// this is the ELV MAX! Cube monitoring script public void Run() { ConsoleOutputLogger.WriteLine("Starting up SolarLog data gathering..."); while (running) { SolarLogDataSet data = SolarLogDataHelper.UpdateSolarLog(URL, ConsoleOutputLogger); if (data != null) { if (LastDataSet == null) { LastDataSet = data; iQueue.Enqueue(data); } else { bool QueueIt = false; if (data.Pac != LastDataSet.Pac) { QueueIt = true; } if (data.aPdc != LastDataSet.aPdc) { QueueIt = true; } // if the last data set is older than 5 minutes, definitly queue this one... TimeSpan Diff = DateTime.Now - LastDataSet.DateAndTime; //if (Diff.TotalMinutes > Properties.Settings.Default.AutomatedSensorCheck_ResponseTimeWindow) if (Diff.TotalMinutes > 5) { QueueIt = true; } if (QueueIt) { iQueue.Enqueue(data); LastDataSet = data; } } } Thread.Sleep(SolarLogUpdateTime); } }
public static SolarLogDataSet UpdateSolarLog(String URL, ConsoleOutputLogger COL) { SolarLogDataSet Output = new SolarLogDataSet();; // create a web client and get the data String fullURL = "http://" + URL + "/min_cur.js?nocache"; WebClient client = new WebClient(); try { String SolarLogValue = client.DownloadString(fullURL); // hurray, we got a string! // let's parse it! String[] LbL = SolarLogValue.Replace("\r", "").Split(new char[] { '\n' }); foreach (String _line in LbL) { #region Pac if (_line.StartsWith("var Pac=")) { Output.Pac = Convert.ToInt32(_line.Replace("var Pac=", "")); } #endregion #region aPdc if (_line.StartsWith("var aPdc=")) { String firstpart_removed = _line.Replace("var aPdc=new Array(", ""); Output.aPdc = Convert.ToInt32(firstpart_removed.Remove(firstpart_removed.IndexOf(','))); } #endregion } } catch (Exception e) { COL.WriteLine("SolarLog Exception: " + e.Message); return(null); } return(Output); }
public static SolarLogDataSet UpdateSolarLog(String URL, ConsoleOutputLogger COL) { SolarLogDataSet Output = new SolarLogDataSet();; // create a web client and get the data String fullURL = "http://"+URL+"/min_cur.js?nocache"; WebClient client = new WebClient (); try { String SolarLogValue = client.DownloadString(fullURL); // hurray, we got a string! // let's parse it! String[] LbL = SolarLogValue.Replace("\r","").Split(new char[] {'\n'}); foreach(String _line in LbL) { #region Pac if (_line.StartsWith("var Pac=")) { Output.Pac = Convert.ToInt32(_line.Replace("var Pac=","")); } #endregion #region aPdc if (_line.StartsWith("var aPdc=")) { String firstpart_removed = _line.Replace("var aPdc=new Array(",""); Output.aPdc = Convert.ToInt32( firstpart_removed.Remove(firstpart_removed.IndexOf(','))); } #endregion } } catch(Exception e) { COL.WriteLine("SolarLog Exception: "+e.Message); return null; } return Output; }
// this is the ELV MAX! Cube monitoring script public void Run() { ConsoleOutputLogger.WriteLine("Starting up SolarLog data gathering..."); while(running) { SolarLogDataSet data = SolarLogDataHelper.UpdateSolarLog(URL,ConsoleOutputLogger); if (data != null) { if (LastDataSet == null) { LastDataSet = data; iQueue.Enqueue(data); } else { bool QueueIt = false; if (data.Pac != LastDataSet.Pac) QueueIt = true; if (data.aPdc != LastDataSet.aPdc) QueueIt = true; // if the last data set is older than 5 minutes, definitly queue this one... TimeSpan Diff = DateTime.Now-LastDataSet.DateAndTime; //if (Diff.TotalMinutes > Properties.Settings.Default.AutomatedSensorCheck_ResponseTimeWindow) if (Diff.TotalMinutes > 5) QueueIt = true; if (QueueIt) { iQueue.Enqueue(data); LastDataSet = data; } } } Thread.Sleep (SolarLogUpdateTime); } }
public void Run() { // initialize XS1 Configuration XS1_Configuration = new XS1Configuration(ConfigurationCacheMinutes); MAXMonitoringThread ELVMax = null; SolarLogMonitoringThread SolarLog = null; // Start Sensor-Check Thread SensorCheck Sensorcheck = new SensorCheck(ConsoleOutputLogger); Thread SensorCheckThread = new Thread(new ThreadStart(Sensorcheck.Run)); SensorCheckThread.Start(); // Start Actor Re-Switching Thread ActorReswitching ActorReSwitch_ = new ActorReswitching(XS1_Configuration, ConsoleOutputLogger, TemporaryBlacklist, OnWaitOffLIst); Thread ActorReswitchThread = new Thread(new ThreadStart(ActorReSwitch_.Run)); ActorReswitchThread.Start(); // Start the SolarLog Thread (if enabled) // TODO: make it switchable / configurable if (Properties.Settings.Default.SolarLogEnabled) { SolarLog = new SolarLogMonitoringThread(Properties.Settings.Default.SolarLogURLDomain, ConsoleOutputLogger, SolarLog_DataQueue, Properties.Settings.Default.SolarLogUpdateIntervalMsec); Thread SolarLogThread = new Thread(new ThreadStart(SolarLog.Run)); SolarLogThread.Start(); } // Start the ELVMax Thread if (Properties.Settings.Default.ELVMAXEnabled) { ELVMax = new MAXMonitoringThread(Properties.Settings.Default.ELVMAXIP, Properties.Settings.Default.ELVMAXPort, ConsoleOutputLogger, MAX_DataQueue, Properties.Settings.Default.ELVMAXUpdateIntervalMsec); Thread ELVMaxThread = new Thread(new ThreadStart(ELVMax.Run)); ELVMaxThread.Start(); } XS1MonitoringThread XS1 = new XS1MonitoringThread(ServerName, ConsoleOutputLogger, UserName, Password, XS1_DataQueue); Thread XS1Thread = new Thread(new ThreadStart(XS1.Run)); XS1Thread.Start(); // Start integrated HTTP Server HttpServer httpServer = new HttpServer(Properties.Settings.Default.HTTPPort, Properties.Settings.Default.HTTPIP, Properties.Settings.Default.HTTPDocumentRoot, sensor_data_store, miataru_data_store, XS1_Configuration, ConsoleOutputLogger, ELVMax, Properties.Settings.Default.HTTPAuthEnabled, Properties.Settings.Default.HTTPAuthUsername, Properties.Settings.Default.HTTPAuthPassword, Properties.Settings.Default.HTTPAuthDisabledAdressStartsWith); Thread http_server_thread = new Thread(new ThreadStart(httpServer.listen)); http_server_thread.Start(); // Start Service Monitorng thread if (Properties.Settings.Default.NetworkMonitorEnabled) { NetworkMonitoring monitor = new NetworkMonitoring(ConsoleOutputLogger, NetworkMonitor_Queue, Properties.Settings.Default.NetworkMonitorUpdateIntervalMsec); Thread monitorThread = new Thread(new ThreadStart(monitor.Run)); monitorThread.Start(); } // Start Alarming thread if (Properties.Settings.Default.AlarmingEnabled) { AlarmingThread alarmThread = new AlarmingThread(ConsoleOutputLogger, Alarming_Queue, sensor_data_store, actor_data_store, miataru_data_store); Thread alarming_thread = new Thread(new ThreadStart(alarmThread.Run)); alarming_thread.Start(); } // Start Miataru Thread if (Properties.Settings.Default.MiataruEnabled) { MiataruThread miataruThread = new MiataruThread(ConsoleOutputLogger, miataru_data_store, Properties.Settings.Default.MiataruUpdateTime); Thread miataru_Thread = new Thread(new ThreadStart(miataruThread.Run)); miataru_Thread.Start(); } // Start MQTT Thread if (Properties.Settings.Default.MQTTBindingEnabled) { MQTT_Binding = new MQTT_Handling(ConsoleOutputLogger); Thread mqtt_Thread = new Thread(new ThreadStart(MQTT_Binding.Run)); mqtt_Thread.Start(); } while (!Shutdown) { try { #region Handle XS1 events XS1_DataObject dataobject = null; if (XS1_DataQueue.TryDequeue(out dataobject)) { if (dataobject.Type == ObjectTypes.Actor) { // Write to Disk lock (actor_data_store) { actor_data_store.Write(dataobject.Serialize()); } lock (KnownActorStates.KnownActorStatuses) { bool usethisactor = true; // check if this actor is on temporary blacklist (like when it was handled) lock (TemporaryBlacklist) { if (TemporaryBlacklist.Contains(dataobject.Name)) { usethisactor = false; } TemporaryBlacklist.Remove(dataobject.Name); } if (usethisactor) { // if Alarming is enabled, queue this XS1 Event up for alarming... if (Properties.Settings.Default.AlarmingEnabled) { Alarming_Queue.Enqueue(dataobject); } // this actor action did not result in any action hacs made - so we try to make the best out of it #region Scripting Handling // check if this sensor is something we should act uppon foreach (ScriptingActorElement Element in ScriptingActorConfiguration.ScriptingActorActions) { if (dataobject.Name == Element.SensorToWatchName) { if (dataobject.Value == Element.SensorValue) { // obviously there is a ScriptingActorConfiguration entry // so we execute the actor preset set_state_actuator.set_state_actuator ssa = new set_state_actuator.set_state_actuator(); ConsoleOutputLogger.WriteLineToScreenOnly("detected actor scripting action on actor " + Element.SensorToWatchName + " - " + Element.ActorToSwitchName + " to " + Element.ActionToRunName); if (Element.isCurrentlyWithinStartEndHours()) { #region Scripting Actor Actions if (Element.ActionToRunName == actor_status.URL) { ConsoleOutputLogger.WriteLine("Scripting Actor URL"); // handle URLs -> the ActorToSwitch Name will be the URL to trigger try { WebClient client = new WebClient(); client.Encoding = System.Text.Encoding.UTF8; String JSONInput = client.DownloadString(Element.ActorToSwitchName); ConsoleOutputLogger.WriteLine("Doing HTTP GET on: " + Element.ActorToSwitchName); } catch (Exception e) { ConsoleOutputLogger.WriteLine("Exception on URL Actor Scripting: " + e.Message); } } // check what action is going to happen now... if (Element.ActionToRunName == actor_status.On) { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "ON", XS1_Configuration); } if (Element.ActionToRunName == actor_status.Off) { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "OFF", XS1_Configuration); // remove from OnWaitOffList lock (OnWaitOffLIst) { if (OnWaitOffLIst.Contains(Element.ActorToSwitchName)) { OnWaitOffLIst.Remove(Element.ActorToSwitchName); } } } if (Element.ActionToRunName == actor_status.OnOff) { // look for the current status in the known actors table lock (KnownActorStates.KnownActorStatuses) { if (KnownActorStates.KnownActorStatuses.ContainsKey(Element.ActorToSwitchName)) { current_actor_status Status = KnownActorStates.KnownActorStatuses[Element.ActorToSwitchName]; if (Status.Status == actor_status.On) { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "OFF", XS1_Configuration); } else if (Status.Status == actor_status.Off) { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "ON", XS1_Configuration); } } else { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "ON", XS1_Configuration); } } } if (Element.ActionToRunName == actor_status.OnWaitOff) { lock (OnWaitOffLIst) { ConsoleOutputLogger.WriteLine("Adding " + Element.ActorToSwitchName + " to ActorReSwitching OnWaitOff List"); OnWaitOffLIst.Add(Element.ActorToSwitchName); } ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "ON_WAIT_OFF", XS1_Configuration); } #endregion } } } } #endregion #region MQTT Handling Actor if (Properties.Settings.Default.MQTTBindingEnabled) { MQTT_Binding.MQTT_Handle_Actor(dataobject); } #endregion if (KnownActorStates.KnownActorStatuses.ContainsKey(dataobject.Name)) { // is contained if (dataobject.Value == 100) { KnownActorStates.KnownActorStatuses[dataobject.Name] = new current_actor_status(dataobject.Name, actor_status.On); } else { KnownActorStates.KnownActorStatuses[dataobject.Name] = new current_actor_status(dataobject.Name, actor_status.Off); } } else { if (dataobject.Value == 100) { KnownActorStates.KnownActorStatuses.Add(dataobject.Name, new current_actor_status(dataobject.Name, actor_status.On)); } else { KnownActorStates.KnownActorStatuses.Add(dataobject.Name, new current_actor_status(dataobject.Name, actor_status.Off)); } } } else { ConsoleOutputLogger.WriteLine("Actor " + dataobject.Name + " is on the blacklist (ActorReSwitching) and therefore is ignored this time."); } } } else if (dataobject.Type == ObjectTypes.Sensor) { lock (sensor_data_store) { sensor_data_store.Write(dataobject.Serialize()); } // update the sensor in the sensor check Sensorcheck.UpdateSensor(dataobject.Name); // if Alarming is enabled, queue this XS1 Event up for alarming... if (Properties.Settings.Default.AlarmingEnabled) { if (!dataobject.IgnoreForAlarming) // this if for those events which get re-queued as xs1 events despite being for example elvmax events { Alarming_Queue.Enqueue(dataobject); } } #region Scripting // check if this sensor is something we should act uppon foreach (ScriptingActorElement Element in ScriptingActorConfiguration.ScriptingActorActions) { if (dataobject.Name == Element.SensorToWatchName) { if (dataobject.Value == Element.SensorValue) { // obviously there is a ScriptingActorConfiguration entry // so we execute the actor preset set_state_actuator.set_state_actuator ssa = new set_state_actuator.set_state_actuator(); ConsoleOutputLogger.WriteLineToScreenOnly("detected actor scripting action on sensor " + Element.SensorToWatchName + " - " + Element.ActorToSwitchName + " to " + Element.ActionToRunName); if (Element.isCurrentlyWithinStartEndHours()) { #region Scripting Actor actions if (Element.ActionToRunName == actor_status.URL) { ConsoleOutputLogger.WriteLine("Scripting Actor URL"); // handle URLs -> the ActorToSwitch Name will be the URL to trigger try { WebClient client = new WebClient(); client.Encoding = System.Text.Encoding.UTF8; String JSONInput = client.DownloadString(Element.ActorToSwitchName); ConsoleOutputLogger.WriteLine("Doing HTTP GET on: " + Element.ActorToSwitchName); } catch (Exception e) { ConsoleOutputLogger.WriteLine("Exception on URL Actor Scripting: " + e.Message); } } // check what action is going to happen now... if (Element.ActionToRunName == actor_status.On) { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "ON", XS1_Configuration); } if (Element.ActionToRunName == actor_status.Off) { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "OFF", XS1_Configuration); // remove from OnWaitOffList lock (OnWaitOffLIst) { if (OnWaitOffLIst.Contains(Element.ActorToSwitchName)) { OnWaitOffLIst.Remove(Element.ActorToSwitchName); } } } if (Element.ActionToRunName == actor_status.OnOff) { // look for the current status in the known actors table lock (KnownActorStates.KnownActorStatuses) { if (KnownActorStates.KnownActorStatuses.ContainsKey(Element.ActorToSwitchName)) { current_actor_status Status = KnownActorStates.KnownActorStatuses[Element.ActorToSwitchName]; if (Status.Status == actor_status.On) { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "OFF", XS1_Configuration); } else if (Status.Status == actor_status.Off) { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "ON", XS1_Configuration); } } else { ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "ON", XS1_Configuration); } } } if (Element.ActionToRunName == actor_status.OnWaitOff) { lock (OnWaitOffLIst) { ConsoleOutputLogger.WriteLine("Adding " + Element.ActorToSwitchName + " to ActorReSwitching OnWaitOff List"); OnWaitOffLIst.Add(Element.ActorToSwitchName); } ssa.SetStateActuatorPreset(hacs.Properties.Settings.Default.XS1, hacs.Properties.Settings.Default.Username, hacs.Properties.Settings.Default.Password, Element.ActorToSwitchName, "ON_WAIT_OFF", XS1_Configuration); } #endregion } else { ConsoleOutputLogger.WriteLine("Actorswitching Action not triggered since it's out of timespan. (" + Element.StartHour + "-" + Element.EndHour + ")"); } } } } #endregion #region MQTT Handling Sensor if (Properties.Settings.Default.MQTTBindingEnabled) { MQTT_Binding.MQTT_Handle_Sensor(dataobject); } #endregion } else if (dataobject.Type == ObjectTypes.Unknown) { unknown_data_store.Write(dataobject.Serialize()); } ConsoleOutputLogger.WriteLine(ServerName + " - " + dataobject.OriginalXS1Statement); } #endregion #region Handle MAX events // the strategy for MAX events is quite easy: emulate XS1 events and stuff the XS1 queue with those faked events // that takes care of the storage and the if (Properties.Settings.Default.ELVMAXEnabled) { IDeviceDiffSet max_dataobject = null; if (MAX_DataQueue.TryDequeue(out max_dataobject)) { // if Alarming is enabled, queue this ELV MAX up for alarming... if (Properties.Settings.Default.AlarmingEnabled) { Alarming_Queue.Enqueue(max_dataobject); } StringBuilder sb = new StringBuilder(); sb.Append("S\t" + max_dataobject.DeviceName + "\t" + max_dataobject.DeviceType); if (max_dataobject.DeviceType == DeviceTypes.HeatingThermostat) { HeatingThermostatDiff _heating = (HeatingThermostatDiff)max_dataobject; // this is what is different on the heating thermostats //ConsoleOutputLogger.WriteLine(_heating.ToString()); // first the temperature data XS1_DataObject maxdataobject = new XS1_DataObject(Properties.Settings.Default.ELVMAXIP, _heating.RoomName + "-" + _heating.DeviceName, ObjectTypes.Sensor, "heating_thermostat", DateTime.Now, _heating.RoomID, _heating.Temperature, _heating.ToString(), true); SensorCheckIgnoreConfiguration.AddToIgnoreList(maxdataobject.Name); XS1_DataQueue.Enqueue(maxdataobject); // then the low battery if exists if (_heating.LowBattery == BatteryStatus.lowbattery) { XS1_DataObject lowbatteryobject = new XS1_DataObject(Properties.Settings.Default.ELVMAXIP, _heating.RoomName + "-" + _heating.DeviceName, ObjectTypes.Sensor, "low_battery", DateTime.Now, _heating.RoomID, _heating.Temperature, _heating.ToString() + ", LowBattery", true); SensorCheckIgnoreConfiguration.AddToIgnoreList(lowbatteryobject.Name); XS1_DataQueue.Enqueue(lowbatteryobject); } if (_heating.Mode == ThermostatModes.boost) { XS1_DataObject boostmodeobject = new XS1_DataObject(Properties.Settings.Default.ELVMAXIP, _heating.RoomName + "-" + _heating.DeviceName, ObjectTypes.Sensor, "boost", DateTime.Now, _heating.RoomID, _heating.Temperature, _heating.ToString() + ", Boost", true); SensorCheckIgnoreConfiguration.AddToIgnoreList(boostmodeobject.Name); XS1_DataQueue.Enqueue(boostmodeobject); } } if (max_dataobject.DeviceType == DeviceTypes.ShutterContact) { ShutterContactDiff _shutter = (ShutterContactDiff)max_dataobject; // this is what is different on the ShutterContacts //ConsoleOutputLogger.WriteLine(_shutter.ToString()); // first the open/close status if (_shutter.ShutterState == ShutterContactModes.open) { XS1_DataObject maxdataobject = new XS1_DataObject(Properties.Settings.Default.ELVMAXIP, _shutter.RoomName + "-" + _shutter.DeviceName, ObjectTypes.Sensor, "shutter_contact", DateTime.Now, _shutter.RoomID, 1.0, _shutter.ToString(), true); SensorCheckIgnoreConfiguration.AddToIgnoreList(maxdataobject.Name); XS1_DataQueue.Enqueue(maxdataobject); } else { XS1_DataObject maxdataobject = new XS1_DataObject(Properties.Settings.Default.ELVMAXIP, _shutter.RoomName + "-" + _shutter.DeviceName, ObjectTypes.Sensor, "shutter_contact", DateTime.Now, _shutter.RoomID, 0.0, _shutter.ToString(), true); SensorCheckIgnoreConfiguration.AddToIgnoreList(maxdataobject.Name); XS1_DataQueue.Enqueue(maxdataobject); } // then the low battery if exists if (_shutter.LowBattery == BatteryStatus.lowbattery) { if (_shutter.ShutterState == ShutterContactModes.open) { XS1_DataObject lowbatteryobject = new XS1_DataObject(Properties.Settings.Default.ELVMAXIP, _shutter.RoomName + "-" + _shutter.DeviceName, ObjectTypes.Sensor, "low_battery", DateTime.Now, _shutter.RoomID, 1.0, _shutter.ToString() + ",LowBattery", true); SensorCheckIgnoreConfiguration.AddToIgnoreList(lowbatteryobject.Name); XS1_DataQueue.Enqueue(lowbatteryobject); } else { XS1_DataObject lowbatteryobject = new XS1_DataObject(Properties.Settings.Default.ELVMAXIP, _shutter.RoomName + "-" + _shutter.DeviceName, ObjectTypes.Sensor, "low_battery", DateTime.Now, _shutter.RoomID, 0.0, _shutter.ToString() + ",LowBattery", true); SensorCheckIgnoreConfiguration.AddToIgnoreList(lowbatteryobject.Name); XS1_DataQueue.Enqueue(lowbatteryobject); } } } } } #endregion #region Handle SolarLog events if (Properties.Settings.Default.SolarLogEnabled) { SolarLogDataSet solarlog_dataobject = null; if (SolarLog_DataQueue.TryDequeue(out solarlog_dataobject)) { // Pac XS1_DataQueue.Enqueue(new XS1_DataObject(Properties.Settings.Default.SolarLogURLDomain, "Pac", ObjectTypes.Sensor, "Pac", solarlog_dataobject.DateAndTime, 1, solarlog_dataobject.Pac, "solarlog," + Properties.Settings.Default.SolarLogURLDomain + ",Pac," + solarlog_dataobject.Pac + "," + solarlog_dataobject.DateAndTime.Ticks, true)); // aPdc XS1_DataQueue.Enqueue(new XS1_DataObject(Properties.Settings.Default.SolarLogURLDomain, "aPdc", ObjectTypes.Sensor, "aPdc", solarlog_dataobject.DateAndTime, 1, solarlog_dataobject.aPdc, "solarlog," + Properties.Settings.Default.SolarLogURLDomain + ",aPdc," + solarlog_dataobject.aPdc + "," + solarlog_dataobject.DateAndTime.Ticks, true)); // if Alarming is enabled, queue this SolarLog Event up for alarming... if (Properties.Settings.Default.AlarmingEnabled) { Alarming_Queue.Enqueue(solarlog_dataobject); } } } #endregion #region Handle Network Monitor events if (Properties.Settings.Default.NetworkMonitorEnabled) { NetworkMonitoringDataSet networkmonitor_dataobject = null; if (NetworkMonitor_Queue.TryDequeue(out networkmonitor_dataobject)) { if (networkmonitor_dataobject.Status == Org.Mentalis.Network.ICMP_Status.Success) { XS1_DataQueue.Enqueue(new XS1_DataObject(networkmonitor_dataobject.Descriptor, networkmonitor_dataobject.HostnameIP, ObjectTypes.Sensor, "Ping", networkmonitor_dataobject.TimeOfMeasurement, 2, 1, "OnlineCheck," + networkmonitor_dataobject.HostnameIP + "," + networkmonitor_dataobject.Descriptor + ",Online", true)); } else { XS1_DataQueue.Enqueue(new XS1_DataObject(networkmonitor_dataobject.Descriptor, networkmonitor_dataobject.HostnameIP, ObjectTypes.Sensor, "Ping", networkmonitor_dataobject.TimeOfMeasurement, 2, 0, "OnlineCheck," + networkmonitor_dataobject.HostnameIP + "," + networkmonitor_dataobject.Descriptor + ",Offline", true)); } // if Alarming is enabled, queue this Network Monitor Event up for alarming... if (Properties.Settings.Default.AlarmingEnabled) { Alarming_Queue.Enqueue(networkmonitor_dataobject); } } } #endregion } catch (Exception) { AcceptingCommands = false; //Thread.Sleep(1); } Thread.Sleep(1); } if (ELVMax != null) { ELVMax.running = false; } XS1.running = false; Thread.Sleep(200); // ... msecs period to wait for new input... }