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10    <h3><tt>ntp-keygen</tt> - generate public and private keys</h3>
11    <p><img src="pic/alice23.gif" alt="gif" align="left"><a href="http://www.eecis.udel.edu/%7emills/pictures.html">from <i>Alice's Adventures in Wonderland</i>, Lewis Carroll</a></p>
12    <p>Alice holds the key.</p>
13    <p>Last update:
14      <!-- #BeginDate format:En2m -->24-Jul-2018  07:27<!-- #EndDate -->
15      UTC</p>
16    <br clear="left">
17    <h4>Related Links</h4>
18    <script type="text/javascript" language="javascript" src="scripts/manual.txt"></script>
19    <h4>Table of Contents</h4>
20    <ul>
21      <li class="inline"><a href="#synop">Synopsis</a></li>
22      <li class="inline"><a href="#descrip">Description</a></li>
23      <li class="inline"><a href="#run">Running the program</a></li>
24      <li class="inline"><a href="#cmd">Command Line Options</a></li>
25      <li class="inline"><a href="#rand">Random Seed File</a></li>
26      <li class="inline"><a href="#fmt">Cryptographic Data Files</a></li>
27      <li class="inline"><a href="#bug">Bugs</a></li>
28    </ul>
29    <hr>
30    <h4 id="synop">Synopsis</h4>
31    <p id="intro"><tt>ntp-keygen [ -deGHIMPT ] [ -b <i>modulus</i> ] [ -c [ RSA-MD2 | RSA-MD5 | RSA-SHA
32	| RSA-SHA1 | RSA-MDC2 | RSA-RIPEMD160 | DSA-SHA | DSA-SHA1 ] ]
33	[ -C <i>cipher</i> ] [-i <i>group</i> ] [ -l <em>days</em>]
34	[ -m <i>modulus</i> ]  [ -p <i>passwd1</i> ] [ -q <i>passwd2</i> ]
35	[ -S [ RSA | DSA ] ] [ -s <i>host</i> ] [ -V <i>nkeys</i> ]</tt></p>
36    <h4 id="descrip">Description</h4>
37    <p>This program generates cryptographic data files used by the NTPv4
38      authentication and identity schemes.  It can generate message digest keys
39      used in symmetric key cryptography and, if the OpenSSL software library
40      has been installed, it can generate host keys, sign keys, certificates,
41      and identity keys and parameters used by the Autokey public key
42      cryptography.  The message digest keys file is generated in a format
43      compatible with NTPv3.  All other files are in PEM-encoded printable ASCII
44      format so they can be embedded as MIME attachments in mail to other
45      sites.</p>
46    <p>When used to generate message digest keys, the program produces a file
47      containing ten pseudo-random printable ASCII strings suitable for the MD5
48      message digest algorithm included in the distribution.  If the OpenSSL
49      library is installed, it produces an additional ten hex-encoded random bit
50      strings suitable for the SHA1, AES-128 CMAC, and other message digest
51      algorithms.  The message digest keys file must be distributed and stored
52      using secure means beyond the scope of NTP itself.  Besides the keys used
53      for ordinary NTP associations, additional keys can be defined as passwords
54      for the <tt><a href="ntpq.html">ntpq</a></tt>
55      and <tt><a href="ntpdc.html">ntpdc</a></tt> utility programs.</p>
56    <p>The remaining generated files are compatible with other OpenSSL
57      applications and other Public Key Infrastructure (PKI)
58      resources.  Certificates generated by this program are compatible with
59      extant industry practice, although some users might find the
60      interpretation of X509v3 extension fields somewhat liberal.  However,
61      the identity keys are probably not compatible with anything other than
62      Autokey.</p>
63    <p>Some files used by this program are encrypted using a private
64      password.  The <tt>-p</tt> option specifies the password for local
65      encrypted files and the <tt>-q</tt> option the password for encrypted
66      files sent to remote sites.  If no password is specified, the host name
67      returned by the Unix <tt>gethostname()</tt> function, normally the DNS
68      name of the host, is used.</p>
69    <p>The <tt>pw</tt> option of the <tt>crypto</tt> configuration command
70      specifies the read password for previously encrypted local files.
71      This must match the local password used by this program.  If not
72      specified, the host name is used.  Thus, if files are generated by
73      this program without password, they can be read back by <tt>ntpd</tt>
74      without password, but only on the same host.</p>
75    <p>Normally, encrypted files for each host are generated by that host
76      and used only by that host, although exceptions exist as noted later
77      on this page.  The symmetric keys file, normally
78      called <tt>ntp.keys</tt>, is usually installed in <tt>/etc</tt>.
79      Other files and links are usually installed
80      in <tt>/usr/local/etc</tt>, which is normally in a shared filesystem
81      in NFS-mounted networks and cannot be changed by shared clients.  The
82      location of the keys directory can be changed by the <tt>keysdir</tt>
83      configuration command in such cases.  Normally, this is
84      in <tt>/etc</tt>.</p>
85    <p>This program directs commentary and error messages to the standard
86      error stream <tt>stderr</tt> and remote files to the standard output
87      stream <tt>stdout</tt> where they can be piped to other applications
88      or redirected to files.  The names used for generated files and links
89      all begin with the string <tt>ntpkey</tt> and include the file type,
90      generating host and filestamp, as described in
91      the <a href="#fmt">Cryptographic Data Files</a> section below</p>
92    <h4 id="run">Running the Program</h4>
93    <p>To test and gain experience with Autokey concepts, log in as root and
94      change to the keys directory, usually <tt>/usr/local/etc</tt>.  When
95      run for the first time, or if all files with names
96      beginning <tt>ntpkey</tt> have been removed, use
97      the <tt>ntp-keygen</tt> command without arguments to generate a
98      default RSA host key and matching RSA-MD5 certificate with expiration
99      date one year hence.  If run again without options, the program uses
100      the existing keys and parameters and generates only a new certificate
101      with new expiration date one year hence.</p>
102    <p>Run the command on as many hosts as necessary.  Designate one of them
103      as the trusted host (TH) using <tt>ntp-keygen</tt> with
104      the <tt>-T</tt> option and configure it to synchronize from reliable
105      Internet servers.  Then configure the other hosts to synchronize to
106      the TH directly or indirectly.  A certificate trail is created when
107      Autokey asks the immediately ascendant host towards the TH to sign its
108      certificate, which is then provided to the immediately descendant host
109      on request.  All group hosts should have acyclic certificate trails
110      ending on the TH.</p>
111    <p>The host key is used to encrypt the cookie when required and so must
112      be RSA type.  By default, the host key is also the sign key used to
113      encrypt signatures.  A different sign key can be assigned using
114      the <tt>-S</tt> option and this can be either RSA or DSA type.  By
115      default, the signature message digest type is MD5, but any combination
116      of sign key type and message digest type supported by the OpenSSL
117      library can be specified using the <tt>-c</tt> option.</p>
118    <p>The rules say cryptographic media should be generated with proventic
119      filestamps, which means the host should already be synchronized before
120      this program is run.  This of course creates a chicken-and-egg problem
121      when the host is started for the first time.  Accordingly, the host
122      time should be set by some other means, such as
123      eyeball-and-wristwatch, at least so that the certificate lifetime is
124      within the current year.  After that and when the host is synchronized
125      to a proventic source, the certificate should be re-generated.</p>
126    <p>Additional information on trusted groups and identity schemes is on
127      the <a href="autokey.html">Autokey Public-Key Authentication</a>
128      page.</p>
129    <h4 id="cmd">Command Line Options</h4>
130    <dl>
131      <dt><tt>-b <i>modulus</i></tt></dt>
132      <dd>Set the modulus for generating identity keys to <i>modulus</i>
133	bits.  The modulus defaults to 256, but can be set from 256 (32
134	octets) to 2048 (256 octets).  Use the larger moduli with caution,
135	as this can consume considerable computing resources and increases
136	the size of authenticated packets.</dd>
137      <dt><tt>-c [ RSA-MD2 | RSA-MD5 | RSA-SHA | RSA-SHA1 | RSA-MDC2 | RSA-RIPEMD160 | DSA-SHA | DSA-SHA1 ]</tt></dt>
138      <dd>Select certificate digital signature and message digest scheme.
139	Note that RSA schemes must be used with an RSA sign key and DSA
140	schemes must be used with a DSA sign key.  The default without this
141	option is <tt>RSA-MD5</tt>.  If compatibility with FIPS 140-2 is
142	required, either the <tt>DSA-SHA</tt> or <tt>DSA-SHA1</tt> scheme
143	must be used.</dd>
144      <dt><tt>-C <i>cipher</i></tt></dt>
145      <dd>Select the OpenSSL cipher to use for password-protected keys.
146	The <tt>openssl -h</tt> command provided with OpenSSL displays
147	available ciphers.  The default without this option
148	is <tt>des-ede3-cbc</tt>.</dd>
149      <dt><tt>-d</tt></dt>
150      <dd>Enable debugging.  This option displays the cryptographic data
151	produced for eye-friendly billboards.</dd>
152      <dt><tt>-e</tt></dt>
153      <dd>Extract the IFF or GQ public parameters from the <tt>IFFkey</tt>
154	or <tt>GQkey</tt> keys file previously specified.  Send the
155	unencrypted data to the standard output stream <tt>stdout</tt>.</dd>
156      <dt><tt>-G</tt></dt>
157      <dd>Generate a new encrypted GQ key file for the Guillou-Quisquater
158       (GQ) identity scheme.  This option is mutually exclusive with
159       the <tt>-I</tt> and <tt>-V</tt> options.</dd>
160      <dt><tt>-H</tt></dt>
161      <dd>Generate a new encrypted RSA public/private host key file.</dd>
162      <dt><tt>-i <i>group</i></tt></dt>
163      <dd>Set the optional Autokey group name to <tt><i>group</i></tt>. This
164	is used in the identity scheme parameter file names.  In that role,
165	the default is the host name if no group is provided.  The group
166	name, if specified using <tt>-i</tt> or using <tt>-s</tt> following
167	an <tt>@</tt> character, is also used in certificate subject and
168	issuer names in the form <tt><i>host</i>@<i>group</i></tt> and
169	should match the group specified via <tt>crypto ident</tt>
170	or <tt>server ident</tt> in ntpd's configuration file.</dd>
171      <dt><tt>-I</tt></dt>
172      <dd>Generate a new encrypted IFF key file for the Schnorr (IFF)
173	identity scheme.  This option is mutually exclusive with
174	the <tt>-G</tt> and <tt>-V</tt> options.</dd>
175      <dt><tt>-l <i>days</i></tt></dt>
176      <dd>Set the lifetime for certificates to <tt><i>days</i></tt>.  The
177      default lifetime is one year (365 d).</dd>
178      <dt><tt>-m <i>modulus</i></tt></dt>
179      <dd>Set the modulus for generating files to <i>modulus</i> bits.  The
180	modulus defaults to 512, but can be set from 256 (32 octets) to 2048
181	(256 octets).  Use the larger moduli with caution, as this can
182	consume considerable computing resources and increases the size of
183	authenticated packets.</dd>
184      <dt><tt>-M</tt></dt>
185      <dd>Generate a new keys file containing 10 MD5 keys and 10 SHA keys.
186	An MD5 key is a string of 20 random printable ASCII characters,
187	while a SHA key is a string of 40 random hex digits. The file can be
188	edited using a text editor to change the key type or key content.
189	This option is mutually exclusive with all other options.</dd>
190      <dt><tt>-P</tt></dt>
191      <dd>Generate a new private certificate used by the PC identity scheme.
192	By default, the program generates public certificates.  Note: the PC
193	identity scheme is not recommended for new installations.</dd>
194      <dt><tt>-p <i>passwd</i></tt></dt>
195      <dd>Set the password for reading and writing encrypted files
196	to <tt><i>passwd</i></tt>.  These include the host, sign and
197	identify key files.  By default, the password is the string returned
198	by the Unix <tt>gethostname()</tt> routine.</dd>
199      <dt><tt>-q <i>passwd</i></tt></dt>
200      <dd>Set the password for writing encrypted IFF, GQ and MV identity
201	files redirected to <tt>stdout</tt> to <tt><i>passwd</i></tt>=.  In
202	effect, these files are decrypted with the <tt>-p</tt> password,
203	then encrypted with the <tt>-q</tt> password.  By default, the
204	password is the string returned by the Unix <tt>gethostname()</tt>
205	routine.</dd>
206      <dt><tt>-S [ RSA | DSA ]</tt></dt>
207      <dd>Generate a new encrypted public/private sign key file of the
208	specified type.  By default, the sign key is the host key and has
209	the same type.  If compatibly with FIPS 140-2 is required, the sign
210	key type must be <tt>DSA</tt>.</dd>
211      <dt><tt>-s <i>host</i>[@<i>group</i>]</tt></dt>
212      <dd>Specify the Autokey host name, where <tt><i>host</i></tt> is the
213	host name and <tt><i>group</i></tt> is the optional group name.  The
214	host name, and if provided, group name are used
215	in <tt><i>host</i>@<i>group</i></tt> form as certificate subject and
216	issuer.  Specifying <tt>-s @<i>group</i></tt> is allowed, and
217	results in leaving the host name unchanged, as
218	with <tt>-i <i>group</i></tt>.  The group name, or if no group is
219	provided, the host name are also used in the file names of IFF, GQ,
220	and MV identity scheme parameter files.  If <tt><i>host</i></tt> is
221	not specified, the default host name is the string returned by
222	the <tt>gethostname()</tt> routine.</dd>
223      <dt><tt>-T</tt></dt>
224      <dd>Generate a trusted certificate.  By default, the program generates
225	nontrusted certificates.</dd>
226      <dt><tt>-V <i>nkeys</i></tt></dt>
227      <dd>Generate <tt>nkeys</tt> encrypted server keys for the
228	Mu-Varadharajan (MV) identity scheme.  This option is mutually
229	exclusive with the <tt>-I</tt> and <tt>-G</tt> options.  Note:
230	support for this option should be considered a work in
231	progress.</dd>
232    </dl>
233    <h4 id="rand">Random Seed File</h4>
234    <p>All cryptographically sound key generation schemes must have means to
235      randomize the entropy seed used to initialize the internal
236      pseudo-random number generator used by the OpenSSL library routines.
237      If a site supports <tt>ssh</tt>, it is very likely that means to do
238      this are already available.  The entropy seed used by the OpenSSL
239      library is contained in a file, usually called <tt>.rnd</tt>, which
240      must be available when starting the <tt>ntp-keygen</tt> program
241      or <tt>ntpd</tt> daemon.</p>
242    <p>The OpenSSL library looks for the file using the path specified by
243      the <tt>RANDFILE</tt> environment variable in the user home directory,
244      whether root or some other user.  If the <tt>RANDFILE</tt> environment
245      variable is not present, the library looks for the <tt>.rnd</tt> file
246      in the user home directory.  Since both the <tt>ntp-keygen</tt>
247      program and <tt>ntpd</tt> daemon must run as root, the logical place
248      to put this file is in <tt>/.rnd</tt> or <tt>/root/.rnd</tt>.  If the
249      file is not available or cannot be written, the program exits with a
250      message to the system log.</p>
251    <h4 id="fmt">Cryptographic Data Files</h4>
252    <p>File and link names are in the
253      form <tt>ntpkey_<i>key</i>_<i>name</i>.<i>fstamp</i></tt>,
254      where <tt><i>key</i></tt> is the key or parameter
255      type, <tt><i>name</i></tt> is the host or group name
256      and <tt><i>fstamp</i></tt> is the filestamp (NTP seconds) when the
257      file was created).  By convention, <em><tt>key</tt></em> names in
258      generated file names include both upper and lower case characters,
259      while <em><tt>key</tt></em> names in generated link names include only
260      lower case characters.  The filestamp is not used in generated link
261      names.</p>
262    <p>The <em><tt>key</tt></em> name is a string defining the cryptographic
263      key type.  Key types include public/private keys <tt>host</tt>
264      and <tt>sign</tt>, certificate <tt>cert</tt> and several
265      challenge/response key types.  By convention, client files used for
266      challenges have a <tt>par</tt> subtype, as in the IFF
267      challenge <tt>IFFpar</tt>, while server files for responses have
268      a <tt>key</tt> subtype, as in the GQ response <tt>GQkey</tt>.</p>
269    <p>All files begin with two nonencrypted lines.  The first line contains
270    the file name in the
271    format <tt>ntpkey_<i>key</i>_<i>host</i>.<i>fstamp</i></tt>.  The second
272    line contains the datestamp in conventional Unix <tt>date</tt> format.
273    Lines beginning with <tt>#</tt> are ignored.</p>
274    <p>The remainder of the file contains cryptographic data encoded first
275      using ASN.1 rules, then encrypted using the DES-CBC algorithm with
276      given password and finally written in PEM-encoded printable ASCII text
277      preceded and followed by MIME content identifier lines.</p>
278    <p>The format of the symmetric keys file, ordinarily
279      named <tt>ntp.keys,</tt> is somewhat different than the other files in
280      the interest of backward compatibility.  Ordinarily, the file is
281      generated by this program, but it can be constructed and edited using
282      an ordinary text editor.</p>
283    <table>
284      <caption style="caption-side: bottom;">
285	Figure 1. Typical Symmetric Key File
286      </caption>
287      <tr><td style="border: 1px solid black; border-spacing: 0;">
288	  <pre style="color:grey;">
289	    # ntpkey_MD5key_bk.ntp.org.3595864945
290	    # Thu Dec 12 19:22:25 2013
291
292	    1  MD5 L";Nw&lt;`.I&lt;f4U0)247"i  # MD5 key
293	    2  MD5 &amp;&gt;l0%XXK9O'51VwV&lt;xq~  # MD5 key
294	    3  MD5 lb4zLW~d^!K:]RsD'qb6  # MD5 key
295	    4  MD5 Yue:tL[+vR)M`n~bY,'?  # MD5 key
296	    5  MD5 B;fxlKgr/&amp;4ZTbL6=RxA  # MD5 key
297	    6  MD5 4eYwa`o}3i@@V@..R9!l  # MD5 key
298	    7  MD5 `A.([h+;wTQ|xfi%Sn_!  # MD5 key
299	    8  MD5 45:V,r4]l6y^JH6.Sh?F  # MD5 key
300	    9  MD5 3-5vcn*6l29DS?Xdsg)*  # MD5 key
301	    10 MD5 2late4Me              # MD5 key
302	    11 SHA1 a27872d3030a9025b8446c751b4551a7629af65c  # SHA1 key
303	    12 SHA1 21bc3b4865dbb9e920902abdccb3e04ff97a5e74  # SHA1 key
304	    13 SHA1 2b7736fe24fef5ba85ae11594132ab5d6f6daba9  # SHA1 key
305	    14 SHA  a5332809c8878dd3a5b918819108a111509aeceb  # SHA  key
306	    15 MD2  2fe16c88c760ff2f16d4267e36c1aa6c926e6964  # MD2  key
307	    16 MD4  b2691811dc19cfc0e2f9bcacd74213f29812183d  # MD4  key
308	    17 MD5  e4d6735b8bdad58ec5ffcb087300a17f7fef1f7c  # MD5  key
309	    18 MDC2 a8d5e2315c025bf3a79174c87fbd10477de2eabc  # MDC2 key
310	    19 RIPEMD160 77ca332cafb30e3cafb174dcd5b80ded7ba9b3d2  # RIPEMD160 key
311	    20 AES128CMAC f92ff73eee86c1e7dc638d6489a04e4e555af878  # AES128CMAC key
312	    21 MD5 sampo 10.1.2.3/24
313    </pre></td></tr></table>
314    <p>Figure 1 shows a typical symmetric keys file used by the reference
315      implementation.  Each line of the file contains three or four fields,
316      first an integer between 1 and 65535, inclusive, representing the key
317      identifier used in the <tt>server</tt> and <tt>peer</tt> configuration
318      commands.  Second is the key type for the message digest algorithm,
319      which in the absence of the OpenSSL library must be <tt>MD5</tt> to
320      designate the MD5 message digest algorithm.  If the OpenSSL library is
321      installed, the key type can be any message digest algorithm supported
322      by that library.  However, if compatibility with FIPS 140-2 is
323      required, the key type must be either <tt>SHA</tt> or <tt>SHA1</tt>.
324      The key type can be changed using an ASCII text editor.</p>
325    <p>The third field is the key.</p>
326    <p>An MD5 key consists of a printable ASCII string less than or equal to
327      16 characters and terminated by whitespace or a # character.  An
328      OpenSSL key consists of a hex-encoded ASCII string of 40 characters,
329      which is truncated as necessary.</p>
330    <p>Note that the keys used by the <tt>ntpq</tt> and <tt>ntpdc</tt>
331      programs are checked against passwords requested by the programs and
332      entered by hand, so it is generally appropriate to specify these keys
333      in human readable ASCII format.</p>
334    <p>The optional fourth field is one or more IPs, with each IP separated
335      with a comma.  An IP may end with an optional <tt>/subnetbits</tt>
336      suffix, which limits the acceptance of the key identifier to packets
337      claiming to be from the described IP space.</p>
338    <p>The <tt>ntp-keygen</tt> program generates a MD5 symmetric keys
339      file <tt>ntpkey_MD5key_<i>hostname.filestamp</i></tt>.  Since the file
340      contains private shared keys, it should be visible only to root and
341      distributed by secure means to other subnet hosts.  The NTP daemon
342      loads the file <tt>ntp.keys</tt>, so <tt>ntp-keygen</tt> installs a
343      soft link from this name to the generated file.  Subsequently, similar
344      soft links must be installed by manual or automated means on the other
345      subnet hosts.  While this file is not used with the Autokey Version 2
346      protocol, it is needed to authenticate some remote configuration
347      commands used by the <a href="ntpq.html"><tt>ntpq</tt></a>
348      and <a href="ntpdc.html"><tt>ntpdc</tt></a> utilities.</p>
349    <h4 id="bug">Bugs</h4>
350    <p>It can take quite a while to generate some cryptographic values.</p>
351    <hr>
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