/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * This file defines the NT domain environment values and the domain * database interface. The database is a single linked list of * structures containing domain type, name and SID information. */ #include #include #include #include #include #include #include #include #include #include static void nt_domain_unlist(nt_domain_t *); /* * Valid domain type identifiers as text. This table must be kept * in step with the nt_domain_type_t enum in ntdomain.h. */ static char *nt_domain_type_name[NT_DOMAIN_NUM_TYPES] = { "null", "builtin", "local", "primary", "account", "trusted", "untrusted" }; static rwlock_t nt_domain_lock; static nt_domain_t *nt_domain_list; /* * nt_domain_init * * NT domain database one time initialization. This function should * be called during module installation. * * Returns 0 on successful domain initialization. Less than zero otherwise. */ int nt_domain_init(char *resource_domain, uint32_t secmode) { nt_domain_t *domain; nt_sid_t *sid; char *sidstr; char *lsidstr; char hostname[MAXHOSTNAMELEN]; if (rwlock_init(&nt_domain_lock, USYNC_THREAD, NULL)) return (SMB_DOMAIN_NODOMAIN_SID); if (smb_gethostname(hostname, MAXHOSTNAMELEN, 1) != 0) { (void) rwlock_destroy(&nt_domain_lock); return (SMB_DOMAIN_NOMACHINE_SID); } lsidstr = smb_config_get_localsid(); if (lsidstr) { sid = nt_sid_strtosid(lsidstr); if (sid) { domain = nt_domain_new(NT_DOMAIN_LOCAL, hostname, sid); (void) nt_domain_add(domain); free(sid); } free(lsidstr); } else { (void) rwlock_destroy(&nt_domain_lock); return (SMB_DOMAIN_NOMACHINE_SID); } if (secmode == SMB_SECMODE_DOMAIN) { sid = nt_sid_strtosid(NT_BUILTIN_DOMAIN_SIDSTR); domain = nt_domain_new(NT_DOMAIN_BUILTIN, "BUILTIN", sid); (void) nt_domain_add(domain); free(sid); smb_config_rdlock(); sidstr = smb_config_get(SMB_CI_DOMAIN_SID); if (sidstr) { sid = nt_sid_strtosid(sidstr); smb_config_unlock(); domain = nt_domain_new(NT_DOMAIN_PRIMARY, resource_domain, sid); (void) nt_domain_add(domain); free(sid); } else { smb_config_unlock(); (void) rwlock_destroy(&nt_domain_lock); return (SMB_DOMAIN_NODOMAIN_SID); } } return (0); } /* * nt_domain_new * * Allocate and initialize a new domain structure. On success, a pointer to * the new domain structure is returned. Otherwise a null pointer is returned. */ nt_domain_t * nt_domain_new(nt_domain_type_t type, char *name, nt_sid_t *sid) { nt_domain_t *new_domain; if ((name == NULL) || (sid == NULL)) return (NULL); if (type == NT_DOMAIN_NULL || type >= NT_DOMAIN_NUM_TYPES) return (NULL); if ((new_domain = malloc(sizeof (nt_domain_t))) == NULL) return (NULL); bzero(new_domain, sizeof (nt_domain_t)); new_domain->type = type; new_domain->name = strdup(name); new_domain->sid = nt_sid_dup(sid); return (new_domain); } /* * nt_domain_delete * * Free the memory used by the specified domain structure. */ void nt_domain_delete(nt_domain_t *domain) { if (domain) { free(domain->name); free(domain->sid); free(domain); } } /* * nt_domain_add * * Add a domain structure to the global list. There is no checking * for duplicates. If it's the primary domain, we save the SID in the * environment. Returns a pointer to the new domain entry on success. * Otherwise a null pointer is returned. */ nt_domain_t * nt_domain_add(nt_domain_t *new_domain) { char *sidstr; if (new_domain == NULL) return (NULL); (void) rw_wrlock(&nt_domain_lock); new_domain->next = nt_domain_list; nt_domain_list = new_domain; if (new_domain->type == NT_DOMAIN_PRIMARY) { sidstr = nt_sid_format(new_domain->sid); smb_config_wrlock(); (void) smb_config_set(SMB_CI_DOMAIN_SID, sidstr); smb_config_unlock(); free(sidstr); } (void) rw_unlock(&nt_domain_lock); return (new_domain); } /* * nt_domain_remove * * Remove a domain from the global list. The memory * used by the structure is not freed. */ void nt_domain_remove(nt_domain_t *domain) { (void) rw_wrlock(&nt_domain_lock); nt_domain_unlist(domain); (void) rw_unlock(&nt_domain_lock); } /* * nt_domain_flush * * Flush all domains of the specified type from the list. This is * useful for things like updating the list of trusted domains. */ void nt_domain_flush(nt_domain_type_t domain_type) { nt_domain_t *domain = nt_domain_list; (void) rw_wrlock(&nt_domain_lock); while (domain) { if (domain->type == domain_type) { nt_domain_unlist(domain); nt_domain_delete(domain); domain = nt_domain_list; continue; } domain = domain->next; } (void) rw_unlock(&nt_domain_lock); } /* * nt_domain_xlat_type * * Translate a domain type into a text string. */ char * nt_domain_xlat_type(nt_domain_type_t domain_type) { if (domain_type < NT_DOMAIN_NUM_TYPES) return (nt_domain_type_name[domain_type]); else return ("unknown"); } /* * nt_domain_xlat_type_name * * Translate a domain type test string into a domain type. */ nt_domain_type_t nt_domain_xlat_type_name(char *type_name) { int i; for (i = 0; i < NT_DOMAIN_NUM_TYPES; ++i) if (utf8_strcasecmp(nt_domain_type_name[i], type_name) == 0) return (i); return (NT_DOMAIN_NUM_TYPES); } /* * nt_domain_lookup_name * * Lookup a domain by its domain name. If the domain is in the list, * a pointer to it is returned. Otherwise a null pointer is returned. */ nt_domain_t * nt_domain_lookup_name(char *domain_name) { nt_domain_t *domain = nt_domain_list; (void) rw_rdlock(&nt_domain_lock); while (domain) { if (utf8_strcasecmp(domain->name, domain_name) == 0) break; domain = domain->next; } (void) rw_unlock(&nt_domain_lock); return (domain); } /* * nt_domain_lookup_sid * * Lookup a domain by its domain SID. If the domain is in the list, * a pointer to it is returned. Otherwise a null pointer is returned. */ nt_domain_t * nt_domain_lookup_sid(nt_sid_t *domain_sid) { nt_domain_t *domain = nt_domain_list; (void) rw_rdlock(&nt_domain_lock); while (domain) { if (nt_sid_is_equal(domain->sid, domain_sid)) break; domain = domain->next; } (void) rw_unlock(&nt_domain_lock); return (domain); } /* * nt_domain_lookupbytype * * Lookup a domain by its type. The first matching entry in the list * is returned. Otherwise a null pointer is returned. */ nt_domain_t * nt_domain_lookupbytype(nt_domain_type_t type) { nt_domain_t *domain = nt_domain_list; (void) rw_rdlock(&nt_domain_lock); while (domain) { if (domain->type == type) break; domain = domain->next; } (void) rw_unlock(&nt_domain_lock); return (domain); } /* * nt_domain_local_sid * * Return a pointer to the local domain SID. Each system has a SID that * represents the local domain, which is named after the local hostname. * The local domain SID must exist. */ nt_sid_t * nt_domain_local_sid(void) { nt_domain_t *domain = nt_domain_list; (void) rw_rdlock(&nt_domain_lock); while (domain) { if (domain->type == NT_DOMAIN_LOCAL) break; domain = domain->next; } (void) rw_unlock(&nt_domain_lock); return (domain->sid); } static void nt_domain_unlist(nt_domain_t *domain) { nt_domain_t **ppdomain = &nt_domain_list; while (*ppdomain) { if (*ppdomain == domain) { *ppdomain = domain->next; domain->next = NULL; return; } ppdomain = &(*ppdomain)->next; } }