boot.c revision 1.21
1 1.21 martin /* $NetBSD: boot.c,v 1.21 2005/06/03 03:58:36 martin Exp $ */ 2 1.1 mrg 3 1.1 mrg /*- 4 1.1 mrg * Copyright (c) 1982, 1986, 1990, 1993 5 1.1 mrg * The Regents of the University of California. All rights reserved. 6 1.1 mrg * 7 1.1 mrg * Redistribution and use in source and binary forms, with or without 8 1.1 mrg * modification, are permitted provided that the following conditions 9 1.1 mrg * are met: 10 1.1 mrg * 1. Redistributions of source code must retain the above copyright 11 1.1 mrg * notice, this list of conditions and the following disclaimer. 12 1.1 mrg * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 mrg * notice, this list of conditions and the following disclaimer in the 14 1.1 mrg * documentation and/or other materials provided with the distribution. 15 1.18 agc * 3. Neither the name of the University nor the names of its contributors 16 1.1 mrg * may be used to endorse or promote products derived from this software 17 1.1 mrg * without specific prior written permission. 18 1.1 mrg * 19 1.1 mrg * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 20 1.1 mrg * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 21 1.1 mrg * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 22 1.1 mrg * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 23 1.1 mrg * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 24 1.1 mrg * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 25 1.1 mrg * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 26 1.1 mrg * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27 1.1 mrg * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 28 1.1 mrg * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 29 1.1 mrg * SUCH DAMAGE. 30 1.1 mrg * 31 1.1 mrg * @(#)boot.c 8.1 (Berkeley) 6/10/93 32 1.1 mrg */ 33 1.1 mrg 34 1.1 mrg #include <sys/param.h> 35 1.1 mrg #include <sys/reboot.h> 36 1.12 uwe #include <sys/boot_flag.h> 37 1.9 pk #include <sys/exec.h> 38 1.1 mrg 39 1.1 mrg #include <lib/libsa/stand.h> 40 1.5 christos #include <lib/libsa/loadfile.h> 41 1.17 mrg #include <lib/libkern/libkern.h> 42 1.1 mrg 43 1.4 pk #include <machine/promlib.h> 44 1.1 mrg #include <sparc/stand/common/promdev.h> 45 1.1 mrg 46 1.6 christos #include "bootinfo.h" 47 1.6 christos 48 1.10 uwe extern void prom_patch __P((void)); /* prompatch.c */ 49 1.10 uwe 50 1.21 martin static int bootoptions __P((const char *)); 51 1.4 pk 52 1.14 pk int boothowto; 53 1.14 pk int debug; 54 1.14 pk int netif_debug; 55 1.14 pk 56 1.14 pk char fbuf[80], dbuf[128]; 57 1.15 pk paddr_t bstart, bend; /* physical start & end address of the boot program */ 58 1.15 pk 59 1.15 pk int compatmode = 0; /* For loading older kernels */ 60 1.15 pk u_long loadaddrmask = -1UL; 61 1.1 mrg 62 1.1 mrg extern char bootprog_name[], bootprog_rev[], bootprog_date[], bootprog_maker[]; 63 1.1 mrg 64 1.4 pk int main __P((void)); 65 1.1 mrg typedef void (*entry_t)__P((caddr_t, int, int, int, long, long)); 66 1.1 mrg 67 1.3 mrg /* 68 1.3 mrg * Boot device is derived from ROM provided information, or if there is none, 69 1.3 mrg * this list is used in sequence, to find a kernel. 70 1.3 mrg */ 71 1.3 mrg char *kernels[] = { 72 1.3 mrg "netbsd", 73 1.3 mrg "netbsd.gz", 74 1.3 mrg "netbsd.old", 75 1.3 mrg "netbsd.old.gz", 76 1.3 mrg "onetbsd", 77 1.3 mrg "onetbsd.gz", 78 1.3 mrg "vmunix", 79 1.3 mrg #ifdef notyet 80 1.3 mrg "netbsd.pl", 81 1.3 mrg "netbsd.pl.gz", 82 1.3 mrg "netbsd.el", 83 1.3 mrg "netbsd.el.gz", 84 1.3 mrg #endif 85 1.3 mrg NULL 86 1.3 mrg }; 87 1.3 mrg 88 1.4 pk int 89 1.4 pk bootoptions(ap) 90 1.21 martin const char *ap; 91 1.4 pk { 92 1.4 pk int v = 0; 93 1.4 pk if (ap == NULL || *ap++ != '-') 94 1.4 pk return (0); 95 1.4 pk 96 1.4 pk while (*ap != '\0' && *ap != ' ' && *ap != '\t' && *ap != '\n') { 97 1.12 uwe BOOT_FLAG(*ap, v); 98 1.16 pk if (*ap == 'C') 99 1.16 pk compatmode = 1; 100 1.4 pk ap++; 101 1.4 pk } 102 1.12 uwe 103 1.12 uwe if ((v & RB_KDB) != 0) 104 1.12 uwe debug = 1; 105 1.4 pk 106 1.4 pk return (v); 107 1.4 pk } 108 1.4 pk 109 1.15 pk static paddr_t getphysmem(u_long size) 110 1.15 pk { 111 1.15 pk struct memarr *pmemarr; /* physical memory regions */ 112 1.15 pk int npmemarr; /* number of entries in pmemarr */ 113 1.15 pk struct memarr *mp; 114 1.15 pk int i; 115 1.15 pk extern char start[]; /* top of stack (see srt0.S) */ 116 1.15 pk 117 1.15 pk /* 118 1.15 pk * Find the physical memory area that's in use by the boot loader. 119 1.15 pk * Our stack grows down from label `start'; assume we need no more 120 1.15 pk * than 16K of stack space. 121 1.15 pk * The top of the boot loader is the next 4MB boundary. 122 1.15 pk */ 123 1.15 pk if (pmap_extract((vaddr_t)start - (16*1024), &bstart) != 0) 124 1.15 pk return ((paddr_t)-1); 125 1.15 pk 126 1.15 pk bend = roundup(bstart, 0x400000); 127 1.15 pk 128 1.15 pk /* 129 1.15 pk * Get available physical memory from the prom. 130 1.15 pk */ 131 1.15 pk npmemarr = prom_makememarr(NULL, 0, MEMARR_AVAILPHYS); 132 1.15 pk pmemarr = alloc(npmemarr*sizeof(struct memarr)); 133 1.15 pk if (pmemarr == NULL) 134 1.15 pk return ((paddr_t)-1); 135 1.15 pk npmemarr = prom_makememarr(pmemarr, npmemarr, MEMARR_AVAILPHYS); 136 1.15 pk 137 1.15 pk /* 138 1.15 pk * Find a suitable loading address. 139 1.15 pk */ 140 1.15 pk for (mp = pmemarr, i = npmemarr; --i >= 0; mp++) { 141 1.15 pk paddr_t pa = (paddr_t)pmemarr[i].addr; 142 1.15 pk u_long len = (u_long)pmemarr[i].len; 143 1.15 pk 144 1.15 pk /* Check whether it will fit in front of us */ 145 1.15 pk if (pa < bstart && len >= size && (bstart - pa) >= size) 146 1.15 pk return (pa); 147 1.15 pk 148 1.15 pk /* Skip the boot program memory */ 149 1.15 pk if (pa < bend) { 150 1.15 pk if (len < bend - pa) 151 1.15 pk /* Not large enough */ 152 1.15 pk continue; 153 1.15 pk 154 1.15 pk /* Shrink this segment */ 155 1.15 pk len -= bend - pa; 156 1.15 pk pa = bend; 157 1.15 pk } 158 1.15 pk 159 1.15 pk /* Does it fit in the remainder of this segment? */ 160 1.15 pk if (len >= size) 161 1.15 pk return (pa); 162 1.15 pk } 163 1.15 pk return ((paddr_t)-1); 164 1.15 pk } 165 1.15 pk 166 1.14 pk static int 167 1.14 pk loadk(char *kernel, u_long *marks) 168 1.14 pk { 169 1.14 pk int fd, error; 170 1.15 pk vaddr_t va; 171 1.15 pk paddr_t pa; 172 1.14 pk u_long size; 173 1.14 pk 174 1.14 pk if ((fd = open(kernel, 0)) < 0) 175 1.14 pk return (errno ? errno : ENOENT); 176 1.14 pk 177 1.14 pk marks[MARK_START] = 0; 178 1.14 pk if ((error = fdloadfile(fd, marks, COUNT_KERNEL)) != 0) 179 1.14 pk goto out; 180 1.14 pk 181 1.14 pk size = marks[MARK_END] - marks[MARK_START]; 182 1.15 pk 183 1.16 pk /* We want that leading 16K in front of the kernel image */ 184 1.15 pk size += PROM_LOADADDR; 185 1.15 pk va = marks[MARK_START] - PROM_LOADADDR; 186 1.15 pk 187 1.16 pk /* 188 1.16 pk * Extra space for bootinfo and kernel bootstrap. 189 1.16 pk * In compat mode, we get to re-use the space occupied by the 190 1.16 pk * boot program. Traditionally, we've silently assumed that 191 1.16 pk * is enough for the kernel to work with. 192 1.16 pk */ 193 1.16 pk size += BOOTINFO_SIZE; 194 1.16 pk if (!compatmode) 195 1.16 pk size += 512 * 1024; 196 1.15 pk 197 1.15 pk /* Get a physical load address */ 198 1.15 pk pa = getphysmem(size); 199 1.15 pk if (pa == (paddr_t)-1) { 200 1.14 pk error = EFBIG; 201 1.14 pk goto out; 202 1.14 pk } 203 1.14 pk 204 1.15 pk if (boothowto & AB_VERBOSE) 205 1.15 pk printf("Loading at physical address %lx\n", pa); 206 1.15 pk if (pmap_map(va, pa, size) != 0) { 207 1.15 pk error = EFAULT; 208 1.15 pk goto out; 209 1.15 pk } 210 1.15 pk 211 1.15 pk /* XXX - to do: inspect kernel image and set compat mode */ 212 1.15 pk if (compatmode) { 213 1.16 pk /* Double-map at VA 0 for compatibility */ 214 1.16 pk if (pa + size >= bstart) { 215 1.16 pk printf("%s: too large for compat mode\n", kernel); 216 1.16 pk error = EFBIG; 217 1.16 pk goto out; 218 1.16 pk } 219 1.16 pk 220 1.19 pk if (pa != 0 && pmap_map(0, pa, size) != 0) { 221 1.16 pk error = EFAULT; 222 1.16 pk goto out; 223 1.16 pk } 224 1.15 pk loadaddrmask = 0x07ffffffUL; 225 1.15 pk } 226 1.15 pk 227 1.14 pk marks[MARK_START] = 0; 228 1.14 pk error = fdloadfile(fd, marks, LOAD_KERNEL); 229 1.14 pk out: 230 1.14 pk close(fd); 231 1.14 pk return (error); 232 1.14 pk } 233 1.14 pk 234 1.4 pk int 235 1.1 mrg main() 236 1.1 mrg { 237 1.14 pk int error, i; 238 1.21 martin char kernel[MAX_PROM_PATH]; 239 1.21 martin const char *k; 240 1.6 christos u_long marks[MARK_MAX], bootinfo; 241 1.6 christos struct btinfo_symtab bi_sym; 242 1.5 christos void *arg; 243 1.1 mrg 244 1.8 pk #ifdef HEAP_VARIABLE 245 1.8 pk { 246 1.8 pk extern char end[]; 247 1.8 pk setheap((void *)ALIGN(end), (void *)0xffffffff); 248 1.8 pk } 249 1.8 pk #endif 250 1.1 mrg prom_init(); 251 1.15 pk mmu_init(); 252 1.1 mrg 253 1.1 mrg printf(">> %s, Revision %s\n", bootprog_name, bootprog_rev); 254 1.1 mrg printf(">> (%s, %s)\n", bootprog_maker, bootprog_date); 255 1.10 uwe 256 1.10 uwe /* massage machine prom */ 257 1.10 uwe prom_patch(); 258 1.1 mrg 259 1.3 mrg /* 260 1.3 mrg * get default kernel. 261 1.3 mrg */ 262 1.20 martin k = prom_getbootfile(); 263 1.20 martin if (k != NULL && *k != '\0') { 264 1.3 mrg i = -1; /* not using the kernels */ 265 1.20 martin strcpy(kernel, k); 266 1.3 mrg } else { 267 1.3 mrg i = 0; 268 1.20 martin strcpy(kernel, kernels[i]); 269 1.3 mrg } 270 1.1 mrg 271 1.20 martin k = prom_getbootpath(); 272 1.20 martin if (k && *k) 273 1.20 martin strcpy(prom_bootdevice, k); 274 1.20 martin boothowto = bootoptions(prom_getbootargs()); 275 1.20 martin 276 1.1 mrg for (;;) { 277 1.3 mrg /* 278 1.3 mrg * ask for a kernel first .. 279 1.3 mrg */ 280 1.14 pk if (boothowto & RB_ASKNAME) { 281 1.3 mrg printf("device[%s] (\"halt\" to halt): ", 282 1.4 pk prom_bootdevice); 283 1.1 mrg gets(dbuf); 284 1.3 mrg if (strcmp(dbuf, "halt") == 0) 285 1.3 mrg _rtt(); 286 1.1 mrg if (dbuf[0]) 287 1.20 martin strcpy(prom_bootdevice, dbuf); 288 1.3 mrg printf("boot (press RETURN to try default list): "); 289 1.1 mrg gets(fbuf); 290 1.1 mrg if (fbuf[0]) 291 1.20 martin strcpy(kernel, fbuf); 292 1.3 mrg else { 293 1.14 pk boothowto &= ~RB_ASKNAME; 294 1.3 mrg i = 0; 295 1.20 martin strcpy(kernel, kernels[i]); 296 1.3 mrg } 297 1.1 mrg } 298 1.3 mrg 299 1.5 christos printf("Booting %s\n", kernel); 300 1.14 pk if ((error = loadk(kernel, marks)) == 0) 301 1.14 pk break; 302 1.14 pk 303 1.14 pk if (error != ENOENT) { 304 1.14 pk printf("Cannot load %s: error=%d\n", kernel, error); 305 1.14 pk boothowto |= RB_ASKNAME; 306 1.13 pk } 307 1.13 pk 308 1.3 mrg /* 309 1.3 mrg * if we have are not in askname mode, and we aren't using the 310 1.3 mrg * prom bootfile, try the next one (if it exits). otherwise, 311 1.3 mrg * go into askname mode. 312 1.3 mrg */ 313 1.14 pk if ((boothowto & RB_ASKNAME) == 0 && 314 1.3 mrg i != -1 && kernels[++i]) { 315 1.20 martin strcpy(kernel, kernels[i]); 316 1.3 mrg printf(": trying %s...\n", kernel); 317 1.3 mrg } else { 318 1.3 mrg printf("\n"); 319 1.14 pk boothowto |= RB_ASKNAME; 320 1.3 mrg } 321 1.1 mrg } 322 1.1 mrg 323 1.15 pk marks[MARK_END] = (((u_long)marks[MARK_END] + sizeof(u_long) - 1)) & 324 1.15 pk (-sizeof(u_long)); 325 1.7 christos arg = (prom_version() == PROM_OLDMON) ? (caddr_t)PROM_LOADADDR : romp; 326 1.14 pk 327 1.15 pk /* Setup boot info structure at the end of the kernel image */ 328 1.15 pk bootinfo = bi_init(marks[MARK_END] & loadaddrmask); 329 1.11 pk 330 1.15 pk /* Add kernel symbols to bootinfo */ 331 1.15 pk bi_sym.nsym = marks[MARK_NSYM] & loadaddrmask; 332 1.15 pk bi_sym.ssym = marks[MARK_SYM] & loadaddrmask; 333 1.15 pk bi_sym.esym = marks[MARK_END] & loadaddrmask; 334 1.6 christos bi_add(&bi_sym, BTINFO_SYMTAB, sizeof(bi_sym)); 335 1.11 pk 336 1.15 pk /* Add kernel path to bootinfo */ 337 1.11 pk i = sizeof(struct btinfo_common) + strlen(kernel) + 1; 338 1.11 pk /* Impose limit (somewhat arbitrary) */ 339 1.11 pk if (i < BOOTINFO_SIZE / 2) { 340 1.11 pk union { 341 1.11 pk struct btinfo_kernelfile bi_file; 342 1.11 pk char x[i]; 343 1.11 pk } U; 344 1.11 pk strcpy(U.bi_file.name, kernel); 345 1.11 pk bi_add(&U.bi_file, BTINFO_KERNELFILE, i); 346 1.11 pk } 347 1.11 pk 348 1.6 christos (*(entry_t)marks[MARK_ENTRY])(arg, 0, 0, 0, bootinfo, DDB_MAGIC2); 349 1.1 mrg _rtt(); 350 1.1 mrg } 351
Indexes created Sat Sep 20 22:09:52 GMT 2025