/* * 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. */ /* * 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 | * +-------+ +------+ +------+ * * * Tree State Machine * ------------------ * * +-----------------------------+ T0 * | SMB_TREE_STATE_CONNECTED |<----------- Creation/Allocation * +-----------------------------+ * | * | T1 * | * v * +------------------------------+ * | SMB_TREE_STATE_DISCONNECTING | * +------------------------------+ * | * | T2 * | * v * +-----------------------------+ T3 * | SMB_TREE_STATE_DISCONNECTED |----------> Deletion/Free * +-----------------------------+ * * SMB_TREE_STATE_CONNECTED * * While in this state: * - The tree is queued in the list of trees of its user. * - References will be given out if the tree is looked up. * - Files under that tree can be accessed. * * SMB_TREE_STATE_DISCONNECTING * * While in this state: * - The tree is queued in the list of trees of its user. * - References will not be given out if the tree is looked up. * - The files and directories open under the tree are being closed. * - The resources associated with the tree remain. * * SMB_TREE_STATE_DISCONNECTED * * While in this state: * - The tree is queued in the list of trees of its user. * - References will not be given out if the tree is looked up. * - The tree has no more files and directories opened. * - The resources associated with the tree remain. * * Transition T0 * * This transition occurs in smb_tree_connect(). A new tree is created and * added to the list of trees of a user. * * Transition T1 * * This transition occurs in smb_tree_disconnect(). * * Transition T2 * * This transition occurs in smb_tree_release(). The resources associated * with the tree are freed as well as the tree structure. For the transition * to occur, the tree must be in the SMB_TREE_STATE_DISCONNECTED state and * the reference count be zero. * * Comments * -------- * * The state machine of the tree structures is controlled by 3 elements: * - The list of trees of the user it belongs to. * - The mutex embedded in the structure itself. * - The reference count. * * There's a mutex embedded in the tree structure used to protect its fields * and there's a lock embedded in the list of trees of a user. To * increment or to decrement the reference count the mutex must be entered. * To insert the tree into the list of trees of the user and to remove * the tree from it, the lock must be entered in RW_WRITER mode. * * Rules of access to a tree structure: * * 1) In order to avoid deadlocks, when both (mutex and lock of the user * list) have to be entered, the lock must be entered first. * * 2) All actions applied to a tree require a reference count. * * 3) There are 2 ways of getting a reference count: when a tree is * connected and when a tree is looked up. * * It should be noted that the reference count of a tree registers the * number of references to the tree in other structures (such as an smb * request). The reference count is not incremented in these 2 instances: * * 1) The tree is connected. An tree is anchored by his state. If there's * no activity involving a tree currently connected, the reference * count of that tree is zero. * * 2) The tree is queued in the list of trees of the user. The fact of * being queued in that list is NOT registered by incrementing the * reference count. */ #include #include #include #include #include int smb_tcon_mute = 0; static smb_tree_t *smb_tree_connect_core(smb_request_t *); static smb_tree_t *smb_tree_connect_disk(smb_request_t *, const char *); static smb_tree_t *smb_tree_connect_printq(smb_request_t *, const char *); static smb_tree_t *smb_tree_connect_ipc(smb_request_t *, const char *); static smb_tree_t *smb_tree_alloc(smb_user_t *, const smb_kshare_t *, smb_node_t *, uint32_t, uint32_t); static boolean_t smb_tree_is_connected_locked(smb_tree_t *); static boolean_t smb_tree_is_disconnected(smb_tree_t *); static const char *smb_tree_get_sharename(const char *); static int smb_tree_getattr(const smb_kshare_t *, smb_node_t *, smb_tree_t *); static void smb_tree_get_volname(vfs_t *, smb_tree_t *); static void smb_tree_get_flags(const smb_kshare_t *, vfs_t *, smb_tree_t *); static void smb_tree_log(smb_request_t *, const char *, const char *, ...); static void smb_tree_close_odirs(smb_tree_t *, uint16_t); static smb_ofile_t *smb_tree_get_ofile(smb_tree_t *, smb_ofile_t *); static smb_odir_t *smb_tree_get_odir(smb_tree_t *, smb_odir_t *); static void smb_tree_set_execinfo(smb_tree_t *, smb_shr_execinfo_t *, int); static int smb_tree_enum_private(smb_tree_t *, smb_svcenum_t *); static int smb_tree_netinfo_encode(smb_tree_t *, uint8_t *, size_t, uint32_t *); static void smb_tree_netinfo_init(smb_tree_t *tree, smb_netconnectinfo_t *); static void smb_tree_netinfo_fini(smb_netconnectinfo_t *); smb_tree_t * smb_tree_connect(smb_request_t *sr) { smb_tree_t *tree; smb_server_t *sv = sr->sr_server; if (smb_threshold_enter(&sv->sv_tcon_ct) != 0) { smbsr_error(sr, RPC_NT_SERVER_TOO_BUSY, 0, 0); return (NULL); } tree = smb_tree_connect_core(sr); smb_threshold_exit(&sv->sv_tcon_ct, sv); return (tree); } /* * Lookup the share name dispatch the appropriate stype handler. * Share names are case insensitive so we map the share name to * lower-case as a convenience for internal processing. * * Valid service values are: * A: Disk share * LPT1: Printer * IPC Named pipe (IPC$ is reserved as the named pipe share). * COMM Communications device * ????? Any type of device (wildcard) */ static smb_tree_t * smb_tree_connect_core(smb_request_t *sr) { char *unc_path = sr->sr_tcon.path; smb_tree_t *tree = NULL; smb_kshare_t *si; const char *name; (void) smb_strlwr(unc_path); if ((name = smb_tree_get_sharename(unc_path)) == NULL) { smb_tree_log(sr, name, "invalid UNC path"); smbsr_error(sr, 0, ERRSRV, ERRinvnetname); return (NULL); } if ((si = smb_kshare_lookup(name)) == NULL) { smb_tree_log(sr, name, "share not found"); smbsr_error(sr, 0, ERRSRV, ERRinvnetname); return (NULL); } if (!strcasecmp(SMB_SHARE_PRINT, name)) { smb_kshare_release(si); smb_tree_log(sr, name, "access not permitted"); smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRSRV, ERRaccess); return (NULL); } sr->sr_tcon.si = si; switch (si->shr_type & STYPE_MASK) { case STYPE_DISKTREE: tree = smb_tree_connect_disk(sr, name); break; case STYPE_IPC: tree = smb_tree_connect_ipc(sr, name); break; case STYPE_PRINTQ: tree = smb_tree_connect_printq(sr, name); break; default: smbsr_error(sr, NT_STATUS_BAD_DEVICE_TYPE, ERRDOS, ERROR_BAD_DEV_TYPE); break; } smb_kshare_release(si); return (tree); } /* * Disconnect a tree. */ void smb_tree_disconnect(smb_tree_t *tree, boolean_t do_exec) { smb_shr_execinfo_t execinfo; ASSERT(tree->t_magic == SMB_TREE_MAGIC); mutex_enter(&tree->t_mutex); ASSERT(tree->t_refcnt); if (smb_tree_is_connected_locked(tree)) { /* * Indicate that the disconnect process has started. */ tree->t_state = SMB_TREE_STATE_DISCONNECTING; mutex_exit(&tree->t_mutex); if (do_exec) { /* * The files opened under this tree are closed. */ smb_ofile_close_all(tree); /* * The directories opened under this tree are closed. */ smb_tree_close_odirs(tree, 0); } mutex_enter(&tree->t_mutex); tree->t_state = SMB_TREE_STATE_DISCONNECTED; smb_server_dec_trees(tree->t_server); } mutex_exit(&tree->t_mutex); if (do_exec && (tree->t_state == SMB_TREE_STATE_DISCONNECTED) && (tree->t_execflags & SMB_EXEC_UNMAP)) { smb_tree_set_execinfo(tree, &execinfo, SMB_EXEC_UNMAP); (void) smb_kshare_exec(&execinfo); } } /* * Take a reference on a tree. */ boolean_t smb_tree_hold( smb_tree_t *tree) { ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); mutex_enter(&tree->t_mutex); if (smb_tree_is_connected_locked(tree)) { tree->t_refcnt++; mutex_exit(&tree->t_mutex); return (B_TRUE); } mutex_exit(&tree->t_mutex); return (B_FALSE); } /* * Release a reference on a tree. If the tree is disconnected and the * reference count falls to zero, post the object for deletion. * Object deletion is deferred to avoid modifying a list while an * iteration may be in progress. */ void smb_tree_release( smb_tree_t *tree) { SMB_TREE_VALID(tree); mutex_enter(&tree->t_mutex); ASSERT(tree->t_refcnt); tree->t_refcnt--; /* flush the ofile and odir lists' delete queues */ smb_llist_flush(&tree->t_ofile_list); smb_llist_flush(&tree->t_odir_list); if (smb_tree_is_disconnected(tree) && (tree->t_refcnt == 0)) smb_user_post_tree(tree->t_user, tree); mutex_exit(&tree->t_mutex); } void smb_tree_post_ofile(smb_tree_t *tree, smb_ofile_t *of) { SMB_TREE_VALID(tree); SMB_OFILE_VALID(of); ASSERT(of->f_refcnt == 0); ASSERT(of->f_state == SMB_OFILE_STATE_CLOSED); ASSERT(of->f_tree == tree); smb_llist_post(&tree->t_ofile_list, of, smb_ofile_delete); } void smb_tree_post_odir(smb_tree_t *tree, smb_odir_t *od) { SMB_TREE_VALID(tree); SMB_ODIR_VALID(od); ASSERT(od->d_refcnt == 0); ASSERT(od->d_state == SMB_ODIR_STATE_CLOSED); ASSERT(od->d_tree == tree); smb_llist_post(&tree->t_odir_list, od, smb_odir_delete); } /* * Close ofiles and odirs that match pid. */ void smb_tree_close_pid( smb_tree_t *tree, uint16_t pid) { ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); smb_ofile_close_all_by_pid(tree, pid); smb_tree_close_odirs(tree, pid); } /* * Check whether or not a tree supports the features identified by flags. */ boolean_t smb_tree_has_feature(smb_tree_t *tree, uint32_t flags) { ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); return ((tree->t_flags & flags) == flags); } /* * If the enumeration request is for tree data, handle the request * here. Otherwise, pass it on to the ofiles. * * This function should be called with a hold on the tree. */ int smb_tree_enum(smb_tree_t *tree, smb_svcenum_t *svcenum) { smb_ofile_t *of; smb_ofile_t *next; int rc; ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); if (svcenum->se_type == SMB_SVCENUM_TYPE_TREE) return (smb_tree_enum_private(tree, svcenum)); of = smb_tree_get_ofile(tree, NULL); while (of) { ASSERT(of->f_tree == tree); rc = smb_ofile_enum(of, svcenum); if (rc != 0) { smb_ofile_release(of); break; } next = smb_tree_get_ofile(tree, of); smb_ofile_release(of); of = next; } return (rc); } /* * Close a file by its unique id. */ int smb_tree_fclose(smb_tree_t *tree, uint32_t uniqid) { smb_ofile_t *of; ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); if ((of = smb_ofile_lookup_by_uniqid(tree, uniqid)) == NULL) return (ENOENT); if (smb_ofile_disallow_fclose(of)) { smb_ofile_release(of); return (EACCES); } smb_ofile_close(of, 0); smb_ofile_release(of); return (0); } /* *************************** Static Functions ***************************** */ #define SHARES_DIR ".zfs/shares/" /* * Calculates permissions given by the share's ACL to the * user in the passed request. The default is full access. * If any error occurs, full access is granted. * * Using the vnode of the share path find the root directory * of the mounted file system. Then look to see if there is a * .zfs/shares directory and if there is, lookup the file with * the same name as the share name in it. The ACL set for this * file is the share's ACL which is used for access check here. */ static uint32_t smb_tree_acl_access(smb_request_t *sr, const smb_kshare_t *si, vnode_t *pathvp) { smb_user_t *user; cred_t *cred; int rc; vfs_t *vfsp; vnode_t *root = NULL; vnode_t *sharevp = NULL; char *sharepath; struct pathname pnp; size_t size; uint32_t access; user = sr->uid_user; cred = user->u_cred; access = ACE_ALL_PERMS; if (si->shr_flags & SMB_SHRF_AUTOHOME) { /* * An autohome share owner gets full access to the share. * Everyone else is denied access. */ if (si->shr_uid != crgetuid(cred)) access = 0; return (access); } /* * The hold on 'root' is released by the lookuppnvp() that follows */ vfsp = pathvp->v_vfsp; if (vfsp != NULL) rc = VFS_ROOT(vfsp, &root); else rc = ENOENT; if (rc != 0) return (access); size = sizeof (SHARES_DIR) + strlen(si->shr_name) + 1; sharepath = smb_srm_alloc(sr, size); (void) sprintf(sharepath, "%s%s", SHARES_DIR, si->shr_name); pn_alloc(&pnp); (void) pn_set(&pnp, sharepath); rc = lookuppnvp(&pnp, NULL, NO_FOLLOW, NULL, &sharevp, rootdir, root, kcred); pn_free(&pnp); /* * Now get the effective access value based on cred and ACL values. */ if (rc == 0) { smb_vop_eaccess(sharevp, (int *)&access, V_ACE_MASK, NULL, cred); VN_RELE(sharevp); } return (access); } /* * Performs the following access checks for a disk share: * * - No IPC/anonymous user is allowed * * - If user is Guest, guestok property of the share should be * enabled * * - If this is an Admin share, the user should have administrative * privileges * * - Host based access control lists * * - Share ACL * * Returns the access allowed or 0 if access is denied. */ static uint32_t smb_tree_chkaccess(smb_request_t *sr, smb_kshare_t *shr, vnode_t *vp) { smb_user_t *user = sr->uid_user; char *sharename = shr->shr_name; uint32_t host_access; uint32_t acl_access; uint32_t access; if (user->u_flags & SMB_USER_FLAG_IPC) { smb_tree_log(sr, sharename, "access denied: IPC only"); return (0); } if ((user->u_flags & SMB_USER_FLAG_GUEST) && ((shr->shr_flags & SMB_SHRF_GUEST_OK) == 0)) { smb_tree_log(sr, sharename, "access denied: guest disabled"); return (0); } if ((shr->shr_flags & SMB_SHRF_ADMIN) && !smb_user_is_admin(user)) { smb_tree_log(sr, sharename, "access denied: not admin"); return (0); } host_access = smb_kshare_hostaccess(shr, &sr->session->ipaddr); if ((host_access & ACE_ALL_PERMS) == 0) { smb_tree_log(sr, sharename, "access denied: host access"); return (0); } acl_access = smb_tree_acl_access(sr, shr, vp); if ((acl_access & ACE_ALL_PERMS) == 0) { smb_tree_log(sr, sharename, "access denied: share ACL"); return (0); } access = host_access & acl_access; if ((access & ACE_ALL_PERMS) == 0) { smb_tree_log(sr, sharename, "access denied"); return (0); } return (access); } /* * Connect a share for use with files and directories. */ static smb_tree_t * smb_tree_connect_disk(smb_request_t *sr, const char *sharename) { const char *any = "?????"; smb_user_t *user = sr->uid_user; smb_node_t *dnode = NULL; smb_node_t *snode = NULL; smb_kshare_t *si = sr->sr_tcon.si; char *service = sr->sr_tcon.service; char last_component[MAXNAMELEN]; smb_tree_t *tree; int rc; uint32_t access; smb_shr_execinfo_t execinfo; ASSERT(user); ASSERT(user->u_cred); if ((strcmp(service, any) != 0) && (strcasecmp(service, "A:") != 0)) { smb_tree_log(sr, sharename, "invalid service (%s)", service); smbsr_error(sr, NT_STATUS_BAD_DEVICE_TYPE, ERRDOS, ERROR_BAD_DEV_TYPE); return (NULL); } /* * Check that the shared directory exists. */ rc = smb_pathname_reduce(sr, user->u_cred, si->shr_path, 0, 0, &dnode, last_component); if (rc == 0) { rc = smb_fsop_lookup(sr, user->u_cred, SMB_FOLLOW_LINKS, sr->sr_server->si_root_smb_node, dnode, last_component, &snode); smb_node_release(dnode); } if (rc) { if (snode) smb_node_release(snode); smb_tree_log(sr, sharename, "bad path: %s", si->shr_path); smbsr_error(sr, 0, ERRSRV, ERRinvnetname); return (NULL); } if ((access = smb_tree_chkaccess(sr, si, snode->vp)) == 0) { smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRSRV, ERRaccess); smb_node_release(snode); return (NULL); } /* * Set up the OptionalSupport for this share. */ sr->sr_tcon.optional_support = SMB_SUPPORT_SEARCH_BITS; switch (si->shr_flags & SMB_SHRF_CSC_MASK) { case SMB_SHRF_CSC_DISABLED: sr->sr_tcon.optional_support |= SMB_CSC_CACHE_NONE; break; case SMB_SHRF_CSC_AUTO: sr->sr_tcon.optional_support |= SMB_CSC_CACHE_AUTO_REINT; break; case SMB_SHRF_CSC_VDO: sr->sr_tcon.optional_support |= SMB_CSC_CACHE_VDO; break; case SMB_SHRF_CSC_MANUAL: default: /* * Default to SMB_CSC_CACHE_MANUAL_REINT. */ break; } /* ABE support */ if (si->shr_flags & SMB_SHRF_ABE) sr->sr_tcon.optional_support |= SHI1005_FLAGS_ACCESS_BASED_DIRECTORY_ENUM; if (si->shr_flags & SMB_SHRF_DFSROOT) sr->sr_tcon.optional_support |= SMB_SHARE_IS_IN_DFS; /* if 'smb' zfs property: shortnames=disabled */ if (!smb_shortnames) sr->arg.tcon.optional_support |= SMB_UNIQUE_FILE_NAME; tree = smb_tree_alloc(user, si, snode, access, sr->sr_cfg->skc_execflags); smb_node_release(snode); if (tree) { if (tree->t_execflags & SMB_EXEC_MAP) { smb_tree_set_execinfo(tree, &execinfo, SMB_EXEC_MAP); rc = smb_kshare_exec(&execinfo); if ((rc != 0) && (tree->t_execflags & SMB_EXEC_TERM)) { smb_tree_disconnect(tree, B_FALSE); smb_tree_release(tree); smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRSRV, ERRaccess); return (NULL); } } } else { smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRSRV, ERRaccess); } return (tree); } /* * Shares have both a share and host based access control. The access * granted will be minimum permissions based on both hostaccess * (permissions allowed by host based access) and aclaccess (from the * share ACL). */ static smb_tree_t * smb_tree_connect_printq(smb_request_t *sr, const char *sharename) { const char *any = "?????"; smb_user_t *user = sr->uid_user; smb_node_t *dnode = NULL; smb_node_t *snode = NULL; smb_kshare_t *si = sr->sr_tcon.si; char *service = sr->sr_tcon.service; char last_component[MAXNAMELEN]; smb_tree_t *tree; int rc; uint32_t access; ASSERT(user); ASSERT(user->u_cred); if ((strcmp(service, any) != 0) && (strcasecmp(service, "LPT1:") != 0)) { smb_tree_log(sr, sharename, "invalid service (%s)", service); smbsr_error(sr, NT_STATUS_BAD_DEVICE_TYPE, ERRDOS, ERROR_BAD_DEV_TYPE); return (NULL); } /* * Check that the shared directory exists. */ rc = smb_pathname_reduce(sr, user->u_cred, si->shr_path, 0, 0, &dnode, last_component); if (rc == 0) { rc = smb_fsop_lookup(sr, user->u_cred, SMB_FOLLOW_LINKS, sr->sr_server->si_root_smb_node, dnode, last_component, &snode); smb_node_release(dnode); } if (rc) { if (snode) smb_node_release(snode); smb_tree_log(sr, sharename, "bad path: %s", si->shr_path); smbsr_error(sr, 0, ERRSRV, ERRinvnetname); return (NULL); } if ((access = smb_tree_chkaccess(sr, si, snode->vp)) == 0) { smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRSRV, ERRaccess); smb_node_release(snode); return (NULL); } sr->sr_tcon.optional_support = SMB_SUPPORT_SEARCH_BITS; tree = smb_tree_alloc(user, si, snode, access, sr->sr_cfg->skc_execflags); smb_node_release(snode); if (tree == NULL) smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRSRV, ERRaccess); return (tree); } /* * Connect an IPC share for use with named pipes. */ static smb_tree_t * smb_tree_connect_ipc(smb_request_t *sr, const char *name) { const char *any = "?????"; smb_user_t *user = sr->uid_user; smb_tree_t *tree; smb_kshare_t *si = sr->sr_tcon.si; char *service = sr->sr_tcon.service; ASSERT(user); if ((user->u_flags & SMB_USER_FLAG_IPC) && sr->sr_cfg->skc_restrict_anon) { smb_tree_log(sr, name, "access denied: restrict anonymous"); smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRSRV, ERRaccess); return (NULL); } if ((strcmp(service, any) != 0) && (strcasecmp(service, "IPC") != 0)) { smb_tree_log(sr, name, "invalid service (%s)", service); smbsr_error(sr, NT_STATUS_BAD_DEVICE_TYPE, ERRDOS, ERROR_BAD_DEV_TYPE); return (NULL); } sr->sr_tcon.optional_support = SMB_SUPPORT_SEARCH_BITS; tree = smb_tree_alloc(user, si, NULL, ACE_ALL_PERMS, 0); if (tree == NULL) { smb_tree_log(sr, name, "access denied"); smbsr_error(sr, NT_STATUS_ACCESS_DENIED, ERRSRV, ERRaccess); } return (tree); } /* * Allocate a tree. */ static smb_tree_t * smb_tree_alloc(smb_user_t *user, const smb_kshare_t *si, smb_node_t *snode, uint32_t access, uint32_t execflags) { smb_tree_t *tree; uint32_t stype = si->shr_type; uint16_t tid; if (smb_idpool_alloc(&user->u_tid_pool, &tid)) return (NULL); tree = kmem_cache_alloc(user->u_server->si_cache_tree, KM_SLEEP); bzero(tree, sizeof (smb_tree_t)); tree->t_user = user; tree->t_session = user->u_session; tree->t_server = user->u_server; if (STYPE_ISDSK(stype) || STYPE_ISPRN(stype)) { if (smb_tree_getattr(si, snode, tree) != 0) { smb_idpool_free(&user->u_tid_pool, tid); kmem_cache_free(user->u_server->si_cache_tree, tree); return (NULL); } } if (smb_idpool_constructor(&tree->t_fid_pool)) { smb_idpool_free(&user->u_tid_pool, tid); kmem_cache_free(user->u_server->si_cache_tree, tree); return (NULL); } if (smb_idpool_constructor(&tree->t_odid_pool)) { smb_idpool_destructor(&tree->t_fid_pool); smb_idpool_free(&user->u_tid_pool, tid); kmem_cache_free(user->u_server->si_cache_tree, tree); return (NULL); } smb_llist_constructor(&tree->t_ofile_list, sizeof (smb_ofile_t), offsetof(smb_ofile_t, f_lnd)); smb_llist_constructor(&tree->t_odir_list, sizeof (smb_odir_t), offsetof(smb_odir_t, d_lnd)); (void) strlcpy(tree->t_sharename, si->shr_name, sizeof (tree->t_sharename)); (void) strlcpy(tree->t_resource, si->shr_path, sizeof (tree->t_resource)); mutex_init(&tree->t_mutex, NULL, MUTEX_DEFAULT, NULL); tree->t_refcnt = 1; tree->t_tid = tid; tree->t_res_type = stype; tree->t_state = SMB_TREE_STATE_CONNECTED; tree->t_magic = SMB_TREE_MAGIC; tree->t_access = access; tree->t_connect_time = gethrestime_sec(); tree->t_execflags = execflags; /* if FS is readonly, enforce that here */ if (tree->t_flags & SMB_TREE_READONLY) tree->t_access &= ~ACE_ALL_WRITE_PERMS; if (STYPE_ISDSK(stype) || STYPE_ISPRN(stype)) { smb_node_ref(snode); tree->t_snode = snode; tree->t_acltype = smb_fsop_acltype(snode); } smb_llist_enter(&user->u_tree_list, RW_WRITER); smb_llist_insert_head(&user->u_tree_list, tree); smb_llist_exit(&user->u_tree_list); atomic_inc_32(&user->u_session->s_tree_cnt); smb_server_inc_trees(user->u_server); return (tree); } /* * Deallocate a tree. The open file and open directory lists should be * empty. * * Remove the tree from the user's tree list before freeing resources * associated with the tree. */ void smb_tree_dealloc(void *arg) { smb_user_t *user; smb_tree_t *tree = (smb_tree_t *)arg; SMB_TREE_VALID(tree); ASSERT(tree->t_state == SMB_TREE_STATE_DISCONNECTED); ASSERT(tree->t_refcnt == 0); user = tree->t_user; smb_llist_enter(&user->u_tree_list, RW_WRITER); smb_llist_remove(&user->u_tree_list, tree); smb_idpool_free(&user->u_tid_pool, tree->t_tid); atomic_dec_32(&tree->t_session->s_tree_cnt); smb_llist_exit(&user->u_tree_list); mutex_enter(&tree->t_mutex); mutex_exit(&tree->t_mutex); tree->t_magic = (uint32_t)~SMB_TREE_MAGIC; if (tree->t_snode) smb_node_release(tree->t_snode); mutex_destroy(&tree->t_mutex); smb_llist_destructor(&tree->t_ofile_list); smb_llist_destructor(&tree->t_odir_list); smb_idpool_destructor(&tree->t_fid_pool); smb_idpool_destructor(&tree->t_odid_pool); kmem_cache_free(tree->t_server->si_cache_tree, tree); } /* * Determine whether or not a tree is connected. * This function must be called with the tree mutex held. */ static boolean_t smb_tree_is_connected_locked(smb_tree_t *tree) { switch (tree->t_state) { case SMB_TREE_STATE_CONNECTED: return (B_TRUE); case SMB_TREE_STATE_DISCONNECTING: case SMB_TREE_STATE_DISCONNECTED: /* * The tree exists but being diconnected or destroyed. */ return (B_FALSE); default: ASSERT(0); return (B_FALSE); } } /* * Determine whether or not a tree is disconnected. * This function must be called with the tree mutex held. */ static boolean_t smb_tree_is_disconnected(smb_tree_t *tree) { switch (tree->t_state) { case SMB_TREE_STATE_DISCONNECTED: return (B_TRUE); case SMB_TREE_STATE_CONNECTED: case SMB_TREE_STATE_DISCONNECTING: return (B_FALSE); default: ASSERT(0); return (B_FALSE); } } /* * Return a pointer to the share name within a share resource path. * * The share path may be a Uniform Naming Convention (UNC) string * (\\server\share) or simply the share name. We validate the UNC * format but we don't look at the server name. */ static const char * smb_tree_get_sharename(const char *unc_path) { const char *sharename = unc_path; if (sharename[0] == '\\') { /* * Looks like a UNC path, validate the format. */ if (sharename[1] != '\\') return (NULL); if ((sharename = strchr(sharename+2, '\\')) == NULL) return (NULL); ++sharename; } else if (strchr(sharename, '\\') != NULL) { /* * This should be a share name (no embedded \'s). */ return (NULL); } return (sharename); } /* * Obtain the tree attributes: volume name, typename and flags. */ static int smb_tree_getattr(const smb_kshare_t *si, smb_node_t *node, smb_tree_t *tree) { vfs_t *vfsp = SMB_NODE_VFS(node); ASSERT(vfsp); if (getvfs(&vfsp->vfs_fsid) != vfsp) return (ESTALE); smb_tree_get_volname(vfsp, tree); smb_tree_get_flags(si, vfsp, tree); VFS_RELE(vfsp); return (0); } /* * Extract the volume name. */ static void smb_tree_get_volname(vfs_t *vfsp, smb_tree_t *tree) { refstr_t *vfs_mntpoint; const char *s; char *name; vfs_mntpoint = vfs_getmntpoint(vfsp); s = vfs_mntpoint->rs_string; s += strspn(s, "/"); (void) strlcpy(tree->t_volume, s, SMB_VOLNAMELEN); refstr_rele(vfs_mntpoint); name = tree->t_volume; (void) strsep((char **)&name, "/"); } /* * Always set ACL support because the VFS will fake ACLs for file systems * that don't support them. * * Some flags are dependent on the typename, which is also set up here. * File system types are hardcoded in uts/common/os/vfs_conf.c. */ static void smb_tree_get_flags(const smb_kshare_t *si, vfs_t *vfsp, smb_tree_t *tree) { typedef struct smb_mtype { char *mt_name; size_t mt_namelen; uint32_t mt_flags; } smb_mtype_t; static smb_mtype_t smb_mtype[] = { { "zfs", 3, SMB_TREE_UNICODE_ON_DISK | SMB_TREE_QUOTA }, { "ufs", 3, SMB_TREE_UNICODE_ON_DISK }, { "nfs", 3, SMB_TREE_NFS_MOUNTED }, { "tmpfs", 5, SMB_TREE_NO_EXPORT } }; smb_mtype_t *mtype; char *name; uint32_t flags = SMB_TREE_SUPPORTS_ACLS; int i; if (si->shr_flags & SMB_SHRF_DFSROOT) flags |= SMB_TREE_DFSROOT; if (si->shr_flags & SMB_SHRF_CATIA) flags |= SMB_TREE_CATIA; if (si->shr_flags & SMB_SHRF_ABE) flags |= SMB_TREE_ABE; if (smb_session_oplocks_enable(tree->t_session)) { /* if 'smb' zfs property: oplocks=enabled */ flags |= SMB_TREE_OPLOCKS; } /* if 'smb' zfs property: shortnames=enabled */ if (smb_shortnames) flags |= SMB_TREE_SHORTNAMES; if (vfsp->vfs_flag & VFS_RDONLY) flags |= SMB_TREE_READONLY; if (vfsp->vfs_flag & VFS_XATTR) flags |= SMB_TREE_STREAMS; name = vfssw[vfsp->vfs_fstype].vsw_name; for (i = 0; i < sizeof (smb_mtype) / sizeof (smb_mtype[0]); ++i) { mtype = &smb_mtype[i]; if (strncasecmp(name, mtype->mt_name, mtype->mt_namelen) == 0) flags |= mtype->mt_flags; } (void) strlcpy(tree->t_typename, name, SMB_TYPENAMELEN); (void) smb_strupr((char *)tree->t_typename); if (vfs_has_feature(vfsp, VFSFT_XVATTR)) flags |= SMB_TREE_XVATTR; if (vfs_has_feature(vfsp, VFSFT_CASEINSENSITIVE)) flags |= SMB_TREE_CASEINSENSITIVE; if (vfs_has_feature(vfsp, VFSFT_NOCASESENSITIVE)) flags |= SMB_TREE_NO_CASESENSITIVE; if (vfs_has_feature(vfsp, VFSFT_DIRENTFLAGS)) flags |= SMB_TREE_DIRENTFLAGS; if (vfs_has_feature(vfsp, VFSFT_ACLONCREATE)) flags |= SMB_TREE_ACLONCREATE; if (vfs_has_feature(vfsp, VFSFT_ACEMASKONACCESS)) flags |= SMB_TREE_ACEMASKONACCESS; DTRACE_PROBE2(smb__tree__flags, uint32_t, flags, char *, name); tree->t_flags = flags; } /* * Report share access result to syslog. */ static void smb_tree_log(smb_request_t *sr, const char *sharename, const char *fmt, ...) { va_list ap; char buf[128]; smb_user_t *user = sr->uid_user; ASSERT(user); if (smb_tcon_mute) return; if ((user->u_name) && (strcasecmp(sharename, "IPC$") == 0)) { /* * Only report normal users, i.e. ignore W2K misuse * of the IPC connection by filtering out internal * names such as nobody and root. */ if ((strcmp(user->u_name, "root") == 0) || (strcmp(user->u_name, "nobody") == 0)) { return; } } va_start(ap, fmt); (void) vsnprintf(buf, 128, fmt, ap); va_end(ap); cmn_err(CE_NOTE, "smbd[%s\\%s]: %s %s", user->u_domain, user->u_name, sharename, buf); } /* * smb_tree_lookup_odir * * Find the specified odir in the tree's list of odirs, and * attempt to obtain a hold on the odir. * * Returns NULL if odir not found or a hold cannot be obtained. */ smb_odir_t * smb_tree_lookup_odir(smb_tree_t *tree, uint16_t odid) { smb_odir_t *od; smb_llist_t *od_list; ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); od_list = &tree->t_odir_list; smb_llist_enter(od_list, RW_READER); od = smb_llist_head(od_list); while (od) { if (od->d_odid == odid) { if (!smb_odir_hold(od)) od = NULL; break; } od = smb_llist_next(od_list, od); } smb_llist_exit(od_list); return (od); } boolean_t smb_tree_is_connected(smb_tree_t *tree) { boolean_t rb; mutex_enter(&tree->t_mutex); rb = smb_tree_is_connected_locked(tree); mutex_exit(&tree->t_mutex); return (rb); } /* * Get the next open ofile in the list. A reference is taken on * the ofile, which can be released later with smb_ofile_release(). * * If the specified ofile is NULL, search from the beginning of the * list. Otherwise, the search starts just after that ofile. * * Returns NULL if there are no open files in the list. */ static smb_ofile_t * smb_tree_get_ofile(smb_tree_t *tree, smb_ofile_t *of) { smb_llist_t *ofile_list; ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); ofile_list = &tree->t_ofile_list; smb_llist_enter(ofile_list, RW_READER); if (of) { ASSERT(of->f_magic == SMB_OFILE_MAGIC); of = smb_llist_next(ofile_list, of); } else { of = smb_llist_head(ofile_list); } while (of) { if (smb_ofile_hold(of)) break; of = smb_llist_next(ofile_list, of); } smb_llist_exit(ofile_list); return (of); } /* * smb_tree_get_odir * * Find the next odir in the tree's list of odirs, and obtain a * hold on it. * If the specified odir is NULL the search starts at the beginning * of the tree's odir list, otherwise the search starts after the * specified odir. */ static smb_odir_t * smb_tree_get_odir(smb_tree_t *tree, smb_odir_t *od) { smb_llist_t *od_list; ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); od_list = &tree->t_odir_list; smb_llist_enter(od_list, RW_READER); if (od) { ASSERT(od->d_magic == SMB_ODIR_MAGIC); od = smb_llist_next(od_list, od); } else { od = smb_llist_head(od_list); } while (od) { ASSERT(od->d_magic == SMB_ODIR_MAGIC); if (smb_odir_hold(od)) break; od = smb_llist_next(od_list, od); } smb_llist_exit(od_list); return (od); } /* * smb_tree_close_odirs * * Close all open odirs in the tree's list which were opened by * the process identified by pid. * If pid is zero, close all open odirs in the tree's list. */ static void smb_tree_close_odirs(smb_tree_t *tree, uint16_t pid) { smb_odir_t *od, *next_od; ASSERT(tree); ASSERT(tree->t_magic == SMB_TREE_MAGIC); od = smb_tree_get_odir(tree, NULL); while (od) { ASSERT(od->d_magic == SMB_ODIR_MAGIC); ASSERT(od->d_tree == tree); next_od = smb_tree_get_odir(tree, od); if ((pid == 0) || (od->d_opened_by_pid == pid)) smb_odir_close(od); smb_odir_release(od); od = next_od; } } static void smb_tree_set_execinfo(smb_tree_t *tree, smb_shr_execinfo_t *exec, int exec_type) { exec->e_sharename = tree->t_sharename; exec->e_winname = tree->t_user->u_name; exec->e_userdom = tree->t_user->u_domain; exec->e_srv_ipaddr = tree->t_session->local_ipaddr; exec->e_cli_ipaddr = tree->t_session->ipaddr; exec->e_cli_netbiosname = tree->t_session->workstation; exec->e_uid = crgetuid(tree->t_user->u_cred); exec->e_type = exec_type; } /* * Private function to support smb_tree_enum. */ static int smb_tree_enum_private(smb_tree_t *tree, smb_svcenum_t *svcenum) { uint8_t *pb; uint_t nbytes; int rc; 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_tree_netinfo_encode(tree, pb, svcenum->se_bavail, &nbytes); if (rc == 0) { svcenum->se_bavail -= nbytes; svcenum->se_bused += nbytes; svcenum->se_nitems++; } return (rc); } /* * Encode connection information into a buffer: connection information * needed in user space to support RPC requests. */ static int smb_tree_netinfo_encode(smb_tree_t *tree, uint8_t *buf, size_t buflen, uint32_t *nbytes) { smb_netconnectinfo_t info; int rc; smb_tree_netinfo_init(tree, &info); rc = smb_netconnectinfo_encode(&info, buf, buflen, nbytes); smb_tree_netinfo_fini(&info); return (rc); } /* * Note: ci_numusers should be the number of users connected to * the share rather than the number of references on the tree but * we don't have a mechanism to track users/share in smbsrv yet. */ static void smb_tree_netinfo_init(smb_tree_t *tree, smb_netconnectinfo_t *info) { smb_user_t *user; ASSERT(tree); info->ci_id = tree->t_tid; info->ci_type = tree->t_res_type; info->ci_numopens = tree->t_open_files; info->ci_numusers = tree->t_refcnt; info->ci_time = gethrestime_sec() - tree->t_connect_time; info->ci_sharelen = strlen(tree->t_sharename) + 1; info->ci_share = smb_mem_strdup(tree->t_sharename); user = tree->t_user; ASSERT(user); info->ci_namelen = user->u_domain_len + user->u_name_len + 2; info->ci_username = kmem_alloc(info->ci_namelen, KM_SLEEP); (void) snprintf(info->ci_username, info->ci_namelen, "%s\\%s", user->u_domain, user->u_name); } static void smb_tree_netinfo_fini(smb_netconnectinfo_t *info) { if (info == NULL) return; if (info->ci_username) kmem_free(info->ci_username, info->ci_namelen); if (info->ci_share) smb_mem_free(info->ci_share); bzero(info, sizeof (smb_netconnectinfo_t)); }