xref: /freebsd/share/man/man9/mac.9 (revision 0b3105a37d7adcadcb720112fed4dc4e8040be99)
1.\"-
2.\" Copyright (c) 1999-2002 Robert N. M. Watson
3.\" Copyright (c) 2002-2004 Networks Associates Technology, Inc.
4.\" All rights reserved.
5.\"
6.\" This software was developed by Robert Watson for the TrustedBSD Project.
7.\"
8.\" This software was developed for the FreeBSD Project in part by Network
9.\" Associates Laboratories, the Security Research Division of Network
10.\" Associates, Inc. under DARPA/SPAWAR contract N66001-01-C-8035
11.\" ("CBOSS"), as part of the DARPA CHATS research program.
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34.\" $FreeBSD$
35.\"
36.Dd July 25, 2015
37.Dt MAC 9
38.Os
39.Sh NAME
40.Nm mac
41.Nd TrustedBSD Mandatory Access Control framework
42.Sh SYNOPSIS
43.In sys/types.h
44.In sys/mac.h
45.Pp
46In the kernel configuration file:
47.Cd "options MAC"
48.Cd "options MAC_DEBUG"
49.Sh DESCRIPTION
50.Ss Introduction
51The
52.Tn TrustedBSD
53mandatory access control framework permits dynamically
54introduced system security modules to modify system security functionality.
55This can be used to support a variety of new security services, including
56traditional labeled mandatory access control models.
57The framework provides a series of entry points which must be called by
58code supporting various kernel services, especially with respects to access
59control points and object creation.
60The framework then calls out to security modules to offer them the
61opportunity to modify security behavior at those MAC API entry points.
62Both consumers of the API (normal kernel services) and security modules
63must be aware of the semantics of the API calls, particularly with respect
64to synchronization primitives (such as locking).
65.Ss Kernel Objects Supported by the Framework
66The MAC framework manages labels on a variety of types of in-kernel
67objects, including process credentials, vnodes, devfs_dirents, mount
68points, sockets, mbufs, bpf descriptors, network interfaces, IP fragment
69queues, and pipes.
70Label data on kernel objects, represented by
71.Vt "struct label" ,
72is policy-unaware, and may be used in the manner seen fit by policy modules.
73.Ss API for Consumers
74The MAC API provides a large set of entry points, too broad to specifically
75document here.
76In general, these entry points represent an access control check or other
77MAC-relevant operations, accept one or more subjects (credentials)
78authorizing the activity, a set of objects on which the operation
79is to be performed, and a set of operation arguments providing information
80about the type of operation being requested.
81.Ss Locking for Consumers
82Consumers of the MAC API must be aware of the locking requirements for
83each API entry point: generally, appropriate locks must be held over each
84subject or object being passed into the call, so that MAC modules may
85make use of various aspects of the object for access control purposes.
86For example, vnode locks are frequently required in order that the MAC
87framework and modules may retrieve security labels and attributes from the
88vnodes for the purposes of access control.
89Similarly, the caller must be aware of the reference counting semantics
90of any subject or object passed into the MAC API: all calls require that
91a valid reference to the object be held for the duration of the
92(potentially lengthy) MAC API call.
93Under some circumstances, objects must be held in either a shared or
94exclusive manner.
95.Ss API for Module Writers
96Each module exports a structure describing the MAC API operations that
97the module chooses to implement, including initialization and destruction
98API entry points, a variety of object creation and destruction calls,
99and a large set of access control check points.
100In the future, additional audit entry points will also be present.
101Module authors may choose to only implement a subset of the entry points,
102setting API function pointers in the description structure to
103.Dv NULL ,
104permitting the framework to avoid calling into the module.
105.Ss Locking for Module Writers
106Module writers must be aware of the locking semantics of entry points
107that they implement: MAC API entry points will have specific locking
108or reference counting semantics for each argument, and modules must follow
109the locking and reference counting protocol or risk a variety of failure
110modes (including race conditions, inappropriate pointer dereferences,
111etc).
112.Pp
113MAC module writers must also be aware that MAC API entry points will
114frequently be invoked from deep in a kernel stack, and as such must be
115careful to avoid violating more global locking requirements, such as
116global lock order requirements.
117For example, it may be inappropriate to lock additional objects not
118specifically maintained and ordered by the policy module, or the
119policy module might violate a global ordering requirement relating
120to those additional objects.
121.Pp
122Finally, MAC API module implementors must be careful to avoid
123inappropriately calling back into the MAC framework: the framework
124makes use of locking to prevent inconsistencies during policy module
125attachment and detachment.
126MAC API modules should avoid producing scenarios in which deadlocks
127or inconsistencies might occur.
128.Ss Adding New MAC Entry Points
129The MAC API is intended to be easily expandable as new services are
130added to the kernel.
131In order that policies may be guaranteed the opportunity to ubiquitously
132protect system subjects and objects, it is important that kernel
133developers maintain awareness of when security checks or relevant
134subject or object operations occur in newly written or modified kernel
135code.
136New entry points must be carefully documented so as to prevent any
137confusion regarding lock orders and semantics.
138Introducing new entry points requires four distinct pieces of work:
139introducing new MAC API entries reflecting the operation arguments,
140scattering these MAC API entry points throughout the new or modified
141kernel service, extending the front-end implementation of the MAC API
142framework, and modifying appropriate modules to take advantage of
143the new entry points so that they may consistently enforce their
144policies.
145.Sh ENTRY POINTS
146System service and module authors should reference the
147.%T "FreeBSD Architecture Handbook"
148for information on the MAC Framework APIs.
149.Sh SEE ALSO
150.Xr acl 3 ,
151.Xr mac 3 ,
152.Xr posix1e 3 ,
153.Xr mac_biba 4 ,
154.Xr mac_bsdextended 4 ,
155.Xr mac_ifoff 4 ,
156.Xr mac_lomac 4 ,
157.Xr mac_mls 4 ,
158.Xr mac_none 4 ,
159.Xr mac_partition 4 ,
160.Xr mac_seeotheruids 4 ,
161.Xr mac_test 4 ,
162.Xr ucred 9 ,
163.Xr vaccess 9 ,
164.Xr vaccess_acl_posix1e 9 ,
165.Xr VFS 9
166.Rs
167.%T "The FreeBSD Architecture Handbook"
168.%U "http://www.FreeBSD.org/doc/en_US.ISO8859-1/books/arch-handbook/"
169.Re
170.Sh HISTORY
171The
172.Tn TrustedBSD
173MAC Framework first appeared in
174.Fx 5.0 .
175.Sh AUTHORS
176This manual page was written by
177.An Robert Watson .
178This software was contributed to the
179.Fx
180Project by Network Associates Laboratories, the Security Research
181Division of Network Associates Inc.\& under DARPA/SPAWAR contract
182N66001-01-C-8035
183.Pq Dq CBOSS ,
184as part of the DARPA CHATS research program.
185.Pp
186.An -nosplit
187The
188.Tn TrustedBSD
189MAC Framework was designed by
190.An Robert Watson ,
191and implemented by the Network Associates Laboratories Network Security
192(NETSEC), Secure Execution Environment (SEE), and Adaptive
193Network Defense research groups.
194Network Associates Laboratory staff contributing to the CBOSS Project
195include (in alphabetical order):
196.An Lee Badger ,
197.An Brian Feldman ,
198.An Hrishikesh Dandekar ,
199.An Tim Fraser ,
200.An Doug Kilpatrick ,
201.An Suresh Krishnaswamy ,
202.An Adam Migus ,
203.An Wayne Morrison ,
204.An Andrew Reisse ,
205.An Chris Vance ,
206and
207.An Robert Watson .
208.Pp
209Sub-contracted staff include:
210.An Chris Costello ,
211.An Poul-Henning Kamp ,
212.An Jonathan Lemon ,
213.An Kirk McKusick ,
214.An Dag-Erling Sm\(/orgrav .
215.Pp
216Additional contributors include:
217.An Pawel Dawidek ,
218.An Chris Faulhaber ,
219.An Ilmar Habibulin ,
220.An Mike Halderman ,
221.An Bosko Milekic ,
222.An Thomas Moestl ,
223.An Andrew Reiter ,
224and
225.An Tim Robbins .
226.Sh BUGS
227While the MAC Framework design is intended to support the containment of
228the root user, not all attack channels are currently protected by entry
229point checks.
230As such, MAC Framework policies should not be relied on, in isolation,
231to protect against a malicious privileged user.
232