mirror of
https://github.com/PepperDash/Essentials.git
synced 2026-01-23 09:25:00 +00:00
288 lines
14 KiB
C#
288 lines
14 KiB
C#
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using System;
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using System.Collections.Generic;
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using System.Linq;
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using System.Text;
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using Crestron.SimplSharp;
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using Crestron.SimplSharpPro.DeviceSupport;
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using Crestron.SimplSharpPro.DM;
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using Crestron.SimplSharpPro.DM.Endpoints;
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using Crestron.SimplSharpPro.DM.Endpoints.Transmitters;
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using PepperDash.Core;
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using PepperDash.Essentials.Core;
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using PepperDash.Essentials.DM;
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using Newtonsoft.Json;
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namespace PepperDash.Essentials.Core.Bridges
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{
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public static class DmChassisControllerApiExtentions
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{
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public static void LinkToApi(this DmChassisController dmChassis, BasicTriList trilist, uint joinStart, string joinMapKey)
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{
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DmChassisControllerJoinMap joinMap = new DmChassisControllerJoinMap();
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var joinMapSerialized = JoinMapHelper.GetSerializedJoinMapForDevice(joinMapKey);
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if (!string.IsNullOrEmpty(joinMapSerialized))
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joinMap = JsonConvert.DeserializeObject<DmChassisControllerJoinMap>(joinMapSerialized);
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joinMap.OffsetJoinNumbers(joinStart);
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Debug.Console(1, dmChassis, "Linking to Trilist '{0}'", trilist.ID.ToString("X"));
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var chassis = dmChassis.Chassis as DmMDMnxn;
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dmChassis.IsOnline.LinkInputSig(trilist.BooleanInput[joinMap.IsOnline]);
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trilist.SetUShortSigAction(joinMap.SystemId, new Action<ushort>(o => chassis.SystemId.UShortValue = o));
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trilist.SetSigTrueAction(joinMap.SystemId, new Action(() => chassis.ApplySystemId()));
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dmChassis.SystemIdFeebdack.LinkInputSig(trilist.UShortInput[joinMap.SystemId]);
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dmChassis.SystemIdBusyFeedback.LinkInputSig(trilist.BooleanInput[joinMap.SystemId]);
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// Link up outputs
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for (uint i = 1; i <= dmChassis.Chassis.NumberOfOutputs; i++)
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{
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var ioSlot = i;
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// Control
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trilist.SetUShortSigAction(joinMap.OutputVideo + ioSlot, new Action<ushort>(o => dmChassis.ExecuteSwitch(o, ioSlot, eRoutingSignalType.Video)));
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trilist.SetUShortSigAction(joinMap.OutputAudio + ioSlot, new Action<ushort>(o => dmChassis.ExecuteSwitch(o, ioSlot, eRoutingSignalType.Audio)));
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trilist.SetUShortSigAction(joinMap.OutputUsb + ioSlot, new Action<ushort>(o => dmChassis.ExecuteSwitch(o, ioSlot, eRoutingSignalType.UsbOutput)));
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trilist.SetUShortSigAction(joinMap.InputUsb + ioSlot, new Action<ushort>(o => dmChassis.ExecuteSwitch(o, ioSlot, eRoutingSignalType.UsbInput)));
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if (dmChassis.TxDictionary.ContainsKey(ioSlot))
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{
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Debug.Console(2, "Creating Tx Feedbacks {0}", ioSlot);
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var txKey = dmChassis.TxDictionary[ioSlot];
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var basicTxDevice = DeviceManager.GetDeviceForKey(txKey) as BasicDmTxControllerBase;
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var advancedTxDevice = basicTxDevice as DmTxControllerBase;
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if (dmChassis.Chassis is DmMd8x8Cpu3 || dmChassis.Chassis is DmMd8x8Cpu3rps
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|| dmChassis.Chassis is DmMd16x16Cpu3 || dmChassis.Chassis is DmMd16x16Cpu3rps
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|| dmChassis.Chassis is DmMd32x32Cpu3 || dmChassis.Chassis is DmMd32x32Cpu3rps)
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{
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dmChassis.InputEndpointOnlineFeedbacks[ioSlot].LinkInputSig(trilist.BooleanInput[joinMap.InputEndpointOnline + ioSlot]);
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}
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else
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{
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if (advancedTxDevice != null)
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{
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advancedTxDevice.IsOnline.LinkInputSig(trilist.BooleanInput[joinMap.InputEndpointOnline + ioSlot]);
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Debug.Console(2, "Linking Tx Online Feedback from Advanced Transmitter at input {0}", ioSlot);
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}
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else if (dmChassis.InputEndpointOnlineFeedbacks[ioSlot] != null)
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{
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Debug.Console(2, "Linking Tx Online Feedback from Input Card {0}", ioSlot);
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dmChassis.InputEndpointOnlineFeedbacks[ioSlot].LinkInputSig(trilist.BooleanInput[joinMap.InputEndpointOnline + ioSlot]);
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}
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}
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if (basicTxDevice != null && advancedTxDevice == null)
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trilist.BooleanInput[joinMap.TxAdvancedIsPresent + ioSlot].BoolValue = true;
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if (advancedTxDevice != null)
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{
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advancedTxDevice.AnyVideoInput.VideoStatus.VideoSyncFeedback.LinkInputSig(trilist.BooleanInput[joinMap.VideoSyncStatus + ioSlot]);
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}
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else if(advancedTxDevice == null || basicTxDevice != null)
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{
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Debug.Console(1, "Setting up actions and feedbacks on input card {0}", ioSlot);
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dmChassis.VideoInputSyncFeedbacks[ioSlot].LinkInputSig(trilist.BooleanInput[joinMap.VideoSyncStatus + ioSlot]);
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var inputPort = dmChassis.InputPorts[string.Format("inputCard{0}--hdmiIn", ioSlot)];
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if (inputPort != null)
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{
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Debug.Console(1, "Port value for input card {0} is set", ioSlot);
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var port = inputPort.Port;
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if (port != null)
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{
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if (port is HdmiInputWithCEC)
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{
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Debug.Console(1, "Port is HdmiInputWithCec");
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var hdmiInPortWCec = port as HdmiInputWithCEC;
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if (hdmiInPortWCec.HdcpSupportedLevel != eHdcpSupportedLevel.Unknown)
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{
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SetHdcpStateAction(true, hdmiInPortWCec, joinMap.HdcpSupportState + ioSlot, trilist);
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}
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dmChassis.InputCardHdcpCapabilityFeedbacks[ioSlot].LinkInputSig(trilist.UShortInput[joinMap.HdcpSupportState + ioSlot]);
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if(dmChassis.InputCardHdcpCapabilityTypes.ContainsKey(ioSlot))
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trilist.UShortInput[joinMap.HdcpSupportCapability + ioSlot].UShortValue = (ushort)dmChassis.InputCardHdcpCapabilityTypes[ioSlot];
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else
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trilist.UShortInput[joinMap.HdcpSupportCapability + ioSlot].UShortValue = 1;
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}
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}
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}
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else
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{
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inputPort = dmChassis.InputPorts[string.Format("inputCard{0}--dmIn", ioSlot)];
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if(inputPort != null)
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{
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var port = inputPort.Port;
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if (port is DMInputPortWithCec)
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{
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Debug.Console(1, "Port is DMInputPortWithCec");
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var dmInPortWCec = port as DMInputPortWithCec;
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if (dmInPortWCec != null)
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{
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SetHdcpStateAction(dmChassis.PropertiesConfig.InputSlotSupportsHdcp2[ioSlot], dmInPortWCec, joinMap.HdcpSupportState + ioSlot, trilist);
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}
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dmChassis.InputCardHdcpCapabilityFeedbacks[ioSlot].LinkInputSig(trilist.UShortInput[joinMap.HdcpSupportState + ioSlot]);
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if (dmChassis.InputCardHdcpCapabilityTypes.ContainsKey(ioSlot))
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trilist.UShortInput[joinMap.HdcpSupportCapability + ioSlot].UShortValue = (ushort)dmChassis.InputCardHdcpCapabilityTypes[ioSlot];
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else
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trilist.UShortInput[joinMap.HdcpSupportCapability + ioSlot].UShortValue = 1;
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}
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}
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}
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}
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}
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else
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{
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dmChassis.VideoInputSyncFeedbacks[ioSlot].LinkInputSig(trilist.BooleanInput[joinMap.VideoSyncStatus + ioSlot]);
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var inputPort = dmChassis.InputPorts[string.Format("inputCard{0}--hdmiIn", ioSlot)];
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if (inputPort != null)
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{
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var hdmiPort = inputPort.Port as EndpointHdmiInput;
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if (hdmiPort != null)
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{
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SetHdcpStateAction(true, hdmiPort, joinMap.HdcpSupportState + ioSlot, trilist);
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dmChassis.InputCardHdcpCapabilityFeedbacks[ioSlot].LinkInputSig(trilist.UShortInput[joinMap.HdcpSupportState + ioSlot]);
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}
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}
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}
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if (dmChassis.RxDictionary.ContainsKey(ioSlot))
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{
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Debug.Console(2, "Creating Rx Feedbacks {0}", ioSlot);
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var rxKey = dmChassis.RxDictionary[ioSlot];
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var rxDevice = DeviceManager.GetDeviceForKey(rxKey) as DmRmcControllerBase;
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var hdBaseTDevice = DeviceManager.GetDeviceForKey(rxKey) as DmHdBaseTControllerBase;
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if (dmChassis.Chassis is DmMd8x8Cpu3 || dmChassis.Chassis is DmMd8x8Cpu3rps
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|| dmChassis.Chassis is DmMd16x16Cpu3 || dmChassis.Chassis is DmMd16x16Cpu3rps
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|| dmChassis.Chassis is DmMd32x32Cpu3 || dmChassis.Chassis is DmMd32x32Cpu3rps || hdBaseTDevice != null)
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{
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dmChassis.OutputEndpointOnlineFeedbacks[ioSlot].LinkInputSig(trilist.BooleanInput[joinMap.OutputEndpointOnline + ioSlot]);
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}
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else if (rxDevice != null)
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{
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rxDevice.IsOnline.LinkInputSig(trilist.BooleanInput[joinMap.OutputEndpointOnline + ioSlot]);
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}
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}
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// Feedback
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dmChassis.VideoOutputFeedbacks[ioSlot].LinkInputSig(trilist.UShortInput[joinMap.OutputVideo + ioSlot]);
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dmChassis.AudioOutputFeedbacks[ioSlot].LinkInputSig(trilist.UShortInput[joinMap.OutputAudio + ioSlot]);
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dmChassis.UsbOutputRoutedToFeebacks[ioSlot].LinkInputSig(trilist.UShortInput[joinMap.OutputUsb + ioSlot]);
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dmChassis.UsbInputRoutedToFeebacks[ioSlot].LinkInputSig(trilist.UShortInput[joinMap.InputUsb + ioSlot]);
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dmChassis.OutputNameFeedbacks[ioSlot].LinkInputSig(trilist.StringInput[joinMap.OutputNames + ioSlot]);
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dmChassis.InputNameFeedbacks[ioSlot].LinkInputSig(trilist.StringInput[joinMap.InputNames + ioSlot]);
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dmChassis.OutputVideoRouteNameFeedbacks[ioSlot].LinkInputSig(trilist.StringInput[joinMap.OutputCurrentVideoInputNames + ioSlot]);
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dmChassis.OutputAudioRouteNameFeedbacks[ioSlot].LinkInputSig(trilist.StringInput[joinMap.OutputCurrentAudioInputNames + ioSlot]);
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dmChassis.OutputDisabledByHdcpFeedbacks[ioSlot].LinkInputSig(trilist.BooleanInput[joinMap.OutputDisabledByHdcp + ioSlot]);
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}
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}
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static void SetHdcpStateAction(bool hdcpTypeSimple, HdmiInputWithCEC port, uint join, BasicTriList trilist)
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{
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if (hdcpTypeSimple)
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{
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trilist.SetUShortSigAction(join,
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new Action<ushort>(s =>
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{
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if (s == 0)
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{
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port.HdcpSupportOff();
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}
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else if (s > 0)
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{
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port.HdcpSupportOn();
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}
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}));
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}
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else
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{
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trilist.SetUShortSigAction(join,
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new Action<ushort>(u =>
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{
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port.HdcpReceiveCapability = (eHdcpCapabilityType)u;
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}));
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}
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}
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static void SetHdcpStateAction(bool hdcpTypeSimple, EndpointHdmiInput port, uint join, BasicTriList trilist)
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{
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if (hdcpTypeSimple)
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{
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trilist.SetUShortSigAction(join,
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new Action<ushort>(s =>
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{
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if (s == 0)
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{
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port.HdcpSupportOff();
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}
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else if (s > 0)
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{
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port.HdcpSupportOn();
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}
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}));
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}
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else
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{
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trilist.SetUShortSigAction(join,
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new Action<ushort>(u =>
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{
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port.HdcpCapability = (eHdcpCapabilityType)u;
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}));
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}
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}
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static void SetHdcpStateAction(bool supportsHdcp2, DMInputPortWithCec port, uint join, BasicTriList trilist)
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{
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if (!supportsHdcp2)
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{
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trilist.SetUShortSigAction(join,
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new Action<ushort>(s =>
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{
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if (s == 0)
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{
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port.HdcpSupportOff();
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}
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else if (s > 0)
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{
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port.HdcpSupportOn();
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}
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}));
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}
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else
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{
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trilist.SetUShortSigAction(join,
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new Action<ushort>(u =>
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{
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port.HdcpReceiveCapability = (eHdcpCapabilityType)u;
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}));
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}
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}
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}
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} |