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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 : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/axe/@/dev/asr/dptalign.h |
/*- * 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 * * $FreeBSD: release/9.1.0/sys/dev/asr/dptalign.h 139749 2005-01-06 01:43:34Z imp $ */ #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 */