promdev.c revision 1.6
1 1.6 pk /* $NetBSD: promdev.c,v 1.6 1998/10/12 21:17:28 pk Exp $ */ 2 1.1 mrg 3 1.1 mrg /* 4 1.1 mrg * Copyright (c) 1993 Paul Kranenburg 5 1.1 mrg * Copyright (c) 1995 Gordon W. Ross 6 1.1 mrg * All rights reserved. 7 1.1 mrg * 8 1.1 mrg * Redistribution and use in source and binary forms, with or without 9 1.1 mrg * modification, are permitted provided that the following conditions 10 1.1 mrg * are met: 11 1.1 mrg * 1. Redistributions of source code must retain the above copyright 12 1.1 mrg * notice, this list of conditions and the following disclaimer. 13 1.1 mrg * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 mrg * notice, this list of conditions and the following disclaimer in the 15 1.1 mrg * documentation and/or other materials provided with the distribution. 16 1.1 mrg * 3. All advertising materials mentioning features or use of this software 17 1.1 mrg * must display the following acknowledgement: 18 1.1 mrg * This product includes software developed by Paul Kranenburg. 19 1.1 mrg * 4. The name of the author may not be used to endorse or promote products 20 1.1 mrg * derived from this software without specific prior written permission 21 1.1 mrg * 22 1.1 mrg * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 mrg * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 mrg * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 mrg * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 mrg * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 mrg * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 mrg * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 mrg * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 mrg * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 mrg * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.1 mrg */ 33 1.1 mrg 34 1.1 mrg /* 35 1.1 mrg * Note: the `#ifndef BOOTXX' in here serve to queeze the code size 36 1.1 mrg * of the 1st-stage boot program. 37 1.1 mrg */ 38 1.1 mrg #include <sys/param.h> 39 1.1 mrg #include <sys/reboot.h> 40 1.1 mrg #include <machine/idprom.h> 41 1.1 mrg #include <machine/oldmon.h> 42 1.1 mrg #include <machine/ctlreg.h> 43 1.6 pk #include <sparc/sparc/asm.h> 44 1.6 pk #include <machine/pte.h> 45 1.1 mrg 46 1.1 mrg #include <lib/libsa/stand.h> 47 1.1 mrg 48 1.1 mrg #include <sparc/stand/common/promdev.h> 49 1.1 mrg 50 1.1 mrg int obp_close __P((struct open_file *)); 51 1.1 mrg int obp_strategy __P((void *, int, daddr_t, size_t, void *, size_t *)); 52 1.1 mrg ssize_t obp_xmit __P((struct promdata *, void *, size_t)); 53 1.1 mrg ssize_t obp_recv __P((struct promdata *, void *, size_t)); 54 1.1 mrg int prom0_close __P((struct open_file *)); 55 1.1 mrg int prom0_strategy __P((void *, int, daddr_t, size_t, void *, size_t *)); 56 1.1 mrg void prom0_iclose __P((struct saioreq *)); 57 1.1 mrg int prom0_iopen __P((struct promdata *)); 58 1.1 mrg ssize_t prom0_xmit __P((struct promdata *, void *, size_t)); 59 1.1 mrg ssize_t prom0_recv __P((struct promdata *, void *, size_t)); 60 1.1 mrg 61 1.1 mrg static char *prom_mapin __P((u_long, int, int)); 62 1.1 mrg 63 1.1 mrg int getdevtype __P((int, char *)); 64 1.5 christos int getpropval __P((int, char *, void *, int)); 65 1.1 mrg char *getpropstring __P((int, char *)); 66 1.1 mrg 67 1.1 mrg static void prom0_fake __P((void)); 68 1.1 mrg 69 1.1 mrg extern struct filesystem file_system_nfs[]; 70 1.1 mrg extern struct filesystem file_system_ufs[]; 71 1.1 mrg 72 1.1 mrg int prom_open __P((struct open_file *f, ...)) { return 0; } 73 1.1 mrg int prom_ioctl __P((struct open_file *f, u_long c, void *d)) { return EIO; } 74 1.1 mrg 75 1.1 mrg struct devsw devsw[] = { 76 1.1 mrg { "prom0", prom0_strategy, prom_open, prom0_close, prom_ioctl }, 77 1.1 mrg { "prom", obp_strategy, prom_open, obp_close, prom_ioctl } 78 1.1 mrg }; 79 1.1 mrg 80 1.1 mrg int ndevs = (sizeof(devsw)/sizeof(devsw[0])); 81 1.1 mrg 82 1.1 mrg char *prom_bootdevice; 83 1.1 mrg char *prom_bootfile; 84 1.1 mrg int prom_boothow; 85 1.1 mrg 86 1.1 mrg struct promvec *promvec; 87 1.1 mrg static int saveecho; 88 1.1 mrg 89 1.1 mrg void 90 1.1 mrg prom_init() 91 1.1 mrg { 92 1.4 pk static char storage[1024]; 93 1.2 pk char *ap, *cp, *dp; 94 1.1 mrg 95 1.1 mrg if (cputyp == CPU_SUN4) 96 1.1 mrg prom0_fake(); 97 1.1 mrg 98 1.1 mrg if (promvec->pv_romvec_vers >= 2) { 99 1.2 pk char *ep = storage + sizeof(storage) - 1; 100 1.1 mrg 101 1.1 mrg prom_bootdevice = *promvec->pv_v2bootargs.v2_bootpath; 102 1.1 mrg 103 1.1 mrg #ifndef BOOTXX 104 1.1 mrg cp = *promvec->pv_v2bootargs.v2_bootargs; 105 1.2 pk dp = prom_bootfile = storage; 106 1.3 mrg 107 1.2 pk /* Skip whitespace */ 108 1.2 pk while (*cp != 0 && (*cp == ' ' || *cp == '\t')) 109 1.2 pk cp++; 110 1.2 pk 111 1.3 mrg /* Check for options */ 112 1.3 mrg if (cp[0] == '-' && 113 1.3 mrg (cp[1] == 'a' || cp[1] == 's' || cp[1] == 'd')) 114 1.3 mrg cp++; 115 1.3 mrg else { 116 1.3 mrg /* Copy kernel name */ 117 1.3 mrg while (*cp != 0 && *cp != ' ' && *cp != '\t') { 118 1.3 mrg if (dp >= ep) { 119 1.3 mrg printf("v2_bootargs too long\n"); 120 1.3 mrg _rtt(); 121 1.3 mrg } 122 1.3 mrg *dp++ = *cp++; 123 1.3 mrg } 124 1.3 mrg 125 1.3 mrg *dp = '\0'; 126 1.3 mrg /* Skip whitespace */ 127 1.3 mrg while (*cp != 0 && (*cp == ' ' || *cp == '\t')) 128 1.3 mrg cp++; 129 1.3 mrg } 130 1.3 mrg 131 1.1 mrg ap = cp; 132 1.1 mrg #endif 133 1.1 mrg } else { 134 1.2 pk dp = prom_bootdevice = storage; 135 1.1 mrg cp = (*promvec->pv_v0bootargs)->ba_argv[0]; 136 1.1 mrg while (*cp) { 137 1.1 mrg *dp++ = *cp; 138 1.1 mrg if (*cp++ == ')') 139 1.1 mrg break; 140 1.1 mrg } 141 1.1 mrg *dp = '\0'; 142 1.1 mrg #ifndef BOOTXX 143 1.1 mrg prom_bootfile = (*promvec->pv_v0bootargs)->ba_kernel; 144 1.1 mrg ap = (*promvec->pv_v0bootargs)->ba_argv[1]; 145 1.1 mrg #endif 146 1.1 mrg } 147 1.1 mrg 148 1.1 mrg #ifndef BOOTXX 149 1.3 mrg if (ap == NULL || *ap++ != '-') 150 1.1 mrg return; 151 1.1 mrg 152 1.3 mrg while (*ap && *ap != ' ' && *ap != '\t' && *ap != '\n') { 153 1.3 mrg switch (*ap) { 154 1.1 mrg case 'a': 155 1.1 mrg prom_boothow |= RB_ASKNAME; 156 1.1 mrg break; 157 1.1 mrg case 's': 158 1.1 mrg prom_boothow |= RB_SINGLE; 159 1.1 mrg break; 160 1.1 mrg case 'd': 161 1.1 mrg prom_boothow |= RB_KDB; 162 1.1 mrg debug = 1; 163 1.1 mrg break; 164 1.1 mrg } 165 1.3 mrg ap++; 166 1.1 mrg } 167 1.1 mrg #endif 168 1.1 mrg } 169 1.1 mrg 170 1.1 mrg int 171 1.1 mrg devopen(f, fname, file) 172 1.1 mrg struct open_file *f; 173 1.1 mrg const char *fname; 174 1.1 mrg char **file; 175 1.1 mrg { 176 1.1 mrg int error = 0, fd; 177 1.1 mrg struct promdata *pd; 178 1.1 mrg 179 1.1 mrg pd = (struct promdata *)alloc(sizeof *pd); 180 1.1 mrg 181 1.1 mrg if (cputyp == CPU_SUN4) { 182 1.1 mrg error = prom0_iopen(pd); 183 1.1 mrg #ifndef BOOTXX 184 1.1 mrg pd->xmit = prom0_xmit; 185 1.1 mrg pd->recv = prom0_recv; 186 1.1 mrg #endif 187 1.1 mrg } else { 188 1.1 mrg fd = (promvec->pv_romvec_vers >= 2) 189 1.1 mrg ? (*promvec->pv_v2devops.v2_open)(prom_bootdevice) 190 1.1 mrg : (*promvec->pv_v0devops.v0_open)(prom_bootdevice); 191 1.1 mrg if (fd == 0) { 192 1.1 mrg error = ENXIO; 193 1.1 mrg } else { 194 1.1 mrg pd->fd = fd; 195 1.1 mrg #ifndef BOOTXX 196 1.1 mrg pd->xmit = obp_xmit; 197 1.1 mrg pd->recv = obp_recv; 198 1.1 mrg #endif 199 1.1 mrg } 200 1.1 mrg } 201 1.1 mrg 202 1.1 mrg if (error) { 203 1.1 mrg printf("Can't open device `%s'\n", prom_bootdevice); 204 1.1 mrg return (error); 205 1.1 mrg } 206 1.1 mrg 207 1.1 mrg #ifdef BOOTXX 208 1.1 mrg pd->devtype = DT_BLOCK; 209 1.1 mrg #else /* BOOTXX */ 210 1.1 mrg pd->devtype = getdevtype(fd, prom_bootdevice); 211 1.1 mrg /* Assume type BYTE is a raw device */ 212 1.1 mrg if (pd->devtype != DT_BYTE) 213 1.1 mrg *file = (char *)fname; 214 1.1 mrg 215 1.1 mrg if (pd->devtype == DT_NET) { 216 1.1 mrg bcopy(file_system_nfs, file_system, sizeof(struct fs_ops)); 217 1.1 mrg if ((error = net_open(pd)) != 0) { 218 1.1 mrg printf("Can't open network device `%s'\n", 219 1.1 mrg prom_bootdevice); 220 1.1 mrg return error; 221 1.1 mrg } 222 1.1 mrg } else 223 1.1 mrg bcopy(file_system_ufs, file_system, sizeof(struct fs_ops)); 224 1.1 mrg #endif /* BOOTXX */ 225 1.1 mrg 226 1.1 mrg f->f_dev = &devsw[cputyp == CPU_SUN4 ? 0 : 1]; 227 1.1 mrg f->f_devdata = (void *)pd; 228 1.1 mrg return 0; 229 1.1 mrg } 230 1.1 mrg 231 1.1 mrg int 232 1.1 mrg obp_strategy(devdata, flag, dblk, size, buf, rsize) 233 1.1 mrg void *devdata; 234 1.1 mrg int flag; 235 1.1 mrg daddr_t dblk; 236 1.1 mrg size_t size; 237 1.1 mrg void *buf; 238 1.1 mrg size_t *rsize; 239 1.1 mrg { 240 1.1 mrg int error = 0; 241 1.1 mrg struct promdata *pd = (struct promdata *)devdata; 242 1.1 mrg int fd = pd->fd; 243 1.1 mrg 244 1.1 mrg #ifdef DEBUG_PROM 245 1.1 mrg printf("promstrategy: size=%d dblk=%d\n", size, dblk); 246 1.1 mrg #endif 247 1.1 mrg 248 1.1 mrg if (promvec->pv_romvec_vers >= 2) { 249 1.1 mrg if (pd->devtype == DT_BLOCK) 250 1.1 mrg (*promvec->pv_v2devops.v2_seek)(fd, 0, dbtob(dblk)); 251 1.1 mrg 252 1.1 mrg *rsize = (*((flag == F_READ) 253 1.1 mrg ? (u_int (*)())promvec->pv_v2devops.v2_read 254 1.1 mrg : (u_int (*)())promvec->pv_v2devops.v2_write 255 1.1 mrg ))(fd, buf, size); 256 1.1 mrg } else { 257 1.1 mrg int n = (*((flag == F_READ) 258 1.1 mrg ? (u_int (*)())promvec->pv_v0devops.v0_rbdev 259 1.1 mrg : (u_int (*)())promvec->pv_v0devops.v0_wbdev 260 1.1 mrg ))(fd, btodb(size), dblk, buf); 261 1.1 mrg *rsize = dbtob(n); 262 1.1 mrg } 263 1.1 mrg 264 1.1 mrg #ifdef DEBUG_PROM 265 1.1 mrg printf("rsize = %x\n", *rsize); 266 1.1 mrg #endif 267 1.1 mrg return error; 268 1.1 mrg } 269 1.1 mrg 270 1.1 mrg /* 271 1.1 mrg * On old-monitor machines, things work differently. 272 1.1 mrg */ 273 1.1 mrg int 274 1.1 mrg prom0_strategy(devdata, flag, dblk, size, buf, rsize) 275 1.1 mrg void *devdata; 276 1.1 mrg int flag; 277 1.1 mrg daddr_t dblk; 278 1.1 mrg size_t size; 279 1.1 mrg void *buf; 280 1.1 mrg size_t *rsize; 281 1.1 mrg { 282 1.1 mrg struct promdata *pd = devdata; 283 1.1 mrg struct saioreq *si; 284 1.1 mrg struct om_boottable *ops; 285 1.1 mrg char *dmabuf; 286 1.1 mrg int si_flag; 287 1.1 mrg size_t xcnt; 288 1.1 mrg 289 1.1 mrg si = pd->si; 290 1.1 mrg ops = si->si_boottab; 291 1.1 mrg 292 1.1 mrg #ifdef DEBUG_PROM 293 1.1 mrg printf("prom_strategy: size=%d dblk=%d\n", size, dblk); 294 1.1 mrg #endif 295 1.1 mrg 296 1.1 mrg dmabuf = dvma_mapin(buf, size); 297 1.1 mrg 298 1.1 mrg si->si_bn = dblk; 299 1.1 mrg si->si_ma = dmabuf; 300 1.1 mrg si->si_cc = size; 301 1.1 mrg 302 1.1 mrg si_flag = (flag == F_READ) ? SAIO_F_READ : SAIO_F_WRITE; 303 1.1 mrg xcnt = (*ops->b_strategy)(si, si_flag); 304 1.1 mrg dvma_mapout(dmabuf, size); 305 1.1 mrg 306 1.1 mrg #ifdef DEBUG_PROM 307 1.1 mrg printf("disk_strategy: xcnt = %x\n", xcnt); 308 1.1 mrg #endif 309 1.1 mrg 310 1.1 mrg if (xcnt <= 0) 311 1.1 mrg return (EIO); 312 1.1 mrg 313 1.1 mrg *rsize = xcnt; 314 1.1 mrg return (0); 315 1.1 mrg } 316 1.1 mrg 317 1.1 mrg int 318 1.1 mrg obp_close(f) 319 1.1 mrg struct open_file *f; 320 1.1 mrg { 321 1.1 mrg struct promdata *pd = f->f_devdata; 322 1.1 mrg register int fd = pd->fd; 323 1.1 mrg 324 1.1 mrg #ifndef BOOTXX 325 1.1 mrg if (pd->devtype == DT_NET) 326 1.1 mrg net_close(pd); 327 1.1 mrg #endif 328 1.1 mrg if (promvec->pv_romvec_vers >= 2) 329 1.1 mrg (void)(*promvec->pv_v2devops.v2_close)(fd); 330 1.1 mrg else 331 1.1 mrg (void)(*promvec->pv_v0devops.v0_close)(fd); 332 1.1 mrg return 0; 333 1.1 mrg } 334 1.1 mrg 335 1.1 mrg int 336 1.1 mrg prom0_close(f) 337 1.1 mrg struct open_file *f; 338 1.1 mrg { 339 1.1 mrg struct promdata *pd = f->f_devdata; 340 1.1 mrg 341 1.1 mrg #ifndef BOOTXX 342 1.1 mrg if (pd->devtype == DT_NET) 343 1.1 mrg net_close(pd); 344 1.1 mrg #endif 345 1.1 mrg prom0_iclose(pd->si); 346 1.1 mrg pd->si = NULL; 347 1.1 mrg *romp->echo = saveecho; /* Hmm, probably must go somewhere else */ 348 1.1 mrg return 0; 349 1.1 mrg } 350 1.1 mrg 351 1.1 mrg #ifndef BOOTXX 352 1.1 mrg ssize_t 353 1.1 mrg obp_xmit(pd, buf, len) 354 1.1 mrg struct promdata *pd; 355 1.1 mrg void *buf; 356 1.1 mrg size_t len; 357 1.1 mrg { 358 1.1 mrg return (promvec->pv_romvec_vers >= 2 359 1.1 mrg ? (*promvec->pv_v2devops.v2_write)(pd->fd, buf, len) 360 1.1 mrg : (*promvec->pv_v0devops.v0_wnet)(pd->fd, len, buf)); 361 1.1 mrg } 362 1.1 mrg 363 1.1 mrg ssize_t 364 1.1 mrg obp_recv(pd, buf, len) 365 1.1 mrg struct promdata *pd; 366 1.1 mrg void *buf; 367 1.1 mrg size_t len; 368 1.1 mrg { 369 1.1 mrg int n; 370 1.1 mrg 371 1.1 mrg n = (promvec->pv_romvec_vers >= 2 372 1.1 mrg ? (*promvec->pv_v2devops.v2_read)(pd->fd, buf, len) 373 1.1 mrg : (*promvec->pv_v0devops.v0_rnet)(pd->fd, len, buf)); 374 1.1 mrg return (n == -2 ? 0 : n); 375 1.1 mrg } 376 1.1 mrg 377 1.1 mrg ssize_t 378 1.1 mrg prom0_xmit(pd, buf, len) 379 1.1 mrg struct promdata *pd; 380 1.1 mrg void *buf; 381 1.1 mrg size_t len; 382 1.1 mrg { 383 1.1 mrg struct saioreq *si; 384 1.1 mrg struct saif *sif; 385 1.1 mrg char *dmabuf; 386 1.1 mrg int rv; 387 1.1 mrg 388 1.1 mrg si = pd->si; 389 1.1 mrg sif = si->si_sif; 390 1.1 mrg if (sif == NULL) { 391 1.1 mrg printf("xmit: not a network device\n"); 392 1.1 mrg return (-1); 393 1.1 mrg } 394 1.1 mrg dmabuf = dvma_mapin(buf, len); 395 1.1 mrg rv = sif->sif_xmit(si->si_devdata, dmabuf, len); 396 1.1 mrg dvma_mapout(dmabuf, len); 397 1.1 mrg 398 1.1 mrg return (ssize_t)(rv ? -1 : len); 399 1.1 mrg } 400 1.1 mrg 401 1.1 mrg ssize_t 402 1.1 mrg prom0_recv(pd, buf, len) 403 1.1 mrg struct promdata *pd; 404 1.1 mrg void *buf; 405 1.1 mrg size_t len; 406 1.1 mrg { 407 1.1 mrg struct saioreq *si; 408 1.1 mrg struct saif *sif; 409 1.1 mrg char *dmabuf; 410 1.1 mrg int rv; 411 1.1 mrg 412 1.1 mrg si = pd->si; 413 1.1 mrg sif = si->si_sif; 414 1.1 mrg dmabuf = dvma_mapin(buf, len); 415 1.1 mrg rv = sif->sif_poll(si->si_devdata, dmabuf); 416 1.1 mrg dvma_mapout(dmabuf, len); 417 1.1 mrg 418 1.1 mrg return (ssize_t)rv; 419 1.1 mrg } 420 1.1 mrg 421 1.1 mrg int 422 1.1 mrg getchar() 423 1.1 mrg { 424 1.1 mrg char c; 425 1.1 mrg register int n; 426 1.1 mrg 427 1.1 mrg if (promvec->pv_romvec_vers > 2) 428 1.1 mrg while ((n = (*promvec->pv_v2devops.v2_read) 429 1.1 mrg (*promvec->pv_v2bootargs.v2_fd0, (caddr_t)&c, 1)) != 1); 430 1.1 mrg else 431 1.1 mrg c = (*promvec->pv_getchar)(); 432 1.1 mrg 433 1.1 mrg if (c == '\r') 434 1.1 mrg c = '\n'; 435 1.1 mrg return (c); 436 1.1 mrg } 437 1.1 mrg 438 1.1 mrg int 439 1.1 mrg peekchar() 440 1.1 mrg { 441 1.1 mrg char c; 442 1.1 mrg register int n; 443 1.1 mrg 444 1.1 mrg if (promvec->pv_romvec_vers > 2) { 445 1.1 mrg n = (*promvec->pv_v2devops.v2_read) 446 1.1 mrg (*promvec->pv_v2bootargs.v2_fd0, (caddr_t)&c, 1); 447 1.1 mrg if (n < 0) 448 1.1 mrg return -1; 449 1.1 mrg } else 450 1.1 mrg c = (*promvec->pv_nbgetchar)(); 451 1.1 mrg 452 1.1 mrg if (c == '\r') 453 1.1 mrg c = '\n'; 454 1.1 mrg return (c); 455 1.1 mrg } 456 1.1 mrg #endif 457 1.1 mrg 458 1.1 mrg static void 459 1.1 mrg pv_putchar(c) 460 1.1 mrg int c; 461 1.1 mrg { 462 1.1 mrg char c0 = c; 463 1.1 mrg 464 1.1 mrg if (promvec->pv_romvec_vers > 2) 465 1.1 mrg (*promvec->pv_v2devops.v2_write) 466 1.1 mrg (*promvec->pv_v2bootargs.v2_fd1, &c0, 1); 467 1.1 mrg else 468 1.1 mrg (*promvec->pv_putchar)(c); 469 1.1 mrg } 470 1.1 mrg 471 1.1 mrg void 472 1.1 mrg putchar(c) 473 1.1 mrg int c; 474 1.1 mrg { 475 1.1 mrg 476 1.1 mrg if (c == '\n') 477 1.1 mrg pv_putchar('\r'); 478 1.1 mrg pv_putchar(c); 479 1.1 mrg } 480 1.1 mrg 481 1.1 mrg void 482 1.1 mrg _rtt() 483 1.1 mrg { 484 1.1 mrg promvec->pv_halt(); 485 1.1 mrg } 486 1.1 mrg 487 1.1 mrg #ifndef BOOTXX 488 1.1 mrg int hz = 1000; 489 1.1 mrg 490 1.1 mrg time_t 491 1.1 mrg getsecs() 492 1.1 mrg { 493 1.1 mrg register int ticks = getticks(); 494 1.1 mrg return ((time_t)(ticks / hz)); 495 1.1 mrg } 496 1.1 mrg 497 1.1 mrg int 498 1.1 mrg getticks() 499 1.1 mrg { 500 1.1 mrg if (promvec->pv_romvec_vers >= 2) { 501 1.1 mrg char c; 502 1.1 mrg (void)(*promvec->pv_v2devops.v2_read) 503 1.1 mrg (*promvec->pv_v2bootargs.v2_fd0, (caddr_t)&c, 0); 504 1.1 mrg } else { 505 1.1 mrg (void)(*promvec->pv_nbgetchar)(); 506 1.1 mrg } 507 1.1 mrg return *(promvec->pv_ticks); 508 1.1 mrg } 509 1.1 mrg 510 1.1 mrg void 511 1.1 mrg prom_getether(fd, ea) 512 1.1 mrg u_char *ea; 513 1.1 mrg { 514 1.1 mrg if (cputyp == CPU_SUN4) { 515 1.1 mrg static struct idprom sun4_idprom; 516 1.1 mrg u_char *src, *dst; 517 1.1 mrg int len, x; 518 1.1 mrg 519 1.1 mrg if (sun4_idprom.id_format == 0) { 520 1.1 mrg dst = (char*)&sun4_idprom; 521 1.1 mrg src = (char*)AC_IDPROM; 522 1.1 mrg len = sizeof(struct idprom); 523 1.1 mrg do { 524 1.1 mrg x = lduba(src++, ASI_CONTROL); 525 1.1 mrg *dst++ = x; 526 1.1 mrg } while (--len > 0); 527 1.1 mrg } 528 1.1 mrg bcopy(sun4_idprom.id_ether, ea, 6); 529 1.1 mrg } else if (promvec->pv_romvec_vers <= 2) { 530 1.1 mrg (void)(*promvec->pv_enaddr)(fd, (char *)ea); 531 1.1 mrg } else { 532 1.1 mrg char buf[64]; 533 1.1 mrg sprintf(buf, "%x mac-address drop swap 6 cmove", ea); 534 1.1 mrg promvec->pv_fortheval.v2_eval(buf); 535 1.1 mrg } 536 1.1 mrg } 537 1.1 mrg 538 1.1 mrg 539 1.1 mrg /* 540 1.1 mrg * A number of well-known devices on sun4s. 541 1.1 mrg */ 542 1.1 mrg static struct dtab { 543 1.1 mrg char *name; 544 1.1 mrg int type; 545 1.1 mrg } dtab[] = { 546 1.1 mrg { "sd", DT_BLOCK }, 547 1.1 mrg { "st", DT_BLOCK }, 548 1.1 mrg { "xd", DT_BLOCK }, 549 1.1 mrg { "xy", DT_BLOCK }, 550 1.1 mrg { "fd", DT_BLOCK }, 551 1.1 mrg { "le", DT_NET }, 552 1.1 mrg { "ie", DT_NET }, 553 1.1 mrg { NULL, 0 } 554 1.1 mrg }; 555 1.1 mrg 556 1.1 mrg int 557 1.1 mrg getdevtype(fd, name) 558 1.1 mrg int fd; 559 1.1 mrg char *name; 560 1.1 mrg { 561 1.1 mrg if (promvec->pv_romvec_vers >= 2) { 562 1.1 mrg int node = (*promvec->pv_v2devops.v2_fd_phandle)(fd); 563 1.1 mrg char *cp = getpropstring(node, "device_type"); 564 1.1 mrg if (strcmp(cp, "block") == 0) 565 1.1 mrg return DT_BLOCK; 566 1.1 mrg else if (strcmp(cp, "network") == 0) 567 1.1 mrg return DT_NET; 568 1.1 mrg else if (strcmp(cp, "byte") == 0) 569 1.1 mrg return DT_BYTE; 570 1.1 mrg } else { 571 1.1 mrg struct dtab *dp; 572 1.1 mrg for (dp = dtab; dp->name; dp++) { 573 1.1 mrg if (name[0] == dp->name[0] && 574 1.1 mrg name[1] == dp->name[1]) 575 1.1 mrg return dp->type; 576 1.1 mrg } 577 1.1 mrg } 578 1.1 mrg return 0; 579 1.1 mrg } 580 1.1 mrg 581 1.1 mrg /* 582 1.1 mrg * OpenPROM nodes & property routines (from <sparc/autoconf.c>). 583 1.1 mrg */ 584 1.1 mrg int 585 1.5 christos getpropval(node, name, buf, bufsiz) 586 1.1 mrg int node; 587 1.1 mrg char *name; 588 1.1 mrg void *buf; 589 1.1 mrg register int bufsiz; 590 1.1 mrg { 591 1.1 mrg register struct nodeops *no; 592 1.1 mrg register int len; 593 1.1 mrg 594 1.1 mrg no = promvec->pv_nodeops; 595 1.1 mrg len = no->no_proplen(node, name); 596 1.1 mrg if (len > bufsiz) { 597 1.1 mrg printf("node %x property %s length %d > %d\n", 598 1.1 mrg node, name, len, bufsiz); 599 1.1 mrg return (0); 600 1.1 mrg } 601 1.1 mrg no->no_getprop(node, name, buf); 602 1.1 mrg return (len); 603 1.1 mrg } 604 1.1 mrg 605 1.1 mrg /* 606 1.1 mrg * Return a string property. There is a (small) limit on the length; 607 1.1 mrg * the string is fetched into a static buffer which is overwritten on 608 1.1 mrg * subsequent calls. 609 1.1 mrg */ 610 1.1 mrg char * 611 1.1 mrg getpropstring(node, name) 612 1.1 mrg int node; 613 1.1 mrg char *name; 614 1.1 mrg { 615 1.1 mrg register int len; 616 1.1 mrg static char stringbuf[64]; 617 1.1 mrg 618 1.5 christos len = getpropval(node, name, (void *)stringbuf, sizeof stringbuf - 1); 619 1.1 mrg if (len == -1) 620 1.1 mrg len = 0; 621 1.1 mrg stringbuf[len] = '\0'; /* usually unnecessary */ 622 1.1 mrg return (stringbuf); 623 1.1 mrg } 624 1.1 mrg #endif /* BOOTXX */ 625 1.1 mrg 626 1.1 mrg /* 627 1.1 mrg * Old monitor routines 628 1.1 mrg */ 629 1.1 mrg 630 1.1 mrg struct saioreq prom_si; 631 1.1 mrg static int promdev_inuse; 632 1.1 mrg 633 1.1 mrg int 634 1.1 mrg prom0_iopen(pd) 635 1.1 mrg struct promdata *pd; 636 1.1 mrg { 637 1.1 mrg struct om_bootparam *bp; 638 1.1 mrg struct om_boottable *ops; 639 1.1 mrg struct devinfo *dip; 640 1.1 mrg struct saioreq *si; 641 1.1 mrg int error; 642 1.1 mrg 643 1.1 mrg if (promdev_inuse) 644 1.1 mrg return(EMFILE); 645 1.1 mrg 646 1.1 mrg bp = *romp->bootParam; 647 1.1 mrg ops = bp->bootTable; 648 1.1 mrg dip = ops->b_devinfo; 649 1.1 mrg 650 1.1 mrg #ifdef DEBUG_PROM 651 1.1 mrg printf("Boot device type: %s\n", ops->b_desc); 652 1.1 mrg printf("d_devbytes=%d\n", dip->d_devbytes); 653 1.1 mrg printf("d_dmabytes=%d\n", dip->d_dmabytes); 654 1.1 mrg printf("d_localbytes=%d\n", dip->d_localbytes); 655 1.1 mrg printf("d_stdcount=%d\n", dip->d_stdcount); 656 1.1 mrg printf("d_stdaddrs[%d]=%x\n", bp->ctlrNum, dip->d_stdaddrs[bp->ctlrNum]); 657 1.1 mrg printf("d_devtype=%d\n", dip->d_devtype); 658 1.1 mrg printf("d_maxiobytes=%d\n", dip->d_maxiobytes); 659 1.1 mrg #endif 660 1.1 mrg 661 1.1 mrg dvma_init(); 662 1.1 mrg 663 1.1 mrg si = &prom_si; 664 1.1 mrg bzero((caddr_t)si, sizeof(*si)); 665 1.1 mrg si->si_boottab = ops; 666 1.1 mrg si->si_ctlr = bp->ctlrNum; 667 1.1 mrg si->si_unit = bp->unitNum; 668 1.1 mrg si->si_boff = bp->partNum; 669 1.1 mrg 670 1.1 mrg if (si->si_ctlr > dip->d_stdcount) { 671 1.1 mrg printf("Invalid controller number\n"); 672 1.1 mrg return(ENXIO); 673 1.1 mrg } 674 1.1 mrg 675 1.1 mrg if (dip->d_devbytes) { 676 1.1 mrg si->si_devaddr = prom_mapin(dip->d_stdaddrs[si->si_ctlr], 677 1.1 mrg dip->d_devbytes, dip->d_devtype); 678 1.1 mrg #ifdef DEBUG_PROM 679 1.1 mrg printf("prom_iopen: devaddr=0x%x pte=0x%x\n", 680 1.1 mrg si->si_devaddr, 681 1.6 pk getpte4((u_long)si->si_devaddr & ~PGOFSET)); 682 1.1 mrg #endif 683 1.1 mrg } 684 1.1 mrg 685 1.1 mrg if (dip->d_dmabytes) { 686 1.1 mrg si->si_dmaaddr = dvma_alloc(dip->d_dmabytes); 687 1.1 mrg #ifdef DEBUG_PROM 688 1.1 mrg printf("prom_iopen: dmaaddr=0x%x\n", si->si_dmaaddr); 689 1.1 mrg #endif 690 1.1 mrg } 691 1.1 mrg 692 1.1 mrg if (dip->d_localbytes) { 693 1.1 mrg si->si_devdata = alloc(dip->d_localbytes); 694 1.1 mrg #ifdef DEBUG_PROM 695 1.1 mrg printf("prom_iopen: devdata=0x%x\n", si->si_devdata); 696 1.1 mrg #endif 697 1.1 mrg } 698 1.1 mrg 699 1.1 mrg /* OK, call the PROM device open routine. */ 700 1.1 mrg error = (*ops->b_open)(si); 701 1.1 mrg if (error != 0) { 702 1.1 mrg printf("prom_iopen: \"%s\" error=%d\n", 703 1.1 mrg ops->b_desc, error); 704 1.1 mrg return (ENXIO); 705 1.1 mrg } 706 1.1 mrg #ifdef DEBUG_PROM 707 1.1 mrg printf("prom_iopen: succeeded, error=%d\n", error); 708 1.1 mrg #endif 709 1.1 mrg 710 1.1 mrg pd->si = si; 711 1.1 mrg promdev_inuse++; 712 1.1 mrg return (0); 713 1.1 mrg } 714 1.1 mrg 715 1.1 mrg void 716 1.1 mrg prom0_iclose(si) 717 1.1 mrg struct saioreq *si; 718 1.1 mrg { 719 1.1 mrg struct om_boottable *ops; 720 1.1 mrg struct devinfo *dip; 721 1.1 mrg 722 1.1 mrg if (promdev_inuse == 0) 723 1.1 mrg return; 724 1.1 mrg 725 1.1 mrg ops = si->si_boottab; 726 1.1 mrg dip = ops->b_devinfo; 727 1.1 mrg 728 1.1 mrg (*ops->b_close)(si); 729 1.1 mrg 730 1.1 mrg if (si->si_dmaaddr) { 731 1.1 mrg dvma_free(si->si_dmaaddr, dip->d_dmabytes); 732 1.1 mrg si->si_dmaaddr = NULL; 733 1.1 mrg } 734 1.1 mrg 735 1.1 mrg promdev_inuse = 0; 736 1.1 mrg } 737 1.1 mrg 738 1.1 mrg static struct mapinfo { 739 1.1 mrg int maptype; 740 1.1 mrg int pgtype; 741 1.1 mrg int base; 742 1.1 mrg } prom_mapinfo[] = { 743 1.1 mrg { MAP_MAINMEM, PG_OBMEM, 0 }, 744 1.1 mrg { MAP_OBIO, PG_OBIO, 0 }, 745 1.1 mrg { MAP_MBMEM, PG_VME16, 0xFF000000 }, 746 1.1 mrg { MAP_MBIO, PG_VME16, 0xFFFF0000 }, 747 1.1 mrg { MAP_VME16A16D, PG_VME16, 0xFFFF0000 }, 748 1.1 mrg { MAP_VME16A32D, PG_VME32, 0xFFFF0000 }, 749 1.1 mrg { MAP_VME24A16D, PG_VME16, 0xFF000000 }, 750 1.1 mrg { MAP_VME24A32D, PG_VME32, 0xFF000000 }, 751 1.1 mrg { MAP_VME32A16D, PG_VME16, 0 }, 752 1.1 mrg { MAP_VME32A32D, PG_VME32, 0 }, 753 1.1 mrg }; 754 1.1 mrg static prom_mapinfo_cnt = sizeof(prom_mapinfo) / sizeof(prom_mapinfo[0]); 755 1.1 mrg 756 1.1 mrg /* The virtual address we will use for PROM device mappings. */ 757 1.1 mrg static u_long prom_devmap = MONSHORTSEG; 758 1.1 mrg 759 1.1 mrg static char * 760 1.1 mrg prom_mapin(physaddr, length, maptype) 761 1.1 mrg u_long physaddr; 762 1.1 mrg int length, maptype; 763 1.1 mrg { 764 1.1 mrg int i, pa, pte, va; 765 1.1 mrg 766 1.1 mrg if (length > (4*NBPG)) 767 1.1 mrg panic("prom_mapin: length=%d\n", length); 768 1.1 mrg 769 1.1 mrg for (i = 0; i < prom_mapinfo_cnt; i++) 770 1.1 mrg if (prom_mapinfo[i].maptype == maptype) 771 1.1 mrg goto found; 772 1.1 mrg panic("prom_mapin: invalid maptype %d\n", maptype); 773 1.1 mrg found: 774 1.1 mrg 775 1.1 mrg pte = prom_mapinfo[i].pgtype; 776 1.1 mrg pte |= (PG_V|PG_W|PG_S|PG_NC); 777 1.1 mrg pa = prom_mapinfo[i].base; 778 1.1 mrg pa += physaddr; 779 1.1 mrg pte |= ((pa >> PGSHIFT) & PG_PFNUM); 780 1.1 mrg 781 1.1 mrg va = prom_devmap; 782 1.1 mrg do { 783 1.6 pk setpte4(va, pte); 784 1.1 mrg va += NBPG; 785 1.1 mrg pte += 1; 786 1.1 mrg length -= NBPG; 787 1.1 mrg } while (length > 0); 788 1.1 mrg return ((char*)(prom_devmap | (pa & PGOFSET))); 789 1.1 mrg } 790 1.1 mrg 791 1.1 mrg void 792 1.1 mrg prom0_fake() 793 1.1 mrg { 794 1.1 mrg static struct promvec promvecstore; 795 1.1 mrg 796 1.1 mrg promvec = &promvecstore; 797 1.1 mrg 798 1.1 mrg promvec->pv_stdin = romp->inSource; 799 1.1 mrg promvec->pv_stdout = romp->outSink; 800 1.1 mrg promvec->pv_putchar = romp->putChar; 801 1.1 mrg promvec->pv_putstr = romp->fbWriteStr; 802 1.1 mrg promvec->pv_nbgetchar = romp->mayGet; 803 1.1 mrg promvec->pv_getchar = romp->getChar; 804 1.1 mrg promvec->pv_romvec_vers = 0; /* eek! */ 805 1.1 mrg promvec->pv_reboot = romp->reBoot; 806 1.1 mrg promvec->pv_abort = romp->abortEntry; 807 1.1 mrg promvec->pv_setctxt = romp->setcxsegmap; 808 1.1 mrg promvec->pv_v0bootargs = (struct v0bootargs **)(romp->bootParam); 809 1.1 mrg promvec->pv_halt = romp->exitToMon; 810 1.1 mrg promvec->pv_ticks = romp->nmiClock; 811 1.1 mrg saveecho = *romp->echo; 812 1.1 mrg *romp->echo = 0; 813 1.1 mrg } 814
Indexes created Tue Sep 23 23:09:58 GMT 2025