public override void InitializeSystem()
{
ComPort.ComPortSpec displayComSpec = new ComPort.ComPortSpec {
BaudRate = ComPort.eComBaudRates.ComspecBaudRate9600,
DataBits = ComPort.eComDataBits.ComspecDataBits8,
Parity = ComPort.eComParityType.ComspecParityNone,
StopBits = ComPort.eComStopBits.ComspecStopBits1,
SoftwareHandshake = ComPort.eComSoftwareHandshakeType.ComspecSoftwareHandshakeNone,
HardwareHandShake = ComPort.eComHardwareHandshakeType.ComspecHardwareHandshakeNone
};
try
{
if (this.SupportsEthernet)
{
_dmRx = new Am300(0x15, this);
_display = new Display(_dmRx.ComPorts[1], displayComSpec);
_switcher = new AirMediaSwitcher(_dmRx);
if (_dmRx.Register() != eDeviceRegistrationUnRegistrationResponse.Success)
{
ErrorLog.Error("Unable to register {0} on IP ID {1}!", _dmRx.Name, _dmRx.ID);
}
_dmTx = new DmTx201C(0x14, this);
_dmTx.HdmiInput.InputStreamChange += OnLaptopHDMI;
_dmTx.VgaInput.InputStreamChange += OnLaptopVGA;
if (_dmTx.Register() != eDeviceRegistrationUnRegistrationResponse.Success)
{
ErrorLog.Error("Unable to register {0} on IP ID {1}!", _dmTx.Name, _dmTx.ID);
}
}
if (this.SupportsCresnet)
{
_occSensor = new GlsOdtCCn(0x97, this);
_occupancy = new RoomOccupancy(_occSensor, 15 * 60 * 60); // 15 minutes
_occupancy.RoomOccupied = TurnSystemOn;
_occupancy.RoomVacant = TurnSystemOff;
if (_occSensor.Register() != eDeviceRegistrationUnRegistrationResponse.Success)
{
ErrorLog.Error("Unable to register {0} on Cresnet ID {1}!", _occSensor.Name, _occSensor.ID);
}
}
}
catch (Exception e)
{
ErrorLog.Error("Error in InitializeSystem: {0}", e.Message);
}
}
public GlsOdtOccupancySensorController(string key, string name, GlsOdtCCn sensor)
: base(key, name, sensor)
{
OccSensor = sensor;
AndWhenVacatedFeedback = new BoolFeedback(() => OccSensor.AndWhenVacatedFeedback.BoolValue);
OrWhenVacatedFeedback = new BoolFeedback(() => OccSensor.OrWhenVacatedFeedback.BoolValue);
UltrasonicAEnabledFeedback = new BoolFeedback(() => OccSensor.UsAEnabledFeedback.BoolValue);
UltrasonicBEnabledFeedback = new BoolFeedback(() => OccSensor.UsBEnabledFeedback.BoolValue);
UltrasonicSensitivityInVacantStateFeedback = new IntFeedback(() => OccSensor.UsSensitivityInVacantStateFeedback.UShortValue);
UltrasonicSensitivityInOccupiedStateFeedback = new IntFeedback(() => OccSensor.UsSensitivityInOccupiedStateFeedback.UShortValue);
}
public override EssentialsDevice BuildDevice(DeviceConfig dc)
{
Debug.Console(1, "Factory Attempting to create new GlsOccupancySensorBaseController Device");
var typeName = dc.Type.ToLower();
var key = dc.Key;
var name = dc.Name;
var comm = CommFactory.GetControlPropertiesConfig(dc);
var occSensor = new GlsOdtCCn(comm.CresnetIdInt, Global.ControlSystem);
if (occSensor != null)
{
return(new GlsOdtOccupancySensorController(key, name, occSensor));
}
else
{
Debug.Console(0, "ERROR: Unable to create Occupancy Sensor Device. Key: '{0}'", key);
return(null);
}
}
public static IKeyed GetDevice(DeviceConfig dc)
{
var key = dc.Key;
var name = dc.Name;
var type = dc.Type;
var properties = dc.Properties;
var propAnon = new {};
JsonConvert.DeserializeAnonymousType(dc.Properties.ToString(), propAnon);
var typeName = dc.Type.ToLower();
var groupName = dc.Group.ToLower();
if (typeName == "appletv")
{
var irCont = IRPortHelper.GetIrOutputPortController(dc);
return(new AppleTV(key, name, irCont));
}
else if (typeName == "analogwaylivecore")
{
var comm = CommFactory.CreateCommForDevice(dc);
var props = JsonConvert.DeserializeObject <AnalogWayLiveCorePropertiesConfig>(
properties.ToString());
return(new AnalogWayLiveCore(key, name, comm, props));
}
else if (typeName == "basicirdisplay")
{
var ir = IRPortHelper.GetIrPort(properties);
if (ir != null)
{
var display = new BasicIrDisplay(key, name, ir.Port, ir.FileName);
display.IrPulseTime = 200; // Set default pulse time for IR commands.
return(display);
}
}
else if (typeName == "biamptesira")
{
var comm = CommFactory.CreateCommForDevice(dc);
var props = JsonConvert.DeserializeObject <BiampTesiraFortePropertiesConfig>(
properties.ToString());
return(new BiampTesiraForteDsp(key, name, comm, props));
}
else if (typeName == "cameravisca")
{
var comm = CommFactory.CreateCommForDevice(dc);
var props = JsonConvert.DeserializeObject <Cameras.CameraPropertiesConfig>(
properties.ToString());
return(new Cameras.CameraVisca(key, name, comm, props));
}
else if (typeName == "cenrfgwex")
{
return(CenRfgwController.GetNewExGatewayController(key, name,
properties.Value <string>("id"), properties.Value <string>("gatewayType")));
}
else if (typeName == "cenerfgwpoe")
{
return(CenRfgwController.GetNewErGatewayController(key, name,
properties.Value <string>("id"), properties.Value <string>("gatewayType")));
}
else if (groupName == "discplayer") // (typeName == "irbluray")
{
if (properties["control"]["method"].Value <string>() == "ir")
{
var irCont = IRPortHelper.GetIrOutputPortController(dc);
return(new IRBlurayBase(key, name, irCont));
}
else if (properties["control"]["method"].Value <string>() == "com")
{
Debug.Console(0, "[{0}] COM Device type not implemented YET!", key);
}
}
else if (typeName == "digitallogger")
{
// var comm = CommFactory.CreateCommForDevice(dc);
var props = JsonConvert.DeserializeObject <DigitalLoggerPropertiesConfig>(
properties.ToString());
return(new DigitalLogger(key, name, props));
}
else if (typeName == "genericaudiooutwithvolume")
{
var zone = dc.Properties.Value <uint>("zone");
return(new GenericAudioOutWithVolume(key, name,
dc.Properties.Value <string>("volumeDeviceKey"), zone));
}
else if (groupName == "genericsource")
{
return(new GenericSource(key, name));
}
else if (typeName == "inroompc")
{
return(new Core.Devices.InRoomPc(key, name));
}
else if (typeName == "laptop")
{
return(new Core.Devices.Laptop(key, name));
}
else if (typeName == "mockvc")
{
return(new VideoCodec.MockVC(dc));
}
else if (typeName == "mockac")
{
var props = JsonConvert.DeserializeObject <AudioCodec.MockAcPropertiesConfig>(properties.ToString());
return(new AudioCodec.MockAC(key, name, props));
}
else if (typeName.StartsWith("ciscospark"))
{
var comm = CommFactory.CreateCommForDevice(dc);
return(new VideoCodec.Cisco.CiscoSparkCodec(dc, comm));
}
else if (typeName == "zoomroom")
{
var comm = CommFactory.CreateCommForDevice(dc);
return(new VideoCodec.ZoomRoom.ZoomRoom(dc, comm));
}
else if (typeName == "digitalinput")
{
var props = JsonConvert.DeserializeObject <IOPortConfig>(properties.ToString());
IDigitalInputPorts portDevice;
if (props.PortDeviceKey == "processor")
{
portDevice = Global.ControlSystem as IDigitalInputPorts;
}
else
{
portDevice = DeviceManager.GetDeviceForKey(props.PortDeviceKey) as IDigitalInputPorts;
}
if (portDevice == null)
{
Debug.Console(0, "ERROR: Unable to add digital input device with key '{0}'. Port Device does not support digital inputs", key);
}
else
{
var cs = (portDevice as CrestronControlSystem);
if (cs == null)
{
Debug.Console(0, "ERROR: Port device for [{0}] is not control system", props.PortDeviceKey);
return(null);
}
if (cs.SupportsVersiport)
{
Debug.Console(1, "Attempting to add Digital Input device to Versiport port '{0}'", props.PortNumber);
if (props.PortNumber > cs.NumberOfVersiPorts)
{
Debug.Console(0, "WARNING: Cannot add Vesiport {0} on {1}. Out of range",
props.PortNumber, props.PortDeviceKey);
return(null);
}
Versiport vp = cs.VersiPorts[props.PortNumber];
if (!vp.Registered)
{
var regSuccess = vp.Register();
if (regSuccess == eDeviceRegistrationUnRegistrationResponse.Success)
{
Debug.Console(1, "Successfully Created Digital Input Device on Versiport");
return(new GenericVersiportDigitalInputDevice(key, vp, props));
}
else
{
Debug.Console(0, "WARNING: Attempt to register versiport {0} on device with key '{1}' failed: {2}",
props.PortNumber, props.PortDeviceKey, regSuccess);
return(null);
}
}
}
else if (cs.SupportsDigitalInput)
{
Debug.Console(1, "Attempting to add Digital Input device to Digital Input port '{0}'", props.PortNumber);
if (props.PortNumber > cs.NumberOfDigitalInputPorts)
{
Debug.Console(0, "WARNING: Cannot register DIO port {0} on {1}. Out of range",
props.PortNumber, props.PortDeviceKey);
return(null);
}
DigitalInput digitalInput = cs.DigitalInputPorts[props.PortNumber];
if (!digitalInput.Registered)
{
if (digitalInput.Register() == eDeviceRegistrationUnRegistrationResponse.Success)
{
Debug.Console(1, "Successfully Created Digital Input Device on Digital Input");
return(new GenericDigitalInputDevice(key, digitalInput));
}
else
{
Debug.Console(0, "WARNING: Attempt to register digital input {0} on device with key '{1}' failed.",
props.PortNumber, props.PortDeviceKey);
}
}
}
}
}
else if (typeName == "relayoutput")
{
var props = JsonConvert.DeserializeObject <IOPortConfig>(properties.ToString());
IRelayPorts portDevice;
if (props.PortDeviceKey == "processor")
{
portDevice = Global.ControlSystem as IRelayPorts;
}
else
{
portDevice = DeviceManager.GetDeviceForKey(props.PortDeviceKey) as IRelayPorts;
}
if (portDevice == null)
{
Debug.Console(0, "Unable to add relay device with key '{0}'. Port Device does not support relays", key);
}
else
{
var cs = (portDevice as CrestronControlSystem);
if (cs != null)
{
// The relay is on a control system processor
if (!cs.SupportsRelay || props.PortNumber > cs.NumberOfRelayPorts)
{
Debug.Console(0, "Port Device: {0} does not support relays or does not have enough relays");
return(null);
}
}
else
{
// The relay is on another device type
if (props.PortNumber > portDevice.NumberOfRelayPorts)
{
Debug.Console(0, "Port Device: {0} does not have enough relays");
return(null);
}
}
Relay relay = portDevice.RelayPorts[props.PortNumber];
if (!relay.Registered)
{
if (relay.Register() == eDeviceRegistrationUnRegistrationResponse.Success)
{
return(new GenericRelayDevice(key, relay));
}
else
{
Debug.Console(0, "Attempt to register relay {0} on device with key '{1}' failed.", props.PortNumber, props.PortDeviceKey);
}
}
else
{
return(new GenericRelayDevice(key, relay));
}
// Future: Check if portDevice is 3-series card or other non control system that supports versiports
}
}
else if (typeName == "microphoneprivacycontroller")
{
var props = JsonConvert.DeserializeObject <Core.Privacy.MicrophonePrivacyControllerConfig>(properties.ToString());
return(new Core.Privacy.MicrophonePrivacyController(key, props));
}
else if (typeName == "roku")
{
var irCont = IRPortHelper.GetIrOutputPortController(dc);
return(new Roku2(key, name, irCont));
}
else if (groupName == "settopbox") //(typeName == "irstbbase")
{
var irCont = IRPortHelper.GetIrOutputPortController(dc);
var config = dc.Properties.ToObject <SetTopBoxPropertiesConfig>();
var stb = new IRSetTopBoxBase(key, name, irCont, config);
//stb.HasDvr = properties.Value<bool>("hasDvr");
var listName = properties.Value <string>("presetsList");
if (listName != null)
{
stb.LoadPresets(listName);
}
return(stb);
}
else if (typeName == "tvonecorio")
{
var comm = CommFactory.CreateCommForDevice(dc);
var props = JsonConvert.DeserializeObject <TVOneCorioPropertiesConfig>(
properties.ToString());
return(new TVOneCorio(key, name, comm, props));
}
else if (typeName == "glsoirccn")
{
var comm = CommFactory.GetControlPropertiesConfig(dc);
GlsOccupancySensorBase occSensor = null;
occSensor = new GlsOirCCn(comm.CresnetIdInt, Global.ControlSystem);
if (occSensor != null)
{
return(new GlsOccupancySensorBaseController(key, name, occSensor));
}
else
{
Debug.Console(0, "ERROR: Unable to create Occupancy Sensor Device. Key: '{0}'", key);
}
}
else if (typeName == "glsodtccn")
{
var comm = CommFactory.GetControlPropertiesConfig(dc);
var occSensor = new GlsOdtCCn(comm.CresnetIdInt, Global.ControlSystem);
if (occSensor != null)
{
return(new GlsOdtOccupancySensorController(key, name, occSensor));
}
else
{
Debug.Console(0, "ERROR: Unable to create Occupancy Sensor Device. Key: '{0}'", key);
}
}
else if (groupName == "lighting")
{
if (typeName == "lutronqs")
{
var comm = CommFactory.CreateCommForDevice(dc);
var props = JsonConvert.DeserializeObject <Environment.Lutron.LutronQuantumPropertiesConfig>(properties.ToString());
return(new Environment.Lutron.LutronQuantumArea(key, name, comm, props));
}
else if (typeName == "din8sw8")
{
var comm = CommFactory.GetControlPropertiesConfig(dc);
return(new Environment.Lighting.Din8sw8Controller(key, comm.CresnetIdInt));
}
}
else if (groupName == "environment")
{
if (typeName == "shadecontroller")
{
var props = JsonConvert.DeserializeObject <Core.Shades.ShadeControllerConfigProperties>(properties.ToString());
return(new Core.Shades.ShadeController(key, name, props));
}
else if (typeName == "relaycontrolledshade")
{
var props = JsonConvert.DeserializeObject <Environment.Somfy.RelayControlledShadeConfigProperties>(properties.ToString());
return(new Environment.Somfy.RelayControlledShade(key, name, props));
}
}
return(null);
}
