/* * 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 2015 Nexenta Systems, Inc. All rights reserved. */ /* * SMB/CIFS share cache implementation. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define SMB_SHR_ERROR_THRESHOLD 3 #define SMB_SHR_CSC_BUFSZ 64 typedef struct smb_transient { char *name; char *cmnt; char *path; char drive; boolean_t check; } smb_transient_t; static smb_transient_t tshare[] = { { "IPC$", "Remote IPC", NULL, '\0', B_FALSE }, { "c$", "Default Share", SMB_CVOL, 'C', B_FALSE }, { "vss$", "VSS", SMB_VSS, 'V', B_TRUE } }; static struct { char *value; uint32_t flag; } cscopt[] = { { "disabled", SMB_SHRF_CSC_DISABLED }, { "manual", SMB_SHRF_CSC_MANUAL }, { "auto", SMB_SHRF_CSC_AUTO }, { "vdo", SMB_SHRF_CSC_VDO } }; /* * Cache functions and vars */ #define SMB_SHR_HTAB_SZ 1024 /* * Cache handle * * Shares cache is a hash table. * * sc_cache pointer to hash table handle * sc_cache_lck synchronize cache read/write accesses * sc_state cache state machine values * sc_nops number of inflight/pending cache operations * sc_mtx protects handle fields */ typedef struct smb_shr_cache { HT_HANDLE *sc_cache; rwlock_t sc_cache_lck; mutex_t sc_mtx; cond_t sc_cv; uint32_t sc_state; uint32_t sc_nops; } smb_shr_cache_t; /* * Cache states */ #define SMB_SHR_CACHE_STATE_NONE 0 #define SMB_SHR_CACHE_STATE_CREATED 1 #define SMB_SHR_CACHE_STATE_DESTROYING 2 /* * Cache lock modes */ #define SMB_SHR_CACHE_RDLOCK 0 #define SMB_SHR_CACHE_WRLOCK 1 static smb_shr_cache_t smb_shr_cache; static uint32_t smb_shr_cache_create(void); static void smb_shr_cache_destroy(void); static uint32_t smb_shr_cache_lock(int); static void smb_shr_cache_unlock(void); static int smb_shr_cache_count(void); static smb_share_t *smb_shr_cache_iterate(smb_shriter_t *); static smb_share_t *smb_shr_cache_findent(char *); static uint32_t smb_shr_cache_addent(smb_share_t *); static void smb_shr_cache_delent(char *); static void smb_shr_cache_freent(HT_ITEM *); static boolean_t smb_shr_is_empty(const char *); static boolean_t smb_shr_is_dot_or_dotdot(const char *); /* * sharemgr functions */ static void smb_shr_sa_loadgrp(sa_group_t); static uint32_t smb_shr_sa_load(sa_share_t, sa_resource_t); static uint32_t smb_shr_sa_loadbyname(char *); static uint32_t smb_shr_sa_get(sa_share_t, sa_resource_t, smb_share_t *); /* * .ZFS management functions */ static void smb_shr_zfs_add(smb_share_t *); static void smb_shr_zfs_remove(smb_share_t *); static void smb_shr_zfs_rename(smb_share_t *, smb_share_t *); /* * share publishing */ #define SMB_SHR_PUBLISH 0 #define SMB_SHR_UNPUBLISH 1 typedef struct smb_shr_pitem { list_node_t spi_lnd; char spi_name[MAXNAMELEN]; char spi_container[MAXPATHLEN]; char spi_op; } smb_shr_pitem_t; /* * publish queue states */ #define SMB_SHR_PQS_NOQUEUE 0 #define SMB_SHR_PQS_READY 1 /* the queue is ready */ #define SMB_SHR_PQS_PUBLISHING 2 /* publisher thread is running */ #define SMB_SHR_PQS_STOPPING 3 /* * share publishing queue */ typedef struct smb_shr_pqueue { list_t spq_list; mutex_t spq_mtx; cond_t spq_cv; uint32_t spq_state; } smb_shr_pqueue_t; static smb_shr_pqueue_t ad_queue; static int smb_shr_publisher_start(void); static void smb_shr_publisher_stop(void); static void smb_shr_publisher_send(smb_ads_handle_t *, list_t *, const char *); static void smb_shr_publisher_queue(const char *, const char *, char); static void *smb_shr_publisher(void *); static void smb_shr_publisher_flush(list_t *); static void smb_shr_publish(const char *, const char *); static void smb_shr_unpublish(const char *, const char *); /* * Utility/helper functions */ static uint32_t smb_shr_lookup(char *, smb_share_t *); static uint32_t smb_shr_add_transient(char *, char *, char *); static int smb_shr_enable_all_privs(void); static int smb_shr_expand_subs(char **, smb_share_t *, smb_shr_execinfo_t *); static char **smb_shr_tokenize_cmd(char *); static void smb_shr_sig_abnormal_term(int); static void smb_shr_sig_child(int); static int smb_shr_encode(smb_share_t *, nvlist_t **); /* * libshare handle and synchronization */ typedef struct smb_sa_handle { sa_handle_t sa_handle; mutex_t sa_mtx; boolean_t sa_in_service; } smb_sa_handle_t; static smb_sa_handle_t smb_sa_handle; static char smb_shr_exec_map[MAXPATHLEN]; static char smb_shr_exec_unmap[MAXPATHLEN]; static mutex_t smb_shr_exec_mtx; /* * Semaphore held during temporary, process-wide changes * such as process privileges. It is a seamaphore and * not a mutex so a child of fork can reset it. */ static sema_t smb_proc_sem = DEFAULTSEMA; /* * Creates and initializes the cache and starts the publisher * thread. */ int smb_shr_start(void) { smb_transient_t *ts; uint32_t nerr; int i; (void) mutex_lock(&smb_sa_handle.sa_mtx); smb_sa_handle.sa_in_service = B_TRUE; (void) mutex_unlock(&smb_sa_handle.sa_mtx); if (smb_shr_cache_create() != NERR_Success) return (ENOMEM); for (i = 0; i < sizeof (tshare)/sizeof (tshare[0]); ++i) { ts = &tshare[i]; if (ts->check && smb_shr_is_empty(ts->path)) continue; nerr = smb_shr_add_transient(ts->name, ts->cmnt, ts->path); if (nerr != NERR_Success) return (ENOMEM); } return (smb_shr_publisher_start()); } void smb_shr_stop(void) { smb_shr_cache_destroy(); smb_shr_publisher_stop(); (void) mutex_lock(&smb_sa_handle.sa_mtx); smb_sa_handle.sa_in_service = B_FALSE; if (smb_sa_handle.sa_handle != NULL) { sa_fini(smb_sa_handle.sa_handle); smb_sa_handle.sa_handle = NULL; } (void) mutex_unlock(&smb_sa_handle.sa_mtx); } /* * Get a handle and exclusive access to the libshare API. */ sa_handle_t smb_shr_sa_enter(void) { (void) mutex_lock(&smb_sa_handle.sa_mtx); if (!smb_sa_handle.sa_in_service) { (void) mutex_unlock(&smb_sa_handle.sa_mtx); return (NULL); } if (smb_sa_handle.sa_handle != NULL && sa_needs_refresh(smb_sa_handle.sa_handle)) { sa_fini(smb_sa_handle.sa_handle); smb_sa_handle.sa_handle = NULL; } if (smb_sa_handle.sa_handle == NULL) { smb_sa_handle.sa_handle = sa_init(SA_INIT_SHARE_API); if (smb_sa_handle.sa_handle == NULL) { syslog(LOG_ERR, "share: failed to get libshare handle"); (void) mutex_unlock(&smb_sa_handle.sa_mtx); return (NULL); } } return (smb_sa_handle.sa_handle); } /* * Release exclusive access to the libshare API. */ void smb_shr_sa_exit(void) { (void) mutex_unlock(&smb_sa_handle.sa_mtx); } /* * Return the total number of shares */ int smb_shr_count(void) { int n_shares = 0; if (smb_shr_cache_lock(SMB_SHR_CACHE_RDLOCK) == NERR_Success) { n_shares = smb_shr_cache_count(); smb_shr_cache_unlock(); } return (n_shares); } /* * smb_shr_iterinit * * Initialize given iterator for traversing hash table. */ void smb_shr_iterinit(smb_shriter_t *shi) { bzero(shi, sizeof (smb_shriter_t)); shi->si_first = B_TRUE; } /* * smb_shr_iterate * * Iterate on the shares in the hash table. The iterator must be initialized * before the first iteration. On subsequent calls, the iterator must be * passed unchanged. * * Returns NULL on failure or when all shares are visited, otherwise * returns information of visited share. */ smb_share_t * smb_shr_iterate(smb_shriter_t *shi) { smb_share_t *share = NULL; smb_share_t *cached_si; if (shi == NULL) return (NULL); if (smb_shr_cache_lock(SMB_SHR_CACHE_RDLOCK) == NERR_Success) { if ((cached_si = smb_shr_cache_iterate(shi)) != NULL) { share = &shi->si_share; bcopy(cached_si, share, sizeof (smb_share_t)); } smb_shr_cache_unlock(); } return (share); } /* * Adds the given share to cache, publishes the share in ADS * if it has an AD container, calls kernel to take a hold on * the shared file system. If it can't take a hold on the * shared file system, it's either because shared directory * does not exist or some other error has occurred, in any * case the share is removed from the cache. * * If the specified share is an autohome share which already * exists in the cache, just increments the reference count. */ uint32_t smb_shr_add(smb_share_t *si) { struct stat st; smb_share_t *cached_si; nvlist_t *shrlist; uint32_t status; int rc; assert(si != NULL); if (smb_name_validate_share(si->shr_name) != ERROR_SUCCESS) return (ERROR_INVALID_NAME); if (smb_shr_cache_lock(SMB_SHR_CACHE_WRLOCK) != NERR_Success) return (NERR_InternalError); cached_si = smb_shr_cache_findent(si->shr_name); if (cached_si) { if (si->shr_flags & SMB_SHRF_AUTOHOME) { cached_si->shr_refcnt++; status = NERR_Success; } else { status = NERR_DuplicateShare; } smb_shr_cache_unlock(); return (status); } if (STYPE_ISDSK(si->shr_type)) { /* * If share type is STYPE_DISKTREE then the path to the * share should exist so that we can add the share to cache. */ rc = stat(si->shr_path, &st); if (rc != 0) { smb_shr_cache_unlock(); return (NERR_ItemNotFound); } } if ((status = smb_shr_cache_addent(si)) != NERR_Success) { smb_shr_cache_unlock(); return (status); } /* don't hold the lock across door call */ smb_shr_cache_unlock(); if ((rc = smb_shr_encode(si, &shrlist)) == 0) { /* send the share to kernel */ rc = smb_kmod_share(shrlist); nvlist_free(shrlist); if (rc == 0) { smb_shr_publish(si->shr_name, si->shr_container); /* If path is ZFS, add the .zfs/shares/ entry. */ smb_shr_zfs_add(si); if ((si->shr_flags & SMB_SHRF_DFSROOT) != 0) dfs_namespace_load(si->shr_name); return (NERR_Success); } } if (smb_shr_cache_lock(SMB_SHR_CACHE_WRLOCK) == NERR_Success) { smb_shr_cache_delent(si->shr_name); smb_shr_cache_unlock(); } /* * rc == ENOENT means the shared directory doesn't exist */ return ((rc == ENOENT) ? NERR_UnknownDevDir : NERR_InternalError); } /* * Removes the specified share from cache, removes it from AD * if it has an AD container, and calls the kernel to release * the hold on the shared file system. * * If this is an autohome share then decrement the reference * count. If it reaches 0 then it proceeds with removing steps. */ uint32_t smb_shr_remove(char *sharename) { smb_share_t *si; char container[MAXPATHLEN]; boolean_t dfsroot; nvlist_t *shrlist; assert(sharename != NULL); if (smb_name_validate_share(sharename) != ERROR_SUCCESS) return (ERROR_INVALID_NAME); if (smb_shr_cache_lock(SMB_SHR_CACHE_WRLOCK) != NERR_Success) return (NERR_InternalError); if ((si = smb_shr_cache_findent(sharename)) == NULL) { smb_shr_cache_unlock(); return (NERR_NetNameNotFound); } if (STYPE_ISIPC(si->shr_type)) { /* IPC$ share cannot be removed */ smb_shr_cache_unlock(); return (ERROR_ACCESS_DENIED); } if (si->shr_flags & SMB_SHRF_AUTOHOME) { if ((--si->shr_refcnt) > 0) { smb_shr_cache_unlock(); return (NERR_Success); } } /* * If path is ZFS, remove the .zfs/shares/ entry. Need * to remove before cleanup of cache occurs. */ smb_shr_zfs_remove(si); (void) smb_shr_encode(si, &shrlist); (void) strlcpy(container, si->shr_container, sizeof (container)); dfsroot = ((si->shr_flags & SMB_SHRF_DFSROOT) != 0); smb_shr_cache_delent(sharename); smb_shr_cache_unlock(); smb_shr_unpublish(sharename, container); /* call kernel to release the hold on the shared file system */ if (shrlist != NULL) { (void) smb_kmod_unshare(shrlist); nvlist_free(shrlist); } if (dfsroot) dfs_namespace_unload(sharename); return (NERR_Success); } /* * Rename a share. Check that the current name exists and the new name * doesn't exist. The rename is performed by deleting the current share * definition and creating a new share with the new name. */ uint32_t smb_shr_rename(char *from_name, char *to_name) { smb_share_t *from_si; smb_share_t to_si; uint32_t status; nvlist_t *shrlist; assert((from_name != NULL) && (to_name != NULL)); if (smb_name_validate_share(from_name) != ERROR_SUCCESS || smb_name_validate_share(to_name) != ERROR_SUCCESS) return (ERROR_INVALID_NAME); if (smb_shr_cache_lock(SMB_SHR_CACHE_WRLOCK) != NERR_Success) return (NERR_InternalError); if ((from_si = smb_shr_cache_findent(from_name)) == NULL) { smb_shr_cache_unlock(); return (NERR_NetNameNotFound); } if (STYPE_ISIPC(from_si->shr_type)) { /* IPC$ share cannot be renamed */ smb_shr_cache_unlock(); return (ERROR_ACCESS_DENIED); } if (smb_shr_cache_findent(to_name) != NULL) { smb_shr_cache_unlock(); return (NERR_DuplicateShare); } bcopy(from_si, &to_si, sizeof (smb_share_t)); (void) strlcpy(to_si.shr_name, to_name, sizeof (to_si.shr_name)); /* If path is ZFS, rename the .zfs/shares/ entry. */ smb_shr_zfs_rename(from_si, &to_si); if ((status = smb_shr_cache_addent(&to_si)) != NERR_Success) { smb_shr_cache_unlock(); return (status); } smb_shr_cache_delent(from_name); smb_shr_cache_unlock(); if (smb_shr_encode(from_si, &shrlist) == 0) { (void) smb_kmod_unshare(shrlist); nvlist_free(shrlist); if (smb_shr_encode(&to_si, &shrlist) == 0) { (void) smb_kmod_share(shrlist); nvlist_free(shrlist); } } smb_shr_unpublish(from_name, to_si.shr_container); smb_shr_publish(to_name, to_si.shr_container); return (NERR_Success); } /* * Load the information for the specified share into the supplied share * info structure. * * First looks up the cache to see if the specified share exists, if there * is a miss then it looks up sharemgr. */ uint32_t smb_shr_get(char *sharename, smb_share_t *si) { uint32_t status; if (sharename == NULL || *sharename == '\0') return (NERR_NetNameNotFound); if ((status = smb_shr_lookup(sharename, si)) == NERR_Success) return (status); if ((status = smb_shr_sa_loadbyname(sharename)) == NERR_Success) status = smb_shr_lookup(sharename, si); return (status); } /* * Modifies an existing share. Properties that can be modified are: * * o comment * o AD container * o host access * o abe */ uint32_t smb_shr_modify(smb_share_t *new_si) { smb_share_t *si; boolean_t adc_changed = B_FALSE; char old_container[MAXPATHLEN]; uint32_t access, flag; nvlist_t *shrlist; assert(new_si != NULL); if (smb_shr_cache_lock(SMB_SHR_CACHE_WRLOCK) != NERR_Success) return (NERR_InternalError); if ((si = smb_shr_cache_findent(new_si->shr_name)) == NULL) { smb_shr_cache_unlock(); return (NERR_NetNameNotFound); } if (STYPE_ISIPC(si->shr_type)) { /* IPC$ share cannot be modified */ smb_shr_cache_unlock(); return (ERROR_ACCESS_DENIED); } (void) strlcpy(si->shr_cmnt, new_si->shr_cmnt, sizeof (si->shr_cmnt)); adc_changed = (strcmp(new_si->shr_container, si->shr_container) != 0); if (adc_changed) { /* save current container - needed for unpublishing */ (void) strlcpy(old_container, si->shr_container, sizeof (old_container)); (void) strlcpy(si->shr_container, new_si->shr_container, sizeof (si->shr_container)); } flag = (new_si->shr_flags & SMB_SHRF_ABE); si->shr_flags &= ~SMB_SHRF_ABE; si->shr_flags |= flag; flag = (new_si->shr_flags & SMB_SHRF_CATIA); si->shr_flags &= ~SMB_SHRF_CATIA; si->shr_flags |= flag; flag = (new_si->shr_flags & SMB_SHRF_GUEST_OK); si->shr_flags &= ~SMB_SHRF_GUEST_OK; si->shr_flags |= flag; flag = (new_si->shr_flags & SMB_SHRF_DFSROOT); si->shr_flags &= ~SMB_SHRF_DFSROOT; si->shr_flags |= flag; flag = (new_si->shr_flags & SMB_SHRF_CSC_MASK); si->shr_flags &= ~SMB_SHRF_CSC_MASK; si->shr_flags |= flag; access = (new_si->shr_flags & SMB_SHRF_ACC_ALL); si->shr_flags &= ~SMB_SHRF_ACC_ALL; si->shr_flags |= access; if (access & SMB_SHRF_ACC_NONE) (void) strlcpy(si->shr_access_none, new_si->shr_access_none, sizeof (si->shr_access_none)); if (access & SMB_SHRF_ACC_RO) (void) strlcpy(si->shr_access_ro, new_si->shr_access_ro, sizeof (si->shr_access_ro)); if (access & SMB_SHRF_ACC_RW) (void) strlcpy(si->shr_access_rw, new_si->shr_access_rw, sizeof (si->shr_access_rw)); smb_shr_cache_unlock(); if (smb_shr_encode(si, &shrlist) == 0) { (void) smb_kmod_unshare(shrlist); nvlist_free(shrlist); if (smb_shr_encode(new_si, &shrlist) == 0) { (void) smb_kmod_share(shrlist); nvlist_free(shrlist); } } if (adc_changed) { smb_shr_unpublish(new_si->shr_name, old_container); smb_shr_publish(new_si->shr_name, new_si->shr_container); } return (NERR_Success); } /* * smb_shr_exists * * Returns B_TRUE if the share exists. Otherwise returns B_FALSE */ boolean_t smb_shr_exists(char *sharename) { boolean_t exists = B_FALSE; if (sharename == NULL || *sharename == '\0') return (B_FALSE); if (smb_shr_cache_lock(SMB_SHR_CACHE_RDLOCK) == NERR_Success) { exists = (smb_shr_cache_findent(sharename) != NULL); smb_shr_cache_unlock(); } return (exists); } /* * If the shared directory does not begin with a /, one will be * inserted as a prefix. If ipaddr is not zero, then also return * information about access based on the host level access lists, if * present. Also return access check if there is an IP address and * shr_accflags. * * The value of smb_chk_hostaccess is checked for an access match. * -1 is wildcard match * 0 is no match * 1 is match * * Precedence is none is checked first followed by ro then rw if * needed. If x is wildcard (< 0) then check to see if the other * values are a match. If a match, that wins. */ uint32_t smb_shr_hostaccess(smb_inaddr_t *ipaddr, char *none_list, char *ro_list, char *rw_list, uint32_t flag) { uint32_t acc = SMB_SHRF_ACC_NONE; int none = 0; int ro = 0; int rw = 0; if (!smb_inet_iszero(ipaddr)) { if ((flag & SMB_SHRF_ACC_NONE) != 0) none = smb_chk_hostaccess(ipaddr, none_list); if ((flag & SMB_SHRF_ACC_RO) != 0) ro = smb_chk_hostaccess(ipaddr, ro_list); if ((flag & SMB_SHRF_ACC_RW) != 0) rw = smb_chk_hostaccess(ipaddr, rw_list); /* make first pass to get basic value */ if (none != 0) acc = SMB_SHRF_ACC_NONE; else if (ro != 0) acc = SMB_SHRF_ACC_RO; else if (rw != 0) acc = SMB_SHRF_ACC_RW; /* make second pass to handle '*' case */ if (none < 0) { acc = SMB_SHRF_ACC_NONE; if (ro > 0) acc = SMB_SHRF_ACC_RO; else if (rw > 0) acc = SMB_SHRF_ACC_RW; } else if (ro < 0) { acc = SMB_SHRF_ACC_RO; if (none > 0) acc = SMB_SHRF_ACC_NONE; else if (rw > 0) acc = SMB_SHRF_ACC_RW; } else if (rw < 0) { acc = SMB_SHRF_ACC_RW; if (none > 0) acc = SMB_SHRF_ACC_NONE; else if (ro > 0) acc = SMB_SHRF_ACC_RO; } } return (acc); } /* * smb_shr_is_special * * Special share reserved for interprocess communication (IPC$) or * remote administration of the server (ADMIN$). Can also refer to * administrative shares such as C$, D$, E$, and so forth. */ int smb_shr_is_special(char *sharename) { int len; if (sharename == NULL) return (0); if ((len = strlen(sharename)) == 0) return (0); if (sharename[len - 1] == '$') return (STYPE_SPECIAL); return (0); } /* * smb_shr_is_restricted * * Check whether or not there is a restriction on a share. Restricted * shares are generally STYPE_SPECIAL, for example, IPC$. All the * administration share names are restricted: C$, D$ etc. Returns B_TRUE * if the share is restricted. Otherwise B_FALSE is returned to indicate * that there are no restrictions. */ boolean_t smb_shr_is_restricted(char *sharename) { static char *restricted[] = { "IPC$" }; int i; if (sharename == NULL) return (B_FALSE); for (i = 0; i < sizeof (restricted)/sizeof (restricted[0]); i++) { if (smb_strcasecmp(restricted[i], sharename, 0) == 0) return (B_TRUE); } return (smb_shr_is_admin(sharename)); } /* * smb_shr_is_admin * * Check whether or not access to the share should be restricted to * administrators. This is a bit of a hack because what we're doing * is checking for the default admin shares: C$, D$ etc.. There are * other shares that have restrictions: see smb_shr_is_restricted(). * * Returns B_TRUE if the shares is an admin share. Otherwise B_FALSE * is returned to indicate that there are no restrictions. */ boolean_t smb_shr_is_admin(char *sharename) { if (sharename == NULL) return (B_FALSE); if (strlen(sharename) == 2 && smb_isalpha(sharename[0]) && sharename[1] == '$') { return (B_TRUE); } return (B_FALSE); } char smb_shr_drive_letter(const char *path) { smb_transient_t *ts; int i; if (path == NULL) return ('\0'); for (i = 0; i < sizeof (tshare)/sizeof (tshare[0]); ++i) { ts = &tshare[i]; if (ts->path == NULL) continue; if (strcasecmp(ts->path, path) == 0) return (ts->drive); } return ('\0'); } /* * Returns true if the specified directory is empty, * otherwise returns false. */ static boolean_t smb_shr_is_empty(const char *path) { DIR *dirp; struct dirent *dp; if (path == NULL) return (B_TRUE); if ((dirp = opendir(path)) == NULL) return (B_TRUE); while ((dp = readdir(dirp)) != NULL) { if (!smb_shr_is_dot_or_dotdot(dp->d_name)) return (B_FALSE); } (void) closedir(dirp); return (B_TRUE); } /* * Returns true if name is "." or "..", otherwise returns false. */ static boolean_t smb_shr_is_dot_or_dotdot(const char *name) { if (*name != '.') return (B_FALSE); if ((name[1] == '\0') || (name[1] == '.' && name[2] == '\0')) return (B_TRUE); return (B_FALSE); } /* * smb_shr_get_realpath * * Derive the real path for a share from the path provided by a client. * For instance, the real path of C:\ may be /cvol or the real path of * F:\home may be /vol1/home. * * clntpath - path provided by the Windows client is in the * format of :\ * realpath - path that will be stored as the directory field of * the smb_share_t structure of the share. * maxlen - maximum length of the realpath buffer * * Return LAN Manager network error code. */ uint32_t smb_shr_get_realpath(const char *clntpath, char *realpath, int maxlen) { const char *p; int len; if ((p = strchr(clntpath, ':')) != NULL) ++p; else p = clntpath; (void) strlcpy(realpath, p, maxlen); (void) strcanon(realpath, "/\\"); (void) strsubst(realpath, '\\', '/'); len = strlen(realpath); if ((len > 1) && (realpath[len - 1] == '/')) realpath[len - 1] = '\0'; return (NERR_Success); } void smb_shr_list(int offset, smb_shrlist_t *list) { smb_shriter_t iterator; smb_share_t *si; int n = 0; bzero(list, sizeof (smb_shrlist_t)); smb_shr_iterinit(&iterator); while ((si = smb_shr_iterate(&iterator)) != NULL) { if (--offset > 0) continue; if ((si->shr_flags & SMB_SHRF_TRANS) && (!STYPE_ISIPC(si->shr_type))) { bcopy(si, &list->sl_shares[n], sizeof (smb_share_t)); if (++n == LMSHARES_PER_REQUEST) break; } } list->sl_cnt = n; } /* * Executes the map/unmap command associated with a share. * * Returns 0 on success. Otherwise non-zero for errors. */ int smb_shr_exec(smb_shr_execinfo_t *subs) { char cmd[MAXPATHLEN], **cmd_tokens, *path, *ptr; pid_t child_pid; int child_status; struct sigaction pact, cact; smb_share_t si; if (smb_shr_get(subs->e_sharename, &si) != 0) return (-1); *cmd = '\0'; (void) mutex_lock(&smb_shr_exec_mtx); switch (subs->e_type) { case SMB_EXEC_MAP: (void) strlcpy(cmd, smb_shr_exec_map, sizeof (cmd)); break; case SMB_EXEC_UNMAP: (void) strlcpy(cmd, smb_shr_exec_unmap, sizeof (cmd)); break; default: (void) mutex_unlock(&smb_shr_exec_mtx); return (-1); } (void) mutex_unlock(&smb_shr_exec_mtx); if (*cmd == '\0') return (0); if (smb_proc_takesem() != 0) return (-1); pact.sa_handler = smb_shr_sig_child; pact.sa_flags = 0; (void) sigemptyset(&pact.sa_mask); sigaction(SIGCHLD, &pact, NULL); (void) priv_set(PRIV_ON, PRIV_EFFECTIVE, PRIV_PROC_FORK, NULL); if ((child_pid = fork()) == -1) { (void) priv_set(PRIV_OFF, PRIV_EFFECTIVE, PRIV_PROC_FORK, NULL); smb_proc_givesem(); return (-1); } if (child_pid == 0) { /* child process */ cact.sa_handler = smb_shr_sig_abnormal_term; cact.sa_flags = 0; (void) sigemptyset(&cact.sa_mask); sigaction(SIGTERM, &cact, NULL); sigaction(SIGABRT, &cact, NULL); sigaction(SIGSEGV, &cact, NULL); if (priv_set(PRIV_ON, PRIV_EFFECTIVE, PRIV_PROC_EXEC, PRIV_FILE_DAC_EXECUTE, NULL)) _exit(-1); if (smb_shr_enable_all_privs()) _exit(-1); smb_proc_initsem(); (void) trim_whitespace(cmd); (void) strcanon(cmd, " "); if ((cmd_tokens = smb_shr_tokenize_cmd(cmd)) != NULL) { if (smb_shr_expand_subs(cmd_tokens, &si, subs) != 0) { free(cmd_tokens[0]); free(cmd_tokens); _exit(-1); } ptr = cmd; path = strsep(&ptr, " "); (void) execv(path, cmd_tokens); } _exit(-1); } (void) priv_set(PRIV_OFF, PRIV_EFFECTIVE, PRIV_PROC_FORK, NULL); smb_proc_givesem(); /* parent process */ while (waitpid(child_pid, &child_status, 0) < 0) { if (errno != EINTR) break; /* continue if waitpid got interrupted by a signal */ errno = 0; continue; } if (WIFEXITED(child_status)) return (WEXITSTATUS(child_status)); return (child_status); } /* * Locking for process-wide settings (i.e. privileges) */ void smb_proc_initsem(void) { (void) sema_init(&smb_proc_sem, 1, USYNC_THREAD, NULL); } int smb_proc_takesem(void) { return (sema_wait(&smb_proc_sem)); } void smb_proc_givesem(void) { (void) sema_post(&smb_proc_sem); } /* * ============================================ * Private helper/utility functions * ============================================ */ /* * Looks up the given share in the cache and return * the info in 'si' */ static uint32_t smb_shr_lookup(char *sharename, smb_share_t *si) { smb_share_t *cached_si; uint32_t status = NERR_NetNameNotFound; if (sharename == NULL || *sharename == '\0') return (NERR_NetNameNotFound); if (smb_shr_cache_lock(SMB_SHR_CACHE_RDLOCK) == NERR_Success) { cached_si = smb_shr_cache_findent(sharename); if (cached_si != NULL) { bcopy(cached_si, si, sizeof (smb_share_t)); status = NERR_Success; } smb_shr_cache_unlock(); } return (status); } /* * Add IPC$ or Admin shares to the cache upon startup. */ static uint32_t smb_shr_add_transient(char *name, char *cmnt, char *path) { smb_share_t trans; uint32_t status = NERR_InternalError; if (name == NULL) return (status); bzero(&trans, sizeof (smb_share_t)); (void) strlcpy(trans.shr_name, name, MAXNAMELEN); if (cmnt) (void) strlcpy(trans.shr_cmnt, cmnt, SMB_SHARE_CMNT_MAX); if (path) (void) strlcpy(trans.shr_path, path, MAXPATHLEN); if (strcasecmp(name, "IPC$") == 0) trans.shr_type = STYPE_IPC; trans.shr_flags = SMB_SHRF_TRANS; if (smb_shr_cache_lock(SMB_SHR_CACHE_WRLOCK) == NERR_Success) { status = smb_shr_cache_addent(&trans); smb_shr_cache_unlock(); } return (status); } /* * ============================================ * Cache management functions * * All cache functions are private * ============================================ */ /* * Create the share cache (hash table). */ static uint32_t smb_shr_cache_create(void) { uint32_t status = NERR_Success; (void) mutex_lock(&smb_shr_cache.sc_mtx); switch (smb_shr_cache.sc_state) { case SMB_SHR_CACHE_STATE_NONE: smb_shr_cache.sc_cache = ht_create_table(SMB_SHR_HTAB_SZ, MAXNAMELEN, 0); if (smb_shr_cache.sc_cache == NULL) { status = NERR_InternalError; break; } (void) ht_register_callback(smb_shr_cache.sc_cache, smb_shr_cache_freent); smb_shr_cache.sc_nops = 0; smb_shr_cache.sc_state = SMB_SHR_CACHE_STATE_CREATED; break; default: assert(0); status = NERR_InternalError; break; } (void) mutex_unlock(&smb_shr_cache.sc_mtx); return (status); } /* * Destroy the share cache (hash table). * Wait for inflight/pending operations to finish or abort before * destroying the cache. */ static void smb_shr_cache_destroy(void) { (void) mutex_lock(&smb_shr_cache.sc_mtx); if (smb_shr_cache.sc_state == SMB_SHR_CACHE_STATE_CREATED) { smb_shr_cache.sc_state = SMB_SHR_CACHE_STATE_DESTROYING; while (smb_shr_cache.sc_nops > 0) (void) cond_wait(&smb_shr_cache.sc_cv, &smb_shr_cache.sc_mtx); smb_shr_cache.sc_cache = NULL; smb_shr_cache.sc_state = SMB_SHR_CACHE_STATE_NONE; } (void) mutex_unlock(&smb_shr_cache.sc_mtx); } /* * If the cache is in "created" state, lock the cache for read * or read/write based on the specified mode. * * Whenever a lock is granted, the number of inflight cache * operations is incremented. */ static uint32_t smb_shr_cache_lock(int mode) { (void) mutex_lock(&smb_shr_cache.sc_mtx); if (smb_shr_cache.sc_state != SMB_SHR_CACHE_STATE_CREATED) { (void) mutex_unlock(&smb_shr_cache.sc_mtx); return (NERR_InternalError); } smb_shr_cache.sc_nops++; (void) mutex_unlock(&smb_shr_cache.sc_mtx); /* * Lock has to be taken outside the mutex otherwise * there could be a deadlock */ if (mode == SMB_SHR_CACHE_RDLOCK) (void) rw_rdlock(&smb_shr_cache.sc_cache_lck); else (void) rw_wrlock(&smb_shr_cache.sc_cache_lck); return (NERR_Success); } /* * Decrement the number of inflight operations and then unlock. */ static void smb_shr_cache_unlock(void) { (void) mutex_lock(&smb_shr_cache.sc_mtx); assert(smb_shr_cache.sc_nops > 0); smb_shr_cache.sc_nops--; (void) cond_broadcast(&smb_shr_cache.sc_cv); (void) mutex_unlock(&smb_shr_cache.sc_mtx); (void) rw_unlock(&smb_shr_cache.sc_cache_lck); } /* * Return the total number of shares */ static int smb_shr_cache_count(void) { return (ht_get_total_items(smb_shr_cache.sc_cache)); } /* * looks up the given share name in the cache and if it * finds a match returns a pointer to the cached entry. * Note that since a pointer is returned this function * MUST be protected by smb_shr_cache_lock/unlock pair */ static smb_share_t * smb_shr_cache_findent(char *sharename) { HT_ITEM *item; (void) smb_strlwr(sharename); item = ht_find_item(smb_shr_cache.sc_cache, sharename); if (item && item->hi_data) return ((smb_share_t *)item->hi_data); return (NULL); } /* * Return a pointer to the first/next entry in * the cache based on the given iterator. * * Calls to this function MUST be protected by * smb_shr_cache_lock/unlock. */ static smb_share_t * smb_shr_cache_iterate(smb_shriter_t *shi) { HT_ITEM *item; if (shi->si_first) { item = ht_findfirst(smb_shr_cache.sc_cache, &shi->si_hashiter); shi->si_first = B_FALSE; } else { item = ht_findnext(&shi->si_hashiter); } if (item && item->hi_data) return ((smb_share_t *)item->hi_data); return (NULL); } /* * Add the specified share to the cache. Memory needs to be allocated * for the cache entry and the passed information is copied to the * allocated space. */ static uint32_t smb_shr_cache_addent(smb_share_t *si) { smb_share_t *cache_ent; uint32_t status = NERR_Success; if ((cache_ent = malloc(sizeof (smb_share_t))) == NULL) return (ERROR_NOT_ENOUGH_MEMORY); (void) smb_strlwr(si->shr_name); si->shr_type |= smb_shr_is_special(cache_ent->shr_name); if (smb_shr_is_admin(cache_ent->shr_name)) si->shr_flags |= SMB_SHRF_ADMIN; bcopy(si, cache_ent, sizeof (smb_share_t)); if (si->shr_flags & SMB_SHRF_AUTOHOME) cache_ent->shr_refcnt = 1; if (ht_add_item(smb_shr_cache.sc_cache, cache_ent->shr_name, cache_ent) == NULL) { syslog(LOG_DEBUG, "share: %s: cache update failed", cache_ent->shr_name); free(cache_ent); status = NERR_InternalError; } return (status); } /* * Delete the specified share from the cache. */ static void smb_shr_cache_delent(char *sharename) { (void) smb_strlwr(sharename); (void) ht_remove_item(smb_shr_cache.sc_cache, sharename); } /* * Call back to free the given cache entry. */ static void smb_shr_cache_freent(HT_ITEM *item) { if (item && item->hi_data) free(item->hi_data); } /* * ============================================ * Interfaces to sharemgr * * All functions in this section are private * ============================================ */ /* * Load shares from sharemgr */ /*ARGSUSED*/ void * smb_shr_load(void *args) { sa_handle_t handle; sa_group_t group, subgroup; char *gstate; boolean_t gdisabled; (void) mutex_lock(&smb_shr_exec_mtx); (void) smb_config_get_execinfo(smb_shr_exec_map, smb_shr_exec_unmap, MAXPATHLEN); (void) mutex_unlock(&smb_shr_exec_mtx); if ((handle = smb_shr_sa_enter()) == NULL) { syslog(LOG_ERR, "smb_shr_load: load failed"); return (NULL); } for (group = sa_get_group(handle, NULL); group != NULL; group = sa_get_next_group(group)) { gstate = sa_get_group_attr(group, "state"); if (gstate == NULL) continue; gdisabled = (strcasecmp(gstate, "disabled") == 0); sa_free_attr_string(gstate); if (gdisabled) continue; smb_shr_sa_loadgrp(group); for (subgroup = sa_get_sub_group(group); subgroup != NULL; subgroup = sa_get_next_group(subgroup)) { smb_shr_sa_loadgrp(subgroup); } } smb_shr_sa_exit(); return (NULL); } /* * Load the shares contained in the specified group. * * Don't process groups on which the smb protocol is disabled. * The top level ZFS group won't have the smb protocol enabled * but sub-groups will. * * We will tolerate a limited number of errors and then give * up on the current group. A typical error might be that the * shared directory no longer exists. */ static void smb_shr_sa_loadgrp(sa_group_t group) { sa_share_t share; sa_resource_t resource; int error_count = 0; if (sa_get_optionset(group, SMB_PROTOCOL_NAME) == NULL) return; for (share = sa_get_share(group, NULL); share != NULL; share = sa_get_next_share(share)) { for (resource = sa_get_share_resource(share, NULL); resource != NULL; resource = sa_get_next_resource(resource)) { if (smb_shr_sa_load(share, resource)) ++error_count; if (error_count > SMB_SHR_ERROR_THRESHOLD) break; } if (error_count > SMB_SHR_ERROR_THRESHOLD) break; } } /* * Load a share definition from sharemgr and add it to the cache. * If the share is already in the cache then it doesn't do anything. * * This function does not report duplicate shares as error since * a share might have been added by smb_shr_get() while load is * in progress. */ static uint32_t smb_shr_sa_load(sa_share_t share, sa_resource_t resource) { smb_share_t si; char *sharename; uint32_t status; boolean_t loaded; if ((sharename = sa_get_resource_attr(resource, "name")) == NULL) return (NERR_InternalError); loaded = smb_shr_exists(sharename); sa_free_attr_string(sharename); if (loaded) return (NERR_Success); if ((status = smb_shr_sa_get(share, resource, &si)) != NERR_Success) { syslog(LOG_DEBUG, "share: failed to load %s (%d)", si.shr_name, status); return (status); } status = smb_shr_add(&si); if ((status != NERR_Success) && (status != NERR_DuplicateShare)) { syslog(LOG_DEBUG, "share: failed to cache %s (%d)", si.shr_name, status); return (status); } return (NERR_Success); } static char * smb_shr_sa_getprop(sa_optionset_t opts, char *propname) { sa_property_t prop; char *val = NULL; prop = sa_get_property(opts, propname); if (prop != NULL) val = sa_get_property_attr(prop, "value"); return (val); } /* * Read the specified share information from sharemgr and return * it in the given smb_share_t structure. * * Shares read from sharemgr are marked as permanent/persistent. */ static uint32_t smb_shr_sa_get(sa_share_t share, sa_resource_t resource, smb_share_t *si) { sa_optionset_t opts; char *val = NULL; char *path; char *rname; if ((path = sa_get_share_attr(share, "path")) == NULL) return (NERR_InternalError); if ((rname = sa_get_resource_attr(resource, "name")) == NULL) { sa_free_attr_string(path); return (NERR_InternalError); } bzero(si, sizeof (smb_share_t)); si->shr_flags = SMB_SHRF_PERM; (void) strlcpy(si->shr_path, path, sizeof (si->shr_path)); (void) strlcpy(si->shr_name, rname, sizeof (si->shr_name)); sa_free_attr_string(path); sa_free_attr_string(rname); val = sa_get_resource_description(resource); if (val == NULL) val = sa_get_share_description(share); if (val != NULL) { (void) strlcpy(si->shr_cmnt, val, sizeof (si->shr_cmnt)); sa_free_share_description(val); } opts = sa_get_derived_optionset(resource, SMB_PROTOCOL_NAME, 1); if (opts == NULL) return (NERR_Success); val = smb_shr_sa_getprop(opts, SHOPT_AD_CONTAINER); if (val != NULL) { (void) strlcpy(si->shr_container, val, sizeof (si->shr_container)); free(val); } val = smb_shr_sa_getprop(opts, SHOPT_CATIA); if (val != NULL) { smb_shr_sa_setflag(val, si, SMB_SHRF_CATIA); free(val); } val = smb_shr_sa_getprop(opts, SHOPT_ABE); if (val != NULL) { smb_shr_sa_setflag(val, si, SMB_SHRF_ABE); free(val); } val = smb_shr_sa_getprop(opts, SHOPT_GUEST); if (val != NULL) { smb_shr_sa_setflag(val, si, SMB_SHRF_GUEST_OK); free(val); } val = smb_shr_sa_getprop(opts, SHOPT_DFSROOT); if (val != NULL) { smb_shr_sa_setflag(val, si, SMB_SHRF_DFSROOT); free(val); } val = smb_shr_sa_getprop(opts, SHOPT_CSC); if (val != NULL) { smb_shr_sa_csc_option(val, si); free(val); } val = smb_shr_sa_getprop(opts, SHOPT_NONE); if (val != NULL) { (void) strlcpy(si->shr_access_none, val, sizeof (si->shr_access_none)); free(val); si->shr_flags |= SMB_SHRF_ACC_NONE; } val = smb_shr_sa_getprop(opts, SHOPT_RO); if (val != NULL) { (void) strlcpy(si->shr_access_ro, val, sizeof (si->shr_access_ro)); free(val); si->shr_flags |= SMB_SHRF_ACC_RO; } val = smb_shr_sa_getprop(opts, SHOPT_RW); if (val != NULL) { (void) strlcpy(si->shr_access_rw, val, sizeof (si->shr_access_rw)); free(val); si->shr_flags |= SMB_SHRF_ACC_RW; } sa_free_derived_optionset(opts); return (NERR_Success); } /* * Map a client-side caching (CSC) option to the appropriate share * flag. Only one option is allowed; an error will be logged if * multiple options have been specified. We don't need to do anything * about multiple values here because the SRVSVC will not recognize * a value containing multiple flags and will return the default value. * * If the option value is not recognized, it will be ignored: invalid * values will typically be caught and rejected by sharemgr. */ void smb_shr_sa_csc_option(const char *value, smb_share_t *si) { int i; for (i = 0; i < (sizeof (cscopt) / sizeof (cscopt[0])); ++i) { if (strcasecmp(value, cscopt[i].value) == 0) { si->shr_flags |= cscopt[i].flag; break; } } switch (si->shr_flags & SMB_SHRF_CSC_MASK) { case 0: case SMB_SHRF_CSC_DISABLED: case SMB_SHRF_CSC_MANUAL: case SMB_SHRF_CSC_AUTO: case SMB_SHRF_CSC_VDO: break; default: syslog(LOG_INFO, "csc option conflict: 0x%08x", si->shr_flags & SMB_SHRF_CSC_MASK); break; } } /* * Return the option name for the first CSC flag (there should be only * one) encountered in the share flags. */ char * smb_shr_sa_csc_name(const smb_share_t *si) { int i; for (i = 0; i < (sizeof (cscopt) / sizeof (cscopt[0])); ++i) { if (si->shr_flags & cscopt[i].flag) return (cscopt[i].value); } return (NULL); } /* * Takes the value of a boolean share property and set/clear the * specified flag based on the property's value. */ void smb_shr_sa_setflag(const char *value, smb_share_t *si, uint32_t flag) { if ((strcasecmp(value, "true") == 0) || (strcmp(value, "1") == 0)) si->shr_flags |= flag; else si->shr_flags &= ~flag; } /* * looks up sharemgr for the given share (resource) and loads * the definition into cache if lookup is successful */ static uint32_t smb_shr_sa_loadbyname(char *sharename) { sa_handle_t handle; sa_share_t share; sa_resource_t resource; uint32_t status; if ((handle = smb_shr_sa_enter()) == NULL) return (NERR_InternalError); resource = sa_find_resource(handle, sharename); if (resource == NULL) { smb_shr_sa_exit(); return (NERR_NetNameNotFound); } share = sa_get_resource_parent(resource); if (share == NULL) { smb_shr_sa_exit(); return (NERR_InternalError); } status = smb_shr_sa_load(share, resource); smb_shr_sa_exit(); return (status); } /* * ============================================ * Share publishing functions * * All the functions are private * ============================================ */ static void smb_shr_publish(const char *sharename, const char *container) { smb_shr_publisher_queue(sharename, container, SMB_SHR_PUBLISH); } static void smb_shr_unpublish(const char *sharename, const char *container) { smb_shr_publisher_queue(sharename, container, SMB_SHR_UNPUBLISH); } /* * In domain mode, put a share on the publisher queue. * This is a no-op if the smb service is in Workgroup mode. */ static void smb_shr_publisher_queue(const char *sharename, const char *container, char op) { smb_shr_pitem_t *item = NULL; if (container == NULL || *container == '\0') return; if (smb_config_get_secmode() != SMB_SECMODE_DOMAIN) return; (void) mutex_lock(&ad_queue.spq_mtx); switch (ad_queue.spq_state) { case SMB_SHR_PQS_READY: case SMB_SHR_PQS_PUBLISHING: break; default: (void) mutex_unlock(&ad_queue.spq_mtx); return; } (void) mutex_unlock(&ad_queue.spq_mtx); if ((item = malloc(sizeof (smb_shr_pitem_t))) == NULL) return; item->spi_op = op; (void) strlcpy(item->spi_name, sharename, sizeof (item->spi_name)); (void) strlcpy(item->spi_container, container, sizeof (item->spi_container)); (void) mutex_lock(&ad_queue.spq_mtx); list_insert_tail(&ad_queue.spq_list, item); (void) cond_signal(&ad_queue.spq_cv); (void) mutex_unlock(&ad_queue.spq_mtx); } /* * Publishing won't be activated if the smb service is running in * Workgroup mode. */ static int smb_shr_publisher_start(void) { pthread_t publish_thr; pthread_attr_t tattr; int rc; if (smb_config_get_secmode() != SMB_SECMODE_DOMAIN) return (0); (void) mutex_lock(&ad_queue.spq_mtx); if (ad_queue.spq_state != SMB_SHR_PQS_NOQUEUE) { (void) mutex_unlock(&ad_queue.spq_mtx); errno = EINVAL; return (-1); } list_create(&ad_queue.spq_list, sizeof (smb_shr_pitem_t), offsetof(smb_shr_pitem_t, spi_lnd)); ad_queue.spq_state = SMB_SHR_PQS_READY; (void) mutex_unlock(&ad_queue.spq_mtx); (void) pthread_attr_init(&tattr); (void) pthread_attr_setdetachstate(&tattr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&publish_thr, &tattr, smb_shr_publisher, 0); (void) pthread_attr_destroy(&tattr); return (rc); } static void smb_shr_publisher_stop(void) { if (smb_config_get_secmode() != SMB_SECMODE_DOMAIN) return; (void) mutex_lock(&ad_queue.spq_mtx); switch (ad_queue.spq_state) { case SMB_SHR_PQS_READY: case SMB_SHR_PQS_PUBLISHING: ad_queue.spq_state = SMB_SHR_PQS_STOPPING; (void) cond_signal(&ad_queue.spq_cv); break; default: break; } (void) mutex_unlock(&ad_queue.spq_mtx); } /* * This is the publisher daemon thread. While running, the thread waits * on a conditional variable until notified that a share needs to be * [un]published or that the thread should be terminated. * * Entries may remain in the outgoing queue if the Active Directory * service is inaccessible, in which case the thread wakes up every 60 * seconds to retry. */ /*ARGSUSED*/ static void * smb_shr_publisher(void *arg) { smb_ads_handle_t *ah; smb_shr_pitem_t *shr; list_t publist; timestruc_t pubretry; char hostname[MAXHOSTNAMELEN]; (void) mutex_lock(&ad_queue.spq_mtx); if (ad_queue.spq_state != SMB_SHR_PQS_READY) { (void) mutex_unlock(&ad_queue.spq_mtx); return (NULL); } ad_queue.spq_state = SMB_SHR_PQS_PUBLISHING; (void) mutex_unlock(&ad_queue.spq_mtx); (void) smb_gethostname(hostname, MAXHOSTNAMELEN, SMB_CASE_PRESERVE); list_create(&publist, sizeof (smb_shr_pitem_t), offsetof(smb_shr_pitem_t, spi_lnd)); for (;;) { (void) mutex_lock(&ad_queue.spq_mtx); while (list_is_empty(&ad_queue.spq_list) && (ad_queue.spq_state == SMB_SHR_PQS_PUBLISHING)) { if (list_is_empty(&publist)) { (void) cond_wait(&ad_queue.spq_cv, &ad_queue.spq_mtx); } else { pubretry.tv_sec = 60; pubretry.tv_nsec = 0; (void) cond_reltimedwait(&ad_queue.spq_cv, &ad_queue.spq_mtx, &pubretry); break; } } if (ad_queue.spq_state != SMB_SHR_PQS_PUBLISHING) { (void) mutex_unlock(&ad_queue.spq_mtx); break; } /* * Transfer queued items to the local list so that * the mutex can be released. */ while ((shr = list_head(&ad_queue.spq_list)) != NULL) { list_remove(&ad_queue.spq_list, shr); list_insert_tail(&publist, shr); } (void) mutex_unlock(&ad_queue.spq_mtx); if ((ah = smb_ads_open()) != NULL) { smb_shr_publisher_send(ah, &publist, hostname); smb_ads_close(ah); } } (void) mutex_lock(&ad_queue.spq_mtx); smb_shr_publisher_flush(&ad_queue.spq_list); list_destroy(&ad_queue.spq_list); ad_queue.spq_state = SMB_SHR_PQS_NOQUEUE; (void) mutex_unlock(&ad_queue.spq_mtx); smb_shr_publisher_flush(&publist); list_destroy(&publist); return (NULL); } /* * Remove items from the specified queue and [un]publish them. */ static void smb_shr_publisher_send(smb_ads_handle_t *ah, list_t *publist, const char *host) { smb_shr_pitem_t *shr; while ((shr = list_head(publist)) != NULL) { (void) mutex_lock(&ad_queue.spq_mtx); if (ad_queue.spq_state != SMB_SHR_PQS_PUBLISHING) { (void) mutex_unlock(&ad_queue.spq_mtx); return; } (void) mutex_unlock(&ad_queue.spq_mtx); list_remove(publist, shr); if (shr->spi_op == SMB_SHR_PUBLISH) (void) smb_ads_publish_share(ah, shr->spi_name, NULL, shr->spi_container, host); else (void) smb_ads_remove_share(ah, shr->spi_name, NULL, shr->spi_container, host); free(shr); } } /* * Flush all remaining items from the specified list/queue. */ static void smb_shr_publisher_flush(list_t *lst) { smb_shr_pitem_t *shr; while ((shr = list_head(lst)) != NULL) { list_remove(lst, shr); free(shr); } } /* * If the share path refers to a ZFS file system, add the * .zfs/shares/ object and call smb_quota_add_fs() * to initialize quota support for the share. */ static void smb_shr_zfs_add(smb_share_t *si) { libzfs_handle_t *libhd; zfs_handle_t *zfshd; int ret; char buf[MAXPATHLEN]; /* dataset or mountpoint */ if (smb_getdataset(si->shr_path, buf, MAXPATHLEN) != 0) return; if ((libhd = libzfs_init()) == NULL) return; if ((zfshd = zfs_open(libhd, buf, ZFS_TYPE_FILESYSTEM)) == NULL) { libzfs_fini(libhd); return; } errno = 0; ret = zfs_smb_acl_add(libhd, buf, si->shr_path, si->shr_name); if (ret != 0 && errno != EAGAIN && errno != EEXIST) syslog(LOG_INFO, "share: failed to add ACL object: %s: %s\n", si->shr_name, strerror(errno)); if (zfs_prop_get(zfshd, ZFS_PROP_MOUNTPOINT, buf, MAXPATHLEN, NULL, NULL, 0, B_FALSE) == 0) { smb_quota_add_fs(buf); } zfs_close(zfshd); libzfs_fini(libhd); } /* * If the share path refers to a ZFS file system, remove the * .zfs/shares/ object, and call smb_quota_remove_fs() * to end quota support for the share. */ static void smb_shr_zfs_remove(smb_share_t *si) { libzfs_handle_t *libhd; zfs_handle_t *zfshd; int ret; char buf[MAXPATHLEN]; /* dataset or mountpoint */ if (smb_getdataset(si->shr_path, buf, MAXPATHLEN) != 0) return; if ((libhd = libzfs_init()) == NULL) return; if ((zfshd = zfs_open(libhd, buf, ZFS_TYPE_FILESYSTEM)) == NULL) { libzfs_fini(libhd); return; } errno = 0; ret = zfs_smb_acl_remove(libhd, buf, si->shr_path, si->shr_name); if (ret != 0 && errno != EAGAIN) syslog(LOG_INFO, "share: failed to remove ACL object: %s: %s\n", si->shr_name, strerror(errno)); if (zfs_prop_get(zfshd, ZFS_PROP_MOUNTPOINT, buf, MAXPATHLEN, NULL, NULL, 0, B_FALSE) == 0) { smb_quota_remove_fs(buf); } zfs_close(zfshd); libzfs_fini(libhd); } /* * If the share path refers to a ZFS file system, rename the * .zfs/shares/ object. */ static void smb_shr_zfs_rename(smb_share_t *from, smb_share_t *to) { libzfs_handle_t *libhd; zfs_handle_t *zfshd; int ret; char dataset[MAXPATHLEN]; if (smb_getdataset(from->shr_path, dataset, MAXPATHLEN) != 0) return; if ((libhd = libzfs_init()) == NULL) return; if ((zfshd = zfs_open(libhd, dataset, ZFS_TYPE_FILESYSTEM)) == NULL) { libzfs_fini(libhd); return; } errno = 0; ret = zfs_smb_acl_rename(libhd, dataset, from->shr_path, from->shr_name, to->shr_name); if (ret != 0 && errno != EAGAIN) syslog(LOG_INFO, "share: failed to rename ACL object: %s: %s\n", from->shr_name, strerror(errno)); zfs_close(zfshd); libzfs_fini(libhd); } /* * Enable all privileges in the inheritable set to execute command. */ static int smb_shr_enable_all_privs(void) { priv_set_t *pset; pset = priv_allocset(); if (pset == NULL) return (-1); if (getppriv(PRIV_LIMIT, pset)) { priv_freeset(pset); return (-1); } if (setppriv(PRIV_ON, PRIV_INHERITABLE, pset)) { priv_freeset(pset); return (-1); } priv_freeset(pset); return (0); } /* * Tokenizes the command string and returns the list of tokens in an array. * * Returns NULL if there are no tokens. */ static char ** smb_shr_tokenize_cmd(char *cmdstr) { char *cmd, *buf, *bp, *value; char **argv, **ap; int argc, i; if (cmdstr == NULL || *cmdstr == '\0') return (NULL); if ((buf = malloc(MAXPATHLEN)) == NULL) return (NULL); (void) strlcpy(buf, cmdstr, MAXPATHLEN); for (argc = 2, bp = cmdstr; *bp != '\0'; ++bp) if (*bp == ' ') ++argc; if ((argv = calloc(argc, sizeof (char *))) == NULL) { free(buf); return (NULL); } ap = argv; for (bp = buf, i = 0; i < argc; ++i) { do { if ((value = strsep(&bp, " ")) == NULL) break; } while (*value == '\0'); if (value == NULL) break; *ap++ = value; } /* get the filename of the command from the path */ if ((cmd = strrchr(argv[0], '/')) != NULL) (void) strlcpy(argv[0], ++cmd, strlen(argv[0])); return (argv); } /* * Expands the command string for the following substitution tokens: * * %U - Windows username * %D - Name of the domain or workgroup of %U * %h - The server hostname * %M - The client hostname * %L - The server NetBIOS name * %m - The client NetBIOS name. This option is only valid for NetBIOS * connections (port 139). * %I - The IP address of the client machine * %i - The local IP address to which the client is connected * %S - The name of the share * %P - The root directory of the share * %u - The UID of the Unix user * * Returns 0 on success. Otherwise -1. */ static int smb_shr_expand_subs(char **cmd_toks, smb_share_t *si, smb_shr_execinfo_t *subs) { char *fmt, *sub_chr, *ptr; boolean_t unknown; char hostname[MAXHOSTNAMELEN]; char ip_str[INET6_ADDRSTRLEN]; char name[SMB_PI_MAX_HOST]; smb_wchar_t wbuf[SMB_PI_MAX_HOST]; int i; if (cmd_toks == NULL || *cmd_toks == NULL) return (-1); for (i = 1; cmd_toks[i]; i++) { fmt = cmd_toks[i]; if (*fmt == '%') { sub_chr = fmt + 1; unknown = B_FALSE; switch (*sub_chr) { case 'U': ptr = strdup(subs->e_winname); break; case 'D': ptr = strdup(subs->e_userdom); break; case 'h': if (gethostname(hostname, MAXHOSTNAMELEN) != 0) unknown = B_TRUE; else ptr = strdup(hostname); break; case 'M': if (smb_getnameinfo(&subs->e_cli_ipaddr, hostname, sizeof (hostname), 0) != 0) unknown = B_TRUE; else ptr = strdup(hostname); break; case 'L': if (smb_getnetbiosname(hostname, NETBIOS_NAME_SZ) != 0) unknown = B_TRUE; else ptr = strdup(hostname); break; case 'm': if (*subs->e_cli_netbiosname == '\0') unknown = B_TRUE; else { (void) smb_mbstowcs(wbuf, subs->e_cli_netbiosname, SMB_PI_MAX_HOST - 1); if (ucstooem(name, wbuf, SMB_PI_MAX_HOST, OEM_CPG_850) == 0) (void) strlcpy(name, subs->e_cli_netbiosname, SMB_PI_MAX_HOST); ptr = strdup(name); } break; case 'I': if (smb_inet_ntop(&subs->e_cli_ipaddr, ip_str, SMB_IPSTRLEN(subs->e_cli_ipaddr.a_family)) != NULL) ptr = strdup(ip_str); else unknown = B_TRUE; break; case 'i': if (smb_inet_ntop(&subs->e_srv_ipaddr, ip_str, SMB_IPSTRLEN(subs->e_srv_ipaddr.a_family)) != NULL) ptr = strdup(ip_str); else unknown = B_TRUE; break; case 'S': ptr = strdup(si->shr_name); break; case 'P': ptr = strdup(si->shr_path); break; case 'u': (void) snprintf(name, sizeof (name), "%u", subs->e_uid); ptr = strdup(name); break; default: /* unknown sub char */ unknown = B_TRUE; break; } if (unknown) ptr = strdup(""); } else /* first char of cmd's arg is not '%' char */ ptr = strdup(""); cmd_toks[i] = ptr; if (ptr == NULL) { for (i = 1; cmd_toks[i]; i++) free(cmd_toks[i]); return (-1); } } return (0); } /*ARGSUSED*/ static void smb_shr_sig_abnormal_term(int sig_val) { /* * Calling _exit() prevents parent process from getting SIGTERM/SIGINT * signal. */ _exit(-1); } /*ARGSUSED*/ static void smb_shr_sig_child(int sig_val) { /* * Catch the signal and allow the exit status of the child process * to be available for reaping. */ } /* * This is a temporary function which converts the given smb_share_t * structure to the nvlist format that will be provided by libsharev2 */ static int smb_shr_encode(smb_share_t *si, nvlist_t **nvlist) { nvlist_t *list; nvlist_t *share; nvlist_t *smb; char *csc; int rc = 0; *nvlist = NULL; if ((rc = nvlist_alloc(&list, NV_UNIQUE_NAME, 0)) != 0) return (rc); if ((rc = nvlist_alloc(&share, NV_UNIQUE_NAME, 0)) != 0) { nvlist_free(list); return (rc); } if ((rc = nvlist_alloc(&smb, NV_UNIQUE_NAME, 0)) != 0) { nvlist_free(share); nvlist_free(list); return (rc); } /* global share properties */ rc |= nvlist_add_string(share, "name", si->shr_name); rc |= nvlist_add_string(share, "path", si->shr_path); rc |= nvlist_add_string(share, "desc", si->shr_cmnt); /* smb protocol properties */ rc = nvlist_add_string(smb, SHOPT_AD_CONTAINER, si->shr_container); if ((si->shr_flags & SMB_SHRF_ACC_NONE) != 0) rc |= nvlist_add_string(smb, SHOPT_NONE, si->shr_access_none); if ((si->shr_flags & SMB_SHRF_ACC_RO) != 0) rc |= nvlist_add_string(smb, SHOPT_RO, si->shr_access_ro); if ((si->shr_flags & SMB_SHRF_ACC_RW) != 0) rc |= nvlist_add_string(smb, SHOPT_RW, si->shr_access_rw); if ((si->shr_flags & SMB_SHRF_ABE) != 0) rc |= nvlist_add_string(smb, SHOPT_ABE, "true"); if ((si->shr_flags & SMB_SHRF_CATIA) != 0) rc |= nvlist_add_string(smb, SHOPT_CATIA, "true"); if ((si->shr_flags & SMB_SHRF_GUEST_OK) != 0) rc |= nvlist_add_string(smb, SHOPT_GUEST, "true"); if ((si->shr_flags & SMB_SHRF_DFSROOT) != 0) rc |= nvlist_add_string(smb, SHOPT_DFSROOT, "true"); if ((si->shr_flags & SMB_SHRF_AUTOHOME) != 0) { rc |= nvlist_add_string(smb, "Autohome", "true"); rc |= nvlist_add_uint32(smb, "uid", si->shr_uid); rc |= nvlist_add_uint32(smb, "gid", si->shr_gid); } if ((csc = smb_shr_sa_csc_name(si)) != NULL) rc |= nvlist_add_string(smb, SHOPT_CSC, csc); rc |= nvlist_add_uint32(smb, "type", si->shr_type); rc |= nvlist_add_nvlist(share, "smb", smb); rc |= nvlist_add_nvlist(list, si->shr_name, share); nvlist_free(share); nvlist_free(smb); if (rc != 0) nvlist_free(list); else *nvlist = list; return (rc); }