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source: vendor/3.6.0/libcli/security/sddl.c

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Last change on this file was 740, checked in by Silvan Scherrer, 13 years ago
Samba Server: update vendor to 3.6.0
File size: 16.2 KB

Line
1	/*
2	Unix SMB/CIFS implementation.
3
4	security descriptor description language functions
5
6	Copyright (C) Andrew Tridgell 2005
7
8	This program is free software; you can redistribute it and/or modify
9	it under the terms of the GNU General Public License as published by
10	the Free Software Foundation; either version 3 of the License, or
11	(at your option) any later version.
12
13	This program is distributed in the hope that it will be useful,
14	but WITHOUT ANY WARRANTY; without even the implied warranty of
15	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16	GNU General Public License for more details.
17
18	You should have received a copy of the GNU General Public License
19	along with this program. If not, see <http://www.gnu.org/licenses/>.
20	*/
21
22	#include "includes.h"
23	#include "libcli/security/security.h"
24	#include "librpc/gen_ndr/ndr_misc.h"
25	#include "system/locale.h"
26
27	struct flag_map {
28	const char *name;
29	uint32_t flag;
30	};
31
32	/*
33	map a series of letter codes into a uint32_t
34	*/
35	static bool sddl_map_flags(const struct flag_map map, const char str,
36	uint32_t flags, size_t len)
37	{
38	const char *str0 = str;
39	if (len) *len = 0;
40	*flags = 0;
41	while (str[0] && isupper(str[0])) {
42	int i;
43	for (i=0;map[i].name;i++) {
44	size_t l = strlen(map[i].name);
45	if (strncmp(map[i].name, str, l) == 0) {
46	*flags \|= map[i].flag;
47	str += l;
48	if (len) *len += l;
49	break;
50	}
51	}
52	if (map[i].name == NULL) {
53	DEBUG(1, ("Unknown flag - %s in %s\n", str, str0));
54	return false;
55	}
56	}
57	return true;
58	}
59
60	/*
61	a mapping between the 2 letter SID codes and sid strings
62	*/
63	static const struct {
64	const char *code;
65	const char *sid;
66	uint32_t rid;
67	} sid_codes[] = {
68	{ "WD", SID_WORLD },
69
70	{ "CO", SID_CREATOR_OWNER },
71	{ "CG", SID_CREATOR_GROUP },
72
73	{ "NU", SID_NT_NETWORK },
74	{ "IU", SID_NT_INTERACTIVE },
75	{ "SU", SID_NT_SERVICE },
76	{ "AN", SID_NT_ANONYMOUS },
77	{ "ED", SID_NT_ENTERPRISE_DCS },
78	{ "PS", SID_NT_SELF },
79	{ "AU", SID_NT_AUTHENTICATED_USERS },
80	{ "RC", SID_NT_RESTRICTED },
81	{ "SY", SID_NT_SYSTEM },
82	{ "LS", SID_NT_LOCAL_SERVICE },
83	{ "NS", SID_NT_NETWORK_SERVICE },
84
85	{ "BA", SID_BUILTIN_ADMINISTRATORS },
86	{ "BU", SID_BUILTIN_USERS },
87	{ "BG", SID_BUILTIN_GUESTS },
88	{ "PU", SID_BUILTIN_POWER_USERS },
89	{ "AO", SID_BUILTIN_ACCOUNT_OPERATORS },
90	{ "SO", SID_BUILTIN_SERVER_OPERATORS },
91	{ "PO", SID_BUILTIN_PRINT_OPERATORS },
92	{ "BO", SID_BUILTIN_BACKUP_OPERATORS },
93	{ "RE", SID_BUILTIN_REPLICATOR },
94	{ "BR", SID_BUILTIN_RAS_SERVERS },
95	{ "RU", SID_BUILTIN_PREW2K },
96	{ "RD", SID_BUILTIN_REMOTE_DESKTOP_USERS },
97	{ "NO", SID_BUILTIN_NETWORK_CONF_OPERATORS },
98	{ "IF", SID_BUILTIN_INCOMING_FOREST_TRUST },
99
100	{ "LA", NULL, DOMAIN_RID_ADMINISTRATOR },
101	{ "LG", NULL, DOMAIN_RID_GUEST },
102	{ "LK", NULL, DOMAIN_RID_KRBTGT },
103
104	{ "ER", NULL, DOMAIN_RID_ENTERPRISE_READONLY_DCS },
105	{ "DA", NULL, DOMAIN_RID_ADMINS },
106	{ "DU", NULL, DOMAIN_RID_USERS },
107	{ "DG", NULL, DOMAIN_RID_GUESTS },
108	{ "DC", NULL, DOMAIN_RID_DOMAIN_MEMBERS },
109	{ "DD", NULL, DOMAIN_RID_DCS },
110	{ "CA", NULL, DOMAIN_RID_CERT_ADMINS },
111	{ "SA", NULL, DOMAIN_RID_SCHEMA_ADMINS },
112	{ "EA", NULL, DOMAIN_RID_ENTERPRISE_ADMINS },
113	{ "PA", NULL, DOMAIN_RID_POLICY_ADMINS },
114	{ "RO", NULL, DOMAIN_RID_READONLY_DCS },
115	{ "RS", NULL, DOMAIN_RID_RAS_SERVERS }
116	};
117
118	/*
119	decode a SID
120	It can either be a special 2 letter code, or in S-* format
121	*/
122	static struct dom_sid sddl_decode_sid(TALLOC_CTX mem_ctx, const char **sddlp,
123	const struct dom_sid *domain_sid)
124	{
125	const char sddl = (sddlp);
126	int i;
127
128	/* see if its in the numeric format */
129	if (strncmp(sddl, "S-", 2) == 0) {
130	struct dom_sid *sid;
131	char *sid_str;
132	size_t len = strspn(sddl+2, "-0123456789");
133	sid_str = talloc_strndup(mem_ctx, sddl, len+2);
134	if (!sid_str) {
135	return NULL;
136	}
137	(*sddlp) += len+2;
138	sid = dom_sid_parse_talloc(mem_ctx, sid_str);
139	talloc_free(sid_str);
140	return sid;
141	}
142
143	/* now check for one of the special codes */
144	for (i=0;i<ARRAY_SIZE(sid_codes);i++) {
145	if (strncmp(sid_codes[i].code, sddl, 2) == 0) break;
146	}
147	if (i == ARRAY_SIZE(sid_codes)) {
148	DEBUG(1,("Unknown sddl sid code '%2.2s'\n", sddl));
149	return NULL;
150	}
151
152	(*sddlp) += 2;
153
154	if (sid_codes[i].sid == NULL) {
155	return dom_sid_add_rid(mem_ctx, domain_sid, sid_codes[i].rid);
156	}
157
158	return dom_sid_parse_talloc(mem_ctx, sid_codes[i].sid);
159	}
160
161	static const struct flag_map ace_types[] = {
162	{ "AU", SEC_ACE_TYPE_SYSTEM_AUDIT },
163	{ "AL", SEC_ACE_TYPE_SYSTEM_ALARM },
164	{ "OA", SEC_ACE_TYPE_ACCESS_ALLOWED_OBJECT },
165	{ "OD", SEC_ACE_TYPE_ACCESS_DENIED_OBJECT },
166	{ "OU", SEC_ACE_TYPE_SYSTEM_AUDIT_OBJECT },
167	{ "OL", SEC_ACE_TYPE_SYSTEM_ALARM_OBJECT },
168	{ "A", SEC_ACE_TYPE_ACCESS_ALLOWED },
169	{ "D", SEC_ACE_TYPE_ACCESS_DENIED },
170	{ NULL, 0 }
171	};
172
173	static const struct flag_map ace_flags[] = {
174	{ "OI", SEC_ACE_FLAG_OBJECT_INHERIT },
175	{ "CI", SEC_ACE_FLAG_CONTAINER_INHERIT },
176	{ "NP", SEC_ACE_FLAG_NO_PROPAGATE_INHERIT },
177	{ "IO", SEC_ACE_FLAG_INHERIT_ONLY },
178	{ "ID", SEC_ACE_FLAG_INHERITED_ACE },
179	{ "SA", SEC_ACE_FLAG_SUCCESSFUL_ACCESS },
180	{ "FA", SEC_ACE_FLAG_FAILED_ACCESS },
181	{ NULL, 0 },
182	};
183
184	static const struct flag_map ace_access_mask[] = {
185	{ "RP", SEC_ADS_READ_PROP },
186	{ "WP", SEC_ADS_WRITE_PROP },
187	{ "CR", SEC_ADS_CONTROL_ACCESS },
188	{ "CC", SEC_ADS_CREATE_CHILD },
189	{ "DC", SEC_ADS_DELETE_CHILD },
190	{ "LC", SEC_ADS_LIST },
191	{ "LO", SEC_ADS_LIST_OBJECT },
192	{ "RC", SEC_STD_READ_CONTROL },
193	{ "WO", SEC_STD_WRITE_OWNER },
194	{ "WD", SEC_STD_WRITE_DAC },
195	{ "SD", SEC_STD_DELETE },
196	{ "DT", SEC_ADS_DELETE_TREE },
197	{ "SW", SEC_ADS_SELF_WRITE },
198	{ "GA", SEC_GENERIC_ALL },
199	{ "GR", SEC_GENERIC_READ },
200	{ "GW", SEC_GENERIC_WRITE },
201	{ "GX", SEC_GENERIC_EXECUTE },
202	{ NULL, 0 }
203	};
204
205	/*
206	decode an ACE
207	return true on success, false on failure
208	note that this routine modifies the string
209	*/
210	static bool sddl_decode_ace(TALLOC_CTX mem_ctx, struct security_ace ace, char *str,
211	const struct dom_sid *domain_sid)
212	{
213	const char *tok[6];
214	const char *s;
215	int i;
216	uint32_t v;
217	struct dom_sid *sid;
218
219	ZERO_STRUCTP(ace);
220
221	/* parse out the 6 tokens */
222	tok[0] = str;
223	for (i=0;i<5;i++) {
224	char *ptr = strchr(str, ';');
225	if (ptr == NULL) return false;
226	*ptr = 0;
227	str = ptr+1;
228	tok[i+1] = str;
229	}
230
231	/* parse ace type */
232	if (!sddl_map_flags(ace_types, tok[0], &v, NULL)) {
233	return false;
234	}
235	ace->type = v;
236
237	/* ace flags */
238	if (!sddl_map_flags(ace_flags, tok[1], &v, NULL)) {
239	return false;
240	}
241	ace->flags = v;
242
243	/* access mask */
244	if (strncmp(tok[2], "0x", 2) == 0) {
245	ace->access_mask = strtol(tok[2], NULL, 16);
246	} else {
247	if (!sddl_map_flags(ace_access_mask, tok[2], &v, NULL)) {
248	return false;
249	}
250	ace->access_mask = v;
251	}
252
253	/* object */
254	if (tok[3][0] != 0) {
255	NTSTATUS status = GUID_from_string(tok[3],
256	&ace->object.object.type.type);
257	if (!NT_STATUS_IS_OK(status)) {
258	return false;
259	}
260	ace->object.object.flags \|= SEC_ACE_OBJECT_TYPE_PRESENT;
261	}
262
263	/* inherit object */
264	if (tok[4][0] != 0) {
265	NTSTATUS status = GUID_from_string(tok[4],
266	&ace->object.object.inherited_type.inherited_type);
267	if (!NT_STATUS_IS_OK(status)) {
268	return false;
269	}
270	ace->object.object.flags \|= SEC_ACE_INHERITED_OBJECT_TYPE_PRESENT;
271	}
272
273	/* trustee */
274	s = tok[5];
275	sid = sddl_decode_sid(mem_ctx, &s, domain_sid);
276	if (sid == NULL) {
277	return false;
278	}
279	ace->trustee = *sid;
280	talloc_free(sid);
281
282	return true;
283	}
284
285	static const struct flag_map acl_flags[] = {
286	{ "P", SEC_DESC_DACL_PROTECTED },
287	{ "AR", SEC_DESC_DACL_AUTO_INHERIT_REQ },
288	{ "AI", SEC_DESC_DACL_AUTO_INHERITED },
289	{ NULL, 0 }
290	};
291
292	/*
293	decode an ACL
294	*/
295	static struct security_acl sddl_decode_acl(struct security_descriptor sd,
296	const char *sddlp, uint32_t flags,
297	const struct dom_sid *domain_sid)
298	{
299	const char sddl = sddlp;
300	struct security_acl *acl;
301	size_t len;
302
303	*flags = 0;
304
305	acl = talloc_zero(sd, struct security_acl);
306	if (acl == NULL) return NULL;
307	acl->revision = SECURITY_ACL_REVISION_ADS;
308
309	if (isupper(sddl[0]) && sddl[1] == ':') {
310	/* its an empty ACL */
311	return acl;
312	}
313
314	/* work out the ACL flags */
315	if (!sddl_map_flags(acl_flags, sddl, flags, &len)) {
316	talloc_free(acl);
317	return NULL;
318	}
319	sddl += len;
320
321	/* now the ACEs */
322	while (*sddl == '(') {
323	char *astr;
324	len = strcspn(sddl+1, ")");
325	astr = talloc_strndup(acl, sddl+1, len);
326	if (astr == NULL \|\| sddl[len+1] != ')') {
327	talloc_free(acl);
328	return NULL;
329	}
330	acl->aces = talloc_realloc(acl, acl->aces, struct security_ace,
331	acl->num_aces+1);
332	if (acl->aces == NULL) {
333	talloc_free(acl);
334	return NULL;
335	}
336	if (!sddl_decode_ace(acl->aces, &acl->aces[acl->num_aces],
337	astr, domain_sid)) {
338	talloc_free(acl);
339	return NULL;
340	}
341	switch (acl->aces[acl->num_aces].type) {
342	case SEC_ACE_TYPE_ACCESS_ALLOWED_OBJECT:
343	case SEC_ACE_TYPE_ACCESS_DENIED_OBJECT:
344	case SEC_ACE_TYPE_SYSTEM_AUDIT_OBJECT:
345	case SEC_ACE_TYPE_SYSTEM_ALARM_OBJECT:
346	acl->revision = SECURITY_ACL_REVISION_ADS;
347	break;
348	default:
349	break;
350	}
351	talloc_free(astr);
352	sddl += len+2;
353	acl->num_aces++;
354	}
355
356	(*sddlp) = sddl;
357	return acl;
358	}
359
360	/*
361	decode a security descriptor in SDDL format
362	*/
363	struct security_descriptor sddl_decode(TALLOC_CTX mem_ctx, const char *sddl,
364	const struct dom_sid *domain_sid)
365	{
366	struct security_descriptor *sd;
367	sd = talloc_zero(mem_ctx, struct security_descriptor);
368
369	sd->revision = SECURITY_DESCRIPTOR_REVISION_1;
370	sd->type = SEC_DESC_SELF_RELATIVE;
371
372	while (*sddl) {
373	uint32_t flags;
374	char c = sddl[0];
375	if (sddl[1] != ':') goto failed;
376
377	sddl += 2;
378	switch (c) {
379	case 'D':
380	if (sd->dacl != NULL) goto failed;
381	sd->dacl = sddl_decode_acl(sd, &sddl, &flags, domain_sid);
382	if (sd->dacl == NULL) goto failed;
383	sd->type \|= flags \| SEC_DESC_DACL_PRESENT;
384	break;
385	case 'S':
386	if (sd->sacl != NULL) goto failed;
387	sd->sacl = sddl_decode_acl(sd, &sddl, &flags, domain_sid);
388	if (sd->sacl == NULL) goto failed;
389	/* this relies on the SEC_DESC_SACL_* flags being
390	1 bit shifted from the SEC_DESC_DACL_* flags */
391	sd->type \|= (flags<<1) \| SEC_DESC_SACL_PRESENT;
392	break;
393	case 'O':
394	if (sd->owner_sid != NULL) goto failed;
395	sd->owner_sid = sddl_decode_sid(sd, &sddl, domain_sid);
396	if (sd->owner_sid == NULL) goto failed;
397	break;
398	case 'G':
399	if (sd->group_sid != NULL) goto failed;
400	sd->group_sid = sddl_decode_sid(sd, &sddl, domain_sid);
401	if (sd->group_sid == NULL) goto failed;
402	break;
403	}
404	}
405
406	return sd;
407
408	failed:
409	DEBUG(2,("Badly formatted SDDL '%s'\n", sddl));
410	talloc_free(sd);
411	return NULL;
412	}
413
414	/*
415	turn a set of flags into a string
416	*/
417	static char sddl_flags_to_string(TALLOC_CTX mem_ctx, const struct flag_map *map,
418	uint32_t flags, bool check_all)
419	{
420	int i;
421	char *s;
422
423	/* try to find an exact match */
424	for (i=0;map[i].name;i++) {
425	if (map[i].flag == flags) {
426	return talloc_strdup(mem_ctx, map[i].name);
427	}
428	}
429
430	s = talloc_strdup(mem_ctx, "");
431
432	/* now by bits */
433	for (i=0;map[i].name;i++) {
434	if ((flags & map[i].flag) != 0) {
435	s = talloc_asprintf_append_buffer(s, "%s", map[i].name);
436	if (s == NULL) goto failed;
437	flags &= ~map[i].flag;
438	}
439	}
440
441	if (check_all && flags != 0) {
442	goto failed;
443	}
444
445	return s;
446
447	failed:
448	talloc_free(s);
449	return NULL;
450	}
451
452	/*
453	encode a sid in SDDL format
454	*/
455	static char sddl_encode_sid(TALLOC_CTX mem_ctx, const struct dom_sid *sid,
456	const struct dom_sid *domain_sid)
457	{
458	int i;
459	char *sidstr;
460
461	sidstr = dom_sid_string(mem_ctx, sid);
462	if (sidstr == NULL) return NULL;
463
464	/* seen if its a well known sid */
465	for (i=0;sid_codes[i].sid;i++) {
466	if (strcmp(sidstr, sid_codes[i].sid) == 0) {
467	talloc_free(sidstr);
468	return talloc_strdup(mem_ctx, sid_codes[i].code);
469	}
470	}
471
472	/* or a well known rid in our domain */
473	if (dom_sid_in_domain(domain_sid, sid)) {
474	uint32_t rid = sid->sub_auths[sid->num_auths-1];
475	for (;i<ARRAY_SIZE(sid_codes);i++) {
476	if (rid == sid_codes[i].rid) {
477	talloc_free(sidstr);
478	return talloc_strdup(mem_ctx, sid_codes[i].code);
479	}
480	}
481	}
482
483	talloc_free(sidstr);
484
485	/* TODO: encode well known sids as two letter codes */
486	return dom_sid_string(mem_ctx, sid);
487	}
488
489
490	/*
491	encode an ACE in SDDL format
492	*/
493	static char sddl_encode_ace(TALLOC_CTX mem_ctx, const struct security_ace *ace,
494	const struct dom_sid *domain_sid)
495	{
496	char *sddl = NULL;
497	TALLOC_CTX *tmp_ctx;
498	const char sddl_type="", sddl_flags="", *sddl_mask="",
499	sddl_object="", sddl_iobject="", *sddl_trustee="";
500
501	tmp_ctx = talloc_new(mem_ctx);
502	if (tmp_ctx == NULL) {
503	DEBUG(0, ("talloc_new failed\n"));
504	return NULL;
505	}
506
507	sddl_type = sddl_flags_to_string(tmp_ctx, ace_types, ace->type, true);
508	if (sddl_type == NULL) {
509	goto failed;
510	}
511
512	sddl_flags = sddl_flags_to_string(tmp_ctx, ace_flags, ace->flags,
513	true);
514	if (sddl_flags == NULL) {
515	goto failed;
516	}
517
518	sddl_mask = sddl_flags_to_string(tmp_ctx, ace_access_mask,
519	ace->access_mask, true);
520	if (sddl_mask == NULL) {
521	sddl_mask = talloc_asprintf(tmp_ctx, "0x%08x",
522	ace->access_mask);
523	if (sddl_mask == NULL) {
524	goto failed;
525	}
526	}
527
528	if (ace->type == SEC_ACE_TYPE_ACCESS_ALLOWED_OBJECT \|\|
529	ace->type == SEC_ACE_TYPE_ACCESS_DENIED_OBJECT \|\|
530	ace->type == SEC_ACE_TYPE_SYSTEM_AUDIT_OBJECT \|\|
531	ace->type == SEC_ACE_TYPE_SYSTEM_AUDIT_OBJECT) {
532	if (ace->object.object.flags & SEC_ACE_OBJECT_TYPE_PRESENT) {
533	sddl_object = GUID_string(
534	tmp_ctx, &ace->object.object.type.type);
535	if (sddl_object == NULL) {
536	goto failed;
537	}
538	}
539
540	if (ace->object.object.flags & SEC_ACE_INHERITED_OBJECT_TYPE_PRESENT) {
541	sddl_iobject = GUID_string(tmp_ctx, &ace->object.object.inherited_type.inherited_type);
542	if (sddl_iobject == NULL) {
543	goto failed;
544	}
545	}
546	}
547
548	sddl_trustee = sddl_encode_sid(tmp_ctx, &ace->trustee, domain_sid);
549	if (sddl_trustee == NULL) {
550	goto failed;
551	}
552
553	sddl = talloc_asprintf(mem_ctx, "%s;%s;%s;%s;%s;%s",
554	sddl_type, sddl_flags, sddl_mask, sddl_object,
555	sddl_iobject, sddl_trustee);
556
557	failed:
558	talloc_free(tmp_ctx);
559	return sddl;
560	}
561
562	/*
563	encode an ACL in SDDL format
564	*/
565	static char sddl_encode_acl(TALLOC_CTX mem_ctx, const struct security_acl *acl,
566	uint32_t flags, const struct dom_sid *domain_sid)
567	{
568	char *sddl;
569	uint32_t i;
570
571	/* add any ACL flags */
572	sddl = sddl_flags_to_string(mem_ctx, acl_flags, flags, false);
573	if (sddl == NULL) goto failed;
574
575	/* now the ACEs, encoded in braces */
576	for (i=0;i<acl->num_aces;i++) {
577	char *ace = sddl_encode_ace(sddl, &acl->aces[i], domain_sid);
578	if (ace == NULL) goto failed;
579	sddl = talloc_asprintf_append_buffer(sddl, "(%s)", ace);
580	if (sddl == NULL) goto failed;
581	talloc_free(ace);
582	}
583
584	return sddl;
585
586	failed:
587	talloc_free(sddl);
588	return NULL;
589	}
590
591
592	/*
593	encode a security descriptor to SDDL format
594	*/
595	char sddl_encode(TALLOC_CTX mem_ctx, const struct security_descriptor *sd,
596	const struct dom_sid *domain_sid)
597	{
598	char *sddl;
599	TALLOC_CTX *tmp_ctx;
600
601	/* start with a blank string */
602	sddl = talloc_strdup(mem_ctx, "");
603	if (sddl == NULL) goto failed;
604
605	tmp_ctx = talloc_new(mem_ctx);
606
607	if (sd->owner_sid != NULL) {
608	char *sid = sddl_encode_sid(tmp_ctx, sd->owner_sid, domain_sid);
609	if (sid == NULL) goto failed;
610	sddl = talloc_asprintf_append_buffer(sddl, "O:%s", sid);
611	if (sddl == NULL) goto failed;
612	}
613
614	if (sd->group_sid != NULL) {
615	char *sid = sddl_encode_sid(tmp_ctx, sd->group_sid, domain_sid);
616	if (sid == NULL) goto failed;
617	sddl = talloc_asprintf_append_buffer(sddl, "G:%s", sid);
618	if (sddl == NULL) goto failed;
619	}
620
621	if ((sd->type & SEC_DESC_DACL_PRESENT) && sd->dacl != NULL) {
622	char *acl = sddl_encode_acl(tmp_ctx, sd->dacl, sd->type, domain_sid);
623	if (acl == NULL) goto failed;
624	sddl = talloc_asprintf_append_buffer(sddl, "D:%s", acl);
625	if (sddl == NULL) goto failed;
626	}
627
628	if ((sd->type & SEC_DESC_SACL_PRESENT) && sd->sacl != NULL) {
629	char *acl = sddl_encode_acl(tmp_ctx, sd->sacl, sd->type>>1, domain_sid);
630	if (acl == NULL) goto failed;
631	sddl = talloc_asprintf_append_buffer(sddl, "S:%s", acl);
632	if (sddl == NULL) goto failed;
633	}
634
635	talloc_free(tmp_ctx);
636	return sddl;
637
638	failed:
639	talloc_free(sddl);
640	return NULL;
641	}
642
643

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