xref: /freebsd/crypto/heimdal/doc/hx509.texi (revision cc426dd31990b8b50b210efc450e404596548ca1)
1\input texinfo @c -*- texinfo -*-
2@c %**start of header
3@c $Id$
4@setfilename hx509.info
5@settitle HX509
6@iftex
7@afourpaper
8@end iftex
9@c some sensible characters, please?
10@tex
11\input latin1.tex
12@end tex
13@setchapternewpage on
14@syncodeindex pg cp
15@c %**end of header
16
17@include vars.texi
18
19@set VERSION @value{PACKAGE_VERSION}
20@set EDITION 1.0
21
22@ifinfo
23@dircategory Security
24@direntry
25* hx509: (hx509).               The X.509 distribution from KTH
26@end direntry
27@end ifinfo
28
29@c title page
30@titlepage
31@title HX509
32@subtitle X.509 distribution from KTH
33@subtitle Edition @value{EDITION}, for version @value{VERSION}
34@subtitle 2008
35@author Love Hörnquist Åstrand
36
37@def@copynext{@vskip 20pt plus 1fil}
38@def@copyrightstart{}
39@def@copyrightend{}
40@page
41@copyrightstart
42Copyright (c) 1994-2008 Kungliga Tekniska Högskolan
43(Royal Institute of Technology, Stockholm, Sweden).
44All rights reserved.
45
46Redistribution and use in source and binary forms, with or without
47modification, are permitted provided that the following conditions
48are met:
49
501. Redistributions of source code must retain the above copyright
51   notice, this list of conditions and the following disclaimer.
52
532. Redistributions in binary form must reproduce the above copyright
54   notice, this list of conditions and the following disclaimer in the
55   documentation and/or other materials provided with the distribution.
56
573. Neither the name of the Institute nor the names of its contributors
58   may be used to endorse or promote products derived from this software
59   without specific prior written permission.
60
61THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
62ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
63IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
64ARE DISCLAIMED.  IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
65FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
66DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
67OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
68HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
69LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
70OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
71SUCH DAMAGE.
72
73@copynext
74
75Copyright (c) 1988, 1990, 1993
76     The Regents of the University of California.  All rights reserved.
77
78Redistribution and use in source and binary forms, with or without
79modification, are permitted provided that the following conditions
80are met:
81
821. Redistributions of source code must retain the above copyright
83   notice, this list of conditions and the following disclaimer.
84
852. Redistributions in binary form must reproduce the above copyright
86   notice, this list of conditions and the following disclaimer in the
87   documentation and/or other materials provided with the distribution.
88
893. Neither the name of the University nor the names of its contributors
90   may be used to endorse or promote products derived from this software
91   without specific prior written permission.
92
93THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
94ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
95IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
96ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
97FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
98DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
99OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
100HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
101LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
102OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
103SUCH DAMAGE.
104
105@copynext
106
107Copyright 1992 Simmule Turner and Rich Salz.  All rights reserved.
108
109This software is not subject to any license of the American Telephone
110and Telegraph Company or of the Regents of the University of California.
111
112Permission is granted to anyone to use this software for any purpose on
113any computer system, and to alter it and redistribute it freely, subject
114to the following restrictions:
115
1161. The authors are not responsible for the consequences of use of this
117   software, no matter how awful, even if they arise from flaws in it.
118
1192. The origin of this software must not be misrepresented, either by
120   explicit claim or by omission.  Since few users ever read sources,
121   credits must appear in the documentation.
122
1233. Altered versions must be plainly marked as such, and must not be
124   misrepresented as being the original software.  Since few users
125   ever read sources, credits must appear in the documentation.
126
1274. This notice may not be removed or altered.
128
129@copynext
130
131IMath is Copyright 2002-2005 Michael J. Fromberger
132You may use it subject to the following Licensing Terms:
133
134Permission is hereby granted, free of charge, to any person obtaining
135a copy of this software and associated documentation files (the
136"Software"), to deal in the Software without restriction, including
137without limitation the rights to use, copy, modify, merge, publish,
138distribute, sublicense, and/or sell copies of the Software, and to
139permit persons to whom the Software is furnished to do so, subject to
140the following conditions:
141
142The above copyright notice and this permission notice shall be
143included in all copies or substantial portions of the Software.
144
145THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
146EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
147MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
148IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
149CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
150TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
151SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
152
153@copyrightend
154@end titlepage
155
156@macro manpage{man, section}
157@cite{\man\(\section\)}
158@end macro
159
160@c Less filling! Tastes great!
161@iftex
162@parindent=0pt
163@global@parskip 6pt plus 1pt
164@global@chapheadingskip = 15pt plus 4pt minus 2pt
165@global@secheadingskip = 12pt plus 3pt minus 2pt
166@global@subsecheadingskip = 9pt plus 2pt minus 2pt
167@end iftex
168@ifinfo
169@paragraphindent 0
170@end ifinfo
171
172@ifnottex
173@node Top, Introduction, (dir), (dir)
174@top Heimdal
175@end ifnottex
176
177This manual is for version @value{VERSION} of hx509.
178
179@menu
180* Introduction::
181* What is X.509 ?::
182* Setting up a CA::
183* CMS signing and encryption::
184* Certificate matching::
185* Software PKCS 11 module::
186
187@detailmenu
188 --- The Detailed Node Listing ---
189
190Setting up a CA
191
192@c * Issuing certificates::
193* Creating a CA certificate::
194* Issuing certificates::
195* Issuing CRLs::
196@c * Issuing a proxy certificate::
197@c * Creating a user certificate::
198@c * Validating a certificate::
199@c * Validating a certificate path::
200* Application requirements::
201
202CMS signing and encryption
203
204* CMS background::
205
206Certificate matching
207
208* Matching syntax::
209
210Software PKCS 11 module
211
212* How to use the PKCS11 module::
213
214@end detailmenu
215@end menu
216
217@node Introduction, What is X.509 ?, Top, Top
218@chapter Introduction
219
220The goals of a PKI infrastructure (as defined in
221<a href="http://www.ietf.org/rfc/rfc3280.txt">RFC 3280</a>) is to meet
222@emph{the needs of deterministic, automated identification, authentication, access control, and authorization}.
223
224
225The administrator should be aware of certain terminologies as explained by the aforementioned
226RFC before attemping to put in place a PKI infrastructure. Briefly, these are:
227
228@itemize @bullet
229@item CA
230Certificate Authority
231@item RA
232Registration Authority, i.e., an optional system to which a CA delegates certain management functions.
233@item CRL Issuer
234An optional system to which a CA delegates the publication of certificate revocation lists.
235@item Repository
236A system or collection of distributed systems that stores certificates and CRLs
237and serves as a means of distributing these certificates and CRLs to end entities
238@end itemize
239
240hx509 (Heimdal x509 support) is a near complete X.509 stack that can
241handle CMS messages (crypto system used in S/MIME and Kerberos PK-INIT)
242and basic certificate processing tasks, path construction, path
243validation, OCSP and CRL validation, PKCS10 message construction, CMS
244Encrypted (shared secret encrypted), CMS SignedData (certificate
245signed), and CMS EnvelopedData (certificate encrypted).
246
247hx509 can use PKCS11 tokens, PKCS12 files, PEM files, and/or DER encoded
248files.
249
250@node What is X.509 ?, Setting up a CA, Introduction, Top
251@chapter What is X.509, PKIX, PKCS7 and CMS ?
252
253X.509 was created by CCITT (later ITU) for the X.500 directory
254service. Today, X.509 discussions and implementations commonly reference
255the IETF's PKIX Certificate and CRL Profile of the X.509 v3 certificate
256standard, as specified in RFC 3280.
257
258ITU continues to develop the X.509 standard together with the IETF in a
259rather complicated dance.
260
261X.509 is a public key based security system that has associated data
262stored within a so called certificate. Initially, X.509 was a strict
263hierarchical system with one root. However, ever evolving requiments and
264technology advancements saw the inclusion of multiple policy roots,
265bridges and mesh solutions.
266
267x.509 can also be used as a peer to peer system, though often seen as a
268common scenario.
269
270@section Type of certificates
271
272There are several flavors of certificate in X.509.
273
274@itemize @bullet
275
276@item Trust anchors
277
278Trust anchors are strictly not certificates, but commonly stored in a
279certificate format as they become easier to manage. Trust anchors are
280the keys that an end entity would trust to validate other certificates.
281This is done by building a path from the certificate you want to
282validate to to any of the trust anchors you have.
283
284@item End Entity (EE) certificates
285
286End entity certificates are the most common types of certificates. End
287entity certificates cannot issue (sign) certificate themselves and are generally
288used to authenticate and authorize users and services.
289
290@item Certification Authority (CA) certificates
291
292Certificate authority certificates have the right to issue additional
293certificates (be it sub-ordinate CA certificates to build an trust anchors
294or end entity certificates). There is no limit to how many certificates a CA
295may issue, but there might other restrictions, like the maximum path
296depth.
297
298@item Proxy certificates
299
300Remember the statement "End Entity certificates cannot issue
301certificates"?  Well that statement is not entirely true. There is an
302extension called proxy certificates defined in RFC3820, that allows
303certificates to be issued by end entity certificates. The service that
304receives the proxy certificates must have explicitly turned on support
305for proxy certificates, so their use is somewhat limited.
306
307Proxy certificates can be limited by policies stored in the certificate to
308what they can be used for. This allows users to delegate the proxy
309certificate to services (by sending over the certificate and private
310key) so the service can access services on behalf of the user.
311
312One example of this would be a print service. The user wants to print a
313large job in the middle of the night when the printer isn't used that
314much, so the user creates a proxy certificate with the policy that it
315can only be used to access files related to this print job, creates the
316print job description and send both the description and proxy
317certificate with key over to print service. Later at night when the
318print service initializes (without any user intervention), access to the files
319for the print job is granted via the proxy certificate. As a result of (in-place)
320policy limitations, the certificate cannot be used for any other purposes.
321
322@end itemize
323
324@section Building a path
325
326Before validating a certificate path (or chain), the path needs to be
327constructed.  Given a certificate (EE, CA, Proxy, or any other type),
328the path construction algorithm will try to find a path to one of the
329trust anchors.
330
331The process starts by looking at the issuing CA of the certificate, by
332Name or Key Identifier, and tries to find that certificate while at the
333same time evaluting any policies in-place.
334
335@node Setting up a CA, Creating a CA certificate, What is X.509 ?, Top
336@chapter Setting up a CA
337
338Do not let information overload scare you off! If you are simply testing
339or getting started with a PKI infrastructure, skip all this and go to
340the next chapter (see: @pxref{Creating a CA certificate}).
341
342Creating a CA certificate should be more the just creating a
343certificate, CA's should define a policy. Again, if you are simply
344testing a PKI, policies do not matter so much. However, when it comes to
345trust in an organisation, it will probably matter more whom your users
346and sysadmins will find it acceptable to trust.
347
348At the same time, try to keep things simple, it's not very hard to run a
349Certificate authority and the process to get new certificates should be simple.
350
351You may find it helpful to answer the following policy questions for
352your organization at a later stage:
353
354@itemize @bullet
355@item How do you trust your CA.
356@item What is the CA responsibility.
357@item Review of CA activity.
358@item How much process should it be to issue certificate.
359@item Who is allowed to issue certificates.
360@item Who is allowed to requests certificates.
361@item How to handle certificate revocation, issuing CRLs and maintain OCSP services.
362@end itemize
363
364@node Creating a CA certificate, Issuing certificates, Setting up a CA, Top
365@section Creating a CA certificate
366
367This section describes how to create a CA certificate and what to think
368about.
369
370@subsection Lifetime CA certificate
371
372You probably want to create a CA certificate with a long lifetime, 10
373years at the very minimum. This is because you don't want to push out the
374certificate (as a trust anchor) to all you users again when the old
375CA certificate expires. Although a trust anchor can't really expire, not all
376software works in accordance with published standards.
377
378Keep in mind the security requirements might be different 10-20 years
379into the future. For example, SHA1 is going to be withdrawn in 2010, so
380make sure you have enough buffering in your choice of digest/hash
381algorithms, signature algorithms and key lengths.
382
383@subsection Create a CA certificate
384
385This command below can be used to generate a self-signed CA certificate.
386
387@example
388hxtool issue-certificate \
389    --self-signed \
390    --issue-ca \
391    --generate-key=rsa \
392    --subject="CN=CertificateAuthority,DC=test,DC=h5l,DC=se" \
393    --lifetime=10years \
394    --certificate="FILE:ca.pem"
395@end example
396
397@subsection Extending the lifetime of a CA certificate
398
399You just realised that your CA certificate is going to expire soon and
400that you need replace it with a new CA. The easiest way to do that
401is to extend the lifetime of your existing CA certificate.
402
403The example below will extend the CA certificate's lifetime by 10 years.
404You should compare this new certificate if it contains all the
405special tweaks as the old certificate had.
406
407@example
408hxtool issue-certificate \
409    --self-signed \
410    --issue-ca \
411    --lifetime="10years" \
412    --template-certificate="FILE:ca.pem" \
413    --template-fields="serialNumber,notBefore,subject,SPKI" \
414    --ca-private-key=FILE:ca.pem \
415    --certificate="FILE:new-ca.pem"
416@end example
417
418@subsection Subordinate CA
419
420This example below creates a new subordinate certificate authority.
421
422@example
423hxtool issue-certificate \
424    --ca-certificate=FILE:ca.pem \
425    --issue-ca \
426    --generate-key=rsa \
427    --subject="CN=CertificateAuthority,DC=dev,DC=test,DC=h5l,DC=se" \
428    --certificate="FILE:dev-ca.pem"
429@end example
430
431
432@node Issuing certificates, Issuing CRLs, Creating a CA certificate, Top
433@section Issuing certificates
434
435First you'll create a CA certificate, after that you have to deal with
436your users and servers and issue certificates to them.
437
438@c I think this section needs a bit of clarity. Can I add a separate
439@c section which explains CSRs as well?
440
441
442@itemize @bullet
443
444@item Do all the work themself
445
446Generate the key for the user. This has the problme that the the CA
447knows the private key of the user. For a paranoid user this might leave
448feeling of disconfort.
449
450@item Have the user do part of the work
451
452Receive PKCS10 certificate requests fromusers. PKCS10 is a request for a
453certificate.  The user may specify what DN they want as well as provide
454a certificate signing request (CSR).  To prove the user have the key,
455the whole request is signed by the private key of the user.
456
457@end itemize
458
459@subsection Name space management
460
461@c The explanation given below is slightly unclear. I will re-read the
462@c RFC and document accordingly
463
464What people might want to see.
465
466Re-issue certificates just because people moved within the organization.
467
468Expose privacy information.
469
470Using Sub-component name (+ notation).
471
472@subsection Certificate Revocation, CRL and OCSP
473
474Certificates that a CA issues may need to be revoked at some stage. As
475an example, an employee leaves the organization and does not bother
476handing in his smart card (or even if the smart card is handed back --
477the certificate on it must no longer be acceptable to services; the
478employee has left).
479
480You may also want to revoke a certificate for a service which is no
481longer being offered on your network. Overlooking these scenarios can
482lead to security holes which will quickly become a nightmare to deal
483with.
484
485There are two primary protocols for dealing with certificate
486revokation. Namely:
487
488@itemize @bullet
489@item Certificate Revocation List (CRL)
490@item Online Certificate Status Protocol (OCSP)
491@end itemize
492
493If however the certificate in qeustion has been destroyed, there is no
494need to revoke the certificate because it can not be used by someone
495else. This matter since for each certificate you add to CRL, the
496download time and processing time for clients are longer.
497
498CRLs and OCSP responders however greatly help manage compatible services
499which may authenticate and authorize users (or services) on an on-going
500basis. As an example, VPN connectivity established via certificates for
501connecting clients would require your VPN software to make use of a CRL
502or an OCSP service to ensure revoked certificates belonging to former
503clients are not allowed access to (formerly subscribed) network
504services.
505
506
507@node Issuing CRLs, Application requirements, Issuing certificates, Top
508@section Issuing CRLs
509
510Create an empty CRL with no certificates revoked. Default expiration
511value is one year from now.
512
513@example
514hxtool crl-sign \
515	--crl-file=crl.der \
516	--signer=FILE:ca.pem
517@end example
518
519Create a CRL with all certificates in the directory
520@file{/path/to/revoked/dir} included in the CRL as revoked.  Also make
521it expire one month from now.
522
523@example
524hxtool crl-sign \
525	--crl-file=crl.der \
526        --signer=FILE:ca.pem \
527	--lifetime='1 month' \
528        DIR:/path/to/revoked/dir
529@end example
530
531@node Application requirements, CMS signing and encryption, Issuing CRLs, Top
532@section Application requirements
533
534Application place different requirements on certificates. This section
535tries to expand what they are and how to use hxtool to generate
536certificates for those services.
537
538@subsection HTTPS - server
539
540@example
541hxtool issue-certificate \
542	  --subject="CN=www.test.h5l.se,DC=test,DC=h5l,DC=se" \
543	  --type="https-server" \
544          --hostname="www.test.h5l.se" \
545          --hostname="www2.test.h5l.se" \
546          ...
547@end example
548
549@subsection HTTPS - client
550
551@example
552hxtool issue-certificate \
553	  --subject="UID=testus,DC=test,DC=h5l,DC=se" \
554	  --type="https-client" \
555          ...
556@end example
557
558@subsection S/MIME - email
559
560There are two things that should be set in S/MIME certificates, one or
561more email addresses and an extended eku usage (EKU), emailProtection.
562
563The email address format used in S/MIME certificates is defined in
564RFC2822, section 3.4.1 and it should be an ``addr-spec''.
565
566There are two ways to specifify email address in certificates. The old
567way is in the subject distinguished name, @emph{this should not be used}. The
568new way is using a Subject Alternative Name (SAN).
569
570Even though the email address is stored in certificates, they don't need
571to be, email reader programs are required to accept certificates that
572doesn't have either of the two methods of storing email in certificates
573-- in which case, the email client will try to protect the user by
574printing the name of the certificate instead.
575
576S/MIME certificate can be used in another special way. They can be
577issued with a NULL subject distinguished name plus the email in SAN,
578this is a valid certificate. This is used when you wont want to share
579more information then you need to.
580
581hx509 issue-certificate supports adding the email SAN to certificate by
582using the --email option, --email also gives an implicit emailProtection
583eku. If you want to create an certificate without an email address, the
584option --type=email will add the emailProtection EKU.
585
586@example
587hxtool issue-certificate \
588	  --subject="UID=testus-email,DC=test,DC=h5l,DC=se" \
589	  --type=email \
590	  --email="testus@@test.h5l.se" \
591          ...
592@end example
593
594An example of an certificate without and subject distinguished name with
595an email address in a SAN.
596
597@example
598hxtool issue-certificate \
599	  --subject="" \
600	  --type=email \
601	  --email="testus@@test.h5l.se" \
602          ...
603@end example
604
605@subsection PK-INIT
606
607A PK-INIT infrastructure allows users and services to pick up kerberos
608credentials (tickets) based on their certificate. This, for example,
609allows users to authenticate to their desktops using smartcards while
610acquiring kerberos tickets in the process.
611
612As an example, an office network which offers centrally controlled
613desktop logins, mail, messaging (xmpp) and openafs would give users
614single sign-on facilities via smartcard based logins.  Once the kerberos
615ticket has been acquired, all kerberized services would immediately
616become accessible based on deployed security policies.
617
618Let's go over the process of initializing a demo PK-INIT framework:
619
620@example
621hxtool issue-certificate \
622        --type="pkinit-kdc" \
623        --pk-init-principal="krbtgt/TEST.H5L.SE@@TEST.H5L.SE" \
624        --hostname=kerberos.test.h5l.se \
625        --ca-certificate="FILE:ca.pem,ca.key" \
626        --generate-key=rsa \
627        --certificate="FILE:kdc.pem" \
628        --subject="cn=kdc"
629@end example
630
631How to create a certificate for a user.
632
633@example
634hxtool issue-certificate \
635        --type="pkinit-client" \
636        --pk-init-principal="user@@TEST.H5L.SE" \
637        --ca-certificate="FILE:ca.pem,ca.key" \
638        --generate-key=rsa \
639        --subject="cn=Test User" \
640        --certificate="FILE:user.pem"
641@end example
642
643The --type field can be specified multiple times. The same certificate
644can hence house extensions for both pkinit-client as well as S/MIME.
645
646To use the PKCS11 module, please see the section:
647@pxref{How to use the PKCS11 module}.
648
649More about how to configure the KDC, see the documentation in the
650Heimdal manual to set up the KDC.
651
652@subsection XMPP/Jabber
653
654The jabber server certificate should have a dNSname that is the same as
655the user entered into the application, not the same as the host name of
656the machine.
657
658@example
659hxtool issue-certificate \
660	  --subject="CN=xmpp1.test.h5l.se,DC=test,DC=h5l,DC=se" \
661          --hostname="xmpp1.test.h5l.se" \
662          --hostname="test.h5l.se" \
663          ...
664@end example
665
666The certificate may also contain a jabber identifier (JID) that, if the
667receiver allows it, authorises the server or client to use that JID.
668
669When storing a JID inside the certificate, both for server and client,
670it's stored inside a UTF8String within an otherName entity inside the
671subjectAltName, using the OID id-on-xmppAddr (1.3.6.1.5.5.7.8.5).
672
673To read more about the requirements, see RFC3920, Extensible Messaging
674and Presence Protocol (XMPP): Core.
675
676hxtool issue-certificate have support to add jid to the certificate
677using the option @kbd{--jid}.
678
679@example
680hxtool issue-certificate \
681	  --subject="CN=Love,DC=test,DC=h5l,DC=se" \
682          --jid="lha@@test.h5l.se" \
683          ...
684@end example
685
686
687@node CMS signing and encryption, CMS background, Application requirements, Top
688@chapter CMS signing and encryption
689
690CMS is the Cryptographic Message System that among other, is used by
691S/MIME (secure email) and Kerberos PK-INIT. It's an extended version of
692the RSA, Inc standard PKCS7.
693
694@node CMS background, Certificate matching, CMS signing and encryption, Top
695@section CMS background
696
697
698@node Certificate matching, Matching syntax, CMS background, Top
699@chapter Certificate matching
700
701To match certificates hx509 have a special query language to match
702certifictes in queries and ACLs.
703
704@node Matching syntax, Software PKCS 11 module, Certificate matching, Top
705@section Matching syntax
706
707This is the language definitions somewhat slopply descriped:
708
709@example
710
711expr = TRUE,
712     FALSE,
713     ! expr,
714     expr AND expr,
715     expr OR expr,
716     ( expr )
717     compare
718
719compare =
720     word == word,
721     word != word,
722     word IN ( word [, word ...])
723     word IN %@{variable.subvariable@}
724
725word =
726     STRING,
727     %@{variable@}
728
729@end example
730
731@node Software PKCS 11 module, How to use the PKCS11 module, Matching syntax, Top
732@chapter Software PKCS 11 module
733
734PKCS11 is a standard created by RSA, Inc to support hardware and
735software encryption modules. It can be used by smartcard to expose the
736crypto primitives inside without exposing the crypto keys.
737
738Hx509 includes a software implementation of PKCS11 that runs within the
739memory space of the process and thus exposes the keys to the
740application.
741
742@node How to use the PKCS11 module, , Software PKCS 11 module, Top
743@section How to use the PKCS11 module
744
745@example
746$ cat > ~/.soft-pkcs11.rc <<EOF
747mycert	cert	User certificate	FILE:/Users/lha/Private/pkinit.pem
748app-fatal	true
749EOF
750$ kinit -C PKCS11:/usr/heimdal/lib/hx509.so lha@@EXAMPLE.ORG
751@end example
752
753
754@c @shortcontents
755@contents
756
757@bye
758