xref: /titanic_52/usr/src/uts/common/sys/tsol/label_macro.h (revision 10db1377dafab8ba3feedef26db9c5d8539a5cd1)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_LABEL_MACRO_H
27 #define	_LABEL_MACRO_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #include <sys/types.h>
32 
33 #ifdef	__cplusplus
34 extern "C" {
35 #endif
36 
37 /* PRIVATE ONLY TO THE LABEL LIBRARY.  DO NOT USE ELSEWHERE */
38 
39 /* Actual Binary Label Structure Definitions */
40 
41 typedef int16_t	_Classification;
42 typedef struct {
43 	union {
44 		uint8_t		class_ar[2];
45 		_Classification	class_chunk;
46 	} class_u;
47 } Classification_t;
48 
49 typedef struct {
50 	uint32_t c1;
51 	uint32_t c2;
52 	uint32_t c3;
53 	uint32_t c4;
54 	uint32_t c5;
55 	uint32_t c6;
56 	uint32_t c7;
57 	uint32_t c8;
58 } Compartments_t;
59 
60 typedef struct {
61 	uint32_t m1;
62 	uint32_t m2;
63 	uint32_t m3;
64 	uint32_t m4;
65 	uint32_t m5;
66 	uint32_t m6;
67 	uint32_t m7;
68 	uint32_t m8;
69 } Markings_t;
70 
71 typedef struct _mac_label_impl {
72 	uint8_t id;		/* Magic to say label type */
73 	uint8_t _c_len;		/* Number of Compartment words */
74 	Classification_t classification;
75 	Compartments_t compartments;
76 } _mac_label_impl_t;
77 
78 typedef _mac_label_impl_t	_blevel_impl_t,		/* compatibility */
79 				_bslabel_impl_t,	/* Sensitivity Label */
80 				_bclear_impl_t;		/* Clearance */
81 
82 typedef struct _binary_information_label_impl {	/* Information Label */
83 	_mac_label_impl_t	binformation_level;
84 	Markings_t markings;
85 } _bilabel_impl_t;
86 
87 typedef struct _binary_cmw_label_impl {		/* CMW Label */
88 	_bslabel_impl_t bcl_sensitivity_label;
89 	_bilabel_impl_t bcl_information_label;
90 } _bclabel_impl_t;
91 
92 typedef struct _binary_level_range_impl {	/* Level Range */
93 	_mac_label_impl_t lower_bound;
94 	_mac_label_impl_t upper_bound;
95 } _brange_impl_t, brange_t;
96 
97 #define	NMLP_MAX	0x10
98 #define	NSLS_MAX	0x4
99 
100 typedef _mac_label_impl_t blset_t[NSLS_MAX];
101 
102 /* Label Identifier Types */
103 
104 #define	SUN_MAC_ID	0x41	/* MAC label, legacy SUN_SL_ID */
105 #define	SUN_UCLR_ID	0x49	/* User Clearance, legacy SUN_CLR_ID */
106 
107 #define	_C_LEN		8	/* number of compartments words */
108 
109 /* m_label_t macros */
110 #define	_MTYPE(l, t) \
111 	(((_mac_label_impl_t *)(l))->id == (t))
112 
113 #define	_MSETTYPE(l, t) \
114 	(((_mac_label_impl_t *)(l))->id = (t))
115 
116 #define	_MGETTYPE(l)	(((_mac_label_impl_t *)(l))->id)
117 
118 #define	_MEQUAL(l1, l2) \
119 	(LCLASS(l1) == LCLASS(l2) && \
120 	(l1)->_comps.c1 == (l2)->_comps.c1 && \
121 	(l1)->_comps.c2 == (l2)->_comps.c2 && \
122 	(l1)->_comps.c3 == (l2)->_comps.c3 && \
123 	(l1)->_comps.c4 == (l2)->_comps.c4 && \
124 	(l1)->_comps.c5 == (l2)->_comps.c5 && \
125 	(l1)->_comps.c6 == (l2)->_comps.c6 && \
126 	(l1)->_comps.c7 == (l2)->_comps.c7 && \
127 	(l1)->_comps.c8 == (l2)->_comps.c8)
128 
129 #define	SUN_INVALID_ID	0	/* uninitialized label */
130 #define	SUN_CMW_ID	0x83	/* 104 - total bytes in CMW Label */
131 #define	SUN_SL_ID	0x41	/* 36 - total bytes in Sensitivity Label */
132 #define	SUN_SL_UN	0xF1	/* undefined Sensitivity Label */
133 #define	SUN_IL_ID	0x42	/* 68 - total bytes in Information Label */
134 #define	SUN_IL_UN	0x73	/* undefined Information Label */
135 #define	SUN_CLR_ID	0x49	/* 36 - total bytes in Clearance */
136 #define	SUN_CLR_UN	0xF9	/* undefined Clearance */
137 
138 #define	_bcl_sl		bcl_sensitivity_label
139 #define	_bcl_il		bcl_information_label
140 #define	_bslev_il	binformation_level
141 
142 #define	_lclass		classification
143 #ifdef	_BIG_ENDIAN
144 #define	LCLASS(slp)	((slp)->_lclass.class_u.class_chunk)
145 #define	LCLASS_SET(slp, l)	((slp)->_lclass.class_u.class_chunk = (l))
146 #else
147 #define	LCLASS(slp)	\
148 	((_Classification)(((slp)->_lclass.class_u.class_ar[0] << 8) | \
149 	(slp)->_lclass.class_u.class_ar[1]))
150 #define	LCLASS_SET(slp, l)	\
151 	((slp)->_lclass.class_u.class_ar[0] = (uint8_t)((l)>> 8), \
152 	(slp)->_lclass.class_u.class_ar[1] = (uint8_t)(l))
153 #endif	/* _BIG_ENDIAN */
154 #define	_comps		compartments
155 
156 #define	_iid		_bslev_il.id
157 #define	_i_c_len		_bslev_il._c_len
158 #define	_iclass		_bslev_il._lclass
159 #ifdef	_BIG_ENDIAN
160 #define	ICLASS(ilp)	((ilp)->_iclass.class_u.class_chunk)
161 #define	ICLASS_SET(ilp, l)	((ilp)->_iclass.class_u.class_chunk = (l))
162 #else
163 #define	ICLASS(ilp)	\
164 	((_Classification)(((ilp)->_iclass.class_u.class_ar[0] << 8) | \
165 	(ilp)->_iclass.class_u.class_ar[1]))
166 #define	ICLASS_SET(ilp, l)	\
167 	((ilp)->_iclass.class_u.class_ar[0] = (uint8_t)((l)>> 8), \
168 	(ilp)->_iclass.class_u.class_ar[1] = (uint8_t)(l))
169 #endif	/* _BIG_ENDIAN */
170 #define	_icomps		_bslev_il._comps
171 #define	_imarks		markings
172 
173 /* Manifest Constant Values */
174 
175 #define	LOW_CLASS	0	/* Admin_Low classification value */
176 #define	HIGH_CLASS	0x7FFF	/* Admin_High classification value */
177 #define	EMPTY_SET	0	/* Empty compartments and markings set */
178 #define	UNIVERSAL_SET	0xFFFFFFFFU	/* Universal compartments and */
179 					/* markings set */
180 
181 /* Construct initial labels */
182 
183 #define	_LOW_LABEL(l, t) \
184 	((l)->id = t, (l)->_c_len = _C_LEN, LCLASS_SET(l, LOW_CLASS), \
185 	(l)->_comps.c1 = (l)->_comps.c2 = (l)->_comps.c3 = (l)->_comps.c4 = \
186 	(l)->_comps.c5 = (l)->_comps.c6 = (l)->_comps.c7 = (l)->_comps.c8 = \
187 	EMPTY_SET)
188 
189 #define	_HIGH_LABEL(l, t) \
190 	((l)->id = t, (l)->_c_len = _C_LEN, LCLASS_SET(l, HIGH_CLASS), \
191 	(l)->_comps.c1 = (l)->_comps.c2 = (l)->_comps.c3 = (l)->_comps.c4 = \
192 	(l)->_comps.c5 = (l)->_comps.c6 = (l)->_comps.c7 = (l)->_comps.c8 = \
193 	UNIVERSAL_SET)
194 
195 /* Macro equivalents */
196 
197 /* Is this memory a properly formatted label of type t? */
198 #define	BLTYPE(l, t) \
199 	((t) == SUN_CMW_ID ? \
200 	(((_bclabel_impl_t *)(l))->_bcl_sl.id == SUN_SL_ID || \
201 	((_bclabel_impl_t *)(l))->_bcl_sl.id == SUN_SL_UN) && \
202 	(((_bclabel_impl_t *)(l))->_bcl_il._iid == SUN_IL_ID || \
203 	((_bclabel_impl_t *)(l))->_bcl_il._iid == SUN_IL_UN) : \
204 	((_mac_label_impl_t *)(l))->id == (t))
205 
206 /* Are the levels of these labels equal? */
207 #define	BLEQUAL(l1, l2) \
208 	_BLEQUAL((_mac_label_impl_t *)(l1), (_mac_label_impl_t *)(l2))
209 
210 #define	_BLEQUAL(l1, l2) \
211 	(LCLASS(l1) == LCLASS(l2) && \
212 	(l1)->_comps.c1 == (l2)->_comps.c1 && \
213 	(l1)->_comps.c2 == (l2)->_comps.c2 && \
214 	(l1)->_comps.c3 == (l2)->_comps.c3 && \
215 	(l1)->_comps.c4 == (l2)->_comps.c4 && \
216 	(l1)->_comps.c5 == (l2)->_comps.c5 && \
217 	(l1)->_comps.c6 == (l2)->_comps.c6 && \
218 	(l1)->_comps.c7 == (l2)->_comps.c7 && \
219 	(l1)->_comps.c8 == (l2)->_comps.c8)
220 
221 /* Does the level of l1 dominate that of l2? */
222 #define	BLDOMINATES(l1, l2) \
223 	_BLDOMINATES((_mac_label_impl_t *)(l1), (_mac_label_impl_t *)(l2))
224 
225 #define	_BLDOMINATES(l1, l2) (LCLASS(l1) >= LCLASS(l2) && \
226 	(l2)->_comps.c1 == ((l1)->_comps.c1 & (l2)->_comps.c1) && \
227 	(l2)->_comps.c2 == ((l1)->_comps.c2 & (l2)->_comps.c2) && \
228 	(l2)->_comps.c3 == ((l1)->_comps.c3 & (l2)->_comps.c3) && \
229 	(l2)->_comps.c4 == ((l1)->_comps.c4 & (l2)->_comps.c4) && \
230 	(l2)->_comps.c5 == ((l1)->_comps.c5 & (l2)->_comps.c5) && \
231 	(l2)->_comps.c6 == ((l1)->_comps.c6 & (l2)->_comps.c6) && \
232 	(l2)->_comps.c7 == ((l1)->_comps.c7 & (l2)->_comps.c7) && \
233 	(l2)->_comps.c8 == ((l1)->_comps.c8 & (l2)->_comps.c8))
234 
235 /* Does the level of l1 strictly dominate that of l2? */
236 #define	BLSTRICTDOM(l1, l2) (!BLEQUAL(l1, l2) && BLDOMINATES(l1, l2))
237 
238 /* Is the level of l within the range r? */
239 #define	BLINRANGE(l, r)\
240 	(BLDOMINATES((l), &((r)->lower_bound)) && \
241 	BLDOMINATES(&((r)->upper_bound), (l)))
242 
243 /* Least Upper Bound level l1 and l2 replacing l1 with the result. */
244 #define	BLMAXIMUM(l1, l2) \
245 	_BLMAXIMUM((_mac_label_impl_t *)(l1), (_mac_label_impl_t *)(l2))
246 
247 #define	_BLMAXIMUM(l1, l2)\
248 	(((l1)->_lclass = (LCLASS(l1) < LCLASS(l2)) ? \
249 	(l2)->_lclass : (l1)->_lclass), \
250 	(l1)->_comps.c1 |= (l2)->_comps.c1, \
251 	(l1)->_comps.c2 |= (l2)->_comps.c2, \
252 	(l1)->_comps.c3 |= (l2)->_comps.c3, \
253 	(l1)->_comps.c4 |= (l2)->_comps.c4, \
254 	(l1)->_comps.c5 |= (l2)->_comps.c5, \
255 	(l1)->_comps.c6 |= (l2)->_comps.c6, \
256 	(l1)->_comps.c7 |= (l2)->_comps.c7, \
257 	(l1)->_comps.c8 |= (l2)->_comps.c8)
258 
259 /* Greatest Lower Bound level l1 and l2 replacing l1 with the result. */
260 #define	BLMINIMUM(l1, l2) \
261 	_BLMINIMUM((_mac_label_impl_t *)(l1), (_mac_label_impl_t *)(l2))
262 
263 #define	_BLMINIMUM(l1, l2)\
264 	(((l1)->_lclass = (LCLASS(l1) > LCLASS(l2)) ? \
265 	(l2)->_lclass : (l1)->_lclass), \
266 	(l1)->_comps.c1 &= (l2)->_comps.c1, \
267 	(l1)->_comps.c2 &= (l2)->_comps.c2, \
268 	(l1)->_comps.c3 &= (l2)->_comps.c3, \
269 	(l1)->_comps.c4 &= (l2)->_comps.c4, \
270 	(l1)->_comps.c5 &= (l2)->_comps.c5, \
271 	(l1)->_comps.c6 &= (l2)->_comps.c6, \
272 	(l1)->_comps.c7 &= (l2)->_comps.c7, \
273 	(l1)->_comps.c8 &= (l2)->_comps.c8)
274 
275 /* Create Manifest Labels */
276 
277 /* Write a System_Low CMW Label into this memory. */
278 #define	BCLLOW(l) (BSLLOW(BCLTOSL(l)), BILLOW(BCLTOIL(l)))
279 
280 /* Write a System_Low Sensitivity Label into this memory. */
281 #define	BSLLOW(l) _BSLLOW((_bslabel_impl_t *)(l))
282 
283 #define	_BSLLOW(l) \
284 	((l)->id = SUN_SL_ID, (l)->_c_len = _C_LEN, LCLASS_SET(l, LOW_CLASS), \
285 	(l)->_comps.c1 = (l)->_comps.c2 = (l)->_comps.c3 = (l)->_comps.c4 = \
286 	(l)->_comps.c5 = (l)->_comps.c6 = (l)->_comps.c7 = (l)->_comps.c8 = \
287 	EMPTY_SET)
288 
289 /* Write a System_High Sensitivity Label into this memory. */
290 #define	BSLHIGH(l) _BSLHIGH((_bslabel_impl_t *)(l))
291 
292 #define	_BSLHIGH(l) \
293 	((l)->id = SUN_SL_ID, (l)->_c_len = _C_LEN, LCLASS_SET(l, HIGH_CLASS), \
294 	(l)->_comps.c1 = (l)->_comps.c2 = (l)->_comps.c3 = (l)->_comps.c4 = \
295 	(l)->_comps.c5 = (l)->_comps.c6 = (l)->_comps.c7 = (l)->_comps.c8 = \
296 	UNIVERSAL_SET)
297 
298 /* Write a System_Low Information Label into this memory. */
299 #define	BILLOW(l) _BILLOW((_bilabel_impl_t *)(l))
300 
301 #define	_BILLOW(l) \
302 	((l)->_iid = SUN_IL_ID, (l)->_i_c_len = _C_LEN, \
303 	ICLASS_SET(l, LOW_CLASS), \
304 	(l)->_icomps.c1 = (l)->_icomps.c2 = (l)->_icomps.c3 = \
305 	(l)->_icomps.c4 = (l)->_icomps.c5 = (l)->_icomps.c6 = \
306 	(l)->_icomps.c7 = (l)->_icomps.c8 = EMPTY_SET, \
307 	(l)->_imarks.m1 = (l)->_imarks.m2 = (l)->_imarks.m3 = \
308 	(l)->_imarks.m4 = (l)->_imarks.m5 = (l)->_imarks.m6 = \
309 	(l)->_imarks.m7 = (l)->_imarks.m8 = EMPTY_SET)
310 
311 
312 /* Write a System_Low Sensitivity Label into this memory. */
313 #define	BCLEARLOW(l) _BCLEARLOW((_bclear_impl_t *)(l))
314 
315 #define	_BCLEARLOW(c) \
316 	((c)->id = SUN_CLR_ID, (c)->_c_len = _C_LEN, \
317 	LCLASS_SET(c, LOW_CLASS), \
318 	(c)->_comps.c1 = (c)->_comps.c2 = (c)->_comps.c3 = (c)->_comps.c4 = \
319 	(c)->_comps.c5 = (c)->_comps.c6 = (c)->_comps.c7 = (c)->_comps.c8 = \
320 	EMPTY_SET)
321 
322 /* Write a System_High Sensitivity Label into this memory. */
323 #define	BCLEARHIGH(l) _BCLEARHIGH((_bclear_impl_t *)(l))
324 
325 #define	_BCLEARHIGH(c) \
326 	((c)->id = SUN_CLR_ID, (c)->_c_len = _C_LEN, \
327 	LCLASS_SET(c, HIGH_CLASS), \
328 	(c)->_comps.c1 = (c)->_comps.c2 = (c)->_comps.c3 = (c)->_comps.c4 = \
329 	(c)->_comps.c5 = (c)->_comps.c6 = (c)->_comps.c7 = (c)->_comps.c8 = \
330 	UNIVERSAL_SET)
331 
332 /* Write an undefined Sensitivity Label into this memory. */
333 #define	BSLUNDEF(l) (((_bslabel_impl_t *)(l))->id = SUN_SL_UN)
334 
335 /* Write an undefined Clearance into this memory. */
336 #define	BCLEARUNDEF(c) (((_bclear_impl_t *)(c))->id = SUN_CLR_UN)
337 
338 /* Retrieve the Sensitivity Label portion of a CMW Label */
339 #define	BCLTOSL(l) ((bslabel_t *)&((_bclabel_impl_t *)(l))->_bcl_sl)
340 
341 /* Retrieve the Information Label portion of a CMW Label */
342 #define	BCLTOIL(l) ((_bilabel_impl_t *)&((_bclabel_impl_t *)(l))->_bcl_il)
343 
344 /* Copy the Sensitivity Label portion from a CMW Label */
345 #define	GETCSL(l1, l2) \
346 	(*((_bslabel_impl_t *)(l1)) = ((_bclabel_impl_t *)(l2))->_bcl_sl)
347 
348 /* Replace the Sensitivity Label portion of a CMW Label */
349 #define	SETCSL(l1, l2) \
350 	(((_bclabel_impl_t *)(l1))->_bcl_sl = *((_bslabel_impl_t *)(l2)))
351 
352 /* Set type of this memory to the label type 't' */
353 #define	SETBLTYPE(l, t) (((_bclabel_impl_t *)(l))->_bcl_sl.id = (t))
354 
355 #define	GETBLTYPE(l)	(((const _bclabel_impl_t *)(l))->_bcl_sl.id)
356 
357 #ifdef	__cplusplus
358 }
359 #endif
360 
361 #endif	/* !_LABEL_MACRO_H */
362