/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _LABEL_MACRO_H #define _LABEL_MACRO_H #include /* PRIVATE ONLY TO THE LABEL LIBRARY. DO NOT USE ELSEWHERE */ /* Actual Binary Label Structure Definitions */ typedef int16_t _Classification; typedef struct { union { uint8_t class_ar[2]; _Classification class_chunk; } class_u; } Classification_t; typedef struct { uint32_t c1; uint32_t c2; uint32_t c3; uint32_t c4; uint32_t c5; uint32_t c6; uint32_t c7; uint32_t c8; } Compartments_t; typedef struct { uint32_t m1; uint32_t m2; uint32_t m3; uint32_t m4; uint32_t m5; uint32_t m6; uint32_t m7; uint32_t m8; } Markings_t; typedef struct _mac_label_impl { uint8_t id; /* Magic to say label type */ uint8_t _c_len; /* Number of Compartment words */ Classification_t classification; Compartments_t compartments; } _mac_label_impl_t; typedef _mac_label_impl_t _blevel_impl_t, /* compatibility */ _bslabel_impl_t, /* Sensitivity Label */ _bclear_impl_t; /* Clearance */ typedef struct _binary_information_label_impl { /* Information Label */ _mac_label_impl_t binformation_level; Markings_t markings; } _bilabel_impl_t; typedef struct _binary_cmw_label_impl { /* CMW Label */ _bslabel_impl_t bcl_sensitivity_label; _bilabel_impl_t bcl_information_label; } _bclabel_impl_t; typedef struct _binary_level_range_impl { /* Level Range */ _mac_label_impl_t lower_bound; _mac_label_impl_t upper_bound; } _brange_impl_t, brange_t; #define NMLP_MAX 0x10 #define NSLS_MAX 0x4 typedef _mac_label_impl_t blset_t[NSLS_MAX]; /* Label Identifier Types */ #define SUN_MAC_ID 0x41 /* MAC label, legacy SUN_SL_ID */ #define SUN_UCLR_ID 0x49 /* User Clearance, legacy SUN_CLR_ID */ #define _C_LEN 8 /* number of compartments words */ /* m_label_t macros */ #define _MTYPE(l, t) \ (((_mac_label_impl_t *)(l))->id == (t)) #define _MSETTYPE(l, t) \ (((_mac_label_impl_t *)(l))->id = (t)) #define _MGETTYPE(l) (((_mac_label_impl_t *)(l))->id) #define _MEQUAL(l1, l2) \ (LCLASS(l1) == LCLASS(l2) && \ (l1)->_comps.c1 == (l2)->_comps.c1 && \ (l1)->_comps.c2 == (l2)->_comps.c2 && \ (l1)->_comps.c3 == (l2)->_comps.c3 && \ (l1)->_comps.c4 == (l2)->_comps.c4 && \ (l1)->_comps.c5 == (l2)->_comps.c5 && \ (l1)->_comps.c6 == (l2)->_comps.c6 && \ (l1)->_comps.c7 == (l2)->_comps.c7 && \ (l1)->_comps.c8 == (l2)->_comps.c8) #define SUN_INVALID_ID 0 /* uninitialized label */ #define SUN_CMW_ID 0x83 /* 104 - total bytes in CMW Label */ #define SUN_SL_ID 0x41 /* 36 - total bytes in Sensitivity Label */ #define SUN_SL_UN 0xF1 /* undefined Sensitivity Label */ #define SUN_IL_ID 0x42 /* 68 - total bytes in Information Label */ #define SUN_IL_UN 0x73 /* undefined Information Label */ #define SUN_CLR_ID 0x49 /* 36 - total bytes in Clearance */ #define SUN_CLR_UN 0xF9 /* undefined Clearance */ #define _bcl_sl bcl_sensitivity_label #define _bcl_il bcl_information_label #define _bslev_il binformation_level #define _lclass classification #ifdef _BIG_ENDIAN #define LCLASS(slp) ((slp)->_lclass.class_u.class_chunk) #define LCLASS_SET(slp, l) ((slp)->_lclass.class_u.class_chunk = (l)) #else #define LCLASS(slp) \ ((_Classification)(((slp)->_lclass.class_u.class_ar[0] << 8) | \ (slp)->_lclass.class_u.class_ar[1])) #define LCLASS_SET(slp, l) \ ((slp)->_lclass.class_u.class_ar[0] = (uint8_t)((l)>> 8), \ (slp)->_lclass.class_u.class_ar[1] = (uint8_t)(l)) #endif /* _BIG_ENDIAN */ #define _comps compartments #define _iid _bslev_il.id #define _i_c_len _bslev_il._c_len #define _iclass _bslev_il._lclass #ifdef _BIG_ENDIAN #define ICLASS(ilp) ((ilp)->_iclass.class_u.class_chunk) #define ICLASS_SET(ilp, l) ((ilp)->_iclass.class_u.class_chunk = (l)) #else #define ICLASS(ilp) \ ((_Classification)(((ilp)->_iclass.class_u.class_ar[0] << 8) | \ (ilp)->_iclass.class_u.class_ar[1])) #define ICLASS_SET(ilp, l) \ ((ilp)->_iclass.class_u.class_ar[0] = (uint8_t)((l)>> 8), \ (ilp)->_iclass.class_u.class_ar[1] = (uint8_t)(l)) #endif /* _BIG_ENDIAN */ #define _icomps _bslev_il._comps #define _imarks markings /* Manifest Constant Values */ #define LOW_CLASS 0 /* Admin_Low classification value */ #define HIGH_CLASS 0x7FFF /* Admin_High classification value */ #define EMPTY_SET 0 /* Empty compartments and markings set */ #define UNIVERSAL_SET 0xFFFFFFFFU /* Universal compartments and */ /* markings set */ /* Construct initial labels */ #define _LOW_LABEL(l, t) \ ((l)->id = t, (l)->_c_len = _C_LEN, LCLASS_SET(l, LOW_CLASS), \ (l)->_comps.c1 = (l)->_comps.c2 = (l)->_comps.c3 = (l)->_comps.c4 = \ (l)->_comps.c5 = (l)->_comps.c6 = (l)->_comps.c7 = (l)->_comps.c8 = \ EMPTY_SET) #define _HIGH_LABEL(l, t) \ ((l)->id = t, (l)->_c_len = _C_LEN, LCLASS_SET(l, HIGH_CLASS), \ (l)->_comps.c1 = (l)->_comps.c2 = (l)->_comps.c3 = (l)->_comps.c4 = \ (l)->_comps.c5 = (l)->_comps.c6 = (l)->_comps.c7 = (l)->_comps.c8 = \ UNIVERSAL_SET) /* Macro equivalents */ /* Is this memory a properly formatted label of type t? */ #define BLTYPE(l, t) \ ((t) == SUN_CMW_ID ? \ (((_bclabel_impl_t *)(l))->_bcl_sl.id == SUN_SL_ID || \ ((_bclabel_impl_t *)(l))->_bcl_sl.id == SUN_SL_UN) && \ (((_bclabel_impl_t *)(l))->_bcl_il._iid == SUN_IL_ID || \ ((_bclabel_impl_t *)(l))->_bcl_il._iid == SUN_IL_UN) : \ ((_mac_label_impl_t *)(l))->id == (t)) /* Are the levels of these labels equal? */ #define BLEQUAL(l1, l2) \ _BLEQUAL((_mac_label_impl_t *)(l1), (_mac_label_impl_t *)(l2)) #define _BLEQUAL(l1, l2) \ (LCLASS(l1) == LCLASS(l2) && \ (l1)->_comps.c1 == (l2)->_comps.c1 && \ (l1)->_comps.c2 == (l2)->_comps.c2 && \ (l1)->_comps.c3 == (l2)->_comps.c3 && \ (l1)->_comps.c4 == (l2)->_comps.c4 && \ (l1)->_comps.c5 == (l2)->_comps.c5 && \ (l1)->_comps.c6 == (l2)->_comps.c6 && \ (l1)->_comps.c7 == (l2)->_comps.c7 && \ (l1)->_comps.c8 == (l2)->_comps.c8) /* Does the level of l1 dominate that of l2? */ #define BLDOMINATES(l1, l2) \ _BLDOMINATES((_mac_label_impl_t *)(l1), (_mac_label_impl_t *)(l2)) #define _BLDOMINATES(l1, l2) (LCLASS(l1) >= LCLASS(l2) && \ (l2)->_comps.c1 == ((l1)->_comps.c1 & (l2)->_comps.c1) && \ (l2)->_comps.c2 == ((l1)->_comps.c2 & (l2)->_comps.c2) && \ (l2)->_comps.c3 == ((l1)->_comps.c3 & (l2)->_comps.c3) && \ (l2)->_comps.c4 == ((l1)->_comps.c4 & (l2)->_comps.c4) && \ (l2)->_comps.c5 == ((l1)->_comps.c5 & (l2)->_comps.c5) && \ (l2)->_comps.c6 == ((l1)->_comps.c6 & (l2)->_comps.c6) && \ (l2)->_comps.c7 == ((l1)->_comps.c7 & (l2)->_comps.c7) && \ (l2)->_comps.c8 == ((l1)->_comps.c8 & (l2)->_comps.c8)) /* Does the level of l1 strictly dominate that of l2? */ #define BLSTRICTDOM(l1, l2) (!BLEQUAL(l1, l2) && BLDOMINATES(l1, l2)) /* Is the level of l within the range r? */ #define BLINRANGE(l, r)\ (BLDOMINATES((l), &((r)->lower_bound)) && \ BLDOMINATES(&((r)->upper_bound), (l))) /* Least Upper Bound level l1 and l2 replacing l1 with the result. */ #define BLMAXIMUM(l1, l2) \ _BLMAXIMUM((_mac_label_impl_t *)(l1), (_mac_label_impl_t *)(l2)) #define _BLMAXIMUM(l1, l2)\ (((l1)->_lclass = (LCLASS(l1) < LCLASS(l2)) ? \ (l2)->_lclass : (l1)->_lclass), \ (l1)->_comps.c1 |= (l2)->_comps.c1, \ (l1)->_comps.c2 |= (l2)->_comps.c2, \ (l1)->_comps.c3 |= (l2)->_comps.c3, \ (l1)->_comps.c4 |= (l2)->_comps.c4, \ (l1)->_comps.c5 |= (l2)->_comps.c5, \ (l1)->_comps.c6 |= (l2)->_comps.c6, \ (l1)->_comps.c7 |= (l2)->_comps.c7, \ (l1)->_comps.c8 |= (l2)->_comps.c8) /* Greatest Lower Bound level l1 and l2 replacing l1 with the result. */ #define BLMINIMUM(l1, l2) \ _BLMINIMUM((_mac_label_impl_t *)(l1), (_mac_label_impl_t *)(l2)) #define _BLMINIMUM(l1, l2)\ (((l1)->_lclass = (LCLASS(l1) > LCLASS(l2)) ? \ (l2)->_lclass : (l1)->_lclass), \ (l1)->_comps.c1 &= (l2)->_comps.c1, \ (l1)->_comps.c2 &= (l2)->_comps.c2, \ (l1)->_comps.c3 &= (l2)->_comps.c3, \ (l1)->_comps.c4 &= (l2)->_comps.c4, \ (l1)->_comps.c5 &= (l2)->_comps.c5, \ (l1)->_comps.c6 &= (l2)->_comps.c6, \ (l1)->_comps.c7 &= (l2)->_comps.c7, \ (l1)->_comps.c8 &= (l2)->_comps.c8) /* Create Manifest Labels */ /* Write a System_Low CMW Label into this memory. */ #define BCLLOW(l) (BSLLOW(BCLTOSL(l)), BILLOW(BCLTOIL(l))) /* Write a System_Low Sensitivity Label into this memory. */ #define BSLLOW(l) _BSLLOW((_bslabel_impl_t *)(l)) #define _BSLLOW(l) \ ((l)->id = SUN_SL_ID, (l)->_c_len = _C_LEN, LCLASS_SET(l, LOW_CLASS), \ (l)->_comps.c1 = (l)->_comps.c2 = (l)->_comps.c3 = (l)->_comps.c4 = \ (l)->_comps.c5 = (l)->_comps.c6 = (l)->_comps.c7 = (l)->_comps.c8 = \ EMPTY_SET) /* Write a System_High Sensitivity Label into this memory. */ #define BSLHIGH(l) _BSLHIGH((_bslabel_impl_t *)(l)) #define _BSLHIGH(l) \ ((l)->id = SUN_SL_ID, (l)->_c_len = _C_LEN, LCLASS_SET(l, HIGH_CLASS), \ (l)->_comps.c1 = (l)->_comps.c2 = (l)->_comps.c3 = (l)->_comps.c4 = \ (l)->_comps.c5 = (l)->_comps.c6 = (l)->_comps.c7 = (l)->_comps.c8 = \ UNIVERSAL_SET) /* Write a System_Low Information Label into this memory. */ #define BILLOW(l) _BILLOW((_bilabel_impl_t *)(l)) #define _BILLOW(l) \ ((l)->_iid = SUN_IL_ID, (l)->_i_c_len = _C_LEN, \ ICLASS_SET(l, LOW_CLASS), \ (l)->_icomps.c1 = (l)->_icomps.c2 = (l)->_icomps.c3 = \ (l)->_icomps.c4 = (l)->_icomps.c5 = (l)->_icomps.c6 = \ (l)->_icomps.c7 = (l)->_icomps.c8 = EMPTY_SET, \ (l)->_imarks.m1 = (l)->_imarks.m2 = (l)->_imarks.m3 = \ (l)->_imarks.m4 = (l)->_imarks.m5 = (l)->_imarks.m6 = \ (l)->_imarks.m7 = (l)->_imarks.m8 = EMPTY_SET) /* Write a System_Low Sensitivity Label into this memory. */ #define BCLEARLOW(l) _BCLEARLOW((_bclear_impl_t *)(l)) #define _BCLEARLOW(c) \ ((c)->id = SUN_CLR_ID, (c)->_c_len = _C_LEN, \ LCLASS_SET(c, LOW_CLASS), \ (c)->_comps.c1 = (c)->_comps.c2 = (c)->_comps.c3 = (c)->_comps.c4 = \ (c)->_comps.c5 = (c)->_comps.c6 = (c)->_comps.c7 = (c)->_comps.c8 = \ EMPTY_SET) /* Write a System_High Sensitivity Label into this memory. */ #define BCLEARHIGH(l) _BCLEARHIGH((_bclear_impl_t *)(l)) #define _BCLEARHIGH(c) \ ((c)->id = SUN_CLR_ID, (c)->_c_len = _C_LEN, \ LCLASS_SET(c, HIGH_CLASS), \ (c)->_comps.c1 = (c)->_comps.c2 = (c)->_comps.c3 = (c)->_comps.c4 = \ (c)->_comps.c5 = (c)->_comps.c6 = (c)->_comps.c7 = (c)->_comps.c8 = \ UNIVERSAL_SET) /* Write an undefined Sensitivity Label into this memory. */ #define BSLUNDEF(l) (((_bslabel_impl_t *)(l))->id = SUN_SL_UN) /* Write an undefined Clearance into this memory. */ #define BCLEARUNDEF(c) (((_bclear_impl_t *)(c))->id = SUN_CLR_UN) /* Retrieve the Sensitivity Label portion of a CMW Label */ #define BCLTOSL(l) ((bslabel_t *)&((_bclabel_impl_t *)(l))->_bcl_sl) /* Retrieve the Information Label portion of a CMW Label */ #define BCLTOIL(l) ((_bilabel_impl_t *)&((_bclabel_impl_t *)(l))->_bcl_il) /* Copy the Sensitivity Label portion from a CMW Label */ #define GETCSL(l1, l2) \ (*((_bslabel_impl_t *)(l1)) = ((_bclabel_impl_t *)(l2))->_bcl_sl) /* Replace the Sensitivity Label portion of a CMW Label */ #define SETCSL(l1, l2) \ (((_bclabel_impl_t *)(l1))->_bcl_sl = *((_bslabel_impl_t *)(l2))) /* Set type of this memory to the label type 't' */ #define SETBLTYPE(l, t) (((_bclabel_impl_t *)(l))->_bcl_sl.id = (t)) #define GETBLTYPE(l) (((const _bclabel_impl_t *)(l))->_bcl_sl.id) #endif /* !_LABEL_MACRO_H */