| Current Path : /usr/src/sys/dev/ce/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
| Current File : //usr/src/sys/dev/ce/tau32-ddk.h |
/*
* DDK (Driver Development Kit) for Cronyx Tau32-PCI adapter.
*
* Copyright (C) 2003-2006 Cronyx Engineering, http://www.cronyx.ru
* All rights reserved.
*
* Author: Leo Yuriev <ly@cronyx.ru>, http://leo.yuriev.ru
*
* $Cronyx: tau32-ddk.h,v 1.2 2006/02/01 09:14:40 ly Exp $
* $Rik: tau32-ddk.h,v 1.7 2006/02/28 22:33:29 rik Exp $
* $FreeBSD: release/9.1.0/sys/dev/ce/tau32-ddk.h 156143 2006-03-01 09:50:20Z rik $
*/
#if defined(__GNUC__) || defined(__TURBOC__)
# ifndef __int8
# define __int8 char
# endif
# ifndef __int16
# define __int16 short
# endif
# ifndef __int32
# define __int32 long
# endif
# ifndef __int64
# define __int64 long long
# endif
#endif
#if !defined(BOOLEAN) && !defined(_NTDDK_)
# define BOOLEAN int
#endif
#if defined(__GNUC__) && !defined(__stdcall)
# define __stdcall __attribute__((stdcall))
#endif
#if defined(__GNUC__) && !defined(__cdecl)
# define __cdecl __attribute__((cdecl))
#endif
#ifndef TAU32_CALLBACK_TYPE
# if defined(__WINDOWS__) || defined(_MSC_VER) || defined(WIN32) || defined(WIN64)
# define TAU32_CALLBACK_TYPE __stdcall
# else
# define TAU32_CALLBACK_TYPE __cdecl
# endif
#endif
#ifndef TAU32_CALL_TYPE
# if defined(__WINDOWS__) || defined(_MSC_VER) || defined(WIN32) || defined(WIN64)
# define TAU32_CALL_TYPE __stdcall
# else
# define TAU32_CALL_TYPE __cdecl
# endif
#endif
#ifndef PCI_PHYSICAL_ADDRESS
# ifdef PCI64
# error PCI64 currently is not supported
# else
# define PCI_PHYSICAL_ADDRESS unsigned __int32
# endif
#endif
#define TAU32_PCI_VENDOR_ID 0x110A
#define TAU32_PCI_DEVICE_ID 0x2101
#define TAU32_PCI_IO_BAR1_SIZE 0x0100
#define TAU32_PCI_RESET_ADDRESS 0x004C
#define TAU32_PCI_RESET_ON 0xF00F0000ul /*0xFFFFFFFFul */
#define TAU32_PCI_RESET_OFF 0
#define TAU32_PCI_RESET_LENGTH 4
/* TAU32_MODELS */
#define TAU32_ERROR (-1)
#define TAU32_UNKNOWN 0
#define TAU32_BASE 1
#define TAU32_LITE 2
#define TAU32_ADPCM 3
/* TAU32_INIT_ERRORS */
#define TAU32_IE_OK 0x0000u
#define TAU32_IE_FIRMWARE 0x0001u
#define TAU32_IE_MODEL 0x0002u
#define TAU32_IE_E1_A 0x0004u
#define TAU32_IE_E1_B 0x0008u
#define TAU32_IE_INTERNAL_BUS 0x0010u
#define TAU32_IE_HDLC 0x0020u
#define TAU32_IE_ADPCM 0x0040u
#define TAU32_IE_CLOCK 0x0080u
#define TAU32_IE_DXC 0x0100u
#define TAU32_IE_XIRQ 0x0200u
/* TAU32_INTERFACES */
#define TAU32_E1_ALL (-1)
#define TAU32_E1_A 0
#define TAU32_E1_B 1
/* TAU32_LIMITS */
#define TAU32_CHANNELS 32
#define TAU32_TIMESLOTS 32
#define TAU32_MAX_INTERFACES 2
#define TAU32_MTU 8184
#define TAU32_FLAT_MTU 4096
#define TAU32_IO_QUEUE 4
#define TAU32_IO_QUEUE_BYTES 128
#define TAU32_MAX_REQUESTS 512
#define TAU32_MAX_BUFFERS 256
#define TAU32_FIFO_SIZE 256
/* TAU32_REQUEST_COMMANDS */
#define TAU32_Tx_Start 0x0001u
#define TAU32_Tx_Stop 0x0002u
/*#define TAU32_Tx_Flush 0x0004u // yet not implemented */
#define TAU32_Tx_Data 0x0008u
#define TAU32_Rx_Start 0x0010u
#define TAU32_Rx_Stop 0x0020u
#define TAU32_Rx_Data 0x0080u
#define TAU32_Configure_Channel 0x0100u
#define TAU32_Timeslots_Complete 0x0200u
#define TAU32_Timeslots_Map 0x0400u
#define TAU32_Timeslots_Channel 0x0800u
#define TAU32_ConfigureDigitalLoop 0x1000u
#define TAU32_Configure_Commit 0x2000u
#define TAU32_Tx_FrameEnd 0x4000u
#define TAU32_Tx_NoCrc 0x8000u
#define TAU32_Configure_E1 0x0040u
/* TAU32_ERRORS */
#define TAU32_NOERROR 0x000000ul
#define TAU32_SUCCESSFUL 0x000000ul
#define TAU32_ERROR_ALLOCATION 0x000001ul /* not enough tx/rx descriptors */
#define TAU32_ERROR_BUS 0x000002ul /* PEB could not access to host memory by PCI bus for load/store information */
#define TAU32_ERROR_FAIL 0x000004ul /* PEB action request failed */
#define TAU32_ERROR_TIMEOUT 0x000008ul /* PEB action request timeout */
#define TAU32_ERROR_CANCELLED 0x000010ul
#define TAU32_ERROR_TX_UNDERFLOW 0x000020ul /* transmission underflow */
#define TAU32_ERROR_TX_PROTOCOL 0x000040ul /* reserved */
#define TAU32_ERROR_RX_OVERFLOW 0x000080ul
#define TAU32_ERROR_RX_ABORT 0x000100ul
#define TAU32_ERROR_RX_CRC 0x000200ul
#define TAU32_ERROR_RX_SHORT 0x000400ul
#define TAU32_ERROR_RX_SYNC 0x000800ul
#define TAU32_ERROR_RX_FRAME 0x001000ul
#define TAU32_ERROR_RX_LONG 0x002000ul
#define TAU32_ERROR_RX_SPLIT 0x004000ul /* frame has splitted between two requests due rx-gap allocation */
#define TAU32_ERROR_RX_UNFIT 0x008000ul /* frame can't be fit into request buffer */
#define TAU32_ERROR_TSP 0x010000ul
#define TAU32_ERROR_RSP 0x020000ul
#define TAU32_ERROR_INT_OVER_TX 0x040000ul
#define TAU32_ERROR_INT_OVER_RX 0x080000ul
#define TAU32_ERROR_INT_STORM 0x100000ul
#define TAU32_ERROR_INT_E1LOST 0x200000ul
#define TAU32_WARN_TX_JUMP 0x400000ul
#define TAU32_WARN_RX_JUMP 0x800000ul
/* TAU32_CHANNEL_MODES */
#define TAU32_HDLC 0
#define TAU32_V110_x30 1
#define TAU32_TMA 2
#define TAU32_TMB 3
#define TAU32_TMR 4
/* TAU32_SYNC_MODES */
#define TAU32_SYNC_INTERNAL 0
#define TAU32_SYNC_RCV_A 1
#define TAU32_SYNC_RCV_B 2
#define TAU32_SYNC_LYGEN 3
#define TAU32_LYGEN_RESET 0
/* TAU32_CHANNEL_CONFIG_BITS */
#define TAU32_channel_mode_mask 0x0000000Ful
#define TAU32_data_inversion 0x00000010ul
#define TAU32_fr_rx_splitcheck 0x00000020ul
#define TAU32_fr_rx_fitcheck 0x00000040ul
#define TAU32_fr_tx_auto 0x00000080ul
#define TAU32_hdlc_crc32 0x00000100ul
#define TAU32_hdlc_adjustment 0x00000200ul
#define TAU32_hdlc_interframe_fill 0x00000400ul
#define TAU32_hdlc_nocrc 0x00000800ul
#define TAU32_tma_flag_filtering 0x00001000ul
#define TAU32_tma_nopack 0x00002000ul
#define TAU32_tma_flags_mask 0x00FF0000ul
#define TAU32_tma_flags_shift 16u
#define TAU32_v110_x30_tr_mask 0x03000000ul
#define TAU32_v110_x30_tr_shift 24u
typedef struct tag_TAU32_TimeslotAssignment
{
unsigned __int8 TxChannel, RxChannel;
unsigned __int8 TxFillmask, RxFillmask;
} TAU32_TimeslotAssignment;
#define TAU32_CROSS_WIDTH 96
#define TAU32_CROSS_OFF 127
typedef unsigned __int8 TAU32_CrossMatrix[TAU32_CROSS_WIDTH];
/* TAU32_INTERFACE_CONFIG_BITS */
#define TAU32_LineOff (0ul << 0)
#define TAU32_LineLoopInt (1ul << 0)
#define TAU32_LineLoopExt (2ul << 0)
#define TAU32_LineNormal (3ul << 0)
#define TAU32_LineAIS (4ul << 0)
#define TAU32_line_mode_mask 0x0000000Ful
#define TAU32_unframed_64 (0ul << 4)
#define TAU32_unframed_128 (1ul << 4)
#define TAU32_unframed_256 (2ul << 4)
#define TAU32_unframed_512 (3ul << 4)
#define TAU32_unframed_1024 (4ul << 4)
#define TAU32_unframed_2048 (5ul << 4)
#define TAU32_unframed TAU32_unframed_2048
#define TAU32_framed_no_cas (6ul << 4)
#define TAU32_framed_cas_set (7ul << 4)
#define TAU32_framed_cas_pass (8ul << 4)
#define TAU32_framed_cas_cross (9ul << 4)
#define TAU32_framing_mode_mask 0x000000F0ul
#define TAU32_monitor 0x00000100ul
#define TAU32_higain 0x00000200ul
#define TAU32_sa_bypass 0x00000400ul
#define TAU32_si_bypass 0x00000800ul
#define TAU32_cas_fe 0x00001000ul
#define TAU32_ais_on_loss 0x00002000ul
#define TAU32_cas_all_ones 0x00004000ul
#define TAU32_cas_io 0x00008000ul
#define TAU32_fas_io 0x00010000ul
#define TAU32_fas8_io 0x00020000ul
#define TAU32_auto_ais 0x00040000ul
#define TAU32_not_auto_ra 0x00080000ul
#define TAU32_not_auto_dmra 0x00100000ul
#define TAU32_ra 0x00200000ul
#define TAU32_dmra 0x00400000ul
#define TAU32_scrambler 0x00800000ul
#define TAU32_tx_ami 0x01000000ul
#define TAU32_rx_ami 0x02000000ul
#define TAU32_ja_tx 0x04000000ul
#define TAU32_crc4_mf_tx 0x08000000ul
#define TAU32_crc4_mf_rx 0x10000000ul
#define TAU32_crc4_mf (TAU32_crc4_mf_rx | TAU32_crc4_mf_tx)
/* TAU32_SA_CROSS_VALUES */
#define TAU32_SaDisable 0u
#define TAU32_SaSystem 1u
#define TAU32_SaIntA 2u
#define TAU32_SaIntB 3u
#define TAU32_SaAllZeros 4u
typedef struct tag_TAU32_SaCross
{
unsigned __int8 InterfaceA, InterfaceB;
unsigned __int8 SystemEnableTs0;
} TAU32_SaCross;
/* TAU32_INTERFACE_STATUS_BITS */
#define TAU32_RCL 0x0001u /* receive carrier lost */
#define TAU32_RLOS 0x0002u /* receive sync lost */
#define TAU32_RUA1 0x0004u /* received unframed all ones */
#define TAU32_RRA 0x0008u /* receive remote alarm */
#define TAU32_RSA1 0x0010u /* receive signaling all ones */
#define TAU32_RSA0 0x0020u /* receive signaling all zeros */
#define TAU32_RDMA 0x0040u /* receive distant multiframe alarm */
#define TAU32_LOTC 0x0080u /* transmit clock lost */
#define TAU32_RSLIP 0x0100u /* receiver slip event */
#define TAU32_TSLIP 0x0200u /* transmitter slip event */
#define TAU32_RFAS 0x0400u /* receiver lost and searching for FAS */
#define TAU32_RCRC4 0x0800u /* receiver lost and searching for CRC4 MF */
#define TAU32_RCAS 0x1000u /* received lost and searching for CAS MF */
#define TAU32_JITTER 0x2000u /* jitter attenuator limit */
#define TAU32_RCRC4LONG 0x4000u /* G.706 400ms limit of searching for CRC4 */
#define TAU32_E1OFF 0x8000u /* E1 line power-off */
#define TAU32_LOS TAU32_RLOS
#define TAU32_AIS TAU32_RUA1
#define TAU32_LOF TAU32_RFAS
#define TAU32_AIS16 TAU32_RSA1
#define TAU32_LOFM TAU32_RCAS
#define TAU32_FLOFM TAU32_RDMA
/* TAU32_STATUS */
#define TAU32_FRLOFM 0x0001u /* CAS framer searching for CAS MF */
#define TAU32_CMWAITING 0x0002u /* Connection memory swap waiting */
#define TAU32_CMPENDING 0x0004u /* Connection memory swap pending */
#define TAU32_LED 0x0008u /* Led status (on/off) */
typedef struct tag_TAU32_Controller TAU32_Controller;
typedef struct tag_TAU32_UserRequest TAU32_UserRequest;
typedef struct tag_TAU32_UserContext TAU32_UserContext;
typedef union tag_TAU32_tsc TAU32_tsc;
typedef struct tag_TAU32_FlatIoContext TAU32_FlatIoContext;
typedef void(TAU32_CALLBACK_TYPE *TAU32_RequestCallback)(TAU32_UserContext *pContext, TAU32_UserRequest *pUserRequest);
typedef void(TAU32_CALLBACK_TYPE *TAU32_NotifyCallback)(TAU32_UserContext *pContext, int Item, unsigned NotifyBits);
typedef void(TAU32_CALLBACK_TYPE *TAU32_FifoTrigger)(TAU32_UserContext *pContext, int Interface, unsigned FifoId, unsigned Level);
typedef void(TAU32_CALLBACK_TYPE *TAU32_FlatIoCallback)(TAU32_UserContext *pContext, TAU32_FlatIoContext *pFlatIoContext);
union tag_TAU32_tsc
{
unsigned __int32 osc, sync;
};
struct tag_TAU32_FlatIoContext
{
void *pInternal;
PCI_PHYSICAL_ADDRESS PhysicalBufferAddress;
unsigned Channel, ItemsCount, EachItemBufferSize;
unsigned Received, ActualOffset, Errors;
#if defined(_NTDDK_)
KDPC CallbackDpc;
void SetupCallback(PKDEFERRED_ROUTINE DeferredCallbackRoutine, void* pContext)
{
CallbackDpc.DeferredRoutine = DeferredCallbackRoutine;
CallbackDpc.DeferredContext = pContext;
}
void SetupCallback(TAU32_FlatIoCallback pCallback)
{
CallbackDpc.DeferredRoutine = (PKDEFERRED_ROUTINE) pCallback;
CallbackDpc.DeferredContext = 0;
}
#else
TAU32_FlatIoCallback pCallback;
#endif
};
/* TAU32_FIFO_ID */
#define TAU32_FifoId_CasRx 0u
#define TAU32_FifoId_CasTx 1u
#define TAU32_FifoId_FasRx 2u
#define TAU32_FifoId_FasTx 3u
#define TAU32_FifoId_Max 4u
typedef struct tag_TAU32_E1_State
{
unsigned __int32 TickCounter;
unsigned __int32 RxViolations;
unsigned __int32 Crc4Errors;
unsigned __int32 FarEndBlockErrors;
unsigned __int32 FasErrors;
unsigned __int32 TransmitSlips;
unsigned __int32 ReceiveSlips;
unsigned __int32 Status;
unsigned __int32 FifoSlip[TAU32_FifoId_Max];
} TAU32_E1_State;
struct tag_TAU32_UserContext
{
/* fields provided by user for for TAU32_Initiaize() */
TAU32_Controller *pControllerObject;
PCI_PHYSICAL_ADDRESS ControllerObjectPhysicalAddress;
void *PciBar1VirtualAddress;
TAU32_NotifyCallback pErrorNotifyCallback;
TAU32_NotifyCallback pStatusNotifyCallback;
#if defined(_NTDDK_)
PKINTERRUPT InterruptObject;
#endif
/* TODO: remove from release */
#define TAU32_CUSTOM_FIRMWARE
#ifdef TAU32_CUSTOM_FIRMWARE
void *pCustomFirmware;
unsigned CustomFirmwareSize;
#endif
/* fields filled by TAU32_Initiaize() */
int Model;
int Interfaces;
unsigned InitErrors;
unsigned __int32 DeadBits;
/* fields managed by DDK */
unsigned AdapterStatus;
unsigned CasIoLofCount;
unsigned E1IntLostCount;
unsigned CableTypeJumpers;
TAU32_E1_State InterfacesInfo[TAU32_MAX_INTERFACES];
/* fields which are't used by DDK, but nice for user */
#ifdef TAU32_UserContext_Add
TAU32_UserContext_Add
#endif
};
struct tag_TAU32_UserRequest
{
/* required fields */
void *pInternal; /* internal */
unsigned Command; /* in */
#if defined(_NTDDK_)
KDPC CallbackDpc;
void SetupCallback(PKDEFERRED_ROUTINE DeferredCallbackRoutine, void* pContext)
{
CallbackDpc.DeferredRoutine = DeferredCallbackRoutine;
CallbackDpc.DeferredContext = pContext;
}
void SetupCallback(TAU32_RequestCallback pCallback)
{
CallbackDpc.DeferredRoutine = (PKDEFERRED_ROUTINE) pCallback;
CallbackDpc.DeferredContext = 0;
}
#else
TAU32_RequestCallback pCallback; /* in */
#endif
unsigned __int32 ErrorCode; /* out */
union
{
unsigned ChannelNumber; /* just common field */
struct
{
unsigned Channel; /* in */
unsigned __int32 Config; /* in */
unsigned __int32 AssignedTsMask; /* build channel from timeslots which is selected by mask */
} ChannelConfig;
struct
{
int Interface;
unsigned __int32 Config; /* in */
unsigned __int32 UnframedTsMask;
} InterfaceConfig;
struct
{
unsigned Channel; /* in */
PCI_PHYSICAL_ADDRESS PhysicalDataAddress; /* in */
unsigned DataLength; /* in */
unsigned Transmitted; /* out */
} Tx;
struct
{
unsigned Channel; /* in */
PCI_PHYSICAL_ADDRESS PhysicalDataAddress; /* in */
unsigned BufferLength; /* in */
unsigned Received; /* out */
BOOLEAN FrameEnd; /* out */
} Rx;
BOOLEAN DigitalLoop; /* in, loop by PEB */
union
{
TAU32_TimeslotAssignment Complete[TAU32_TIMESLOTS];
unsigned __int32 Map[TAU32_CHANNELS];
} TimeslotsAssignment;
} Io;
/* fields which are't used by DDK, but nice for user */
#ifdef TAU32_UserRequest_Add
TAU32_UserRequest_Add
#endif
};
#define TAU32_IS_REQUEST_RUNNING(pUserRequest) ((pUserRequest)->pInternal != NULL)
#define TAU32_IS_REQUEST_NOT_RUNNING(pUserRequest) ((pUserRequest)->pInternal == NULL)
#ifndef TAU32_DDK_DLL
# if defined(_NTDDK_)
# ifdef TAU32_DDK_IMP
# define TAU32_DDK_DLL __declspec(dllexport)
# else
# define TAU32_DDK_DLL __declspec(dllimport)
# endif
# else
# define TAU32_DDK_DLL
# endif
#endif
#ifdef __cplusplus
extern "C"
{
#endif
void TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_BeforeReset(TAU32_UserContext *pUserContext);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_Initialize(TAU32_UserContext *pUserContext, BOOLEAN CronyxDiag);
void TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_DestructiveHalt(TAU32_Controller *pControllerObject, BOOLEAN CancelRequests);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_IsInterruptPending(TAU32_Controller *pControllerObject);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_HandleInterrupt(TAU32_Controller *pControllerObject);
extern unsigned const TAU32_ControllerObjectSize;
/* LY: все функции ниже, могут реентерабельно вызываться из callback-ов */
void TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_EnableInterrupts(TAU32_Controller *pControllerObject);
void TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_DisableInterrupts(TAU32_Controller *pControllerObject);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_SubmitRequest(TAU32_Controller *pControllerObject, TAU32_UserRequest *pRequest);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_CancelRequest(TAU32_Controller *pControllerObject, TAU32_UserRequest *pRequest, BOOLEAN BreakIfRunning);
void TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_LedBlink(TAU32_Controller *pControllerObject);
void TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_LedSet(TAU32_Controller *pControllerObject, BOOLEAN On);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_SetCasIo(TAU32_Controller *pControllerObject, BOOLEAN Enabled);
unsigned __int64 TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_ProbeGeneratorFrequency(unsigned __int64 Frequency);
unsigned __int64 TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_SetGeneratorFrequency(TAU32_Controller *pControllerObject, unsigned __int64 Frequency);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_SetSyncMode(TAU32_Controller *pControllerObject, unsigned Mode);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_SetCrossMatrix(TAU32_Controller *pControllerObject, unsigned __int8 *pCrossMatrix, unsigned __int32 ReverseMask);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_SetIdleCodes(TAU32_Controller *pControllerObject, unsigned __int8 *pIdleCodes);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_UpdateIdleCodes(TAU32_Controller *pControllerObject, int Interface, unsigned __int32 TimeslotMask, unsigned __int8 IdleCode);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_SetSaCross(TAU32_Controller *pControllerObject, TAU32_SaCross SaCross);
int TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_FifoPutCasAppend(TAU32_Controller *pControllerObject, int Interface, unsigned __int8 *pBuffer, unsigned Length);
int TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_FifoPutCasAhead(TAU32_Controller *pControllerObject, int Interface, unsigned __int8 *pBuffer, unsigned Length);
int TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_FifoGetCas(TAU32_Controller *pControllerObject, int Interface, unsigned __int8 *pBuffer, unsigned Length);
int TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_FifoPutFasAppend(TAU32_Controller *pControllerObject, int Interface, unsigned __int8 *pBuffer, unsigned Length);
int TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_FifoPutFasAhead(TAU32_Controller *pControllerObject, int Interface, unsigned __int8 *pBuffer, unsigned Length);
int TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_FifoGetFas(TAU32_Controller *pControllerObject, int Interface, unsigned __int8 *pBuffer, unsigned Length);
BOOLEAN TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_SetFifoTrigger(TAU32_Controller *pControllerObject, int Interface, unsigned FifoId, unsigned Level, TAU32_FifoTrigger Trigger);
void TAU32_DDK_DLL TAU32_CALL_TYPE TAU32_ReadTsc(TAU32_Controller *pControllerObject, TAU32_tsc *pResult);
/* for Cronyx Engineering use only !!! */
#define TAU32_CRONYX_P 0
#define TAU32_CRONYX_PS 1
#define TAU32_CRONYX_PA 2
#define TAU32_CRONYX_PB 3
#define TAU32_CRONYX_I 4
#define TAU32_CRONYX_O 5
#define TAU32_CRONYX_U 6
#define TAU32_CRONYX_R 7
#define TAU32_CRONYX_W 8
#define TAU32_CRONYX_RW 9
#define TAU32_CRONYX_WR 10
#define TAU32_CRONYX_S 11
#define TAU32_CRONYX_G 12
unsigned __int32 TAU32_CALL_TYPE TAU32_Diag(TAU32_Controller *pControllerObject, unsigned Operation, unsigned __int32 Data);
#ifdef __cplusplus
}
#endif