udf_vfsops.c revision 1.36.2.3
1 1.36.2.3 skrll /* $NetBSD: udf_vfsops.c,v 1.36.2.3 2008/10/10 22:34:14 skrll Exp $ */ 2 1.1 reinoud 3 1.1 reinoud /* 4 1.36.2.1 wrstuden * Copyright (c) 2006, 2008 Reinoud Zandijk 5 1.1 reinoud * All rights reserved. 6 1.1 reinoud * 7 1.1 reinoud * Redistribution and use in source and binary forms, with or without 8 1.1 reinoud * modification, are permitted provided that the following conditions 9 1.1 reinoud * are met: 10 1.1 reinoud * 1. Redistributions of source code must retain the above copyright 11 1.1 reinoud * notice, this list of conditions and the following disclaimer. 12 1.1 reinoud * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 reinoud * notice, this list of conditions and the following disclaimer in the 14 1.1 reinoud * documentation and/or other materials provided with the distribution. 15 1.1 reinoud * 16 1.1 reinoud * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.1 reinoud * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 1.1 reinoud * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 1.1 reinoud * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 1.1 reinoud * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 21 1.1 reinoud * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22 1.1 reinoud * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23 1.1 reinoud * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24 1.1 reinoud * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 25 1.1 reinoud * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 1.1 reinoud * 27 1.1 reinoud */ 28 1.1 reinoud 29 1.1 reinoud #include <sys/cdefs.h> 30 1.1 reinoud #ifndef lint 31 1.36.2.3 skrll __KERNEL_RCSID(0, "$NetBSD: udf_vfsops.c,v 1.36.2.3 2008/10/10 22:34:14 skrll Exp $"); 32 1.1 reinoud #endif /* not lint */ 33 1.1 reinoud 34 1.1 reinoud 35 1.1 reinoud #if defined(_KERNEL_OPT) 36 1.1 reinoud #include "opt_quota.h" 37 1.1 reinoud #include "opt_compat_netbsd.h" 38 1.1 reinoud #endif 39 1.1 reinoud 40 1.1 reinoud #include <sys/param.h> 41 1.1 reinoud #include <sys/systm.h> 42 1.1 reinoud #include <sys/sysctl.h> 43 1.1 reinoud #include <sys/namei.h> 44 1.1 reinoud #include <sys/proc.h> 45 1.1 reinoud #include <sys/kernel.h> 46 1.1 reinoud #include <sys/vnode.h> 47 1.35 dholland #include <miscfs/genfs/genfs.h> 48 1.1 reinoud #include <miscfs/specfs/specdev.h> 49 1.1 reinoud #include <sys/mount.h> 50 1.1 reinoud #include <sys/buf.h> 51 1.1 reinoud #include <sys/file.h> 52 1.1 reinoud #include <sys/device.h> 53 1.1 reinoud #include <sys/disklabel.h> 54 1.1 reinoud #include <sys/ioctl.h> 55 1.1 reinoud #include <sys/malloc.h> 56 1.1 reinoud #include <sys/dirent.h> 57 1.1 reinoud #include <sys/stat.h> 58 1.1 reinoud #include <sys/conf.h> 59 1.5 christos #include <sys/kauth.h> 60 1.36.2.1 wrstuden #include <sys/module.h> 61 1.1 reinoud 62 1.1 reinoud #include <fs/udf/ecma167-udf.h> 63 1.1 reinoud #include <fs/udf/udf_mount.h> 64 1.36.2.3 skrll #include <sys/dirhash.h> 65 1.1 reinoud 66 1.1 reinoud #include "udf.h" 67 1.1 reinoud #include "udf_subr.h" 68 1.1 reinoud #include "udf_bswap.h" 69 1.1 reinoud 70 1.36.2.1 wrstuden MODULE(MODULE_CLASS_VFS, udf, NULL); 71 1.36.2.1 wrstuden 72 1.36.2.1 wrstuden #define VTOI(vnode) ((struct udf_node *) vnode->v_data) 73 1.1 reinoud 74 1.1 reinoud /* verbose levels of the udf filingsystem */ 75 1.1 reinoud int udf_verbose = UDF_DEBUGGING; 76 1.1 reinoud 77 1.1 reinoud /* malloc regions */ 78 1.25 pooka MALLOC_JUSTDEFINE(M_UDFMNT, "UDF mount", "UDF mount structures"); 79 1.25 pooka MALLOC_JUSTDEFINE(M_UDFVOLD, "UDF volspace", "UDF volume space descriptors"); 80 1.25 pooka MALLOC_JUSTDEFINE(M_UDFTEMP, "UDF temp", "UDF scrap space"); 81 1.1 reinoud struct pool udf_node_pool; 82 1.1 reinoud 83 1.1 reinoud /* supported functions predefined */ 84 1.29 pooka VFS_PROTOS(udf); 85 1.1 reinoud 86 1.36.2.2 wrstuden static struct sysctllog *udf_sysctl_log; 87 1.1 reinoud 88 1.1 reinoud /* internal functions */ 89 1.1 reinoud static int udf_mountfs(struct vnode *, struct mount *, struct lwp *, struct udf_args *); 90 1.1 reinoud 91 1.1 reinoud 92 1.1 reinoud /* --------------------------------------------------------------------- */ 93 1.1 reinoud 94 1.1 reinoud /* predefine vnode-op list descriptor */ 95 1.1 reinoud extern const struct vnodeopv_desc udf_vnodeop_opv_desc; 96 1.1 reinoud 97 1.1 reinoud const struct vnodeopv_desc * const udf_vnodeopv_descs[] = { 98 1.1 reinoud &udf_vnodeop_opv_desc, 99 1.1 reinoud NULL, 100 1.1 reinoud }; 101 1.1 reinoud 102 1.1 reinoud 103 1.1 reinoud /* vfsops descriptor linked in as anchor point for the filingsystem */ 104 1.1 reinoud struct vfsops udf_vfsops = { 105 1.1 reinoud MOUNT_UDF, /* vfs_name */ 106 1.26 dsl sizeof (struct udf_args), 107 1.1 reinoud udf_mount, 108 1.1 reinoud udf_start, 109 1.1 reinoud udf_unmount, 110 1.1 reinoud udf_root, 111 1.31 pooka (void *)eopnotsupp, /* vfs_quotactl */ 112 1.1 reinoud udf_statvfs, 113 1.1 reinoud udf_sync, 114 1.1 reinoud udf_vget, 115 1.1 reinoud udf_fhtovp, 116 1.1 reinoud udf_vptofh, 117 1.1 reinoud udf_init, 118 1.1 reinoud udf_reinit, 119 1.1 reinoud udf_done, 120 1.1 reinoud udf_mountroot, 121 1.1 reinoud udf_snapshot, 122 1.1 reinoud vfs_stdextattrctl, 123 1.28 pooka (void *)eopnotsupp, /* vfs_suspendctl */ 124 1.35 dholland genfs_renamelock_enter, 125 1.35 dholland genfs_renamelock_exit, 126 1.36 ad (void *)eopnotsupp, 127 1.1 reinoud udf_vnodeopv_descs, 128 1.12 christos 0, /* int vfs_refcount */ 129 1.12 christos { NULL, NULL, }, /* LIST_ENTRY(vfsops) */ 130 1.1 reinoud }; 131 1.1 reinoud 132 1.1 reinoud /* --------------------------------------------------------------------- */ 133 1.1 reinoud 134 1.1 reinoud /* file system starts here */ 135 1.1 reinoud void 136 1.1 reinoud udf_init(void) 137 1.1 reinoud { 138 1.1 reinoud size_t size; 139 1.1 reinoud 140 1.36.2.2 wrstuden /* setup memory types */ 141 1.1 reinoud malloc_type_attach(M_UDFMNT); 142 1.1 reinoud malloc_type_attach(M_UDFVOLD); 143 1.1 reinoud malloc_type_attach(M_UDFTEMP); 144 1.1 reinoud 145 1.36.2.2 wrstuden /* init node pools */ 146 1.1 reinoud size = sizeof(struct udf_node); 147 1.36.2.2 wrstuden pool_init(&udf_node_pool, size, 0, 0, 0, 148 1.36.2.2 wrstuden "udf_node_pool", NULL, IPL_NONE); 149 1.1 reinoud } 150 1.1 reinoud 151 1.1 reinoud 152 1.1 reinoud void 153 1.1 reinoud udf_reinit(void) 154 1.1 reinoud { 155 1.36.2.2 wrstuden /* nothing to do */ 156 1.1 reinoud } 157 1.1 reinoud 158 1.1 reinoud 159 1.1 reinoud void 160 1.1 reinoud udf_done(void) 161 1.1 reinoud { 162 1.36.2.2 wrstuden /* remove pools */ 163 1.1 reinoud pool_destroy(&udf_node_pool); 164 1.1 reinoud 165 1.1 reinoud malloc_type_detach(M_UDFMNT); 166 1.1 reinoud malloc_type_detach(M_UDFVOLD); 167 1.1 reinoud malloc_type_detach(M_UDFTEMP); 168 1.1 reinoud } 169 1.1 reinoud 170 1.36.2.2 wrstuden /* 171 1.36.2.2 wrstuden * If running a DEBUG kernel, provide an easy way to set the debug flags when 172 1.36.2.2 wrstuden * running into a problem. 173 1.36.2.2 wrstuden */ 174 1.36.2.2 wrstuden #define UDF_VERBOSE_SYSCTLOPT 1 175 1.36.2.1 wrstuden 176 1.36.2.1 wrstuden static int 177 1.36.2.1 wrstuden udf_modcmd(modcmd_t cmd, void *arg) 178 1.36.2.1 wrstuden { 179 1.36.2.2 wrstuden const struct sysctlnode *node; 180 1.36.2.2 wrstuden int error; 181 1.36.2.1 wrstuden 182 1.36.2.1 wrstuden switch (cmd) { 183 1.36.2.1 wrstuden case MODULE_CMD_INIT: 184 1.36.2.2 wrstuden error = vfs_attach(&udf_vfsops); 185 1.36.2.2 wrstuden if (error != 0) 186 1.36.2.2 wrstuden break; 187 1.36.2.2 wrstuden /* 188 1.36.2.2 wrstuden * XXX the "24" below could be dynamic, thereby eliminating one 189 1.36.2.2 wrstuden * more instance of the "number to vfs" mapping problem, but 190 1.36.2.2 wrstuden * "24" is the order as taken from sys/mount.h 191 1.36.2.2 wrstuden */ 192 1.36.2.2 wrstuden sysctl_createv(&udf_sysctl_log, 0, NULL, NULL, 193 1.36.2.2 wrstuden CTLFLAG_PERMANENT, 194 1.36.2.2 wrstuden CTLTYPE_NODE, "vfs", NULL, 195 1.36.2.2 wrstuden NULL, 0, NULL, 0, 196 1.36.2.2 wrstuden CTL_VFS, CTL_EOL); 197 1.36.2.2 wrstuden sysctl_createv(&udf_sysctl_log, 0, NULL, &node, 198 1.36.2.2 wrstuden CTLFLAG_PERMANENT, 199 1.36.2.2 wrstuden CTLTYPE_NODE, "udf", 200 1.36.2.2 wrstuden SYSCTL_DESCR("OSTA Universal File System"), 201 1.36.2.2 wrstuden NULL, 0, NULL, 0, 202 1.36.2.2 wrstuden CTL_VFS, 24, CTL_EOL); 203 1.36.2.2 wrstuden #ifdef DEBUG 204 1.36.2.2 wrstuden sysctl_createv(&udf_sysctl_log, 0, NULL, &node, 205 1.36.2.2 wrstuden CTLFLAG_PERMANENT|CTLFLAG_READWRITE, 206 1.36.2.2 wrstuden CTLTYPE_INT, "verbose", 207 1.36.2.2 wrstuden SYSCTL_DESCR("Bitmask for filesystem debugging"), 208 1.36.2.2 wrstuden NULL, 0, &udf_verbose, 0, 209 1.36.2.2 wrstuden CTL_VFS, 24, UDF_VERBOSE_SYSCTLOPT, CTL_EOL); 210 1.36.2.2 wrstuden #endif 211 1.36.2.2 wrstuden break; 212 1.36.2.1 wrstuden case MODULE_CMD_FINI: 213 1.36.2.2 wrstuden error = vfs_detach(&udf_vfsops); 214 1.36.2.2 wrstuden if (error != 0) 215 1.36.2.2 wrstuden break; 216 1.36.2.2 wrstuden sysctl_teardown(&udf_sysctl_log); 217 1.36.2.2 wrstuden break; 218 1.36.2.1 wrstuden default: 219 1.36.2.2 wrstuden error = ENOTTY; 220 1.36.2.2 wrstuden break; 221 1.36.2.1 wrstuden } 222 1.36.2.2 wrstuden 223 1.36.2.2 wrstuden return (error); 224 1.36.2.1 wrstuden } 225 1.36.2.1 wrstuden 226 1.1 reinoud /* --------------------------------------------------------------------- */ 227 1.1 reinoud 228 1.1 reinoud int 229 1.1 reinoud udf_mountroot(void) 230 1.1 reinoud { 231 1.1 reinoud return EOPNOTSUPP; 232 1.1 reinoud } 233 1.1 reinoud 234 1.1 reinoud /* --------------------------------------------------------------------- */ 235 1.1 reinoud 236 1.1 reinoud #define MPFREE(a, lst) \ 237 1.1 reinoud if ((a)) free((a), lst); 238 1.1 reinoud static void 239 1.1 reinoud free_udf_mountinfo(struct mount *mp) 240 1.1 reinoud { 241 1.1 reinoud struct udf_mount *ump; 242 1.1 reinoud int i; 243 1.1 reinoud 244 1.15 reinoud if (!mp) 245 1.15 reinoud return; 246 1.15 reinoud 247 1.1 reinoud ump = VFSTOUDF(mp); 248 1.1 reinoud if (ump) { 249 1.10 reinoud /* clear our data */ 250 1.1 reinoud for (i = 0; i < UDF_ANCHORS; i++) 251 1.1 reinoud MPFREE(ump->anchors[i], M_UDFVOLD); 252 1.1 reinoud MPFREE(ump->primary_vol, M_UDFVOLD); 253 1.1 reinoud MPFREE(ump->logical_vol, M_UDFVOLD); 254 1.1 reinoud MPFREE(ump->unallocated, M_UDFVOLD); 255 1.1 reinoud MPFREE(ump->implementation, M_UDFVOLD); 256 1.1 reinoud MPFREE(ump->logvol_integrity, M_UDFVOLD); 257 1.36.2.1 wrstuden for (i = 0; i < UDF_PARTITIONS; i++) { 258 1.36.2.2 wrstuden MPFREE(ump->partitions[i], M_UDFVOLD); 259 1.36.2.1 wrstuden MPFREE(ump->part_unalloc_dscr[i], M_UDFVOLD); 260 1.36.2.2 wrstuden MPFREE(ump->part_freed_dscr[i], M_UDFVOLD); 261 1.36.2.1 wrstuden } 262 1.36.2.2 wrstuden MPFREE(ump->metadata_unalloc_dscr, M_UDFVOLD); 263 1.36.2.2 wrstuden 264 1.36.2.2 wrstuden MPFREE(ump->fileset_desc, M_UDFVOLD); 265 1.36.2.2 wrstuden MPFREE(ump->sparing_table, M_UDFVOLD); 266 1.36.2.1 wrstuden 267 1.36.2.1 wrstuden MPFREE(ump->la_node_ad_cpy, M_UDFMNT); 268 1.36.2.2 wrstuden MPFREE(ump->la_pmapping, M_TEMP); 269 1.36.2.2 wrstuden MPFREE(ump->la_lmapping, M_TEMP); 270 1.1 reinoud 271 1.30 ad mutex_destroy(&ump->ihash_lock); 272 1.30 ad mutex_destroy(&ump->get_node_lock); 273 1.36.2.2 wrstuden mutex_destroy(&ump->logvol_mutex); 274 1.36.2.1 wrstuden mutex_destroy(&ump->allocate_mutex); 275 1.36.2.2 wrstuden cv_destroy(&ump->dirtynodes_cv); 276 1.36.2.2 wrstuden 277 1.36.2.1 wrstuden MPFREE(ump->vat_table, M_UDFVOLD); 278 1.36.2.1 wrstuden 279 1.1 reinoud free(ump, M_UDFMNT); 280 1.6 christos } 281 1.1 reinoud } 282 1.1 reinoud #undef MPFREE 283 1.1 reinoud 284 1.1 reinoud /* --------------------------------------------------------------------- */ 285 1.1 reinoud 286 1.36.2.1 wrstuden /* if the system nodes exist, release them */ 287 1.36.2.1 wrstuden static void 288 1.36.2.1 wrstuden udf_release_system_nodes(struct mount *mp) 289 1.36.2.1 wrstuden { 290 1.36.2.1 wrstuden struct udf_mount *ump = VFSTOUDF(mp); 291 1.36.2.1 wrstuden int error; 292 1.36.2.1 wrstuden 293 1.36.2.1 wrstuden /* if we haven't even got an ump, dont bother */ 294 1.36.2.1 wrstuden if (!ump) 295 1.36.2.1 wrstuden return; 296 1.36.2.1 wrstuden 297 1.36.2.1 wrstuden /* VAT partition support */ 298 1.36.2.1 wrstuden if (ump->vat_node) 299 1.36.2.1 wrstuden vrele(ump->vat_node->vnode); 300 1.36.2.1 wrstuden 301 1.36.2.1 wrstuden /* Metadata partition support */ 302 1.36.2.1 wrstuden if (ump->metadata_node) 303 1.36.2.1 wrstuden vrele(ump->metadata_node->vnode); 304 1.36.2.1 wrstuden if (ump->metadatamirror_node) 305 1.36.2.1 wrstuden vrele(ump->metadatamirror_node->vnode); 306 1.36.2.1 wrstuden if (ump->metadatabitmap_node) 307 1.36.2.1 wrstuden vrele(ump->metadatabitmap_node->vnode); 308 1.36.2.1 wrstuden 309 1.36.2.1 wrstuden /* This flush should NOT write anything nor allow any node to remain */ 310 1.36.2.1 wrstuden if ((error = vflush(ump->vfs_mountp, NULLVP, 0)) != 0) 311 1.36.2.1 wrstuden panic("Failure to flush UDF system vnodes\n"); 312 1.36.2.1 wrstuden } 313 1.36.2.1 wrstuden 314 1.36.2.1 wrstuden 315 1.1 reinoud int 316 1.1 reinoud udf_mount(struct mount *mp, const char *path, 317 1.31 pooka void *data, size_t *data_len) 318 1.1 reinoud { 319 1.31 pooka struct lwp *l = curlwp; 320 1.29 pooka struct nameidata nd; 321 1.26 dsl struct udf_args *args = data; 322 1.1 reinoud struct udf_mount *ump; 323 1.1 reinoud struct vnode *devvp; 324 1.1 reinoud int openflags, accessmode, error; 325 1.1 reinoud 326 1.1 reinoud DPRINTF(CALL, ("udf_mount called\n")); 327 1.1 reinoud 328 1.26 dsl if (*data_len < sizeof *args) 329 1.26 dsl return EINVAL; 330 1.26 dsl 331 1.1 reinoud if (mp->mnt_flag & MNT_GETARGS) { 332 1.1 reinoud /* request for the mount arguments */ 333 1.1 reinoud ump = VFSTOUDF(mp); 334 1.1 reinoud if (ump == NULL) 335 1.1 reinoud return EINVAL; 336 1.26 dsl *args = ump->mount_args; 337 1.26 dsl *data_len = sizeof *args; 338 1.26 dsl return 0; 339 1.6 christos } 340 1.1 reinoud 341 1.1 reinoud /* handle request for updating mount parameters */ 342 1.1 reinoud /* TODO can't update my mountpoint yet */ 343 1.1 reinoud if (mp->mnt_flag & MNT_UPDATE) { 344 1.1 reinoud return EOPNOTSUPP; 345 1.6 christos } 346 1.1 reinoud 347 1.15 reinoud /* OK, so we are asked to mount the device */ 348 1.1 reinoud 349 1.1 reinoud /* check/translate struct version */ 350 1.1 reinoud /* TODO sanity checking other mount arguments */ 351 1.26 dsl if (args->version != 1) { 352 1.1 reinoud printf("mount_udf: unrecognized argument structure version\n"); 353 1.1 reinoud return EINVAL; 354 1.6 christos } 355 1.1 reinoud 356 1.1 reinoud /* lookup name to get its vnode */ 357 1.32 pooka NDINIT(&nd, LOOKUP, FOLLOW, UIO_USERSPACE, args->fspec); 358 1.29 pooka error = namei(&nd); 359 1.1 reinoud if (error) 360 1.1 reinoud return error; 361 1.29 pooka devvp = nd.ni_vp; 362 1.1 reinoud 363 1.1 reinoud #ifdef DEBUG 364 1.1 reinoud if (udf_verbose & UDF_DEBUG_VOLUMES) 365 1.1 reinoud vprint("UDF mount, trying to mount \n", devvp); 366 1.1 reinoud #endif 367 1.1 reinoud 368 1.1 reinoud /* check if its a block device specified */ 369 1.1 reinoud if (devvp->v_type != VBLK) { 370 1.1 reinoud vrele(devvp); 371 1.1 reinoud return ENOTBLK; 372 1.1 reinoud } 373 1.1 reinoud if (bdevsw_lookup(devvp->v_rdev) == NULL) { 374 1.1 reinoud vrele(devvp); 375 1.1 reinoud return ENXIO; 376 1.1 reinoud } 377 1.1 reinoud 378 1.1 reinoud /* 379 1.1 reinoud * If mount by non-root, then verify that user has necessary 380 1.1 reinoud * permissions on the device. 381 1.1 reinoud */ 382 1.20 elad if (kauth_authorize_generic(l->l_cred, KAUTH_GENERIC_ISSUSER, NULL)) { 383 1.1 reinoud accessmode = VREAD; 384 1.1 reinoud if ((mp->mnt_flag & MNT_RDONLY) == 0) 385 1.1 reinoud accessmode |= VWRITE; 386 1.13 reinoud vn_lock(devvp, LK_EXCLUSIVE | LK_RETRY); 387 1.31 pooka error = VOP_ACCESS(devvp, accessmode, l->l_cred); 388 1.13 reinoud VOP_UNLOCK(devvp, 0); 389 1.1 reinoud if (error) { 390 1.13 reinoud vrele(devvp); 391 1.13 reinoud return error; 392 1.1 reinoud } 393 1.1 reinoud } 394 1.1 reinoud 395 1.1 reinoud /* 396 1.1 reinoud * Open device and try to mount it! 397 1.1 reinoud */ 398 1.1 reinoud if (mp->mnt_flag & MNT_RDONLY) { 399 1.1 reinoud openflags = FREAD; 400 1.1 reinoud } else { 401 1.1 reinoud openflags = FREAD | FWRITE; 402 1.6 christos } 403 1.31 pooka error = VOP_OPEN(devvp, openflags, FSCRED); 404 1.1 reinoud if (error == 0) { 405 1.1 reinoud /* opened ok, try mounting */ 406 1.26 dsl error = udf_mountfs(devvp, mp, l, args); 407 1.1 reinoud if (error) { 408 1.36.2.1 wrstuden udf_release_system_nodes(mp); 409 1.36.2.1 wrstuden /* cleanup */ 410 1.36.2.1 wrstuden udf_discstrat_finish(VFSTOUDF(mp)); 411 1.1 reinoud free_udf_mountinfo(mp); 412 1.13 reinoud vn_lock(devvp, LK_EXCLUSIVE | LK_RETRY); 413 1.31 pooka (void) VOP_CLOSE(devvp, openflags, NOCRED); 414 1.13 reinoud VOP_UNLOCK(devvp, 0); 415 1.6 christos } 416 1.6 christos } 417 1.1 reinoud if (error) { 418 1.1 reinoud /* devvp is still locked */ 419 1.13 reinoud vrele(devvp); 420 1.1 reinoud return error; 421 1.6 christos } 422 1.1 reinoud 423 1.1 reinoud /* register our mountpoint being on this device */ 424 1.1 reinoud devvp->v_specmountpoint = mp; 425 1.1 reinoud 426 1.1 reinoud /* successfully mounted */ 427 1.1 reinoud DPRINTF(VOLUMES, ("udf_mount() successfull\n")); 428 1.1 reinoud 429 1.36.2.1 wrstuden error = set_statvfs_info(path, UIO_USERSPACE, args->fspec, UIO_USERSPACE, 430 1.27 pooka mp->mnt_op->vfs_name, mp, l); 431 1.36.2.1 wrstuden if (error) 432 1.36.2.1 wrstuden return error; 433 1.36.2.1 wrstuden 434 1.36.2.1 wrstuden /* If we're not opened read-only, open its logical volume */ 435 1.36.2.1 wrstuden if ((mp->mnt_flag & MNT_RDONLY) == 0) { 436 1.36.2.1 wrstuden if ((error = udf_open_logvol(VFSTOUDF(mp))) != 0) { 437 1.36.2.1 wrstuden printf( "mount_udf: can't open logical volume for " 438 1.36.2.2 wrstuden "writing, downgrading access to read-only\n"); 439 1.36.2.1 wrstuden mp->mnt_flag |= MNT_RDONLY; 440 1.36.2.1 wrstuden /* FIXME we can't return error now on open failure */ 441 1.36.2.1 wrstuden return 0; 442 1.36.2.1 wrstuden } 443 1.36.2.1 wrstuden } 444 1.36.2.1 wrstuden 445 1.36.2.1 wrstuden return 0; 446 1.1 reinoud } 447 1.1 reinoud 448 1.1 reinoud /* --------------------------------------------------------------------- */ 449 1.1 reinoud 450 1.1 reinoud #ifdef DEBUG 451 1.1 reinoud static void 452 1.1 reinoud udf_unmount_sanity_check(struct mount *mp) 453 1.1 reinoud { 454 1.1 reinoud struct vnode *vp; 455 1.1 reinoud 456 1.1 reinoud printf("On unmount, i found the following nodes:\n"); 457 1.17 reinoud TAILQ_FOREACH(vp, &mp->mnt_vnodelist, v_mntvnodes) { 458 1.1 reinoud vprint("", vp); 459 1.1 reinoud if (VOP_ISLOCKED(vp) == LK_EXCLUSIVE) { 460 1.1 reinoud printf(" is locked\n"); 461 1.6 christos } 462 1.1 reinoud if (vp->v_usecount > 1) 463 1.1 reinoud printf(" more than one usecount %d\n", vp->v_usecount); 464 1.6 christos } 465 1.1 reinoud } 466 1.1 reinoud #endif 467 1.1 reinoud 468 1.1 reinoud 469 1.1 reinoud int 470 1.31 pooka udf_unmount(struct mount *mp, int mntflags) 471 1.1 reinoud { 472 1.1 reinoud struct udf_mount *ump; 473 1.1 reinoud int error, flags, closeflags; 474 1.1 reinoud 475 1.1 reinoud DPRINTF(CALL, ("udf_umount called\n")); 476 1.1 reinoud 477 1.1 reinoud ump = VFSTOUDF(mp); 478 1.1 reinoud if (!ump) 479 1.1 reinoud panic("UDF unmount: empty ump\n"); 480 1.1 reinoud 481 1.19 reinoud flags = (mntflags & MNT_FORCE) ? FORCECLOSE : 0; 482 1.1 reinoud /* TODO remove these paranoid functions */ 483 1.1 reinoud #ifdef DEBUG 484 1.1 reinoud if (udf_verbose & UDF_DEBUG_LOCKING) 485 1.1 reinoud udf_unmount_sanity_check(mp); 486 1.1 reinoud #endif 487 1.1 reinoud 488 1.19 reinoud /* 489 1.30 ad * By specifying SKIPSYSTEM we can skip vnodes marked with VV_SYSTEM. 490 1.19 reinoud * This hardly documented feature allows us to exempt certain files 491 1.19 reinoud * from being flushed. 492 1.19 reinoud */ 493 1.30 ad if ((error = vflush(mp, NULLVP, flags | SKIPSYSTEM)) != 0) 494 1.1 reinoud return error; 495 1.1 reinoud 496 1.36.2.1 wrstuden /* update nodes and wait for completion of writeout of system nodes */ 497 1.36.2.1 wrstuden udf_sync(mp, FSYNC_WAIT, NOCRED); 498 1.36.2.1 wrstuden 499 1.1 reinoud #ifdef DEBUG 500 1.1 reinoud if (udf_verbose & UDF_DEBUG_LOCKING) 501 1.1 reinoud udf_unmount_sanity_check(mp); 502 1.1 reinoud #endif 503 1.1 reinoud 504 1.36.2.1 wrstuden /* flush again, to check if we are still busy for something else */ 505 1.36.2.1 wrstuden if ((error = vflush(ump->vfs_mountp, NULLVP, flags | SKIPSYSTEM)) != 0) 506 1.36.2.1 wrstuden return error; 507 1.1 reinoud 508 1.36.2.1 wrstuden DPRINTF(VOLUMES, ("flush OK on unmount\n")); 509 1.36.2.1 wrstuden 510 1.36.2.1 wrstuden /* close logical volume and close session if requested */ 511 1.36.2.1 wrstuden if ((error = udf_close_logvol(ump, mntflags)) != 0) 512 1.36.2.1 wrstuden return error; 513 1.36.2.1 wrstuden 514 1.36.2.1 wrstuden #ifdef DEBUG 515 1.36.2.1 wrstuden DPRINTF(VOLUMES, ("FINAL sanity check\n")); 516 1.36.2.1 wrstuden if (udf_verbose & UDF_DEBUG_LOCKING) 517 1.36.2.1 wrstuden udf_unmount_sanity_check(mp); 518 1.36.2.1 wrstuden #endif 519 1.36.2.1 wrstuden 520 1.36.2.1 wrstuden /* NOTE release system nodes should NOT write anything */ 521 1.36.2.1 wrstuden udf_release_system_nodes(mp); 522 1.36.2.1 wrstuden 523 1.36.2.1 wrstuden /* finalise disc strategy */ 524 1.36.2.1 wrstuden udf_discstrat_finish(ump); 525 1.36.2.1 wrstuden 526 1.36.2.1 wrstuden /* synchronise device caches */ 527 1.36.2.1 wrstuden (void) udf_synchronise_caches(ump); 528 1.1 reinoud 529 1.1 reinoud /* close device */ 530 1.1 reinoud DPRINTF(VOLUMES, ("closing device\n")); 531 1.1 reinoud if (mp->mnt_flag & MNT_RDONLY) { 532 1.1 reinoud closeflags = FREAD; 533 1.1 reinoud } else { 534 1.1 reinoud closeflags = FREAD | FWRITE; 535 1.6 christos } 536 1.1 reinoud 537 1.1 reinoud /* devvp is still locked by us */ 538 1.1 reinoud vn_lock(ump->devvp, LK_EXCLUSIVE | LK_RETRY); 539 1.31 pooka error = VOP_CLOSE(ump->devvp, closeflags, NOCRED); 540 1.1 reinoud if (error) 541 1.1 reinoud printf("Error during closure of device! error %d, " 542 1.1 reinoud "device might stay locked\n", error); 543 1.1 reinoud DPRINTF(VOLUMES, ("device close ok\n")); 544 1.1 reinoud 545 1.1 reinoud /* clear our mount reference and release device node */ 546 1.1 reinoud ump->devvp->v_specmountpoint = NULL; 547 1.1 reinoud vput(ump->devvp); 548 1.1 reinoud 549 1.36.2.1 wrstuden /* free our ump */ 550 1.15 reinoud free_udf_mountinfo(mp); 551 1.15 reinoud 552 1.36.2.1 wrstuden /* free ump struct references */ 553 1.1 reinoud mp->mnt_data = NULL; 554 1.1 reinoud mp->mnt_flag &= ~MNT_LOCAL; 555 1.1 reinoud 556 1.1 reinoud DPRINTF(VOLUMES, ("Fin unmount\n")); 557 1.1 reinoud return error; 558 1.1 reinoud } 559 1.1 reinoud 560 1.1 reinoud /* --------------------------------------------------------------------- */ 561 1.1 reinoud 562 1.1 reinoud /* 563 1.1 reinoud * Helper function of udf_mount() that actually mounts the disc. 564 1.1 reinoud */ 565 1.1 reinoud 566 1.1 reinoud static int 567 1.1 reinoud udf_mountfs(struct vnode *devvp, struct mount *mp, 568 1.1 reinoud struct lwp *l, struct udf_args *args) 569 1.1 reinoud { 570 1.1 reinoud struct udf_mount *ump; 571 1.1 reinoud uint32_t sector_size, lb_size, bshift; 572 1.36.2.1 wrstuden uint32_t logvol_integrity; 573 1.1 reinoud int num_anchors, error, lst; 574 1.1 reinoud 575 1.1 reinoud /* flush out any old buffers remaining from a previous use. */ 576 1.9 reinoud if ((error = vinvalbuf(devvp, V_SAVE, l->l_cred, l, 0, 0))) 577 1.1 reinoud return error; 578 1.1 reinoud 579 1.36.2.1 wrstuden /* setup basic mount information */ 580 1.36.2.1 wrstuden mp->mnt_data = NULL; 581 1.36.2.1 wrstuden mp->mnt_stat.f_fsidx.__fsid_val[0] = (uint32_t) devvp->v_rdev; 582 1.36.2.1 wrstuden mp->mnt_stat.f_fsidx.__fsid_val[1] = makefstype(MOUNT_UDF); 583 1.36.2.1 wrstuden mp->mnt_stat.f_fsid = mp->mnt_stat.f_fsidx.__fsid_val[0]; 584 1.36.2.1 wrstuden mp->mnt_stat.f_namemax = UDF_MAX_NAMELEN; 585 1.36.2.1 wrstuden mp->mnt_flag |= MNT_LOCAL; 586 1.36.2.1 wrstuden 587 1.24 msaitoh /* allocate udf part of mount structure; malloc always succeeds */ 588 1.30 ad ump = malloc(sizeof(struct udf_mount), M_UDFMNT, M_WAITOK | M_ZERO); 589 1.1 reinoud 590 1.1 reinoud /* init locks */ 591 1.36.2.1 wrstuden mutex_init(&ump->logvol_mutex, MUTEX_DEFAULT, IPL_NONE); 592 1.30 ad mutex_init(&ump->ihash_lock, MUTEX_DEFAULT, IPL_NONE); 593 1.30 ad mutex_init(&ump->get_node_lock, MUTEX_DEFAULT, IPL_NONE); 594 1.36.2.1 wrstuden mutex_init(&ump->allocate_mutex, MUTEX_DEFAULT, IPL_NONE); 595 1.36.2.1 wrstuden cv_init(&ump->dirtynodes_cv, "udfsync2"); 596 1.1 reinoud 597 1.36.2.1 wrstuden /* init `ino_t' to udf_node hash table and other lists */ 598 1.1 reinoud for (lst = 0; lst < UDF_INODE_HASHSIZE; lst++) { 599 1.1 reinoud LIST_INIT(&ump->udf_nodes[lst]); 600 1.6 christos } 601 1.1 reinoud 602 1.1 reinoud /* set up linkage */ 603 1.1 reinoud mp->mnt_data = ump; 604 1.1 reinoud ump->vfs_mountp = mp; 605 1.1 reinoud 606 1.1 reinoud /* set up arguments and device */ 607 1.1 reinoud ump->mount_args = *args; 608 1.1 reinoud ump->devvp = devvp; 609 1.9 reinoud if ((error = udf_update_discinfo(ump))) { 610 1.1 reinoud printf("UDF mount: error inspecting fs node\n"); 611 1.1 reinoud return error; 612 1.6 christos } 613 1.1 reinoud 614 1.1 reinoud /* inspect sector size */ 615 1.1 reinoud sector_size = ump->discinfo.sector_size; 616 1.1 reinoud bshift = 1; 617 1.1 reinoud while ((1 << bshift) < sector_size) 618 1.1 reinoud bshift++; 619 1.1 reinoud if ((1 << bshift) != sector_size) { 620 1.1 reinoud printf("UDF mount: " 621 1.1 reinoud "hit NetBSD implementation fence on sector size\n"); 622 1.1 reinoud return EIO; 623 1.6 christos } 624 1.1 reinoud 625 1.36.2.2 wrstuden /* temporary check to overcome sectorsize >= 8192 bytes panic */ 626 1.36.2.2 wrstuden if (sector_size >= 8192) { 627 1.36.2.2 wrstuden printf("UDF mount: " 628 1.36.2.2 wrstuden "hit implementation limit, sectorsize to big\n"); 629 1.36.2.2 wrstuden return EIO; 630 1.36.2.2 wrstuden } 631 1.36.2.2 wrstuden 632 1.36.2.1 wrstuden /* 633 1.36.2.1 wrstuden * Inspect if we're asked to mount read-write on a non recordable or 634 1.36.2.1 wrstuden * closed sequential disc. 635 1.36.2.1 wrstuden */ 636 1.36.2.1 wrstuden if ((mp->mnt_flag & MNT_RDONLY) == 0) { 637 1.36.2.1 wrstuden if ((ump->discinfo.mmc_cur & MMC_CAP_RECORDABLE) == 0) { 638 1.36.2.1 wrstuden printf("UDF mount: disc is not recordable\n"); 639 1.36.2.1 wrstuden return EROFS; 640 1.36.2.1 wrstuden } 641 1.36.2.1 wrstuden /* 642 1.36.2.1 wrstuden * TODO if on sequential media and last session is closed, 643 1.36.2.1 wrstuden * check for enough space to open/close new session 644 1.36.2.1 wrstuden */ 645 1.36.2.1 wrstuden } 646 1.36.2.1 wrstuden 647 1.36.2.1 wrstuden /* initialise bootstrap disc strategy */ 648 1.36.2.1 wrstuden ump->strategy = &udf_strat_bootstrap; 649 1.36.2.1 wrstuden udf_discstrat_init(ump); 650 1.36.2.1 wrstuden 651 1.1 reinoud /* read all anchors to get volume descriptor sequence */ 652 1.36.2.1 wrstuden num_anchors = udf_read_anchors(ump); 653 1.1 reinoud if (num_anchors == 0) 654 1.36.2.1 wrstuden return EINVAL; 655 1.1 reinoud 656 1.1 reinoud DPRINTF(VOLUMES, ("Read %d anchors on this disc, session %d\n", 657 1.1 reinoud num_anchors, args->sessionnr)); 658 1.1 reinoud 659 1.1 reinoud /* read in volume descriptor sequence */ 660 1.9 reinoud if ((error = udf_read_vds_space(ump))) { 661 1.1 reinoud printf("UDF mount: error reading volume space\n"); 662 1.9 reinoud return error; 663 1.9 reinoud } 664 1.1 reinoud 665 1.36.2.1 wrstuden /* close down (direct) disc strategy */ 666 1.36.2.1 wrstuden udf_discstrat_finish(ump); 667 1.36.2.1 wrstuden 668 1.1 reinoud /* check consistency and completeness */ 669 1.36.2.1 wrstuden if ((error = udf_process_vds(ump))) { 670 1.19 reinoud printf( "UDF mount: disc not properly formatted" 671 1.19 reinoud "(bad VDS)\n"); 672 1.9 reinoud return error; 673 1.6 christos } 674 1.1 reinoud 675 1.36.2.1 wrstuden /* switch to new disc strategy */ 676 1.36.2.1 wrstuden KASSERT(ump->strategy != &udf_strat_bootstrap); 677 1.36.2.1 wrstuden udf_discstrat_init(ump); 678 1.36.2.1 wrstuden 679 1.36.2.1 wrstuden /* initialise late allocation administration space */ 680 1.36.2.1 wrstuden ump->la_lmapping = malloc(sizeof(uint64_t) * UDF_MAX_MAPPINGS, 681 1.36.2.1 wrstuden M_TEMP, M_WAITOK); 682 1.36.2.1 wrstuden ump->la_pmapping = malloc(sizeof(uint64_t) * UDF_MAX_MAPPINGS, 683 1.36.2.1 wrstuden M_TEMP, M_WAITOK); 684 1.36.2.1 wrstuden 685 1.36.2.1 wrstuden /* setup node cleanup extents copy space */ 686 1.1 reinoud lb_size = udf_rw32(ump->logical_vol->lb_size); 687 1.36.2.1 wrstuden ump->la_node_ad_cpy = malloc(lb_size * UDF_MAX_ALLOC_EXTENTS, 688 1.36.2.1 wrstuden M_UDFMNT, M_WAITOK); 689 1.36.2.1 wrstuden memset(ump->la_node_ad_cpy, 0, lb_size * UDF_MAX_ALLOC_EXTENTS); 690 1.36.2.1 wrstuden 691 1.36.2.1 wrstuden /* setup rest of mount information */ 692 1.36.2.1 wrstuden mp->mnt_data = ump; 693 1.1 reinoud 694 1.36.2.1 wrstuden /* bshift is allways equal to disc sector size */ 695 1.36.2.1 wrstuden mp->mnt_dev_bshift = bshift; 696 1.36.2.1 wrstuden mp->mnt_fs_bshift = bshift; 697 1.36.2.1 wrstuden 698 1.36.2.1 wrstuden /* note that the mp info needs to be initialised for reading! */ 699 1.1 reinoud /* read vds support tables like VAT, sparable etc. */ 700 1.36.2.1 wrstuden if ((error = udf_read_vds_tables(ump))) { 701 1.19 reinoud printf( "UDF mount: error in format or damaged disc " 702 1.19 reinoud "(VDS tables failing)\n"); 703 1.9 reinoud return error; 704 1.6 christos } 705 1.9 reinoud 706 1.36.2.1 wrstuden /* check if volume integrity is closed otherwise its dirty */ 707 1.36.2.1 wrstuden logvol_integrity = udf_rw32(ump->logvol_integrity->integrity_type); 708 1.36.2.1 wrstuden if (logvol_integrity != UDF_INTEGRITY_CLOSED) { 709 1.36.2.1 wrstuden printf("UDF mount: file system is not clean; "); 710 1.36.2.1 wrstuden printf("please fsck(8)\n"); 711 1.36.2.1 wrstuden return EPERM; 712 1.36.2.1 wrstuden } 713 1.36.2.1 wrstuden 714 1.36.2.1 wrstuden /* read root directory */ 715 1.36.2.1 wrstuden if ((error = udf_read_rootdirs(ump))) { 716 1.19 reinoud printf( "UDF mount: " 717 1.19 reinoud "disc not properly formatted or damaged disc " 718 1.19 reinoud "(rootdirs failing)\n"); 719 1.1 reinoud return error; 720 1.9 reinoud } 721 1.1 reinoud 722 1.1 reinoud /* do we have to set this? */ 723 1.1 reinoud devvp->v_specmountpoint = mp; 724 1.1 reinoud 725 1.1 reinoud /* success! */ 726 1.1 reinoud return 0; 727 1.1 reinoud } 728 1.1 reinoud 729 1.1 reinoud /* --------------------------------------------------------------------- */ 730 1.1 reinoud 731 1.1 reinoud int 732 1.31 pooka udf_start(struct mount *mp, int flags) 733 1.1 reinoud { 734 1.1 reinoud /* do we have to do something here? */ 735 1.1 reinoud return 0; 736 1.1 reinoud } 737 1.1 reinoud 738 1.1 reinoud /* --------------------------------------------------------------------- */ 739 1.1 reinoud 740 1.1 reinoud int 741 1.1 reinoud udf_root(struct mount *mp, struct vnode **vpp) 742 1.1 reinoud { 743 1.1 reinoud struct vnode *vp; 744 1.1 reinoud struct long_ad *dir_loc; 745 1.1 reinoud struct udf_mount *ump = VFSTOUDF(mp); 746 1.1 reinoud struct udf_node *root_dir; 747 1.1 reinoud int error; 748 1.1 reinoud 749 1.1 reinoud DPRINTF(CALL, ("udf_root called\n")); 750 1.1 reinoud 751 1.1 reinoud dir_loc = &ump->fileset_desc->rootdir_icb; 752 1.1 reinoud error = udf_get_node(ump, dir_loc, &root_dir); 753 1.1 reinoud 754 1.1 reinoud if (!root_dir) 755 1.1 reinoud error = ENOENT; 756 1.1 reinoud if (error) 757 1.1 reinoud return error; 758 1.1 reinoud 759 1.1 reinoud vp = root_dir->vnode; 760 1.30 ad root_dir->vnode->v_vflag |= VV_ROOT; 761 1.1 reinoud 762 1.1 reinoud *vpp = vp; 763 1.1 reinoud return 0; 764 1.1 reinoud } 765 1.1 reinoud 766 1.1 reinoud /* --------------------------------------------------------------------- */ 767 1.1 reinoud 768 1.1 reinoud int 769 1.31 pooka udf_statvfs(struct mount *mp, struct statvfs *sbp) 770 1.1 reinoud { 771 1.1 reinoud struct udf_mount *ump = VFSTOUDF(mp); 772 1.1 reinoud struct logvol_int_desc *lvid; 773 1.1 reinoud struct udf_logvol_info *impl; 774 1.1 reinoud uint64_t freeblks, sizeblks; 775 1.1 reinoud uint32_t *pos1, *pos2; 776 1.1 reinoud int part, num_part; 777 1.1 reinoud 778 1.1 reinoud DPRINTF(CALL, ("udf_statvfs called\n")); 779 1.1 reinoud sbp->f_flag = mp->mnt_flag; 780 1.1 reinoud sbp->f_bsize = ump->discinfo.sector_size; 781 1.1 reinoud sbp->f_frsize = ump->discinfo.sector_size; 782 1.1 reinoud sbp->f_iosize = ump->discinfo.sector_size; 783 1.1 reinoud 784 1.36.2.1 wrstuden mutex_enter(&ump->allocate_mutex); 785 1.1 reinoud lvid = ump->logvol_integrity; 786 1.36.2.1 wrstuden freeblks = sizeblks = 0; 787 1.1 reinoud 788 1.36.2.1 wrstuden /* Sequentials report free space directly (CD/DVD/BD-R) */ 789 1.36.2.1 wrstuden KASSERT(lvid); 790 1.36.2.1 wrstuden num_part = udf_rw32(lvid->num_part); 791 1.36.2.1 wrstuden impl = (struct udf_logvol_info *) (lvid->tables + 2*num_part); 792 1.36.2.1 wrstuden 793 1.36.2.1 wrstuden if (ump->discinfo.mmc_cur & MMC_CAP_SEQUENTIAL) { 794 1.36.2.1 wrstuden /* XXX assumption at most two tracks open */ 795 1.36.2.1 wrstuden freeblks = ump->data_track.free_blocks; 796 1.36.2.1 wrstuden if (ump->data_track.tracknr != ump->metadata_track.tracknr) 797 1.36.2.1 wrstuden freeblks += ump->metadata_track.free_blocks; 798 1.36.2.1 wrstuden sizeblks = ump->discinfo.last_possible_lba; 799 1.36.2.1 wrstuden } else { 800 1.36.2.1 wrstuden /* free and used space for mountpoint based on logvol integrity */ 801 1.1 reinoud for (part=0; part < num_part; part++) { 802 1.1 reinoud pos1 = &lvid->tables[0] + part; 803 1.1 reinoud pos2 = &lvid->tables[0] + num_part + part; 804 1.1 reinoud if (udf_rw32(*pos1) != (uint32_t) -1) { 805 1.1 reinoud freeblks += udf_rw32(*pos1); 806 1.1 reinoud sizeblks += udf_rw32(*pos2); 807 1.6 christos } 808 1.6 christos } 809 1.36.2.1 wrstuden } 810 1.36.2.1 wrstuden freeblks -= ump->uncomitted_lb; 811 1.36.2.1 wrstuden 812 1.36.2.1 wrstuden sbp->f_blocks = sizeblks; 813 1.36.2.1 wrstuden sbp->f_bfree = freeblks; 814 1.36.2.1 wrstuden sbp->f_files = 0; 815 1.36.2.1 wrstuden if (impl) { 816 1.1 reinoud sbp->f_files = udf_rw32(impl->num_files); 817 1.1 reinoud sbp->f_files += udf_rw32(impl->num_directories); 818 1.6 christos } 819 1.1 reinoud 820 1.36.2.1 wrstuden /* XXX read only for now XXX */ 821 1.36.2.1 wrstuden sbp->f_bavail = 0; 822 1.36.2.1 wrstuden sbp->f_bresvd = 0; 823 1.36.2.1 wrstuden 824 1.36.2.1 wrstuden /* tricky, next only aplies to ffs i think, so set to zero */ 825 1.36.2.1 wrstuden sbp->f_ffree = 0; 826 1.36.2.1 wrstuden sbp->f_favail = 0; 827 1.36.2.1 wrstuden sbp->f_fresvd = 0; 828 1.36.2.1 wrstuden 829 1.36.2.1 wrstuden mutex_exit(&ump->allocate_mutex); 830 1.36.2.1 wrstuden 831 1.1 reinoud copy_statvfs_info(sbp, mp); 832 1.1 reinoud return 0; 833 1.1 reinoud } 834 1.1 reinoud 835 1.1 reinoud /* --------------------------------------------------------------------- */ 836 1.1 reinoud 837 1.36.2.1 wrstuden /* 838 1.36.2.1 wrstuden * TODO what about writing out free space maps, lvid etc? only on `waitfor' 839 1.36.2.1 wrstuden * i.e. explicit syncing by the user? 840 1.36.2.1 wrstuden */ 841 1.36.2.1 wrstuden 842 1.36.2.2 wrstuden static int 843 1.36.2.2 wrstuden udf_sync_writeout_system_files(struct udf_mount *ump, int clearflags) 844 1.36.2.2 wrstuden { 845 1.36.2.2 wrstuden int error; 846 1.36.2.2 wrstuden 847 1.36.2.2 wrstuden /* XXX lock for VAT en bitmaps? */ 848 1.36.2.2 wrstuden /* metadata nodes are written synchronous */ 849 1.36.2.2 wrstuden DPRINTF(CALL, ("udf_sync: syncing metadata\n")); 850 1.36.2.2 wrstuden if (ump->lvclose & UDF_WRITE_VAT) 851 1.36.2.2 wrstuden udf_writeout_vat(ump); 852 1.36.2.2 wrstuden 853 1.36.2.2 wrstuden error = 0; 854 1.36.2.2 wrstuden if (ump->lvclose & UDF_WRITE_PART_BITMAPS) { 855 1.36.2.2 wrstuden /* writeout metadata spacetable if existing */ 856 1.36.2.2 wrstuden error = udf_write_metadata_partition_spacetable(ump, MNT_WAIT); 857 1.36.2.2 wrstuden if (error) 858 1.36.2.2 wrstuden printf( "udf_writeout_system_files : " 859 1.36.2.2 wrstuden " writeout of metadata space bitmap failed\n"); 860 1.36.2.2 wrstuden 861 1.36.2.2 wrstuden /* writeout partition spacetables */ 862 1.36.2.2 wrstuden error = udf_write_physical_partition_spacetables(ump, MNT_WAIT); 863 1.36.2.2 wrstuden if (error) 864 1.36.2.2 wrstuden printf( "udf_writeout_system_files : " 865 1.36.2.2 wrstuden "writeout of space tables failed\n"); 866 1.36.2.2 wrstuden if (!error && clearflags) 867 1.36.2.2 wrstuden ump->lvclose &= ~UDF_WRITE_PART_BITMAPS; 868 1.36.2.2 wrstuden } 869 1.36.2.2 wrstuden 870 1.36.2.2 wrstuden return error; 871 1.36.2.2 wrstuden } 872 1.36.2.2 wrstuden 873 1.36.2.2 wrstuden 874 1.1 reinoud int 875 1.36.2.1 wrstuden udf_sync(struct mount *mp, int waitfor, kauth_cred_t cred) 876 1.1 reinoud { 877 1.36.2.1 wrstuden struct udf_mount *ump = VFSTOUDF(mp); 878 1.36.2.1 wrstuden 879 1.1 reinoud DPRINTF(CALL, ("udf_sync called\n")); 880 1.36.2.1 wrstuden /* if called when mounted readonly, just ignore */ 881 1.36.2.1 wrstuden if (mp->mnt_flag & MNT_RDONLY) 882 1.36.2.1 wrstuden return 0; 883 1.36.2.1 wrstuden 884 1.36.2.1 wrstuden if (ump->syncing && !waitfor) { 885 1.36.2.1 wrstuden printf("UDF: skipping autosync\n"); 886 1.36.2.1 wrstuden return 0; 887 1.36.2.1 wrstuden } 888 1.36.2.1 wrstuden 889 1.36.2.1 wrstuden /* get sync lock */ 890 1.36.2.1 wrstuden ump->syncing = 1; 891 1.36.2.1 wrstuden 892 1.36.2.2 wrstuden /* pre-sync */ 893 1.36.2.1 wrstuden udf_do_sync(ump, cred, waitfor); 894 1.36.2.1 wrstuden 895 1.36.2.2 wrstuden if (waitfor == MNT_WAIT) 896 1.36.2.2 wrstuden udf_sync_writeout_system_files(ump, true); 897 1.36.2.1 wrstuden 898 1.36.2.1 wrstuden DPRINTF(CALL, ("end of udf_sync()\n")); 899 1.36.2.1 wrstuden ump->syncing = 0; 900 1.36.2.1 wrstuden 901 1.1 reinoud return 0; 902 1.1 reinoud } 903 1.1 reinoud 904 1.1 reinoud /* --------------------------------------------------------------------- */ 905 1.1 reinoud 906 1.1 reinoud /* 907 1.1 reinoud * Get vnode for the file system type specific file id ino for the fs. Its 908 1.1 reinoud * used for reference to files by unique ID and for NFSv3. 909 1.1 reinoud * (optional) TODO lookup why some sources state NFSv3 910 1.1 reinoud */ 911 1.1 reinoud int 912 1.18 christos udf_vget(struct mount *mp, ino_t ino, 913 1.18 christos struct vnode **vpp) 914 1.1 reinoud { 915 1.1 reinoud DPRINTF(NOTIMPL, ("udf_vget called\n")); 916 1.1 reinoud return EOPNOTSUPP; 917 1.1 reinoud } 918 1.1 reinoud 919 1.1 reinoud /* --------------------------------------------------------------------- */ 920 1.1 reinoud 921 1.1 reinoud /* 922 1.1 reinoud * Lookup vnode for file handle specified 923 1.1 reinoud */ 924 1.1 reinoud int 925 1.18 christos udf_fhtovp(struct mount *mp, struct fid *fhp, 926 1.18 christos struct vnode **vpp) 927 1.1 reinoud { 928 1.1 reinoud DPRINTF(NOTIMPL, ("udf_fhtovp called\n")); 929 1.1 reinoud return EOPNOTSUPP; 930 1.1 reinoud } 931 1.1 reinoud 932 1.1 reinoud /* --------------------------------------------------------------------- */ 933 1.1 reinoud 934 1.1 reinoud /* 935 1.1 reinoud * Create an unique file handle. Its structure is opaque and won't be used by 936 1.1 reinoud * other subsystems. It should uniquely identify the file in the filingsystem 937 1.1 reinoud * and enough information to know if a file has been removed and/or resources 938 1.1 reinoud * have been recycled. 939 1.1 reinoud */ 940 1.1 reinoud int 941 1.18 christos udf_vptofh(struct vnode *vp, struct fid *fid, 942 1.18 christos size_t *fh_size) 943 1.1 reinoud { 944 1.1 reinoud DPRINTF(NOTIMPL, ("udf_vptofh called\n")); 945 1.1 reinoud return EOPNOTSUPP; 946 1.1 reinoud } 947 1.1 reinoud 948 1.1 reinoud /* --------------------------------------------------------------------- */ 949 1.1 reinoud 950 1.1 reinoud /* 951 1.1 reinoud * Create a filingsystem snapshot at the specified timestamp. Could be 952 1.1 reinoud * implemented by explicitly creating a new session or with spare room in the 953 1.1 reinoud * integrity descriptor space 954 1.1 reinoud */ 955 1.1 reinoud int 956 1.18 christos udf_snapshot(struct mount *mp, struct vnode *vp, 957 1.18 christos struct timespec *tm) 958 1.1 reinoud { 959 1.1 reinoud DPRINTF(NOTIMPL, ("udf_snapshot called\n")); 960 1.1 reinoud return EOPNOTSUPP; 961 1.1 reinoud } 962 1.14 reinoud 963 1.14 reinoud /* --------------------------------------------------------------------- */ 964
Indexes created Mon Sep 29 21:09:56 GMT 2025