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Merge branch 'development' into hotfix/dm-tx-chassis-bridge-fix

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This commit is contained in:
Andrew Welker
2020-06-10 16:15:51 -06:00
committed by GitHub
parent a0ef356bac 84d8ff410e
commit c78b305faa
82 changed files with 3687 additions and 2352 deletions
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4
essentials-framework/Essentials DM/Essentials_DM/Endpoints/DGEs/Dge100Controller.cs
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@@ -18,9 +18,7 @@ using Crestron.SimplSharpPro.DeviceSupport;
namespace PepperDash.Essentials.DM.Endpoints.DGEs
{
/// <summary>
/// Wrapper class for DGE-100 and DM-DGE-200-C
/// </summary>
[Description("Wrapper class for DGE-100")]
public class Dge100Controller : CrestronGenericBaseDevice, IComPorts, IIROutputPorts, IHasBasicTriListWithSmartObject, ICec
{
private readonly Dge100 _dge;

1
essentials-framework/Essentials DM/Essentials_DM/Endpoints/DGEs/DmDge200CController.cs
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@@ -20,6 +20,7 @@ namespace PepperDash.Essentials.DM.Endpoints.DGEs
/// <summary>
/// Wrapper class for DGE-100 and DM-DGE-200-C
/// </summary>
[Description("Wrapper class for DM-DGE-200-C")]
public class DmDge200CController : Dge100Controller, IRoutingInputsOutputs
{
private readonly DmDge200C _dge;

3
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc100SController.cs
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@@ -11,7 +11,8 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
/// </summary>
[Description("Wrapper Class for DM-RMC-100-S")]
public class DmRmc100SController : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{

3
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc150SController.cs
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@@ -11,7 +11,8 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
/// </summary>
[Description("Wrapper Class for DM-RMC-150-S")]
public class DmRmc150SController : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{

5
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc200CController.cs
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@@ -12,8 +12,9 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
public class DmRmc200CController : DmRmcControllerBase, IRoutingInputsOutputs,
/// </summary>
[Description("Wrapper Class for DM-RMC-200-C")]
public class DmRmc200CController : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{
private readonly DmRmc200C _rmc;

3
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc200S2Controller.cs
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@@ -12,7 +12,8 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
/// </summary>
[Description("Wrapper Class for DM-RMC-200-S2")]
public class DmRmc200S2Controller : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{

5
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc200SController.cs
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@@ -12,8 +12,9 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
public class DmRmc200SController : DmRmcControllerBase, IRoutingInputsOutputs,
/// </summary>
[Description("Wrapper Class for DM-RMC-200-S")]
public class DmRmc200SController : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{
private readonly DmRmc200S _rmc;

5
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc4KScalerCController.cs
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@@ -12,8 +12,9 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
public class DmRmc4kScalerCController : DmRmcControllerBase, IRoutingInputsOutputs, IBasicVolumeWithFeedback,
/// </summary>
[Description("Wrapper Class for DM-RMC-4K-SCALER-C")]
public class DmRmc4kScalerCController : DmRmcControllerBase, IRoutingInputsOutputs, IBasicVolumeWithFeedback,
IIROutputPorts, IComPorts, ICec, IRelayPorts
{
private readonly DmRmc4kScalerC _rmc;

4
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc4k100C1GController.cs
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@@ -6,7 +6,9 @@ using PepperDash.Essentials.Core;
namespace PepperDash.Essentials.DM
{
{
[Description("Wrapper Class for DM-RMC-4K-100-C-1G")]
public class DmRmc4k100C1GController : DmHdBaseTControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{

3
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc4kScalerCDspController.cs
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@@ -12,7 +12,8 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
/// </summary>
[Description("Wrapper Class for DM-RMC-4K-SCALER-C-DSP")]
public class DmRmc4kScalerCDspController : DmRmcControllerBase, IRoutingInputsOutputs, IBasicVolumeWithFeedback,
IIROutputPorts, IComPorts, ICec, IRelayPorts
{

3
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc4kZ100CController.cs
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@@ -7,7 +7,8 @@ using PepperDash.Essentials.Core;
using PepperDash.Essentials.Core.Bridges;
namespace PepperDash.Essentials.DM
{
{
[Description("Wrapper Class for DM-RMC-4K-Z-100-C")]
public class DmRmc4kZ100CController : DmRmcX100CController
{
private readonly DmRmc4kz100C _rmc;

1
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmc4kZScalerCController.cs
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@@ -11,6 +11,7 @@ using PepperDash.Core;
namespace PepperDash.Essentials.DM
{
[Description("Wrapper Class for DM-RMC-4K-Z-SCALER-C")]
public class DmRmc4kZScalerCController : DmRmcControllerBase, IRmcRouting,
IIROutputPorts, IComPorts, ICec
{

2
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmcHelper.cs
View File

@@ -307,7 +307,7 @@ namespace PepperDash.Essentials.DM
TypeNames = new List<string>
{ "hdbasetrx", "dmrmc4k100c1g", "dmrmc100c", "dmrmc100s", "dmrmc4k100c", "dmrmc150s",
"dmrmc200c", "dmrmc200s", "dmrmc200s2", "dmrmcscalerc", "dmrmcscalers", "dmrmcscalers2", "dmrmc4kscalerc", "dmrmc4kscalercdsp",
"dmrmc4kz100c", "dmrmckzscalerc" };
"dmrmc4kz100c", "dmrmc4kzscalerc" };
}
public override EssentialsDevice BuildDevice(DeviceConfig dc)

5
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmcScalerCController.cs
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@@ -12,8 +12,9 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
public class DmRmcScalerCController : DmRmcControllerBase, IRoutingInputsOutputs,
/// </summary>
[Description("Wrapper Class for DM-RMC-SCALER-C")]
public class DmRmcScalerCController : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{
private readonly DmRmcScalerC _rmc;

3
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmcScalerS2Controller.cs
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@@ -12,7 +12,8 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
/// </summary>
[Description("Wrapper Class for DM-RMC-SCALER-S2")]
public class DmRmcScalerS2Controller : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{

3
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmcScalerSController.cs
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@@ -12,7 +12,8 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs with Com and IR ports and no control functions
///
/// </summary>
/// </summary>
[Description("Wrapper Class for DM-RMC-SCALER-S")]
public class DmRmcScalerSController : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{

5
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Receivers/DmRmcX100CController.cs
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@@ -11,8 +11,9 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Builds a controller for basic DM-RMCs (both 4K and non-4K) with Com and IR ports and no control functions
///
/// </summary>
public class DmRmcX100CController : DmRmcControllerBase, IRoutingInputsOutputs,
/// </summary>
[Description("Wrapper Class for DM-RMC-4K-100-C & DM-RMC-100-C")]
public class DmRmcX100CController : DmRmcControllerBase, IRoutingInputsOutputs,
IIROutputPorts, IComPorts, ICec
{
private readonly DmRmc100C _rmc;

2
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTx200Controller.cs
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@@ -16,7 +16,7 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Controller class for all DM-TX-201C/S/F transmitters
/// </summary>
[Description("Wrapper class for DM-TX-200-C Endpoint")]
[Description("Wrapper class for DM-TX-200-C")]
public class DmTx200Controller : DmTxControllerBase, ITxRouting, IHasFreeRun, IVgaBrightnessContrastControls
{
public DmTx200C2G Tx { get; private set; }

2
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTx201CController.cs
View File

@@ -14,7 +14,7 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Controller class for all DM-TX-201C/S/F transmitters
/// </summary>
[Description("Wrapper class for DM-TX-201-C Endpoint")]
[Description("Wrapper class for DM-TX-201-C")]
public class DmTx201CController : DmTxControllerBase, ITxRouting, IHasFreeRun, IVgaBrightnessContrastControls
{
public DmTx201C Tx { get; private set; }

2
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTx201SController.cs
View File

@@ -14,7 +14,7 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Controller class for all DM-TX-201S/F transmitters
/// </summary>
[Description("Wrapper class for DM-TX-201-S/F Endpoint")]
[Description("Wrapper class for DM-TX-201-S/F")]
public class DmTx201SController : DmTxControllerBase, ITxRouting, IHasFreeRun, IVgaBrightnessContrastControls
{
public DmTx201S Tx { get; private set; }

5
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTx401CController.cs
View File

@@ -17,8 +17,9 @@ using PepperDash.Essentials.DM.Config;
namespace PepperDash.Essentials.DM
{
using eVst = DmTx401C.eSourceSelection;
using eVst = DmTx401C.eSourceSelection;
[Description("Wrapper class for DM-TX-401-C")]
public class DmTx401CController : DmTxControllerBase, ITxRouting, IIROutputPorts, IComPorts, IHasFreeRun, IVgaBrightnessContrastControls
{
public DmTx401C Tx { get; private set; }

734
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTx4k202CController.cs
View File

@@ -1,367 +1,369 @@
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using Crestron.SimplSharp;
using Crestron.SimplSharpPro;
//using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DM;
using Crestron.SimplSharpPro.DM.Endpoints;
using Crestron.SimplSharpPro.DM.Endpoints.Transmitters;
using PepperDash.Core;
using PepperDash.Essentials.Core;
using PepperDash.Essentials.Core.Bridges;
using PepperDash.Essentials.DM.Config;
namespace PepperDash.Essentials.DM
{
using eVst = Crestron.SimplSharpPro.DeviceSupport.eX02VideoSourceType;
using eAst = Crestron.SimplSharpPro.DeviceSupport.eX02AudioSourceType;
public class DmTx4k202CController : DmTxControllerBase, ITxRouting, IHasFeedback,
IIROutputPorts, IComPorts
{
public DmTx4k202C Tx { get; private set; }
public RoutingInputPortWithVideoStatuses HdmiIn1 { get; private set; }
public RoutingInputPortWithVideoStatuses HdmiIn2 { get; private set; }
public RoutingOutputPort DmOut { get; private set; }
public RoutingOutputPort HdmiLoopOut { get; private set; }
public override StringFeedback ActiveVideoInputFeedback { get; protected set; }
public IntFeedback VideoSourceNumericFeedback { get; protected set; }
public IntFeedback AudioSourceNumericFeedback { get; protected set; }
public IntFeedback HdmiIn1HdcpCapabilityFeedback { get; protected set; }
public IntFeedback HdmiIn2HdcpCapabilityFeedback { get; protected set; }
public BoolFeedback Hdmi1VideoSyncFeedback { get; protected set; }
public BoolFeedback Hdmi2VideoSyncFeedback { get; protected set; }
//public override IntFeedback HdcpSupportAllFeedback { get; protected set; }
//public override ushort HdcpSupportCapability { get; protected set; }
/// <summary>
/// Helps get the "real" inputs, including when in Auto
/// </summary>
public Crestron.SimplSharpPro.DeviceSupport.eX02VideoSourceType ActualActiveVideoInput
{
get
{
if (Tx.VideoSourceFeedback != eVst.Auto)
return Tx.VideoSourceFeedback;
else // auto
{
if (Tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue)
return eVst.Hdmi1;
else if (Tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue)
return eVst.Hdmi2;
else
return eVst.AllDisabled;
}
}
}
public RoutingPortCollection<RoutingInputPort> InputPorts
{
get
{
return new RoutingPortCollection<RoutingInputPort>
{
HdmiIn1,
HdmiIn2,
AnyVideoInput
};
}
}
public RoutingPortCollection<RoutingOutputPort> OutputPorts
{
get
{
return new RoutingPortCollection<RoutingOutputPort> { DmOut, HdmiLoopOut };
}
}
public DmTx4k202CController(string key, string name, DmTx4k202C tx)
: base(key, name, tx)
{
Tx = tx;
HdmiIn1 = new RoutingInputPortWithVideoStatuses(DmPortName.HdmiIn1,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.Hdmi, eVst.Hdmi1, this,
VideoStatusHelper.GetHdmiInputStatusFuncs(tx.HdmiInputs[1]));
HdmiIn2 = new RoutingInputPortWithVideoStatuses(DmPortName.HdmiIn2,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.Hdmi, eVst.Hdmi2, this,
VideoStatusHelper.GetHdmiInputStatusFuncs(tx.HdmiInputs[2]));
ActiveVideoInputFeedback = new StringFeedback("ActiveVideoInput",
() => ActualActiveVideoInput.ToString());
Tx.HdmiInputs[1].InputStreamChange += InputStreamChangeEvent;
Tx.HdmiInputs[2].InputStreamChange += InputStreamChangeEvent;
Tx.BaseEvent += Tx_BaseEvent;
VideoSourceNumericFeedback = new IntFeedback(() => (int)Tx.VideoSourceFeedback);
AudioSourceNumericFeedback = new IntFeedback(() => (int)Tx.AudioSourceFeedback);
HdmiIn1HdcpCapabilityFeedback = new IntFeedback("HdmiIn1HdcpCapability", () => (int)tx.HdmiInputs[1].HdcpCapabilityFeedback);
HdmiIn2HdcpCapabilityFeedback = new IntFeedback("HdmiIn2HdcpCapability", () => (int)tx.HdmiInputs[2].HdcpCapabilityFeedback);
HdcpSupportCapability = eHdcpCapabilityType.Hdcp2_2Support;
Hdmi1VideoSyncFeedback = new BoolFeedback(() => (bool)tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue);
Hdmi2VideoSyncFeedback = new BoolFeedback(() => (bool)tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue);
var combinedFuncs = new VideoStatusFuncsWrapper
{
HdcpActiveFeedbackFunc = () =>
(ActualActiveVideoInput == eVst.Hdmi1
&& tx.HdmiInputs[1].VideoAttributes.HdcpActiveFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Hdmi2
&& tx.HdmiInputs[2].VideoAttributes.HdcpActiveFeedback.BoolValue),
HdcpStateFeedbackFunc = () =>
{
if (ActualActiveVideoInput == eVst.Hdmi1)
return tx.HdmiInputs[1].VideoAttributes.HdcpStateFeedback.ToString();
if (ActualActiveVideoInput == eVst.Hdmi2)
return tx.HdmiInputs[2].VideoAttributes.HdcpStateFeedback.ToString();
return "";
},
VideoResolutionFeedbackFunc = () =>
{
if (ActualActiveVideoInput == eVst.Hdmi1)
return tx.HdmiInputs[1].VideoAttributes.GetVideoResolutionString();
if (ActualActiveVideoInput == eVst.Hdmi2)
return tx.HdmiInputs[2].VideoAttributes.GetVideoResolutionString();
return "";
},
VideoSyncFeedbackFunc = () =>
(ActualActiveVideoInput == eVst.Hdmi1
&& tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Hdmi2
&& tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue)
};
AnyVideoInput = new RoutingInputPortWithVideoStatuses(DmPortName.AnyVideoIn,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.None, 0, this, combinedFuncs);
DmOut = new RoutingOutputPort(DmPortName.DmOut, eRoutingSignalType.Audio | eRoutingSignalType.Video,
eRoutingPortConnectionType.DmCat, null, this);
HdmiLoopOut = new RoutingOutputPort(DmPortName.HdmiLoopOut, eRoutingSignalType.Audio | eRoutingSignalType.Video,
eRoutingPortConnectionType.Hdmi, null, this);
AddToFeedbackList(ActiveVideoInputFeedback, VideoSourceNumericFeedback, AudioSourceNumericFeedback,
AnyVideoInput.VideoStatus.HasVideoStatusFeedback, AnyVideoInput.VideoStatus.HdcpActiveFeedback,
AnyVideoInput.VideoStatus.HdcpStateFeedback, AnyVideoInput.VideoStatus.VideoResolutionFeedback,
AnyVideoInput.VideoStatus.VideoSyncFeedback, HdmiIn1HdcpCapabilityFeedback, HdmiIn2HdcpCapabilityFeedback,
Hdmi1VideoSyncFeedback, Hdmi2VideoSyncFeedback);
// Set Ports for CEC
HdmiIn1.Port = Tx.HdmiInputs[1];
HdmiIn2.Port = Tx.HdmiInputs[2];
HdmiLoopOut.Port = Tx.HdmiOutput;
DmOut.Port = Tx.DmOutput;
}
public override bool CustomActivate()
{
// Link up all of these damned events to the various RoutingPorts via a helper handler
Tx.HdmiInputs[1].InputStreamChange += (o, a) => FowardInputStreamChange(HdmiIn1, a.EventId);
Tx.HdmiInputs[1].VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(HdmiIn1, a.EventId);
Tx.HdmiInputs[2].InputStreamChange += (o, a) => FowardInputStreamChange(HdmiIn2, a.EventId);
Tx.HdmiInputs[2].VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(HdmiIn2, a.EventId);
// Base does register and sets up comm monitoring.
return base.CustomActivate();
}
public override void LinkToApi(BasicTriList trilist, uint joinStart, string joinMapKey, EiscApiAdvanced bridge)
{
var joinMap = GetDmTxJoinMap(joinStart, joinMapKey);
if (Hdmi1VideoSyncFeedback != null)
{
Hdmi1VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input1VideoSyncStatus.JoinNumber]);
}
if (Hdmi2VideoSyncFeedback != null)
{
Hdmi2VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input2VideoSyncStatus.JoinNumber]);
}
LinkDmTxToApi(this, trilist, joinMap, bridge);
}
public void ExecuteNumericSwitch(ushort input, ushort output, eRoutingSignalType type)
{
Debug.Console(2, this, "Executing Numeric Switch to input {0}.", input);
switch (type)
{
case eRoutingSignalType.Video:
switch (input)
{
case 0:
{
ExecuteSwitch(eVst.Auto, null, type);
break;
}
case 1:
{
ExecuteSwitch(HdmiIn1.Selector, null, type);
break;
}
case 2:
{
ExecuteSwitch(HdmiIn2.Selector, null, type);
break;
}
case 3:
{
ExecuteSwitch(eVst.AllDisabled, null, type);
break;
}
}
break;
case eRoutingSignalType.Audio:
switch (input)
{
case 0:
{
ExecuteSwitch(eAst.Auto, null, type);
break;
}
case 1:
{
ExecuteSwitch(eAst.Hdmi1, null, type);
break;
}
case 2:
{
ExecuteSwitch(eAst.Hdmi2, null, type);
break;
}
case 3:
{
ExecuteSwitch(eAst.AllDisabled, null, type);
break;
}
}
break;
}
}
public void ExecuteSwitch(object inputSelector, object outputSelector, eRoutingSignalType signalType)
{
if ((signalType | eRoutingSignalType.Video) == eRoutingSignalType.Video)
Tx.VideoSource = (eVst)inputSelector;
if ((signalType | eRoutingSignalType.Audio) == eRoutingSignalType.Audio)
Tx.AudioSource = (eAst)inputSelector;
}
void InputStreamChangeEvent(EndpointInputStream inputStream, EndpointInputStreamEventArgs args)
{
Debug.Console(2, "{0} event {1} stream {2}", this.Tx.ToString(), inputStream.ToString(), args.EventId.ToString());
switch (args.EventId)
{
case EndpointInputStreamEventIds.HdcpSupportOffFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) HdmiIn1HdcpCapabilityFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) HdmiIn2HdcpCapabilityFeedback.FireUpdate();
break;
case EndpointInputStreamEventIds.HdcpSupportOnFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) HdmiIn1HdcpCapabilityFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) HdmiIn2HdcpCapabilityFeedback.FireUpdate();
break;
case EndpointInputStreamEventIds.SyncDetectedFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) Hdmi1VideoSyncFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) Hdmi2VideoSyncFeedback.FireUpdate();
break;
}
}
void Tx_BaseEvent(GenericBase device, BaseEventArgs args)
{
var id = args.EventId;
Debug.Console(2, this, "EventId {0}", args.EventId);
switch (id)
{
case EndpointTransmitterBase.VideoSourceFeedbackEventId:
Debug.Console(2, this, " Video Source: {0}", Tx.VideoSourceFeedback);
ActiveVideoInputFeedback.FireUpdate();
VideoSourceNumericFeedback.FireUpdate();
ActiveVideoInputFeedback.FireUpdate();
break;
case EndpointTransmitterBase.AudioSourceFeedbackEventId:
Debug.Console(2, this, " Audio Source : {0}", Tx.AudioSourceFeedback);
AudioSourceNumericFeedback.FireUpdate();
break;
}
}
/// <summary>
/// Relays the input stream change to the appropriate RoutingInputPort.
/// </summary>
void FowardInputStreamChange(RoutingInputPortWithVideoStatuses inputPort, int eventId)
{
if (eventId != EndpointInputStreamEventIds.SyncDetectedFeedbackEventId)
{
return;
}
inputPort.VideoStatus.VideoSyncFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoSyncFeedback.FireUpdate();
}
/// <summary>
/// Relays the VideoAttributes change to a RoutingInputPort
/// </summary>
void ForwardVideoAttributeChange(RoutingInputPortWithVideoStatuses inputPort, int eventId)
{
//// LOCATION: Crestron.SimplSharpPro.DM.VideoAttributeEventIds
//Debug.Console(2, this, "VideoAttributes_AttributeChange event id={0} from {1}",
// args.EventId, (sender as VideoAttributesEnhanced).Owner.GetType());
switch (eventId)
{
case VideoAttributeEventIds.HdcpActiveFeedbackEventId:
inputPort.VideoStatus.HdcpActiveFeedback.FireUpdate();
AnyVideoInput.VideoStatus.HdcpActiveFeedback.FireUpdate();
break;
case VideoAttributeEventIds.HdcpStateFeedbackEventId:
inputPort.VideoStatus.HdcpStateFeedback.FireUpdate();
AnyVideoInput.VideoStatus.HdcpStateFeedback.FireUpdate();
break;
case VideoAttributeEventIds.HorizontalResolutionFeedbackEventId:
case VideoAttributeEventIds.VerticalResolutionFeedbackEventId:
inputPort.VideoStatus.VideoResolutionFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoResolutionFeedback.FireUpdate();
break;
case VideoAttributeEventIds.FramesPerSecondFeedbackEventId:
inputPort.VideoStatus.VideoResolutionFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoResolutionFeedback.FireUpdate();
break;
}
}
#region IIROutputPorts Members
public CrestronCollection<IROutputPort> IROutputPorts { get { return Tx.IROutputPorts; } }
public int NumberOfIROutputPorts { get { return Tx.NumberOfIROutputPorts; } }
#endregion
#region IComPorts Members
public CrestronCollection<ComPort> ComPorts { get { return Tx.ComPorts; } }
public int NumberOfComPorts { get { return Tx.NumberOfComPorts; } }
#endregion
}
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using Crestron.SimplSharp;
using Crestron.SimplSharpPro;
//using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DM;
using Crestron.SimplSharpPro.DM.Endpoints;
using Crestron.SimplSharpPro.DM.Endpoints.Transmitters;
using PepperDash.Core;
using PepperDash.Essentials.Core;
using PepperDash.Essentials.Core.Bridges;
using PepperDash.Essentials.DM.Config;
namespace PepperDash.Essentials.DM
{
using eVst = Crestron.SimplSharpPro.DeviceSupport.eX02VideoSourceType;
using eAst = Crestron.SimplSharpPro.DeviceSupport.eX02AudioSourceType;
[Description("Wrapper class for DM-TX-4K-202-C")]
public class DmTx4k202CController : DmTxControllerBase, ITxRouting, IHasFeedback,
IIROutputPorts, IComPorts
{
public DmTx4k202C Tx { get; private set; }
public RoutingInputPortWithVideoStatuses HdmiIn1 { get; private set; }
public RoutingInputPortWithVideoStatuses HdmiIn2 { get; private set; }
public RoutingOutputPort DmOut { get; private set; }
public RoutingOutputPort HdmiLoopOut { get; private set; }
public override StringFeedback ActiveVideoInputFeedback { get; protected set; }
public IntFeedback VideoSourceNumericFeedback { get; protected set; }
public IntFeedback AudioSourceNumericFeedback { get; protected set; }
public IntFeedback HdmiIn1HdcpCapabilityFeedback { get; protected set; }
public IntFeedback HdmiIn2HdcpCapabilityFeedback { get; protected set; }
public BoolFeedback Hdmi1VideoSyncFeedback { get; protected set; }
public BoolFeedback Hdmi2VideoSyncFeedback { get; protected set; }
//public override IntFeedback HdcpSupportAllFeedback { get; protected set; }
//public override ushort HdcpSupportCapability { get; protected set; }
/// <summary>
/// Helps get the "real" inputs, including when in Auto
/// </summary>
public Crestron.SimplSharpPro.DeviceSupport.eX02VideoSourceType ActualActiveVideoInput
{
get
{
if (Tx.VideoSourceFeedback != eVst.Auto)
return Tx.VideoSourceFeedback;
else // auto
{
if (Tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue)
return eVst.Hdmi1;
else if (Tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue)
return eVst.Hdmi2;
else
return eVst.AllDisabled;
}
}
}
public RoutingPortCollection<RoutingInputPort> InputPorts
{
get
{
return new RoutingPortCollection<RoutingInputPort>
{
HdmiIn1,
HdmiIn2,
AnyVideoInput
};
}
}
public RoutingPortCollection<RoutingOutputPort> OutputPorts
{
get
{
return new RoutingPortCollection<RoutingOutputPort> { DmOut, HdmiLoopOut };
}
}
public DmTx4k202CController(string key, string name, DmTx4k202C tx)
: base(key, name, tx)
{
Tx = tx;
HdmiIn1 = new RoutingInputPortWithVideoStatuses(DmPortName.HdmiIn1,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.Hdmi, eVst.Hdmi1, this,
VideoStatusHelper.GetHdmiInputStatusFuncs(tx.HdmiInputs[1]));
HdmiIn2 = new RoutingInputPortWithVideoStatuses(DmPortName.HdmiIn2,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.Hdmi, eVst.Hdmi2, this,
VideoStatusHelper.GetHdmiInputStatusFuncs(tx.HdmiInputs[2]));
ActiveVideoInputFeedback = new StringFeedback("ActiveVideoInput",
() => ActualActiveVideoInput.ToString());
Tx.HdmiInputs[1].InputStreamChange += InputStreamChangeEvent;
Tx.HdmiInputs[2].InputStreamChange += InputStreamChangeEvent;
Tx.BaseEvent += Tx_BaseEvent;
VideoSourceNumericFeedback = new IntFeedback(() => (int)Tx.VideoSourceFeedback);
AudioSourceNumericFeedback = new IntFeedback(() => (int)Tx.AudioSourceFeedback);
HdmiIn1HdcpCapabilityFeedback = new IntFeedback("HdmiIn1HdcpCapability", () => (int)tx.HdmiInputs[1].HdcpCapabilityFeedback);
HdmiIn2HdcpCapabilityFeedback = new IntFeedback("HdmiIn2HdcpCapability", () => (int)tx.HdmiInputs[2].HdcpCapabilityFeedback);
HdcpSupportCapability = eHdcpCapabilityType.Hdcp2_2Support;
Hdmi1VideoSyncFeedback = new BoolFeedback(() => (bool)tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue);
Hdmi2VideoSyncFeedback = new BoolFeedback(() => (bool)tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue);
var combinedFuncs = new VideoStatusFuncsWrapper
{
HdcpActiveFeedbackFunc = () =>
(ActualActiveVideoInput == eVst.Hdmi1
&& tx.HdmiInputs[1].VideoAttributes.HdcpActiveFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Hdmi2
&& tx.HdmiInputs[2].VideoAttributes.HdcpActiveFeedback.BoolValue),
HdcpStateFeedbackFunc = () =>
{
if (ActualActiveVideoInput == eVst.Hdmi1)
return tx.HdmiInputs[1].VideoAttributes.HdcpStateFeedback.ToString();
if (ActualActiveVideoInput == eVst.Hdmi2)
return tx.HdmiInputs[2].VideoAttributes.HdcpStateFeedback.ToString();
return "";
},
VideoResolutionFeedbackFunc = () =>
{
if (ActualActiveVideoInput == eVst.Hdmi1)
return tx.HdmiInputs[1].VideoAttributes.GetVideoResolutionString();
if (ActualActiveVideoInput == eVst.Hdmi2)
return tx.HdmiInputs[2].VideoAttributes.GetVideoResolutionString();
return "";
},
VideoSyncFeedbackFunc = () =>
(ActualActiveVideoInput == eVst.Hdmi1
&& tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Hdmi2
&& tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue)
};
AnyVideoInput = new RoutingInputPortWithVideoStatuses(DmPortName.AnyVideoIn,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.None, 0, this, combinedFuncs);
DmOut = new RoutingOutputPort(DmPortName.DmOut, eRoutingSignalType.Audio | eRoutingSignalType.Video,
eRoutingPortConnectionType.DmCat, null, this);
HdmiLoopOut = new RoutingOutputPort(DmPortName.HdmiLoopOut, eRoutingSignalType.Audio | eRoutingSignalType.Video,
eRoutingPortConnectionType.Hdmi, null, this);
AddToFeedbackList(ActiveVideoInputFeedback, VideoSourceNumericFeedback, AudioSourceNumericFeedback,
AnyVideoInput.VideoStatus.HasVideoStatusFeedback, AnyVideoInput.VideoStatus.HdcpActiveFeedback,
AnyVideoInput.VideoStatus.HdcpStateFeedback, AnyVideoInput.VideoStatus.VideoResolutionFeedback,
AnyVideoInput.VideoStatus.VideoSyncFeedback, HdmiIn1HdcpCapabilityFeedback, HdmiIn2HdcpCapabilityFeedback,
Hdmi1VideoSyncFeedback, Hdmi2VideoSyncFeedback);
// Set Ports for CEC
HdmiIn1.Port = Tx.HdmiInputs[1];
HdmiIn2.Port = Tx.HdmiInputs[2];
HdmiLoopOut.Port = Tx.HdmiOutput;
DmOut.Port = Tx.DmOutput;
}
public override bool CustomActivate()
{
// Link up all of these damned events to the various RoutingPorts via a helper handler
Tx.HdmiInputs[1].InputStreamChange += (o, a) => FowardInputStreamChange(HdmiIn1, a.EventId);
Tx.HdmiInputs[1].VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(HdmiIn1, a.EventId);
Tx.HdmiInputs[2].InputStreamChange += (o, a) => FowardInputStreamChange(HdmiIn2, a.EventId);
Tx.HdmiInputs[2].VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(HdmiIn2, a.EventId);
// Base does register and sets up comm monitoring.
return base.CustomActivate();
}
public override void LinkToApi(BasicTriList trilist, uint joinStart, string joinMapKey, EiscApiAdvanced bridge)
{
var joinMap = GetDmTxJoinMap(joinStart, joinMapKey);
if (Hdmi1VideoSyncFeedback != null)
{
Hdmi1VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input1VideoSyncStatus.JoinNumber]);
}
if (Hdmi2VideoSyncFeedback != null)
{
Hdmi2VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input2VideoSyncStatus.JoinNumber]);
}
LinkDmTxToApi(this, trilist, joinMap, bridge);
}
public void ExecuteNumericSwitch(ushort input, ushort output, eRoutingSignalType type)
{
Debug.Console(2, this, "Executing Numeric Switch to input {0}.", input);
switch (type)
{
case eRoutingSignalType.Video:
switch (input)
{
case 0:
{
ExecuteSwitch(eVst.Auto, null, type);
break;
}
case 1:
{
ExecuteSwitch(HdmiIn1.Selector, null, type);
break;
}
case 2:
{
ExecuteSwitch(HdmiIn2.Selector, null, type);
break;
}
case 3:
{
ExecuteSwitch(eVst.AllDisabled, null, type);
break;
}
}
break;
case eRoutingSignalType.Audio:
switch (input)
{
case 0:
{
ExecuteSwitch(eAst.Auto, null, type);
break;
}
case 1:
{
ExecuteSwitch(eAst.Hdmi1, null, type);
break;
}
case 2:
{
ExecuteSwitch(eAst.Hdmi2, null, type);
break;
}
case 3:
{
ExecuteSwitch(eAst.AllDisabled, null, type);
break;
}
}
break;
}
}
public void ExecuteSwitch(object inputSelector, object outputSelector, eRoutingSignalType signalType)
{
if ((signalType | eRoutingSignalType.Video) == eRoutingSignalType.Video)
Tx.VideoSource = (eVst)inputSelector;
if ((signalType | eRoutingSignalType.Audio) == eRoutingSignalType.Audio)
Tx.AudioSource = (eAst)inputSelector;
}
void InputStreamChangeEvent(EndpointInputStream inputStream, EndpointInputStreamEventArgs args)
{
Debug.Console(2, "{0} event {1} stream {2}", this.Tx.ToString(), inputStream.ToString(), args.EventId.ToString());
switch (args.EventId)
{
case EndpointInputStreamEventIds.HdcpSupportOffFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) HdmiIn1HdcpCapabilityFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) HdmiIn2HdcpCapabilityFeedback.FireUpdate();
break;
case EndpointInputStreamEventIds.HdcpSupportOnFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) HdmiIn1HdcpCapabilityFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) HdmiIn2HdcpCapabilityFeedback.FireUpdate();
break;
case EndpointInputStreamEventIds.SyncDetectedFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) Hdmi1VideoSyncFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) Hdmi2VideoSyncFeedback.FireUpdate();
break;
}
}
void Tx_BaseEvent(GenericBase device, BaseEventArgs args)
{
var id = args.EventId;
Debug.Console(2, this, "EventId {0}", args.EventId);
switch (id)
{
case EndpointTransmitterBase.VideoSourceFeedbackEventId:
Debug.Console(2, this, " Video Source: {0}", Tx.VideoSourceFeedback);
ActiveVideoInputFeedback.FireUpdate();
VideoSourceNumericFeedback.FireUpdate();
ActiveVideoInputFeedback.FireUpdate();
break;
case EndpointTransmitterBase.AudioSourceFeedbackEventId:
Debug.Console(2, this, " Audio Source : {0}", Tx.AudioSourceFeedback);
AudioSourceNumericFeedback.FireUpdate();
break;
}
}
/// <summary>
/// Relays the input stream change to the appropriate RoutingInputPort.
/// </summary>
void FowardInputStreamChange(RoutingInputPortWithVideoStatuses inputPort, int eventId)
{
if (eventId != EndpointInputStreamEventIds.SyncDetectedFeedbackEventId)
{
return;
}
inputPort.VideoStatus.VideoSyncFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoSyncFeedback.FireUpdate();
}
/// <summary>
/// Relays the VideoAttributes change to a RoutingInputPort
/// </summary>
void ForwardVideoAttributeChange(RoutingInputPortWithVideoStatuses inputPort, int eventId)
{
//// LOCATION: Crestron.SimplSharpPro.DM.VideoAttributeEventIds
//Debug.Console(2, this, "VideoAttributes_AttributeChange event id={0} from {1}",
// args.EventId, (sender as VideoAttributesEnhanced).Owner.GetType());
switch (eventId)
{
case VideoAttributeEventIds.HdcpActiveFeedbackEventId:
inputPort.VideoStatus.HdcpActiveFeedback.FireUpdate();
AnyVideoInput.VideoStatus.HdcpActiveFeedback.FireUpdate();
break;
case VideoAttributeEventIds.HdcpStateFeedbackEventId:
inputPort.VideoStatus.HdcpStateFeedback.FireUpdate();
AnyVideoInput.VideoStatus.HdcpStateFeedback.FireUpdate();
break;
case VideoAttributeEventIds.HorizontalResolutionFeedbackEventId:
case VideoAttributeEventIds.VerticalResolutionFeedbackEventId:
inputPort.VideoStatus.VideoResolutionFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoResolutionFeedback.FireUpdate();
break;
case VideoAttributeEventIds.FramesPerSecondFeedbackEventId:
inputPort.VideoStatus.VideoResolutionFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoResolutionFeedback.FireUpdate();
break;
}
}
#region IIROutputPorts Members
public CrestronCollection<IROutputPort> IROutputPorts { get { return Tx.IROutputPorts; } }
public int NumberOfIROutputPorts { get { return Tx.NumberOfIROutputPorts; } }
#endregion
#region IComPorts Members
public CrestronCollection<ComPort> ComPorts { get { return Tx.ComPorts; } }
public int NumberOfComPorts { get { return Tx.NumberOfComPorts; } }
#endregion
}
}

5
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTx4k302CController.cs
View File

@@ -18,8 +18,9 @@ using PepperDash.Essentials.DM.Config;
namespace PepperDash.Essentials.DM
{
using eVst = Crestron.SimplSharpPro.DeviceSupport.eX02VideoSourceType;
using eAst = Crestron.SimplSharpPro.DeviceSupport.eX02AudioSourceType;
using eAst = Crestron.SimplSharpPro.DeviceSupport.eX02AudioSourceType;
[Description("Wrapper class for DM-TX-4K-302-C")]
public class DmTx4k302CController : DmTxControllerBase, ITxRouting, IHasFeedback,
IIROutputPorts, IComPorts, IHasFreeRun, IVgaBrightnessContrastControls
{

1
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTx4kz100Controller.cs
View File

@@ -21,6 +21,7 @@ namespace PepperDash.Essentials.DM
/// <summary>
/// Controller class for all DM-TX-201C/S/F transmitters
/// </summary>
[Description("Wrapper class for DM-TX-4K-Z-100-C")]
public class DmTx4kz100Controller : DmTxControllerBase, IRoutingInputsOutputs, IHasFeedback,
IIROutputPorts, IComPorts, ICec
{

716
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTx4kz302CController.cs
View File

@@ -1,358 +1,360 @@
using Crestron.SimplSharpPro;
//using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DM;
using Crestron.SimplSharpPro.DM.Endpoints;
using Crestron.SimplSharpPro.DM.Endpoints.Transmitters;
using PepperDash.Core;
using PepperDash.Essentials.Core;
using PepperDash.Essentials.Core.Bridges;
namespace PepperDash.Essentials.DM
{
using eVst = eX02VideoSourceType;
using eAst = eX02AudioSourceType;
public class DmTx4kz302CController : DmTxControllerBase, ITxRouting,
IIROutputPorts, IComPorts
{
public DmTx4kz302C Tx { get; private set; }
public RoutingInputPortWithVideoStatuses HdmiIn1 { get; private set; }
public RoutingInputPortWithVideoStatuses HdmiIn2 { get; private set; }
public RoutingInputPortWithVideoStatuses DisplayPortIn { get; private set; }
public RoutingOutputPort DmOut { get; private set; }
public RoutingOutputPort HdmiLoopOut { get; private set; }
public override StringFeedback ActiveVideoInputFeedback { get; protected set; }
public IntFeedback VideoSourceNumericFeedback { get; protected set; }
public IntFeedback AudioSourceNumericFeedback { get; protected set; }
public IntFeedback HdmiIn1HdcpCapabilityFeedback { get; protected set; }
public IntFeedback HdmiIn2HdcpCapabilityFeedback { get; protected set; }
public BoolFeedback Hdmi1VideoSyncFeedback { get; protected set; }
public BoolFeedback Hdmi2VideoSyncFeedback { get; protected set; }
public BoolFeedback DisplayPortVideoSyncFeedback { get; protected set; }
//public override IntFeedback HdcpSupportAllFeedback { get; protected set; }
//public override ushort HdcpSupportCapability { get; protected set; }
/// <summary>
/// Helps get the "real" inputs, including when in Auto
/// </summary>
public eX02VideoSourceType ActualActiveVideoInput
{
get
{
if (Tx.VideoSourceFeedback != eVst.Auto)
return Tx.VideoSourceFeedback;
if (Tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue)
return eVst.Hdmi1;
if (Tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue)
return eVst.Hdmi2;
return Tx.DisplayPortInput.SyncDetectedFeedback.BoolValue ? eVst.Vga : eVst.AllDisabled;
}
}
public RoutingPortCollection<RoutingInputPort> InputPorts
{
get
{
return new RoutingPortCollection<RoutingInputPort>
{
HdmiIn1,
HdmiIn2,
DisplayPortIn,
AnyVideoInput
};
}
}
public RoutingPortCollection<RoutingOutputPort> OutputPorts
{
get
{
return new RoutingPortCollection<RoutingOutputPort> { DmOut, HdmiLoopOut };
}
}
public DmTx4kz302CController(string key, string name, DmTx4kz302C tx)
: base(key, name, tx)
{
Tx = tx;
HdmiIn1 = new RoutingInputPortWithVideoStatuses(DmPortName.HdmiIn1,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.Hdmi, eVst.Hdmi1, this,
VideoStatusHelper.GetHdmiInputStatusFuncs(tx.HdmiInputs[1]));
HdmiIn2 = new RoutingInputPortWithVideoStatuses(DmPortName.HdmiIn2,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.Hdmi, eVst.Hdmi2, this,
VideoStatusHelper.GetHdmiInputStatusFuncs(tx.HdmiInputs[2]));
DisplayPortIn = new RoutingInputPortWithVideoStatuses(DmPortName.VgaIn,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.DisplayPort, eVst.DisplayPort, this,
VideoStatusHelper.GetDisplayPortInputStatusFuncs(tx.DisplayPortInput));
ActiveVideoInputFeedback = new StringFeedback("ActiveVideoInput",
() => ActualActiveVideoInput.ToString());
Tx.HdmiInputs[1].InputStreamChange += InputStreamChangeEvent;
Tx.HdmiInputs[2].InputStreamChange += InputStreamChangeEvent;
Tx.DisplayPortInput.InputStreamChange += DisplayPortInputStreamChange;
Tx.BaseEvent += Tx_BaseEvent;
VideoSourceNumericFeedback = new IntFeedback(() => (int)Tx.VideoSourceFeedback);
AudioSourceNumericFeedback = new IntFeedback(() => (int)Tx.VideoSourceFeedback);
HdmiIn1HdcpCapabilityFeedback = new IntFeedback("HdmiIn1HdcpCapability", () => (int)tx.HdmiInputs[1].HdcpCapabilityFeedback);
HdmiIn2HdcpCapabilityFeedback = new IntFeedback("HdmiIn2HdcpCapability", () => (int)tx.HdmiInputs[2].HdcpCapabilityFeedback);
HdcpSupportCapability = eHdcpCapabilityType.Hdcp2_2Support;
Hdmi1VideoSyncFeedback = new BoolFeedback(() => (bool)tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue);
Hdmi2VideoSyncFeedback = new BoolFeedback(() => (bool)tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue);
DisplayPortVideoSyncFeedback = new BoolFeedback(() => (bool)tx.DisplayPortInput.SyncDetectedFeedback.BoolValue);
var combinedFuncs = new VideoStatusFuncsWrapper
{
HdcpActiveFeedbackFunc = () =>
(ActualActiveVideoInput == eVst.Hdmi1
&& tx.HdmiInputs[1].VideoAttributes.HdcpActiveFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Hdmi2
&& tx.HdmiInputs[2].VideoAttributes.HdcpActiveFeedback.BoolValue),
HdcpStateFeedbackFunc = () =>
{
if (ActualActiveVideoInput == eVst.Hdmi1)
return tx.HdmiInputs[1].VideoAttributes.HdcpStateFeedback.ToString();
return ActualActiveVideoInput == eVst.Hdmi2 ? tx.HdmiInputs[2].VideoAttributes.HdcpStateFeedback.ToString() : "";
},
VideoResolutionFeedbackFunc = () =>
{
if (ActualActiveVideoInput == eVst.Hdmi1)
return tx.HdmiInputs[1].VideoAttributes.GetVideoResolutionString();
if (ActualActiveVideoInput == eVst.Hdmi2)
return tx.HdmiInputs[2].VideoAttributes.GetVideoResolutionString();
return ActualActiveVideoInput == eVst.Vga ? tx.DisplayPortInput.VideoAttributes.GetVideoResolutionString() : "";
},
VideoSyncFeedbackFunc = () =>
(ActualActiveVideoInput == eVst.Hdmi1
&& tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Hdmi2
&& tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Vga
&& tx.DisplayPortInput.SyncDetectedFeedback.BoolValue)
};
AnyVideoInput = new RoutingInputPortWithVideoStatuses(DmPortName.AnyVideoIn,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.None, 0, this, combinedFuncs);
DmOut = new RoutingOutputPort(DmPortName.DmOut, eRoutingSignalType.Audio | eRoutingSignalType.Video,
eRoutingPortConnectionType.DmCat, null, this);
HdmiLoopOut = new RoutingOutputPort(DmPortName.HdmiLoopOut, eRoutingSignalType.Audio | eRoutingSignalType.Video,
eRoutingPortConnectionType.Hdmi, null, this);
AddToFeedbackList(ActiveVideoInputFeedback, VideoSourceNumericFeedback, AudioSourceNumericFeedback,
AnyVideoInput.VideoStatus.HasVideoStatusFeedback, AnyVideoInput.VideoStatus.HdcpActiveFeedback,
AnyVideoInput.VideoStatus.HdcpStateFeedback, AnyVideoInput.VideoStatus.VideoResolutionFeedback,
AnyVideoInput.VideoStatus.VideoSyncFeedback, HdmiIn1HdcpCapabilityFeedback, HdmiIn2HdcpCapabilityFeedback,
Hdmi1VideoSyncFeedback, Hdmi2VideoSyncFeedback, DisplayPortVideoSyncFeedback);
// Set Ports for CEC
HdmiIn1.Port = Tx.HdmiInputs[1];
HdmiIn2.Port = Tx.HdmiInputs[2];
HdmiLoopOut.Port = Tx.HdmiOutput;
DmOut.Port = Tx.DmOutput;
}
void DisplayPortInputStreamChange(EndpointInputStream inputStream, EndpointInputStreamEventArgs args)
{
Debug.Console(2, "{0} event {1} stream {2}", Tx.ToString(), inputStream.ToString(), args.EventId.ToString());
switch (args.EventId)
{
case EndpointInputStreamEventIds.SyncDetectedFeedbackEventId:
DisplayPortVideoSyncFeedback.FireUpdate();
break;
}
}
public override bool CustomActivate()
{
// Link up all of these damned events to the various RoutingPorts via a helper handler
Tx.HdmiInputs[1].InputStreamChange += (o, a) => FowardInputStreamChange(HdmiIn1, a.EventId);
Tx.HdmiInputs[1].VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(HdmiIn1, a.EventId);
Tx.HdmiInputs[2].InputStreamChange += (o, a) => FowardInputStreamChange(HdmiIn2, a.EventId);
Tx.HdmiInputs[2].VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(HdmiIn2, a.EventId);
Tx.DisplayPortInput.InputStreamChange += (o, a) => FowardInputStreamChange(DisplayPortIn, a.EventId);
Tx.DisplayPortInput.VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(DisplayPortIn, a.EventId);
// Base does register and sets up comm monitoring.
return base.CustomActivate();
}
public override void LinkToApi(BasicTriList trilist, uint joinStart, string joinMapKey, EiscApiAdvanced bridge)
{
var joinMap = GetDmTxJoinMap(joinStart, joinMapKey);
if (Hdmi1VideoSyncFeedback != null)
{
Hdmi1VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input1VideoSyncStatus.JoinNumber]);
}
if (Hdmi2VideoSyncFeedback != null)
{
Hdmi2VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input2VideoSyncStatus.JoinNumber]);
}
if (DisplayPortVideoSyncFeedback != null)
{
DisplayPortVideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input3VideoSyncStatus.JoinNumber]);
}
LinkDmTxToApi(this, trilist, joinMap, bridge);
}
public void ExecuteNumericSwitch(ushort input, ushort output, eRoutingSignalType type)
{
Debug.Console(2, this, "Executing Numeric Switch to input {0}.", input);
switch (input)
{
case 0:
{
ExecuteSwitch(eVst.Auto, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
case 1:
{
ExecuteSwitch(HdmiIn1.Selector, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
case 2:
{
ExecuteSwitch(HdmiIn2.Selector, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
case 3:
{
ExecuteSwitch(DisplayPortIn.Selector, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
case 4:
{
ExecuteSwitch(eVst.AllDisabled, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
}
}
public void ExecuteSwitch(object inputSelector, object outputSelector, eRoutingSignalType signalType)
{
if ((signalType | eRoutingSignalType.Video) == eRoutingSignalType.Video)
Tx.VideoSource = (eVst)inputSelector;
// NOTE: It's possible that this particular TX model may not like the AudioSource property being set.
// The SIMPL definition only shows a single analog for AudioVideo Source
if ((signalType | eRoutingSignalType.Audio) == eRoutingSignalType.Audio)
//it doesn't
Debug.Console(2, this, "Unable to execute audio-only switch for tx {0}", Key);
//Tx.AudioSource = (eAst)inputSelector;
}
void InputStreamChangeEvent(EndpointInputStream inputStream, EndpointInputStreamEventArgs args)
{
Debug.Console(2, "{0} event {1} stream {2}", Tx.ToString(), inputStream.ToString(), args.EventId.ToString());
switch (args.EventId)
{
case EndpointInputStreamEventIds.HdcpSupportOffFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) HdmiIn1HdcpCapabilityFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) HdmiIn2HdcpCapabilityFeedback.FireUpdate();
break;
case EndpointInputStreamEventIds.HdcpSupportOnFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) HdmiIn1HdcpCapabilityFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) HdmiIn2HdcpCapabilityFeedback.FireUpdate();
break;
case EndpointInputStreamEventIds.SyncDetectedFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) Hdmi1VideoSyncFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) Hdmi2VideoSyncFeedback.FireUpdate();
break;
}
}
void Tx_BaseEvent(GenericBase device, BaseEventArgs args)
{
var id = args.EventId;
switch (id)
{
case EndpointTransmitterBase.VideoSourceFeedbackEventId:
Debug.Console(2, this, " Video Source: {0}", Tx.VideoSourceFeedback);
VideoSourceNumericFeedback.FireUpdate();
ActiveVideoInputFeedback.FireUpdate();
break;
case EndpointTransmitterBase.AudioSourceFeedbackEventId:
Debug.Console(2, this, " Audio Source: {0}", Tx.AudioSourceFeedback);
AudioSourceNumericFeedback.FireUpdate();
break;
}
}
/// <summary>
/// Relays the input stream change to the appropriate RoutingInputPort.
/// </summary>
void FowardInputStreamChange(RoutingInputPortWithVideoStatuses inputPort, int eventId)
{
if (eventId != EndpointInputStreamEventIds.SyncDetectedFeedbackEventId) return;
inputPort.VideoStatus.VideoSyncFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoSyncFeedback.FireUpdate();
}
/// <summary>
/// Relays the VideoAttributes change to a RoutingInputPort
/// </summary>
void ForwardVideoAttributeChange(RoutingInputPortWithVideoStatuses inputPort, int eventId)
{
//// LOCATION: Crestron.SimplSharpPro.DM.VideoAttributeEventIds
//Debug.Console(2, this, "VideoAttributes_AttributeChange event id={0} from {1}",
// args.EventId, (sender as VideoAttributesEnhanced).Owner.GetType());
switch (eventId)
{
case VideoAttributeEventIds.HdcpActiveFeedbackEventId:
inputPort.VideoStatus.HdcpActiveFeedback.FireUpdate();
AnyVideoInput.VideoStatus.HdcpActiveFeedback.FireUpdate();
break;
case VideoAttributeEventIds.HdcpStateFeedbackEventId:
inputPort.VideoStatus.HdcpStateFeedback.FireUpdate();
AnyVideoInput.VideoStatus.HdcpStateFeedback.FireUpdate();
break;
case VideoAttributeEventIds.HorizontalResolutionFeedbackEventId:
case VideoAttributeEventIds.VerticalResolutionFeedbackEventId:
inputPort.VideoStatus.VideoResolutionFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoResolutionFeedback.FireUpdate();
break;
case VideoAttributeEventIds.FramesPerSecondFeedbackEventId:
inputPort.VideoStatus.VideoResolutionFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoResolutionFeedback.FireUpdate();
break;
}
}
#region IIROutputPorts Members
public CrestronCollection<IROutputPort> IROutputPorts { get { return Tx.IROutputPorts; } }
public int NumberOfIROutputPorts { get { return Tx.NumberOfIROutputPorts; } }
#endregion
#region IComPorts Members
public CrestronCollection<ComPort> ComPorts { get { return Tx.ComPorts; } }
public int NumberOfComPorts { get { return Tx.NumberOfComPorts; } }
#endregion
}
using Crestron.SimplSharpPro;
//using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DM;
using Crestron.SimplSharpPro.DM.Endpoints;
using Crestron.SimplSharpPro.DM.Endpoints.Transmitters;
using PepperDash.Core;
using PepperDash.Essentials.Core;
using PepperDash.Essentials.Core.Bridges;
namespace PepperDash.Essentials.DM
{
using eVst = eX02VideoSourceType;
using eAst = eX02AudioSourceType;
[Description("Wrapper class for DM-TX-4K-Z-302-C")]
public class DmTx4kz302CController : DmTxControllerBase, ITxRouting, IHasFeedback,
IIROutputPorts, IComPorts
{
public DmTx4kz302C Tx { get; private set; }
public RoutingInputPortWithVideoStatuses HdmiIn1 { get; private set; }
public RoutingInputPortWithVideoStatuses HdmiIn2 { get; private set; }
public RoutingInputPortWithVideoStatuses DisplayPortIn { get; private set; }
public RoutingOutputPort DmOut { get; private set; }
public RoutingOutputPort HdmiLoopOut { get; private set; }
public override StringFeedback ActiveVideoInputFeedback { get; protected set; }
public IntFeedback VideoSourceNumericFeedback { get; protected set; }
public IntFeedback AudioSourceNumericFeedback { get; protected set; }
public IntFeedback HdmiIn1HdcpCapabilityFeedback { get; protected set; }
public IntFeedback HdmiIn2HdcpCapabilityFeedback { get; protected set; }
public BoolFeedback Hdmi1VideoSyncFeedback { get; protected set; }
public BoolFeedback Hdmi2VideoSyncFeedback { get; protected set; }
public BoolFeedback DisplayPortVideoSyncFeedback { get; protected set; }
//public override IntFeedback HdcpSupportAllFeedback { get; protected set; }
//public override ushort HdcpSupportCapability { get; protected set; }
/// <summary>
/// Helps get the "real" inputs, including when in Auto
/// </summary>
public eX02VideoSourceType ActualActiveVideoInput
{
get
{
if (Tx.VideoSourceFeedback != eVst.Auto)
return Tx.VideoSourceFeedback;
if (Tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue)
return eVst.Hdmi1;
if (Tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue)
return eVst.Hdmi2;
return Tx.DisplayPortInput.SyncDetectedFeedback.BoolValue ? eVst.Vga : eVst.AllDisabled;
}
}
public RoutingPortCollection<RoutingInputPort> InputPorts
{
get
{
return new RoutingPortCollection<RoutingInputPort>
{
HdmiIn1,
HdmiIn2,
DisplayPortIn,
AnyVideoInput
};
}
}
public RoutingPortCollection<RoutingOutputPort> OutputPorts
{
get
{
return new RoutingPortCollection<RoutingOutputPort> { DmOut, HdmiLoopOut };
}
}
public DmTx4kz302CController(string key, string name, DmTx4kz302C tx)
: base(key, name, tx)
{
Tx = tx;
HdmiIn1 = new RoutingInputPortWithVideoStatuses(DmPortName.HdmiIn1,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.Hdmi, eVst.Hdmi1, this,
VideoStatusHelper.GetHdmiInputStatusFuncs(tx.HdmiInputs[1]));
HdmiIn2 = new RoutingInputPortWithVideoStatuses(DmPortName.HdmiIn2,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.Hdmi, eVst.Hdmi2, this,
VideoStatusHelper.GetHdmiInputStatusFuncs(tx.HdmiInputs[2]));
DisplayPortIn = new RoutingInputPortWithVideoStatuses(DmPortName.VgaIn,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.DisplayPort, eVst.DisplayPort, this,
VideoStatusHelper.GetDisplayPortInputStatusFuncs(tx.DisplayPortInput));
ActiveVideoInputFeedback = new StringFeedback("ActiveVideoInput",
() => ActualActiveVideoInput.ToString());
Tx.HdmiInputs[1].InputStreamChange += InputStreamChangeEvent;
Tx.HdmiInputs[2].InputStreamChange += InputStreamChangeEvent;
Tx.DisplayPortInput.InputStreamChange += DisplayPortInputStreamChange;
Tx.BaseEvent += Tx_BaseEvent;
VideoSourceNumericFeedback = new IntFeedback(() => (int)Tx.VideoSourceFeedback);
AudioSourceNumericFeedback = new IntFeedback(() => (int)Tx.VideoSourceFeedback);
HdmiIn1HdcpCapabilityFeedback = new IntFeedback("HdmiIn1HdcpCapability", () => (int)tx.HdmiInputs[1].HdcpCapabilityFeedback);
HdmiIn2HdcpCapabilityFeedback = new IntFeedback("HdmiIn2HdcpCapability", () => (int)tx.HdmiInputs[2].HdcpCapabilityFeedback);
HdcpSupportCapability = eHdcpCapabilityType.Hdcp2_2Support;
Hdmi1VideoSyncFeedback = new BoolFeedback(() => (bool)tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue);
Hdmi2VideoSyncFeedback = new BoolFeedback(() => (bool)tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue);
DisplayPortVideoSyncFeedback = new BoolFeedback(() => (bool)tx.DisplayPortInput.SyncDetectedFeedback.BoolValue);
var combinedFuncs = new VideoStatusFuncsWrapper
{
HdcpActiveFeedbackFunc = () =>
(ActualActiveVideoInput == eVst.Hdmi1
&& tx.HdmiInputs[1].VideoAttributes.HdcpActiveFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Hdmi2
&& tx.HdmiInputs[2].VideoAttributes.HdcpActiveFeedback.BoolValue),
HdcpStateFeedbackFunc = () =>
{
if (ActualActiveVideoInput == eVst.Hdmi1)
return tx.HdmiInputs[1].VideoAttributes.HdcpStateFeedback.ToString();
return ActualActiveVideoInput == eVst.Hdmi2 ? tx.HdmiInputs[2].VideoAttributes.HdcpStateFeedback.ToString() : "";
},
VideoResolutionFeedbackFunc = () =>
{
if (ActualActiveVideoInput == eVst.Hdmi1)
return tx.HdmiInputs[1].VideoAttributes.GetVideoResolutionString();
if (ActualActiveVideoInput == eVst.Hdmi2)
return tx.HdmiInputs[2].VideoAttributes.GetVideoResolutionString();
return ActualActiveVideoInput == eVst.Vga ? tx.DisplayPortInput.VideoAttributes.GetVideoResolutionString() : "";
},
VideoSyncFeedbackFunc = () =>
(ActualActiveVideoInput == eVst.Hdmi1
&& tx.HdmiInputs[1].SyncDetectedFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Hdmi2
&& tx.HdmiInputs[2].SyncDetectedFeedback.BoolValue)
|| (ActualActiveVideoInput == eVst.Vga
&& tx.DisplayPortInput.SyncDetectedFeedback.BoolValue)
};
AnyVideoInput = new RoutingInputPortWithVideoStatuses(DmPortName.AnyVideoIn,
eRoutingSignalType.Audio | eRoutingSignalType.Video, eRoutingPortConnectionType.None, 0, this, combinedFuncs);
DmOut = new RoutingOutputPort(DmPortName.DmOut, eRoutingSignalType.Audio | eRoutingSignalType.Video,
eRoutingPortConnectionType.DmCat, null, this);
HdmiLoopOut = new RoutingOutputPort(DmPortName.HdmiLoopOut, eRoutingSignalType.Audio | eRoutingSignalType.Video,
eRoutingPortConnectionType.Hdmi, null, this);
AddToFeedbackList(ActiveVideoInputFeedback, VideoSourceNumericFeedback, AudioSourceNumericFeedback,
AnyVideoInput.VideoStatus.HasVideoStatusFeedback, AnyVideoInput.VideoStatus.HdcpActiveFeedback,
AnyVideoInput.VideoStatus.HdcpStateFeedback, AnyVideoInput.VideoStatus.VideoResolutionFeedback,
AnyVideoInput.VideoStatus.VideoSyncFeedback, HdmiIn1HdcpCapabilityFeedback, HdmiIn2HdcpCapabilityFeedback,
Hdmi1VideoSyncFeedback, Hdmi2VideoSyncFeedback, DisplayPortVideoSyncFeedback);
// Set Ports for CEC
HdmiIn1.Port = Tx.HdmiInputs[1];
HdmiIn2.Port = Tx.HdmiInputs[2];
HdmiLoopOut.Port = Tx.HdmiOutput;
DmOut.Port = Tx.DmOutput;
}
void DisplayPortInputStreamChange(EndpointInputStream inputStream, EndpointInputStreamEventArgs args)
{
Debug.Console(2, "{0} event {1} stream {2}", Tx.ToString(), inputStream.ToString(), args.EventId.ToString());
switch (args.EventId)
{
case EndpointInputStreamEventIds.SyncDetectedFeedbackEventId:
DisplayPortVideoSyncFeedback.FireUpdate();
break;
}
}
public override bool CustomActivate()
{
// Link up all of these damned events to the various RoutingPorts via a helper handler
Tx.HdmiInputs[1].InputStreamChange += (o, a) => FowardInputStreamChange(HdmiIn1, a.EventId);
Tx.HdmiInputs[1].VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(HdmiIn1, a.EventId);
Tx.HdmiInputs[2].InputStreamChange += (o, a) => FowardInputStreamChange(HdmiIn2, a.EventId);
Tx.HdmiInputs[2].VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(HdmiIn2, a.EventId);
Tx.DisplayPortInput.InputStreamChange += (o, a) => FowardInputStreamChange(DisplayPortIn, a.EventId);
Tx.DisplayPortInput.VideoAttributes.AttributeChange += (o, a) => ForwardVideoAttributeChange(DisplayPortIn, a.EventId);
// Base does register and sets up comm monitoring.
return base.CustomActivate();
}
public override void LinkToApi(BasicTriList trilist, uint joinStart, string joinMapKey, EiscApiAdvanced bridge)
{
var joinMap = GetDmTxJoinMap(joinStart, joinMapKey);
if (Hdmi1VideoSyncFeedback != null)
{
Hdmi1VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input1VideoSyncStatus.JoinNumber]);
}
if (Hdmi2VideoSyncFeedback != null)
{
Hdmi2VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input2VideoSyncStatus.JoinNumber]);
}
if (DisplayPortVideoSyncFeedback != null)
{
DisplayPortVideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.Input3VideoSyncStatus.JoinNumber]);
}
LinkDmTxToApi(this, trilist, joinMap, bridge);
}
public void ExecuteNumericSwitch(ushort input, ushort output, eRoutingSignalType type)
{
Debug.Console(2, this, "Executing Numeric Switch to input {0}.", input);
switch (input)
{
case 0:
{
ExecuteSwitch(eVst.Auto, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
case 1:
{
ExecuteSwitch(HdmiIn1.Selector, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
case 2:
{
ExecuteSwitch(HdmiIn2.Selector, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
case 3:
{
ExecuteSwitch(DisplayPortIn.Selector, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
case 4:
{
ExecuteSwitch(eVst.AllDisabled, null, eRoutingSignalType.Audio | eRoutingSignalType.Video);
break;
}
}
}
public void ExecuteSwitch(object inputSelector, object outputSelector, eRoutingSignalType signalType)
{
if ((signalType | eRoutingSignalType.Video) == eRoutingSignalType.Video)
Tx.VideoSource = (eVst)inputSelector;
// NOTE: It's possible that this particular TX model may not like the AudioSource property being set.
// The SIMPL definition only shows a single analog for AudioVideo Source
if ((signalType | eRoutingSignalType.Audio) == eRoutingSignalType.Audio)
//it doesn't
Debug.Console(2, this, "Unable to execute audio-only switch for tx {0}", Key);
//Tx.AudioSource = (eAst)inputSelector;
}
void InputStreamChangeEvent(EndpointInputStream inputStream, EndpointInputStreamEventArgs args)
{
Debug.Console(2, "{0} event {1} stream {2}", Tx.ToString(), inputStream.ToString(), args.EventId.ToString());
switch (args.EventId)
{
case EndpointInputStreamEventIds.HdcpSupportOffFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) HdmiIn1HdcpCapabilityFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) HdmiIn2HdcpCapabilityFeedback.FireUpdate();
break;
case EndpointInputStreamEventIds.HdcpSupportOnFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) HdmiIn1HdcpCapabilityFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) HdmiIn2HdcpCapabilityFeedback.FireUpdate();
break;
case EndpointInputStreamEventIds.SyncDetectedFeedbackEventId:
if (inputStream == Tx.HdmiInputs[1]) Hdmi1VideoSyncFeedback.FireUpdate();
if (inputStream == Tx.HdmiInputs[2]) Hdmi2VideoSyncFeedback.FireUpdate();
break;
}
}
void Tx_BaseEvent(GenericBase device, BaseEventArgs args)
{
var id = args.EventId;
switch (id)
{
case EndpointTransmitterBase.VideoSourceFeedbackEventId:
Debug.Console(2, this, " Video Source: {0}", Tx.VideoSourceFeedback);
VideoSourceNumericFeedback.FireUpdate();
ActiveVideoInputFeedback.FireUpdate();
break;
case EndpointTransmitterBase.AudioSourceFeedbackEventId:
Debug.Console(2, this, " Audio Source: {0}", Tx.AudioSourceFeedback);
AudioSourceNumericFeedback.FireUpdate();
break;
}
}
/// <summary>
/// Relays the input stream change to the appropriate RoutingInputPort.
/// </summary>
void FowardInputStreamChange(RoutingInputPortWithVideoStatuses inputPort, int eventId)
{
if (eventId != EndpointInputStreamEventIds.SyncDetectedFeedbackEventId) return;
inputPort.VideoStatus.VideoSyncFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoSyncFeedback.FireUpdate();
}
/// <summary>
/// Relays the VideoAttributes change to a RoutingInputPort
/// </summary>
void ForwardVideoAttributeChange(RoutingInputPortWithVideoStatuses inputPort, int eventId)
{
//// LOCATION: Crestron.SimplSharpPro.DM.VideoAttributeEventIds
//Debug.Console(2, this, "VideoAttributes_AttributeChange event id={0} from {1}",
// args.EventId, (sender as VideoAttributesEnhanced).Owner.GetType());
switch (eventId)
{
case VideoAttributeEventIds.HdcpActiveFeedbackEventId:
inputPort.VideoStatus.HdcpActiveFeedback.FireUpdate();
AnyVideoInput.VideoStatus.HdcpActiveFeedback.FireUpdate();
break;
case VideoAttributeEventIds.HdcpStateFeedbackEventId:
inputPort.VideoStatus.HdcpStateFeedback.FireUpdate();
AnyVideoInput.VideoStatus.HdcpStateFeedback.FireUpdate();
break;
case VideoAttributeEventIds.HorizontalResolutionFeedbackEventId:
case VideoAttributeEventIds.VerticalResolutionFeedbackEventId:
inputPort.VideoStatus.VideoResolutionFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoResolutionFeedback.FireUpdate();
break;
case VideoAttributeEventIds.FramesPerSecondFeedbackEventId:
inputPort.VideoStatus.VideoResolutionFeedback.FireUpdate();
AnyVideoInput.VideoStatus.VideoResolutionFeedback.FireUpdate();
break;
}
}
#region IIROutputPorts Members
public CrestronCollection<IROutputPort> IROutputPorts { get { return Tx.IROutputPorts; } }
public int NumberOfIROutputPorts { get { return Tx.NumberOfIROutputPorts; } }
#endregion
#region IComPorts Members
public CrestronCollection<ComPort> ComPorts { get { return Tx.ComPorts; } }
public int NumberOfComPorts { get { return Tx.NumberOfComPorts; } }
#endregion
}
}

728
essentials-framework/Essentials DM/Essentials_DM/Endpoints/Transmitters/DmTxHelpers.cs
View File

@@ -1,364 +1,364 @@
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using Crestron.SimplSharp;
using Crestron.SimplSharpPro;
using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DM;
using Crestron.SimplSharpPro.DM.Endpoints;
using Crestron.SimplSharpPro.DM.Endpoints.Transmitters;
using Newtonsoft.Json;
using PepperDash.Core;
using PepperDash.Essentials.Core;
using PepperDash.Essentials.Core.Bridges;
using PepperDash.Essentials.DM.Config;
using PepperDash.Essentials.Core.Config;
namespace PepperDash.Essentials.DM
{
public class DmTxHelper
{
/// <summary>
/// A factory method for various DmTxControllers
/// </summary>
/// <param name="key"></param>
/// <param name="name"></param>
/// <param name="props"></param>
/// <returns></returns>
public static BasicDmTxControllerBase GetDmTxController(string key, string name, string typeName, DmTxPropertiesConfig props)
{
// switch on type name... later...
typeName = typeName.ToLower();
//uint ipid = Convert.ToUInt16(props.Id, 16);
var ipid = props.Control.IpIdInt;
var pKey = props.ParentDeviceKey.ToLower();
if (pKey == "processor")
{
// Catch constructor failures, mainly dues to IPID
try
{
if(typeName.StartsWith("dmtx200"))
return new DmTx200Controller(key, name, new DmTx200C2G(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4kz100"))
return new DmTx4kz100Controller(key, name, new DmTx4kz100C1G(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx201c"))
return new DmTx201CController(key, name, new DmTx201C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx201s"))
return new DmTx201SController(key, name, new DmTx201S(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4k202"))
return new DmTx4k202CController(key, name, new DmTx4k202C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4kz202"))
return new DmTx4kz202CController(key, name, new DmTx4kz202C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4k302"))
return new DmTx4k302CController(key, name, new DmTx4k302C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4kz302"))
return new DmTx4kz302CController(key, name, new DmTx4kz302C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx401"))
return new DmTx401CController(key, name, new DmTx401C(ipid, Global.ControlSystem));
Debug.Console(0, "{1} WARNING: Cannot create DM-TX of type: '{0}'", typeName, key);
}
catch (Exception e)
{
Debug.Console(0, "[{0}] WARNING: Cannot create DM-TX device: {1}", key, e);
}
}
else
{
var parentDev = DeviceManager.GetDeviceForKey(pKey);
if (!(parentDev is IDmSwitch))
{
Debug.Console(0, "Cannot create DM device '{0}'. '{1}' is not a DM Chassis.",
key, pKey);
return null;
}
// Get the Crestron chassis and link stuff up
var switchDev = (parentDev as IDmSwitch);
var chassis = switchDev.Chassis;
var num = props.ParentInputNumber;
if (num <= 0 || num > chassis.NumberOfInputs)
{
Debug.Console(0, "Cannot create DM device '{0}'. Input number '{1}' is out of range",
key, num);
return null;
}
else
{
var controller = (parentDev as IDmSwitch);
controller.TxDictionary.Add(num, key);
}
// Catch constructor failures, mainly dues to IPID
try
{
// Must use different constructor for CPU3 chassis types. No IPID
if (chassis is DmMd8x8Cpu3 || chassis is DmMd16x16Cpu3 ||
chassis is DmMd32x32Cpu3 || chassis is DmMd8x8Cpu3rps ||
chassis is DmMd16x16Cpu3rps || chassis is DmMd32x32Cpu3rps||
chassis is DmMd128x128 || chassis is DmMd64x64)
{
if (typeName.StartsWith("dmtx200"))
return new DmTx200Controller(key, name, new DmTx200C2G(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx201c"))
return new DmTx201CController(key, name, new DmTx201C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx201s"))
return new DmTx201SController(key, name, new DmTx201S(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k100"))
return new DmTx4k100Controller(key, name, new DmTx4K100C1G(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz100"))
return new DmTx4kz100Controller(key, name, new DmTx4kz100C1G(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k202"))
return new DmTx4k202CController(key, name, new DmTx4k202C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz202"))
return new DmTx4kz202CController(key, name, new DmTx4kz202C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k302"))
return new DmTx4k302CController(key, name, new DmTx4k302C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz302"))
return new DmTx4kz302CController(key, name, new DmTx4kz302C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx401"))
return new DmTx401CController(key, name, new DmTx401C(chassis.Inputs[num]));
}
else
{
if (typeName.StartsWith("dmtx200"))
return new DmTx200Controller(key, name, new DmTx200C2G(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx201c"))
return new DmTx201CController(key, name, new DmTx201C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx201s"))
return new DmTx201SController(key, name, new DmTx201S(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k100"))
return new DmTx4k100Controller(key, name, new DmTx4K100C1G(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz100"))
return new DmTx4kz100Controller(key, name, new DmTx4kz100C1G(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k202"))
return new DmTx4k202CController(key, name, new DmTx4k202C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz202"))
return new DmTx4kz202CController(key, name, new DmTx4kz202C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k302"))
return new DmTx4k302CController(key, name, new DmTx4k302C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz302"))
return new DmTx4kz302CController(key, name, new DmTx4kz302C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx401"))
return new DmTx401CController(key, name, new DmTx401C(ipid, chassis.Inputs[num]));
}
}
catch (Exception e)
{
Debug.Console(0, "[{0}] WARNING: Cannot create DM-TX device: {1}", key, e);
}
}
return null;
}
}
public abstract class BasicDmTxControllerBase : CrestronGenericBridgeableBaseDevice
{
protected BasicDmTxControllerBase(string key, string name, GenericBase hardware)
: base(key, name, hardware)
{
}
}
/// <summary>
///
/// </summary>
[Description("Wrapper class for all DM-TX variants")]
public abstract class DmTxControllerBase : BasicDmTxControllerBase
{
public virtual void SetPortHdcpCapability(eHdcpCapabilityType hdcpMode, uint port) { }
public virtual eHdcpCapabilityType HdcpSupportCapability { get; protected set; }
public abstract StringFeedback ActiveVideoInputFeedback { get; protected set; }
public RoutingInputPortWithVideoStatuses AnyVideoInput { get; protected set; }
protected DmTxControllerBase(string key, string name, EndpointTransmitterBase hardware)
: base(key, name, hardware)
{
// if wired to a chassis, skip registration step in base class
if (hardware.DMInput != null)
{
this.PreventRegistration = true;
}
AddToFeedbackList(ActiveVideoInputFeedback);
}
protected DmTxControllerBase(string key, string name, DmHDBasedTEndPoint hardware) : base(key, name, hardware)
{
}
protected DmTxControllerJoinMap GetDmTxJoinMap(uint joinStart, string joinMapKey)
{
var joinMap = new DmTxControllerJoinMap(joinStart);
var joinMapSerialized = JoinMapHelper.GetSerializedJoinMapForDevice(joinMapKey);
if (!string.IsNullOrEmpty(joinMapSerialized))
joinMap = JsonConvert.DeserializeObject<DmTxControllerJoinMap>(joinMapSerialized);
return joinMap;
}
protected void LinkDmTxToApi(DmTxControllerBase tx, BasicTriList trilist, DmTxControllerJoinMap joinMap, EiscApiAdvanced bridge)
{
Debug.Console(1, tx, "Linking to Trilist '{0}'", trilist.ID.ToString("X"));
tx.IsOnline.LinkInputSig(trilist.BooleanInput[joinMap.IsOnline.JoinNumber]);
tx.AnyVideoInput.VideoStatus.VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.VideoSyncStatus.JoinNumber]);
tx.AnyVideoInput.VideoStatus.VideoResolutionFeedback.LinkInputSig(trilist.StringInput[joinMap.CurrentInputResolution.JoinNumber]);
trilist.UShortInput[joinMap.HdcpSupportCapability.JoinNumber].UShortValue = (ushort)tx.HdcpSupportCapability;
bool hdcpTypeSimple;
if (tx.Hardware is DmTx4kX02CBase)
hdcpTypeSimple = false;
else
hdcpTypeSimple = true;
if (tx is ITxRouting)
{
var txR = tx as ITxRouting;
trilist.SetUShortSigAction(joinMap.VideoInput.JoinNumber,
i => txR.ExecuteNumericSwitch(i, 0, eRoutingSignalType.Video));
trilist.SetUShortSigAction(joinMap.AudioInput.JoinNumber,
i => txR.ExecuteNumericSwitch(i, 0, eRoutingSignalType.Audio));
txR.VideoSourceNumericFeedback.LinkInputSig(trilist.UShortInput[joinMap.VideoInput.JoinNumber]);
txR.AudioSourceNumericFeedback.LinkInputSig(trilist.UShortInput[joinMap.AudioInput.JoinNumber]);
trilist.UShortInput[joinMap.HdcpSupportCapability.JoinNumber].UShortValue = (ushort)tx.HdcpSupportCapability;
if (txR.InputPorts[DmPortName.HdmiIn] != null)
{
var inputPort = txR.InputPorts[DmPortName.HdmiIn];
if (tx.Feedbacks["HdmiInHdcpCapability"] != null)
{
var intFeedback = tx.Feedbacks["HdmiInHdcpCapability"] as IntFeedback;
if (intFeedback != null)
intFeedback.LinkInputSig(trilist.UShortInput[joinMap.Port1HdcpState.JoinNumber]);
}
if (inputPort.ConnectionType == eRoutingPortConnectionType.Hdmi && inputPort.Port != null)
{
var port = inputPort.Port as EndpointHdmiInput;
SetHdcpCapabilityAction(hdcpTypeSimple, port, joinMap.Port1HdcpState.JoinNumber, trilist);
}
}
if (txR.InputPorts[DmPortName.HdmiIn1] != null)
{
var inputPort = txR.InputPorts[DmPortName.HdmiIn1];
if (tx.Feedbacks["HdmiIn1HdcpCapability"] != null)
{
var intFeedback = tx.Feedbacks["HdmiIn1HdcpCapability"] as IntFeedback;
if (intFeedback != null)
intFeedback.LinkInputSig(trilist.UShortInput[joinMap.Port1HdcpState.JoinNumber]);
}
if (inputPort.ConnectionType == eRoutingPortConnectionType.Hdmi && inputPort.Port != null)
{
var port = inputPort.Port as EndpointHdmiInput;
SetHdcpCapabilityAction(hdcpTypeSimple, port, joinMap.Port1HdcpState.JoinNumber, trilist);
}
}
if (txR.InputPorts[DmPortName.HdmiIn2] != null)
{
var inputPort = txR.InputPorts[DmPortName.HdmiIn2];
if (tx.Feedbacks["HdmiIn2HdcpCapability"] != null)
{
var intFeedback = tx.Feedbacks["HdmiIn2HdcpCapability"] as IntFeedback;
if (intFeedback != null)
intFeedback.LinkInputSig(trilist.UShortInput[joinMap.Port1HdcpState.JoinNumber]);
}
if (inputPort.ConnectionType == eRoutingPortConnectionType.Hdmi && inputPort.Port != null)
{
var port = inputPort.Port as EndpointHdmiInput;
SetHdcpCapabilityAction(hdcpTypeSimple, port, joinMap.Port2HdcpState.JoinNumber, trilist);
}
}
}
var txFreeRun = tx as IHasFreeRun;
if (txFreeRun != null)
{
txFreeRun.FreeRunEnabledFeedback.LinkInputSig(trilist.BooleanInput[joinMap.FreeRunEnabled.JoinNumber]);
trilist.SetBoolSigAction(joinMap.FreeRunEnabled.JoinNumber, txFreeRun.SetFreeRunEnabled);
}
var txVga = tx as IVgaBrightnessContrastControls;
{
if (txVga == null) return;
txVga.VgaBrightnessFeedback.LinkInputSig(trilist.UShortInput[joinMap.VgaBrightness.JoinNumber]);
txVga.VgaContrastFeedback.LinkInputSig(trilist.UShortInput[joinMap.VgaContrast.JoinNumber]);
trilist.SetUShortSigAction(joinMap.VgaBrightness.JoinNumber, txVga.SetVgaBrightness);
trilist.SetUShortSigAction(joinMap.VgaContrast.JoinNumber, txVga.SetVgaContrast);
}
}
private void SetHdcpCapabilityAction(bool hdcpTypeSimple, EndpointHdmiInput port, uint join, BasicTriList trilist)
{
if (hdcpTypeSimple)
{
trilist.SetUShortSigAction(join,
s =>
{
if (s == 0)
{
port.HdcpSupportOff();
}
else if (s > 0)
{
port.HdcpSupportOn();
}
});
}
else
{
trilist.SetUShortSigAction(join,
s =>
{
port.HdcpCapability = (eHdcpCapabilityType)s;
});
}
}
}
public class DmTxControllerFactory : EssentialsDeviceFactory<DmTxControllerBase>
{
public DmTxControllerFactory()
{
TypeNames = new List<string>() { "dmtx200c", "dmtx201c", "dmtx201s", "dmtx4k100c", "dmtx4k202c", "dmtx4kz202c", "dmtx4k302c", "dmtx4kz302c",
"dmtx401c", "dmtx401s", "dmtx4k100c1g", "dmtx4kz100c1g" };
}
public override EssentialsDevice BuildDevice(DeviceConfig dc)
{
var type = dc.Type.ToLower();
Debug.Console(1, "Factory Attempting to create new DM-TX Device");
var props = JsonConvert.DeserializeObject
<PepperDash.Essentials.DM.Config.DmTxPropertiesConfig>(dc.Properties.ToString());
return PepperDash.Essentials.DM.DmTxHelper.GetDmTxController(dc.Key, dc.Name, type, props);
}
}
}
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using Crestron.SimplSharp;
using Crestron.SimplSharpPro;
using Crestron.SimplSharpPro.DeviceSupport;
using Crestron.SimplSharpPro.DM;
using Crestron.SimplSharpPro.DM.Endpoints;
using Crestron.SimplSharpPro.DM.Endpoints.Transmitters;
using Newtonsoft.Json;
using PepperDash.Core;
using PepperDash.Essentials.Core;
using PepperDash.Essentials.Core.Bridges;
using PepperDash.Essentials.DM.Config;
using PepperDash.Essentials.Core.Config;
namespace PepperDash.Essentials.DM
{
public class DmTxHelper
{
/// <summary>
/// A factory method for various DmTxControllers
/// </summary>
/// <param name="key"></param>
/// <param name="name"></param>
/// <param name="props"></param>
/// <returns></returns>
public static BasicDmTxControllerBase GetDmTxController(string key, string name, string typeName, DmTxPropertiesConfig props)
{
// switch on type name... later...
typeName = typeName.ToLower();
//uint ipid = Convert.ToUInt16(props.Id, 16);
var ipid = props.Control.IpIdInt;
var pKey = props.ParentDeviceKey.ToLower();
if (pKey == "processor")
{
// Catch constructor failures, mainly dues to IPID
try
{
if(typeName.StartsWith("dmtx200"))
return new DmTx200Controller(key, name, new DmTx200C2G(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4kz100"))
return new DmTx4kz100Controller(key, name, new DmTx4kz100C1G(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx201c"))
return new DmTx201CController(key, name, new DmTx201C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx201s"))
return new DmTx201SController(key, name, new DmTx201S(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4k202"))
return new DmTx4k202CController(key, name, new DmTx4k202C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4kz202"))
return new DmTx4kz202CController(key, name, new DmTx4kz202C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4k302"))
return new DmTx4k302CController(key, name, new DmTx4k302C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx4kz302"))
return new DmTx4kz302CController(key, name, new DmTx4kz302C(ipid, Global.ControlSystem));
if (typeName.StartsWith("dmtx401"))
return new DmTx401CController(key, name, new DmTx401C(ipid, Global.ControlSystem));
Debug.Console(0, "{1} WARNING: Cannot create DM-TX of type: '{0}'", typeName, key);
}
catch (Exception e)
{
Debug.Console(0, "[{0}] WARNING: Cannot create DM-TX device: {1}", key, e);
}
}
else
{
var parentDev = DeviceManager.GetDeviceForKey(pKey);
if (!(parentDev is IDmSwitch))
{
Debug.Console(0, "Cannot create DM device '{0}'. '{1}' is not a DM Chassis.",
key, pKey);
return null;
}
// Get the Crestron chassis and link stuff up
var switchDev = (parentDev as IDmSwitch);
var chassis = switchDev.Chassis;
var num = props.ParentInputNumber;
if (num <= 0 || num > chassis.NumberOfInputs)
{
Debug.Console(0, "Cannot create DM device '{0}'. Input number '{1}' is out of range",
key, num);
return null;
}
else
{
var controller = (parentDev as IDmSwitch);
controller.TxDictionary.Add(num, key);
}
// Catch constructor failures, mainly dues to IPID
try
{
// Must use different constructor for CPU3 chassis types. No IPID
if (chassis is DmMd8x8Cpu3 || chassis is DmMd16x16Cpu3 ||
chassis is DmMd32x32Cpu3 || chassis is DmMd8x8Cpu3rps ||
chassis is DmMd16x16Cpu3rps || chassis is DmMd32x32Cpu3rps||
chassis is DmMd128x128 || chassis is DmMd64x64)
{
if (typeName.StartsWith("dmtx200"))
return new DmTx200Controller(key, name, new DmTx200C2G(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx201c"))
return new DmTx201CController(key, name, new DmTx201C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx201s"))
return new DmTx201SController(key, name, new DmTx201S(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k100"))
return new DmTx4k100Controller(key, name, new DmTx4K100C1G(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz100"))
return new DmTx4kz100Controller(key, name, new DmTx4kz100C1G(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k202"))
return new DmTx4k202CController(key, name, new DmTx4k202C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz202"))
return new DmTx4kz202CController(key, name, new DmTx4kz202C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k302"))
return new DmTx4k302CController(key, name, new DmTx4k302C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz302"))
return new DmTx4kz302CController(key, name, new DmTx4kz302C(chassis.Inputs[num]));
if (typeName.StartsWith("dmtx401"))
return new DmTx401CController(key, name, new DmTx401C(chassis.Inputs[num]));
}
else
{
if (typeName.StartsWith("dmtx200"))
return new DmTx200Controller(key, name, new DmTx200C2G(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx201c"))
return new DmTx201CController(key, name, new DmTx201C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx201s"))
return new DmTx201SController(key, name, new DmTx201S(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k100"))
return new DmTx4k100Controller(key, name, new DmTx4K100C1G(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz100"))
return new DmTx4kz100Controller(key, name, new DmTx4kz100C1G(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k202"))
return new DmTx4k202CController(key, name, new DmTx4k202C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz202"))
return new DmTx4kz202CController(key, name, new DmTx4kz202C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4k302"))
return new DmTx4k302CController(key, name, new DmTx4k302C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx4kz302"))
return new DmTx4kz302CController(key, name, new DmTx4kz302C(ipid, chassis.Inputs[num]));
if (typeName.StartsWith("dmtx401"))
return new DmTx401CController(key, name, new DmTx401C(ipid, chassis.Inputs[num]));
}
}
catch (Exception e)
{
Debug.Console(0, "[{0}] WARNING: Cannot create DM-TX device: {1}", key, e);
}
}
return null;
}
}
public abstract class BasicDmTxControllerBase : CrestronGenericBridgeableBaseDevice
{
protected BasicDmTxControllerBase(string key, string name, GenericBase hardware)
: base(key, name, hardware)
{
}
}
/// <summary>
///
/// </summary>
[Description("Wrapper class for all DM-TX variants")]
public abstract class DmTxControllerBase : BasicDmTxControllerBase
{
public virtual void SetPortHdcpCapability(eHdcpCapabilityType hdcpMode, uint port) { }
public virtual eHdcpCapabilityType HdcpSupportCapability { get; protected set; }
public abstract StringFeedback ActiveVideoInputFeedback { get; protected set; }
public RoutingInputPortWithVideoStatuses AnyVideoInput { get; protected set; }
protected DmTxControllerBase(string key, string name, EndpointTransmitterBase hardware)
: base(key, name, hardware)
{
// if wired to a chassis, skip registration step in base class
if (hardware.DMInput != null)
{
this.PreventRegistration = true;
}
AddToFeedbackList(ActiveVideoInputFeedback);
}
protected DmTxControllerBase(string key, string name, DmHDBasedTEndPoint hardware) : base(key, name, hardware)
{
}
protected DmTxControllerJoinMap GetDmTxJoinMap(uint joinStart, string joinMapKey)
{
var joinMap = new DmTxControllerJoinMap(joinStart);
var joinMapSerialized = JoinMapHelper.GetSerializedJoinMapForDevice(joinMapKey);
if (!string.IsNullOrEmpty(joinMapSerialized))
joinMap = JsonConvert.DeserializeObject<DmTxControllerJoinMap>(joinMapSerialized);
return joinMap;
}
protected void LinkDmTxToApi(DmTxControllerBase tx, BasicTriList trilist, DmTxControllerJoinMap joinMap, EiscApiAdvanced bridge)
{
Debug.Console(1, tx, "Linking to Trilist '{0}'", trilist.ID.ToString("X"));
tx.IsOnline.LinkInputSig(trilist.BooleanInput[joinMap.IsOnline.JoinNumber]);
tx.AnyVideoInput.VideoStatus.VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.VideoSyncStatus.JoinNumber]);
tx.AnyVideoInput.VideoStatus.VideoResolutionFeedback.LinkInputSig(trilist.StringInput[joinMap.CurrentInputResolution.JoinNumber]);
trilist.UShortInput[joinMap.HdcpSupportCapability.JoinNumber].UShortValue = (ushort)tx.HdcpSupportCapability;
bool hdcpTypeSimple;
if (tx.Hardware is DmTx4kX02CBase)
hdcpTypeSimple = false;
else
hdcpTypeSimple = true;
if (tx is ITxRouting)
{
var txR = tx as ITxRouting;
trilist.SetUShortSigAction(joinMap.VideoInput.JoinNumber,
i => txR.ExecuteNumericSwitch(i, 0, eRoutingSignalType.Video));
trilist.SetUShortSigAction(joinMap.AudioInput.JoinNumber,
i => txR.ExecuteNumericSwitch(i, 0, eRoutingSignalType.Audio));
txR.VideoSourceNumericFeedback.LinkInputSig(trilist.UShortInput[joinMap.VideoInput.JoinNumber]);
txR.AudioSourceNumericFeedback.LinkInputSig(trilist.UShortInput[joinMap.AudioInput.JoinNumber]);
trilist.UShortInput[joinMap.HdcpSupportCapability.JoinNumber].UShortValue = (ushort)tx.HdcpSupportCapability;
if (txR.InputPorts[DmPortName.HdmiIn] != null)
{
var inputPort = txR.InputPorts[DmPortName.HdmiIn];
if (tx.Feedbacks["HdmiInHdcpCapability"] != null)
{
var intFeedback = tx.Feedbacks["HdmiInHdcpCapability"] as IntFeedback;
if (intFeedback != null)
intFeedback.LinkInputSig(trilist.UShortInput[joinMap.Port1HdcpState.JoinNumber]);
}
if (inputPort.ConnectionType == eRoutingPortConnectionType.Hdmi && inputPort.Port != null)
{
var port = inputPort.Port as EndpointHdmiInput;
SetHdcpCapabilityAction(hdcpTypeSimple, port, joinMap.Port1HdcpState.JoinNumber, trilist);
}
}
if (txR.InputPorts[DmPortName.HdmiIn1] != null)
{
var inputPort = txR.InputPorts[DmPortName.HdmiIn1];
if (tx.Feedbacks["HdmiIn1HdcpCapability"] != null)
{
var intFeedback = tx.Feedbacks["HdmiIn1HdcpCapability"] as IntFeedback;
if (intFeedback != null)
intFeedback.LinkInputSig(trilist.UShortInput[joinMap.Port1HdcpState.JoinNumber]);
}
if (inputPort.ConnectionType == eRoutingPortConnectionType.Hdmi && inputPort.Port != null)
{
var port = inputPort.Port as EndpointHdmiInput;
SetHdcpCapabilityAction(hdcpTypeSimple, port, joinMap.Port1HdcpState.JoinNumber, trilist);
}
}
if (txR.InputPorts[DmPortName.HdmiIn2] != null)
{
var inputPort = txR.InputPorts[DmPortName.HdmiIn2];
if (tx.Feedbacks["HdmiIn2HdcpCapability"] != null)
{
var intFeedback = tx.Feedbacks["HdmiIn2HdcpCapability"] as IntFeedback;
if (intFeedback != null)
intFeedback.LinkInputSig(trilist.UShortInput[joinMap.Port1HdcpState.JoinNumber]);
}
if (inputPort.ConnectionType == eRoutingPortConnectionType.Hdmi && inputPort.Port != null)
{
var port = inputPort.Port as EndpointHdmiInput;
SetHdcpCapabilityAction(hdcpTypeSimple, port, joinMap.Port2HdcpState.JoinNumber, trilist);
}
}
}
var txFreeRun = tx as IHasFreeRun;
if (txFreeRun != null)
{
txFreeRun.FreeRunEnabledFeedback.LinkInputSig(trilist.BooleanInput[joinMap.FreeRunEnabled.JoinNumber]);
trilist.SetBoolSigAction(joinMap.FreeRunEnabled.JoinNumber, txFreeRun.SetFreeRunEnabled);
}
var txVga = tx as IVgaBrightnessContrastControls;
{
if (txVga == null) return;
txVga.VgaBrightnessFeedback.LinkInputSig(trilist.UShortInput[joinMap.VgaBrightness.JoinNumber]);
txVga.VgaContrastFeedback.LinkInputSig(trilist.UShortInput[joinMap.VgaContrast.JoinNumber]);
trilist.SetUShortSigAction(joinMap.VgaBrightness.JoinNumber, txVga.SetVgaBrightness);
trilist.SetUShortSigAction(joinMap.VgaContrast.JoinNumber, txVga.SetVgaContrast);
}
}
private void SetHdcpCapabilityAction(bool hdcpTypeSimple, EndpointHdmiInput port, uint join, BasicTriList trilist)
{
if (hdcpTypeSimple)
{
trilist.SetUShortSigAction(join,
s =>
{
if (s == 0)
{
port.HdcpSupportOff();
}
else if (s > 0)
{
port.HdcpSupportOn();
}
});
}
else
{
trilist.SetUShortSigAction(join,
s =>
{
port.HdcpCapability = (eHdcpCapabilityType)s;
});
}
}
}
public class DmTxControllerFactory : EssentialsDeviceFactory<DmTxControllerBase>
{
public DmTxControllerFactory()
{
TypeNames = new List<string>() { "dmtx200c", "dmtx201c", "dmtx201s", "dmtx4k100c", "dmtx4k202c", "dmtx4kz202c", "dmtx4k302c", "dmtx4kz302c",
"dmtx401c", "dmtx401s", "dmtx4k100c1g", "dmtx4kz100c1g" };
}
public override EssentialsDevice BuildDevice(DeviceConfig dc)
{
var type = dc.Type.ToLower();
Debug.Console(1, "Factory Attempting to create new DM-TX Device");
var props = JsonConvert.DeserializeObject
<PepperDash.Essentials.DM.Config.DmTxPropertiesConfig>(dc.Properties.ToString());
return PepperDash.Essentials.DM.DmTxHelper.GetDmTxController(dc.Key, dc.Name, type, props);
}
}
}