/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2016 Syneto S.R.L. All rights reserved. * Copyright (c) 2016 by Delphix. All rights reserved. * Copyright 2020 Tintri by DDN, Inc. All rights reserved. */ /* * General Structures Layout * ------------------------- * * This is a simplified diagram showing the relationship between most of the * main structures. * * +-------------------+ * | SMB_INFO | * +-------------------+ * | * | * v * +-------------------+ +-------------------+ +-------------------+ * | SESSION |<----->| SESSION |......| SESSION | * +-------------------+ +-------------------+ +-------------------+ * | | * | | * | v * | +-------------------+ +-------------------+ +-------------------+ * | | USER |<--->| USER |...| USER | * | +-------------------+ +-------------------+ +-------------------+ * | * | * v * +-------------------+ +-------------------+ +-------------------+ * | TREE |<----->| TREE |......| TREE | * +-------------------+ +-------------------+ +-------------------+ * | | * | | * | v * | +-------+ +-------+ +-------+ * | | OFILE |<----->| OFILE |......| OFILE | * | +-------+ +-------+ +-------+ * | * | * v * +-------+ +------+ +------+ * | ODIR |<----->| ODIR |......| ODIR | * +-------+ +------+ +------+ * * * Ofile State Machine * ------------------ * * +-------------------------+ T0 * | SMB_OFILE_STATE_OPEN |<--+-------- Creation/Allocation * +-------------------------+ | * | | | T5 * | | +---------------------------+ * | | | SMB_OFILE_STATE_RECONNECT | * | | +---------------------------+ * | | ^ * | v | * | +---------------+ | * | | STATE_SAVE_DH | | * | | STATE_SAVING | | * | +---------------+ | * | | | T4 * | T1 | T3 +--------------------------+ * | +------>| SMB_OFILE_STATE_ORPHANED | * v +--------------------------+ * +-------------------------+ | | * | SMB_OFILE_STATE_CLOSING |<--+ T6 | T7 * +-------------------------+ | * | ^ v * | T2 | T8 +-------------------------+ * | +-------| SMB_OFILE_STATE_EXPIRED | * v +-------------------------+ * +-------------------------+ * | SMB_OFILE_STATE_CLOSED |----------> Deletion/Free * +-------------------------+ T9 * * SMB_OFILE_STATE_OPEN * * While in this state: * - The ofile is queued in the list of ofiles of its tree. * - References will be given out if the ofile is looked up. * * SMB_OFILE_STATE_SAVE_DH * * Similar to state _CLOSING, but instead of deleting the ofile, * it leaves the ofile in state _ORPHANED (for later reclaim). * Will move to _SAVING after last ref, then _ORPHANED. * * While in this state: * - The ofile has been marked for preservation during a * walk of the tree ofile list to close multiple files. * - References will not be given out if the ofile is looked up, * except for oplock break processing. * - Still affects Sharing Violation rules * * SMB_OFILE_STATE_SAVING * * Transient state used to keep oplock break processing out * while the ofile moves to state _ORPHANED. * * While in this state: * - References will not be given out if the ofile is looked up, * except for oplock break processing. * - Still affects Sharing Violation rules * * SMB_OFILE_STATE_CLOSING * * Close has been requested. Stay in this state until the last * ref. is gone, then move to state _CLOSED * * While in this state: * - The ofile is queued in the list of ofiles of its tree. * - References will not be given out if the ofile is looked up. * - The file is closed and the locks held are being released. * - The resources associated with the ofile remain. * * SMB_OFILE_STATE_CLOSED * * While in this state: * - The ofile is queued in the list of ofiles of its tree. * - References will not be given out if the ofile is looked up. * - The resources associated with the ofile remain. * * SMB_OFILE_STATE_ORPHANED * * While in this state: * - The ofile is queued in the list of ofiles of its tree. * - Can be reclaimed by the original owner * - References will not be given out if the ofile is looked up. * - All the tree, user, and session "up" pointers are NULL! * - Will eventually be "expired" if not reclaimed * - Can be closed if its oplock is broken * - Still affects Sharing Violation rules * * SMB_OFILE_STATE_EXPIRED * * While in this state: * - The ofile is queued in the list of ofiles of its tree. * - References will not be given out if the ofile is looked up. * - The ofile has not been reclaimed and will soon be closed, * due to, for example, the durable handle timer expiring, or its * oplock being broken. * - Cannot be reclaimed at this point * * SMB_OFILE_STATE_RECONNECT * * Transient state used to keep oplock break processing out * while the ofile moves from state _ORPHANED to _OPEN. * * While in this state: * - The ofile is being reclaimed; do not touch it. * - References will not be given out if the ofile is looked up. * - Still affects Sharing Violation rules * - see smb2_dh_reconnect() for which members need to be avoided * * Transition T0 * * This transition occurs in smb_ofile_open(). A new ofile is created and * added to the list of ofiles of a tree. * * Transition T1 * * This transition occurs in smb_ofile_close(). Note that this only happens * when we determine that an ofile should be closed in spite of its durable * handle properties. * * Transition T2 * * This transition occurs in smb_ofile_release(). The resources associated * with the ofile are freed as well as the ofile structure. For the * transition to occur, the ofile must be in the SMB_OFILE_STATE_CLOSED * state and the reference count be zero. * * Transition T3 * * This transition occurs in smb_ofile_orphan_dh(). It happens during an * smb2 logoff, or during a session disconnect when certain conditions are * met. The ofile and structures above it will be kept around until the ofile * either gets reclaimed, expires after f_timeout_offset nanoseconds, or its * oplock is broken. * * Transition T4 * * This transition occurs in smb2_dh_reconnect(). An smb2 create request * with a DURABLE_HANDLE_RECONNECT(_V2) create context has been * recieved from the original owner. If leases are supported or it's * RECONNECT_V2, reconnect is subject to additional conditions. The ofile * will be unwired from the old, disconnected session, tree, and user, * and wired up to its new context. * * Transition T5 * * This transition occurs in smb2_dh_reconnect(). The ofile has been * successfully reclaimed. * * Transition T6 * * This transition occurs in smb_ofile_close(). The ofile has been orphaned * while some thread was blocked, and that thread closes the ofile. Can only * happen when the ofile is orphaned due to an SMB2 LOGOFF request. * * Transition T7 * * This transition occurs in smb_session_durable_timers() and * smb_oplock_send_brk(). The ofile will soon be closed. * In the former case, f_timeout_offset nanoseconds have passed since * the ofile was orphaned. In the latter, an oplock break occured * on the ofile while it was orphaned. * * Transition T8 * * This transition occurs in smb_ofile_close(). * * Transition T9 * * This transition occurs in smb_ofile_delete(). * * Comments * -------- * * The state machine of the ofile structures is controlled by 3 elements: * - The list of ofiles of the tree it belongs to. * - The mutex embedded in the structure itself. * - The reference count. * * There's a mutex embedded in the ofile structure used to protect its fields * and there's a lock embedded in the list of ofiles of a tree. To * increment or to decrement the reference count the mutex must be entered. * To insert the ofile into the list of ofiles of the tree and to remove * the ofile from it, the lock must be entered in RW_WRITER mode. * * Rules of access to a ofile structure: * * 1) In order to avoid deadlocks, when both (mutex and lock of the ofile * list) have to be entered, the lock must be entered first. Additionally, * f_mutex must not be held when removing the ofile from sv_persistid_ht. * * 2) All actions applied to an ofile require a reference count. * * 3) There are 2 ways of getting a reference count. One is when the ofile * is opened. The other one when the ofile is looked up. This translates * into 2 functions: smb_ofile_open() and smb_ofile_lookup_by_fid(). * * It should be noted that the reference count of an ofile registers the * number of references to the ofile in other structures (such as an smb * request). The reference count is not incremented in these 2 instances: * * 1) The ofile is open. An ofile is anchored by its state. If there's * no activity involving an ofile currently open, the reference count * of that ofile is zero. * * 2) The ofile is queued in the list of ofiles of its tree. The fact of * being queued in that list is NOT registered by incrementing the * reference count. */ #include #include #include #include static boolean_t smb_ofile_is_open_locked(smb_ofile_t *); static void smb_ofile_delete(void *arg); static void smb_ofile_save_dh(void *arg); static int smb_ofile_netinfo_encode(smb_ofile_t *, uint8_t *, size_t, uint32_t *); static int smb_ofile_netinfo_init(smb_ofile_t *, smb_netfileinfo_t *); static void smb_ofile_netinfo_fini(smb_netfileinfo_t *); /* * The uniq_fid is a CIFS-server-wide unique identifier for an ofile * which is used to uniquely identify open instances for the * VFS share reservation and POSIX locks. */ static volatile uint32_t smb_fids = 0; #define SMB_UNIQ_FID() atomic_inc_32_nv(&smb_fids) /* * smb_ofile_alloc * Allocate an ofile and fill in it's "up" pointers, but * do NOT link it into the tree's list of ofiles or the * node's list of ofiles. An ofile in this state is a * "proposed" open passed to the oplock break code. * * If we don't get as far as smb_ofile_open with this OF, * call smb_ofile_free() to free this object. * * Note: The following sr members may be null during * persistent handle import: session, uid_usr, tid_tree */ smb_ofile_t * smb_ofile_alloc( smb_request_t *sr, smb_arg_open_t *op, smb_node_t *node, /* optional (may be NULL) */ uint16_t ftype, uint16_t tree_fid) { smb_user_t *user = sr->uid_user; /* optional */ smb_tree_t *tree = sr->tid_tree; /* optional */ smb_ofile_t *of; of = kmem_cache_alloc(smb_cache_ofile, KM_SLEEP); bzero(of, sizeof (smb_ofile_t)); of->f_magic = SMB_OFILE_MAGIC; mutex_init(&of->f_mutex, NULL, MUTEX_DEFAULT, NULL); list_create(&of->f_notify.nc_waiters, sizeof (smb_request_t), offsetof(smb_request_t, sr_waiters)); mutex_init(&of->dh_nvlock, NULL, MUTEX_DEFAULT, NULL); of->f_state = SMB_OFILE_STATE_ALLOC; of->f_refcnt = 1; of->f_ftype = ftype; of->f_fid = tree_fid; /* of->f_persistid see smb2_create */ of->f_uniqid = SMB_UNIQ_FID(); of->f_opened_by_pid = sr->smb_pid; of->f_granted_access = op->desired_access; of->f_share_access = op->share_access; of->f_create_options = op->create_options; if (user != NULL) { if ((op->create_options & FILE_OPEN_FOR_BACKUP_INTENT) != 0) of->f_cr = smb_user_getprivcred(user); else of->f_cr = user->u_cred; crhold(of->f_cr); } of->f_server = sr->sr_server; of->f_session = sr->session; /* may be NULL */ (void) memset(of->f_lock_seq, -1, SMB_OFILE_LSEQ_MAX); of->f_mode = smb_fsop_amask_to_omode(of->f_granted_access); if ((of->f_granted_access & FILE_DATA_ALL) == FILE_EXECUTE) of->f_flags |= SMB_OFLAGS_EXECONLY; /* * In case a lease is requested, copy the lease keys now so * any oplock breaks during open don't break those on our * other handles that might have the same lease. */ bcopy(op->lease_key, of->TargetOplockKey, SMB_LEASE_KEY_SZ); bcopy(op->parent_lease_key, of->ParentOplockKey, SMB_LEASE_KEY_SZ); /* * grab a ref for of->f_user and of->f_tree * We know the user and tree must be "live" because * this SR holds references to them. The node ref. is * held by our caller, until smb_ofile_open puts this * ofile on the node ofile list with smb_node_add_ofile. */ if (user != NULL) { smb_user_hold_internal(user); of->f_user = user; } if (tree != NULL) { smb_tree_hold_internal(tree); of->f_tree = tree; } of->f_node = node; /* may be NULL */ return (of); } /* * smb_ofile_open * * Complete an open on an ofile that was previously allocated by * smb_ofile_alloc, by putting it on the tree ofile list and * (if it's a file) the node ofile list. */ void smb_ofile_open( smb_request_t *sr, smb_arg_open_t *op, smb_ofile_t *of) { smb_tree_t *tree = sr->tid_tree; smb_node_t *node = of->f_node; ASSERT(of->f_state == SMB_OFILE_STATE_ALLOC); of->f_state = SMB_OFILE_STATE_OPEN; switch (of->f_ftype) { case SMB_FTYPE_BYTE_PIPE: case SMB_FTYPE_MESG_PIPE: /* See smb_opipe_open. */ of->f_pipe = op->pipe; smb_server_inc_pipes(of->f_server); break; case SMB_FTYPE_DISK: case SMB_FTYPE_PRINTER: /* Regular file, not a pipe */ ASSERT(node != NULL); smb_node_inc_open_ofiles(node); smb_node_add_ofile(node, of); smb_node_ref(node); smb_server_inc_files(of->f_server); break; default: ASSERT(0); } smb_llist_enter(&tree->t_ofile_list, RW_WRITER); smb_llist_insert_tail(&tree->t_ofile_list, of); smb_llist_exit(&tree->t_ofile_list); atomic_inc_32(&tree->t_open_files); atomic_inc_32(&of->f_session->s_file_cnt); } /* * smb_ofile_close * * Incoming states: (where from) * SMB_OFILE_STATE_OPEN protocol close, smb_ofile_drop * SMB_OFILE_STATE_EXPIRED called via smb2_dh_expire * SMB_OFILE_STATE_ORPHANED smb2_dh_shutdown */ void smb_ofile_close(smb_ofile_t *of, int32_t mtime_sec) { smb_attr_t *pa; SMB_OFILE_VALID(of); if (of->f_ftype == SMB_FTYPE_DISK) { smb_node_t *node = of->f_node; smb_llist_enter(&node->n_ofile_list, RW_READER); mutex_enter(&node->n_oplock.ol_mutex); if (of->f_lease != NULL) smb2_lease_ofile_close(of); smb_oplock_break_CLOSE(node, of); mutex_exit(&node->n_oplock.ol_mutex); smb_llist_exit(&node->n_ofile_list); } mutex_enter(&of->f_mutex); ASSERT(of->f_refcnt); switch (of->f_state) { case SMB_OFILE_STATE_OPEN: case SMB_OFILE_STATE_ORPHANED: case SMB_OFILE_STATE_EXPIRED: of->f_state = SMB_OFILE_STATE_CLOSING; mutex_exit(&of->f_mutex); break; default: mutex_exit(&of->f_mutex); return; } /* * Only one thread here (the one that that set f_state closing) */ switch (of->f_ftype) { case SMB_FTYPE_BYTE_PIPE: case SMB_FTYPE_MESG_PIPE: smb_opipe_close(of); smb_server_dec_pipes(of->f_server); break; case SMB_FTYPE_DISK: if (of->dh_persist) smb2_dh_close_persistent(of); if (of->f_persistid != 0) smb_ofile_del_persistid(of); /* FALLTHROUGH */ case SMB_FTYPE_PRINTER: /* or FTYPE_DISK */ /* * In here we make changes to of->f_pending_attr * while not holding of->f_mutex. This is OK * because we've changed f_state to CLOSING, * so no more threads will take this path. */ pa = &of->f_pending_attr; if (mtime_sec != 0) { pa->sa_vattr.va_mtime.tv_sec = mtime_sec; pa->sa_mask |= SMB_AT_MTIME; } if (of->f_flags & SMB_OFLAGS_SET_DELETE_ON_CLOSE) { /* We delete using the on-disk name. */ uint32_t flags = SMB_CASE_SENSITIVE; (void) smb_node_set_delete_on_close(of->f_node, of->f_cr, flags); } smb_fsop_unshrlock(of->f_cr, of->f_node, of->f_uniqid); smb_node_destroy_lock_by_ofile(of->f_node, of); if (smb_node_is_file(of->f_node)) { (void) smb_fsop_close(of->f_node, of->f_mode, of->f_cr); } else { /* * If there was an odir, close it. */ if (of->f_odir != NULL) smb_odir_close(of->f_odir); /* * Cancel any notify change requests that * might be watching this open file (dir), * and unsubscribe it from node events. * * Can't hold f_mutex when calling smb_notify_ofile. * Don't really need it when unsubscribing, but * harmless, and consistent with subscribing. */ if (of->f_notify.nc_subscribed) smb_notify_ofile(of, FILE_ACTION_HANDLE_CLOSED, NULL); mutex_enter(&of->f_mutex); if (of->f_notify.nc_subscribed) { of->f_notify.nc_subscribed = B_FALSE; smb_node_fcn_unsubscribe(of->f_node); of->f_notify.nc_filter = 0; } mutex_exit(&of->f_mutex); } if (smb_node_dec_open_ofiles(of->f_node) == 0) { /* * Last close. If we're not deleting * the file, apply any pending attrs. * Leave allocsz zero when no open files, * just to avoid confusion, because it's * only updated when there are opens. * XXX: Just do this on _every_ close. */ mutex_enter(&of->f_node->n_mutex); if (of->f_node->flags & NODE_FLAGS_DELETE_ON_CLOSE) { smb_node_delete_on_close(of->f_node); pa->sa_mask = 0; } of->f_node->n_allocsz = 0; mutex_exit(&of->f_node->n_mutex); } if (pa->sa_mask != 0) { /* * Commit any pending attributes from * the ofile we're closing. Note that * we pass NULL as the ofile to setattr * so it will write to the file system * and not keep anything on the ofile. */ (void) smb_node_setattr(NULL, of->f_node, of->f_cr, NULL, pa); } smb_server_dec_files(of->f_server); break; } /* * Keep f_state == SMB_OFILE_STATE_CLOSING * until the last ref. is dropped, in * smb_ofile_release() */ } /* * "Destructor" function for smb_ofile_close_all, and * smb_ofile_close_all_by_pid, called after the llist lock * for tree list has been exited. Our job is to either * close this ofile, or (if durable) set state _SAVE_DH. * * The next interesting thing happens when the last ref. * on this ofile calls smb_ofile_release(), where we * eihter delete the ofile, or (if durable) leave it * in the persistid hash table for possible reclaim. * * This is run via smb_llist_post (after smb_llist_exit) * because smb_ofile_close can block, and we'd rather not * block while holding the ofile list as reader. */ static void smb_ofile_drop(void *arg) { smb_ofile_t *of = arg; SMB_OFILE_VALID(of); mutex_enter(&of->f_mutex); switch (of->f_state) { case SMB_OFILE_STATE_OPEN: /* DH checks under mutex. */ if (of->f_ftype == SMB_FTYPE_DISK && of->dh_vers != SMB2_NOT_DURABLE && smb_dh_should_save(of)) { /* * Tell smb_ofile_release() to * make this an _ORPHANED DH. */ of->f_state = SMB_OFILE_STATE_SAVE_DH; mutex_exit(&of->f_mutex); break; } /* OK close it. */ mutex_exit(&of->f_mutex); smb_ofile_close(of, 0); break; default: /* Something else closed it already. */ mutex_exit(&of->f_mutex); break; } /* * Release the ref acquired during the traversal loop. * Note that on the last ref, this ofile will be * removed from the tree list etc. * See: smb_llist_post, smb_ofile_delete */ smb_ofile_release(of); } /* * smb_ofile_close_all * * */ void smb_ofile_close_all( smb_tree_t *tree, uint32_t pid) { smb_ofile_t *of; smb_llist_t *ll; ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); ll = &tree->t_ofile_list; smb_llist_enter(ll, RW_READER); for (of = smb_llist_head(ll); of != NULL; of = smb_llist_next(ll, of)) { ASSERT(of->f_magic == SMB_OFILE_MAGIC); ASSERT(of->f_tree == tree); if (pid != 0 && of->f_opened_by_pid != pid) continue; if (smb_ofile_hold(of)) { smb_llist_post(ll, of, smb_ofile_drop); } } /* * Drop the lock and process the llist dtor queue. * Calls smb_ofile_drop on ofiles that were open. */ smb_llist_exit(ll); } /* * If the enumeration request is for ofile data, handle it here. * Otherwise, return. * * This function should be called with a hold on the ofile. */ int smb_ofile_enum(smb_ofile_t *of, smb_svcenum_t *svcenum) { uint8_t *pb; uint_t nbytes; int rc; ASSERT(of); ASSERT(of->f_magic == SMB_OFILE_MAGIC); ASSERT(of->f_refcnt); if (svcenum->se_type != SMB_SVCENUM_TYPE_FILE) return (0); if (svcenum->se_nskip > 0) { svcenum->se_nskip--; return (0); } if (svcenum->se_nitems >= svcenum->se_nlimit) { svcenum->se_nitems = svcenum->se_nlimit; return (0); } pb = &svcenum->se_buf[svcenum->se_bused]; rc = smb_ofile_netinfo_encode(of, pb, svcenum->se_bavail, &nbytes); if (rc == 0) { svcenum->se_bavail -= nbytes; svcenum->se_bused += nbytes; svcenum->se_nitems++; } return (rc); } /* * Take a reference on an open file, in any of the states: * RECONNECT, SAVE_DH, OPEN, ORPHANED. * Return TRUE if ref taken. Used for oplock breaks. * * Note: When the oplock break code calls this, it holds the * node ofile list lock and node oplock mutex. When we see * an ofile in states RECONNECT or SAVING, we know the ofile * is gaining or losing it's tree, and that happens quickly, * so we just wait for that work to finish. However, the * waiting for state transitions here means we have to be * careful not to re-enter the node list lock or otherwise * block on things that could cause a deadlock. Waiting * just on of->f_mutex here is OK. */ boolean_t smb_ofile_hold_olbrk(smb_ofile_t *of) { boolean_t ret = B_FALSE; ASSERT(of); ASSERT(of->f_magic == SMB_OFILE_MAGIC); mutex_enter(&of->f_mutex); again: switch (of->f_state) { case SMB_OFILE_STATE_RECONNECT: case SMB_OFILE_STATE_SAVING: cv_wait(&of->f_cv, &of->f_mutex); goto again; case SMB_OFILE_STATE_OPEN: case SMB_OFILE_STATE_ORPHANED: case SMB_OFILE_STATE_SAVE_DH: of->f_refcnt++; ret = B_TRUE; break; default: break; } mutex_exit(&of->f_mutex); return (ret); } /* * Take a reference on an open file. */ boolean_t smb_ofile_hold(smb_ofile_t *of) { ASSERT(of); ASSERT(of->f_magic == SMB_OFILE_MAGIC); mutex_enter(&of->f_mutex); if (of->f_state != SMB_OFILE_STATE_OPEN) { mutex_exit(&of->f_mutex); return (B_FALSE); } of->f_refcnt++; mutex_exit(&of->f_mutex); return (B_TRUE); } /* * Release a reference on a file. If the reference count falls to * zero and the file has been closed, post the object for deletion. * Object deletion is deferred to avoid modifying a list while an * iteration may be in progress. * * We're careful to avoid dropping f_session etc. until the last * reference goes away. The oplock break code depends on that * not changing while it holds a ref. on an ofile. */ void smb_ofile_release(smb_ofile_t *of) { smb_tree_t *tree = of->f_tree; boolean_t delete = B_FALSE; SMB_OFILE_VALID(of); mutex_enter(&of->f_mutex); ASSERT(of->f_refcnt > 0); of->f_refcnt--; switch (of->f_state) { case SMB_OFILE_STATE_OPEN: case SMB_OFILE_STATE_ORPHANED: case SMB_OFILE_STATE_EXPIRED: break; case SMB_OFILE_STATE_SAVE_DH: ASSERT(tree != NULL); if (of->f_refcnt == 0) { of->f_state = SMB_OFILE_STATE_SAVING; smb_llist_post(&tree->t_ofile_list, of, smb_ofile_save_dh); } break; case SMB_OFILE_STATE_CLOSING: /* Note, tree == NULL on _ORPHANED */ if (of->f_refcnt == 0) { of->f_state = SMB_OFILE_STATE_CLOSED; if (tree == NULL) { /* Skip smb_llist_post */ delete = B_TRUE; break; } smb_llist_post(&tree->t_ofile_list, of, smb_ofile_delete); } break; default: ASSERT(0); break; } mutex_exit(&of->f_mutex); /* * When we drop the last ref. on an expired DH, it's no longer * in any tree, so skip the smb_llist_post and just call * smb_ofile_delete directly. */ if (delete) { smb_ofile_delete(of); } } /* * smb_ofile_lookup_by_fid * * Find the open file whose fid matches the one specified in the request. * If we can't find the fid or the shares (trees) don't match, we have a * bad fid. */ smb_ofile_t * smb_ofile_lookup_by_fid( smb_request_t *sr, uint16_t fid) { smb_tree_t *tree = sr->tid_tree; smb_llist_t *of_list; smb_ofile_t *of; ASSERT(tree->t_magic == SMB_TREE_MAGIC); of_list = &tree->t_ofile_list; smb_llist_enter(of_list, RW_READER); of = smb_llist_head(of_list); while (of) { ASSERT(of->f_magic == SMB_OFILE_MAGIC); ASSERT(of->f_tree == tree); if (of->f_fid == fid) break; of = smb_llist_next(of_list, of); } if (of == NULL) goto out; /* * Only allow use of a given FID with the same UID that * was used to open it. MS-CIFS 3.3.5.14 */ if (of->f_user != sr->uid_user) { of = NULL; goto out; } /* inline smb_ofile_hold() */ mutex_enter(&of->f_mutex); if (of->f_state != SMB_OFILE_STATE_OPEN) { mutex_exit(&of->f_mutex); of = NULL; goto out; } of->f_refcnt++; mutex_exit(&of->f_mutex); out: smb_llist_exit(of_list); return (of); } /* * smb_ofile_lookup_by_uniqid * * Find the open file whose uniqid matches the one specified in the request. */ smb_ofile_t * smb_ofile_lookup_by_uniqid(smb_tree_t *tree, uint32_t uniqid) { smb_llist_t *of_list; smb_ofile_t *of; ASSERT(tree->t_magic == SMB_TREE_MAGIC); of_list = &tree->t_ofile_list; smb_llist_enter(of_list, RW_READER); of = smb_llist_head(of_list); while (of) { ASSERT(of->f_magic == SMB_OFILE_MAGIC); ASSERT(of->f_tree == tree); if (of->f_uniqid == uniqid) { if (smb_ofile_hold(of)) { smb_llist_exit(of_list); return (of); } } of = smb_llist_next(of_list, of); } smb_llist_exit(of_list); return (NULL); } /* * Durable ID (or persistent ID) */ static smb_ofile_t * smb_ofile_hold_cb(smb_ofile_t *of) { smb_ofile_t *ret = of; mutex_enter(&of->f_mutex); if (of->f_state == SMB_OFILE_STATE_ORPHANED) /* inline smb_ofile_hold() */ of->f_refcnt++; else ret = NULL; mutex_exit(&of->f_mutex); return (ret); } /* * Lookup an ofile by persistent ID, and return ONLY if in state ORPHANED * This is used by SMB2 create "reclaim". */ smb_ofile_t * smb_ofile_lookup_by_persistid(smb_request_t *sr, uint64_t persistid) { smb_hash_t *hash; smb_bucket_t *bucket; smb_llist_t *ll; smb_ofile_t *of; uint_t idx; if (persistid == 0) return (NULL); hash = sr->sr_server->sv_persistid_ht; idx = smb_hash_uint64(hash, persistid); bucket = &hash->buckets[idx]; ll = &bucket->b_list; smb_llist_enter(ll, RW_READER); of = smb_llist_head(ll); while (of != NULL) { if (of->f_persistid == persistid) break; of = smb_llist_next(ll, of); } if (of != NULL) of = smb_ofile_hold_cb(of); smb_llist_exit(ll); return (of); } /* * Create a (unique) durable/persistent ID for a new ofile, * and add this ofile to the persistid hash table. This ID * is referred to as the persistent ID in the protocol spec, * so that's what we call it too, though the persistence may * vary. "Durable" handles are persistent across reconnects * but not server reboots. Persistent handles are persistent * across server reboots too. * * Note that persistent IDs need to be unique for the lifetime of * any given ofile. For normal (non-persistent) ofiles we can just * use a persistent ID derived from the ofile memory address, as * these don't ever live beyond the current OS boot lifetime. * * Persistent handles are re-imported after server restart, and * generally have a different memory address after import than * they had in the previous OS boot lifetime, so for these we * use a randomly assigned value that won't conflict with any * non-persistent (durable) handles. Ensuring that a randomly * generated ID is unique requires a search of the ofiles in one * hash bucket, which we'd rather avoid for non-persistent opens. * * The solution used here is to divide the persistent ID space * in half (odd and even values) where durable opens use an ID * derived from the ofile address (which is always even), and * persistent opens use an ID generated randomly (always odd). * * smb_ofile_set_persistid_dh() sets a durable handle ID and * smb_ofile_set_persistid_ph() sets a persistent handle ID. */ void smb_ofile_set_persistid_dh(smb_ofile_t *of) { smb_hash_t *hash = of->f_server->sv_persistid_ht; smb_bucket_t *bucket; smb_llist_t *ll; uint64_t persistid; uint_t idx; persistid = (uintptr_t)of; /* Avoid showing object addresses */ persistid ^= ((uintptr_t)&smb_cache_ofile); /* make sure it's even */ persistid &= ~((uint64_t)1); idx = smb_hash_uint64(hash, persistid); bucket = &hash->buckets[idx]; ll = &bucket->b_list; smb_llist_enter(ll, RW_WRITER); if (of->f_persistid == 0) { of->f_persistid = persistid; smb_llist_insert_tail(ll, of); } smb_llist_exit(ll); } void smb_ofile_set_persistid_ph(smb_ofile_t *of) { uint64_t persistid; int rc; top: (void) random_get_pseudo_bytes((uint8_t *)&persistid, sizeof (persistid)); if (persistid == 0) { cmn_err(CE_NOTE, "random gave all zeros!"); goto top; } /* make sure it's odd */ persistid |= (uint64_t)1; /* * Try inserting with this persistent ID. */ rc = smb_ofile_insert_persistid(of, persistid); if (rc == EEXIST) goto top; if (rc != 0) { cmn_err(CE_NOTE, "set persistid rc=%d", rc); } } /* * Insert an ofile into the persistid hash table. * If the persistent ID is in use, error. */ int smb_ofile_insert_persistid(smb_ofile_t *new_of, uint64_t persistid) { smb_hash_t *hash = new_of->f_server->sv_persistid_ht; smb_bucket_t *bucket; smb_llist_t *ll; smb_ofile_t *of; uint_t idx; ASSERT(persistid != 0); /* * Look to see if this key alreay exists. */ idx = smb_hash_uint64(hash, persistid); bucket = &hash->buckets[idx]; ll = &bucket->b_list; smb_llist_enter(ll, RW_WRITER); of = smb_llist_head(ll); while (of != NULL) { if (of->f_persistid == persistid) { /* already in use */ smb_llist_exit(ll); return (EEXIST); } of = smb_llist_next(ll, of); } /* Not found, so OK to insert. */ if (new_of->f_persistid == 0) { new_of->f_persistid = persistid; smb_llist_insert_tail(ll, new_of); } smb_llist_exit(ll); return (0); } void smb_ofile_del_persistid(smb_ofile_t *of) { smb_hash_t *hash = of->f_server->sv_persistid_ht; smb_bucket_t *bucket; smb_llist_t *ll; uint_t idx; idx = smb_hash_uint64(hash, of->f_persistid); bucket = &hash->buckets[idx]; ll = &bucket->b_list; smb_llist_enter(ll, RW_WRITER); if (of->f_persistid != 0) { smb_llist_remove(ll, of); of->f_persistid = 0; } smb_llist_exit(ll); } /* * Disallow NetFileClose on certain ofiles to avoid side-effects. * Closing a tree root is not allowed: use NetSessionDel or NetShareDel. * Closing SRVSVC connections is not allowed because this NetFileClose * request may depend on this ofile. */ boolean_t smb_ofile_disallow_fclose(smb_ofile_t *of) { ASSERT(of); ASSERT(of->f_magic == SMB_OFILE_MAGIC); ASSERT(of->f_refcnt); switch (of->f_ftype) { case SMB_FTYPE_DISK: ASSERT(of->f_tree); return (of->f_node == of->f_tree->t_snode); case SMB_FTYPE_MESG_PIPE: ASSERT(of->f_pipe); if (smb_strcasecmp(of->f_pipe->p_name, "SRVSVC", 0) == 0) return (B_TRUE); break; default: break; } return (B_FALSE); } /* * smb_ofile_set_flags * * Return value: * * Current flags value * */ void smb_ofile_set_flags( smb_ofile_t *of, uint32_t flags) { ASSERT(of); ASSERT(of->f_magic == SMB_OFILE_MAGIC); ASSERT(of->f_refcnt); mutex_enter(&of->f_mutex); of->f_flags |= flags; mutex_exit(&of->f_mutex); } /* * smb_ofile_seek * * Return value: * * 0 Success * EINVAL Unknown mode * EOVERFLOW offset too big * */ int smb_ofile_seek( smb_ofile_t *of, ushort_t mode, int32_t off, uint32_t *retoff) { u_offset_t newoff = 0; int rc = 0; smb_attr_t attr; ASSERT(of); ASSERT(of->f_magic == SMB_OFILE_MAGIC); ASSERT(of->f_refcnt); mutex_enter(&of->f_mutex); switch (mode) { case SMB_SEEK_SET: if (off < 0) newoff = 0; else newoff = (u_offset_t)off; break; case SMB_SEEK_CUR: if (off < 0 && (-off) > of->f_seek_pos) newoff = 0; else newoff = of->f_seek_pos + (u_offset_t)off; break; case SMB_SEEK_END: bzero(&attr, sizeof (smb_attr_t)); attr.sa_mask |= SMB_AT_SIZE; rc = smb_fsop_getattr(NULL, zone_kcred(), of->f_node, &attr); if (rc != 0) { mutex_exit(&of->f_mutex); return (rc); } if (off < 0 && (-off) > attr.sa_vattr.va_size) newoff = 0; else newoff = attr.sa_vattr.va_size + (u_offset_t)off; break; default: mutex_exit(&of->f_mutex); return (EINVAL); } /* * See comments at the beginning of smb_seek.c. * If the offset is greater than UINT_MAX, we will return an error. */ if (newoff > UINT_MAX) { rc = EOVERFLOW; } else { of->f_seek_pos = newoff; *retoff = (uint32_t)newoff; } mutex_exit(&of->f_mutex); return (rc); } /* * smb_ofile_flush * * If writes on this file are not synchronous, flush it using the NFSv3 * commit interface. * * XXX - todo: Flush named pipe should drain writes. */ void smb_ofile_flush(struct smb_request *sr, struct smb_ofile *of) { switch (of->f_ftype) { case SMB_FTYPE_DISK: if ((of->f_node->flags & NODE_FLAGS_WRITE_THROUGH) == 0) (void) smb_fsop_commit(sr, of->f_cr, of->f_node); break; default: break; } } /* * smb_ofile_is_open */ boolean_t smb_ofile_is_open(smb_ofile_t *of) { boolean_t rc; SMB_OFILE_VALID(of); mutex_enter(&of->f_mutex); rc = smb_ofile_is_open_locked(of); mutex_exit(&of->f_mutex); return (rc); } /* *************************** Static Functions ***************************** */ /* * Determine whether or not an ofile is open. * This function must be called with the mutex held. */ static boolean_t smb_ofile_is_open_locked(smb_ofile_t *of) { ASSERT(MUTEX_HELD(&of->f_mutex)); switch (of->f_state) { case SMB_OFILE_STATE_OPEN: case SMB_OFILE_STATE_SAVE_DH: case SMB_OFILE_STATE_SAVING: case SMB_OFILE_STATE_ORPHANED: case SMB_OFILE_STATE_RECONNECT: return (B_TRUE); case SMB_OFILE_STATE_CLOSING: case SMB_OFILE_STATE_CLOSED: case SMB_OFILE_STATE_EXPIRED: return (B_FALSE); default: ASSERT(0); return (B_FALSE); } } /* * smb_ofile_save_dh * * Called via smb_llist_post (after smb_llist_exit) when the last ref. * on this ofile has gone, and this ofile is a "durable handle" (DH) * that has state we've decided to save. * * This does parts of what smb_ofile_delete would do, including: * remove the ofile from the tree ofile list and related. * * We leave the ofile in state ORPHANED, ready for reconnect * or expiration via smb2_dh_expire (see smb_ofile_delete). */ static void smb_ofile_save_dh(void *arg) { smb_ofile_t *of = (smb_ofile_t *)arg; smb_tree_t *tree = of->f_tree; SMB_OFILE_VALID(of); ASSERT(of->f_refcnt == 0); ASSERT(of->f_ftype == SMB_FTYPE_DISK); ASSERT(of->f_state == SMB_OFILE_STATE_SAVING); atomic_dec_32(&of->f_session->s_file_cnt); atomic_dec_32(&of->f_tree->t_open_files); smb_llist_enter(&tree->t_ofile_list, RW_WRITER); smb_llist_remove(&tree->t_ofile_list, of); smb_llist_exit(&tree->t_ofile_list); /* * This ofile is no longer on t_ofile_list, however... * * This is called via smb_llist_post, which means it may run * BEFORE smb_ofile_release drops f_mutex (if another thread * flushes the delete queue before we do). Synchronize. */ mutex_enter(&of->f_mutex); DTRACE_PROBE1(ofile__exit, smb_ofile_t, of); mutex_exit(&of->f_mutex); /* * Keep f_notify state, lease, and * keep on node ofile list. * Keep of->f_cr until reclaim. */ ASSERT(of->f_fid != 0); smb_idpool_free(&tree->t_fid_pool, of->f_fid); of->f_fid = 0; smb_tree_release(of->f_tree); of->f_tree = NULL; smb_user_release(of->f_user); of->f_user = NULL; of->f_session = NULL; /* * Make it "orphaned" so it can now be reclaimed. * Note that smb_ofile_hold_olbrk() may have blocked * for state SMB_OFILE_STATE_SAVING, so wake it. */ mutex_enter(&of->f_mutex); of->dh_expire_time = gethrtime() + of->dh_timeout_offset; of->f_state = SMB_OFILE_STATE_ORPHANED; cv_broadcast(&of->f_cv); mutex_exit(&of->f_mutex); } /* * Delete an ofile. * * Approximately the inverse of smb_ofile_alloc() * Called via smb_llist_post (after smb_llist_exit) * when the last ref. on this ofile has gone. * * Normally,this removes the ofile from the tree list and * then frees resources held on the ofile. However, when * we're expiring an orphaned durable handle, the linkage * into the tree lists etc. have already been destroyed. * This case is distinguished by of->f_tree == NULL. */ static void smb_ofile_delete(void *arg) { smb_ofile_t *of = (smb_ofile_t *)arg; smb_tree_t *tree = of->f_tree; SMB_OFILE_VALID(of); ASSERT(of->f_refcnt == 0); ASSERT(of->f_state == SMB_OFILE_STATE_CLOSED); if (tree != NULL) { ASSERT(of->f_user != NULL); ASSERT(of->f_session != NULL); atomic_dec_32(&of->f_session->s_file_cnt); atomic_dec_32(&of->f_tree->t_open_files); smb_llist_enter(&tree->t_ofile_list, RW_WRITER); smb_llist_remove(&tree->t_ofile_list, of); smb_llist_exit(&tree->t_ofile_list); } /* * Remove this ofile from the node's n_ofile_list so it * can't be found by list walkers like notify or oplock. * Keep the node ref. until later in this function so * of->f_node remains valid while we destroy the ofile. */ if (of->f_ftype == SMB_FTYPE_DISK || of->f_ftype == SMB_FTYPE_PRINTER) { smb_node_t *node = of->f_node; /* * Oplock cleanup should have made sure that * excl_open does not point to this ofile. */ VERIFY(node->n_oplock.excl_open != of); /* * Note smb_ofile_close did smb_node_dec_open_ofiles() */ smb_node_rem_ofile(node, of); } /* * This ofile is no longer on any lists, however... * * This is called via smb_llist_post, which means it may run * BEFORE smb_ofile_release drops f_mutex (if another thread * flushes the delete queue before we do). Synchronize. */ mutex_enter(&of->f_mutex); of->f_state = SMB_OFILE_STATE_ALLOC; DTRACE_PROBE1(ofile__exit, smb_ofile_t, of); mutex_exit(&of->f_mutex); switch (of->f_ftype) { case SMB_FTYPE_BYTE_PIPE: case SMB_FTYPE_MESG_PIPE: smb_opipe_dealloc(of->f_pipe); of->f_pipe = NULL; break; case SMB_FTYPE_DISK: ASSERT(of->f_notify.nc_subscribed == B_FALSE); MBC_FLUSH(&of->f_notify.nc_buffer); if (of->f_odir != NULL) smb_odir_release(of->f_odir); if (of->f_lease != NULL) { smb2_lease_rele(of->f_lease); of->f_lease = NULL; } /* FALLTHROUGH */ case SMB_FTYPE_PRINTER: /* * Did smb_node_rem_ofile above. */ ASSERT(of->f_node != NULL); smb_node_release(of->f_node); break; default: ASSERT(!"f_ftype"); break; } smb_ofile_free(of); } void smb_ofile_free(smb_ofile_t *of) { smb_tree_t *tree = of->f_tree; ASSERT(of->f_state == SMB_OFILE_STATE_ALLOC); /* Make sure it's not in the persistid hash. */ ASSERT(of->f_persistid == 0); if (tree != NULL) { if (of->f_fid != 0) smb_idpool_free(&tree->t_fid_pool, of->f_fid); smb_tree_release(of->f_tree); smb_user_release(of->f_user); } if (of->f_cr != NULL) crfree(of->f_cr); of->f_magic = (uint32_t)~SMB_OFILE_MAGIC; list_destroy(&of->f_notify.nc_waiters); mutex_destroy(&of->dh_nvlock); mutex_destroy(&of->f_mutex); kmem_cache_free(smb_cache_ofile, of); } /* * smb_ofile_access * * This function will check to see if the access requested is granted. * Returns NT status codes. */ uint32_t smb_ofile_access(smb_ofile_t *of, cred_t *cr, uint32_t access) { if ((of == NULL) || (cr == zone_kcred())) return (NT_STATUS_SUCCESS); /* * If the request is for something * I don't grant it is an error */ if (~(of->f_granted_access) & access) { if (!(of->f_granted_access & ACCESS_SYSTEM_SECURITY) && (access & ACCESS_SYSTEM_SECURITY)) { return (NT_STATUS_PRIVILEGE_NOT_HELD); } return (NT_STATUS_ACCESS_DENIED); } return (NT_STATUS_SUCCESS); } /* * smb_ofile_share_check * * Check if ofile was opened with share access NONE (0). * Returns: B_TRUE - share access non-zero * B_FALSE - share access NONE */ boolean_t smb_ofile_share_check(smb_ofile_t *of) { return (!SMB_DENY_ALL(of->f_share_access)); } /* * check file sharing rules for current open request * against existing open instances of the same file * * Returns NT_STATUS_SHARING_VIOLATION if there is any * sharing conflict, otherwise returns NT_STATUS_SUCCESS. */ uint32_t smb_ofile_open_check(smb_ofile_t *of, uint32_t desired_access, uint32_t share_access) { uint32_t ret; ASSERT(of->f_magic == SMB_OFILE_MAGIC); mutex_enter(&of->f_mutex); if (!smb_ofile_is_open_locked(of)) { ret = NT_STATUS_INVALID_HANDLE; goto out; } /* if it's just meta data */ if ((of->f_granted_access & FILE_DATA_ALL) == 0) { ret = NT_STATUS_SUCCESS; goto out; } /* * Check requested share access against the * open granted (desired) access */ if (SMB_DENY_DELETE(share_access) && (of->f_granted_access & DELETE)) { ret = NT_STATUS_SHARING_VIOLATION; goto out; } if (SMB_DENY_READ(share_access) && (of->f_granted_access & (FILE_READ_DATA | FILE_EXECUTE))) { ret = NT_STATUS_SHARING_VIOLATION; goto out; } if (SMB_DENY_WRITE(share_access) && (of->f_granted_access & (FILE_WRITE_DATA | FILE_APPEND_DATA))) { ret = NT_STATUS_SHARING_VIOLATION; goto out; } /* check requested desired access against the open share access */ if (SMB_DENY_DELETE(of->f_share_access) && (desired_access & DELETE)) { ret = NT_STATUS_SHARING_VIOLATION; goto out; } if (SMB_DENY_READ(of->f_share_access) && (desired_access & (FILE_READ_DATA | FILE_EXECUTE))) { ret = NT_STATUS_SHARING_VIOLATION; goto out; } if (SMB_DENY_WRITE(of->f_share_access) && (desired_access & (FILE_WRITE_DATA | FILE_APPEND_DATA))) { ret = NT_STATUS_SHARING_VIOLATION; goto out; } ret = NT_STATUS_SUCCESS; out: mutex_exit(&of->f_mutex); return (ret); } /* * smb_ofile_rename_check * * This does the work described in MS-FSA 2.1.5.1.2.2 (Algorithm * to Check Sharing Access to an Existing Stream or Directory), * where the "open in-progress" has DesiredAccess = DELETE and * SharingMode = SHARE_READ | SHARE_WRITE | SHARE_DELETE. */ uint32_t smb_ofile_rename_check(smb_ofile_t *of) { uint32_t ret; ASSERT(of->f_magic == SMB_OFILE_MAGIC); mutex_enter(&of->f_mutex); if (!smb_ofile_is_open_locked(of)) { ret = NT_STATUS_INVALID_HANDLE; goto out; } if ((of->f_granted_access & FILE_DATA_ALL) == 0) { ret = NT_STATUS_SUCCESS; goto out; } if ((of->f_share_access & FILE_SHARE_DELETE) == 0) { ret = NT_STATUS_SHARING_VIOLATION; goto out; } ret = NT_STATUS_SUCCESS; out: mutex_exit(&of->f_mutex); return (ret); } /* * smb_ofile_delete_check * * An open file can be deleted only if opened for * accessing meta data. Share modes aren't important * in this case. * * NOTE: there is another mechanism for deleting an * open file that NT clients usually use. * That's setting "Delete on close" flag for an open * file. In this way the file will be deleted after * last close. This flag can be set by SmbTrans2SetFileInfo * with FILE_DISPOSITION_INFO information level. * For setting this flag, the file should be opened by * DELETE access in the FID that is passed in the Trans2 * request. */ uint32_t smb_ofile_delete_check(smb_ofile_t *of) { uint32_t ret; ASSERT(of->f_magic == SMB_OFILE_MAGIC); mutex_enter(&of->f_mutex); if (!smb_ofile_is_open_locked(of)) { ret = NT_STATUS_INVALID_HANDLE; goto out; } if (of->f_granted_access & (FILE_READ_DATA | FILE_WRITE_DATA | FILE_APPEND_DATA | FILE_EXECUTE | DELETE)) { ret = NT_STATUS_SHARING_VIOLATION; goto out; } ret = NT_STATUS_SUCCESS; out: mutex_exit(&of->f_mutex); return (ret); } cred_t * smb_ofile_getcred(smb_ofile_t *of) { return (of->f_cr); } /* * smb_ofile_set_delete_on_close * * Set the DeleteOnClose flag on the smb file. When the file is closed, * the flag will be transferred to the smb node, which will commit the * delete operation and inhibit subsequent open requests. * * When DeleteOnClose is set on an smb_node, the common open code will * reject subsequent open requests for the file. Observation of Windows * 2000 indicates that subsequent opens should be allowed (assuming * there would be no sharing violation) until the file is closed using * the fid on which the DeleteOnClose was requested. */ void smb_ofile_set_delete_on_close(smb_request_t *sr, smb_ofile_t *of) { uint32_t status; /* * Break any oplock handle caching. */ status = smb_oplock_break_SETINFO(of->f_node, of, FileDispositionInformation); if (status == NT_STATUS_OPLOCK_BREAK_IN_PROGRESS) { if (sr->session->dialect >= SMB_VERS_2_BASE) (void) smb2sr_go_async(sr); (void) smb_oplock_wait_break(of->f_node, 0); } mutex_enter(&of->f_mutex); of->f_flags |= SMB_OFLAGS_SET_DELETE_ON_CLOSE; mutex_exit(&of->f_mutex); } /* * Encode open file information into a buffer; needed in user space to * support RPC requests. */ static int smb_ofile_netinfo_encode(smb_ofile_t *of, uint8_t *buf, size_t buflen, uint32_t *nbytes) { smb_netfileinfo_t fi; int rc; rc = smb_ofile_netinfo_init(of, &fi); if (rc == 0) { rc = smb_netfileinfo_encode(&fi, buf, buflen, nbytes); smb_ofile_netinfo_fini(&fi); } return (rc); } static int smb_ofile_netinfo_init(smb_ofile_t *of, smb_netfileinfo_t *fi) { smb_user_t *user; smb_tree_t *tree; smb_node_t *node; char *path; char *buf; int rc; ASSERT(of); user = of->f_user; tree = of->f_tree; ASSERT(user); ASSERT(tree); buf = kmem_zalloc(MAXPATHLEN, KM_SLEEP); switch (of->f_ftype) { case SMB_FTYPE_DISK: node = of->f_node; ASSERT(node); fi->fi_permissions = of->f_granted_access; fi->fi_numlocks = smb_lock_get_lock_count(node, of); path = kmem_zalloc(MAXPATHLEN, KM_SLEEP); if (node != tree->t_snode) { rc = smb_node_getshrpath(node, tree, path, MAXPATHLEN); if (rc != 0) (void) strlcpy(path, node->od_name, MAXPATHLEN); } (void) snprintf(buf, MAXPATHLEN, "%s:%s", tree->t_sharename, path); kmem_free(path, MAXPATHLEN); break; case SMB_FTYPE_MESG_PIPE: ASSERT(of->f_pipe); fi->fi_permissions = FILE_READ_DATA | FILE_WRITE_DATA | FILE_EXECUTE; fi->fi_numlocks = 0; (void) snprintf(buf, MAXPATHLEN, "\\PIPE\\%s", of->f_pipe->p_name); break; default: kmem_free(buf, MAXPATHLEN); return (-1); } fi->fi_fid = of->f_fid; fi->fi_uniqid = of->f_uniqid; fi->fi_pathlen = strlen(buf) + 1; fi->fi_path = smb_mem_strdup(buf); kmem_free(buf, MAXPATHLEN); fi->fi_namelen = user->u_domain_len + user->u_name_len + 2; fi->fi_username = kmem_alloc(fi->fi_namelen, KM_SLEEP); (void) snprintf(fi->fi_username, fi->fi_namelen, "%s\\%s", user->u_domain, user->u_name); return (0); } static void smb_ofile_netinfo_fini(smb_netfileinfo_t *fi) { if (fi == NULL) return; if (fi->fi_path) smb_mem_free(fi->fi_path); if (fi->fi_username) kmem_free(fi->fi_username, fi->fi_namelen); bzero(fi, sizeof (smb_netfileinfo_t)); } /* * A query of user and group quotas may span multiple requests. * f_quota_resume is used to determine where the query should * be resumed, in a subsequent request. f_quota_resume contains * the SID of the last quota entry returned to the client. */ void smb_ofile_set_quota_resume(smb_ofile_t *ofile, char *resume) { ASSERT(ofile); mutex_enter(&ofile->f_mutex); if (resume == NULL) bzero(ofile->f_quota_resume, SMB_SID_STRSZ); else (void) strlcpy(ofile->f_quota_resume, resume, SMB_SID_STRSZ); mutex_exit(&ofile->f_mutex); } void smb_ofile_get_quota_resume(smb_ofile_t *ofile, char *buf, int bufsize) { ASSERT(ofile); mutex_enter(&ofile->f_mutex); (void) strlcpy(buf, ofile->f_quota_resume, bufsize); mutex_exit(&ofile->f_mutex); }