//==========================================================================; // // THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY // KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A PARTICULAR // PURPOSE. // // Copyright (c) 1992 - 1996 Microsoft Corporation. All Rights Reserved. // //==========================================================================; // // This file handles all adapter property sets // #include "strmini.h" #include "ksmedia.h" #include "capmain.h" #include "capdebug.h" #ifdef TOSHIBA #include "bert.h" #endif//TOSHIBA #define DEFINE_MEDIUMS #include "mediums.h" #ifdef TOSHIBA ULONG get_AblFilter ( PHW_DEVICE_EXTENSION pHwDevExt ) { return( HW_ReadFilter( pHwDevExt, TRUE ) ); } ULONG get_filtering ( PHW_DEVICE_EXTENSION pHwDevExt ) { return( HW_ReadFilter( pHwDevExt, FALSE ) ); } VOID set_filtering ( PHW_DEVICE_EXTENSION pHwDevExt, BOOL bFlag ) { HW_SetFilter( pHwDevExt, bFlag ); } #endif//TOSHIBA // ------------------------------------------------------------------- // A few notes about property set handling // // Property sets used in TsbVcap are of two varieties, those that have // default values, ranges, and stepping, such as VideoProcAmp and CameraControl, // and those which don't have defaults and ranges, such as TVTuner and // Crossbar. // // Default values and stepping are established by tables in capprop.h, // no code is required to implement this other than initally creating the tables. // // Many of the property sets require the ability to modify a number // of input parameters. Since KS doesn't allow this inherently, you'll // note that some property sets require copying the provided input parameters // to the ouput parameter list, effectively creating a "read, modify, write" // capability. For this reason, the input and output parameter lists // use identical structures. // // On an SRB_GET_DEVICE_PROPERTY, read-only input data to the driver is provided as: // pSrb->CommandData.PropertyInfo // // ... while the output data pointer is: // pSrb->CommandData.PropertyInfo.PropertyInfo // // ------------------------------------------------------------------- #ifndef TOSHIBA // ------------------------------------------------------------------- // XBar pin definitions // ------------------------------------------------------------------- typedef struct _XBAR_PIN_DESCRIPTION { ULONG PinType; ULONG SynthImageCommand; // This driver simulates different inputs by synthesizing images ULONG RelatedPinIndex; const KSPIN_MEDIUM *Medium; // Describes hardware connectivity } XBAR_PIN_DESCRIPTION, *PXBAR_PIN_DESCRIPTION; XBAR_PIN_DESCRIPTION XBarInputPins[] = { // First list the video input pins, then the audio inputs, then the output pins // Note that audio pin index 6 is shared between two video inputs (index 1 and index 2) // PinType SynthImageCommand RelatedPinIndex Medium /*0*/ KS_PhysConn_Video_Tuner, IMAGE_XFER_NTSC_EIA_100AMP_100SAT, 5, &CrossbarMediums[0], /*1*/ KS_PhysConn_Video_Composite, IMAGE_XFER_NTSC_EIA_75AMP_100SAT, 6, &CrossbarMediums[1], /*2*/ KS_PhysConn_Video_SVideo, IMAGE_XFER_BLACK, 6, &CrossbarMediums[2], /*3*/ KS_PhysConn_Video_Tuner, IMAGE_XFER_WHITE, 7, &CrossbarMediums[3], /*4*/ KS_PhysConn_Video_Composite, IMAGE_XFER_GRAY_INCREASING, 8, &CrossbarMediums[4], /*5*/ KS_PhysConn_Audio_Tuner, 0, 0, &CrossbarMediums[5], /*6*/ KS_PhysConn_Audio_Line, 0, 1, &CrossbarMediums[6], /*7*/ KS_PhysConn_Audio_Tuner, 0, 3, &CrossbarMediums[7], /*8*/ KS_PhysConn_Audio_Line, 0, 4, &CrossbarMediums[8], }; #define NUMBER_OF_XBAR_INPUTS (SIZEOF_ARRAY (XBarInputPins)) XBAR_PIN_DESCRIPTION XBarOutputPins[] = { // PinType SynthImageCommand RelatedPinIndex /*0*/ KS_PhysConn_Video_VideoDecoder, 0, 1, &CrossbarMediums[9], /*1*/ KS_PhysConn_Audio_AudioDecoder, 0, 0, &CrossbarMediums[10], }; #define NUMBER_OF_XBAR_OUTPUTS (SIZEOF_ARRAY (XBarOutputPins)) #define NUMBER_OF_XBAR_PINS_TOTAL (NUMBER_OF_XBAR_INPUTS + NUMBER_OF_XBAR_OUTPUTS) // ------------------------------------------------------------------- // XBar Property Set functions // ------------------------------------------------------------------- /* ** AdapterSetCrossbarProperty () ** ** Handles Set operations on the Crossbar property set. ** TsbVcap uses this to select an image to synthesize. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetCrossbarProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property ULONG nS = pSPD->PropertyOutputSize; // size of data supplied switch (Id) { case KSPROPERTY_CROSSBAR_ROUTE: // W { PKSPROPERTY_CROSSBAR_ROUTE_S pRoute = (PKSPROPERTY_CROSSBAR_ROUTE_S)pSPD->PropertyInfo; ASSERT (nS >= sizeof (KSPROPERTY_CROSSBAR_ROUTE_S)); // Copy the input property info to the output property info RtlCopyMemory( pRoute, pSPD->Property, sizeof (KSPROPERTY_CROSSBAR_ROUTE_S)); // Default to failure pRoute->CanRoute = 0; // if video if (pRoute->IndexOutputPin == 0) { if (pRoute->IndexInputPin <= 4) { pHwDevExt->VideoInputConnected = pRoute->IndexInputPin; pRoute->CanRoute = 1; } } // if audio else if (pRoute->IndexOutputPin == 1) { // Special case! Audio Routing of (-1) means mute!!! if (pRoute->IndexInputPin == -1) { pHwDevExt->AudioInputConnected = pRoute->IndexInputPin; pRoute->CanRoute = 1; } else if (pRoute->IndexInputPin > 4 && pRoute->IndexInputPin <= 8) { pHwDevExt->AudioInputConnected = pRoute->IndexInputPin; pRoute->CanRoute = 1; } } // Somebody passed bogus data if (pRoute->CanRoute == 0) { pSrb->Status = STATUS_INVALID_PARAMETER; } } break; default: TRAP break; } } /* ** AdapterGetCrossbarProperty () ** ** Handles Get operations on the Crossbar property set. ** TsbVcap uses this to select an image to synthesize. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetCrossbarProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property ULONG nS = pSPD->PropertyOutputSize; // size of data supplied switch (Id) { case KSPROPERTY_CROSSBAR_CAPS: // R { PKSPROPERTY_CROSSBAR_CAPS_S pCaps = (PKSPROPERTY_CROSSBAR_CAPS_S)pSPD->PropertyInfo; if (nS < sizeof (KSPROPERTY_CROSSBAR_CAPS_S)) break; // Copy the input property info to the output property info RtlCopyMemory( pCaps, pSPD->Property, sizeof (KSPROPERTY_CROSSBAR_CAPS_S)); pCaps->NumberOfInputs = NUMBER_OF_XBAR_INPUTS; pCaps->NumberOfOutputs = NUMBER_OF_XBAR_OUTPUTS; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_CROSSBAR_CAPS_S); } break; case KSPROPERTY_CROSSBAR_CAN_ROUTE: // R { PKSPROPERTY_CROSSBAR_ROUTE_S pRoute = (PKSPROPERTY_CROSSBAR_ROUTE_S)pSPD->PropertyInfo; if (nS < sizeof (KSPROPERTY_CROSSBAR_ROUTE_S)) break; // Copy the input property info to the output property info RtlCopyMemory( pRoute, pSPD->Property, sizeof (KSPROPERTY_CROSSBAR_ROUTE_S)); // Special case, audio output routed to (-1) means mute if (pRoute->IndexOutputPin == 1 && pRoute->IndexInputPin == -1) { pRoute->CanRoute = TRUE; } else if ((pRoute->IndexInputPin >= NUMBER_OF_XBAR_INPUTS) || (pRoute->IndexOutputPin >= NUMBER_OF_XBAR_OUTPUTS)) { pRoute->CanRoute = FALSE; } else if ((pRoute->IndexInputPin <= 4) && (pRoute->IndexOutputPin == 0) || (pRoute->IndexInputPin >= 5) && (pRoute->IndexOutputPin == 1)) { // This driver allows any video input to connect to any video output // and any audio input to connect to any audio output pRoute->CanRoute = TRUE; } else { pRoute->CanRoute = FALSE; } pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_CROSSBAR_ROUTE_S); } break; case KSPROPERTY_CROSSBAR_PININFO: // R { PKSPROPERTY_CROSSBAR_PININFO_S pPinInfo = (PKSPROPERTY_CROSSBAR_PININFO_S)pSPD->PropertyInfo; if (nS < sizeof (KSPROPERTY_CROSSBAR_PININFO_S)) break; // Copy the input property info to the output property info RtlCopyMemory( pPinInfo, pSPD->Property, sizeof (KSPROPERTY_CROSSBAR_PININFO_S)); if (pPinInfo->Direction == KSPIN_DATAFLOW_IN) { ASSERT (pPinInfo->Index < NUMBER_OF_XBAR_INPUTS); pPinInfo->PinType = XBarInputPins[pPinInfo->Index].PinType; pPinInfo->RelatedPinIndex = XBarInputPins[pPinInfo->Index].RelatedPinIndex; pPinInfo->Medium = *XBarInputPins[pPinInfo->Index].Medium; } else { ASSERT (pPinInfo->Index < NUMBER_OF_XBAR_OUTPUTS); pPinInfo->PinType = XBarOutputPins[pPinInfo->Index].PinType; pPinInfo->RelatedPinIndex = XBarOutputPins[pPinInfo->Index].RelatedPinIndex; pPinInfo->Medium = *XBarOutputPins[pPinInfo->Index].Medium; } pPinInfo->Medium.Id = 0; // (ULONG) pHwDevExt; // Multiple instance support pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_CROSSBAR_PININFO_S); } break; case KSPROPERTY_CROSSBAR_ROUTE: // R { PKSPROPERTY_CROSSBAR_ROUTE_S pRoute = (PKSPROPERTY_CROSSBAR_ROUTE_S)pSPD->PropertyInfo; if (nS < sizeof (KSPROPERTY_CROSSBAR_ROUTE_S)) break; // Copy the input property info to the output property info RtlCopyMemory( pRoute, pSPD->Property, sizeof (KSPROPERTY_CROSSBAR_ROUTE_S)); // Sanity check if (pRoute->IndexOutputPin >= NUMBER_OF_XBAR_OUTPUTS) { pRoute->CanRoute = FALSE; } // querying the the video output pin else if (pRoute->IndexOutputPin == 0) { pRoute->IndexInputPin = pHwDevExt->VideoInputConnected; pRoute->CanRoute = TRUE; } // querying the the audio output pin else if (pRoute->IndexOutputPin == 1) { pRoute->IndexInputPin = pHwDevExt->AudioInputConnected; pRoute->CanRoute = TRUE; } pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_CROSSBAR_ROUTE_S); } break; default: TRAP break; } } // ------------------------------------------------------------------- // TVTuner Property Set functions // ------------------------------------------------------------------- /* ** AdapterSetTunerProperty () ** ** Handles Set operations on the TvTuner property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetTunerProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property ULONG nS = pSPD->PropertyOutputSize; // size of data supplied switch (Id) { case KSPROPERTY_TUNER_MODE: { PKSPROPERTY_TUNER_MODE_S pMode = (PKSPROPERTY_TUNER_MODE_S)pSPD->Property; ASSERT (pMode->Mode == KSPROPERTY_TUNER_MODE_TV); } break; case KSPROPERTY_TUNER_STANDARD: { PKSPROPERTY_TUNER_STANDARD_S pStandard_S = (PKSPROPERTY_TUNER_STANDARD_S) pSPD->Property; pHwDevExt->VideoStandard = pStandard_S->Standard; } break; case KSPROPERTY_TUNER_FREQUENCY: { PKSPROPERTY_TUNER_FREQUENCY_S pFreq_S = (PKSPROPERTY_TUNER_FREQUENCY_S) pSPD->Property; pHwDevExt->Frequency = pFreq_S->Frequency; } break; case KSPROPERTY_TUNER_INPUT: { PKSPROPERTY_TUNER_INPUT_S pInput_S = (PKSPROPERTY_TUNER_INPUT_S) pSPD->Property; pHwDevExt->TunerInput = pInput_S->InputIndex; } break; default: TRAP break; } } /* ** AdapterGetTunerProperty () ** ** Handles Get operations on the TvTuner property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetTunerProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property ULONG nS = pSPD->PropertyOutputSize; // size of data supplied PVOID pV = pSPD->PropertyInfo; // pointer to the output data ASSERT (nS >= sizeof (LONG)); switch (Id) { case KSPROPERTY_TUNER_CAPS: { PKSPROPERTY_TUNER_CAPS_S pCaps = (PKSPROPERTY_TUNER_CAPS_S)pSPD->Property; ASSERT (nS >= sizeof( KSPROPERTY_TUNER_CAPS_S ) ); // now work with the output buffer pCaps =(PKSPROPERTY_TUNER_CAPS_S)pV; pCaps->ModesSupported = KSPROPERTY_TUNER_MODE_TV; pCaps->VideoMedium = TVTunerMediums[0]; pCaps->VideoMedium.Id = 0; //(ULONG) pHwDevExt; // Multiple instance support pCaps->TVAudioMedium = TVTunerMediums[1]; pCaps->TVAudioMedium.Id = 0; //(ULONG) pHwDevExt; // Multiple instance support pCaps->RadioAudioMedium = TVTunerMediums[2]; // No separate radio audio pin? pCaps->RadioAudioMedium.Id = 0; //(ULONG) pHwDevExt; // Multiple instance support pSrb->ActualBytesTransferred = sizeof( KSPROPERTY_TUNER_CAPS_S ); } break; case KSPROPERTY_TUNER_MODE: { PKSPROPERTY_TUNER_MODE_S pMode = (PKSPROPERTY_TUNER_MODE_S)pSPD->Property; ASSERT (nS >= sizeof( KSPROPERTY_TUNER_MODE_S ) ); // now work with the output buffer pMode =(PKSPROPERTY_TUNER_MODE_S)pV; pMode->Mode = KSPROPERTY_TUNER_MODE_TV; pSrb->ActualBytesTransferred = sizeof( KSPROPERTY_TUNER_MODE_S); } break; case KSPROPERTY_TUNER_MODE_CAPS: { PKSPROPERTY_TUNER_MODE_CAPS_S pCaps = (PKSPROPERTY_TUNER_MODE_CAPS_S) pSPD->Property; ASSERT (nS >= sizeof (KSPROPERTY_TUNER_MODE_CAPS_S)); ASSERT (pCaps->Mode == KSPROPERTY_TUNER_MODE_TV); // now work with the output buffer pCaps = (PKSPROPERTY_TUNER_MODE_CAPS_S) pV; // // List the formats actually supported by this tuner // pCaps->StandardsSupported = KS_AnalogVideo_NTSC_M | KS_AnalogVideo_PAL_B | KS_AnalogVideo_PAL_D // | KS_AnalogVideo_PAL_H // | KS_AnalogVideo_PAL_I | KS_AnalogVideo_PAL_M | KS_AnalogVideo_PAL_N // | KS_AnalogVideo_SECAM_B // | KS_AnalogVideo_SECAM_D // | KS_AnalogVideo_SECAM_G // | KS_AnalogVideo_SECAM_H // | KS_AnalogVideo_SECAM_K // | KS_AnalogVideo_SECAM_K1 // | KS_AnalogVideo_SECAM_L ; // // Get the min and max frequencies supported // pCaps->MinFrequency = 55250000L; pCaps->MaxFrequency = 997250000L; // // What is the frequency step size? // pCaps->TuningGranularity = 62500L; // // How many inputs are on the tuner? // pCaps->NumberOfInputs = 1; // // What is the maximum settling time in milliseconds? // pCaps->SettlingTime = 100; // // Strategy defines how the tuner knows when it is in tune: // // KS_TUNER_STRATEGY_PLL (Has PLL offset information) // KS_TUNER_STRATEGY_SIGNAL_STRENGTH (has signal strength info) // KS_TUNER_STRATEGY_DRIVER_TUNES (driver handles all fine tuning) // pCaps->Strategy = KS_TUNER_STRATEGY_DRIVER_TUNES; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_TUNER_MODE_CAPS_S); } break; case KSPROPERTY_TUNER_STANDARD: { // What is the currently selected video standard? ((PKSPROPERTY_TUNER_STANDARD_S) pSPD->PropertyInfo)->Standard = pHwDevExt->VideoStandard; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_TUNER_STANDARD_S); } break; case KSPROPERTY_TUNER_INPUT: { // What is the currently selected input? ((PKSPROPERTY_TUNER_INPUT_S) pSPD->PropertyInfo)->InputIndex = pHwDevExt->TunerInput; pSrb->ActualBytesTransferred = sizeof (PKSPROPERTY_TUNER_INPUT_S); } break; case KSPROPERTY_TUNER_STATUS: // Return the status of the tuner // PLLOffset is in units of TuningGranularity // SignalStrength is 0 to 100 // Set Busy to 1 if tuning is still in process { PKSPROPERTY_TUNER_STATUS_S pStatus = (PKSPROPERTY_TUNER_STATUS_S) pSPD->PropertyInfo; ASSERT (nS >= sizeof (KSPROPERTY_TUNER_STATUS_S)); pStatus->CurrentFrequency = pHwDevExt->Frequency; pStatus->PLLOffset = 0; pStatus->SignalStrength = 100; pStatus->Busy = pHwDevExt->Busy; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_TUNER_STATUS_S); } break; default: TRAP break; } } #endif//TOSHIBA // ------------------------------------------------------------------- // VideoProcAmp functions // ------------------------------------------------------------------- /* ** AdapterSetVideoProcAmpProperty () ** ** Handles Set operations on the VideoProcAmp property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetVideoProcAmpProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property PKSPROPERTY_VIDEOPROCAMP_S pS = (PKSPROPERTY_VIDEOPROCAMP_S) pSPD->PropertyInfo; #ifdef TOSHIBA // '98-12-09 Added, for Bug-Report 253529 LONG MaxRange; LONG MinRange; #endif//TOSHIBA ASSERT (pSPD->PropertyInputSize >= sizeof (KSPROPERTY_VIDEOPROCAMP_S)); switch (Id) { case KSPROPERTY_VIDEOPROCAMP_BRIGHTNESS: #ifdef TOSHIBA // '98-12-09 Modified, for Bug-Report 253529 MaxRange = pHwDevExt->BrightnessRange.SignedMaximum; MinRange = pHwDevExt->BrightnessRange.SignedMinimum; if ( pS->Value < MinRange || pS->Value > MaxRange ) { pSrb->Status = STATUS_INVALID_PARAMETER; return; } #endif//TOSHIBA pHwDevExt->Brightness = pS->Value; pHwDevExt->BrightnessFlags = pS->Flags; break; case KSPROPERTY_VIDEOPROCAMP_CONTRAST: #ifdef TOSHIBA // '98-12-09 Modified, for Bug-Report 253529 MaxRange = pHwDevExt->ContrastRange.SignedMaximum; MinRange = pHwDevExt->ContrastRange.SignedMinimum; if ( pS->Value < MinRange || pS->Value > MaxRange ) { pSrb->Status = STATUS_INVALID_PARAMETER; return; } #endif//TOSHIBA pHwDevExt->Contrast = pS->Value; pHwDevExt->ContrastFlags = pS->Flags; break; #ifdef TOSHIBA case KSPROPERTY_VIDEOPROCAMP_HUE: #ifdef TOSHIBA // '98-12-09 Modified, for Bug-Report 253529 MaxRange = pHwDevExt->HueRange.SignedMaximum; MinRange = pHwDevExt->HueRange.SignedMinimum; if ( pS->Value < MinRange || pS->Value > MaxRange ) { pSrb->Status = STATUS_INVALID_PARAMETER; return; } #endif//TOSHIBA pHwDevExt->Hue = pS->Value; pHwDevExt->HueFlags = pS->Flags; break; case KSPROPERTY_VIDEOPROCAMP_SATURATION: #ifdef TOSHIBA // '98-12-09 Modified, for Bug-Report 253529 MaxRange = pHwDevExt->SaturationRange.SignedMaximum; MinRange = pHwDevExt->SaturationRange.SignedMinimum; if ( pS->Value < MinRange || pS->Value > MaxRange ) { pSrb->Status = STATUS_INVALID_PARAMETER; return; } #endif//TOSHIBA pHwDevExt->Saturation = pS->Value; pHwDevExt->SaturationFlags = pS->Flags; break; case KSPROPERTY_VIDEOPROCAMP_COLORENABLE: pHwDevExt->ColorEnable = pS->Value; pHwDevExt->ColorEnableFlags = pS->Flags; if ( pS->Value ) { if ( get_AblFilter( pHwDevExt ) ) { set_filtering( pHwDevExt, TRUE ); } else { set_filtering( pHwDevExt, FALSE ); pHwDevExt->ColorEnable = 0; } } else { set_filtering( pHwDevExt, FALSE ); } return; #else //TOSHIBA case KSPROPERTY_VIDEOPROCAMP_COLORENABLE: pHwDevExt->ColorEnable = pS->Value; pHwDevExt->ColorEnableFlags = pS->Flags; break; #endif//TOSHIBA #ifdef TOSHIBA default: return; } ImageSetHueBrightnessContrastSat(pHwDevExt); #else //TOSHIBA default: break; } #endif//TOSHIBA } /* ** AdapterGetVideoProcAmpProperty () ** ** Handles Get operations on the VideoProcAmp property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetVideoProcAmpProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property PKSPROPERTY_VIDEOPROCAMP_S pS = (PKSPROPERTY_VIDEOPROCAMP_S) pSPD->PropertyInfo; ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEOPROCAMP_S)); switch (Id) { #ifdef TOSHIBA case KSPROPERTY_VIDEOPROCAMP_BRIGHTNESS: pS->Value = pHwDevExt->Brightness; pS->Flags = pHwDevExt->BrightnessFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL; break; case KSPROPERTY_VIDEOPROCAMP_CONTRAST: pS->Value = pHwDevExt->Contrast; pS->Flags = pHwDevExt->ContrastFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL; break; case KSPROPERTY_VIDEOPROCAMP_HUE: pS->Value = pHwDevExt->Hue; pS->Flags = pHwDevExt->HueFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL; break; case KSPROPERTY_VIDEOPROCAMP_SATURATION: pS->Value = pHwDevExt->Saturation; pS->Flags = pHwDevExt->SaturationFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL; break; case KSPROPERTY_VIDEOPROCAMP_COLORENABLE: if ( get_AblFilter( pHwDevExt ) ) { if ( get_filtering( pHwDevExt ) ) { pHwDevExt->ColorEnable = 1; } else { pHwDevExt->ColorEnable = 0; } pHwDevExt->ColorEnableFlags = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL; pS->Value = pHwDevExt->ColorEnable; pS->Flags = pHwDevExt->ColorEnableFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL; } else { if ( pHwDevExt->ColorEnable ) { set_filtering( pHwDevExt, FALSE ); pHwDevExt->ColorEnable = 0; } pHwDevExt->ColorEnableFlags = KSPROPERTY_VIDEOPROCAMP_FLAGS_AUTO; pS->Value = pHwDevExt->ColorEnable; pS->Flags = pHwDevExt->ColorEnableFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_AUTO; } break; #else //TOSHIBA case KSPROPERTY_VIDEOPROCAMP_BRIGHTNESS: pS->Value = pHwDevExt->Brightness; pS->Flags = pHwDevExt->BrightnessFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL | KSPROPERTY_VIDEOPROCAMP_FLAGS_AUTO; break; case KSPROPERTY_VIDEOPROCAMP_CONTRAST: pS->Value = pHwDevExt->Contrast; pS->Flags = pHwDevExt->ContrastFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL | KSPROPERTY_VIDEOPROCAMP_FLAGS_AUTO; break; case KSPROPERTY_VIDEOPROCAMP_COLORENABLE: pS->Value = pHwDevExt->ColorEnable; pS->Flags = pHwDevExt->ColorEnableFlags; pS->Capabilities = KSPROPERTY_VIDEOPROCAMP_FLAGS_MANUAL; break; #endif//TOSHIBA default: break; } pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEOPROCAMP_S); } #ifndef TOSHIBA // ------------------------------------------------------------------- // CameraControl functions // ------------------------------------------------------------------- /* ** AdapterSetCameraControlProperty () ** ** Handles Set operations on the CameraControl property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetCameraControlProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property PKSPROPERTY_CAMERACONTROL_S pS = (PKSPROPERTY_CAMERACONTROL_S) pSPD->PropertyInfo; ASSERT (pSPD->PropertyInputSize >= sizeof (KSPROPERTY_CAMERACONTROL_S)); switch (Id) { case KSPROPERTY_CAMERACONTROL_ZOOM: pHwDevExt->Zoom = pS->Value; pHwDevExt->ZoomFlags = pS->Flags; break; case KSPROPERTY_CAMERACONTROL_FOCUS: pHwDevExt->Focus = pS->Value; pHwDevExt->FocusFlags = pS->Flags; break; default: break; } } /* ** AdapterGetCameraControlProperty () ** ** Handles Get operations on the CameraControl property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetCameraControlProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property PKSPROPERTY_CAMERACONTROL_S pS = (PKSPROPERTY_CAMERACONTROL_S) pSPD->PropertyInfo; // pointer to the output data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_CAMERACONTROL_S)); switch (Id) { case KSPROPERTY_CAMERACONTROL_ZOOM: pS->Value = pHwDevExt->Zoom; pS->Flags = pHwDevExt->ZoomFlags; pS->Capabilities = KSPROPERTY_CAMERACONTROL_FLAGS_MANUAL | KSPROPERTY_CAMERACONTROL_FLAGS_AUTO; break; case KSPROPERTY_CAMERACONTROL_FOCUS: pS->Value = pHwDevExt->Focus; pS->Flags = pHwDevExt->FocusFlags; pS->Capabilities = KSPROPERTY_CAMERACONTROL_FLAGS_MANUAL | KSPROPERTY_CAMERACONTROL_FLAGS_AUTO; break; default: break; } pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_CAMERACONTROL_S); } // ------------------------------------------------------------------- // TVAudio functions // ------------------------------------------------------------------- /* ** AdapterSetTVAudioProperty () ** ** Handles Set operations on the TVAudio property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetTVAudioProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property switch (Id) { case KSPROPERTY_TVAUDIO_MODE: { PKSPROPERTY_TVAUDIO_S pS = (PKSPROPERTY_TVAUDIO_S) pSPD->PropertyInfo; pHwDevExt->TVAudioMode = pS->Mode; } break; default: break; } } /* ** AdapterGetTVAudioProperty () ** ** Handles Get operations on the TVAudio property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetTVAudioProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property switch (Id) { case KSPROPERTY_TVAUDIO_CAPS: { PKSPROPERTY_TVAUDIO_CAPS_S pS = (PKSPROPERTY_TVAUDIO_CAPS_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_TVAUDIO_CAPS_S)); pS->InputMedium = TVAudioMediums[0]; pS->InputMedium.Id = 0; //(ULONG) pHwDevExt; // Multiple instance support pS->OutputMedium = TVAudioMediums[1]; pS->OutputMedium.Id = 0; //(ULONG) pHwDevExt; // Multiple instance support // Report all of the possible audio decoding modes the hardware is capabable of pS->Capabilities = KS_TVAUDIO_MODE_MONO | KS_TVAUDIO_MODE_STEREO | KS_TVAUDIO_MODE_LANG_A | KS_TVAUDIO_MODE_LANG_B ; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_TVAUDIO_CAPS_S); } break; case KSPROPERTY_TVAUDIO_MODE: { PKSPROPERTY_TVAUDIO_S pS = (PKSPROPERTY_TVAUDIO_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_TVAUDIO_S)); // Report the currently selected mode pS->Mode = pHwDevExt->TVAudioMode; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_TVAUDIO_S); } break; case KSPROPERTY_TVAUDIO_CURRENTLY_AVAILABLE_MODES: { PKSPROPERTY_TVAUDIO_S pS = (PKSPROPERTY_TVAUDIO_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_TVAUDIO_S)); // Report which audio modes could potentially be selected right now pS->Mode = KS_TVAUDIO_MODE_MONO | KS_TVAUDIO_MODE_STEREO | KS_TVAUDIO_MODE_LANG_A ; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_TVAUDIO_S); } break; default: break; } } // ------------------------------------------------------------------- // AnalogVideoDecoder functions // ------------------------------------------------------------------- /* ** AdapterSetAnalogVideoDecoderProperty () ** ** Handles Set operations on the AnalogVideoDecoder property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetAnalogVideoDecoderProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property PKSPROPERTY_VIDEODECODER_S pS = (PKSPROPERTY_VIDEODECODER_S) pSPD->PropertyInfo; ASSERT (pSPD->PropertyInputSize >= sizeof (KSPROPERTY_VIDEODECODER_S)); switch (Id) { case KSPROPERTY_VIDEODECODER_STANDARD: { pHwDevExt->VideoDecoderVideoStandard = pS->Value; } break; case KSPROPERTY_VIDEODECODER_OUTPUT_ENABLE: { pHwDevExt->VideoDecoderOutputEnable = pS->Value; } break; case KSPROPERTY_VIDEODECODER_VCR_TIMING: { pHwDevExt->VideoDecoderVCRTiming = pS->Value; } break; default: break; } } /* ** AdapterGetAnalogVideoDecoderProperty () ** ** Handles Get operations on the AnalogVideoDecoder property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetAnalogVideoDecoderProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property switch (Id) { case KSPROPERTY_VIDEODECODER_CAPS: { PKSPROPERTY_VIDEODECODER_CAPS_S pS = (PKSPROPERTY_VIDEODECODER_CAPS_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEODECODER_CAPS_S)); pS->StandardsSupported = KS_AnalogVideo_NTSC_M | KS_AnalogVideo_PAL_B | KS_AnalogVideo_PAL_D // | KS_AnalogVideo_PAL_H // | KS_AnalogVideo_PAL_I | KS_AnalogVideo_PAL_M | KS_AnalogVideo_PAL_N // | KS_AnalogVideo_SECAM_B // | KS_AnalogVideo_SECAM_D // | KS_AnalogVideo_SECAM_G // | KS_AnalogVideo_SECAM_H // | KS_AnalogVideo_SECAM_K // | KS_AnalogVideo_SECAM_K1 // | KS_AnalogVideo_SECAM_L ; pS->Capabilities = KS_VIDEODECODER_FLAGS_CAN_DISABLE_OUTPUT | KS_VIDEODECODER_FLAGS_CAN_USE_VCR_LOCKING | KS_VIDEODECODER_FLAGS_CAN_INDICATE_LOCKED ; pS->SettlingTime = 10; // How long to delay after tuning before // Locked indicator is valid pS->HSyncPerVSync = 6; // HSync per VSync pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEODECODER_CAPS_S); } break; case KSPROPERTY_VIDEODECODER_STANDARD: { PKSPROPERTY_VIDEODECODER_S pS = (PKSPROPERTY_VIDEODECODER_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEODECODER_S)); pS->Value = pHwDevExt->VideoDecoderVideoStandard; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEODECODER_S); } break; case KSPROPERTY_VIDEODECODER_STATUS: { PKSPROPERTY_VIDEODECODER_STATUS_S pS = (PKSPROPERTY_VIDEODECODER_STATUS_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEODECODER_STATUS_S)); pS->NumberOfLines = (pHwDevExt->VideoDecoderVideoStandard & KS_AnalogVideo_NTSC_Mask) ? 525 : 625; // Just to make things interesting, simulate that some channels aren't locked // In the US, these are channels 54 through 70 pS->SignalLocked = (pHwDevExt->Frequency < 400000000 || pHwDevExt->Frequency > 500000000); pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEODECODER_S); } break; case KSPROPERTY_VIDEODECODER_OUTPUT_ENABLE: { PKSPROPERTY_VIDEODECODER_S pS = (PKSPROPERTY_VIDEODECODER_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEODECODER_S)); pS->Value = pHwDevExt->VideoDecoderOutputEnable; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEODECODER_S); } break; case KSPROPERTY_VIDEODECODER_VCR_TIMING: { PKSPROPERTY_VIDEODECODER_S pS = (PKSPROPERTY_VIDEODECODER_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEODECODER_S)); pS->Value = pHwDevExt->VideoDecoderVCRTiming; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEODECODER_S); } break; default: break; } } #endif//TOSHIBA #ifndef TOSHIBA // '98-12-10 Deleted, for Bug-Report 253534 // ------------------------------------------------------------------- // VideoControl functions // ------------------------------------------------------------------- /* ** AdapterSetVideoControlProperty () ** ** Handles Set operations on the VideoControl property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetVideoControlProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property PKSPROPERTY_VIDEOCONTROL_MODE_S pS = (PKSPROPERTY_VIDEOCONTROL_MODE_S) pSPD->PropertyInfo; PSTREAMEX pStrmEx; ULONG StreamIndex; ULONG *pVideoControlMode; // For this property set, the StreamIndex is always in the same place // for each property StreamIndex = ((PKSPROPERTY_VIDEOCONTROL_CAPS_S) pSPD->Property)->StreamIndex; ASSERT (StreamIndex >= 0 && StreamIndex < MAX_TSBVCAP_STREAMS); // Verify the stream index is valid if (StreamIndex < 0 || StreamIndex >= MAX_TSBVCAP_STREAMS) { pSrb->Status = STATUS_INVALID_PARAMETER; return; } pStrmEx = (PSTREAMEX) pHwDevExt->pStrmEx[StreamIndex]; // If the stream is not opened when this property set is used, // store the values in the HwDevExt if (pStrmEx) { pVideoControlMode = &pStrmEx->VideoControlMode; } else { pVideoControlMode = &pHwDevExt->VideoControlMode; } ASSERT (pSPD->PropertyInputSize >= sizeof (KSPROPERTY_VIDEOCONTROL_MODE_S)); switch (Id) { case KSPROPERTY_VIDEOCONTROL_MODE: { *pVideoControlMode = pS->Mode; } break; default: break; } } /* ** AdapterGetVideoControlProperty () ** ** Handles Get operations on the VideoControl property set. ** TsbVcap uses this for demo purposes only. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetVideoControlProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property PSTREAMEX pStrmEx; ULONG StreamIndex; ULONG *pVideoControlMode; // For this property set, the StreamIndex is always in the same place // for each property StreamIndex = ((PKSPROPERTY_VIDEOCONTROL_CAPS_S) pSPD->Property)->StreamIndex; ASSERT (StreamIndex >= 0 && StreamIndex < MAX_TSBVCAP_STREAMS); // Verify the stream index is valid if (StreamIndex < 0 || StreamIndex >= MAX_TSBVCAP_STREAMS) { pSrb->Status = STATUS_INVALID_PARAMETER; return; } pStrmEx = (PSTREAMEX) pHwDevExt->pStrmEx[StreamIndex]; // If the stream is not opened when this property set is used, // store the values in the HwDevExt if (pStrmEx) { pVideoControlMode = &pStrmEx->VideoControlMode; } else { pVideoControlMode = &pHwDevExt->VideoControlMode; } switch (Id) { case KSPROPERTY_VIDEOCONTROL_CAPS: { PKSPROPERTY_VIDEOCONTROL_CAPS_S pS = (PKSPROPERTY_VIDEOCONTROL_CAPS_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEOCONTROL_CAPS_S)); pS->VideoControlCaps = KS_VideoControlFlag_FlipHorizontal // | KS_VideoControlFlag_FlipVertical // | KS_VideoControlFlag_ExternalTriggerEnable // | KS_VideoControlFlag_Trigger ; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEOCONTROL_CAPS_S); } break; case KSPROPERTY_VIDEOCONTROL_ACTUAL_FRAME_RATE: { PKSPROPERTY_VIDEOCONTROL_ACTUAL_FRAME_RATE_S pS = (PKSPROPERTY_VIDEOCONTROL_ACTUAL_FRAME_RATE_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEOCONTROL_ACTUAL_FRAME_RATE_S)); pS->CurrentActualFrameRate = 15; // TODO: Why is this a fixed value? Is it not reprogrammable? pS->CurrentMaxAvailableFrameRate = 15; // TODO: Why is this a fixed value? Is it not reprogrammable? pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEOCONTROL_ACTUAL_FRAME_RATE_S); } break; case KSPROPERTY_VIDEOCONTROL_FRAME_RATES: { // todo } break; case KSPROPERTY_VIDEOCONTROL_MODE: { PKSPROPERTY_VIDEOCONTROL_MODE_S pS = (PKSPROPERTY_VIDEOCONTROL_MODE_S) pSPD->PropertyInfo; // pointer to the data ASSERT (pSPD->PropertyOutputSize >= sizeof (KSPROPERTY_VIDEOCONTROL_MODE_S)); pS->Mode = *pVideoControlMode; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEOCONTROL_MODE_S); } break; default: break; } } /* ** AdapterGetVideoCompressionProperty() ** ** Gets compressor settings ** ** Arguments: ** ** pSrb - pointer to the stream request block for properties ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetVideoCompressionProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAMEX pStrmEx; PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; ULONG Id = pSPD->Property->Id; // index of the property ULONG StreamIndex; PCOMPRESSION_SETTINGS pCompressionSettings; // For this property set, the StreamIndex is always in the same place // for each property StreamIndex = ((PKSPROPERTY_VIDEOCOMPRESSION_S) pSPD->Property)->StreamIndex; ASSERT (StreamIndex >= 0 && StreamIndex < MAX_TSBVCAP_STREAMS); // Verify the stream index is valid if (StreamIndex < 0 || StreamIndex >= MAX_TSBVCAP_STREAMS) { pSrb->Status = STATUS_INVALID_PARAMETER; return; } pStrmEx = (PSTREAMEX) pHwDevExt->pStrmEx[StreamIndex]; // If the stream is not opened when this property set is used, // store the values in the HwDevExt if (pStrmEx) { pCompressionSettings = &pStrmEx->CompressionSettings; } else { pCompressionSettings = &pHwDevExt->CompressionSettings; } switch (Id) { case KSPROPERTY_VIDEOCOMPRESSION_GETINFO: { PKSPROPERTY_VIDEOCOMPRESSION_GETINFO_S pS = (PKSPROPERTY_VIDEOCOMPRESSION_GETINFO_S) pSPD->PropertyInfo; pS->DefaultKeyFrameRate = 15; // Key frame rate pS->DefaultPFrameRate = 3; // Predeicted frames per Key frame pS->DefaultQuality = 5000; // 0 to 10000 pS->Capabilities = KS_CompressionCaps_CanQuality | KS_CompressionCaps_CanKeyFrame | KS_CompressionCaps_CanBFrame ; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEOCOMPRESSION_GETINFO_S); } break; case KSPROPERTY_VIDEOCOMPRESSION_KEYFRAME_RATE: { PKSPROPERTY_VIDEOCOMPRESSION_S pS = (PKSPROPERTY_VIDEOCOMPRESSION_S) pSPD->PropertyInfo; pS->Value = pCompressionSettings->CompressionKeyFrameRate; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEOCOMPRESSION_S); } break; case KSPROPERTY_VIDEOCOMPRESSION_PFRAMES_PER_KEYFRAME: { PKSPROPERTY_VIDEOCOMPRESSION_S pS = (PKSPROPERTY_VIDEOCOMPRESSION_S) pSPD->PropertyInfo; pS->Value = pCompressionSettings->CompressionPFramesPerKeyFrame; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEOCOMPRESSION_S); } break; case KSPROPERTY_VIDEOCOMPRESSION_QUALITY: { PKSPROPERTY_VIDEOCOMPRESSION_S pS = (PKSPROPERTY_VIDEOCOMPRESSION_S) pSPD->PropertyInfo; pS->Value = pCompressionSettings->CompressionQuality; pSrb->ActualBytesTransferred = sizeof (KSPROPERTY_VIDEOCOMPRESSION_S); } break; default: break; } } /* ** AdapterSetVideoCompressionProperty() ** ** Sets compressor settings ** ** Arguments: ** ** pSrb - pointer to the stream request block for properties ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetVideoCompressionProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PHW_DEVICE_EXTENSION pHwDevExt = ((PHW_DEVICE_EXTENSION)pSrb->HwDeviceExtension); PSTREAMEX pStrmEx; PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; PKSPROPERTY_VIDEOCOMPRESSION_S pS = (PKSPROPERTY_VIDEOCOMPRESSION_S) pSPD->Property; ULONG Id = pSPD->Property->Id; // index of the property ULONG StreamIndex; PCOMPRESSION_SETTINGS pCompressionSettings; // For this property set, the StreamIndex is always in the same place // for each property StreamIndex = ((PKSPROPERTY_VIDEOCOMPRESSION_S) pSPD->Property)->StreamIndex; ASSERT (StreamIndex >= 0 && StreamIndex < MAX_TSBVCAP_STREAMS); // Verify the stream index is valid if (StreamIndex < 0 || StreamIndex >= MAX_TSBVCAP_STREAMS) { pSrb->Status = STATUS_INVALID_PARAMETER; return; } pStrmEx = (PSTREAMEX) pHwDevExt->pStrmEx[StreamIndex]; // If the stream is not opened when this property set is used, // store the values in the HwDevExt if (pStrmEx) { pCompressionSettings = &pStrmEx->CompressionSettings; } else { pCompressionSettings = &pHwDevExt->CompressionSettings; } switch (Id) { case KSPROPERTY_VIDEOCOMPRESSION_KEYFRAME_RATE: { pCompressionSettings->CompressionKeyFrameRate = pS->Value; } break; case KSPROPERTY_VIDEOCOMPRESSION_PFRAMES_PER_KEYFRAME: { pCompressionSettings->CompressionPFramesPerKeyFrame = pS->Value; } break; case KSPROPERTY_VIDEOCOMPRESSION_QUALITY: { pCompressionSettings->CompressionQuality = pS->Value; } break; default: break; } } #endif//TOSHIBA // ------------------------------------------------------------------- // General entry point for all get/set adapter properties // ------------------------------------------------------------------- /* ** AdapterSetProperty () ** ** Handles Set operations for all adapter properties. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterSetProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; #ifdef TOSHIBA if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEOPROCAMP, &pSPD->Property->Set)) { AdapterSetVideoProcAmpProperty (pSrb); } #else //TOSHIBA // '98-12-10 Moved, for Bug-Report 253534 else if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEOCONTROL, &pSPD->Property->Set)) { AdapterSetVideoControlProperty (pSrb); } else if (IsEqualGUID (&PROPSETID_VIDCAP_VIDEOCOMPRESSION, &pSPD->Property->Set)) { AdapterSetVideoCompressionProperty (pSrb); } //#else //TOSHIBA '98-12-10 Moved, for Bug-Report 253534 if (IsEqualGUID(&PROPSETID_VIDCAP_CROSSBAR, &pSPD->Property->Set)) { AdapterSetCrossbarProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_TUNER, &pSPD->Property->Set)) { AdapterSetTunerProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEOPROCAMP, &pSPD->Property->Set)) { AdapterSetVideoProcAmpProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_CAMERACONTROL, &pSPD->Property->Set)) { AdapterSetCameraControlProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_TVAUDIO, &pSPD->Property->Set)) { AdapterSetTVAudioProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEODECODER, &pSPD->Property->Set)) { AdapterSetAnalogVideoDecoderProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEOCONTROL, &pSPD->Property->Set)) { AdapterSetVideoControlProperty (pSrb); } else if (IsEqualGUID (&PROPSETID_VIDCAP_VIDEOCOMPRESSION, &pSPD->Property->Set)) { AdapterSetVideoCompressionProperty (pSrb); } #endif//TOSHIBA else { // // We should never get here // pSrb->Status = STATUS_NOT_IMPLEMENTED; } } /* ** AdapterGetProperty () ** ** Handles Get operations for all adapter properties. ** ** Arguments: ** ** pSRB - ** Pointer to the HW_STREAM_REQUEST_BLOCK ** ** Returns: ** ** Side Effects: none */ VOID STREAMAPI AdapterGetProperty( PHW_STREAM_REQUEST_BLOCK pSrb ) { PSTREAM_PROPERTY_DESCRIPTOR pSPD = pSrb->CommandData.PropertyInfo; #ifdef TOSHIBA if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEOPROCAMP, &pSPD->Property->Set)) { AdapterGetVideoProcAmpProperty (pSrb); } #else //TOSHIBA // '98-12-10 Moved, for Bug-Report 253534 else if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEOCONTROL, &pSPD->Property->Set)) { AdapterGetVideoControlProperty (pSrb); } else if (IsEqualGUID (&PROPSETID_VIDCAP_VIDEOCOMPRESSION, &pSPD->Property->Set)) { AdapterGetVideoCompressionProperty (pSrb); } //#else //TOSHIBA '98-12-10 Moved, for Bug-Report 253534 if (IsEqualGUID (&PROPSETID_VIDCAP_CROSSBAR, &pSPD->Property->Set)) { AdapterGetCrossbarProperty (pSrb); } else if (IsEqualGUID (&PROPSETID_TUNER, &pSPD->Property->Set)) { AdapterGetTunerProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEOPROCAMP, &pSPD->Property->Set)) { AdapterGetVideoProcAmpProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_CAMERACONTROL, &pSPD->Property->Set)) { AdapterGetCameraControlProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_TVAUDIO, &pSPD->Property->Set)) { AdapterGetTVAudioProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEODECODER, &pSPD->Property->Set)) { AdapterGetAnalogVideoDecoderProperty (pSrb); } else if (IsEqualGUID(&PROPSETID_VIDCAP_VIDEOCONTROL, &pSPD->Property->Set)) { AdapterGetVideoControlProperty (pSrb); } else if (IsEqualGUID (&PROPSETID_VIDCAP_VIDEOCOMPRESSION, &pSPD->Property->Set)) { AdapterGetVideoCompressionProperty (pSrb); } #endif//TOSHIBA else { // // We should never get here // pSrb->Status = STATUS_NOT_IMPLEMENTED; } }