xref: /freebsd/contrib/ntp/util/ntp-keygen.texi (revision f4b37ed0f8b307b1f3f0f630ca725d68f1dff30d)
1\input texinfo    @c -*-texinfo-*-
2@c %**start of header
3@setfilename ntp-keygen.info
4@settitle Ntp-keygen User's Manual
5@include ../sntp/include/version.texi
6@paragraphindent 2
7@c %**end of header
8
9@ifinfo
10This file documents the use of the NTP Project's @code{ntp-keygen}
11program, which generates various keys for @code{ntpd},
12@end ifinfo
13
14@direntry
15* ntp-keygen: (ntp-keygen).                   NTP Key Generation
16@end direntry
17
18@titlepage
19@title NTP Key Generation User's Manual
20@subtitle ntp-keygen, version @value{VERSION}, @value{UPDATED}
21@c @author Max @email{foo@ntp.org}
22@end titlepage
23
24@c @page
25@c @vskip 0pt plus 1filll
26
27@shortcontents
28
29@menu
30* Description::
31* ntp-keygen Invocation::	Invoking ntp-keygen
32* Running the Program::
33* Random Seed File::
34* Cryptographic Data Files::
35@end menu
36
37@node Top, Description, (dir), (dir)
38@top NTP Key Generation Program User Manual
39
40This document describes the use of the NTP Project's @code{ntp-keygen}
41program, that generates cryptographic data files used by the NTPv4
42authentication and identity schemes.
43It can generate message digest keys used in symmetric key cryptography and,
44if the OpenSSL software
45library has been installed, it can generate host keys, sign keys,
46certificates, and identity keys and parameters used by the Autokey
47public key cryptography.
48The message digest keys file is generated in a
49format compatible with NTPv3.
50All other files are in PEM-encoded
51printable ASCII format so they can be embedded as MIME attachments in
52mail to other sites.
53
54This document applies to version @value{VERSION} of @code{ntp-keygen}.
55
56@node Description, Running the Program, Top, Top
57@comment  node-name,  next,  previous,  up
58@section Description
59
60This program generates cryptographic data files used by the NTPv4
61authentication and identity schemes. It can generate message digest
62keys used in symmetric key cryptography and, if the OpenSSL software
63library has been installed, it can generate host keys, sign keys,
64certificates, and identity keys and parameters used by the Autokey
65public key cryptography. The message digest keys file is generated in a
66format compatible with NTPv3. All other files are in PEM-encoded
67printable ASCII format so they can be embedded as MIME attachments in
68mail to other sites.
69
70When used to generate message digest keys, the program produces a file
71containing ten pseudo-random printable ASCII strings suitable for the
72MD5 message digest algorithm included in the distribution.
73If the
74OpenSSL library is installed, it produces an additional ten hex-encoded
75random bit strings suitable for the SHA1 and other message digest
76algorithms.
77The message digest keys file must be distributed and stored
78using secure means beyond the scope of NTP itself.
79Besides the keys
80used for ordinary NTP associations, additional keys can be defined as
81passwords for the ntpq and ntpdc utility programs.
82
83The remaining generated files are compatible with other OpenSSL
84applications and other Public Key Infrastructure (PKI) resources.
85Certificates generated by this program are compatible with extant
86industry practice, although some users might find the interpretation of
87X509v3 extension fields somewhat liberal.
88However, the identity keys
89are probably not compatible with anything other than Autokey.
90
91Some files used by this program are encrypted using a private password.
92The @code{-p} option specifies the password for local encrypted files and the
93@code{-q} option the password for encrypted files sent to remote sites.
94If no password is specified, the host name returned by the Unix
95@code{gethostname()} function, normally the DNS name of the host, is used.
96
97The @kbd{pw} option of the @code{crypto} configuration command
98specifies the read password for previously encrypted local files.
99This must match the local password used by this program.
100If not specified, the host name is used.
101Thus, if files are generated by this program without password,
102they can be read back by ntpd without password, but only on the same
103host.
104
105Normally, encrypted files for each host are generated by that host and
106used only by that host, although exceptions exist as noted later on
107this page.
108The symmetric keys file, normally called @code{ntp.keys}, is
109usually installed in @code{/etc}.
110Other files and links are usually installed
111in @code{/usr/local/etc}, which is normally in a shared filesystem in
112NFS-mounted networks and cannot be changed by shared clients.
113The location of the keys directory can be changed by the keysdir
114configuration command in such cases.
115Normally, this is in @code{/etc}.
116
117This program directs commentary and error messages to the standard
118error stream @code{stderr} and remote files to the standard output stream
119@code{stdout} where they can be piped to other applications or redirected to
120files.
121The names used for generated files and links all begin with the
122string @code{ntpkey} and include the file type,
123generating host and filestamp,
124as described in the @ref{Cryptographic Data Files} section below.
125
126@node Running the Program, Random Seed File, Description, Top
127@comment  node-name,  next,  previous,  up
128@section Running the Program
129
130To test and gain experience with Autokey concepts, log in as root and
131change to the keys directory, usually @code{/usr/local/etc}.
132When run for the
133first time, or if all files with names beginning @code{ntpkey}] have been
134removed, use the @code{ntp-keygen} command without arguments to generate a
135default RSA host key and matching RSA-MD5 certificate with expiration
136date one year hence.
137If run again without options, the program uses the
138existing keys and parameters and generates only a new certificate with
139new expiration date one year hence.
140
141Run the command on as many hosts as necessary.
142Designate one of them as the trusted host (TH) using @code{ntp-keygen}
143with the @code{-T} option and configure
144it to synchronize from reliable Internet servers.
145Then configure the other hosts to synchronize to the TH directly or indirectly.
146A certificate trail is created when Autokey asks the immediately
147ascendant host towards the TH to sign its certificate, which is then
148provided to the immediately descendant host on request.
149All group hosts should have acyclic certificate trails ending on the TH.
150
151The host key is used to encrypt the cookie when required and so must be
152RSA type.
153By default, the host key is also the sign key used to encrypt signatures.
154A different sign key can be assigned using the @code{-S} option
155and this can be either RSA or DSA type.
156By default, the signature
157message digest type is MD5, but any combination of sign key type and
158message digest type supported by the OpenSSL library can be specified
159using the @code{-c} option.
160
161The rules say cryptographic media should be generated with proventic
162filestamps, which means the host should already be synchronized before
163this program is run.
164This of course creates a chicken-and-egg problem
165when the host is started for the first time.
166Accordingly, the host time
167should be set by some other means, such as eyeball-and-wristwatch, at
168least so that the certificate lifetime is within the current year.
169After that and when the host is synchronized to a proventic source, the
170certificate should be re-generated.
171
172Additional information on trusted groups and identity schemes is on the
173Autokey Public-Key Authentication page.
174
175@include invoke-ntp-keygen.texi
176
177@node Random Seed File, Cryptographic Data Files, Running the Program, Top
178@comment  node-name,  next,  previous,  up
179@section Random Seed File
180
181All cryptographically sound key generation schemes must have means to
182randomize the entropy seed used to initialize the internal
183pseudo-random number generator used by the OpenSSL library routines.
184If a site supports ssh, it is very likely that means to do this are
185already available.
186The entropy seed used by the OpenSSL library is contained in a file,
187usually called @code{.rnd}, which must be available when
188starting the @code{ntp-keygen} program or @code{ntpd} daemon.
189
190The OpenSSL library looks for the file using the path specified by the
191@code{RANDFILE} environment variable in the user home directory, whether root
192or some other user.
193If the @code{RANDFILE} environment variable is not
194present, the library looks for the @code{.rnd} file in the user home
195directory.
196Since both the @code{ntp-keygen} program and @code{ntpd} daemon must run
197as root, the logical place to put this file is in @code{/.rnd} or
198@code{/root/.rnd}.
199If the file is not available or cannot be written, the program exits
200with a message to the system log.
201
202@node Cryptographic Data Files,  , Random Seed File, Top
203@comment  node-name,  next,  previous,  up
204@section Cryptographic Data Files
205
206File and link names are in the @code{form ntpkey_key_name.fstamp},
207where @code{key} is the key or parameter type,
208@code{name} is the host or group name and
209@code{fstamp} is the filestamp (NTP seconds) when the file was created).
210By convention, key names in generated file names include both upper and
211lower case characters, while key names in generated link names include
212only lower case characters. The filestamp is not used in generated link
213names.
214
215The key name is a string defining the cryptographic key type.
216Key types include public/private keys host and sign, certificate cert
217and several challenge/response key types.
218By convention, client files used for
219challenges have a par subtype, as in the IFF challenge IFFpar, while
220server files for responses have a key subtype, as in the GQ response
221GQkey.
222
223All files begin with two nonencrypted lines. The first line contains
224the file name in the format @code{ntpkey_key_host.fstamp}.
225The second line contains the datestamp in conventional Unix date format.
226Lines beginning with @code{#} are ignored.
227
228The remainder of the file contains cryptographic data encoded first
229using ASN.1 rules, then encrypted using the DES-CBC algorithm with
230given password and finally written in PEM-encoded printable ASCII text
231preceded and followed by MIME content identifier lines.
232
233The format of the symmetric keys file, ordinarily named @code{ntp.keys},
234is somewhat different than the other files in the interest of backward
235compatibility.
236Ordinarily, the file is generated by this program, but
237it can be constructed and edited using an ordinary text editor.
238
239@example
240# ntpkey_MD5key_hms.local.3564038757
241# Sun Dec  9 02:45:57 2012
242
243 1 MD5 "]!ghT%O;3)WJ,/Nc:>I  # MD5 key
244 2 MD5 lu+H^tF46BKR-6~p{V_5  # MD5 key
245 3 MD5 :lnoVsE%Y}z*avh%EtNC  # MD5 key
246 4 MD5 |fdZrf0sF~@PHZ;w-i^V  # MD5 key
247 5 MD5 IyAG>O"}y"LmCRS!*bHC  # MD5 key
248 6 MD5 ">e\A@>hT/661ri52,,H  # MD5 key
249 7 MD5 c9x=M'CfLxax9v)PV-si  # MD5 key
250 8 MD5 E|=jvFVov?Bn|Ev=&aK\  # MD5 key
251 9 MD5 T!c4UT&`(m$+m+B6,`Q0  # MD5 key
25210 MD5 JVF/1=)=IFbHbJQz..Cd  # MD5 key
25311 SHA1 6dea311109529e436c2b4fccae9bc753c16d1b48  # SHA1 key
25412 SHA1 7076f373d86c4848c59ff8046e49cb7d614ec394  # SHA1 key
25513 SHA1 5f48b1b60591eb01b7cf1d33b7774f08d20262d3  # SHA1 key
25614 SHA1 eed5ab9d9497319ec60cf3781d52607e76720178  # SHA1 key
25715 SHA1 f283562611a04c964da8126296f5f8e58c3f85de  # SHA1 key
25816 SHA1 1930da171297dd63549af50b29449de17dcf341f  # SHA1 key
25917 SHA1 fee892110358cd4382322b889869e750db8e8a8f  # SHA1 key
26018 SHA1 b5520c9fadd7ad3fd8bfa061c8821b65d029bb37  # SHA1 key
26119 SHA1 8c74fb440ec80f453ec6aaa62b9baed0ab723b92  # SHA1 key
26220 SHA1 6bc05f734306a189326000970c19b3910f403795  # SHA1 key
263@end example
264
265                  Figure 1. Typical Symmetric Key File
266
267Figure 1 shows a typical symmetric keys file used by the reference
268implementation.
269Each line of the file contains three fields, first an
270integer between 1 and 65534, inclusive, representing the key identifier
271used in the server and peer configuration commands.
272Next is the key type for the message digest algorithm,
273which in the absence of the
274OpenSSL library must be MD5 to designate the MD5 message digest
275algorithm.
276If the OpenSSL library is installed, the key type can be any
277message digest algorithm supported by that library.
278However, if
279compatibility with FIPS 140-2 is required, the key type must be either
280SHA or SHA1.
281The key type can be changed using an ASCII text editor.
282
283An MD5 key consists of a printable ASCII string less than or equal to
28416 characters and terminated by whitespace or a # character.
285An OpenSSL
286key consists of a hex-encoded ASCII string of 40 characters, which is
287truncated as necessary.
288
289Note that the keys used by the @code{ntpq} and @code{ntpdc} programs are
290checked against passwords requested by the programs and entered by hand,
291so it
292is generally appropriate to specify these keys in human readable ASCII
293format.
294
295The @code{ntp-keygen} program generates a MD5 symmetric keys file
296@code{ntpkey_MD5key_hostname.filestamp}.
297Since the file contains private
298shared keys, it should be visible only to root and distributed by
299secure means to other subnet hosts.
300The NTP daemon loads the file @code{ntp.keys}, so @code{ntp-keygen}
301installs a soft link from this name to the generated file.
302Subsequently, similar soft links must be installed by
303manual or automated means on the other subnet hosts.
304While this file is
305not used with the Autokey Version 2 protocol, it is needed to
306authenticate some remote configuration commands used by the @code{ntpq} and
307@code{ntpdc} utilities.
308