1
/*-
2
 * Copyright (c) 1999-2002, 2007-2011 Robert N. M. Watson
3
 * Copyright (c) 2001-2005 McAfee, Inc.
4
 * Copyright (c) 2006 SPARTA, Inc.
5
 * All rights reserved.
6
 *
7
 * This software was developed by Robert Watson for the TrustedBSD Project.
8
 *
9
 * This software was developed for the FreeBSD Project in part by McAfee
10
 * Research, the Security Research Division of McAfee, Inc. under
11
 * DARPA/SPAWAR contract N66001-01-C-8035 ("CBOSS"), as part of the DARPA
12
 * CHATS research program.
13
 *
14
 * This software was enhanced by SPARTA ISSO under SPAWAR contract
15
 * N66001-04-C-6019 ("SEFOS").
16
 *
17
 * This software was developed at the University of Cambridge Computer
18
 * Laboratory with support from a grant from Google, Inc.
19
 *
20
 * Redistribution and use in source and binary forms, with or without
21
 * modification, are permitted provided that the following conditions
22
 * are met:
23
 * 1. Redistributions of source code must retain the above copyright
24
 *    notice, this list of conditions and the following disclaimer.
25
 * 2. Redistributions in binary form must reproduce the above copyright
26
 *    notice, this list of conditions and the following disclaimer in the
27
 *    documentation and/or other materials provided with the distribution.
28
 *
29
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
30
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
31
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
32
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
33
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
34
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
35
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
36
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
37
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
38
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
39
 * SUCH DAMAGE.
40
 */
41

42
/*
43
 * Developed by the TrustedBSD Project.
44
 *
45
 * MLS fixed label mandatory confidentiality policy.
46
 */
47

48
#include <sys/types.h>
49
#include <sys/param.h>
50
#include <sys/acl.h>
51
#include <sys/conf.h>
52
#include <sys/extattr.h>
53
#include <sys/kernel.h>
54
#include <sys/ksem.h>
55
#include <sys/mman.h>
56
#include <sys/malloc.h>
57
#include <sys/mount.h>
58
#include <sys/proc.h>
59
#include <sys/sbuf.h>
60
#include <sys/systm.h>
61
#include <sys/sysproto.h>
62
#include <sys/sysent.h>
63
#include <sys/systm.h>
64
#include <sys/vnode.h>
65
#include <sys/file.h>
66
#include <sys/socket.h>
67
#include <sys/socketvar.h>
68
#include <sys/pipe.h>
69
#include <sys/sx.h>
70
#include <sys/sysctl.h>
71
#include <sys/msg.h>
72
#include <sys/sem.h>
73
#include <sys/shm.h>
74

75
#include <fs/devfs/devfs.h>
76

77
#include <net/bpfdesc.h>
78
#include <net/if.h>
79
#include <net/if_types.h>
80
#include <net/if_var.h>
81

82
#include <netinet/in.h>
83
#include <netinet/in_pcb.h>
84
#include <netinet/ip_var.h>
85

86
#include <vm/uma.h>
87
#include <vm/vm.h>
88

89
#include <security/mac/mac_policy.h>
90
#include <security/mac_mls/mac_mls.h>
91

92
static SYSCTL_NODE(_security_mac, OID_AUTO, mls,
93
    CTLFLAG_RW | CTLFLAG_MPSAFE, 0,
94
    "TrustedBSD mac_mls policy controls");
95

96
static int	mls_label_size = sizeof(struct mac_mls);
97
SYSCTL_INT(_security_mac_mls, OID_AUTO, label_size, CTLFLAG_RD,
98
    &mls_label_size, 0, "Size of struct mac_mls");
99

100
static int	mls_enabled = 1;
101
SYSCTL_INT(_security_mac_mls, OID_AUTO, enabled, CTLFLAG_RWTUN, &mls_enabled, 0,
102
    "Enforce MAC/MLS policy");
103

104
static int	destroyed_not_inited;
105
SYSCTL_INT(_security_mac_mls, OID_AUTO, destroyed_not_inited, CTLFLAG_RD,
106
    &destroyed_not_inited, 0, "Count of labels destroyed but not inited");
107

108
static int	ptys_equal = 0;
109
SYSCTL_INT(_security_mac_mls, OID_AUTO, ptys_equal, CTLFLAG_RWTUN,
110
    &ptys_equal, 0, "Label pty devices as mls/equal on create");
111

112
static int	revocation_enabled = 0;
113
SYSCTL_INT(_security_mac_mls, OID_AUTO, revocation_enabled, CTLFLAG_RWTUN,
114
    &revocation_enabled, 0, "Revoke access to objects on relabel");
115

116
static int	max_compartments = MAC_MLS_MAX_COMPARTMENTS;
117
SYSCTL_INT(_security_mac_mls, OID_AUTO, max_compartments, CTLFLAG_RD,
118
    &max_compartments, 0, "Maximum compartments the policy supports");
119

120
static int	mls_slot;
121
#define	SLOT(l)	((struct mac_mls *)mac_label_get((l), mls_slot))
122
#define	SLOT_SET(l, val) mac_label_set((l), mls_slot, (uintptr_t)(val))
123

124
static uma_zone_t	zone_mls;
125

126
static __inline int
127
mls_bit_set_empty(u_char *set) {
128
	int i;
129

130
	for (i = 0; i < MAC_MLS_MAX_COMPARTMENTS >> 3; i++)
131
		if (set[i] != 0)
132
			return (0);
133
	return (1);
134
}
135

136
static struct mac_mls *
137
mls_alloc(int flag)
138
{
139

140
	return (uma_zalloc(zone_mls, flag | M_ZERO));
141
}
142

143
static void
144
mls_free(struct mac_mls *mm)
145
{
146

147
	if (mm != NULL)
148
		uma_zfree(zone_mls, mm);
149
	else
150
		atomic_add_int(&destroyed_not_inited, 1);
151
}
152

153
static int
154
mls_atmostflags(struct mac_mls *mm, int flags)
155
{
156

157
	if ((mm->mm_flags & flags) != mm->mm_flags)
158
		return (EINVAL);
159
	return (0);
160
}
161

162
static int
163
mls_dominate_element(struct mac_mls_element *a, struct mac_mls_element *b)
164
{
165
	int bit;
166

167
	switch (a->mme_type) {
168
	case MAC_MLS_TYPE_EQUAL:
169
	case MAC_MLS_TYPE_HIGH:
170
		return (1);
171

172
	case MAC_MLS_TYPE_LOW:
173
		switch (b->mme_type) {
174
		case MAC_MLS_TYPE_LEVEL:
175
		case MAC_MLS_TYPE_HIGH:
176
			return (0);
177

178
		case MAC_MLS_TYPE_EQUAL:
179
		case MAC_MLS_TYPE_LOW:
180
			return (1);
181

182
		default:
183
			panic("mls_dominate_element: b->mme_type invalid");
184
		}
185

186
	case MAC_MLS_TYPE_LEVEL:
187
		switch (b->mme_type) {
188
		case MAC_MLS_TYPE_EQUAL:
189
		case MAC_MLS_TYPE_LOW:
190
			return (1);
191

192
		case MAC_MLS_TYPE_HIGH:
193
			return (0);
194

195
		case MAC_MLS_TYPE_LEVEL:
196
			for (bit = 1; bit <= MAC_MLS_MAX_COMPARTMENTS; bit++)
197
				if (!MAC_MLS_BIT_TEST(bit,
198
				    a->mme_compartments) &&
199
				    MAC_MLS_BIT_TEST(bit, b->mme_compartments))
200
					return (0);
201
			return (a->mme_level >= b->mme_level);
202

203
		default:
204
			panic("mls_dominate_element: b->mme_type invalid");
205
		}
206

207
	default:
208
		panic("mls_dominate_element: a->mme_type invalid");
209
	}
210

211
	return (0);
212
}
213

214
static int
215
mls_range_in_range(struct mac_mls *rangea, struct mac_mls *rangeb)
216
{
217

218
	return (mls_dominate_element(&rangeb->mm_rangehigh,
219
	    &rangea->mm_rangehigh) &&
220
	    mls_dominate_element(&rangea->mm_rangelow,
221
	    &rangeb->mm_rangelow));
222
}
223

224
static int
225
mls_effective_in_range(struct mac_mls *effective, struct mac_mls *range)
226
{
227

228
	KASSERT((effective->mm_flags & MAC_MLS_FLAG_EFFECTIVE) != 0,
229
	    ("mls_effective_in_range: a not effective"));
230
	KASSERT((range->mm_flags & MAC_MLS_FLAG_RANGE) != 0,
231
	    ("mls_effective_in_range: b not range"));
232

233
	return (mls_dominate_element(&range->mm_rangehigh,
234
	    &effective->mm_effective) &&
235
	    mls_dominate_element(&effective->mm_effective,
236
	    &range->mm_rangelow));
237

238
	return (1);
239
}
240

241
static int
242
mls_dominate_effective(struct mac_mls *a, struct mac_mls *b)
243
{
244
	KASSERT((a->mm_flags & MAC_MLS_FLAG_EFFECTIVE) != 0,
245
	    ("mls_dominate_effective: a not effective"));
246
	KASSERT((b->mm_flags & MAC_MLS_FLAG_EFFECTIVE) != 0,
247
	    ("mls_dominate_effective: b not effective"));
248

249
	return (mls_dominate_element(&a->mm_effective, &b->mm_effective));
250
}
251

252
static int
253
mls_equal_element(struct mac_mls_element *a, struct mac_mls_element *b)
254
{
255

256
	if (a->mme_type == MAC_MLS_TYPE_EQUAL ||
257
	    b->mme_type == MAC_MLS_TYPE_EQUAL)
258
		return (1);
259

260
	return (a->mme_type == b->mme_type && a->mme_level == b->mme_level);
261
}
262

263
static int
264
mls_equal_effective(struct mac_mls *a, struct mac_mls *b)
265
{
266

267
	KASSERT((a->mm_flags & MAC_MLS_FLAG_EFFECTIVE) != 0,
268
	    ("mls_equal_effective: a not effective"));
269
	KASSERT((b->mm_flags & MAC_MLS_FLAG_EFFECTIVE) != 0,
270
	    ("mls_equal_effective: b not effective"));
271

272
	return (mls_equal_element(&a->mm_effective, &b->mm_effective));
273
}
274

275
static int
276
mls_contains_equal(struct mac_mls *mm)
277
{
278

279
	if (mm->mm_flags & MAC_MLS_FLAG_EFFECTIVE)
280
		if (mm->mm_effective.mme_type == MAC_MLS_TYPE_EQUAL)
281
			return (1);
282

283
	if (mm->mm_flags & MAC_MLS_FLAG_RANGE) {
284
		if (mm->mm_rangelow.mme_type == MAC_MLS_TYPE_EQUAL)
285
			return (1);
286
		if (mm->mm_rangehigh.mme_type == MAC_MLS_TYPE_EQUAL)
287
			return (1);
288
	}
289

290
	return (0);
291
}
292

293
static int
294
mls_subject_privileged(struct mac_mls *mm)
295
{
296

297
	KASSERT((mm->mm_flags & MAC_MLS_FLAGS_BOTH) == MAC_MLS_FLAGS_BOTH,
298
	    ("mls_subject_privileged: subject doesn't have both labels"));
299

300
	/* If the effective is EQUAL, it's ok. */
301
	if (mm->mm_effective.mme_type == MAC_MLS_TYPE_EQUAL)
302
		return (0);
303

304
	/* If either range endpoint is EQUAL, it's ok. */
305
	if (mm->mm_rangelow.mme_type == MAC_MLS_TYPE_EQUAL ||
306
	    mm->mm_rangehigh.mme_type == MAC_MLS_TYPE_EQUAL)
307
		return (0);
308

309
	/* If the range is low-high, it's ok. */
310
	if (mm->mm_rangelow.mme_type == MAC_MLS_TYPE_LOW &&
311
	    mm->mm_rangehigh.mme_type == MAC_MLS_TYPE_HIGH)
312
		return (0);
313

314
	/* It's not ok. */
315
	return (EPERM);
316
}
317

318
static int
319
mls_valid(struct mac_mls *mm)
320
{
321

322
	if (mm->mm_flags & MAC_MLS_FLAG_EFFECTIVE) {
323
		switch (mm->mm_effective.mme_type) {
324
		case MAC_MLS_TYPE_LEVEL:
325
			break;
326

327
		case MAC_MLS_TYPE_EQUAL:
328
		case MAC_MLS_TYPE_HIGH:
329
		case MAC_MLS_TYPE_LOW:
330
			if (mm->mm_effective.mme_level != 0 ||
331
			    !MAC_MLS_BIT_SET_EMPTY(
332
			    mm->mm_effective.mme_compartments))
333
				return (EINVAL);
334
			break;
335

336
		default:
337
			return (EINVAL);
338
		}
339
	} else {
340
		if (mm->mm_effective.mme_type != MAC_MLS_TYPE_UNDEF)
341
			return (EINVAL);
342
	}
343

344
	if (mm->mm_flags & MAC_MLS_FLAG_RANGE) {
345
		switch (mm->mm_rangelow.mme_type) {
346
		case MAC_MLS_TYPE_LEVEL:
347
			break;
348

349
		case MAC_MLS_TYPE_EQUAL:
350
		case MAC_MLS_TYPE_HIGH:
351
		case MAC_MLS_TYPE_LOW:
352
			if (mm->mm_rangelow.mme_level != 0 ||
353
			    !MAC_MLS_BIT_SET_EMPTY(
354
			    mm->mm_rangelow.mme_compartments))
355
				return (EINVAL);
356
			break;
357

358
		default:
359
			return (EINVAL);
360
		}
361

362
		switch (mm->mm_rangehigh.mme_type) {
363
		case MAC_MLS_TYPE_LEVEL:
364
			break;
365

366
		case MAC_MLS_TYPE_EQUAL:
367
		case MAC_MLS_TYPE_HIGH:
368
		case MAC_MLS_TYPE_LOW:
369
			if (mm->mm_rangehigh.mme_level != 0 ||
370
			    !MAC_MLS_BIT_SET_EMPTY(
371
			    mm->mm_rangehigh.mme_compartments))
372
				return (EINVAL);
373
			break;
374

375
		default:
376
			return (EINVAL);
377
		}
378
		if (!mls_dominate_element(&mm->mm_rangehigh,
379
		    &mm->mm_rangelow))
380
			return (EINVAL);
381
	} else {
382
		if (mm->mm_rangelow.mme_type != MAC_MLS_TYPE_UNDEF ||
383
		    mm->mm_rangehigh.mme_type != MAC_MLS_TYPE_UNDEF)
384
			return (EINVAL);
385
	}
386

387
	return (0);
388
}
389

390
static void
391
mls_set_range(struct mac_mls *mm, u_short typelow, u_short levellow,
392
    u_char *compartmentslow, u_short typehigh, u_short levelhigh,
393
    u_char *compartmentshigh)
394
{
395

396
	mm->mm_rangelow.mme_type = typelow;
397
	mm->mm_rangelow.mme_level = levellow;
398
	if (compartmentslow != NULL)
399
		memcpy(mm->mm_rangelow.mme_compartments, compartmentslow,
400
		    sizeof(mm->mm_rangelow.mme_compartments));
401
	mm->mm_rangehigh.mme_type = typehigh;
402
	mm->mm_rangehigh.mme_level = levelhigh;
403
	if (compartmentshigh != NULL)
404
		memcpy(mm->mm_rangehigh.mme_compartments, compartmentshigh,
405
		    sizeof(mm->mm_rangehigh.mme_compartments));
406
	mm->mm_flags |= MAC_MLS_FLAG_RANGE;
407
}
408

409
static void
410
mls_set_effective(struct mac_mls *mm, u_short type, u_short level,
411
    u_char *compartments)
412
{
413

414
	mm->mm_effective.mme_type = type;
415
	mm->mm_effective.mme_level = level;
416
	if (compartments != NULL)
417
		memcpy(mm->mm_effective.mme_compartments, compartments,
418
		    sizeof(mm->mm_effective.mme_compartments));
419
	mm->mm_flags |= MAC_MLS_FLAG_EFFECTIVE;
420
}
421

422
static void
423
mls_copy_range(struct mac_mls *labelfrom, struct mac_mls *labelto)
424
{
425

426
	KASSERT((labelfrom->mm_flags & MAC_MLS_FLAG_RANGE) != 0,
427
	    ("mls_copy_range: labelfrom not range"));
428

429
	labelto->mm_rangelow = labelfrom->mm_rangelow;
430
	labelto->mm_rangehigh = labelfrom->mm_rangehigh;
431
	labelto->mm_flags |= MAC_MLS_FLAG_RANGE;
432
}
433

434
static void
435
mls_copy_effective(struct mac_mls *labelfrom, struct mac_mls *labelto)
436
{
437

438
	KASSERT((labelfrom->mm_flags & MAC_MLS_FLAG_EFFECTIVE) != 0,
439
	    ("mls_copy_effective: labelfrom not effective"));
440

441
	labelto->mm_effective = labelfrom->mm_effective;
442
	labelto->mm_flags |= MAC_MLS_FLAG_EFFECTIVE;
443
}
444

445
static void
446
mls_copy(struct mac_mls *source, struct mac_mls *dest)
447
{
448

449
	if (source->mm_flags & MAC_MLS_FLAG_EFFECTIVE)
450
		mls_copy_effective(source, dest);
451
	if (source->mm_flags & MAC_MLS_FLAG_RANGE)
452
		mls_copy_range(source, dest);
453
}
454

455
/*
456
 * Policy module operations.
457
 */
458
static void
459
mls_init(struct mac_policy_conf *conf)
460
{
461

462
	zone_mls = uma_zcreate("mac_mls", sizeof(struct mac_mls), NULL,
463
	    NULL, NULL, NULL, UMA_ALIGN_PTR, 0);
464
}
465

466
/*
467
 * Label operations.
468
 */
469
static void
470
mls_init_label(struct label *label)
471
{
472

473
	SLOT_SET(label, mls_alloc(M_WAITOK));
474
}
475

476
static int
477
mls_init_label_waitcheck(struct label *label, int flag)
478
{
479

480
	SLOT_SET(label, mls_alloc(flag));
481
	if (SLOT(label) == NULL)
482
		return (ENOMEM);
483

484
	return (0);
485
}
486

487
static void
488
mls_destroy_label(struct label *label)
489
{
490

491
	mls_free(SLOT(label));
492
	SLOT_SET(label, NULL);
493
}
494

495
/*
496
 * mls_element_to_string() accepts an sbuf and MLS element.  It converts the
497
 * MLS element to a string and stores the result in the sbuf; if there isn't
498
 * space in the sbuf, -1 is returned.
499
 */
500
static int
501
mls_element_to_string(struct sbuf *sb, struct mac_mls_element *element)
502
{
503
	int i, first;
504

505
	switch (element->mme_type) {
506
	case MAC_MLS_TYPE_HIGH:
507
		return (sbuf_printf(sb, "high"));
508

509
	case MAC_MLS_TYPE_LOW:
510
		return (sbuf_printf(sb, "low"));
511

512
	case MAC_MLS_TYPE_EQUAL:
513
		return (sbuf_printf(sb, "equal"));
514

515
	case MAC_MLS_TYPE_LEVEL:
516
		if (sbuf_printf(sb, "%d", element->mme_level) == -1)
517
			return (-1);
518

519
		first = 1;
520
		for (i = 1; i <= MAC_MLS_MAX_COMPARTMENTS; i++) {
521
			if (MAC_MLS_BIT_TEST(i, element->mme_compartments)) {
522
				if (first) {
523
					if (sbuf_putc(sb, ':') == -1)
524
						return (-1);
525
					if (sbuf_printf(sb, "%d", i) == -1)
526
						return (-1);
527
					first = 0;
528
				} else {
529
					if (sbuf_printf(sb, "+%d", i) == -1)
530
						return (-1);
531
				}
532
			}
533
		}
534
		return (0);
535

536
	default:
537
		panic("mls_element_to_string: invalid type (%d)",
538
		    element->mme_type);
539
	}
540
}
541

542
/*
543
 * mls_to_string() converts an MLS label to a string, and places the results
544
 * in the passed sbuf.  It returns 0 on success, or EINVAL if there isn't
545
 * room in the sbuf.  Note: the sbuf will be modified even in a failure case,
546
 * so the caller may need to revert the sbuf by restoring the offset if
547
 * that's undesired.
548
 */
549
static int
550
mls_to_string(struct sbuf *sb, struct mac_mls *mm)
551
{
552

553
	if (mm->mm_flags & MAC_MLS_FLAG_EFFECTIVE) {
554
		if (mls_element_to_string(sb, &mm->mm_effective) == -1)
555
			return (EINVAL);
556
	}
557

558
	if (mm->mm_flags & MAC_MLS_FLAG_RANGE) {
559
		if (sbuf_putc(sb, '(') == -1)
560
			return (EINVAL);
561

562
		if (mls_element_to_string(sb, &mm->mm_rangelow) == -1)
563
			return (EINVAL);
564

565
		if (sbuf_putc(sb, '-') == -1)
566
			return (EINVAL);
567

568
		if (mls_element_to_string(sb, &mm->mm_rangehigh) == -1)
569
			return (EINVAL);
570

571
		if (sbuf_putc(sb, ')') == -1)
572
			return (EINVAL);
573
	}
574

575
	return (0);
576
}
577

578
static int
579
mls_externalize_label(struct label *label, char *element_name,
580
    struct sbuf *sb, int *claimed)
581
{
582
	struct mac_mls *mm;
583

584
	if (strcmp(MAC_MLS_LABEL_NAME, element_name) != 0)
585
		return (0);
586

587
	(*claimed)++;
588

589
	mm = SLOT(label);
590

591
	return (mls_to_string(sb, mm));
592
}
593

594
static int
595
mls_parse_element(struct mac_mls_element *element, char *string)
596
{
597
	char *compartment, *end, *level;
598
	int value;
599

600
	if (strcmp(string, "high") == 0 || strcmp(string, "hi") == 0) {
601
		element->mme_type = MAC_MLS_TYPE_HIGH;
602
		element->mme_level = MAC_MLS_TYPE_UNDEF;
603
	} else if (strcmp(string, "low") == 0 || strcmp(string, "lo") == 0) {
604
		element->mme_type = MAC_MLS_TYPE_LOW;
605
		element->mme_level = MAC_MLS_TYPE_UNDEF;
606
	} else if (strcmp(string, "equal") == 0 ||
607
	    strcmp(string, "eq") == 0) {
608
		element->mme_type = MAC_MLS_TYPE_EQUAL;
609
		element->mme_level = MAC_MLS_TYPE_UNDEF;
610
	} else {
611
		element->mme_type = MAC_MLS_TYPE_LEVEL;
612

613
		/*
614
		 * Numeric level piece of the element.
615
		 */
616
		level = strsep(&string, ":");
617
		value = strtol(level, &end, 10);
618
		if (end == level || *end != '\0')
619
			return (EINVAL);
620
		if (value < 0 || value > 65535)
621
			return (EINVAL);
622
		element->mme_level = value;
623

624
		/*
625
		 * Optional compartment piece of the element.  If none are
626
		 * included, we assume that the label has no compartments.
627
		 */
628
		if (string == NULL)
629
			return (0);
630
		if (*string == '\0')
631
			return (0);
632

633
		while ((compartment = strsep(&string, "+")) != NULL) {
634
			value = strtol(compartment, &end, 10);
635
			if (compartment == end || *end != '\0')
636
				return (EINVAL);
637
			if (value < 1 || value > MAC_MLS_MAX_COMPARTMENTS)
638
				return (EINVAL);
639
			MAC_MLS_BIT_SET(value, element->mme_compartments);
640
		}
641
	}
642

643
	return (0);
644
}
645

646
/*
647
 * Note: destructively consumes the string, make a local copy before calling
648
 * if that's a problem.
649
 */
650
static int
651
mls_parse(struct mac_mls *mm, char *string)
652
{
653
	char *rangehigh, *rangelow, *effective;
654
	int error;
655

656
	effective = strsep(&string, "(");
657
	if (*effective == '\0')
658
		effective = NULL;
659

660
	if (string != NULL) {
661
		rangelow = strsep(&string, "-");
662
		if (string == NULL)
663
			return (EINVAL);
664
		rangehigh = strsep(&string, ")");
665
		if (string == NULL)
666
			return (EINVAL);
667
		if (*string != '\0')
668
			return (EINVAL);
669
	} else {
670
		rangelow = NULL;
671
		rangehigh = NULL;
672
	}
673

674
	KASSERT((rangelow != NULL && rangehigh != NULL) ||
675
	    (rangelow == NULL && rangehigh == NULL),
676
	    ("mls_parse: range mismatch"));
677

678
	bzero(mm, sizeof(*mm));
679
	if (effective != NULL) {
680
		error = mls_parse_element(&mm->mm_effective, effective);
681
		if (error)
682
			return (error);
683
		mm->mm_flags |= MAC_MLS_FLAG_EFFECTIVE;
684
	}
685

686
	if (rangelow != NULL) {
687
		error = mls_parse_element(&mm->mm_rangelow, rangelow);
688
		if (error)
689
			return (error);
690
		error = mls_parse_element(&mm->mm_rangehigh, rangehigh);
691
		if (error)
692
			return (error);
693
		mm->mm_flags |= MAC_MLS_FLAG_RANGE;
694
	}
695

696
	error = mls_valid(mm);
697
	if (error)
698
		return (error);
699

700
	return (0);
701
}
702

703
static int
704
mls_internalize_label(struct label *label, char *element_name,
705
    char *element_data, int *claimed)
706
{
707
	struct mac_mls *mm, mm_temp;
708
	int error;
709

710
	if (strcmp(MAC_MLS_LABEL_NAME, element_name) != 0)
711
		return (0);
712

713
	(*claimed)++;
714

715
	error = mls_parse(&mm_temp, element_data);
716
	if (error)
717
		return (error);
718

719
	mm = SLOT(label);
720
	*mm = mm_temp;
721

722
	return (0);
723
}
724

725
static void
726
mls_copy_label(struct label *src, struct label *dest)
727
{
728

729
	*SLOT(dest) = *SLOT(src);
730
}
731

732
/*
733
 * Object-specific entry point implementations are sorted alphabetically by
734
 * object type name and then by operation.
735
 */
736
static int
737
mls_bpfdesc_check_receive(struct bpf_d *d, struct label *dlabel,
738
     struct ifnet *ifp, struct label *ifplabel)
739
{
740
	struct mac_mls *a, *b;
741

742
	if (!mls_enabled)
743
		return (0);
744

745
	a = SLOT(dlabel);
746
	b = SLOT(ifplabel);
747

748
	if (mls_equal_effective(a, b))
749
		return (0);
750
	return (EACCES);
751
}
752

753
static void
754
mls_bpfdesc_create(struct ucred *cred, struct bpf_d *d, struct label *dlabel)
755
{
756
	struct mac_mls *source, *dest;
757

758
	source = SLOT(cred->cr_label);
759
	dest = SLOT(dlabel);
760

761
	mls_copy_effective(source, dest);
762
}
763

764
static void
765
mls_bpfdesc_create_mbuf(struct bpf_d *d, struct label *dlabel,
766
    struct mbuf *m, struct label *mlabel)
767
{
768
	struct mac_mls *source, *dest;
769

770
	source = SLOT(dlabel);
771
	dest = SLOT(mlabel);
772

773
	mls_copy_effective(source, dest);
774
}
775

776
static void
777
mls_cred_associate_nfsd(struct ucred *cred) 
778
{
779
	struct mac_mls *label;
780

781
	label = SLOT(cred->cr_label);
782
	mls_set_effective(label, MAC_MLS_TYPE_LOW, 0, NULL);
783
	mls_set_range(label, MAC_MLS_TYPE_LOW, 0, NULL, MAC_MLS_TYPE_HIGH, 0,
784
	    NULL);
785
}
786

787
static int
788
mls_cred_check_relabel(struct ucred *cred, struct label *newlabel)
789
{
790
	struct mac_mls *subj, *new;
791
	int error;
792

793
	subj = SLOT(cred->cr_label);
794
	new = SLOT(newlabel);
795

796
	/*
797
	 * If there is an MLS label update for the credential, it may be an
798
	 * update of effective, range, or both.
799
	 */
800
	error = mls_atmostflags(new, MAC_MLS_FLAGS_BOTH);
801
	if (error)
802
		return (error);
803

804
	/*
805
	 * If the MLS label is to be changed, authorize as appropriate.
806
	 */
807
	if (new->mm_flags & MAC_MLS_FLAGS_BOTH) {
808
		/*
809
		 * If the change request modifies both the MLS label
810
		 * effective and range, check that the new effective will be
811
		 * in the new range.
812
		 */
813
		if ((new->mm_flags & MAC_MLS_FLAGS_BOTH) ==
814
		    MAC_MLS_FLAGS_BOTH && !mls_effective_in_range(new, new))
815
			return (EINVAL);
816

817
		/*
818
		 * To change the MLS effective label on a credential, the new
819
		 * effective label must be in the current range.
820
		 */
821
		if (new->mm_flags & MAC_MLS_FLAG_EFFECTIVE &&
822
		    !mls_effective_in_range(new, subj))
823
			return (EPERM);
824

825
		/*
826
		 * To change the MLS range label on a credential, the new
827
		 * range must be in the current range.
828
		 */
829
		if (new->mm_flags & MAC_MLS_FLAG_RANGE &&
830
		    !mls_range_in_range(new, subj))
831
			return (EPERM);
832

833
		/*
834
		 * To have EQUAL in any component of the new credential MLS
835
		 * label, the subject must already have EQUAL in their label.
836
		 */
837
		if (mls_contains_equal(new)) {
838
			error = mls_subject_privileged(subj);
839
			if (error)
840
				return (error);
841
		}
842
	}
843

844
	return (0);
845
}
846

847
static int
848
mls_cred_check_visible(struct ucred *cr1, struct ucred *cr2)
849
{
850
	struct mac_mls *subj, *obj;
851

852
	if (!mls_enabled)
853
		return (0);
854

855
	subj = SLOT(cr1->cr_label);
856
	obj = SLOT(cr2->cr_label);
857

858
	/* XXX: range */
859
	if (!mls_dominate_effective(subj, obj))
860
		return (ESRCH);
861

862
	return (0);
863
}
864

865
static void
866
mls_cred_create_init(struct ucred *cred)
867
{
868
	struct mac_mls *dest;
869

870
	dest = SLOT(cred->cr_label);
871

872
	mls_set_effective(dest, MAC_MLS_TYPE_LOW, 0, NULL);
873
	mls_set_range(dest, MAC_MLS_TYPE_LOW, 0, NULL, MAC_MLS_TYPE_HIGH, 0,
874
	    NULL);
875
}
876

877
static void
878
mls_cred_create_swapper(struct ucred *cred)
879
{
880
	struct mac_mls *dest;
881

882
	dest = SLOT(cred->cr_label);
883

884
	mls_set_effective(dest, MAC_MLS_TYPE_EQUAL, 0, NULL);
885
	mls_set_range(dest, MAC_MLS_TYPE_LOW, 0, NULL, MAC_MLS_TYPE_HIGH, 0,
886
	    NULL);
887
}
888

889
static void
890
mls_cred_relabel(struct ucred *cred, struct label *newlabel)
891
{
892
	struct mac_mls *source, *dest;
893

894
	source = SLOT(newlabel);
895
	dest = SLOT(cred->cr_label);
896

897
	mls_copy(source, dest);
898
}
899

900
static void
901
mls_devfs_create_device(struct ucred *cred, struct mount *mp,
902
    struct cdev *dev, struct devfs_dirent *de, struct label *delabel)
903
{
904
	struct mac_mls *mm;
905
	const char *dn;
906
	int mls_type;
907

908
	mm = SLOT(delabel);
909
	dn = devtoname(dev);
910
	if (strcmp(dn, "null") == 0 ||
911
	    strcmp(dn, "zero") == 0 ||
912
	    strcmp(dn, "random") == 0 ||
913
	    strncmp(dn, "fd/", strlen("fd/")) == 0)
914
		mls_type = MAC_MLS_TYPE_EQUAL;
915
	else if (strcmp(dn, "kmem") == 0 ||
916
	    strcmp(dn, "mem") == 0)
917
		mls_type = MAC_MLS_TYPE_HIGH;
918
	else if (ptys_equal &&
919
	    (strncmp(dn, "ttyp", strlen("ttyp")) == 0 ||
920
	    strncmp(dn, "pts/", strlen("pts/")) == 0 ||
921
	    strncmp(dn, "ptyp", strlen("ptyp")) == 0))
922
		mls_type = MAC_MLS_TYPE_EQUAL;
923
	else
924
		mls_type = MAC_MLS_TYPE_LOW;
925
	mls_set_effective(mm, mls_type, 0, NULL);
926
}
927

928
static void
929
mls_devfs_create_directory(struct mount *mp, char *dirname, int dirnamelen,
930
    struct devfs_dirent *de, struct label *delabel)
931
{
932
	struct mac_mls *mm;
933

934
	mm = SLOT(delabel);
935
	mls_set_effective(mm, MAC_MLS_TYPE_LOW, 0, NULL);
936
}
937

938
static void
939
mls_devfs_create_symlink(struct ucred *cred, struct mount *mp,
940
    struct devfs_dirent *dd, struct label *ddlabel, struct devfs_dirent *de,
941
    struct label *delabel)
942
{
943
	struct mac_mls *source, *dest;
944

945
	source = SLOT(cred->cr_label);
946
	dest = SLOT(delabel);
947

948
	mls_copy_effective(source, dest);
949
}
950

951
static void
952
mls_devfs_update(struct mount *mp, struct devfs_dirent *de,
953
    struct label *delabel, struct vnode *vp, struct label *vplabel)
954
{
955
	struct mac_mls *source, *dest;
956

957
	source = SLOT(vplabel);
958
	dest = SLOT(delabel);
959

960
	mls_copy_effective(source, dest);
961
}
962

963
static void
964
mls_devfs_vnode_associate(struct mount *mp, struct label *mplabel,
965
    struct devfs_dirent *de, struct label *delabel, struct vnode *vp,
966
    struct label *vplabel)
967
{
968
	struct mac_mls *source, *dest;
969

970
	source = SLOT(delabel);
971
	dest = SLOT(vplabel);
972

973
	mls_copy_effective(source, dest);
974
}
975

976
static int
977
mls_ifnet_check_relabel(struct ucred *cred, struct ifnet *ifp,
978
    struct label *ifplabel, struct label *newlabel)
979
{
980
	struct mac_mls *subj, *new;
981
	int error;
982

983
	subj = SLOT(cred->cr_label);
984
	new = SLOT(newlabel);
985

986
	/*
987
	 * If there is an MLS label update for the interface, it may be an
988
	 * update of effective, range, or both.
989
	 */
990
	error = mls_atmostflags(new, MAC_MLS_FLAGS_BOTH);
991
	if (error)
992
		return (error);
993

994
	/*
995
	 * Relabeling network interfaces requires MLS privilege.
996
	 */
997
	return (mls_subject_privileged(subj));
998
}
999

1000
static int
1001
mls_ifnet_check_transmit(struct ifnet *ifp, struct label *ifplabel,
1002
    struct mbuf *m, struct label *mlabel)
1003
{
1004
	struct mac_mls *p, *i;
1005

1006
	if (!mls_enabled)
1007
		return (0);
1008

1009
	p = SLOT(mlabel);
1010
	i = SLOT(ifplabel);
1011

1012
	return (mls_effective_in_range(p, i) ? 0 : EACCES);
1013
}
1014

1015
static void
1016
mls_ifnet_create(struct ifnet *ifp, struct label *ifplabel)
1017
{
1018
	struct mac_mls *dest;
1019
	int type;
1020

1021
	dest = SLOT(ifplabel);
1022

1023
	if (if_gettype(ifp) == IFT_LOOP)
1024
		type = MAC_MLS_TYPE_EQUAL;
1025
	else
1026
		type = MAC_MLS_TYPE_LOW;
1027

1028
	mls_set_effective(dest, type, 0, NULL);
1029
	mls_set_range(dest, type, 0, NULL, type, 0, NULL);
1030
}
1031

1032
static void
1033
mls_ifnet_create_mbuf(struct ifnet *ifp, struct label *ifplabel,
1034
    struct mbuf *m, struct label *mlabel)
1035
{
1036
	struct mac_mls *source, *dest;
1037

1038
	source = SLOT(ifplabel);
1039
	dest = SLOT(mlabel);
1040

1041
	mls_copy_effective(source, dest);
1042
}
1043

1044
static void
1045
mls_ifnet_relabel(struct ucred *cred, struct ifnet *ifp,
1046
    struct label *ifplabel, struct label *newlabel)
1047
{
1048
	struct mac_mls *source, *dest;
1049

1050
	source = SLOT(newlabel);
1051
	dest = SLOT(ifplabel);
1052

1053
	mls_copy(source, dest);
1054
}
1055

1056
static int
1057
mls_inpcb_check_deliver(struct inpcb *inp, struct label *inplabel,
1058
    struct mbuf *m, struct label *mlabel)
1059
{
1060
	struct mac_mls *p, *i;
1061

1062
	if (!mls_enabled)
1063
		return (0);
1064

1065
	p = SLOT(mlabel);
1066
	i = SLOT(inplabel);
1067

1068
	return (mls_equal_effective(p, i) ? 0 : EACCES);
1069
}
1070

1071
static int
1072
mls_inpcb_check_visible(struct ucred *cred, struct inpcb *inp,
1073
    struct label *inplabel)
1074
{
1075
	struct mac_mls *subj, *obj;
1076

1077
	if (!mls_enabled)
1078
		return (0);
1079

1080
	subj = SLOT(cred->cr_label);
1081
	obj = SLOT(inplabel);
1082

1083
	if (!mls_dominate_effective(subj, obj))
1084
		return (ENOENT);
1085

1086
	return (0);
1087
}
1088

1089
static void
1090
mls_inpcb_create(struct socket *so, struct label *solabel, struct inpcb *inp,
1091
    struct label *inplabel)
1092
{
1093
	struct mac_mls *source, *dest;
1094

1095
	source = SLOT(solabel);
1096
	dest = SLOT(inplabel);
1097

1098
	mls_copy_effective(source, dest);
1099
}
1100

1101
static void
1102
mls_inpcb_create_mbuf(struct inpcb *inp, struct label *inplabel,
1103
    struct mbuf *m, struct label *mlabel)
1104
{
1105
	struct mac_mls *source, *dest;
1106

1107
	source = SLOT(inplabel);
1108
	dest = SLOT(mlabel);
1109

1110
	mls_copy_effective(source, dest);
1111
}
1112

1113
static void
1114
mls_inpcb_sosetlabel(struct socket *so, struct label *solabel,
1115
    struct inpcb *inp, struct label *inplabel)
1116
{
1117
	struct mac_mls *source, *dest;
1118

1119
	SOCK_LOCK_ASSERT(so);
1120

1121
	source = SLOT(solabel);
1122
	dest = SLOT(inplabel);
1123

1124
	mls_copy(source, dest);
1125
}
1126

1127
static void
1128
mls_ip6q_create(struct mbuf *m, struct label *mlabel, struct ip6q *q6,
1129
    struct label *q6label)
1130
{
1131
	struct mac_mls *source, *dest;
1132

1133
	source = SLOT(mlabel);
1134
	dest = SLOT(q6label);
1135

1136
	mls_copy_effective(source, dest);
1137
}
1138

1139
static int
1140
mls_ip6q_match(struct mbuf *m, struct label *mlabel, struct ip6q *q6,
1141
    struct label *q6label)
1142
{
1143
	struct mac_mls *a, *b;
1144

1145
	a = SLOT(q6label);
1146
	b = SLOT(mlabel);
1147

1148
	return (mls_equal_effective(a, b));
1149
}
1150

1151
static void
1152
mls_ip6q_reassemble(struct ip6q *q6, struct label *q6label, struct mbuf *m,
1153
    struct label *mlabel)
1154
{
1155
	struct mac_mls *source, *dest;
1156

1157
	source = SLOT(q6label);
1158
	dest = SLOT(mlabel);
1159

1160
	/* Just use the head, since we require them all to match. */
1161
	mls_copy_effective(source, dest);
1162
}
1163

1164
static void
1165
mls_ip6q_update(struct mbuf *m, struct label *mlabel, struct ip6q *q6,
1166
    struct label *q6label)
1167
{
1168

1169
	/* NOOP: we only accept matching labels, so no need to update */
1170
}
1171

1172
static void
1173
mls_ipq_create(struct mbuf *m, struct label *mlabel, struct ipq *q,
1174
    struct label *qlabel)
1175
{
1176
	struct mac_mls *source, *dest;
1177

1178
	source = SLOT(mlabel);
1179
	dest = SLOT(qlabel);
1180

1181
	mls_copy_effective(source, dest);
1182
}
1183

1184
static int
1185
mls_ipq_match(struct mbuf *m, struct label *mlabel, struct ipq *q,
1186
    struct label *qlabel)
1187
{
1188
	struct mac_mls *a, *b;
1189

1190
	a = SLOT(qlabel);
1191
	b = SLOT(mlabel);
1192

1193
	return (mls_equal_effective(a, b));
1194
}
1195

1196
static void
1197
mls_ipq_reassemble(struct ipq *q, struct label *qlabel, struct mbuf *m,
1198
    struct label *mlabel)
1199
{
1200
	struct mac_mls *source, *dest;
1201

1202
	source = SLOT(qlabel);
1203
	dest = SLOT(mlabel);
1204

1205
	/* Just use the head, since we require them all to match. */
1206
	mls_copy_effective(source, dest);
1207
}
1208

1209
static void
1210
mls_ipq_update(struct mbuf *m, struct label *mlabel, struct ipq *q,
1211
    struct label *qlabel)
1212
{
1213

1214
	/* NOOP: we only accept matching labels, so no need to update */
1215
}
1216

1217
static int
1218
mls_mount_check_stat(struct ucred *cred, struct mount *mp,
1219
    struct label *mntlabel)
1220
{
1221
	struct mac_mls *subj, *obj;
1222

1223
	if (!mls_enabled)
1224
		return (0);
1225

1226
	subj = SLOT(cred->cr_label);
1227
	obj = SLOT(mntlabel);
1228

1229
	if (!mls_dominate_effective(subj, obj))
1230
		return (EACCES);
1231

1232
	return (0);
1233
}
1234

1235
static void
1236
mls_mount_create(struct ucred *cred, struct mount *mp, struct label *mplabel)
1237
{
1238
	struct mac_mls *source, *dest;
1239

1240
	source = SLOT(cred->cr_label);
1241
	dest = SLOT(mplabel);
1242

1243
	mls_copy_effective(source, dest);
1244
}
1245

1246
static void
1247
mls_netinet_arp_send(struct ifnet *ifp, struct label *ifplabel,
1248
    struct mbuf *m, struct label *mlabel)
1249
{
1250
	struct mac_mls *dest;
1251

1252
	dest = SLOT(mlabel);
1253

1254
	mls_set_effective(dest, MAC_MLS_TYPE_EQUAL, 0, NULL);
1255
}
1256

1257
static void
1258
mls_netinet_firewall_reply(struct mbuf *mrecv, struct label *mrecvlabel,
1259
    struct mbuf *msend, struct label *msendlabel)
1260
{
1261
	struct mac_mls *source, *dest;
1262

1263
	source = SLOT(mrecvlabel);
1264
	dest = SLOT(msendlabel);
1265

1266
	mls_copy_effective(source, dest);
1267
}
1268

1269
static void
1270
mls_netinet_firewall_send(struct mbuf *m, struct label *mlabel)
1271
{
1272
	struct mac_mls *dest;
1273

1274
	dest = SLOT(mlabel);
1275

1276
	/* XXX: where is the label for the firewall really coming from? */
1277
	mls_set_effective(dest, MAC_MLS_TYPE_EQUAL, 0, NULL);
1278
}
1279

1280
static void
1281
mls_netinet_fragment(struct mbuf *m, struct label *mlabel, struct mbuf *frag,
1282
    struct label *fraglabel)
1283
{
1284
	struct mac_mls *source, *dest;
1285

1286
	source = SLOT(mlabel);
1287
	dest = SLOT(fraglabel);
1288

1289
	mls_copy_effective(source, dest);
1290
}
1291

1292
static void
1293
mls_netinet_icmp_reply(struct mbuf *mrecv, struct label *mrecvlabel,
1294
    struct mbuf *msend, struct label *msendlabel)
1295
{
1296
	struct mac_mls *source, *dest;
1297

1298
	source = SLOT(mrecvlabel);
1299
	dest = SLOT(msendlabel);
1300

1301
	mls_copy_effective(source, dest);
1302
}
1303

1304
static void
1305
mls_netinet_igmp_send(struct ifnet *ifp, struct label *ifplabel,
1306
    struct mbuf *m, struct label *mlabel)
1307
{
1308
	struct mac_mls *dest;
1309

1310
	dest = SLOT(mlabel);
1311

1312
	mls_set_effective(dest, MAC_MLS_TYPE_EQUAL, 0, NULL);
1313
}
1314

1315
static void
1316
mls_netinet6_nd6_send(struct ifnet *ifp, struct label *ifplabel,
1317
    struct mbuf *m, struct label *mlabel)
1318
{
1319
	struct mac_mls *dest;
1320

1321
	dest = SLOT(mlabel);
1322

1323
	mls_set_effective(dest, MAC_MLS_TYPE_EQUAL, 0, NULL);
1324
}
1325

1326
static int
1327
mls_pipe_check_ioctl(struct ucred *cred, struct pipepair *pp,
1328
    struct label *pplabel, unsigned long cmd, void /* caddr_t */ *data)
1329
{
1330

1331
	if (!mls_enabled)
1332
		return (0);
1333

1334
	/* XXX: This will be implemented soon... */
1335

1336
	return (0);
1337
}
1338

1339
static int
1340
mls_pipe_check_poll(struct ucred *cred, struct pipepair *pp,
1341
    struct label *pplabel)
1342
{
1343
	struct mac_mls *subj, *obj;
1344

1345
	if (!mls_enabled)
1346
		return (0);
1347

1348
	subj = SLOT(cred->cr_label);
1349
	obj = SLOT(pplabel);
1350

1351
	if (!mls_dominate_effective(subj, obj))
1352
		return (EACCES);
1353

1354
	return (0);
1355
}
1356

1357
static int
1358
mls_pipe_check_read(struct ucred *cred, struct pipepair *pp,
1359
    struct label *pplabel)
1360
{
1361
	struct mac_mls *subj, *obj;
1362

1363
	if (!mls_enabled)
1364
		return (0);
1365

1366
	subj = SLOT(cred->cr_label);
1367
	obj = SLOT(pplabel);
1368

1369
	if (!mls_dominate_effective(subj, obj))
1370
		return (EACCES);
1371

1372
	return (0);
1373
}
1374

1375
static int
1376
mls_pipe_check_relabel(struct ucred *cred, struct pipepair *pp,
1377
    struct label *pplabel, struct label *newlabel)
1378
{
1379
	struct mac_mls *subj, *obj, *new;
1380
	int error;
1381

1382
	new = SLOT(newlabel);
1383
	subj = SLOT(cred->cr_label);
1384
	obj = SLOT(pplabel);
1385

1386
	/*
1387
	 * If there is an MLS label update for a pipe, it must be a effective
1388
	 * update.
1389
	 */
1390
	error = mls_atmostflags(new, MAC_MLS_FLAG_EFFECTIVE);
1391
	if (error)
1392
		return (error);
1393

1394
	/*
1395
	 * To perform a relabel of a pipe (MLS label or not), MLS must
1396
	 * authorize the relabel.
1397
	 */
1398
	if (!mls_effective_in_range(obj, subj))
1399
		return (EPERM);
1400

1401
	/*
1402
	 * If the MLS label is to be changed, authorize as appropriate.
1403
	 */
1404
	if (new->mm_flags & MAC_MLS_FLAG_EFFECTIVE) {
1405
		/*
1406
		 * To change the MLS label on a pipe, the new pipe label must
1407
		 * be in the subject range.
1408
		 */
1409
		if (!mls_effective_in_range(new, subj))
1410
			return (EPERM);
1411

1412
		/*
1413
		 * To change the MLS label on a pipe to be EQUAL, the subject
1414
		 * must have appropriate privilege.
1415
		 */
1416
		if (mls_contains_equal(new)) {
1417
			error = mls_subject_privileged(subj);
1418
			if (error)
1419
				return (error);
1420
		}
1421
	}
1422

1423
	return (0);
1424
}
1425

1426
static int
1427
mls_pipe_check_stat(struct ucred *cred, struct pipepair *pp,
1428
    struct label *pplabel)
1429
{
1430
	struct mac_mls *subj, *obj;
1431

1432
	if (!mls_enabled)
1433
		return (0);
1434

1435
	subj = SLOT(cred->cr_label);
1436
	obj = SLOT(pplabel);
1437

1438
	if (!mls_dominate_effective(subj, obj))
1439
		return (EACCES);
1440

1441
	return (0);
1442
}
1443

1444
static int
1445
mls_pipe_check_write(struct ucred *cred, struct pipepair *pp,
1446
    struct label *pplabel)
1447
{
1448
	struct mac_mls *subj, *obj;
1449

1450
	if (!mls_enabled)
1451
		return (0);
1452

1453
	subj = SLOT(cred->cr_label);
1454
	obj = SLOT(pplabel);
1455

1456
	if (!mls_dominate_effective(obj, subj))
1457
		return (EACCES);
1458

1459
	return (0);
1460
}
1461

1462
static void
1463
mls_pipe_create(struct ucred *cred, struct pipepair *pp,
1464
    struct label *pplabel)
1465
{
1466
	struct mac_mls *source, *dest;
1467

1468
	source = SLOT(cred->cr_label);
1469
	dest = SLOT(pplabel);
1470

1471
	mls_copy_effective(source, dest);
1472
}
1473

1474
static void
1475
mls_pipe_relabel(struct ucred *cred, struct pipepair *pp,
1476
    struct label *pplabel, struct label *newlabel)
1477
{
1478
	struct mac_mls *source, *dest;
1479

1480
	source = SLOT(newlabel);
1481
	dest = SLOT(pplabel);
1482

1483
	mls_copy(source, dest);
1484
}
1485

1486
static int
1487
mls_posixsem_check_openunlink(struct ucred *cred, struct ksem *ks,
1488
    struct label *kslabel)
1489
{
1490
	struct mac_mls *subj, *obj;
1491

1492
	if (!mls_enabled)
1493
		return (0);
1494

1495
	subj = SLOT(cred->cr_label);
1496
	obj = SLOT(kslabel);
1497

1498
	if (!mls_dominate_effective(obj, subj))
1499
		return (EACCES);
1500

1501
	return (0);
1502
}
1503

1504
static int
1505
mls_posixsem_check_rdonly(struct ucred *active_cred, struct ucred *file_cred,
1506
    struct ksem *ks, struct label *kslabel)
1507
{
1508
	struct mac_mls *subj, *obj;
1509

1510
	if (!mls_enabled)
1511
		return (0);
1512

1513
	subj = SLOT(active_cred->cr_label);
1514
	obj = SLOT(kslabel);
1515

1516
	if (!mls_dominate_effective(subj, obj))
1517
		return (EACCES);
1518

1519
	return (0);
1520
}
1521

1522
static int
1523
mls_posixsem_check_setmode(struct ucred *cred, struct ksem *ks,
1524
    struct label *shmlabel, mode_t mode)
1525
{
1526
	struct mac_mls *subj, *obj;
1527

1528
	if (!mls_enabled)
1529
		return (0);
1530

1531
	subj = SLOT(cred->cr_label);
1532
	obj = SLOT(shmlabel);
1533

1534
	if (!mls_dominate_effective(obj, subj))
1535
		return (EACCES);
1536

1537
	return (0);
1538
}
1539

1540
static int
1541
mls_posixsem_check_setowner(struct ucred *cred, struct ksem *ks,
1542
    struct label *shmlabel, uid_t uid, gid_t gid)
1543
{
1544
	struct mac_mls *subj, *obj;
1545

1546
	if (!mls_enabled)
1547
		return (0);
1548

1549
	subj = SLOT(cred->cr_label);
1550
	obj = SLOT(shmlabel);
1551

1552
	if (!mls_dominate_effective(obj, subj))
1553
		return (EACCES);
1554

1555
	return (0);
1556
}
1557

1558
static int
1559
mls_posixsem_check_write(struct ucred *active_cred, struct ucred *file_cred,
1560
    struct ksem *ks, struct label *kslabel)
1561
{
1562
	struct mac_mls *subj, *obj;
1563

1564
	if (!mls_enabled)
1565
		return (0);
1566

1567
	subj = SLOT(active_cred->cr_label);
1568
	obj = SLOT(kslabel);
1569

1570
	if (!mls_dominate_effective(obj, subj))
1571
		return (EACCES);
1572

1573
	return (0);
1574
}
1575

1576
static void
1577
mls_posixsem_create(struct ucred *cred, struct ksem *ks,
1578
    struct label *kslabel)
1579
{
1580
	struct mac_mls *source, *dest;
1581

1582
	source = SLOT(cred->cr_label);
1583
	dest = SLOT(kslabel);
1584

1585
	mls_copy_effective(source, dest);
1586
}
1587

1588
static int
1589
mls_posixshm_check_mmap(struct ucred *cred, struct shmfd *shmfd,
1590
    struct label *shmlabel, int prot, int flags)
1591
{
1592
	struct mac_mls *subj, *obj;
1593

1594
	if (!mls_enabled)
1595
		return (0);
1596

1597
	subj = SLOT(cred->cr_label);
1598
	obj = SLOT(shmlabel);
1599

1600
	if (prot & (VM_PROT_READ | VM_PROT_EXECUTE)) {
1601
		if (!mls_dominate_effective(subj, obj))
1602
			return (EACCES);
1603
	}
1604
	if (((prot & VM_PROT_WRITE) != 0) && ((flags & MAP_SHARED) != 0)) {
1605
		if (!mls_dominate_effective(obj, subj))
1606
			return (EACCES);
1607
	}
1608

1609
	return (0);
1610
}
1611

1612
static int
1613
mls_posixshm_check_open(struct ucred *cred, struct shmfd *shmfd,
1614
    struct label *shmlabel, accmode_t accmode)
1615
{
1616
	struct mac_mls *subj, *obj;
1617

1618
	if (!mls_enabled)
1619
		return (0);
1620

1621
	subj = SLOT(cred->cr_label);
1622
	obj = SLOT(shmlabel);
1623

1624
	if (accmode & (VREAD | VEXEC | VSTAT_PERMS)) {
1625
		if (!mls_dominate_effective(subj, obj))
1626
			return (EACCES);
1627
	}
1628
	if (accmode & VMODIFY_PERMS) {
1629
		if (!mls_dominate_effective(obj, subj))
1630
			return (EACCES);
1631
	}
1632

1633
	return (0);
1634
}
1635

1636
static int
1637
mls_posixshm_check_read(struct ucred *active_cred, struct ucred *file_cred,
1638
    struct shmfd *shm, struct label *shmlabel)
1639
{
1640
	struct mac_mls *subj, *obj;
1641

1642
	if (!mls_enabled || !revocation_enabled)
1643
		return (0);
1644

1645
	subj = SLOT(active_cred->cr_label);
1646
	obj = SLOT(shmlabel);
1647

1648
	if (!mls_dominate_effective(subj, obj))
1649
		return (EACCES);
1650

1651
	return (0);
1652
}
1653

1654
static int
1655
mls_posixshm_check_setmode(struct ucred *cred, struct shmfd *shmfd,
1656
    struct label *shmlabel, mode_t mode)
1657
{
1658
	struct mac_mls *subj, *obj;
1659

1660
	if (!mls_enabled)
1661
		return (0);
1662

1663
	subj = SLOT(cred->cr_label);
1664
	obj = SLOT(shmlabel);
1665

1666
	if (!mls_dominate_effective(obj, subj))
1667
		return (EACCES);
1668

1669
	return (0);
1670
}
1671

1672
static int
1673
mls_posixshm_check_setowner(struct ucred *cred, struct shmfd *shmfd,
1674
    struct label *shmlabel, uid_t uid, gid_t gid)
1675
{
1676
	struct mac_mls *subj, *obj;
1677

1678
	if (!mls_enabled)
1679
		return (0);
1680

1681
	subj = SLOT(cred->cr_label);
1682
	obj = SLOT(shmlabel);
1683

1684
	if (!mls_dominate_effective(obj, subj))
1685
		return (EACCES);
1686

1687
	return (0);
1688
}
1689

1690
static int
1691
mls_posixshm_check_stat(struct ucred *active_cred, struct ucred *file_cred,
1692
    struct shmfd *shmfd, struct label *shmlabel)
1693
{
1694
	struct mac_mls *subj, *obj;
1695

1696
	if (!mls_enabled)
1697
		return (0);
1698

1699
	subj = SLOT(active_cred->cr_label);
1700
	obj = SLOT(shmlabel);
1701

1702
	if (!mls_dominate_effective(subj, obj))
1703
		return (EACCES);
1704

1705
	return (0);
1706
}
1707

1708
static int
1709
mls_posixshm_check_truncate(struct ucred *active_cred,
1710
    struct ucred *file_cred, struct shmfd *shmfd, struct label *shmlabel)
1711
{
1712
	struct mac_mls *subj, *obj;
1713

1714
	if (!mls_enabled)
1715
		return (0);
1716

1717
	subj = SLOT(active_cred->cr_label);
1718
	obj = SLOT(shmlabel);
1719

1720
	if (!mls_dominate_effective(obj, subj))
1721
		return (EACCES);
1722

1723
	return (0);
1724
}
1725

1726
static int
1727
mls_posixshm_check_unlink(struct ucred *cred, struct shmfd *shmfd,
1728
    struct label *shmlabel)
1729
{
1730
	struct mac_mls *subj, *obj;
1731

1732
	if (!mls_enabled)
1733
		return (0);
1734

1735
	subj = SLOT(cred->cr_label);
1736
	obj = SLOT(shmlabel);
1737

1738
	if (!mls_dominate_effective(obj, subj))
1739
		return (EACCES);
1740
    
1741
	return (0);
1742
}
1743

1744
static int
1745
mls_posixshm_check_write(struct ucred *active_cred, struct ucred *file_cred,
1746
    struct shmfd *shm, struct label *shmlabel)
1747
{
1748
	struct mac_mls *subj, *obj;
1749

1750
	if (!mls_enabled || !revocation_enabled)
1751
		return (0);
1752

1753
	subj = SLOT(active_cred->cr_label);
1754
	obj = SLOT(shmlabel);
1755

1756
	if (!mls_dominate_effective(subj, obj))
1757
		return (EACCES);
1758

1759
	return (0);
1760
}
1761

1762
static void
1763
mls_posixshm_create(struct ucred *cred, struct shmfd *shmfd,
1764
    struct label *shmlabel)
1765
{
1766
	struct mac_mls *source, *dest;
1767

1768
	source = SLOT(cred->cr_label);
1769
	dest = SLOT(shmlabel);
1770

1771
	mls_copy_effective(source, dest);
1772
}
1773

1774
static int
1775
mls_proc_check_debug(struct ucred *cred, struct proc *p)
1776
{
1777
	struct mac_mls *subj, *obj;
1778

1779
	if (!mls_enabled)
1780
		return (0);
1781

1782
	subj = SLOT(cred->cr_label);
1783
	obj = SLOT(p->p_ucred->cr_label);
1784

1785
	/* XXX: range checks */
1786
	if (!mls_dominate_effective(subj, obj))
1787
		return (ESRCH);
1788
	if (!mls_dominate_effective(obj, subj))
1789
		return (EACCES);
1790

1791
	return (0);
1792
}
1793

1794
static int
1795
mls_proc_check_sched(struct ucred *cred, struct proc *p)
1796
{
1797
	struct mac_mls *subj, *obj;
1798

1799
	if (!mls_enabled)
1800
		return (0);
1801

1802
	subj = SLOT(cred->cr_label);
1803
	obj = SLOT(p->p_ucred->cr_label);
1804

1805
	/* XXX: range checks */
1806
	if (!mls_dominate_effective(subj, obj))
1807
		return (ESRCH);
1808
	if (!mls_dominate_effective(obj, subj))
1809
		return (EACCES);
1810

1811
	return (0);
1812
}
1813

1814
static int
1815
mls_proc_check_signal(struct ucred *cred, struct proc *p, int signum)
1816
{
1817
	struct mac_mls *subj, *obj;
1818

1819
	if (!mls_enabled)
1820
		return (0);
1821

1822
	subj = SLOT(cred->cr_label);
1823
	obj = SLOT(p->p_ucred->cr_label);
1824

1825
	/* XXX: range checks */
1826
	if (!mls_dominate_effective(subj, obj))
1827
		return (ESRCH);
1828
	if (!mls_dominate_effective(obj, subj))
1829
		return (EACCES);
1830

1831
	return (0);
1832
}
1833

1834
static int
1835
mls_socket_check_deliver(struct socket *so, struct label *solabel,
1836
    struct mbuf *m, struct label *mlabel)
1837
{
1838
	struct mac_mls *p, *s;
1839
	int error;
1840

1841
	if (!mls_enabled)
1842
		return (0);
1843

1844
	p = SLOT(mlabel);
1845
	s = SLOT(solabel);
1846

1847
	SOCK_LOCK(so);
1848
	error = mls_equal_effective(p, s) ? 0 : EACCES;
1849
	SOCK_UNLOCK(so);
1850

1851
	return (error);
1852
}
1853

1854
static int
1855
mls_socket_check_relabel(struct ucred *cred, struct socket *so,
1856
    struct label *solabel, struct label *newlabel)
1857
{
1858
	struct mac_mls *subj, *obj, *new;
1859
	int error;
1860

1861
	SOCK_LOCK_ASSERT(so);
1862

1863
	new = SLOT(newlabel);
1864
	subj = SLOT(cred->cr_label);
1865
	obj = SLOT(solabel);
1866

1867
	/*
1868
	 * If there is an MLS label update for the socket, it may be an
1869
	 * update of effective.
1870
	 */
1871
	error = mls_atmostflags(new, MAC_MLS_FLAG_EFFECTIVE);
1872
	if (error)
1873
		return (error);
1874

1875
	/*
1876
	 * To relabel a socket, the old socket effective must be in the
1877
	 * subject range.
1878
	 */
1879
	if (!mls_effective_in_range(obj, subj))
1880
		return (EPERM);
1881

1882
	/*
1883
	 * If the MLS label is to be changed, authorize as appropriate.
1884
	 */
1885
	if (new->mm_flags & MAC_MLS_FLAG_EFFECTIVE) {
1886
		/*
1887
		 * To relabel a socket, the new socket effective must be in
1888
		 * the subject range.
1889
		 */
1890
		if (!mls_effective_in_range(new, subj))
1891
			return (EPERM);
1892

1893
		/*
1894
		 * To change the MLS label on the socket to contain EQUAL,
1895
		 * the subject must have appropriate privilege.
1896
		 */
1897
		if (mls_contains_equal(new)) {
1898
			error = mls_subject_privileged(subj);
1899
			if (error)
1900
				return (error);
1901
		}
1902
	}
1903

1904
	return (0);
1905
}
1906

1907
static int
1908
mls_socket_check_visible(struct ucred *cred, struct socket *so,
1909
    struct label *solabel)
1910
{
1911
	struct mac_mls *subj, *obj;
1912

1913
	if (!mls_enabled)
1914
		return (0);
1915

1916
	subj = SLOT(cred->cr_label);
1917
	obj = SLOT(solabel);
1918

1919
	SOCK_LOCK(so);
1920
	if (!mls_dominate_effective(subj, obj)) {
1921
		SOCK_UNLOCK(so);
1922
		return (ENOENT);
1923
	}
1924
	SOCK_UNLOCK(so);
1925

1926
	return (0);
1927
}
1928

1929
static void
1930
mls_socket_create(struct ucred *cred, struct socket *so,
1931
    struct label *solabel)
1932
{
1933
	struct mac_mls *source, *dest;
1934

1935
	source = SLOT(cred->cr_label);
1936
	dest = SLOT(solabel);
1937

1938
	mls_copy_effective(source, dest);
1939
}
1940

1941
static void
1942
mls_socket_create_mbuf(struct socket *so, struct label *solabel,
1943
    struct mbuf *m, struct label *mlabel)
1944
{
1945
	struct mac_mls *source, *dest;
1946

1947
	source = SLOT(solabel);
1948
	dest = SLOT(mlabel);
1949

1950
	SOCK_LOCK(so);
1951
	mls_copy_effective(source, dest);
1952
	SOCK_UNLOCK(so);
1953
}
1954

1955
static void
1956
mls_socket_newconn(struct socket *oldso, struct label *oldsolabel,
1957
    struct socket *newso, struct label *newsolabel)
1958
{
1959
	struct mac_mls source, *dest;
1960

1961
	SOCK_LOCK(oldso);
1962
	source = *SLOT(oldsolabel);
1963
	SOCK_UNLOCK(oldso);
1964

1965
	dest = SLOT(newsolabel);
1966

1967
	SOCK_LOCK(newso);
1968
	mls_copy_effective(&source, dest);
1969
	SOCK_UNLOCK(newso);
1970
}
1971

1972
static void
1973
mls_socket_relabel(struct ucred *cred, struct socket *so,
1974
    struct label *solabel, struct label *newlabel)
1975
{
1976
	struct mac_mls *source, *dest;
1977

1978
	SOCK_LOCK_ASSERT(so);
1979

1980
	source = SLOT(newlabel);
1981
	dest = SLOT(solabel);
1982

1983
	mls_copy(source, dest);
1984
}
1985

1986
static void
1987
mls_socketpeer_set_from_mbuf(struct mbuf *m, struct label *mlabel,
1988
    struct socket *so, struct label *sopeerlabel)
1989
{
1990
	struct mac_mls *source, *dest;
1991

1992
	source = SLOT(mlabel);
1993
	dest = SLOT(sopeerlabel);
1994

1995
	SOCK_LOCK(so);
1996
	mls_copy_effective(source, dest);
1997
	SOCK_UNLOCK(so);
1998
}
1999

2000
static void
2001
mls_socketpeer_set_from_socket(struct socket *oldso,
2002
    struct label *oldsolabel, struct socket *newso,
2003
    struct label *newsopeerlabel)
2004
{
2005
	struct mac_mls source, *dest;
2006

2007
	SOCK_LOCK(oldso);
2008
	source = *SLOT(oldsolabel);
2009
	SOCK_UNLOCK(oldso);
2010

2011
	dest = SLOT(newsopeerlabel);
2012

2013
	SOCK_LOCK(newso);
2014
	mls_copy_effective(&source, dest);
2015
	SOCK_UNLOCK(newso);
2016
}
2017

2018
static void
2019
mls_syncache_create(struct label *label, struct inpcb *inp)
2020
{
2021
	struct mac_mls *source, *dest;
2022

2023
	source = SLOT(inp->inp_label);
2024
	dest = SLOT(label);
2025

2026
	mls_copy_effective(source, dest);
2027
}
2028

2029
static void
2030
mls_syncache_create_mbuf(struct label *sc_label, struct mbuf *m,
2031
    struct label *mlabel)
2032
{
2033
	struct mac_mls *source, *dest;
2034

2035
	source = SLOT(sc_label);
2036
	dest = SLOT(mlabel);
2037

2038
	mls_copy_effective(source, dest);
2039
}
2040

2041
static int
2042
mls_system_check_acct(struct ucred *cred, struct vnode *vp,
2043
    struct label *vplabel)
2044
{
2045
	struct mac_mls *subj, *obj;
2046

2047
	if (!mls_enabled)
2048
		return (0);
2049

2050
	if (vplabel == NULL)
2051
		return (0);
2052

2053
	subj = SLOT(cred->cr_label);
2054
	obj = SLOT(vplabel);
2055

2056
	if (!mls_dominate_effective(obj, subj) ||
2057
	    !mls_dominate_effective(subj, obj))
2058
		return (EACCES);
2059

2060
	return (0);
2061
}
2062

2063
static int
2064
mls_system_check_auditctl(struct ucred *cred, struct vnode *vp,
2065
    struct label *vplabel)
2066
{
2067
	struct mac_mls *subj, *obj;
2068

2069
	if (!mls_enabled)
2070
		return (0);
2071

2072
	subj = SLOT(cred->cr_label);
2073
	obj = SLOT(vplabel);
2074

2075
	if (!mls_dominate_effective(obj, subj) ||
2076
	    !mls_dominate_effective(subj, obj))
2077
		return (EACCES);
2078

2079
	return (0);
2080
}
2081

2082
static int
2083
mls_system_check_swapon(struct ucred *cred, struct vnode *vp,
2084
    struct label *vplabel)
2085
{
2086
	struct mac_mls *subj, *obj;
2087

2088
	if (!mls_enabled)
2089
		return (0);
2090

2091
	subj = SLOT(cred->cr_label);
2092
	obj = SLOT(vplabel);
2093

2094
	if (!mls_dominate_effective(obj, subj) ||
2095
	    !mls_dominate_effective(subj, obj))
2096
		return (EACCES);
2097

2098
	return (0);
2099
}
2100

2101
static void
2102
mls_sysvmsg_cleanup(struct label *msglabel)
2103
{
2104

2105
	bzero(SLOT(msglabel), sizeof(struct mac_mls));
2106
}
2107

2108
static void
2109
mls_sysvmsg_create(struct ucred *cred, struct msqid_kernel *msqkptr,
2110
    struct label *msqlabel, struct msg *msgptr, struct label *msglabel)
2111
{
2112
	struct mac_mls *source, *dest;
2113

2114
	/* Ignore the msgq label. */
2115
	source = SLOT(cred->cr_label);
2116
	dest = SLOT(msglabel);
2117

2118
	mls_copy_effective(source, dest);
2119
}
2120

2121
static int
2122
mls_sysvmsq_check_msgrcv(struct ucred *cred, struct msg *msgptr,
2123
    struct label *msglabel)
2124
{
2125
	struct mac_mls *subj, *obj;
2126

2127
	if (!mls_enabled)
2128
		return (0);
2129

2130
	subj = SLOT(cred->cr_label);
2131
	obj = SLOT(msglabel);
2132

2133
	if (!mls_dominate_effective(subj, obj))
2134
		return (EACCES);
2135

2136
	return (0);
2137
}
2138

2139
static int
2140
mls_sysvmsq_check_msgrmid(struct ucred *cred, struct msg *msgptr,
2141
    struct label *msglabel)
2142
{
2143
	struct mac_mls *subj, *obj;
2144

2145
	if (!mls_enabled)
2146
		return (0);
2147

2148
	subj = SLOT(cred->cr_label);
2149
	obj = SLOT(msglabel);
2150

2151
	if (!mls_dominate_effective(obj, subj))
2152
		return (EACCES);
2153

2154
	return (0);
2155
}
2156

2157
static int
2158
mls_sysvmsq_check_msqget(struct ucred *cred, struct msqid_kernel *msqkptr,
2159
    struct label *msqklabel)
2160
{
2161
	struct mac_mls *subj, *obj;
2162

2163
	if (!mls_enabled)
2164
		return (0);
2165

2166
	subj = SLOT(cred->cr_label);
2167
	obj = SLOT(msqklabel);
2168

2169
	if (!mls_dominate_effective(subj, obj))
2170
		return (EACCES);
2171

2172
	return (0);
2173
}
2174

2175
static int
2176
mls_sysvmsq_check_msqsnd(struct ucred *cred, struct msqid_kernel *msqkptr,
2177
    struct label *msqklabel)
2178
{
2179
	struct mac_mls *subj, *obj;
2180

2181
	if (!mls_enabled)
2182
		return (0);
2183

2184
	subj = SLOT(cred->cr_label);
2185
	obj = SLOT(msqklabel);
2186

2187
	if (!mls_dominate_effective(obj, subj))
2188
		return (EACCES);
2189

2190
	return (0);
2191
}
2192

2193
static int
2194
mls_sysvmsq_check_msqrcv(struct ucred *cred, struct msqid_kernel *msqkptr,
2195
    struct label *msqklabel)
2196
{
2197
	struct mac_mls *subj, *obj;
2198

2199
	if (!mls_enabled)
2200
		return (0);
2201

2202
	subj = SLOT(cred->cr_label);
2203
	obj = SLOT(msqklabel);
2204

2205
	if (!mls_dominate_effective(subj, obj))
2206
		return (EACCES);
2207

2208
	return (0);
2209
}
2210

2211
static int
2212
mls_sysvmsq_check_msqctl(struct ucred *cred, struct msqid_kernel *msqkptr,
2213
    struct label *msqklabel, int cmd)
2214
{
2215
	struct mac_mls *subj, *obj;
2216

2217
	if (!mls_enabled)
2218
		return (0);
2219

2220
	subj = SLOT(cred->cr_label);
2221
	obj = SLOT(msqklabel);
2222

2223
	switch(cmd) {
2224
	case IPC_RMID:
2225
	case IPC_SET:
2226
		if (!mls_dominate_effective(obj, subj))
2227
			return (EACCES);
2228
		break;
2229

2230
	case IPC_STAT:
2231
		if (!mls_dominate_effective(subj, obj))
2232
			return (EACCES);
2233
		break;
2234

2235
	default:
2236
		return (EACCES);
2237
	}
2238

2239
	return (0);
2240
}
2241

2242
static void
2243
mls_sysvmsq_cleanup(struct label *msqlabel)
2244
{
2245

2246
	bzero(SLOT(msqlabel), sizeof(struct mac_mls));
2247
}
2248

2249
static void
2250
mls_sysvmsq_create(struct ucred *cred, struct msqid_kernel *msqkptr,
2251
    struct label *msqlabel)
2252
{
2253
	struct mac_mls *source, *dest;
2254

2255
	source = SLOT(cred->cr_label);
2256
	dest = SLOT(msqlabel);
2257

2258
	mls_copy_effective(source, dest);
2259
}
2260

2261
static int
2262
mls_sysvsem_check_semctl(struct ucred *cred, struct semid_kernel *semakptr,
2263
    struct label *semaklabel, int cmd)
2264
{
2265
	struct mac_mls *subj, *obj;
2266

2267
	if (!mls_enabled)
2268
		return (0);
2269

2270
	subj = SLOT(cred->cr_label);
2271
	obj = SLOT(semaklabel);
2272

2273
	switch(cmd) {
2274
	case IPC_RMID:
2275
	case IPC_SET:
2276
	case SETVAL:
2277
	case SETALL:
2278
		if (!mls_dominate_effective(obj, subj))
2279
			return (EACCES);
2280
		break;
2281

2282
	case IPC_STAT:
2283
	case GETVAL:
2284
	case GETPID:
2285
	case GETNCNT:
2286
	case GETZCNT:
2287
	case GETALL:
2288
		if (!mls_dominate_effective(subj, obj))
2289
			return (EACCES);
2290
		break;
2291

2292
	default:
2293
		return (EACCES);
2294
	}
2295

2296
	return (0);
2297
}
2298

2299
static int
2300
mls_sysvsem_check_semget(struct ucred *cred, struct semid_kernel *semakptr,
2301
    struct label *semaklabel)
2302
{
2303
	struct mac_mls *subj, *obj;
2304

2305
	if (!mls_enabled)
2306
		return (0);
2307

2308
	subj = SLOT(cred->cr_label);
2309
	obj = SLOT(semaklabel);
2310

2311
	if (!mls_dominate_effective(subj, obj))
2312
		return (EACCES);
2313

2314
	return (0);
2315
}
2316

2317
static int
2318
mls_sysvsem_check_semop(struct ucred *cred, struct semid_kernel *semakptr,
2319
    struct label *semaklabel, size_t accesstype)
2320
{
2321
	struct mac_mls *subj, *obj;
2322

2323
	if (!mls_enabled)
2324
		return (0);
2325

2326
	subj = SLOT(cred->cr_label);
2327
	obj = SLOT(semaklabel);
2328

2329
	if( accesstype & SEM_R )
2330
		if (!mls_dominate_effective(subj, obj))
2331
			return (EACCES);
2332

2333
	if( accesstype & SEM_A )
2334
		if (!mls_dominate_effective(obj, subj))
2335
			return (EACCES);
2336

2337
	return (0);
2338
}
2339

2340
static void
2341
mls_sysvsem_cleanup(struct label *semalabel)
2342
{
2343

2344
	bzero(SLOT(semalabel), sizeof(struct mac_mls));
2345
}
2346

2347
static void
2348
mls_sysvsem_create(struct ucred *cred, struct semid_kernel *semakptr,
2349
    struct label *semalabel)
2350
{
2351
	struct mac_mls *source, *dest;
2352

2353
	source = SLOT(cred->cr_label);
2354
	dest = SLOT(semalabel);
2355

2356
	mls_copy_effective(source, dest);
2357
}
2358

2359
static int
2360
mls_sysvshm_check_shmat(struct ucred *cred, struct shmid_kernel *shmsegptr,
2361
    struct label *shmseglabel, int shmflg)
2362
{
2363
	struct mac_mls *subj, *obj;
2364

2365
	if (!mls_enabled)
2366
		return (0);
2367

2368
	subj = SLOT(cred->cr_label);
2369
	obj = SLOT(shmseglabel);
2370

2371
	if (!mls_dominate_effective(subj, obj))
2372
		return (EACCES);
2373
	if ((shmflg & SHM_RDONLY) == 0) {
2374
		if (!mls_dominate_effective(obj, subj))
2375
			return (EACCES);
2376
	}
2377

2378
	return (0);
2379
}
2380

2381
static int
2382
mls_sysvshm_check_shmctl(struct ucred *cred, struct shmid_kernel *shmsegptr,
2383
    struct label *shmseglabel, int cmd)
2384
{
2385
	struct mac_mls *subj, *obj;
2386

2387
	if (!mls_enabled)
2388
		return (0);
2389

2390
	subj = SLOT(cred->cr_label);
2391
	obj = SLOT(shmseglabel);
2392

2393
	switch(cmd) {
2394
	case IPC_RMID:
2395
	case IPC_SET:
2396
		if (!mls_dominate_effective(obj, subj))
2397
			return (EACCES);
2398
		break;
2399

2400
	case IPC_STAT:
2401
	case SHM_STAT:
2402
		if (!mls_dominate_effective(subj, obj))
2403
			return (EACCES);
2404
		break;
2405

2406
	default:
2407
		return (EACCES);
2408
	}
2409

2410
	return (0);
2411
}
2412

2413
static int
2414
mls_sysvshm_check_shmget(struct ucred *cred, struct shmid_kernel *shmsegptr,
2415
    struct label *shmseglabel, int shmflg)
2416
{
2417
	struct mac_mls *subj, *obj;
2418

2419
	if (!mls_enabled)
2420
		return (0);
2421

2422
	subj = SLOT(cred->cr_label);
2423
	obj = SLOT(shmseglabel);
2424

2425
	if (!mls_dominate_effective(obj, subj))
2426
		return (EACCES);
2427

2428
	return (0);
2429
}
2430

2431
static void
2432
mls_sysvshm_cleanup(struct label *shmlabel)
2433
{
2434

2435
	bzero(SLOT(shmlabel), sizeof(struct mac_mls));
2436
}
2437

2438
static void
2439
mls_sysvshm_create(struct ucred *cred, struct shmid_kernel *shmsegptr,
2440
    struct label *shmlabel)
2441
{
2442
	struct mac_mls *source, *dest;
2443

2444
	source = SLOT(cred->cr_label);
2445
	dest = SLOT(shmlabel);
2446

2447
	mls_copy_effective(source, dest);
2448
}
2449

2450
static int
2451
mls_vnode_associate_extattr(struct mount *mp, struct label *mplabel,
2452
    struct vnode *vp, struct label *vplabel)
2453
{
2454
	struct mac_mls mm_temp, *source, *dest;
2455
	int buflen, error;
2456

2457
	source = SLOT(mplabel);
2458
	dest = SLOT(vplabel);
2459

2460
	buflen = sizeof(mm_temp);
2461
	bzero(&mm_temp, buflen);
2462

2463
	error = vn_extattr_get(vp, IO_NODELOCKED, MAC_MLS_EXTATTR_NAMESPACE,
2464
	    MAC_MLS_EXTATTR_NAME, &buflen, (char *) &mm_temp, curthread);
2465
	if (error == ENOATTR || error == EOPNOTSUPP) {
2466
		/* Fall back to the mntlabel. */
2467
		mls_copy_effective(source, dest);
2468
		return (0);
2469
	} else if (error)
2470
		return (error);
2471

2472
	if (buflen != sizeof(mm_temp)) {
2473
		printf("mls_vnode_associate_extattr: bad size %d\n", buflen);
2474
		return (EPERM);
2475
	}
2476
	if (mls_valid(&mm_temp) != 0) {
2477
		printf("mls_vnode_associate_extattr: invalid\n");
2478
		return (EPERM);
2479
	}
2480
	if ((mm_temp.mm_flags & MAC_MLS_FLAGS_BOTH) !=
2481
	    MAC_MLS_FLAG_EFFECTIVE) {
2482
		printf("mls_associated_vnode_extattr: not effective\n");
2483
		return (EPERM);
2484
	}
2485

2486
	mls_copy_effective(&mm_temp, dest);
2487
	return (0);
2488
}
2489

2490
static void
2491
mls_vnode_associate_singlelabel(struct mount *mp, struct label *mplabel,
2492
    struct vnode *vp, struct label *vplabel)
2493
{
2494
	struct mac_mls *source, *dest;
2495

2496
	source = SLOT(mplabel);
2497
	dest = SLOT(vplabel);
2498

2499
	mls_copy_effective(source, dest);
2500
}
2501

2502
static int
2503
mls_vnode_check_chdir(struct ucred *cred, struct vnode *dvp,
2504
    struct label *dvplabel)
2505
{
2506
	struct mac_mls *subj, *obj;
2507

2508
	if (!mls_enabled)
2509
		return (0);
2510

2511
	subj = SLOT(cred->cr_label);
2512
	obj = SLOT(dvplabel);
2513

2514
	if (!mls_dominate_effective(subj, obj))
2515
		return (EACCES);
2516

2517
	return (0);
2518
}
2519

2520
static int
2521
mls_vnode_check_chroot(struct ucred *cred, struct vnode *dvp,
2522
    struct label *dvplabel)
2523
{
2524
	struct mac_mls *subj, *obj;
2525

2526
	if (!mls_enabled)
2527
		return (0);
2528

2529
	subj = SLOT(cred->cr_label);
2530
	obj = SLOT(dvplabel);
2531

2532
	if (!mls_dominate_effective(subj, obj))
2533
		return (EACCES);
2534

2535
	return (0);
2536
}
2537

2538
static int
2539
mls_vnode_check_create(struct ucred *cred, struct vnode *dvp,
2540
    struct label *dvplabel, struct componentname *cnp, struct vattr *vap)
2541
{
2542
	struct mac_mls *subj, *obj;
2543

2544
	if (!mls_enabled)
2545
		return (0);
2546

2547
	subj = SLOT(cred->cr_label);
2548
	obj = SLOT(dvplabel);
2549

2550
	if (!mls_dominate_effective(obj, subj))
2551
		return (EACCES);
2552

2553
	return (0);
2554
}
2555

2556
static int
2557
mls_vnode_check_deleteacl(struct ucred *cred, struct vnode *vp,
2558
    struct label *vplabel, acl_type_t type)
2559
{
2560
	struct mac_mls *subj, *obj;
2561

2562
	if (!mls_enabled)
2563
		return (0);
2564

2565
	subj = SLOT(cred->cr_label);
2566
	obj = SLOT(vplabel);
2567

2568
	if (!mls_dominate_effective(obj, subj))
2569
		return (EACCES);
2570

2571
	return (0);
2572
}
2573

2574
static int
2575
mls_vnode_check_deleteextattr(struct ucred *cred, struct vnode *vp,
2576
    struct label *vplabel, int attrnamespace, const char *name)
2577
{
2578
	struct mac_mls *subj, *obj;
2579

2580
	if (!mls_enabled)
2581
		return (0);
2582

2583
	subj = SLOT(cred->cr_label);
2584
	obj = SLOT(vplabel);
2585

2586
	if (!mls_dominate_effective(obj, subj))
2587
		return (EACCES);
2588

2589
	return (0);
2590
}
2591

2592
static int
2593
mls_vnode_check_exec(struct ucred *cred, struct vnode *vp,
2594
    struct label *vplabel, struct image_params *imgp,
2595
    struct label *execlabel)
2596
{
2597
	struct mac_mls *subj, *obj, *exec;
2598
	int error;
2599

2600
	if (execlabel != NULL) {
2601
		/*
2602
		 * We currently don't permit labels to be changed at
2603
		 * exec-time as part of MLS, so disallow non-NULL MLS label
2604
		 * elements in the execlabel.
2605
		 */
2606
		exec = SLOT(execlabel);
2607
		error = mls_atmostflags(exec, 0);
2608
		if (error)
2609
			return (error);
2610
	}
2611

2612
	if (!mls_enabled)
2613
		return (0);
2614

2615
	subj = SLOT(cred->cr_label);
2616
	obj = SLOT(vplabel);
2617

2618
	if (!mls_dominate_effective(subj, obj))
2619
		return (EACCES);
2620

2621
	return (0);
2622
}
2623

2624
static int
2625
mls_vnode_check_getacl(struct ucred *cred, struct vnode *vp,
2626
    struct label *vplabel, acl_type_t type)
2627
{
2628
	struct mac_mls *subj, *obj;
2629

2630
	if (!mls_enabled)
2631
		return (0);
2632

2633
	subj = SLOT(cred->cr_label);
2634
	obj = SLOT(vplabel);
2635

2636
	if (!mls_dominate_effective(subj, obj))
2637
		return (EACCES);
2638

2639
	return (0);
2640
}
2641

2642
static int
2643
mls_vnode_check_getextattr(struct ucred *cred, struct vnode *vp,
2644
    struct label *vplabel, int attrnamespace, const char *name)
2645
{
2646
	struct mac_mls *subj, *obj;
2647

2648
	if (!mls_enabled)
2649
		return (0);
2650

2651
	subj = SLOT(cred->cr_label);
2652
	obj = SLOT(vplabel);
2653

2654
	if (!mls_dominate_effective(subj, obj))
2655
		return (EACCES);
2656

2657
	return (0);
2658
}
2659

2660
static int
2661
mls_vnode_check_link(struct ucred *cred, struct vnode *dvp,
2662
    struct label *dvplabel, struct vnode *vp, struct label *vplabel,
2663
    struct componentname *cnp)
2664
{
2665
	struct mac_mls *subj, *obj;
2666

2667
	if (!mls_enabled)
2668
		return (0);
2669

2670
	subj = SLOT(cred->cr_label);
2671
	obj = SLOT(dvplabel);
2672

2673
	if (!mls_dominate_effective(obj, subj))
2674
		return (EACCES);
2675

2676
	obj = SLOT(vplabel);
2677
	if (!mls_dominate_effective(obj, subj))
2678
		return (EACCES);
2679

2680
	return (0);
2681
}
2682

2683
static int
2684
mls_vnode_check_listextattr(struct ucred *cred, struct vnode *vp,
2685
    struct label *vplabel, int attrnamespace)
2686
{
2687

2688
	struct mac_mls *subj, *obj;
2689

2690
	if (!mls_enabled)
2691
		return (0);
2692

2693
	subj = SLOT(cred->cr_label);
2694
	obj = SLOT(vplabel);
2695

2696
	if (!mls_dominate_effective(subj, obj))
2697
		return (EACCES);
2698

2699
	return (0);
2700
}
2701

2702
static int
2703
mls_vnode_check_lookup(struct ucred *cred, struct vnode *dvp,
2704
    struct label *dvplabel, struct componentname *cnp)
2705
{
2706
	struct mac_mls *subj, *obj;
2707

2708
	if (!mls_enabled)
2709
		return (0);
2710

2711
	subj = SLOT(cred->cr_label);
2712
	obj = SLOT(dvplabel);
2713

2714
	if (!mls_dominate_effective(subj, obj))
2715
		return (EACCES);
2716

2717
	return (0);
2718
}
2719

2720
static int
2721
mls_vnode_check_mmap(struct ucred *cred, struct vnode *vp,
2722
    struct label *vplabel, int prot, int flags)
2723
{
2724
	struct mac_mls *subj, *obj;
2725

2726
	/*
2727
	 * Rely on the use of open()-time protections to handle
2728
	 * non-revocation cases.
2729
	 */
2730
	if (!mls_enabled || !revocation_enabled)
2731
		return (0);
2732

2733
	subj = SLOT(cred->cr_label);
2734
	obj = SLOT(vplabel);
2735

2736
	if (prot & (VM_PROT_READ | VM_PROT_EXECUTE)) {
2737
		if (!mls_dominate_effective(subj, obj))
2738
			return (EACCES);
2739
	}
2740
	if (((prot & VM_PROT_WRITE) != 0) && ((flags & MAP_SHARED) != 0)) {
2741
		if (!mls_dominate_effective(obj, subj))
2742
			return (EACCES);
2743
	}
2744

2745
	return (0);
2746
}
2747

2748
static int
2749
mls_vnode_check_open(struct ucred *cred, struct vnode *vp,
2750
    struct label *vplabel, accmode_t accmode)
2751
{
2752
	struct mac_mls *subj, *obj;
2753

2754
	if (!mls_enabled)
2755
		return (0);
2756

2757
	subj = SLOT(cred->cr_label);
2758
	obj = SLOT(vplabel);
2759

2760
	/* XXX privilege override for admin? */
2761
	if (accmode & (VREAD | VEXEC | VSTAT_PERMS)) {
2762
		if (!mls_dominate_effective(subj, obj))
2763
			return (EACCES);
2764
	}
2765
	if (accmode & VMODIFY_PERMS) {
2766
		if (!mls_dominate_effective(obj, subj))
2767
			return (EACCES);
2768
	}
2769

2770
	return (0);
2771
}
2772

2773
static int
2774
mls_vnode_check_poll(struct ucred *active_cred, struct ucred *file_cred,
2775
    struct vnode *vp, struct label *vplabel)
2776
{
2777
	struct mac_mls *subj, *obj;
2778

2779
	if (!mls_enabled || !revocation_enabled)
2780
		return (0);
2781

2782
	subj = SLOT(active_cred->cr_label);
2783
	obj = SLOT(vplabel);
2784

2785
	if (!mls_dominate_effective(subj, obj))
2786
		return (EACCES);
2787

2788
	return (0);
2789
}
2790

2791
static int
2792
mls_vnode_check_read(struct ucred *active_cred, struct ucred *file_cred,
2793
    struct vnode *vp, struct label *vplabel)
2794
{
2795
	struct mac_mls *subj, *obj;
2796

2797
	if (!mls_enabled || !revocation_enabled)
2798
		return (0);
2799

2800
	subj = SLOT(active_cred->cr_label);
2801
	obj = SLOT(vplabel);
2802

2803
	if (!mls_dominate_effective(subj, obj))
2804
		return (EACCES);
2805

2806
	return (0);
2807
}
2808

2809
static int
2810
mls_vnode_check_readdir(struct ucred *cred, struct vnode *dvp,
2811
    struct label *dvplabel)
2812
{
2813
	struct mac_mls *subj, *obj;
2814

2815
	if (!mls_enabled)
2816
		return (0);
2817

2818
	subj = SLOT(cred->cr_label);
2819
	obj = SLOT(dvplabel);
2820

2821
	if (!mls_dominate_effective(subj, obj))
2822
		return (EACCES);
2823

2824
	return (0);
2825
}
2826

2827
static int
2828
mls_vnode_check_readlink(struct ucred *cred, struct vnode *vp,
2829
    struct label *vplabel)
2830
{
2831
	struct mac_mls *subj, *obj;
2832

2833
	if (!mls_enabled)
2834
		return (0);
2835

2836
	subj = SLOT(cred->cr_label);
2837
	obj = SLOT(vplabel);
2838

2839
	if (!mls_dominate_effective(subj, obj))
2840
		return (EACCES);
2841

2842
	return (0);
2843
}
2844

2845
static int
2846
mls_vnode_check_relabel(struct ucred *cred, struct vnode *vp,
2847
    struct label *vplabel, struct label *newlabel)
2848
{
2849
	struct mac_mls *old, *new, *subj;
2850
	int error;
2851

2852
	old = SLOT(vplabel);
2853
	new = SLOT(newlabel);
2854
	subj = SLOT(cred->cr_label);
2855

2856
	/*
2857
	 * If there is an MLS label update for the vnode, it must be a
2858
	 * effective label.
2859
	 */
2860
	error = mls_atmostflags(new, MAC_MLS_FLAG_EFFECTIVE);
2861
	if (error)
2862
		return (error);
2863

2864
	/*
2865
	 * To perform a relabel of the vnode (MLS label or not), MLS must
2866
	 * authorize the relabel.
2867
	 */
2868
	if (!mls_effective_in_range(old, subj))
2869
		return (EPERM);
2870

2871
	/*
2872
	 * If the MLS label is to be changed, authorize as appropriate.
2873
	 */
2874
	if (new->mm_flags & MAC_MLS_FLAG_EFFECTIVE) {
2875
		/*
2876
		 * To change the MLS label on a vnode, the new vnode label
2877
		 * must be in the subject range.
2878
		 */
2879
		if (!mls_effective_in_range(new, subj))
2880
			return (EPERM);
2881

2882
		/*
2883
		 * To change the MLS label on the vnode to be EQUAL, the
2884
		 * subject must have appropriate privilege.
2885
		 */
2886
		if (mls_contains_equal(new)) {
2887
			error = mls_subject_privileged(subj);
2888
			if (error)
2889
				return (error);
2890
		}
2891
	}
2892

2893
	return (0);
2894
}
2895

2896
static int
2897
mls_vnode_check_rename_from(struct ucred *cred, struct vnode *dvp,
2898
    struct label *dvplabel, struct vnode *vp, struct label *vplabel,
2899
    struct componentname *cnp)
2900
{
2901
	struct mac_mls *subj, *obj;
2902

2903
	if (!mls_enabled)
2904
		return (0);
2905

2906
	subj = SLOT(cred->cr_label);
2907
	obj = SLOT(dvplabel);
2908

2909
	if (!mls_dominate_effective(obj, subj))
2910
		return (EACCES);
2911

2912
	obj = SLOT(vplabel);
2913

2914
	if (!mls_dominate_effective(obj, subj))
2915
		return (EACCES);
2916

2917
	return (0);
2918
}
2919

2920
static int
2921
mls_vnode_check_rename_to(struct ucred *cred, struct vnode *dvp,
2922
    struct label *dvplabel, struct vnode *vp, struct label *vplabel,
2923
    int samedir, struct componentname *cnp)
2924
{
2925
	struct mac_mls *subj, *obj;
2926

2927
	if (!mls_enabled)
2928
		return (0);
2929

2930
	subj = SLOT(cred->cr_label);
2931
	obj = SLOT(dvplabel);
2932

2933
	if (!mls_dominate_effective(obj, subj))
2934
		return (EACCES);
2935

2936
	if (vp != NULL) {
2937
		obj = SLOT(vplabel);
2938

2939
		if (!mls_dominate_effective(obj, subj))
2940
			return (EACCES);
2941
	}
2942

2943
	return (0);
2944
}
2945

2946
static int
2947
mls_vnode_check_revoke(struct ucred *cred, struct vnode *vp,
2948
    struct label *vplabel)
2949
{
2950
	struct mac_mls *subj, *obj;
2951

2952
	if (!mls_enabled)
2953
		return (0);
2954

2955
	subj = SLOT(cred->cr_label);
2956
	obj = SLOT(vplabel);
2957

2958
	if (!mls_dominate_effective(obj, subj))
2959
		return (EACCES);
2960

2961
	return (0);
2962
}
2963

2964
static int
2965
mls_vnode_check_setacl(struct ucred *cred, struct vnode *vp,
2966
    struct label *vplabel, acl_type_t type, struct acl *acl)
2967
{
2968
	struct mac_mls *subj, *obj;
2969

2970
	if (!mls_enabled)
2971
		return (0);
2972

2973
	subj = SLOT(cred->cr_label);
2974
	obj = SLOT(vplabel);
2975

2976
	if (!mls_dominate_effective(obj, subj))
2977
		return (EACCES);
2978

2979
	return (0);
2980
}
2981

2982
static int
2983
mls_vnode_check_setextattr(struct ucred *cred, struct vnode *vp,
2984
    struct label *vplabel, int attrnamespace, const char *name)
2985
{
2986
	struct mac_mls *subj, *obj;
2987

2988
	if (!mls_enabled)
2989
		return (0);
2990

2991
	subj = SLOT(cred->cr_label);
2992
	obj = SLOT(vplabel);
2993

2994
	if (!mls_dominate_effective(obj, subj))
2995
		return (EACCES);
2996

2997
	/* XXX: protect the MAC EA in a special way? */
2998

2999
	return (0);
3000
}
3001

3002
static int
3003
mls_vnode_check_setflags(struct ucred *cred, struct vnode *vp,
3004
    struct label *vplabel, u_long flags)
3005
{
3006
	struct mac_mls *subj, *obj;
3007

3008
	if (!mls_enabled)
3009
		return (0);
3010

3011
	subj = SLOT(cred->cr_label);
3012
	obj = SLOT(vplabel);
3013

3014
	if (!mls_dominate_effective(obj, subj))
3015
		return (EACCES);
3016

3017
	return (0);
3018
}
3019

3020
static int
3021
mls_vnode_check_setmode(struct ucred *cred, struct vnode *vp,
3022
    struct label *vplabel, mode_t mode)
3023
{
3024
	struct mac_mls *subj, *obj;
3025

3026
	if (!mls_enabled)
3027
		return (0);
3028

3029
	subj = SLOT(cred->cr_label);
3030
	obj = SLOT(vplabel);
3031

3032
	if (!mls_dominate_effective(obj, subj))
3033
		return (EACCES);
3034

3035
	return (0);
3036
}
3037

3038
static int
3039
mls_vnode_check_setowner(struct ucred *cred, struct vnode *vp,
3040
    struct label *vplabel, uid_t uid, gid_t gid)
3041
{
3042
	struct mac_mls *subj, *obj;
3043

3044
	if (!mls_enabled)
3045
		return (0);
3046

3047
	subj = SLOT(cred->cr_label);
3048
	obj = SLOT(vplabel);
3049

3050
	if (!mls_dominate_effective(obj, subj))
3051
		return (EACCES);
3052

3053
	return (0);
3054
}
3055

3056
static int
3057
mls_vnode_check_setutimes(struct ucred *cred, struct vnode *vp,
3058
    struct label *vplabel, struct timespec atime, struct timespec mtime)
3059
{
3060
	struct mac_mls *subj, *obj;
3061

3062
	if (!mls_enabled)
3063
		return (0);
3064

3065
	subj = SLOT(cred->cr_label);
3066
	obj = SLOT(vplabel);
3067

3068
	if (!mls_dominate_effective(obj, subj))
3069
		return (EACCES);
3070

3071
	return (0);
3072
}
3073

3074
static int
3075
mls_vnode_check_stat(struct ucred *active_cred, struct ucred *file_cred,
3076
    struct vnode *vp, struct label *vplabel)
3077
{
3078
	struct mac_mls *subj, *obj;
3079

3080
	if (!mls_enabled)
3081
		return (0);
3082

3083
	subj = SLOT(active_cred->cr_label);
3084
	obj = SLOT(vplabel);
3085

3086
	if (!mls_dominate_effective(subj, obj))
3087
		return (EACCES);
3088

3089
	return (0);
3090
}
3091

3092
static int
3093
mls_vnode_check_unlink(struct ucred *cred, struct vnode *dvp,
3094
    struct label *dvplabel, struct vnode *vp, struct label *vplabel,
3095
    struct componentname *cnp)
3096
{
3097
	struct mac_mls *subj, *obj;
3098

3099
	if (!mls_enabled)
3100
		return (0);
3101

3102
	subj = SLOT(cred->cr_label);
3103
	obj = SLOT(dvplabel);
3104

3105
	if (!mls_dominate_effective(obj, subj))
3106
		return (EACCES);
3107

3108
	obj = SLOT(vplabel);
3109

3110
	if (!mls_dominate_effective(obj, subj))
3111
		return (EACCES);
3112

3113
	return (0);
3114
}
3115

3116
static int
3117
mls_vnode_check_write(struct ucred *active_cred, struct ucred *file_cred,
3118
    struct vnode *vp, struct label *vplabel)
3119
{
3120
	struct mac_mls *subj, *obj;
3121

3122
	if (!mls_enabled || !revocation_enabled)
3123
		return (0);
3124

3125
	subj = SLOT(active_cred->cr_label);
3126
	obj = SLOT(vplabel);
3127

3128
	if (!mls_dominate_effective(obj, subj))
3129
		return (EACCES);
3130

3131
	return (0);
3132
}
3133

3134
static int
3135
mls_vnode_create_extattr(struct ucred *cred, struct mount *mp,
3136
    struct label *mplabel, struct vnode *dvp, struct label *dvplabel,
3137
    struct vnode *vp, struct label *vplabel, struct componentname *cnp)
3138
{
3139
	struct mac_mls *source, *dest, mm_temp;
3140
	size_t buflen;
3141
	int error;
3142

3143
	buflen = sizeof(mm_temp);
3144
	bzero(&mm_temp, buflen);
3145

3146
	source = SLOT(cred->cr_label);
3147
	dest = SLOT(vplabel);
3148
	mls_copy_effective(source, &mm_temp);
3149

3150
	error = vn_extattr_set(vp, IO_NODELOCKED, MAC_MLS_EXTATTR_NAMESPACE,
3151
	    MAC_MLS_EXTATTR_NAME, buflen, (char *) &mm_temp, curthread);
3152
	if (error == 0)
3153
		mls_copy_effective(source, dest);
3154
	return (error);
3155
}
3156

3157
static void
3158
mls_vnode_relabel(struct ucred *cred, struct vnode *vp,
3159
    struct label *vplabel, struct label *label)
3160
{
3161
	struct mac_mls *source, *dest;
3162

3163
	source = SLOT(label);
3164
	dest = SLOT(vplabel);
3165

3166
	mls_copy(source, dest);
3167
}
3168

3169
static int
3170
mls_vnode_setlabel_extattr(struct ucred *cred, struct vnode *vp,
3171
    struct label *vplabel, struct label *intlabel)
3172
{
3173
	struct mac_mls *source, mm_temp;
3174
	size_t buflen;
3175
	int error;
3176

3177
	buflen = sizeof(mm_temp);
3178
	bzero(&mm_temp, buflen);
3179

3180
	source = SLOT(intlabel);
3181
	if ((source->mm_flags & MAC_MLS_FLAG_EFFECTIVE) == 0)
3182
		return (0);
3183

3184
	mls_copy_effective(source, &mm_temp);
3185

3186
	error = vn_extattr_set(vp, IO_NODELOCKED, MAC_MLS_EXTATTR_NAMESPACE,
3187
	    MAC_MLS_EXTATTR_NAME, buflen, (char *) &mm_temp, curthread);
3188
	return (error);
3189
}
3190

3191
static struct mac_policy_ops mls_ops =
3192
{
3193
	.mpo_init = mls_init,
3194

3195
	.mpo_bpfdesc_check_receive = mls_bpfdesc_check_receive,
3196
	.mpo_bpfdesc_create = mls_bpfdesc_create,
3197
	.mpo_bpfdesc_create_mbuf = mls_bpfdesc_create_mbuf,
3198
	.mpo_bpfdesc_destroy_label = mls_destroy_label,
3199
	.mpo_bpfdesc_init_label = mls_init_label,
3200

3201
	.mpo_cred_associate_nfsd = mls_cred_associate_nfsd,
3202
	.mpo_cred_check_relabel = mls_cred_check_relabel,
3203
	.mpo_cred_check_visible = mls_cred_check_visible,
3204
	.mpo_cred_copy_label = mls_copy_label,
3205
	.mpo_cred_create_init = mls_cred_create_init,
3206
	.mpo_cred_create_swapper = mls_cred_create_swapper,
3207
	.mpo_cred_destroy_label = mls_destroy_label,
3208
	.mpo_cred_externalize_label = mls_externalize_label,
3209
	.mpo_cred_init_label = mls_init_label,
3210
	.mpo_cred_internalize_label = mls_internalize_label,
3211
	.mpo_cred_relabel = mls_cred_relabel,
3212

3213
	.mpo_devfs_create_device = mls_devfs_create_device,
3214
	.mpo_devfs_create_directory = mls_devfs_create_directory,
3215
	.mpo_devfs_create_symlink = mls_devfs_create_symlink,
3216
	.mpo_devfs_destroy_label = mls_destroy_label,
3217
	.mpo_devfs_init_label = mls_init_label,
3218
	.mpo_devfs_update = mls_devfs_update,
3219
	.mpo_devfs_vnode_associate = mls_devfs_vnode_associate,
3220

3221
	.mpo_ifnet_check_relabel = mls_ifnet_check_relabel,
3222
	.mpo_ifnet_check_transmit = mls_ifnet_check_transmit,
3223
	.mpo_ifnet_copy_label = mls_copy_label,
3224
	.mpo_ifnet_create = mls_ifnet_create,
3225
	.mpo_ifnet_create_mbuf = mls_ifnet_create_mbuf,
3226
	.mpo_ifnet_destroy_label = mls_destroy_label,
3227
	.mpo_ifnet_externalize_label = mls_externalize_label,
3228
	.mpo_ifnet_init_label = mls_init_label,
3229
	.mpo_ifnet_internalize_label = mls_internalize_label,
3230
	.mpo_ifnet_relabel = mls_ifnet_relabel,
3231

3232
	.mpo_inpcb_check_deliver = mls_inpcb_check_deliver,
3233
	.mpo_inpcb_check_visible = mls_inpcb_check_visible,
3234
	.mpo_inpcb_create = mls_inpcb_create,
3235
	.mpo_inpcb_create_mbuf = mls_inpcb_create_mbuf,
3236
	.mpo_inpcb_destroy_label = mls_destroy_label,
3237
	.mpo_inpcb_init_label = mls_init_label_waitcheck,
3238
	.mpo_inpcb_sosetlabel = mls_inpcb_sosetlabel,
3239

3240
	.mpo_ip6q_create = mls_ip6q_create,
3241
	.mpo_ip6q_destroy_label = mls_destroy_label,
3242
	.mpo_ip6q_init_label = mls_init_label_waitcheck,
3243
	.mpo_ip6q_match = mls_ip6q_match,
3244
	.mpo_ip6q_reassemble = mls_ip6q_reassemble,
3245
	.mpo_ip6q_update = mls_ip6q_update,
3246

3247
	.mpo_ipq_create = mls_ipq_create,
3248
	.mpo_ipq_destroy_label = mls_destroy_label,
3249
	.mpo_ipq_init_label = mls_init_label_waitcheck,
3250
	.mpo_ipq_match = mls_ipq_match,
3251
	.mpo_ipq_reassemble = mls_ipq_reassemble,
3252
	.mpo_ipq_update = mls_ipq_update,
3253

3254
	.mpo_mbuf_copy_label = mls_copy_label,
3255
	.mpo_mbuf_destroy_label = mls_destroy_label,
3256
	.mpo_mbuf_init_label = mls_init_label_waitcheck,
3257

3258
	.mpo_mount_check_stat = mls_mount_check_stat,
3259
	.mpo_mount_create = mls_mount_create,
3260
	.mpo_mount_destroy_label = mls_destroy_label,
3261
	.mpo_mount_init_label = mls_init_label,
3262

3263
	.mpo_netinet_arp_send = mls_netinet_arp_send,
3264
	.mpo_netinet_firewall_reply = mls_netinet_firewall_reply,
3265
	.mpo_netinet_firewall_send = mls_netinet_firewall_send,
3266
	.mpo_netinet_fragment = mls_netinet_fragment,
3267
	.mpo_netinet_icmp_reply = mls_netinet_icmp_reply,
3268
	.mpo_netinet_igmp_send = mls_netinet_igmp_send,
3269

3270
	.mpo_netinet6_nd6_send = mls_netinet6_nd6_send,
3271

3272
	.mpo_pipe_check_ioctl = mls_pipe_check_ioctl,
3273
	.mpo_pipe_check_poll = mls_pipe_check_poll,
3274
	.mpo_pipe_check_read = mls_pipe_check_read,
3275
	.mpo_pipe_check_relabel = mls_pipe_check_relabel,
3276
	.mpo_pipe_check_stat = mls_pipe_check_stat,
3277
	.mpo_pipe_check_write = mls_pipe_check_write,
3278
	.mpo_pipe_copy_label = mls_copy_label,
3279
	.mpo_pipe_create = mls_pipe_create,
3280
	.mpo_pipe_destroy_label = mls_destroy_label,
3281
	.mpo_pipe_externalize_label = mls_externalize_label,
3282
	.mpo_pipe_init_label = mls_init_label,
3283
	.mpo_pipe_internalize_label = mls_internalize_label,
3284
	.mpo_pipe_relabel = mls_pipe_relabel,
3285

3286
	.mpo_posixsem_check_getvalue = mls_posixsem_check_rdonly,
3287
	.mpo_posixsem_check_open = mls_posixsem_check_openunlink,
3288
	.mpo_posixsem_check_post = mls_posixsem_check_write,
3289
	.mpo_posixsem_check_setmode = mls_posixsem_check_setmode,
3290
	.mpo_posixsem_check_setowner = mls_posixsem_check_setowner,
3291
	.mpo_posixsem_check_stat = mls_posixsem_check_rdonly,
3292
	.mpo_posixsem_check_unlink = mls_posixsem_check_openunlink,
3293
	.mpo_posixsem_check_wait = mls_posixsem_check_write,
3294
	.mpo_posixsem_create = mls_posixsem_create,
3295
	.mpo_posixsem_destroy_label = mls_destroy_label,
3296
	.mpo_posixsem_init_label = mls_init_label,
3297

3298
	.mpo_posixshm_check_mmap = mls_posixshm_check_mmap,
3299
	.mpo_posixshm_check_open = mls_posixshm_check_open,
3300
	.mpo_posixshm_check_read = mls_posixshm_check_read,
3301
	.mpo_posixshm_check_setmode = mls_posixshm_check_setmode,
3302
	.mpo_posixshm_check_setowner = mls_posixshm_check_setowner,
3303
	.mpo_posixshm_check_stat = mls_posixshm_check_stat,
3304
	.mpo_posixshm_check_truncate = mls_posixshm_check_truncate,
3305
	.mpo_posixshm_check_unlink = mls_posixshm_check_unlink,
3306
	.mpo_posixshm_check_write = mls_posixshm_check_write,
3307
	.mpo_posixshm_create = mls_posixshm_create,
3308
	.mpo_posixshm_destroy_label = mls_destroy_label,
3309
	.mpo_posixshm_init_label = mls_init_label,
3310

3311
	.mpo_proc_check_debug = mls_proc_check_debug,
3312
	.mpo_proc_check_sched = mls_proc_check_sched,
3313
	.mpo_proc_check_signal = mls_proc_check_signal,
3314

3315
	.mpo_socket_check_deliver = mls_socket_check_deliver,
3316
	.mpo_socket_check_relabel = mls_socket_check_relabel,
3317
	.mpo_socket_check_visible = mls_socket_check_visible,
3318
	.mpo_socket_copy_label = mls_copy_label,
3319
	.mpo_socket_create = mls_socket_create,
3320
	.mpo_socket_create_mbuf = mls_socket_create_mbuf,
3321
	.mpo_socket_destroy_label = mls_destroy_label,
3322
	.mpo_socket_externalize_label = mls_externalize_label,
3323
	.mpo_socket_init_label = mls_init_label_waitcheck,
3324
	.mpo_socket_internalize_label = mls_internalize_label,
3325
	.mpo_socket_newconn = mls_socket_newconn,
3326
	.mpo_socket_relabel = mls_socket_relabel,
3327

3328
	.mpo_socketpeer_destroy_label = mls_destroy_label,
3329
	.mpo_socketpeer_externalize_label = mls_externalize_label,
3330
	.mpo_socketpeer_init_label = mls_init_label_waitcheck,
3331
	.mpo_socketpeer_set_from_mbuf = mls_socketpeer_set_from_mbuf,
3332
	.mpo_socketpeer_set_from_socket = mls_socketpeer_set_from_socket,
3333

3334
	.mpo_syncache_create = mls_syncache_create,
3335
	.mpo_syncache_create_mbuf = mls_syncache_create_mbuf,
3336
	.mpo_syncache_destroy_label = mls_destroy_label,
3337
	.mpo_syncache_init_label = mls_init_label_waitcheck,
3338

3339
	.mpo_sysvmsg_cleanup = mls_sysvmsg_cleanup,
3340
	.mpo_sysvmsg_create = mls_sysvmsg_create,
3341
	.mpo_sysvmsg_destroy_label = mls_destroy_label,
3342
	.mpo_sysvmsg_init_label = mls_init_label,
3343

3344
	.mpo_sysvmsq_check_msgrcv = mls_sysvmsq_check_msgrcv,
3345
	.mpo_sysvmsq_check_msgrmid = mls_sysvmsq_check_msgrmid,
3346
	.mpo_sysvmsq_check_msqget = mls_sysvmsq_check_msqget,
3347
	.mpo_sysvmsq_check_msqsnd = mls_sysvmsq_check_msqsnd,
3348
	.mpo_sysvmsq_check_msqrcv = mls_sysvmsq_check_msqrcv,
3349
	.mpo_sysvmsq_check_msqctl = mls_sysvmsq_check_msqctl,
3350
	.mpo_sysvmsq_cleanup = mls_sysvmsq_cleanup,
3351
	.mpo_sysvmsq_destroy_label = mls_destroy_label,
3352
	.mpo_sysvmsq_init_label = mls_init_label,
3353
	.mpo_sysvmsq_create = mls_sysvmsq_create,
3354

3355
	.mpo_sysvsem_check_semctl = mls_sysvsem_check_semctl,
3356
	.mpo_sysvsem_check_semget = mls_sysvsem_check_semget,
3357
	.mpo_sysvsem_check_semop = mls_sysvsem_check_semop,
3358
	.mpo_sysvsem_cleanup = mls_sysvsem_cleanup,
3359
	.mpo_sysvsem_create = mls_sysvsem_create,
3360
	.mpo_sysvsem_destroy_label = mls_destroy_label,
3361
	.mpo_sysvsem_init_label = mls_init_label,
3362

3363
	.mpo_sysvshm_check_shmat = mls_sysvshm_check_shmat,
3364
	.mpo_sysvshm_check_shmctl = mls_sysvshm_check_shmctl,
3365
	.mpo_sysvshm_check_shmget = mls_sysvshm_check_shmget,
3366
	.mpo_sysvshm_cleanup = mls_sysvshm_cleanup,
3367
	.mpo_sysvshm_create = mls_sysvshm_create,
3368
	.mpo_sysvshm_destroy_label = mls_destroy_label,
3369
	.mpo_sysvshm_init_label = mls_init_label,
3370

3371
	.mpo_system_check_acct = mls_system_check_acct,
3372
	.mpo_system_check_auditctl = mls_system_check_auditctl,
3373
	.mpo_system_check_swapon = mls_system_check_swapon,
3374

3375
	.mpo_vnode_associate_extattr = mls_vnode_associate_extattr,
3376
	.mpo_vnode_associate_singlelabel = mls_vnode_associate_singlelabel,
3377
	.mpo_vnode_check_access = mls_vnode_check_open,
3378
	.mpo_vnode_check_chdir = mls_vnode_check_chdir,
3379
	.mpo_vnode_check_chroot = mls_vnode_check_chroot,
3380
	.mpo_vnode_check_create = mls_vnode_check_create,
3381
	.mpo_vnode_check_deleteacl = mls_vnode_check_deleteacl,
3382
	.mpo_vnode_check_deleteextattr = mls_vnode_check_deleteextattr,
3383
	.mpo_vnode_check_exec = mls_vnode_check_exec,
3384
	.mpo_vnode_check_getacl = mls_vnode_check_getacl,
3385
	.mpo_vnode_check_getextattr = mls_vnode_check_getextattr,
3386
	.mpo_vnode_check_link = mls_vnode_check_link,
3387
	.mpo_vnode_check_listextattr = mls_vnode_check_listextattr,
3388
	.mpo_vnode_check_lookup = mls_vnode_check_lookup,
3389
	.mpo_vnode_check_mmap = mls_vnode_check_mmap,
3390
	.mpo_vnode_check_open = mls_vnode_check_open,
3391
	.mpo_vnode_check_poll = mls_vnode_check_poll,
3392
	.mpo_vnode_check_read = mls_vnode_check_read,
3393
	.mpo_vnode_check_readdir = mls_vnode_check_readdir,
3394
	.mpo_vnode_check_readlink = mls_vnode_check_readlink,
3395
	.mpo_vnode_check_relabel = mls_vnode_check_relabel,
3396
	.mpo_vnode_check_rename_from = mls_vnode_check_rename_from,
3397
	.mpo_vnode_check_rename_to = mls_vnode_check_rename_to,
3398
	.mpo_vnode_check_revoke = mls_vnode_check_revoke,
3399
	.mpo_vnode_check_setacl = mls_vnode_check_setacl,
3400
	.mpo_vnode_check_setextattr = mls_vnode_check_setextattr,
3401
	.mpo_vnode_check_setflags = mls_vnode_check_setflags,
3402
	.mpo_vnode_check_setmode = mls_vnode_check_setmode,
3403
	.mpo_vnode_check_setowner = mls_vnode_check_setowner,
3404
	.mpo_vnode_check_setutimes = mls_vnode_check_setutimes,
3405
	.mpo_vnode_check_stat = mls_vnode_check_stat,
3406
	.mpo_vnode_check_unlink = mls_vnode_check_unlink,
3407
	.mpo_vnode_check_write = mls_vnode_check_write,
3408
	.mpo_vnode_copy_label = mls_copy_label,
3409
	.mpo_vnode_create_extattr = mls_vnode_create_extattr,
3410
	.mpo_vnode_destroy_label = mls_destroy_label,
3411
	.mpo_vnode_externalize_label = mls_externalize_label,
3412
	.mpo_vnode_init_label = mls_init_label,
3413
	.mpo_vnode_internalize_label = mls_internalize_label,
3414
	.mpo_vnode_relabel = mls_vnode_relabel,
3415
	.mpo_vnode_setlabel_extattr = mls_vnode_setlabel_extattr,
3416
};
3417

3418
MAC_POLICY_SET(&mls_ops, mac_mls, "TrustedBSD MAC/MLS",
3419
    MPC_LOADTIME_FLAG_NOTLATE, &mls_slot);
3420

3421