NT4/private/ntos/miniport/trantor/source/cardt338.c
2020-09-30 17:12:29 +02:00

247 lines
5.9 KiB
C

//-----------------------------------------------------------------------
//
// CARDT338.C
//
// T338 Adapter Specific File
//
// See also cardtxxx.h, cardtxxx.h may redefine some functions with #defines.
//
// Revisions:
// 02-01-93 KJB First.
// 02-25-93 KJB Reorganized, supports dataunderrun with long delay
// for under run on large xfers. Can we fix this?
// 03-22-93 KJB Reorged for functional library interface.
// 03-26-93 JAP Fixed up typedef and prototype inconsistencies
// 04-22-93 JAP Added AdapterInterrupts[] and CardGetIRQ().
// 05-12-93 JAP Altered CardGetShortName() to return only
// the type of card.
// 05-14-93 KJB Removed P3CDoIo, it did not work for scatter gather.
// 05-17-93 KJB Fixed compiler warnings.
//
//-----------------------------------------------------------------------
#include CARDTXXX_H
#ifdef WINNT
//
// The address ranges the card will use. These are accessed by trantor.c
// to inform NTOS of the resources we are using.
//
CONST CardAddressRange cardAddressRange[] =
{
{0x00,0x03,FALSE}, // 0x3bc - 0x3be
};
#endif
//------------------------------------------------------------------------
// The following table specifies the possible interrupts that
// can be used by the adapter. A zero entry terminates the search.
//------------------------------------------------------------------------
CONST USHORT AdapterInterrupts [] = {0}; // no interrupts
//------------------------------------------------------------------------
// The following table specifies the ports to be checked when searching for
// an adapter. A zero entry terminates the search.
//------------------------------------------------------------------------
CONST ULONG AdapterAddresses[] = {0X3bc, 0X378, 0X278,0};
//-----------------------------------------------------------------------
//
// The following routines are stub routines to provide an entry
// point for the library. They reference the correct routines for
// the appropriate card. Only these routines may be called from outside
// the library. See the rouines they reference for a description of
// the rouines, if the meaning is unclear.
//
//-----------------------------------------------------------------------
// the maximum transfer size
// by decreasing this we can get better system performace since
// the data transfer occurs with interrupts disabled, this might be
// decreased for our smaller cards
// Used only by WINNT
ULONG CardMaxTransferSize (VOID)
{
return 8*1024L;
}
// the following info is for initialization only
// the t348 is IO mapped
BOOLEAN CardAddressRangeInIoSpace (VOID)
{
return TRUE;
}
// we use 3 addresses in IO space
USHORT CardAddressRangeLength (VOID)
{
return 0x3;
}
// The following is used along with the constant structure in card.c
// to define the precise i/o addresses a card will use
USHORT CardNumberOfAddressRanges (VOID)
{
return 1;
}
// the t348 does not use interrupts
BOOLEAN CardSupportsInterrupts (VOID)
{
return FALSE;
}
// for now, must choose an interupt that doesn't conflict
// microsoft: jeff said later they will have a method
UCHAR CardDefaultInterruptLevel (VOID)
{
return 15;
}
//-----------------------------------------------------------------------
//
// Redefined routines
//
//-----------------------------------------------------------------------
// These are card specific routines, but since this card has a 5380, we
// will redefine these to the generic n5380 or other routines.
//-----------------------------------------------------------------------
//
// BOOLEAN CardCheckAdapter
//
// This routine checks for the presense of the card.
// Initializes a workspace for the adapter at this address.
// Returns TRUE if adapter found.
//
//-----------------------------------------------------------------------
BOOLEAN CardCheckAdapter (PWORKSPACE w, PINIT init)
{
PADAPTER_INFO g = (PADAPTER_INFO) w;
//
// Initialize workspace and takes card specific parameter information
// Just the BaseIoAddress for the t13b.
//
g->BaseIoAddress = init->BaseIoAddress;
return (T338CheckAdapter (g));
}
//
// CardParseCommandString(PINIT p, PCHAR str)
//
// Parses the command string to get all card specific parameters.
// Will fill in defaults where no parameters are supplied, or
// if the str pointer is NULL.
//
// Returns false if it could not parse the string given.
//
// Can be used to parse the string piece by piece, by sending
// the same INIT structure each time. Send NULL as the string
// first time to initialize the PINIT structure to the standard defaults.
//
// BaseIoAddress will be set to NULL by default, and the program can
// detect that it has changed during parsing and just search for the
// card as specified by the command line argument if it has changed. If
// it does not change, the program should cycle through all valid addresses.
//
BOOLEAN CardParseCommandString(PINIT init, PCHAR str)
{
// for now, just fill in some defaults
init->BaseIoAddress = NULL;
return TRUE;
}
BOOLEAN CardInterrupt (PADAPTER_INFO g)
{
return (T338Interrupt (g));
}
VOID CardResetBus (PADAPTER_INFO g)
{
T338ResetBus (g);
}
VOID CardDisableInterrupt (PADAPTER_INFO g)
{
N5380DisableInterrupt (g);
}
VOID CardEnableInterrupt (PADAPTER_INFO g)
{
N5380EnableInterrupt (g);
}
VOID CardSetInterruptLevel (PADAPTER_INFO g, UCHAR level)
{
return;
}
USHORT CardDoCommand (PTSRB t)
{
return (T338DoCommand (t));
}
USHORT CardStartCommandInterrupt (PTSRB t)
{
return (T338StartCommandInterrupt (t));
}
USHORT CardFinishCommandInterrupt (PTSRB t)
{
return (T338FinishCommandInterrupt (t));
}
PUCHAR CardGetName (VOID)
{
return "T338 SCSI Host Adapter";
}
PUCHAR CardGetShortName (VOID)
{
return "T338";
}
UCHAR CardGetType (VOID)
{
return CARDTYPE_T338;
}