//Untested
public void SetDeviceName(string newName)
{
name = newName;
byte[] namePart = GetNamePart(newName, 1);
if (namePart == null)
{
return;
}
CANInterface.SendMessage(this, Commands.CmdSysPName1, namePart);
namePart = GetNamePart(newName, 2);
if (namePart == null)
{
return;
}
CANInterface.SendMessage(this, Commands.CmdSysPName2, namePart);
namePart = GetNamePart(newName, 3);
if (namePart == null)
{
return;
}
CANInterface.SendMessage(this, Commands.CmdSysPName3, namePart);
}
/// <summary>
/// Polls the network with the given command, then fires the PollRecieved event with the results.
/// </summary>
/// <param name="sendCommand">The command to send.</param>
/// <param name="nodes">The Nodes to poll. Leave null for all.</param>
/// <param name="devices">The Devices to poll on each Node. Leave null for all, set to 0 to poll only Nodes.</param>
public NewPing(Commands sendCommand, Dictionary <byte, List <byte> > nodeDevices)
{
expectedResult = responseCommands[sendCommand];
//If given an empty list, ping just the nodes
//Probably better to just throw an exception, actually
if (nodeDevices.Count == 0)
{
for (byte i = 1; i < 127; i++)
{
nodeDevices.Add(i, new List <byte>());
}
}
foreach (byte node in nodeDevices.Keys)
{
lastMessage = CANInterface.SendMessage(node, 0, sendCommand);
foreach (byte device in nodeDevices[node])
{
lastMessage = CANInterface.SendMessage(node, device, sendCommand);
}
}
CANInterface.MessageSent += CANInterface_MessageSent;
CANInterface.MessageReceived += CANInterface_MessageReceived;
waitForResponse.Interval = 100;
waitForResponse.Tick += WaitForResponse_Tick;
}
private static void DevicePoll_Received(List <C4UFX.CANMessage> responses)
{
StatusUpdate?.Invoke("Querying names (1/3)...");
foreach (C4UFX.CANMessage response in responses)
{
FndTnd address = CANInterface.IdToFndTnd(response.ID);
if (address.FromDevice > 0)
{
Node currentNode = allResponses.First(x => x.NodeId == address.FromNode);
byte fromNode = CANInterface.IdToFndTnd(response.ID).FromNode;
byte fromDevice = CANInterface.IdToFndTnd(response.ID).FromDevice;
Device newDevice;
switch ((Signatures)response.Data[2])
{
case Signatures.MechanicalSwitch: newDevice = new MechanicalSwitch(fromNode, fromDevice); break;
case Signatures.StatusLED: newDevice = new StatusLED(fromNode, fromDevice); break;
case Signatures.InfraredInput: newDevice = new InfraredInput(fromNode, fromDevice); break;
case Signatures.DimmerOut: newDevice = new DimmerOut(fromNode, fromDevice); break;
case Signatures.LatLong: newDevice = new LatLong(fromNode, fromDevice); break;
case Signatures.TimerEvent: newDevice = new TimerEvent(fromNode, fromDevice); break;
case Signatures.Scene: newDevice = new Scene(fromNode, fromDevice); break;
case Signatures.RealTimeClock: newDevice = new RealTimeClock(fromNode, fromDevice); break;
default: newDevice = new UnknownDevice(fromNode, fromDevice); break;
}
currentNode.Devices.Add(newDevice);
}
}
Dictionary <byte, List <byte> > sendList = new Dictionary <byte, List <byte> >();
foreach (Node node in allResponses)
{
if (sendList.Keys.Contains(node.NodeId))
{
break;
}
sendList.Add(node.NodeId, new List <byte>());
for (byte i = 1; i < 127; i++)
{
sendList[node.NodeId].Add(i);
}
}
CANPing poll = new CANPing(Commands.CmdSysEName1, sendList);
poll.ResponseReceived += Name1Poll_Received;
PongsReceived?.Invoke(allResponses, false);
}
/// <summary>
/// Sets the brightness of the light as a percent.
/// </summary>
/// <param name="brightness">The brightness, as a value from 0-100.</param>
private void SetBrightness(byte brightness)
{
if (brightness > 100)
{
throw new Exception("Cannot set light brightness higher than 100%.");
}
CANInterface.SendMessage(this, Commands.CmdConValue, new byte[] { brightness });
}
/// <summary>
/// Sends the given command to the given device, then fires the PollRecieved event with the result.
/// </summary>
/// <param name="sendCommand">The command to send.</param>
/// <param name="nodeId">The Node to poll.</param>
/// <param name="deviceId">The Device to poll on that Node.</param>
public CANPing(Commands sendCommand, byte nodeId, byte deviceId)
{
expectedResult = responseCommands[sendCommand];
lastMessage = CANInterface.SendMessage(nodeId, deviceId, sendCommand);
CANInterface.MessageSent += CANInterface_MessageSent;
CANInterface.MessageReceived += CANInterface_MessageReceived;
waitForResponse.Interval = 100;
waitForResponse.Tick += WaitForResponse_Tick;
}
/// <summary>
/// Set brightness value over time.
/// </summary>
/// <param name="brightness">The brightness, as a value from 0-100.</param>
/// <param name="time">The time in seconds to reach the brightness value, as a value between 0 - 65535.</param>
public void SetFade(byte brightness, int time)
{
if (time < 0 || time > 65535)
{
throw new Exception("Time value for SetFade must be a value between 0 - 65535.");
}
byte time1 = BitConverter.GetBytes(time)[1];
byte time2 = BitConverter.GetBytes(time)[0];
CANInterface.SendMessage(this, Commands.CmdConSetFade, new byte[] { brightness, time1, time2 });
}
private void CANInterface_MessageReceived(C4UFX.CANMessage message)
{
if (message.Data[0] == (byte)Commands.CmdStatLightValue && CANInterface.IdToFndTnd(message.ID).FromDevice == deviceId)
{
if (brightness != message.Data[1])
{
BrightnessChanged?.Invoke(message.Data[1]);
}
brightness = message.Data[1];
}
}
private static void NodePoll_PollReceived(List <C4UFX.CANMessage> responses)
{
if (responses.Count == 0)
{
StatusUpdate?.Invoke("No Nodes found - Check your connection.");
return;
}
StatusUpdate?.Invoke("Pinging devices...");
foreach (C4UFX.CANMessage response in responses)
{
byte fromNode = CANInterface.IdToFndTnd(response.ID).FromNode;
Node newNode;
switch ((Signatures)response.Data[2])
{
case Signatures.SmartSwitch: newNode = new SmartSwitch(fromNode); break;
case Signatures.ACDimmer: newNode = new ACDimmer(fromNode); break;
case Signatures.TimerRTC: newNode = new TimerRTC(fromNode); break;
case Signatures.SceneController: newNode = new SceneController(fromNode); break;
default: newNode = new UnknownNode(fromNode); break;
}
allResponses.Add(newNode);
}
Dictionary <byte, List <byte> > sendList = new Dictionary <byte, List <byte> >();
foreach (Node node in allResponses)
{
if (sendList.Keys.Contains(node.NodeId))
{
break;
}
sendList.Add(node.NodeId, new List <byte>());
for (byte i = 1; i < 127; i++)
{
sendList[node.NodeId].Add(i);
}
}
CANPing poll = new CANPing(Commands.CmdSysPing, sendList);
poll.ResponseReceived += DevicePoll_Received;
PongsReceived?.Invoke(allResponses, false);
}
private static void Name1Poll_Received(List <C4UFX.CANMessage> responses)
{
StatusUpdate?.Invoke("Querying names (2/3)...");
foreach (C4UFX.CANMessage response in responses)
{
FndTnd address = CANInterface.IdToFndTnd(response.ID);
string namePart = string.Empty;
for (int i = 1; i < response.Data.Length; i++)
{
namePart += (char)response.Data[i];
}
Node thisNode = allResponses.Find(x => x.NodeId == address.FromNode);
//if (thisNode == null)
// allResponses.Add(new UnknownNode(address.FromNode));
if (address.FromDevice == 0)
{
allResponses.Find(x => x.NodeId == address.FromNode).SetNamePart(namePart, 1);
}
else
{
allResponses.Find(x => x.NodeId == address.FromNode).Devices.Find(x => x.DeviceId == address.FromDevice).SetNamePart(namePart, 1);
}
//If the node/device isn't found, add it to the list
}
Dictionary <byte, List <byte> > sendList = new Dictionary <byte, List <byte> >();
foreach (Node node in allResponses)
{
if (sendList.Keys.Contains(node.NodeId))
{
break;
}
sendList.Add(node.NodeId, new List <byte>());
foreach (Device device in node.Devices)
{
sendList[node.NodeId].Add(device.DeviceId);
}
}
CANPing poll = new CANPing(Commands.CmdSysEName2, sendList);
poll.ResponseReceived += Name2Poll_Received;
PongsReceived?.Invoke(allResponses, false);
}
private static void Name3Poll_Received(List <C4UFX.CANMessage> responses)
{
StatusUpdate?.Invoke("Querying parameters (1/2)...");
foreach (C4UFX.CANMessage response in responses)
{
FndTnd address = CANInterface.IdToFndTnd(response.ID);
string namePart = string.Empty;
for (int i = 1; i < response.Data.Length; i++)
{
namePart += (char)response.Data[i];
}
if (address.FromDevice == 0)
{
allResponses.First(x => x.NodeId == address.FromNode).SetNamePart(namePart, 3);
}
else
{
allResponses.First(x => x.NodeId == address.FromNode).Devices.First(x => x.DeviceId == address.FromDevice).SetNamePart(namePart, 3);
}
}
Dictionary <byte, List <byte> > sendList = new Dictionary <byte, List <byte> >();
foreach (Node node in allResponses)
{
if (sendList.Keys.Contains(node.NodeId))
{
break;
}
sendList.Add(node.NodeId, new List <byte>());
foreach (Device device in node.Devices)
{
sendList[node.NodeId].Add(device.DeviceId);
}
}
CANPing poll = new CANPing(Commands.CmdSysEPar, sendList);
poll.ResponseReceived += Parameters1_Received;
PongsReceived?.Invoke(allResponses, false);
}
private static void Parameters1_Received(List <C4UFX.CANMessage> responses)
{
StatusUpdate?.Invoke("Querying parameters (2/2)...");
foreach (C4UFX.CANMessage response in responses)
{
FndTnd address = CANInterface.IdToFndTnd(response.ID);
for (int i = 0; i < response.DLC - 1; i++)
{
if (address.FromDevice == 0)
{
allResponses.First(x => x.NodeId == address.FromNode).Parameters1[i] = response.Data[i + 1];
}
else
{
allResponses.First(x => x.NodeId == address.FromNode).Devices.First(x => x.DeviceId == address.FromDevice).Parameters1[i] = response.Data[i + 1];
}
}
}
Dictionary <byte, List <byte> > sendList = new Dictionary <byte, List <byte> >();
foreach (Node node in allResponses)
{
if (sendList.Keys.Contains(node.NodeId))
{
break;
}
sendList.Add(node.NodeId, new List <byte>());
foreach (Device device in node.Devices)
{
sendList[node.NodeId].Add(device.DeviceId);
}
}
CANPing poll = new CANPing(Commands.CmdSysEPar2, sendList);
poll.ResponseReceived += Parameters2_Received;
PongsReceived?.Invoke(allResponses, false);
}
/// <summary>
/// Polls the network with the given command, then fires the PollRecieved event with the results.
/// </summary>
/// <param name="sendCommand">The command to send.</param>
/// <param name="nodes">The Nodes to poll.</param>
/// <param name="devices">The Devices to poll on each Node.</param>
public CANPing(Commands sendCommand, Dictionary <byte, List <byte> > nodeDevices)
{
if (nodeDevices.Count == 0)
{
throw new Exception("Cannot ping 0 nodes.");
}
expectedResult = responseCommands[sendCommand];
foreach (byte node in nodeDevices.Keys)
{
lastMessage = CANInterface.SendMessage(node, 0, sendCommand);
foreach (byte device in nodeDevices[node])
{
lastMessage = CANInterface.SendMessage(node, device, sendCommand);
}
}
CANInterface.MessageSent += CANInterface_MessageSent;
CANInterface.MessageReceived += CANInterface_MessageReceived;
waitForResponse.Interval = 100;
waitForResponse.Tick += WaitForResponse_Tick;
}
private static void Parameters2_Received(List <C4UFX.CANMessage> responses)
{
StatusUpdate?.Invoke("Poll Complete!");
foreach (C4UFX.CANMessage response in responses)
{
FndTnd address = CANInterface.IdToFndTnd(response.ID);
for (int i = 0; i < response.DLC - 1; i++)
{
if (address.FromDevice == 0)
{
allResponses.First(x => x.NodeId == address.FromNode).Parameters2[i] = response.Data[i + 1];
}
else
{
allResponses.First(x => x.NodeId == address.FromNode).Devices.First(x => x.DeviceId == address.FromDevice).Parameters2[i] = response.Data[i + 1];
}
}
}
Dictionary <byte, List <byte> > sendList = new Dictionary <byte, List <byte> >();
foreach (Node node in allResponses)
{
if (sendList.Keys.Contains(node.NodeId))
{
break;
}
sendList.Add(node.NodeId, new List <byte>());
foreach (Device device in node.Devices)
{
sendList[node.NodeId].Add(device.DeviceId);
}
}
PongsReceived?.Invoke(allResponses, true);
}
public void FullOn()
{
CANInterface.SendMessage(this, Commands.CmdConDClk);
}
/// <summary>
/// Sets whether the light is on (at a preset brightness), or off.
/// </summary>
/// <param name="on">if set to <c>true</c>, the light is [on].</param>
public void SetOnOff(bool on)
{
CANInterface.SendMessage(this, on ? Commands.CmdConOn : Commands.CmdConOff);
}
/// <summary>
/// Toggles the light on and off.
/// </summary>
public void ToggleOnOff()
{
CANInterface.SendMessage(this, Commands.CmdConOnOff);
}
public void OnDeserializingMethod()
{
CANInterface.MessageReceived += CANInterface_MessageReceived;
CANInterface.SendMessage(this, Commands.CmdSysEStateZZ);
}
/// <summary>
/// Sets the last “On” value to the current value. Used when a switch is
/// dimming the output and is then released.
/// </summary>
public void Release()
{
CANInterface.SendMessage(this, Commands.CmdConRelease);
}
/// <summary>
/// Fade one step up or down and reverse direction when 0 or 100% is reached.
/// </summary>
public void FadeContinuous()
{
CANInterface.SendMessage(this, Commands.CmdConFadeCont);
}
/// <summary>
/// Fade up one step and stop when 100% is reached.
/// </summary>
public void FadeUp()
{
CANInterface.SendMessage(this, Commands.CmdConFadeUp);
}
/// <summary>
/// Fade down one step and stop when 0% is reached.
/// </summary>
public void FadeDown()
{
CANInterface.SendMessage(this, Commands.CmdConFadeDwn);
}
