1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 /* 22 * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. 23 * Copyright 2017 Nexenta Systems, Inc. All rights reserved. 24 */ 25 /* 26 * SMB Node State Machine 27 * ---------------------- 28 * 29 * 30 * +----------- Creation/Allocation 31 * | 32 * | T0 33 * | 34 * v 35 * +----------------------------+ 36 * | SMB_NODE_STATE_AVAILABLE | 37 * +----------------------------+ 38 * | 39 * | T1 40 * | 41 * v 42 * +-----------------------------+ 43 * | SMB_NODE_STATE_DESTROYING | 44 * +-----------------------------+ 45 * | 46 * | 47 * | T2 48 * | 49 * +----------> Deletion/Free 50 * 51 * Transition T0 52 * 53 * This transition occurs in smb_node_lookup(). If the node looked for is 54 * not found in the has table a new node is created. The reference count is 55 * initialized to 1 and the state initialized to SMB_NODE_STATE_AVAILABLE. 56 * 57 * Transition T1 58 * 59 * This transition occurs in smb_node_release(). If the reference count 60 * drops to zero the state is moved to SMB_NODE_STATE_DESTROYING and no more 61 * reference count will be given out for that node. 62 * 63 * Transition T2 64 * 65 * This transition occurs in smb_node_release(). The structure is deleted. 66 * 67 * Comments 68 * -------- 69 * 70 * The reason the smb node has 2 states is the following synchronization 71 * rule: 72 * 73 * There's a mutex embedded in the node used to protect its fields and 74 * there's a lock embedded in the bucket of the hash table the node belongs 75 * to. To increment or to decrement the reference count the mutex must be 76 * entered. To insert the node into the bucket and to remove it from the 77 * bucket the lock must be entered in RW_WRITER mode. When both (mutex and 78 * lock) have to be entered, the lock has always to be entered first then 79 * the mutex. This prevents a deadlock between smb_node_lookup() and 80 * smb_node_release() from occurring. However, in smb_node_release() when the 81 * reference count drops to zero and triggers the deletion of the node, the 82 * mutex has to be released before entering the lock of the bucket (to 83 * remove the node). This creates a window during which the node that is 84 * about to be freed could be given out by smb_node_lookup(). To close that 85 * window the node is moved to the state SMB_NODE_STATE_DESTROYING before 86 * releasing the mutex. That way, even if smb_node_lookup() finds it, the 87 * state will indicate that the node should be treated as non existent (of 88 * course the state of the node should be tested/updated under the 89 * protection of the mutex). 90 */ 91 #include <smbsrv/smb_kproto.h> 92 #include <smbsrv/smb_fsops.h> 93 #include <smbsrv/smb_kstat.h> 94 #include <sys/ddi.h> 95 #include <sys/extdirent.h> 96 #include <sys/pathname.h> 97 #include <sys/sdt.h> 98 #include <sys/nbmlock.h> 99 #include <fs/fs_reparse.h> 100 101 uint32_t smb_is_executable(char *); 102 static void smb_node_create_audit_buf(smb_node_t *, int); 103 static void smb_node_destroy_audit_buf(smb_node_t *); 104 static void smb_node_audit(smb_node_t *); 105 static smb_node_t *smb_node_alloc(char *, vnode_t *, smb_llist_t *, uint32_t); 106 static void smb_node_free(smb_node_t *); 107 static int smb_node_constructor(void *, void *, int); 108 static void smb_node_destructor(void *, void *); 109 static smb_llist_t *smb_node_get_hash(fsid_t *, smb_attr_t *, uint32_t *); 110 111 static void smb_node_init_reparse(smb_node_t *, smb_attr_t *); 112 static void smb_node_init_system(smb_node_t *); 113 114 #define VALIDATE_DIR_NODE(_dir_, _node_) \ 115 ASSERT((_dir_)->n_magic == SMB_NODE_MAGIC); \ 116 ASSERT(((_dir_)->vp->v_xattrdir) || ((_dir_)->vp->v_type == VDIR)); \ 117 ASSERT((_dir_)->n_dnode != (_node_)); 118 119 /* round sz to DEV_BSIZE block */ 120 #define SMB_ALLOCSZ(sz) (((sz) + DEV_BSIZE-1) & ~(DEV_BSIZE-1)) 121 122 static kmem_cache_t *smb_node_cache = NULL; 123 static smb_llist_t smb_node_hash_table[SMBND_HASH_MASK+1]; 124 static smb_node_t *smb_root_node; 125 126 /* 127 * smb_node_init 128 * 129 * Initialization of the SMB node layer. 130 * 131 * This function is not multi-thread safe. The caller must make sure only one 132 * thread makes the call. 133 */ 134 void 135 smb_node_init(void) 136 { 137 smb_attr_t attr; 138 smb_llist_t *node_hdr; 139 smb_node_t *node; 140 uint32_t hashkey; 141 int i; 142 143 if (smb_node_cache != NULL) 144 return; 145 146 smb_node_cache = kmem_cache_create(SMBSRV_KSTAT_NODE_CACHE, 147 sizeof (smb_node_t), 8, smb_node_constructor, smb_node_destructor, 148 NULL, NULL, NULL, 0); 149 150 for (i = 0; i <= SMBND_HASH_MASK; i++) { 151 smb_llist_constructor(&smb_node_hash_table[i], 152 sizeof (smb_node_t), offsetof(smb_node_t, n_lnd)); 153 } 154 155 /* 156 * The node cache is shared by all zones, so the smb_root_node 157 * must represent the real (global zone) rootdir. 158 * Note intentional use of kcred here. 159 */ 160 attr.sa_mask = SMB_AT_ALL; 161 VERIFY0(smb_vop_getattr(rootdir, NULL, &attr, 0, kcred)); 162 node_hdr = smb_node_get_hash(&rootdir->v_vfsp->vfs_fsid, &attr, 163 &hashkey); 164 node = smb_node_alloc("/", rootdir, node_hdr, hashkey); 165 smb_llist_enter(node_hdr, RW_WRITER); 166 smb_llist_insert_head(node_hdr, node); 167 smb_llist_exit(node_hdr); 168 smb_root_node = node; /* smb_node_release in smb_node_fini */ 169 } 170 171 /* 172 * smb_node_fini 173 * 174 * This function is not multi-thread safe. The caller must make sure only one 175 * thread makes the call. 176 */ 177 void 178 smb_node_fini(void) 179 { 180 int i; 181 182 if (smb_root_node != NULL) { 183 smb_node_release(smb_root_node); 184 smb_root_node = NULL; 185 } 186 187 if (smb_node_cache == NULL) 188 return; 189 190 #ifdef DEBUG 191 for (i = 0; i <= SMBND_HASH_MASK; i++) { 192 smb_llist_t *bucket; 193 smb_node_t *node; 194 195 /* 196 * The following sequence is just intended for sanity check. 197 * This will have to be modified when the code goes into 198 * production. 199 * 200 * The SMB node hash table should be emtpy at this point. If the 201 * hash table is not empty a panic will be triggered. 202 * 203 * The reason why SMB nodes are still remaining in the hash 204 * table is problably due to a mismatch between calls to 205 * smb_node_lookup() and smb_node_release(). You must track that 206 * down. 207 */ 208 bucket = &smb_node_hash_table[i]; 209 node = smb_llist_head(bucket); 210 while (node != NULL) { 211 cmn_err(CE_NOTE, "leaked node: 0x%p %s", 212 (void *)node, node->od_name); 213 node = smb_llist_next(bucket, node); 214 } 215 } 216 #endif 217 218 for (i = 0; i <= SMBND_HASH_MASK; i++) { 219 smb_llist_destructor(&smb_node_hash_table[i]); 220 } 221 kmem_cache_destroy(smb_node_cache); 222 smb_node_cache = NULL; 223 } 224 225 /* 226 * smb_node_lookup() 227 * 228 * NOTE: This routine should only be called by the file system interface layer, 229 * and not by SMB. 230 * 231 * smb_node_lookup() is called upon successful lookup, mkdir, and create 232 * (for both non-streams and streams). In each of these cases, a held vnode is 233 * passed into this routine. If a new smb_node is created it will take its 234 * own hold on the vnode. The caller's hold therefore still belongs to, and 235 * should be released by, the caller. 236 * 237 * A reference is taken on the smb_node whether found in the hash table 238 * or newly created. 239 * 240 * If an smb_node needs to be created, a reference is also taken on the 241 * dnode (if passed in). 242 * 243 * See smb_node_release() for details on the release of these references. 244 */ 245 246 /*ARGSUSED*/ 247 smb_node_t * 248 smb_node_lookup( 249 struct smb_request *sr, 250 struct open_param *op, 251 cred_t *cred, 252 vnode_t *vp, 253 char *od_name, 254 smb_node_t *dnode, 255 smb_node_t *unode) 256 { 257 smb_llist_t *node_hdr; 258 smb_node_t *node; 259 smb_attr_t attr; 260 uint32_t hashkey = 0; 261 fsid_t fsid; 262 int error; 263 krw_t lock_mode; 264 vnode_t *unnamed_vp = NULL; 265 266 /* 267 * smb_vop_getattr() is called here instead of smb_fsop_getattr(), 268 * because the node may not yet exist. We also do not want to call 269 * it with the list lock held. 270 */ 271 272 if (unode) 273 unnamed_vp = unode->vp; 274 275 /* 276 * This getattr is performed on behalf of the server 277 * that's why kcred is used not the user's cred 278 */ 279 attr.sa_mask = SMB_AT_ALL; 280 error = smb_vop_getattr(vp, unnamed_vp, &attr, 0, zone_kcred()); 281 if (error) 282 return (NULL); 283 284 if (sr && sr->tid_tree) { 285 /* 286 * The fsid for a file is that of the tree, even 287 * if the file resides in a different mountpoint 288 * under the share. 289 */ 290 fsid = SMB_TREE_FSID(sr->tid_tree); 291 } else { 292 /* 293 * This should be getting executed only for the 294 * tree root smb_node. 295 */ 296 fsid = vp->v_vfsp->vfs_fsid; 297 } 298 299 node_hdr = smb_node_get_hash(&fsid, &attr, &hashkey); 300 lock_mode = RW_READER; 301 302 smb_llist_enter(node_hdr, lock_mode); 303 for (;;) { 304 node = list_head(&node_hdr->ll_list); 305 while (node) { 306 ASSERT(node->n_magic == SMB_NODE_MAGIC); 307 ASSERT(node->n_hash_bucket == node_hdr); 308 if ((node->n_hashkey == hashkey) && (node->vp == vp)) { 309 mutex_enter(&node->n_mutex); 310 DTRACE_PROBE1(smb_node_lookup_hit, 311 smb_node_t *, node); 312 switch (node->n_state) { 313 case SMB_NODE_STATE_AVAILABLE: 314 /* The node was found. */ 315 node->n_refcnt++; 316 if ((node->n_dnode == NULL) && 317 (dnode != NULL) && 318 (node != dnode) && 319 (strcmp(od_name, "..") != 0) && 320 (strcmp(od_name, ".") != 0)) { 321 VALIDATE_DIR_NODE(dnode, node); 322 node->n_dnode = dnode; 323 smb_node_ref(dnode); 324 } 325 326 smb_node_audit(node); 327 mutex_exit(&node->n_mutex); 328 smb_llist_exit(node_hdr); 329 return (node); 330 331 case SMB_NODE_STATE_DESTROYING: 332 /* 333 * Although the node exists it is about 334 * to be destroyed. We act as it hasn't 335 * been found. 336 */ 337 mutex_exit(&node->n_mutex); 338 break; 339 default: 340 /* 341 * Although the node exists it is in an 342 * unknown state. We act as it hasn't 343 * been found. 344 */ 345 ASSERT(0); 346 mutex_exit(&node->n_mutex); 347 break; 348 } 349 } 350 node = smb_llist_next(node_hdr, node); 351 } 352 if ((lock_mode == RW_READER) && smb_llist_upgrade(node_hdr)) { 353 lock_mode = RW_WRITER; 354 continue; 355 } 356 break; 357 } 358 node = smb_node_alloc(od_name, vp, node_hdr, hashkey); 359 smb_node_init_reparse(node, &attr); 360 361 if (op) 362 node->flags |= smb_is_executable(op->fqi.fq_last_comp); 363 364 if (dnode) { 365 smb_node_ref(dnode); 366 node->n_dnode = dnode; 367 ASSERT(dnode->n_dnode != node); 368 ASSERT((dnode->vp->v_xattrdir) || 369 (dnode->vp->v_type == VDIR)); 370 } 371 372 if (unode) { 373 smb_node_ref(unode); 374 node->n_unode = unode; 375 } 376 377 smb_node_init_system(node); 378 379 DTRACE_PROBE1(smb_node_lookup_miss, smb_node_t *, node); 380 smb_node_audit(node); 381 smb_llist_insert_head(node_hdr, node); 382 smb_llist_exit(node_hdr); 383 return (node); 384 } 385 386 /* 387 * smb_stream_node_lookup() 388 * 389 * Note: stream_name (the name that will be stored in the "od_name" field 390 * of a stream's smb_node) is the same as the on-disk name for the stream 391 * except that it does not have SMB_STREAM_PREFIX prepended. 392 */ 393 394 smb_node_t * 395 smb_stream_node_lookup(smb_request_t *sr, cred_t *cr, smb_node_t *fnode, 396 vnode_t *xattrdirvp, vnode_t *vp, char *stream_name) 397 { 398 smb_node_t *xattrdir_node; 399 smb_node_t *snode; 400 401 xattrdir_node = smb_node_lookup(sr, NULL, cr, xattrdirvp, XATTR_DIR, 402 fnode, NULL); 403 404 if (xattrdir_node == NULL) 405 return (NULL); 406 407 snode = smb_node_lookup(sr, NULL, cr, vp, stream_name, xattrdir_node, 408 fnode); 409 410 (void) smb_node_release(xattrdir_node); 411 return (snode); 412 } 413 414 415 /* 416 * This function should be called whenever a reference is needed on an 417 * smb_node pointer. The copy of an smb_node pointer from one non-local 418 * data structure to another requires a reference to be taken on the smb_node 419 * (unless the usage is localized). Each data structure deallocation routine 420 * will call smb_node_release() on its smb_node pointers. 421 * 422 * In general, an smb_node pointer residing in a structure should never be 423 * stale. A node pointer may be NULL, however, and care should be taken 424 * prior to calling smb_node_ref(), which ASSERTs that the pointer is valid. 425 * Care also needs to be taken with respect to racing deallocations of a 426 * structure. 427 */ 428 void 429 smb_node_ref(smb_node_t *node) 430 { 431 SMB_NODE_VALID(node); 432 433 mutex_enter(&node->n_mutex); 434 switch (node->n_state) { 435 case SMB_NODE_STATE_AVAILABLE: 436 node->n_refcnt++; 437 ASSERT(node->n_refcnt); 438 DTRACE_PROBE1(smb_node_ref_exit, smb_node_t *, node); 439 smb_node_audit(node); 440 break; 441 default: 442 SMB_PANIC(); 443 } 444 mutex_exit(&node->n_mutex); 445 } 446 447 /* 448 * smb_node_lookup() takes a hold on an smb_node, whether found in the 449 * hash table or newly created. This hold is expected to be released 450 * in the following manner. 451 * 452 * smb_node_lookup() takes an address of an smb_node pointer. This should 453 * be getting passed down via a lookup (whether path name or component), mkdir, 454 * create. If the original smb_node pointer resides in a data structure, then 455 * the deallocation routine for the data structure is responsible for calling 456 * smb_node_release() on the smb_node pointer. Alternatively, 457 * smb_node_release() can be called as soon as the smb_node pointer is no longer 458 * needed. In this case, callers are responsible for setting an embedded 459 * pointer to NULL if it is known that the last reference is being released. 460 * 461 * If the passed-in address of the smb_node pointer belongs to a local variable, 462 * then the caller with the local variable should call smb_node_release() 463 * directly. 464 * 465 * smb_node_release() itself will call smb_node_release() on a node's n_dnode, 466 * as smb_node_lookup() takes a hold on dnode. 467 */ 468 void 469 smb_node_release(smb_node_t *node) 470 { 471 SMB_NODE_VALID(node); 472 473 mutex_enter(&node->n_mutex); 474 ASSERT(node->n_refcnt); 475 DTRACE_PROBE1(smb_node_release, smb_node_t *, node); 476 if (--node->n_refcnt == 0) { 477 switch (node->n_state) { 478 479 case SMB_NODE_STATE_AVAILABLE: 480 node->n_state = SMB_NODE_STATE_DESTROYING; 481 mutex_exit(&node->n_mutex); 482 483 smb_llist_enter(node->n_hash_bucket, RW_WRITER); 484 smb_llist_remove(node->n_hash_bucket, node); 485 smb_llist_exit(node->n_hash_bucket); 486 487 /* 488 * Check if the file was deleted 489 */ 490 if (node->flags & NODE_FLAGS_DELETE_ON_CLOSE) { 491 smb_node_delete_on_close(node); 492 } 493 494 if (node->n_dnode) { 495 ASSERT(node->n_dnode->n_magic == 496 SMB_NODE_MAGIC); 497 smb_node_release(node->n_dnode); 498 } 499 500 if (node->n_unode) { 501 ASSERT(node->n_unode->n_magic == 502 SMB_NODE_MAGIC); 503 smb_node_release(node->n_unode); 504 } 505 506 smb_node_free(node); 507 return; 508 509 default: 510 SMB_PANIC(); 511 } 512 } 513 smb_node_audit(node); 514 mutex_exit(&node->n_mutex); 515 } 516 517 void 518 smb_node_delete_on_close(smb_node_t *node) 519 { 520 smb_node_t *d_snode; 521 int rc = 0; 522 uint32_t flags = 0; 523 524 d_snode = node->n_dnode; 525 526 ASSERT((node->flags & NODE_FLAGS_DELETE_ON_CLOSE) != 0); 527 528 node->flags &= ~NODE_FLAGS_DELETE_ON_CLOSE; 529 node->flags |= NODE_FLAGS_DELETE_COMMITTED; 530 flags = node->n_delete_on_close_flags; 531 ASSERT(node->od_name != NULL); 532 533 if (smb_node_is_dir(node)) 534 rc = smb_fsop_rmdir(0, node->delete_on_close_cred, 535 d_snode, node->od_name, flags); 536 else 537 rc = smb_fsop_remove(0, node->delete_on_close_cred, 538 d_snode, node->od_name, flags); 539 crfree(node->delete_on_close_cred); 540 node->delete_on_close_cred = NULL; 541 542 if (rc != 0) 543 cmn_err(CE_WARN, "File %s could not be removed, rc=%d\n", 544 node->od_name, rc); 545 DTRACE_PROBE2(smb_node_delete_on_close, int, rc, smb_node_t *, node); 546 } 547 548 /* 549 * smb_node_rename() 550 * 551 */ 552 void 553 smb_node_rename( 554 smb_node_t *from_dnode, 555 smb_node_t *ret_node, 556 smb_node_t *to_dnode, 557 char *to_name) 558 { 559 SMB_NODE_VALID(from_dnode); 560 SMB_NODE_VALID(to_dnode); 561 SMB_NODE_VALID(ret_node); 562 563 smb_node_ref(to_dnode); 564 mutex_enter(&ret_node->n_mutex); 565 switch (ret_node->n_state) { 566 case SMB_NODE_STATE_AVAILABLE: 567 ret_node->n_dnode = to_dnode; 568 mutex_exit(&ret_node->n_mutex); 569 ASSERT(to_dnode->n_dnode != ret_node); 570 ASSERT((to_dnode->vp->v_xattrdir) || 571 (to_dnode->vp->v_type == VDIR)); 572 smb_node_release(from_dnode); 573 (void) strcpy(ret_node->od_name, to_name); 574 /* 575 * XXX Need to update attributes? 576 */ 577 break; 578 default: 579 SMB_PANIC(); 580 } 581 } 582 583 /* 584 * Find/create an SMB node for the root of this zone and store it 585 * in *svrootp. Also create nodes leading to this directory. 586 */ 587 int 588 smb_node_root_init(smb_server_t *sv, smb_node_t **svrootp) 589 { 590 zone_t *zone = curzone; 591 int error; 592 593 ASSERT(zone->zone_id == sv->sv_zid); 594 if (smb_root_node == NULL) 595 return (ENOENT); 596 597 /* 598 * We're getting smb nodes below the zone root here, 599 * so need to use kcred, not zone_kcred(). 600 */ 601 error = smb_pathname(NULL, zone->zone_rootpath, 0, 602 smb_root_node, smb_root_node, NULL, svrootp, kcred); 603 604 return (error); 605 } 606 607 /* 608 * Helper function for smb_node_set_delete_on_close(). Assumes node is a dir. 609 * Return 0 if this is an empty dir. Otherwise return a NT_STATUS code. 610 * Unfortunately, to find out if a directory is empty, we have to read it 611 * and check for anything other than "." or ".." in the readdir buf. 612 */ 613 static uint32_t 614 smb_rmdir_possible(smb_node_t *n) 615 { 616 ASSERT(n->vp->v_type == VDIR); 617 char *buf; 618 char *bufptr; 619 struct dirent64 *dp; 620 uint32_t status = NT_STATUS_SUCCESS; 621 int bsize = SMB_ODIR_BUFSIZE; 622 int eof = 0; 623 624 buf = kmem_alloc(SMB_ODIR_BUFSIZE, KM_SLEEP); 625 626 /* Flags zero: no edirent, no ABE wanted here */ 627 if (smb_vop_readdir(n->vp, 0, buf, &bsize, &eof, 0, zone_kcred())) { 628 status = NT_STATUS_INTERNAL_ERROR; 629 goto out; 630 } 631 632 bufptr = buf; 633 while (bsize > 0) { 634 /* LINTED pointer alignment */ 635 dp = (struct dirent64 *)bufptr; 636 637 bufptr += dp->d_reclen; 638 bsize -= dp->d_reclen; 639 if (bsize < 0) { 640 /* partial record */ 641 status = NT_STATUS_DIRECTORY_NOT_EMPTY; 642 break; 643 } 644 645 if (strcmp(dp->d_name, ".") != 0 && 646 strcmp(dp->d_name, "..") != 0) { 647 status = NT_STATUS_DIRECTORY_NOT_EMPTY; 648 break; 649 } 650 } 651 652 out: 653 kmem_free(buf, SMB_ODIR_BUFSIZE); 654 return (status); 655 } 656 657 /* 658 * When DeleteOnClose is set on an smb_node, the common open code will 659 * reject subsequent open requests for the file. Observation of Windows 660 * 2000 indicates that subsequent opens should be allowed (assuming 661 * there would be no sharing violation) until the file is closed using 662 * the fid on which the DeleteOnClose was requested. 663 * 664 * If there are multiple opens with delete-on-close create options, 665 * whichever the first file handle is closed will trigger the node to be 666 * marked as delete-on-close. The credentials of that ofile will be used 667 * as the delete-on-close credentials of the node. 668 * 669 * Note that "read-only" tests have already happened before this call. 670 */ 671 uint32_t 672 smb_node_set_delete_on_close(smb_node_t *node, cred_t *cr, uint32_t flags) 673 { 674 uint32_t status; 675 676 /* 677 * If the directory is not empty we should fail setting del-on-close 678 * with STATUS_DIRECTORY_NOT_EMPTY. see MS's 679 * "File System Behavior Overview" doc section 4.3.2 680 */ 681 if (smb_node_is_dir(node)) { 682 status = smb_rmdir_possible(node); 683 if (status != 0) { 684 return (status); 685 } 686 } 687 688 mutex_enter(&node->n_mutex); 689 if (node->flags & NODE_FLAGS_DELETE_ON_CLOSE) { 690 /* It was already marked. We're done. */ 691 mutex_exit(&node->n_mutex); 692 return (NT_STATUS_SUCCESS); 693 } 694 695 crhold(cr); 696 node->delete_on_close_cred = cr; 697 node->n_delete_on_close_flags = flags; 698 node->flags |= NODE_FLAGS_DELETE_ON_CLOSE; 699 mutex_exit(&node->n_mutex); 700 701 /* 702 * Tell any change notify calls to close their handles 703 * and get out of the way. FILE_ACTION_DELETE_PENDING 704 * is a special, internal-only action for this purpose. 705 */ 706 smb_node_notify_change(node, FILE_ACTION_DELETE_PENDING, NULL); 707 708 return (NT_STATUS_SUCCESS); 709 } 710 711 void 712 smb_node_reset_delete_on_close(smb_node_t *node) 713 { 714 mutex_enter(&node->n_mutex); 715 if (node->flags & NODE_FLAGS_DELETE_ON_CLOSE) { 716 node->flags &= ~NODE_FLAGS_DELETE_ON_CLOSE; 717 crfree(node->delete_on_close_cred); 718 node->delete_on_close_cred = NULL; 719 node->n_delete_on_close_flags = 0; 720 } 721 mutex_exit(&node->n_mutex); 722 } 723 724 /* 725 * smb_node_open_check 726 * 727 * check file sharing rules for current open request 728 * against all existing opens for a file. 729 * 730 * Returns NT_STATUS_SHARING_VIOLATION if there is any 731 * sharing conflict, otherwise returns NT_STATUS_SUCCESS. 732 */ 733 uint32_t 734 smb_node_open_check(smb_node_t *node, uint32_t desired_access, 735 uint32_t share_access) 736 { 737 smb_ofile_t *of; 738 uint32_t status; 739 740 SMB_NODE_VALID(node); 741 742 smb_llist_enter(&node->n_ofile_list, RW_READER); 743 of = smb_llist_head(&node->n_ofile_list); 744 while (of) { 745 status = smb_ofile_open_check(of, desired_access, share_access); 746 747 switch (status) { 748 case NT_STATUS_INVALID_HANDLE: 749 case NT_STATUS_SUCCESS: 750 of = smb_llist_next(&node->n_ofile_list, of); 751 break; 752 default: 753 ASSERT(status == NT_STATUS_SHARING_VIOLATION); 754 DTRACE_PROBE3(conflict3, 755 smb_ofile_t, of, 756 uint32_t, desired_access, 757 uint32_t, share_access); 758 smb_llist_exit(&node->n_ofile_list); 759 return (status); 760 } 761 } 762 763 smb_llist_exit(&node->n_ofile_list); 764 return (NT_STATUS_SUCCESS); 765 } 766 767 uint32_t 768 smb_node_rename_check(smb_node_t *node) 769 { 770 smb_ofile_t *of; 771 uint32_t status; 772 773 SMB_NODE_VALID(node); 774 775 /* 776 * Intra-CIFS check 777 */ 778 smb_llist_enter(&node->n_ofile_list, RW_READER); 779 of = smb_llist_head(&node->n_ofile_list); 780 while (of) { 781 status = smb_ofile_rename_check(of); 782 783 switch (status) { 784 case NT_STATUS_INVALID_HANDLE: 785 case NT_STATUS_SUCCESS: 786 of = smb_llist_next(&node->n_ofile_list, of); 787 break; 788 default: 789 ASSERT(status == NT_STATUS_SHARING_VIOLATION); 790 DTRACE_PROBE1(conflict1, smb_ofile_t, of); 791 smb_llist_exit(&node->n_ofile_list); 792 return (status); 793 } 794 } 795 smb_llist_exit(&node->n_ofile_list); 796 return (NT_STATUS_SUCCESS); 797 } 798 799 uint32_t 800 smb_node_delete_check(smb_node_t *node) 801 { 802 smb_ofile_t *of; 803 uint32_t status; 804 805 SMB_NODE_VALID(node); 806 807 if (smb_node_is_dir(node)) 808 return (NT_STATUS_SUCCESS); 809 810 if (smb_node_is_reparse(node)) 811 return (NT_STATUS_ACCESS_DENIED); 812 813 /* 814 * intra-CIFS check 815 */ 816 smb_llist_enter(&node->n_ofile_list, RW_READER); 817 of = smb_llist_head(&node->n_ofile_list); 818 while (of) { 819 status = smb_ofile_delete_check(of); 820 821 switch (status) { 822 case NT_STATUS_INVALID_HANDLE: 823 case NT_STATUS_SUCCESS: 824 of = smb_llist_next(&node->n_ofile_list, of); 825 break; 826 default: 827 ASSERT(status == NT_STATUS_SHARING_VIOLATION); 828 DTRACE_PROBE1(conflict1, smb_ofile_t, of); 829 smb_llist_exit(&node->n_ofile_list); 830 return (status); 831 } 832 } 833 smb_llist_exit(&node->n_ofile_list); 834 return (NT_STATUS_SUCCESS); 835 } 836 837 /* 838 * smb_node_share_check 839 * 840 * Returns: TRUE - ofiles have non-zero share access 841 * B_FALSE - ofile with share access NONE. 842 */ 843 boolean_t 844 smb_node_share_check(smb_node_t *node) 845 { 846 smb_ofile_t *of; 847 boolean_t status = B_TRUE; 848 849 SMB_NODE_VALID(node); 850 851 smb_llist_enter(&node->n_ofile_list, RW_READER); 852 of = smb_llist_head(&node->n_ofile_list); 853 if (of) 854 status = smb_ofile_share_check(of); 855 smb_llist_exit(&node->n_ofile_list); 856 857 return (status); 858 } 859 860 /* 861 * SMB Change Notification 862 */ 863 864 void 865 smb_node_fcn_subscribe(smb_node_t *node) 866 { 867 868 mutex_enter(&node->n_mutex); 869 if (node->n_fcn_count == 0) 870 (void) smb_fem_fcn_install(node); 871 node->n_fcn_count++; 872 mutex_exit(&node->n_mutex); 873 } 874 875 void 876 smb_node_fcn_unsubscribe(smb_node_t *node) 877 { 878 879 mutex_enter(&node->n_mutex); 880 node->n_fcn_count--; 881 if (node->n_fcn_count == 0) 882 smb_fem_fcn_uninstall(node); 883 mutex_exit(&node->n_mutex); 884 } 885 886 void 887 smb_node_notify_change(smb_node_t *node, uint_t action, const char *name) 888 { 889 smb_ofile_t *of; 890 891 SMB_NODE_VALID(node); 892 893 smb_llist_enter(&node->n_ofile_list, RW_READER); 894 of = smb_llist_head(&node->n_ofile_list); 895 while (of) { 896 /* 897 * We'd rather deliver events only to ofiles that have 898 * subscribed. There's no explicit synchronization with 899 * where this flag is set, but other actions cause this 900 * value to reach visibility soon enough for events to 901 * start arriving by the time we need them to start. 902 * Once nc_subscribed is set, it stays set for the 903 * life of the ofile. 904 */ 905 if (of->f_notify.nc_subscribed) 906 smb_notify_ofile(of, action, name); 907 of = smb_llist_next(&node->n_ofile_list, of); 908 } 909 smb_llist_exit(&node->n_ofile_list); 910 911 /* 912 * After changes that add or remove a name, 913 * we know the directory attributes changed, 914 * and we can tell the immediate parent. 915 */ 916 switch (action) { 917 case FILE_ACTION_ADDED: 918 case FILE_ACTION_REMOVED: 919 case FILE_ACTION_RENAMED_NEW_NAME: 920 /* 921 * Note: FILE_ACTION_RENAMED_OLD_NAME is intentionally 922 * omitted, because it's always followed by another 923 * event with FILE_ACTION_RENAMED_NEW_NAME posted to 924 * the same directory, and we only need/want one. 925 */ 926 if (node->n_dnode != NULL) { 927 smb_node_notify_change(node->n_dnode, 928 FILE_ACTION_MODIFIED, node->od_name); 929 } 930 break; 931 } 932 933 /* 934 * If we wanted to support recursive notify events 935 * (where a notify call on some directory receives 936 * events from all objects below that directory), 937 * we might deliver _SUBDIR_CHANGED to all our 938 * parents, grandparents etc, here. However, we 939 * don't currently subscribe to changes on all the 940 * child (and grandchild) objects that would be 941 * needed to make that work. It's prohibitively 942 * expensive to do that, and support for recursive 943 * notify is optional anyway, so don't bother. 944 */ 945 } 946 947 /* 948 * smb_node_start_crit() 949 * 950 * Enter critical region for share reservations. 951 * See comments above smb_fsop_shrlock(). 952 */ 953 void 954 smb_node_start_crit(smb_node_t *node, krw_t mode) 955 { 956 rw_enter(&node->n_lock, mode); 957 nbl_start_crit(node->vp, mode); 958 } 959 960 /* 961 * smb_node_end_crit() 962 * 963 * Exit critical region for share reservations. 964 */ 965 void 966 smb_node_end_crit(smb_node_t *node) 967 { 968 nbl_end_crit(node->vp); 969 rw_exit(&node->n_lock); 970 } 971 972 int 973 smb_node_in_crit(smb_node_t *node) 974 { 975 return (nbl_in_crit(node->vp) && RW_LOCK_HELD(&node->n_lock)); 976 } 977 978 void 979 smb_node_rdlock(smb_node_t *node) 980 { 981 rw_enter(&node->n_lock, RW_READER); 982 } 983 984 void 985 smb_node_wrlock(smb_node_t *node) 986 { 987 rw_enter(&node->n_lock, RW_WRITER); 988 } 989 990 void 991 smb_node_unlock(smb_node_t *node) 992 { 993 rw_exit(&node->n_lock); 994 } 995 996 void 997 smb_node_add_ofile(smb_node_t *node, smb_ofile_t *of) 998 { 999 SMB_NODE_VALID(node); 1000 1001 smb_llist_enter(&node->n_ofile_list, RW_WRITER); 1002 smb_llist_insert_tail(&node->n_ofile_list, of); 1003 smb_llist_exit(&node->n_ofile_list); 1004 } 1005 1006 void 1007 smb_node_rem_ofile(smb_node_t *node, smb_ofile_t *of) 1008 { 1009 SMB_NODE_VALID(node); 1010 1011 smb_llist_enter(&node->n_ofile_list, RW_WRITER); 1012 smb_llist_remove(&node->n_ofile_list, of); 1013 smb_llist_exit(&node->n_ofile_list); 1014 } 1015 1016 /* 1017 * smb_node_inc_open_ofiles 1018 */ 1019 void 1020 smb_node_inc_open_ofiles(smb_node_t *node) 1021 { 1022 SMB_NODE_VALID(node); 1023 atomic_inc_32(&node->n_open_count); 1024 } 1025 1026 /* 1027 * smb_node_dec_open_ofiles 1028 * returns new value 1029 */ 1030 uint32_t 1031 smb_node_dec_open_ofiles(smb_node_t *node) 1032 { 1033 SMB_NODE_VALID(node); 1034 return (atomic_dec_32_nv(&node->n_open_count)); 1035 } 1036 1037 /* 1038 * smb_node_inc_opening_count 1039 */ 1040 void 1041 smb_node_inc_opening_count(smb_node_t *node) 1042 { 1043 SMB_NODE_VALID(node); 1044 atomic_inc_32(&node->n_opening_count); 1045 } 1046 1047 /* 1048 * smb_node_dec_opening_count 1049 */ 1050 void 1051 smb_node_dec_opening_count(smb_node_t *node) 1052 { 1053 SMB_NODE_VALID(node); 1054 atomic_dec_32(&node->n_opening_count); 1055 } 1056 1057 /* 1058 * smb_node_getmntpath 1059 */ 1060 int 1061 smb_node_getmntpath(smb_node_t *node, char *buf, uint32_t buflen) 1062 { 1063 vnode_t *vp, *root_vp; 1064 vfs_t *vfsp; 1065 int err; 1066 1067 ASSERT(node); 1068 ASSERT(node->vp); 1069 ASSERT(node->vp->v_vfsp); 1070 1071 vp = node->vp; 1072 vfsp = vp->v_vfsp; 1073 1074 if (VFS_ROOT(vfsp, &root_vp)) 1075 return (ENOENT); 1076 1077 VN_HOLD(vp); 1078 1079 /* NULL is passed in as we want to start at "/" */ 1080 err = vnodetopath(NULL, root_vp, buf, buflen, zone_kcred()); 1081 1082 VN_RELE(vp); 1083 VN_RELE(root_vp); 1084 return (err); 1085 } 1086 1087 /* 1088 * smb_node_getshrpath 1089 * 1090 * Determine the absolute pathname of 'node' within the share (tree). 1091 * For example if the node represents file "test1.txt" in directory 1092 * "dir1" the pathname would be: \dir1\test1.txt 1093 */ 1094 int 1095 smb_node_getshrpath(smb_node_t *node, smb_tree_t *tree, 1096 char *buf, uint32_t buflen) 1097 { 1098 int rc; 1099 1100 ASSERT(node); 1101 ASSERT(tree); 1102 ASSERT(tree->t_snode); 1103 1104 rc = smb_node_getpath(node, tree->t_snode->vp, buf, buflen); 1105 (void) strsubst(buf, '/', '\\'); 1106 return (rc); 1107 } 1108 1109 /* 1110 * smb_node_getpath 1111 * 1112 * Determine the absolute pathname of 'node' from 'rootvp'. 1113 * 1114 * Using vnodetopath is only reliable for directory nodes (due to 1115 * its reliance on the DNLC for non-directory nodes). Thus, if node 1116 * represents a file, construct the pathname for the parent dnode 1117 * and append filename. 1118 * If node represents a named stream, construct the pathname for the 1119 * associated unnamed stream and append the stream name. 1120 * 1121 * The pathname returned in buf will be '/' separated. 1122 */ 1123 int 1124 smb_node_getpath(smb_node_t *node, vnode_t *rootvp, char *buf, uint32_t buflen) 1125 { 1126 int rc; 1127 vnode_t *vp; 1128 smb_node_t *unode, *dnode; 1129 cred_t *kcr = zone_kcred(); 1130 1131 unode = (SMB_IS_STREAM(node)) ? node->n_unode : node; 1132 dnode = (smb_node_is_dir(unode)) ? unode : unode->n_dnode; 1133 1134 /* find path to directory node */ 1135 vp = dnode->vp; 1136 VN_HOLD(vp); 1137 if (rootvp) { 1138 VN_HOLD(rootvp); 1139 rc = vnodetopath(rootvp, vp, buf, buflen, kcr); 1140 VN_RELE(rootvp); 1141 } else { 1142 rc = vnodetopath(NULL, vp, buf, buflen, kcr); 1143 } 1144 VN_RELE(vp); 1145 1146 if (rc != 0) 1147 return (rc); 1148 1149 /* append filename if necessary */ 1150 if (!smb_node_is_dir(unode)) { 1151 if (buf[strlen(buf) - 1] != '/') 1152 (void) strlcat(buf, "/", buflen); 1153 (void) strlcat(buf, unode->od_name, buflen); 1154 } 1155 1156 /* append named stream name if necessary */ 1157 if (SMB_IS_STREAM(node)) 1158 (void) strlcat(buf, node->od_name, buflen); 1159 1160 return (rc); 1161 } 1162 1163 /* 1164 * smb_node_alloc 1165 */ 1166 static smb_node_t * 1167 smb_node_alloc( 1168 char *od_name, 1169 vnode_t *vp, 1170 smb_llist_t *bucket, 1171 uint32_t hashkey) 1172 { 1173 smb_node_t *node; 1174 vnode_t *root_vp; 1175 1176 node = kmem_cache_alloc(smb_node_cache, KM_SLEEP); 1177 1178 if (node->n_audit_buf != NULL) 1179 node->n_audit_buf->anb_index = 0; 1180 1181 node->flags = 0; 1182 VN_HOLD(vp); 1183 node->vp = vp; 1184 node->n_refcnt = 1; 1185 node->n_hash_bucket = bucket; 1186 node->n_hashkey = hashkey; 1187 node->n_open_count = 0; 1188 node->n_allocsz = 0; 1189 node->n_dnode = NULL; 1190 node->n_unode = NULL; 1191 node->delete_on_close_cred = NULL; 1192 node->n_delete_on_close_flags = 0; 1193 node->n_oplock.ol_fem = B_FALSE; 1194 1195 (void) strlcpy(node->od_name, od_name, sizeof (node->od_name)); 1196 if (strcmp(od_name, XATTR_DIR) == 0) 1197 node->flags |= NODE_XATTR_DIR; 1198 1199 if (VFS_ROOT(vp->v_vfsp, &root_vp) == 0) { 1200 if (vp == root_vp) 1201 node->flags |= NODE_FLAGS_VFSROOT; 1202 VN_RELE(root_vp); 1203 } 1204 1205 node->n_state = SMB_NODE_STATE_AVAILABLE; 1206 node->n_magic = SMB_NODE_MAGIC; 1207 1208 return (node); 1209 } 1210 1211 /* 1212 * smb_node_free 1213 */ 1214 static void 1215 smb_node_free(smb_node_t *node) 1216 { 1217 SMB_NODE_VALID(node); 1218 1219 node->n_magic = 0; 1220 VERIFY(!list_link_active(&node->n_lnd)); 1221 VERIFY(node->n_lock_list.ll_count == 0); 1222 VERIFY(node->n_wlock_list.ll_count == 0); 1223 VERIFY(node->n_ofile_list.ll_count == 0); 1224 VERIFY(node->n_oplock.ol_fem == B_FALSE); 1225 VERIFY(MUTEX_NOT_HELD(&node->n_mutex)); 1226 VERIFY(!RW_LOCK_HELD(&node->n_lock)); 1227 VN_RELE(node->vp); 1228 kmem_cache_free(smb_node_cache, node); 1229 } 1230 1231 /* 1232 * smb_node_constructor 1233 */ 1234 static int 1235 smb_node_constructor(void *buf, void *un, int kmflags) 1236 { 1237 _NOTE(ARGUNUSED(kmflags, un)) 1238 1239 smb_node_t *node = (smb_node_t *)buf; 1240 1241 bzero(node, sizeof (smb_node_t)); 1242 1243 smb_llist_constructor(&node->n_ofile_list, sizeof (smb_ofile_t), 1244 offsetof(smb_ofile_t, f_node_lnd)); 1245 smb_llist_constructor(&node->n_lock_list, sizeof (smb_lock_t), 1246 offsetof(smb_lock_t, l_lnd)); 1247 smb_llist_constructor(&node->n_wlock_list, sizeof (smb_lock_t), 1248 offsetof(smb_lock_t, l_lnd)); 1249 mutex_init(&node->n_oplock.ol_mutex, NULL, MUTEX_DEFAULT, NULL); 1250 cv_init(&node->n_oplock.WaitingOpenCV, NULL, CV_DEFAULT, NULL); 1251 rw_init(&node->n_lock, NULL, RW_DEFAULT, NULL); 1252 mutex_init(&node->n_mutex, NULL, MUTEX_DEFAULT, NULL); 1253 smb_node_create_audit_buf(node, kmflags); 1254 return (0); 1255 } 1256 1257 /* 1258 * smb_node_destructor 1259 */ 1260 static void 1261 smb_node_destructor(void *buf, void *un) 1262 { 1263 _NOTE(ARGUNUSED(un)) 1264 1265 smb_node_t *node = (smb_node_t *)buf; 1266 1267 smb_node_destroy_audit_buf(node); 1268 mutex_destroy(&node->n_mutex); 1269 rw_destroy(&node->n_lock); 1270 cv_destroy(&node->n_oplock.WaitingOpenCV); 1271 mutex_destroy(&node->n_oplock.ol_mutex); 1272 smb_llist_destructor(&node->n_lock_list); 1273 smb_llist_destructor(&node->n_wlock_list); 1274 smb_llist_destructor(&node->n_ofile_list); 1275 } 1276 1277 /* 1278 * smb_node_create_audit_buf 1279 */ 1280 static void 1281 smb_node_create_audit_buf(smb_node_t *node, int kmflags) 1282 { 1283 smb_audit_buf_node_t *abn; 1284 1285 if (smb_audit_flags & SMB_AUDIT_NODE) { 1286 abn = kmem_zalloc(sizeof (smb_audit_buf_node_t), kmflags); 1287 abn->anb_max_index = SMB_AUDIT_BUF_MAX_REC - 1; 1288 node->n_audit_buf = abn; 1289 } 1290 } 1291 1292 /* 1293 * smb_node_destroy_audit_buf 1294 */ 1295 static void 1296 smb_node_destroy_audit_buf(smb_node_t *node) 1297 { 1298 if (node->n_audit_buf != NULL) { 1299 kmem_free(node->n_audit_buf, sizeof (smb_audit_buf_node_t)); 1300 node->n_audit_buf = NULL; 1301 } 1302 } 1303 1304 /* 1305 * smb_node_audit 1306 * 1307 * This function saves the calling stack in the audit buffer of the node passed 1308 * in. 1309 */ 1310 static void 1311 smb_node_audit(smb_node_t *node) 1312 { 1313 #ifdef _KERNEL 1314 smb_audit_buf_node_t *abn; 1315 smb_audit_record_node_t *anr; 1316 1317 if (node->n_audit_buf) { 1318 abn = node->n_audit_buf; 1319 anr = abn->anb_records; 1320 anr += abn->anb_index; 1321 abn->anb_index++; 1322 abn->anb_index &= abn->anb_max_index; 1323 anr->anr_refcnt = node->n_refcnt; 1324 anr->anr_depth = getpcstack(anr->anr_stack, 1325 SMB_AUDIT_STACK_DEPTH); 1326 } 1327 #else /* _KERNEL */ 1328 _NOTE(ARGUNUSED(node)) 1329 #endif /* _KERNEL */ 1330 } 1331 1332 static smb_llist_t * 1333 smb_node_get_hash(fsid_t *fsid, smb_attr_t *attr, uint32_t *phashkey) 1334 { 1335 uint32_t hashkey; 1336 1337 hashkey = fsid->val[0] + attr->sa_vattr.va_nodeid; 1338 hashkey += (hashkey >> 24) + (hashkey >> 16) + (hashkey >> 8); 1339 *phashkey = hashkey; 1340 return (&smb_node_hash_table[(hashkey & SMBND_HASH_MASK)]); 1341 } 1342 1343 boolean_t 1344 smb_node_is_file(smb_node_t *node) 1345 { 1346 SMB_NODE_VALID(node); 1347 return (node->vp->v_type == VREG); 1348 } 1349 1350 boolean_t 1351 smb_node_is_dir(smb_node_t *node) 1352 { 1353 SMB_NODE_VALID(node); 1354 return ((node->vp->v_type == VDIR) || 1355 (node->flags & NODE_FLAGS_DFSLINK)); 1356 } 1357 1358 boolean_t 1359 smb_node_is_symlink(smb_node_t *node) 1360 { 1361 SMB_NODE_VALID(node); 1362 return ((node->vp->v_type == VLNK) && 1363 ((node->flags & NODE_FLAGS_REPARSE) == 0)); 1364 } 1365 1366 boolean_t 1367 smb_node_is_dfslink(smb_node_t *node) 1368 { 1369 SMB_NODE_VALID(node); 1370 return ((node->vp->v_type == VLNK) && 1371 (node->flags & NODE_FLAGS_DFSLINK)); 1372 } 1373 1374 boolean_t 1375 smb_node_is_reparse(smb_node_t *node) 1376 { 1377 SMB_NODE_VALID(node); 1378 return ((node->vp->v_type == VLNK) && 1379 (node->flags & NODE_FLAGS_REPARSE)); 1380 } 1381 1382 boolean_t 1383 smb_node_is_vfsroot(smb_node_t *node) 1384 { 1385 SMB_NODE_VALID(node); 1386 return ((node->flags & NODE_FLAGS_VFSROOT) == NODE_FLAGS_VFSROOT); 1387 } 1388 1389 boolean_t 1390 smb_node_is_system(smb_node_t *node) 1391 { 1392 SMB_NODE_VALID(node); 1393 return ((node->flags & NODE_FLAGS_SYSTEM) == NODE_FLAGS_SYSTEM); 1394 } 1395 1396 /* 1397 * smb_node_file_is_readonly 1398 * 1399 * Checks if the file (which node represents) is marked readonly 1400 * in the filesystem. Note that there may be handles open with 1401 * modify rights, and those continue to allow access even after 1402 * the DOS read-only flag has been set in the file system. 1403 */ 1404 boolean_t 1405 smb_node_file_is_readonly(smb_node_t *node) 1406 { 1407 smb_attr_t attr; 1408 1409 if (node == NULL) 1410 return (B_FALSE); /* pipes */ 1411 1412 bzero(&attr, sizeof (smb_attr_t)); 1413 attr.sa_mask = SMB_AT_DOSATTR; 1414 (void) smb_fsop_getattr(NULL, zone_kcred(), node, &attr); 1415 return ((attr.sa_dosattr & FILE_ATTRIBUTE_READONLY) != 0); 1416 } 1417 1418 /* 1419 * smb_node_setattr 1420 * 1421 * The sr may be NULL, for example when closing an ofile. 1422 * The ofile may be NULL, for example when a client request 1423 * specifies the file by pathname. 1424 * 1425 * Returns: errno 1426 * 1427 * Timestamps 1428 * 1429 * Windows and Unix have different models for timestamp updates. 1430 * [MS-FSA 2.1.5.14 Server Requests Setting of File Information] 1431 * 1432 * An open "handle" in Windows can control whether and when 1433 * any timestamp updates happen for that handle. For example, 1434 * timestamps set via some handle are no longer updated by I/O 1435 * operations on that handle. In Unix we don't really have any 1436 * way to avoid the timestamp updates that the file system does. 1437 * Therefore, we need to make some compromises, and simulate the 1438 * more important parts of the Windows file system semantics. 1439 * 1440 * For example, when an SMB client sets file times, set those 1441 * times in the file system (so the change will be visible to 1442 * other clients, at least until they change again) but we also 1443 * make those times "sticky" in our open handle, and reapply 1444 * those times when the handle is closed. That reapply on close 1445 * simulates the Windows behavior where the timestamp updates 1446 * would be discontinued after they were set. These "sticky" 1447 * attributes are returned in any query on the handle where 1448 * they are stored. 1449 * 1450 * Other than the above, the file system layer takes care of the 1451 * normal time stamp updates, such as updating the mtime after a 1452 * write, and ctime after an attribute change. 1453 * 1454 * Dos Attributes are stored persistently, but with a twist: 1455 * In Windows, when you set the "read-only" bit on some file, 1456 * existing writable handles to that file continue to have 1457 * write access. (because access check happens at open) 1458 * If we were to set the read-only bit directly, we would 1459 * cause errors in subsequent writes on any of our open 1460 * (and writable) file handles. So here too, we have to 1461 * simulate the Windows behavior. We keep the read-only 1462 * bit "pending" in the smb_node (so it will be visible in 1463 * any new opens of the file) and apply it on close. 1464 * 1465 * File allocation size is also simulated, and not persistent. 1466 * When the file allocation size is set it is first rounded up 1467 * to block size. If the file size is smaller than the allocation 1468 * size the file is truncated by setting the filesize to allocsz. 1469 */ 1470 int 1471 smb_node_setattr(smb_request_t *sr, smb_node_t *node, 1472 cred_t *cr, smb_ofile_t *of, smb_attr_t *attr) 1473 { 1474 int rc; 1475 uint_t times_mask; 1476 smb_attr_t tmp_attr; 1477 1478 SMB_NODE_VALID(node); 1479 1480 /* set attributes specified in attr */ 1481 if (attr->sa_mask == 0) 1482 return (0); /* nothing to do (caller bug?) */ 1483 1484 /* 1485 * Allocation size and EOF position interact. 1486 * We don't persistently store the allocation size 1487 * but make it look like we do while there are opens. 1488 * Note: We update the caller's attr in the cases 1489 * where they're setting only one of allocsz|size. 1490 */ 1491 switch (attr->sa_mask & (SMB_AT_ALLOCSZ | SMB_AT_SIZE)) { 1492 1493 case SMB_AT_ALLOCSZ: 1494 /* 1495 * Setting the allocation size but not EOF position. 1496 * Get the current EOF in tmp_attr and (if necessary) 1497 * truncate to the (rounded up) allocation size. 1498 * Using kcred here because if we don't have access, 1499 * we want to fail at setattr below and not here. 1500 */ 1501 bzero(&tmp_attr, sizeof (smb_attr_t)); 1502 tmp_attr.sa_mask = SMB_AT_SIZE; 1503 rc = smb_fsop_getattr(NULL, zone_kcred(), node, &tmp_attr); 1504 if (rc != 0) 1505 return (rc); 1506 attr->sa_allocsz = SMB_ALLOCSZ(attr->sa_allocsz); 1507 if (tmp_attr.sa_vattr.va_size > attr->sa_allocsz) { 1508 /* truncate the file to allocsz */ 1509 attr->sa_vattr.va_size = attr->sa_allocsz; 1510 attr->sa_mask |= SMB_AT_SIZE; 1511 } 1512 break; 1513 1514 case SMB_AT_SIZE: 1515 /* 1516 * Setting the EOF position but not allocation size. 1517 * If the new EOF position would be greater than 1518 * the allocation size, increase the latter. 1519 */ 1520 if (node->n_allocsz < attr->sa_vattr.va_size) { 1521 attr->sa_mask |= SMB_AT_ALLOCSZ; 1522 attr->sa_allocsz = 1523 SMB_ALLOCSZ(attr->sa_vattr.va_size); 1524 } 1525 break; 1526 1527 case SMB_AT_ALLOCSZ | SMB_AT_SIZE: 1528 /* 1529 * Setting both. Increase alloc size if needed. 1530 */ 1531 if (attr->sa_allocsz < attr->sa_vattr.va_size) 1532 attr->sa_allocsz = 1533 SMB_ALLOCSZ(attr->sa_vattr.va_size); 1534 break; 1535 1536 default: 1537 break; 1538 } 1539 1540 /* 1541 * If we have an open file, and we set the size, 1542 * then set the "written" flag so that at close, 1543 * we can force an mtime update. 1544 */ 1545 if (of != NULL && (attr->sa_mask & SMB_AT_SIZE) != 0) 1546 of->f_written = B_TRUE; 1547 1548 /* 1549 * When operating on an open file, some settable attributes 1550 * become "sticky" in the open file object until close. 1551 * (see above re. timestamps) 1552 */ 1553 times_mask = attr->sa_mask & SMB_AT_TIMES; 1554 if (of != NULL && times_mask != 0) { 1555 smb_attr_t *pa; 1556 1557 SMB_OFILE_VALID(of); 1558 mutex_enter(&of->f_mutex); 1559 pa = &of->f_pending_attr; 1560 1561 pa->sa_mask |= times_mask; 1562 1563 if (times_mask & SMB_AT_ATIME) 1564 pa->sa_vattr.va_atime = 1565 attr->sa_vattr.va_atime; 1566 if (times_mask & SMB_AT_MTIME) 1567 pa->sa_vattr.va_mtime = 1568 attr->sa_vattr.va_mtime; 1569 if (times_mask & SMB_AT_CTIME) 1570 pa->sa_vattr.va_ctime = 1571 attr->sa_vattr.va_ctime; 1572 if (times_mask & SMB_AT_CRTIME) 1573 pa->sa_crtime = 1574 attr->sa_crtime; 1575 1576 mutex_exit(&of->f_mutex); 1577 /* 1578 * The f_pending_attr times are reapplied in 1579 * smb_ofile_close(). 1580 */ 1581 } 1582 1583 if ((attr->sa_mask & SMB_AT_ALLOCSZ) != 0) { 1584 mutex_enter(&node->n_mutex); 1585 /* 1586 * Simulate n_allocsz persistence only while 1587 * there are opens. See smb_node_getattr 1588 */ 1589 if (node->n_open_count != 0) 1590 node->n_allocsz = attr->sa_allocsz; 1591 mutex_exit(&node->n_mutex); 1592 } 1593 1594 rc = smb_fsop_setattr(sr, cr, node, attr); 1595 if (rc != 0) 1596 return (rc); 1597 1598 if (node->n_dnode != NULL) { 1599 smb_node_notify_change(node->n_dnode, 1600 FILE_ACTION_MODIFIED, node->od_name); 1601 } 1602 1603 return (0); 1604 } 1605 1606 /* 1607 * smb_node_getattr 1608 * 1609 * Get attributes from the file system and apply any smb-specific 1610 * overrides for size, dos attributes and timestamps 1611 * 1612 * When node->n_pending_readonly is set on a node, pretend that 1613 * we've already set this node readonly at the filesystem level. 1614 * We can't actually do that until all writable handles are closed 1615 * or those writable handles would suddenly loose their access. 1616 * 1617 * Returns: errno 1618 */ 1619 int 1620 smb_node_getattr(smb_request_t *sr, smb_node_t *node, cred_t *cr, 1621 smb_ofile_t *of, smb_attr_t *attr) 1622 { 1623 int rc; 1624 uint_t want_mask, pend_mask; 1625 boolean_t isdir; 1626 1627 SMB_NODE_VALID(node); 1628 1629 /* Deal with some interdependencies */ 1630 if (attr->sa_mask & SMB_AT_ALLOCSZ) 1631 attr->sa_mask |= SMB_AT_SIZE; 1632 if (attr->sa_mask & SMB_AT_DOSATTR) 1633 attr->sa_mask |= SMB_AT_TYPE; 1634 1635 rc = smb_fsop_getattr(sr, cr, node, attr); 1636 if (rc != 0) 1637 return (rc); 1638 1639 isdir = smb_node_is_dir(node); 1640 1641 mutex_enter(&node->n_mutex); 1642 1643 if (attr->sa_mask & SMB_AT_DOSATTR) { 1644 if (attr->sa_dosattr == 0) { 1645 attr->sa_dosattr = (isdir) ? 1646 FILE_ATTRIBUTE_DIRECTORY: 1647 FILE_ATTRIBUTE_NORMAL; 1648 } 1649 } 1650 1651 /* 1652 * Also fix-up sa_allocsz, which is not persistent. 1653 * When there are no open files, allocsz is faked. 1654 * While there are open files, we pretend we have a 1655 * persistent allocation size in n_allocsz, and 1656 * keep that up-to-date here, increasing it when 1657 * we see the file size grow past it. 1658 */ 1659 if (attr->sa_mask & SMB_AT_ALLOCSZ) { 1660 if (isdir) { 1661 attr->sa_allocsz = 0; 1662 } else if (node->n_open_count == 0) { 1663 attr->sa_allocsz = 1664 SMB_ALLOCSZ(attr->sa_vattr.va_size); 1665 } else { 1666 if (node->n_allocsz < attr->sa_vattr.va_size) 1667 node->n_allocsz = 1668 SMB_ALLOCSZ(attr->sa_vattr.va_size); 1669 attr->sa_allocsz = node->n_allocsz; 1670 } 1671 } 1672 1673 mutex_exit(&node->n_mutex); 1674 1675 if (isdir) { 1676 attr->sa_vattr.va_size = 0; 1677 attr->sa_vattr.va_nlink = 1; 1678 } 1679 1680 /* 1681 * getattr with an ofile gets any "pending" times that 1682 * might have been previously set via this ofile. 1683 * This is what makes these times "sticky". 1684 */ 1685 want_mask = attr->sa_mask & SMB_AT_TIMES; 1686 if (of != NULL && want_mask != 0) { 1687 smb_attr_t *pa; 1688 1689 SMB_OFILE_VALID(of); 1690 mutex_enter(&of->f_mutex); 1691 pa = &of->f_pending_attr; 1692 1693 pend_mask = pa->sa_mask; 1694 1695 if (want_mask & pend_mask & SMB_AT_ATIME) 1696 attr->sa_vattr.va_atime = 1697 pa->sa_vattr.va_atime; 1698 if (want_mask & pend_mask & SMB_AT_MTIME) 1699 attr->sa_vattr.va_mtime = 1700 pa->sa_vattr.va_mtime; 1701 if (want_mask & pend_mask & SMB_AT_CTIME) 1702 attr->sa_vattr.va_ctime = 1703 pa->sa_vattr.va_ctime; 1704 if (want_mask & pend_mask & SMB_AT_CRTIME) 1705 attr->sa_crtime = 1706 pa->sa_crtime; 1707 1708 mutex_exit(&of->f_mutex); 1709 } 1710 1711 1712 return (0); 1713 } 1714 1715 1716 #ifndef _KERNEL 1717 extern int reparse_vnode_parse(vnode_t *vp, nvlist_t *nvl); 1718 #endif /* _KERNEL */ 1719 1720 /* 1721 * Check to see if the node represents a reparse point. 1722 * If yes, whether the reparse point contains a DFS link. 1723 */ 1724 static void 1725 smb_node_init_reparse(smb_node_t *node, smb_attr_t *attr) 1726 { 1727 nvlist_t *nvl; 1728 nvpair_t *rec; 1729 char *rec_type; 1730 1731 if ((attr->sa_dosattr & FILE_ATTRIBUTE_REPARSE_POINT) == 0) 1732 return; 1733 1734 if ((nvl = reparse_init()) == NULL) 1735 return; 1736 1737 if (reparse_vnode_parse(node->vp, nvl) != 0) { 1738 reparse_free(nvl); 1739 return; 1740 } 1741 1742 node->flags |= NODE_FLAGS_REPARSE; 1743 1744 rec = nvlist_next_nvpair(nvl, NULL); 1745 while (rec != NULL) { 1746 rec_type = nvpair_name(rec); 1747 if ((rec_type != NULL) && 1748 (strcasecmp(rec_type, DFS_REPARSE_SVCTYPE) == 0)) { 1749 node->flags |= NODE_FLAGS_DFSLINK; 1750 break; 1751 } 1752 rec = nvlist_next_nvpair(nvl, rec); 1753 } 1754 1755 reparse_free(nvl); 1756 } 1757 1758 /* 1759 * smb_node_init_system 1760 * 1761 * If the node represents a special system file set NODE_FLAG_SYSTEM. 1762 * System files: 1763 * - any node whose parent dnode has NODE_FLAG_SYSTEM set 1764 * - any node whose associated unnamed stream node (unode) has 1765 * NODE_FLAG_SYSTEM set 1766 * - .$EXTEND at root of share (quota management) 1767 */ 1768 static void 1769 smb_node_init_system(smb_node_t *node) 1770 { 1771 smb_node_t *dnode = node->n_dnode; 1772 smb_node_t *unode = node->n_unode; 1773 1774 if ((dnode) && (dnode->flags & NODE_FLAGS_SYSTEM)) { 1775 node->flags |= NODE_FLAGS_SYSTEM; 1776 return; 1777 } 1778 1779 if ((unode) && (unode->flags & NODE_FLAGS_SYSTEM)) { 1780 node->flags |= NODE_FLAGS_SYSTEM; 1781 return; 1782 } 1783 1784 if ((dnode) && (smb_node_is_vfsroot(node->n_dnode) && 1785 (strcasecmp(node->od_name, ".$EXTEND") == 0))) { 1786 node->flags |= NODE_FLAGS_SYSTEM; 1787 } 1788 } 1789