boot.c revision 1.26
1 1.1 ws 2 1.1 ws /* 3 1.5 ws * Copyright (C) 1995, 1997 Wolfgang Solfrank 4 1.1 ws * Copyright (c) 1995 Martin Husemann 5 1.1 ws * 6 1.1 ws * Redistribution and use in source and binary forms, with or without 7 1.1 ws * modification, are permitted provided that the following conditions 8 1.1 ws * are met: 9 1.1 ws * 1. Redistributions of source code must retain the above copyright 10 1.1 ws * notice, this list of conditions and the following disclaimer. 11 1.1 ws * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 ws * notice, this list of conditions and the following disclaimer in the 13 1.1 ws * documentation and/or other materials provided with the distribution. 14 1.1 ws * 15 1.1 ws * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR 16 1.1 ws * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 17 1.1 ws * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 18 1.1 ws * IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT, 19 1.1 ws * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 20 1.1 ws * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 21 1.1 ws * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 22 1.1 ws * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 23 1.1 ws * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 24 1.1 ws * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 25 1.1 ws */ 26 1.1 ws 27 1.1 ws 28 1.4 lukem #include <sys/cdefs.h> 29 1.1 ws #ifndef lint 30 1.26 mlelstv __RCSID("$NetBSD: boot.c,v 1.26 2022/08/28 10:20:25 mlelstv Exp $"); 31 1.1 ws #endif /* not lint */ 32 1.1 ws 33 1.1 ws #include <stdlib.h> 34 1.1 ws #include <string.h> 35 1.16 christos #include <strings.h> 36 1.18 msaitoh #include <inttypes.h> 37 1.1 ws #include <stdio.h> 38 1.1 ws #include <unistd.h> 39 1.24 mlelstv #include <sys/ioctl.h> 40 1.24 mlelstv #include <sys/dkio.h> 41 1.1 ws 42 1.1 ws #include "ext.h" 43 1.3 christos #include "fsutil.h" 44 1.1 ws 45 1.1 ws int 46 1.10 xtraeme readboot(int dosfs, struct bootblock *boot) 47 1.1 ws { 48 1.24 mlelstv u_char *block; 49 1.24 mlelstv u_char *fsinfo; 50 1.24 mlelstv u_char *backup; 51 1.5 ws int ret = FSOK; 52 1.24 mlelstv int i, err; 53 1.24 mlelstv u_int secsize; 54 1.24 mlelstv 55 1.24 mlelstv secsize = 0; 56 1.24 mlelstv err = ioctl(dosfs, DIOCGSECTORSIZE, &secsize); 57 1.24 mlelstv if (err != 0 || secsize == 0) 58 1.24 mlelstv secsize = DOSBOOTBLOCKSIZE; 59 1.24 mlelstv 60 1.24 mlelstv if (secsize < DOSBOOTBLOCKSIZE) 61 1.24 mlelstv pfatal("Invalid sector size %u\n", secsize); 62 1.24 mlelstv 63 1.24 mlelstv block = calloc(1, secsize); 64 1.24 mlelstv if (block == NULL) 65 1.24 mlelstv pfatal("Out of memory"); 66 1.1 ws 67 1.24 mlelstv if ((size_t)read(dosfs, block, secsize) != secsize) { 68 1.11 christos perr("could not read boot block"); 69 1.24 mlelstv free(block); 70 1.1 ws return FSFATAL; 71 1.1 ws } 72 1.1 ws 73 1.5 ws if (block[510] != 0x55 || block[511] != 0xaa) { 74 1.5 ws pfatal("Invalid signature in boot block: %02x%02x", block[511], block[510]); 75 1.24 mlelstv free(block); 76 1.5 ws return FSFATAL; 77 1.5 ws } 78 1.5 ws 79 1.5 ws memset(boot, 0, sizeof *boot); 80 1.5 ws boot->ValidFat = -1; 81 1.5 ws 82 1.1 ws /* decode bios parameter block */ 83 1.1 ws boot->BytesPerSec = block[11] + (block[12] << 8); 84 1.1 ws boot->SecPerClust = block[13]; 85 1.16 christos if (boot->SecPerClust == 0 || popcount(boot->SecPerClust) != 1) { 86 1.16 christos pfatal("Invalid cluster size: %u\n", boot->SecPerClust); 87 1.16 christos return FSFATAL; 88 1.16 christos } 89 1.1 ws boot->ResSectors = block[14] + (block[15] << 8); 90 1.1 ws boot->FATs = block[16]; 91 1.16 christos if (boot->FATs == 0) { 92 1.16 christos pfatal("Invalid number of FATs: %u\n", boot->FATs); 93 1.16 christos return FSFATAL; 94 1.16 christos } 95 1.1 ws boot->RootDirEnts = block[17] + (block[18] << 8); 96 1.1 ws boot->Sectors = block[19] + (block[20] << 8); 97 1.1 ws boot->Media = block[21]; 98 1.5 ws boot->FATsmall = block[22] + (block[23] << 8); 99 1.1 ws boot->SecPerTrack = block[24] + (block[25] << 8); 100 1.1 ws boot->Heads = block[26] + (block[27] << 8); 101 1.23 kamil boot->HiddenSecs = block[28] + (block[29] << 8) + (block[30] << 16) + ((uint32_t)block[31] << 24); 102 1.23 kamil boot->HugeSectors = block[32] + (block[33] << 8) + (block[34] << 16) + ((uint32_t)block[35] << 24); 103 1.5 ws 104 1.5 ws boot->FATsecs = boot->FATsmall; 105 1.5 ws 106 1.24 mlelstv fsinfo = calloc(2, secsize); 107 1.24 mlelstv if (fsinfo == NULL) 108 1.24 mlelstv pfatal("Out of memory"); 109 1.24 mlelstv backup = calloc(1, secsize); 110 1.24 mlelstv if (backup == NULL) 111 1.24 mlelstv pfatal("Out of memory"); 112 1.24 mlelstv 113 1.5 ws if (!boot->RootDirEnts) 114 1.5 ws boot->flags |= FAT32; 115 1.5 ws if (boot->flags & FAT32) { 116 1.5 ws boot->FATsecs = block[36] + (block[37] << 8) 117 1.23 kamil + (block[38] << 16) + ((uint32_t)block[39] << 24); 118 1.5 ws if (block[40] & 0x80) 119 1.5 ws boot->ValidFat = block[40] & 0x0f; 120 1.5 ws 121 1.5 ws /* check version number: */ 122 1.5 ws if (block[42] || block[43]) { 123 1.5 ws /* Correct? XXX */ 124 1.5 ws pfatal("Unknown filesystem version: %x.%x", 125 1.5 ws block[43], block[42]); 126 1.5 ws return FSFATAL; 127 1.5 ws } 128 1.5 ws boot->RootCl = block[44] + (block[45] << 8) 129 1.23 kamil + (block[46] << 16) + ((uint32_t)block[47] << 24); 130 1.5 ws boot->FSInfo = block[48] + (block[49] << 8); 131 1.5 ws boot->Backup = block[50] + (block[51] << 8); 132 1.5 ws 133 1.5 ws if (lseek(dosfs, boot->FSInfo * boot->BytesPerSec, SEEK_SET) 134 1.5 ws != boot->FSInfo * boot->BytesPerSec 135 1.25 hannken || (size_t)read(dosfs, fsinfo, 2 * secsize) 136 1.25 hannken != 2 * secsize) { 137 1.11 christos perr("could not read fsinfo block"); 138 1.5 ws return FSFATAL; 139 1.5 ws } 140 1.5 ws if (memcmp(fsinfo, "RRaA", 4) 141 1.5 ws || memcmp(fsinfo + 0x1e4, "rrAa", 4) 142 1.5 ws || fsinfo[0x1fc] 143 1.5 ws || fsinfo[0x1fd] 144 1.5 ws || fsinfo[0x1fe] != 0x55 145 1.5 ws || fsinfo[0x1ff] != 0xaa 146 1.5 ws || fsinfo[0x3fc] 147 1.5 ws || fsinfo[0x3fd] 148 1.5 ws || fsinfo[0x3fe] != 0x55 149 1.5 ws || fsinfo[0x3ff] != 0xaa) { 150 1.26 mlelstv pwarn("Invalid signature in fsinfo block\n"); 151 1.5 ws if (ask(0, "fix")) { 152 1.5 ws memcpy(fsinfo, "RRaA", 4); 153 1.5 ws memcpy(fsinfo + 0x1e4, "rrAa", 4); 154 1.5 ws fsinfo[0x1fc] = fsinfo[0x1fd] = 0; 155 1.5 ws fsinfo[0x1fe] = 0x55; 156 1.5 ws fsinfo[0x1ff] = 0xaa; 157 1.5 ws fsinfo[0x3fc] = fsinfo[0x3fd] = 0; 158 1.5 ws fsinfo[0x3fe] = 0x55; 159 1.5 ws fsinfo[0x3ff] = 0xaa; 160 1.5 ws if (lseek(dosfs, boot->FSInfo * boot->BytesPerSec, SEEK_SET) 161 1.5 ws != boot->FSInfo * boot->BytesPerSec 162 1.26 mlelstv || write(dosfs, fsinfo, 2 * secsize) 163 1.26 mlelstv != 2 * secsize) { 164 1.11 christos perr("Unable to write FSInfo"); 165 1.24 mlelstv free(fsinfo); 166 1.24 mlelstv free(backup); 167 1.24 mlelstv free(block); 168 1.5 ws return FSFATAL; 169 1.5 ws } 170 1.5 ws ret = FSBOOTMOD; 171 1.5 ws } else 172 1.5 ws boot->FSInfo = 0; 173 1.5 ws } 174 1.5 ws if (boot->FSInfo) { 175 1.5 ws boot->FSFree = fsinfo[0x1e8] + (fsinfo[0x1e9] << 8) 176 1.5 ws + (fsinfo[0x1ea] << 16) 177 1.23 kamil + ((uint32_t)fsinfo[0x1eb] << 24); 178 1.5 ws boot->FSNext = fsinfo[0x1ec] + (fsinfo[0x1ed] << 8) 179 1.5 ws + (fsinfo[0x1ee] << 16) 180 1.23 kamil + ((uint32_t)fsinfo[0x1ef] << 24); 181 1.5 ws } 182 1.5 ws 183 1.5 ws if (lseek(dosfs, boot->Backup * boot->BytesPerSec, SEEK_SET) 184 1.5 ws != boot->Backup * boot->BytesPerSec 185 1.25 hannken || (size_t)read(dosfs, backup, secsize) != secsize) { 186 1.11 christos perr("could not read backup bootblock"); 187 1.24 mlelstv free(fsinfo); 188 1.24 mlelstv free(backup); 189 1.24 mlelstv free(block); 190 1.5 ws return FSFATAL; 191 1.5 ws } 192 1.9 ws backup[65] = block[65]; /* XXX */ 193 1.9 ws if (memcmp(block + 11, backup + 11, 79)) { 194 1.13 gdt /* 195 1.13 gdt * XXX We require a reference that explains 196 1.13 gdt * that these bytes need to match, or should 197 1.13 gdt * drop the check. gdt@ has observed 198 1.13 gdt * filesystems that work fine under Windows XP 199 1.13 gdt * and NetBSD that do not match, so the 200 1.13 gdt * requirement is suspect. For now, just 201 1.13 gdt * print out useful information and continue. 202 1.13 gdt */ 203 1.13 gdt pfatal("backup (block %d) mismatch with primary bootblock:\n", 204 1.13 gdt boot->Backup); 205 1.13 gdt for (i = 11; i < 11 + 90; i++) { 206 1.13 gdt if (block[i] != backup[i]) 207 1.13 gdt pfatal("\ti=%d\tprimary 0x%02x\tbackup 0x%02x\n", 208 1.13 gdt i, block[i], backup[i]); 209 1.13 gdt } 210 1.5 ws } 211 1.5 ws /* Check backup FSInfo? XXX */ 212 1.5 ws } 213 1.24 mlelstv 214 1.24 mlelstv free(fsinfo); 215 1.24 mlelstv free(backup); 216 1.24 mlelstv free(block); 217 1.24 mlelstv 218 1.16 christos if (boot->FATsecs == 0) { 219 1.16 christos pfatal("Invalid number of FAT sectors: %u\n", boot->FATsecs); 220 1.16 christos return FSFATAL; 221 1.16 christos } 222 1.5 ws 223 1.19 mlelstv boot->FirstCluster = (boot->RootDirEnts * 32 + boot->BytesPerSec - 1) 224 1.1 ws / boot->BytesPerSec 225 1.1 ws + boot->ResSectors 226 1.19 mlelstv + boot->FATs * boot->FATsecs; 227 1.1 ws 228 1.1 ws if (boot->BytesPerSec % DOSBOOTBLOCKSIZE != 0) { 229 1.5 ws pfatal("Invalid sector size: %u", boot->BytesPerSec); 230 1.1 ws return FSFATAL; 231 1.1 ws } 232 1.1 ws if (boot->SecPerClust == 0) { 233 1.5 ws pfatal("Invalid cluster size: %u", boot->SecPerClust); 234 1.1 ws return FSFATAL; 235 1.1 ws } 236 1.1 ws if (boot->Sectors) { 237 1.1 ws boot->HugeSectors = 0; 238 1.1 ws boot->NumSectors = boot->Sectors; 239 1.1 ws } else 240 1.1 ws boot->NumSectors = boot->HugeSectors; 241 1.1 ws 242 1.19 mlelstv if (boot->FirstCluster + boot->SecPerClust > boot->NumSectors) { 243 1.19 mlelstv pfatal("Cluster offset too large (%u clusters)\n", 244 1.19 mlelstv boot->FirstCluster); 245 1.16 christos return FSFATAL; 246 1.16 christos } 247 1.16 christos 248 1.22 christos /* 249 1.22 christos * The number of clusters is derived from available data sectors, 250 1.22 christos * divided by sectors per cluster. 251 1.22 christos */ 252 1.22 christos boot->NumClusters = 253 1.22 christos (boot->NumSectors - boot->FirstCluster) / boot->SecPerClust; 254 1.19 mlelstv 255 1.5 ws if (boot->flags&FAT32) 256 1.5 ws boot->ClustMask = CLUST32_MASK; 257 1.5 ws else if (boot->NumClusters < (CLUST_RSRVD&CLUST12_MASK)) 258 1.5 ws boot->ClustMask = CLUST12_MASK; 259 1.5 ws else if (boot->NumClusters < (CLUST_RSRVD&CLUST16_MASK)) 260 1.5 ws boot->ClustMask = CLUST16_MASK; 261 1.5 ws else { 262 1.5 ws pfatal("Filesystem too big (%u clusters) for non-FAT32 partition", 263 1.5 ws boot->NumClusters); 264 1.5 ws return FSFATAL; 265 1.5 ws } 266 1.5 ws 267 1.5 ws switch (boot->ClustMask) { 268 1.5 ws case CLUST32_MASK: 269 1.5 ws boot->NumFatEntries = (boot->FATsecs * boot->BytesPerSec) / 4; 270 1.5 ws break; 271 1.5 ws case CLUST16_MASK: 272 1.1 ws boot->NumFatEntries = (boot->FATsecs * boot->BytesPerSec) / 2; 273 1.5 ws break; 274 1.5 ws default: 275 1.1 ws boot->NumFatEntries = (boot->FATsecs * boot->BytesPerSec * 2) / 3; 276 1.5 ws break; 277 1.5 ws } 278 1.5 ws 279 1.22 christos if (boot->NumFatEntries < boot->NumClusters) { 280 1.5 ws pfatal("FAT size too small, %u entries won't fit into %u sectors\n", 281 1.1 ws boot->NumClusters, boot->FATsecs); 282 1.1 ws return FSFATAL; 283 1.1 ws } 284 1.22 christos 285 1.22 christos /* 286 1.22 christos * There are two reserved clusters. To avoid adding CLUST_FIRST every 287 1.22 christos * time we perform boundary checks, we increment the NumClusters by 2, 288 1.22 christos * which is CLUST_FIRST to denote the first out-of-range cluster number. 289 1.22 christos */ 290 1.22 christos boot->NumClusters += CLUST_FIRST; 291 1.22 christos 292 1.1 ws boot->ClusterSize = boot->BytesPerSec * boot->SecPerClust; 293 1.1 ws 294 1.1 ws boot->NumFiles = 1; 295 1.1 ws boot->NumFree = 0; 296 1.5 ws 297 1.5 ws return ret; 298 1.5 ws } 299 1.5 ws 300 1.5 ws int 301 1.10 xtraeme writefsinfo(int dosfs, struct bootblock *boot) 302 1.5 ws { 303 1.24 mlelstv u_char *fsinfo; 304 1.24 mlelstv 305 1.24 mlelstv fsinfo = calloc(2, boot->BytesPerSec); 306 1.24 mlelstv if (fsinfo == NULL) 307 1.24 mlelstv pfatal("Out of memory"); 308 1.5 ws 309 1.5 ws if (lseek(dosfs, boot->FSInfo * boot->BytesPerSec, SEEK_SET) 310 1.5 ws != boot->FSInfo * boot->BytesPerSec 311 1.25 hannken || (size_t)read(dosfs, fsinfo, 2 * boot->BytesPerSec) 312 1.25 hannken != 2 * boot->BytesPerSec) { 313 1.11 christos perr("could not read fsinfo block"); 314 1.24 mlelstv free(fsinfo); 315 1.5 ws return FSFATAL; 316 1.5 ws } 317 1.5 ws fsinfo[0x1e8] = (u_char)boot->FSFree; 318 1.5 ws fsinfo[0x1e9] = (u_char)(boot->FSFree >> 8); 319 1.5 ws fsinfo[0x1ea] = (u_char)(boot->FSFree >> 16); 320 1.5 ws fsinfo[0x1eb] = (u_char)(boot->FSFree >> 24); 321 1.5 ws fsinfo[0x1ec] = (u_char)boot->FSNext; 322 1.5 ws fsinfo[0x1ed] = (u_char)(boot->FSNext >> 8); 323 1.5 ws fsinfo[0x1ee] = (u_char)(boot->FSNext >> 16); 324 1.5 ws fsinfo[0x1ef] = (u_char)(boot->FSNext >> 24); 325 1.5 ws if (lseek(dosfs, boot->FSInfo * boot->BytesPerSec, SEEK_SET) 326 1.5 ws != boot->FSInfo * boot->BytesPerSec 327 1.25 hannken || (size_t)write(dosfs, fsinfo, 2 * boot->BytesPerSec) 328 1.25 hannken != 2 * boot->BytesPerSec) { 329 1.11 christos perr("Unable to write FSInfo"); 330 1.24 mlelstv free(fsinfo); 331 1.5 ws return FSFATAL; 332 1.5 ws } 333 1.24 mlelstv 334 1.24 mlelstv free(fsinfo); 335 1.24 mlelstv 336 1.6 ws /* 337 1.6 ws * Technically, we should return FSBOOTMOD here. 338 1.6 ws * 339 1.6 ws * However, since Win95 OSR2 (the first M$ OS that has 340 1.6 ws * support for FAT32) doesn't maintain the FSINFO block 341 1.6 ws * correctly, it has to be fixed pretty often. 342 1.6 ws * 343 1.21 dholland * Therefore, we handle the FSINFO block only informally, 344 1.7 wiz * fixing it if necessary, but otherwise ignoring the 345 1.6 ws * fact that it was incorrect. 346 1.6 ws */ 347 1.6 ws return 0; 348 1.1 ws } 349
Indexes created Tue Sep 23 07:09:52 GMT 2025