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freebsd/sys/dev/asr/dptalign.h
Mike Smith ef137fd32f Add the 'asr' driver, supplied by Mark Salyzyn of Adaptec (nee DPT).
This provides support for the Adaptec SCSI RAID controller family,
as well as the DPT SmartRAID V and VI families.

The driver will be maintained by Mark and Adaptec, and any changes
should be referred to the MAINTAINER.
2000-09-01 07:51:25 +00:00

386 lines
15 KiB
C

/* $FreeBSD$ */
/*
* Copyright (c) 1996-1999 Distributed Processing Technology Corporation
* All rights reserved.
*
* Redistribution and use in source form, with or without modification, are
* permitted provided that redistributions of source code must retain the
* above copyright notice, this list of conditions and the following disclaimer.
*
* This software is provided `as is' by Distributed Processing Technology and
* any express or implied warranties, including, but not limited to, the
* implied warranties of merchantability and fitness for a particular purpose,
* are disclaimed. In no event shall Distributed Processing Technology be
* liable for any direct, indirect, incidental, special, exemplary or
* consequential damages (including, but not limited to, procurement of
* substitute goods or services; loss of use, data, or profits; or business
* interruptions) however caused and on any theory of liability, whether in
* contract, strict liability, or tort (including negligence or otherwise)
* arising in any way out of the use of x driver software, even if advised
* of the possibility of such damage.
*
* DPT Alignment Description File
*
*/
#if (!defined(__DPTALIGN_H))
#define __DPTALIGN_H
/*
* File - DPTALIGN.H
*
* Description: This file contains basic Alignment support definitions.
*
* Copyright Distributed Processing Technology, Corp.
* 140 Candace Dr.
* Maitland, Fl. 32751 USA
* Phone: (407) 830-5522 Fax: (407) 260-5366
* All Rights Reserved
*
* Author: Mark Salyzyn
* Date: Aug 29 1996
*
*
* Fifth Gen product enhancements and additions
* Author: Ben Ghofrani
* Date: April 6 1998
*/
/*
* Description: Support macros for active alignment
* Requires:
* osdLocal2(x)
* osdLocal4(x)
* osdSwap2(x)
* osdSwap4(x)
*/
#if (!defined(__FAR__))
# if (defined(__BORLANDC__))
# define __FAR__ far
# else
# define __FAR__
# endif
#endif
#if (defined(sun)) && (!defined(_ILP32))
# define DPT_4_BYTES int /* 64 bit OS */
#else
# define DPT_4_BYTES long
#endif
#if (!defined(osdSwap2))
/*
* Name: osdSwap2(value)
* Description: Mandatory byte swapping routine for words. We allow an
* override of x routine if the OS supplies it's own byte swapping
* routine, inline or macro.
*/
# define osdSwap2(x) (((unsigned short)(x) >> 8) \
| ((unsigned short)((unsigned char)(x)) << 8))
#endif
#if (!defined(osdSwap4))
/*
* Name: osdSwap4(value)
* Description: Mandatory byte swapping routine for DPT_4_BYTES words. We allow
* an override of x routine if the OS supplies it's own byte swapping
* routine, inline or macro. The following is universal, but may be
* more optimally performed by an OS or driver processor dependant
* routine.
*/
# define osdSwap4(x) ( \
(((unsigned DPT_4_BYTES)(x)) >> 24L) \
| ((unsigned DPT_4_BYTES)(((unsigned short)((unsigned DPT_4_BYTES)(x) >> 8L)) & 0xFF00)) \
| (((unsigned DPT_4_BYTES)(((unsigned short)(x)) & 0xFF00)) << 8L) \
| (((unsigned DPT_4_BYTES)((unsigned char)(x))) << 24L))
#endif
#if (!defined(osdLocal2))
/*
* Name: osdLocal2(pointer)
* Description: Local byte order to Big Endian Format for short words.
* Could be replaced with an OS defined localization routine, macro or
* inline.
*/
# if (defined(_DPT_BIG_ENDIAN))
# define osdLocal2(x) (*((unsigned short __FAR__ *)(x)))
# if (defined(osdSwap2))
# define osdSLocal2(x) osdSwap2(osdLocal2(x))
# else
# define osdSLocal2(x) ((unsigned short)(((unsigned char __FAR__ *)(x))[1])\
+ ((unsigned int)((unsigned short)(((unsigned char __FAR__ *)(x))[0])) << 8))
# endif
# else
# define osdSLocal2(x) (*((unsigned short __FAR__ *)(x)))
# if (defined(osdSwap2))
# define osdLocal2(x) osdSwap2(osdSLocal2(x))
# else
# define osdLocal2(x) ((unsigned short)(((unsigned char __FAR__*)(x))[1]) \
+ (((unsigned short)(((unsigned char __FAR__*)(x))[0])) << 8))
# endif
# endif
#endif
#if (!defined(osdLocal3))
/*
* Name: osdLocal3(pointer)
* Description: Local byte order to Big Endian Format for DPT_4_BYTES words.
* Could be replaced with an OS defined localization routine, macro or
* inline.
*/
# if (defined(_DPT_BIG_ENDIAN))
# define osdLocal3(x) (*((unsigned DPT_4_BYTES __FAR__ *)(x)))
# else
# if (defined(osdSwap3))
# define osdLocal3(x) osdSwap3(*((unsigned DPT_4_BYTES __FAR__ *)(x)))
# else
# define osdLocal3(x) ((unsigned DPT_4_BYTES)osdLocal2(((unsigned char __FAR__ *) \
(x)+1)) + (((unsigned DPT_4_BYTES)(((unsigned char __FAR__ *)(x))[0])) << 16))
# endif
# endif
#endif
#if (!defined(osdLocal4))
/*
* Name: osdLocal4(pointer)
* Description: Local byte order to Big Endian Format for DPT_4_BYTES words.
* Could be replaced with an OS defined localization routine, macro or
* inline.
*/
# if (defined(_DPT_BIG_ENDIAN))
# define osdLocal4(x) (*(unsigned DPT_4_BYTES __FAR__ *)(x))
# if (defined(osdSwap4))
# define osdSLocal4(x) osdSwap4(osdLocal4(x))
# else
# define osdSLocal4(x) ((unsigned DPT_4_BYTES)osdSLocal2(((unsigned char __FAR__ *)\
(x)+2)) + (((unsigned DPT_4_BYTES)((unsigned char __FAR__ *)(x))[1]) << 16) \
+ (((unsigned DPT_4_BYTES)((unsigned char __FAR__ *)(x))[0]) << 24))
# endif
# else
# define osdSLocal4(x) (*(unsigned DPT_4_BYTES __FAR__ *)(x))
# if (defined(osdSwap4))
# define osdLocal4(x) osdSwap4(osdSLocal4(x))
# else
# define osdLocal4(x) ((unsigned DPT_4_BYTES)osdLocal2(((unsigned char __FAR__ *) \
(x)+2)) + (((unsigned DPT_4_BYTES)((unsigned char __FAR__ *)(x))[1]) << 16) \
+ (((unsigned DPT_4_BYTES)((unsigned char __FAR__ *)(x))[0]) << 24))
# endif
# endif
#endif
#define I2O_TID_MASK ((unsigned DPT_4_BYTES) ((1L<<I2O_TID_SZ)-1))
/*
* Now the access macros used throughout in order to methodize the
* active alignment.
*/
#define getUP1(x,y) (((unsigned char __FAR__ *)(x))+(unsigned DPT_4_BYTES)(y))
#define getU1(x,y) (*getUP1(x,y))
#define setU1(x,y,z) (*((unsigned char *)getUP1(x,y)) = (unsigned char)(z))
#define orU1(x,y,z) (*getUP1(x,y) |= (unsigned char)(z))
#define andU1(x,y,z) (*getUP1(x,y) &= (unsigned char)(z))
#define getUP2(x,y) ((unsigned short __FAR__ *)(((unsigned char __FAR__ *) \
(x))+(unsigned DPT_4_BYTES)(y)))
#define getBU2(x,y) ((unsigned short)osdLocal2((unsigned short __FAR__ *) \
getUP1(x,y)))
#define getLU2(x,y) ((unsigned short)osdSLocal2((unsigned short __FAR__ *) \
getUP1(x,y)))
/* to be deleted */
#define getU2(x,y) ((unsigned short)osdLocal2((unsigned short __FAR__ *) \
getUP1(x,y)))
#if (!defined(setU2))
# define setU2(x,y,z) { unsigned short hold = (unsigned short)(z); \
*((unsigned short __FAR__ *)getUP1(x,y)) \
= osdLocal2(&hold); \
}
#endif
#if (!defined(setBU2))
# define setBU2(x,y,z) { unsigned short hold = (unsigned short)(z); \
*((unsigned short __FAR__ *)getUP1(x,y)) \
= osdLocal2(&hold); \
}
#endif
#if (!defined(setLU2))
# define setLU2(x,y,z) { unsigned short hold = (unsigned short)(z); \
*((unsigned short __FAR__ *)getUP1(x,y)) \
= osdSLocal2(&hold); \
}
#endif
/* to be deleted */
#define getU3(x,y) ((unsigned DPT_4_BYTES)osdLocal3((unsigned DPT_4_BYTES __FAR__ *) \
getUP1(x,y)))
#if (!defined(setU3))
# if (defined(_DPT_BIG_ENDIAN))
# define setU3(x,y,z) \
{ unsigned DPT_4_BYTES hold = z; \
*(getUP1(x,y)) = (unsigned char)(hold >> 16L); \
*((unsigned short __FAR__ *)(getUP1(x,y) + 1)) \
= (unsigned short)hold; \
}
# else
# define setU3(x,y,z) \
{ unsigned DPT_4_BYTES hold = z; \
*(getUP1(x,y) + 0) = (unsigned char)(hold >> 16) ; \
*(getUP1(x,y) + 1) = (unsigned char)(hold >> 8L); \
*(getUP1(x,y) + 2) = (unsigned char)(hold); \
}
# endif
#endif
/* up to here to be deleted */
#define getBU3(x,y) ((unsigned DPT_4_BYTES)osdLocal3((unsigned DPT_4_BYTES __FAR__ *) \
getUP1(x,y)))
#if (!defined(setBU3))
# if (defined(_DPT_BIG_ENDIAN))
# define setBU3(x,y,z) \
{ unsigned DPT_4_BYTES hold = z; \
*(getUP1(x,y)) = (unsigned char)(hold >> 16L); \
*((unsigned short __FAR__ *)(getUP1(x,y) + 1)) \
= (unsigned short)hold; \
}
# else
# define setBU3(x,y,z) \
{ unsigned DPT_4_BYTES hold = z; \
*(getUP1(x,y) + 0) = (unsigned char)(hold >> 16) ; \
*(getUP1(x,y) + 1) = (unsigned char)(hold >> 8L); \
*(getUP1(x,y) + 2) = (unsigned char)(hold); \
}
# endif
#endif
#define getUP4(x,y) ((unsigned DPT_4_BYTES __FAR__ *)(((unsigned char __FAR__ *) \
(x))+(unsigned DPT_4_BYTES)(y)))
#define getBU4(x,y) ((unsigned DPT_4_BYTES)osdLocal4((unsigned DPT_4_BYTES __FAR__ *) \
getUP1(x,y)))
#define getLU4(x,y) ((unsigned DPT_4_BYTES)osdSLocal4((unsigned DPT_4_BYTES __FAR__ *) \
getUP1(x,y)))
/* to be deleted */
#define getU4(x,y) ((unsigned DPT_4_BYTES)osdSLocal4((unsigned DPT_4_BYTES __FAR__ *) \
getUP1(x,y)))
#if (!defined(setU4))
# define setU4(x,y,z) { unsigned DPT_4_BYTES hold = z; \
*((unsigned DPT_4_BYTES __FAR__ *)getUP1(x,y)) \
= osdLocal4(&hold); \
}
#endif
/* up to here */
#if (!defined(setBU4))
# define setBU4(x,y,z) { unsigned DPT_4_BYTES hold = z; \
*((unsigned DPT_4_BYTES __FAR__ *)getUP1(x,y)) \
= osdLocal4(&hold); \
}
#endif
#if (!defined(setLU4))
# define setLU4(x,y,z) { unsigned DPT_4_BYTES hold = z; \
*((unsigned DPT_4_BYTES __FAR__ *)getUP1(x,y)) \
= osdSLocal4(&hold); \
}
#endif
#define osdSwap16bit(x) ( (((unsigned short )x & 0xf000) >> 12) | \
(((unsigned short )x & 0x0f00) >> 4) | \
(((unsigned short )x & 0x00f0) << 4) | \
(((unsigned short )x & 0x000f) << 12 ) )
/*
* note that in big endian a 12 bit number (0x123) is stored as 1203
*/
#define osdSwap12bit(x) (( (((unsigned short )x & 0x0f00) >> 8) | \
((unsigned short )x & 0x00f0) | \
(((unsigned short )x & 0x000f) << 8 ) ) )
#define osdSwap8bit(x) ( (((unsigned char )x & 0x0f) << 4) | \
(((unsigned char )x &0xf0) >> 4 ) )
#define getL24bit1(w,x,y) ((unsigned DPT_4_BYTES)((unsigned char __FAR__ *)(&w->x))[0+(y)] \
+ ((((unsigned DPT_4_BYTES)((unsigned char __FAR__ *)(&w->x))[1+(y)]) << 8) & 0xFF00) \
+ ((((unsigned DPT_4_BYTES)((unsigned char __FAR__ *)(&w->x))[2+(y)]) << 16) & 0xFF0000))
#define setL24bit1(w,x,y,z) { ((unsigned char __FAR__ *)(&w->x))[0+(y)] = (z); \
((unsigned char __FAR__ *)(&w->x))[1+(y)] = ((z) >> 8) & 0xFF; \
((unsigned char __FAR__ *)(&w->x))[2+(y)] = ((z) >> 16) & 0xFF; \
}
#define getL16bit(w,x,y) ((unsigned short)((unsigned char __FAR__ *)(&w->x))[0+(y)] \
+ ((((unsigned short)((unsigned char __FAR__ *)(&w->x))[1+(y)]) << 8) & 0xFF00))
#define setL16bit(w,x,y,z) { ((unsigned char __FAR__ *)(&w->x))[0+(y)] = (z); \
((unsigned char __FAR__ *)(&w->x))[1+(y)] = ((z) >> 8) & 0xFF; \
}
#define getL16bit2(w,x,y) ((unsigned short)((unsigned char __FAR__ *)(&w->x))[2+(y)] \
+ ((((unsigned short)((unsigned char __FAR__ *)(&w->x))[3+(y)]) << 8) & 0xFF00))
#define setL16bit2(w,x,y,z) { ((unsigned char __FAR__ *)(&w->x))[2+(y)] = (z); \
((unsigned char __FAR__ *)(&w->x))[3+(y)] = ((z) >> 8) & 0xFF; \
}
/* y is the number of bytes from beg of DPT_4_BYTES to get upper 4 bit of the addressed byte */
#define getL4bit(w,x,y) \
((unsigned char)(((unsigned char __FAR__ *)(&w->x))[0+(y)] >> 4) & 0x0f)
#define setL4bit(w,x,y,z) { \
((unsigned char __FAR__ *)(&w->x))[0+(y)] &= 0xF0; \
((unsigned char __FAR__ *)(&w->x))[0+(y)] |= ((z) << 4) & 0xF0; \
}
/* y is number of bytes from beg of DPT_4_BYTES */
#define getL1bit(w,x,y) \
((unsigned char)(((unsigned char __FAR__ *)(&w->x))[0+(y)] ) & 0x01)
#define setL1bit(w,x,y,z) { \
((unsigned char __FAR__ *)(&w->x))[0+(y)] &= 0xFE; \
((unsigned char __FAR__ *)(&w->x))[0+(y)] |= (z) & 0x01; \
}
#define getL1bit1(w,x,y) \
((unsigned char)(((unsigned char __FAR__ *)(&w->x))[0+(y)] >> 1) & 0x01)
#define setL1bit1(w,x,y,z) { \
((unsigned char __FAR__ *)(&w->x))[0+(y)] &= 0xFD; \
((unsigned char __FAR__ *)(&w->x))[0+(y)] |= (z << 1) & 0x02; \
}
/* 12 bit at the first 12 bits of a DPT_4_BYTES word */
#define getL12bit(w,x,y) ((unsigned short)((unsigned char __FAR__ *)(&w->x))[0+(y)] \
+ ((((unsigned short)((unsigned char __FAR__ *)(&w->x))[1+(y)]) << 8) & 0xF00))
#define setL12bit(w,x,y,z) { ((unsigned char __FAR__ *)(&w->x))[0+(y)] = (z); \
((unsigned char __FAR__ *)(&w->x))[1+(y)] &= 0xF0; \
((unsigned char __FAR__ *)(&w->x))[1+(y)] |= ((z) >> 8) & 0xF; \
}
/* 12 bit after another 12 bit in DPT_4_BYTES word */
#define getL12bit1(w,x,y) (((unsigned short)((unsigned char __FAR__ *)(&w->x))[1+(y)]) >> 4 \
+ ((((unsigned short)((unsigned char __FAR__ *)(&w->x))[2+(y)]) << 4) ))
#define setL12bit1(w,x,y,z) { ((unsigned char __FAR__ *)(&w->x))[1+(y)] &= 0x0F; \
((unsigned char __FAR__ *)(&w->x))[1+(y)] |= ((z) & 0xF) << 4; \
((unsigned char __FAR__ *)(&w->x))[2+(y)] &= 0x00;\
((unsigned char __FAR__ *)(&w->x))[2+(y)] |= ((z) >> 8) & 0xff;\
}
/* 12 at the 3rd byte in a DPT_4_BYTES word */
#define getL12bit2(w,x,y) ((unsigned short)((unsigned char __FAR__ *)(&w->x))[2+(y)] \
+ ((((unsigned short)((unsigned char __FAR__ *)(&w->x))[3+(y)]) << 8) & 0xF00))
#define setL12bit2(w,x,y,z) { ((unsigned char __FAR__ *)(&w->x))[2+(y)] = (z); \
((unsigned char __FAR__ *)(&w->x))[3+(y)] &= 0xF0; \
((unsigned char __FAR__ *)(&w->x))[3+(y)] |= ((z) >> 8) & 0xF; \
}
#define getL8bit(w,x,y) (\
(*(((unsigned char __FAR__ *)(&((w)->x)))\
+ y)) )
#define setL8bit(w,x,y,z) {\
(*(((unsigned char __FAR__ *)(&((w)->x)))\
+ y) = (z));\
}
#endif /* __DPTALIGN_H */