macros.h revision 1.17.12.1
1 1.17.12.1 bouyer /* $NetBSD: macros.h,v 1.17.12.1 2000/11/20 20:32:56 bouyer Exp $ */ 2 1.2 cgd 3 1.1 ragge /* 4 1.17.12.1 bouyer * Copyright (c) 1994, 1998, 2000 Ludd, University of Lule}, Sweden. 5 1.1 ragge * All rights reserved. 6 1.1 ragge * 7 1.1 ragge * Redistribution and use in source and binary forms, with or without 8 1.1 ragge * modification, are permitted provided that the following conditions 9 1.1 ragge * are met: 10 1.1 ragge * 1. Redistributions of source code must retain the above copyright 11 1.1 ragge * notice, this list of conditions and the following disclaimer. 12 1.1 ragge * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 ragge * notice, this list of conditions and the following disclaimer in the 14 1.1 ragge * documentation and/or other materials provided with the distribution. 15 1.1 ragge * 3. All advertising materials mentioning features or use of this software 16 1.1 ragge * must display the following acknowledgement: 17 1.1 ragge * This product includes software developed at Ludd, University of Lule}. 18 1.1 ragge * 4. The name of the author may not be used to endorse or promote products 19 1.1 ragge * derived from this software without specific prior written permission 20 1.1 ragge * 21 1.1 ragge * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 22 1.1 ragge * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 23 1.1 ragge * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 24 1.1 ragge * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 25 1.1 ragge * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 26 1.1 ragge * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 27 1.1 ragge * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 28 1.1 ragge * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 29 1.1 ragge * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 30 1.1 ragge * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 31 1.1 ragge */ 32 1.1 ragge 33 1.1 ragge /* All bugs are subject to removal without further notice */ 34 1.3 ragge 35 1.17 ragge #if !defined(_VAX_MACROS_H_) && !defined(lint) 36 1.15 ragge #define _VAX_MACROS_H_ 37 1.1 ragge 38 1.1 ragge /* Here general macros are supposed to be stored */ 39 1.1 ragge 40 1.16 ragge static __inline__ int 41 1.16 ragge ffs(int reg) 42 1.16 ragge { 43 1.3 ragge register int val; 44 1.3 ragge 45 1.13 thorpej __asm__ __volatile ("ffs $0,$32,%1,%0 46 1.3 ragge bneq 1f 47 1.3 ragge mnegl $1,%0 48 1.15 ragge 1: incl %0" 49 1.17.12.1 bouyer : "=&r" (val) 50 1.3 ragge : "r" (reg) ); 51 1.3 ragge return val; 52 1.3 ragge } 53 1.3 ragge 54 1.16 ragge static __inline__ void 55 1.16 ragge _remque(void *p) 56 1.16 ragge { 57 1.13 thorpej __asm__ __volatile ("remque (%0),%0;clrl 4(%0)" 58 1.3 ragge : 59 1.3 ragge : "r" (p) 60 1.3 ragge : "memory" ); 61 1.3 ragge } 62 1.3 ragge 63 1.16 ragge static __inline__ void 64 1.16 ragge _insque(void *p, void *q) 65 1.16 ragge { 66 1.15 ragge __asm__ __volatile ("insque (%0), (%1)" 67 1.15 ragge : 68 1.15 ragge : "r" (p),"r" (q) 69 1.15 ragge : "memory" ); 70 1.3 ragge } 71 1.3 ragge 72 1.16 ragge static __inline__ void * 73 1.17.12.1 bouyer memcpy(void *toe, const void *from, size_t len) 74 1.16 ragge { 75 1.16 ragge __asm__ __volatile ("movc3 %0,(%1),(%2)" 76 1.16 ragge : 77 1.16 ragge : "r" (len),"r" (from),"r"(toe) 78 1.16 ragge :"r0","r1","r2","r3","r4","r5","memory","cc"); 79 1.16 ragge return toe; 80 1.16 ragge } 81 1.16 ragge static __inline__ void * 82 1.17.12.1 bouyer memmove(void *toe, const void *from, size_t len) 83 1.16 ragge { 84 1.13 thorpej __asm__ __volatile ("movc3 %0,(%1),(%2)" 85 1.3 ragge : 86 1.3 ragge : "r" (len),"r" (from),"r"(toe) 87 1.16 ragge :"r0","r1","r2","r3","r4","r5","memory","cc"); 88 1.16 ragge return toe; 89 1.16 ragge } 90 1.16 ragge 91 1.16 ragge static __inline__ void 92 1.17.12.1 bouyer bcopy(const void *from, void *toe, size_t len) 93 1.16 ragge { 94 1.16 ragge __asm__ __volatile ("movc3 %0,(%1),(%2)" 95 1.16 ragge : 96 1.16 ragge : "r" (len),"r" (from),"r"(toe) 97 1.16 ragge :"r0","r1","r2","r3","r4","r5","memory","cc"); 98 1.3 ragge } 99 1.3 ragge 100 1.17.12.1 bouyer void blkclr __P((void *, size_t)); 101 1.15 ragge 102 1.16 ragge static __inline__ void * 103 1.16 ragge memset(void *block, int c, size_t len) 104 1.16 ragge { 105 1.16 ragge if (len > 65535) 106 1.16 ragge blkclr(block, len); 107 1.16 ragge else { 108 1.16 ragge __asm__ __volatile ("movc5 $0,(%0),%2,%1,(%0)" 109 1.16 ragge : 110 1.16 ragge : "r" (block), "r" (len), "r"(c) 111 1.16 ragge :"r0","r1","r2","r3","r4","r5","memory","cc"); 112 1.16 ragge } 113 1.16 ragge return block; 114 1.16 ragge } 115 1.16 ragge 116 1.16 ragge static __inline__ void 117 1.17.12.1 bouyer bzero(void *block, size_t len) 118 1.16 ragge { 119 1.15 ragge if (len > 65535) 120 1.15 ragge blkclr(block, len); 121 1.15 ragge else { 122 1.15 ragge __asm__ __volatile ("movc5 $0,(%0),$0,%1,(%0)" 123 1.3 ragge : 124 1.3 ragge : "r" (block), "r" (len) 125 1.16 ragge :"r0","r1","r2","r3","r4","r5","memory","cc"); 126 1.15 ragge } 127 1.3 ragge } 128 1.3 ragge 129 1.16 ragge /* XXX - the return syntax of memcmp is wrong */ 130 1.16 ragge static __inline__ int 131 1.16 ragge memcmp(const void *b1, const void *b2, size_t len) 132 1.16 ragge { 133 1.17 ragge register int ret; 134 1.16 ragge 135 1.16 ragge __asm__ __volatile("cmpc3 %3,(%1),(%2);movl r0,%0" 136 1.16 ragge : "=r" (ret) 137 1.16 ragge : "r" (b1), "r" (b2), "r" (len) 138 1.16 ragge : "r0","r1","r2","r3" ); 139 1.16 ragge return ret; 140 1.16 ragge } 141 1.16 ragge 142 1.16 ragge static __inline__ int 143 1.16 ragge bcmp(const void *b1, const void *b2, size_t len) 144 1.16 ragge { 145 1.17 ragge register int ret; 146 1.3 ragge 147 1.13 thorpej __asm__ __volatile("cmpc3 %3,(%1),(%2);movl r0,%0" 148 1.3 ragge : "=r" (ret) 149 1.3 ragge : "r" (b1), "r" (b2), "r" (len) 150 1.3 ragge : "r0","r1","r2","r3" ); 151 1.3 ragge return ret; 152 1.3 ragge } 153 1.3 ragge 154 1.16 ragge /* Begin nya */ 155 1.16 ragge static __inline__ size_t 156 1.16 ragge strlen(const char *cp) 157 1.16 ragge { 158 1.17 ragge register size_t ret; 159 1.16 ragge 160 1.16 ragge __asm__ __volatile("locc $0,$65535,(%1);subl3 r0,$65535,%0" 161 1.16 ragge : "=r" (ret) 162 1.16 ragge : "r" (cp) 163 1.16 ragge : "r0","r1","cc" ); 164 1.16 ragge return ret; 165 1.16 ragge } 166 1.16 ragge 167 1.16 ragge static __inline__ char * 168 1.16 ragge strcat(char *cp, const char *c2) 169 1.16 ragge { 170 1.16 ragge __asm__ __volatile("locc $0,$65535,(%1);subl3 r0,$65535,r2;incl r2; 171 1.16 ragge locc $0,$65535,(%0);movc3 r2,(%1),(r1)" 172 1.16 ragge : 173 1.16 ragge : "r" (cp), "r" (c2) 174 1.16 ragge : "r0","r1","r2","r3","r4","r5","memory","cc"); 175 1.16 ragge return cp; 176 1.16 ragge } 177 1.16 ragge 178 1.16 ragge static __inline__ char * 179 1.16 ragge strncat(char *cp, const char *c2, size_t count) 180 1.16 ragge { 181 1.16 ragge __asm__ __volatile("locc $0,%2,(%1);subl3 r0,%2,r2; 182 1.16 ragge locc $0,$65535,(%0);movc3 r2,(%1),(r1);movb $0,(r3)" 183 1.16 ragge : 184 1.16 ragge : "r" (cp), "r" (c2), "g"(count) 185 1.16 ragge : "r0","r1","r2","r3","r4","r5","memory","cc"); 186 1.16 ragge return cp; 187 1.16 ragge } 188 1.16 ragge 189 1.16 ragge static __inline__ char * 190 1.16 ragge strcpy(char *cp, const char *c2) 191 1.16 ragge { 192 1.16 ragge __asm__ __volatile("locc $0,$65535,(%1);subl3 r0,$65535,r2; 193 1.16 ragge movc3 r2,(%1),(%0);movb $0,(r3)" 194 1.16 ragge : 195 1.16 ragge : "r" (cp), "r" (c2) 196 1.16 ragge : "r0","r1","r2","r3","r4","r5","memory","cc"); 197 1.16 ragge return cp; 198 1.16 ragge } 199 1.16 ragge 200 1.16 ragge static __inline__ char * 201 1.16 ragge strncpy(char *cp, const char *c2, size_t len) 202 1.16 ragge { 203 1.16 ragge __asm__ __volatile("movl %2,r2;locc $0,r2,(%1);beql 1f;subl3 r0,%2,r2; 204 1.16 ragge clrb (%0)[r2];1:;movc3 r2,(%1),(%0)" 205 1.16 ragge : 206 1.16 ragge : "r" (cp), "r" (c2), "g"(len) 207 1.16 ragge : "r0","r1","r2","r3","r4","r5","memory","cc"); 208 1.16 ragge return cp; 209 1.16 ragge } 210 1.16 ragge 211 1.16 ragge static __inline__ void * 212 1.16 ragge memchr(const void *cp, int c, size_t len) 213 1.16 ragge { 214 1.16 ragge void *ret; 215 1.16 ragge __asm__ __volatile("locc %2,%3,(%1);bneq 1f;clrl r1;1:movl r1,%0" 216 1.16 ragge : "=g"(ret) 217 1.16 ragge : "r" (cp), "r" (c), "g"(len) 218 1.16 ragge : "r0","r1","cc"); 219 1.16 ragge return ret; 220 1.16 ragge } 221 1.16 ragge 222 1.16 ragge static __inline__ int 223 1.16 ragge strcmp(const char *cp, const char *c2) 224 1.16 ragge { 225 1.17 ragge register int ret; 226 1.16 ragge __asm__ __volatile("locc $0,$65535,(%1);subl3 r0,$65535,r0;incl r0; 227 1.16 ragge cmpc3 r0,(%1),(%2);beql 1f;movl $1,r2; 228 1.16 ragge cmpb (r1),(r3);bcc 1f;movl $-1,r2;1:movl r2,%0" 229 1.16 ragge : "=g"(ret) 230 1.16 ragge : "r" (cp), "r" (c2) 231 1.16 ragge : "r0","r1","r2","r3","cc"); 232 1.16 ragge return ret; 233 1.16 ragge } 234 1.16 ragge /* End nya */ 235 1.16 ragge 236 1.9 cgd #if 0 /* unused, but no point in deleting it since it _is_ an instruction */ 237 1.17.12.1 bouyer static __inline__ int locc(int mask, char *cp, size_t size){ 238 1.3 ragge register ret; 239 1.3 ragge 240 1.13 thorpej __asm__ __volatile("locc %1,%2,(%3);movl r0,%0" 241 1.3 ragge : "=r" (ret) 242 1.3 ragge : "r" (mask),"r"(size),"r"(cp) 243 1.3 ragge : "r0","r1" ); 244 1.3 ragge return ret; 245 1.3 ragge } 246 1.9 cgd #endif 247 1.3 ragge 248 1.10 ragge static __inline__ int 249 1.16 ragge scanc(u_int size, const u_char *cp, const u_char *table, int mask) 250 1.16 ragge { 251 1.17 ragge register int ret; 252 1.3 ragge 253 1.13 thorpej __asm__ __volatile("scanc %1,(%2),(%3),%4;movl r0,%0" 254 1.3 ragge : "=g"(ret) 255 1.3 ragge : "r"(size),"r"(cp),"r"(table),"r"(mask) 256 1.3 ragge : "r0","r1","r2","r3" ); 257 1.3 ragge return ret; 258 1.3 ragge } 259 1.3 ragge 260 1.16 ragge static __inline__ int 261 1.16 ragge skpc(int mask, size_t size, u_char *cp) 262 1.16 ragge { 263 1.17 ragge register int ret; 264 1.3 ragge 265 1.13 thorpej __asm__ __volatile("skpc %1,%2,(%3);movl r0,%0" 266 1.3 ragge : "=g"(ret) 267 1.3 ragge : "r"(mask),"r"(size),"r"(cp) 268 1.3 ragge : "r0","r1" ); 269 1.3 ragge return ret; 270 1.3 ragge } 271 1.3 ragge 272 1.15 ragge #define setrunqueue(p) \ 273 1.13 thorpej __asm__ __volatile("movl %0,r0;jsb Setrq":: "g"(p):"r0","r1","r2"); 274 1.12 ragge 275 1.15 ragge #define remrunqueue(p) \ 276 1.13 thorpej __asm__ __volatile("movl %0,r0;jsb Remrq":: "g"(p):"r0","r1","r2"); 277 1.12 ragge 278 1.15 ragge #define cpu_switch(p) \ 279 1.17.12.1 bouyer __asm__ __volatile("movl %0,r6;movpsl -(sp);jsb Swtch" \ 280 1.17.12.1 bouyer ::"g"(p):"r0","r1","r2","r3","r4","r5","r6"); 281 1.17.12.1 bouyer 282 1.17.12.1 bouyer /* 283 1.17.12.1 bouyer * Interlock instructions. Used both in multiprocessor environments to 284 1.17.12.1 bouyer * lock between CPUs and in uniprocessor systems when locking is required 285 1.17.12.1 bouyer * between I/O devices and the master CPU. 286 1.17.12.1 bouyer */ 287 1.17.12.1 bouyer /* 288 1.17.12.1 bouyer * Insqti() locks and inserts an element into the end of a queue. 289 1.17.12.1 bouyer * Returns -1 if interlock failed, 1 if inserted OK and 0 if first in queue. 290 1.17.12.1 bouyer */ 291 1.17.12.1 bouyer static __inline__ int 292 1.17.12.1 bouyer insqti(void *entry, void *header) { 293 1.17.12.1 bouyer register int ret; 294 1.17.12.1 bouyer 295 1.17.12.1 bouyer __asm__ __volatile(" 296 1.17.12.1 bouyer mnegl $1,%0; 297 1.17.12.1 bouyer insqti (%1),(%2); 298 1.17.12.1 bouyer bcs 1f; # failed insert 299 1.17.12.1 bouyer beql 2f; # jump if first entry 300 1.17.12.1 bouyer movl $1,%0; 301 1.17.12.1 bouyer brb 1f; 302 1.17.12.1 bouyer 2: clrl %0; 303 1.17.12.1 bouyer 1:;" 304 1.17.12.1 bouyer : "=&g"(ret) 305 1.17.12.1 bouyer : "r"(entry), "r"(header) 306 1.17.12.1 bouyer : "memory"); 307 1.17.12.1 bouyer 308 1.17.12.1 bouyer return ret; 309 1.17.12.1 bouyer } 310 1.17.12.1 bouyer 311 1.17.12.1 bouyer /* 312 1.17.12.1 bouyer * Remqhi() removes an element from the head of the queue. 313 1.17.12.1 bouyer * Returns -1 if interlock failed, 0 if queue empty, address of the 314 1.17.12.1 bouyer * removed element otherwise. 315 1.17.12.1 bouyer */ 316 1.17.12.1 bouyer static __inline__ void * 317 1.17.12.1 bouyer remqhi(void *header) { 318 1.17.12.1 bouyer register void *ret; 319 1.17.12.1 bouyer 320 1.17.12.1 bouyer __asm__ __volatile(" 321 1.17.12.1 bouyer remqhi (%1),%0; 322 1.17.12.1 bouyer bcs 1f; # failed interlock 323 1.17.12.1 bouyer bvs 2f; # nothing was removed 324 1.17.12.1 bouyer brb 3f; 325 1.17.12.1 bouyer 1: mnegl $1,%0; 326 1.17.12.1 bouyer brb 3f; 327 1.17.12.1 bouyer 2: clrl %0; 328 1.17.12.1 bouyer 3:;" 329 1.17.12.1 bouyer : "=&g"(ret) 330 1.17.12.1 bouyer : "r"(header) 331 1.17.12.1 bouyer : "memory"); 332 1.17.12.1 bouyer 333 1.17.12.1 bouyer return ret; 334 1.17.12.1 bouyer } 335 1.17.12.1 bouyer #define ILCK_FAILED -1 /* Interlock failed */ 336 1.17.12.1 bouyer #define Q_EMPTY 0 /* Queue is/was empty */ 337 1.17.12.1 bouyer #define Q_OK 1 /* Inserted OK */ 338 1.17.12.1 bouyer 339 1.3 ragge #endif /* _VAX_MACROS_H_ */ 340
Indexes created Tue Sep 30 17:09:57 GMT 2025