public void OnValueChanged(int index, object value, bool user) { GXDLMSClock target = Target as GXDLMSClock; if (index == 5) { BeginTB.Value = value; } else if (index == 6) { EndTB.Value = value; } else if (index == 7) { DeviationTB.Value = value; } else if (index == 8) { EnabledCB.CheckedChanged -= new System.EventHandler(EnabledCB_CheckedChanged); this.EnabledCB.Checked = target.Enabled; BeginTB.ReadOnly = EndTB.ReadOnly = DeviationTB.ReadOnly = !EnabledCB.Checked; EnabledCB.CheckedChanged += new System.EventHandler(EnabledCB_CheckedChanged); } else { throw new IndexOutOfRangeException("index"); } }
public void OnValueChanged(int attributeID, object value) { GXDLMSClock target = Target as GXDLMSClock; if (attributeID == 5) { BeginTB.Value = value; } else if (attributeID == 6) { EndTB.Value = value; } else if (attributeID == 7) { DeviationTB.Value = value; } else if (attributeID == 8) { this.EnabledCB.Checked = target.Enabled; EnabledCB_CheckedChanged(this, null); } else { throw new IndexOutOfRangeException("attributeID"); } }
void HandleClock(ValueEventArgs e) { GXDLMSClock c = e.Target as GXDLMSClock; if (e.Index == 2) { c.Time = c.Now(); } }
private void UpdateTimeZone(GXDLMSClock target, bool connected, int value) { if (target.TimeZone == -32768)//0x8000 { value = -1; TimeZoneTB.Value = ""; } //If time zone is not used. TimeZoneCb.CheckedChanged -= new System.EventHandler(TimeZoneCb_CheckedChanged); TimeZoneCb.Checked = value != -1; TimeZoneCb.CheckedChanged += new System.EventHandler(TimeZoneCb_CheckedChanged); TimeZoneTB.ReadOnly = !connected || value == -1; }
public void OnValueChanged(int index, object value, bool user, bool connected) { GXDLMSClock target = Target as GXDLMSClock; if (index == 2) { //This is handled before. } else if (index == 3) { int v = (int)value; if (target.TimeZone == -32768)//0x8000 { v = -1; TimeZoneTB.Value = ""; } //If time zone is not used. TimeZoneCb.CheckedChanged -= new System.EventHandler(TimeZoneCb_CheckedChanged); TimeZoneCb.Checked = v != -1; TimeZoneCb.CheckedChanged += new System.EventHandler(TimeZoneCb_CheckedChanged); TimeZoneTB.ReadOnly = !connected || v == -1; } else if (index == 5) { BeginTB.Value = value; } else if (index == 6) { EndTB.Value = value; } else if (index == 7) { DeviationTB.Value = value; } else if (index == 8) { EnabledCB.CheckedChanged -= new System.EventHandler(EnabledCB_CheckedChanged); this.EnabledCB.Checked = target.Enabled; BeginTB.ReadOnly = EndTB.ReadOnly = DeviationTB.ReadOnly = !EnabledCB.Checked; EnabledCB.CheckedChanged += new System.EventHandler(EnabledCB_CheckedChanged); } else { throw new IndexOutOfRangeException("index"); } }
void HandleClock(ValueEventArgs e) { GXDLMSClock c = e.Target as GXDLMSClock; if (e.Index == 2) { c.Time = DateTime.Now; } else if (e.Index == 3) { c.TimeZone = -(int)TimeZoneInfo.Local.BaseUtcOffset.TotalMinutes; } else if (e.Index == 4) { c.Status = ClockStatus.Ok; if (DateTime.Now.IsDaylightSavingTime()) { c.Status |= ClockStatus.DaylightSavingActive; } } else if (e.Index == 5) { c.Begin = TimeZone.CurrentTimeZone.GetDaylightChanges(DateTime.Now.Year).Start; c.Begin.Skip |= DateTimeSkips.Year; } else if (e.Index == 6) { c.End = TimeZone.CurrentTimeZone.GetDaylightChanges(DateTime.Now.Year).End; c.End.Skip |= DateTimeSkips.Year; } else if (e.Index == 7) { c.Deviation = (int)TimeZone.CurrentTimeZone.GetDaylightChanges(DateTime.Now.Year).Delta.TotalMinutes; } else if (e.Index == 8) { c.Enabled = TimeZoneInfo.Local.SupportsDaylightSavingTime; } else if (e.Index == 9) { c.ClockBase = ClockBase.Crystal; } }
static void Main(string[] args) { try { int port = 4059; GXNet media = new GXNet(NetworkType.Tcp, "localhost", port); GXDLMSSecureNotify notify = new GXDLMSSecureNotify(true, 16, 1, InterfaceType.WRAPPER); // Un-comment this if you want to send encrypted push messages. // notify.Ciphering.Security = Security.AuthenticationEncryption; GXDLMSPushSetup p = new GXDLMSPushSetup(); GXDLMSClock clock = new GXDLMSClock(); p.PushObjectList.Add(new KeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(p, new GXDLMSCaptureObject(2, 0))); p.PushObjectList.Add(new KeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(clock, new GXDLMSCaptureObject(2, 0))); /////////////////////////////////////////////////////////////////////// //Create Gurux DLMS server component for Short Name and start listen events. GXDLMSPushListener pushListener = new GXDLMSPushListener(port); Console.WriteLine("Listening DLMS Push IEC 62056-47 messages on port " + port + "."); Console.WriteLine("Press X to close and Enter to send a Push message."); ConsoleKey key; while ((key = Console.ReadKey().Key) != ConsoleKey.X) { if (key == ConsoleKey.Enter) { Console.WriteLine("Sending Push message."); media.Open(); clock.Time = DateTime.Now; foreach (byte[] it in notify.GeneratePushSetupMessages(DateTime.MinValue, p)) { media.Send(it, null); } Thread.Sleep(100); media.Close(); } } } catch (Exception ex) { Console.WriteLine(ex.Message); } }
public void OnAccessRightsChange(int index, AccessMode access, bool connected) { bool enabled = connected && (access & AccessMode.Write) != 0; if (index == 2) { TimeTB.ReadOnly = !enabled; UpdateTimeBtn.Enabled = enabled; } else if (index == 3) { GXDLMSClock target = Target as GXDLMSClock; TimeZoneCb.Enabled = enabled; CurrentTimeZoneBtn.Enabled = enabled; if (enabled) { UpdateTimeZone(target, connected, target.TimeZone); } } else if (index == 5) { BeginTB.ReadOnly = !enabled; } else if (index == 6) { EndTB.ReadOnly = !enabled; } else if (index == 7) { DeviationTB.ReadOnly = !enabled; } else if (index == 8) { EnabledCB.Enabled = enabled; } else { throw new IndexOutOfRangeException("index"); } }
public void OnAccessRightsChange(GXDLMSViewArguments arg) { bool enabled = arg.Connected && arg.Client.CanWrite(Target, arg.Index); if (arg.Index == 2) { TimeTB.ReadOnly = !enabled; UpdateTimeBtn.Enabled = enabled; } else if (arg.Index == 3) { GXDLMSClock target = Target as GXDLMSClock; TimeZoneCb.Enabled = enabled; CurrentTimeZoneBtn.Enabled = enabled; if (enabled) { UpdateTimeZone(target, arg.Connected && arg.Client.CanWrite(Target, arg.Index), target.TimeZone); } } else if (arg.Index == 5) { BeginTB.ReadOnly = !enabled; } else if (arg.Index == 6) { EndTB.ReadOnly = !enabled; } else if (arg.Index == 7) { DeviationTB.ReadOnly = !enabled; } else if (arg.Index == 8) { EnabledCB.Enabled = enabled; } else { throw new IndexOutOfRangeException("index"); } }
public void OnValueChanged(int index, object value, bool user, bool connected) { GXDLMSClock target = Target as GXDLMSClock; if (index == 2) { //This is handled before. } else if (index == 3) { UpdateTimeZone(target, connected, (int)value); } else if (index == 5) { BeginTB.Value = value; } else if (index == 6) { EndTB.Value = value; } else if (index == 7) { DeviationTB.Value = value; } else if (index == 8) { EnabledCB.CheckedChanged -= new System.EventHandler(EnabledCB_CheckedChanged); this.EnabledCB.Checked = target.Enabled; BeginTB.ReadOnly = EndTB.ReadOnly = DeviationTB.ReadOnly = !EnabledCB.Checked; EnabledCB.CheckedChanged += new System.EventHandler(EnabledCB_CheckedChanged); } else { throw new IndexOutOfRangeException("index"); } }
void Init() { Media.OnReceived += new Gurux.Common.ReceivedEventHandler(OnReceived); Media.OnClientConnected += new Gurux.Common.ClientConnectedEventHandler(OnClientConnected); Media.OnClientDisconnected += new Gurux.Common.ClientDisconnectedEventHandler(OnClientDisconnected); Media.OnError += new Gurux.Common.ErrorEventHandler(OnError); Media.Open(); /////////////////////////////////////////////////////////////////////// //Add Logical Device Name. 123456 is meter serial number. GXDLMSData ldn = new GXDLMSData("0.0.42.0.0.255"); ldn.Value = "Gurux123456"; //Value is get as Octet String. ldn.SetDataType(2, DataType.OctetString); ldn.SetUIDataType(2, DataType.String); Items.Add(ldn); //Add firmware version. GXDLMSData fw = new GXDLMSData("1.0.0.2.0.255"); fw.Value = "Gurux FW 0.0.1"; Items.Add(fw); //Add Last average. GXDLMSRegister r = new GXDLMSRegister("1.1.21.25.0.255"); //Set access right. Client can't change average value. Items.Add(r); //Add default clock. Clock's Logical Name is 0.0.1.0.0.255. GXDLMSClock clock = new GXDLMSClock(); clock.Begin = new GXDateTime(-1, 9, 1, -1, -1, -1, -1); clock.End = new GXDateTime(-1, 3, 1, -1, -1, -1, -1); clock.Deviation = 0; Items.Add(clock); //Add Tcp Udp setup. Default Logical Name is 0.0.25.0.0.255. GXDLMSTcpUdpSetup tcp = new GXDLMSTcpUdpSetup(); Items.Add(tcp); /////////////////////////////////////////////////////////////////////// //Add Load profile. GXDLMSProfileGeneric pg = new GXDLMSProfileGeneric("1.0.99.1.0.255"); //Set capture period to 60 second. pg.CapturePeriod = 60; //Maximum row count. pg.ProfileEntries = 100000; pg.SortMethod = SortMethod.FiFo; pg.SortObject = clock; //Add columns. //Set saved attribute index. pg.CaptureObjects.Add(new GXKeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(clock, new GXDLMSCaptureObject(2, 0))); //Set saved attribute index. pg.CaptureObjects.Add(new GXKeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(r, new GXDLMSCaptureObject(2, 0))); Items.Add(pg); //Add initial rows. //Generate Profile Generic data file lock (FileLock) { using (var writer = File.CreateText(GetdataFile())) { //Create 10 000 rows for profile generic file. //In example profile generic we have two columns. //Date time and integer value. int rowCount = 10000; DateTime dt = DateTime.Now; //Reset minutes and seconds to Zero. dt = dt.AddSeconds(-dt.Second); dt = dt.AddMinutes(-dt.Minute); dt = dt.AddHours(-(rowCount - 1)); StringBuilder sb = new StringBuilder(); for (int pos = 0; pos != rowCount; ++pos) { sb.Append(dt.ToString(CultureInfo.InvariantCulture)); sb.Append(';'); sb.AppendLine(Convert.ToString(pos + 1)); dt = dt.AddHours(1); } sb.Length -= 2; writer.Write(sb.ToString()); } } /////////////////////////////////////////////////////////////////////// //Add Auto connect object. GXDLMSAutoConnect ac = new GXDLMSAutoConnect(); ac.Mode = AutoConnectMode.AutoDiallingAllowedAnytime; ac.Repetitions = 10; ac.RepetitionDelay = 60; //Calling is allowed between 1am to 6am. ac.CallingWindow.Add(new KeyValuePair <GXDateTime, GXDateTime>(new GXDateTime(-1, -1, -1, 1, 0, 0, -1), new GXDateTime(-1, -1, -1, 6, 0, 0, -1))); ac.Destinations = new string[] { "www.gurux.org" }; Items.Add(ac); /////////////////////////////////////////////////////////////////////// //Add Activity Calendar object. GXDLMSActivityCalendar activity = new GXDLMSActivityCalendar(); activity.CalendarNameActive = "Active"; activity.SeasonProfileActive = new GXDLMSSeasonProfile[] { new GXDLMSSeasonProfile("Summer time", new GXDateTime(-1, 3, 31, -1, -1, -1, -1), "") }; activity.WeekProfileTableActive = new GXDLMSWeekProfile[] { new GXDLMSWeekProfile("Monday", 1, 1, 1, 1, 1, 1, 1) }; activity.DayProfileTableActive = new GXDLMSDayProfile[] { new GXDLMSDayProfile(1, new GXDLMSDayProfileAction[] { new GXDLMSDayProfileAction(new GXTime(DateTime.Now), "0.1.10.1.101.255", 1) }) }; activity.CalendarNamePassive = "Passive"; activity.SeasonProfilePassive = new GXDLMSSeasonProfile[] { new GXDLMSSeasonProfile("Winter time", new GXDateTime(-1, 10, 30, -1, -1, -1, -1), "") }; activity.WeekProfileTablePassive = new GXDLMSWeekProfile[] { new GXDLMSWeekProfile("Tuesday", 1, 1, 1, 1, 1, 1, 1) }; activity.DayProfileTablePassive = new GXDLMSDayProfile[] { new GXDLMSDayProfile(1, new GXDLMSDayProfileAction[] { new GXDLMSDayProfileAction(new GXTime(DateTime.Now), "0.1.10.1.101.255", 1) }) }; activity.Time = new GXDateTime(DateTime.Now); Items.Add(activity); /////////////////////////////////////////////////////////////////////// //Add Optical Port Setup object. GXDLMSIECOpticalPortSetup optical = new GXDLMSIECOpticalPortSetup(); optical.DefaultMode = OpticalProtocolMode.Default; optical.ProposedBaudrate = BaudRate.Baudrate9600; optical.DefaultBaudrate = BaudRate.Baudrate300; optical.ResponseTime = LocalPortResponseTime.ms200; optical.DeviceAddress = "Gurux"; optical.Password1 = "Gurux1"; optical.Password2 = "Gurux2"; optical.Password5 = "Gurux5"; Items.Add(optical); /////////////////////////////////////////////////////////////////////// //Add Demand Register object. GXDLMSDemandRegister dr = new GXDLMSDemandRegister(); dr.LogicalName = "0.0.1.0.0.255"; dr.CurrentAverageValue = (uint)10; dr.LastAverageValue = (uint)20; dr.Status = (byte)1; dr.StartTimeCurrent = dr.CaptureTime = new GXDateTime(DateTime.Now); dr.Period = 10; dr.NumberOfPeriods = 1; Items.Add(dr); /////////////////////////////////////////////////////////////////////// //Add Register Monitor object. GXDLMSRegisterMonitor rm = new GXDLMSRegisterMonitor(); rm.LogicalName = "0.0.1.0.0.255"; rm.Thresholds = new object[] { (int)0x1234, (int)0x5678 }; GXDLMSActionSet set = new GXDLMSActionSet(); set.ActionDown.LogicalName = rm.LogicalName; set.ActionDown.ScriptSelector = 1; set.ActionUp.LogicalName = rm.LogicalName; set.ActionUp.ScriptSelector = 2; rm.Actions = new GXDLMSActionSet[] { set }; rm.MonitoredValue.Update(r, 2); Items.Add(rm); /////////////////////////////////////////////////////////////////////// //Add Activate test mode Script table object. GXDLMSScriptTable st = new GXDLMSScriptTable("0.1.10.1.101.255"); GXDLMSScript s = new GXDLMSScript(); s.Id = 1; GXDLMSScriptAction a = new GXDLMSScriptAction(); a.Target = null; s.Actions.Add(a); st.Scripts.Add(s); Items.Add(st); /////////////////////////////////////////////////////////////////////// //Add action schedule object. GXDLMSActionSchedule actionS = new GXDLMSActionSchedule(); actionS.Target = st; actionS.ExecutedScriptSelector = 1; actionS.Type = SingleActionScheduleType.SingleActionScheduleType1; actionS.ExecutionTime = new GXDateTime[] { new GXDateTime(DateTime.Now) }; Items.Add(actionS); /////////////////////////////////////////////////////////////////////// //Add SAP Assignment object. GXDLMSSapAssignment sap = new GXDLMSSapAssignment(); sap.SapAssignmentList.Add(new KeyValuePair <UInt16, string>(1, "Gurux")); sap.SapAssignmentList.Add(new KeyValuePair <UInt16, string>(16, "Gurux-2")); Items.Add(sap); /////////////////////////////////////////////////////////////////////// //Add Auto Answer object. GXDLMSAutoAnswer aa = new GXDLMSAutoAnswer(); aa.Mode = AutoAnswerMode.Connected; aa.ListeningWindow.Add(new KeyValuePair <GXDateTime, GXDateTime>(new GXDateTime(-1, -1, -1, 6, -1, -1, -1), new GXDateTime(-1, -1, -1, 8, -1, -1, -1))); aa.Status = AutoAnswerStatus.Inactive; aa.NumberOfCalls = 0; aa.NumberOfRingsInListeningWindow = 1; aa.NumberOfRingsOutListeningWindow = 2; Items.Add(aa); /////////////////////////////////////////////////////////////////////// //Add Modem Configuration object. GXDLMSModemConfiguration mc = new GXDLMSModemConfiguration(); mc.CommunicationSpeed = BaudRate.Baudrate57600; GXDLMSModemInitialisation init = new GXDLMSModemInitialisation(); init.Request = "AT"; init.Response = "OK"; init.Delay = 0; mc.InitialisationStrings = new GXDLMSModemInitialisation[] { init }; Items.Add(mc); /////////////////////////////////////////////////////////////////////// //Add Mac Address Setup object. GXDLMSMacAddressSetup mac = new GXDLMSMacAddressSetup(); mac.MacAddress = "00:11:22:33:44:55:66"; Items.Add(mac); /////////////////////////////////////////////////////////////////////// //Add Image transfer object. GXDLMSImageTransfer i = new GXDLMSImageTransfer(); Items.Add(i); /////////////////////////////////////////////////////////////////////// //Add IP4 Setup object. GXDLMSIp4Setup ip4 = new GXDLMSIp4Setup(); //Get local IP address. var host = Dns.GetHostEntry(Dns.GetHostName()); foreach (var ip in host.AddressList) { if (ip.AddressFamily == AddressFamily.InterNetwork) { ip4.IPAddress = ip.ToString(); } } Items.Add(ip4); //Add Push Setup. (On Connectivity) GXDLMSPushSetup push = new GXDLMSPushSetup("0.0.25.9.0.255"); //Send Push messages to this address as default. push.Destination = ip4.IPAddress + ":7000"; Items.Add(push); //Add push object itself. This is needed to tell structure of data to the Push listener. push.PushObjectList.Add(new KeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(push, new GXDLMSCaptureObject(2, 0))); //Add logical device name. push.PushObjectList.Add(new KeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(ldn, new GXDLMSCaptureObject(2, 0))); //Add .0.0.25.1.0.255 Ch. 0 IPv4 setup IP address. push.PushObjectList.Add(new KeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(ip4, new GXDLMSCaptureObject(3, 0))); Items.Add(new GXDLMSSpecialDaysTable()); //Add S-FSK objects Items.Add(new GXDLMSSFSKPhyMacSetUp()); Items.Add(new GXDLMSSFSKActiveInitiator()); Items.Add(new GXDLMSSFSKMacCounters()); Items.Add(new GXDLMSSFSKMacSynchronizationTimeouts()); ///Add G3-PLC objects. Items.Add(new GXDLMSG3Plc6LoWPan()); Items.Add(new GXDLMSG3PlcMacLayerCounters()); Items.Add(new GXDLMSG3PlcMacSetup()); //Add security setup object Items.Add(new GXDLMSSecuritySetup()); /////////////////////////////////////////////////////////////////////// //Server must initialize after all objects are added. Initialize(); }
/// <summary> /// Generate random value for profile generic. /// </summary> /// <param name="args"></param> public override void PreGet(ValueEventArgs[] args) { foreach (ValueEventArgs e in args) { if (e.Target is GXDLMSProfileGeneric) { //We want to save values to the file right a way. GXDLMSProfileGeneric pg = (GXDLMSProfileGeneric)e.Target; //Get entries in use if not know yet. if (pg.EntriesInUse == 0) { pg.EntriesInUse = GetProfileGenericDataCount(pg); } string name = GetProfileGenericName(pg); object[] values = new object[pg.CaptureObjects.Count]; int pos = 0; lock (pg) { foreach (GXKeyValuePair <GXDLMSObject, GXDLMSCaptureObject> it in pg.CaptureObjects) { if (it.Key is GXDLMSClock && it.Value.AttributeIndex == 2) { GXDLMSClock c = (it.Key as GXDLMSClock); c.Time = c.Now(); } else if (it.Key == temperature && it.Value.AttributeIndex == 2) { //Get CPU temperature. UpdateTemperature(); } values[pos] = it.Key.GetValues()[it.Value.AttributeIndex - 1]; ++pos; } ++pg.EntriesInUse; //Remove first row if maximum row count is received. if (pg.ProfileEntries != 0 && pg.EntriesInUse >= pg.ProfileEntries) { RemoveRows(name, pg.EntriesInUse - pg.ProfileEntries); pg.EntriesInUse = pg.ProfileEntries; } using (var writer = File.AppendText(name)) { StringBuilder sb = new StringBuilder(); for (int c = 0; c != values.Length; ++c) { if (c != 0) { sb.Append(';'); } object col = values[c]; if (col is DateTime) { sb.Append(((DateTime)col).ToString(CultureInfo.InvariantCulture)); } else { sb.Append(Convert.ToString(col)); } } sb.AppendLine(""); writer.Write(sb.ToString()); } } e.Handled = true; } } }
void Init() { Media.OnReceived += new Gurux.Common.ReceivedEventHandler(OnReceived); Media.OnClientConnected += new Gurux.Common.ClientConnectedEventHandler(OnClientConnected); Media.OnClientDisconnected += new Gurux.Common.ClientDisconnectedEventHandler(OnClientDisconnected); Media.OnError += new Gurux.Common.ErrorEventHandler(OnError); Media.Open(); /////////////////////////////////////////////////////////////////////// //Add Logical Device Name. 123456 is meter serial number. GXDLMSData d = new GXDLMSData("0.0.42.0.0.255"); d.Value = "Gurux123456"; //Set access right. Client can't change Device name. d.SetAccess(2, AccessMode.ReadWrite); //Value is get as Octet String. d.SetDataType(2, DataType.OctetString); d.SetUIDataType(2, DataType.String); Items.Add(d); //Add Last average. GXDLMSRegister r = new GXDLMSRegister("1.1.21.25.0.255"); //Set access right. Client can't change average value. r.SetAccess(2, AccessMode.Read); Items.Add(r); //Add default clock. Clock's Logical Name is 0.0.1.0.0.255. GXDLMSClock clock = new GXDLMSClock(); clock.Begin = new GXDateTime(-1, 9, 1, -1, -1, -1, -1); clock.End = new GXDateTime(-1, 3, 1, -1, -1, -1, -1); clock.Deviation = 0; Items.Add(clock); //Add Tcp Udp setup. Default Logical Name is 0.0.25.0.0.255. GXDLMSTcpUdpSetup tcp = new GXDLMSTcpUdpSetup(); Items.Add(tcp); /////////////////////////////////////////////////////////////////////// //Add Load profile. GXDLMSProfileGeneric pg = new GXDLMSProfileGeneric("1.0.99.1.0.255"); //Set capture period to 60 second. pg.CapturePeriod = 60; //Maximum row count. pg.ProfileEntries = 100; pg.SortMethod = SortMethod.FiFo; pg.SortObject = clock; //Add columns. //Set saved attribute index. pg.CaptureObjects.Add(new GXKeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(clock, new GXDLMSCaptureObject(2, 0))); //Set saved attribute index. pg.CaptureObjects.Add(new GXKeyValuePair <GXDLMSObject, GXDLMSCaptureObject>(r, new GXDLMSCaptureObject(2, 0))); Items.Add(pg); //Add initial rows. pg.Buffer.Add(new object[] { DateTime.Now, (int)10 }); /////////////////////////////////////////////////////////////////////// //Add Auto connect object. GXDLMSAutoConnect ac = new GXDLMSAutoConnect(); ac.Mode = AutoConnectMode.AutoDiallingAllowedAnytime; ac.Repetitions = 10; ac.RepetitionDelay = 60; //Calling is allowed between 1am to 6am. ac.CallingWindow.Add(new KeyValuePair <GXDateTime, GXDateTime>(new GXDateTime(-1, -1, -1, 1, 0, 0, -1), new GXDateTime(-1, -1, -1, 6, 0, 0, -1))); ac.Destinations = new string[] { "www.gurux.org" }; Items.Add(ac); /////////////////////////////////////////////////////////////////////// //Add Activity Calendar object. GXDLMSActivityCalendar activity = new GXDLMSActivityCalendar(); activity.CalendarNameActive = "Active"; activity.SeasonProfileActive = new GXDLMSSeasonProfile[] { new GXDLMSSeasonProfile("Summer time", new GXDateTime(-1, 3, 31, -1, -1, -1, -1), "") }; activity.WeekProfileTableActive = new GXDLMSWeekProfile[] { new GXDLMSWeekProfile("Monday", 1, 1, 1, 1, 1, 1, 1) }; activity.DayProfileTableActive = new GXDLMSDayProfile[] { new GXDLMSDayProfile(1, new GXDLMSDayProfileAction[] { new GXDLMSDayProfileAction(new GXDateTime(DateTime.Now), "test", 1) }) }; activity.CalendarNamePassive = "Passive"; activity.SeasonProfilePassive = new GXDLMSSeasonProfile[] { new GXDLMSSeasonProfile("Winter time", new GXDateTime(-1, 10, 30, -1, -1, -1, -1), "") }; activity.WeekProfileTablePassive = new GXDLMSWeekProfile[] { new GXDLMSWeekProfile("Tuesday", 1, 1, 1, 1, 1, 1, 1) }; activity.DayProfileTablePassive = new GXDLMSDayProfile[] { new GXDLMSDayProfile(1, new GXDLMSDayProfileAction[] { new GXDLMSDayProfileAction(new GXDateTime(DateTime.Now), "0.0.1.0.0.255", 1) }) }; activity.Time = new GXDateTime(DateTime.Now); Items.Add(activity); /////////////////////////////////////////////////////////////////////// //Add Optical Port Setup object. GXDLMSIECOpticalPortSetup optical = new GXDLMSIECOpticalPortSetup(); optical.DefaultMode = OpticalProtocolMode.Default; optical.ProposedBaudrate = BaudRate.Baudrate9600; optical.DefaultBaudrate = BaudRate.Baudrate300; optical.ResponseTime = LocalPortResponseTime.ms200; optical.DeviceAddress = "Gurux"; optical.Password1 = "Gurux1"; optical.Password2 = "Gurux2"; optical.Password5 = "Gurux5"; Items.Add(optical); /////////////////////////////////////////////////////////////////////// //Add Demand Register object. GXDLMSDemandRegister dr = new GXDLMSDemandRegister(); dr.LogicalName = "0.0.1.0.0.255"; dr.CurrentAverageValue = (uint)10; dr.LastAverageValue = (uint)20; dr.Status = (byte)1; dr.StartTimeCurrent = dr.CaptureTime = new GXDateTime(DateTime.Now); dr.Period = 10; dr.NumberOfPeriods = 1; Items.Add(dr); /////////////////////////////////////////////////////////////////////// //Add Register Monitor object. GXDLMSRegisterMonitor rm = new GXDLMSRegisterMonitor(); rm.LogicalName = "0.0.1.0.0.255"; rm.Thresholds = new object[] { (int)0x1234, (int)0x5678 }; GXDLMSActionSet set = new GXDLMSActionSet(); set.ActionDown.LogicalName = rm.LogicalName; set.ActionDown.ScriptSelector = 1; set.ActionUp.LogicalName = rm.LogicalName; set.ActionUp.ScriptSelector = 2; rm.Actions = new GXDLMSActionSet[] { set }; rm.MonitoredValue.Update(r, 2); Items.Add(rm); /////////////////////////////////////////////////////////////////////// //Add action schedule object. GXDLMSActionSchedule actionS = new GXDLMSActionSchedule(); actionS.LogicalName = "0.0.1.0.0.255"; actionS.ExecutedScriptLogicalName = "1.2.3.4.5.6"; actionS.ExecutedScriptSelector = 1; actionS.Type = SingleActionScheduleType.SingleActionScheduleType1; actionS.ExecutionTime = new GXDateTime[] { new GXDateTime(DateTime.Now) }; Items.Add(actionS); /////////////////////////////////////////////////////////////////////// //Add SAP Assignment object. GXDLMSSapAssignment sap = new GXDLMSSapAssignment(); sap.SapAssignmentList.Add(new KeyValuePair <UInt16, string>(1, "Gurux")); sap.SapAssignmentList.Add(new KeyValuePair <UInt16, string>(16, "Gurux-2")); Items.Add(sap); /////////////////////////////////////////////////////////////////////// //Add Auto Answer object. GXDLMSAutoAnswer aa = new GXDLMSAutoAnswer(); aa.Mode = AutoConnectMode.EmailSending; aa.ListeningWindow.Add(new KeyValuePair <GXDateTime, GXDateTime>(new GXDateTime(-1, -1, -1, 6, -1, -1, -1), new GXDateTime(-1, -1, -1, 8, -1, -1, -1))); aa.Status = AutoAnswerStatus.Inactive; aa.NumberOfCalls = 0; aa.NumberOfRingsInListeningWindow = 1; aa.NumberOfRingsOutListeningWindow = 2; Items.Add(aa); /////////////////////////////////////////////////////////////////////// //Add Modem Configuration object. GXDLMSModemConfiguration mc = new GXDLMSModemConfiguration(); mc.CommunicationSpeed = BaudRate.Baudrate57600; GXDLMSModemInitialisation init = new GXDLMSModemInitialisation(); init.Request = "AT"; init.Response = "OK"; init.Delay = 0; mc.InitialisationStrings = new GXDLMSModemInitialisation[] { init }; Items.Add(mc); /////////////////////////////////////////////////////////////////////// //Add Mac Address Setup object. GXDLMSMacAddressSetup mac = new GXDLMSMacAddressSetup(); mac.MacAddress = "00:11:22:33:44:55:66"; Items.Add(mac); GXDLMSImageTransfer i = new GXDLMSImageTransfer(); Items.Add(i); /////////////////////////////////////////////////////////////////////// //Server must initialize after all objects are added. Initialize(); }