pcsx2/plugins/CDVDpeops/wnaspi32.h

355 lines
18 KiB
C

/******************************************************************************
**
** Module Name: wnaspi32.h
**
** Description: Header file for ASPI for Win32. This header includes
** macro and type declarations, and can be included without
** modification when using Borland C++ or Microsoft Visual
** C++ with 32-bit compilation. If you are using a different
** compiler then you MUST ensure that structures are packed
** onto byte alignments, and that C++ name mangling is turned
** off.
**
** Notes: This file created using 4 spaces per tab.
**
******************************************************************************/
#ifndef __WNASPI32_H__
#define __WNASPI32_H__
/*
** Make sure structures are packed and undecorated.
*/
#ifdef __BORLANDC__
#pragma option -a1
#endif //__BORLANDC__
#ifdef _MSC_VER
#pragma pack(1)
#endif //__MSC_VER
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
//*****************************************************************************
// %%% SCSI MISCELLANEOUS EQUATES %%%
//*****************************************************************************
#define SENSE_LEN 14 // Default sense buffer length
#define SRB_DIR_SCSI 0x00 // Direction determined by SCSI
#define SRB_POSTING 0x01 // Enable ASPI posting
#define SRB_ENABLE_RESIDUAL_COUNT 0x04 // Enable residual byte count reporting
#define SRB_DIR_IN 0x08 // Transfer from SCSI target to host
#define SRB_DIR_OUT 0x10 // Transfer from host to SCSI target
#define SRB_EVENT_NOTIFY 0x40 // Enable ASPI event notification
#define RESIDUAL_COUNT_SUPPORTED 0x02 // Extended buffer flag
#define MAX_SRB_TIMEOUT 108000lu // 30 hour maximum timeout in s
#define DEFAULT_SRB_TIMEOUT 108000lu // Max timeout by default
//*****************************************************************************
// %%% ASPI Command Definitions %%%
//*****************************************************************************
#define SC_HA_INQUIRY 0x00 // Host adapter inquiry
#define SC_GET_DEV_TYPE 0x01 // Get device type
#define SC_EXEC_SCSI_CMD 0x02 // Execute SCSI command
#define SC_ABORT_SRB 0x03 // Abort an SRB
#define SC_RESET_DEV 0x04 // SCSI bus device reset
#define SC_SET_HA_PARMS 0x05 // Set HA parameters
#define SC_GET_DISK_INFO 0x06 // Get Disk information
#define SC_RESCAN_SCSI_BUS 0x07 // ReBuild SCSI device map
#define SC_GETSET_TIMEOUTS 0x08 // Get/Set target timeouts
//*****************************************************************************
// %%% SRB Status %%%
//*****************************************************************************
#define SS_PENDING 0x00 // SRB being processed
#define SS_COMP 0x01 // SRB completed without error
#define SS_ABORTED 0x02 // SRB aborted
#define SS_ABORT_FAIL 0x03 // Unable to abort SRB
#define SS_ERR 0x04 // SRB completed with error
#define SS_INVALID_CMD 0x80 // Invalid ASPI command
#define SS_INVALID_HA 0x81 // Invalid host adapter number
#define SS_NO_DEVICE 0x82 // SCSI device not installed
#define SS_INVALID_SRB 0xE0 // Invalid parameter set in SRB
#define SS_OLD_MANAGER 0xE1 // ASPI manager doesn't support Windows
#define SS_BUFFER_ALIGN 0xE1 // Buffer not aligned (replaces OLD_MANAGER in Win32)
#define SS_ILLEGAL_MODE 0xE2 // Unsupported Windows mode
#define SS_NO_ASPI 0xE3 // No ASPI managers resident
#define SS_FAILED_INIT 0xE4 // ASPI for windows failed init
#define SS_ASPI_IS_BUSY 0xE5 // No resources available to execute cmd
#define SS_BUFFER_TO_BIG 0xE6 // Buffer size to big to handle!
#define SS_MISMATCHED_COMPONENTS 0xE7 // The DLLs/EXEs of ASPI don't version check
#define SS_NO_ADAPTERS 0xE8 // No host adapters to manage
#define SS_INSUFFICIENT_RESOURCES 0xE9 // Couldn't allocate resources needed to init
#define SS_ASPI_IS_SHUTDOWN 0xEA // Call came to ASPI after PROCESS_DETACH
#define SS_BAD_INSTALL 0xEB // The DLL or other components are installed wrong
//*****************************************************************************
// %%% Host Adapter Status %%%
//*****************************************************************************
#define HASTAT_OK 0x00 // Host adapter did not detect an // error
#define HASTAT_SEL_TO 0x11 // Selection Timeout
#define HASTAT_DO_DU 0x12 // Data overrun data underrun
#define HASTAT_BUS_FREE 0x13 // Unexpected bus free
#define HASTAT_PHASE_ERR 0x14 // Target bus phase sequence // failure
#define HASTAT_TIMEOUT 0x09 // Timed out while SRB was waiting to beprocessed.
#define HASTAT_COMMAND_TIMEOUT 0x0B // Adapter timed out processing SRB.
#define HASTAT_MESSAGE_REJECT 0x0D // While processing SRB, the // adapter received a MESSAGE
#define HASTAT_BUS_RESET 0x0E // A bus reset was detected.
#define HASTAT_PARITY_ERROR 0x0F // A parity error was detected.
#define HASTAT_REQUEST_SENSE_FAILED 0x10 // The adapter failed in issuing
//*****************************************************************************
// %%% SRB - HOST ADAPTER INQUIRY - SC_HA_INQUIRY (0) %%%
//*****************************************************************************
typedef struct // Offset
{ // HX/DEC
BYTE SRB_Cmd; // 00/000 ASPI command code = SC_HA_INQUIRY
BYTE SRB_Status; // 01/001 ASPI command status byte
BYTE SRB_HaId; // 02/002 ASPI host adapter number
BYTE SRB_Flags; // 03/003 ASPI request flags
DWORD SRB_Hdr_Rsvd; // 04/004 Reserved, MUST = 0
BYTE HA_Count; // 08/008 Number of host adapters present
BYTE HA_SCSI_ID; // 09/009 SCSI ID of host adapter
BYTE HA_ManagerId[16]; // 0A/010 String describing the manager
BYTE HA_Identifier[16]; // 1A/026 String describing the host adapter
BYTE HA_Unique[16]; // 2A/042 Host Adapter Unique parameters
WORD HA_Rsvd1; // 3A/058 Reserved, MUST = 0
}
SRB_HAInquiry, *PSRB_HAInquiry, FAR *LPSRB_HAInquiry;
//*****************************************************************************
// %%% SRB - GET DEVICE TYPE - SC_GET_DEV_TYPE (1) %%%
//*****************************************************************************
typedef struct
{
BYTE SRB_Cmd; /* 00/000 ASPI cmd code == SC_GET_DEV_TYPE */
BYTE SRB_Status; /* 01/001 ASPI command status byte */
BYTE SRB_HaID; /* 02/002 ASPI host adapter number */
BYTE SRB_Flags; /* 03/003 Reserved, must = 0 */
DWORD SRB_Hdr_Rsvd; /* 04/004 Reserved, must = 0 */
BYTE SRB_Target; /* 08/008 Target's SCSI ID */
BYTE SRB_Lun; /* 09/009 Target's LUN number */
BYTE SRB_DeviceType; /* 0a/010 Target's peripheral device type */
BYTE SRB_Rsvd1; /* 0b/011 Reserved, must = 0 */
BYTE pad[68];
} SRB_GDEVBlock, *PSRB_GDEVBlock, FAR *LPSRB_GDEVBlock;
//*****************************************************************************
// %%% SRB - EXECUTE SCSI COMMAND - SC_EXEC_SCSI_CMD (2) %%%
//*****************************************************************************
typedef struct // Offset
{ // HX/DEC
BYTE SRB_Cmd; // 00/000 ASPI command code = SC_EXEC_SCSI_CMD
BYTE SRB_Status; // 01/001 ASPI command status byte
BYTE SRB_HaId; // 02/002 ASPI host adapter number
BYTE SRB_Flags; // 03/003 ASPI request flags
DWORD SRB_Hdr_Rsvd; // 04/004 Reserved
BYTE SRB_Target; // 08/008 Target's SCSI ID
BYTE SRB_Lun; // 09/009 Target's LUN number
WORD SRB_Rsvd1; // 0A/010 Reserved for Alignment
DWORD SRB_BufLen; // 0C/012 Data Allocation Length
BYTE FAR *SRB_BufPointer; // 10/016 Data Buffer Pointer
BYTE SRB_SenseLen; // 14/020 Sense Allocation Length
BYTE SRB_CDBLen; // 15/021 CDB Length
BYTE SRB_HaStat; // 16/022 Host Adapter Status
BYTE SRB_TargStat; // 17/023 Target Status
VOID FAR *SRB_PostProc; // 18/024 Post routine
BYTE SRB_Rsvd2[20]; // 1C/028 Reserved, MUST = 0
BYTE CDBByte[16]; // 30/048 SCSI CDB
BYTE SenseArea[SENSE_LEN+2]; // 50/064 Request Sense buffer
}
SRB_ExecSCSICmd, *PSRB_ExecSCSICmd, FAR *LPSRB_ExecSCSICmd;
//*****************************************************************************
// %%% SRB - ABORT AN SRB - SC_ABORT_SRB (3) %%%
//*****************************************************************************
typedef struct // Offset
{ // HX/DEC
BYTE SRB_Cmd; // 00/000 ASPI command code = SC_ABORT_SRB
BYTE SRB_Status; // 01/001 ASPI command status byte
BYTE SRB_HaId; // 02/002 ASPI host adapter number
BYTE SRB_Flags; // 03/003 Reserved
DWORD SRB_Hdr_Rsvd; // 04/004 Reserved
VOID FAR *SRB_ToAbort; // 08/008 Pointer to SRB to abort
}
SRB_Abort, *PSRB_Abort, FAR *LPSRB_Abort;
//*****************************************************************************
// %%% SRB - BUS DEVICE RESET - SC_RESET_DEV (4) %%%
//*****************************************************************************
typedef struct // Offset
{ // HX/DEC
BYTE SRB_Cmd; // 00/000 ASPI command code = SC_RESET_DEV
BYTE SRB_Status; // 01/001 ASPI command status byte
BYTE SRB_HaId; // 02/002 ASPI host adapter number
BYTE SRB_Flags; // 03/003 ASPI request flags
DWORD SRB_Hdr_Rsvd; // 04/004 Reserved
BYTE SRB_Target; // 08/008 Target's SCSI ID
BYTE SRB_Lun; // 09/009 Target's LUN number
BYTE SRB_Rsvd1[12]; // 0A/010 Reserved for Alignment
BYTE SRB_HaStat; // 16/022 Host Adapter Status
BYTE SRB_TargStat; // 17/023 Target Status
VOID FAR *SRB_PostProc; // 18/024 Post routine
BYTE SRB_Rsvd2[36]; // 1C/028 Reserved, MUST = 0
}
SRB_BusDeviceReset, *PSRB_BusDeviceReset, FAR *LPSRB_BusDeviceReset;
//*****************************************************************************
// %%% SRB - GET DISK INFORMATION - SC_GET_DISK_INFO %%%
//*****************************************************************************
typedef struct // Offset
{ // HX/DEC
BYTE SRB_Cmd; // 00/000 ASPI command code = SC_GET_DISK_INFO
BYTE SRB_Status; // 01/001 ASPI command status byte
BYTE SRB_HaId; // 02/002 ASPI host adapter number
BYTE SRB_Flags; // 03/003 Reserved, MUST = 0
DWORD SRB_Hdr_Rsvd; // 04/004 Reserved, MUST = 0
BYTE SRB_Target; // 08/008 Target's SCSI ID
BYTE SRB_Lun; // 09/009 Target's LUN number
BYTE SRB_DriveFlags; // 0A/010 Driver flags
BYTE SRB_Int13HDriveInfo; // 0B/011 Host Adapter Status
BYTE SRB_Heads; // 0C/012 Preferred number of heads translation
BYTE SRB_Sectors; // 0D/013 Preferred number of sectors translation
BYTE SRB_Rsvd1[10]; // 0E/014 Reserved, MUST = 0
}
SRB_GetDiskInfo, *PSRB_GetDiskInfo, FAR *LPSRB_GetDiskInfo;
//*****************************************************************************
// %%% SRB - RESCAN SCSI BUS(ES) ON SCSIPORT %%%
//*****************************************************************************
typedef struct // Offset
{ // HX/DEC
BYTE SRB_Cmd; // 00/000 ASPI command code = SC_RESCAN_SCSI_BUS
BYTE SRB_Status; // 01/001 ASPI command status byte
BYTE SRB_HaId; // 02/002 ASPI host adapter number
BYTE SRB_Flags; // 03/003 Reserved, MUST = 0
DWORD SRB_Hdr_Rsvd; // 04/004 Reserved, MUST = 0
}
SRB_RescanPort, *PSRB_RescanPort, FAR *LPSRB_RescanPort;
//*****************************************************************************
// %%% SRB - GET/SET TARGET TIMEOUTS %%%
//*****************************************************************************
typedef struct // Offset
{ // HX/DEC
BYTE SRB_Cmd; // 00/000 ASPI command code = SC_GETSET_TIMEOUTS
BYTE SRB_Status; // 01/001 ASPI command status byte
BYTE SRB_HaId; // 02/002 ASPI host adapter number
BYTE SRB_Flags; // 03/003 ASPI request flags
DWORD SRB_Hdr_Rsvd; // 04/004 Reserved, MUST = 0
BYTE SRB_Target; // 08/008 Target's SCSI ID
BYTE SRB_Lun; // 09/009 Target's LUN number
DWORD SRB_Timeout; // 0A/010 Timeout in half seconds
}
SRB_GetSetTimeouts, *PSRB_GetSetTimeouts, FAR *LPSRB_GetSetTimeouts;
//*****************************************************************************
// %%% ASPIBUFF - Structure For Controllng I/O Buffers %%%
//*****************************************************************************
typedef struct tag_ASPI32BUFF // Offset
{ // HX/DEC
PBYTE AB_BufPointer; // 00/000 Pointer to the ASPI allocated buffer
DWORD AB_BufLen; // 04/004 Length in bytes of the buffer
DWORD AB_ZeroFill; // 08/008 Flag set to 1 if buffer should be zeroed
DWORD AB_Reserved; // 0C/012 Reserved
}
ASPI32BUFF, *PASPI32BUFF, FAR *LPASPI32BUFF;
//*****************************************************************************
// %%% TOC structures %%%
//*****************************************************************************
typedef struct
{
unsigned char reserved1;
unsigned char cAdrCtrl;
unsigned char cTrackNum;
unsigned char reserved2;
unsigned long lAddr;
} TOC_TRACK;
typedef struct
{
unsigned short usTocDataLen;
unsigned char cFirstTrack;
unsigned char cLastTrack;
TOC_TRACK tracks[100];
} TOC, *PTOC, FAR *LPTOC;
//*****************************************************************************
// %%% PROTOTYPES - User Callable ASPI for Win32 Functions %%%
//*****************************************************************************
typedef struct
{
BYTE SRB_Cmd;
BYTE SRB_Status;
BYTE SRB_HaId;
BYTE SRB_Flags;
DWORD SRB_Hdr_Rsvd;
} SRB, *PSRB, FAR *LPSRB;
#if defined(__BORLANDC__)
DWORD _import GetASPI32SupportInfo( void );
DWORD _import SendASPI32Command( LPSRB );
BOOL _import GetASPI32Buffer( PASPI32BUFF );
BOOL _import FreeASPI32Buffer( PASPI32BUFF );
BOOL _import TranslateASPI32Address( PDWORD, PDWORD );
#elif defined(_MSC_VER)
__declspec(dllimport) DWORD GetASPI32SupportInfo( void );
__declspec(dllimport) DWORD SendASPI32Command( LPSRB );
__declspec(dllimport) BOOL GetASPI32Buffer( PASPI32BUFF );
__declspec(dllimport) BOOL FreeASPI32Buffer( PASPI32BUFF );
__declspec(dllimport) BOOL TranslateASPI32Address( PDWORD, PDWORD );
#else
extern DWORD GetASPI32SupportInfo( void );
extern DWORD GetASPI32Command( LPSRB );
extern BOOL GetASPI32Buffer( PASPI32BUFF );
extern BOOL FreeASPI32Buffer( PASPI32BUFF );
extern BOOL TranslateASPI32Address( PDWORD, PDWORD );
#endif
/*
** Restore compiler default packing and close off the C declarations.
*/
#ifdef __BORLANDC__
#pragma option -a.
#endif //__BORLANDC__
#ifdef _MSC_VER
#pragma pack()
#endif //_MSC_VER
#ifdef __cplusplus
}
#endif //__cplusplus
#endif //__WNASPI32_H__