+++ /dev/null
-/*
- $Id: BlueDriver_p.h,v 1.62.2.16 2011/10/26 05:33:18 tim Exp $
-*/
-#pragma once
-#define _BLUEDRIVER_P_H__
-#define BLUE_UINT32 unsigned int
-#define BLUE_INT32 int
-#define BLUE_UINT8 unsigned char
-#define BLUE_INT8 char
-#define BLUE_UINT16 unsigned short
-#define BLUE_INT16 short
-#pragma once
-#ifdef BLUE_LINUX_CODE
-#define BLUE_UINT64 unsigned long long
-//#include <asm/types.h>
-#else
-#define BLUE_UINT64 unsigned __int64
-#endif
-
-//#define ORAC_FILMPOST_FIRMWARE_PRODUCTID (0x1)
-//#define ORAC_BROADCAST_FIRMWARE_PRODUCTID (0x2)
-//#define ORAC_ASI_FIRMWARE_PRODUCTID (0x3)
-//#define ORAC_4SDIINPUT_FIRMWARE_PRODUCTID (0x4)
-//#define ORAC_4SDIOUTPUT_FIRMWARE_PRODUCTID (0x5)
-
-
-
-/**
- * This contains the enumerators that can be used to set the cards \n
- * video output and also to determine the video mode of the incoming \n
- * video signal.
- */
-typedef enum _EVideoMode
-{
- VID_FMT_PAL=0,
- VID_FMT_NTSC=1,
- VID_FMT_576I_5000=0, /**< 720 x 576 50 Interlaced */
- VID_FMT_486I_5994=1, /**< 720 x 486 60/1.001 Interlaced */
- VID_FMT_720P_5994, /**< 1280 x 720 60/1.001 Progressive */
- VID_FMT_720P_6000, /**< 1280 x 720 60 Progressive */
- VID_FMT_1080PSF_2397, /**< 1920 x 1080 24/1.001 Segment Frame */
- VID_FMT_1080PSF_2400, /**< 1920 x 1080 24 Segment Frame */
- VID_FMT_1080P_2397, /**< 1920 x 1080 24/1.001 Progressive */
- VID_FMT_1080P_2400, /**< 1920 x 1080 24 Progressive */
- VID_FMT_1080I_5000, /**< 1920 x 1080 50 Interlaced */
- VID_FMT_1080I_5994, /**< 1920 x 1080 60/1.001 Interlaced */
- VID_FMT_1080I_6000, /**< 1920 x 1080 60 Interlaced */
- VID_FMT_1080P_2500, /**< 1920 x 1080 25 Progressive */
- VID_FMT_1080P_2997, /**< 1920 x 1080 30/1.001 Progressive */
- VID_FMT_1080P_3000, /**< 1920 x 1080 30 Progressive */
- VID_FMT_HSDL_1498, /**< 2048 x 1556 15/1.0 Segment Frame */
- VID_FMT_HSDL_1500, /**< 2048 x 1556 15 Segment Frame */
- VID_FMT_720P_5000, /**< 1280 x 720 50 Progressive */
- VID_FMT_720P_2398, /**< 1280 x 720 24/1.001 Progressive */
- VID_FMT_720P_2400, /**< 1280 x 720 24 Progressive */
- VID_FMT_2048_1080PSF_2397=19, /**< 2048 x 1080 24/1.001 Segment Frame */
- VID_FMT_2048_1080PSF_2400=20, /**< 2048 x 1080 24 Segment Frame */
- VID_FMT_2048_1080P_2397=21, /**< 2048 x 1080 24/1.001 progressive */
- VID_FMT_2048_1080P_2400=22, /**< 2048 x 1080 24 progressive */
- VID_FMT_1080PSF_2500=23,
- VID_FMT_1080PSF_2997=24,
- VID_FMT_1080PSF_3000=25,
- VID_FMT_1080P_5000=26,
- VID_FMT_1080P_5994=27,
- VID_FMT_1080P_6000=28,
- VID_FMT_720P_2500=29,
- VID_FMT_720P_2997=30,
- VID_FMT_720P_3000=31,
- VID_FMT_DVB_ASI=32,
- VID_FMT_2048_1080PSF_2500=33,
- VID_FMT_2048_1080PSF_2997=34,
- VID_FMT_2048_1080PSF_3000=35,
- VID_FMT_2048_1080P_2500=36,
- VID_FMT_2048_1080P_2997=37,
- VID_FMT_2048_1080P_3000=38,
- VID_FMT_2048_1080P_5000=39,
- VID_FMT_2048_1080P_5994=40,
- VID_FMT_2048_1080P_6000=41,
- VID_FMT_INVALID=42
-} EVideoMode;
-
-/**
-@brief Use these enumerators to set the pixel format
- that should be used by the video input and output
- framestores.
-*/
-typedef enum _EMemoryFormat
-{
- MEM_FMT_ARGB=0, /**< ARGB 4:4:4:4 */
- MEM_FMT_BV10=1,
- MEM_FMT_BV8=2,
- MEM_FMT_YUVS=MEM_FMT_BV8,
- MEM_FMT_V210=3, // Iridium HD (BAG1)
- MEM_FMT_RGBA=4,
- MEM_FMT_CINEON_LITTLE_ENDIAN=5,
- MEM_FMT_ARGB_PC=6,
- MEM_FMT_BGRA=MEM_FMT_ARGB_PC,
- MEM_FMT_CINEON=7,
- MEM_FMT_2VUY=8,
- MEM_FMT_BGR=9,
- MEM_FMT_BGR_16_16_16=10,
- MEM_FMT_BGRA_16_16_16_16=11,
- MEM_FMT_VUYA_4444=12,
- MEM_FMT_V216=13,
- MEM_FMT_Y210=14,
- MEM_FMT_Y216=15,
- MEM_FMT_INVALID=16
-} EMemoryFormat;
-
-/**
-@brief Used to control the video update type,
- whether the card should capture/playback a
- video frame or field.
-*/
-typedef enum _EUpdateMethod
-{
- UPD_FMT_FIELD=0,
- UPD_FMT_FRAME,
- UPD_FMT_FRAME_DISPLAY_FIELD1,
- UPD_FMT_FRAME_DISPLAY_FIELD2,
- UPD_FMT_INVALID,
- UPD_FMT_FLAG_RETURN_CURRENT_UNIQUEID=0x80000000,/**< if this flag is used on epoch cards, function would
- return the unique id of the current frame as the return value.*/
-} EUpdateMethod;
-
-typedef enum _EResoFormat
-{
- RES_FMT_NORMAL=0,
- RES_FMT_HALF,
- RES_FMT_INVALID
-} EResoFormat;
-
-typedef enum _ECardType
-{
- CRD_BLUEDEEP_LT=0, // D64 Lite
- CRD_BLUEDEEP_SD, // Iridium SD
- CRD_BLUEDEEP_AV, // Iridium AV
- CRD_BLUEDEEP_IO, // D64 Full
- CRD_BLUEWILD_AV, // D64 AV
- CRD_IRIDIUM_HD, // * Iridium HD
- CRD_BLUEWILD_RT, // D64 RT
- CRD_BLUEWILD_HD, // * BadAss G2
- CRD_REDDEVIL, // Iridium Full
- CRD_BLUEDEEP_HD, // * BadAss G2 variant, proposed, reserved
- CRD_BLUE_EPOCH_2K = CRD_BLUEDEEP_HD,
- CRD_BLUE_EPOCH_2K_HORIZON=CRD_BLUE_EPOCH_2K,
- CRD_BLUEDEEP_HDS, // * BadAss G2 variant, proposed, reserved
- CRD_BLUE_ENVY, // Mini Din
- CRD_BLUE_PRIDE, //Mini Din Output
- CRD_BLUE_GREED,
- CRD_BLUE_INGEST,
- CRD_BLUE_SD_DUALLINK,
- CRD_BLUE_CATALYST,
- CRD_BLUE_SD_DUALLINK_PRO,
- CRD_BLUE_SD_INGEST_PRO,
- CRD_BLUE_SD_DEEPBLUE_LITE_PRO,
- CRD_BLUE_SD_SINGLELINK_PRO,
- CRD_BLUE_SD_IRIDIUM_AV_PRO,
- CRD_BLUE_SD_FIDELITY,
- CRD_BLUE_SD_FOCUS,
- CRD_BLUE_SD_PRIME,
- CRD_BLUE_EPOCH_2K_CORE,
- CRD_BLUE_EPOCH_2K_ULTRA,
- CRD_BLUE_EPOCH_HORIZON,
- CRD_BLUE_EPOCH_CORE,
- CRD_BLUE_EPOCH_ULTRA,
- CRD_BLUE_CREATE_HD,
- CRD_BLUE_CREATE_2K,
- CRD_BLUE_CREATE_2K_ULTRA,
- CRD_BLUE_CREATE_3D = CRD_BLUE_CREATE_2K,
- CRD_BLUE_CREATE_3D_ULTRA = CRD_BLUE_CREATE_2K_ULTRA,
- CRD_BLUE_SUPER_NOVA,
- CRD_INVALID
-} ECardType;
-
-
-typedef enum _EHDCardSubType
-{
- CRD_HD_FURY=1,
- CRD_HD_VENGENCE=2,
- CRD_HD_IRIDIUM_XP=3,
- CRD_HD_IRIDIUM = 4,
- CRD_HD_LUST=5,
- CRD_HD_INVALID
-}EHDCardSubType;
-
-enum EEpochFirmwareProductID
-{
- ORAC_FILMPOST_FIRMWARE_PRODUCTID=(0x1), //Epoch/Create, standard firmware
- ORAC_BROADCAST_FIRMWARE_PRODUCTID=(0x2), //Epoch
- ORAC_ASI_FIRMWARE_PRODUCTID=(0x3), //Epoch
- ORAC_4SDIINPUT_FIRMWARE_PRODUCTID=(0x4), //SuperNova
- ORAC_4SDIOUTPUT_FIRMWARE_PRODUCTID=(0x5), //SuperNova
- ORAC_2SDIINPUT_2SDIOUTPUT_FIRMWARE_PRODUCTID=(0x6), //SuperNova
-};
-
-/**< @brief Use this enumerator to select the audio channels that should be captured or played back.
-*/
-typedef enum _BlueAudioChannelDesc
-{
- MONO_FLAG = 0xC0000000,
- MONO_CHANNEL_1 = 0x00000001,
- MONO_CHANNEL_2 = 0x00000002,
- MONO_CHANNEL_3 = 0x00000004,
- MONO_CHANNEL_4 = 0x00000008,
- MONO_CHANNEL_5 = 0x00000010,
- MONO_CHANNEL_6 = 0x00000020,
- MONO_CHANNEL_7 = 0x00000040,
- MONO_CHANNEL_8 = 0x00000080,
- MONO_CHANNEL_9 = 0x00000100,// to be used by analog audio output channels
- MONO_CHANNEL_10 = 0x00000200,// to be used by analog audio output channels
- MONO_CHANNEL_11 = 0x00000400,//actual channel 9
- MONO_CHANNEL_12 = 0x00000800,//actual channel 10
- MONO_CHANNEL_13 = 0x00001000,//actual channel 11
- MONO_CHANNEL_14 = 0x00002000,//actual channel 12
- MONO_CHANNEL_15 = 0x00004000,//actual channel 13
- MONO_CHANNEL_16 = 0x00008000,//actual channel 14
- MONO_CHANNEL_17 = 0x00010000,//actual channel 15
- MONO_CHANNEL_18 = 0x00020000 //actual channel 16
-}BlueAudioChannelDesc;
-
-
-//----------------------------------------------------------------------------
-/**<
-Use this enumeraotor to set the type of pcm audio data.
-*/
-typedef enum
-{
- AUDIO_CHANNEL_LOOPING_OFF = 0x00000000, /**< deprecated not used any more */
- AUDIO_CHANNEL_LOOPING = 0x00000001,/**< deprecated not used any more */
- AUDIO_CHANNEL_LITTLEENDIAN = 0x00000000, /**< if the audio data is little endian this flag must be set*/
- AUDIO_CHANNEL_BIGENDIAN = 0x00000002,/**< if the audio data is big endian this flag must be set*/
- AUDIO_CHANNEL_OFFSET_IN_BYTES = 0x00000004,/**< deprecated not used any more */
- AUDIO_CHANNEL_16BIT = 0x00000008, /**< if the audio channel bit depth is 16 bits this flag must be set*/
- AUDIO_CHANNEL_BLIP_PENDING = 0x00000010,/**< deprecated not used any more */
- AUDIO_CHANNEL_BLIP_COMPLETE = 0x00000020,/**< deprecated not used any more */
- AUDIO_CHANNEL_SELECT_CHANNEL = 0x00000040,/**< deprecated not used any more */
- AUDIO_CHANNEL_24BIT = 0x00000080/**< if the audio channel bit depth is 24 bits this flag must be set*/
-} EAudioFlags;
-
-/**
-@desc Used to select Audio input source on new generation SD cards
-@remarks
-This enumerator works only when used with ReadAudioSample function.
-*/
-typedef enum
-{
- BLUE_AUDIO_AES=0, /**< Used to select All 8 channels of Digital Audio using AES/AES3id connector*/
- BLUE_AUDIO_ANALOG=1,/**< Used to select Analog audio*/
- BLUE_AUDIO_SDIA=2, /**< Used to select Emb audio from SDI A */
- BLUE_AUDIO_EMBEDDED=BLUE_AUDIO_SDIA,
- BLUE_AUDIO_SDIB=3, /**< Used to select Emb audio from SDI B */
- BLUE_AUDIO_AES_PAIR0=4, /**< Used to select stereo pair 0 as audio input source. This is only supported on SD Greed Derivative cards.*/
- BLUE_AUDIO_AES_PAIR1=5,/**< Used to select stereo pair 1 as audio input source. This is only supported on SD Greed Derivative cards.*/
- BLUE_AUDIO_AES_PAIR2=6,/**< Used to select stereo pair 2 as audio input source. This is only supported on SD Greed Derivative cards.*/
- BLUE_AUDIO_AES_PAIR3=7,/**< Used to select stereo pair 3 as audio input source. This is only supported on SD Greed Derivative cards.*/
- BLUE_AUDIO_SDIC=8, /**< Used to select Emb audio from SDI C */
- BLUE_AUDIO_SDID=9, /**< Used to select Emb audio from SDI D */
- BLUE_AUDIO_INVALID=10
-} Blue_Audio_Connector_Type;
-
-typedef enum _EAudioRate
-{
- AUDIO_SAMPLE_RATE_48K=48000,
- AUDIO_SAMPLE_RATE_96K=96000,
- AUDIO_SAMPLE_RATE_UNKNOWN=-1
-} EAudioRate;
-
-/**<
-@brief use this enumerator to define the color space of the video signal on the SDI cable
-*/
-typedef enum _EConnectorSignalColorSpace
-{
- RGB_ON_CONNECTOR=0x00400000, /**< Use this enumerator if the colorspace of video data on the SDI cable is RGB <br/>
- When using dual link capture/playback , user can choose the
- color space of the data. <br>
- In single link SDI the color space of the signal is always YUB*/
- YUV_ON_CONNECTOR=0 /**<Use this enumerator if color space of video data on the SDI cable is RGB.*/
-}EConnectorSignalColorSpace;
-
-
-/**<
-@brief use this enumerator for controlling the dual link functionality.
-*/
-typedef enum _EDualLinkSignalFormatType
-{
- Signal_FormatType_4224=0, /**< sets the card to work in 4:2:2:4 mode*/
- Signal_FormatType_4444=1,/**< sets the card to work in 4:4:4 10 bit dual link mode*/
- Signal_FormatType_444_10BitSDI=Signal_FormatType_4444,/**< sets the card to work in 10 bit 4:4:4 dual link mode*/
- Signal_FormatType_444_12BitSDI=0x4,/**< sets the card to work in 4:4:4 12 bit dual link mode*/
- Signal_FormatType_Independent_422 = 0x2,
- Signal_FormatType_Key_Key=0x8000/**< not used currently on epoch cards */
-
-}EDualLinkSignalFormatType;
-
-
-enum ECardOperatingMode
-{
- CardOperatingMode_SingleLink=0x0,
- CardOperatingMode_Independent_422=CardOperatingMode_SingleLink,
- CardOperatingMode_DualLink=0x1,
- CardOperatingMode_StereoScopic_422=0x3,
- CardOperatingMode_Dependent_422=CardOperatingMode_StereoScopic_422,/**< not used currently on epoch cards */
-};
-
-
-typedef enum _EPreDefinedColorSpaceMatrix
-{
- UNITY_MATRIX=0,
- MATRIX_709_CGR=1,
- MATRIX_RGB_TO_YUV_709_CGR=MATRIX_709_CGR,
- MATRIX_709=2,
- MATRIX_RGB_TO_YUV_709=MATRIX_709,
- RGB_FULL_RGB_SMPTE=3,
- MATRIX_601_CGR=4,
- MATRIX_RGB_TO_YUV_601_CGR=MATRIX_601_CGR,
- MATRIX_601=5,
- MATRIX_RGB_TO_YUV_601=MATRIX_601,
- MATRIX_SMPTE_274_CGR=6,
- MATRIX_SMPTE_274=7,
- MATRIX_VUYA=8,
- UNITY_MATRIX_INPUT=9,
- MATRIX_YUV_TO_RGB_709_CGR=10,
- MATRIX_YUV_TO_RGB_709=11,
- RGB_SMPTE_RGB_FULL=12,
- MATRIX_YUV_TO_RGB_601_CGR=13,
- MATRIX_YUV_TO_RGB_601=14,
- MATRIX_USER_DEFINED=15,
-}EPreDefinedColorSpaceMatrix;
-
-#ifndef BLUE_LINUX_CODE
-/**<
-@brief this enumerator contains the status of the driver video/hanc fifo
-*/
-typedef enum
-{
- BLUE_FIFO_CLOSED=0, /**< Fifo has not been initialized*/
- BLUE_FIFO_STARTING=1,/**< Fifo is starting */
- BLUE_FIFO_RUNNING=2,/**< Fifo is running */
- BLUE_FIFO_STOPPING=3,/**< Fifo is in the process of stopping */
- BLUE_FIFO_PASSIVE=5,/**< Fifo is currently stopped or not active*/
-}BlueVideoFifoStatus;
-#endif
-
-/**<
-@brief use this enumerator to define the data range of the RGB video frame data.
-*/
-typedef enum _ERGBDataRange
-{
- CGR_RANGE=0, /**< In this mode RGB data expected by the user (capture) or provided by the user(playback) is
- in the range of 0-255(8 bit) or 0-1023(10 bit0).<br/>
- driver uses this information to choose the appropriate YUV conversion matrices.*/
- SMPTE_RANGE=1 /**< In this mode RGB data expected by the user (capture) or provided by the user(playback) is
- in the range of 16-235(8 bit) or 64-940(10 bit0).<br/>
- driver uses this information to choose the appropriate YUV conversion matrices.*/
-}ERGBDataRange;
-
-typedef enum _EHD_XCONNECTOR_MODE
-{
- SD_SDI=1,
- HD_SDI=2
-}EHD_XCONNECTOR_MODE;
-
-/**< @brief this enumerator can be used to set the image orienatation of the frame.
-*/
-typedef enum _EImageOrientation
-{
- ImageOrientation_Normal=0, /**< in this configuration , frame is top to bottom and left to right */
- ImageOrientation_VerticalFlip=1, /**< in this configuration frame is bottom to top and left to right*/
- ImageOrientation_Invalid=2,
-}EImageOrientation;
-
-/**< @brief this enumerator defines the reference signal source that can be used with bluefish cards
-*/
-typedef enum _EBlueGenlockSource
-{
- BlueGenlockBNC=0, /**< Genlock is used as reference signal source */
- BlueSDIBNC=0x10000, /**< SDI input B is used as reference signal source */
- BlueSDI_B_BNC=BlueSDIBNC,
- BlueSDI_A_BNC=0x20000,/**< SDI input A is used as reference signal source */
- BlueAnalog_BNC=0x40000, /**< Analog input is used as reference signal source */
- BlueSoftware=0x80000,
-}EBlueGenlockSource;
-
-
-typedef enum _EBlueVideoChannel
-{
- BLUE_VIDEOCHANNEL_A=0,
- BLUE_VIDEO_OUTPUT_CHANNEL_A=BLUE_VIDEOCHANNEL_A,
-
- BLUE_VIDEOCHANNEL_B=1,
- BLUE_VIDEO_OUTPUT_CHANNEL_B=BLUE_VIDEOCHANNEL_B,
-
- BLUE_VIDEOCHANNEL_C=2,
- BLUE_VIDEO_INPUT_CHANNEL_A=BLUE_VIDEOCHANNEL_C,
-
- BLUE_VIDEOCHANNEL_D=3,
- BLUE_VIDEO_INPUT_CHANNEL_B=BLUE_VIDEOCHANNEL_D,
-
- BLUE_VIDEOCHANNEL_E=4,
- BLUE_VIDEO_INPUT_CHANNEL_C=BLUE_VIDEOCHANNEL_E,
-
- BLUE_VIDEOCHANNEL_F=5,
- BLUE_VIDEO_INPUT_CHANNEL_D=BLUE_VIDEOCHANNEL_F,
-
- BLUE_VIDEOCHANNEL_G=6,
- BLUE_VIDEO_OUTPUT_CHANNEL_C=BLUE_VIDEOCHANNEL_G,
-
- BLUE_VIDEOCHANNEL_H=7,
- BLUE_VIDEO_OUTPUT_CHANNEL_D=BLUE_VIDEOCHANNEL_H,
-
- BLUE_OUTPUT_MEM_MODULE_A=BLUE_VIDEO_OUTPUT_CHANNEL_A,
- BLUE_OUTPUT_MEM_MODULE_B=BLUE_VIDEO_OUTPUT_CHANNEL_B,
- BLUE_INPUT_MEM_MODULE_A=BLUE_VIDEO_INPUT_CHANNEL_A,
- BLUE_INPUT_MEM_MODULE_B=BLUE_VIDEO_INPUT_CHANNEL_B,
- //BLUE_JETSTREAM_SCALER_MODULE_0=0x10,
- //BLUE_JETSTREAM_SCALER_MODULE_1=0x11,
- //BLUE_JETSTREAM_SCALER_MODULE_2=0x12,
- //BLUE_JETSTREAM_SCALER_MODULE_3=0x13,
-
- BLUE_VIDEOCHANNEL_INVALID=30
-}EBlueVideoChannel;
-
-typedef enum _EBlueVideoRouting
-{
- BLUE_VIDEO_LINK_INVALID=0,
- BLUE_SDI_A_LINK1=4,
- BLUE_SDI_A_LINK2=5,
- BLUE_SDI_B_LINK1=6,
- BLUE_SDI_B_LINK2=7,
- BLUE_ANALOG_LINK1=8,
- BLUE_ANALOG_LINK2=9,
- BLUE_SDI_A_SINGLE_LINK=BLUE_SDI_A_LINK1,
- BLUE_SDI_B_SINGLE_LINK=BLUE_SDI_B_LINK1,
- BLUE_ANALOG_SINGLE_LINK=BLUE_ANALOG_LINK1
-
-}EBlueVideoRouting;
-
-typedef enum
-{
- BLUE_FIFO_NULL_ATTRIBUTE=0x0,
- BLUE_FIFO_ECHOPORT_ENABLED=0x1,
- BLUE_FIFO_STEPMODE = 0x2,
- BLUE_FIFO_LOOPMODE = 0x4
-}BlueVideoFifo_Attributes;
-
-typedef enum _BlueAudioOutputDest
-{
- Blue_AnalogAudio_Output=0x0,
- Blue_AES_Output=0x80000000,
- Blue_Emb_Output=0x40000000,
-}BlueAudioOutputDest;
-
-
-/**<@brief this enumerator is not used need to be removed*/
-typedef enum _BlueAudioInputSource
-{
- Blue_AES=0x10,
- Blue_AnalogAudio=0x20,
- Blue_SDIA_Embed=0x40,
- Blue_SDIB_Embed=0x80,
-}BlueAudioInputSource;
-
-typedef enum _EBlueConnectorIdentifier
-{
- BLUE_CONNECTOR_INVALID = -1,
-
- // BNC connectors in order from top to bottom of shield
- BLUE_CONNECTOR_BNC_A = 0, // BNC closest to top of shield
- BLUE_CONNECTOR_BNC_B,
- BLUE_CONNECTOR_BNC_C,
- BLUE_CONNECTOR_BNC_D,
- BLUE_CONNECTOR_BNC_E,
- BLUE_CONNECTOR_BNC_F,
- BLUE_CONNECTOR_GENLOCK,
-
- BLUE_CONNECTOR_ANALOG_VIDEO_1 = 100,
- BLUE_CONNECTOR_ANALOG_VIDEO_2,
- BLUE_CONNECTOR_ANALOG_VIDEO_3,
- BLUE_CONNECTOR_ANALOG_VIDEO_4,
- BLUE_CONNECTOR_ANALOG_VIDEO_5,
- BLUE_CONNECTOR_ANALOG_VIDEO_6,
-
- BLUE_CONNECTOR_DVID_1 = 200,
- BLUE_CONNECTOR_SDI_OUTPUT_A= BLUE_CONNECTOR_DVID_1,
- BLUE_CONNECTOR_DVID_2,
- BLUE_CONNECTOR_SDI_OUTPUT_B= BLUE_CONNECTOR_DVID_2,
- BLUE_CONNECTOR_DVID_3,
- BLUE_CONNECTOR_SDI_INPUT_A= BLUE_CONNECTOR_DVID_3,
- BLUE_CONNECTOR_DVID_4,
- BLUE_CONNECTOR_SDI_INPUT_B= BLUE_CONNECTOR_DVID_4,
- BLUE_CONNECTOR_DVID_5,
- BLUE_CONNECTOR_SDI_OUTPUT_C,
- BLUE_CONNECTOR_SDI_OUTPUT_D,
-
- BLUE_CONNECTOR_AES = 300,
- BLUE_CONNECTOR_ANALOG_AUDIO_1,
- BLUE_CONNECTOR_ANALOG_AUDIO_2,
-
- BLUE_CONNECTOR_DVID_6,
- BLUE_CONNECTOR_SDI_INPUT_C= BLUE_CONNECTOR_DVID_6,
- BLUE_CONNECTOR_DVID_7,
- BLUE_CONNECTOR_SDI_INPUT_D= BLUE_CONNECTOR_DVID_7,
-
- //BLUE_CONNECTOR_RESOURCE_BLOCK=0x400,
- //BLUE_CONNECTOR_JETSTREAM_SCALER_0=(BLUE_CONNECTOR_RESOURCE_BLOCK|BLUE_JETSTREAM_SCALER_MODULE_0),
- //BLUE_CONNECTOR_JETSTREAM_SCALER_1=(BLUE_CONNECTOR_RESOURCE_BLOCK|BLUE_JETSTREAM_SCALER_MODULE_1),
- //BLUE_CONNECTOR_JETSTREAM_SCALER_2=(BLUE_CONNECTOR_RESOURCE_BLOCK|BLUE_JETSTREAM_SCALER_MODULE_2),
- //BLUE_CONNECTOR_JETSTREAM_SCALER_3=(BLUE_CONNECTOR_RESOURCE_BLOCK|BLUE_JETSTREAM_SCALER_MODULE_3),
-
- //BLUE_CONNECTOR_OUTPUT_MEM_MODULE_A=(BLUE_CONNECTOR_RESOURCE_BLOCK|BLUE_OUTPUT_MEM_MODULE_A),
- //BLUE_CONNECTOR_OUTPUT_MEM_MODULE_B=(BLUE_CONNECTOR_RESOURCE_BLOCK|BLUE_OUTPUT_MEM_MODULE_B),
- //BLUE_CONNECTOR_INPUT_MEM_MODULE_A=(BLUE_CONNECTOR_RESOURCE_BLOCK|BLUE_INPUT_MEM_MODULE_A),
- //BLUE_CONNECTOR_INPUT_MEM_MODULE_B=(BLUE_CONNECTOR_RESOURCE_BLOCK|BLUE_INPUT_MEM_MODULE_B),
- //
-}EBlueConnectorIdentifier;
-
-typedef enum _EBlueConnectorSignalDirection
-{
- BLUE_CONNECTOR_SIGNAL_INVALID=-1,
- BLUE_CONNECTOR_SIGNAL_INPUT=0,
- BLUE_CONNECTOR_SIGNAL_OUTPUT=1,
-}EBlueConnectorSignalDirection;
-
-typedef enum _EBlueConnectorProperty
-{
- BLUE_INVALID_CONNECTOR_PROPERTY = -1,
-
- //signal property
- BLUE_CONNECTOR_PROP_INPUT_SIGNAL=0,
- BLUE_CONNECTOR_PROP_OUTPUT_SIGNAL=1,
-
- // Video output
- BLUE_CONNECTOR_PROP_SDI = 0,
- BLUE_CONNECTOR_PROP_YUV_Y,
- BLUE_CONNECTOR_PROP_YUV_U,
- BLUE_CONNECTOR_PROP_YUV_V,
- BLUE_CONNECTOR_PROP_RGB_R,
- BLUE_CONNECTOR_PROP_RGB_G,
- BLUE_CONNECTOR_PROP_RGB_B,
- BLUE_CONNECTOR_PROP_CVBS,
- BLUE_CONNECTOR_PROP_SVIDEO_Y,
- BLUE_CONNECTOR_PROP_SVIDEO_C,
-
- // Audio output
- BLUE_CONNECTOR_PROP_AUDIO_AES = 0x2000,
- BLUE_CONNECTOR_PROP_AUDIO_EMBEDDED,
- BLUE_CONNECTOR_PROP_AUDIO_ANALOG,
-
-
- BLUE_CONNECTOR_PROP_SINGLE_LINK=0x3000,
- BLUE_CONNECTOR_PROP_DUALLINK_LINK_1,
- BLUE_CONNECTOR_PROP_DUALLINK_LINK_2,
- BLUE_CONNECTOR_PROP_DUALLINK_LINK,
-
- BLUE_CONNECTOR_PROP_STEREO_MODE_SIDE_BY_SIDE,
- BLUE_CONNECTOR_PROP_STEREO_MODE_TOP_DOWN,
- BLUE_CONNECTOR_PROP_STEREO_MODE_LINE_BY_LINE,
-
-}EBlueConnectorProperty;
-
-/*
-typedef enum _BLUE_AUDIOINPUT_SOURCE
-{
- BLUE_AES_AUDIO_INPUT=0x10000,
- BLUE_ANALOG_AUDIO_INPUT=0x20000,
- BLUE_SDIA_AUDIO_INPUT=0x30000,
- BLUE_SDIB_AUDIO_INPUT=0x40000
-}BLUE_AUDIOINPUT_SOURCE;
-*/
-/**
-@desc use the values in this enumerator for controlling card property
-*/
-typedef enum _EBlueCardProperty
-{
- VIDEO_DUAL_LINK_OUTPUT=0,/**< Use this property to enable/diable cards dual link output property*/
- VIDEO_DUAL_LINK_INPUT=1,/**< Use this property to enable/diable cards dual link input property*/
- VIDEO_DUAL_LINK_OUTPUT_SIGNAL_FORMAT_TYPE=2, /**<Use this property to select signal format type that should be used
- when dual link output is enabled. Possible values this property can
- accept is defined in the enumerator EDualLinkSignalFormatType
- */
- VIDEO_DUAL_LINK_INPUT_SIGNAL_FORMAT_TYPE=3,/**< Use this property to select signal format type that should be used
- when dual link input is enabled. Possible values this property can
- accept is defined in the enumerator EDualLinkSignalFormatType
- */
- VIDEO_OUTPUT_SIGNAL_COLOR_SPACE=4,/**< Use this property to select color space of the signal when dual link output is set to
- use 4:4:4/4:4:4:4 signal format type. Possible values this property can
- accept is defined in the enumerator EConnectorSignalColorSpace
- */
- VIDEO_INPUT_SIGNAL_COLOR_SPACE=5,/**< Use this property to select color space of the signal when dual link input is set to
- use 4:4:4/4:4:4:4 signal format type. Possible values this property can
- accept is defined in the enumerator EConnectorSignalColorSpace
- */
- VIDEO_MEMORY_FORMAT=6, /**<Use this property to ser the pixel format that should be used by
- video output channels. Possible values this property can
- accept is defined in the enumerator EMemoryFormat
- */
- VIDEO_MODE=7,/**<Use this property to set the video mode that should be used by
- video output channels. Possible values this property can
- accept is defined in the enumerator EVideoMode
- */ //
- VIDEO_UPDATE_TYPE=8,/**<Use this property to set the framestore update type that should be used by
- video output channels. Card can update video framestore at field/frame rate.
- Possible values this property can accept is defined in the enumerator EUpdateMethod
- */
- VIDEO_ENGINE=9,
- VIDEO_IMAGE_ORIENTATION=10,/**< Use this property to set the image orientation of the video output framestore.
- This property must be set before frame is transferred to on card memory using
- DMA transfer functions(system_buffer_write_async). It is recommended to use
- vertical flipped image orientation only on RGB pixel formats.
- Possible values this property can accept is defined in the enumerator EImageOrientation
- */
- VIDEO_USER_DEFINED_COLOR_MATRIX=11,
- VIDEO_PREDEFINED_COLOR_MATRIX=12,//EPreDefinedColorSpaceMatrix
- VIDEO_RGB_DATA_RANGE=13, /**< Use this property to set the data range of RGB pixel format, user can specify
- whether the RGB data is in either SMPTE or CGR range. Based on this information
- driver is decide which color matrix should be used.
- Possible values this property can accept is defined in the enumerator ERGBDataRange
- For SD cards this property will set the input and the output to the specified value.
- For Epoch/Create/SuperNova cards this property will only set the output to the specified value.
- For setting the input on Epoch/Create/SuperNova cards see EPOCH_VIDEO_INPUT_RGB_DATA_RANGE*/
- VIDEO_KEY_OVER_BLACK=14,/**< this property is deprecated and no longer supported on epoch/create range of cards.*/
- VIDEO_KEY_OVER_INPUT_SIGNAL=15,
- VIDEO_SET_DOWN_CONVERTER_VIDEO_MODE=16,/**< this property is deprecated and no longer supported on epoch/create range of cards.
- EHD_XCONNECTOR_MODE
- */
- VIDEO_LETTER_BOX=17,
- VIDEO_PILLOR_BOX_LEFT=18,
- VIDEO_PILLOR_BOX_RIGHT=19,
- VIDEO_PILLOR_BOX_TOP=20,
- VIDEO_PILLOR_BOX_BOTTOM=21,
- VIDEO_SAFE_PICTURE=22,
- VIDEO_SAFE_TITLE=23,
- VIDEO_INPUT_SIGNAL_VIDEO_MODE=24,/**< Use this property to retreive the video input signal information on the
- default video input channel used by that SDK object.
- */
- VIDEO_COLOR_MATRIX_MODE=25,
- VIDEO_OUTPUT_MAIN_LUT=26,/**< this property is deprecated and no longer supported on epoch/create range of cards.*/
- VIDEO_OUTPUT_AUX_LUT=27,/**< this property is deprecated and no longer supported on epoch/create range of cards.*/
- VIDEO_LTC=28, /**< this property is deprecated and no longer supported on epoch/create range of cards. To retreive/ outputting
- LTC information you can use the HANC decoding and encoding functions.*/
- VIDEO_GPIO=29,
- VIDEO_PLAYBACK_FIFO_STATUS=30, /**< This property can be used to retreive how many frames are bufferd in the video playback fifo.*/
- RS422_RX_BUFFER_LENGTH=31,
- RS422_RX_BUFFER_FLUSH=32,
- VIDEO_INPUT_UPDATE_TYPE=33,/**< Use this property to set the framestore update type that should be used by
- video input channels. Card can update video framestore at field/frame rate.
- Possible values this property can accept is defined in the enumerator EUpdateMethod
- */
- VIDEO_INPUT_MEMORY_FORMAT=34,/**<Use this property to set the pixel format that should be used by
- video input channels when it is capturing a frame from video input source.
- Possible values this property can accept is defined in the enumerator EMemoryFormat
- */
- VIDEO_GENLOCK_SIGNAL=35,/**< Use this property to retrieve video signal of the reference source that is used by the card.
- This can also be used to select the reference signal source that should be used.
- */
-
- AUDIO_OUTPUT_PROP=36, /**< this can be used to route PCM audio data onto respective audio output connectors. */
- AUDIO_CHANNEL_ROUTING=AUDIO_OUTPUT_PROP,
- AUDIO_INPUT_PROP=37,/**< Use this property to select audio input source that should be used when doing
- an audio capture.
- Possible values this property can accept is defined in the enumerator Blue_Audio_Connector_Type.
- */
- VIDEO_ENABLE_LETTERBOX=38,
- VIDEO_DUALLINK_OUTPUT_INVERT_KEY_COLOR=39,/**< this property is deprecated and no longer supported on epoch/create range of cards.*/
- VIDEO_DUALLINK_OUTPUT_DEFAULT_KEY_COLOR=40,/**< this property is deprecated and no longer supported on epoch/create range of cards.*/
- VIDEO_BLACKGENERATOR=41, /**< Use this property to control the black generator on the video output channel.
- */
- VIDEO_INPUTFRAMESTORE_IMAGE_ORIENTATION=42,
- VIDEO_INPUT_SOURCE_SELECTION=43, /**< The video input source that should be used by the SDK default video input channel
- can be configured using this property.
- Possible values this property can accept is defined in the enumerator EBlueConnectorIdentifier.
- */
- DEFAULT_VIDEO_OUTPUT_CHANNEL=44,
- DEFAULT_VIDEO_INPUT_CHANNEL=45,
- VIDEO_REFERENCE_SIGNAL_TIMING=46,
- EMBEDEDDED_AUDIO_OUTPUT=47, /**< the embedded audio output property can be configured using this property.
- Possible values this property can accept is defined in the enumerator EBlueEmbAudioOutput.
- */
- EMBEDDED_AUDIO_OUTPUT=EMBEDEDDED_AUDIO_OUTPUT,
- VIDEO_PLAYBACK_FIFO_FREE_STATUS=48, /**< this will return the number of free buffer in the fifo.
- If the video engine is framestore this will give you the number of buffers that the framestore mode
- can you use with that video output channel.*/
- VIDEO_IMAGE_WIDTH=49, /**< only for selective DMA of a smaller image onto video output raster; size in bytes (not pixels) */
- VIDEO_IMAGE_HEIGHT=50, /**< only for selective DMA of a smaller image onto video output raster; number of lines */
- VIDEO_SCALER_MODE=51,
- AVAIL_AUDIO_INPUT_SAMPLE_COUNT=52,
- VIDEO_PLAYBACK_FIFO_ENGINE_STATUS=53, /**< this will return the playback fifo status. The values returned by this property
- are defined in the enumerator BlueVideoFifoStatus.
- */
- VIDEO_CAPTURE_FIFO_ENGINE_STATUS=54, /**< this will return the capture fifo status.
- The values returned by this property are defined in the enumerator BlueVideoFifoStatus.
- */
- VIDEO_2K_1556_PANSCAN=55,/**< this property is deprecated and no longer supported on epoch/create range of cards.*/
- VIDEO_OUTPUT_ENGINE=56, /**< Use this property to set the video engine of the video output channels.
- Possible values this property can accept is defined in the enumerator EEngineMode
- */
- VIDEO_INPUT_ENGINE=57, /**< Use this property to set the video engine of the video input channels.
- Possible values this property can accept is defined in the enumerator EEngineMode
- */
- BYPASS_RELAY_A_ENABLE=58, /**< use this property to control the bypass relay on SDI A output.*/
- BYPASS_RELAY_B_ENABLE=59, /**< use this property to control the bypass relay on SDI B output.*/
- VIDEO_PREMULTIPLIER=60,
- VIDEO_PLAYBACK_START_TRIGGER_POINT=61, /**< Using this property you can instruct the driver to start the
- video playback fifo on a particular video output field count.
- Normally video playback fifo is started on the next video interrupt after
- the video_playback_start call.*/
- GENLOCK_TIMING=62,
- VIDEO_IMAGE_PITCH=63,
- VIDEO_IMAGE_OFFSET=64,
- VIDEO_INPUT_IMAGE_WIDTH=65,
- VIDEO_INPUT_IMAGE_HEIGHT=66,
- VIDEO_INPUT_IMAGE_PITCH=67,
- VIDEO_INPUT_IMAGE_OFFSET=68,
- TIMECODE_RP188=69, /**< this property is deprecated and no longer supported on epoch/create range of cards.*/
- BOARD_TEMPERATURE=70,/**<This property can be used to retreive the Board temperature, core temperature and
- RPM of the Fan on epoch/create range of cards.<br/>
- Use the macro's EPOCH_CORE_TEMP ,EPOCH_BOARD_TEMP and EPOCH_FAN_SPEED
- to retireive the respective values from the property.<br/>
- */
- MR2_ROUTING=71, /**< Use this property to control the MR2 functionlity on epoch range of cards.
- Use the following macro with this property.<br/>
- 1) EPOCH_SET_ROUTING --> for setting the source, destination and link type of the routing connection,<br/>
- 2) EPOCH_ROUTING_GET_SRC_DATA --> for getting the routing source.<br/>
- The possible source and destination elements supported by the routing matrix are defined in the
- enumerator EEpochRoutingElements.<br/>
- */
- SAVEAS_POWERUP_SETTINGS=72,
- VIDEO_CAPTURE_AVAIL_BUFFER_COUNT=73, /**< This property will return the number of captured frame avail in the fifo at present.
- If the video engine is framestore this will give you the number of buffers that the framestore mode
- can you use with that video input channel */
- EPOCH_APP_WATCHDOG_TIMER=74,/**< Use this property to control the application watchdog timer functionality.
- Possible values this property can accept is defined in the enumerator enum_blue_app_watchdog_timer_prop.
- */
- EPOCH_RESET_VIDEO_INPUT_FIELDCOUNT=75, /**< Use this property to reset the field count on both the
- video channels of the card. You can pass the value that
- should be used as starting fieldcount after the reset.
- This property can be used to keep track sync between left and right signal
- when you are capturing in stereoscopic mode.
- */
- EPOCH_RS422_PORT_FLAGS=76,/**< Use this property to set the master/slave property of the RS422 ports.
- Possible values this property can accept is defined in the enumerator enum_blue_rs422_port_flags.
- */
- EPOCH_DVB_ASI_INPUT_TIMEOUT=77, /**< Current DVB ASI input firmware does not support this property in hardware,
- this is a future addition.
- Use this property to set the timeout of the DVB ASI input stream.
- timeout is specified in milliseconds.If hardware did not get the required no of
- packets( specified using EPOCH_DVB_ASI_INPUT_LATENCY_PACKET_COUNT)
- within the period specified in the timeout, hardware would generate a video input interrupt
- and it would be safe to read the dvb asi packet from the card.
- */
- EPOCH_DVB_ASI_INPUT_PACKING_FORMAT=78, /**< Use this property to specify the packing method that should be used
- when capturing DVB ASI packets.
- The possible packing methods are defined in the enumerator enum_blue_dvb_asi_packing_format.*/
- EPOCH_DVB_ASI_INPUT_LATENCY_PACKET_COUNT=79, /**< Use this property to set how many asi packets should be captured by the card , before it
- notifies the driver of available data using video input interrupt.<br/>
- */
- VIDEO_PLAYBACK_FIFO_CURRENT_FRAME_UNIQUEID=80, /**< This property can be used to query the current unique id of
- the frame that is being displayed currently by the video output channel. This
- property is only usefull in the context of video fifo.<br/>
- You get a uniqueid when you present a frame using video_playback_present function.
- Alternative ways to get this information are <br/>
- 1) using blue_wait_video_sync_async , the member current_display_frame_uniqueid contains the same information<br/>
- 2) using wait_video_output_sync function on epoch cards, if
- the flag UPD_FMT_FLAG_RETURN_CURRENT_UNIQUEID is appended with
- either UPD_FMT_FRAME or UPD_FMT_FIELD , the return value of
- the function wait_video_output_sync woukd contain the current display
- frames uniqueid.<br/>*/
-
- EPOCH_DVB_ASI_INPUT_GET_PACKET_SIZE = 81,/**< use this property to get the size of each asi transport stream packet
- (whether it is 188 or 204.*/
- EPOCH_DVB_ASI_INPUT_PACKET_COUNT = 82,/**< this property would give you the number of packets captured during the last
- interrupt time frame. For ASI interrupt is generated if
- hardware captured the requested number of packets or it hit the
- timeout value
- */
- EPOCH_DVB_ASI_INPUT_LIVE_PACKET_COUNT = 83,/**< this property would give you the number of packets that
- is being captured during the current interrupt time frame.
- For ASI interrupt is generated when has hardware captured the
- requested number of packets specified using
- EPOCH_DVB_ASI_INPUT_LATENCY_PACKET_COUNT property.
- */
- EPOCH_DVB_ASI_INPUT_AVAIL_PACKETS_IN_FIFO = 84,/**< This property would return the number of ASI packets
- that has been captured into card memory , that
- can be retreived.
- This property is only valid when the video input
- channel is being used in FIFO modes.
- */
- EPOCH_ROUTING_SOURCE_VIDEO_MODE=VIDEO_SCALER_MODE,/**< Use this property to change the video mode that scaler should be set to.
- USe the macro SET_EPOCH_SCALER_MODE when using this property, as this macro
- would allow you to select which one of the scaler blocks video mode should be updated.
- */
- EPOCH_AVAIL_VIDEO_SCALER_COUNT=85,/**< This property would return available scaler processing block available on the card.*/
- EPOCH_ENUM_AVAIL_VIDEO_SCALERS_ID=86,/**< You can enumerate the available scaler processing block available on the card using this property.
- You pass in the index value as input parameter to get the scaler id that should be used.
- Applications are recommended to use this property to query the available scaler id's
- rather than hardcoding a scaler id. As the scaler id's that you can use would vary based on
- whether you have VPS0 or VPS1 boards loaded on the base board.
- */
- EPOCH_ALLOCATE_VIDEO_SCALER=87, /**< This is just a helper property for applications who need to use more than one scaler
- and just wants to query the next available scaler from the driver pool, rather than hardcoding
- each thread to use a particular scaler.
- Allocate a free scaler from the available scaler pool.
- User has got the option to specify whether they want to use the scaler for
- use with a single link or dual link stream */
- EPOCH_RELEASE_VIDEO_SCALER=88, /**< Release the previously allocated scaler processing block back to the free pool.
- If the user passes in a value of 0, all the allocated scaler blocks in the driver are released.
- So effectively
- */
- EPOCH_DMA_CARDMEMORY_PITCH=89,
- EPOCH_OUTPUT_CHANNEL_AV_OFFSET=90,
- EPOCH_SCALER_CHANNEL_MUX_MODE=91,
- EPOCH_INPUT_CHANNEL_AV_OFFSET=92,
- EPOCH_AUDIOOUTPUT_MANUAL_UCZV_GENERATION=93,/* ASI firmware only */
- EPOCH_SAMPLE_RATE_CONVERTER_BYPASS=94,
- EPOCH_GET_PRODUCT_ID=95, /* returns the enum for the firmware type EEpochFirmwareProductID */
- EPOCH_GENLOCK_IS_LOCKED=96,
- EPOCH_DVB_ASI_OUTPUT_PACKET_COUNT=97, /* ASI firmware only */
- EPOCH_DVB_ASI_OUTPUT_BIT_RATE=98, /* ASI firmware only */
- EPOCH_DVB_ASI_DUPLICATE_OUTPUT_A=99, /* ASI firmware only */
- EPOCH_DVB_ASI_DUPLICATE_OUTPUT_B=100, /* ASI firmware only */
- EPOCH_SCALER_HORIZONTAL_FLIP=101, /* see SideBySide_3D sample application */
- EPOCH_CONNECTOR_DIRECTION=102, /* see application notes */
- EPOCH_AUDIOOUTPUT_VALIDITY_BITS=103, /* ASI firmware only */
- EPOCH_SIZEOF_DRIVER_ALLOCATED_MEMORY=104, /* video buffer allocated in Kernel space; accessible in userland via system_buffer_map() */
- INVALID_VIDEO_MODE_FLAG=105, /* returns the enum for VID_FMT_INVALID that this SDK/Driver was compiled with;
- it changed between 5.9.x.x and 5.10.x.x driver branch and has to be handled differently for
- each driver if the application wants to use the VID_FMT_INVALID flag and support both driver branches */
- EPOCH_VIDEO_INPUT_VPID=106, /* returns the VPID for the current video input signal */
- EPOCH_LOW_LATENCY_DMA=107, /* not fully supported yet */
- EPOCH_VIDEO_INPUT_RGB_DATA_RANGE=108,
-
- VIDEO_CARDPROPERTY_INVALID=1000
-}EBlueCardProperty;
-
-
-typedef enum _EAnalogConnectorSignalType
-{
- ANALOG_OUTPUTSIGNAL_CVBS_Y_C=1,
- ANALOG_OUTPUTSIGNAL_COMPONENT=2,
- ANALOG_OUTPUTSIGNAL_RGB=4
-}EAnalogConnectorSignalType;
-
-/**<
-@brief Use this enumerator to set the analog video signal types and connectors.
-*/
-typedef enum _EAnalogInputConnectorType
-{
-/* Composite input */
- ANALOG_VIDEO_INPUT_CVBS_AIN1=0x00, /**<only available on Mini COAX */
- ANALOG_VIDEO_INPUT_CVBS_AIN2=0x01, /**<available on both Mini COAX and Mini DIN*/
- ANALOG_VIDEO_INPUT_CVBS_AIN3=0x02, /**<available on both Mini COAX and Mini DIN*/
- ANALOG_VIDEO_INPUT_CVBS_AIN4=0x03, /**<only available on Mini COAX */
- ANALOG_VIDEO_INPUT_CVBS_AIN5=0x04, /**<only available on Mini COAX */
- ANALOG_VIDEO_INPUT_CVBS_AIN6=0x05, /**<available on both Mini COAX and Mini DIN */
-
-/*svideo input*/
-//Y_C is a synonym for svideo
- ANALOG_VIDEO_INPUT_Y_C_AIN1_AIN4=0x06, /**<only available on Mini COAX*/
- ANALOG_VIDEO_INPUT_Y_C_AIN2_AIN5=0x07, /**<only available on Mini COAX*/
- ANALOG_VIDEO_INPUT_Y_C_AIN3_AIN6=0x08, /**<available on both Mini COAX and Mini DIN*/
-
-/*YUV input*/
- ANALOG_VIDEO_INPUT_YUV_AIN1_AIN4_AIN5=0x09, /**<only available on Mini COAX*/
- ANALOG_VIDEO_INPUT_YUV_AIN2_AIN3_AIN6=0x0a, /**<available on both Mini COAX and Mini DIN*/
- ANALOG_VIDEO_INPUT_USE_SDI_A=0x6F,
- ANALOG_VIDEO_INPUT_USE_SDI=0x7F,
- GENERIC_ANALOG_VIDEO_SOURCE=0x8F,
- ANALOG_VIDEO_INPUT_USE_SDI_B=ANALOG_VIDEO_INPUT_USE_SDI
-}EAnalogInputConnectorType;
-
-
-typedef enum {
- ANALOG_VIDEO_INPUT_CONNECTOR,//EAnalogInputConnectorType
- ANALOG_VIDEO_INPUT_PED,
- ANALOG_VIDEO_INPUT_BRIGHTNESS,
- ANALOG_VIDEO_INPUT_HUE,
- ANALOG_VIDEO_INPUT_LUMA_GAIN,
- ANALOG_VIDEO_INPUT_CHROMA_GAIN,
- ANALOG_VIDEO_INPUT_AUTO_GAIN,
- ANALOG_VIDEO_INPUT_LOAD_DEFAULT_SETTING,
- ANALOG_VIDEO_OUTPUT_PED,
- ANALOG_VIDEO_OUTPUT_BRIGHTNESS,
- ANALOG_VIDEO_OUTPUT_HUE,
- ANALOG_VIDEO_OUTPUT_LUMA_GAIN,
- ANALOG_VIDEO_OUTPUT_CHROMA_GAIN,
- ANALOG_VIDEO_OUTPUT_SHARPNESS,
- ANALOG_VIDEO_OUTPUT_AUTO_GAIN,
- ANALOG_VIDEO_OUTPUT_LOAD_DEFAULT_SETTING,
- ANALOG_VIDEO_OUTPUT_SIGNAL_TYPE,//_EAnalogConnectorSignalType
- ANALOG_LOAD_BLUEFISH_DEFAULT_SETTING,
- ANALOG_SET_AS_POWERUP_SETTINGS,
- ANALOG_LOAD_POWERUP_SETTINGS,
- ANALOG_CONNECTOR_STATUS
-} AnalogCard_Property;
-
-typedef struct {
- BLUE_INT32 inputConnector; //ANALOG_VIDEO_INPUT_CONNECTOR, EAnalogInputConnectorType
- BLUE_INT32 inputPed; //ANALOG_VIDEO_INPUT_PED,
- BLUE_INT32 inputBrightness; //ANALOG_VIDEO_INPUT_BRIGHTNESS,
- BLUE_INT32 inputHue; //ANALOG_VIDEO_INPUT_HUE,
- BLUE_INT32 inputLumaGain; //ANALOG_VIDEO_INPUT_LUMA_GAIN,
- BLUE_INT32 inputChromaGain; //ANALOG_VIDEO_INPUT_CHROMA_GAIN,
- BLUE_INT32 inputAutoGain; //ANALOG_VIDEO_INPUT_AUTO_GAIN,
- BLUE_INT32 outputPed; //ANALOG_VIDEO_OUTPUT_PED,
- BLUE_INT32 outputBrightness; //ANALOG_VIDEO_OUTPUT_BRIGHTNESS,
- BLUE_INT32 outputHue; //ANALOG_VIDEO_OUTPUT_HUE,
- BLUE_INT32 outputYGain; //ANALOG_VIDEO_OUTPUT_Y_GAIN,
- BLUE_INT32 outputUGain; //ANALOG_VIDEO_OUTPUT_U_GAIN,
- BLUE_INT32 outputVGain; //ANALOG_VIDEO_OUTPUT_V_GAIN,
- BLUE_INT32 outputSharpness; //ANALOG_VIDEO_OUTPUT_SHARPNESS,
- BLUE_INT32 outputAutoGain; //ANALOG_VIDEO_OUTPUT_AUTO_GAIN,
- BLUE_INT32 outputSignalTypes; //EAnalogConnectorSignalType
-}AnalogCardState;
-
-//----------------------------------------------------------------------------------------------------
-/**< brief Used to determine how video interrupts are handled*/
-typedef enum _EEngineMode
-{
- VIDEO_ENGINE_FRAMESTORE=0, /**< framestore engine. In this mode user is responsible for
- schduling a capture or playback after waiting for the
- respective video sync;s*/
- VIDEO_ENGINE_PLAYBACK=1, /**< Playback engine. In this mode there is a driver FIFO, which
- is reponisble for scheudling a frame for playback.
- User just adds video frames into the fifo.*/
- VIDEO_ENGINE_CAPTURE=2, /**< Capture engine In this mode there is a driver FIFO, which
- is reponisble for scheudling a frame for capture.
- User just retreives video frames from the FIFO.*/
- VIDEO_ENGINE_PAGEFLIP=3, /**< not supported any more */
- VIDEO_ENGINE_DUPLEX=4, /**< Full Duplex video. This is a FIFO mode. Use this mode if you want
- to capture and playback at the same time.*/
- VIDEO_ENGINE_INVALID
-} EEngineMode;
-
-/**< use this enumerator for controlling emb audio output properties using the
- property EMBEDDED_AUDIO_OUTPUT.
-*/
-typedef enum _EBlueEmbAudioOutput
-{
- blue_emb_audio_enable=0x1, // Switches off/on the whole HANC output from connecotrs associated with the channel
- blue_auto_aes_to_emb_audio_encoder=0x2, //control whether the auto aes to emb thread should be running or not.
- blue_emb_audio_group1_enable=0x4, /**< enables group1(ch 0- 3) emb audio */
- blue_emb_audio_group2_enable=0x8, /**< enables group2(ch 4- 7) emb audio */
- blue_emb_audio_group3_enable=0x10, /**< enables group3(ch 8- 11) emb audio */
- blue_emb_audio_group4_enable=0x20, /**< enables group4(ch 12- 16) emb audio */
- blue_enable_hanc_timestamp_pkt = 0x40
-}EBlueEmbAudioOutput;
-
-
-/**< Not used any more */
-typedef enum _EBufferTarget
-{
- BUFFER_TARGET_VIDEO=0, // Generic R/W DMA
- BUFFER_TARGET_AUDIO, // Special processing required for audio
- BUFFER_TARGET_VIDEO_8BIT, // Special R/W DMA utilising 8 bit aperture
- BUFFER_TARGET_VIDEO_HALF, // Special R/W DMA every second line (currently unused)
- BUFFER_TARGET_VIDEO_OUT, // Updates video out register on DMA completion for write
- BUFFER_TARGET_INVALID
-} EBufferTarget;
-
-#define BUFFER_TYPE_VIDEO (0)
-#define BUFFER_TYPE_AUDIO (1)
-#define BUFFER_TYPE_VIDEO_8BIT (2) // use this when assigning a buffer to indicate DMA from aperture!
-#define BUFFER_TYPE_VIDEO_OUT (3) // On DMA start set video output address to DMA target
-#define BUFFER_TYPE_VIDEO_HALF (4) // DMA every second line...
-
-// Buffer identifiers
-#define BUFFER_ID_AUDIO_IN (0)
-#define BUFFER_ID_AUDIO_OUT (1)
-#define BUFFER_ID_VIDEO0 (2)
-#define BUFFER_ID_VIDEO1 (3)
-#define BUFFER_ID_VIDEO2 (4)
-#define BUFFER_ID_VIDEO3 (5)
-
-//#define BUFFER_ID_USER_BASE (6)
-
-
-
-#define VIDEO_BORDER_TOP (0x10000000)
-#define VIDEO_BORDER_BOTTOM (0x20000000)
-#define VIDEO_BORDER_LEFT (0x40000000)
-#define VIDEO_BORDER_RIGHT (0x80000000)
-
-typedef struct _AnalogCardPropStruct
-{
- BLUE_UINT32 VideoChannel;
- BLUE_INT32 prop;
- BLUE_INT32 value;
- BLUE_INT32 minValue;
- BLUE_INT32 maxValue;
- BLUE_INT32 bReadFlag;
-}AnalogCardPropStruct;
-
-typedef enum _EConnectorSignalFormatType
-{
- Signal_Type_4444 =1,
- Signal_Type_4224 =0,
- Signal_Type_422=2
-}EConnectorSignalFormatType;
-
-typedef enum _EDMADirection
-{
- DMA_WRITE=0,
- DMA_READ=1,
- DMA_INVALID=2
-}EDMADirection;
-
-
-typedef enum _MatrixColType
-{
- COL_BLUE_PB=0,
- COL_RED_PR=1,
- COL_GREEN_Y=2,
- COL_KEY=3
-}MatrixColType;
-
-
-
-
-/**< Bits defining supported features that can be used with VideoFeature_struct*/
-#define VIDEO_CAPS_INPUT_SDI (0x00000001) /**< Capable of input of SDI Video */
-#define VIDEO_CAPS_OUTPUT_SDI (0x00000002) /**< Capable of output of SDI Video */
-#define VIDEO_CAPS_INPUT_COMP (0x00000004) /**< Capable of capturing Composite Video input */
-#define VIDEO_CAPS_OUTPUT_COMP (0x00000008) /**< Capable of capturing Composite Video output */
-
-#define VIDEO_CAPS_INPUT_YUV (0x00000010) /**< Capable of capturing Component Video input */
-#define VIDEO_CAPS_OUTPUT_YUV (0x00000020) /**< Capable of capturing Component Video output */
-#define VIDEO_CAPS_INPUT_SVIDEO (0x00000040) /**< Capable of capturing SVideo input */
-#define VIDEO_CAPS_OUTPUT_SVIDEO (0x00000080) /**< Capable of capturing SVideo output */
-
-#define VIDEO_CAPS_GENLOCK (0x00000100) /**< Able to adjust Vert & Horiz timing */
-#define VIDEO_CAPS_VERTICAL_FLIP (0x00000200) /**< Able to flip rasterisation */
-#define VIDEO_CAPS_KEY_OUTPUT (0x00000400) /**< Video keying output capable */
-#define VIDEO_CAPS_4444_OUTPUT (0x00000800) /**< Capable of outputting 4444 (dual link) */
-
-#define VIDEO_CAPS_DUALLINK_INPUT (0x00001000) /**< Dual Link input */
-#define VIDEO_CAPS_INTERNAL_KEYER (0x00002000) /**< Has got an internal Keyer */
-#define VIDEO_CAPS_RGB_COLORSPACE_SDI_CONN (0x00004000) /**< Support RGB colorspace in on an SDI connector */
-#define VIDEO_CAPS_HAS_PILLOR_BOX (0x00008000) /**< Has got support for pillor box */
-
-#define VIDEO_CAPS_OUTPUT_RGB (0x00010000) /**< Has Analog RGB output connector */
-#define VIDEO_CAPS_SCALED_RGB (0x00020000) /**< Can scale RGB colour space */
-#define AUDIO_CAPS_PLAYBACK (0x00040000) /**< Has got audio output */
-#define AUDIO_CAPS_CAPTURE (0x00080000)
-
-#define VIDEO_CAPS_DOWNCONVERTER (0x00100000)
-#define VIDEO_CAPS_DUALOUTPUT_422_IND_STREAM (0x00200000) /**< Specifies whether the card supports Dual Indepenedent 422 output streams */
-#define VIDEO_CAPS_DUALINPUT_422_IND_STREAM (0x00400000) /**< Specifies whether the card supports Dual Indepenedent 422 input streams */
-
-#define VIDEO_CAPS_VBI_OUTPUT (0x00800000) /**< Specifies whether the card supports VBI output */
-#define VIDEO_CAPS_VBI_INPUT (0x04000000) /**< Specifies whether the card supports VBI input */
-
-#define VIDEO_CAPS_HANC_OUTPUT (0x02000000)
-#define VIDEO_CAPS_HANC_INPUT (0x04000000)
-
-#define VIDEO_CAPS_FOUND_VPS0 VIDEO_CAPS_DOWNCONVERTER /**< specifies whether the VPS0 scaler board was found on the card */
-#define VIDEO_CAPS_FOUND_VPS1 (0x10000000) /**< specifies whether the VPS1 scaler board was found on the card */
-#define VIDEO_CAPS_FOUND_VPIO (0x20000000) /**< specifies whether the VPIO(DVI daughter board)board was found on the card */
-
-/*
-#define VIDEO_CAPS_DUALOUTPUT_422_IND_STREAM (0x00100000) // Specifies whether the card supports Dual Indepenedent 422 output streams
-#define VIDEO_CAPS_DUALINPUT_422_IND_STREAM (0x00200000) // Specifies whether the card supports Dual Indepenedent 422 input streams
-
-#define VIDEO_CAPS_VBI_OUTPUT (0x00400000)
-#define VIDEO_CAPS_VBI_INPUT (0x00800000)
-
-#define VIDEO_CAPS_HANC_OUTPUT (0x01000000)
-#define VIDEO_CAPS_HANC_INPUT (0x02000000)
-*/
-
-#define BLUE_CARD_BUFFER_TYPE_OFFSET (12)
-#define BLUE_DMA_DATA_TYPE_OFFSET (16)
-#define BLUE_DMA_FLAGS_OFFSET (20)
-#define GetDMACardBufferId(value) (value & 0xFFF)
-#define GetCardBufferType(value) ((value & 0xF000) >> BLUE_CARD_BUFFER_TYPE_OFFSET)
-#define GetDMADataType(value) ((value & 0xF0000) >> BLUE_DMA_DATA_TYPE_OFFSET)
-#define GetDMAFlags(value) ((value & 0xF00000) >> (BLUE_DMA_FLAGS_OFFSET))
-
-
-#define Blue_DMABuffer(CardBufferType,BufferId,DataType) ( (((ULONG)DataType&0xF)<<(ULONG)BLUE_DMA_DATA_TYPE_OFFSET)| \
- ( CardBufferType<<(ULONG)BLUE_CARD_BUFFER_TYPE_OFFSET) | \
- ( ((ULONG)BufferId&0xFFF)) |0)
-
-#define BlueImage_VBI_DMABuffer(BufferId,DataType) ( (((ULONG)DataType&0xF)<<(ULONG)BLUE_DMA_DATA_TYPE_OFFSET)| \
- ( BLUE_CARDBUFFER_IMAGE_VBI<<(ULONG)BLUE_CARD_BUFFER_TYPE_OFFSET) | \
- ( ((ULONG)BufferId&0xFFF)) |0)
-
-#define BlueImage_DMABuffer(BufferId,DataType) ( (((ULONG)DataType&0xF)<<(ULONG)BLUE_DMA_DATA_TYPE_OFFSET)| \
- ( BLUE_CARDBUFFER_IMAGE<<(ULONG)BLUE_CARD_BUFFER_TYPE_OFFSET) | \
- ( ((ULONG)BufferId&0xFFF)) |0)
-
-#define BlueImage_VBI_HANC_DMABuffer(BufferId,DataType) ( (((ULONG)DataType&0xF)<<(ULONG)BLUE_DMA_DATA_TYPE_OFFSET)| \
- ( BLUE_CARDBUFFER_IMAGE_VBI_HANC<<(ULONG)BLUE_CARD_BUFFER_TYPE_OFFSET) | \
- ( ((ULONG)BufferId&0xFFF)) |0)
-
-#define BlueImage_HANC_DMABuffer(BufferId,DataType) ( (((ULONG)DataType&0xF)<<(ULONG)BLUE_DMA_DATA_TYPE_OFFSET)| \
- ( BLUE_CARDBUFFER_IMAGE_HANC<<(ULONG)BLUE_CARD_BUFFER_TYPE_OFFSET) | \
- ( ((ULONG)BufferId&0xFFF)) |0)
-
-
-#define BlueBuffer(CardBufferType,BufferId) (((CardBufferType)<<BLUE_CARD_BUFFER_TYPE_OFFSET)|((BufferId&0xFFF))|0)
-#define BlueBuffer_Image_VBI(BufferId) (((BLUE_CARDBUFFER_IMAGE_VBI)<<BLUE_CARD_BUFFER_TYPE_OFFSET)|((BufferId&0xFFF))|0)
-#define BlueBuffer_Image(BufferId) (((BLUE_CARDBUFFER_IMAGE)<<BLUE_CARD_BUFFER_TYPE_OFFSET)|((BufferId&0xFFF))|0)
-#define BlueBuffer_Image_VBI_HANC(BufferId) (((BLUE_CARDBUFFER_IMAGE_VBI_HANC)<<BLUE_CARD_BUFFER_TYPE_OFFSET)|((BufferId&0xFFF))|0)
-#define BlueBuffer_Image_HANC(BufferId) (((BLUE_CARDBUFFER_IMAGE_HANC)<<BLUE_CARD_BUFFER_TYPE_OFFSET)|((BufferId&0xFFF))|0)
-#define BlueBuffer_HANC(BufferId) (((BLUE_CARDBUFFER_HANC)<<BLUE_CARD_BUFFER_TYPE_OFFSET)|((BufferId&0xFFF))|0)
-
-#define BYPASS_RELAY_A (0x00000001) // enable bypass relay channel a when loading driver , only used in linux
-#define BYPASS_RELAY_B (0x00000002) // enable bypass relay channel a when loading driver , only used in linux
-typedef enum _EDMACardBufferType
-{
- BLUE_CARDBUFFER_IMAGE=0,
- BLUE_CARDBUFFER_IMAGE_VBI_HANC=1,
- BLUE_CARDBUFFER_IMAGE_VBI=2,
- BLUE_CARDBUFFER_AUDIO_OUT=3,
- BLUE_CARDBUFFER_AUDIO_IN=4,
- BLUE_CARDBUFFER_HANC=5,
- BLUE_CARDBUFFER_IMAGE_HANC=6,
- BLUE_CARDBUFFER_INVALID=6
-}EDMACardBufferType;
-
-typedef enum _EDMADataType
-{
- BLUE_DATA_FRAME=0,
- BLUE_DATA_IMAGE=0,
- BLUE_DATA_FIELD1=1,
- BLUE_DATA_FIELD2=2,
- BLUE_DATA_VBI=3,
- BLUE_DATA_HANC=4,
- BLUE_DATA_AUDIO_IN=5,
- BLUE_DATA_AUDIO_OUT=6,
- BLUE_DATA_FRAME_RDOM=7,
- BLUE_DATA_FRAME_STEREO_LEFT=BLUE_DATA_FRAME,
- BLUE_DATA_FRAME_STEREO_RIGHT=8,
- BLUE_DMADATA_INVALID=9
-}EDMADataType;
-
-typedef struct _AUXILLARY_VIDEO_INFO
-{
- BLUE_UINT32 video_channel_id;
- BLUE_UINT32 lVideoMode;
- BLUE_UINT32 lUniqueId;
- BLUE_UINT32 lInfoType;
- BLUE_UINT32 lMemFmt;
- BLUE_UINT32 lGpio;
- BLUE_UINT64 lLTC;
-}Auxillary_Video_Info;
-
-
-typedef enum _EBlueVideoAuxInfoType
-{
- BLUE_VIDEO_AUX_MEMFMT_CHANGE=1,
- BLUE_VIDEO_AUX_UPDATE_LTC=2,
- BLUE_VIDEO_AUX_UPDATE_GPIO=4,
- BLUE_VIDEO_AUX_VIDFMT_CHANGE=8,
-
-}EBlueVideoAuxInfoType;
-// Max of 4 bits
-
-#define GET_ANALOG_AUDIO_LEFT_ROUTINGCHANNEL(value) (value&0xFF)
-#define GET_ANALOG_AUDIO_RIGHT_ROUTINGCHANNEL(value) ((value&0xFF00)>>8)
-#define SET_ANALOG_AUDIO_ROUTINGCHANNEL(left,right) (((right & 0xFF)<<8)|(left & 0xFF))
-#define SET_AUDIO_OUTPUT_ROUTINGCHANNEL(output_type,src_channel_id,_output_channel_id) ((1<<31)|((output_type&3)<<29)|((src_channel_id & 0x7F)<<16)|((_output_channel_id &0x3f)<<23))
-#define GET_AUDIO_OUTPUT_SRC_CHANNEL_ROUTING(value) ((value>>16) & 0x7F)
-#define GET_AUDIO_OUTPUT_CHANNEL_ROUTING(value) ((value>>23) & 0x3F)
-#define GET_AUDIO_OUTPUT_TYPE_ROUTING(value) ((value & 0x60000000)>>29)
-
-#define AUDIO_INPUT_SOURCE_SELECT_FLAG (1<<16)
-#define AUDIO_INPUT_SOURCE_SELECT(SynchCount,AudioInputSource) (AUDIO_INPUT_SOURCE_SELECT_FLAG|(SynchCount)|(AudioInputSource<<17))
-
-struct blue_video_connection_routing_struct
-{
- BLUE_UINT32 video_channel;
- BLUE_UINT32 duallink_flag;
- BLUE_UINT32 link1_connector;
- BLUE_UINT32 link2_connector;
-};
-
-#pragma pack(push, video_sync_struct, 1)
-typedef struct _blue_video_sync_struct
-{
- BLUE_UINT32 sync_wait_type;// field or frame
- BLUE_UINT32 video_channel; // which video channel interrupt should the interrupt wait for
- BLUE_UINT32 timeout_video_msc; //if the current video msc is equal to this one insert it into the queue.
- BLUE_UINT32 video_msc; //current video msc
- BLUE_UINT32 current_display_frame_id; // would give you the current frame id which is being displayed
- BLUE_UINT32 current_display_frame_uniqueid; // would give you the unique id associated with current frame id which is being displayed
- // this is only valid when using fifo modes.
- BLUE_UINT8 pad[24];
-}blue_video_sync_struct;
-#pragma pack(pop,video_sync_struct)
-
-
-typedef enum _EBlueLUTType
-{
- BLUE_MAIN_LUT_B_Pb=0,
- BLUE_MAIN_LUT_G_Y=1,
- BLUE_MAIN_LUT_R_Pr=2,
- BLUE_AUX_LUT_B_Pb=3,
- BLUE_AUX_LUT_G_Y=4,
- BLUE_AUX_LUT_R_Pr=5,
-}EBlueLUTType;
-
-#pragma pack(push, video_frame, 1)
-struct VideoFeature_struct
-{
- BLUE_UINT32 Type; // Bluefish card type
- BLUE_UINT32 CardSubType;
- BLUE_UINT32 Bus; // Which PIC bus (bridge) it is on
- BLUE_UINT32 Slot; // Which slot card is plugged into
- BLUE_UINT32 Feature; // Look at the _EBlueFishCardFeatures definition to know what each bit mean
- BLUE_UINT32 FirmwareVersion;
-};
-
-struct blue_videoframe_info
-{
- BLUE_UINT64 ltcTimeCode;
- unsigned long videochannel;
- unsigned long BufferId;
- unsigned long Count;
- unsigned long DroppedFrameCount;
-};
-
-struct blue_videoframe_info_ex
-{
- BLUE_UINT64 ltcTimeCode; //LTC timecode
- unsigned long videochannel; //the channel this frame was captured from
- long BufferId; //this buffer contains the captured frame
- unsigned long Count; //total captured frames
- unsigned long DroppedFrameCount; //dropped frame count
- unsigned long nFrameTimeStamp; //field count the frame was captured at
- unsigned long nVideoSignalType; //video mode of this frame
- unsigned int nASIPktCount; //only for DVB-ASI; how many ASI packets are in this frame
- unsigned int nASIPktSize; //only for DVB-ASI; how many bytes per packet
- unsigned int nAudioValidityBits; //part of the channels status block for audio
- unsigned char pad[20]; //not used
-};
-
-struct blue_1d_lookup_table_struct
-{
- BLUE_UINT32 nVideoChannel;
- BLUE_UINT32 nLUTId;
- BLUE_UINT16 * pLUTData;
- BLUE_UINT32 nLUTElementCount;
- BLUE_UINT8 pad[256];
-};
-#pragma pack(pop, video_frame)
-
-#pragma pack(push, blue_dma_request, 1)
-struct blue_dma_request_struct
-{
- unsigned char * pBuffer;
- BLUE_UINT32 video_channel;
- BLUE_UINT32 BufferId;
- unsigned int BufferDataType;
- unsigned int FrameType;
- unsigned int BufferSize;
- unsigned int Offset;
- unsigned long BytesTransferred;
- unsigned char pad[64];
-};
-
-enum SerialPort_struct_flags
-{
- SerialPort_Read=1,
- SerialPort_Write=2,
- SerialPort_TX_Queue_Status=4,
- SerialPort_RX_Queue_Status=8,
- SerialPort_RX_FlushBuffer=16,
- SerialPort_RX_IntWait_Return_On_Data=32,
-
-};
-
-struct SerialPort_struct
-{
- unsigned char Buffer[64];
- unsigned int nBufLength;
- unsigned int nSerialPortId;
- unsigned int bFlag; // SerialPort_struct_flags
- unsigned short sTimeOut;
-};
-
-
-struct blue_video_scaler_ceofficent
-{
- BLUE_UINT32 ioctl_read_only_flag;
- BLUE_UINT32 nScalerId;
- BLUE_UINT32 nScalerFilterType;
- BLUE_UINT32 nScalerCoefficentWeight[15];
-};
-
-enum blue_video_scaler_param_flags
-{
- scaler_flags_set_destrect_as_framesize = 0x1,
-};
-
-struct blue_video_scaler_param_struct
-{
- BLUE_UINT32 ioctl_read_only_flag;
- BLUE_UINT32 nScalerId;
- BLUE_UINT32 nSrcVideoHeight;
- BLUE_UINT32 nSrcVideoWidth;
- BLUE_UINT32 nSrcVideoYPos;
- BLUE_UINT32 nSrcVideoXPos;
- BLUE_UINT32 nDestVideoHeight;
- BLUE_UINT32 nDestVideoWidth;
- BLUE_UINT32 nDestVideoYPos;
- BLUE_UINT32 nDestVideoXPos;
- BLUE_UINT32 nHScaleFactor;
- BLUE_UINT32 nVScaleFactor;
- BLUE_UINT32 nScalerOutputVideoMode;
- BLUE_UINT32 nScalerParamFlags;
- BLUE_UINT32 pad[128];
-};
-#ifndef EXCLUDE_USERLAND_STRUCT
-struct blue_color_matrix_struct{
- BLUE_UINT32 VideoChannel;
- BLUE_UINT32 MatrixColumn; //MatrixColType enumerator defines this
- double Coeff_B;
- double Coeff_R;
- double Coeff_G;
- double Coeff_K;
- double const_value;
-};
-#endif
-#pragma pack(pop, blue_dma_request)
-
-typedef enum _blue_output_hanc_ioctl_enum
-{
- blue_get_output_hanc_buffer=0,
- blue_put_output_hanc_buffer=1,
- blue_get_valid_silent_hanc_data_status=3,
- blue_set_valid_silent_hanc_data_status=4,
- blue_start_output_fifo=5,
- blue_stop_output_fifo=6,
- blue_init_output_fifo=7,
- blue_get_queues_info=8,
- blue_get_output_fifo_info=blue_get_queues_info,
- blue_get_output_fifo_status=9,
-
-}blue_output_hanc_ioctl_enum;
-
-typedef enum _blue_input_hanc_ioctl_enum
-{
- blue_get_input_hanc_buffer=0,
- blue_start_input_fifo=3,
- blue_stop_input_fifo=4,
- blue_init_input_fifo=5,
- blue_playthru_input_fifo=6,
- blue_release_input_hanc_buffer=7,
- blue_map_input_hanc_buffer=8,
- blue_unmap_input_hanc_buffer=9,
- blue_get_info_input_hanc_fifo=10,
- blue_get_input_rp188=11,
- blue_get_input_fifo_status=12,
-}blue_input_hanc_ioctl_enum;
-
-
-#define HANC_PLAYBACK_INIT (0x00000001)
-#define HANC_PLAYBACK_START (0x00000002)
-#define HANC_PLAYBACK_STOP (0x00000004)
-
-#define HANC_CAPTURE_INIT (0x00000010)
-#define HANC_CAPTURE_START (0x00000020)
-#define HANC_CAPTURE_STOP (0x00000040)
-#define HANC_CAPTURE_PLAYTHRU (0x00000080)
-
-
-typedef enum _EOracFPGAConfigCMD
-{
- ORAC_FPGA_CONFIG_CMD_ERASE_SECTOR=0,
- ORAC_FPGA_CONFIG_CMD_UNLOCK_SECTOR=1,
- ORAC_FPGA_CONFIG_CMD_WRITE_DATA=2,
- ORAC_FPGA_CONFIG_CMD_STATUS=3,
- ORAC_FPGA_CONFIG_CMD_READMODE=4,
- ORAC_FPGA_CONFIG_RAW_WRITE=5,
- ORAC_FPGA_CONFIG_RAW_READ=6,
- ORAC_FPGA_CONFIG_CMD_READ_DATA=7,
- ORAC_FPGA_CONFIG_INIT=8,
- ORAC_FPGA_CONFIG_EXIT=9
-}EOracFPGAConfigCMD;
-
-
-#define ANALOG_CHANNEL_0 MONO_CHANNEL_9
-#define ANALOG_CHANNEL_1 MONO_CHANNEL_10
-
-/*Assumes that the data is in stereo pairs not individual samples*/
-#define STEREO_PAIR_1 (MONO_CHANNEL_1|MONO_CHANNEL_2) /* Mono Channel 1 & Mono channel 2* together*/
-#define STEREO_PAIR_2 (MONO_CHANNEL_3|MONO_CHANNEL_4) /* Mono Channel 3 & Mono Channel 4* together*/
-#define STEREO_PAIR_3 (MONO_CHANNEL_5|MONO_CHANNEL_6) /* Mono Channel 5 & Mono Channel 6* together*/
-#define STEREO_PAIR_4 (MONO_CHANNEL_7|MONO_CHANNEL_8) /* Mono Channel 7 & Mono Channel 8* together*/
-
-#define ANALOG_AUDIO_PAIR (ANALOG_CHANNEL_0|ANALOG_CHANNEL_1)
-
-#define BLUE_LITTLE_ENDIAN 0
-#define BLUE_BIG_ENDIAN 1
-
-#define GREED_SILENT_HANC_BUFFER1 250
-#define GREED_SILENT_HANC_BUFFER2 251
-
-#define AES_SRC_BYPASS_CHANNEL_1_2 0x1
-#define AES_SRC_BYPASS_CHANNEL_3_4 0x2
-#define AES_SRC_BYPASS_CHANNEL_5_6 0x4
-#define AES_SRC_BYPASS_CHANNEL_7_8 0x8
-
-typedef enum _EEpochRoutingElements
-{
- EPOCH_SRC_DEST_SCALER_0=0x1,
- EPOCH_SRC_DEST_SCALER_1,
- EPOCH_SRC_DEST_SCALER_2,
- EPOCH_SRC_DEST_SCALER_3,
-
- EPOCH_SRC_SDI_INPUT_A,
- EPOCH_SRC_SDI_INPUT_B,
- EPOCH_SRC_SDI_INPUT_C,
- EPOCH_SRC_SDI_INPUT_D,
-
- EPOCH_DEST_SDI_OUTPUT_A,
- EPOCH_DEST_SDI_OUTPUT_B,
- EPOCH_DEST_SDI_OUTPUT_C,
- EPOCH_DEST_SDI_OUTPUT_D,
-
- EPOCH_SRC_OUTPUT_MEM_INTERFACE_CHA,
- EPOCH_SRC_OUTPUT_MEM_INTERFACE_CHB,
-
- EPOCH_DEST_INPUT_MEM_INTERFACE_CHA,
- EPOCH_DEST_INPUT_MEM_INTERFACE_CHB,
-
- EPOCH_DEST_AES_ANALOG_AUDIO_OUTPUT,
-
- EPOCH_SRC_AV_SIGNAL_GEN,
- EPOCH_SRC_DEST_VPIO_SCALER_0,
- EPOCH_SRC_DEST_VPIO_SCALER_1,
-
- EPOCH_DEST_VARIVUE_HDMI,
-
- EPOCH_DEST_INPUT_MEM_INTERFACE_CHC,
- EPOCH_DEST_INPUT_MEM_INTERFACE_CHD,
-
- EPOCH_SRC_OUTPUT_MEM_INTERFACE_CHC,
- EPOCH_SRC_OUTPUT_MEM_INTERFACE_CHD,
-
-}EEpochRoutingElements;
-
-
-
-#define VPEnableFieldCountTrigger ((BLUE_UINT64)1<<63)
-#define VPTriggerGetFieldCount(value) ((BLUE_UINT64)value & 0xFFFFFFFF)
-
-typedef enum _EBlueScalerFilterType
-{
- BlueScalerHorizontalYFilter=1,
- BlueScalerHorizontalCFilter=2,
- BlueScalerVerticalYFilter=3,
- BlueScalerVerticalCFilter=4,
-}EBlueScalerFilterType;
-
-
-
-#define SET_EPOCH_SCALER_MODE(scaler_id,video_mode) ((scaler_id <<16)|video_mode)
-#define GET_EPOCH_SCALER_MODE(value) (value&0xFFFF)
-#define GET_EPOCH_SCALER_ID(value) ((value&0xFFFF0000)>>16)
-
-
-// use these macros for retreiving the temp and fan speed.
-// on epoch range of cards.
-#define EPOCH_CORE_TEMP(value) (value & 0xFFFF)
-#define EPOCH_BOARD_TEMP(value) ((value>>16) & 0xFF)
-#define EPOCH_FAN_SPEED(value) ((value>>24) & 0xFF)
-
-/**
- @desc use these macro for doing the MR2 routing on epoch range of cards.
- MR2 routing can be controlled using the property MR_ROUTING.
-*/
-#define EPOCH_SET_ROUTING(routing_src,routing_dest,data_link_type) ((routing_src & 0xFF) | ((routing_dest & 0xFF)<<8) | ((data_link_type&0xFFFF)<<16))
-#define EPOCH_ROUTING_GET_SRC_DATA(value) (value & 0xFF)
-#define EPOCH_ROUTING_GET_DEST_DATA(value) ((value>>8) & 0xFF)
-#define EPOCH_ROUTING_GET_LINK_TYPE_DATA(value) ((value>>16) & 0xFFFF)
-
-#define GPIO_TX_PORT_A (1)
-#define GPIO_TX_PORT_B (2)
-
-#define EPOCH_GPIO_TX(port,value) (port<<16|value) // if want to set each of the GPO
- // ports individually you should use this macro.
- // without the macro it would set both the GPO
- // ports on the card
-
-/**
- @desc use these macros for controlling epoch application watch dog settings.
- The card property EPOCH_APP_WATCHDOG_TIMER can be used to control
- the watchdog timer functionality.
-*/
-enum enum_blue_app_watchdog_timer_prop
-{
- enum_blue_app_watchdog_timer_start_stop=(1<<31), // can be used to enable/disable timer
- enum_blue_app_watchdog_timer_keepalive=(1<<30), // can be used to reset the timer value
- enum_blue_app_watchdog_timer_get_present_time=(1<<29), // can query to get the value of the timer
- enum_blue_app_watchdog_get_timer_activated_status=(1<<28), // can query to get whether the timer has been activated
- enum_blue_app_watchdog_get_timer_start_stop_status=(1<<27), // can query whether the timer has been set.
- enum_blue_app_watchdog_enable_gpo_on_active=(1<<26), // using this enumerator you can tell the system that when
- // application watchdog timer has expired whether a GPO output should be triggered or not.
- // you can use also use this enumerator to select
- // which GPO output should be triggered with this. to use GPO port A pass a value of
- // GPIO_TX_PORT_A when this enumerator is used.
- enum_blue_hardware_watchdog_enable_gpo=(1<<25) // can be used to enable/disable GPO trigger when hardware watchdog timer has been
- // triggered
-};
-
-#define EPOCH_WATCHDOG_TIMER_SET_MACRO(prop,value) (prop|(value &0xFFFF))
-#define EPOCH_WATCHDOG_TIMER_QUERY_MACRO(prop) (prop)
-#define EPOCH_WATCHDOG_TIMER_GET_VALUE_MACRO(value) (value&0xFFFF)
-
-enum enum_blue_rs422_port_flags
-{
- enum_blue_rs422_port_set_as_slave =(1<<0) // If this flag is set the RS422 port would be set to slave mode.
- // by default port is setup to work in master mode , where it would be acting
- // as master in the transactions.
-};
-#define EPOCH_RS422_PORT_FLAG_SET_MACRO(portid,value) ((portid&0x3)|(value<<3))
-#define EPOCH_RS422_PORT_FLAG_GET_FLAG_MACRO(value) ((value>>3)&0xFFFF)
-#define EPOCH_RS422_PORT_FLAG_GET_PORTID_MACRO(value) (value&0x3)
-
-
-enum enum_blue_dvb_asi_packing_format
-{
- enum_blue_dvb_asi_packed_format=1,/**< In this packing method the asi packets are stored as 188 or 204 bytes*/
- enum_blue_dvb_asi_packed_format_with_timestamp=2,/**< In this packing method the asi packets are stored as (8+188) or (8+204) bytes
- The timestamp is stored at the begininig of the packet , using 8 bytes*/
- enum_blue_dvb_asi_256byte_container_format=3,
- enum_blue_dvb_asi_256byte_container_format_with_timestamp=4
-};
-
-
-#define RS422_SERIALPORT_FLAG(timeout,port,RxFlushBuffer) (((unsigned long)(timeout)<<16)|(port & 0x3) | (RxFlushBuffer<<15))
-// use this macro with Wait_For_SerialPort_InputData,
-// if you you want the function to return
-// immediatelty when it gets byte in the serial RX port.
-#define RS422_SERIALPORT_FLAG2(timeout,port,RxFlushBuffer,RXIntWaitReturnOnAvailData) (((unsigned long)(timeout)<<16)|(port & 0x3) | (RxFlushBuffer<<15)|(RXIntWaitReturnOnAvailData<<14))
-
-typedef enum _blue_blackgenerator_status
-{
- ENUM_BLACKGENERATOR_OFF = 0, //producing normal video output
- ENUM_BLACKGENERATOR_ON = 1, //producing black video output
- ENUM_BLACKGENERATOR_SDI_SYNC_OFF = 2 //no valid SDI signal is coming out of our SDI output connector; only available in Epoch ASI firmware
-}blue_blackgenerator_status;
projects / casparcg / blobdiff