windows-nt/Source/XPSP1/NT/drivers/wdm/capture/mini/mstape/mstpfmt.h

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2020-09-26 03:20:57 -05:00
/*++
Copyright (C) Microsoft Corporation, 2000 - 2001
Module Name:
MsTpFmt.h
Abstract:
Header file for AV/C Tape format data.
Last changed by:
$Author:: $
Environment:
Kernel mode only
Revision History:
$Revision:: $
$Date:: $
--*/
#ifndef _DVFORMAT_INC
#define _DVFORMAT_INC
// ****************
// Support switches
// ****************
//
// Differnt level of WDM supports may use different API
//
// e.g. MmGetSystemAddressForMdl (win9x)
// Return NULL for Win9x; bugcheck for Win2000 if NULL would have returned.
//
// MmGetSystemAddressForMdlSafe (win2000)
// Not supported in Win9x or Millen
//
// #define USE_WDM110 // Define this if WDM1.10 is used; e.g. Win2000 code base; Set this in SOURCES file.
//
// Turn this on to support HD DVCR
//#define MSDV_SUPPORT_HD_DVCR
//
// Turn this on to support SDL DVCR
//#define SUPPORT_SDL_DVCR
//
// Turn on this switch to support bus reset KS event
// #define MSDVDV_SUPPORT_BUSRESET_EVENT
//
// Turn this define to extract timecode from a video frame
// Advantage: faster turn around compare to an AVC status command
// #define MSDV_SUPPORT_EXTRACT_SUBCODE_DATA
//
// To get recorded date and time
// #define MSDV_SUPPORT_EXTRACT_DV_DATE_TIME
//
// Mute audio when in pause state while transmitting to DV
#define MSDV_SUPPORT_MUTE_AUDIO
//
// Support getting regitry value for this device
//
// #define READ_CUTOMIZE_REG_VALUES
//
// Suuport accessing to the device's interface section
//
#define SUPPORT_ACCESS_DEVICE_INTERFACE
//
// Support new AVC - plug connection ..etc.
//
// #define SUPPORT_NEW_AVC
//
// Support local plug.
//
#define SUPPORT_LOCAL_PLUG
//
// Testing
//
#if DBG
#define EnterAVCStrm(pMutex) \
{ \
KeWaitForMutexObject(pMutex, Executive, KernelMode, FALSE, NULL);\
InterlockedIncrement(&MSDVCRMutextUseCount);\
}
#define LeaveAVCStrm(pMutex) \
{ \
KeReleaseMutex(pMutex, FALSE);\
InterlockedDecrement(&MSDVCRMutextUseCount);\
}
#else
#define EnterAVCStrm(pMutex) KeWaitForMutexObject(pMutex, Executive, KernelMode, FALSE, NULL);
#define LeaveAVCStrm(pMutex) KeReleaseMutex(pMutex, FALSE);
#endif
//
// DV format tables
//
typedef struct _STREAM_INFO_AND_OBJ {
HW_STREAM_INFORMATION hwStreamInfo;
HW_STREAM_OBJECT hwStreamObject;
} STREAM_INFO_AND_OBJ, *PSTREAM_INFO_AND_OBJ;
// All CIP sizes are in quads. The upper third byte is the size.
#define CIP_HDR_FMT_DV 0x00
#define CIP_HDR_FMT_DVCPRO 0x1e
//
// 1394 stuff
//
#define SPEED_100_INDEX 0
#define SPEED_200_INDEX 1
#define SPEED_400_INDEX 2
#define CIP_DBS_SD_DVCR 120 // quadlets in a data block of the SD DVCR; BlueBook Part 2
#define CIP_DBS_HD_DVCR 240 // quadlets in a data block of the HD DVCR; BlueBook Part 3
#define CIP_DBS_SDL_DVCR 108 // quadlets in a data block of the SDL DVCR; BlueBook Part 5
#define CIP_FN_SD_DVCR 0 // Data blocks in a source pacaket of SD DVCR; BlueBook Part 2
#define CIP_FN_HD_DVCR 0 // Data blocks in a source pacaket of HD DVCR; BlueBook Part 3
#define CIP_FN_SDL_DVCR 0 // Data blocks in a source pacaket of SDL DVCR; BlueBook Part 5
#define MAX_FCP_PAYLOAD_SIZE 512
// CIP header definition:
// FMT: "Blue book" Part 1, page 25, Table 3; DVCR:000000
#define FMT_DVCR 0x80 // 10:FMT(00:0000)
#define FMT_DVCR_CANON 0x20 // 10:FMT(00:0000); but Canon return 00:FMT(10:0000)
#define FMT_MPEG 0xa0 // 10:FMT(10:0000)
// FDF
#define FDF0_50_60_MASK 0x80
#define FDF0_50_60_PAL 0x80
#define FDF0_50_60_NTSC 0x00
#define FDF0_STYPE_MASK 0x7c
#define FDF0_STYPE_SD_DVCR 0x00 // STYPE: 000:00
#define FDF0_STYPE_SDL_DVCR 0x04 // STYPE: 000:01
#define FDF0_STYPE_HD_DVCR 0x08 // STYPE: 000:10
#define FDF0_STYPE_SD_DVCPRO 0x78 // STYPE: 111:10
// PCR constants
#define PCR_OVERHEAD_ID_SDDV_DEF 0xf // 480; delays caused by IEEE 1394 bus parmeters
#define PCR_PAYLOAD_SDDV_DEF 122 // Fixed: 122 * 4 = 480 + 8
#define PCR_OVERHEAD_ID_MPEG2TS_DEF 0xf // 480; delays caused by IEEE 1394 bus parmeters
#define PCR_PAYLOAD_MPEG2TS_DEF 146 // Variable but this is based on oPCR of a Panasonic's D-VHS
//
// FCP and AVCC stuff. Used in conjunction with defs in 1394.h
//
// DVCR:
#define SUBUNIT_TYPE_CAMCORDER 4
#define SUBUNIT_ID_CAMCORDER 0
#define DIF_SEQS_PER_NTSC_FRAME 10
#define DIF_SEQS_PER_PAL_FRAME 12
#define SRC_PACKETS_PER_NTSC_FRAME 250
#define SRC_PACKETS_PER_PAL_FRAME 300
#define NUM_OF_RCV_BUFFERS_DV 8
#define NUM_OF_XMT_BUFFERS_DV 8
// MPEG2TS
#define MPEG2TS_STRIDE_OFFSET 4 // 4 byte of SPH
#define MPEG2TS_STRIDE_PACKET_LEN 188 // standard 188-byte packet
#define MPEG2TS_STRIDE_STRIDE_LEN (MPEG2TS_STRIDE_OFFSET+MPEG2TS_STRIDE_PACKET_LEN) // Stride packet length
//
// Data buffers
//
#define NUM_BUF_ATTACHED_THEN_ISOCH 4 // number of buffers attached before streaming and also as the water mark.
#define DV_NUM_EXTRA_USER_XMT_BUFFERS 12 // Extra user buffers that the data source can send to us as a read ahead.
#define DV_NUM_OF_XMT_BUFFERS (NUM_BUF_ATTACHED_THEN_ISOCH + DV_NUM_EXTRA_USER_XMT_BUFFERS)
//
// The "signature" of the header section of Seq0 of incoming source packets:
//
// "Blue" book, Part2, 11.4 (page 50); Figure 66, table 36 (page 111)
//
// ID0 = {SCT2,SCT1,SCT0,RSV,Seq3,Seq2,Seq1,Seq0} = {0,0,0,1, 1,1,1,1} = 0x1f
//
// SCT2-0 = {0,0,0}
// RSV = {1}
// Seq3-0 = {1,1,1,1} for NoInfo or {0,0,0,} for Sequence 0
//
// ID1 = {DSeq3-0, 0, RSV, RSV, RSV} = {0,0,0,0, 0,1,1,1} = 0x07
// DSeq3-0 = {0, 0, 0, 0} // Start from seq 0
//
#define ID0_SEQ0_HEADER_MASK 0xf0 // 11110000 Seq3-0 = xxxx Don't care!; check only SCT2-0:000 and RSV:1
#define ID0_SEQ0_HEADER_NO_INFO 0x1f // 00011111 Seq3-0 = 1111 no data (Most of Consumer DV)
#define ID0_SEQ0_HEADER_0000 0x10 // 00010000 Seq3-0 = 0000 sequence 0 (DVCPRO)
#define ID1_SEQ0_HEADER 0x07 // 00000111
//
// AV/C command response data definition
//
#define AVC_SUBTYPE_MASK 0xf8
#define AVC_DEVICE_TAPE_REC 0x20 // 00100:000
#define AVC_DEVICE_CAMERA 0x38 // 00111:000
#define AVC_DEVICE_TUNER 0x28 // 00101:000
#define AVC_DEVICE_UNKNOWN 0xff // 11111:111
//
// GUID definitions for pins and DV format types.
//
// DV vid only output pin
#define STATIC_PINNAME_DV_VID_OUTPUT \
0x5b21c540L, 0x7aee, 0x11d1, 0x88, 0x3b, 0x00, 0x60, 0x97, 0xf0, 0x5c, 0x70
DEFINE_GUIDSTRUCT("5b21c540-7aee-11d1-883b-006097f05c70", PINNAME_DV_VID_OUTPUT);
#define PINNAME_DV_VID_OUTPUT DEFINE_GUIDNAMED(PINNAME_DV_VID_OUTPUT)
#define PINNAME_VID_OUT PINNAME_DV_VID_OUTPUT
// DV A/V output pin
#define STATIC_PINNAME_DV_AV_OUTPUT \
0x5b21c541L, 0x7aee, 0x11d1, 0x88, 0x3b, 0x00, 0x60, 0x97, 0xf0, 0x5c, 0x70
DEFINE_GUIDSTRUCT("5b21c540-7aee-11d1-883b-006097f05c70", PINNAME_DV_AV_OUTPUT);
#define PINNAME_DV_AV_OUTPUT DEFINE_GUIDNAMED(PINNAME_DV_AV_OUTPUT)
#define PINNAME_AV_OUTPUT PINNAME_DV_AV_OUTPUT
// DV A/V input pin
#define STATIC_PINNAME_DV_AV_INPUT \
0x5b21c543L, 0x7aee, 0x11d1, 0x88, 0x3b, 0x00, 0x60, 0x97, 0xf0, 0x5c, 0x70
DEFINE_GUIDSTRUCT("5b21c543-7aee-11d1-883b-006097f05c70", PINNAME_DV_AV_INPUT);
#define PINNAME_DV_AV_INPUT DEFINE_GUIDNAMED(PINNAME_DV_AV_INPUT)
#define PINNAME_AV_INPUT PINNAME_DV_AV_INPUT
// MPEG2TS Output pin
#define STATIC_PINNAME_MPEG2TS_OUTPUT \
0x2CFF7B83L, 0x96F1, 0x47e3, 0x98, 0xEC, 0x57, 0xBD, 0x8A, 0x99, 0x72, 0x15
DEFINE_GUIDSTRUCT("2CFF7B83-96F1-47e3-98EC-57BD8A997215", PINNAME_MPEG2TS_OUTPUT);
#define PINNAME_MPEG2TS_OUTPUT DEFINE_GUIDNAMED(PINNAME_MPEG2TS_OUTPUT)
#define PINNAME_AV_MPEG2TS_OUTPUT PINNAME_MPEG2TS_OUTPUT
// MPEG2TS Input pin
#define STATIC_PINNAME_MPEG2TS_INPUT \
0xCF4C59A3L, 0xACE3, 0x444B, 0x8C, 0x37, 0xB, 0x22, 0x66, 0x1A, 0x4A, 0x29
DEFINE_GUIDSTRUCT("CF4C59A3-ACE3-444b-8C37-0B22661A4A29", PINNAME_MPEG2TS_INPUT);
#define PINNAME_MPEG2TS_INPUT DEFINE_GUIDNAMED(PINNAME_MPEG2TS_INPUT)
#define PINNAME_AV_MPEG2TS_INPUT PINNAME_MPEG2TS_INPUT
#endif