xref: /titanic_44/usr/src/lib/smbsrv/libmlsvc/common/netr_logon.c (revision f6e214c7418f43af38bd8c3a557e3d0a1d311cfa)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved.
24  */
25 
26 /*
27  * NETR SamLogon and SamLogoff RPC client functions.
28  */
29 
30 #include <stdio.h>
31 #include <strings.h>
32 #include <stdlib.h>
33 #include <time.h>
34 #include <alloca.h>
35 #include <unistd.h>
36 #include <netdb.h>
37 #include <thread.h>
38 
39 #include <smbsrv/libsmb.h>
40 #include <smbsrv/libmlrpc.h>
41 #include <smbsrv/libmlsvc.h>
42 #include <smbsrv/ndl/netlogon.ndl>
43 #include <smbsrv/netrauth.h>
44 #include <smbsrv/smbinfo.h>
45 #include <smbsrv/smb_token.h>
46 #include <mlsvc.h>
47 
48 #define	NETLOGON_ATTEMPTS	2
49 
50 static uint32_t netlogon_logon(smb_logon_t *, smb_token_t *);
51 static uint32_t netr_server_samlogon(mlsvc_handle_t *, netr_info_t *, char *,
52     smb_logon_t *, smb_token_t *);
53 static void netr_invalidate_chain(void);
54 static void netr_interactive_samlogon(netr_info_t *, smb_logon_t *,
55     struct netr_logon_info1 *);
56 static void netr_network_samlogon(ndr_heap_t *, netr_info_t *,
57     smb_logon_t *, struct netr_logon_info2 *);
58 static void netr_setup_identity(ndr_heap_t *, smb_logon_t *,
59     netr_logon_id_t *);
60 static boolean_t netr_isadmin(struct netr_validation_info3 *);
61 static uint32_t netr_setup_domain_groups(struct netr_validation_info3 *,
62     smb_ids_t *);
63 static uint32_t netr_setup_token_wingrps(struct netr_validation_info3 *,
64     smb_token_t *);
65 
66 /*
67  * Shared with netr_auth.c
68  */
69 extern netr_info_t netr_global_info;
70 
71 static mutex_t netlogon_mutex;
72 static cond_t netlogon_cv;
73 static boolean_t netlogon_busy = B_FALSE;
74 static boolean_t netlogon_abort = B_FALSE;
75 
76 /*
77  * Abort impending domain logon requests.
78  */
79 void
80 smb_logon_abort(void)
81 {
82 	(void) mutex_lock(&netlogon_mutex);
83 	if (netlogon_busy && !netlogon_abort)
84 		syslog(LOG_DEBUG, "logon abort");
85 	netlogon_abort = B_TRUE;
86 	(void) cond_broadcast(&netlogon_cv);
87 	(void) mutex_unlock(&netlogon_mutex);
88 }
89 
90 /*
91  * This is the entry point for authenticating domain users.
92  *
93  * If we are not going to attempt to authenticate the user,
94  * this function must return without updating the status.
95  *
96  * If the user is successfully authenticated, we build an
97  * access token and the status will be NT_STATUS_SUCCESS.
98  * Otherwise, the token contents are invalid.
99  */
100 void
101 smb_logon_domain(smb_logon_t *user_info, smb_token_t *token)
102 {
103 	uint32_t	status;
104 	int		i;
105 
106 	if (user_info->lg_secmode != SMB_SECMODE_DOMAIN)
107 		return;
108 
109 	if (user_info->lg_domain_type == SMB_DOMAIN_LOCAL)
110 		return;
111 
112 	for (i = 0; i < NETLOGON_ATTEMPTS; ++i) {
113 		(void) mutex_lock(&netlogon_mutex);
114 		while (netlogon_busy && !netlogon_abort)
115 			(void) cond_wait(&netlogon_cv, &netlogon_mutex);
116 
117 		if (netlogon_abort) {
118 			(void) mutex_unlock(&netlogon_mutex);
119 			user_info->lg_status = NT_STATUS_REQUEST_ABORTED;
120 			return;
121 		}
122 
123 		netlogon_busy = B_TRUE;
124 		(void) mutex_unlock(&netlogon_mutex);
125 
126 		status = netlogon_logon(user_info, token);
127 
128 		(void) mutex_lock(&netlogon_mutex);
129 		netlogon_busy = B_FALSE;
130 		if (netlogon_abort)
131 			status = NT_STATUS_REQUEST_ABORTED;
132 		(void) cond_signal(&netlogon_cv);
133 		(void) mutex_unlock(&netlogon_mutex);
134 
135 		if (status != NT_STATUS_CANT_ACCESS_DOMAIN_INFO)
136 			break;
137 	}
138 
139 	if (status != NT_STATUS_SUCCESS)
140 		syslog(LOG_INFO, "logon[%s\\%s]: %s", user_info->lg_e_domain,
141 		    user_info->lg_e_username, xlate_nt_status(status));
142 
143 	user_info->lg_status = status;
144 }
145 
146 static uint32_t
147 netlogon_logon(smb_logon_t *user_info, smb_token_t *token)
148 {
149 	char resource_domain[SMB_PI_MAX_DOMAIN];
150 	char server[NETBIOS_NAME_SZ * 2];
151 	mlsvc_handle_t netr_handle;
152 	smb_domainex_t di;
153 	uint32_t status;
154 	int retries = 0;
155 
156 	(void) smb_getdomainname(resource_domain, SMB_PI_MAX_DOMAIN);
157 
158 	if (!smb_domain_getinfo(&di)) {
159 		netr_invalidate_chain();
160 		return (NT_STATUS_CANT_ACCESS_DOMAIN_INFO);
161 	}
162 
163 	do {
164 		if (netr_open(di.d_dc, di.d_primary.di_nbname, &netr_handle)
165 		    != 0)
166 			return (NT_STATUS_OPEN_FAILED);
167 
168 		if (di.d_dc && (*netr_global_info.server != '\0')) {
169 			(void) snprintf(server, sizeof (server),
170 			    "\\\\%s", di.d_dc);
171 			if (strncasecmp(netr_global_info.server,
172 			    server, strlen(server)) != 0)
173 				netr_invalidate_chain();
174 		}
175 
176 		if ((netr_global_info.flags & NETR_FLG_VALID) == 0 ||
177 		    !smb_match_netlogon_seqnum()) {
178 			status = netlogon_auth(di.d_dc, &netr_handle,
179 			    NETR_FLG_NULL);
180 
181 			if (status != 0) {
182 				(void) netr_close(&netr_handle);
183 				return (NT_STATUS_LOGON_FAILURE);
184 			}
185 
186 			netr_global_info.flags |= NETR_FLG_VALID;
187 		}
188 
189 		status = netr_server_samlogon(&netr_handle,
190 		    &netr_global_info, di.d_dc, user_info, token);
191 
192 		(void) netr_close(&netr_handle);
193 	} while (status == NT_STATUS_INSUFFICIENT_LOGON_INFO && retries++ < 3);
194 
195 	if (retries >= 3)
196 		status = NT_STATUS_LOGON_FAILURE;
197 
198 	return (status);
199 }
200 
201 static uint32_t
202 netr_setup_token(struct netr_validation_info3 *info3, smb_logon_t *user_info,
203     netr_info_t *netr_info, smb_token_t *token)
204 {
205 	char *username, *domain;
206 	unsigned char rc4key[SMBAUTH_SESSION_KEY_SZ];
207 	smb_sid_t *domsid;
208 	uint32_t status;
209 	char nbdomain[NETBIOS_NAME_SZ];
210 
211 	domsid = (smb_sid_t *)info3->LogonDomainId;
212 
213 	token->tkn_user.i_sid = smb_sid_splice(domsid, info3->UserId);
214 	if (token->tkn_user.i_sid == NULL)
215 		return (NT_STATUS_NO_MEMORY);
216 
217 	token->tkn_primary_grp.i_sid = smb_sid_splice(domsid,
218 	    info3->PrimaryGroupId);
219 	if (token->tkn_primary_grp.i_sid == NULL)
220 		return (NT_STATUS_NO_MEMORY);
221 
222 	username = (info3->EffectiveName.str)
223 	    ? (char *)info3->EffectiveName.str : user_info->lg_e_username;
224 
225 	if (info3->LogonDomainName.str) {
226 		domain = (char *)info3->LogonDomainName.str;
227 	} else if (*user_info->lg_e_domain != '\0') {
228 		domain = user_info->lg_e_domain;
229 	} else {
230 		(void) smb_getdomainname(nbdomain, sizeof (nbdomain));
231 		domain = nbdomain;
232 	}
233 
234 	if (username)
235 		token->tkn_account_name = strdup(username);
236 	if (domain)
237 		token->tkn_domain_name = strdup(domain);
238 
239 	if (token->tkn_account_name == NULL || token->tkn_domain_name == NULL)
240 		return (NT_STATUS_NO_MEMORY);
241 
242 	status = netr_setup_token_wingrps(info3, token);
243 	if (status != NT_STATUS_SUCCESS)
244 		return (status);
245 
246 	/*
247 	 * The UserSessionKey in NetrSamLogon RPC is obfuscated using the
248 	 * session key obtained in the NETLOGON credential chain.
249 	 * An 8 byte session key is zero extended to 16 bytes. This 16 byte
250 	 * key is the key to the RC4 algorithm. The RC4 byte stream is
251 	 * exclusively ored with the 16 byte UserSessionKey to recover
252 	 * the the clear form.
253 	 */
254 	if ((token->tkn_session_key = malloc(SMBAUTH_SESSION_KEY_SZ)) == NULL)
255 		return (NT_STATUS_NO_MEMORY);
256 	bzero(rc4key, SMBAUTH_SESSION_KEY_SZ);
257 	bcopy(netr_info->session_key.key, rc4key, netr_info->session_key.len);
258 	bcopy(info3->UserSessionKey.data, token->tkn_session_key,
259 	    SMBAUTH_SESSION_KEY_SZ);
260 	rand_hash((unsigned char *)token->tkn_session_key,
261 	    SMBAUTH_SESSION_KEY_SZ, rc4key, SMBAUTH_SESSION_KEY_SZ);
262 
263 	return (NT_STATUS_SUCCESS);
264 }
265 
266 /*
267  * netr_server_samlogon
268  *
269  * NetrServerSamLogon RPC: interactive or network. It is assumed that
270  * we have already authenticated with the PDC. If everything works,
271  * we build a user info structure and return it, where the caller will
272  * probably build an access token.
273  *
274  * Returns an NT status. There are numerous possibilities here.
275  * For example:
276  *	NT_STATUS_INVALID_INFO_CLASS
277  *	NT_STATUS_INVALID_PARAMETER
278  *	NT_STATUS_ACCESS_DENIED
279  *	NT_STATUS_PASSWORD_MUST_CHANGE
280  *	NT_STATUS_NO_SUCH_USER
281  *	NT_STATUS_WRONG_PASSWORD
282  *	NT_STATUS_LOGON_FAILURE
283  *	NT_STATUS_ACCOUNT_RESTRICTION
284  *	NT_STATUS_INVALID_LOGON_HOURS
285  *	NT_STATUS_INVALID_WORKSTATION
286  *	NT_STATUS_INTERNAL_ERROR
287  *	NT_STATUS_PASSWORD_EXPIRED
288  *	NT_STATUS_ACCOUNT_DISABLED
289  */
290 uint32_t
291 netr_server_samlogon(mlsvc_handle_t *netr_handle, netr_info_t *netr_info,
292     char *server, smb_logon_t *user_info, smb_token_t *token)
293 {
294 	struct netr_SamLogon arg;
295 	struct netr_authenticator auth;
296 	struct netr_authenticator ret_auth;
297 	struct netr_logon_info1 info1;
298 	struct netr_logon_info2 info2;
299 	struct netr_validation_info3 *info3;
300 	ndr_heap_t *heap;
301 	int opnum;
302 	int rc, len;
303 	uint32_t status;
304 
305 	bzero(&arg, sizeof (struct netr_SamLogon));
306 	opnum = NETR_OPNUM_SamLogon;
307 
308 	/*
309 	 * Should we get the server and hostname from netr_info?
310 	 */
311 
312 	len = strlen(server) + 4;
313 	arg.servername = ndr_rpc_malloc(netr_handle, len);
314 	arg.hostname = ndr_rpc_malloc(netr_handle, NETBIOS_NAME_SZ);
315 	if (arg.servername == NULL || arg.hostname == NULL) {
316 		ndr_rpc_release(netr_handle);
317 		return (NT_STATUS_INTERNAL_ERROR);
318 	}
319 
320 	(void) snprintf((char *)arg.servername, len, "\\\\%s", server);
321 	if (smb_getnetbiosname((char *)arg.hostname, NETBIOS_NAME_SZ) != 0) {
322 		ndr_rpc_release(netr_handle);
323 		return (NT_STATUS_INTERNAL_ERROR);
324 	}
325 
326 	rc = netr_setup_authenticator(netr_info, &auth, &ret_auth);
327 	if (rc != SMBAUTH_SUCCESS) {
328 		ndr_rpc_release(netr_handle);
329 		return (NT_STATUS_INTERNAL_ERROR);
330 	}
331 
332 	arg.auth = &auth;
333 	arg.ret_auth = &ret_auth;
334 	arg.validation_level = NETR_VALIDATION_LEVEL3;
335 	arg.logon_info.logon_level = user_info->lg_level;
336 	arg.logon_info.switch_value = user_info->lg_level;
337 
338 	heap = ndr_rpc_get_heap(netr_handle);
339 
340 	switch (user_info->lg_level) {
341 	case NETR_INTERACTIVE_LOGON:
342 		netr_setup_identity(heap, user_info, &info1.identity);
343 		netr_interactive_samlogon(netr_info, user_info, &info1);
344 		arg.logon_info.ru.info1 = &info1;
345 		break;
346 
347 	case NETR_NETWORK_LOGON:
348 		netr_setup_identity(heap, user_info, &info2.identity);
349 		netr_network_samlogon(heap, netr_info, user_info, &info2);
350 		arg.logon_info.ru.info2 = &info2;
351 		break;
352 
353 	default:
354 		ndr_rpc_release(netr_handle);
355 		return (NT_STATUS_INVALID_PARAMETER);
356 	}
357 
358 	rc = ndr_rpc_call(netr_handle, opnum, &arg);
359 	if (rc != 0) {
360 		bzero(netr_info, sizeof (netr_info_t));
361 		status = NT_STATUS_INVALID_PARAMETER;
362 	} else if (arg.status != 0) {
363 		status = NT_SC_VALUE(arg.status);
364 
365 		/*
366 		 * We need to validate the chain even though we have
367 		 * a non-zero status. If the status is ACCESS_DENIED
368 		 * this will trigger a new credential chain. However,
369 		 * a valid credential is returned with some status
370 		 * codes; for example, WRONG_PASSWORD.
371 		 */
372 		(void) netr_validate_chain(netr_info, arg.ret_auth);
373 	} else {
374 		status = netr_validate_chain(netr_info, arg.ret_auth);
375 		if (status == NT_STATUS_INSUFFICIENT_LOGON_INFO) {
376 			ndr_rpc_release(netr_handle);
377 			return (status);
378 		}
379 
380 		info3 = arg.ru.info3;
381 		status = netr_setup_token(info3, user_info, netr_info, token);
382 	}
383 
384 	ndr_rpc_release(netr_handle);
385 	return (status);
386 }
387 
388 /*
389  * netr_interactive_samlogon
390  *
391  * Set things up for an interactive SamLogon. Copy the NT and LM
392  * passwords to the logon structure and hash them with the session
393  * key.
394  */
395 static void
396 netr_interactive_samlogon(netr_info_t *netr_info, smb_logon_t *user_info,
397     struct netr_logon_info1 *info1)
398 {
399 	BYTE key[NETR_OWF_PASSWORD_SZ];
400 
401 	(void) memcpy(&info1->lm_owf_password,
402 	    user_info->lg_lm_password.val, sizeof (netr_owf_password_t));
403 
404 	(void) memcpy(&info1->nt_owf_password,
405 	    user_info->lg_nt_password.val, sizeof (netr_owf_password_t));
406 
407 	(void) memset(key, 0, NETR_OWF_PASSWORD_SZ);
408 	(void) memcpy(key, netr_info->session_key.key,
409 	    netr_info->session_key.len);
410 
411 	rand_hash((unsigned char *)&info1->lm_owf_password,
412 	    NETR_OWF_PASSWORD_SZ, key, NETR_OWF_PASSWORD_SZ);
413 
414 	rand_hash((unsigned char *)&info1->nt_owf_password,
415 	    NETR_OWF_PASSWORD_SZ, key, NETR_OWF_PASSWORD_SZ);
416 }
417 
418 /*
419  * netr_network_samlogon
420  *
421  * Set things up for a network SamLogon.  We provide a copy of the random
422  * challenge, that we sent to the client, to the domain controller.  This
423  * is the key that the client will have used to encrypt the NT and LM
424  * passwords.  Note that Windows 9x clients may not provide both passwords.
425  */
426 /*ARGSUSED*/
427 static void
428 netr_network_samlogon(ndr_heap_t *heap, netr_info_t *netr_info,
429     smb_logon_t *user_info, struct netr_logon_info2 *info2)
430 {
431 	uint32_t len;
432 
433 	bcopy(user_info->lg_challenge_key.val, info2->lm_challenge.data, 8);
434 
435 	if ((len = user_info->lg_nt_password.len) != 0) {
436 		ndr_heap_mkvcb(heap, user_info->lg_nt_password.val, len,
437 		    (ndr_vcbuf_t *)&info2->nt_response);
438 	} else {
439 		bzero(&info2->nt_response, sizeof (netr_vcbuf_t));
440 	}
441 
442 	if ((len = user_info->lg_lm_password.len) != 0) {
443 		ndr_heap_mkvcb(heap, user_info->lg_lm_password.val, len,
444 		    (ndr_vcbuf_t *)&info2->lm_response);
445 	} else {
446 		bzero(&info2->lm_response, sizeof (netr_vcbuf_t));
447 	}
448 }
449 
450 /*
451  * netr_setup_authenticator
452  *
453  * Set up the request and return authenticators. A new credential is
454  * generated from the session key, the current client credential and
455  * the current time, i.e.
456  *
457  *		NewCredential = Cred(SessionKey, OldCredential, time);
458  *
459  * The timestamp, which is used as a random seed, is stored in both
460  * the request and return authenticators.
461  *
462  * If any difficulties occur using the cryptographic framework, the
463  * function returns SMBAUTH_FAILURE.  Otherwise SMBAUTH_SUCCESS is
464  * returned.
465  */
466 int
467 netr_setup_authenticator(netr_info_t *netr_info,
468     struct netr_authenticator *auth, struct netr_authenticator *ret_auth)
469 {
470 	bzero(auth, sizeof (struct netr_authenticator));
471 
472 	netr_info->timestamp = time(0);
473 	auth->timestamp = netr_info->timestamp;
474 
475 	if (netr_gen_credentials(netr_info->session_key.key,
476 	    &netr_info->client_credential,
477 	    netr_info->timestamp,
478 	    (netr_cred_t *)&auth->credential) != SMBAUTH_SUCCESS)
479 		return (SMBAUTH_FAILURE);
480 
481 	if (ret_auth) {
482 		bzero(ret_auth, sizeof (struct netr_authenticator));
483 		ret_auth->timestamp = netr_info->timestamp;
484 	}
485 
486 	return (SMBAUTH_SUCCESS);
487 }
488 
489 /*
490  * Validate the returned credentials and update the credential chain.
491  * The server returns an updated client credential rather than a new
492  * server credential.  The server uses (timestamp + 1) when generating
493  * the credential.
494  *
495  * Generate the new seed for the credential chain. The new seed is
496  * formed by adding (timestamp + 1) to the current client credential.
497  * The only quirk is the uint32_t style addition.
498  *
499  * Returns NT_STATUS_INSUFFICIENT_LOGON_INFO if auth->credential is a
500  * NULL pointer. The Authenticator field of the SamLogon response packet
501  * sent by the Samba 3 PDC always return NULL pointer if the received
502  * SamLogon request is not immediately followed by the ServerReqChallenge
503  * and ServerAuthenticate2 requests.
504  *
505  * Returns NT_STATUS_SUCCESS if the server returned a valid credential.
506  * Otherwise we retirm NT_STATUS_UNSUCCESSFUL.
507  */
508 uint32_t
509 netr_validate_chain(netr_info_t *netr_info, struct netr_authenticator *auth)
510 {
511 	netr_cred_t cred;
512 	uint32_t result = NT_STATUS_SUCCESS;
513 	uint32_t *dwp;
514 
515 	++netr_info->timestamp;
516 
517 	if (netr_gen_credentials(netr_info->session_key.key,
518 	    &netr_info->client_credential,
519 	    netr_info->timestamp, &cred) != SMBAUTH_SUCCESS)
520 		return (NT_STATUS_INTERNAL_ERROR);
521 
522 	if (&auth->credential == 0) {
523 		/*
524 		 * If the validation fails, destroy the credential chain.
525 		 * This should trigger a new authentication chain.
526 		 */
527 		bzero(netr_info, sizeof (netr_info_t));
528 		return (NT_STATUS_INSUFFICIENT_LOGON_INFO);
529 	}
530 
531 	result = memcmp(&cred, &auth->credential, sizeof (netr_cred_t));
532 	if (result != 0) {
533 		/*
534 		 * If the validation fails, destroy the credential chain.
535 		 * This should trigger a new authentication chain.
536 		 */
537 		bzero(netr_info, sizeof (netr_info_t));
538 		result = NT_STATUS_UNSUCCESSFUL;
539 	} else {
540 		/*
541 		 * Otherwise generate the next step in the chain.
542 		 */
543 		/*LINTED E_BAD_PTR_CAST_ALIGN*/
544 		dwp = (uint32_t *)&netr_info->client_credential;
545 		dwp[0] += netr_info->timestamp;
546 
547 		netr_info->flags |= NETR_FLG_VALID;
548 	}
549 
550 	return (result);
551 }
552 
553 /*
554  * netr_invalidate_chain
555  *
556  * Mark the credential chain as invalid so that it will be recreated
557  * on the next attempt.
558  */
559 static void
560 netr_invalidate_chain(void)
561 {
562 	netr_global_info.flags &= ~NETR_FLG_VALID;
563 }
564 
565 /*
566  * netr_setup_identity
567  *
568  * Set up the client identity information. All of this information is
569  * specifically related to the client user and workstation attempting
570  * to access this system. It may not be in our primary domain.
571  *
572  * I don't know what logon_id is, it seems to be a unique identifier.
573  * Increment it before each use.
574  */
575 static void
576 netr_setup_identity(ndr_heap_t *heap, smb_logon_t *user_info,
577     netr_logon_id_t *identity)
578 {
579 	static mutex_t logon_id_mutex;
580 	static uint32_t logon_id;
581 
582 	(void) mutex_lock(&logon_id_mutex);
583 
584 	if (logon_id == 0)
585 		logon_id = 0xDCD0;
586 
587 	++logon_id;
588 	user_info->lg_logon_id = logon_id;
589 
590 	(void) mutex_unlock(&logon_id_mutex);
591 
592 	identity->parameter_control = 0;
593 	identity->logon_id.LowPart = logon_id;
594 	identity->logon_id.HighPart = 0;
595 
596 	ndr_heap_mkvcs(heap, user_info->lg_domain,
597 	    (ndr_vcstr_t *)&identity->domain_name);
598 
599 	ndr_heap_mkvcs(heap, user_info->lg_username,
600 	    (ndr_vcstr_t *)&identity->username);
601 
602 	/*
603 	 * Some systems prefix the client workstation name with \\.
604 	 * It doesn't seem to make any difference whether it's there
605 	 * or not.
606 	 */
607 	ndr_heap_mkvcs(heap, user_info->lg_workstation,
608 	    (ndr_vcstr_t *)&identity->workstation);
609 }
610 
611 /*
612  * Sets up domain, local and well-known group membership for the given
613  * token. Two assumptions have been made here:
614  *
615  *   a) token already contains a valid user SID so that group
616  *      memberships can be established
617  *
618  *   b) token belongs to a domain user
619  */
620 static uint32_t
621 netr_setup_token_wingrps(struct netr_validation_info3 *info3,
622     smb_token_t *token)
623 {
624 	smb_ids_t tkn_grps;
625 	uint32_t status;
626 
627 	tkn_grps.i_cnt = 0;
628 	tkn_grps.i_ids = NULL;
629 
630 	status = netr_setup_domain_groups(info3, &tkn_grps);
631 	if (status != NT_STATUS_SUCCESS) {
632 		smb_ids_free(&tkn_grps);
633 		return (status);
634 	}
635 
636 	status = smb_sam_usr_groups(token->tkn_user.i_sid, &tkn_grps);
637 	if (status != NT_STATUS_SUCCESS) {
638 		smb_ids_free(&tkn_grps);
639 		return (status);
640 	}
641 
642 	if (netr_isadmin(info3))
643 		token->tkn_flags |= SMB_ATF_ADMIN;
644 
645 	status = smb_wka_token_groups(token->tkn_flags, &tkn_grps);
646 	if (status == NT_STATUS_SUCCESS)
647 		token->tkn_win_grps = tkn_grps;
648 	else
649 		smb_ids_free(&tkn_grps);
650 
651 	return (status);
652 }
653 
654 /*
655  * Converts groups information in the returned structure by domain controller
656  * (info3) to an internal representation (gids)
657  */
658 static uint32_t
659 netr_setup_domain_groups(struct netr_validation_info3 *info3, smb_ids_t *gids)
660 {
661 	smb_sid_t *domain_sid;
662 	smb_id_t *ids;
663 	int i, total_cnt;
664 
665 	if ((i = info3->GroupCount) == 0)
666 		i++;
667 	i += info3->SidCount;
668 
669 	total_cnt = gids->i_cnt + i;
670 
671 	gids->i_ids = realloc(gids->i_ids, total_cnt * sizeof (smb_id_t));
672 	if (gids->i_ids == NULL)
673 		return (NT_STATUS_NO_MEMORY);
674 
675 	domain_sid = (smb_sid_t *)info3->LogonDomainId;
676 
677 	ids = gids->i_ids + gids->i_cnt;
678 	for (i = 0; i < info3->GroupCount; i++, gids->i_cnt++, ids++) {
679 		ids->i_sid = smb_sid_splice(domain_sid, info3->GroupIds[i].rid);
680 		if (ids->i_sid == NULL)
681 			return (NT_STATUS_NO_MEMORY);
682 
683 		ids->i_attrs = info3->GroupIds[i].attributes;
684 	}
685 
686 	if (info3->GroupCount == 0) {
687 		/*
688 		 * if there's no global group should add the primary group.
689 		 */
690 		ids->i_sid = smb_sid_splice(domain_sid, info3->PrimaryGroupId);
691 		if (ids->i_sid == NULL)
692 			return (NT_STATUS_NO_MEMORY);
693 
694 		ids->i_attrs = 0x7;
695 		gids->i_cnt++;
696 		ids++;
697 	}
698 
699 	/* Add the extra SIDs */
700 	for (i = 0; i < info3->SidCount; i++, gids->i_cnt++, ids++) {
701 		ids->i_sid = smb_sid_dup((smb_sid_t *)info3->ExtraSids[i].sid);
702 		if (ids->i_sid == NULL)
703 			return (NT_STATUS_NO_MEMORY);
704 
705 		ids->i_attrs = info3->ExtraSids[i].attributes;
706 	}
707 
708 	return (NT_STATUS_SUCCESS);
709 }
710 
711 /*
712  * Determines if the given user is the domain Administrator or a
713  * member of Domain Admins
714  */
715 static boolean_t
716 netr_isadmin(struct netr_validation_info3 *info3)
717 {
718 	smb_domain_t di;
719 	int i;
720 
721 	if (!smb_domain_lookup_sid((smb_sid_t *)info3->LogonDomainId, &di))
722 		return (B_FALSE);
723 
724 	if (di.di_type != SMB_DOMAIN_PRIMARY)
725 		return (B_FALSE);
726 
727 	if ((info3->UserId == DOMAIN_USER_RID_ADMIN) ||
728 	    (info3->PrimaryGroupId == DOMAIN_GROUP_RID_ADMINS))
729 		return (B_TRUE);
730 
731 	for (i = 0; i < info3->GroupCount; i++)
732 		if (info3->GroupIds[i].rid == DOMAIN_GROUP_RID_ADMINS)
733 			return (B_TRUE);
734 
735 	return (B_FALSE);
736 }
737