terminálu", params, SEND_TO.tb, instance, null );
+            sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "command_was_sent_from_terminal_interface", {}, params, SEND_TO.tb, instance );
+          }
+
+          if(params.debug)
+          {
+            logger.debug("saveToTb", saveToTb, tbname, values);
+          }
+
+          if(saveToTb)
+          {
+            let dataToTb = {
+              [tbname]: [
+                  { 
+                    "ts": Date.now(),
+                    "values": values
+                  }
+                ]
+              }
+  
+            //instance.send(SEND_TO.tb, dataToTb);
+            tbHandler.sendToTb(dataToTb, instance);
+            
+          }
+          else
+          {
+
+            if(params.type == "cmd-terminal")
+            {
+              if(params.refFlowdataKey != undefined)
+              {
+  
+                logger.debug("cmd-terminal SUCCESS");
+                logger.debug(currentTask);
+
+                //make http response
+                let responseObj = {};
+                responseObj["type"] = "SUCESS";
+                responseObj["bytes"] = data;
+  
+                //params.refFlowdata.data = responseObj;
+                //instance.send(SEND_TO.http_response, params.refFlowdata);
+
+                let refFlowdata = refFlowdataObj[ params.refFlowdataKey ];
+                refFlowdata.data = responseObj;
+                instance.send(SEND_TO.http_response, refFlowdata);
+
+              }
+              else
+              {
+                console.log("params.refFlowdataKey is undefined", params);
+              }
+            }
+
+          }
+
+        }
+        else
+        {
+
+          upateNodeStatus(params.address, false);
+
+          if(params.refFlowdataKey != undefined)
+          {
+
+            logger.debug("cmd-terminal FAILED");
+            logger.debug(currentTask);
+
+            //make http response
+            let responseObj = {};
+            responseObj["type"] = "ERROR";
+            responseObj["bytes"] = data;
+
+            //params.refFlowdata.data = responseObj;
+            //instance.send(SEND_TO.http_response, params.refFlowdata);
+
+            let refFlowdata = refFlowdataObj[ params.refFlowdataKey ];
+            if(refFlowdata !== undefined)
+            {
+              refFlowdata.data = responseObj;
+              instance.send(SEND_TO.http_response, refFlowdata);
+            }
+
+
+          }
+
+          /*
+          if(params.type == "cmd-terminal")
+          {
+            if(params.refFlowdata != undefined)
+            {
+      
+              logger.debug("cmd-terminal FAILED");
+              logger.debug(currentTask);
+        
+              //make http response
+              let responseObj = {};
+              responseObj["type"] = "ERROR";
+              responseObj["bytes"] = data;
+        
+              params.refFlowdata.data = responseObj;
+              instance.send(SEND_TO.http_response, params.refFlowdata);
+  
+            }
+          }
+          */
+
+          if(params.address == 0)
+          {
+            //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.ALERT, "Master node not responding", "", SEND_TO.tb, instance, "rvo_status");
+            sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "master_node_is_not_responding", {}, "", SEND_TO.tb, instance, "rvo_status");
+            logger.debug("master_node_is_not_responding", params);
+            FLOW.OMS_masterNodeIsResponding = false;
+          }
+
+          if(params.type == "set_node_profile")
+          {
+            delete cmdCounter[params.address];
+            let tbname = nodesData[ params.address ].tbname;
+
+            logger.debug( "profil nebol úspešne odoslaný na node č.  ", params, result, resp);
+
+            //sendNotification("CMD Manager: process cmd", tbname, ERRWEIGHT.ALERT, "profil nebol úspešne odoslaný na node č. " + params.address, "", SEND_TO.tb, instance, null );
+            sendNotification("CMD Manager: process cmd", tbname, "configuration_of_dimming_profile_to_node_failed", {node: params.address}, "", SEND_TO.tb, instance );
+          }
+
+          //is it node?
+          if(nodesData.hasOwnProperty(params.address))
+          {
+            if(cmdNOKNodeCounter[params.address] < 5) saveToTb = false;
+          }
+
+          //Master node version
+          //if(params.register == 4 && saveToTb)
+          if(saveToTb)
+          {
+            let values = {
+              "status": "NOK"
+            };
+
+            let dataToTb = {
+              [tbname]: [
+                  { 
+                    "ts": Date.now(),
+                    "values": values
+                  }
+                ]
+              }
+  
+            //instance.send(SEND_TO.tb, dataToTb);
+            tbHandler.sendToTb(dataToTb, instance);
+          }
+
+          //instance.send(SEND_TO.debug, result);
+
+          if(params.hasOwnProperty("debug"))
+          {
+            if(params.debug)
+            {
+              logger.debug("writeData err: ", error, result, params);
+            }
+          }
+
+          //logger.debug(error, result, params);
+        }
+
+      }).catch(function (reason) {
+
+        console.log("writeData catch exception", reason);
+        logger.debug(currentTask);
+
+        if(params.refFlowdataKey != undefined)
+        {
+
+          logger.debug("catch: cmd-terminal FAILED");
+          logger.debug(currentTask);
+
+          //make http response
+          let responseObj = {};
+          responseObj["type"] = "ERROR";//
+          responseObj["message"] = "ERROR WRITE FAILED: " + reason;//
+
+          //params.refFlowdata.data = responseObj;
+          //instance.send(SEND_TO.http_response, params.refFlowdata);
+
+          let refFlowdata = refFlowdataObj[ params.refFlowdataKey ];
+          if(refFlowdata !== undefined)
+          {
+            refFlowdata.data = responseObj;
+            instance.send(SEND_TO.http_response, refFlowdata);
+          }
+
+
+        }
+        /*
+        if(params.type == "cmd-terminal")
+        {
+          if(params.refFlowdata != undefined)
+          {
+      
+            logger.debug("cmd-terminal FAILED");
+            logger.debug(currentTask);
+        
+            //make http response
+            let responseObj = {};
+            responseObj["type"] = "ERROR WRITE FAILED: " + reason;
+            //responseObj["bytes"] = data;
+        
+            params.refFlowdata.data = responseObj;
+            instance.send(SEND_TO.http_response, params.refFlowdata);
+  
+            //refFlowdata = undefined;
+          }
+        }
+        */
+
+        if(params.hasOwnProperty("debug"))
+        {
+          if(params.debug)
+          {
+            logger.debug("-->WRITE FAILED: " + reason, params.debug, params);
+          }
+        }
+
+        upateNodeStatus(params.address, false);
+
+        let tbname = params.tbname;
+
+        let saveToTb = true;
+        if(tbname == null || tbname == undefined || tbname == "") saveToTb = false;
+
+        if(params.address == 0)
+        {
+          //sendNotification("CMD Manager: process cmd", relaysData[0].tbname, ERRWEIGHT.ALERT, "Master node not responding", "", SEND_TO.tb, instance, "rvo_status");
+          sendNotification("CMD Manager: process cmd", FLOW.OMS_edgeName, "master_node_is_not_responding", {}, "", SEND_TO.tb, instance, "rvo_status");
+          logger.debug("master_node_is_not_responding", params);
+
+          FLOW.OMS_masterNodeIsResponding = false;
+        }
+
+        if(params.type == "set_node_profile")
+        {
+          delete cmdCounter[params.address];
+          let tbname = nodesData[ params.address ].tbname;
+
+          logger.debug( "profil nebol úspešne odoslaný na node č.  ", params, resp);
+
+          //sendNotification("CMD Manager: process cmd", tbname, ERRWEIGHT.ALERT, "odosielanie profilu na node č. " + params.address + " zlyhalo", "", SEND_TO.tb, instance, null );
+          sendNotification("CMD Manager: process cmd", tbname, "configuration_of_dimming_profile_to_node_failed", {node: params.address}, "", SEND_TO.tb, instance );
+        }
+
+        //is it node?
+        if(nodesData.hasOwnProperty(params.address))
+        {
+          if(cmdNOKNodeCounter[params.address] < 5) saveToTb = false;
+        }
+
+        //Master node version
+        if(params.register == 4 && saveToTb)
+        {
+          let values = {
+            "status": "NOK",
+            "master_node_version": "NOK"
+          };
+
+          let dataToTb = {
+            [tbname]: [
+                { 
+                  "ts": Date.now(),
+                  "values": values
+                }
+              ]
+            }
+
+          //instance.send(SEND_TO.tb, dataToTb);
+          tbHandler.sendToTb(dataToTb, instance);
+
+          FLOW.OMS_masterNodeIsResponding = false;
+        }
+        //treba?
+        /*
+        else if(saveToTb)
+        {
+          let values = {
+            "comm_status": "no_comm"
+          };
+
+          let dataToTb = {
+            [tbname]: [
+                { 
+                  "ts": Date.now(),
+                  "values": values
+                }
+              ]
+            }
+
+          instance.send(SEND_TO.tb, dataToTb);
+        }
+        */
+
+        instance.send(SEND_TO.debug, reason);
+      });
+      
+    }
+    else
+    {
+      if(currentTask.debug)
+      {
+        //currentTask.timestamp <= currentTimestamp
+        logger.debug("currentTask is not processed - task is in the future", currentTask);
+      }
+
+      interval = setInterval(runTasks, LONG_INTERVAL);
+      return;
+    }    
+
+    //console.log("----->runTasks - setInterval", new Date());
+    interval = setInterval(runTasks, SHORT_INTERVAL);
+  } 
+  
+
+  //! rsPort LM = "/dev/ttymxc4", rsPort UNIPI = "/dev/ttyUSB0"
+  // const rsPort = new SerialPort("/dev/ttymxc4", { autoOpen: false });  //LM
+  // const rsPort = new SerialPort("/dev/ttyUSB0", { autoOpen: false });  // UNIPI
+
+  if(FLOW.OMS_serial_port == "" || FLOW.OMS_serial_port == undefined || FLOW.OMS_serial_port.length === 1) FLOW.OMS_serial_port = "ttymxc4";
+  const rsPort = new SerialPort(`/dev/${FLOW.OMS_serial_port}`, { autoOpen: false });
+  //(node:16372) MaxListenersExceededWarning: Possible EventEmitter memory leak detected. 13 data listeners added to [SerialPort]. Use emitter.setMaxListeners() to increase limit
+  //rsPort.setMaxListeners(0);
+
+  rsPort.on('open', async function() {
+
+    logger.debug("CMD manager - rsPort opened sucess");
+
+    loadRelaysData();
+
+    await runSyncExec(`stty -F /dev/${FLOW.OMS_serial_port} 115200 min 1 time 5 ignbrk -brkint -icrnl -imaxbel -opost -isig -icanon -iexten -echo -echoe -echok -echoctl -echoke`).then(function (status) {     
+      instance.send(SEND_TO.debug, "RPC runSyncExec - Promise Resolved:" + status);
+
+      logger.debug(0, "RPC runSyncExec - Promise Resolved:" + status);
+
+      //APP START
+      let dataToInfoSender = {id: FLOW.OMS_projects_id, name: FLOW.OMS_rvo_name};
+      dataToInfoSender.fw_version = FLOW.OMS_edge_fw_version;
+      dataToInfoSender.startdate = new Date().toISOString().slice(0, 19).replace('T', ' ');
+      dataToInfoSender.__force__ = true;
+          
+      instance.send(SEND_TO.infoSender, dataToInfoSender);
+
+      logger.debug(0, "---------------------------->START message send to service", dataToInfoSender);
+
+    }).catch(function (reason) {
+      instance.send(SEND_TO.debug, "CMD manager - RPC runSyncExec - promise rejected:" + reason);
+    });
+  });
+
+  rsPort.on('error', function(err) {
+    
+      //TODO report to service!!!
+      //errLogger.error(exports.title, "unable to open port", FLOW.OMS_serial_port, err.message);
+      errorHandler.sendMessageToService([exports.title, "unable to open port", FLOW.OMS_serial_port, err.message], 0);
+
+      instance.send(SEND_TO.debug, err.message);
+  });
+
+  rsPort.on("close", () => {
+    rsPort.close();
+  });
+
+  //loadRelaysData();
+  rsPort.open();
+
+  instance.on("close", () => {
+    clearInterval(interval);
+    rsPort.close();
+  });
+
+
+  instance.on("data", async function(flowdata) {
+
+    //instance.send(SEND_TO.debug, "on Data");
+    //instance.send(SEND_TO.debug, flowdata);
+    
+    //logger.debug(flowdata.data);
+
+    //just testing functions
+    if(flowdata.data == "open")
+    {
+      if(!rsPort.isOpen) rsPort.open();
+      return;
+    }
+    else if(flowdata.data == "close")
+    {
+      rsPort.close();
+      return;
+    }
+    else if(flowdata.data == "clean")
+    {
+      tasks = [];
+      return;
+    }
+    else if(flowdata.data == "buildtasks")
+    {
+      //build & run
+      return;
+    }
+    else if(flowdata.data == "run")
+    {
+      //durations = [];
+
+      if(tasks.length == 0)
+      {
+
+        buildTasks();
+
+        if(rsPort.isOpen)
+        {
+            interval = setInterval(runTasks, 100);
+        }
+        else
+        {
+            instance.send(SEND_TO.debug, "port is not opened!!!");
+        }
+      }
+    }
+    else
+    {
+      //terminal data - object
+      //logger.debug("flowdata", flowdata.data);
+
+      if(typeof flowdata.data === 'object')
+      {
+        //logger.debug("dido", flowdata.data);
+        if(flowdata.data.hasOwnProperty("sender"))
+        {
+          //data from dido_controller
+          if(flowdata.data.sender == "dido_controller")
+          {
+
+            if(flowdata.data.hasOwnProperty("cmd"))
+            {
+              let cmd = flowdata.data.cmd;
+
+              
+              if(cmd == "buildTasks")
+              {
+                clearInterval(interval);
+
+                logger.debug("-->CMD MANAGER - BUILD TASKS");
+                buildTasks();
+
+                //logger.debug("tasks:");
+                //logger.debug(tasks);
+
+                logger.debug("-->CMD MANAGER - RUN TASKS");
+                interval = setInterval(runTasks, LONG_INTERVAL);
+              }
+              else if(cmd == "reload_relays")
+              {
+                loadRelaysData(flowdata.data.line);
+
+                if(flowdata.data.dataChanged)
+                {
+                  if(!flowdata.data.value)
+                  {
+                    reportOfflineNodeStatus(flowdata.data.line);
+                  }
+                  else 
+                  {
+                    reportOnlineNodeStatus(flowdata.data.line);
+                  }
+                }
+                
+              }
+              else if(cmd == "rotary_switch_state")
+              {
+                //state was changed
+                if(rotary_switch_state != flowdata.data.value) 
+                {
+                  if(rotary_switch_state == "Off")
+                  {
+                    //vyreportovat vsetky svietdla
+                    reportOfflineNodeStatus();
+                  }
+                  else reportOnlineNodeStatus();
+
+                }
+
+                rotary_switch_state = flowdata.data.value;
+              }
+              else if(cmd == "lux_sensor")
+              {
+                lux_sensor = parseInt(flowdata.data.value);
+
+                // POSSIBLE SOURCE OF PROBLEMS, IF USER SETS LUX TRESHOLD LEVEL GREATER THAN 100 - WE SHOULD BE CHECKING "DUSK/DAWN_LUX_SENSOR_VALUE" IN PROFILE MAYBE ??
+                if(lux_sensor < 100)
+                {
+
+                  // we send lux_sensor value to all nodes:
+                  let params = getParams(PRIORITY_TYPES.node_broadcast);
+
+                  params.recipient = 2;//2 broadcast, address = 0
+                  params.address = 0xffffffff;//Broadcast
+
+                  let ba = longToByteArray(lux_sensor);
+
+                  params.byte3 = ba[1];//msb
+                  params.byte4 = ba[0];
+                  params.timestamp = PRIORITY_TYPES.node_broadcast;
+                  params.info = "run broadcast: Actual Lux level from cabinet";
+                  params.register = 95;//Actual Lux level from cabinet
+                  params.rw = 1;//write
+
+                  tasks.push(params);
+
+
+                  //process profiles
+                  turnOnOffLinesAccordingToLuxSensor(lux_sensor);
+                }
+              }
+              else if(cmd == "state_of_breaker")
+              {
+                //istic linie
+                let value = flowdata.data.value;
+                let line = parseInt(flowdata.data.line);
+
+                let dataChanged = false;
+                if(state_of_breaker[line] != value) dataChanged = true;
+
+                state_of_breaker[line] = value;
+
+                let status = "OK";
+                let weight = ERRWEIGHT.NOTICE;
+                let message = `zapnutý istič línie č. ${line}`;
+                if(value == "Off") 
+                {
+                  weight = ERRWEIGHT.ERROR;
+                  message = `vypnutý istič línie č. ${line}`;
+                  status = "NOK";
+                }
+
+                if(dataChanged) {
+
+                  if(relaysData.hasOwnProperty(line))
+                  {
+                    let tbname = relaysData[line].tbname;
+
+                    if(value == "Off") sendNotification("CMD Manager: onData", tbname, "circuit_breaker_was_turned_off_line", {line: line}, "", SEND_TO.tb, instance, "circuit_breaker");
+                    else sendNotification("CMD Manager: onData", tbname, "circuit_breaker_was_turned_on_line", {line: line}, "", SEND_TO.tb, instance, "circuit_breaker");
+
+                    //report status liniu
+                    let values = {
+                      "status": status
+                    };
+        
+                    let dataToTb = {
+                      [tbname]: [
+                          { 
+                            "ts": Date.now(),
+                            "values": values
+                          }
+                        ]
+                      }
+          
+                    //instance.send(SEND_TO.tb, dataToTb);
+                    tbHandler.sendToTb(dataToTb, instance);
+
+                    //current value
+                    if(value == "Off")
+                    {
+                      //vyreportovat vsetky svietdla na linii
+                      reportOfflineNodeStatus(line);
+                    }
+                    else reportOnlineNodeStatus(line);
+                  }
+
+                }
+              }
+              else{
+                logger.debug("undefined cmd", cmd);
+              }
+            }
+          }
+
+          return;
+        }
+
+        //data from worksys
+        if(flowdata.data.hasOwnProperty("topic"))
+        {
+
+          let data = flowdata.data.content.data;
+
+          let command = data.params.command;
+          let method = data.method;
+          let profile = data.params.payload;
+          if(profile == undefined) profile = "";
+          let entity = data.params.entities[0];
+          let entity_type = entity.entity_type;
+          let tbname = entity.tb_name;
+
+          instance.send(SEND_TO.debug, flowdata.data);
+          logger.debug("--->worksys", flowdata.data, data.params, entity, entity_type, command, method);
+          logger.debug("----------------------------");
+
+          if(entity_type == "street_luminaire"|| entity_type === "street_luminaire_v4_1" || entity_type === "street_luminaire_v4_1cez" || entity_type === "street_luminaire_v4")
+          {
+            if(method == "set_command")
+            {
+
+              //let command = data.params.command;
+              let value = data.params.payload.value;
+              
+              if(command == "dimming")
+              {
+
+                let nodeWasFound = false;
+                let keys = Object.keys(nodesData);
+
+                //logger.debug("-----", keys);
+
+                for(let i = 0; i < keys.length; i++)
+                {
+                  let node = keys[i];
+                  //logger.debug( node, nodesData[node], tbname);
+
+                  if(tbname == nodesData[node].tbname.trim())
+                  {
+                      let params = getParams(PRIORITY_TYPES.high_priority);
+
+                      value = parseInt(value);
+                      if(value > 0) value = value + 128;
+
+                      //set dimming - LUM1_13 - 647 je node linie 1 kt. dobre vidime
+                      params.type = "cmd";
+                      params.tbname = tbname;
+                      params.address = node;
+                      params.register = 1;//dimming
+                      params.recipient = 1;//slave
+                      params.byte4 = value;
+                      params.rw = 1;//write
+                      params.timestamp = PRIORITY_TYPES.high_priority;
+                      params.info = 'set dimming from platform';
+                      //params.debug = true;
+
+                      //ak linia je 
+
+                      //debug(params);
+                      logger.debug("dimming", params);
+
+                      tasks.push(params);
+
+                      setTimeout(function(){
+
+                        //spustime o 4 sekundy neskor, s prioritou PRIORITY_TYPES.high_priority
+                        //a pridame aj vyreportovanie dimmingu
+                        {
+                          let params = getParams(PRIORITY_TYPES.high_priority);
+
+                          params.type = "cmd";
+                          params.tbname = tbname;
+                          params.address = node;
+                          params.register = 1;//dimming
+                          params.recipient = 1;//slave
+                          params.rw = 0;//read
+                          params.timestamp = PRIORITY_TYPES.high_priority;
+                          params.info = 'read dimming (after set dimming from platform)';
+                          params.debug = true;
+
+                          tasks.push(params);
+                        }
+
+                        //pridame aj vyreportovanie - vykon
+                        {
+                          let params = getParams(PRIORITY_TYPES.high_priority);
+
+                          params.type = "cmd";
+                          params.tbname = tbname;
+                          params.address = node;
+                          params.register = 76;
+                          params.recipient = 1;//slave
+                          params.rw = 0;//read
+                          params.timestamp = PRIORITY_TYPES.high_priority;
+                          params.info = 'read Input Power (after set dimming from platform)';
+                          params.debug = true;
+
+                          tasks.push(params);
+                        }
+
+                        //pridame aj vyreportovanie - prud svietidla
+                        {
+                          let params = getParams(PRIORITY_TYPES.high_priority);
+
+                          params.type = "cmd";
+                          params.tbname = tbname;
+                          params.address = node;
+                          params.register = 75;
+                          params.recipient = 1;//slave
+                          params.rw = 0;//read
+                          params.timestamp = PRIORITY_TYPES.high_priority;
+                          params.info = 'read Input Current (after set dimming from platform)';
+                          params.debug = true;
+
+                          tasks.push(params);
+                        }
+
+                        //pridame aj vyreportovanie - power faktor - ucinnik
+                        {
+                          let params = getParams(PRIORITY_TYPES.high_priority);
+
+                          params.type = "cmd";
+                          params.tbname = tbname;
+                          params.address = node;
+                          params.register = 77;
+                          params.recipient = 1;//slave
+                          params.rw = 0;//read
+                          params.timestamp = PRIORITY_TYPES.high_priority;
+                          params.info = 'read power factor - Cos phi (after set dimming from platform)';
+                          params.debug = true;
+
+                          tasks.push(params);
+                        }
+
+                        },4000);
+                        
+
+                      nodeWasFound = true;
+
+                      break;
+                  }
+                }
+
+                if(!nodeWasFound)
+                {
+                  logger.debug("set dimming from platform", "unable to find tbname", tbname);
+                }
+              }
+              else
+              {
+                instance.send(SEND_TO.debug, "undefined command " + command);
+                logger.debug("undefined command", command);
+              }
+
+              return;
+            }
+            else if(method == "set_profile")
+            {
+              //nastav profil nodu
+              logger.debug("-->set_profile for node", data.params);
+              logger.debug("------profile data", profile);
+              //instance.send(SEND_TO.debug, "set_profile" + command);
+
+              let keys = Object.keys(nodesData);
+              for(let i = 0; i < keys.length; i++)
+              {
+                let node = keys[i];
+                if(tbname == nodesData[node].tbname.trim())
+                {
+
+                  if(profile != "") profile = JSON.stringify(profile);
+                  dbNodes.modify({ processed: false, profile: profile }).where("node", node).make(function(builder) {
+
+                    builder.callback(function(err, response) {
+
+                        logger.debug("worksys - update node profile done", profile);
+                        if(profile === "") logger.debug("worksys - update node profile done - profile is empty");
+
+                        //profil úspešne prijatý pre node č. xx
+                        //sendNotification("CMD manager", tbname, ERRWEIGHT.INFO, `profil úspešne poslaný z platformy na RVO pre node č. ${node}`, profile, SEND_TO.tb, instance, null );
+                        sendNotification("CMD manager", tbname, "dimming_profile_was_processed_for_node", {node: node}, profile, SEND_TO.tb, instance );
+
+                        nodesData[node].processed = false;
+                        nodesData[node].profile = profile;
+
+                        let line = nodesData[node].line;
+                        processNodeProfile(node);
+
+                      });
+                    });
+                }
+              }
+            }
+            else
+            {
+
+              instance.send(SEND_TO.debug, "unknown method " + method);
+              logger.debug("unknown method", method);
+
+              return;
+            }
+          }
+
+          //nastav profil linie z platformy
+          else if(entity_type == "edb_line" || entity_type == "edb" || entity_type == "edb_line_ver4" || entity_type == "edb_ver4_se")
+          {
+            //profil linie
+            //relays.table line:number|tbname:string|contactor:number|profile:string
+            //najdeme line relaysData
+
+            if(method == "set_profile")
+            {
+
+              logger.debug("-->set_profile for line", data.params);
+              logger.debug("profile data:", profile);
+
+              let keys = Object.keys(relaysData);
+              for(let i = 0; i < keys.length; i++)
+              {
+                let line = keys[i];
+                if(tbname == relaysData[line].tbname)
+                {
+                  //zmazeme tasky
+                  removeTask({type: "relay", line: line});
+                  
+                  if(profile != "") profile = JSON.stringify(profile);
+                  dbRelays.modify({ profile: profile }).where("line", line).make(function(builder) {
+
+                    builder.callback(function(err, response) {
+
+                      //update profile
+                      logger.debug("worksys - update relay profile done:", profile);
+                      instance.send(SEND_TO.debug, "worksys - update relay profile done");
+
+                      loadRelaysData(line).then(function (data) {
+                        logger.debug("loadRelaysData DONE for line", line);
+                        buildTasks({processLineProfiles: true, line: line});
+                      });
+                      
+                      sendNotification("CMD manager - set profile from worksys", tbname, "switching_profile_was_processed_for_line", {line: line}, profile, SEND_TO.tb, instance );
+
+                    });
+                  });
+                  break;
+                }
+              }
+            }
+            else if(method == "set_command")
+            {
+              let value = data.params.payload.value;
+
+              if(command === "switch")
+              {
+
+                // if we receive rpc from platform, to switch maintenance mode, we set OMS_maintenance_mode flow variable to value;
+                if(entity_type === "edb" || entity_type === "edb_ver4_se") FLOW.variables.OMS_maintenance_mode = value;
+
+                let responseRelays = await promisifyBuilder(dbRelays.find().where("tbname", tbname));
+
+                let line = 0;
+                if(responseRelays.length == 1) line = responseRelays[0].line;
+              
+                if(value == false) turnOffLine(line, "command received form platform");
+                else turnOnLine(line, "command received form platform");
+              }
+            }
+            else
+            {
+              instance.send(SEND_TO.debug, "undefined method " + method);
+              logger.debug("undefined method", method);
+            }
+
+            return;
+          }
+          else
+          {
+            instance.send(SEND_TO.debug, "UNKNOW entity_type " + entity_type);
+            logger.debug("UNKNOW entity_type", entity_type);
+          }
+          return;
+        }
+
+        //terminal
+        if(!rsPort.isOpen) await rsPort.open();
+
+        let params = flowdata.data.body;
+        if(params == undefined)
+        {
+          //logger.debug("CMD manager flowdata.data.body is undefined");
+          return;
+        }
+
+        params.priority = PRIORITY_TYPES.terminal;
+        params.type = "cmd-terminal";
+        params.tbname = "";
+        params.timestamp = PRIORITY_TYPES.terminal;
+        params.addMinutesToTimestamp = 0;// do not repeat task!!!
+        params.debug = true;
+
+        let timestamp = Date.now();
+        params.refFlowdataKey = timestamp;
+        //params.refFlowdata = flowdata;
+        //refFlowdata = flowdata;
+
+        //console.log("flowdata", flowdata);
+
+        cleanUpRefFlowdataObj();
+
+        refFlowdataObj[ timestamp ] = flowdata;
+
+        //fix
+        //params.address = params.adress;
+        logger.debug("received from terminal", params);
+        logger.debug("date/time:", new Date());
+        logger.debug("tasks length:", tasks.length);
+
+        //tasks = [];
+
+        //add to tasks
+        tasks.push(params);
+
+      }
+    }
+  })
+
+} // end of instance.export
+
+
+/**
+ * setCorrectTime function runs once per hour
+ * If it is 3 o'clock, it sets actual time, which is got from services
+ * https://service-prod01.worksys.io/gettime
+ * If also detects Read Only Filesystem once a day
+ */
+function setCorrectPlcTimeOnceADay()
+{
+
+  const currentTime = new Date();
+  if(currentTime.getHours() != 3) return;
+
+  RESTBuilder.make(function(builder) {
+
+    if(!builder) return;
+
+    builder.method('GET');
+    builder.url('http://192.168.252.2:8004/gettime?projects_id=1');
+
+    builder.callback(function(err, response, output) {
+
+      if (err) {
+        console.log(err);
+        return;
+      }
+
+      const res = output.response;
+
+      try {
+
+        const obj = JSON.parse(res);
+        let d = new Date(obj.date);
+
+        const now = new Date();
+
+        let diffInMinutes = now.getTimezoneOffset();
+        console.log("---->TimezoneOffset", diffInMinutes);
+
+        if(d instanceof Date)
+        {
+
+          // monitor.info("----------->setCorrectPlcTimeOnceADay() current js date:", d, d.getHours());
+        
+          let year = d.getFullYear();
+          let month = addZeroBefore(d.getMonth() + 1);
+          let day = addZeroBefore(d.getDate());
+          
+          let hours = addZeroBefore(d.getHours());
+          let minutes = addZeroBefore(d.getMinutes() );
+          let seconds = addZeroBefore(d.getSeconds());
+
+          let dateStr = `${year}-${month}-${day} ${hours}:${minutes}:${seconds}`;
+          
+          exec(`sudo timedatectl set-time "${dateStr}"`, (err, stdout, stderr) => {
+            if (err || stderr) {
+              console.error(err);
+              console.log(stderr);
+              console.log(dateStr);
+
+              monitor.info("failed timedatectl set-time", err, stderr);
+            }
+            else
+            {
+              monitor.info("setCorrectPlcTimeOnceADay() --> Nastaveny cas na: ", dateStr);
+            }
+
+          });
+        }
+
+      } catch (error) {
+        logger.debug("setCorrectPlcTimeOnceADay - function error", error, res);
+        monitor.info("setCorrectPlcTimeOnceADay - function error", error, res);
+      }
+
+      // we detect readOnlyFileSystem once an hour as well
+      detectReadOnlyFilesystem();
+
+    });
+  });
+
+}
+
+
+function detectReadOnlyFilesystem()
+{
+  exec(`sudo egrep " ro,|,ro " /proc/mounts`, (err, stdout, stderr) => {
+    if (err || stderr) {
+      console.error(err);
+      console.log(stderr);
+
+    } else {
+      //console.log("Read-only", stdout);
+      
+      let lines = stdout + "";
+      lines = lines.split("\n");
+
+      let readOnlyDetected = "";
+      for(let i = 0; i < lines.length; i++)
+      {
+        if(lines[i].startsWith("/dev/mmcblk0p2"))
+        {
+          readOnlyDetected = lines[i];
+        }
+      }
+      
+      if(readOnlyDetected !== "")
+      {
+        errorHandler.sendMessageToService("Detected: Read-only file system: " + readOnlyDetected);
+        monitor.info("Read only filesystem detected");
+      }
+      
+    }
+  });
+}
+
+let setCorrectTime = setInterval(setCorrectPlcTimeOnceADay, 60000 * 60);  // 1 hour
+setCorrectPlcTimeOnceADay();
+
+
+
+
+
+
+
+
+
+///helper functions
+
+function calculateDuskDawn(date, line, duskOffset = 0, dawnOffset = 0)
+{
+
+  if(date === undefined) date = new Date();
+  //if(duskOffset === undefined) duskOffset = 0;
+  //if(dawnOffset === undefined) dawnOffset = 0;
+
+  //let line = keys[i];
+  let profilestr = "";
+  if(relaysData[line] != undefined) profilestr = relaysData[line].profile;
+
+  let result = {};
+
+  var times = SunCalc.getTimes(date, latitude, longitude);
+  let dawn = new Date(times.sunrise);//usvit
+  let dusk = new Date(times.sunset);//sumrak
+  
+
+  //http://suncalc.net/#/48.5598,18.169,11/2021.04.07/11:06
+  //https://mapa.zoznam.sk/zisti-gps-suradnice-m6
+
+
+  let dusk_astro_clock_offset = duskOffset;//minutes
+  let dawn_astro_clock_offset = dawnOffset;//minutes
+
+  try {
+
+    let profile = JSON.parse(profilestr);
+    if(Object.keys(profile).length === 0) throw ("profile is not defined");
+
+    //Jednoduchý režim
+    if(profile.astro_clock == false && profile.dusk_lux_sensor == false && profile.dawn_lux_sensor == false)
+    {
+
+    }
+
+    //Režim astrohodín
+    if(profile.astro_clock == true)
+    {
+      //if(profile.dusk_lux_sensor == false)
+      {
+          if(profile.hasOwnProperty("dusk_astro_clock_offset")) dusk_astro_clock_offset = parseInt( profile.dusk_astro_clock_offset );
+      }
+
+      //if(profile.dawn_lux_sensor == false)
+      {
+          if(profile.hasOwnProperty("dawn_astro_clock_offset")) dawn_astro_clock_offset = parseInt( profile.dawn_astro_clock_offset );
+      }
+      
+    }
+
+    //dusk - súmrak 
+    //down, sunrise - svitanie
+    
+  } catch (error) {
+    if(profilestr != "")
+    {
+      logger.debug(profilestr);
+      logger.debug(error);
+    }
+  } 
+
+  result.dusk_no_offset = addZeroBefore(dusk.getHours()) + ":" + addZeroBefore(dusk.getMinutes());
+  result.dawn_no_offset = addZeroBefore(dawn.getHours()) + ":" + addZeroBefore(dawn.getMinutes());
+
+  dusk = new Date(dusk.getTime() + gmtOffset + dusk_astro_clock_offset*60000);
+  dawn = new Date(dawn.getTime() + gmtOffset + dawn_astro_clock_offset*60000);
+
+  result.dusk = addZeroBefore(dusk.getHours()) + ":" + addZeroBefore(dusk.getMinutes());
+  result.dusk_hours = dusk.getHours();
+  result.dusk_minutes = dusk.getMinutes();
+
+  result.dawn = addZeroBefore(dawn.getHours()) + ":" + addZeroBefore(dawn.getMinutes());
+  result.dawn_hours = dawn.getHours();
+  result.dawn_minutes = dawn.getMinutes();
+
+  result.dusk_time = dusk.getTime();
+  result.dawn_time = dawn.getTime();
+
+  result.dusk_astro_clock_offset = dusk_astro_clock_offset;
+  result.dawn_astro_clock_offset = dawn_astro_clock_offset;
+
+  return result;
+}
+
+
+function processResponse(register, bytes)
+{
+
+  let values = {};
+
+  let byte3 = bytes[0];
+  let byte2 = bytes[1];
+  let byte1 = bytes[2];
+  let byte0 = bytes[3];
+
+  //status
+  if(register == 0)
+  {
+    let statecode = bytesToInt(bytes);
+    values = {"statecode": statecode};
+    return values;
+  }
+
+  //Dimming, CCT
+  if(register == 1)
+  {
+    let brightness = 0;
+    let dimming = byte0;
+    if(dimming > 128) {
+      //dimming = -128;
+      brightness = dimming - 128;
+    }
+
+    //cct
+    //Ak Byte3 == 1: CCT = (Byte2*256)+Byte1
+    let cct;
+    if(byte3 == 1) cct = byte2*256 + byte1;
+    else cct = bytesToInt(bytes.slice(0, 3));
+
+    //cct podla auditu
+
+    values["dimming"] = brightness;
+    return values;
+  }
+
+  //
+  if(register == 4)
+  {
+    values["master_node_version"] = bytes[1] + "." + bytes[2];
+    //logger.debug("FW Version", register, bytes);
+  }
+
+  //Napätie
+  if(register == 74)
+  {
+    let voltage = (bytesToInt(bytes) * 0.1).toFixed(1);
+    values["voltage"] = Number(voltage);
+  }
+
+  //Prúd
+  if(register == 75)
+  {
+    let current = bytesToInt(bytes);
+    values["current"] = current;
+  }
+
+  //výkon
+  if(register == 76)
+  {
+    let power = (bytesToInt(bytes) * 0.1).toFixed(2);
+    values["power"] = Number(power);
+  }
+
+  //účinník
+  if(register == 77)
+  {
+    let power_factor = Math.cos(bytesToInt(bytes) * 0.1).toFixed(2);
+    values["power_factor"] = Number(power_factor);
+  }
+
+  //frekvencia
+  if(register == 78)
+  {
+    let frequency = (bytesToInt(bytes) * 0.1).toFixed(2);
+    values["frequency"] = Number(frequency);
+  }
+
+  //energia
+  if(register == 79)
+  {
+    let energy = bytesToInt(bytes);
+
+    //Energiu treba reportovať v kWh. Teda číslo, ktoré príde treba podeliť 1000. Toto som ti možno zle napísal.
+
+    values["energy"] = energy / 1000;
+  }
+
+  //doba života
+  if(register == 80)
+  {
+    let lifetime = ( bytesToInt(bytes) / 60).toFixed(2);
+    values["lifetime"] = Number(lifetime);
+  }
+
+  //nastavenie profilu
+  if(register == 8)
+  {
+    let time_schedule_settings = bytesToInt(bytes);
+    values["time_schedule_settings"] = time_schedule_settings;
+  }
+
+  //skupinová adresa 1
+  if(register == 3)
+  {
+    let gr_add_1 = bytesToInt(byte0);
+    values["gr_add_1"] = gr_add_1;
+
+    let gr_add_2 = bytesToInt(byte1);
+    values["gr_add_2"] = gr_add_2;
+
+    let gr_add_3 = bytesToInt(byte2);
+    values["gr_add_3"] = gr_add_3;
+
+    let gr_add_4 = bytesToInt(byte3);
+    values["gr_add_4"] = gr_add_4;
+  }
+
+  //naklon
+  if(register == 84)
+  {
+    let temp;
+    if(byte3 >= 128)
+    {
+      temp = (byte3 - 128) * (-1);
+    }
+    else
+    {
+      temp = byte3;
+    }
+
+    let inclination_x;
+    if(byte2 >= 128)
+    {
+      inclination_x = (byte2 - 128) * (-1);
+    }
+    else
+    {
+      inclination_x = byte2;
+    }
+
+    let inclination_y;
+    if(byte1 >= 128)
+    {
+      inclination_y = (byte1 - 128) * (-1);
+    }
+    else
+    {
+      inclination_y = byte1;
+    }
+
+    let inclination_z;
+    if(byte0 >= 128)
+    {
+      inclination_z = (byte0 - 128) * (-1);
+    }
+    else
+    {
+      inclination_z = byte0;
+    }
+
+    values["temperature"] = temp;
+
+    //náklon x
+    values["inclination_x"] = inclination_x;
+
+    //náklon y
+    values["inclination_y"] = inclination_y;
+
+    //náklon z
+    values["inclination_z"] = inclination_z;
+  }
+
+  let h = byte3;
+  let m = byte2;
+  let s = byte1;
+
+  let timestamp;
+
+  if(register == 87 || register == 6 || register == 7 )
+  {
+    //if(byte3 < 10) h = "0" + byte3;
+    //if(byte2 < 10) m = "0" + byte2;
+    //if(byte1 < 10) s = "0" + byte1;
+
+    var d = new Date();
+    d.setHours(h);
+    d.setMinutes(m);
+    d.setSeconds(s);
+
+    timestamp = d.getTime();
+  }
+
+  //aktuálny čas
+  if(register == 87)
+  {
+    //Byte3 - hodiny, Byte 2 - minúty, Byte 1 -sek.
+    //values["actual_time"] = h + ":" + m + ":" + s;
+
+    values["actual_time"] = timestamp;
+  }
+
+  //čas súmraku
+  if(register == 6)
+  {
+    //Byte3 - hodiny, Byte 2 - minúty, Byte 1 -sek.
+    //values["dusk_time"] = h + ":" + m + ":" + s;
+
+    values["dusk_time"] = timestamp;
+  }
+
+  //čas úsvitu
+  if(register == 7)
+  {
+    //Byte3 - hodiny, Byte 2 - minúty, Byte 1 -sek.
+    //values["dawn_time"] = h + ":" + m + ":" + s;
+
+    values["dawn_time"] = timestamp;
+  }
+
+  //FW verzia
+  if(register == 89)
+  {
+    //formát: "Byte3: Byte2.Byte1 (Byte0)"
+    values["fw_version"] = byte3 + ":" + byte2 + "." + byte1 + "(" + byte0 + ")";
+  }
+
+  return values;
+}
+
+
+//byte1 MSB = data3, byte2 = data2, byte3 = data1, byte4 = data0 LSB
+function com_generic(adresa, rec, rw, register, name, byte1, byte2, byte3, byte4) {
+  let resp = [];
+  
+  let cmd = register;
+
+  if (typeof adresa === 'string') adresa = parseInt(adresa);
+  if (typeof byte1 === 'string') byte1 = parseInt(byte1);
+  if (typeof byte2 === 'string') byte2 = parseInt(byte2);
+  if (typeof byte3 === 'string') byte3 = parseInt(byte3);
+  if (typeof byte4 === 'string') byte4 = parseInt(byte4);
+  
+  if (rw === 0)
+  {
+    cmd = cmd + 0x8000;
+  }
+  
+  //master
+  if(rec === 0) adresa = 0;
+
+  if(rec === 2)
+  {
+    adresa = 0xffffffff;//Broadcast
+  }
+
+  //recipient
+  if (rec === 3)
+  {
+    resp.push(0xFF);
+    resp.push(0xFF);
+    resp.push(0xFF);
+    resp.push(0xFF);
+    resp.push( adresa & 0xFF );//band
+  }
+  else
+  {
+    resp.push( (adresa >> 24) &  0xFF);//rshift
+    resp.push( (adresa >> 16) &  0xFF);
+    resp.push( (adresa >> 8) &  0xFF);
+    resp.push( adresa & 0xFF );
+
+    if (rec === 2)
+    {
+        resp.push(0xFF);
+    }
+    else resp.push(0);
+  }
+
+  resp.push( (cmd >> 8) &  0xFF);//rshift
+  resp.push( cmd & 0xFF );//band
+  resp.push( byte1 & 0xFF );//band
+  resp.push( byte2 & 0xFF );//band
+  resp.push( byte3 & 0xFF );//band
+  resp.push( byte4 & 0xFF );//band
+
+  //let data = '12345';
+  let crc = crc16('ARC', resp);
+  let c1 = (crc >> 8) & 0xFF;
+  let c2 = crc & 0xFF;
+
+  resp.push(c1);
+  resp.push(c2);
+
+  //logger.debug("checksum", crc);
+  //logger.debug("resp", resp);
+
+  return resp;
+
+}
+
+
+
+
+
+
+// SAMPLE DATA
+
+const relaysDataExample = 
+{
+  '0': {
+    line: 0,
+    tbname: 'jbN4q7JPZmexgdnz2yKbWGDYAWwO0Q3BMX6ERLoV',
+    contactor: 1,
+    profile: ''
+  },
+  '1': {
+    line: 1,
+    tbname: 'MgnK93rkoAazbqdQ4yB2Q0yZ1YXGx6pmwBeVEP2O',
+    contactor: 1,
+    profile: '{"intervals":[{"value":1,"end_time":"13:00","start_time":"13:00"}],"astro_clock":false,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
+  },
+  '2': {
+    line: 2,
+    tbname: 'jBL12pg63eX4N9P7zy0lJLyEJKmlbkGwZMx0avQV',
+    contactor: 1,
+    profile: '{"intervals":[{"value":1,"end_time":"13:00","start_time":"13:00"}],"astro_clock":false,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
+  },
+  '3': {
+    line: 3,
+    tbname: 'aAOzENGrvpbe0VoK7D6E1a819PZmdg3nl24JLQMk',
+    contactor: 1,
+    profile: '{"intervals":[{"value":1,"end_time":"13:00","start_time":"13:00"}],"astro_clock":false,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
+  }
+}
+
+
+const rpcSwitchOffLine = 
+{
+  "topic": "v1/gateway/rpc",
+  "content": {
+    "device": "jbN4q7JPZmexgdnz2yKbWGDYAWwO0Q3BMX6ERLoV",
+    "data": {
+      "id": 8,
+      "method": "set_command",
+      "params": {
+        "entities": [
+          {
+            "entity_type": "edb_line",
+            "tb_name": "MgnK93rkoAazbqdQ4yB2Q0yZ1YXGx6pmwBeVEP2O"
+          }
+        ],
+        "command": "switch",
+        "payload": {
+          "value": false
+        }
+      }
+    }
+  }
+}
+
+const rpcSetNodeDimming =
+{
+  "topic": "v1/gateway/rpc",
+  "content": {
+    "device": "jbN4q7JPZmexgdnz2yKbWGDYAWwO0Q3BMX6ERLoV",
+    "data": {
+      "id": 10,
+      "method": "set_command",
+      "params": {
+        "entities": [
+          {
+            "entity_type": "street_luminaire",
+            "tb_name": "jbN4q7JPZmexgdnz2yKbWdDYAWwO0Q3BMX6ERLoV"
+          }
+        ],
+        "command": "dimming",
+        "payload": {
+          "value": 5
+        }
+      }
+    }
+  }
+}
+
+const rpcLineProfile = 
+{
+  "topic": "v1/gateway/rpc",
+  "content": {
+    "device": "jbN4q7JPZmexgdnz2yKbWGDYAWwO0Q3BMX6ERLoV",
+    "data": {
+      "id": 9,
+      "method": "set_profile",
+      "params": {
+        "entities": [
+          {
+            "entity_type": "edb_line",
+            "tb_name": "MgnK93rkoAazbqdQ4yB2Q0yZ1YXGx6pmwBeVEP2O"
+          }
+        ],
+        "payload": {
+          "intervals": [
+            {
+              "value": 0,
+              "end_time": "20:00",
+              "start_time": "13:00"
+            },
+            {
+              "value": 1,
+              "end_time": "05:30",
+              "start_time": "20:00"
+            },
+            {
+              "value": 0,
+              "end_time": "13:00",
+              "start_time": "05:30"
+            }
+          ],
+          "astro_clock": true,
+          "dawn_lux_sensor": false,
+          "dusk_lux_sensor": false,
+          "dawn_lux_sensor_value": 5,
+          "dusk_lux_sensor_value": 5,
+          "dawn_astro_clock_offset": 0,
+          "dusk_astro_clock_offset": 0,
+          "dawn_lux_sensor_time_window": 30,
+          "dusk_lux_sensor_time_window": 30,
+          "dawn_astro_clock_time_window": 60,
+          "dusk_astro_clock_time_window": 60
+        }
+      }
+    }
+  }
+}
+
+
+const rpcNodeProfile =
+{
+  "topic": "v1/gateway/rpc",
+  "content": {
+    "device": "jbN4q7JPZmexgdnz2yKbWGDYAWwO0Q3BMX6ERLoV",
+    "data": {
+      "id": 11,
+      "method": "set_profile",
+      "params": {
+        "entities": [
+          {
+            "entity_type": "street_luminaire",
+            "tb_name": "jbN4q7JPZmexgdnz2yKbWdDYAWwO0Q3BMX6ERLoV"
+          }
+        ],
+        "payload": {
+          "intervals": [
+            {
+              "cct": 3000,
+              "value": 0,
+              "end_time": "17:50",
+              "start_time": "13:00"
+            },
+            {
+              "cct": 3000,
+              "value": 100,
+              "end_time": "21:30",
+              "start_time": "17:50"
+            },
+            {
+              "cct": 3000,
+              "value": 0,
+              "end_time": "13:00",
+              "start_time": "07:10"
+            },
+            {
+              "cct": 3000,
+              "value": 50,
+              "end_time": "00:00",
+              "start_time": "21:30"
+            },
+            {
+              "cct": 3000,
+              "value": 10,
+              "end_time": "04:30",
+              "start_time": "00:00"
+            },
+            {
+              "cct": 3000,
+              "value": 100,
+              "end_time": "07:10",
+              "start_time": "04:30"
+            }
+          ],
+          "astro_clock": true,
+          "dawn_lux_sensor": false,
+          "dusk_lux_sensor": false,
+          "dawn_lux_sensor_value": 5,
+          "dusk_lux_sensor_value": 5,
+          "dawn_astro_clock_offset": 30,
+          "dusk_astro_clock_offset": 20,
+          "dawn_lux_sensor_time_window": 30,
+          "dusk_lux_sensor_time_window": 30,
+          "dawn_astro_clock_time_window": 60,
+          "dusk_astro_clock_time_window": 60
+        }
+      }
+    }
+  }
+}
+
+ const sunCalcExample = {
+  dusk_no_offset: '20:18',
+  dawn_no_offset: '05:19',
+  dusk: '20:18',
+  dusk_hours: 20,
+  dusk_minutes: 18,
+  dawn: '05:19',
+  dawn_hours: 5,
+  dawn_minutes: 19,
+  dusk_time: 1715278688962,
+  dawn_time: 1715224744357,
+  dusk_astro_clock_offset: 0,
+  dawn_astro_clock_offset: 0
+}
diff --git a/flow/designer.json b/flow/designer.json
index ffdca36..7d57d69 100644
--- a/flow/designer.json
+++ b/flow/designer.json
@@ -20,92 +20,13 @@
 		}
 	],
 	"components": [
-		{
-			"id": "1611938185451",
-			"component": "modbus_citysys",
-			"tab": "1611921777196",
-			"name": "Modbus_citysys",
-			"x": 101.5,
-			"y": 151.5,
-			"connections": {
-				"0": [
-					{
-						"index": "0",
-						"id": "1611951142547"
-					}
-				],
-				"1": [
-					{
-						"index": "0",
-						"id": "1611938192035"
-					}
-				],
-				"2": [
-					{
-						"index": "0",
-						"id": "1612772119611"
-					},
-					{
-						"index": "0",
-						"id": "1611938192035"
-					}
-				],
-				"3": [
-					{
-						"index": "0",
-						"id": "1621340721628"
-					},
-					{
-						"index": "0",
-						"id": "1684179110403"
-					}
-				]
-			},
-			"disabledio": {
-				"input": [],
-				"output": []
-			},
-			"state": {
-				"text": "Running",
-				"color": "green"
-			},
-			"options": {
-				"edge": "KjbN4q7JPZmexgdnz2yKQ98YAWwO0Q3BMX6ERLoV"
-			},
-			"color": "#2134B0",
-			"notes": ""
-		},
-		{
-			"id": "1611938192035",
-			"component": "debug",
-			"tab": "1611921777196",
-			"name": "modbus_ddebug",
-			"x": 400.5,
-			"y": 121.5,
-			"connections": {},
-			"disabledio": {
-				"input": [],
-				"output": []
-			},
-			"state": {
-				"text": "Enabled",
-				"color": "gray"
-			},
-			"options": {
-				"type": "data",
-				"repository": false,
-				"enabled": true
-			},
-			"color": "#967ADC",
-			"notes": ""
-		},
 		{
 			"id": "1611951142547",
 			"component": "debug",
 			"tab": "1611921777196",
 			"name": "ERROR",
-			"x": 404,
-			"y": 29,
+			"x": 401,
+			"y": 31,
 			"connections": {},
 			"disabledio": {
 				"input": [],
@@ -123,35 +44,13 @@
 			"color": "#DA4453",
 			"notes": ""
 		},
-		{
-			"id": "1612772119611",
-			"component": "virtualwireout",
-			"tab": "1611921777196",
-			"name": "tb-demo-push",
-			"x": 399.75,
-			"y": 211.5,
-			"connections": {},
-			"disabledio": {
-				"input": [],
-				"output": []
-			},
-			"state": {
-				"text": "tb-demo-push",
-				"color": "gray"
-			},
-			"options": {
-				"wirename": "tb-demo-push"
-			},
-			"color": "#303E4D",
-			"notes": ""
-		},
 		{
 			"id": "1612776786008",
 			"component": "wsmqttpublish",
 			"tab": "1612772287426",
 			"name": "WS MQTT publish",
 			"x": 311.75,
-			"y": 128,
+			"y": 248,
 			"connections": {
 				"0": [
 					{
@@ -201,9 +100,9 @@
 			"id": "1612778461252",
 			"component": "virtualwirein",
 			"tab": "1612772287426",
-			"name": "tb-demo-push",
+			"name": "tb-push",
 			"x": 68.75,
-			"y": 149,
+			"y": 269,
 			"connections": {
 				"0": [
 					{
@@ -221,11 +120,11 @@
 				"output": []
 			},
 			"state": {
-				"text": "tb-demo-push",
+				"text": "tb-push",
 				"color": "gray"
 			},
 			"options": {
-				"wirename": "tb-demo-push"
+				"wirename": "tb-push"
 			},
 			"color": "#303E4D",
 			"notes": ""
@@ -236,7 +135,7 @@
 			"tab": "1612772287426",
 			"name": "to TB",
 			"x": 317.75,
-			"y": 34,
+			"y": 154,
 			"connections": {},
 			"disabledio": {
 				"input": [
@@ -256,36 +155,18 @@
 			"color": "#967ADC",
 			"notes": ""
 		},
-		{
-			"id": "1613576617722",
-			"component": "comment",
-			"tab": "1612772287426",
-			"name": "In case broker is not ready, we save data to database, and when connected, we resend data",
-			"x": 72.88333129882812,
-			"y": -108,
-			"connections": {},
-			"disabledio": {
-				"input": [],
-				"output": []
-			},
-			"state": {
-				"text": "",
-				"color": "gray"
-			},
-			"options": {},
-			"color": "#704cff",
-			"notes": ""
-		},
 		{
 			"id": "1615551060773",
 			"component": "debug",
 			"tab": "1612772287426",
 			"name": "errors from MQTT Broker",
 			"x": 610,
-			"y": -9,
+			"y": 111,
 			"connections": {},
 			"disabledio": {
-				"input": [],
+				"input": [
+					0
+				],
 				"output": []
 			},
 			"state": {
@@ -330,7 +211,7 @@
 			"id": "1615566865233",
 			"component": "virtualwireout",
 			"tab": "1615551125555",
-			"name": "tb-demo-push",
+			"name": "tb-push",
 			"x": 753,
 			"y": 112,
 			"connections": {},
@@ -339,11 +220,11 @@
 				"output": []
 			},
 			"state": {
-				"text": "tb-demo-push",
+				"text": "tb-push",
 				"color": "gray"
 			},
 			"options": {
-				"wirename": "tb-demo-push"
+				"wirename": "tb-push"
 			},
 			"color": "#303E4D",
 			"notes": ""
@@ -380,7 +261,7 @@
 			"tab": "1611921777196",
 			"name": "Debug",
 			"x": 398.8833312988281,
-			"y": 477.3500061035156,
+			"y": 528.3500061035156,
 			"connections": {},
 			"disabledio": {
 				"input": [
@@ -389,13 +270,13 @@
 				"output": []
 			},
 			"state": {
-				"text": "Enabled",
+				"text": "Disabled",
 				"color": "gray"
 			},
 			"options": {
 				"type": "data",
 				"repository": false,
-				"enabled": true
+				"enabled": false
 			},
 			"color": "#967ADC",
 			"notes": ""
@@ -405,8 +286,8 @@
 			"component": "debug",
 			"tab": "1611921777196",
 			"name": "Debug",
-			"x": 406.8833312988281,
-			"y": 567.3500061035156,
+			"x": 401.8833312988281,
+			"y": 625.3500061035156,
 			"connections": {},
 			"disabledio": {
 				"input": [
@@ -430,67 +311,24 @@
 			"id": "1615809595184",
 			"component": "virtualwireout",
 			"tab": "1611921777196",
-			"name": "tb-demo-push",
-			"x": 404.8833312988281,
-			"y": 653.25,
+			"name": "tb-push",
+			"x": 400.8833312988281,
+			"y": 328.25,
 			"connections": {},
 			"disabledio": {
 				"input": [],
 				"output": []
 			},
 			"state": {
-				"text": "tb-demo-push",
+				"text": "tb-push",
 				"color": "gray"
 			},
 			"options": {
-				"wirename": "tb-demo-push"
+				"wirename": "tb-push"
 			},
 			"color": "#303E4D",
 			"notes": ""
 		},
-		{
-			"id": "1615809105191",
-			"component": "gettemperature",
-			"tab": "1611921777196",
-			"name": "Get RVO temperature",
-			"x": 98.88333129882812,
-			"y": 457.3500061035156,
-			"connections": {
-				"0": [
-					{
-						"index": "0",
-						"id": "1615802995322"
-					}
-				],
-				"1": [
-					{
-						"index": "0",
-						"id": "1615809128443"
-					},
-					{
-						"index": "0",
-						"id": "1615809595184"
-					}
-				],
-				"2": [
-					{
-						"index": "0",
-						"id": "1621340721628"
-					}
-				]
-			},
-			"disabledio": {
-				"input": [],
-				"output": []
-			},
-			"state": {
-				"text": "",
-				"color": "gray"
-			},
-			"options": {},
-			"color": "#5CB36D",
-			"notes": ""
-		},
 		{
 			"id": "1616165795916",
 			"component": "httproute",
@@ -550,7 +388,7 @@
 				"output": []
 			},
 			"state": {
-				"text": "1.17 sec.",
+				"text": "",
 				"color": "gray"
 			},
 			"options": {
@@ -590,13 +428,13 @@
 			"component": "trigger",
 			"tab": "1615551125555",
 			"name": "turnOff line",
-			"x": 75,
-			"y": 596,
+			"x": 71,
+			"y": 829,
 			"connections": {
 				"0": [
 					{
-						"index": "0",
-						"id": "1618232536546"
+						"index": "1",
+						"id": "1699963668903"
 					}
 				]
 			},
@@ -619,20 +457,20 @@
 			"id": "1617115013095",
 			"component": "virtualwireout",
 			"tab": "1615551125555",
-			"name": "tb-demo-push",
-			"x": 744,
-			"y": 733,
+			"name": "tb-push",
+			"x": 741,
+			"y": 736,
 			"connections": {},
 			"disabledio": {
 				"input": [],
 				"output": []
 			},
 			"state": {
-				"text": "tb-demo-push",
+				"text": "tb-push",
 				"color": "gray"
 			},
 			"options": {
-				"wirename": "tb-demo-push"
+				"wirename": "tb-push"
 			},
 			"color": "#303E4D",
 			"notes": ""
@@ -643,7 +481,7 @@
 			"tab": "1615551125555",
 			"name": "Debug",
 			"x": 605,
-			"y": 995,
+			"y": 1024,
 			"connections": {},
 			"disabledio": {
 				"input": [],
@@ -666,8 +504,8 @@
 			"component": "trigger",
 			"tab": "1615551125555",
 			"name": "start import",
-			"x": 232,
-			"y": 995,
+			"x": 235,
+			"y": 1032,
 			"connections": {
 				"0": [
 					{
@@ -696,8 +534,8 @@
 			"component": "csv_import",
 			"tab": "1615551125555",
 			"name": "CsvImport",
-			"x": 408,
-			"y": 987,
+			"x": 414,
+			"y": 1013,
 			"connections": {
 				"0": [
 					{
@@ -725,8 +563,8 @@
 			"component": "comment",
 			"tab": "1615551125555",
 			"name": "import data from csv",
-			"x": 398,
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+			"x": 401,
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@@ -770,51 +608,6 @@
 			"color": "#F6BB42",
 			"notes": ""
 		},
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@@ -850,7 +643,7 @@
 			"tab": "1612772287426",
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 			"x": 610.8833312988281,
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@@ -874,7 +667,7 @@
 			"tab": "1612772287426",
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@@ -899,8 +692,8 @@
 			"component": "virtualwireout",
 			"tab": "1615551125555",
 			"name": "to-cmd-manager",
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@@ -949,18 +742,18 @@
 			"id": "1618393759854",
 			"component": "virtualwirein",
 			"tab": "1615551125555",
-			"name": "di_do_controller-in",
-			"x": 75.88333129882812,
-			"y": 763,
+			"name": "cmd_to_dido",
+			"x": 76.88333129882812,
+			"y": 678,
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+						"id": "1683664161036"
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-						"id": "1683664161036"
+						"index": "1",
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@@ -969,11 +762,11 @@
 				"output": []
 			},
 			"state": {
-				"text": "di_do_controller-in",
+				"text": "cmd_to_dido",
 				"color": "gray"
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-				"wirename": "di_do_controller-in"
+				"wirename": "cmd_to_dido"
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@@ -982,7 +775,7 @@
 			"id": "1618393827655",
 			"component": "virtualwireout",
 			"tab": "1615551125555",
-			"name": "di_do_controller-in",
+			"name": "cmd_to_dido",
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@@ -991,11 +784,11 @@
 				"output": []
 			},
 			"state": {
-				"text": "di_do_controller-in",
+				"text": "cmd_to_dido",
 				"color": "gray"
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-				"wirename": "di_do_controller-in"
+				"wirename": "cmd_to_dido"
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@@ -1006,7 +799,7 @@
 			"tab": "1612772287426",
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@@ -1027,13 +820,13 @@
 			"component": "trigger",
 			"tab": "1615551125555",
 			"name": "turnOn line",
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+			"x": 72,
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-						"id": "1618232536546"
+						"index": "1",
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@@ -1047,7 +840,7 @@
 			},
 			"options": {
 				"datatype": "object",
-				"data": "{line: 3, command: \"turnOn\", force: true}"
+				"data": "{line: 1, command: \"turnOn\", force: true}"
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 			"color": "#F6BB42",
 			"notes": ""
@@ -1157,13 +950,13 @@
 			"component": "trigger",
 			"tab": "1615551125555",
 			"name": "turnOnAlarm",
-			"x": 73,
-			"y": 833,
+			"x": 68,
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 			"connections": {
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 					{
-						"index": "0",
-						"id": "1618232536546"
+						"index": "1",
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@@ -1187,13 +980,13 @@
 			"component": "trigger",
 			"tab": "1615551125555",
 			"name": "turnOffAlarm",
-			"x": 74,
-			"y": 909,
+			"x": 67,
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 			"connections": {
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 					{
-						"index": "0",
-						"id": "1618232536546"
+						"index": "1",
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@@ -1216,20 +1009,20 @@
 			"id": "1621340721628",
 			"component": "virtualwireout",
 			"tab": "1611921777196",
-			"name": "di_do_controller-in",
-			"x": 396,
-			"y": 390,
+			"name": "modbus_to_dido",
+			"x": 399,
+			"y": 433,
 			"connections": {},
 			"disabledio": {
 				"input": [],
 				"output": []
 			},
 			"state": {
-				"text": "di_do_controller-in",
+				"text": "modbus_to_dido",
 				"color": "gray"
 			},
 			"options": {
-				"wirename": "di_do_controller-in"
+				"wirename": "modbus_to_dido"
 			},
 			"color": "#303E4D",
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@@ -1315,95 +1108,12 @@
 				"input": [],
 				"output": []
 			},
-			"state": {
-				"text": "0 sec.",
-				"color": "gray"
-			},
-			"options": {},
-			"color": "#5D9CEC",
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-			"name": "Debug",
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-				"enabled": true
-			},
-			"color": "#967ADC",
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-		{
-			"id": "1631174856021",
-			"component": "httprequest",
-			"tab": "1611921777196",
-			"name": "HTTP Request",
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-				"stringify": "json",
-				"url": "http://192.168.252.2:9999/gettime",
-				"method": "GET"
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 			"state": {
 				"text": "",
 				"color": "gray"
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 			"options": {},
-			"color": "#F6BB42",
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 		{
@@ -1412,7 +1122,7 @@
 			"tab": "1612772287426",
 			"name": "RAM",
 			"x": 71.88333129882812,
-			"y": 489.5,
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@@ -1426,7 +1136,7 @@
 				"output": []
 			},
 			"state": {
-				"text": "788.61 MB / 987.80 MB",
+				"text": "834.19 MB / 985.68 MB",
 				"color": "gray"
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@@ -1442,7 +1152,7 @@
 			"tab": "1612772287426",
 			"name": "disk",
 			"x": 72.88333129882812,
-			"y": 586.5,
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@@ -1456,7 +1166,7 @@
 				"output": []
 			},
 			"state": {
-				"text": "5.92 GB / 7.26 GB",
+				"text": "5.84 GB / 7.26 GB",
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@@ -1473,7 +1183,7 @@
 			"tab": "1612772287426",
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 			"x": 5.883331298828125,
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@@ -1506,7 +1216,7 @@
 			"tab": "1612772287426",
 			"name": "send-to-services",
 			"x": 428.8833312988281,
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@@ -1528,7 +1238,7 @@
 			"tab": "1612772287426",
 			"name": "send-to-services",
 			"x": 612.8833312988281,
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@@ -1551,7 +1261,7 @@
 			"name": "http://192.168.252.2:8004/sentmessage",
 			"reference": "",
 			"x": 439.8833312988281,
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@@ -1582,7 +1292,7 @@
 			"tab": "1612772287426",
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@@ -1608,7 +1318,7 @@
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@@ -1669,7 +1379,7 @@
 			"tab": "1612772287426",
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 			"tab": "1612772287426",
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@@ -1730,7 +1440,7 @@
 			"tab": "1612772287426",
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@@ -1765,7 +1475,7 @@
 			"tab": "1612772287426",
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@@ -1791,7 +1501,7 @@
 			"tab": "1612772287426",
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@@ -1817,7 +1527,7 @@
 			"tab": "1612772287426",
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@@ -1850,7 +1560,7 @@
 			"tab": "1612772287426",
 			"name": "Debug",
 			"x": 811.8833312988281,
-			"y": 950.5,
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@@ -1898,7 +1608,7 @@
 			"tab": "1612772287426",
 			"name": "CPU",
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@@ -1912,7 +1622,7 @@
 				"output": []
 			},
 			"state": {
-				"text": "1% / 84.20 MB",
+				"text": "1.9% / 86.94 MB",
 				"color": "gray"
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@@ -1930,9 +1640,9 @@
 			"id": "1683664161036",
 			"component": "debug",
 			"tab": "1615551125555",
-			"name": "toDIDO",
-			"x": 416,
-			"y": 646,
+			"name": "CMDtoDIDO",
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@@ -2041,9 +1751,111 @@
 			"id": "1684179110403",
 			"component": "debug",
 			"tab": "1611921777196",
-			"name": "to_dido",
+			"name": "MDBToDido",
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+			"y": 118,
+			"connections": {},
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+				"output": []
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+				"text": "Enabled",
+				"color": "gray"
+			},
+			"options": {
+				"type": "data",
+				"repository": false,
+				"enabled": true
+			},
+			"color": "#967ADC",
+			"notes": ""
+		},
+		{
+			"id": "1699963668903",
+			"component": "dido_controller",
+			"tab": "1615551125555",
+			"name": "DIDO_Controller",
 			"x": 402,
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+			"connections": {
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+			"color": "#2134B0",
+			"notes": ""
+		},
+		{
+			"id": "1699964678894",
+			"component": "virtualwirein",
+			"tab": "1615551125555",
+			"name": "modbus_to_dido",
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+			"connections": {
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+						"id": "1699963668903"
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+			"state": {
+				"text": "modbus_to_dido",
+				"color": "gray"
+			},
+			"options": {
+				"wirename": "modbus_to_dido"
+			},
+			"color": "#303E4D",
+			"notes": ""
+		},
+		{
+			"id": "1699964793925",
+			"component": "debug",
+			"tab": "1615551125555",
+			"name": "modbusToDido",
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@@ -2064,17 +1876,339 @@
 			"notes": ""
 		},
 		{
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-			"component": "trigger",
-			"tab": "1612772287426",
-			"name": "TEST svietidlo CCT",
-			"x": 23,
-			"y": 253,
+			"id": "1699965957410",
+			"component": "modbus_reader",
+			"tab": "1611921777196",
+			"name": "Modbus reader",
+			"x": 102,
+			"y": 175,
 			"connections": {
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+			"color": "#2134B0",
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+			"component": "thermometer",
+			"tab": "1611921777196",
+			"name": "Thermometer",
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+			"color": "#5CB36D",
+			"notes": ""
+		},
+		{
+			"id": "1714752862828",
+			"component": "debug",
+			"tab": "1611921777196",
+			"name": "MDBToTb",
+			"x": 402,
+			"y": 228,
+			"connections": {},
+			"disabledio": {
+				"input": [],
+				"output": []
+			},
+			"state": {
+				"text": "Enabled",
+				"color": "gray"
+			},
+			"options": {
+				"type": "data",
+				"repository": false,
+				"enabled": true
+			},
+			"color": "#967ADC",
+			"notes": ""
+		},
+		{
+			"id": "1717441414646",
+			"component": "code",
+			"tab": "1611921777196",
+			"name": "device-status",
+			"x": 588.0833282470703,
+			"y": 177,
+			"connections": {
+				"0": [
+					{
+						"index": "0",
+						"id": "1717442627834"
+					},
+					{
+						"index": "0",
+						"id": "1717442631338"
+					}
+				]
+			},
+			"disabledio": {
+				"input": [],
+				"output": []
+			},
+			"state": {
+				"text": "",
+				"color": "gray"
+			},
+			"options": {
+				"keepmessage": true,
+				"code": "if(value.hasOwnProperty(\"status\"))\n{\n\tif(value.status.includes(\"-em\"))\n\t{\n\t\tsend(0, {\"em_status\": \"NOK\"});\n\t}\n\telse if(value.status.includes(\"twilight\"))\n\t{\n\t\tsend(0, {\"lux_sensor\": \"NOK\"});\n\t}\n}\n\nif(value.hasOwnProperty(\"values\"))\n{\n\tif(value.values.hasOwnProperty(\"twilight_sensor\"))\n\t{\n\t\tsend(0, {\"lux_sensor\": \"OK\"});\n\t}\n\telse if(value.values.hasOwnProperty(\"Phase_1_power\") ||\n\t\t\tvalue.values.hasOwnProperty(\"Phase_1_voltage\") ||\n\t\t\tvalue.values.hasOwnProperty(\"Total_power\") ||\n\t\t\tvalue.values.hasOwnProperty(\"Phase_1_current\"))\n\t{\n\t\tsend(0, {\"em_status\": \"OK\"});\n\t}\n}",
+				"outputs": 1
+			},
+			"color": "#656D78",
+			"notes": ""
+		},
+		{
+			"id": "1717442627834",
+			"component": "debug",
+			"tab": "1611921777196",
+			"name": "modbus service",
+			"x": 802.0833282470703,
+			"y": 139,
+			"connections": {},
+			"disabledio": {
+				"input": [
+					0
+				],
+				"output": []
+			},
+			"state": {
+				"text": "Enabled",
+				"color": "gray"
+			},
+			"options": {
+				"type": "data",
+				"repository": false,
+				"enabled": true
+			},
+			"color": "#967ADC",
+			"notes": ""
+		},
+		{
+			"id": "1717442631338",
+			"component": "virtualwireout",
+			"tab": "1611921777196",
+			"name": "send-to-services",
+			"x": 801.0833282470703,
+			"y": 236,
+			"connections": {},
+			"disabledio": {
+				"input": [],
+				"output": []
+			},
+			"state": {
+				"text": "send-to-services",
+				"color": "gray"
+			},
+			"options": {
+				"wirename": "send-to-services"
+			},
+			"color": "#303E4D",
+			"notes": ""
+		},
+		{
+			"id": "1718016045116",
+			"component": "virtualwirein",
+			"tab": "1612772287426",
+			"name": "tb-push",
+			"x": 84.75,
+			"y": 1300,
+			"connections": {
+				"0": [
+					{
+						"index": "0",
+						"id": "1718016052341"
+					}
+				]
+			},
+			"disabledio": {
+				"input": [],
+				"output": []
+			},
+			"state": {
+				"text": "tb-push",
+				"color": "gray"
+			},
+			"options": {
+				"wirename": "tb-push"
+			},
+			"color": "#303E4D",
+			"notes": ""
+		},
+		{
+			"id": "1718016052341",
+			"component": "slack_filter",
+			"tab": "1612772287426",
+			"name": "Slack Filter",
+			"x": 278,
+			"y": 1297,
+			"connections": {
+				"0": [
+					{
+						"index": "0",
+						"id": "1718016086212"
+					},
+					{
+						"index": "0",
+						"id": "1718016073501"
+					}
+				]
+			},
+			"disabledio": {
+				"input": [],
+				"output": []
+			},
+			"state": {
+				"text": "Running",
+				"color": "gray"
+			},
+			"options": {
+				"slack_channel": "C071KN2Q8SK",
+				"tag_on_include": "[{\"user_id\":\"U072JE5JUQG\", \"includes\":[\"Electrometer\", \"Twilight sensor\"]}]",
+				"message_includes": "[\"is responding again\", \"Lamps have turned\", \"Flow has been restarted\"]",
+				"types": "[\"emergency\", \"critical\", \"error\", \"alert\"]",
+				"name": "RVO16 Senica - 10.0.0.131"
+			},
+			"color": "#30E193",
+			"notes": ""
+		},
+		{
+			"id": "1718016073501",
+			"component": "httprequest",
+			"tab": "1612772287426",
+			"name": "http://192.168.252.2:8004/slack",
+			"x": 471,
+			"y": 1354,
+			"connections": {
+				"0": [
+					{
+						"index": "0",
+						"id": "1718016086212"
+					}
+				]
+			},
+			"disabledio": {
+				"input": [],
+				"output": []
+			},
+			"state": {
+				"text": "",
+				"color": "gray"
+			},
+			"options": {
+				"stringify": "json",
+				"method": "POST",
+				"url": "http://192.168.252.2:8004/slack"
+			},
+			"color": "#5D9CEC",
+			"notes": ""
+		},
+		{
+			"id": "1718016086212",
+			"component": "debug",
+			"tab": "1612772287426",
+			"name": "Debug",
+			"x": 808,
+			"y": 1302,
+			"connections": {},
+			"disabledio": {
+				"input": [],
+				"output": []
+			},
+			"state": {
+				"text": "Enabled",
+				"color": "gray"
+			},
+			"options": {
+				"type": "data",
+				"repository": false,
+				"enabled": true
+			},
+			"color": "#967ADC",
+			"notes": ""
+		},
+		{
+			"id": "1718016094070",
+			"component": "trigger",
+			"tab": "1612772287426",
+			"name": "Trigger",
+			"x": 73,
+			"y": 1388,
+			"connections": {
+				"0": [
+					{
+						"index": "0",
+						"id": "1718016052341"
 					}
 				]
 			},
@@ -2088,7 +2222,7 @@
 			},
 			"options": {
 				"datatype": "object",
-				"data": "{   \"K94XLav1glVRnyQ6r01PQyAme3YJwBxM5oOzdP2j\": [     {       \"ts\": 1697806318325,       \"values\": {         \"status\": \"OK\"       }     }   ] }"
+				"data": "{   \"g9OxBZ5KRwNznlY6pAppqEAWXvjdEL4eGQobMDy2\": [     {       \"ts\": 1716289039281,       \"values\": {         \"_event\": {           \"type\": \"alert\",           \"status\": \"new\",           \"source\": {             \"func\": \"CMD Manager: process cmd\",             \"component\": \"1619515097737\",             \"component_name\": \"CMD Manager\",             \"edge\": \"g9OxBZ5KRwNznlY6pAppqEAWXvjdEL4eGQobMDy2\"           },           \"message\": \"NOW CONNECTED TO SLACK !\",           \"message_data\": \"\"         }       }     }   ] }"
 			},
 			"color": "#F6BB42",
 			"notes": ""
diff --git a/flow/di_do_controller.js b/flow/dido_controller.js
similarity index 79%
rename from flow/di_do_controller.js
rename to flow/dido_controller.js
index 11fd158..b429b14 100644
--- a/flow/di_do_controller.js
+++ b/flow/dido_controller.js
@@ -1,1794 +1,1934 @@
-exports.id = 'di_do_controller';
-exports.title = 'DI_DO_Controller';
-exports.version = '1.0.0';
-exports.group = 'Worksys';
-exports.color = '#2134B0';
-exports.input = 1;
-exports.output = ["red", "white", "yellow"];
-exports.click = false;
-exports.author = 'Daniel Segeš';
-exports.icon = 'bolt';
-exports.options = { edge: "undefined" };
-
-exports.html = `<div class="padding">
-	<div class="row">
-		<div class="col-md-6">
-			<div data-jc="textbox" data-jc-path="edge" data-jc-config="placeholder:undefined;required:true" class="m">Edge TB Name</div>
-		</div>
-	</div>
-</div>`;
-
-exports.readme = `# Sets RS232 port and all digital pins on device. Then it starts to receive data from sensors.
-It receives:
-
-rotary_switch_state,
-rotary_switch_state,
-door_condition,
-state_of_breaker,
-state_of_contactor,
-twilight_sensor
-`;
-
-/*
-we open rsPort "/dev/ttymxc0" and set digital input and output pins with "setRSPortData"
-Currently we are interested in pins no. 1,2,3,6,8,9,10,16
-pins number 11, 12, 13 (we receive 10,11,12 in rsPortReceivedData) are "stykace"
-When port receives data, it must be exactly 4 bytes long. Second byte is pin, that changed its value, fourth byte is value itself.
-After that, we set this value to "previousValues[allPins[whichpin]]" variable
-*/
-
-
-/*
-RVO objekt:
-state_of_main_switch  -  sem sa bude reportovať stav hlavného ističa : 0-> off  1-> on   (toto nie je na platforme, ale Rado to už do entity type doplnil)
-rotary_switch_state      - sem by sa mal reportovať stav vstupov manual a auto podľa nasledovnej logiky:
-                                               Manual = 1  a Auto = 0  -> vyreportuje Manual
-                                               Manual = 0  a Auto = 0  -> vyreportuje Off
-                                               Manual = 0  a Auto = 1  -> vyreportuje Automatic
-
-door_condition                - tuto ide pin 6, dverový kontakt ->         1 -> vyreportuje Closed, 0 -> vyreportuje Open
-twilight_sensor                - hodnotu, ktorú vracia ten analógový vstup (17) treba poslať sem ako float number. Zrejme tu potom pridáme nejaký koeficient prevodu na luxy
-
-zjavne nám v jsone chýba stav hlavného ističa. Musíme to potom doplniť
-
-Na každú líniu:
-state_of_breaker            - podľa indexu ističa sa reportuje jeho stav, teda istič 1 na líniu 1:  0-> off             1-> on
-state_of_contactor        - podľa indexu stykača sa reportuje jeho stav, teda stykač 1 na líniu 1: 0-> off     1-> on
-                          momentálne sa stav zmení len keď vo flow klikneš aby sa zmenil, ale tá zmena by sa mala ukázať aj na platforme
-*/
-
-
-//globals
-//FIRMWARE version
-FLOW.OMS_edge_fw_version = "2022-05-12";//rok-mesiac-den
-FLOW.OMS_edgeName = "";
-FLOW.OMS_maintenance_mode = false;
-
-//dynamic values
-FLOW.OMS_masterNodeIsResponding = true; //cmd_manager
-//FLOW.OMS_brokerready = false //wsmqttpublish
-FLOW.OMS_no_voltage = new Set();//modbus_citysys - elektromer
-
-//see loadSettings() in cmd_manager
-FLOW.OMS_language = "en";//cmd_manager
-FLOW.OMS_rvo_name = "";//cmd_manager
-FLOW.OMS_rvo_tbname = "";//relaysData
-FLOW.OMS_temperature_adress = "";//cmd_manager
-//-----------------------------------------------
-
-let alarmStatus = "OFF";
-
-const instanceSendTo = {
-  debug: 0,
-  tb: 1,
-  cmd_manager: 2
-}
-
-var log4js = require("log4js");
-var path = require('path');
-
-log4js.configure({
-  appenders: {
-    errLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'err.txt') },
-    monitorLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'monitor.txt') },
-    console: { type: 'console' }
-  },
-  categories: {
-    errLogs: { appenders: ['console', 'errLogs'], level: 'error' },
-    monitorLogs: { appenders: ['console', 'monitorLogs'], level: 'trace' },
-    //another: { appenders: ['console'], level: 'trace' },
-    default: { appenders: ['console'], level: 'trace' }
-  }
-});
-
-const errLogger = log4js.getLogger("errLogs");
-const logger = log4js.getLogger();
-const monitor = log4js.getLogger("monitorLogs");
-
-//console.log(path.join(__dirname, 'err.txt', "-----------------------------"));
-
-/*
-process.on('uncaughtException', function (err) {
-
-  errLogger.error('uncaughtException:', err.message)
-  errLogger.error(err.stack);
-  
-  //process.exit(1);
-})
-*/
-
-//USAGE
-//logger.debug("text")
-//monitor.info('info');
-//errLogger.error("some error");
-
-exports.install = function(instance) {
-
-  process.on('uncaughtException', function (err) {
-
-    //TODO send to service
-  
-    errLogger.error('uncaughtException:', err.message)
-    errLogger.error(err.stack);
-
-    errorHandler.sendMessageToService(err.message + "\n" + err.stack, 0, "js_error");
-    
-    //process.exit(1);
-  })
-
-  let previousValues = {temperature: 0};
-  let rsPortReceivedData = [];
-
-  let twilight_sensor_interval = 5;//minutes
-  let twilight_sensor = [];
-  const twilight_sensor_array = [];
-  let twilightError = false;
-
-  let edgeName = "";
-
-  monitor.info("DI_DO_Relay_Controller installed");
-
-  //key is PIN number , line: 0 = RVO
-  /*
-  let conversionTable = {
-    "1": {tbname: "", type: "state_of_main_switch", "line": 0}, //state_of_main_switch  pin1
-	  "2": {tbname: "", type: "rotary_switch_state", "line": 0}, //rotary_switch_state  - poloha manual = pin2
-    "3": {tbname: "", type: "rotary_switch_state", "line": 0}, //rotary_switch_state - poloha auto = pin3
-    "4": {tbname: "", type: "power_supply", "line": 0},
-    "5": {tbname: "", type: "battery", "line": 0},
-    "6": {tbname: "", type: "door_condition", "line": 0}, // door_condition = pin6, 1 -> vyreportuje Closed, 0 -> vyreportuje Open
-    "8": {tbname: "", type: "state_of_breaker", "line": 1}, // state_of_breaker linia 1  0=off, 1=on
-    "9": {tbname: "", type: "state_of_breaker", "line": 2}, // state_of_breaker linia 2  0=off, 1=on
-    "10": {tbname: "", type: "state_of_breaker", "line": 3}, // state_of_breaker linia 3  0=off, 1=on
-    "11": {tbname: "", type: "state_of_contactor", "line": 1}, // state_of_contactor linia 1  0=off, 1=on
-    "12": {tbname: "", type: "state_of_contactor", "line": 2}, // state_of_contactor linia 2  0=off, 1=on
-    "13": {tbname: "", type: "state_of_contactor", "line": 3}, // state_of_contactor linia 3  0=off, 1=on
-    "16": {tbname: "", type: "twilight_sensor", "line": 0}, // twilight_sensor = pin16
-  };
-  */
- 
-  const dbPins = TABLE("pins");
-  let pinsData = {};//key is pin
-
-  const dbRelays = TABLE("relays");
-  let relaysData = {};//key is line
-
-  //status for calculating Statecodes
-  let deviceStatuses = {};//key is device name: temperature,....
-  deviceStatuses["state_of_main_switch"] = "Off";//Hlavný istič
-  deviceStatuses["rotary_switch_state"] = "Off";//Prevádzkový mód
-  deviceStatuses["door_condition"] = "closed";//Dverový kontakt
-  deviceStatuses["rvo"] = {status: "OK"};//elektromer rvo
-  deviceStatuses["temperature"] = "OK";//templomer
-  deviceStatuses["battery"] = "OK";//Batéria
-  deviceStatuses["power_supply"] = "OK";//Zdroj
-  deviceStatuses["master_node"] = "OK";//MN - FLOW.OMS_masterNodeIsResponding
-  deviceStatuses["no_voltage"] = "OK";//FLOW.OMS_no_voltage - výpadok napätia na fáze
-
-  deviceStatuses["state_of_breaker"] = {};//"Off";//Istič
-  deviceStatuses["state_of_contactor"] = {};//"Off";//Stykač
-
-  /*
-  dbRelays.on('change', function(doc, old) {
-    console.log("'DI_DO_Controller - dbRelays.on('change'");
-    instance.send(instanceSendTo.cmd_manager, "reload_relays");
-  });
-  */
-
-  const SerialPort = require('serialport');
-  const WebSocket = require('ws');
-
-  let ws = null;
-  let rsPort = null;
-  
-  //const { exec } = require('child_process');
-  const { openPort, runSyncExec, writeData } = require('./helper/serialport_helper.js');
-  const { bytesToInt, resizeArray } = require('./helper/utils');
-  const { promisifyBuilder, makeMapFromDbResult } = require('./helper/db_helper.js');
-  const { sendNotification, ERRWEIGHT } = require('./helper/notification_reporter.js');
-  const bitwise = require('bitwise');
-
-  const ErrorToServiceHandler = require('./helper/ErrorToServiceHandler.js');
-  const errorHandler = new ErrorToServiceHandler();
-
-  //let useTurnOffCounter = false;
-  //let turnOffCounter = 0;
-  let controller_type = FLOW.OMS_controller_type //"lm" or "unipi" //logicMachine
-  if(controller_type == "") controller_type = "lm";
-
-  console.log(exports.title, "controller type: ", controller_type);
-
-  async function loadAllDb()
-  {
-    let responsePins = await promisifyBuilder(dbPins.find());
-    pinsData = makeMapFromDbResult(responsePins, "pin");
-
-    let responseRelays = await promisifyBuilder(dbRelays.find());
-    relaysData = makeMapFromDbResult(responseRelays, "line");
-
-    FLOW.OMS_rvo_tbname = relaysData[0].tbname;
-
-    if(controller_type === "lm")
-    {
-      handleRsPort();
-    }
-    else if(controller_type === "unipi")
-    {
-      handleWebSocket();
-    }
-    else {
-      errLogger.debug("UNKNOWN controller_type:", controller_type);
-    }
-  } 
-
-
-  function initialSetting()
-  {
-    //force turn off relays & set tbname
-    let keys = Object.keys(pinsData);
-    for(let i = 0; i < keys.length; i++)
-    {
-      let key = keys[i];
-      let line  = pinsData[key].line;
-
-      if(line != undefined)
-      {
-        if(relaysData[line] != undefined)
-        {
-          pinsData[key].tbname = relaysData[line].tbname;
-
-          relaysData[line].contactor = 0;
-        }
-        else
-        {
-          errLogger.error("CRITICAL!!! undefined relay", relaysData[line], line);
-
-          //sendNotification("set port ", edgeName, ERRWEIGHT.CRITICAL, "local database is corrupted", "", instanceSendTo.tb, instance, null );
-          sendNotification("set port ", edgeName, "local_database_is_corrupted", {}, "", instanceSendTo.tb, instance );
-        }
-      }
-
-      if(pinsData[key].type == "state_of_contactor")
-      {
-
-        let pin = key - 1;
-        if(controller_type === "unipi") pin = key;
-        
-        //this will modify database
-        let forceTurnOff = true;
-        turnOffLine(line, pin, forceTurnOff, "turn off on startup");
-      }
-    }
-
-    //report RVO version relaysData[0].tbname;
-    let values = {};
-    values["edge_fw_version"] = FLOW.OMS_edge_fw_version;
-    values["maintenance_mode"] = FLOW.OMS_maintenance_mode;
-    values["status"] = "OK";
-
-    edgeName = relaysData[0].tbname;
-    FLOW.OMS_edgeName = edgeName;
-
-    dataToTb = {
-      [edgeName]: [
-        {
-          "ts": Date.now(),
-          "values": values
-        }
-      ]
-    }
-    
-    instance.send(instanceSendTo.tb, dataToTb);
-
-    let time = 3*1000;
-    setTimeout(function(){
-      instance.send(instanceSendTo.cmd_manager, {sender: "di_do_controller", cmd: "buildTasks"});
-
-      sendNotification("rsPort.open()", edgeName, "flow_start", {}, "", instanceSendTo.tb, instance );
-      monitor.info("-->FLOW bol spustený", edgeName, FLOW.OMS_edge_fw_version);
-
-    }, time);
-  }
-  
-
-  function handleRsPort()
-  {
-    //TODO build according to pins!!!
-    //! rsPort to open are the same for lm and unipi and electromer ("/dev/ttymxc0")
-    const setRSPortData = [0xAA,6,6,6,6,6,6,0,6,6,6,1,1,1,1,0,0,10,10,10,10,10,10,0,10,10,10,0,0,0,0,0,0,5,0,0,0,15,15,15,15,15,15,0,15,15,15,0,0,0,0,0,0,30,0,0,0];
-    rsPort = new SerialPort("/dev/ttymxc0", { autoOpen: false });
-
-    rsPort.on('error', function(err) {
-      logger.debug("rsPort opened error - failed", err.message);
-      instance.send(instanceSendTo.debug, err.message);
-
-      errorHandler.sendMessageToService( exports.title + " rsPort opened error - failed: " + err.message);
-    })
-
-    rsPort.on('open', async function() {
-  
-      await runSyncExec("stty -F /dev/ttymxc0 115200 min 1 time 5 ignbrk -brkint -icrnl -imaxbel -opost -isig -icanon -iexten -echo -echoe -echok -echoctl -echoke").then(function (status) {			
-
-        //set port
-        rsPort.write(Buffer.from(setRSPortData), function(err) {
-          monitor.info(exports.title + "--->Digital in_out has been set (runSyncExec was sucessfull)");
-
-          turnOffAlarm();
-
-          //useTurnOffCounter = true;
-          //turnOffCounter = relaysData.length - 1;
-
-          initialSetting();
-        })
-
-      }).catch(function (reason) {
-        //instance.send(instanceSendTo.debug, exports.title + " runSyncExec - promise rejected:" + reason);
-        errLogger.error( exports.title + " runSyncExec - promise rejected:" + reason);
-
-        errorHandler.sendMessageToService( exports.title + " runSyncExec - promise rejected:" + reason);
-      });
-  
-    });
-
-  
-    rsPort.on('data', function (data){
-  
-      rsPortReceivedData = [...rsPortReceivedData, ...data];
-      
-      if (rsPortReceivedData[0] != 85) {
-        rsPortReceivedData = [];
-        return;
-      }
-  
-      let l = rsPortReceivedData.length;
-  
-      if (l < 4 ) return;
-  
-      if (l > 4 ) { 
-  
-        // if array length is greater than 4, we take first 4 byte and do the logic, second 4 bytes, do the logic and so on
-        let i, j, temparray, chunk = 4;
-        for ( i = 0, j = l; i < j; i += chunk ) {
-            temparray = rsPortReceivedData.slice(i, i + chunk);
-      
-            if ( temparray.length < 4 ){
-              rsPortReceivedData = [...temparray];
-              return;
-            }
-  
-            switchLogic(temparray);
-        }
-  
-        rsPortReceivedData = [];
-        return;
-      }
-  
-      switchLogic(rsPortReceivedData);
-      
-      rsPortReceivedData = [];
-      
-    });
-    
-    rsPort.on("close", () => {
-      rsPort.close();
-    })
-
-    rsPort.open();
-
-  }
-
-
-  function handleWebSocket() {
-
-    //to keep websocket opened, we send request every 150 seconds
-    let startRequests = null;
-
-    console.log("handleWebSocket function called");
-    ws = new WebSocket('ws:/0.0.0.0:1234/ws');
-
-    ws.onopen = function open() {
-    
-      instance.send(0, exports.title + " running");
-      turnOffAlarm();
-
-      // useTurnOffCounter = true;
-      // turnOffCounter = relaysData.length - 1;
-      initialSetting();
-      ws.send(JSON.stringify({"cmd":"all"}));
-
-      // we request dev info about neuron device from evok to keep websocket connection alive
-      // for some reason this request returns no data, but connection keeps alive
-      // https://evok.api-docs.io/1.0/mpqzDwPwirsoq7i5A/websocket
-      startRequests = setInterval(() => {
-        // console.log(" *** data from evok requested");
-        ws.send(JSON.stringify({"cmd":"filter", "dev": ["neuron"]}));
-      }, 150000)
-    };
-  
-// SAMPLE DATA FROM WEBSOCKET
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_07',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     value: 0,
-//     circuit: '1_08',
-//     debounce: 50,
-//     counter: 0,
-//     counter_mode: 'Enabled',
-//     dev: 'input',
-//     mode: 'Simple'
-//   },
-
-    ws.onmessage = function(data) {
-
-      data = JSON.parse(data.data);
-
-      // data comes in array except of "temperature" ==> it comes as an object
-      if(!Array.isArray(data)) 
-      {
-        let value = data['value'];
-
-        // temperature value comes very often. To handle it, we check if it change for more than 0.2 degrees, if yes, we send to TB
-        if(Math.abs(previousValues["temperature"] - value) > 0.21 )
-        {
-          const dataToTb = {
-            [FLOW.OMS_rvo_tbname]: [
-              {
-                "ts": Date.now(),
-                "values": {temperature: value}
-              }
-            ]
-          };
-          
-          deviceStatuses["temperature"] = "OK";
-          previousValues["temperature"] = value;
-          instance.send(instanceSendTo.tb, dataToTb);
-        }
-        return;
-      }
-
-      data.map(item => {
-        
-        let value = item['value'];
-        let pin = item["dev"] + item["circuit"];  // for example "relay1_03" or "input1_01"
-
-        if (pin == undefined) return;      
-        switchLogic(pin, value);
-      })
-    }
-  
-
-    ws.on('error', (err) => {
-      instance.send(instanceSendTo.debug, err.message);
-      clearInterval(startRequests);
-      startRequests = null;
-    })
-
-
-    ws.onclose = function(){
-      // connection closed, discard old websocket and create a new one in 5s
-      // stopRequests();
-      clearInterval(startRequests);
-      ws = null;
-      console.log("ws is null now, reconnecting...");
-      setTimeout(handleWebSocket, 1000);
-    }
-  }
-
-  // ! do we need requests every minute ???
-  // const startRequests = () => {
-  //   console.log("startRequest function called");
-  //   start = setInterval(() => {
-  //     // console.log("data from evok requested");
-  //     ws.send(JSON.stringify({"cmd":"filter", "devices": "neuron"}));
-  //     // ws.send(JSON.stringify({"cmd":"filter", "devices":["input", "relay"]}));
-  //   }, 150000)
-  // }
-
-
-  instance.on("close", () => {
-    if(rsPort) rsPort.close();
-    if(ws) ws.close();
-  })
-
-  loadAllDb();
-
-  function getPin(line)
-  {
-      //conversionTable
-      let keys = Object.keys(pinsData);
-      for(let i = 0; i < keys.length; i++)
-      {
-        let key = keys[i];
-
-        if(pinsData[key].type == "state_of_contactor" && pinsData[key].line == line)
-        {
-          if(rsPort) return key - 1;
-          if(ws) return key;
-        }
-      }
-
-      logger.debug("no pin detected");
-
-      return null;
-  }
-
-
-  function turnOnAlarm()
-  {
-    if(FLOW.OMS_maintenance_mode) return;
-
-    alarmStatus = "ON";
-
-    if(rsPort)
-    {
-      let arr = [0x55];
-      arr.push( 13 );
-      arr.push( 0 );
-      arr.push( 1 );
-      
-      rsPort.write(Buffer.from(arr), function(err) {
-        logger.debug("sirena zapnuta");
-      });
-    }
-    else if(ws)
-    {
-      let cmd = {"cmd": "set", "dev": "relay", "circuit": "1_01", "value": 1};
-      ws.send(JSON.stringify(cmd));
-      logger.debug("sirena zapnuta");
-    }
-  }
-
-
-  function turnOffAlarm()
-  {
-    alarmStatus = "OFF";
-
-    if(rsPort)
-    {
-      let arr = [0x55];
-      arr.push( 13 );
-      arr.push( 0 );
-      arr.push( 0 );
-      
-      rsPort.write(Buffer.from(arr), function(err) {
-        logger.debug("sirena vypnuta");
-      });
-    }
-    else if(ws)
-    {
-      let cmd = {"cmd": "set", "dev": "relay", "circuit": "1_01", "value": 0};
-      ws.send(JSON.stringify(cmd));
-      logger.debug("sirena vypnuta");
-    }
-  }
-
-
-  function reportLineStatus(line)
-  {
-    //Tá hodnota by mala fungovať tak že LSB bit číslo je stav ističa (1 - On, 0 - Off) a druhý bit je stav stýkača (1 - true, 0 - false).
-
-    let tbname = relaysData[line].tbname;
-
-    let bits = [];
-
-    if(deviceStatuses["state_of_breaker"][line] == "On")
-    {
-      bits.push(0);
-    }
-    else bits.push(1);
-
-    if(deviceStatuses["state_of_contactor"][line] == "On")
-    {
-      bits.push(0);
-    }
-    else bits.push(1);
-
-    resizeArray(bits, 8, 0);
-
-    let byte = bitwise.byte.write(bits.reverse());
-
-    //console.log("line", line, bits, byte);
-
-    let values = {
-      statecode: byte
-    }
-
-    let dataToTb = {
-      [tbname]: [
-        {
-          "ts": Date.now(),
-          "values": values
-        }
-      ]
-    }
-
-    //console.log(values);
-    
-    instance.send(instanceSendTo.tb, dataToTb);
-  }
-
-
-  function turnOnLine(line, pin, force, info)
-  {
-
-    instance.send(instanceSendTo.debug, "turn on line " + line );
-    if(force == undefined) force = false;
-
-    if(line == 0)
-    {
-      if(alarmStatus == "ON") turnOffAlarm();
-      FLOW.OMS_maintenance_mode = true;
-
-      let values = {};
-      values["statecode"] = calculateStateCode();
-      values["power_mode"] = "maintenance";
-      let tbname = relaysData[line].tbname;
-      sendTelemetry(values, tbname);
-
-      monitor.info("turnOnLine (line, FLOW.OMS_maintenance_mode)", line, FLOW.OMS_maintenance_mode, info);
-
-      return;
-    }
-
-    if( pin === undefined) pin = getPin(line);
-
-    monitor.info("turnOnLine (line, pin, force)", line, pin, force, info);
-
-    if( pin === undefined) 
-    {
-      monitor.info("pin is undefined!", line);
-      return;
-    }
-
-    
-    if(!force)
-    {
-      if(relaysData[line].contactor == 1) 
-      {
-        instance.send(instanceSendTo.debug, "line is already on " + line );
-        logger.debug("turnOnLine: line is already on: ", line);
-        
-        return;
-      }
-    }
-
-    // if(!rsPort.isOpen && !ws)
-    if(!rsPort && !ws)
-    {
-      errLogger.error("di do controller - port or websocket is not opened");
-      return;
-    }
-
-    if(rsPort)
-    {
-      let arr = [0x55];
-      arr.push( pin );
-      arr.push( 0 );
-      arr.push( 1 );
-  
-      rsPort.write(Buffer.from(arr), function(err) {
-        if(err === undefined)
-        {
-          console.log("turnONLine zapisal do rsPortu", line, arr);
-          switchLogic(arr);
-        }
-        else
-        {
-          monitor.info("turnOnLine WRITE error", err);
-        }
-        
-      });
-
-    }
-    else if(ws)
-    {
-      console.log("turnONLine pin (relay)", pin);
-      //pin = "relay1_03" or "input1_01" ... we must make just "1_01" with slice method
-      let cmd = {"cmd": "set", "dev": "relay", "circuit": pin.slice(5), "value": 1};
-      ws.send(JSON.stringify(cmd));
-      switchLogic(pin, 1)
-    }
-  }
-
-
-  function turnOffLine(line, pin, force, info)
-  {
-    if(force == undefined) force = false;
-
-    if(line == 0)
-    {
-      FLOW.OMS_maintenance_mode = false;
-
-      let values = {};
-      values["statecode"] = calculateStateCode();
-      values["power_mode"] = "automatic";
-      let tbname = relaysData[line].tbname;
-      sendTelemetry(values, tbname);
-
-      return;
-    }
-
-    if( pin === undefined) pin = getPin(line);
-
-    monitor.info("turnOffLine (line, pin, force)", line, pin, force, info);
-
-    if( pin === undefined) 
-    {
-      errLogger.error("pin is undefined!", line);
-      return;
-    }
-
-    if(!force)
-    {
-      if(relaysData[line].contactor == 0) 
-      {
-        instance.send(instanceSendTo.debug, "line is already off " + line );
-        logger.debug("turnOffLine: line already off:", line);
-
-        return;
-      }
-    }
-
-    // if(!rsPort.isOpen && !ws)
-    if(!rsPort && !ws)
-    {
-      errLogger.error("di do controller - port or websocket is not opened");
-      return;
-    }
-    
-    if(rsPort)
-    {
-      let arr = [0x55];
-      arr.push( pin );
-      arr.push( 0 );
-      arr.push( 0 );
-  
-      rsPort.write(Buffer.from(arr), function(err) {
-        if(err === undefined)
-        {
-          console.log("turnOffLine zapisal do rsPort-u", line, arr);
-          switchLogic(arr);
-        }
-        else
-        {
-          monitor.info("turnOffLine WRITE error", err);
-        }
-        
-      });
-
-    }
-    else if(ws)
-    {
-      //pin = "relay1_03" or "input1_01" ... we must make just "1_01" with slice method
-      // monitor.info("turnOffLine pin (relay)", pin);
-      let cmd = {"cmd": "set", "dev": "relay", "circuit": pin.slice(5), "value": 0};
-      ws.send(JSON.stringify(cmd));
-      switchLogic(pin, 0)
-    }
-
-  }
-
-
-  // we expect array as flowdata.data
-  instance.on("data", (flowdata) => {
-
-    console.log(flowdata.data);
-
-    if(flowdata.data instanceof Object)
-    {
-
-      if(flowdata.data.hasOwnProperty("sender"))
-      {
-        //console.log("sender", flowdata.data);
-
-        if(flowdata.data.sender == "gettemperature")
-        {
-          deviceStatuses["temperature"] = flowdata.data.status;
-        }
-        else if(flowdata.data.sender == "modbus_citysys")
-        {
-          //elektromer rvo
-          if(flowdata.data.tbdata.hasOwnProperty(edgeName))
-          {
-            //rvo
-            deviceStatuses["rvo"] = {status: flowdata.data.tbdata[edgeName][0]["values"]["status"], tbdata: flowdata.data.tbdata};
-          }
-          else if(flowdata.data.tbdata.hasOwnProperty("twilight_sensor")) 
-          {
-            switchLogic('twilight_sensor', flowdata.data.tbdata["twilight_sensor"])
-          }
-        }
-
-        instance.send(instanceSendTo.debug, flowdata.data );
-        return;
-      }
-
-      let obj = flowdata.data;
-
-      let line = obj.line;
-      let force = obj.force;
-      let info = obj.info;
-
-      if(obj.command == "turnOn") turnOnLine(line, undefined, force, info);
-      else if(obj.command == "turnOff") turnOffLine(line, undefined, force, info);
-      else if(obj.command == "turnOnAlarm") turnOnAlarm();
-      else if(obj.command == "turnOffAlarm") turnOffAlarm();
-
-      return;
-    }
-
-    //! ake data prichadzaju z cmd_manager.js ???
-    //TODO transform to websocket
-    if (Array.isArray(flowdata.data)){
-
-      rsPort.write(Buffer.from(flowdata.data), function(err) {
-        switchLogic(flowdata.data);
-
-        instance.send(instanceSendTo.debug, {"WRITE":flowdata.data} );
-      });
-    } 
-  })
-
-
-  function calculateStateCode()
-  {
-
-    let bytes = [];
-    let bits = [];
-
-
-    //Hlavný istič - state_of_main_switch
-    if(deviceStatuses["state_of_main_switch"] == "On") bits.push(0);
-    else if(deviceStatuses["state_of_main_switch"] == "Off") bits.push(1);
-
-    //Prevádzkový mód - Manual, Off, Automatic, maintenance_mode = true/false
-    if(!FLOW.OMS_maintenance_mode)
-    {
-      if(deviceStatuses["rotary_switch_state"] == "Manual") 
-      {
-        bits.push(0);
-        bits.push(1);
-      }
-
-      if(deviceStatuses["rotary_switch_state"] == "Automatic") 
-      {
-        bits.push(0);
-        bits.push(0);
-      }
-
-      if(deviceStatuses["rotary_switch_state"] == "Off") 
-      {
-        bits.push(1);
-        bits.push(0);
-      }
-    }
-    else{
-      bits.push(1);
-      bits.push(1);
-    }
-
-    //Dverový kontakt
-    if(deviceStatuses["door_condition"] == "closed")
-    {
-      bits.push(0);
-    }
-    else bits.push(1);
-
-    //EM
-    if(deviceStatuses["rvo"].status == "NOK") bits.push(1);
-    else bits.push(0);
-
-    //Teplomer
-    if(deviceStatuses["temperature"] == "NOK") bits.push(1);
-    else bits.push(0);
-
-    //Batéria
-    if(deviceStatuses["battery"] == "NOK") bits.push(1);
-    else bits.push(0);
-
-    //Zdroj
-    if(deviceStatuses["power_supply"] == "NOK") bits.push(1);
-    else bits.push(0);
-
-    //MN
-    if(deviceStatuses["master_node"] == "NOK") bits.push(1);
-    else bits.push(0);
-
-    //výpadok napätia na fáze
-    if(deviceStatuses["no_voltage"] == "NOK") bits.push(1);
-    else bits.push(0);
-    
-    bits.push(0);
-    bits.push(0);
-    bits.push(0);
-    bits.push(0);
-    bits.push(0);
-    bits.push(0);
-
-    //console.log("calculateStateCode - deviceStatuses", deviceStatuses);
-    //console.log("calculateStateCode", bits);
-
-    let byte0 = bitwise.byte.write(bits.slice(0,8).reverse());
-    let byte1 = bitwise.byte.write(bits.slice(8).reverse());
-
-    let byte = bytesToInt([byte1, byte0]);
-
-    //console.log("calculateStateCode -------------------", byte);
-    
-    return byte;
-  }
-
-
-  function checkFinalRVOStatus() {
-
-    // we check if any of these pins values are 0 --> it means status RVO is "NOK"
-    // pinIndex 6 is door_condition - if open in maintenance mode - status = OK
-
-    //set RVO state
-
-    let status = "OK";
-
-    if(deviceStatuses["rvo"].status == "NOK")
-    {
-        let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: rvo status is NOK");
-        if(writeToFile) errLogger.error("checkFinalRVOStatus: rvo status is NOK", deviceStatuses["rvo"].tbdata);
-
-        status = "NOK";
-    }
-
-    //ak teplomer NOK, rvo nok
-    if(deviceStatuses["temperature"] == "NOK")
-    {
-    
-        let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: temperature status is NOK");
-        if(writeToFile) errLogger.error("checkFinalRVOStatus: temperature status is NOK");
-
-        status = "NOK";
-    }
-    
-    if(status == "OK")
-    {
-      for (const pinIndex of [1, 4, 6]) {
-        if (previousValues[pinIndex] === 0) {
-  
-          if (pinIndex === 6 && FLOW.OMS_maintenance_mode) continue;
-  
-          let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: value is 0");
-          if(writeToFile) errLogger.error("checkFinalRVOStatus: value is 0",  pinsData[pinIndex].type);
-
-          status = "NOK";
-
-          break;
-        }
-      }
-    }
-
-    // battery status. If value is 1 - battery is not ok
-    if (previousValues[5] === 1)
-    {
-        let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: NOK status generated by battery");
-        if(writeToFile) errLogger.error("checkFinalRVOStatus: NOK status generated by battery");
-
-        status = "NOK";
-    }
-
-    //ak mame telemetriu z elektromeru, posleme
-    if(deviceStatuses["rvo"].tbdata != undefined)
-    {
-      //deviceStatuses["rvo"] = {status: flowdata.data.tbdata[edgeName][0]["values"]["status"], tbdata: flowdata.data.tbdata};
-
-      deviceStatuses["rvo"].tbdata[edgeName][0]["values"]["status"] = status;
-
-
-      instance.send(instanceSendTo.tb, deviceStatuses["rvo"].tbdata);
-      delete deviceStatuses["rvo"].tbdata;
-    }
-
-    //console.log("FLOW.OMS_masterNodeIsResponding", FLOW.OMS_masterNodeIsResponding);
-
-    if(!FLOW.OMS_masterNodeIsResponding)
-    {
-      //errLogger.error("Master node is not responding");
-      errorHandler.sendMessageToService("Master node is not responding");
-      status = "NOK";
-
-      deviceStatuses["master_node"] = "NOK";
-    }
-    else deviceStatuses["master_node"] = "OK";
-
-    //console.log("checkFinalRVOStatus", status);
-    if(FLOW.OMS_no_voltage.size > 0)
-    {
-        let writeToFile = errorHandler.processMessage("no voltage detected");
-        if(writeToFile) errLogger.error("no voltage detected", FLOW.OMS_no_voltage);
-
-        status = "NOK";
-
-        deviceStatuses["no_voltage"] = "NOK";
-    }
-    else deviceStatuses["no_voltage"] = "OK";
-
-    if(status == "NOK") 
-    {
-
-      const dataToTb = {
-        [edgeName]: [
-          {
-            "ts": Date.now(),
-            "values": {status: "NOK"}
-          }
-        ]
-      }
-
-      instance.send(instanceSendTo.tb, dataToTb);
-
-      return false;
-    }
-
-    return true;
-  }
-
-
-  // we pass array to function in case of rsPort ==> switchLogic([55,3,0,1])
-  // we pass two values in case of websocket ==> switchLogic("relay1_03",1)
-  const switchLogic = (...args) => {
-
-    let values = {status: "OK"};
-    let dataToTb, pinIndex, newPinValue, twilight;
-
-    //data from rsPort
-    if(args.length == 1)
-    {
-      pinIndex = args[0][1] + 1;
-      if (pinIndex === 17) pinIndex--;
-      newPinValue = args[0][3];
-      twilight = args[0][2];
-    }
-    //data from websocket
-    else 
-    {
-      pinIndex = args[0];
-      newPinValue = args[1];
-    }
-
-    let obj = pinsData[pinIndex];
-
-    if(obj == undefined)
-    {
-      previousValues[pinIndex] = newPinValue;
-      return;
-    }
-
-    let type = obj.type;
-    let line = obj.line;
-    let tbname = obj.tbname;
-
-    //default value
-    let value  = "Off";
-    if(newPinValue === 1) value = "On";
-
-    //Hlavný istič
-    if(type === "state_of_main_switch") 
-    {
-
-      if (newPinValue === 1 && newPinValue !== previousValues[pinIndex]) 
-      {
-
-        sendNotification("switchLogic", edgeName, "main_switch_has_been_turned_off", {}, "", instanceSendTo.tb, instance , "state_of_main_switch");
-        values["status"] = "NOK";
-        value = "Off";
-      } 
-      else if (newPinValue === 0 && newPinValue !== previousValues[pinIndex]) 
-      {
-        sendNotification("switchLogic", edgeName, "main_switch_has_been_turned_on", {}, "", instanceSendTo.tb, instance , "state_of_main_switch");
-        value = "On";
-      }
-
-
-      deviceStatuses["state_of_main_switch"] = value;
-    }
-
-    //Prevádzkový mód
-    if(type == "rotary_switch_state")
-    {
-      // combination of these two pins required to get result
-      let pin2, pin3;
-      if(pinIndex == 2 || pinIndex == "input1_02")
-      {
-        pin2 = newPinValue;
-        pin3 = previousValues[3] || previousValues["input1_03"];
-
-        if(pin3 == undefined)
-        {
-          previousValues[pinIndex] = newPinValue;
-          return;
-        } 
-      }
-      else if(pinIndex  == 3 || pinIndex == "input1_03")
-      {
-        pin3 = newPinValue;
-        pin2 = previousValues[2] || previousValues["input1_02"];
-
-        if(pin2 == undefined)
-        {
-          previousValues[pinIndex] = newPinValue;
-          return;
-        } 
-      }
-
-      //console.log('***********************', pin2, pin3)
-      if (pin2 == 0 && pin3 == 1) value = "Manual";
-      if (pin2 == 0 && pin3 == 0) value = "Off";
-      if (pin2 == 1 && pin3 == 0) value = "Automatic";
-
-      deviceStatuses["rotary_switch_state"] = value;
-
-      //automatic - profilu pre nody sa vykonavaju
-      //ak je spracovany, a automatic - tak ho zapnem
-      //ak nie je spracovany, iba profil zapisem
-      
-      instance.send(instanceSendTo.cmd_manager, {sender: "di_do_controller", cmd: "rotary_switch_state", value: value});
-
-      //console.log("rotary_switch_state pin", pin2, pin3, value);
-    }
-    //Zdroj - pin 4
-    else if (type === "power_supply") 
-    {
-      if (newPinValue === 1 && newPinValue !== previousValues[pinIndex]) 
-      {
-        //sendNotification("switchLogic", edgeName, ERRWEIGHT.ALERT, "Power supply is not OK", "", instanceSendTo.tb, instance);
-        sendNotification("switchLogic", edgeName, "power_supply_has_disconnected_input", {}, "", instanceSendTo.tb, instance, "power_supply");
-        values["status"] = "NOK";
-
-        deviceStatuses["power_supply"] = "NOK";
-      }
-      else if (newPinValue === 0 && newPinValue !== previousValues[pinIndex])
-      {
-        //sendNotification("switchLogic", edgeName, ERRWEIGHT.NOTICE, "Power supply is is OK", "", instanceSendTo.tb, instance);
-        sendNotification("switchLogic", edgeName, "power_supply_works_correctly", {}, "", instanceSendTo.tb, instance, "power_supply");
-
-        deviceStatuses["power_supply"] = "OK";
-      }
-    }
-    //Batéria - pin 5
-    else if (type === "battery") 
-    {
-      if (newPinValue === 0 && newPinValue !== previousValues[pinIndex]) 
-      {
-        //sendNotification("switchLogic", edgeName, ERRWEIGHT.ERROR, "Battery is not OK", "", instanceSendTo.tb, instance);
-        sendNotification("switchLogic", edgeName, "battery_level_is_low", {}, "", instanceSendTo.tb, instance, "battery_level");
-        values["status"] = "NOK";
-
-        deviceStatuses["battery"] = "NOK";
-      }
-      else if (newPinValue === 1 && newPinValue !== previousValues[pinIndex])
-      {
-        //sendNotification("switchLogic", edgeName, ERRWEIGHT.NOTICE, "Battery is OK", "", instanceSendTo.tb, instance);
-        sendNotification("switchLogic", edgeName, "battery_level_is_ok", {}, "", instanceSendTo.tb, instance, "battery_level");
-
-        deviceStatuses["battery"] = "OK";
-      }
-    }
-    //Dverový kontakt - pin 6
-    else if(type == "door_condition")
-    {
-      newPinValue === 0 ? value = "closed" : value = "open";
-
-      if (newPinValue != previousValues[pinIndex])
-      {
-        //sendNotification("switchLogic", edgeName, ERRWEIGHT.NOTICE, `RVO door ${value}`, "", instanceSendTo.tb, instance, "rvo_door");
-        //TODO ? sendNotification("switchLogic", edgeName, "door_value", {value: value}, "", instanceSendTo.tb, instance, "rvo_door");
-      }
-
-      if (value === "open" && FLOW.OMS_maintenance_mode)
-      {
-        sendNotification("switchLogic", edgeName, "door_has_been_open", {}, "", instanceSendTo.tb, instance, "rvo_door");
-      }
-
-      if (value === "open" && !FLOW.OMS_maintenance_mode)
-      {
-        //sendNotification("switchLogic", edgeName, ERRWEIGHT.WARNING, "RVO open door out of maintenance mode", "", instanceSendTo.tb, instance);
-        sendNotification("switchLogic", edgeName, "door_has_been_open_without_permision_alarm_is_on", {}, "", instanceSendTo.tb, instance, "rvo_door");
-        values["status"] = "NOK";
-
-        //console.log(door_has_been_open_without_permision_alarm_is_on);
-
-        //zapneme sirenu
-        turnOnAlarm();
-      }
-
-      if (value === "closed")
-      {
-        if(alarmStatus == "ON") turnOffAlarm();
-        //turnOffAlarm();
-
-        sendNotification("switchLogic", edgeName, "door_has_been_closed", {}, "", instanceSendTo.tb, instance, "rvo_door");
-      }
-
-      deviceStatuses["door_condition"] = value;
-
-    }
-    //lux sensor
-    else if(type == "twilight_sensor")
-    {
-      //! TODO - to show nok status, if lux value is not changing more then 10 times. From unipi for example comes value from 0-1000. 
-      //Daylight is far more than 1000. So most of the day, when it is sunshine comes just value 1000. But lux sensor is not NOK.
-      //This is not the case in LM. If value from LM is the same 10x, there is 99% possibility, that sensor is NOK.
-      values["status"] = "OK";
-      value = newPinValue;
-
-      if(controller_type === 'lm') 
-      {
-        value = parseFloat(newPinValue + (256*twilight));
-
-        let now = new Date();
-        //new Date(dusk.getTime()
-
-        let obj = {timestamp: now.getTime(), value: value};
-
-        //test
-        //twilight_sensor_interval = 1;
-
-        twilight_sensor.push(obj);
-        //twilight_sensor_array.push(value);
-        
-        //check if we receive just 1 constant value from lux sensor ==> error
-        if(twilight_sensor_array.length > 10) {
-
-          let set = new Set(twilight_sensor_array);
-          if(set.size === 1 && !twilightError) 
-          {
-            twilightError = true;
-            values["status"] = "NOK";
-            let value = twilight_sensor_array.shift();
-            //sendNotification("switchLogic", edgeName, ERRWEIGHT.ERROR, "Lux sensor error", {"Repeating value": value}, instanceSendTo.tb, instance );
-            newPinValue = 0;
-          }
-          else if (set.size !== 1 && twilightError)
-          {
-            //sendNotification("switchLogic", edgeName, ERRWEIGHT.NOTICE, "Lux sensor is working again", "", instanceSendTo.tb, instance );
-            twilightError = false;
-            twilight_sensor_array.shift();
-            newPinValue = value;
-          }
-          else if (set.size === 1 && twilightError) 
-          {
-            values["status"] = "NOK";
-            twilight_sensor_array.shift();
-            newPinValue = 0;
-          }
-        }
-
-
-        let diff = twilight_sensor[ twilight_sensor.length - 1 ].timestamp - twilight_sensor[0].timestamp;
-        if(diff >= twilight_sensor_interval * 60 * 1000)
-        {
-          const average = twilight_sensor.reduce((acc, c) => acc + c.value, 0) / twilight_sensor.length;
-          instance.send(instanceSendTo.cmd_manager, {sender: "di_do_controller", cmd: "lux_sensor", value: average});
-
-          twilight_sensor = [];
-
-          //console.log("lux_sensor send", average);
-        }
-        //else console.log("lux_sensor", value, diff);
-      }
-      else
-      {
-        instance.send(instanceSendTo.cmd_manager, {sender: "di_do_controller", cmd: "lux_sensor", value: value});
-      }
-    }
-    else if(type == "state_of_contactor")
-    {
-      //sendNotification("switchLogic", edgeName, ERRWEIGHT.INFO, `State of contactor ${line} is now ${value}`, "", instanceSendTo.tb, instance );
-      sendNotification("switchLogic", edgeName, "state_of_contactor_for_line", {line: line, value: value}, "", instanceSendTo.tb, instance );
-
-      deviceStatuses["state_of_contactor"][line] = value;
-      
-      //true, false
-      if(value === "On") value = true;
-      else if(value === "Off") value = false;      
-
-      //modify table relays
-      dbRelays.modify({ contactor: newPinValue }).where("line", line).make(function(builder) {
-
-        builder.callback(function(err, response) {
-
-          /*
-          if(useTurnOffCounter)
-          {
-            turnOffCounter--;
-
-            if(turnOffCounter <= 0)
-            {
-              useTurnOffCounter = false;
-            }
-          }
-          */
-            
-            if(err == undefined)
-            {
-
-              let time = 0;
-              if(value) time = 1000 * 10;//10 sekund
-
-              let dataChanged = false;
-              if(relaysData[line].contactor != value) dataChanged = true;
-              relaysData[line].contactor = value;
-
-              //ak bola predchadzajuci stav off a novy stav je on, budu sa nastavovat nespracovane node profiles
-              //a budu sa odosielat commandy, tie vsak mozu zlyhat, a preto potrebujeme ich spusti trochu neskor
-              
-              setTimeout(function(){
-                instance.send(instanceSendTo.cmd_manager, {sender: "di_do_controller", cmd: "reload_relays", line: line, time: time, value: value, dataChanged: dataChanged});
-              }, time);
-
-              reportLineStatus(line);
-
-              
-            }
-            else 
-            {
-              errLogger.error("modify table relays failed", err);
-            }
-
-
-          });
-        });
-    }
-
-    if(type === "state_of_breaker")
-    {
-
-      let valueChanged = false;
-      if(newPinValue != previousValues[pinIndex]) valueChanged = true;
-
-      if(valueChanged)
-      {
-        instance.send(instanceSendTo.cmd_manager, {sender: "di_do_controller", cmd: "state_of_breaker", value: value, line: line});
-      }
-
-      if(value == "Off") values["status"] = "NOK";
-
-      deviceStatuses["state_of_breaker"][line] = value;
-
-      reportLineStatus(line);
-
-    }
-
-    values[type] = value;
-
-    let result = checkFinalRVOStatus();
-    if(!result && line == 0)
-    {
-      values["status"] = "NOK";
-    }
-
-    //--
-    
-    //if(FLOW.OMS_rvo_tbname == tbname) values["statecode"] = calculateStateCode();
-
-    if(pinsData.hasOwnProperty(pinIndex))
-    {
-      let valueChanged = false;
-      if(newPinValue != previousValues[pinIndex]) valueChanged = true;
-
-      if(type == "state_of_contactor") valueChanged = true;
-      if(type == "rotary_switch_state") valueChanged = true;
-      if(type === "state_of_breaker")
-      {
-        //console.log(type, values, valueChanged);
-      }
-
-      if(FLOW.OMS_rvo_tbname == "")
-      {
-          console.log("FLOW.OMS_rvo_tbname is EMPTY");
-      }
-
-      if(FLOW.OMS_rvo_tbname == tbname) 
-      {
-        values["statecode"] = calculateStateCode();
-        //console.log('**********************', type, values, valueChanged, FLOW.OMS_rvo_tbname, tbname);
-      }
-      
-
-      if(valueChanged)
-      {
-        sendTelemetry(values, tbname);
-      }
-
-      if(type == "rotary_switch_state")
-      {
-        if(FLOW.OMS_maintenance_mode) value = "maintenance";
-        value = value.toLowerCase();
-
-        let values = {};
-        values["power_mode"] = value;
-
-        sendTelemetry(values, tbname);
-      }
-    }
-    else
-    {
-      logger.debug("no pinIndex", pinsData[pinIndex], pinsData);
-    }
-
-    //pin was changed
-    previousValues[pinIndex] = newPinValue;
-
-    
-  } 
-
-
-  function sendTelemetry(values, tbname)
-  {
-    let dataToTb = {
-      [tbname]: [
-        {
-          "ts": Date.now(),
-          "values": values
-        }
-      ]
-    }
-
-    instance.send(instanceSendTo.tb, dataToTb);
-  }
-
-}
-
-
-
-
-//! incomming data to websocket
-// [
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_08',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_01',
-//     alias: 'al_lights_kitchen',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_02',
-//     alias: 'al_lights_bedroom',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_03',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_04',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_05',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_06',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     glob_dev_id: 1,
-//     modes: [ 'Simple' ],
-//     value: 0,
-//     circuit: '1_07',
-//     pending: false,
-//     relay_type: 'physical',
-//     dev: 'relay',
-//     mode: 'Simple'
-//   },
-//   {
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     value: 0,
-//     circuit: '1_08',
-//     debounce: 50,
-//     counter: 0,
-//     counter_mode: 'Enabled',
-//     dev: 'input',
-//     mode: 'Simple'
-//   },
-//   {
-//     counter_mode: 'Enabled',
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     dev: 'input',
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     debounce: 50,
-//     counter: 1,
-//     value: 1,
-//     alias: 'al_main_switch',
-//     mode: 'Simple',
-//     circuit: '1_01'
-//   },
-//   {
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     value: 1,
-//     circuit: '1_02',
-//     debounce: 50,
-//     counter: 2,
-//     counter_mode: 'Enabled',
-//     dev: 'input',
-//     mode: 'Simple'
-//   },
-//   {
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     value: 1,
-//     circuit: '1_03',
-//     debounce: 50,
-//     counter: 2,
-//     counter_mode: 'Enabled',
-//     dev: 'input',
-//     mode: 'Simple'
-//   },
-//   {
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     value: 0,
-//     circuit: '1_04',
-//     debounce: 50,
-//     counter: 1,
-//     counter_mode: 'Enabled',
-//     dev: 'input',
-//     mode: 'Simple'
-//   },
-//   {
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     value: 0,
-//     circuit: '1_05',
-//     debounce: 50,
-//     counter: 0,
-//     counter_mode: 'Enabled',
-//     dev: 'input',
-//     mode: 'Simple'
-//   },
-//   {
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     value: 0,
-//     circuit: '1_06',
-//     debounce: 50,
-//     counter: 0,
-//     counter_mode: 'Enabled',
-//     dev: 'input',
-//     mode: 'Simple'
-//   },
-//   {
-//     counter_modes: [ 'Enabled', 'Disabled' ],
-//     glob_dev_id: 1,
-//     modes: [ 'Simple', 'DirectSwitch' ],
-//     value: 0,
-//     circuit: '1_07',
-//     debounce: 50,
-//     counter: 0,
-//     counter_mode: 'Enabled',
-//     dev: 'input',
-//     mode: 'Simple'
-//   },
-//   {
-//     interval: 3,
-//     value: 24.5,
-//     circuit: '28744F7791180257',
-//     address: '28744F7791180257',
-//     time: 1631873896.48797,
-//     typ: 'DS18B20',
-//     lost: false,
-//     dev: 'temp'
-//   },
-//   {
-//     bus: '/dev/i2c-2',
-//     interval: 3,
-//     dev: 'owbus',
-//     scan_interval: 300,
-//     circuit: '1',
-//     do_scan: false,
-//     do_reset: false
-//   },
-//   {
-//     glob_dev_id: 1,
-//     last_comm: 0.014672994613647461,
-//     ver2: '0.1',
-//     sn: 42,
-//     circuit: '1',
-//     model: 'S207',
-//     dev: 'neuron',
-//     board_count: 1
-//   },
-//   {
-//     circuit: '1_01',
-//     value: 0,
-//     glob_dev_id: 1,
-//     dev: 'wd',
-//     timeout: 5000,
-//     was_wd_reset: 0,
-//     nv_save: 0
-//   }
-// ]
-
-//! loaded pins_data --> from LM
-// {
-//   '1': { pin: 1, type: 'state_of_main_switch', line: 0 },
-//   '2': { pin: 2, type: 'rotary_switch_state', line: 0 },
-//   '3': { pin: 3, type: 'rotary_switch_state', line: 0 },
-//   '4': { pin: 4, type: 'power_supply', line: 0 },
-//   '5': { pin: 5, type: 'battery', line: 0 },
-//   '6': { pin: 6, type: 'door_condition', line: 0 },
-//   '8': { pin: 8, type: 'state_of_breaker', line: 1 },
-//   '9': { pin: 9, type: 'state_of_breaker', line: 2 },
-//   '10': { pin: 10, type: 'state_of_breaker', line: 3 },
-//   '11': { pin: 11, type: 'state_of_contactor', line: 1 },
-//   '12': { pin: 12, type: 'state_of_contactor', line: 2 },
-//   '13': { pin: 13, type: 'state_of_contactor', line: 3 },
-//   '16': { pin: 16, type: 'twilight_sensor', line: 0 }
-// }
-
-//! pins.table --> from LM
-// pin:number|type:string|line:number
-// *|1|state_of_main_switch|0|...........
-// *|2|rotary_switch_state|0|...........
-// *|3|rotary_switch_state|0|...........
-// *|4|power_supply|0|...........
-// *|5|battery|0|...........
-// *|6|door_condition|0|...........
-// *|8|state_of_breaker|1|...........
-// *|9|state_of_breaker|2|...........
-// *|10|state_of_breaker|3|...........
-// *|11|state_of_contactor|1|...........
-// *|12|state_of_contactor|2|...........
-// *|13|state_of_contactor|3|...........
-// *|16|twilight_sensor|0|...........
-
-//! pins.table --> from UNIPI
-// pin:string|type:string|line:number
-// *|input1_01|state_of_main_switch|0|...........
-// *|input1_02|rotary_switch_state|0|...........
-// *|input1_03|rotary_switch_state|0|...........
-// *|intut1_04|power_supply|0|...........
-// *|input1_05|door_condition|0|...........
-// *|input1_06|state_of_breaker|1|...........
-// *|input1_07|state_of_breaker|2|...........
-// *|input1_08|state_of_breaker|3|...........
-// *|relay1_02|state_of_contactor|1|...........
-// *|relay1_03|state_of_contactor|2|...........
-// *|relay1_04|state_of_contactor|3|...........
-// *|287D8776E0013CE9|temperature|0|...........
-
-
-//! pins_data --> from UNIPI
-// {
-//   '16': { pin: '16', type: 'twilight_sensor', line: 0 },
-//   al_mswitch: { pin: 'al_mswitch', type: 'state_of_main_switch', line: 0 },
-//   al_rswitch1: { pin: 'al_rswitch1', type: 'rotary_switch_state', line: 0 },
-//   al_rswitch2: { pin: 'al_rswitch2', type: 'rotary_switch_state', line: 0 },
-//   al_power: { pin: 'al_power', type: 'power_supply', line: 0 },
-//   al_battery: { pin: 'al_battery', type: 'battery', line: 0 },
-//   al_door: { pin: 'al_door', type: 'door_condition', line: 0 },
-//   al_breaker1: { pin: 'al_breaker1', type: 'state_of_breaker', line: 1 },
-//   al_breaker2: { pin: 'al_breaker2', type: 'state_of_breaker', line: 2 },
-//   al_breaker3: { pin: 'al_breaker3', type: 'state_of_breaker', line: 3 },
-//   al_breaker4: { pin: 'al_breaker4', type: 'state_of_breaker', line: 4 },
-//   al_relay_1: { pin: 'al_relay_1', type: 'state_of_contactor', line: 1 },
-//   al_relay_2: { pin: 'al_relay_2', type: 'state_of_contactor', line: 2 },
-//   al_relay_3: { pin: 'al_relay_3', type: 'state_of_contactor', line: 3 },
-//   al_relay_4: { pin: 'al_relay_4', type: 'state_of_contactor', line: 4 },
-//   '28744F7791180257': { pin: '28744F7791180257', type: 'temperature', line: 0 }
-// }
-
-
-//! relays_data
-// {
-//   '0': {
-//     line: 0,
-//     tbname: 'KjbN4q7JPZmexgdnz2yKQ98YAWwO0Q3BMX6ERLoV',
-//     contactor: 1,
-//     profile: ''
-//   },
-//   '1': {
-//     line: 1,
-//     tbname: 'RMgnK93rkoAazbqdQ4yBG95Z1YXGx6pmwBeVEP2O',
-//     contactor: 0,
-//     profile: '{"intervals":[{"value":0,"end_time":"20:00","start_time":"13:00"},{"value":1,"end_time":"10:00","start_time":"20:00"},{"value":0,"end_time":"10:20","start_time":"10:00"},{"value":1,"end_time":"10:40","start_time":"10:20"},{"value":0,"end_time":"11:00","start_time":"10:40"},{"value":1,"end_time":"11:30","start_time":"11:00"},{"value":0,"end_time":"11:50","start_time":"11:30"},{"value":1,"end_time":"13:00","start_time":"11:50"}],"astro_clock":false,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
-//   },
-//   '2': {
-//     line: 2,
-//     tbname: 'dlE1VQjYrNx9gZRmb38gG08oLBO4qaAk2M6JPnG7',
-//     contactor: 0,
-//     profile: '{"intervals":[{"value":0,"end_time":"20:00","start_time":"13:00"},{"value":1,"end_time":"10:00","start_time":"20:00"},{"value":0,"end_time":"10:20","start_time":"10:00"},{"value":1,"end_time":"10:40","start_time":"10:20"},{"value":0,"end_time":"11:00","start_time":"10:40"},{"value":1,"end_time":"11:30","start_time":"11:00"},{"value":0,"end_time":"11:50","start_time":"11:30"},{"value":1,"end_time":"13:00","start_time":"11:50"}],"astro_clock":false,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
-//   },
-//   '3': {
-//     line: 3,
-//     tbname: 'vnmG4kJxaXWNBgMQq0D7Aj5e9oZzOAlr6LdR3w2V',
-//     contactor: 0,
-//     profile: '{"intervals":[{"value":0,"end_time":"20:30","start_time":"13:00"},{"value":1,"end_time":"00:10","start_time":"20:30"},{"value":0,"end_time":"13:00","start_time":"05:40"},{"value":1,"end_time":"05:40","start_time":"00:10"}],"astro_clock":true,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
-//   }
-// }
-
-
-
-
-
+exports.id = 'dido_controller';
+exports.title = 'DIDO_Controller';
+exports.version = '2.0.0';
+exports.group = 'Worksys';
+exports.color = '#2134B0';
+exports.input = 3;
+exports.output = ["red", "white", "yellow"];
+exports.click = false;
+exports.author = 'Daniel Segeš';
+exports.icon = 'bolt';
+exports.options = { edge: "undefined" };
+
+exports.html = `<div class="padding">
+  <div class="row">
+    <div class="col-md-6">
+      <div data-jc="textbox" data-jc-path="edge" data-jc-config="placeholder:undefined;required:true" class="m">Edge TB Name</div>
+    </div>
+  </div>
+</div>`;
+
+exports.readme = `# Sets RS232 port and all digital pins on device. Then it starts to receive data from sensors.
+It receives:
+
+rotary_switch_state,
+rotary_switch_state,
+door_condition,
+state_of_breaker,
+state_of_contactor,
+twilight_sensor
+`;
+
+/*
+we open rsPort "/dev/ttymxc0" and set digital input and output pins with "setRSPortData"
+Currently we are interested in pins no. 1,2,3,6,8,9,10,16
+pins number 11, 12, 13 (we receive 10,11,12 in rsPortReceivedData) are "stykace"
+When port receives data, it must be exactly 4 bytes long. Second byte is pin, that changed its value, fourth byte is value itself.
+After that, we set this value to "previousValues[allPins[whichpin]]" variable
+*/
+
+
+/*
+RVO objekt:
+state_of_main_switch  -  sem sa bude reportovať stav hlavného ističa : 0-> off  1-> on   (toto nie je na platforme, ale Rado to už do entity type doplnil)
+rotary_switch_state      - sem by sa mal reportovať stav vstupov manual a auto podľa nasledovnej logiky:
+                                               Manual = 1  a Auto = 0  -> vyreportuje Manual
+                                               Manual = 0  a Auto = 0  -> vyreportuje Off
+                                               Manual = 0  a Auto = 1  -> vyreportuje Automatic
+
+door_condition                - tuto ide pin 6, dverový kontakt ->         1 -> vyreportuje Closed, 0 -> vyreportuje Open
+twilight_sensor                - hodnotu, ktorú vracia ten analógový vstup (17) treba poslať sem ako float number. Zrejme tu potom pridáme nejaký koeficient prevodu na luxy
+
+zjavne nám v jsone chýba stav hlavného ističa. Musíme to potom doplniť
+
+Na každú líniu:
+state_of_breaker            - podľa indexu ističa sa reportuje jeho stav, teda istič 1 na líniu 1:  0-> off             1-> on
+state_of_contactor        - podľa indexu stykača sa reportuje jeho stav, teda stykač 1 na líniu 1: 0-> off     1-> on
+                          momentálne sa stav zmení len keď vo flow klikneš aby sa zmenil, ale tá zmena by sa mala ukázať aj na platforme
+*/
+
+
+//globals
+//FIRMWARE version
+FLOW.OMS_edge_fw_version = "2024-07-08";//rok-mesiac-den
+FLOW.OMS_edgeName = "";
+FLOW.OMS_maintenance_mode = false;
+
+//dynamic values
+FLOW.OMS_masterNodeIsResponding = true; //cmd_manager
+//FLOW.OMS_brokerready = false //wsmqttpublish
+FLOW.OMS_no_voltage = new Set();//modbus_citysys - elektromer
+
+//see loadSettings() in cmd_manager
+FLOW.OMS_language = "en";//cmd_manager
+FLOW.OMS_rvo_name = "";//cmd_manager
+FLOW.OMS_rvo_tbname = "";//relaysData
+FLOW.OMS_temperature_adress = "";//cmd_manager
+//-----------------------------------------------
+
+let alarmStatus = "OFF";
+
+const SEND_TO = {
+  debug: 0,
+  tb: 1,
+  cmd_manager: 2
+}
+
+var log4js = require("log4js");
+var path = require('path');
+
+log4js.configure({
+  appenders: {
+    errLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'err.txt') },
+    monitorLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'monitor.txt') },
+    console: { type: 'console' }
+  },
+  categories: {
+    errLogs: { appenders: ['console', 'errLogs'], level: 'error' },
+    monitorLogs: { appenders: ['console', 'monitorLogs'], level: 'trace' },
+    //another: { appenders: ['console'], level: 'trace' },
+    default: { appenders: ['console'], level: 'trace' }
+  }
+});
+
+const errLogger = log4js.getLogger("errLogs");
+const logger = log4js.getLogger();
+const monitor = log4js.getLogger("monitorLogs");
+
+//console.log(path.join(__dirname, 'err.txt', "-----------------------------"));
+
+/*
+process.on('uncaughtException', function (err) {
+
+  errLogger.error('uncaughtException:', err.message)
+  errLogger.error(err.stack);
+  
+  //process.exit(1);
+})
+*/
+
+//USAGE
+//logger.debug("text")
+//monitor.info('info');
+//errLogger.error("some error");
+
+exports.install = function(instance) {
+
+  process.on('uncaughtException', function (err) {
+
+    //TODO send to service
+  
+    errLogger.error('uncaughtException:', err.message)
+    errLogger.error(err.stack);
+
+    errorHandler.sendMessageToService(err.message + "\n" + err.stack, 0, "js_error");
+    
+    //process.exit(1);
+  })
+
+  let previousValues = {temperature: 0};
+  let rsPortReceivedData = [];
+
+  let twilight_sensor_interval = 5;//minutes
+  let twilight_sensor = [];
+  const twilight_sensor_array = [];
+  let twilightError = false;
+
+  let edgeName = "";
+
+  monitor.info("DI_DO_Relay_Controller installed");
+
+  //key is PIN number , line: 0 = RVO
+  /*
+  let conversionTable = {
+    "1": {tbname: "", type: "state_of_main_switch", "line": 0}, //state_of_main_switch  pin1
+    "2": {tbname: "", type: "rotary_switch_state", "line": 0}, //rotary_switch_state  - poloha manual = pin2
+    "3": {tbname: "", type: "rotary_switch_state", "line": 0}, //rotary_switch_state - poloha auto = pin3
+    "4": {tbname: "", type: "power_supply", "line": 0},
+    "5": {tbname: "", type: "battery", "line": 0},
+    "6": {tbname: "", type: "door_condition", "line": 0}, // door_condition = pin6, 1 -> vyreportuje Closed, 0 -> vyreportuje Open
+    "8": {tbname: "", type: "state_of_breaker", "line": 1}, // state_of_breaker linia 1  0=off, 1=on
+    "9": {tbname: "", type: "state_of_breaker", "line": 2}, // state_of_breaker linia 2  0=off, 1=on
+    "10": {tbname: "", type: "state_of_breaker", "line": 3}, // state_of_breaker linia 3  0=off, 1=on
+    "11": {tbname: "", type: "state_of_contactor", "line": 1}, // state_of_contactor linia 1  0=off, 1=on
+    "12": {tbname: "", type: "state_of_contactor", "line": 2}, // state_of_contactor linia 2  0=off, 1=on
+    "13": {tbname: "", type: "state_of_contactor", "line": 3}, // state_of_contactor linia 3  0=off, 1=on
+    "16": {tbname: "", type: "twilight_sensor", "line": 0}, // twilight_sensor = pin16
+  };
+  */
+ 
+  const dbPins = TABLE("pins");
+  let pinsData = {};//key is pin
+
+  const dbRelays = TABLE("relays");
+  let relaysData = {};//key is line
+
+  //status for calculating Statecodes
+  let deviceStatuses = {};//key is device name: temperature,....
+  deviceStatuses["state_of_main_switch"] = "Off";//Hlavný istič
+  deviceStatuses["rotary_switch_state"] = "Off";//Prevádzkový mód
+  deviceStatuses["door_condition"] = "closed";//Dverový kontakt
+  deviceStatuses["em"] = "OK";//elektromer rvo
+  deviceStatuses["temperature"] = "OK";//templomer
+  deviceStatuses["battery"] = "OK";//Batéria
+  deviceStatuses["power_supply"] = "OK";//Zdroj
+  deviceStatuses["master_node"] = "OK";//MN - FLOW.OMS_masterNodeIsResponding
+  deviceStatuses["no_voltage"] = "OK";//FLOW.OMS_no_voltage - výpadok napätia na fáze
+
+  deviceStatuses["state_of_breaker"] = {};//"Off";//Istič
+  deviceStatuses["state_of_contactor"] = {};//"Off";//Stykač
+  deviceStatuses["twilight_sensor"] = "OK"; //lux sensor
+
+  /*
+  dbRelays.on('change', function(doc, old) {
+    console.log("'DI_DO_Controller - dbRelays.on('change'");
+    instance.send(SEND_TO.cmd_manager, "reload_relays");
+  });
+  */
+
+  const SerialPort = require('serialport');
+  const WebSocket = require('ws');
+
+  let ws = null;
+  let rsPort = null;
+  
+  //const { exec } = require('child_process');
+  const { openPort, runSyncExec, writeData } = require('./helper/serialport_helper.js');
+  const { bytesToInt, resizeArray } = require('./helper/utils');
+  const { promisifyBuilder, makeMapFromDbResult } = require('./helper/db_helper.js');
+  const { sendNotification, ERRWEIGHT } = require('./helper/notification_reporter.js');
+  const bitwise = require('bitwise');
+
+  const ErrorToServiceHandler = require('./helper/ErrorToServiceHandler.js');
+  const errorHandler = new ErrorToServiceHandler();
+
+  //let useTurnOffCounter = false;
+  //let turnOffCounter = 0;
+  let controller_type = FLOW.OMS_controller_type //"lm" or "unipi" //logicMachine
+  if(controller_type == "") controller_type = "lm";
+
+  console.log(exports.title, "controller type: ", controller_type);
+
+  async function loadAllDb()
+  {
+    let responsePins = await promisifyBuilder(dbPins.find());
+    pinsData = makeMapFromDbResult(responsePins, "pin");
+
+    let responseRelays = await promisifyBuilder(dbRelays.find());
+    relaysData = makeMapFromDbResult(responseRelays, "line");
+
+    FLOW.OMS_rvo_tbname = relaysData[0].tbname;
+
+    if(controller_type === "lm")
+    {
+      handleRsPort();
+    }
+    else if(controller_type === "unipi")
+    {
+      handleWebSocket();
+    }
+    else {
+      errLogger.debug("UNKNOWN controller_type:", controller_type);
+    }
+  } 
+
+
+  function initialSetting()
+  {
+    //force turn off relays & set tbname
+    let keys = Object.keys(pinsData);
+    for(let i = 0; i < keys.length; i++)
+    {
+      let key = keys[i];
+      let line  = pinsData[key].line;
+
+      if(line != undefined)
+      {
+        if(relaysData[line] != undefined)
+        {
+          pinsData[key].tbname = relaysData[line].tbname;
+
+          relaysData[line].contactor = 0;
+        }
+        else
+        {
+          errLogger.error("CRITICAL!!! undefined relay", relaysData[line], line);
+
+          //sendNotification("set port ", edgeName, ERRWEIGHT.CRITICAL, "local database is corrupted", "", SEND_TO.tb, instance, null );
+          sendNotification("set port ", edgeName, "local_database_is_corrupted", {}, "", SEND_TO.tb, instance );
+        }
+      }
+
+      if(pinsData[key].type == "state_of_contactor")
+      {
+        let pin = key - 1;
+        if(controller_type === "unipi") pin = key;
+        
+        //this will modify database
+        let forceTurnOff = true;
+        turnOffLine(line, pin, forceTurnOff, "turn off on startup");
+      }
+    }
+
+    //report RVO version relaysData[0].tbname;
+    let values = {};
+    values["edge_fw_version"] = FLOW.OMS_edge_fw_version;
+    values["maintenance_mode"] = FLOW.OMS_maintenance_mode;
+    values["status"] = "OK";
+
+    edgeName = relaysData[0].tbname;
+    FLOW.OMS_edgeName = edgeName;
+
+    dataToTb = {
+      [edgeName]: [
+        {
+          "ts": Date.now(),
+          "values": values
+        }
+      ]
+    }
+
+    instance.send(SEND_TO.tb, dataToTb);
+
+    let time = 3*1000;
+    setTimeout(function(){
+      instance.send(SEND_TO.cmd_manager, {sender: "dido_controller", cmd: "buildTasks"});
+
+      sendNotification("rsPort.open()", edgeName, "flow_start", {}, "", SEND_TO.tb, instance );
+      monitor.info("-->FLOW bol spustený", edgeName, FLOW.OMS_edge_fw_version);
+
+    }, time);
+  }
+
+
+  function handleRsPort()
+  {
+    //TODO build according to pins!!!
+    //! rsPort to open are the same for lm and unipi and electromer ("/dev/ttymxc0")
+    const setRSPortData = [0xAA,6,6,6,6,6,6,0,6,6,6,1,1,1,1,0,0,10,10,10,10,10,10,0,10,10,10,0,0,0,0,0,0,5,0,0,0,15,15,15,15,15,15,0,15,15,15,0,0,0,0,0,0,30,0,0,0];
+    rsPort = new SerialPort("/dev/ttymxc0", { autoOpen: false });
+
+    rsPort.on('error', function(err) {
+      logger.debug("rsPort opened error - failed", err.message);
+      instance.send(SEND_TO.debug, err.message);
+
+      errorHandler.sendMessageToService( exports.title + " rsPort opened error - failed: " + err.message);
+    })
+
+    rsPort.on('open', async function() {
+  
+      await runSyncExec("stty -F /dev/ttymxc0 115200 min 1 time 5 ignbrk -brkint -icrnl -imaxbel -opost -isig -icanon -iexten -echo -echoe -echok -echoctl -echoke").then(function (status) {     
+
+        //set port
+        rsPort.write(Buffer.from(setRSPortData), function(err) {
+          monitor.info(exports.title + "--->Digital in_out has been set (runSyncExec was sucessfull)");
+
+          turnOffAlarm();
+
+          //useTurnOffCounter = true;
+          //turnOffCounter = relaysData.length - 1;
+
+          initialSetting();
+        })
+
+      }).catch(function (reason) {
+        //instance.send(SEND_TO.debug, exports.title + " runSyncExec - promise rejected:" + reason);
+        errLogger.error( exports.title + " runSyncExec - promise rejected:" + reason);
+
+        errorHandler.sendMessageToService( exports.title + " runSyncExec - promise rejected:" + reason);
+      });
+  
+    });
+
+  
+    rsPort.on('data', function (data){
+  
+      rsPortReceivedData = [...rsPortReceivedData, ...data];
+      
+      if (rsPortReceivedData[0] != 85) {
+        rsPortReceivedData = [];
+        return;
+      }
+  
+      let l = rsPortReceivedData.length;
+  
+      if (l < 4 ) return;
+  
+      if (l > 4 ) { 
+  
+        // if array length is greater than 4, we take first 4 byte and do the logic, second 4 bytes, do the logic and so on
+        let i, j, temparray, chunk = 4;
+        for ( i = 0, j = l; i < j; i += chunk ) {
+            temparray = rsPortReceivedData.slice(i, i + chunk);
+      
+            if ( temparray.length < 4 ){
+              rsPortReceivedData = [...temparray];
+              return;
+            }
+  
+            switchLogic(temparray);
+        }
+  
+        rsPortReceivedData = [];
+        return;
+      }
+  
+      switchLogic(rsPortReceivedData);
+      
+      rsPortReceivedData = [];
+      
+    });
+    
+    rsPort.on("close", () => {
+      rsPort.close();
+    })
+
+    rsPort.open();
+
+  }
+
+
+  function handleWebSocket() {
+
+    //to keep websocket opened, we send request every 150 seconds
+    let startRequests = null;
+
+    console.log("handleWebSocket function called");
+    ws = new WebSocket('ws:/0.0.0.0:1234/ws');
+
+    ws.onopen = function open() {
+    
+      instance.send(0, exports.title + " running");
+      turnOffAlarm();
+
+      // useTurnOffCounter = true;
+      // turnOffCounter = relaysData.length - 1;
+      initialSetting();
+      ws.send(JSON.stringify({"cmd":"all"}));
+
+      // we request dev info about neuron device from evok to keep websocket connection alive
+      // for some reason this request returns no data, but connection keeps alive
+      // https://evok.api-docs.io/1.0/mpqzDwPwirsoq7i5A/websocket
+      startRequests = setInterval(() => {
+        // console.log(" *** data from evok requested");
+        ws.send(JSON.stringify({"cmd":"filter", "dev": ["neuron"]}));
+      }, 150000)
+    };
+  
+// SAMPLE DATA FROM WEBSOCKET
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_07',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     value: 0,
+//     circuit: '1_08',
+//     debounce: 50,
+//     counter: 0,
+//     counter_mode: 'Enabled',
+//     dev: 'input',
+//     mode: 'Simple'
+//   },
+    ws.onmessage = function(data) {
+
+      data = JSON.parse(data.data);
+
+      // data comes in array except of "temperature" ==> it comes as an object
+      if(!Array.isArray(data)) 
+      {
+        let value = data['value'];
+
+        // temperature value comes very often. To handle it, we check if it change for more than 0.2 degrees, if yes, we send to TB
+        if(Math.abs(previousValues["temperature"] - value) > 0.21 )
+        {
+          const dataToTb = {
+            [FLOW.OMS_rvo_tbname]: [
+              {
+                "ts": Date.now(),
+                "values": {temperature: value}
+              }
+            ]
+          };
+          
+          deviceStatuses["temperature"] = "OK";
+          previousValues["temperature"] = value;
+          instance.send(SEND_TO.tb, dataToTb);
+        }
+        return;
+      }
+
+      data.map(item => {
+        
+        let value = item['value'];
+        let pin = item["dev"] + item["circuit"];  // for example "relay1_03" or "input1_01"
+
+        if (pin == undefined) return;      
+        switchLogic(pin, value);
+      })
+    }
+  
+
+    ws.on('error', (err) => {
+      monitor.info('websocket error, reconnect')
+      instance.send(SEND_TO.debug, err.message);
+      clearInterval(startRequests);
+      ws = null;
+      setTimeout(handleWebSocket, 1000);
+    })
+
+
+    ws.onclose = function(){
+      // connection closed, discard old websocket and create a new one in 5s
+      // stopRequests();
+      monitor.info('websocket onclose, reconnect')
+      clearInterval(startRequests);
+      ws = null;
+      console.log("ws is null now, reconnecting...");
+      setTimeout(handleWebSocket, 1000);
+    }
+  }
+
+  // ! do we need requests every minute ???
+  // const startRequests = () => {
+  //   console.log("startRequest function called");
+  //   start = setInterval(() => {
+  //     // console.log("data from evok requested");
+  //     ws.send(JSON.stringify({"cmd":"filter", "devices": "neuron"}));
+  //     // ws.send(JSON.stringify({"cmd":"filter", "devices":["input", "relay"]}));
+  //   }, 150000)
+  // }
+
+
+  instance.on("close", () => {
+    if(rsPort) rsPort.close();
+    if(ws) ws.close();
+    clearInterval(sendRebuildTasksAt11);
+  })
+
+  loadAllDb();
+
+  function getPin(line)
+  {
+      //conversionTable
+      let keys = Object.keys(pinsData);
+      for(let i = 0; i < keys.length; i++)
+      {
+        let key = keys[i];
+
+        if(pinsData[key].type == "state_of_contactor" && pinsData[key].line == line)
+        {
+          if(rsPort) return key - 1;
+          if(ws) return key;
+        }
+      }
+
+      logger.debug("no pin detected");
+
+      return null;
+  }
+
+
+  function turnOnAlarm()
+  {
+    if(FLOW.OMS_maintenance_mode) return;
+
+    alarmStatus = "ON";
+
+    if(rsPort)
+    {
+      let arr = [0x55];
+      arr.push( 13 );
+      arr.push( 0 );
+      arr.push( 1 );
+      
+      rsPort.write(Buffer.from(arr), function(err) {
+        logger.debug("sirena zapnuta");
+      });
+    }
+    else if(ws)
+    {
+      let cmd = {"cmd": "set", "dev": "relay", "circuit": "1_01", "value": 1};
+      ws.send(JSON.stringify(cmd));
+      logger.debug("sirena zapnuta");
+    }
+  }
+
+
+  function turnOffAlarm()
+  {
+    alarmStatus = "OFF";
+
+    if(rsPort)
+    {
+      let arr = [0x55];
+      arr.push( 13 );
+      arr.push( 0 );
+      arr.push( 0 );
+      
+      rsPort.write(Buffer.from(arr), function(err) {
+        logger.debug("sirena vypnuta");
+      });
+    }
+    else if(ws)
+    {
+      let cmd = {"cmd": "set", "dev": "relay", "circuit": "1_01", "value": 0};
+      ws.send(JSON.stringify(cmd));
+      logger.debug("sirena vypnuta");
+    }
+  }
+
+
+  function reportLineStatus(line)
+  {
+    //Tá hodnota by mala fungovať tak že LSB bit číslo je stav ističa (1 - On, 0 - Off) a druhý bit je stav stýkača (1 - true, 0 - false).
+
+    let tbname = relaysData[line].tbname;
+
+    let bits = [];
+
+    if(deviceStatuses["state_of_breaker"][line] == "On")
+    {
+      bits.push(0);
+    }
+    else bits.push(1);
+
+    if(deviceStatuses["state_of_contactor"][line] == "On")
+    {
+      bits.push(0);
+    }
+    else bits.push(1);
+
+    resizeArray(bits, 8, 0);
+
+    let byte = bitwise.byte.write(bits.reverse());
+
+    //console.log("line", line, bits, byte);
+
+    let values = {
+      statecode: byte
+    }
+
+    let dataToTb = {
+      [tbname]: [
+        {
+          "ts": Date.now(),
+          "values": values
+        }
+      ]
+    }
+
+    //console.log(values);
+    
+    instance.send(SEND_TO.tb, dataToTb);
+  }
+
+
+  function turnOnLine(line, pin, force, info)
+  {
+
+    instance.send(SEND_TO.debug, "turn on line " + line );
+    if(force == undefined) force = false;
+
+    if(line == 0)
+    {
+      if(alarmStatus == "ON") turnOffAlarm();
+      FLOW.OMS_maintenance_mode = true;
+
+      let values = {};
+      values["statecode"] = calculateStateCode();
+      values["power_mode"] = "maintenance";
+      let tbname = relaysData[line].tbname;
+      sendTelemetry(values, tbname);
+
+      monitor.info("turnOnLine (line, FLOW.OMS_maintenance_mode)", line, FLOW.OMS_maintenance_mode, info);
+
+      return;
+    }
+
+    if( pin === undefined) pin = getPin(line);
+
+    monitor.info("turnOnLine (line, pin, force)", line, pin, force, info);
+
+    if( pin === undefined) 
+    {
+      monitor.info("pin is undefined!", line);
+      return;
+    }
+
+    
+    if(!force)
+    {
+      if(relaysData[line].contactor == 1) 
+      {
+        instance.send(SEND_TO.debug, "line is already on " + line );
+        logger.debug("turnOnLine: line is already on: ", line);
+        
+        return;
+      }
+    }
+
+    // if(!rsPort.isOpen && !ws)
+    if(!rsPort && !ws)
+    {
+      errLogger.error("dido controller - port or websocket is not opened");
+      return;
+    }
+
+    if(rsPort)
+    {
+      let arr = [0x55];
+      arr.push( pin );
+      arr.push( 0 );
+      arr.push( 1 );
+  
+      rsPort.write(Buffer.from(arr), function(err) {
+        if(err === undefined)
+        {
+          console.log("turnONLine zapisal do rsPortu", line, arr);
+          switchLogic(arr);
+        }
+        else
+        {
+          monitor.info("turnOnLine WRITE error", err);
+        }
+        
+      });
+
+    }
+    else if(ws)
+    {
+      console.log("turnONLine pin (relay)", pin);
+      //pin = "relay1_03" or "input1_01" ... we must make just "1_01" with slice method
+      let cmd = {"cmd": "set", "dev": "relay", "circuit": pin.slice(5), "value": 1};
+      ws.send(JSON.stringify(cmd));
+      //switchLogic(pin, 1)
+    }
+  }
+
+
+  function turnOffLine(line, pin, force, info)
+  {
+    if(force == undefined) force = false;
+
+    if(line == 0)
+    {
+      FLOW.OMS_maintenance_mode = false;
+
+      let values = {};
+      values["statecode"] = calculateStateCode();
+      values["power_mode"] = "automatic";
+      let tbname = relaysData[line].tbname;
+      sendTelemetry(values, tbname);
+
+      return;
+    }
+
+    if( pin === undefined) pin = getPin(line);
+
+    monitor.info("turnOffLine (line, pin, force)", line, pin, force, info);
+
+    if( pin === undefined) 
+    {
+      errLogger.error("pin is undefined!", line);
+      return;
+    }
+
+    if(!force)
+    {
+      if(relaysData[line].contactor == 0) 
+      {
+        instance.send(SEND_TO.debug, "line is already off " + line );
+        logger.debug("turnOffLine: line already off:", line);
+
+        return;
+      }
+    }
+
+    // if(!rsPort.isOpen && !ws)
+    if(!rsPort && !ws)
+    {
+      errLogger.error("di do controller - port or websocket is not opened");
+      return;
+    }
+    
+    if(rsPort)
+    {
+      let arr = [0x55];
+      arr.push( pin );
+      arr.push( 0 );
+      arr.push( 0 );
+  
+      rsPort.write(Buffer.from(arr), function(err) {
+        if(err === undefined)
+        {
+          console.log("turnOffLine zapisal do rsPort-u", line, arr);
+          switchLogic(arr);
+        }
+        else
+        {
+          monitor.info("turnOffLine WRITE error", err);
+        }
+        
+      });
+
+    }
+    else if(ws)
+    {
+      //pin = "relay1_03" or "input1_01" ... we must make just "1_01" with slice method
+      //monitor.info("turnOffLine pin (relay)", pin);
+      let cmd = {"cmd": "set", "dev": "relay", "circuit": pin.slice(5), "value": 0};
+      ws.send(JSON.stringify(cmd));
+      //switchLogic(pin, 0)
+    }
+
+  }
+
+
+  //data from modbus_reader or temperature sensor or twilight sensor or other modbus device
+  instance.on("0", flowdata => {
+
+    if(!flowdata.data instanceof Object) return;
+
+    // console.log('***********************', flowdata.data)
+    instance.send(SEND_TO.debug, flowdata.data);
+
+    // we handle nok status from modbus_reader component and thermometer
+    if(flowdata.data?.status)
+    {
+      const status = flowdata.data.status;
+      if(status == "NOK-twilight_sensor")
+      {
+        deviceStatuses["twilight_sensor"] = "NOK";
+      }
+      else if(status == "NOK-em340" || status == "NOK-em111")
+      {
+        deviceStatuses["em"] = "NOK";
+      }
+      else if(status == "NOK-thermometer")
+      {
+        deviceStatuses["temperature"] = "NOK";
+      }
+    }
+    else if(flowdata.data?.values)
+    {
+      const values = flowdata.data.values;
+      if(values.hasOwnProperty("twilight_sensor"))
+      {
+        instance.send(SEND_TO.cmd_manager, {sender: "dido_controller", cmd: "lux_sensor", value: values["twilight_sensor"]});
+        deviceStatuses["twilight_sensor"] = "OK"
+      }
+      else if(values.hasOwnProperty("temperature"))
+      {
+        deviceStatuses["temperature"] = "OK";
+      }
+      // EM
+      else if(values.hasOwnProperty("total_power") || values.hasOwnProperty("total_energy") || values.hasOwnProperty("power_factor") || values.hasOwnProperty("Phase_1_voltage") || values.hasOwnProperty("Phase_1_current"))
+      {
+        deviceStatuses["em"] = "OK";
+      }
+      else
+      {
+        return;
+      }
+
+      const updateStatus = checkFinalRVOStatus();
+      if(updateStatus) values.status = "OK";
+      
+      sendTelemetry(values, FLOW.OMS_rvo_tbname);
+    }
+
+  })
+
+
+  // we expect array as flowdata.data
+  instance.on("1", flowdata => {
+
+    console.log(flowdata.data);
+
+    if(!flowdata.data instanceof Object) return;
+
+    let obj = flowdata.data;
+    let line = obj.line;
+    let force = obj.force;
+    let info = obj.info;
+
+    if(obj.command == "turnOn") turnOnLine(line, undefined, force, info);
+    else if(obj.command == "turnOff") turnOffLine(line, undefined, force, info);
+    else if(obj.command == "turnOnAlarm") turnOnAlarm();
+    else if(obj.command == "turnOffAlarm") turnOffAlarm();
+
+
+    //! ake data prichadzaju z cmd_manager.js ???
+    //TODO transform to websocket
+    if (Array.isArray(obj)){
+
+      rsPort.write(Buffer.from(obj), function(err) {
+        switchLogic(obj);
+
+        instance.send(SEND_TO.debug, {"WRITE":obj} );
+      });
+    } 
+  })
+
+
+  function calculateStateCode()
+  {
+
+    let bytes = [];
+    let bits = [];
+
+    //Hlavný istič - state_of_main_switch
+    if(deviceStatuses["state_of_main_switch"] == "On") 
+    {
+      bits.push(0);
+    }
+    else if(deviceStatuses["state_of_main_switch"] == "Off") 
+    {
+      bits.push(1);
+    }
+
+    //Prevádzkový mód - Manual, Off, Automatic, maintenance_mode = true/false // DAVA 2 BITY
+    if(!FLOW.OMS_maintenance_mode)
+    {
+      if(deviceStatuses["rotary_switch_state"] == "Manual") 
+      {
+        bits.push(0);
+        bits.push(1);
+      }
+
+      if(deviceStatuses["rotary_switch_state"] == "Automatic") 
+      {
+        bits.push(0);
+        bits.push(0);
+      }
+
+      if(deviceStatuses["rotary_switch_state"] == "Off") 
+      {
+        bits.push(1);
+        bits.push(0);
+      }
+    }
+    else{
+      bits.push(1);
+      bits.push(1);
+    }
+
+    //Dverový kontakt
+    if(deviceStatuses["door_condition"] == "closed")
+    {
+      bits.push(0);
+    }
+    else 
+    {
+      bits.push(1);
+    }
+
+    //EM
+    if(deviceStatuses["em"] == "NOK") 
+    {
+      bits.push(1);
+    }
+    else 
+    {
+      bits.push(0);
+    }
+
+    //Teplomer
+    if(deviceStatuses["temperature"] == "NOK") 
+    { 
+      bits.push(1);
+    }
+    else 
+    { 
+      bits.push(0);
+    }
+
+    //Batéria
+    if(deviceStatuses["battery"] == "NOK")
+    { 
+      bits.push(1);
+    }
+    else
+    { 
+      bits.push(0);
+    }
+
+    //Zdroj
+    if(deviceStatuses["power_supply"] == "NOK") 
+    {
+      bits.push(1);
+    }
+    else 
+    {
+      bits.push(0);
+    }
+
+    //MN
+    if(deviceStatuses["master_node"] == "NOK")
+    {
+      bits.push(1);
+    }
+    else 
+    {
+      bits.push(0);
+    }
+
+    //výpadok napätia na fáze
+    if(deviceStatuses["no_voltage"] == "NOK") 
+    {
+      bits.push(1);
+    }
+    else
+    {
+      bits.push(0);
+    }
+
+    if(deviceStatuses["twilight_sensor"] == "NOK") 
+    {
+      bits.push(1);
+    }
+    else 
+    {
+      bits.push(0);
+    }
+    
+    // doplnime do 16 bitov (2 byty)
+    for(let i = bits.length; i < 16; i++)
+    {
+      bits.push(0);
+    }
+ 
+    // console.log("calculateStateCode - deviceStatuses", deviceStatuses);
+    // console.log("calculateStateCode", bits);
+
+    let byte0 = bitwise.byte.write(bits.slice(0,8).reverse());
+    let byte1 = bitwise.byte.write(bits.slice(8).reverse());
+
+    let byte = bytesToInt([byte1, byte0]);
+
+    //console.log("calculateStateCode -------------------", byte);
+    
+    return byte;
+  }
+
+
+  function checkFinalRVOStatus() {
+
+    // we check if any of these pins values are 0 --> it means status RVO is "NOK"
+    // pinIndex 6 is door_condition - if open in maintenance mode - status = OK
+
+    //set RVO state
+
+    let status = "OK";
+
+    if(deviceStatuses["em"] == "NOK")
+    {
+        let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: EM status is NOK");
+        if(writeToFile) errLogger.error("checkFinalRVOStatus: EM status is NOK");
+
+        status = "NOK";
+    }
+
+    if(deviceStatuses["twilight_sensor"] == "NOK")
+    {
+        let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: twilight_sensor is NOK");
+        if(writeToFile) errLogger.error("checkFinalRVOStatus: twilight sensor is NOK");
+
+        status = "NOK";
+    }
+
+    //ak teplomer NOK, rvo nok
+    if(deviceStatuses["temperature"] == "NOK")
+    {
+    
+        let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: temperature status is NOK");
+        if(writeToFile) errLogger.error("checkFinalRVOStatus: temperature status is NOK");
+
+        status = "NOK";
+    }
+    
+    if(status == "OK")
+    {
+      let pinIndexes = [1, 4, 6];
+      if(controller_type == 'unipi') pinIndexes = ['input1_01', 'input1_04', 'input1_05'];
+
+      //console.log('-------- previousValues', previousValues);
+
+      for (const pinIndex of pinIndexes) {
+        if (previousValues[pinIndex] === 0) {
+  
+          if ((pinIndex === 6 || pinIndex === 'input1_01' || pinIndex === 'input1_05') && FLOW.OMS_maintenance_mode) continue;
+  
+          let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: value is 0");
+          if(writeToFile) errLogger.error("checkFinalRVOStatus: value is 0",  pinsData[pinIndex].type);
+
+          status = "NOK";
+
+          break;
+        }
+      }
+    }
+
+    // battery status. If value is 1 - battery is NOK
+    if (previousValues[5] === 1)
+    {
+        let writeToFile = errorHandler.processMessage("checkFinalRVOStatus: NOK status generated by battery");
+        if(writeToFile) errLogger.error("checkFinalRVOStatus: NOK status generated by battery");
+
+        status = "NOK";
+    }
+
+    //console.log("FLOW.OMS_masterNodeIsResponding", FLOW.OMS_masterNodeIsResponding);
+
+    if(!FLOW.OMS_masterNodeIsResponding)
+    {
+      //errLogger.error("Master node is not responding");
+      errorHandler.sendMessageToService("Master node is not responding");
+      status = "NOK";
+
+      deviceStatuses["master_node"] = "NOK";
+    }
+    else deviceStatuses["master_node"] = "OK";
+
+    //console.log("checkFinalRVOStatus", status);
+    if(FLOW.OMS_no_voltage.size > 0)
+    {
+        let writeToFile = errorHandler.processMessage("no voltage detected");
+        if(writeToFile) errLogger.error("no voltage detected", FLOW.OMS_no_voltage);
+
+        status = "NOK";
+
+        deviceStatuses["no_voltage"] = "NOK";
+    }
+    else deviceStatuses["no_voltage"] = "OK";
+
+    if(status == "NOK") 
+    {
+      sendTelemetry({status: "NOK"}, FLOW.OMS_rvo_tbname);
+
+      return false;
+    }
+
+    return true;
+  }
+
+
+  // we pass array to function in case of rsPort ==> switchLogic([55,3,0,1]) ==> [[55,3,0,1]]
+  // we pass two values in case of websocket ==> switchLogic("relay1_03",1) ==> ["relay1_03",1]
+  const switchLogic = (...args) => {
+
+    let values = {status: "OK"};
+    let dataToTb, pinIndex, newPinValue, twilight;
+
+    //data from rsPort
+    if(args.length == 1)
+    {
+      pinIndex = args[0][1] + 1;
+      if (pinIndex === 17) pinIndex--;
+      newPinValue = args[0][3];
+      twilight = args[0][2];
+    }
+    //data from websocket
+    else 
+    {
+      pinIndex = args[0];
+      newPinValue = args[1];
+    }
+
+    let obj = pinsData[pinIndex];
+
+    if(obj == undefined)
+    {
+      previousValues[pinIndex] = newPinValue;
+      return;
+    }
+
+    let type = obj.type;
+    let line = obj.line;
+    let tbname = obj.tbname;
+
+    //default value
+    let value  = "On";
+    if(newPinValue === 0) value = "Off";
+
+    //Hlavný istič
+    //! po novom uz 'state of main switch' nemame. Namiesto neho je 'door_condition', kedze mame dvoje dveri
+    //! takze ked pride z evoku signal pre 'input1_05', handlujeme ho ako 'door_condition'
+    if(type === "!!!state_of_main_switch") 
+    {
+      if (newPinValue === 0 && newPinValue !== previousValues[pinIndex]) 
+      {
+        sendNotification("switchLogic", edgeName, "main_switch_has_been_turned_off", {}, "", SEND_TO.tb, instance , "state_of_main_switch");
+        values["status"] = "NOK";
+
+        deviceStatuses["state_of_main_switch"] = "Off";
+      } 
+      else if (newPinValue === 1 && newPinValue !== previousValues[pinIndex]) 
+      {
+        sendNotification("switchLogic", edgeName, "main_switch_has_been_turned_on", {}, "", SEND_TO.tb, instance , "state_of_main_switch");
+
+        deviceStatuses["state_of_main_switch"] = "On";
+      }
+    }
+
+    //Prevádzkový mód
+    if(type == "rotary_switch_state")
+    {
+      // combination of these two pins required to get result
+      let pin2, pin3;
+      if(pinIndex == 2 || pinIndex == "input1_02")
+      {
+        pin2 = newPinValue;
+        pin3 = previousValues[3] || previousValues["input1_03"];
+
+        if(pin3 == undefined)
+        {
+          previousValues[pinIndex] = newPinValue;
+          return;
+        } 
+      }
+      else if(pinIndex  == 3 || pinIndex == "input1_03")
+      {
+        pin3 = newPinValue;
+        pin2 = previousValues[2] || previousValues["input1_02"];
+
+        if(pin2 == undefined)
+        {
+          previousValues[pinIndex] = newPinValue;
+          return;
+        } 
+      }
+
+      //console.log('***********************', pin2, pin3)
+      if (pin2 == 1 && pin3 == 0) value = "Manual";
+      if (pin2 == 0 && pin3 == 0) value = "Off";
+      if (pin2 == 0 && pin3 == 1) value = "Automatic";
+
+      deviceStatuses["rotary_switch_state"] = value;
+
+      //automatic - profilu pre nody sa vykonavaju
+      //ak je spracovany, a automatic - tak ho zapnem
+      //ak nie je spracovany, iba profil zapisem
+      
+      instance.send(SEND_TO.cmd_manager, {sender: "dido_controller", cmd: "rotary_switch_state", value: value});
+
+      //console.log("rotary_switch_state pin", pin2, pin3, value);
+    }
+    //Zdroj - pin 4
+    else if (type === "power_supply") 
+    {
+      if (newPinValue === 0 && newPinValue !== previousValues[pinIndex]) 
+      {
+        //sendNotification("switchLogic", edgeName, ERRWEIGHT.ALERT, "Power supply is not OK", "", SEND_TO.tb, instance);
+        sendNotification("switchLogic", edgeName, "power_supply_has_disconnected_input", {}, "", SEND_TO.tb, instance, "power_supply");
+        values["status"] = "NOK";
+
+        deviceStatuses["power_supply"] = "NOK";
+      }
+      else if (newPinValue === 1 && newPinValue !== previousValues[pinIndex])
+      {
+        //sendNotification("switchLogic", edgeName, ERRWEIGHT.NOTICE, "Power supply is is OK", "", SEND_TO.tb, instance);
+        sendNotification("switchLogic", edgeName, "power_supply_works_correctly", {}, "", SEND_TO.tb, instance, "power_supply");
+
+        deviceStatuses["power_supply"] = "OK";
+      }
+    }
+    //Batéria - pin 5
+    else if (type === "battery") 
+    {
+      if (newPinValue === 1 && newPinValue !== previousValues[pinIndex]) 
+      {
+        //sendNotification("switchLogic", edgeName, ERRWEIGHT.ERROR, "Battery is not OK", "", SEND_TO.tb, instance);
+        sendNotification("switchLogic", edgeName, "battery_level_is_low", {}, "", SEND_TO.tb, instance, "battery_level");
+        values["status"] = "NOK";
+
+        deviceStatuses["battery"] = "NOK";
+      }
+      else if (newPinValue === 0 && newPinValue !== previousValues[pinIndex])
+      {
+        //sendNotification("switchLogic", edgeName, ERRWEIGHT.NOTICE, "Battery is OK", "", SEND_TO.tb, instance);
+        sendNotification("switchLogic", edgeName, "battery_level_is_ok", {}, "", SEND_TO.tb, instance, "battery_level");
+
+        deviceStatuses["battery"] = "OK";
+      }
+    }
+    //Dverový kontakt - pin 6
+    //! Po novom mame dva dverove kontakty, nie jeden. Druhy je teraz tam, kde bol digital input "state_of_main_switch"
+    //! preto ked pride z evoku signal z input1_05, co bol predytm "main switch" handlujeme ho teraz ako 'door_condition'
+    else if(type == "door_condition" || type === "state_of_main_switch")
+    {
+      newPinValue === 0 ? value = "open" : value = "closed";
+
+      if (newPinValue != previousValues[pinIndex])
+      {
+        //sendNotification("switchLogic", edgeName, ERRWEIGHT.NOTICE, `RVO door ${value}`, "", SEND_TO.tb, instance, "rvo_door");
+        //TODO ? sendNotification("switchLogic", edgeName, "door_value", {value: value}, "", SEND_TO.tb, instance, "rvo_door");
+      }
+
+      if (value === "open" && FLOW.OMS_maintenance_mode)
+      {
+        sendNotification("switchLogic", edgeName, "door_has_been_open", {}, "", SEND_TO.tb, instance, "rvo_door");
+      }
+
+      if (value === "open" && !FLOW.OMS_maintenance_mode)
+      {
+        //sendNotification("switchLogic", edgeName, ERRWEIGHT.WARNING, "RVO open door out of maintenance mode", "", SEND_TO.tb, instance);
+        sendNotification("switchLogic", edgeName, "door_has_been_open_without_permision_alarm_is_on", {}, "", SEND_TO.tb, instance, "rvo_door");
+        values["status"] = "NOK";
+
+        //console.log(door_has_been_open_without_permision_alarm_is_on);
+
+        // zapneme sirenu
+        // ak sa otvoria dvere len na elektromeri (type === "state_of_main_switch") alarm sa nema spustit. alarm sa spusti len ked sa otvoria hlavne dvere (type === "door_condition")
+        if(type === "door_condition") turnOnAlarm();
+      }
+
+      if (value === "closed")
+      {
+        if(alarmStatus == "ON") turnOffAlarm();
+        //turnOffAlarm();
+
+        sendNotification("switchLogic", edgeName, "door_has_been_closed", {}, "", SEND_TO.tb, instance, "rvo_door");
+      }
+
+      deviceStatuses["door_condition"] = value;
+
+    }
+    //lux sensor
+    else if(type == "twilight_sensor")
+    {
+      //! TODO - to show nok status, if lux value is not changing more then 10 times. From unipi for example comes value from 0-1000. 
+      //Daylight is far more than 1000. So most of the day, when it is sunshine comes just value 1000. But lux sensor is not NOK.
+      //This is not the case in LM. If value from LM is the same 10x, there is 99% possibility, that sensor is NOK.
+      values["status"] = "OK";
+      value = newPinValue;
+
+      if(controller_type === 'lm') 
+      {
+        value = parseFloat(newPinValue + (256*twilight));
+
+        let now = new Date();
+        //new Date(dusk.getTime()
+
+        let obj = {timestamp: now.getTime(), value: value};
+
+        //test
+        //twilight_sensor_interval = 1;
+
+        twilight_sensor.push(obj);
+        //twilight_sensor_array.push(value);
+        
+        //check if we receive just 1 constant value from lux sensor ==> error
+        if(twilight_sensor_array.length > 10) {
+
+          let set = new Set(twilight_sensor_array);
+          if(set.size === 1 && !twilightError) 
+          {
+            twilightError = true;
+            values["status"] = "NOK";
+            let value = twilight_sensor_array.shift();
+            //sendNotification("switchLogic", edgeName, ERRWEIGHT.ERROR, "Lux sensor error", {"Repeating value": value}, SEND_TO.tb, instance );
+            newPinValue = 0;
+          }
+          else if (set.size !== 1 && twilightError)
+          {
+            //sendNotification("switchLogic", edgeName, ERRWEIGHT.NOTICE, "Lux sensor is working again", "", SEND_TO.tb, instance );
+            twilightError = false;
+            twilight_sensor_array.shift();
+            newPinValue = value;
+          }
+          else if (set.size === 1 && twilightError) 
+          {
+            values["status"] = "NOK";
+            twilight_sensor_array.shift();
+            newPinValue = 0;
+          }
+        }
+
+
+        let diff = twilight_sensor[ twilight_sensor.length - 1 ].timestamp - twilight_sensor[0].timestamp;
+        if(diff >= twilight_sensor_interval * 60 * 1000)
+        {
+          const average = twilight_sensor.reduce((acc, c) => acc + c.value, 0) / twilight_sensor.length;
+          instance.send(SEND_TO.cmd_manager, {sender: "dido_controller", cmd: "lux_sensor", value: average});
+
+          twilight_sensor = [];
+
+          //console.log("lux_sensor send", average);
+        }
+        //else console.log("lux_sensor", value, diff);
+      }
+    }
+    else if(type == "state_of_contactor")
+    {
+      //sendNotification("switchLogic", edgeName, ERRWEIGHT.INFO, `State of contactor ${line} is now ${value}`, "", SEND_TO.tb, instance );
+
+      if(!(deviceStatuses["state_of_contactor"][line] == value))
+      {
+        sendNotification("switchLogic", edgeName, "state_of_contactor_for_line", {line: line, value: value}, "", SEND_TO.tb, instance );
+      }
+      else
+      {
+        deviceStatuses["state_of_contactor"][line] = value;
+      } 
+
+      //true, false
+      if(value === "On") value = true;
+      else if(value === "Off") value = false;      
+
+      //modify table relays
+      dbRelays.modify({ contactor: newPinValue }).where("line", line).make(function(builder) {
+
+        builder.callback(function(err, response) {
+
+          /*
+          if(useTurnOffCounter)
+          {
+            turnOffCounter--;
+
+            if(turnOffCounter <= 0)
+            {
+              useTurnOffCounter = false;
+            }
+          }
+          */
+            
+            if(err == undefined)
+            {
+
+              let time = 0;
+              if(value) time = 1000 * 10;//10 sekund
+
+              let dataChanged = false;
+              if(relaysData[line].contactor != value) dataChanged = true;
+              relaysData[line].contactor = value;
+
+              //ak bola predchadzajuci stav off a novy stav je on, budu sa nastavovat nespracovane node profiles
+              //a budu sa odosielat commandy, tie vsak mozu zlyhat, a preto potrebujeme ich spusti trochu neskor
+              
+              setTimeout(function(){
+                instance.send(SEND_TO.cmd_manager, {sender: "dido_controller", cmd: "reload_relays", line: line, time: time, value: value, dataChanged: dataChanged});
+              }, time);
+
+              reportLineStatus(line);
+
+              
+            }
+            else 
+            {
+              errLogger.error("modify table relays failed", err);
+            }
+
+
+          });
+        });
+    }
+
+    if(type === "state_of_breaker")
+    {
+
+      let valueChanged = false;
+      if(newPinValue != previousValues[pinIndex]) valueChanged = true;
+
+      if(valueChanged)
+      {
+        instance.send(SEND_TO.cmd_manager, {sender: "dido_controller", cmd: "state_of_breaker", value: value, line: line});
+
+        //mame iba 3 istice. vyreportujeme a ohandlujeme liniu na tom istom istici ako paralelna linia (napr linia 1, paralelna s nou je linia 4, key je string "4")
+        // ak je 7 linii, na 1 istici je linia 1,4,7
+
+        if(line == 1)
+        {
+
+          const lineOnSameBraker = [4,7];
+
+          for (var i = 0; i < lineOnSameBraker.length; i++) 
+          {
+            if(!relaysData.hasOwnProperty(lineOnSameBraker[i])) continue;
+
+            instance.send(SEND_TO.cmd_manager, {sender: "dido_controller", cmd: "state_of_breaker", value: value, line: lineOnSameBraker[i]});
+
+            deviceStatuses["state_of_breaker"][lineOnSameBraker[i]] = value;
+            reportLineStatus(lineOnSameBraker[i]);
+
+            values[type] = value;
+            const tbname = relaysData[lineOnSameBraker[i]].tbname;
+            sendTelemetry(values, tbname);
+            
+            delete values[type];
+          }
+
+        }
+        else 
+        {
+          const lineOnSameBraker = line + 3 + "";
+
+          if(relaysData.hasOwnProperty(lineOnSameBraker)) 
+          {
+            instance.send(SEND_TO.cmd_manager, {sender: "dido_controller", cmd: "state_of_breaker", value: value, line: line + 3});
+
+            deviceStatuses["state_of_breaker"][line + 3] = value;
+            reportLineStatus(line + 3);
+
+            values[type] = value;
+            const tbname = relaysData[lineOnSameBraker].tbname;
+            sendTelemetry(values, tbname);
+            
+            delete values[type];
+          }
+
+        }
+
+      }
+
+      if(value == "Off") values["status"] = "NOK";
+
+      deviceStatuses["state_of_breaker"][line] = value;
+
+      reportLineStatus(line);
+    }
+
+    values[type] = value;
+    
+    //if(FLOW.OMS_rvo_tbname == tbname) values["statecode"] = calculateStateCode();
+
+    if(pinsData.hasOwnProperty(pinIndex))
+    {
+      let valueChanged = false;
+      if(newPinValue != previousValues[pinIndex]) 
+      {
+        valueChanged = true;
+        //pin was changed
+        previousValues[pinIndex] = newPinValue;
+      }
+  
+      let result = checkFinalRVOStatus();
+      if(!result && line == 0)
+      {
+        values["status"] = "NOK";
+      }
+
+      if(type == "state_of_contactor") valueChanged = true;
+      if(type == "rotary_switch_state") valueChanged = true;
+      if(type === "state_of_breaker")
+      {
+        //console.log(type, values, valueChanged);
+      }
+
+      if(FLOW.OMS_rvo_tbname == "")
+      {
+        console.log("FLOW.OMS_rvo_tbname is EMPTY");
+      }
+
+      if(FLOW.OMS_rvo_tbname == tbname) 
+      {
+        values["statecode"] = calculateStateCode();
+        //console.log('**********************', type, values, valueChanged, FLOW.OMS_rvo_tbname, tbname);
+      }
+
+      if(valueChanged)
+      {
+        sendTelemetry(values, tbname);
+      }
+
+      if(type == "rotary_switch_state")
+      {
+        if(FLOW.OMS_maintenance_mode) value = "maintenance";
+        value = value.toLowerCase();
+
+        let values = {};
+        values["power_mode"] = value;
+
+        sendTelemetry(values, tbname);
+      }
+    }
+    else
+    {
+      logger.debug("no pinIndex", pinsData[pinIndex], pinsData);
+    }
+
+  } 
+
+
+  function sendTelemetry(values, tbname)
+  {
+    let dataToTb = {
+      [tbname]: [
+        {
+          "ts": Date.now(),
+          "values": values
+        }
+      ]
+    }
+
+    instance.send(SEND_TO.tb, dataToTb);
+  }
+
+}
+
+
+
+
+//! incomming data to websocket
+// [
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_08',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_01',
+//     alias: 'al_lights_kitchen',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_02',
+//     alias: 'al_lights_bedroom',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_03',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_04',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_05',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_06',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     glob_dev_id: 1,
+//     modes: [ 'Simple' ],
+//     value: 0,
+//     circuit: '1_07',
+//     pending: false,
+//     relay_type: 'physical',
+//     dev: 'relay',
+//     mode: 'Simple'
+//   },
+//   {
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     value: 0,
+//     circuit: '1_08',
+//     debounce: 50,
+//     counter: 0,
+//     counter_mode: 'Enabled',
+//     dev: 'input',
+//     mode: 'Simple'
+//   },
+//   {
+//     counter_mode: 'Enabled',
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     dev: 'input',
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     debounce: 50,
+//     counter: 1,
+//     value: 1,
+//     alias: 'al_main_switch',
+//     mode: 'Simple',
+//     circuit: '1_01'
+//   },
+//   {
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     value: 1,
+//     circuit: '1_02',
+//     debounce: 50,
+//     counter: 2,
+//     counter_mode: 'Enabled',
+//     dev: 'input',
+//     mode: 'Simple'
+//   },
+//   {
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     value: 1,
+//     circuit: '1_03',
+//     debounce: 50,
+//     counter: 2,
+//     counter_mode: 'Enabled',
+//     dev: 'input',
+//     mode: 'Simple'
+//   },
+//   {
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     value: 0,
+//     circuit: '1_04',
+//     debounce: 50,
+//     counter: 1,
+//     counter_mode: 'Enabled',
+//     dev: 'input',
+//     mode: 'Simple'
+//   },
+//   {
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     value: 0,
+//     circuit: '1_05',
+//     debounce: 50,
+//     counter: 0,
+//     counter_mode: 'Enabled',
+//     dev: 'input',
+//     mode: 'Simple'
+//   },
+//   {
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     value: 0,
+//     circuit: '1_06',
+//     debounce: 50,
+//     counter: 0,
+//     counter_mode: 'Enabled',
+//     dev: 'input',
+//     mode: 'Simple'
+//   },
+//   {
+//     counter_modes: [ 'Enabled', 'Disabled' ],
+//     glob_dev_id: 1,
+//     modes: [ 'Simple', 'DirectSwitch' ],
+//     value: 0,
+//     circuit: '1_07',
+//     debounce: 50,
+//     counter: 0,
+//     counter_mode: 'Enabled',
+//     dev: 'input',
+//     mode: 'Simple'
+//   },
+//   {
+//     interval: 3,
+//     value: 24.5,
+//     circuit: '28744F7791180257',
+//     address: '28744F7791180257',
+//     time: 1631873896.48797,
+//     typ: 'DS18B20',
+//     lost: false,
+//     dev: 'temp'
+//   },
+//   {
+//     bus: '/dev/i2c-2',
+//     interval: 3,
+//     dev: 'owbus',
+//     scan_interval: 300,
+//     circuit: '1',
+//     do_scan: false,
+//     do_reset: false
+//   },
+//   {
+//     glob_dev_id: 1,
+//     last_comm: 0.014672994613647461,
+//     ver2: '0.1',
+//     sn: 42,
+//     circuit: '1',
+//     model: 'S207',
+//     dev: 'neuron',
+//     board_count: 1
+//   },
+//   {
+//     circuit: '1_01',
+//     value: 0,
+//     glob_dev_id: 1,
+//     dev: 'wd',
+//     timeout: 5000,
+//     was_wd_reset: 0,
+//     nv_save: 0
+//   }
+// ]
+
+//! loaded pins_data --> from LM
+// {
+//   '1': { pin: 1, type: 'state_of_main_switch', line: 0 },
+//   '2': { pin: 2, type: 'rotary_switch_state', line: 0 },
+//   '3': { pin: 3, type: 'rotary_switch_state', line: 0 },
+//   '4': { pin: 4, type: 'power_supply', line: 0 },
+//   '5': { pin: 5, type: 'battery', line: 0 },
+//   '6': { pin: 6, type: 'door_condition', line: 0 },
+//   '8': { pin: 8, type: 'state_of_breaker', line: 1 },
+//   '9': { pin: 9, type: 'state_of_breaker', line: 2 },
+//   '10': { pin: 10, type: 'state_of_breaker', line: 3 },
+//   '11': { pin: 11, type: 'state_of_contactor', line: 1 },
+//   '12': { pin: 12, type: 'state_of_contactor', line: 2 },
+//   '13': { pin: 13, type: 'state_of_contactor', line: 3 },
+//   '16': { pin: 16, type: 'twilight_sensor', line: 0 }
+// }
+
+//! pins.table --> from LM
+// pin:number|type:string|line:number
+// *|1|state_of_main_switch|0|...........
+// *|2|rotary_switch_state|0|...........
+// *|3|rotary_switch_state|0|...........
+// *|4|power_supply|0|...........
+// *|5|battery|0|...........
+// *|6|door_condition|0|...........
+// *|8|state_of_breaker|1|...........
+// *|9|state_of_breaker|2|...........
+// *|10|state_of_breaker|3|...........
+// *|11|state_of_contactor|1|...........
+// *|12|state_of_contactor|2|...........
+// *|13|state_of_contactor|3|...........
+// *|16|twilight_sensor|0|...........
+
+//! pins.table --> from UNIPI
+// pin:string|type:string|line:number
+// *|input1_01|state_of_main_switch|0|...........
+// *|input1_02|rotary_switch_state|0|...........
+// *|input1_03|rotary_switch_state|0|...........
+// *|intut1_04|power_supply|0|...........
+// *|input1_05|door_condition|0|...........
+// *|input1_06|state_of_breaker|1|...........
+// *|input1_07|state_of_breaker|2|...........
+// *|input1_08|state_of_breaker|3|...........
+// *|relay1_02|state_of_contactor|1|...........
+// *|relay1_03|state_of_contactor|2|...........
+// *|relay1_04|state_of_contactor|3|...........
+// *|287D8776E0013CE9|temperature|0|...........
+
+
+//! pins_data --> from UNIPI
+// {
+//   '16': { pin: '16', type: 'twilight_sensor', line: 0 },
+//   al_mswitch: { pin: 'al_mswitch', type: 'state_of_main_switch', line: 0 },
+//   al_rswitch1: { pin: 'al_rswitch1', type: 'rotary_switch_state', line: 0 },
+//   al_rswitch2: { pin: 'al_rswitch2', type: 'rotary_switch_state', line: 0 },
+//   al_power: { pin: 'al_power', type: 'power_supply', line: 0 },
+//   al_battery: { pin: 'al_battery', type: 'battery', line: 0 },
+//   al_door: { pin: 'al_door', type: 'door_condition', line: 0 },
+//   al_breaker1: { pin: 'al_breaker1', type: 'state_of_breaker', line: 1 },
+//   al_breaker2: { pin: 'al_breaker2', type: 'state_of_breaker', line: 2 },
+//   al_breaker3: { pin: 'al_breaker3', type: 'state_of_breaker', line: 3 },
+//   al_breaker4: { pin: 'al_breaker4', type: 'state_of_breaker', line: 4 },
+//   al_relay_1: { pin: 'al_relay_1', type: 'state_of_contactor', line: 1 },
+//   al_relay_2: { pin: 'al_relay_2', type: 'state_of_contactor', line: 2 },
+//   al_relay_3: { pin: 'al_relay_3', type: 'state_of_contactor', line: 3 },
+//   al_relay_4: { pin: 'al_relay_4', type: 'state_of_contactor', line: 4 },
+//   '28744F7791180257': { pin: '28744F7791180257', type: 'temperature', line: 0 }
+// }
+
+
+//! relays_data
+// {
+//   '0': {
+//     line: 0,
+//     tbname: 'KjbN4q7JPZmexgdnz2yKQ98YAWwO0Q3BMX6ERLoV',
+//     contactor: 1,
+//     profile: ''
+//   },
+//   '1': {
+//     line: 1,
+//     tbname: 'RMgnK93rkoAazbqdQ4yBG95Z1YXGx6pmwBeVEP2O',
+//     contactor: 0,
+//     profile: '{"intervals":[{"value":0,"end_time":"20:00","start_time":"13:00"},{"value":1,"end_time":"10:00","start_time":"20:00"},{"value":0,"end_time":"10:20","start_time":"10:00"},{"value":1,"end_time":"10:40","start_time":"10:20"},{"value":0,"end_time":"11:00","start_time":"10:40"},{"value":1,"end_time":"11:30","start_time":"11:00"},{"value":0,"end_time":"11:50","start_time":"11:30"},{"value":1,"end_time":"13:00","start_time":"11:50"}],"astro_clock":false,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
+//   },
+//   '2': {
+//     line: 2,
+//     tbname: 'dlE1VQjYrNx9gZRmb38gG08oLBO4qaAk2M6JPnG7',
+//     contactor: 0,
+//     profile: '{"intervals":[{"value":0,"end_time":"20:00","start_time":"13:00"},{"value":1,"end_time":"10:00","start_time":"20:00"},{"value":0,"end_time":"10:20","start_time":"10:00"},{"value":1,"end_time":"10:40","start_time":"10:20"},{"value":0,"end_time":"11:00","start_time":"10:40"},{"value":1,"end_time":"11:30","start_time":"11:00"},{"value":0,"end_time":"11:50","start_time":"11:30"},{"value":1,"end_time":"13:00","start_time":"11:50"}],"astro_clock":false,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
+//   },
+//   '3': {
+//     line: 3,
+//     tbname: 'vnmG4kJxaXWNBgMQq0D7Aj5e9oZzOAlr6LdR3w2V',
+//     contactor: 0,
+//     profile: '{"intervals":[{"value":0,"end_time":"20:30","start_time":"13:00"},{"value":1,"end_time":"00:10","start_time":"20:30"},{"value":0,"end_time":"13:00","start_time":"05:40"},{"value":1,"end_time":"05:40","start_time":"00:10"}],"astro_clock":true,"dawn_lux_sensor":false,"dusk_lux_sensor":false,"dawn_lux_sensor_value":5,"dusk_lux_sensor_value":5,"dawn_astro_clock_offset":0,"dusk_astro_clock_offset":0,"dawn_lux_sensor_time_window":30,"dusk_lux_sensor_time_window":30,"dawn_astro_clock_time_window":60,"dusk_astro_clock_time_window":60}'
+//   }
+// }
+
+
+
+
+
+// {
+//   "jbN4q7JPZmexgdnz2yKbWGDYAWwO0Q3BMX6ERLoV": [
+//     {
+//       "ts": 1700409326353,
+//       "values": {
+//         "_event": {
+//           "type": "notice",
+//           "status": "new",
+//           "source": {
+//             "func": "rsPort.open()",
+//             "component": "1700343402190",
+//             "component_name": "DIDO_Controller",
+//             "edge": "jbN4q7JPZmexgdnz2yKbWGDYAWwO0Q3BMX6ERLoV"
+//           },
+//           "message": "al_shariff_10.0.0.38: FLOW has been started ",
+//           "message_data": ""
+//         }
+//       }
+//     }
+//   ]
+// }
diff --git a/flow/helper/DataToTbHandler.js b/flow/helper/DataToTbHandler.js
index 15b0c0a..8fff312 100644
--- a/flow/helper/DataToTbHandler.js
+++ b/flow/helper/DataToTbHandler.js
@@ -1,163 +1,163 @@
-class DataToTbHandler
-{
-  constructor(index) {
-    this.index = index;
-
-    this.previousValues = {};
-    this.debug = false;
-    this.messageCounter = 0;
-
-    this.sender = "";
-  }
-
-  dump()
-  {
-    console.log("----------------------------");
-    console.log("previousValues", this.previousValues);
-    console.log("----------------------------");
-  }
-
-  setSender(sender)
-  {
-    this.sender = sender;
-  }
-
-  isEmptyObject( obj ) {
-    for ( var name in obj ) {
-        return false;
-    }
-    return true;
-  }
-
-  sendToTb(dataToTb, instance)
-  {
-
-    if(!FLOW.OMS_brokerready)
-    {
-      return dataToTb;
-    }
-
-    let keys = Object.keys(dataToTb);
-
-    if(keys.length == 0)
-    {
-      if(this.debug) console.log("sendToTb received epty object", dataToTb);
-      return;
-    }
-
-    
-    let tbname = keys[0];
-    let ts;
-
-    let arrayOfValues = dataToTb[tbname];
-    let arrayOfValuesToSend = [];
-
-    for(let i = 0; i < arrayOfValues.length; i++)
-    {
-      ts = arrayOfValues[i].ts;
-
-      //console.log("sendToTb------------>before", arrayOfValues[i].values, tbname);
-
-      let values = this.prepareValuesForTb(tbname, ts, arrayOfValues[i].values);
-
-      //console.log("sendToTb------------>after", values);
-
-      if(!this.isEmptyObject(values)) 
-      {
-          arrayOfValuesToSend.push({ts: ts, values: values});
-      }
-    }
-
-    if(arrayOfValuesToSend.length == 0)
-    {
-      //if(this.debug) console.log("data not sent - empty array");
-      return;
-    }
-
-    /*
-    let dataToTb = {
-        [tbname]: [
-            { 
-              "ts": Date.now(),
-              "values": values
-            }
-          ]
-        }
-    */
-
-    this.messageCounter++;
-
-    let dataToTbModified = {
-        [tbname]: arrayOfValuesToSend
-    }
-
-    //console.log(this.sender + " DATA SEND TO TB ", tbname, this.messageCounter, new Date(ts), dataToTbModified[tbname][0].values, this.instance);
-    if(this.debug) console.log(this.sender + " DATA SEND TO TB ", this.index, tbname, arrayOfValuesToSend);
-    
-    instance.send(this.index, dataToTbModified);
-  }
-
-  getDiffTimestamp(key)
-  {
-    let seconds = 60*60;//1h
-    //seconds = 1;//for testing
-
-    //TODO set different value for given key!!!
-    //if(key == "status") seconds = 2*60*60;//2h
-
-    let timestampDiffToRemoveKey = seconds*1000;
-
-    return timestampDiffToRemoveKey;
-  }
-
-  prepareValuesForTb(tbname, timestamp, values)
-  {
-    let keys = Object.keys(values);
-    if(!this.previousValues.hasOwnProperty(tbname))
-    {
-      this.previousValues[tbname] = {};
-    }
-
-    //if(this.debug) console.log("prepareValuesForTb", tbname, timestamp, values);
-
-    for(let i = 0; i < keys.length; i++)
-    {
-      let key = keys[i];
-      let value = values[key];
-
-      if(!this.previousValues[tbname].hasOwnProperty(key)) 
-      {
-        this.previousValues[tbname][key] = {ts: timestamp, value: value};
-        continue;
-      }
-
-      if(this.previousValues[tbname][key].value === value)
-      {
-        let diff = timestamp - this.previousValues[tbname][key].ts;
-
-        let timestampDiffToRemoveKey = this.getDiffTimestamp(key);
-        if(diff > timestampDiffToRemoveKey)
-        {
-          this.previousValues[tbname][key].ts = Date.now();
-          //if(this.debug) console.log(this.sender + ": update ts for key", key, "diff is", diff, "messageCounter", this.messageCounter);
-
-        }
-        else
-        {
-          delete values[key];
-          //if(this.debug) console.log(this.sender + ": delete key", key, "diff is", diff, "messageCounter", this.messageCounter, timestampDiffToRemoveKey);
-        }
-      }
-      else
-      {
-        this.previousValues[tbname][key].value = value;
-        this.previousValues[tbname][key].ts = timestamp;
-      }
-
-    }
-
-    return values;
-  }
-}
-
+class DataToTbHandler
+{
+  constructor(index) {
+    this.index = index;
+
+    this.previousValues = {};
+    this.debug = false;
+    this.messageCounter = 0;
+
+    this.sender = "";
+  }
+
+  dump()
+  {
+    console.log("----------------------------");
+    console.log("previousValues", this.previousValues);
+    console.log("----------------------------");
+  }
+
+  setSender(sender)
+  {
+    this.sender = sender;
+  }
+
+  isEmptyObject( obj ) {
+    for ( var name in obj ) {
+        return false;
+    }
+    return true;
+  }
+
+  sendToTb(dataToTb, instance)
+  {
+
+    if(!FLOW.OMS_brokerready)
+    {
+      return dataToTb;
+    }
+
+    let keys = Object.keys(dataToTb);
+
+    if(keys.length == 0)
+    {
+      if(this.debug) console.log("sendToTb received epty object", dataToTb);
+      return;
+    }
+
+    
+    let tbname = keys[0];
+    let ts;
+
+    let arrayOfValues = dataToTb[tbname];
+    let arrayOfValuesToSend = [];
+
+    for(let i = 0; i < arrayOfValues.length; i++)
+    {
+      ts = arrayOfValues[i].ts;
+
+      //console.log("sendToTb------------>before", arrayOfValues[i].values, tbname);
+
+      let values = this.prepareValuesForTb(tbname, ts, arrayOfValues[i].values);
+
+      //console.log("sendToTb------------>after", values);
+
+      if(!this.isEmptyObject(values)) 
+      {
+          arrayOfValuesToSend.push({ts: ts, values: values});
+      }
+    }
+
+    if(arrayOfValuesToSend.length == 0)
+    {
+      //if(this.debug) console.log("data not sent - empty array");
+      return;
+    }
+
+    /*
+    let dataToTb = {
+        [tbname]: [
+            { 
+              "ts": Date.now(),
+              "values": values
+            }
+          ]
+        }
+    */
+
+    this.messageCounter++;
+
+    let dataToTbModified = {
+        [tbname]: arrayOfValuesToSend
+    }
+
+    //console.log(this.sender + " DATA SEND TO TB ", tbname, this.messageCounter, new Date(ts), dataToTbModified[tbname][0].values, this.instance);
+    if(this.debug) console.log(this.sender + " DATA SEND TO TB ", this.index, tbname, arrayOfValuesToSend);
+    
+    instance.send(this.index, dataToTbModified);
+  }
+
+  getDiffTimestamp(key)
+  {
+    let seconds = 60*60;//1h
+    //seconds = 1;//for testing
+
+    //TODO set different value for given key!!!
+    //if(key == "status") seconds = 2*60*60;//2h
+
+    let timestampDiffToRemoveKey = seconds*1000;
+
+    return timestampDiffToRemoveKey;
+  }
+
+  prepareValuesForTb(tbname, timestamp, values)
+  {
+    let keys = Object.keys(values);
+    if(!this.previousValues.hasOwnProperty(tbname))
+    {
+      this.previousValues[tbname] = {};
+    }
+
+    //if(this.debug) console.log("prepareValuesForTb", tbname, timestamp, values);
+
+    for(let i = 0; i < keys.length; i++)
+    {
+      let key = keys[i];
+      let value = values[key];
+
+      if(!this.previousValues[tbname].hasOwnProperty(key)) 
+      {
+        this.previousValues[tbname][key] = {ts: timestamp, value: value};
+        continue;
+      }
+
+      if(this.previousValues[tbname][key].value === value)
+      {
+        let diff = timestamp - this.previousValues[tbname][key].ts;
+
+        let timestampDiffToRemoveKey = this.getDiffTimestamp(key);
+        if(diff > timestampDiffToRemoveKey)
+        {
+          this.previousValues[tbname][key].ts = Date.now();
+          //if(this.debug) console.log(this.sender + ": update ts for key", key, "diff is", diff, "messageCounter", this.messageCounter);
+
+        }
+        else
+        {
+          delete values[key];
+          //if(this.debug) console.log(this.sender + ": delete key", key, "diff is", diff, "messageCounter", this.messageCounter, timestampDiffToRemoveKey);
+        }
+      }
+      else
+      {
+        this.previousValues[tbname][key].value = value;
+        this.previousValues[tbname][key].ts = timestamp;
+      }
+
+    }
+
+    return values;
+  }
+}
+
 module.exports =  DataToTbHandler;
\ No newline at end of file
diff --git a/flow/modbus_citysys.js b/flow/modbus_citysys.js
deleted file mode 100644
index 2dd9c06..0000000
--- a/flow/modbus_citysys.js
+++ /dev/null
@@ -1,1135 +0,0 @@
-exports.id = 'modbus_citysys';
-exports.title = 'Modbus_citysys';
-exports.version = '1.0.0';
-exports.group = 'Worksys';
-exports.color = '#2134B0';
-exports.input = 1;
-exports.output = ["red", "white", "blue", "orange"];
-exports.click = false;
-exports.author = 'Jakub Klena';
-exports.icon = 'bolt';
-exports.options = { edge: "undefined" };
-
-exports.html = `<div class="padding">
-	<div class="row">
-		<div class="col-md-6">
-			<div data-jc="textbox" data-jc-path="edge" data-jc-config="placeholder:undefined;required:true" class="m">Edge TB Name</div>
-		</div>
-	</div>
-</div>`;
-
-exports.readme = `# Energomonitor
-## Outputs
-
- - *Red* - ERROR output (can connect to filewriter or something)
- - *White* - STATUS output (answers to your commands, ERRORS and WARNINGS from your commands go both to this and to their own outputs, so they get logged)
- - *Blue* - TB output (pure data for TB)
-`;
-
-
-const instanceSendTo = {
-  error: 0,
-  debug: 1,
-  tb: 2,
-  di_do_controller: 3
-}
-
-const DataToTbHandler = require('./helper/DataToTbHandler.js');
-const { sendNotification } = require('./helper/notification_reporter.js');
-const dbRelays = TABLE("relays");
-const { promisifyBuilder, makeMapFromDbResult } = require('./helper/db_helper.js');
-let tbname;
-
-async function loadSettings()
-{
-  //todo global FLOW.OMS_edgeName is making problem, so we load it here as well, it should not be  
-  let responseRelays = await promisifyBuilder(dbRelays.find());
-  FLOW.OMS_edgeName = responseRelays[0]["tbname"];
-  tbname = FLOW.OMS_edgeName;
-} 
-
-loadSettings();
-
-exports.install = function(instance) {
-  const SerialPort = require('serialport');
-  const { exec } = require('child_process');
-  const fs = require("fs");
-  const filepath = F.path.root("saved_data/modbus_settings");
-  const backup_filepath = F.path.root("saved_data/modbus_settings_backup");
-
-  const ErrorToServiceHandler = require('./helper/ErrorToServiceHandler.js');
-  const errorHandler = new ErrorToServiceHandler();
-
-  let receivedDataArray = [];
-
-
-  instance.CONFIG = {
-    "isRunning": false,
-    "debug": true,
-    "timeoutTime": 10000,
-    "msgWaitTime": 1000,
-    "port": "/dev/ttymxc0",
-    //"port_options": "stty -F /dev/ttymxc1 115200 min 1 time 5 ignbrk -brkint -icrnl -imaxbel -opost -isig -icanon -iexten -echo -echoe -echok -echoctl -echoke"
-    "port_options": "stty -F /dev/ttymxc0 9600 min 1 time 5 ignbrk -brkint -icrnl -imaxbel -opost -isig -icanon -iexten -echo -echoe -echok -echoctl -echoke"
-  };
-
-  let PRIVATEVARS = {
-    "errBuffer": [],        // Buffer for error messages
-    "tbBuffer": [],          // Buffer for TB push messages
-    "device_index": 0,
-    "cmd_index": -1,
-    "devices": [
-      /*{
-        "name": "Elektrometer 1",
-        "tb_name": "EOzNMgZ9n43qPbjXmy7zwdA2DKdYvW5e6pxGRrVa",
-        "type": "EM111",
-        "address": 1,
-        "data":[],
-        "cmd":[],
-        "timeoutcount":0,
-        "status":"virtual"
-      },*/
-      // {
-      //   "name": "Elektrometer 2",
-      //   "tb_name": "pJX1ObgmqGZ54DMyYL7aDdkEVdve38WKRzwjNrQ9",
-      //   "type": "EM111",
-      //   "address": 2,
-      //   "data":[],
-      //   "cmd":[],
-      //   "timeoutcount":0,
-      //   "status":"virtual"
-      // },
-      // {
-      //   "name": "Elektrometer 3",
-      //   "tb_name": "XRvmwNz8QPblKp41GD7lKVkJrLVYoBO92dMegn6W",
-      //   "type": "EM111",
-      //   "address": 3,
-      //   "data":[],
-      //   "cmd":[],
-      //   "timeoutcount":0,
-      //   "status":"virtual"
-      // },
-      // {
-      //   "name": "Elektrometer 4",
-      //   "tb_name": "oRO8rjaBDy21qPQJzW7oD9ApK3xmNleVZg9Ed4Gw",
-      //   "type": "EM111",
-      //   "address": 4,
-      //   "data":[],
-      //   "cmd":[],
-      //   "timeoutcount":0,
-      //   "status":"virtual"
-      // },
-      {
-        "name": "Elektrometer 1",
-        "tb_name": "KjbN4q7JPZmexgdnz2yKQ98YAWwO0Q3BMX6ERLoV",
-        "type": "EM340",
-        "address": 1,
-        "data":[],
-        "cmd":[],
-        "timeoutcount":0,
-        "status":"virtual"
-      }
-    ],
-    "cmd_tables": [
-      {
-        "type":"EM340",
-        "cmd":[
-          {
-            "name": "Voltage L1",
-            "tb_name": "a",
-            "register": 0,
-            "size": 2,
-            "multiplier": 0.1
-          },
-          {
-            "name": "Voltage L2",
-            "tb_name": "b",
-            "register": 2,
-            "size": 2,
-            "multiplier": 0.1
-          },
-          {
-            "name": "Voltage L3",
-            "tb_name": "c",
-            "register": 4,
-            "size": 2,
-            "multiplier": 0.1
-          },
-          {
-            "name": "Current L1",
-            "tb_name": "d",
-            "register": 12,
-            "size": 2,
-            "multiplier": 0.001
-          },          
-          {
-            "name": "Current L2",
-            "tb_name": "e",
-            "register": 14,
-            "size": 2,
-            "multiplier": 0.001
-          },          
-          {
-            "name": "Current L3",
-            "tb_name": "f",
-            "register": 16,
-            "size": 2,
-            "multiplier": 0.001
-          }
-
-
-          // {
-          //   "name": "Power factor",
-          //   "tb_name": "power_factor",
-          //   "register": 14,
-          //   "size": 1,
-          //   "multiplier": 0.001
-          // },
-          // {
-          //   "name": "Frequency",
-          //   "tb_name": "frequency",
-          //   "register": 15,
-          //   "size": 1,
-          //   "multiplier": 0.1
-          // },
-          // {
-          //   "name": "Energy",
-          //   "tb_name": "consumption",
-          //   "register": 16,
-          //   "size": 2,
-          //   "multiplier": 0.1
-          // }
-        ]
-      }
-    ]
-  };
-
-  let ERRWEIGHT = {
-    EMERGENCY: "emergency", // System unusable
-    ALERT: "alert",         // Action must be taken immidiately
-    CRITICAL: "critical",   // Component unable to function
-    ERROR: "error",         // Error, but component able to recover from it
-    WARNING: "warning",     // Possibility of error, system running futher
-    NOTICE: "notice",       // Significant message but not an error, things user might want to know about
-    INFO: "informational",  // Info
-    DEBUG: "debug"          // Debug - only if CONFIG.debug is enabled
-  };
-
-  instance.currentData = function(){
-    let resp = [];
-    for (let f = 0; f < PRIVATEVARS.devices.length; f++){
-      let dev = PRIVATEVARS.devices[f];
-      for (let e = 0; e < dev.data.length; e++){
-        let d = dev.data[e];
-        resp.push({
-          "name": dev.name+" - "+d.name,
-          "value": d.value
-        });
-      }
-    }
-    return resp;
-  };
-
-  instance.configList = function(){
-    let resp = [];
-    /*let data = PRIVATEVARS.feeds;
-    for (let a = 0; a < data.length; a++){
-      for (let i = 0; i < instance.CONFIG.feeds.length; i++){
-        let feed = instance.CONFIG.feeds[i];
-        if (feed.name === data[a].id){
-          for (let b = 0; b < data[a].streams.length; b++){
-            for (let j = 0; j < feed.streams.length; j++){
-              let stream = feed.streams[j];
-              if (stream.name === data[a].streams[b].id){
-                data[a].streams[b]["exists"] = true;
-                data[a].streams[b]["currently"] = stream;
-              }
-            }
-          }
-        }
-      }
-    }
-    resp.push({
-      "name":"Device manager",
-      "icon":"tasks",
-      "_show":false,
-      "js_func":"energoDevManager",
-      "data": data
-    });*/
-
-    return resp;
-  }
-
-  let timeoutInterval = null;
-  let msgWaitInterval = null;
-  let port = null;
-  let myEdge = "undefined";
-  let starter = null;
-  instance.status("Loading...", "red");
-  
-
-  instance.availableCommands = [
-    {
-      "name": "Status",
-      "cmd": "qStatus",
-      "icon": "stream",
-      "func": function(body){
-        let a = true;
-        if (timeoutInterval === null){
-          a = false;
-        }
-        let b = true;
-        if (msgWaitInterval === null){
-          b = false;
-        }
-        let st = {
-          "isRunning":instance.CONFIG.isRunning,
-          "timeoutInterval":a,
-          "msgWaitInterval":b,
-          "CONFIG":instance.CONFIG
-        };
-        return {
-          "type": "ok",
-          "timestamp": humanReadableTimeAndDate(),
-          "resp": st
-        };
-      }
-    },
-    {
-      "name": "Start Reading",
-      "cmd": "sStart",
-      "icon": "play",
-      "func": function(body){
-        /*if (running === false){
-          startCmdWaitInterval();
-          running = true;
-          return "Reading started !";
-        } else {
-          return "Reading already active !";
-        }*/
-        return {
-          "type": "ok",
-          "timestamp": humanReadableTimeAndDate(),
-          "resp": "WIP"
-        };
-      }
-    },
-    {
-      "name": "Stop Reading",
-      "cmd": "sStop",
-      "icon": "stop",
-      "func": function(body){
-        /*if (running === true){
-          stopCmdWaitInterval();
-          stopTimeoutInterval();
-          running = false;
-          return "Reading stopped !";
-        } else {
-          return "Reading already inactive !";
-        }*/
-        return {
-          "type": "ok",
-          "timestamp": humanReadableTimeAndDate(),
-          "resp": "WIP"
-        };
-      }
-    },
-    {
-      "name": "Read current data",
-      "cmd": "qCurrentData",
-      "icon": "chart-bar",
-      "func": function(body){
-        let resp = instance.currentData();
-        return {
-          "type": "ok",
-          "timestamp": humanReadableTimeAndDate(),
-          "resp": resp
-        };
-      }
-    },
-    {
-      "name": "Save current config",
-      "cmd": "saveConfig",
-      "icon": "save",
-      "func": function(body){
-
-        instance.set("config", JSON.stringify(instance.CONFIG));
-        instance.set("private", JSON.stringify(PRIVATEVARS));
-        return {
-          "type": "ok",
-          "timestamp": humanReadableTimeAndDate(),
-          "resp": "done"
-        };
-      }
-    },
-    {
-      "name": "Toggle debug",
-      "cmd": "sDebug",
-      "icon": "comment-dots",
-      "func": function(body){
-
-        if (instance.CONFIG.debug){
-          instance.CONFIG.debug = false;
-          instance.set("config", JSON.stringify(instance.CONFIG));
-
-          return {
-            "type": "ok",
-            "timestamp": humanReadableTimeAndDate(),
-            "resp": "debug OFF"
-          };
-        } else {
-          instance.CONFIG.debug = true;
-          instance.set("config", JSON.stringify(instance.CONFIG));
-
-          return {
-            "type": "ok",
-            "timestamp": humanReadableTimeAndDate(),
-            "resp": "debug ON"
-          };
-        }
-        
-      }
-    }
-  ];
-
-  
-
-  function saveData(){
-    if (checkFile(filepath)){
-      let content = undefined;
-      try {
-        content = fs.readFileSync(filepath);
-      } catch (err){
-        console.log("saveData", myEdge, ERRWEIGHT.ERROR, "Unable to read original configuration !", {"name":instance.name, "id":instance.id, "file":filepath, "err":err.message});
-        
-        //sendError("saveData", myEdge, ERRWEIGHT.ERROR, "Unable to read original configuration !", {"name":instance.name, "id":instance.id, "file":filepath, "err":err.message});
-      }
-
-      if (content !== undefined){
-        try {
-          fs.writeFileSync(backup_filepath, content, "utf8");
-        } catch (err) {
-          //sendError("saveData", myEdge, ERRWEIGHT.ERROR, "Unable to save backup of configuration !", {"name":instance.name, "id":instance.id, "file":backup_filepath, "err":err.message});
-          console.log("saveData", myEdge, ERRWEIGHT.ERROR, "Unable to save backup of configuration !", {"name":instance.name, "id":instance.id, "file":backup_filepath, "err":err.message});
-        }
-      }
-    }
-
-    let a = {
-      "config":instance.CONFIG,
-      "private":PRIVATEVARS
-    };
-
-    try {
-      fs.writeFileSync(filepath, JSON.stringify(a), "utf8");
-    } catch (err) {
-      //sendError("saveData", myEdge, ERRWEIGHT.CRITICAL, "Unable to save configuration !", {"name":instance.name, "id":instance.id, "file":filepath, "err":err.message});
-      console.log("saveData", myEdge, ERRWEIGHT.CRITICAL, "Unable to save configuration !", {"name":instance.name, "id":instance.id, "file":filepath, "err":err.message});
-    }
-  }
-
-  function loadData(){
-    let content = undefined;
-    //console.log(filepath);
-    if (checkFile(filepath)){
-      try {
-        content = fs.readFileSync(filepath);
-      } catch (err){
-        //sendError("loadData", myEdge, ERRWEIGHT.ERROR, "Unable to read original configuration !", {"name":instance.name, "id":instance.id, "file":filepath, "err":err.message});
-        console.log("loadData", myEdge, ERRWEIGHT.ERROR, "Unable to read original configuration !", {"name":instance.name, "id":instance.id, "file":filepath, "err":err.message});
-      }
-    } else {
-      if (checkFile(backup_filepath)){
-        try {
-          content = fs.readFileSync(backup_filepath);
-        } catch (err){
-          //sendError("loadData", myEdge, ERRWEIGHT.CRITICAL, "Unable to read backup configuration !", {"name":instance.name, "id":instance.id, "file":backup_filepath, "err":err.message});
-          console.log("loadData", myEdge, ERRWEIGHT.CRITICAL, "Unable to read backup configuration !", {"name":instance.name, "id":instance.id, "file":backup_filepath, "err":err.message});
-        }
-        if (content !== undefined){
-          //sendError("loadData", myEdge, ERRWEIGHT.WARNING, "No configuration, loading from backup !", {"name":instance.name, "id":instance.id});
-          console.log("loadData", myEdge, ERRWEIGHT.WARNING, "No configuration, loading from backup !", {"name":instance.name, "id":instance.id});
-        }
-      } else {
-        //sendError("loadData", myEdge, ERRWEIGHT.CRITICAL, "No configuration, not even backup !", {"name":instance.name, "id":instance.id});
-        console.log("loadData", myEdge, ERRWEIGHT.CRITICAL, "No configuration, not even backup !", {"name":instance.name, "id":instance.id, "filepath": filepath});
-      }
-    }
-
-
-
-    if (content !== undefined){
-      let a = JSON.parse(content);
-      instance.send(instanceSendTo.debug, a);
-      let c = a.config;
-      let p = a.private;
-
-
-      if (c === undefined){
-        //sendError("loadData", myEdge, ERRWEIGHT.CRITICAL, "Configuration not found !", {"name":instance.name, "id":instance.id});
-        console.log("loadData", myEdge, ERRWEIGHT.CRITICAL, "Configuration not found !", {"name":instance.name, "id":instance.id});
-        instance.status("Error - no config", "red");
-      } else if (p === undefined){
-        //sendError("loadData", myEdge, ERRWEIGHT.CRITICAL, "Privatevars not found !", {"name":instance.name, "id":instance.id});
-        console.log("loadData", myEdge, ERRWEIGHT.CRITICAL, "Privatevars not found !", {"name":instance.name, "id":instance.id});
-        instance.status("Error - no private vars", "red");
-      } else {
-        instance.CONFIG = c;
-        PRIVATEVARS = p;
-
-        // Daj kazdemu device jeho tabulku prikazu
-        for (let i = 0; i < PRIVATEVARS.devices.length; i++){
-          let device = PRIVATEVARS.devices[i];
-          for (let j = 0; j < PRIVATEVARS.cmd_tables.length; j++){
-            let table = PRIVATEVARS.cmd_tables[j];
-
-            if (device.type === table.type){
-              PRIVATEVARS.devices[i].cmd = table.cmd;
-            }
-          }
-        }
-
-        if (myEdge === "undefined"){
-          instance.status("Unconfigured", "red");
-        } else {
-          instance.status("Running", "green");
-          startCmdWaitInterval();
-  
-          instance.CONFIG.isRunning = true;
-          console.log("modbus loaded: ", PRIVATEVARS.devices);
-        }
-      }
-    }
-  }
-
-  function checkFile(name){
-    try {
-      fs.accessSync(name, fs.constants.F_OK | fs.constants.R_OK | fs.constants.W_OK);
-      return true;
-    } catch (err) {
-      return false;
-    }
-  }
-
-  //Zapina slucku vycitavania dat
-  function readDeviceData(){
-    stopCmdWaitInterval();
-
-    // let tbname = FLOW.OMS_edgeName;
-
-    // Check port existance
-    if (port === null)
-    {
-      port = new SerialPort(instance.CONFIG.port);
-
-      port.on('error', function(err) {
-        //logger.debug("rsPort opened error - failed", err.message);
-        //instance.send(instanceSendTo.debug, err.message);
-  
-        errorHandler.sendMessageToService( exports.title + " MODBUS RS485 open - failed: " + err.message);
-      })
-
-      port.on('open', function() {
-
-        console.log("--->MODBUS RS485 READY - port opened");
-
-        // exec("sudo halfduplex /dev/ttymxc0", (error, stdout, stderr) => {
-        //   instance.send(instanceSendTo.debug, {"err": error});
-
-        //   if (error) {
-        //     console.log("--->MODBUS RS485", error, stderr);
-        //     errorHandler.sendMessageToService( exports.title + " sudo halfduplex /dev/ttymxc0 - failed: " + error);
-        //   }
-
-        // });
-
-        exec(instance.CONFIG.port_options, (error, stdout, stderr) => {
-          instance.send(instanceSendTo.debug, {"stdout":stdout,"stderr":stderr,"err":error});
-
-          if (error) {
-            console.log("--->MODBUS RS485", error, stderr);
-            errorHandler.sendMessageToService( exports.title +  " " + instance.CONFIG.port_options  + " - failed: " + error);
-          }
-          
-        });
-        
-      });
-
-      port.on('data', receivedData);
-
-      //sendError("readDeviceData", myEdge, ERRWEIGHT.DEBUG, "Serial port open!", {});
-      //console.log("-->MODBUS readDeviceData", myEdge, ERRWEIGHT.DEBUG, "Serial port open!", {});
-
-      startCmdWaitInterval();
-      return; // Cakame na port aby sa spravne otvoril a rozbehol
-    }
-
-
-    // Skontroluj existenciu device listu
-    if (PRIVATEVARS.devices.length > 0){
-      // Ponastavuj indexy
-      PRIVATEVARS.cmd_index++;
-      if (PRIVATEVARS.cmd_index >= PRIVATEVARS.devices[PRIVATEVARS.device_index].cmd.length){
-        // Kedže všetky príkazy pre daný device sú vybavené, je treba odoslat vyčítané data do TB
-        updateDataInTB();
-
-        PRIVATEVARS.cmd_index = 0;
-        PRIVATEVARS.device_index++;
-
-        if (PRIVATEVARS.device_index >= PRIVATEVARS.devices.length){
-          PRIVATEVARS.device_index = 0;
-        }
-      }
-
-      let device = PRIVATEVARS.devices[PRIVATEVARS.device_index];
-
-      // Skontroluj existenciu príkazú pre daný device type
-      if (device.cmd.length < 1){
-        //sendError("readDeviceData", tbname, ERRWEIGHT.ERROR, "No commands for this device type !", {"type": device.type});
-        console.log("readDeviceData", tbname, ERRWEIGHT.ERROR, "No commands for this device type !", {"type": device.type});
-        startCmdWaitInterval();
-        return;
-      }
-      
-      // Odešli nasledujúci príkaz
-      sendCommand();
-
-    } else {
-      instance.CONFIG.isRunning = false;
-      //sendError("readDeviceData", myEdge, ERRWEIGHT.CRITICAL, "Modbus has no devices registered!", {});
-      console.log("modbus_citys: readDeviceData", myEdge, ERRWEIGHT.CRITICAL, "Modbus has no devices registered!", {});
-    }
-  }
-
-  function readingTimeouted(){
-    stopCmdWaitInterval();
-    stopTimeoutInterval();
-
-    // let tbname = FLOW.OMS_edgeName;
-
-    let device = PRIVATEVARS.devices[PRIVATEVARS.device_index];
-    let com = device.cmd[PRIVATEVARS.cmd_index];
-    //sendError("readingTimeouted", tbame, ERRWEIGHT.WARNING, "Reading timeouted !", {"device": device.address, "cmd": com.register});
-    console.log("modbus_citys: readingTimeouted", tbname, ERRWEIGHT.WARNING, "Reading timeouted !", {"device": device.address, "cmd": com.register});
-    
-    device.timeoutcount++;
-    //console.log("device.timeoutcount", device.timeoutcount);
-    if (device.timeoutcount === 16)
-    {
-
-      //sendError("modbus_citys: readingTimeouted", tbname, ERRWEIGHT.CRITICAL, "Electrometer is not responding - reading timeouted", "");
-      sendNotification("modbus_citys: readingTimeouted", tbname, "electrometer_is_not_responding", {}, "", instanceSendTo.tb, instance );
-
-      if (device.status === "OK"){
-        device.status === "NOK";
-      }
-    }
-
-    startCmdWaitInterval();
-  }
-
-  function receivedData(data){
-
-    //let array = [...data];
-    //console.log("received data", array);
-
-    // let tbname = FLOW.OMS_edgeName;
-
-    //!if received data are less than 9 bytes, we store it in array variable and return. than we concatenate second incoming
-    // data and then length of array is 9
-    receivedDataArray = [...receivedDataArray, ...data];
-    //if (array.length < 9) return;
-    let l = receivedDataArray.length;
-    //console.log("received",receivedDataArray, l)
-    
-    if ( l < 7 || l > 9 || l == 8 ) return;
-    
-    let device = PRIVATEVARS.devices[PRIVATEVARS.device_index];
-    let com = device.cmd[PRIVATEVARS.cmd_index];
-    
-    if (device.timeoutcount > 16) {
-      //sendError("Modbus_citysys: receivedData", tbname, ERRWEIGHT.NOTICE, "Electrometer is responding again", "");
-      sendNotification("modbus_citys: receivedData", tbname, "electrometer_is_responding_again", {}, "", instanceSendTo.tb, instance );
-    }
-
-    device.timeoutcount = 0;
-
-    if ((l == 7 && com.size != 1) || ( l == 9 && com.size != 2)) return;
-
-    stopTimeoutInterval();
-    
-    //sendError("receivedData", tbname, ERRWEIGHT.DEBUG, "Received data !", {"cmd": receivedDataArray});
-    //console.log("receivedData", tbname, ERRWEIGHT.DEBUG, "Received data !", {"cmd": receivedDataArray});
-
-    // Skontroluj či sedí počet bytú v správe
-    //console.log("com size", com.size*2, "array2", receivedDataArray[2]);
-    if (receivedDataArray[2] !== (com.size*2)){
-      //sendError("receivedData", tbname, ERRWEIGHT.ERROR, "Received data of incorrect size !", {"expected": (com.size*2), "received": receivedDataArray[2], "cmd": com.register, "whole_msg": receivedDataArray});
-      console.log("modbus_citys: receivedData", tbname, ERRWEIGHT.ERROR, "Received data of incorrect size !", {"expected": (com.size*2), "received": receivedDataArray[2], "cmd": com.register, "whole_msg": receivedDataArray});
-      startTimeoutInterval();
-    } else {
-      // Konvertuj raw data na human readable
-
-      let v = (receivedDataArray[3] << 8) | receivedDataArray[4];
-      if (com.size == 2){
-        v = v | (receivedDataArray[5] << 24) | (receivedDataArray[6] << 16);
-      }
-      v = Math.round((v * com.multiplier) * 100) / 100;
-
-
-      // Pokad device nemá ešte žádné hodnoty vyčítané, pushni túto hodnotu do pola
-      if (device.data.length < 1){
-        device.data.push({ // Vždy ked správne zakomunikuje obnov status na OK
-          "changed": true,
-          "name": "status",
-          "value": "OK"
-        });
-        device.data.push({
-          "changed": true,
-          "name": com.tb_name,
-          "value": v
-        });
-      } else {
-        // Kedže už neco v poli má, kukni sa či je tam aj táto hodnota
-        let found = false;
-        for (let i = 0; i < device.data.length; i++){
-          let d = device.data[i];
-          if (d.name == "status"){ // Ked natrefíš na status (vždy tam musí byt) prepíš ho na OK lebo zakomunikoval správne
-            device.data[i].changed = true;
-            device.data[i].value = "OK";
-          }
-
-          if (d.name == com.tb_name){
-            found = true;
-            device.data[i].changed = true;
-            device.data[i].value = v;
-          }
-        }
-
-        // Pole existuje, ale táto hodnota tam neni, pridaj ju
-        if (found === false){
-          device.data.push({
-            "changed": true,
-            "name": com.tb_name,
-            "value": v
-          });
-        }
-      }
-
-      //Správne sme prijali odpoveď, je čas na další msg
-      startCmdWaitInterval();
-    }
-    //console.log('received data array', receivedDataArray);
-    receivedDataArray = [];
-  }
-
-  function updateDataInTB(){
-    let device = PRIVATEVARS.devices[PRIVATEVARS.device_index];
-
-    // console.log("---- MB device", device);
-    // console.log("---MB device data", device.data);
-
-    let values = "";
-    for (let i = 0; i < device.data.length; i++){
-      let data = device.data[i];
-      if (data.changed){
-        if (values !== ""){
-          values += ", ";
-        }
-
-        if (data.name === "status"){
-          values += "\""+data.name+"\":\""+data.value+"\"";
-          // This makes sure, that if this device doesn’t respond even once in next reading cycle, it will be marked as NOK
-          device.data[i].changed = true;
-          device.data[i].value = "NOK";
-        } else {
-          values += "\""+data.name+"\":"+data.value;
-          device.data[i].changed = false;
-        }
-      }
-
-    }
-
-    //console.log("values modbus", values);
-    
-
-    if (values !== ""){
-
-      // let tbname = FLOW.OMS_edgeName;
-      // if(tbname == "" || tbname === undefined )
-      // {
-      //   console.log("!!!!!!FLOW.OMS_edgeName is empty - 1");
-      //   return;
-      // }
-
-      let tbmsg = "{\"" + tbname + "\":[{\"ts\":"+Date.now()+", \"values\":{"+values+"}}] }";
-      tbmsg = JSON.parse(tbmsg);
-
-      values = tbmsg[tbname][0]["values"];
-
-      // if we receive data from twilight sensor, we just send it to dido_controller 
-      if(values.hasOwnProperty('twilight_sensor'))
-      {
-        delete values["status"];
-        instance.send(instanceSendTo.di_do_controller, {sender: "modbus_citysys", tbdata: values});
-        return;
-      }
-
-      //console.log("modbus", Object.keys(values));
-
-      //sum Phase_1_power, Phase_2_power, Phase_3_power   (if one of them is undefined, we handle it)
-      const numOr0 = n => isNaN(n) ? 0 : n;
-      let calculated_total_power = [values["Phase_1_power"], values["Phase_2_power"], values["Phase_3_power"]].reduce((a, b) => numOr0(a) + numOr0(b));
-      values["total_power"] = parseFloat(calculated_total_power.toFixed(2));
-      tbmsg[tbname][0]["values"] = values;
-
-      Object.keys(values).map(singleValue => {
-        if (["Phase_1_voltage", "Phase_2_voltage", "Phase_3_voltage"].includes(singleValue)) 
-        {
-
-          let l = singleValue.split("_");
-          let phase = parseInt(l[1]);
-
-          if(FLOW.OMS_no_voltage == undefined) FLOW.OMS_no_voltage = new Set();
-
-          if(values[singleValue] == 0)
-          {
-            sendNotification("modbus_citys: updateDataInTB", tbname, "no_voltage_detected_on_phase", {phase: phase}, "", instanceSendTo.tb, instance, "voltage" + phase );
-
-            FLOW.OMS_no_voltage.add(phase);
-          }
-          else
-          {
-            FLOW.OMS_no_voltage.delete(phase);
-            sendNotification("modbus_citys: updateDataInTB", tbname, "voltage_on_phase_has_been_restored", {phase: phase}, "", instanceSendTo.tb, instance, "voltage" + phase);
-          }
-  
-        } 
-      })
-
-      sendThingsBoard(tbmsg);
-    }
-  }
-
-
-  let electrometerNotResponding = 0;
-  function sendCommand(){
-    let device = PRIVATEVARS.devices[PRIVATEVARS.device_index];
-    let com = device.cmd[PRIVATEVARS.cmd_index];
-    let array = [device.address, 3, ((com.register >> 8) & 0xFF), (com.register & 0xFF), ((com.size >> 8) & 0xFF), (com.size & 0xFF)];
-    array = modbusCRC(array);
-
-    //console.log('---device--', device);
-    //console.log('---device   type--', device.type);
-
-    //sendError("sendCommand", device.tb_name, ERRWEIGHT.DEBUG, "Sending command !", {"cmd": array});
-    //console.log("sendCommand", device.tb_name, ERRWEIGHT.DEBUG, "Sending command !", {"cmd": array});
-
-    // let tbname = FLOW.OMS_edgeName;
-    // if(tbname == "" || tbname === undefined )
-    // {
-    //   console.log("!!!!!!FLOW.OMS_edgeName is empty - 2");
-    //   return;
-    // }
-
-    startTimeoutInterval();
-    port.write(Buffer.from(array), function(err) {
-
-      //! poslany command
-      //console.log("poslany tento commant", array, err, device.type);
-
-      if (err) {
-        stopTimeoutInterval();
-        stopCmdWaitInterval();
-
-
-        // elektromer neodpoveda viac ako 5 minut (15 commands za minutu sa posiela)
-        if (device.type === "EM111" || device.type === "EM340")
-        {
-          electrometerNotResponding++;
-
-          if (electrometerNotResponding > 15 && electrometerNotResponding < 17)
-          {
-
-            //sendError("Modbus_citys: sendCommand", tbname, ERRWEIGHT.CRITICAL, "Electrometer is not responding", {"err": err.message, "info": "No response more than 5 minutes"});
-            sendNotification("modbus_citys: sendCommand", tbname, "electrometer_is_not_responding", {}, {"err": err.message, "info": "No response more than 5 minutes"}, instanceSendTo.tb, instance );
-  
-            let tbmsg = {
-              [tbname]: [
-                {
-                  "ts": Date.now(),
-                  "values": {
-                    "status": "NOK"
-                  }
-                }
-              ]
-            }
-    
-            sendThingsBoard(tbmsg)
-          }
-        }
-        
-
-        return;
-      }
-
-      if (device.type === "EM111")
-      {
-        if (electrometerNotResponding > 15) 
-        {
-          //sendError("Modbus_citys: sendCommand", tbname, ERRWEIGHT.NOTICE, "Electrometer is responding again", "");
-          sendNotification("modbus_citys: sendCommand", tbname, "electrometer_is_responding_again", {}, "", instanceSendTo.tb, instance );
-        }
-        electrometerNotResponding = 0;
-        
-      }
-    });
-  }
-
-  function modbusCRC(array){  
-    let crc = 0xFFFF;
-    for (let i = 0; i < array.length; i++){
-      let b = array[i];
-      crc = crc ^ b;
-  
-      for (let j = 8; j>0; j--){
-        if ((crc & 0x0001) != 0){
-          crc = crc >> 1;
-          crc = crc ^ 0xA001;
-        } else {
-          crc = crc >> 1;
-        }
-      }
-    }
-    
-    array.push(crc & 0xFF);
-    array.push((crc >> 8) & 0xFF);
-    
-    return array;
-  }
-
-
-  instance.on('data', function(flowdata) {
-    
-    console.log("flowdata on data", flowdata);
-    sendStatus({"CONFIG": instance.CONFIG, "PRIVATEVARS":PRIVATEVARS})
-
-  });
-
-  instance.reconfigure = function() {
-    
-    //TODO remove ftom options
-    myEdge = instance.options.edge;
-    if (starter === null){
-      starter = setInterval(function(){
-        loadData();
-        clearInterval(starter);
-        starter = null;
-      }, 5000);
-    }
-  };
-  
-  instance.close = function() {
-    // close sockets and such
-  };
-
-  function sendError(func, device, weight, str, extra){
-    if ((weight === ERRWEIGHT.DEBUG) && (instance.CONFIG.debug === false)){
-      return; // Allow debug messages only if CONFIG.debug is active
-    }
-
-    let content = {
-      "type": weight,
-      "status": "new",
-      "source": {
-        "func":func,
-        "component":instance.id,
-        "component_name":instance.name,
-        "edge":myEdge
-      },
-      "message":str,
-      "message_data": extra
-    };
-    let msg = {};
-    msg[device] = [
-      {
-        "ts": Date.now(),
-        "values": {
-          "_event":content
-        }
-      }
-    ];
-
-    // Msg can be outputted from components only after configuration
-    /*if (canSendErrData()){
-      sendBufferedErrors();
-    } else {
-      bufferError(msg);
-    }*/
-    instance.send(instanceSendTo.tb, msg); // Even if error server is unavailable, send this message to output, for other possible component connections
-
-
-
-    function sendBufferedErrors(){
-      if (PRIVATEVARS.errBuffer === undefined){
-        console.log("errBuffer undefined");
-        console.log("private: ", PRIVATEVARS);
-      }
-      console.log("errBuffer size: ", PRIVATEVARS.errBuffer.length);
-      if (PRIVATEVARS.errBuffer.length > 0){
-        for (let i = 0; i < PRIVATEVARS.errBuffer.length; i++){
-          instance.send(instanceSendTo.error, PRIVATEVARS.errBuffer[i]);
-        }
-        PRIVATEVARS.errBuffer = []; //Clear the buffer
-        saveData();
-      }
-    }
-
-    function bufferError(msg){
-      PRIVATEVARS.errBuffer.push(msg);
-      saveData();
-    }
-  }
-
-  function canSendErrData(){
-    //if (FLOW.errServerAvailable)
-      return true;
-    //else
-    //  return false;
-  }
-
-  function sendStatus(str){
-    instance.send(instanceSendTo.debug, str);
-  }
-
-  function sendThingsBoard(obj){
-    // Msg can be outputted from components only after configuration
-    /*if (canSendTbData()){
-      sendBufferedTB();
-    } else {
-      console.log("cant send data");
-      bufferTB(str);
-    }*/
-    //console.log("send thingsboard", str);
-
-    //console.log("FLOW.OMS_edgeName", FLOW.OMS_edgeName, obj);
-
-    if(obj.hasOwnProperty(FLOW.OMS_edgeName) && FLOW.OMS_edgeName != "")
-    {
-      //send it to di_do_controller 
-      instance.send(instanceSendTo.di_do_controller, {sender: "modbus_citysys", tbdata: obj});
-    }
-    // else
-    {
-      instance.send(instanceSendTo.tb, obj); // Even if TB server is unavailable, send this message to output, for other possible component connections
-    }
-
-    //instance.send(2, str); // Even if TB server is unavailable, send this message to output, for other possible component connections
-
-
-    function sendBufferedTB(){
-      if (PRIVATEVARS.tbBuffer.length > 0){
-        console.log("sending buffered: ", PRIVATEVARS.tbBuffer.length );
-        for (let i = 0; i < PRIVATEVARS.tbBuffer.length; i++){
-          instance.send(instanceSendTo.tb, PRIVATEVARS.tbBuffer[i]);
-        }
-        PRIVATEVARS.tbBuffer = []; //Clear the buffer
-        saveData();
-      }
-    }
-
-    function bufferTB(str){
-      PRIVATEVARS.tbBuffer.push(str);
-      saveData();
-    }
-  }
-
-  function canSendTbData(){
-    //if (FLOW.tbAvailable)
-      return true;
-    //else
-    //  return false;
-  }
-
-  function startTimeoutInterval(){
-    if (!timeoutInterval){
-      timeoutInterval = setInterval(readingTimeouted, instance.CONFIG.timeoutTime);
-    }
-  }
-
-  function stopTimeoutInterval(){
-    if (timeoutInterval){
-      clearInterval(timeoutInterval);
-      timeoutInterval = null;
-    }
-  }
-
-  function startCmdWaitInterval(){
-    if (!msgWaitInterval){
-      msgWaitInterval = setInterval(readDeviceData, instance.CONFIG.msgWaitTime);
-    }
-  }
-
-  function stopCmdWaitInterval(){
-    if (msgWaitInterval){
-      clearInterval(msgWaitInterval);
-      msgWaitInterval = null;
-    }
-  }
-
-  instance.on('options', instance.reconfigure);
-  instance.reconfigure();
-
-  // LAST SECTION FOR COMMON FUNCTIONS
-  function humanReadableTimeAndDate(){
-    let date_ob = new Date();
-
-    let date = ("0" + date_ob.getDate()).slice(-2);
-    let month = ("0" + (date_ob.getMonth() + 1)).slice(-2);
-    let year = date_ob.getFullYear();
-    
-    let hours = ("0" + date_ob.getHours()).slice(-2);
-    let minutes = ("0" + date_ob.getMinutes()).slice(-2);
-    let seconds = ("0" + date_ob.getSeconds()).slice(-2);
-
-    return date+"."+month+"."+year+" "+hours+":"+minutes+":"+seconds;
-  }
-
-  if (starter === null){
-    starter = setInterval(function(){
-      loadData();
-      clearInterval(starter);
-      starter = null;
-    }, 5000);
-  }
-
-  //setTimeout(loadData, 5000);
-};
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
diff --git a/flow/modbus_reader.js b/flow/modbus_reader.js
new file mode 100644
index 0000000..f34ec9a
--- /dev/null
+++ b/flow/modbus_reader.js
@@ -0,0 +1,348 @@
+exports.id = 'modbus_reader';
+exports.title = 'Modbus reader';
+exports.version = '2.0.0';
+exports.group = 'Worksys';
+exports.color = '#2134B0';
+exports.output = ["red", "white", "yellow"];
+exports.click = false;
+exports.author = 'Rastislav Kovac';
+exports.icon = 'bolt';
+exports.readme = `
+  Modbus requests to modbus devices (electromer, twilight sensor, thermometer.
+  Component keeps running arround deviceConfig array in "timeoutInterval" intervals. Array items are objects with single modbus devices.
+  Everything is sent to dido_controller. If requests to device fail (all registers must fail to send NOK status) , we send "NOK-'device'" status to dido_controller. 
+  This device needs to be configured in dido_controller!!! Double check if it is. In dido_controller we calculate final status and all values with status are pushed to tb.
+`;
+
+const modbus = require('jsmodbus');
+const SerialPort = require('serialport');
+const { timeoutInterval, deviceConfig } = require("../databases/modbus_config");
+const { sendNotification } = require('./helper/notification_reporter');
+
+const DELAY_BETWEEN_DEVICES = 10000;
+
+const SEND_TO = {
+  debug: 0,
+  dido_controller: 1,
+  tb: 2
+};
+
+//to handle NOK and OK sendNotifications s
+const numberOfNotResponding = {};
+let tbName = null;
+let mainSocket;
+
+
+exports.install = function(instance) {
+
+  class SocketWithClients {
+
+    constructor () {
+      this.stream = null;
+      this.socket = null;
+      this.clients = {};
+      this.allValues = {};
+      this.errors = 0;
+      this.index = 0;
+      this.timeoutInterval = 5000;
+
+      // we need to go always around for all devices. So we need index value, device address, as well as number of registers for single device
+      this.deviceAddress = null;   // device address (1 - EM340 and 2 for twilight_sensor)
+      this.indexInDeviceConfig = 0;  // first item in deviceConfig
+      this.lengthOfActualDeviceStream = null;
+      this.device = null;
+      
+      // lampSwitchNotification helper variables
+      this.onNotificationSent = false;
+      this.offNotificationSent = false;
+
+      this.startSocket();
+    }
+
+    startSocket = () => {
+
+      let obj = this;
+
+      this.socket = new SerialPort("/dev/ttymxc0", {
+        baudRate: 9600,
+      })
+
+      // we create a client for every deviceAddress ( = address) in  list and push them into dictionary 
+      for( let i = 0; i < deviceConfig.length; i++)
+      {
+        this.clients[deviceConfig[i].deviceAddress] = new modbus.client.RTU(this.socket, deviceConfig[i].deviceAddress, 2000); // 2000 is timeout in register request, default is 5000, which is too long
+      }
+
+      this.socket.on('error', function(e) {
+        console.log('socket connection error', e);
+        if(e.code == 'ECONNREFUSED' || e.code == 'ECONNRESET') {
+          console.log(exports.title + ' Waiting 10 seconds before trying to connect again');
+          setTimeout(obj.startSocket, 10000);
+        }
+      });
+
+      this.socket.on('close', function() {
+        console.log('Socket connection closed ' + exports.title + ' Waiting 10 seconds before trying to connect again');
+        setTimeout(obj.startSocket, 10000);
+      });
+
+      this.socket.on('open', function () {
+        console.log("socket connected");
+        obj.getActualStreamAndDevice();
+        obj.timeoutInterval = timeoutInterval - DELAY_BETWEEN_DEVICES; // to make sure readout always runs in timeoutinterval we substract DELAY_BETWEEN_DEVICES
+      })
+
+    };
+
+    getActualStreamAndDevice = () => {
+      const dev = deviceConfig[this.indexInDeviceConfig];
+      this.index = 0;
+      this.errors = 0;
+      this.stream = dev.stream;
+      this.lengthOfActualDeviceStream = dev.stream.length; 
+      this.deviceAddress = dev.deviceAddress; // 1 or 2 or any number
+      this.device = dev.device; //em340, twilight_sensor
+
+      if(this.indexInDeviceConfig == 0) setTimeout(this.readRegisters, this.timeoutInterval);
+      else setTimeout(this.readRegisters, DELAY_BETWEEN_DEVICES);
+    }
+
+    readRegisters = () => {
+
+      const str = this.stream[this.index];
+      const register = str.register;
+      const size = str.size;
+      const tbAttribute = str.tbAttribute;
+
+      let obj = this;
+
+      this.clients[this.deviceAddress].readHoldingRegisters(register, size)
+        .then( function (resp) {
+          
+          resp = resp.response._body.valuesAsArray; //resp is array of length 1 or 2, f.e. [2360,0]
+          // console.log(deviceAddress, register, tbAttribute, resp);
+
+          //device is responding again after NOK status
+          if(numberOfNotResponding.hasOwnProperty(obj.device))
+          {
+            let message = "";
+            if(obj.device == "em340")
+            {
+              message = "electrometer_ok";
+            }
+            else if(obj.device == "twilight_sensor")
+            {
+              message = "twilight_sensor_ok";
+            }
+            message && sendNotification("modbus_reader: readRegisters", tbName, message, {}, "", SEND_TO.tb, instance);
+            delete numberOfNotResponding[obj.device];
+          }
+
+          obj.transformResponse(resp, register);
+
+          //obj.errors = 0;
+          obj.index++;
+          obj.readAnotherRegister();
+
+        }).catch (function () {
+
+          console.log("errors pri citani modbus registra", register, obj.indexInDeviceConfig, tbName, tbAttribute);
+      
+          obj.errors++;
+          if(obj.errors == obj.lengthOfActualDeviceStream)
+          {
+            instance.send(SEND_TO.dido_controller, {status: "NOK-" + obj.device}); // NOK-em340, NOK-em111, NOK-twilight_sensor, NOK-thermometer
+            
+            //todo - neposlalo notification, ked sme vypojili twilight a neposle to do tb, ale do dido ??
+            if(!numberOfNotResponding.hasOwnProperty(obj.device))
+            {
+              let message = "";
+              if(obj.device == "twilight_sensor")
+              {
+                message = "twilight_sensor_nok";
+              }
+              else if(obj.device == "em340")
+              {
+                message = "electrometer_nok";
+              }
+              message && sendNotification("modbus_reader: readingTimeouted", tbName, message, {}, "", SEND_TO.tb, instance);
+              numberOfNotResponding[obj.device] = 1;
+            }
+
+            obj.errors = 0;
+            numberOfNotResponding[obj.device] += 1;            
+          }
+
+          console.error(require('util').inspect(arguments, {
+            depth: null
+          }))
+
+          // if reading out of device's last register returns error, we send accumulated allValues to dido_controller (if allValues are not an empty object)
+          if(obj.index + 1 >= obj.lengthOfActualDeviceStream) 
+          {
+            if(!isObjectEmpty(obj.allValues)) instance.send(SEND_TO.dido_controller, {values: obj.allValues});
+            obj.allValues = {};
+          }
+          obj.index++;
+          obj.readAnotherRegister();
+        })
+
+    };
+
+    readAnotherRegister = () => {
+      if(this.index < this.lengthOfActualDeviceStream) setTimeout(this.readRegisters, 0);
+      else this.setNewStream();
+    }
+
+    transformResponse = (response, register) => {
+
+      for (let i = 0; i < this.lengthOfActualDeviceStream; i++) {
+
+        let a = this.stream[i];
+        if (a.register === register) 
+        {
+          let tbAttribute = a.tbAttribute;
+          let multiplier = a.multiplier;
+        
+          let value = this.calculateValue(response, multiplier);  
+          // console.log(register, tbName, tbAttribute, response, a.multiplier, value);
+
+          // if(tbName == undefined) return;
+
+          if(this.index + 1 < this.lengthOfActualDeviceStream)
+          {
+            this.allValues[tbAttribute] = value;
+            return;
+          }
+
+          const values = {
+            ...this.allValues,
+            [tbAttribute]: value,
+          };
+
+          this.checkNullVoltage(values);
+          this.lampSwitchNotification(values);
+
+          instance.send(SEND_TO.dido_controller, {values: values});
+
+          this.allValues = {};
+          break;
+        }
+
+      }    
+
+    }
+
+    setNewStream = () =>
+    {
+      if(this.lengthOfActualDeviceStream == this.index)
+      {  
+        if(this.indexInDeviceConfig + 1 == deviceConfig.length)
+        {
+          this.indexInDeviceConfig = 0;
+        } 
+        else 
+        {
+          this.indexInDeviceConfig += 1;
+        }
+
+        this.getActualStreamAndDevice();
+      } 
+    }
+
+    calculateValue = (response, multiplier) =>
+    {
+      let value = 0;
+
+      let l = response.length;
+      if (l === 2)
+      {
+        value = (response[1]*(2**16) + response[0]);
+
+          if(value >= (2**31))                              // ak je MSB bit nastavený, eventuálne sa dá použiť aj (value & 0x80000000), ak vieš robiť logický súčin
+          {
+            value = value - "0xFFFFFFFF" + 1;  
+          }
+      }
+      else if (l === 1)
+      {
+        value = response[0];
+
+        if(value >= (2**15))                              // ak je MSB bit nastavený, eventuálne sa dá použiť aj (value & 0x8000), ak vieš robiť logický súčin
+        {
+          value = value - "0xFFFF" + 1; 
+        }
+      }
+
+      return Math.round(value * multiplier * 10) / 10;
+    }
+
+    checkNullVoltage = (values) => {
+
+      if(!(values.hasOwnProperty("Phase_1_voltage") || values.hasOwnProperty("Phase_2_voltage") || values.hasOwnProperty("Phase_3_voltage"))) return;
+
+      Object.keys(values).map(singleValue => {
+        if (["Phase_1_voltage", "Phase_2_voltage", "Phase_3_voltage"].includes(singleValue)) 
+        {
+          let l = singleValue.split("_");
+          let phase = parseInt(l[1]);
+
+          if(FLOW.OMS_no_voltage == undefined) FLOW.OMS_no_voltage = new Set();
+          // console.log(values[singleValue], tbName);
+
+          if(values[singleValue] == 0)
+          {
+            FLOW.OMS_no_voltage.add(phase);
+            sendNotification("modbus_reader: checkNullVoltage", tbName, "no_voltage_on_phase", {phase: phase}, "", SEND_TO.tb, instance, "voltage" + phase );
+            // console.log('no voltage')
+          }
+          else
+          {
+            FLOW.OMS_no_voltage.delete(phase);
+            // console.log('voltage detected')
+            sendNotification("modbus_reader: checkNullVoltage", tbName, "voltage_on_phase_restored", {phase: phase}, "", SEND_TO.tb, instance, "voltage" + phase);
+          }
+        } 
+      })
+    }
+
+    /**
+     * function sends notification to slack and to tb, if EM total_power value changes more than 500. This should show, that RVO lamps has been switched on or off
+     */ 
+    lampSwitchNotification = (values) => {
+
+      if(!values.hasOwnProperty("total_power")) return;
+
+      const actualTotalPower = values.total_power;
+      if(actualTotalPower > 600 && this.onNotificationSent == false) 
+      {
+        sendNotification("modbus_reader: lampSwitchNotification", tbName, "lamps_have_turned_on", {}, "", SEND_TO.tb, instance);
+        this.onNotificationSent = true;
+        this.offNotificationSent = false;
+      } 
+      else if(actualTotalPower <= 600 && this.offNotificationSent == false)
+      {
+        sendNotification("modbus_reader: lampSwitchNotification", tbName, "lamps_have_turned_off", {}, "", SEND_TO.tb, instance);
+        this.onNotificationSent = false;
+        this.offNotificationSent = true;
+      }
+    }
+
+  } 
+
+  const isObjectEmpty = (objectName) => {
+      return Object.keys(objectName).length === 0 && objectName.constructor === Object;
+  }
+
+  setTimeout(() => {
+    
+    mainSocket = new SocketWithClients();
+    tbName = FLOW.OMS_rvo_tbname;
+
+    // this notification is to show, that flow (unipi) has been restarted
+    sendNotification("modbus_reader", tbName, "flow_restart", {}, "", SEND_TO.slack, instance);
+
+  }, 25000);
+
+}
+
diff --git a/flow/slack_connector.js b/flow/slack_connector.js
new file mode 100644
index 0000000..8c073a6
--- /dev/null
+++ b/flow/slack_connector.js
@@ -0,0 +1,124 @@
+exports.id = 'slack_connector';
+exports.title = 'Slack_Connector';
+exports.version = '1.0.0';
+exports.group = 'Worksys';
+exports.color = '#888600';
+exports.input = 1;
+exports.output = 1;
+exports.click = false;
+exports.author = 'Jakub Klena';
+exports.icon = 'sign-out';
+exports.options = { slack_channel: "C071KN2Q8SK", api_key: "", bot_name: "Flow DEMO", bot_icon: ":totaljs:" };
+// Slack channel - where to post the messages, can be name like "backend-alerts"
+// Bot Name - Name of the "user" that will post these messages, it should be based on which server it is running on.
+// Bot Icon - We can use any slack icon (even custom ones uploaded by us) as the "user" profile picture
+
+exports.html = `<div class="padding">
+	<div class="row">
+		<div class="col-md-6">
+			<div data-jc="textbox" data-jc-path="slack_channel" data-jc-config="placeholder:name or id;required:true" class="m">Slack Channel</div>
+		</div>
+	</div>
+	<div class="row">
+		<div class="col-md-6">
+			<div data-jc="textbox" data-jc-path="api_key" data-jc-config="placeholder:api key;required:true" class="m">API Key:</div>
+		</div>
+	</div>
+    <div class="row">
+		<div class="col-md-6">
+			<div data-jc="textbox" data-jc-path="bot_name" data-jc-config="placeholder:Flow DEMO;required:false" class="m">Bot Name</div>
+		</div>
+		<div class="col-md-6">
+			<div data-jc="textbox" data-jc-path="bot_icon" data-jc-config="placeholder:\:totaljs\:;required:true" class="m">Bot Icon</div>
+		</div>
+	</div>
+</div>`;
+
+exports.readme = `Sends any string received on input to Slack Channel.`;
+
+var log4js = require("log4js");
+var path = require('path');
+
+log4js.configure({
+  appenders: {
+    errLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'err.txt') },
+    monitorLogs: { type: 'file', compress:true, daysToKeep: 2, maxLogSize: 1048576, backups: 1, keepFileExt: true, filename: path.join(__dirname + "/../", 'monitor.txt') },
+    console: { type: 'console' }
+  },
+  categories: {
+    errLogs: { appenders: ['console', 'errLogs'], level: 'error' },
+    monitorLogs: { appenders: ['console', 'monitorLogs'], level: 'trace' },
+    //another: { appenders: ['console'], level: 'trace' },
+    default: { appenders: ['console'], level: 'trace' }
+  }
+});
+
+const errLogger = log4js.getLogger("errLogs");
+const logger = log4js.getLogger();
+const monitor = log4js.getLogger("monitorLogs");
+
+exports.install = function(instance) {
+	var can = false;
+
+	process.on('uncaughtException', function (err) {
+		errLogger.error('uncaughtException:', err.message);
+		errLogger.error(err.stack);
+		instance.error(err);
+	});
+
+	instance.on('data', function(data) {
+		if (!can) return;
+
+		let str = String(data.data); // Ensuring data get converted to string
+		let message = {
+			'channel': instance.options.slack_channel,
+			'username': instance.options.bot_name,
+			'icon_emoji': instance.options.bot_icon,
+			'text': str
+		};
+		let headers = {
+			'Content-type': `application/json`,
+			'Authorization': `Bearer ${instance.options.api_key}`
+		};
+
+		if (F.is4) {
+			let opt = {
+				'method': 'post',
+				'url': 'https://slack.com/api/chat.postMessage',
+				'headers': headers,
+				'body': JSON.stringify(message),
+				'type': 'json',
+				'callback': function(err, response) {
+					if (response && !err) {
+						var msg = { data: response.body, status: response.status, headers: response.headers, host: response.host, cookies: response.cookies };
+						instance.send2(msg);
+					} else if (err) {
+						errLogger.error('Slack post failed - err:', err, '\n - response was:', response);
+						instance.error(err, response);
+					}
+				}
+			};
+			REQUEST(opt);
+
+		} else {
+			U.request('https://slack.com/api/chat.postMessage', ['json', 'post'], JSON.stringify(message), function(err, data, status, headers, host) {
+				if (response && !err) {
+					response.data = { data: data, status: status, headers: headers, host: host };
+					instance.send2(response);
+				} else if (err) {
+					errLogger.error('Slack post failed - err:', err, '\n - response was:', response);
+					instance.error(err, response);
+				}
+			}, null, headers);
+		}
+	});
+
+	instance.reconfigure = function() {
+		var options = instance.options;
+		can = options.slack_channel && options.bot_name && options.bot_icon && options.api_key ? true : false;
+		instance.status(can ? '' : 'Not configured', can ? undefined : 'red');
+	};
+
+	instance.on('options', instance.reconfigure);
+	instance.reconfigure();
+}
diff --git a/flow/slack_filter.js b/flow/slack_filter.js
new file mode 100644
index 0000000..a27c9e1
--- /dev/null
+++ b/flow/slack_filter.js
@@ -0,0 +1,187 @@
+exports.id = 'slack_filter';
+exports.title = 'Slack Filter';
+exports.group = 'Citysys';
+exports.color = '#30E193';
+exports.input = 1;
+exports.output = 1;
+exports.author = 'Jakub Klena';
+exports.icon = 'plug';
+exports.version = '1.0.8';
+exports.options = { 'name':'', 'types': '["emergency", "critical", "error", "alert"]', 'message_includes':'["is responding again"]', 'tag_on_include':'[{"user_id":"U072JE5JUQG", "includes":["Electrometer", "Twilight sensor"]}]', 'slack_channel':'' };
+
+exports.html = `<div class="padding">
+	<div class="row">
+		<div class="col-md-12">
+			<div data-jc="textbox" data-jc-path="name" data-jc-config="required:true">@(Name of this server)</div>
+		</div>
+		<div class="col-md-12">
+			<div data-jc="textbox" data-jc-path="slack_channel" data-jc-config="required:false">@(Slack channel to receive the alerts)</div>
+		</div>
+		<div class="col-md-12">
+			<div data-jc="textbox" data-jc-path="types" data-jc-config="required:false">@(Watch these types, comma separated names)</div>
+		</div>
+		<div class="col-md-12">
+			<div data-jc="textbox" data-jc-path="message_includes" data-jc-config="required:false">@(Watch messages that include any of the following strings)</div>
+		</div>
+		<div class="col-md-12">
+			<div data-jc="textbox" data-jc-path="tag_on_include" data-jc-config="required:false">@(Tag people if message includes something)</div>
+		</div>
+	</div>
+</div>`;
+
+exports.readme = `# Slack Filter`;
+
+exports.install = function(instance) {
+	var running = false;
+	instance["savedSlackMessages"] = [];
+	var timer = null;
+
+	instance.on('data', function(response) {
+		if (!running) return;
+		let value = response.data;
+		if (typeof value !== 'object') return;
+		
+		let can = false
+		var k = Object.keys(value);
+		var interested = JSON.parse(instance.options.types);
+		var msg_incl = JSON.parse(instance.options.message_includes);
+		var tags = JSON.parse(instance.options.tag_on_include);
+
+		if (k.length <= 0) return;
+		if (value[k[0]].length <= 0) return;
+		if (!Object.prototype.hasOwnProperty.call(value[k[0]][0], 'values')) return;
+		if (!Object.prototype.hasOwnProperty.call(value[k[0]][0]['values'], '_event')) return;
+		if (!Object.prototype.hasOwnProperty.call(value[k[0]][0]['values']['_event'], 'type')) return;
+		if (!Object.prototype.hasOwnProperty.call(value[k[0]][0]['values']['_event'], 'source')) return;
+		if (!Object.prototype.hasOwnProperty.call(value[k[0]][0]['values']['_event']['source'], 'func')) return;
+		if (!Object.prototype.hasOwnProperty.call(value[k[0]][0]['values']['_event'], 'message')) return;
+		if (!Object.prototype.hasOwnProperty.call(value[k[0]][0]['values']['_event'], 'message_data')) return;
+
+		let icon = ':totaljs:';
+		let type = value[k[0]][0]['values']['_event']['type'];
+		let source = value[k[0]][0]['values']['_event']['source']['func'];
+		let message = value[k[0]][0]['values']['_event']['message'];
+		let message_data = value[k[0]][0]['values']['_event']['message_data'];
+		let tag = '';
+
+		switch(type){
+			case 'debug':
+				icon = ':beetle:';
+				break;
+			case 'info':
+				icon = ':speech_balloon:';
+				break;
+			case 'notice':
+				icon = ':speech_balloon:';
+				break;
+			case 'warning':
+				icon = ':exclamation:';
+				break;
+			case 'alert':
+				icon = ':warning:';
+				break;
+			case 'error':
+				icon = ':no_entry:';
+				break;
+			case 'emergency':
+				icon = ':fire:';
+				break;
+			case 'critical':
+				icon = ':fire:';
+				break;
+		}
+
+		// Check if this message includes one of the strings we are watching for
+		for (const msg of msg_incl){
+			if (message.includes(msg)){
+				if (msg == 'is responding again') icon = ':large_green_circle:';
+				can = true;
+				break;
+			}
+		}
+		// Check if message is one of the types we are watching for
+		if (interested.includes(type)){
+			can = true;
+		}
+
+		if (!can) return;
+
+
+		// Check for each person tags based on what the message includes
+		for (const person of tags){
+			for (const msg of person.includes){
+				if (message.includes(msg)){
+					tag += '<@'+person.user_id+'> ';
+					break; // Break out from this person checks as they are already tagged now
+				}
+			}
+		}
+		// Now that all people are tagged add new line symbol
+		if (tag != '') tag += '\n';
+
+		let send_data = tag+instance.options.name+' '+type.toUpperCase()+'\n*Source*: '+source+'\n*Message*: '+message;
+		if (message_data) {
+			send_data += '\nData: '+message_data;
+		}
+
+		let ignore_msg = false
+		if (message.includes('Configuration of dimming profile to node no')){
+			for (let i = 0; i < FLOW["savedSlackMessages"].length; i++){
+				if (FLOW["savedSlackMessages"][i].message == message){
+					ignore_msg = true;
+					break;
+				}
+			}
+			if (!ignore_msg){
+				FLOW["savedSlackMessages"].push({message, 'dateandtime': Date.now()});
+				if (timer === null){
+					timer = setTimeout(checkSavedMessages, 60*60000);
+				}
+			}
+		}
+
+		if (!ignore_msg){
+			instance.send2({'msg':send_data,'bot_name':instance.options.name+' '+type.toUpperCase(),'bot_icon':icon,'channel':instance.options.slack_channel});
+		}
+	});
+
+	function checkSavedMessages(){
+		var d = Date.now();
+		d = d - 86400000; // older then 24hr
+		var a = [];
+		//Remove msgs older then 24hr
+		for (let i = 0; i < FLOW["savedSlackMessages"].length; i++){
+			if (FLOW["savedSlackMessages"][i].dateandtime > d){
+				a.push(FLOW["savedSlackMessages"][i]);
+			}
+		}
+		FLOW["savedSlackMessages"] = a;
+
+		if (FLOW["savedSlackMessages"].length > 0) {
+			timer = setTimeout(checkSavedMessages, 60*60000);
+		} else {
+			timer = null;
+		}
+	}
+
+	instance.reconfigure = function() {
+		try {
+			if (!FLOW["savedSlackMessages"]){
+				FLOW["savedSlackMessages"] = [];
+			}
+
+			if (instance.options.name) {
+				instance.status('Running');
+				running = true;
+			} else {
+				instance.status('Please enter name', 'red');
+				running = false;
+			}
+		} catch (e) {
+			instance.error('Citysys connector: ' + e.message);
+		}
+	};
+
+	instance.on('options', instance.reconfigure);
+	instance.reconfigure();
+};
\ No newline at end of file
diff --git a/flow/gettemperature.js b/flow/thermometer.js
similarity index 83%
rename from flow/gettemperature.js
rename to flow/thermometer.js
index 171cc96..1a5714f 100644
--- a/flow/gettemperature.js
+++ b/flow/thermometer.js
@@ -1,18 +1,18 @@
-exports.id = 'gettemperature';
+exports.id = 'thermometer';
 exports.title = 'Thermometer';
 exports.group = 'Worksys';
 exports.color = '#5CB36D';
-exports.version = '1.0.2';
+exports.version = '1.0.3';
 exports.output = ["red", "white", "blue"];
 exports.author = 'Rastislav Kovac';
 exports.icon = 'thermometer-three-quarters';
 
-exports.readme = `# Getting temperature values from RVO`;
+exports.readme = `# Getting temperature values for RVO. In case of LM, you need device address. In case of unipi, evok sends values, in case thermometer is installed`;
 
 const instanceSendTo = {
   debug: 0,
   tb: 1,
-  di_do_controller: 2
+  dido_controller: 2
 }
 
 //read temperature - frequency
@@ -43,7 +43,7 @@ const monitor = log4js.getLogger("monitorLogs");
 //monitor.info('info');
 //errLogger.error("some error");
 
-const { promisifyBuilder, makeMapFromDbResult } = require('./helper/db_helper.js');
+const { promisifyBuilder, makeMapFromDbResult } = require('./helper/db_helper');
 const dbSettings = TABLE("settings");
 let temperatureAddress = "";
 
@@ -60,7 +60,7 @@ loadSettings();
 exports.install = function(instance) {
 
   const { exec } = require('child_process');
-  const { sendNotification, ERRWEIGHT } = require('./helper/notification_reporter.js');
+  const { sendNotification, ERRWEIGHT } = require('./helper/notification_reporter');
 
   let startRead;
   let dataToTb;
@@ -76,9 +76,9 @@ exports.install = function(instance) {
   })
 
 
-  const start = function(){
+  const start = function() {
 
-    try{
+    try {
 
       if(FLOW.OMS_controller_type === "unipi")
       {
@@ -130,8 +130,8 @@ exports.install = function(instance) {
     
             monitor.info("Thermometer is not responding", error, FLOW.OMS_brokerready);
     
-            instance.send(instanceSendTo.tb, dataToTb);
-            instance.send(instanceSendTo.di_do_controller, {sender: "gettemperature", status: status});
+            //  instance.send(instanceSendTo.tb, dataToTb); // poslat stav nok do tb, ak to handluje dido_controller ??
+            instance.send(instanceSendTo.dido_controller, {status: "NOK-thermometer"});
           }
           else parseData(stdout);
         }
@@ -162,10 +162,9 @@ exports.install = function(instance) {
 
     logger.debug("gettemperature", data);
 
-    if (!isNaN(data)){
+    if(!isNaN(data)) {
 
-
-      //if ( counter > 290 )
+      if(counter > 290)
       {
         instance.send(instanceSendTo.debug, "[Get temperature component] - temperature data are comming again from RVO after more than 1 day break");
         
@@ -174,21 +173,22 @@ exports.install = function(instance) {
       }
 
       logger.debug("gettemperature", data);
+      const values = {
+        "temperature": Number(data.toFixed(2)),
+        "status": "OK"
+      }
 
       dataToTb = {
         [edgeName]: [
           {
             "ts": Date.now(),
-            "values": {
-              "temperature": Number(data.toFixed(2)),
-              "status": "OK"
-            }
+            "values":values          
           }
         ]
       }
 
       instance.send(instanceSendTo.tb, dataToTb);
-      instance.send(instanceSendTo.di_do_controller, {sender: "gettemperature", status: "OK"});
+      instance.send(instanceSendTo.dido_controller, values);
 
       counter = 0;
 
@@ -204,7 +204,7 @@ exports.install = function(instance) {
         sendNotification("parseData", edgeName, "thermometer_sends_invalid_data", {}, "", instanceSendTo.tb, instance, "thermometer");
 
         instance.send(instanceSendTo.debug, "[Get temperature component] - no temperature data from RVO for more than 1 day");
-        instance.send(instanceSendTo.di_do_controller, {sender: "gettemperature", status: "NOK"});
+        instance.send(instanceSendTo.dido_controller, {status: "NOK-thermometer"});
       }
 
     }
@@ -213,7 +213,7 @@ exports.install = function(instance) {
 
   setTimeout(function(){
     start();
-  }, 3000);
+  }, 15000);
   
   startRead = setInterval(start, timeoutMin * 1000 * 60);
 
diff --git a/flow/wsmqttpublish.js b/flow/wsmqttpublish.js
index 54c6cbc..794fedc 100644
--- a/flow/wsmqttpublish.js
+++ b/flow/wsmqttpublish.js
@@ -187,7 +187,7 @@ exports.install = function(instance) {
       let mqtt_clientid = responseSettings[0]["mqtt_clientid"];
       let mqtt_username = responseSettings[0]["mqtt_username"];
       let mqtt_port = responseSettings[0]["mqtt_port"];
-    
+
       console.log("wsmqttpublich -> loadSettings from db", responseSettings[0]);
 
       opts = {
@@ -204,7 +204,7 @@ exports.install = function(instance) {
     }
 
     connectToTbServer();
-  } 
+  }
 
   function connectToTbServer()
   {
@@ -217,16 +217,16 @@ exports.install = function(instance) {
       instance.status("Connected", "green");
       monitor.info("MQTT broker connected");
 
-      brokerready = true; 
+      brokerready = true;
       FLOW.OMS_brokerready  =  brokerready;
-      wsmqtt_status = 'connected';      
+      wsmqtt_status = 'connected';
     });
 
     broker.on('reconnect', function() {
       instance.status("Reconnecting", "yellow");
       brokerready = false;
 
-      FLOW.OMS_brokerready  =  brokerready;      
+      FLOW.OMS_brokerready  =  brokerready;
     });
 
     broker.on('message', function(topic, message) {
@@ -245,7 +245,6 @@ exports.install = function(instance) {
       }
 
       instance.send(instanceSendTo.rpcCall, {"topic":topic, "content":message });
-        
     });
 
     broker.on('close', function(err) {
diff --git a/package.json b/package.json
index 2230755..e524d7c 100644
--- a/package.json
+++ b/package.json
@@ -6,10 +6,12 @@
 	"dependencies": {
 		"bitwise": "^2.1.0",
 		"easy-crc": "0.0.2",
+		"jsmodbus": "^4.0.6",
 		"log4js": "^6.3.0",
 		"mqtt": "^4.2.6",
+		"nodemailer": "^6.9.7",
 		"serialport": "^9.2.8",
-		"total.js": "^3.4.5"
+		"total.js": "^3.4.13"
 	},
 	"scripts": {
 		"test": "echo \"Error: no test specified\" && exit 1"
diff --git a/saved_data/modbus_settings b/saved_data/modbus_settings
deleted file mode 100644
index 4ed37d8..0000000
--- a/saved_data/modbus_settings
+++ /dev/null
@@ -1,174 +0,0 @@
-{
-   "config":{
-      "isRunning":false,
-      "debug":true,
-      "timeoutTime":4000,
-      "msgWaitTime":17000,
-      "port":"/dev/ttymxc0",
-      "port_options":"stty -F /dev/ttymxc0 9600 min 1 time 5 ignbrk -brkint -icrnl -imaxbel -opost -isig -icanon -iexten -echo -echoe -echok -echoctl -echoke"
-   },
-   "private":{
-      "errBuffer":[
-         
-      ],
-      "tbBuffer":[
-         
-      ],
-      "device_index":0,
-      "cmd_index":0,
-      "devices":[
-         {
-            "name":"Elektrometer 1",
-            "tb_name":"",
-            "type":"EM340",
-            "address":1,
-            "data":[
-               
-            ],
-            "cmd":[
-               
-            ],
-            "timeoutcount":0,
-            "status":"virtual"
-         },
-                  {
-            "name":"Twilight sensor",
-            "tb_name":"",
-            "type":"twilight",
-            "address":2,
-            "data":[
-               
-            ],
-            "cmd":[
-               
-            ],
-            "timeoutcount":0,
-            "status":"virtual"
-         }
-      ],
-      "cmd_tables":[
-         {
-            "type":"EM340",
-            "cmd":[
-               {
-                  "name":"Voltage L1",
-                  "tb_name":"Phase_1_voltage",
-                  "register":0,
-                  "size":2,
-                  "multiplier":0.1
-               },
-               {
-                  "name":"Voltage L2",
-                  "tb_name":"Phase_2_voltage",
-                  "register":2,
-                  "size":2,
-                  "multiplier":0.1
-               },
-               {
-                  "name":"Voltage L3",
-                  "tb_name":"Phase_3_voltage",
-                  "register":4,
-                  "size":2,
-                  "multiplier":0.1
-               },
-               {
-                  "name":"Current L1",
-                  "tb_name":"Phase_1_current",
-                  "register":12,
-                  "size":2,
-                  "multiplier":0.001
-               },
-               {
-                  "name":"Current L2",
-                  "tb_name":"Phase_2_current",
-                  "register":14,
-                  "size":2,
-                  "multiplier":0.001
-               },
-               {
-                  "name":"Current L3",
-                  "tb_name":"Phase_3_current",
-                  "register":16,
-                  "size":2,
-                  "multiplier":0.001
-               },
-               {
-                  "name":"Power L1",
-                  "tb_name":"Phase_1_power",
-                  "register":18,
-                  "size":2,
-                  "multiplier":0.1
-               },
-               {
-                  "name":"Power L2",
-                  "tb_name":"Phase_2_power",
-                  "register":20,
-                  "size":2,
-                  "multiplier":0.1
-               },
-               {
-                  "name":"Power L3",
-                  "tb_name":"Phase_3_power",
-                  "register":22,
-                  "size":2,
-                  "multiplier":0.1
-               },
-               {
-                  "name":"Power tot",
-                  "tb_name":"total_power",
-                  "register":40,
-                  "size":2,
-                  "multiplier":0.1
-               },
-               {
-                  "name":"Energy in",
-                  "tb_name":"total_energy",
-                  "register":52,
-                  "size":2,
-                  "multiplier":0.1
-               },
-               {
-                  "name":"PowF L1",
-                  "tb_name":"Phase_1_pow_factor",
-                  "register":46,
-                  "size":1,
-                  "multiplier":0.001
-               },
-               {
-                  "name":"PowF L2",
-                  "tb_name":"Phase_2_pow_factor",
-                  "register":47,
-                  "size":1,
-                  "multiplier":0.001
-               },
-               {
-                  "name":"PowF L3",
-                  "tb_name":"Phase_3_pow_factor",
-                  "register":48,
-                  "size":1,
-                  "multiplier":0.001
-               },
-               {
-                  "name":"PowF",
-                  "tb_name":"power_factor",
-                  "register":49,
-                  "size":1,
-                  "multiplier":0.001
-               }
-            ]
-         },
-         {
-            "type":"twilight",
-            "cmd":[
-               {
-                  "name":"Twilight",
-                  "tb_name":"twilight_sensor",
-                  "register":60,
-                  "size":2,
-                  "multiplier":1
-               }
-            ]
-         }
-      ]
-   }
-}