vfs_vnode.c revision 1.50
1 1.50 hannken /* $NetBSD: vfs_vnode.c,v 1.50 2016/05/26 11:07:33 hannken Exp $ */ 2 1.1 rmind 3 1.1 rmind /*- 4 1.2 rmind * Copyright (c) 1997-2011 The NetBSD Foundation, Inc. 5 1.1 rmind * All rights reserved. 6 1.1 rmind * 7 1.1 rmind * This code is derived from software contributed to The NetBSD Foundation 8 1.1 rmind * by Jason R. Thorpe of the Numerical Aerospace Simulation Facility, 9 1.1 rmind * NASA Ames Research Center, by Charles M. Hannum, and by Andrew Doran. 10 1.1 rmind * 11 1.1 rmind * Redistribution and use in source and binary forms, with or without 12 1.1 rmind * modification, are permitted provided that the following conditions 13 1.1 rmind * are met: 14 1.1 rmind * 1. Redistributions of source code must retain the above copyright 15 1.1 rmind * notice, this list of conditions and the following disclaimer. 16 1.1 rmind * 2. Redistributions in binary form must reproduce the above copyright 17 1.1 rmind * notice, this list of conditions and the following disclaimer in the 18 1.1 rmind * documentation and/or other materials provided with the distribution. 19 1.1 rmind * 20 1.1 rmind * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 21 1.1 rmind * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 22 1.1 rmind * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 23 1.1 rmind * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 24 1.1 rmind * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 25 1.1 rmind * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 26 1.1 rmind * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 27 1.1 rmind * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 28 1.1 rmind * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 29 1.1 rmind * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 30 1.1 rmind * POSSIBILITY OF SUCH DAMAGE. 31 1.1 rmind */ 32 1.1 rmind 33 1.1 rmind /* 34 1.1 rmind * Copyright (c) 1989, 1993 35 1.1 rmind * The Regents of the University of California. All rights reserved. 36 1.1 rmind * (c) UNIX System Laboratories, Inc. 37 1.1 rmind * All or some portions of this file are derived from material licensed 38 1.1 rmind * to the University of California by American Telephone and Telegraph 39 1.1 rmind * Co. or Unix System Laboratories, Inc. and are reproduced herein with 40 1.1 rmind * the permission of UNIX System Laboratories, Inc. 41 1.1 rmind * 42 1.1 rmind * Redistribution and use in source and binary forms, with or without 43 1.1 rmind * modification, are permitted provided that the following conditions 44 1.1 rmind * are met: 45 1.1 rmind * 1. Redistributions of source code must retain the above copyright 46 1.1 rmind * notice, this list of conditions and the following disclaimer. 47 1.1 rmind * 2. Redistributions in binary form must reproduce the above copyright 48 1.1 rmind * notice, this list of conditions and the following disclaimer in the 49 1.1 rmind * documentation and/or other materials provided with the distribution. 50 1.1 rmind * 3. Neither the name of the University nor the names of its contributors 51 1.1 rmind * may be used to endorse or promote products derived from this software 52 1.1 rmind * without specific prior written permission. 53 1.1 rmind * 54 1.1 rmind * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 55 1.1 rmind * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 56 1.1 rmind * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 57 1.1 rmind * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 58 1.1 rmind * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 59 1.1 rmind * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 60 1.1 rmind * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 61 1.1 rmind * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 62 1.1 rmind * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 63 1.1 rmind * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 64 1.1 rmind * SUCH DAMAGE. 65 1.1 rmind * 66 1.1 rmind * @(#)vfs_subr.c 8.13 (Berkeley) 4/18/94 67 1.1 rmind */ 68 1.1 rmind 69 1.1 rmind /* 70 1.8 rmind * The vnode cache subsystem. 71 1.1 rmind * 72 1.8 rmind * Life-cycle 73 1.1 rmind * 74 1.8 rmind * Normally, there are two points where new vnodes are created: 75 1.8 rmind * VOP_CREATE(9) and VOP_LOOKUP(9). The life-cycle of a vnode 76 1.8 rmind * starts in one of the following ways: 77 1.8 rmind * 78 1.45 hannken * - Allocation, via vcache_get(9) or vcache_new(9). 79 1.8 rmind * - Reclamation of inactive vnode, via vget(9). 80 1.8 rmind * 81 1.16 rmind * Recycle from a free list, via getnewvnode(9) -> getcleanvnode(9) 82 1.16 rmind * was another, traditional way. Currently, only the draining thread 83 1.16 rmind * recycles the vnodes. This behaviour might be revisited. 84 1.16 rmind * 85 1.8 rmind * The life-cycle ends when the last reference is dropped, usually 86 1.8 rmind * in VOP_REMOVE(9). In such case, VOP_INACTIVE(9) is called to inform 87 1.8 rmind * the file system that vnode is inactive. Via this call, file system 88 1.16 rmind * indicates whether vnode can be recycled (usually, it checks its own 89 1.16 rmind * references, e.g. count of links, whether the file was removed). 90 1.8 rmind * 91 1.8 rmind * Depending on indication, vnode can be put into a free list (cache), 92 1.8 rmind * or cleaned via vclean(9), which calls VOP_RECLAIM(9) to disassociate 93 1.8 rmind * underlying file system from the vnode, and finally destroyed. 94 1.8 rmind * 95 1.8 rmind * Reference counting 96 1.8 rmind * 97 1.8 rmind * Vnode is considered active, if reference count (vnode_t::v_usecount) 98 1.8 rmind * is non-zero. It is maintained using: vref(9) and vrele(9), as well 99 1.8 rmind * as vput(9), routines. Common points holding references are e.g. 100 1.8 rmind * file openings, current working directory, mount points, etc. 101 1.8 rmind * 102 1.8 rmind * Note on v_usecount and its locking 103 1.8 rmind * 104 1.8 rmind * At nearly all points it is known that v_usecount could be zero, 105 1.8 rmind * the vnode_t::v_interlock will be held. To change v_usecount away 106 1.8 rmind * from zero, the interlock must be held. To change from a non-zero 107 1.8 rmind * value to zero, again the interlock must be held. 108 1.8 rmind * 109 1.24 hannken * Changing the usecount from a non-zero value to a non-zero value can 110 1.24 hannken * safely be done using atomic operations, without the interlock held. 111 1.8 rmind * 112 1.8 rmind * Note: if VI_CLEAN is set, vnode_t::v_interlock will be released while 113 1.8 rmind * mntvnode_lock is still held. 114 1.20 dholland * 115 1.20 dholland * See PR 41374. 116 1.1 rmind */ 117 1.1 rmind 118 1.1 rmind #include <sys/cdefs.h> 119 1.50 hannken __KERNEL_RCSID(0, "$NetBSD: vfs_vnode.c,v 1.50 2016/05/26 11:07:33 hannken Exp $"); 120 1.23 hannken 121 1.23 hannken #define _VFS_VNODE_PRIVATE 122 1.1 rmind 123 1.1 rmind #include <sys/param.h> 124 1.1 rmind #include <sys/kernel.h> 125 1.1 rmind 126 1.1 rmind #include <sys/atomic.h> 127 1.1 rmind #include <sys/buf.h> 128 1.1 rmind #include <sys/conf.h> 129 1.1 rmind #include <sys/device.h> 130 1.36 hannken #include <sys/hash.h> 131 1.1 rmind #include <sys/kauth.h> 132 1.1 rmind #include <sys/kmem.h> 133 1.1 rmind #include <sys/kthread.h> 134 1.1 rmind #include <sys/module.h> 135 1.1 rmind #include <sys/mount.h> 136 1.1 rmind #include <sys/namei.h> 137 1.1 rmind #include <sys/syscallargs.h> 138 1.1 rmind #include <sys/sysctl.h> 139 1.1 rmind #include <sys/systm.h> 140 1.1 rmind #include <sys/vnode.h> 141 1.1 rmind #include <sys/wapbl.h> 142 1.24 hannken #include <sys/fstrans.h> 143 1.1 rmind 144 1.1 rmind #include <uvm/uvm.h> 145 1.1 rmind #include <uvm/uvm_readahead.h> 146 1.1 rmind 147 1.23 hannken /* Flags to vrelel. */ 148 1.23 hannken #define VRELEL_ASYNC_RELE 0x0001 /* Always defer to vrele thread. */ 149 1.29 christos #define VRELEL_CHANGING_SET 0x0002 /* VI_CHANGING set by caller. */ 150 1.23 hannken 151 1.36 hannken struct vcache_key { 152 1.36 hannken struct mount *vk_mount; 153 1.36 hannken const void *vk_key; 154 1.36 hannken size_t vk_key_len; 155 1.36 hannken }; 156 1.36 hannken struct vcache_node { 157 1.50 hannken struct vnode vn_data; 158 1.36 hannken SLIST_ENTRY(vcache_node) vn_hash; 159 1.36 hannken struct vnode *vn_vnode; 160 1.36 hannken struct vcache_key vn_key; 161 1.36 hannken }; 162 1.36 hannken 163 1.50 hannken #define VN_TO_VP(node) ((vnode_t *)(node)) 164 1.50 hannken #define VP_TO_VN(vp) ((struct vcache_node *)(vp)) 165 1.50 hannken 166 1.6 rmind u_int numvnodes __cacheline_aligned; 167 1.1 rmind 168 1.16 rmind /* 169 1.16 rmind * There are two free lists: one is for vnodes which have no buffer/page 170 1.16 rmind * references and one for those which do (i.e. v_holdcnt is non-zero). 171 1.16 rmind * Vnode recycling mechanism first attempts to look into the former list. 172 1.16 rmind */ 173 1.6 rmind static kmutex_t vnode_free_list_lock __cacheline_aligned; 174 1.6 rmind static vnodelst_t vnode_free_list __cacheline_aligned; 175 1.6 rmind static vnodelst_t vnode_hold_list __cacheline_aligned; 176 1.16 rmind static kcondvar_t vdrain_cv __cacheline_aligned; 177 1.16 rmind 178 1.6 rmind static vnodelst_t vrele_list __cacheline_aligned; 179 1.6 rmind static kmutex_t vrele_lock __cacheline_aligned; 180 1.6 rmind static kcondvar_t vrele_cv __cacheline_aligned; 181 1.6 rmind static lwp_t * vrele_lwp __cacheline_aligned; 182 1.6 rmind static int vrele_pending __cacheline_aligned; 183 1.6 rmind static int vrele_gen __cacheline_aligned; 184 1.1 rmind 185 1.38 matt SLIST_HEAD(hashhead, vcache_node); 186 1.36 hannken static struct { 187 1.36 hannken kmutex_t lock; 188 1.36 hannken u_long hashmask; 189 1.38 matt struct hashhead *hashtab; 190 1.36 hannken pool_cache_t pool; 191 1.36 hannken } vcache __cacheline_aligned; 192 1.36 hannken 193 1.12 hannken static int cleanvnode(void); 194 1.50 hannken static struct vcache_node *vcache_alloc(void); 195 1.50 hannken static void vcache_free(struct vcache_node *); 196 1.36 hannken static void vcache_init(void); 197 1.36 hannken static void vcache_reinit(void); 198 1.25 hannken static void vclean(vnode_t *); 199 1.23 hannken static void vrelel(vnode_t *, int); 200 1.12 hannken static void vdrain_thread(void *); 201 1.1 rmind static void vrele_thread(void *); 202 1.11 christos static void vnpanic(vnode_t *, const char *, ...) 203 1.18 christos __printflike(2, 3); 204 1.35 hannken static void vwait(vnode_t *, int); 205 1.1 rmind 206 1.1 rmind /* Routines having to do with the management of the vnode table. */ 207 1.44 hannken extern struct mount *dead_rootmount; 208 1.1 rmind extern int (**dead_vnodeop_p)(void *); 209 1.31 hannken extern struct vfsops dead_vfsops; 210 1.1 rmind 211 1.1 rmind void 212 1.1 rmind vfs_vnode_sysinit(void) 213 1.1 rmind { 214 1.22 martin int error __diagused; 215 1.1 rmind 216 1.44 hannken dead_rootmount = vfs_mountalloc(&dead_vfsops, NULL); 217 1.44 hannken KASSERT(dead_rootmount != NULL); 218 1.44 hannken dead_rootmount->mnt_iflag = IMNT_MPSAFE; 219 1.31 hannken 220 1.1 rmind mutex_init(&vnode_free_list_lock, MUTEX_DEFAULT, IPL_NONE); 221 1.1 rmind TAILQ_INIT(&vnode_free_list); 222 1.1 rmind TAILQ_INIT(&vnode_hold_list); 223 1.1 rmind TAILQ_INIT(&vrele_list); 224 1.1 rmind 225 1.36 hannken vcache_init(); 226 1.36 hannken 227 1.1 rmind mutex_init(&vrele_lock, MUTEX_DEFAULT, IPL_NONE); 228 1.12 hannken cv_init(&vdrain_cv, "vdrain"); 229 1.1 rmind cv_init(&vrele_cv, "vrele"); 230 1.12 hannken error = kthread_create(PRI_VM, KTHREAD_MPSAFE, NULL, vdrain_thread, 231 1.12 hannken NULL, NULL, "vdrain"); 232 1.47 riastrad KASSERTMSG((error == 0), "kthread_create(vdrain) failed: %d", error); 233 1.1 rmind error = kthread_create(PRI_VM, KTHREAD_MPSAFE, NULL, vrele_thread, 234 1.1 rmind NULL, &vrele_lwp, "vrele"); 235 1.47 riastrad KASSERTMSG((error == 0), "kthread_create(vrele) failed: %d", error); 236 1.1 rmind } 237 1.1 rmind 238 1.1 rmind /* 239 1.48 hannken * Allocate a new marker vnode. 240 1.48 hannken */ 241 1.48 hannken vnode_t * 242 1.48 hannken vnalloc_marker(struct mount *mp) 243 1.48 hannken { 244 1.50 hannken struct vcache_node *node; 245 1.50 hannken vnode_t *vp; 246 1.50 hannken 247 1.50 hannken node = pool_cache_get(vcache.pool, PR_WAITOK); 248 1.50 hannken memset(node, 0, sizeof(*node)); 249 1.50 hannken vp = VN_TO_VP(node); 250 1.50 hannken uvm_obj_init(&vp->v_uobj, &uvm_vnodeops, true, 0); 251 1.50 hannken vp->v_mount = mp; 252 1.50 hannken vp->v_type = VBAD; 253 1.50 hannken vp->v_iflag = VI_MARKER; 254 1.48 hannken 255 1.50 hannken return vp; 256 1.48 hannken } 257 1.48 hannken 258 1.48 hannken /* 259 1.48 hannken * Free a marker vnode. 260 1.48 hannken */ 261 1.48 hannken void 262 1.48 hannken vnfree_marker(vnode_t *vp) 263 1.48 hannken { 264 1.50 hannken struct vcache_node *node; 265 1.48 hannken 266 1.50 hannken node = VP_TO_VN(vp); 267 1.48 hannken KASSERT(ISSET(vp->v_iflag, VI_MARKER)); 268 1.50 hannken uvm_obj_destroy(&vp->v_uobj, true); 269 1.50 hannken pool_cache_put(vcache.pool, node); 270 1.48 hannken } 271 1.48 hannken 272 1.48 hannken /* 273 1.48 hannken * Test a vnode for being a marker vnode. 274 1.48 hannken */ 275 1.48 hannken bool 276 1.48 hannken vnis_marker(vnode_t *vp) 277 1.48 hannken { 278 1.48 hannken 279 1.48 hannken return (ISSET(vp->v_iflag, VI_MARKER)); 280 1.48 hannken } 281 1.48 hannken 282 1.48 hannken /* 283 1.12 hannken * cleanvnode: grab a vnode from freelist, clean and free it. 284 1.5 rmind * 285 1.5 rmind * => Releases vnode_free_list_lock. 286 1.1 rmind */ 287 1.12 hannken static int 288 1.12 hannken cleanvnode(void) 289 1.1 rmind { 290 1.1 rmind vnode_t *vp; 291 1.1 rmind vnodelst_t *listhd; 292 1.24 hannken struct mount *mp; 293 1.1 rmind 294 1.1 rmind KASSERT(mutex_owned(&vnode_free_list_lock)); 295 1.24 hannken 296 1.1 rmind listhd = &vnode_free_list; 297 1.1 rmind try_nextlist: 298 1.1 rmind TAILQ_FOREACH(vp, listhd, v_freelist) { 299 1.1 rmind /* 300 1.1 rmind * It's safe to test v_usecount and v_iflag 301 1.1 rmind * without holding the interlock here, since 302 1.1 rmind * these vnodes should never appear on the 303 1.1 rmind * lists. 304 1.1 rmind */ 305 1.5 rmind KASSERT(vp->v_usecount == 0); 306 1.5 rmind KASSERT((vp->v_iflag & VI_CLEAN) == 0); 307 1.5 rmind KASSERT(vp->v_freelisthd == listhd); 308 1.5 rmind 309 1.46 hannken if (vn_lock(vp, LK_EXCLUSIVE | LK_NOWAIT) != 0) 310 1.1 rmind continue; 311 1.46 hannken if (!mutex_tryenter(vp->v_interlock)) { 312 1.46 hannken VOP_UNLOCK(vp); 313 1.24 hannken continue; 314 1.24 hannken } 315 1.46 hannken KASSERT((vp->v_iflag & VI_XLOCK) == 0); 316 1.24 hannken mp = vp->v_mount; 317 1.24 hannken if (fstrans_start_nowait(mp, FSTRANS_SHARED) != 0) { 318 1.24 hannken mutex_exit(vp->v_interlock); 319 1.46 hannken VOP_UNLOCK(vp); 320 1.24 hannken continue; 321 1.24 hannken } 322 1.24 hannken break; 323 1.1 rmind } 324 1.1 rmind 325 1.1 rmind if (vp == NULL) { 326 1.1 rmind if (listhd == &vnode_free_list) { 327 1.1 rmind listhd = &vnode_hold_list; 328 1.1 rmind goto try_nextlist; 329 1.1 rmind } 330 1.1 rmind mutex_exit(&vnode_free_list_lock); 331 1.12 hannken return EBUSY; 332 1.1 rmind } 333 1.1 rmind 334 1.1 rmind /* Remove it from the freelist. */ 335 1.1 rmind TAILQ_REMOVE(listhd, vp, v_freelist); 336 1.1 rmind vp->v_freelisthd = NULL; 337 1.1 rmind mutex_exit(&vnode_free_list_lock); 338 1.1 rmind 339 1.1 rmind KASSERT(vp->v_usecount == 0); 340 1.1 rmind 341 1.1 rmind /* 342 1.1 rmind * The vnode is still associated with a file system, so we must 343 1.12 hannken * clean it out before freeing it. We need to add a reference 344 1.24 hannken * before doing this. 345 1.1 rmind */ 346 1.24 hannken vp->v_usecount = 1; 347 1.29 christos KASSERT((vp->v_iflag & VI_CHANGING) == 0); 348 1.29 christos vp->v_iflag |= VI_CHANGING; 349 1.25 hannken vclean(vp); 350 1.29 christos vrelel(vp, VRELEL_CHANGING_SET); 351 1.24 hannken fstrans_done(mp); 352 1.12 hannken 353 1.12 hannken return 0; 354 1.1 rmind } 355 1.1 rmind 356 1.1 rmind /* 357 1.12 hannken * Helper thread to keep the number of vnodes below desiredvnodes. 358 1.12 hannken */ 359 1.12 hannken static void 360 1.12 hannken vdrain_thread(void *cookie) 361 1.12 hannken { 362 1.12 hannken int error; 363 1.12 hannken 364 1.12 hannken mutex_enter(&vnode_free_list_lock); 365 1.12 hannken 366 1.12 hannken for (;;) { 367 1.12 hannken cv_timedwait(&vdrain_cv, &vnode_free_list_lock, hz); 368 1.12 hannken while (numvnodes > desiredvnodes) { 369 1.12 hannken error = cleanvnode(); 370 1.12 hannken if (error) 371 1.12 hannken kpause("vndsbusy", false, hz, NULL); 372 1.12 hannken mutex_enter(&vnode_free_list_lock); 373 1.12 hannken if (error) 374 1.12 hannken break; 375 1.12 hannken } 376 1.12 hannken } 377 1.12 hannken } 378 1.12 hannken 379 1.12 hannken /* 380 1.1 rmind * Remove a vnode from its freelist. 381 1.1 rmind */ 382 1.1 rmind void 383 1.1 rmind vremfree(vnode_t *vp) 384 1.1 rmind { 385 1.1 rmind 386 1.9 rmind KASSERT(mutex_owned(vp->v_interlock)); 387 1.1 rmind KASSERT(vp->v_usecount == 0); 388 1.1 rmind 389 1.1 rmind /* 390 1.1 rmind * Note that the reference count must not change until 391 1.1 rmind * the vnode is removed. 392 1.1 rmind */ 393 1.1 rmind mutex_enter(&vnode_free_list_lock); 394 1.1 rmind if (vp->v_holdcnt > 0) { 395 1.1 rmind KASSERT(vp->v_freelisthd == &vnode_hold_list); 396 1.1 rmind } else { 397 1.1 rmind KASSERT(vp->v_freelisthd == &vnode_free_list); 398 1.1 rmind } 399 1.1 rmind TAILQ_REMOVE(vp->v_freelisthd, vp, v_freelist); 400 1.1 rmind vp->v_freelisthd = NULL; 401 1.1 rmind mutex_exit(&vnode_free_list_lock); 402 1.1 rmind } 403 1.1 rmind 404 1.1 rmind /* 405 1.4 rmind * vget: get a particular vnode from the free list, increment its reference 406 1.4 rmind * count and lock it. 407 1.4 rmind * 408 1.4 rmind * => Should be called with v_interlock held. 409 1.4 rmind * 410 1.29 christos * If VI_CHANGING is set, the vnode may be eliminated in vgone()/vclean(). 411 1.4 rmind * In that case, we cannot grab the vnode, so the process is awakened when 412 1.4 rmind * the transition is completed, and an error returned to indicate that the 413 1.29 christos * vnode is no longer usable. 414 1.1 rmind */ 415 1.1 rmind int 416 1.41 riastrad vget(vnode_t *vp, int flags, bool waitok) 417 1.1 rmind { 418 1.1 rmind int error = 0; 419 1.1 rmind 420 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 421 1.9 rmind KASSERT(mutex_owned(vp->v_interlock)); 422 1.41 riastrad KASSERT((flags & ~LK_NOWAIT) == 0); 423 1.41 riastrad KASSERT(waitok == ((flags & LK_NOWAIT) == 0)); 424 1.1 rmind 425 1.1 rmind /* 426 1.1 rmind * Before adding a reference, we must remove the vnode 427 1.1 rmind * from its freelist. 428 1.1 rmind */ 429 1.1 rmind if (vp->v_usecount == 0) { 430 1.1 rmind vremfree(vp); 431 1.1 rmind vp->v_usecount = 1; 432 1.1 rmind } else { 433 1.1 rmind atomic_inc_uint(&vp->v_usecount); 434 1.1 rmind } 435 1.1 rmind 436 1.1 rmind /* 437 1.29 christos * If the vnode is in the process of changing state we wait 438 1.29 christos * for the change to complete and take care not to return 439 1.29 christos * a clean vnode. 440 1.1 rmind */ 441 1.29 christos if ((vp->v_iflag & VI_CHANGING) != 0) { 442 1.1 rmind if ((flags & LK_NOWAIT) != 0) { 443 1.1 rmind vrelel(vp, 0); 444 1.1 rmind return EBUSY; 445 1.1 rmind } 446 1.29 christos vwait(vp, VI_CHANGING); 447 1.17 hannken if ((vp->v_iflag & VI_CLEAN) != 0) { 448 1.17 hannken vrelel(vp, 0); 449 1.17 hannken return ENOENT; 450 1.17 hannken } 451 1.17 hannken } 452 1.17 hannken 453 1.1 rmind /* 454 1.41 riastrad * Ok, we got it in good shape. 455 1.1 rmind */ 456 1.1 rmind KASSERT((vp->v_iflag & VI_CLEAN) == 0); 457 1.9 rmind mutex_exit(vp->v_interlock); 458 1.1 rmind return error; 459 1.1 rmind } 460 1.1 rmind 461 1.1 rmind /* 462 1.4 rmind * vput: unlock and release the reference. 463 1.1 rmind */ 464 1.1 rmind void 465 1.1 rmind vput(vnode_t *vp) 466 1.1 rmind { 467 1.1 rmind 468 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 469 1.1 rmind 470 1.1 rmind VOP_UNLOCK(vp); 471 1.1 rmind vrele(vp); 472 1.1 rmind } 473 1.1 rmind 474 1.1 rmind /* 475 1.1 rmind * Try to drop reference on a vnode. Abort if we are releasing the 476 1.1 rmind * last reference. Note: this _must_ succeed if not the last reference. 477 1.1 rmind */ 478 1.1 rmind static inline bool 479 1.1 rmind vtryrele(vnode_t *vp) 480 1.1 rmind { 481 1.1 rmind u_int use, next; 482 1.1 rmind 483 1.1 rmind for (use = vp->v_usecount;; use = next) { 484 1.1 rmind if (use == 1) { 485 1.1 rmind return false; 486 1.1 rmind } 487 1.24 hannken KASSERT(use > 1); 488 1.1 rmind next = atomic_cas_uint(&vp->v_usecount, use, use - 1); 489 1.1 rmind if (__predict_true(next == use)) { 490 1.1 rmind return true; 491 1.1 rmind } 492 1.1 rmind } 493 1.1 rmind } 494 1.1 rmind 495 1.1 rmind /* 496 1.1 rmind * Vnode release. If reference count drops to zero, call inactive 497 1.1 rmind * routine and either return to freelist or free to the pool. 498 1.1 rmind */ 499 1.23 hannken static void 500 1.1 rmind vrelel(vnode_t *vp, int flags) 501 1.1 rmind { 502 1.1 rmind bool recycle, defer; 503 1.1 rmind int error; 504 1.1 rmind 505 1.9 rmind KASSERT(mutex_owned(vp->v_interlock)); 506 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 507 1.1 rmind KASSERT(vp->v_freelisthd == NULL); 508 1.1 rmind 509 1.1 rmind if (__predict_false(vp->v_op == dead_vnodeop_p && 510 1.1 rmind (vp->v_iflag & (VI_CLEAN|VI_XLOCK)) == 0)) { 511 1.11 christos vnpanic(vp, "dead but not clean"); 512 1.1 rmind } 513 1.1 rmind 514 1.1 rmind /* 515 1.1 rmind * If not the last reference, just drop the reference count 516 1.1 rmind * and unlock. 517 1.1 rmind */ 518 1.1 rmind if (vtryrele(vp)) { 519 1.29 christos if ((flags & VRELEL_CHANGING_SET) != 0) { 520 1.29 christos KASSERT((vp->v_iflag & VI_CHANGING) != 0); 521 1.29 christos vp->v_iflag &= ~VI_CHANGING; 522 1.29 christos cv_broadcast(&vp->v_cv); 523 1.29 christos } 524 1.9 rmind mutex_exit(vp->v_interlock); 525 1.1 rmind return; 526 1.1 rmind } 527 1.1 rmind if (vp->v_usecount <= 0 || vp->v_writecount != 0) { 528 1.11 christos vnpanic(vp, "%s: bad ref count", __func__); 529 1.1 rmind } 530 1.1 rmind 531 1.1 rmind KASSERT((vp->v_iflag & VI_XLOCK) == 0); 532 1.1 rmind 533 1.15 hannken #ifdef DIAGNOSTIC 534 1.15 hannken if ((vp->v_type == VBLK || vp->v_type == VCHR) && 535 1.15 hannken vp->v_specnode != NULL && vp->v_specnode->sn_opencnt != 0) { 536 1.15 hannken vprint("vrelel: missing VOP_CLOSE()", vp); 537 1.15 hannken } 538 1.15 hannken #endif 539 1.15 hannken 540 1.1 rmind /* 541 1.1 rmind * If not clean, deactivate the vnode, but preserve 542 1.1 rmind * our reference across the call to VOP_INACTIVE(). 543 1.1 rmind */ 544 1.1 rmind if ((vp->v_iflag & VI_CLEAN) == 0) { 545 1.1 rmind recycle = false; 546 1.1 rmind 547 1.1 rmind /* 548 1.1 rmind * XXX This ugly block can be largely eliminated if 549 1.1 rmind * locking is pushed down into the file systems. 550 1.1 rmind * 551 1.1 rmind * Defer vnode release to vrele_thread if caller 552 1.30 hannken * requests it explicitly or is the pagedaemon. 553 1.1 rmind */ 554 1.1 rmind if ((curlwp == uvm.pagedaemon_lwp) || 555 1.1 rmind (flags & VRELEL_ASYNC_RELE) != 0) { 556 1.1 rmind defer = true; 557 1.1 rmind } else if (curlwp == vrele_lwp) { 558 1.17 hannken /* 559 1.29 christos * We have to try harder. 560 1.17 hannken */ 561 1.9 rmind mutex_exit(vp->v_interlock); 562 1.32 hannken error = vn_lock(vp, LK_EXCLUSIVE | LK_RETRY); 563 1.47 riastrad KASSERTMSG((error == 0), "vn_lock failed: %d", error); 564 1.17 hannken mutex_enter(vp->v_interlock); 565 1.1 rmind defer = false; 566 1.4 rmind } else { 567 1.1 rmind /* If we can't acquire the lock, then defer. */ 568 1.32 hannken mutex_exit(vp->v_interlock); 569 1.32 hannken error = vn_lock(vp, 570 1.32 hannken LK_EXCLUSIVE | LK_RETRY | LK_NOWAIT); 571 1.30 hannken defer = (error != 0); 572 1.32 hannken mutex_enter(vp->v_interlock); 573 1.1 rmind } 574 1.1 rmind 575 1.30 hannken KASSERT(mutex_owned(vp->v_interlock)); 576 1.30 hannken KASSERT(! (curlwp == vrele_lwp && defer)); 577 1.30 hannken 578 1.1 rmind if (defer) { 579 1.1 rmind /* 580 1.1 rmind * Defer reclaim to the kthread; it's not safe to 581 1.1 rmind * clean it here. We donate it our last reference. 582 1.1 rmind */ 583 1.29 christos if ((flags & VRELEL_CHANGING_SET) != 0) { 584 1.29 christos KASSERT((vp->v_iflag & VI_CHANGING) != 0); 585 1.29 christos vp->v_iflag &= ~VI_CHANGING; 586 1.29 christos cv_broadcast(&vp->v_cv); 587 1.29 christos } 588 1.1 rmind mutex_enter(&vrele_lock); 589 1.1 rmind TAILQ_INSERT_TAIL(&vrele_list, vp, v_freelist); 590 1.1 rmind if (++vrele_pending > (desiredvnodes >> 8)) 591 1.1 rmind cv_signal(&vrele_cv); 592 1.1 rmind mutex_exit(&vrele_lock); 593 1.9 rmind mutex_exit(vp->v_interlock); 594 1.1 rmind return; 595 1.1 rmind } 596 1.1 rmind 597 1.32 hannken /* 598 1.32 hannken * If the node got another reference while we 599 1.32 hannken * released the interlock, don't try to inactivate it yet. 600 1.32 hannken */ 601 1.32 hannken if (__predict_false(vtryrele(vp))) { 602 1.32 hannken VOP_UNLOCK(vp); 603 1.32 hannken if ((flags & VRELEL_CHANGING_SET) != 0) { 604 1.32 hannken KASSERT((vp->v_iflag & VI_CHANGING) != 0); 605 1.32 hannken vp->v_iflag &= ~VI_CHANGING; 606 1.32 hannken cv_broadcast(&vp->v_cv); 607 1.32 hannken } 608 1.32 hannken mutex_exit(vp->v_interlock); 609 1.32 hannken return; 610 1.32 hannken } 611 1.32 hannken 612 1.29 christos if ((flags & VRELEL_CHANGING_SET) == 0) { 613 1.29 christos KASSERT((vp->v_iflag & VI_CHANGING) == 0); 614 1.29 christos vp->v_iflag |= VI_CHANGING; 615 1.29 christos } 616 1.29 christos mutex_exit(vp->v_interlock); 617 1.29 christos 618 1.1 rmind /* 619 1.1 rmind * The vnode can gain another reference while being 620 1.1 rmind * deactivated. If VOP_INACTIVE() indicates that 621 1.1 rmind * the described file has been deleted, then recycle 622 1.1 rmind * the vnode irrespective of additional references. 623 1.1 rmind * Another thread may be waiting to re-use the on-disk 624 1.1 rmind * inode. 625 1.1 rmind * 626 1.1 rmind * Note that VOP_INACTIVE() will drop the vnode lock. 627 1.1 rmind */ 628 1.1 rmind VOP_INACTIVE(vp, &recycle); 629 1.46 hannken if (recycle) { 630 1.46 hannken /* vclean() below will drop the lock. */ 631 1.46 hannken if (vn_lock(vp, LK_EXCLUSIVE) != 0) 632 1.46 hannken recycle = false; 633 1.46 hannken } 634 1.9 rmind mutex_enter(vp->v_interlock); 635 1.1 rmind if (!recycle) { 636 1.1 rmind if (vtryrele(vp)) { 637 1.29 christos KASSERT((vp->v_iflag & VI_CHANGING) != 0); 638 1.29 christos vp->v_iflag &= ~VI_CHANGING; 639 1.29 christos cv_broadcast(&vp->v_cv); 640 1.9 rmind mutex_exit(vp->v_interlock); 641 1.1 rmind return; 642 1.1 rmind } 643 1.1 rmind } 644 1.1 rmind 645 1.1 rmind /* Take care of space accounting. */ 646 1.1 rmind if (vp->v_iflag & VI_EXECMAP) { 647 1.1 rmind atomic_add_int(&uvmexp.execpages, 648 1.1 rmind -vp->v_uobj.uo_npages); 649 1.1 rmind atomic_add_int(&uvmexp.filepages, 650 1.1 rmind vp->v_uobj.uo_npages); 651 1.1 rmind } 652 1.1 rmind vp->v_iflag &= ~(VI_TEXT|VI_EXECMAP|VI_WRMAP); 653 1.1 rmind vp->v_vflag &= ~VV_MAPPED; 654 1.1 rmind 655 1.1 rmind /* 656 1.1 rmind * Recycle the vnode if the file is now unused (unlinked), 657 1.1 rmind * otherwise just free it. 658 1.1 rmind */ 659 1.1 rmind if (recycle) { 660 1.25 hannken vclean(vp); 661 1.1 rmind } 662 1.1 rmind KASSERT(vp->v_usecount > 0); 663 1.29 christos } else { /* vnode was already clean */ 664 1.29 christos if ((flags & VRELEL_CHANGING_SET) == 0) { 665 1.29 christos KASSERT((vp->v_iflag & VI_CHANGING) == 0); 666 1.29 christos vp->v_iflag |= VI_CHANGING; 667 1.29 christos } 668 1.1 rmind } 669 1.1 rmind 670 1.1 rmind if (atomic_dec_uint_nv(&vp->v_usecount) != 0) { 671 1.1 rmind /* Gained another reference while being reclaimed. */ 672 1.29 christos KASSERT((vp->v_iflag & VI_CHANGING) != 0); 673 1.29 christos vp->v_iflag &= ~VI_CHANGING; 674 1.29 christos cv_broadcast(&vp->v_cv); 675 1.9 rmind mutex_exit(vp->v_interlock); 676 1.1 rmind return; 677 1.1 rmind } 678 1.1 rmind 679 1.1 rmind if ((vp->v_iflag & VI_CLEAN) != 0) { 680 1.1 rmind /* 681 1.1 rmind * It's clean so destroy it. It isn't referenced 682 1.1 rmind * anywhere since it has been reclaimed. 683 1.1 rmind */ 684 1.1 rmind KASSERT(vp->v_holdcnt == 0); 685 1.1 rmind KASSERT(vp->v_writecount == 0); 686 1.9 rmind mutex_exit(vp->v_interlock); 687 1.1 rmind vfs_insmntque(vp, NULL); 688 1.1 rmind if (vp->v_type == VBLK || vp->v_type == VCHR) { 689 1.1 rmind spec_node_destroy(vp); 690 1.1 rmind } 691 1.50 hannken vcache_free(VP_TO_VN(vp)); 692 1.1 rmind } else { 693 1.1 rmind /* 694 1.1 rmind * Otherwise, put it back onto the freelist. It 695 1.1 rmind * can't be destroyed while still associated with 696 1.1 rmind * a file system. 697 1.1 rmind */ 698 1.1 rmind mutex_enter(&vnode_free_list_lock); 699 1.1 rmind if (vp->v_holdcnt > 0) { 700 1.1 rmind vp->v_freelisthd = &vnode_hold_list; 701 1.1 rmind } else { 702 1.1 rmind vp->v_freelisthd = &vnode_free_list; 703 1.1 rmind } 704 1.1 rmind TAILQ_INSERT_TAIL(vp->v_freelisthd, vp, v_freelist); 705 1.1 rmind mutex_exit(&vnode_free_list_lock); 706 1.29 christos KASSERT((vp->v_iflag & VI_CHANGING) != 0); 707 1.29 christos vp->v_iflag &= ~VI_CHANGING; 708 1.29 christos cv_broadcast(&vp->v_cv); 709 1.9 rmind mutex_exit(vp->v_interlock); 710 1.1 rmind } 711 1.1 rmind } 712 1.1 rmind 713 1.1 rmind void 714 1.1 rmind vrele(vnode_t *vp) 715 1.1 rmind { 716 1.1 rmind 717 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 718 1.1 rmind 719 1.29 christos if (vtryrele(vp)) { 720 1.1 rmind return; 721 1.1 rmind } 722 1.9 rmind mutex_enter(vp->v_interlock); 723 1.1 rmind vrelel(vp, 0); 724 1.1 rmind } 725 1.1 rmind 726 1.1 rmind /* 727 1.1 rmind * Asynchronous vnode release, vnode is released in different context. 728 1.1 rmind */ 729 1.1 rmind void 730 1.1 rmind vrele_async(vnode_t *vp) 731 1.1 rmind { 732 1.1 rmind 733 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 734 1.1 rmind 735 1.29 christos if (vtryrele(vp)) { 736 1.1 rmind return; 737 1.1 rmind } 738 1.9 rmind mutex_enter(vp->v_interlock); 739 1.1 rmind vrelel(vp, VRELEL_ASYNC_RELE); 740 1.1 rmind } 741 1.1 rmind 742 1.1 rmind static void 743 1.1 rmind vrele_thread(void *cookie) 744 1.1 rmind { 745 1.34 hannken vnodelst_t skip_list; 746 1.1 rmind vnode_t *vp; 747 1.34 hannken struct mount *mp; 748 1.34 hannken 749 1.34 hannken TAILQ_INIT(&skip_list); 750 1.1 rmind 751 1.34 hannken mutex_enter(&vrele_lock); 752 1.1 rmind for (;;) { 753 1.1 rmind while (TAILQ_EMPTY(&vrele_list)) { 754 1.1 rmind vrele_gen++; 755 1.1 rmind cv_broadcast(&vrele_cv); 756 1.1 rmind cv_timedwait(&vrele_cv, &vrele_lock, hz); 757 1.34 hannken TAILQ_CONCAT(&vrele_list, &skip_list, v_freelist); 758 1.1 rmind } 759 1.1 rmind vp = TAILQ_FIRST(&vrele_list); 760 1.34 hannken mp = vp->v_mount; 761 1.1 rmind TAILQ_REMOVE(&vrele_list, vp, v_freelist); 762 1.34 hannken if (fstrans_start_nowait(mp, FSTRANS_LAZY) != 0) { 763 1.34 hannken TAILQ_INSERT_TAIL(&skip_list, vp, v_freelist); 764 1.34 hannken continue; 765 1.34 hannken } 766 1.1 rmind vrele_pending--; 767 1.1 rmind mutex_exit(&vrele_lock); 768 1.1 rmind 769 1.1 rmind /* 770 1.1 rmind * If not the last reference, then ignore the vnode 771 1.1 rmind * and look for more work. 772 1.1 rmind */ 773 1.9 rmind mutex_enter(vp->v_interlock); 774 1.1 rmind vrelel(vp, 0); 775 1.34 hannken fstrans_done(mp); 776 1.34 hannken mutex_enter(&vrele_lock); 777 1.1 rmind } 778 1.1 rmind } 779 1.1 rmind 780 1.2 rmind void 781 1.2 rmind vrele_flush(void) 782 1.2 rmind { 783 1.2 rmind int gen; 784 1.2 rmind 785 1.2 rmind mutex_enter(&vrele_lock); 786 1.2 rmind gen = vrele_gen; 787 1.2 rmind while (vrele_pending && gen == vrele_gen) { 788 1.2 rmind cv_broadcast(&vrele_cv); 789 1.2 rmind cv_wait(&vrele_cv, &vrele_lock); 790 1.2 rmind } 791 1.2 rmind mutex_exit(&vrele_lock); 792 1.2 rmind } 793 1.2 rmind 794 1.1 rmind /* 795 1.1 rmind * Vnode reference, where a reference is already held by some other 796 1.1 rmind * object (for example, a file structure). 797 1.1 rmind */ 798 1.1 rmind void 799 1.1 rmind vref(vnode_t *vp) 800 1.1 rmind { 801 1.1 rmind 802 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 803 1.1 rmind KASSERT(vp->v_usecount != 0); 804 1.1 rmind 805 1.1 rmind atomic_inc_uint(&vp->v_usecount); 806 1.1 rmind } 807 1.1 rmind 808 1.1 rmind /* 809 1.1 rmind * Page or buffer structure gets a reference. 810 1.1 rmind * Called with v_interlock held. 811 1.1 rmind */ 812 1.1 rmind void 813 1.1 rmind vholdl(vnode_t *vp) 814 1.1 rmind { 815 1.1 rmind 816 1.9 rmind KASSERT(mutex_owned(vp->v_interlock)); 817 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 818 1.1 rmind 819 1.1 rmind if (vp->v_holdcnt++ == 0 && vp->v_usecount == 0) { 820 1.1 rmind mutex_enter(&vnode_free_list_lock); 821 1.1 rmind KASSERT(vp->v_freelisthd == &vnode_free_list); 822 1.1 rmind TAILQ_REMOVE(vp->v_freelisthd, vp, v_freelist); 823 1.1 rmind vp->v_freelisthd = &vnode_hold_list; 824 1.1 rmind TAILQ_INSERT_TAIL(vp->v_freelisthd, vp, v_freelist); 825 1.1 rmind mutex_exit(&vnode_free_list_lock); 826 1.1 rmind } 827 1.1 rmind } 828 1.1 rmind 829 1.1 rmind /* 830 1.1 rmind * Page or buffer structure frees a reference. 831 1.1 rmind * Called with v_interlock held. 832 1.1 rmind */ 833 1.1 rmind void 834 1.1 rmind holdrelel(vnode_t *vp) 835 1.1 rmind { 836 1.1 rmind 837 1.9 rmind KASSERT(mutex_owned(vp->v_interlock)); 838 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 839 1.1 rmind 840 1.1 rmind if (vp->v_holdcnt <= 0) { 841 1.11 christos vnpanic(vp, "%s: holdcnt vp %p", __func__, vp); 842 1.1 rmind } 843 1.1 rmind 844 1.1 rmind vp->v_holdcnt--; 845 1.1 rmind if (vp->v_holdcnt == 0 && vp->v_usecount == 0) { 846 1.1 rmind mutex_enter(&vnode_free_list_lock); 847 1.1 rmind KASSERT(vp->v_freelisthd == &vnode_hold_list); 848 1.1 rmind TAILQ_REMOVE(vp->v_freelisthd, vp, v_freelist); 849 1.1 rmind vp->v_freelisthd = &vnode_free_list; 850 1.1 rmind TAILQ_INSERT_TAIL(vp->v_freelisthd, vp, v_freelist); 851 1.1 rmind mutex_exit(&vnode_free_list_lock); 852 1.1 rmind } 853 1.1 rmind } 854 1.1 rmind 855 1.1 rmind /* 856 1.1 rmind * Disassociate the underlying file system from a vnode. 857 1.1 rmind * 858 1.46 hannken * Must be called with vnode locked and will return unlocked. 859 1.1 rmind * Must be called with the interlock held, and will return with it held. 860 1.1 rmind */ 861 1.25 hannken static void 862 1.25 hannken vclean(vnode_t *vp) 863 1.1 rmind { 864 1.1 rmind lwp_t *l = curlwp; 865 1.43 hannken bool recycle, active; 866 1.1 rmind int error; 867 1.1 rmind 868 1.46 hannken KASSERT((vp->v_vflag & VV_LOCKSWORK) == 0 || 869 1.46 hannken VOP_ISLOCKED(vp) == LK_EXCLUSIVE); 870 1.9 rmind KASSERT(mutex_owned(vp->v_interlock)); 871 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 872 1.46 hannken KASSERT((vp->v_iflag & (VI_XLOCK | VI_CLEAN)) == 0); 873 1.1 rmind KASSERT(vp->v_usecount != 0); 874 1.1 rmind 875 1.32 hannken active = (vp->v_usecount > 1); 876 1.1 rmind /* 877 1.1 rmind * Prevent the vnode from being recycled or brought into use 878 1.1 rmind * while we clean it out. 879 1.1 rmind */ 880 1.1 rmind vp->v_iflag |= VI_XLOCK; 881 1.1 rmind if (vp->v_iflag & VI_EXECMAP) { 882 1.1 rmind atomic_add_int(&uvmexp.execpages, -vp->v_uobj.uo_npages); 883 1.1 rmind atomic_add_int(&uvmexp.filepages, vp->v_uobj.uo_npages); 884 1.1 rmind } 885 1.1 rmind vp->v_iflag &= ~(VI_TEXT|VI_EXECMAP); 886 1.9 rmind mutex_exit(vp->v_interlock); 887 1.23 hannken 888 1.1 rmind /* 889 1.1 rmind * Clean out any cached data associated with the vnode. 890 1.1 rmind * If purging an active vnode, it must be closed and 891 1.1 rmind * deactivated before being reclaimed. Note that the 892 1.1 rmind * VOP_INACTIVE will unlock the vnode. 893 1.1 rmind */ 894 1.43 hannken error = vinvalbuf(vp, V_SAVE, NOCRED, l, 0, 0); 895 1.43 hannken if (error != 0) { 896 1.43 hannken if (wapbl_vphaswapbl(vp)) 897 1.43 hannken WAPBL_DISCARD(wapbl_vptomp(vp)); 898 1.43 hannken error = vinvalbuf(vp, 0, NOCRED, l, 0, 0); 899 1.43 hannken } 900 1.47 riastrad KASSERTMSG((error == 0), "vinvalbuf failed: %d", error); 901 1.43 hannken KASSERT((vp->v_iflag & VI_ONWORKLST) == 0); 902 1.43 hannken if (active && (vp->v_type == VBLK || vp->v_type == VCHR)) { 903 1.43 hannken spec_node_revoke(vp); 904 1.1 rmind } 905 1.1 rmind if (active) { 906 1.1 rmind VOP_INACTIVE(vp, &recycle); 907 1.1 rmind } else { 908 1.1 rmind /* 909 1.1 rmind * Any other processes trying to obtain this lock must first 910 1.1 rmind * wait for VI_XLOCK to clear, then call the new lock operation. 911 1.1 rmind */ 912 1.1 rmind VOP_UNLOCK(vp); 913 1.1 rmind } 914 1.1 rmind 915 1.1 rmind /* Disassociate the underlying file system from the vnode. */ 916 1.1 rmind if (VOP_RECLAIM(vp)) { 917 1.11 christos vnpanic(vp, "%s: cannot reclaim", __func__); 918 1.1 rmind } 919 1.1 rmind 920 1.7 rmind KASSERT(vp->v_data == NULL); 921 1.1 rmind KASSERT(vp->v_uobj.uo_npages == 0); 922 1.7 rmind 923 1.1 rmind if (vp->v_type == VREG && vp->v_ractx != NULL) { 924 1.1 rmind uvm_ra_freectx(vp->v_ractx); 925 1.1 rmind vp->v_ractx = NULL; 926 1.1 rmind } 927 1.7 rmind 928 1.7 rmind /* Purge name cache. */ 929 1.1 rmind cache_purge(vp); 930 1.1 rmind 931 1.31 hannken /* Move to dead mount. */ 932 1.31 hannken vp->v_vflag &= ~VV_ROOT; 933 1.44 hannken atomic_inc_uint(&dead_rootmount->mnt_refcnt); 934 1.44 hannken vfs_insmntque(vp, dead_rootmount); 935 1.23 hannken 936 1.1 rmind /* Done with purge, notify sleepers of the grim news. */ 937 1.9 rmind mutex_enter(vp->v_interlock); 938 1.43 hannken vp->v_op = dead_vnodeop_p; 939 1.43 hannken vp->v_vflag |= VV_LOCKSWORK; 940 1.43 hannken vp->v_iflag |= VI_CLEAN; 941 1.1 rmind vp->v_tag = VT_NON; 942 1.1 rmind KNOTE(&vp->v_klist, NOTE_REVOKE); 943 1.1 rmind vp->v_iflag &= ~VI_XLOCK; 944 1.1 rmind cv_broadcast(&vp->v_cv); 945 1.1 rmind 946 1.1 rmind KASSERT((vp->v_iflag & VI_ONWORKLST) == 0); 947 1.1 rmind } 948 1.1 rmind 949 1.1 rmind /* 950 1.33 hannken * Recycle an unused vnode if caller holds the last reference. 951 1.1 rmind */ 952 1.33 hannken bool 953 1.33 hannken vrecycle(vnode_t *vp) 954 1.1 rmind { 955 1.1 rmind 956 1.46 hannken if (vn_lock(vp, LK_EXCLUSIVE) != 0) 957 1.46 hannken return false; 958 1.46 hannken 959 1.33 hannken mutex_enter(vp->v_interlock); 960 1.33 hannken 961 1.1 rmind KASSERT((vp->v_iflag & VI_MARKER) == 0); 962 1.1 rmind 963 1.33 hannken if (vp->v_usecount != 1) { 964 1.9 rmind mutex_exit(vp->v_interlock); 965 1.46 hannken VOP_UNLOCK(vp); 966 1.33 hannken return false; 967 1.1 rmind } 968 1.33 hannken if ((vp->v_iflag & VI_CHANGING) != 0) 969 1.33 hannken vwait(vp, VI_CHANGING); 970 1.33 hannken if (vp->v_usecount != 1) { 971 1.33 hannken mutex_exit(vp->v_interlock); 972 1.46 hannken VOP_UNLOCK(vp); 973 1.33 hannken return false; 974 1.1 rmind } 975 1.46 hannken KASSERT((vp->v_iflag & VI_CLEAN) == 0); 976 1.29 christos vp->v_iflag |= VI_CHANGING; 977 1.25 hannken vclean(vp); 978 1.29 christos vrelel(vp, VRELEL_CHANGING_SET); 979 1.33 hannken return true; 980 1.1 rmind } 981 1.1 rmind 982 1.1 rmind /* 983 1.1 rmind * Eliminate all activity associated with the requested vnode 984 1.1 rmind * and with all vnodes aliased to the requested vnode. 985 1.1 rmind */ 986 1.1 rmind void 987 1.1 rmind vrevoke(vnode_t *vp) 988 1.1 rmind { 989 1.19 hannken vnode_t *vq; 990 1.1 rmind enum vtype type; 991 1.1 rmind dev_t dev; 992 1.1 rmind 993 1.1 rmind KASSERT(vp->v_usecount > 0); 994 1.1 rmind 995 1.9 rmind mutex_enter(vp->v_interlock); 996 1.1 rmind if ((vp->v_iflag & VI_CLEAN) != 0) { 997 1.9 rmind mutex_exit(vp->v_interlock); 998 1.1 rmind return; 999 1.1 rmind } else if (vp->v_type != VBLK && vp->v_type != VCHR) { 1000 1.1 rmind atomic_inc_uint(&vp->v_usecount); 1001 1.29 christos mutex_exit(vp->v_interlock); 1002 1.29 christos vgone(vp); 1003 1.1 rmind return; 1004 1.1 rmind } else { 1005 1.1 rmind dev = vp->v_rdev; 1006 1.1 rmind type = vp->v_type; 1007 1.9 rmind mutex_exit(vp->v_interlock); 1008 1.1 rmind } 1009 1.1 rmind 1010 1.19 hannken while (spec_node_lookup_by_dev(type, dev, &vq) == 0) { 1011 1.29 christos vgone(vq); 1012 1.1 rmind } 1013 1.1 rmind } 1014 1.1 rmind 1015 1.1 rmind /* 1016 1.1 rmind * Eliminate all activity associated with a vnode in preparation for 1017 1.1 rmind * reuse. Drops a reference from the vnode. 1018 1.1 rmind */ 1019 1.1 rmind void 1020 1.1 rmind vgone(vnode_t *vp) 1021 1.1 rmind { 1022 1.1 rmind 1023 1.46 hannken if (vn_lock(vp, LK_EXCLUSIVE) != 0) { 1024 1.46 hannken KASSERT((vp->v_iflag & VI_CLEAN) != 0); 1025 1.46 hannken vrele(vp); 1026 1.46 hannken } 1027 1.46 hannken 1028 1.9 rmind mutex_enter(vp->v_interlock); 1029 1.29 christos if ((vp->v_iflag & VI_CHANGING) != 0) 1030 1.29 christos vwait(vp, VI_CHANGING); 1031 1.29 christos vp->v_iflag |= VI_CHANGING; 1032 1.25 hannken vclean(vp); 1033 1.29 christos vrelel(vp, VRELEL_CHANGING_SET); 1034 1.1 rmind } 1035 1.1 rmind 1036 1.36 hannken static inline uint32_t 1037 1.36 hannken vcache_hash(const struct vcache_key *key) 1038 1.36 hannken { 1039 1.36 hannken uint32_t hash = HASH32_BUF_INIT; 1040 1.36 hannken 1041 1.36 hannken hash = hash32_buf(&key->vk_mount, sizeof(struct mount *), hash); 1042 1.36 hannken hash = hash32_buf(key->vk_key, key->vk_key_len, hash); 1043 1.36 hannken return hash; 1044 1.36 hannken } 1045 1.36 hannken 1046 1.36 hannken static void 1047 1.36 hannken vcache_init(void) 1048 1.36 hannken { 1049 1.36 hannken 1050 1.36 hannken vcache.pool = pool_cache_init(sizeof(struct vcache_node), 0, 0, 0, 1051 1.36 hannken "vcachepl", NULL, IPL_NONE, NULL, NULL, NULL); 1052 1.36 hannken KASSERT(vcache.pool != NULL); 1053 1.36 hannken mutex_init(&vcache.lock, MUTEX_DEFAULT, IPL_NONE); 1054 1.36 hannken vcache.hashtab = hashinit(desiredvnodes, HASH_SLIST, true, 1055 1.36 hannken &vcache.hashmask); 1056 1.36 hannken } 1057 1.36 hannken 1058 1.36 hannken static void 1059 1.36 hannken vcache_reinit(void) 1060 1.36 hannken { 1061 1.36 hannken int i; 1062 1.36 hannken uint32_t hash; 1063 1.36 hannken u_long oldmask, newmask; 1064 1.36 hannken struct hashhead *oldtab, *newtab; 1065 1.36 hannken struct vcache_node *node; 1066 1.36 hannken 1067 1.36 hannken newtab = hashinit(desiredvnodes, HASH_SLIST, true, &newmask); 1068 1.36 hannken mutex_enter(&vcache.lock); 1069 1.36 hannken oldtab = vcache.hashtab; 1070 1.36 hannken oldmask = vcache.hashmask; 1071 1.36 hannken vcache.hashtab = newtab; 1072 1.36 hannken vcache.hashmask = newmask; 1073 1.36 hannken for (i = 0; i <= oldmask; i++) { 1074 1.36 hannken while ((node = SLIST_FIRST(&oldtab[i])) != NULL) { 1075 1.36 hannken SLIST_REMOVE(&oldtab[i], node, vcache_node, vn_hash); 1076 1.36 hannken hash = vcache_hash(&node->vn_key); 1077 1.36 hannken SLIST_INSERT_HEAD(&newtab[hash & vcache.hashmask], 1078 1.36 hannken node, vn_hash); 1079 1.36 hannken } 1080 1.36 hannken } 1081 1.36 hannken mutex_exit(&vcache.lock); 1082 1.36 hannken hashdone(oldtab, HASH_SLIST, oldmask); 1083 1.36 hannken } 1084 1.36 hannken 1085 1.36 hannken static inline struct vcache_node * 1086 1.36 hannken vcache_hash_lookup(const struct vcache_key *key, uint32_t hash) 1087 1.36 hannken { 1088 1.36 hannken struct hashhead *hashp; 1089 1.36 hannken struct vcache_node *node; 1090 1.36 hannken 1091 1.36 hannken KASSERT(mutex_owned(&vcache.lock)); 1092 1.36 hannken 1093 1.36 hannken hashp = &vcache.hashtab[hash & vcache.hashmask]; 1094 1.36 hannken SLIST_FOREACH(node, hashp, vn_hash) { 1095 1.36 hannken if (key->vk_mount != node->vn_key.vk_mount) 1096 1.36 hannken continue; 1097 1.36 hannken if (key->vk_key_len != node->vn_key.vk_key_len) 1098 1.36 hannken continue; 1099 1.36 hannken if (memcmp(key->vk_key, node->vn_key.vk_key, key->vk_key_len)) 1100 1.36 hannken continue; 1101 1.36 hannken return node; 1102 1.36 hannken } 1103 1.36 hannken return NULL; 1104 1.36 hannken } 1105 1.36 hannken 1106 1.36 hannken /* 1107 1.50 hannken * Allocate a new, uninitialized vcache node. 1108 1.50 hannken */ 1109 1.50 hannken static struct vcache_node * 1110 1.50 hannken vcache_alloc(void) 1111 1.50 hannken { 1112 1.50 hannken struct vcache_node *node; 1113 1.50 hannken vnode_t *vp; 1114 1.50 hannken 1115 1.50 hannken node = pool_cache_get(vcache.pool, PR_WAITOK); 1116 1.50 hannken memset(node, 0, sizeof(*node)); 1117 1.50 hannken 1118 1.50 hannken /* SLIST_INIT(&node->vn_hash); */ 1119 1.50 hannken 1120 1.50 hannken vp = VN_TO_VP(node); 1121 1.50 hannken uvm_obj_init(&vp->v_uobj, &uvm_vnodeops, true, 0); 1122 1.50 hannken cv_init(&vp->v_cv, "vnode"); 1123 1.50 hannken /* LIST_INIT(&vp->v_nclist); */ 1124 1.50 hannken /* LIST_INIT(&vp->v_dnclist); */ 1125 1.50 hannken 1126 1.50 hannken mutex_enter(&vnode_free_list_lock); 1127 1.50 hannken numvnodes++; 1128 1.50 hannken if (numvnodes > desiredvnodes + desiredvnodes / 10) 1129 1.50 hannken cv_signal(&vdrain_cv); 1130 1.50 hannken mutex_exit(&vnode_free_list_lock); 1131 1.50 hannken 1132 1.50 hannken rw_init(&vp->v_lock); 1133 1.50 hannken vp->v_usecount = 1; 1134 1.50 hannken vp->v_type = VNON; 1135 1.50 hannken vp->v_size = vp->v_writesize = VSIZENOTSET; 1136 1.50 hannken 1137 1.50 hannken return node; 1138 1.50 hannken } 1139 1.50 hannken 1140 1.50 hannken /* 1141 1.50 hannken * Free an unused, unreferenced vcache node. 1142 1.50 hannken */ 1143 1.50 hannken static void 1144 1.50 hannken vcache_free(struct vcache_node *node) 1145 1.50 hannken { 1146 1.50 hannken vnode_t *vp; 1147 1.50 hannken 1148 1.50 hannken vp = VN_TO_VP(node); 1149 1.50 hannken 1150 1.50 hannken KASSERT(vp->v_usecount == 0); 1151 1.50 hannken KASSERT((vp->v_iflag & VI_MARKER) == 0); 1152 1.50 hannken 1153 1.50 hannken rw_destroy(&vp->v_lock); 1154 1.50 hannken mutex_enter(&vnode_free_list_lock); 1155 1.50 hannken numvnodes--; 1156 1.50 hannken mutex_exit(&vnode_free_list_lock); 1157 1.50 hannken 1158 1.50 hannken uvm_obj_destroy(&vp->v_uobj, true); 1159 1.50 hannken cv_destroy(&vp->v_cv); 1160 1.50 hannken pool_cache_put(vcache.pool, node); 1161 1.50 hannken } 1162 1.50 hannken 1163 1.50 hannken /* 1164 1.36 hannken * Get a vnode / fs node pair by key and return it referenced through vpp. 1165 1.36 hannken */ 1166 1.36 hannken int 1167 1.36 hannken vcache_get(struct mount *mp, const void *key, size_t key_len, 1168 1.36 hannken struct vnode **vpp) 1169 1.36 hannken { 1170 1.36 hannken int error; 1171 1.36 hannken uint32_t hash; 1172 1.36 hannken const void *new_key; 1173 1.36 hannken struct vnode *vp; 1174 1.36 hannken struct vcache_key vcache_key; 1175 1.36 hannken struct vcache_node *node, *new_node; 1176 1.36 hannken 1177 1.36 hannken new_key = NULL; 1178 1.36 hannken *vpp = NULL; 1179 1.36 hannken 1180 1.36 hannken vcache_key.vk_mount = mp; 1181 1.36 hannken vcache_key.vk_key = key; 1182 1.36 hannken vcache_key.vk_key_len = key_len; 1183 1.36 hannken hash = vcache_hash(&vcache_key); 1184 1.36 hannken 1185 1.36 hannken again: 1186 1.36 hannken mutex_enter(&vcache.lock); 1187 1.36 hannken node = vcache_hash_lookup(&vcache_key, hash); 1188 1.36 hannken 1189 1.36 hannken /* If found, take a reference or retry. */ 1190 1.36 hannken if (__predict_true(node != NULL && node->vn_vnode != NULL)) { 1191 1.36 hannken vp = node->vn_vnode; 1192 1.36 hannken mutex_enter(vp->v_interlock); 1193 1.36 hannken mutex_exit(&vcache.lock); 1194 1.41 riastrad error = vget(vp, 0, true /* wait */); 1195 1.36 hannken if (error == ENOENT) 1196 1.36 hannken goto again; 1197 1.36 hannken if (error == 0) 1198 1.36 hannken *vpp = vp; 1199 1.36 hannken KASSERT((error != 0) == (*vpp == NULL)); 1200 1.36 hannken return error; 1201 1.36 hannken } 1202 1.36 hannken 1203 1.36 hannken /* If another thread loads this node, wait and retry. */ 1204 1.36 hannken if (node != NULL) { 1205 1.36 hannken KASSERT(node->vn_vnode == NULL); 1206 1.36 hannken mutex_exit(&vcache.lock); 1207 1.36 hannken kpause("vcache", false, mstohz(20), NULL); 1208 1.36 hannken goto again; 1209 1.36 hannken } 1210 1.36 hannken mutex_exit(&vcache.lock); 1211 1.36 hannken 1212 1.36 hannken /* Allocate and initialize a new vcache / vnode pair. */ 1213 1.36 hannken error = vfs_busy(mp, NULL); 1214 1.36 hannken if (error) 1215 1.36 hannken return error; 1216 1.50 hannken new_node = vcache_alloc(); 1217 1.36 hannken new_node->vn_key = vcache_key; 1218 1.50 hannken vp = VN_TO_VP(new_node); 1219 1.36 hannken mutex_enter(&vcache.lock); 1220 1.36 hannken node = vcache_hash_lookup(&vcache_key, hash); 1221 1.36 hannken if (node == NULL) { 1222 1.36 hannken SLIST_INSERT_HEAD(&vcache.hashtab[hash & vcache.hashmask], 1223 1.36 hannken new_node, vn_hash); 1224 1.36 hannken node = new_node; 1225 1.36 hannken } 1226 1.36 hannken mutex_exit(&vcache.lock); 1227 1.36 hannken 1228 1.36 hannken /* If another thread beat us inserting this node, retry. */ 1229 1.36 hannken if (node != new_node) { 1230 1.36 hannken KASSERT(vp->v_usecount == 1); 1231 1.36 hannken vp->v_usecount = 0; 1232 1.50 hannken vcache_free(new_node); 1233 1.36 hannken vfs_unbusy(mp, false, NULL); 1234 1.36 hannken goto again; 1235 1.36 hannken } 1236 1.36 hannken 1237 1.36 hannken /* Load the fs node. Exclusive as new_node->vn_vnode is NULL. */ 1238 1.39 hannken vp->v_iflag |= VI_CHANGING; 1239 1.36 hannken error = VFS_LOADVNODE(mp, vp, key, key_len, &new_key); 1240 1.36 hannken if (error) { 1241 1.36 hannken mutex_enter(&vcache.lock); 1242 1.36 hannken SLIST_REMOVE(&vcache.hashtab[hash & vcache.hashmask], 1243 1.36 hannken new_node, vcache_node, vn_hash); 1244 1.36 hannken mutex_exit(&vcache.lock); 1245 1.36 hannken KASSERT(vp->v_usecount == 1); 1246 1.36 hannken vp->v_usecount = 0; 1247 1.50 hannken vcache_free(new_node); 1248 1.36 hannken vfs_unbusy(mp, false, NULL); 1249 1.36 hannken KASSERT(*vpp == NULL); 1250 1.36 hannken return error; 1251 1.36 hannken } 1252 1.36 hannken KASSERT(new_key != NULL); 1253 1.36 hannken KASSERT(memcmp(key, new_key, key_len) == 0); 1254 1.36 hannken KASSERT(vp->v_op != NULL); 1255 1.36 hannken vfs_insmntque(vp, mp); 1256 1.36 hannken if ((mp->mnt_iflag & IMNT_MPSAFE) != 0) 1257 1.36 hannken vp->v_vflag |= VV_MPSAFE; 1258 1.36 hannken vfs_unbusy(mp, true, NULL); 1259 1.36 hannken 1260 1.36 hannken /* Finished loading, finalize node. */ 1261 1.36 hannken mutex_enter(&vcache.lock); 1262 1.36 hannken new_node->vn_key.vk_key = new_key; 1263 1.36 hannken new_node->vn_vnode = vp; 1264 1.36 hannken mutex_exit(&vcache.lock); 1265 1.39 hannken mutex_enter(vp->v_interlock); 1266 1.39 hannken vp->v_iflag &= ~VI_CHANGING; 1267 1.39 hannken cv_broadcast(&vp->v_cv); 1268 1.39 hannken mutex_exit(vp->v_interlock); 1269 1.36 hannken *vpp = vp; 1270 1.36 hannken return 0; 1271 1.36 hannken } 1272 1.36 hannken 1273 1.36 hannken /* 1274 1.40 hannken * Create a new vnode / fs node pair and return it referenced through vpp. 1275 1.40 hannken */ 1276 1.40 hannken int 1277 1.40 hannken vcache_new(struct mount *mp, struct vnode *dvp, struct vattr *vap, 1278 1.40 hannken kauth_cred_t cred, struct vnode **vpp) 1279 1.40 hannken { 1280 1.40 hannken int error; 1281 1.40 hannken uint32_t hash; 1282 1.40 hannken struct vnode *vp; 1283 1.40 hannken struct vcache_node *new_node; 1284 1.40 hannken struct vcache_node *old_node __diagused; 1285 1.40 hannken 1286 1.40 hannken *vpp = NULL; 1287 1.40 hannken 1288 1.40 hannken /* Allocate and initialize a new vcache / vnode pair. */ 1289 1.40 hannken error = vfs_busy(mp, NULL); 1290 1.40 hannken if (error) 1291 1.40 hannken return error; 1292 1.50 hannken new_node = vcache_alloc(); 1293 1.40 hannken new_node->vn_key.vk_mount = mp; 1294 1.50 hannken vp = VN_TO_VP(new_node); 1295 1.40 hannken 1296 1.40 hannken /* Create and load the fs node. */ 1297 1.40 hannken vp->v_iflag |= VI_CHANGING; 1298 1.40 hannken error = VFS_NEWVNODE(mp, dvp, vp, vap, cred, 1299 1.40 hannken &new_node->vn_key.vk_key_len, &new_node->vn_key.vk_key); 1300 1.40 hannken if (error) { 1301 1.40 hannken KASSERT(vp->v_usecount == 1); 1302 1.40 hannken vp->v_usecount = 0; 1303 1.50 hannken vcache_free(VP_TO_VN(vp)); 1304 1.40 hannken vfs_unbusy(mp, false, NULL); 1305 1.40 hannken KASSERT(*vpp == NULL); 1306 1.40 hannken return error; 1307 1.40 hannken } 1308 1.40 hannken KASSERT(new_node->vn_key.vk_key != NULL); 1309 1.40 hannken KASSERT(vp->v_op != NULL); 1310 1.40 hannken hash = vcache_hash(&new_node->vn_key); 1311 1.40 hannken 1312 1.40 hannken /* Wait for previous instance to be reclaimed, then insert new node. */ 1313 1.40 hannken mutex_enter(&vcache.lock); 1314 1.40 hannken while ((old_node = vcache_hash_lookup(&new_node->vn_key, hash))) { 1315 1.40 hannken #ifdef DIAGNOSTIC 1316 1.40 hannken if (old_node->vn_vnode != NULL) 1317 1.40 hannken mutex_enter(old_node->vn_vnode->v_interlock); 1318 1.40 hannken KASSERT(old_node->vn_vnode == NULL || 1319 1.40 hannken (old_node->vn_vnode->v_iflag & (VI_XLOCK | VI_CLEAN)) != 0); 1320 1.40 hannken if (old_node->vn_vnode != NULL) 1321 1.40 hannken mutex_exit(old_node->vn_vnode->v_interlock); 1322 1.40 hannken #endif 1323 1.40 hannken mutex_exit(&vcache.lock); 1324 1.40 hannken kpause("vcache", false, mstohz(20), NULL); 1325 1.40 hannken mutex_enter(&vcache.lock); 1326 1.40 hannken } 1327 1.40 hannken SLIST_INSERT_HEAD(&vcache.hashtab[hash & vcache.hashmask], 1328 1.40 hannken new_node, vn_hash); 1329 1.40 hannken mutex_exit(&vcache.lock); 1330 1.40 hannken vfs_insmntque(vp, mp); 1331 1.40 hannken if ((mp->mnt_iflag & IMNT_MPSAFE) != 0) 1332 1.40 hannken vp->v_vflag |= VV_MPSAFE; 1333 1.40 hannken vfs_unbusy(mp, true, NULL); 1334 1.40 hannken 1335 1.40 hannken /* Finished loading, finalize node. */ 1336 1.40 hannken mutex_enter(&vcache.lock); 1337 1.40 hannken new_node->vn_vnode = vp; 1338 1.40 hannken mutex_exit(&vcache.lock); 1339 1.40 hannken mutex_enter(vp->v_interlock); 1340 1.40 hannken vp->v_iflag &= ~VI_CHANGING; 1341 1.40 hannken cv_broadcast(&vp->v_cv); 1342 1.40 hannken mutex_exit(vp->v_interlock); 1343 1.40 hannken *vpp = vp; 1344 1.40 hannken return 0; 1345 1.40 hannken } 1346 1.40 hannken 1347 1.40 hannken /* 1348 1.37 hannken * Prepare key change: lock old and new cache node. 1349 1.37 hannken * Return an error if the new node already exists. 1350 1.37 hannken */ 1351 1.37 hannken int 1352 1.37 hannken vcache_rekey_enter(struct mount *mp, struct vnode *vp, 1353 1.37 hannken const void *old_key, size_t old_key_len, 1354 1.37 hannken const void *new_key, size_t new_key_len) 1355 1.37 hannken { 1356 1.37 hannken uint32_t old_hash, new_hash; 1357 1.37 hannken struct vcache_key old_vcache_key, new_vcache_key; 1358 1.37 hannken struct vcache_node *node, *new_node; 1359 1.37 hannken 1360 1.37 hannken old_vcache_key.vk_mount = mp; 1361 1.37 hannken old_vcache_key.vk_key = old_key; 1362 1.37 hannken old_vcache_key.vk_key_len = old_key_len; 1363 1.37 hannken old_hash = vcache_hash(&old_vcache_key); 1364 1.37 hannken 1365 1.37 hannken new_vcache_key.vk_mount = mp; 1366 1.37 hannken new_vcache_key.vk_key = new_key; 1367 1.37 hannken new_vcache_key.vk_key_len = new_key_len; 1368 1.37 hannken new_hash = vcache_hash(&new_vcache_key); 1369 1.37 hannken 1370 1.50 hannken new_node = vcache_alloc(); 1371 1.37 hannken new_node->vn_key = new_vcache_key; 1372 1.37 hannken 1373 1.37 hannken mutex_enter(&vcache.lock); 1374 1.49 hannken 1375 1.49 hannken /* Insert locked new node used as placeholder. */ 1376 1.37 hannken node = vcache_hash_lookup(&new_vcache_key, new_hash); 1377 1.37 hannken if (node != NULL) { 1378 1.37 hannken mutex_exit(&vcache.lock); 1379 1.50 hannken KASSERT(VN_TO_VP(new_node)->v_usecount == 1); 1380 1.50 hannken VN_TO_VP(new_node)->v_usecount = 0; 1381 1.50 hannken vcache_free(new_node); 1382 1.37 hannken return EEXIST; 1383 1.37 hannken } 1384 1.37 hannken SLIST_INSERT_HEAD(&vcache.hashtab[new_hash & vcache.hashmask], 1385 1.37 hannken new_node, vn_hash); 1386 1.49 hannken 1387 1.49 hannken /* Lock old node. */ 1388 1.37 hannken node = vcache_hash_lookup(&old_vcache_key, old_hash); 1389 1.37 hannken KASSERT(node != NULL); 1390 1.37 hannken KASSERT(node->vn_vnode == vp); 1391 1.37 hannken node->vn_vnode = NULL; 1392 1.37 hannken node->vn_key = old_vcache_key; 1393 1.37 hannken mutex_exit(&vcache.lock); 1394 1.37 hannken return 0; 1395 1.37 hannken } 1396 1.37 hannken 1397 1.37 hannken /* 1398 1.37 hannken * Key change complete: remove old node and unlock new node. 1399 1.37 hannken */ 1400 1.37 hannken void 1401 1.37 hannken vcache_rekey_exit(struct mount *mp, struct vnode *vp, 1402 1.37 hannken const void *old_key, size_t old_key_len, 1403 1.37 hannken const void *new_key, size_t new_key_len) 1404 1.37 hannken { 1405 1.37 hannken uint32_t old_hash, new_hash; 1406 1.37 hannken struct vcache_key old_vcache_key, new_vcache_key; 1407 1.49 hannken struct vcache_node *old_node, *new_node; 1408 1.37 hannken 1409 1.37 hannken old_vcache_key.vk_mount = mp; 1410 1.37 hannken old_vcache_key.vk_key = old_key; 1411 1.37 hannken old_vcache_key.vk_key_len = old_key_len; 1412 1.37 hannken old_hash = vcache_hash(&old_vcache_key); 1413 1.37 hannken 1414 1.37 hannken new_vcache_key.vk_mount = mp; 1415 1.37 hannken new_vcache_key.vk_key = new_key; 1416 1.37 hannken new_vcache_key.vk_key_len = new_key_len; 1417 1.37 hannken new_hash = vcache_hash(&new_vcache_key); 1418 1.37 hannken 1419 1.37 hannken mutex_enter(&vcache.lock); 1420 1.49 hannken 1421 1.49 hannken /* Lookup old and new node. */ 1422 1.49 hannken old_node = vcache_hash_lookup(&old_vcache_key, old_hash); 1423 1.49 hannken KASSERT(old_node != NULL); 1424 1.49 hannken KASSERT(old_node->vn_vnode == NULL); 1425 1.49 hannken new_node = vcache_hash_lookup(&new_vcache_key, new_hash); 1426 1.49 hannken KASSERT(new_node != NULL && new_node->vn_vnode == NULL); 1427 1.49 hannken KASSERT(new_node->vn_key.vk_key_len == new_key_len); 1428 1.49 hannken 1429 1.49 hannken /* Rekey old node and put it onto its new hashlist. */ 1430 1.49 hannken old_node->vn_vnode = vp; 1431 1.49 hannken old_node->vn_key = new_vcache_key; 1432 1.49 hannken if (old_hash != new_hash) { 1433 1.49 hannken SLIST_REMOVE(&vcache.hashtab[old_hash & vcache.hashmask], 1434 1.49 hannken old_node, vcache_node, vn_hash); 1435 1.49 hannken SLIST_INSERT_HEAD(&vcache.hashtab[new_hash & vcache.hashmask], 1436 1.49 hannken old_node, vn_hash); 1437 1.49 hannken } 1438 1.49 hannken 1439 1.49 hannken /* Remove new node used as placeholder. */ 1440 1.49 hannken SLIST_REMOVE(&vcache.hashtab[new_hash & vcache.hashmask], 1441 1.49 hannken new_node, vcache_node, vn_hash); 1442 1.37 hannken mutex_exit(&vcache.lock); 1443 1.50 hannken KASSERT(VN_TO_VP(new_node)->v_usecount == 1); 1444 1.50 hannken VN_TO_VP(new_node)->v_usecount = 0; 1445 1.50 hannken vcache_free(new_node); 1446 1.37 hannken } 1447 1.37 hannken 1448 1.37 hannken /* 1449 1.36 hannken * Remove a vnode / fs node pair from the cache. 1450 1.36 hannken */ 1451 1.36 hannken void 1452 1.36 hannken vcache_remove(struct mount *mp, const void *key, size_t key_len) 1453 1.36 hannken { 1454 1.36 hannken uint32_t hash; 1455 1.36 hannken struct vcache_key vcache_key; 1456 1.36 hannken struct vcache_node *node; 1457 1.36 hannken 1458 1.36 hannken vcache_key.vk_mount = mp; 1459 1.36 hannken vcache_key.vk_key = key; 1460 1.36 hannken vcache_key.vk_key_len = key_len; 1461 1.36 hannken hash = vcache_hash(&vcache_key); 1462 1.36 hannken 1463 1.36 hannken mutex_enter(&vcache.lock); 1464 1.36 hannken node = vcache_hash_lookup(&vcache_key, hash); 1465 1.36 hannken KASSERT(node != NULL); 1466 1.36 hannken SLIST_REMOVE(&vcache.hashtab[hash & vcache.hashmask], 1467 1.36 hannken node, vcache_node, vn_hash); 1468 1.36 hannken mutex_exit(&vcache.lock); 1469 1.50 hannken } 1470 1.50 hannken 1471 1.50 hannken /* 1472 1.50 hannken * Print a vcache node. 1473 1.50 hannken */ 1474 1.50 hannken void 1475 1.50 hannken vcache_print(vnode_t *vp, const char *prefix, void (*pr)(const char *, ...)) 1476 1.50 hannken { 1477 1.50 hannken int n; 1478 1.50 hannken const uint8_t *cp; 1479 1.50 hannken struct vcache_node *node; 1480 1.50 hannken 1481 1.50 hannken node = VP_TO_VN(vp); 1482 1.50 hannken n = node->vn_key.vk_key_len; 1483 1.50 hannken cp = node->vn_key.vk_key; 1484 1.50 hannken 1485 1.50 hannken (*pr)("%skey(%d)", prefix, n); 1486 1.50 hannken 1487 1.50 hannken while (n-- > 0) 1488 1.50 hannken (*pr)(" %02x", *cp++); 1489 1.50 hannken (*pr)("\n"); 1490 1.36 hannken } 1491 1.36 hannken 1492 1.1 rmind /* 1493 1.1 rmind * Update outstanding I/O count and do wakeup if requested. 1494 1.1 rmind */ 1495 1.1 rmind void 1496 1.1 rmind vwakeup(struct buf *bp) 1497 1.1 rmind { 1498 1.1 rmind vnode_t *vp; 1499 1.1 rmind 1500 1.1 rmind if ((vp = bp->b_vp) == NULL) 1501 1.1 rmind return; 1502 1.1 rmind 1503 1.9 rmind KASSERT(bp->b_objlock == vp->v_interlock); 1504 1.1 rmind KASSERT(mutex_owned(bp->b_objlock)); 1505 1.1 rmind 1506 1.1 rmind if (--vp->v_numoutput < 0) 1507 1.11 christos vnpanic(vp, "%s: neg numoutput, vp %p", __func__, vp); 1508 1.1 rmind if (vp->v_numoutput == 0) 1509 1.1 rmind cv_broadcast(&vp->v_cv); 1510 1.1 rmind } 1511 1.1 rmind 1512 1.1 rmind /* 1513 1.35 hannken * Test a vnode for being or becoming dead. Returns one of: 1514 1.35 hannken * EBUSY: vnode is becoming dead, with "flags == VDEAD_NOWAIT" only. 1515 1.35 hannken * ENOENT: vnode is dead. 1516 1.35 hannken * 0: otherwise. 1517 1.35 hannken * 1518 1.35 hannken * Whenever this function returns a non-zero value all future 1519 1.35 hannken * calls will also return a non-zero value. 1520 1.35 hannken */ 1521 1.35 hannken int 1522 1.35 hannken vdead_check(struct vnode *vp, int flags) 1523 1.35 hannken { 1524 1.35 hannken 1525 1.35 hannken KASSERT(mutex_owned(vp->v_interlock)); 1526 1.35 hannken if (ISSET(vp->v_iflag, VI_XLOCK)) { 1527 1.35 hannken if (ISSET(flags, VDEAD_NOWAIT)) 1528 1.35 hannken return EBUSY; 1529 1.35 hannken vwait(vp, VI_XLOCK); 1530 1.35 hannken KASSERT(ISSET(vp->v_iflag, VI_CLEAN)); 1531 1.35 hannken } 1532 1.35 hannken if (ISSET(vp->v_iflag, VI_CLEAN)) 1533 1.35 hannken return ENOENT; 1534 1.35 hannken return 0; 1535 1.35 hannken } 1536 1.35 hannken 1537 1.35 hannken /* 1538 1.1 rmind * Wait for a vnode (typically with VI_XLOCK set) to be cleaned or 1539 1.1 rmind * recycled. 1540 1.1 rmind */ 1541 1.35 hannken static void 1542 1.1 rmind vwait(vnode_t *vp, int flags) 1543 1.1 rmind { 1544 1.1 rmind 1545 1.9 rmind KASSERT(mutex_owned(vp->v_interlock)); 1546 1.1 rmind KASSERT(vp->v_usecount != 0); 1547 1.1 rmind 1548 1.1 rmind while ((vp->v_iflag & flags) != 0) 1549 1.9 rmind cv_wait(&vp->v_cv, vp->v_interlock); 1550 1.1 rmind } 1551 1.1 rmind 1552 1.1 rmind int 1553 1.3 rmind vfs_drainvnodes(long target) 1554 1.1 rmind { 1555 1.12 hannken int error; 1556 1.12 hannken 1557 1.12 hannken mutex_enter(&vnode_free_list_lock); 1558 1.1 rmind 1559 1.1 rmind while (numvnodes > target) { 1560 1.12 hannken error = cleanvnode(); 1561 1.12 hannken if (error != 0) 1562 1.12 hannken return error; 1563 1.1 rmind mutex_enter(&vnode_free_list_lock); 1564 1.1 rmind } 1565 1.12 hannken 1566 1.12 hannken mutex_exit(&vnode_free_list_lock); 1567 1.12 hannken 1568 1.36 hannken vcache_reinit(); 1569 1.36 hannken 1570 1.1 rmind return 0; 1571 1.1 rmind } 1572 1.1 rmind 1573 1.1 rmind void 1574 1.11 christos vnpanic(vnode_t *vp, const char *fmt, ...) 1575 1.1 rmind { 1576 1.11 christos va_list ap; 1577 1.11 christos 1578 1.1 rmind #ifdef DIAGNOSTIC 1579 1.1 rmind vprint(NULL, vp); 1580 1.1 rmind #endif 1581 1.11 christos va_start(ap, fmt); 1582 1.11 christos vpanic(fmt, ap); 1583 1.11 christos va_end(ap); 1584 1.1 rmind } 1585
Indexes created Sun Sep 21 14:09:52 GMT 2025