1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 /* 22 * Copyright 2005 Sun Microsystems, Inc. All rights reserved. 23 * Use is subject to license terms. 24 */ 25 26 #pragma ident "%Z%%M% %I% %E% SMI" 27 28 /* 29 * Rock Ridge extensions to the System Use Sharing protocol 30 * for the High Sierra filesystem 31 */ 32 33 #include <sys/types.h> 34 #include <sys/t_lock.h> 35 #include <sys/param.h> 36 #include <sys/systm.h> 37 #include <sys/kmem.h> 38 #include <sys/signal.h> 39 #include <sys/user.h> 40 #include <sys/proc.h> 41 #include <sys/disp.h> 42 #include <sys/buf.h> 43 #include <sys/pathname.h> 44 #include <sys/vfs.h> 45 #include <sys/vnode.h> 46 #include <sys/file.h> 47 #include <sys/uio.h> 48 #include <sys/conf.h> 49 #include <sys/stat.h> 50 #include <sys/mode.h> 51 #include <sys/mkdev.h> 52 #include <sys/ddi.h> 53 54 #include <vm/page.h> 55 56 #include <sys/fs/hsfs_spec.h> 57 #include <sys/fs/hsfs_isospec.h> 58 #include <sys/fs/hsfs_node.h> 59 #include <sys/fs/hsfs_impl.h> 60 #include <sys/fs/hsfs_susp.h> 61 #include <sys/fs/hsfs_rrip.h> 62 63 #include <sys/statvfs.h> 64 #include <sys/mount.h> 65 #include <sys/swap.h> 66 #include <sys/errno.h> 67 #include <sys/debug.h> 68 #include "fs/fs_subr.h" 69 #include <sys/cmn_err.h> 70 71 static void form_time(int, uchar_t *, struct timeval *); 72 static void name_parse(int, uchar_t *, size_t, uchar_t *, int *, 73 ulong_t *, int); 74 75 /* 76 * Signature table for RRIP 77 */ 78 ext_signature_t rrip_signature_table[ ] = { 79 RRIP_CL, rrip_child_link, 80 RRIP_NM, rrip_name, 81 RRIP_PL, rrip_parent_link, 82 RRIP_PN, rrip_dev_nodes, 83 RRIP_PX, rrip_file_attr, 84 RRIP_RE, rrip_reloc_dir, 85 RRIP_RR, rrip_rock_ridge, 86 RRIP_SL, rrip_sym_link, 87 RRIP_TF, rrip_file_time, 88 (char *)NULL, NULL 89 }; 90 91 92 /* 93 * rrip_dev_nodes() 94 * 95 * sig_handler() for RRIP signature "PN" 96 * 97 * This function parses out the major and minor numbers from the "PN 98 * " SUF. 99 */ 100 uchar_t * 101 rrip_dev_nodes(sig_args_t *sig_args_p) 102 { 103 uchar_t *pn_ptr = sig_args_p->SUF_ptr; 104 major_t major_dev = (major_t)RRIP_MAJOR(pn_ptr); 105 minor_t minor_dev = (minor_t)RRIP_MINOR(pn_ptr); 106 107 sig_args_p->hdp->r_dev = makedevice(major_dev, minor_dev); 108 109 return (pn_ptr + SUF_LEN(pn_ptr)); 110 } 111 112 /* 113 * rrip_file_attr() 114 * 115 * sig_handler() for RRIP signature "PX" 116 * 117 * This function parses out the file attributes of a file from the "PX" 118 * SUF. The attributes is finds are : st_mode, st_nlink, st_uid, 119 * and st_gid. 120 */ 121 uchar_t * 122 rrip_file_attr(sig_args_t *sig_args_p) 123 { 124 uchar_t *px_ptr = sig_args_p->SUF_ptr; 125 struct hs_direntry *hdp = sig_args_p->hdp; 126 127 hdp->mode = RRIP_MODE(px_ptr); 128 hdp->nlink = RRIP_NLINK(px_ptr); 129 hdp->uid = RRIP_UID(px_ptr); 130 hdp->gid = RRIP_GID(px_ptr); 131 132 hdp->type = IFTOVT(hdp->mode); 133 134 return (px_ptr + SUF_LEN(px_ptr)); 135 } 136 137 /* 138 * rrip_file_time() 139 * 140 * support function for rrip_file_time() 141 * 142 * This function decides whether to parse the times in a long time form 143 * (17 bytes) or a short time form (7 bytes). These time formats are 144 * defined in the ISO 9660 specification. 145 */ 146 static void 147 form_time(int time_length, uchar_t *file_time, struct timeval *tvp) 148 { 149 if (time_length == ISO_DATE_LEN) 150 hs_parse_longdate(file_time, tvp); 151 else 152 hs_parse_dirdate(file_time, tvp); 153 154 } 155 156 /* 157 * rrip_file_time() 158 * 159 * sig_handler() for RRIP signature RRIP_TF 160 * 161 * This function parses out the file time attributes of a file from the 162 * "TI" SUF. The times it parses are : st_mtime, st_atime and st_ctime. 163 * 164 * The function form_time is a support function only used in this 165 * function. 166 */ 167 uchar_t * 168 rrip_file_time(sig_args_t *sig_args_p) 169 { 170 uchar_t *tf_ptr = sig_args_p->SUF_ptr; 171 172 if (IS_TIME_BIT_SET(RRIP_TF_FLAGS(tf_ptr), RRIP_TF_ACCESS_BIT)) { 173 form_time(RRIP_TF_TIME_LENGTH(tf_ptr), 174 RRIP_tf_access(tf_ptr), 175 &sig_args_p->hdp->adate); 176 } 177 178 if (IS_TIME_BIT_SET(RRIP_TF_FLAGS(tf_ptr), RRIP_TF_MODIFY_BIT)) { 179 form_time(RRIP_TF_TIME_LENGTH(tf_ptr), RRIP_tf_modify(tf_ptr), 180 &sig_args_p->hdp->mdate); 181 } 182 183 if (IS_TIME_BIT_SET(RRIP_TF_FLAGS(tf_ptr), RRIP_TF_ATTRIBUTES_BIT)) { 184 form_time(RRIP_TF_TIME_LENGTH(tf_ptr), 185 RRIP_tf_attributes(tf_ptr), 186 &sig_args_p->hdp->cdate); 187 } 188 189 return (tf_ptr + SUF_LEN(tf_ptr)); 190 } 191 192 193 194 /* 195 * name_parse() 196 * 197 * This is a generic fuction used for sym links and filenames. The 198 * flags passed to it effect the way the name/component field is parsed. 199 * 200 * The return value will be the NAME_CONTINUE or NAME_CHANGE value. 201 * 202 */ 203 static void 204 name_parse( 205 int rrip_flags, /* component/name flag */ 206 uchar_t *SUA_string, /* string from SUA */ 207 size_t SUA_string_len, /* length of SUA string */ 208 uchar_t *dst, /* string to copy to */ 209 int *dst_lenp, /* ptr to cur. str len */ 210 ulong_t *name_flags_p, /* internal name flags */ 211 int dst_size) /* limit dest string to */ 212 /* this value */ 213 { 214 if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_ROOT)) 215 (void) strcpy((char *)dst, "/"); 216 217 if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_CURRENT)) { 218 SUA_string = (uchar_t *)"."; 219 SUA_string_len = 1; 220 } 221 222 if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_PARENT)) { 223 SUA_string = (uchar_t *)".."; 224 SUA_string_len = 2; 225 } 226 227 /* 228 * XXX 229 * For now, ignore the following flags and return. 230 * have to figure out how to get host name in kernel. 231 * Unsure if this even should be done. 232 */ 233 if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_VOLROOT) || 234 IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_HOST)) { 235 cmn_err(CE_NOTE, 236 "VOLUME ROOT and NAME_HOST currently unsupported\n"); 237 return; 238 } 239 240 /* 241 * strlcat() has two nice properties: 242 * - the size of the output buffer includes the trailing '\0' 243 * - we pass "total size" not "remaining size" 244 * It'd be the ideal candidate for this codeblock - make it: 245 * 246 * strlcat(dst, SUA_string, 247 * MIN(dstsize, strlen(dst) + SUA_string_len + 1)); 248 * 249 * Unfortunately, strlcat() cannot deal with input strings 250 * that are not NULL-terminated - like SUA_string can be in 251 * our case here. So we can't use it :( 252 * We therefore have to emulate its behaviour using strncat(), 253 * which will never access more bytes from the input string 254 * than specified. Since strncat() doesn't necessarily NULL- 255 * terminate the result, make sure we've got space for the 256 * Nullbyte at the end. 257 */ 258 dst_size--; /* trailing '\0' */ 259 260 (void) strncat((char *)dst, (char *)SUA_string, 261 MIN(dst_size - strlen((char *)dst), SUA_string_len)); 262 dst[dst_size] = '\0'; 263 *dst_lenp = strlen((char *)dst); 264 265 if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_CONTINUE)) 266 SET_NAME_BIT(*(name_flags_p), RRIP_NAME_CONTINUE); 267 else 268 SET_NAME_BIT(*(name_flags_p), RRIP_NAME_CHANGE); 269 270 } 271 272 /* 273 * rrip_name() 274 * 275 * sig_handler() for RRIP signature RRIP_NM 276 * 277 * This function handles the name of the current file. It is case 278 * sensitive to whatever was put into the field and does NO 279 * translation. It will take whatever characters were in the field. 280 * 281 * Because the flags effect the way the name is parsed the same way 282 * that the sym_link component parsing is done, we will use the same 283 * function to do the actual parsing. 284 */ 285 uchar_t * 286 rrip_name(sig_args_t *sig_args_p) 287 { 288 uchar_t *nm_ptr = sig_args_p->SUF_ptr; 289 290 if ((sig_args_p->name_p == (uchar_t *)NULL) || 291 (sig_args_p->name_len_p == (int *)NULL)) 292 goto end; 293 /* 294 * If we have a "." or ".." directory, we should not look for 295 * an alternate name 296 */ 297 if (HDE_NAME_LEN(sig_args_p->dirp) == 1) { 298 if (*((char *)HDE_name(sig_args_p->dirp)) == '\0') { 299 (void) strcpy((char *)sig_args_p->name_p, "."); 300 *sig_args_p->name_len_p = 1; 301 goto end; 302 } else if (*((char *)HDE_name(sig_args_p->dirp)) == '\1') { 303 (void) strcpy((char *)sig_args_p->name_p, ".."); 304 *sig_args_p->name_len_p = 2; 305 goto end; 306 } 307 } 308 309 name_parse((int)RRIP_NAME_FLAGS(nm_ptr), RRIP_name(nm_ptr), 310 (size_t)RRIP_NAME_LEN(nm_ptr), sig_args_p->name_p, 311 sig_args_p->name_len_p, &(sig_args_p->name_flags), 312 MAXNAMELEN); 313 314 end: 315 return (nm_ptr + SUF_LEN(nm_ptr)); 316 } 317 318 319 /* 320 * rrip_sym_link() 321 * 322 * sig_handler() for RRIP signature RRIP_SL 323 * 324 * creates a symlink buffer to simulate sym_links. 325 */ 326 uchar_t * 327 rrip_sym_link(sig_args_t *sig_args_p) 328 { 329 uchar_t *sl_ptr = sig_args_p->SUF_ptr; 330 uchar_t *comp_ptr; 331 char *tmp_sym_link; 332 struct hs_direntry *hdp = sig_args_p->hdp; 333 int sym_link_len; 334 char *sym_link; 335 336 if (hdp->type != VLNK) 337 goto end; 338 339 /* 340 * If the sym link has already been created, don't recreate it 341 */ 342 if (IS_NAME_BIT_SET(sig_args_p->name_flags, RRIP_SYM_LINK_COMPLETE)) 343 goto end; 344 345 sym_link = kmem_alloc(MAXPATHLEN + 1, KM_SLEEP); 346 347 /* 348 * If there is an original string put it into sym_link[], otherwise 349 * initialize sym_link[] to the empty string. 350 */ 351 if (hdp->sym_link != (char *)NULL) { 352 sym_link_len = (int)strlen(strcpy(sym_link, hdp->sym_link)); 353 } else { 354 sym_link[0] = '\0'; 355 sym_link_len = 0; 356 } 357 358 /* for all components */ 359 for (comp_ptr = RRIP_sl_comp(sl_ptr); 360 comp_ptr < (sl_ptr + SUF_LEN(sl_ptr)); 361 comp_ptr += RRIP_COMP_LEN(comp_ptr)) { 362 363 name_parse((int)RRIP_COMP_FLAGS(comp_ptr), 364 RRIP_comp(comp_ptr), 365 (size_t)RRIP_COMP_NAME_LEN(comp_ptr), (uchar_t *)sym_link, 366 &sym_link_len, &(sig_args_p->name_flags), 367 MAXPATHLEN); 368 369 /* 370 * If the component is continued, Don't put a 371 * '/' in the pathname, but do NULL terminate it. 372 * And avoid 2 '//' in a row, or if '/' was wanted 373 */ 374 if (IS_NAME_BIT_SET(RRIP_COMP_FLAGS(comp_ptr), 375 RRIP_NAME_CONTINUE) || 376 (sym_link[sym_link_len - 1] == '/')) { 377 378 sym_link[sym_link_len] = '\0'; 379 } else { 380 sym_link[sym_link_len] = '/'; 381 sym_link[sym_link_len + 1] = '\0'; 382 383 /* add 1 to sym_link_len for '/' */ 384 sym_link_len++; 385 } 386 387 } 388 389 /* 390 * take out the last slash 391 */ 392 if (sym_link[sym_link_len - 1] == '/') 393 sym_link[--sym_link_len] = '\0'; 394 395 /* 396 * if no memory has been allocated, get some, otherwise, append 397 * to the current allocation 398 */ 399 400 tmp_sym_link = kmem_alloc(SYM_LINK_LEN(sym_link), KM_SLEEP); 401 402 (void) strcpy(tmp_sym_link, sym_link); 403 404 if (hdp->sym_link != (char *)NULL) 405 kmem_free(hdp->sym_link, (size_t)(hdp->ext_size + 1)); 406 407 hdp->sym_link = (char *)&tmp_sym_link[0]; 408 /* the size of a symlink is its length */ 409 hdp->ext_size = (uint_t)strlen(tmp_sym_link); 410 411 if (!IS_NAME_BIT_SET(RRIP_SL_FLAGS(sl_ptr), RRIP_NAME_CONTINUE)) { 412 /* reached the end of the symbolic link */ 413 SET_NAME_BIT(sig_args_p->name_flags, RRIP_SYM_LINK_COMPLETE); 414 } 415 416 kmem_free(sym_link, MAXPATHLEN + 1); 417 end: 418 return (sl_ptr + SUF_LEN(sl_ptr)); 419 } 420 421 /* 422 * rrip_namecopy() 423 * 424 * This function will copy the rrip name to the "to" buffer, if it 425 * exists. 426 * 427 * XXX - We should speed this up by implementing the search in 428 * parse_sua(). It works right now, so I don't want to mess with it. 429 */ 430 int 431 rrip_namecopy( 432 char *from, /* name to copy */ 433 char *to, /* string to copy "from" to */ 434 char *tmp_name, /* temp storage for original name */ 435 uchar_t *dirp, /* directory entry pointer */ 436 struct hsfs *fsp, /* filesystem pointer */ 437 struct hs_direntry *hdp) /* directory entry pointer to put */ 438 /* all that good info in */ 439 { 440 int size = 0; 441 int change_flag = 0; 442 int ret_val; 443 444 if ((to == (char *)NULL) || 445 (from == (char *)NULL) || 446 (dirp == (uchar_t *)NULL)) { 447 return (0); 448 } 449 450 /* special handling for '.' and '..' */ 451 452 if (HDE_NAME_LEN(dirp) == 1) { 453 if (*((char *)HDE_name(dirp)) == '\0') { 454 (void) strcpy(to, "."); 455 return (1); 456 } else if (*((char *)HDE_name(dirp)) == '\1') { 457 (void) strcpy(to, ".."); 458 return (2); 459 } 460 } 461 462 463 ret_val = parse_sua((uchar_t *)to, &size, &change_flag, dirp, 464 hdp, fsp, (uchar_t *)NULL, NULL); 465 466 if (IS_NAME_BIT_SET(change_flag, RRIP_NAME_CHANGE) && !ret_val) 467 return (size); 468 469 /* 470 * Well, the name was not found 471 * 472 * make rripname an upper case "nm" (to), so that 473 * we can compare it the current HDE_DIR_NAME() 474 * without nuking the original "nm", for future case 475 * sensitive name comparing 476 */ 477 (void) strcpy(tmp_name, from); /* keep original */ 478 size = hs_uppercase_copy(tmp_name, from, (int)strlen(from)); 479 480 return (-1); 481 } 482 483 484 485 /* 486 * rrip_reloc_dir() 487 * 488 * This function is fairly bogus. All it does is cause a failure of 489 * the hs_parsedir, so that no vnode will be made for it and 490 * essentially, the directory will no longer be seen. This is part 491 * of the directory hierarchy mess, where the relocated directory will 492 * be hidden as far as ISO 9660 is concerned. When we hit the child 493 * link "CL" SUF, then we will read the new directory. 494 */ 495 uchar_t * 496 rrip_reloc_dir(sig_args_t *sig_args_p) 497 { 498 uchar_t *re_ptr = sig_args_p->SUF_ptr; 499 500 sig_args_p->flags = RELOC_DIR; 501 502 return (re_ptr + SUF_LEN(re_ptr)); 503 } 504 505 506 507 /* 508 * rrip_child_link() 509 * 510 * This is the child link part of the directory hierarchy stuff and 511 * this does not really do much anyway. All it does is read the 512 * directory entry that the child link SUF contains. All should be 513 * fine then. 514 */ 515 uchar_t * 516 rrip_child_link(sig_args_t *sig_args_p) 517 { 518 uchar_t *cl_ptr = sig_args_p->SUF_ptr; 519 520 sig_args_p->hdp->ext_lbn = RRIP_CHILD_LBN(cl_ptr); 521 522 hs_filldirent(sig_args_p->fsp->hsfs_rootvp, sig_args_p->hdp); 523 524 sig_args_p->flags = 0; 525 526 return (cl_ptr + SUF_LEN(cl_ptr)); 527 } 528 529 530 /* 531 * rrip_parent_link() 532 * 533 * This is the parent link part of the directory hierarchy stuff and 534 * this does not really do much anyway. All it does is read the 535 * directory entry that the parent link SUF contains. All should be 536 * fine then. 537 */ 538 uchar_t * 539 rrip_parent_link(sig_args_t *sig_args_p) 540 { 541 uchar_t *pl_ptr = sig_args_p->SUF_ptr; 542 543 sig_args_p->hdp->ext_lbn = RRIP_PARENT_LBN(pl_ptr); 544 545 hs_filldirent(sig_args_p->fsp->hsfs_rootvp, sig_args_p->hdp); 546 547 sig_args_p->flags = 0; 548 549 return (pl_ptr + SUF_LEN(pl_ptr)); 550 } 551 552 553 /* 554 * rrip_rock_ridge() 555 * 556 * This function is supposed to aid in speed of the filesystem. 557 * 558 * XXX - It is only here as a place holder so far. 559 */ 560 uchar_t * 561 rrip_rock_ridge(sig_args_t *sig_args_p) 562 { 563 uchar_t *rr_ptr = sig_args_p->SUF_ptr; 564 565 return (rr_ptr + SUF_LEN(rr_ptr)); 566 } 567