puffs_vfsops.c revision 1.28.8.1
1 1.28.8.1 mjf /* $NetBSD: puffs_vfsops.c,v 1.28.8.1 2007/07/11 20:09:30 mjf Exp $ */ 2 1.1 pooka 3 1.1 pooka /* 4 1.1 pooka * Copyright (c) 2005, 2006 Antti Kantee. All Rights Reserved. 5 1.1 pooka * 6 1.1 pooka * Development of this software was supported by the 7 1.1 pooka * Google Summer of Code program and the Ulla Tuominen Foundation. 8 1.1 pooka * The Google SoC project was mentored by Bill Studenmund. 9 1.1 pooka * 10 1.1 pooka * Redistribution and use in source and binary forms, with or without 11 1.1 pooka * modification, are permitted provided that the following conditions 12 1.1 pooka * are met: 13 1.1 pooka * 1. Redistributions of source code must retain the above copyright 14 1.1 pooka * notice, this list of conditions and the following disclaimer. 15 1.1 pooka * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 pooka * notice, this list of conditions and the following disclaimer in the 17 1.1 pooka * documentation and/or other materials provided with the distribution. 18 1.1 pooka * 19 1.1 pooka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 20 1.1 pooka * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 21 1.1 pooka * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 22 1.1 pooka * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 23 1.1 pooka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 24 1.1 pooka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 25 1.1 pooka * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 26 1.1 pooka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27 1.1 pooka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 28 1.1 pooka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 29 1.1 pooka * SUCH DAMAGE. 30 1.1 pooka */ 31 1.1 pooka 32 1.1 pooka #include <sys/cdefs.h> 33 1.28.8.1 mjf __KERNEL_RCSID(0, "$NetBSD: puffs_vfsops.c,v 1.28.8.1 2007/07/11 20:09:30 mjf Exp $"); 34 1.1 pooka 35 1.1 pooka #include <sys/param.h> 36 1.1 pooka #include <sys/mount.h> 37 1.1 pooka #include <sys/malloc.h> 38 1.1 pooka #include <sys/extattr.h> 39 1.1 pooka #include <sys/queue.h> 40 1.1 pooka #include <sys/vnode.h> 41 1.1 pooka #include <sys/dirent.h> 42 1.1 pooka #include <sys/kauth.h> 43 1.26 pooka #include <sys/fstrans.h> 44 1.28.8.1 mjf #include <sys/proc.h> 45 1.1 pooka 46 1.1 pooka #include <lib/libkern/libkern.h> 47 1.1 pooka 48 1.1 pooka #include <fs/puffs/puffs_msgif.h> 49 1.1 pooka #include <fs/puffs/puffs_sys.h> 50 1.1 pooka 51 1.28.8.1 mjf #include <nfs/nfsproto.h> /* for fh sizes */ 52 1.28.8.1 mjf 53 1.1 pooka VFS_PROTOS(puffs); 54 1.1 pooka 55 1.28.8.1 mjf MALLOC_JUSTDEFINE(M_PUFFS, "puffs", "Pass-to-Userspace Framework File System"); 56 1.1 pooka 57 1.22 pooka #ifndef PUFFS_PNODEBUCKETS 58 1.22 pooka #define PUFFS_PNODEBUCKETS 256 59 1.22 pooka #endif 60 1.22 pooka #ifndef PUFFS_MAXPNODEBUCKETS 61 1.28.8.1 mjf #define PUFFS_MAXPNODEBUCKETS 8192 62 1.22 pooka #endif 63 1.28.8.1 mjf int puffs_pnodebuckets_default = PUFFS_PNODEBUCKETS; 64 1.28.8.1 mjf int puffs_maxpnodebuckets = PUFFS_MAXPNODEBUCKETS; 65 1.22 pooka 66 1.1 pooka int 67 1.1 pooka puffs_mount(struct mount *mp, const char *path, void *data, 68 1.1 pooka struct nameidata *ndp, struct lwp *l) 69 1.1 pooka { 70 1.22 pooka struct puffs_mount *pmp = NULL; 71 1.28.8.1 mjf struct puffs_kargs *args; 72 1.17 pooka char namebuf[PUFFSNAMESIZE+sizeof(PUFFS_NAMEPREFIX)+1]; /* spooky */ 73 1.22 pooka int error = 0, i; 74 1.1 pooka 75 1.1 pooka if (mp->mnt_flag & MNT_GETARGS) { 76 1.1 pooka pmp = MPTOPUFFSMP(mp); 77 1.28.8.1 mjf return copyout(&pmp->pmp_args,data,sizeof(struct puffs_kargs)); 78 1.1 pooka } 79 1.1 pooka 80 1.1 pooka /* update is not supported currently */ 81 1.1 pooka if (mp->mnt_flag & MNT_UPDATE) 82 1.1 pooka return EOPNOTSUPP; 83 1.1 pooka 84 1.1 pooka /* 85 1.1 pooka * We need the file system name 86 1.1 pooka */ 87 1.1 pooka if (!data) 88 1.1 pooka return EINVAL; 89 1.1 pooka 90 1.28.8.1 mjf MALLOC(args, struct puffs_kargs *, sizeof(struct puffs_kargs), 91 1.17 pooka M_PUFFS, M_WAITOK); 92 1.17 pooka 93 1.28.8.1 mjf error = copyin(data, args, sizeof(struct puffs_kargs)); 94 1.1 pooka if (error) 95 1.17 pooka goto out; 96 1.17 pooka 97 1.17 pooka /* devel phase */ 98 1.17 pooka if (args->pa_vers != (PUFFSVERSION | PUFFSDEVELVERS)) { 99 1.17 pooka printf("puffs_mount: development version mismatch\n"); 100 1.17 pooka error = EINVAL; 101 1.17 pooka goto out; 102 1.17 pooka } 103 1.1 pooka 104 1.8 pooka /* nuke spy bits */ 105 1.17 pooka args->pa_flags &= PUFFS_KFLAG_MASK; 106 1.8 pooka 107 1.28.8.1 mjf /* sanitize file handle length */ 108 1.28.8.1 mjf if (PUFFS_TOFHSIZE(args->pa_fhsize) > FHANDLE_SIZE_MAX) { 109 1.28.8.1 mjf printf("puffs_mount: handle size %zu too large\n", 110 1.28.8.1 mjf args->pa_fhsize); 111 1.28.8.1 mjf error = EINVAL; 112 1.28.8.1 mjf goto out; 113 1.28.8.1 mjf } 114 1.28.8.1 mjf /* sanity check file handle max sizes */ 115 1.28.8.1 mjf if (args->pa_fhsize && args->pa_fhflags & PUFFS_FHFLAG_PROTOMASK) { 116 1.28.8.1 mjf size_t kfhsize = PUFFS_TOFHSIZE(args->pa_fhsize); 117 1.28.8.1 mjf 118 1.28.8.1 mjf if (args->pa_fhflags & PUFFS_FHFLAG_NFSV2) { 119 1.28.8.1 mjf if (NFSX_FHTOOBIG_P(kfhsize, 0)) { 120 1.28.8.1 mjf printf("puffs_mount: fhsize larger than " 121 1.28.8.1 mjf "NFSv2 max %d\n", 122 1.28.8.1 mjf PUFFS_FROMFHSIZE(NFSX_V2FH)); 123 1.28.8.1 mjf error = EINVAL; 124 1.28.8.1 mjf goto out; 125 1.28.8.1 mjf } 126 1.28.8.1 mjf } 127 1.28.8.1 mjf 128 1.28.8.1 mjf if (args->pa_fhflags & PUFFS_FHFLAG_NFSV3) { 129 1.28.8.1 mjf if (NFSX_FHTOOBIG_P(kfhsize, 1)) { 130 1.28.8.1 mjf printf("puffs_mount: fhsize larger than " 131 1.28.8.1 mjf "NFSv3 max %d\n", 132 1.28.8.1 mjf PUFFS_FROMFHSIZE(NFSX_V3FHMAX)); 133 1.28.8.1 mjf error = EINVAL; 134 1.28.8.1 mjf goto out; 135 1.28.8.1 mjf } 136 1.28.8.1 mjf } 137 1.28.8.1 mjf } 138 1.28.8.1 mjf 139 1.1 pooka /* build real name */ 140 1.17 pooka (void)strlcpy(namebuf, PUFFS_NAMEPREFIX, sizeof(namebuf)); 141 1.17 pooka (void)strlcat(namebuf, args->pa_name, sizeof(namebuf)); 142 1.1 pooka 143 1.1 pooka /* inform user server if it got the max request size it wanted */ 144 1.17 pooka if (args->pa_maxreqlen == 0 || args->pa_maxreqlen > PUFFS_REQ_MAXSIZE) 145 1.17 pooka args->pa_maxreqlen = PUFFS_REQ_MAXSIZE; 146 1.17 pooka else if (args->pa_maxreqlen < PUFFS_REQSTRUCT_MAX) 147 1.17 pooka args->pa_maxreqlen = PUFFS_REQSTRUCT_MAX; 148 1.17 pooka (void)strlcpy(args->pa_name, namebuf, sizeof(args->pa_name)); 149 1.1 pooka 150 1.28.8.1 mjf if (args->pa_nhashbuckets == 0) 151 1.28.8.1 mjf args->pa_nhashbuckets = puffs_pnodebuckets_default; 152 1.28.8.1 mjf if (args->pa_nhashbuckets < 1) 153 1.28.8.1 mjf args->pa_nhashbuckets = 1; 154 1.28.8.1 mjf if (args->pa_nhashbuckets > PUFFS_MAXPNODEBUCKETS) { 155 1.28.8.1 mjf args->pa_nhashbuckets = puffs_maxpnodebuckets; 156 1.28.8.1 mjf printf("puffs_mount: using %d hash buckets. " 157 1.28.8.1 mjf "adjust puffs_maxpnodebuckets for more\n", 158 1.28.8.1 mjf puffs_maxpnodebuckets); 159 1.28.8.1 mjf } 160 1.28.8.1 mjf 161 1.28.8.1 mjf error = copyout(args, data, sizeof(struct puffs_kargs)); 162 1.1 pooka if (error) 163 1.17 pooka goto out; 164 1.1 pooka 165 1.1 pooka error = set_statvfs_info(path, UIO_USERSPACE, namebuf, 166 1.1 pooka UIO_SYSSPACE, mp, l); 167 1.1 pooka if (error) 168 1.17 pooka goto out; 169 1.10 pooka mp->mnt_stat.f_iosize = DEV_BSIZE; 170 1.1 pooka 171 1.28.8.1 mjf /* 172 1.28.8.1 mjf * We can't handle the VFS_STATVFS() mount_domount() does 173 1.28.8.1 mjf * after VFS_MOUNT() because we'd deadlock, so handle it 174 1.28.8.1 mjf * here already. 175 1.28.8.1 mjf */ 176 1.28.8.1 mjf copy_statvfs_info(&args->pa_svfsb, mp); 177 1.28.8.1 mjf (void)memcpy(&mp->mnt_stat, &args->pa_svfsb, sizeof(mp->mnt_stat)); 178 1.28.8.1 mjf 179 1.1 pooka MALLOC(pmp, struct puffs_mount *, sizeof(struct puffs_mount), 180 1.1 pooka M_PUFFS, M_WAITOK | M_ZERO); 181 1.1 pooka 182 1.6 pooka mp->mnt_fs_bshift = DEV_BSHIFT; 183 1.6 pooka mp->mnt_dev_bshift = DEV_BSHIFT; 184 1.6 pooka mp->mnt_flag &= ~MNT_LOCAL; /* we don't really know, so ... */ 185 1.1 pooka mp->mnt_data = pmp; 186 1.26 pooka mp->mnt_iflag |= IMNT_HAS_TRANS; 187 1.6 pooka 188 1.1 pooka pmp->pmp_status = PUFFSTAT_MOUNTING; 189 1.1 pooka pmp->pmp_nextreq = 0; 190 1.1 pooka pmp->pmp_mp = mp; 191 1.17 pooka pmp->pmp_req_maxsize = args->pa_maxreqlen; 192 1.17 pooka pmp->pmp_args = *args; 193 1.1 pooka 194 1.28.8.1 mjf pmp->pmp_npnodehash = args->pa_nhashbuckets; 195 1.22 pooka pmp->pmp_pnodehash = malloc 196 1.22 pooka (sizeof(struct puffs_pnode_hashlist *) * pmp->pmp_npnodehash, 197 1.22 pooka M_PUFFS, M_WAITOK); 198 1.22 pooka for (i = 0; i < pmp->pmp_npnodehash; i++) 199 1.22 pooka LIST_INIT(&pmp->pmp_pnodehash[i]); 200 1.22 pooka 201 1.1 pooka /* 202 1.1 pooka * Inform the fileops processing code that we have a mountpoint. 203 1.1 pooka * If it doesn't know about anyone with our pid/fd having the 204 1.1 pooka * device open, punt 205 1.1 pooka */ 206 1.17 pooka if (puffs_setpmp(l->l_proc->p_pid, args->pa_fd, pmp)) { 207 1.17 pooka error = ENOENT; 208 1.17 pooka goto out; 209 1.1 pooka } 210 1.1 pooka 211 1.28.8.1 mjf /* XXX: check parameters */ 212 1.28.8.1 mjf pmp->pmp_root_cookie = args->pa_root_cookie; 213 1.28.8.1 mjf pmp->pmp_root_vtype = args->pa_root_vtype; 214 1.28.8.1 mjf pmp->pmp_root_vsize = args->pa_root_vsize; 215 1.28.8.1 mjf pmp->pmp_root_rdev = args->pa_root_rdev; 216 1.28.8.1 mjf 217 1.28.8.1 mjf mutex_init(&pmp->pmp_lock, MUTEX_DEFAULT, IPL_NONE); 218 1.28.8.1 mjf cv_init(&pmp->pmp_req_waiter_cv, "puffsget"); 219 1.28.8.1 mjf cv_init(&pmp->pmp_refcount_cv, "puffsref"); 220 1.28.8.1 mjf cv_init(&pmp->pmp_unmounting_cv, "puffsum"); 221 1.1 pooka TAILQ_INIT(&pmp->pmp_req_touser); 222 1.1 pooka TAILQ_INIT(&pmp->pmp_req_replywait); 223 1.1 pooka TAILQ_INIT(&pmp->pmp_req_sizepark); 224 1.1 pooka 225 1.1 pooka DPRINTF(("puffs_mount: mount point at %p, puffs specific at %p\n", 226 1.1 pooka mp, MPTOPUFFSMP(mp))); 227 1.1 pooka 228 1.1 pooka vfs_getnewfsid(mp); 229 1.1 pooka 230 1.17 pooka out: 231 1.22 pooka if (error && pmp && pmp->pmp_pnodehash) 232 1.22 pooka free(pmp->pmp_pnodehash, M_PUFFS); 233 1.22 pooka if (error && pmp) 234 1.22 pooka FREE(pmp, M_PUFFS); 235 1.17 pooka FREE(args, M_PUFFS); 236 1.17 pooka return error; 237 1.1 pooka } 238 1.1 pooka 239 1.1 pooka int 240 1.28.8.1 mjf puffs_start(struct mount *mp, int flags, struct lwp *l) 241 1.1 pooka { 242 1.28.8.1 mjf struct puffs_mount *pmp = MPTOPUFFSMP(mp); 243 1.1 pooka 244 1.28.8.1 mjf KASSERT(pmp->pmp_status == PUFFSTAT_MOUNTING); 245 1.1 pooka pmp->pmp_status = PUFFSTAT_RUNNING; 246 1.1 pooka 247 1.1 pooka return 0; 248 1.1 pooka } 249 1.1 pooka 250 1.1 pooka int 251 1.1 pooka puffs_unmount(struct mount *mp, int mntflags, struct lwp *l) 252 1.1 pooka { 253 1.1 pooka struct puffs_mount *pmp; 254 1.1 pooka int error, force; 255 1.1 pooka 256 1.1 pooka PUFFS_VFSREQ(unmount); 257 1.1 pooka 258 1.1 pooka error = 0; 259 1.1 pooka force = mntflags & MNT_FORCE; 260 1.1 pooka pmp = MPTOPUFFSMP(mp); 261 1.1 pooka 262 1.1 pooka DPRINTF(("puffs_unmount: detach filesystem from vfs, current " 263 1.1 pooka "status 0x%x\n", pmp->pmp_status)); 264 1.1 pooka 265 1.1 pooka /* 266 1.1 pooka * flush all the vnodes. VOP_RECLAIM() takes care that the 267 1.1 pooka * root vnode does not get flushed until unmount. The 268 1.1 pooka * userspace root node cookie is stored in the mount 269 1.1 pooka * structure, so we can always re-instantiate a root vnode, 270 1.1 pooka * should userspace unmount decide it doesn't want to 271 1.1 pooka * cooperate. 272 1.1 pooka */ 273 1.1 pooka error = vflush(mp, NULLVP, force ? FORCECLOSE : 0); 274 1.1 pooka if (error) 275 1.1 pooka goto out; 276 1.1 pooka 277 1.1 pooka /* 278 1.1 pooka * If we are not DYING, we should ask userspace's opinion 279 1.1 pooka * about the situation 280 1.1 pooka */ 281 1.28.8.1 mjf mutex_enter(&pmp->pmp_lock); 282 1.1 pooka if (pmp->pmp_status != PUFFSTAT_DYING) { 283 1.16 pooka pmp->pmp_unmounting = 1; 284 1.28.8.1 mjf mutex_exit(&pmp->pmp_lock); 285 1.16 pooka 286 1.1 pooka unmount_arg.pvfsr_flags = mntflags; 287 1.28.8.1 mjf puffs_cidcvt(&unmount_arg.pvfsr_cid, l); 288 1.16 pooka 289 1.1 pooka error = puffs_vfstouser(pmp, PUFFS_VFS_UNMOUNT, 290 1.1 pooka &unmount_arg, sizeof(unmount_arg)); 291 1.16 pooka DPRINTF(("puffs_unmount: error %d force %d\n", error, force)); 292 1.16 pooka 293 1.28.8.1 mjf mutex_enter(&pmp->pmp_lock); 294 1.16 pooka pmp->pmp_unmounting = 0; 295 1.28.8.1 mjf cv_broadcast(&pmp->pmp_unmounting_cv); 296 1.1 pooka } 297 1.1 pooka 298 1.1 pooka /* 299 1.1 pooka * if userspace cooperated or we really need to die, 300 1.1 pooka * screw what userland thinks and just die. 301 1.1 pooka */ 302 1.1 pooka if (error == 0 || force) { 303 1.26 pooka /* tell waiters & other resources to go unwait themselves */ 304 1.26 pooka puffs_userdead(pmp); 305 1.1 pooka puffs_nukebypmp(pmp); 306 1.26 pooka 307 1.26 pooka /* 308 1.28.8.1 mjf * Wait until there are no more users for the mount resource. 309 1.28.8.1 mjf * Notice that this is hooked against transport_close 310 1.28.8.1 mjf * and return from touser. In an ideal world, it would 311 1.28.8.1 mjf * be hooked against final return from all operations. 312 1.28.8.1 mjf * But currently it works well enough, since nobody 313 1.28.8.1 mjf * does weird blocking voodoo after return from touser(). 314 1.26 pooka */ 315 1.28.8.1 mjf while (pmp->pmp_refcount != 0) 316 1.28.8.1 mjf cv_wait(&pmp->pmp_refcount_cv, &pmp->pmp_lock); 317 1.28.8.1 mjf mutex_exit(&pmp->pmp_lock); 318 1.26 pooka 319 1.26 pooka /* free resources now that we hopefully have no waiters left */ 320 1.28.8.1 mjf cv_destroy(&pmp->pmp_unmounting_cv); 321 1.28.8.1 mjf cv_destroy(&pmp->pmp_refcount_cv); 322 1.28.8.1 mjf cv_destroy(&pmp->pmp_req_waiter_cv); 323 1.28.8.1 mjf mutex_destroy(&pmp->pmp_lock); 324 1.28.8.1 mjf 325 1.22 pooka free(pmp->pmp_pnodehash, M_PUFFS); 326 1.1 pooka FREE(pmp, M_PUFFS); 327 1.1 pooka error = 0; 328 1.16 pooka } else { 329 1.28.8.1 mjf mutex_exit(&pmp->pmp_lock); 330 1.1 pooka } 331 1.1 pooka 332 1.1 pooka out: 333 1.2 pooka DPRINTF(("puffs_unmount: return %d\n", error)); 334 1.1 pooka return error; 335 1.1 pooka } 336 1.1 pooka 337 1.1 pooka /* 338 1.1 pooka * This doesn't need to travel to userspace 339 1.1 pooka */ 340 1.1 pooka int 341 1.1 pooka puffs_root(struct mount *mp, struct vnode **vpp) 342 1.1 pooka { 343 1.28.8.1 mjf struct puffs_mount *pmp = MPTOPUFFSMP(mp); 344 1.1 pooka 345 1.28.8.1 mjf return puffs_pnode2vnode(pmp, pmp->pmp_root_cookie, 1, vpp); 346 1.1 pooka } 347 1.1 pooka 348 1.1 pooka int 349 1.1 pooka puffs_statvfs(struct mount *mp, struct statvfs *sbp, struct lwp *l) 350 1.1 pooka { 351 1.1 pooka struct puffs_vfsreq_statvfs *statvfs_arg; /* too big for stack */ 352 1.1 pooka struct puffs_mount *pmp; 353 1.1 pooka int error = 0; 354 1.1 pooka 355 1.1 pooka pmp = MPTOPUFFSMP(mp); 356 1.1 pooka 357 1.1 pooka /* 358 1.1 pooka * If we are mounting, it means that the userspace counterpart 359 1.1 pooka * is calling mount(2), but mount(2) also calls statvfs. So 360 1.1 pooka * requesting statvfs from userspace would mean a deadlock. 361 1.1 pooka * Compensate. 362 1.1 pooka */ 363 1.1 pooka if (pmp->pmp_status == PUFFSTAT_MOUNTING) 364 1.1 pooka return EINPROGRESS; 365 1.1 pooka 366 1.1 pooka /* too big for stack */ 367 1.1 pooka MALLOC(statvfs_arg, struct puffs_vfsreq_statvfs *, 368 1.1 pooka sizeof(struct puffs_vfsreq_statvfs), M_PUFFS, M_WAITOK | M_ZERO); 369 1.28.8.1 mjf puffs_cidcvt(&statvfs_arg->pvfsr_cid, l); 370 1.1 pooka 371 1.1 pooka error = puffs_vfstouser(pmp, PUFFS_VFS_STATVFS, 372 1.1 pooka statvfs_arg, sizeof(*statvfs_arg)); 373 1.11 pooka statvfs_arg->pvfsr_sb.f_iosize = DEV_BSIZE; 374 1.10 pooka 375 1.1 pooka /* 376 1.1 pooka * Try to produce a sensible result even in the event 377 1.1 pooka * of userspace error. 378 1.1 pooka * 379 1.1 pooka * XXX: cache the copy in non-error case 380 1.1 pooka */ 381 1.1 pooka if (!error) { 382 1.1 pooka copy_statvfs_info(&statvfs_arg->pvfsr_sb, mp); 383 1.1 pooka (void)memcpy(sbp, &statvfs_arg->pvfsr_sb, 384 1.1 pooka sizeof(struct statvfs)); 385 1.1 pooka } else { 386 1.1 pooka copy_statvfs_info(sbp, mp); 387 1.1 pooka } 388 1.1 pooka 389 1.1 pooka FREE(statvfs_arg, M_PUFFS); 390 1.14 pooka return error; 391 1.1 pooka } 392 1.1 pooka 393 1.26 pooka static int 394 1.28.8.1 mjf pageflush(struct mount *mp, kauth_cred_t cred, 395 1.28.8.1 mjf int waitfor, int suspending, struct lwp *l) 396 1.1 pooka { 397 1.26 pooka struct puffs_node *pn; 398 1.18 pooka struct vnode *vp, *nvp; 399 1.28.8.1 mjf int error, rv; 400 1.1 pooka 401 1.26 pooka KASSERT(((waitfor == MNT_WAIT) && suspending) == 0); 402 1.26 pooka KASSERT((suspending == 0) 403 1.26 pooka || (fstrans_is_owner(mp) 404 1.27 hannken && fstrans_getstate(mp) == FSTRANS_SUSPENDING)); 405 1.1 pooka 406 1.18 pooka error = 0; 407 1.18 pooka 408 1.18 pooka /* 409 1.24 pooka * Sync all cached data from regular vnodes (which are not 410 1.24 pooka * currently locked, see below). After this we call VFS_SYNC 411 1.24 pooka * for the fs server, which should handle data and metadata for 412 1.24 pooka * all the nodes it knows to exist. 413 1.18 pooka */ 414 1.18 pooka simple_lock(&mntvnode_slock); 415 1.18 pooka loop: 416 1.18 pooka for (vp = TAILQ_FIRST(&mp->mnt_vnodelist); vp; vp = nvp) { 417 1.18 pooka /* check if we're on the right list */ 418 1.18 pooka if (vp->v_mount != mp) 419 1.18 pooka goto loop; 420 1.18 pooka 421 1.18 pooka simple_lock(&vp->v_interlock); 422 1.26 pooka pn = VPTOPP(vp); 423 1.18 pooka nvp = TAILQ_NEXT(vp, v_mntvnodes); 424 1.18 pooka 425 1.19 pooka if (vp->v_type != VREG || UVM_OBJ_IS_CLEAN(&vp->v_uobj)) { 426 1.18 pooka simple_unlock(&vp->v_interlock); 427 1.18 pooka continue; 428 1.18 pooka } 429 1.18 pooka 430 1.18 pooka simple_unlock(&mntvnode_slock); 431 1.21 pooka 432 1.21 pooka /* 433 1.21 pooka * Here we try to get a reference to the vnode and to 434 1.21 pooka * lock it. This is mostly cargo-culted, but I will 435 1.21 pooka * offer an explanation to why I believe this might 436 1.21 pooka * actually do the right thing. 437 1.21 pooka * 438 1.21 pooka * If the vnode is a goner, we quite obviously don't need 439 1.21 pooka * to sync it. 440 1.21 pooka * 441 1.21 pooka * If the vnode was busy, we don't need to sync it because 442 1.21 pooka * this is never called with MNT_WAIT except from 443 1.21 pooka * dounmount(), when we are wait-flushing all the dirty 444 1.21 pooka * vnodes through other routes in any case. So there, 445 1.21 pooka * sync() doesn't actually sync. Happy now? 446 1.26 pooka * 447 1.26 pooka * NOTE: if we're suspending, vget() does NOT lock. 448 1.26 pooka * See puffs_lock() for details. 449 1.21 pooka */ 450 1.18 pooka rv = vget(vp, LK_EXCLUSIVE | LK_NOWAIT | LK_INTERLOCK); 451 1.18 pooka if (rv) { 452 1.18 pooka simple_lock(&mntvnode_slock); 453 1.18 pooka if (rv == ENOENT) 454 1.18 pooka goto loop; 455 1.18 pooka continue; 456 1.18 pooka } 457 1.18 pooka 458 1.26 pooka /* 459 1.26 pooka * Thread information to puffs_strategy() through the 460 1.26 pooka * pnode flags: we want to issue the putpages operations 461 1.26 pooka * as FAF if we're suspending, since it's very probable 462 1.26 pooka * that our execution context is that of the userspace 463 1.26 pooka * daemon. We can do this because: 464 1.26 pooka * + we send the "going to suspend" prior to this part 465 1.26 pooka * + if any of the writes fails in userspace, it's the 466 1.26 pooka * file system server's problem to decide if this was a 467 1.26 pooka * failed snapshot when it gets the "snapshot complete" 468 1.26 pooka * notification. 469 1.26 pooka * + if any of the writes fail in the kernel already, we 470 1.26 pooka * immediately fail *and* notify the user server of 471 1.26 pooka * failure. 472 1.26 pooka * 473 1.26 pooka * We also do FAFs if we're called from the syncer. This 474 1.26 pooka * is just general optimization for trickle sync: no need 475 1.26 pooka * to really guarantee that the stuff ended on backing 476 1.26 pooka * storage. 477 1.26 pooka * TODO: Maybe also hint the user server of this twist? 478 1.26 pooka */ 479 1.28.8.1 mjf if (suspending || waitfor == MNT_LAZY) { 480 1.28.8.1 mjf simple_lock(&vp->v_interlock); 481 1.26 pooka pn->pn_stat |= PNODE_SUSPEND; 482 1.28.8.1 mjf simple_unlock(&vp->v_interlock); 483 1.28.8.1 mjf } 484 1.28.8.1 mjf rv = VOP_FSYNC(vp, cred, waitfor, 0, 0, l); 485 1.26 pooka if (suspending || waitfor == MNT_LAZY) { 486 1.26 pooka simple_lock(&vp->v_interlock); 487 1.26 pooka pn->pn_stat &= ~PNODE_SUSPEND; 488 1.26 pooka simple_unlock(&vp->v_interlock); 489 1.26 pooka } 490 1.21 pooka if (rv) 491 1.18 pooka error = rv; 492 1.18 pooka vput(vp); 493 1.18 pooka simple_lock(&mntvnode_slock); 494 1.18 pooka } 495 1.18 pooka simple_unlock(&mntvnode_slock); 496 1.18 pooka 497 1.26 pooka return error; 498 1.26 pooka } 499 1.26 pooka 500 1.26 pooka int 501 1.26 pooka puffs_sync(struct mount *mp, int waitfor, struct kauth_cred *cred, 502 1.26 pooka struct lwp *l) 503 1.26 pooka { 504 1.26 pooka int error, rv; 505 1.26 pooka 506 1.26 pooka PUFFS_VFSREQ(sync); 507 1.26 pooka 508 1.28.8.1 mjf error = pageflush(mp, cred, waitfor, 0, l); 509 1.26 pooka 510 1.18 pooka /* sync fs */ 511 1.1 pooka sync_arg.pvfsr_waitfor = waitfor; 512 1.1 pooka puffs_credcvt(&sync_arg.pvfsr_cred, cred); 513 1.28.8.1 mjf puffs_cidcvt(&sync_arg.pvfsr_cid, l); 514 1.1 pooka 515 1.18 pooka rv = puffs_vfstouser(MPTOPUFFSMP(mp), PUFFS_VFS_SYNC, 516 1.1 pooka &sync_arg, sizeof(sync_arg)); 517 1.18 pooka if (rv) 518 1.18 pooka error = rv; 519 1.1 pooka 520 1.1 pooka return error; 521 1.1 pooka } 522 1.1 pooka 523 1.1 pooka int 524 1.28.8.1 mjf puffs_fhtovp(struct mount *mp, struct fid *fhp, struct vnode **vpp) 525 1.1 pooka { 526 1.28.8.1 mjf struct puffs_mount *pmp = MPTOPUFFSMP(mp); 527 1.28.8.1 mjf struct puffs_vfsreq_fhtonode *fhtonode_argp; 528 1.28.8.1 mjf struct vnode *vp; 529 1.28.8.1 mjf size_t argsize; 530 1.28.8.1 mjf int error; 531 1.1 pooka 532 1.28.8.1 mjf if (pmp->pmp_args.pa_fhsize == 0) 533 1.28.8.1 mjf return EOPNOTSUPP; 534 1.1 pooka 535 1.28.8.1 mjf if (pmp->pmp_args.pa_fhflags & PUFFS_FHFLAG_DYNAMIC) { 536 1.28.8.1 mjf if (pmp->pmp_args.pa_fhsize < PUFFS_FROMFHSIZE(fhp->fid_len)) 537 1.28.8.1 mjf return EINVAL; 538 1.28.8.1 mjf } else { 539 1.28.8.1 mjf if (pmp->pmp_args.pa_fhsize != PUFFS_FROMFHSIZE(fhp->fid_len)) 540 1.28.8.1 mjf return EINVAL; 541 1.28.8.1 mjf } 542 1.1 pooka 543 1.28.8.1 mjf argsize = sizeof(struct puffs_vfsreq_fhtonode) 544 1.28.8.1 mjf + PUFFS_FROMFHSIZE(fhp->fid_len); 545 1.28.8.1 mjf fhtonode_argp = malloc(argsize, M_PUFFS, M_ZERO | M_WAITOK); 546 1.28.8.1 mjf fhtonode_argp->pvfsr_dsize = PUFFS_FROMFHSIZE(fhp->fid_len); 547 1.28.8.1 mjf memcpy(fhtonode_argp->pvfsr_data, fhp->fid_data, 548 1.28.8.1 mjf PUFFS_FROMFHSIZE(fhp->fid_len)); 549 1.28.8.1 mjf 550 1.28.8.1 mjf error = puffs_vfstouser(pmp, PUFFS_VFS_FHTOVP, fhtonode_argp, argsize); 551 1.28.8.1 mjf if (error) 552 1.28.8.1 mjf goto out; 553 1.28.8.1 mjf 554 1.28.8.1 mjf error = puffs_pnode2vnode(pmp, fhtonode_argp->pvfsr_fhcookie, 1, &vp); 555 1.28.8.1 mjf DPRINTF(("puffs_fhtovp: got cookie %p, existing vnode %p\n", 556 1.28.8.1 mjf fhtonode_argp->pvfsr_fhcookie, vp)); 557 1.28.8.1 mjf if (error) { 558 1.28.8.1 mjf error = puffs_getvnode(mp, fhtonode_argp->pvfsr_fhcookie, 559 1.28.8.1 mjf fhtonode_argp->pvfsr_vtype, fhtonode_argp->pvfsr_size, 560 1.28.8.1 mjf fhtonode_argp->pvfsr_rdev, &vp); 561 1.28.8.1 mjf if (error) 562 1.28.8.1 mjf goto out; 563 1.28.8.1 mjf vn_lock(vp, LK_EXCLUSIVE | LK_RETRY); 564 1.28.8.1 mjf } 565 1.28.8.1 mjf 566 1.28.8.1 mjf *vpp = vp; 567 1.28.8.1 mjf out: 568 1.28.8.1 mjf free(fhtonode_argp, M_PUFFS); 569 1.28.8.1 mjf return error; 570 1.1 pooka } 571 1.1 pooka 572 1.1 pooka int 573 1.28.8.1 mjf puffs_vptofh(struct vnode *vp, struct fid *fhp, size_t *fh_size) 574 1.1 pooka { 575 1.28.8.1 mjf struct puffs_mount *pmp = MPTOPUFFSMP(vp->v_mount); 576 1.28.8.1 mjf struct puffs_vfsreq_nodetofh *nodetofh_argp; 577 1.28.8.1 mjf size_t argsize; 578 1.28.8.1 mjf int error; 579 1.1 pooka 580 1.28.8.1 mjf if (pmp->pmp_args.pa_fhsize == 0) 581 1.28.8.1 mjf return EOPNOTSUPP; 582 1.28.8.1 mjf 583 1.28.8.1 mjf /* if file handles are static length, we can return immediately */ 584 1.28.8.1 mjf if (((pmp->pmp_args.pa_fhflags & PUFFS_FHFLAG_DYNAMIC) == 0) 585 1.28.8.1 mjf && (PUFFS_FROMFHSIZE(*fh_size) < pmp->pmp_args.pa_fhsize)) { 586 1.28.8.1 mjf *fh_size = PUFFS_TOFHSIZE(pmp->pmp_args.pa_fhsize); 587 1.28.8.1 mjf return E2BIG; 588 1.28.8.1 mjf } 589 1.28.8.1 mjf 590 1.28.8.1 mjf argsize = sizeof(struct puffs_vfsreq_nodetofh) 591 1.28.8.1 mjf + PUFFS_FROMFHSIZE(*fh_size); 592 1.28.8.1 mjf nodetofh_argp = malloc(argsize, M_PUFFS, M_ZERO | M_WAITOK); 593 1.28.8.1 mjf nodetofh_argp->pvfsr_fhcookie = VPTOPNC(vp); 594 1.28.8.1 mjf nodetofh_argp->pvfsr_dsize = PUFFS_FROMFHSIZE(*fh_size); 595 1.28.8.1 mjf 596 1.28.8.1 mjf error = puffs_vfstouser(pmp, PUFFS_VFS_VPTOFH, nodetofh_argp, argsize); 597 1.28.8.1 mjf if (error) { 598 1.28.8.1 mjf if (error == E2BIG) 599 1.28.8.1 mjf *fh_size = PUFFS_TOFHSIZE(nodetofh_argp->pvfsr_dsize); 600 1.28.8.1 mjf goto out; 601 1.28.8.1 mjf } 602 1.28.8.1 mjf 603 1.28.8.1 mjf if (PUFFS_TOFHSIZE(nodetofh_argp->pvfsr_dsize) > FHANDLE_SIZE_MAX) { 604 1.28.8.1 mjf /* XXX: wrong direction */ 605 1.28.8.1 mjf error = EINVAL; 606 1.28.8.1 mjf goto out; 607 1.28.8.1 mjf } 608 1.28.8.1 mjf 609 1.28.8.1 mjf if (*fh_size < PUFFS_TOFHSIZE(nodetofh_argp->pvfsr_dsize)) { 610 1.28.8.1 mjf *fh_size = PUFFS_TOFHSIZE(nodetofh_argp->pvfsr_dsize); 611 1.28.8.1 mjf error = E2BIG; 612 1.28.8.1 mjf goto out; 613 1.28.8.1 mjf } 614 1.28.8.1 mjf if (pmp->pmp_args.pa_fhflags & PUFFS_FHFLAG_DYNAMIC) { 615 1.28.8.1 mjf *fh_size = PUFFS_TOFHSIZE(nodetofh_argp->pvfsr_dsize); 616 1.28.8.1 mjf } else { 617 1.28.8.1 mjf *fh_size = PUFFS_TOFHSIZE(pmp->pmp_args.pa_fhsize); 618 1.28.8.1 mjf } 619 1.28.8.1 mjf 620 1.28.8.1 mjf if (fhp) { 621 1.28.8.1 mjf fhp->fid_len = *fh_size; 622 1.28.8.1 mjf memcpy(fhp->fid_data, 623 1.28.8.1 mjf nodetofh_argp->pvfsr_data, nodetofh_argp->pvfsr_dsize); 624 1.28.8.1 mjf } 625 1.28.8.1 mjf 626 1.28.8.1 mjf out: 627 1.28.8.1 mjf free(nodetofh_argp, M_PUFFS); 628 1.28.8.1 mjf return error; 629 1.1 pooka } 630 1.1 pooka 631 1.1 pooka void 632 1.1 pooka puffs_init() 633 1.1 pooka { 634 1.1 pooka 635 1.5 pooka malloc_type_attach(M_PUFFS); 636 1.5 pooka 637 1.28.8.1 mjf pool_init(&puffs_pnpool, sizeof(struct puffs_node), 0, 0, 0, 638 1.28.8.1 mjf "puffpnpl", &pool_allocator_nointr, IPL_NONE); 639 1.28.8.1 mjf puffs_transport_init(); 640 1.28.8.1 mjf puffs_msgif_init(); 641 1.1 pooka } 642 1.1 pooka 643 1.1 pooka void 644 1.1 pooka puffs_done() 645 1.1 pooka { 646 1.1 pooka 647 1.28.8.1 mjf puffs_msgif_destroy(); 648 1.28.8.1 mjf puffs_transport_destroy(); 649 1.5 pooka pool_destroy(&puffs_pnpool); 650 1.5 pooka 651 1.28.8.1 mjf malloc_type_detach(M_PUFFS); 652 1.1 pooka } 653 1.1 pooka 654 1.1 pooka int 655 1.1 pooka puffs_snapshot(struct mount *mp, struct vnode *vp, struct timespec *ts) 656 1.1 pooka { 657 1.1 pooka 658 1.1 pooka return EOPNOTSUPP; 659 1.1 pooka } 660 1.1 pooka 661 1.26 pooka int 662 1.26 pooka puffs_suspendctl(struct mount *mp, int cmd) 663 1.26 pooka { 664 1.26 pooka struct puffs_mount *pmp; 665 1.26 pooka int error; 666 1.26 pooka 667 1.26 pooka pmp = MPTOPUFFSMP(mp); 668 1.26 pooka switch (cmd) { 669 1.26 pooka case SUSPEND_SUSPEND: 670 1.26 pooka DPRINTF(("puffs_suspendctl: suspending\n")); 671 1.27 hannken if ((error = fstrans_setstate(mp, FSTRANS_SUSPENDING)) != 0) 672 1.26 pooka break; 673 1.26 pooka puffs_suspendtouser(pmp, PUFFS_SUSPEND_START); 674 1.26 pooka 675 1.28.8.1 mjf error = pageflush(mp, FSCRED, 0, 1, curlwp); 676 1.26 pooka if (error == 0) 677 1.27 hannken error = fstrans_setstate(mp, FSTRANS_SUSPENDED); 678 1.26 pooka 679 1.26 pooka if (error != 0) { 680 1.26 pooka puffs_suspendtouser(pmp, PUFFS_SUSPEND_ERROR); 681 1.27 hannken (void) fstrans_setstate(mp, FSTRANS_NORMAL); 682 1.26 pooka break; 683 1.26 pooka } 684 1.26 pooka 685 1.26 pooka puffs_suspendtouser(pmp, PUFFS_SUSPEND_SUSPENDED); 686 1.26 pooka 687 1.26 pooka break; 688 1.26 pooka 689 1.26 pooka case SUSPEND_RESUME: 690 1.26 pooka DPRINTF(("puffs_suspendctl: resume\n")); 691 1.26 pooka error = 0; 692 1.27 hannken (void) fstrans_setstate(mp, FSTRANS_NORMAL); 693 1.26 pooka puffs_suspendtouser(pmp, PUFFS_SUSPEND_RESUME); 694 1.26 pooka break; 695 1.26 pooka 696 1.26 pooka default: 697 1.26 pooka error = EINVAL; 698 1.26 pooka break; 699 1.26 pooka } 700 1.26 pooka 701 1.26 pooka DPRINTF(("puffs_suspendctl: return %d\n", error)); 702 1.26 pooka return error; 703 1.26 pooka } 704 1.26 pooka 705 1.1 pooka const struct vnodeopv_desc * const puffs_vnodeopv_descs[] = { 706 1.1 pooka &puffs_vnodeop_opv_desc, 707 1.3 pooka &puffs_specop_opv_desc, 708 1.4 pooka &puffs_fifoop_opv_desc, 709 1.12 pooka &puffs_msgop_opv_desc, 710 1.1 pooka NULL, 711 1.1 pooka }; 712 1.1 pooka 713 1.1 pooka struct vfsops puffs_vfsops = { 714 1.1 pooka MOUNT_PUFFS, 715 1.1 pooka puffs_mount, /* mount */ 716 1.1 pooka puffs_start, /* start */ 717 1.1 pooka puffs_unmount, /* unmount */ 718 1.1 pooka puffs_root, /* root */ 719 1.28.8.1 mjf (void *)eopnotsupp, /* quotactl */ 720 1.1 pooka puffs_statvfs, /* statvfs */ 721 1.1 pooka puffs_sync, /* sync */ 722 1.28.8.1 mjf (void *)eopnotsupp, /* vget */ 723 1.28.8.1 mjf puffs_fhtovp, /* fhtovp */ 724 1.28.8.1 mjf puffs_vptofh, /* vptofh */ 725 1.1 pooka puffs_init, /* init */ 726 1.1 pooka NULL, /* reinit */ 727 1.1 pooka puffs_done, /* done */ 728 1.1 pooka NULL, /* mountroot */ 729 1.1 pooka puffs_snapshot, /* snapshot */ 730 1.1 pooka vfs_stdextattrctl, /* extattrctl */ 731 1.26 pooka puffs_suspendctl, /* suspendctl */ 732 1.1 pooka puffs_vnodeopv_descs, /* vnodeops */ 733 1.1 pooka 0, /* refcount */ 734 1.1 pooka { NULL, NULL } 735 1.1 pooka }; 736 1.1 pooka VFS_ATTACH(puffs_vfsops); 737
Indexes created Thu Oct 23 22:10:10 GMT 2025