906 lines
32 KiB
Plaintext
906 lines
32 KiB
Plaintext
@node How to set up a realm, One-Time Passwords, Installing programs, Top
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@chapter How to set up a realm
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@quotation
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@flushleft
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Who willed you? or whose will stands but mine?
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There's none protector of the realm but I.
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Break up the gates, I'll be your warrantize.
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Shall I be flouted thus by dunghill grooms?
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--- King Henry VI, 6.1
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@end flushleft
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@end quotation
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@menu
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* How to set up the kerberos server::
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* Install the client programs::
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* Install the kerberised services::
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* Install a slave kerberos server::
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* Cross-realm functionality ::
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@end menu
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@node How to set up the kerberos server, Install the client programs, How to set up a realm, How to set up a realm
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@section How to set up the kerberos server
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@menu
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* Choose a realm name::
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* Choose a kerberos server::
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* Install the configuration files::
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* Install the /etc/services::
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* Install the kerberos server::
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* Set up the server::
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* Add a few important principals::
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* Start the server::
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* Try to get tickets::
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* Create initial ACL for the admin server::
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* Start the admin server::
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* Add users to the database::
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* Automate the startup of the servers::
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@end menu
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@node Choose a realm name, Choose a kerberos server, How to set up the kerberos server, How to set up the kerberos server
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@subsection Choose a realm name
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A
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@cindex realm
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realm is an administrative domain. Kerberos realms are usually
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written in uppercase and consist of a Internet domain
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name@footnote{Using lowercase characters in the realm name might break
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in mysterious ways. This really should have been fixed, but has not.}.
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Call your realm the same as your Internet domain name if you do not have
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strong reasons for not doing so. It will make life easier for you and
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everyone else.
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@node Choose a kerberos server, Install the configuration files, Choose a realm name, How to set up the kerberos server
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@subsection Choose a kerberos server
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You need to choose a machine to run the
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@pindex kerberos
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kerberos server program. If the kerberos database residing on this host
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is compromised, your entire realm will be compromised. Therefore, this
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machine must be as secure as possible. Preferably it should not run any
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services other than Kerberos. The secure-minded administrator might
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only allow logins on the console.
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This machine has also to be reliable. If it is down, you will not be
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able to use any kerberised services unless you have also configured a
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slave server (@pxref{Install a slave kerberos server}).
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Running the kerberos server requires very little CPU power and a small
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amount of disk. An old PC with some hundreds of megabytes of free disk
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space should do fine. Most of the disk space will be used for various
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logs.
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@node Install the configuration files, Install the /etc/services, Choose a kerberos server, How to set up the kerberos server
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@subsection Install the configuration files
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There are two important configuration files: @file{/etc/krb.conf} and
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@file{/etc/krb.realms}.
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@pindex krb.conf
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@pindex krb.realms
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The @file{krb.conf} file determines which machines are servers for
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different realms. The format of this file is:
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@example
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THIS.REALM
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SUPP.LOCAL.REALM
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THIS.REALM kerberos.this.realm admin server
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THIS.REALM kerberos-1.this.realm
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SUPP.LOCAL.REALM kerberos.supp.local.realm admin server
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ANOTHER.REALM kerberos.another.realm
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@end example
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The first line defines the name of the local realm. The next few lines
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optionally defines supplementary local realms.
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@cindex supplementary local realms
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The rest of the file
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defines the names of the kerberos servers and the database
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administration servers for all known realms. You can define any number
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of kerberos slave servers similar to the one defined on line
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four. Clients will try to contact servers in listed order.
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The @samp{admin server} clause at the first entry states that this is
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the master server
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@cindex master server
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(the one to contact when modifying the database, such as changing
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passwords). There should be only one such entry for each realm.
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In the original MIT Kerberos 4 (as in most others), the server
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specification could only take the form of a host-name. To facilitate
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having kerberos servers in odd places (such as behind a firewall),
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support has been added for ports other than the default (750), and
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protocols other than UDP.
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The formal syntax for an entry is now
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@samp{[@var{proto}/]@var{host}[:@var{port}]}. @var{proto} is either
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@samp{UDP}, @samp{TCP}, or @samp{HTTP}, and @var{port} is the port to
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talk to. Default value for @var{proto} is @samp{UDP} and for @var{port}
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whatever @samp{kerberos-iv} is defined to be in @file{/etc/services} or
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750 if undefined. If @var{proto} is @samp{HTTP}, the default port is
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80. An @samp{http} entry may also be specified in URL format.
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If the information about a realm is missing from the @file{krb.conf}
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file, or if the information is wrong, the following methods will be
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tried in order.
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@enumerate
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@item
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If you have an SRV-record (@cite{RFC 2052}) for your realm it will be
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used. This record should be of the form
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@samp{kerberos-iv.@var{protocol}.@var{REALM}}, where @var{proto} is
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either @samp{UDP}, @samp{TCP}, or @samp{HTTP}. (Note: the current
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implementation does not look at priority or weight when deciding which
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server to talk to.)
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@item
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If there isn't any SRV-record, it tries to find a TXT-record for the
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same domain. The contents of the record should have the same format as the
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host specification in @file{krb.conf}. (Note: this is a temporary
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solution if your name server doesn't support SRV records. The clients
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should work fine with SRV records, so if your name server supports them,
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they are very much preferred.)
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@item
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If no valid kerberos server is found, it will try to talk UDP to the
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service @samp{kerberos-iv} with fall-back to port 750 with
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@samp{kerberos.@var{REALM}} (which is also assumed to be the master
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server), and then @samp{kerberos-1.@var{REALM}},
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@samp{kerberos-2.@var{REALM}}, and so on.
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@end enumerate
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SRV records have been supported in BIND since 4.9.5T2A. An example
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would look like the following in the zone file:
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@example
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kerberos-iv.udp.foo.se. 1M IN SRV 1 0 750 kerberos-1.foo.se.
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kerberos-iv.udp.foo.se. 1M IN SRV 0 0 750 kerberos.foo.se.
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@end example
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We strongly recommend that you add a CNAME @samp{kerberos.@var{REALM}}
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pointing to your kerberos master server.
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The @file{krb.realms} file is used to find out what realm a particular
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host belongs to. An example of this file could look like:
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@example
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this.realm THIS.REALM
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.this.realm THIS.REALM
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foo.com SOME.OTHER.REALM
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www.foo.com A.STRANGE.REALM
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.foo.com FOO.REALM
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@end example
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Entries starting with a dot are taken as the name of a domain. Entries
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not starting with a dot are taken as a host-name. The first entry matched
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is used. The entry for @samp{this.realm} is only necessary if there is a
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host named @samp{this.realm}.
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If no matching realm is found in @file{krb.realms}, DNS is searched for
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the correct realm. For example, if we are looking for host @samp{a.b.c},
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@samp{krb4-realm.a.b.c} is first tried and then @samp{krb4-realm.b.c}
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and so on. The entry should be a TXT record containing the name of the
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realm, such as:
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@example
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krb4-realm.pdc.kth.se. 7200 TXT "NADA.KTH.SE"
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@end example
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If this didn't help the domain name sans the first part in uppercase is
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tried.
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The plain vanilla version of Kerberos doesn't have any fancy methods of
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getting realms and servers so it is generally a good idea to keep
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@file{krb.conf} and @file{krb.realms} up to date.
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In addition to these commonly used files, @file{/etc/krb.extra}
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@pindex krb.extra
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holds some things that are not normally used. It consists of a number of
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@samp{@var{variable} = @var{value}} pairs, blank lines and lines
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beginning with a hash (#) are ignored.
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The currently defined variables are:
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@table @samp
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@item kdc_timeout
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@cindex kdc_timeout
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The time in seconds to wait for an answer from the KDC (the default is 4
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seconds).
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@item kdc_timesync
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@cindex kdc_timesync
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This flag enables storing of the time differential to the KDC when
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getting an initial ticket. This differential is used later on to compute
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the correct time. This can help if your machine doesn't have a working
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clock.
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@item firewall_address
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@cindex firewall_address
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The IP address that hosts outside the firewall see when connecting from
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within the firewall. If this is specified, the code will try to compute
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the value for @samp{reverse_lsb_test}.
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@item krb4_proxy
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@cindex krb4_proxy
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When getting tickets via HTTP, this specifies the proxy to use. The
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default is to speak directly to the KDC.
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@item krb_default_tkt_root
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@cindex krb_default_tkt_root
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The default prefix for ticket files. The default is @file{/tmp/tkt}.
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Normally the uid or tty is appended to this prefix.
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@item krb_default_keyfile
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@cindex krb_default_keyfile
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The file where the server keys are stored, the default is @file{/etc/srvtab}.
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@item nat_in_use
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@cindex nat_in_use
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If the client is behind a Network Address Translator (NAT).
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@cindex Network Address Translator
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@cindex NAT
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@item reverse_lsb_test
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@cindex reverse_lsb_test
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Reverses the test used by @code{krb_mk_safe}, @code{krb_rd_safe},
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@code{krb_mk_priv}, and @code{krb_rd_priv} to compute the ordering of
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the communicating hosts. This test can cause truble when using
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firewalls.
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@end table
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@node Install the /etc/services, Install the kerberos server, Install the configuration files, How to set up the kerberos server
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@subsection Updating /etc/services
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You should append or merge the contents of @file{services.append} to
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your @file{/etc/services} files or NIS-map. Remove any unused factory
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installed kerberos port definitions to avoid possible conflicts.
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@pindex services
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Most of the programs will fall back to the default ports if the port
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numbers are not found in @file{/etc/services}, but it is convenient to
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have them there anyway.
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@node Install the kerberos server, Set up the server, Install the /etc/services, How to set up the kerberos server
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@subsection Install the kerberos server
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You should have already chosen the machine where you want to run the
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kerberos server and the realm name. The machine should also be as
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secure as possible (@pxref{Choose a kerberos server}) before installing
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the kerberos server. In this example, we will install a kerberos server
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for the realm @samp{FOO.SE} on a machine called @samp{hemlig.foo.se}.
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@node Set up the server, Add a few important principals, Install the kerberos server, How to set up the kerberos server
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@subsection Setup the server
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Login as root on the console of the kerberos server. Add
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@file{/usr/athena/bin} and @file{/usr/athena/sbin} to your path. Create
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the directory @file{/var/kerberos} (@kbd{mkdir /var/kerberos}), which is
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where the database will be stored. Then, to create the database, run
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@kbd{kdb_init}:
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@pindex kdb_init
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@example
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@cartouche
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hemlig# mkdir /var/kerberos
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hemlig# kdb_init
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Realm name [default FOO.SE ]:
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You will be prompted for the database Master Password.
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It is important that you NOT FORGET this password.
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Enter Kerberos master password:
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Verifying password
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Enter Kerberos master password:
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@end cartouche
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@end example
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If you have set up the configuration files correctly, @kbd{kdb_init}
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should choose the correct realm as the default, otherwise a (good) guess
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is made. Enter the master password.
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This password will only be used for encrypting the kerberos database on
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disk and for generating new random keys. You will not have to remember
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it, only to type it again when you run @kbd{kstash}. Choose something
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long and random. Now run @kbd{kstash} using the same password:
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@pindex kstash
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@example
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@cartouche
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hemlig# kstash
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Enter Kerberos master password:
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Current Kerberos master key version is 1.
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Master key entered. BEWARE!
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Wrote master key to /.k
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@end cartouche
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@end example
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After entering the same master password it will be saved in the file
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@file{/.k} and the kerberos server will read it when needed. Write down
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the master password and put it in a sealed envelope in a safe, you might
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need it if your disk crashes or should you want to set up a slave
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server.
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@code{kdb_init} initializes the database with a few entries:
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@table @samp
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@item krbtgt.@var{REALM}
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The key used for authenticating to the kerberos server.
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@item changepw.kerberos
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The key used for authenticating to the administrative server, i.e. when
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adding users, changing passwords, and so on.
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@item default
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This entry is copied to new items when these are added. Enter here the
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values you want new entries to have, particularly the expiry date.
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@item K.M
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This is the master key and it is only used to verify that the master key
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that is saved un-encrypted in @file{/.k} is correct and corresponds to
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this database.
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@end table
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@code{kstash} only reads the master password and writes it to
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@file{/.k}. This enables the kerberos server to start without you
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having to enter the master password. This file (@file{/.k}) is only
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readable by root and resides on a ``secure'' machine.
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@node Add a few important principals, Start the server, Set up the server, How to set up the kerberos server
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@subsection Add a few important principals
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Now the kerberos database has been created, containing only a few
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principals. The next step is to add a few more so that you can test
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that it works properly and so that you can administer your realm without
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having to use the console on the kerberos server. Use @kbd{kdb_edit}
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to edit the kerberos database directly on the server.
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@pindex kdb_edit
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@code{kdb_edit} is intended as a bootstrapping and fall-back mechanism
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for editing the database. For normal purposes, use the @code{kadmin}
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program (@pxref{Add users to the database}).
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The following example shows the adding of the principal
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@samp{nisse.admin} into the kerberos database. This principal is used
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by @samp{nisse} when administrating the kerberos database. Later on the
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normal principal for @samp{nisse} will be created. Replace @samp{nisse}
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and @samp{password} with your own username and password.
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@example
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@cartouche
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hemlig# kdb_edit -n
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Opening database...
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Current Kerberos master key version is 1.
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Master key entered. BEWARE!
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Previous or default values are in [brackets] ,
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enter return to leave the same, or new value.
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Principal name: <nisse>
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Instance: <admin>
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<Not found>, Create [y] ? <>
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Principal: nisse, Instance: admin, kdc_key_ver: 1
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New Password: <password>
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Verifying password
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New Password: <password>
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Principal's new key version = 1
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Expiration date (enter yyyy-mm-dd) [ 2000-01-01 ] ? <>
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Max ticket lifetime (*5 minutes) [ 255 ] ? <>
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Attributes [ 0 ] ? <>
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Edit O.K.
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Principal name: <>
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@end cartouche
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@end example
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@code{kdb_edit} will loop until you hit the @kbd{return} key at the
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``Principal name'' prompt. Now you have added nisse as an administrator.
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@page
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@node Start the server, Try to get tickets, Add a few important principals, How to set up the kerberos server
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@subsection Start the server
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@pindex kerberos
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@example
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@cartouche
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hemlig# /usr/athena/libexec/kerberos &
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Kerberos server starting
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Sleep forever on error
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Log file is /var/log/kerberos.log
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Current Kerberos master key version is 1.
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Master key entered. BEWARE!
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Current Kerberos master key version is 1
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Local realm: FOO.SE
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@end cartouche
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@end example
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@node Try to get tickets, Create initial ACL for the admin server, Start the server, How to set up the kerberos server
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@subsection Try to get tickets
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You can now verify that these principals have been added and that the
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server is working correctly.
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@pindex kinit
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@example
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@cartouche
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hemlig# kinit
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eBones International (hemlig.foo.se)
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Kerberos Initialization
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Kerberos name: <nisse.admin>
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Password: <password>
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@end cartouche
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@end example
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If you do not get any error message from @code{kinit}, then everything
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is working (otherwise, see @ref{Common error messages}). Use
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@code{klist} to verify the tickets you acquired with @code{kinit}:
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@pindex klist
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@example
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@cartouche
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hemlig# klist
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Ticket file: /tmp/tkt0
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Principal: nisse.admin@@FOO.SE
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Issued Expires Principal
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May 24 21:06:03 May 25 07:06:03 krbtgt.FOO.SE@@FOO.SE
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@end cartouche
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@end example
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@node Create initial ACL for the admin server, Start the admin server, Try to get tickets, How to set up the kerberos server
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@subsection Create initial ACL for the admin server
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The admin server, @code{kadmind}, uses a series of files to determine who has
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@pindex kadmind
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the right to perform certain operations. The files are:
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@file{admin_acl.add}, @file{admin_acl.get}, @file{admin_acl.del}, and
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@file{admin_acl.mod}. Create these with @samp{nisse.admin@@FOO.SE} as
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the contents.
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@pindex admin_acl.add
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@pindex admin_acl.get
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@pindex admin_acl.del
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@pindex admin_acl.mod
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@example
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@cartouche
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hemlig# echo "nisse.admin@@FOO.SE" >> /var/kerberos/admin_acl.add
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hemlig# echo "nisse.admin@@FOO.SE" >> /var/kerberos/admin_acl.get
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hemlig# echo "nisse.admin@@FOO.SE" >> /var/kerberos/admin_acl.mod
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hemlig# echo "nisse.admin@@FOO.SE" >> /var/kerberos/admin_acl.del
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@end cartouche
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@end example
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|
|
|
Later on you may wish to add more users with administration
|
|
privileges. Make sure that you create both the administration principals
|
|
and add them to the admin server ACL.
|
|
|
|
@node Start the admin server, Add users to the database, Create initial ACL for the admin server, How to set up the kerberos server
|
|
@subsection Start the admin server
|
|
|
|
@pindex kadmind
|
|
@example
|
|
@cartouche
|
|
hemlig# /usr/athena/libexec/kadmind &
|
|
KADM Server KADM0.0A initializing
|
|
Please do not use 'kill -9' to kill this job, use a
|
|
regular kill instead
|
|
|
|
Current Kerberos master key version is 1.
|
|
|
|
Master key entered. BEWARE!
|
|
@end cartouche
|
|
@end example
|
|
|
|
@node Add users to the database, Automate the startup of the servers, Start the admin server, How to set up the kerberos server
|
|
@subsection Add users to the database
|
|
|
|
Use the @code{kadmin} client to add users to the database:
|
|
@pindex kadmin
|
|
|
|
@example
|
|
@cartouche
|
|
hemlig# kadmin -p nisse.admin -m
|
|
Welcome to the Kerberos Administration Program, version 2
|
|
Type "help" if you need it.
|
|
admin: <add nisse>
|
|
Admin password: <nisse.admin's password>
|
|
Maximum ticket lifetime? (255) [Forever]
|
|
Attributes? [0x00]
|
|
Expiration date (enter yyyy-mm-dd) ? [Sat Jan 1 05:59:00 2000]
|
|
Password for nisse:
|
|
Verifying password Password for nisse:
|
|
nisse added to database.
|
|
@end cartouche
|
|
@end example
|
|
|
|
Add whatever other users you want to have in the same way. Verify that
|
|
a user is in the database and check the database entry for that user:
|
|
|
|
@example
|
|
@cartouche
|
|
admin: <get nisse>
|
|
Info in Database for nisse.:
|
|
Max Life: 255 (Forever) Exp Date: Sat Jan 1 05:59:59 2000
|
|
|
|
Attribs: 00 key: 0 0
|
|
admin: <^D>
|
|
Cleaning up and exiting.
|
|
@end cartouche
|
|
@end example
|
|
|
|
@node Automate the startup of the servers, , Add users to the database, How to set up the kerberos server
|
|
@subsection Automate the startup of the servers
|
|
|
|
Add the lines that were used to start the kerberos server and the
|
|
admin server to your startup scripts (@file{/etc/rc} or similar).
|
|
@pindex rc
|
|
|
|
@node Install the client programs, Install the kerberised services, How to set up the kerberos server, How to set up a realm
|
|
@section Install the client programs
|
|
|
|
Making a machine a kerberos client only requires a few steps. First you
|
|
might need to change the configuration files as with the kerberos
|
|
server. (@pxref{Install the configuration files} and @pxref{Install the
|
|
/etc/services}.) Also you need to make the programs in
|
|
@file{/usr/athena/bin} available. This can be done by adding the
|
|
@file{/usr/athena/bin} directory to the users' paths, by making symbolic
|
|
links, or even by copying the programs.
|
|
|
|
You should also verify that the local time on the client is synchronised
|
|
with the time on the kerberos server by some means. The maximum allowed
|
|
time difference between the participating servers and a client is 5
|
|
minutes.
|
|
@cindex NTP.
|
|
One good way to synchronize the time is NTP (Network Time Protocol), see
|
|
@url{http://www.eecis.udel.edu/~ntp/}.
|
|
|
|
If you need to run the client programs on a machine where you do not
|
|
have root-access, you can hopefully just use the binaries and no
|
|
configuration will be needed. The heuristics used are mentioned above
|
|
(see @ref{Install the configuration files}). If this is not the case
|
|
and you need to have @file{krb.conf} and/or @file{krb.realms}, you can
|
|
copy them into a directory of your choice and
|
|
@pindex krb.conf
|
|
@pindex krb.realms
|
|
set the environment variable @var{KRBCONFDIR} to point at this
|
|
@cindex KRBCONFDIR
|
|
directory.
|
|
|
|
To test the client functionality, run the @code{kinit} program:
|
|
|
|
@example
|
|
@cartouche
|
|
foo$ kinit
|
|
eBones International (foo.foo.se)
|
|
Kerberos Initialization
|
|
Kerberos name: <nisse>
|
|
Password: <password>
|
|
|
|
foo$ klist
|
|
Ticket file: /tmp/tkt4711
|
|
Principal: nisse@@FOO.SE
|
|
|
|
Issued Expires Principal
|
|
May 24 21:06:03 May 25 07:06:03 krbtgt.FOO.SE@@FOO.SE
|
|
@end cartouche
|
|
@end example
|
|
|
|
@node Install the kerberised services, Install a slave kerberos server, Install the client programs, How to set up a realm
|
|
@section Install the kerberised services
|
|
|
|
These includes @code{rsh}, @code{rlogin}, @code{telnet}, @code{ftp},
|
|
@code{rxtelnet}, and so on.
|
|
@pindex rsh
|
|
@pindex rlogin
|
|
@pindex telnet
|
|
@pindex ftp
|
|
@pindex rxtelnet
|
|
|
|
First follow the steps mentioned in the prior section to make it a
|
|
client and verify its operation. Change @file{inetd.conf} next to use
|
|
the new daemons. Look at the file
|
|
@pindex inetd.conf
|
|
@file{etc/inetd.conf.changes} to see the changes that we recommend you
|
|
perform on @file{inetd.conf}.
|
|
|
|
You should at this point decide what services you want to run on
|
|
each machine.
|
|
|
|
@subsection rsh, rlogin, and rcp
|
|
@pindex rsh
|
|
@pindex rlogin
|
|
@pindex rcp
|
|
|
|
These exist in kerberised versions and ``old-style'' versions. The
|
|
different versions use different port numbers, so you can choose none,
|
|
one, or both. If you do not want to use ``old-style'' r* services, you
|
|
can let the programs output the text ``Remote host requires Kerberos
|
|
authentication'' instead of just refusing connections to that port.
|
|
This is enabled with the @samp{-v} option. The kerberised services
|
|
exist in encrypted and non-encrypted versions. The encrypted services
|
|
have an ``e'' prepended to the name and the programs take @samp{-x} as an
|
|
option indicating encryption.
|
|
|
|
Our recommendation is to only use the kerberised services and give
|
|
explanation messages for the old ports.
|
|
|
|
@subsection telnet
|
|
@pindex telnet
|
|
|
|
The telnet service always uses the same port and negotiates as to which
|
|
authentication method should be used. The @code{telnetd} program has
|
|
@pindex telnetd
|
|
an option ``-a user'' that only allows kerberised and authenticated
|
|
connections. If this is not included, it falls back to using clear text
|
|
passwords. For obvious reasons, we recommend that you enable this
|
|
option. If you want to use one-time passwords (@pxref{One-Time
|
|
Passwords}) you can use the ``-a otp'' option which will allow OTPs or
|
|
kerberised connections.
|
|
|
|
@subsection ftp
|
|
@pindex ftp
|
|
|
|
The ftp service works as telnet does, with just one port being used. By
|
|
default only kerberos authenticated connections are allowed. You can
|
|
specify additional levels that are thus allowed with these options:
|
|
|
|
@table @asis
|
|
@item @kbd{-a otp}
|
|
Allow one-time passwords (@pxref{One-Time Passwords}).
|
|
@item @kbd{-a ftp}
|
|
Allow anonymous login (as user ``ftp'' or ``anonymous'').
|
|
@item @kbd{-a safe}
|
|
The same as @kbd{-a ftp}, for backwards compatibility.
|
|
@item @kbd{-a plain}
|
|
Allow clear-text passwords.
|
|
@item @kbd{-a none}
|
|
The same as @kbd{-a ftp -a plain}.
|
|
@item @kbd{-a user}
|
|
A no-op, also there for backwards compatibility reasons.
|
|
@end table
|
|
|
|
When running anonymous ftp you should read the man page on @code{ftpd}
|
|
which explains how to set it up.
|
|
|
|
@subsection pop
|
|
@pindex popper
|
|
|
|
The Post Office Protocol (POP) is used to retrieve mail from the mail
|
|
hub. The @code{popper} program implements the standard POP3 protocol
|
|
and the kerberised KPOP. Use the @samp{-k} option to run the kerberos
|
|
version of the protocol. This service should only be run on your mail
|
|
hub.
|
|
|
|
@subsection kx
|
|
@pindex kx
|
|
|
|
@code{kx} allows you to run X over a kerberos-authenticated and
|
|
encrypted connection. This program is used by @code{rxtelnet},
|
|
@code{tenletxr}, and @code{rxterm}.
|
|
|
|
If you have some strange kind of operating system with X libraries that
|
|
do not allow you to use unix-sockets, you need to specify the @samp{-t}
|
|
@pindex kxd
|
|
option to @code{kxd}. Otherwise it should be sufficient by adding the
|
|
daemon in @file{inetd.conf}.
|
|
|
|
@subsection kauth
|
|
@pindex kauth
|
|
|
|
This service allows you to create tickets on a remote host. To
|
|
enable it just insert the corresponding line in @file{inetd.conf}.
|
|
|
|
@section srvtabs
|
|
@pindex srvtab
|
|
|
|
In the same way every user needs to have a password registered with
|
|
the kerberos server, every service needs to have a shared key with the
|
|
kerberos server. The service keys are stored in a file, usually called
|
|
@file{/etc/srvtab}. This file should not be readable to anyone but
|
|
root, in order to keep the key from being divulged. The name of this principal
|
|
in the kerberos database is usually the service name and the hostname. Examples
|
|
of such principals are @samp{pop.@var{hostname}} and
|
|
@samp{rcmd.@var{hostname}}. (rcmd comes from ``remote command''.) Here
|
|
is a list of the most commonly used srvtab types and what programs use them.
|
|
|
|
@table @asis
|
|
@item rcmd.@var{hostname}
|
|
rsh, rcp, rlogin, telnet, kauth, su, kx
|
|
@item rcmd.kerberos
|
|
kprop
|
|
@item pop.@var{hostname}
|
|
popper, movemail, push
|
|
@item sample.@var{hostname}
|
|
sample_server, simple_server
|
|
@item changepw.kerberos
|
|
kadmin, kpasswd
|
|
@item krbtgt.@var{realm}
|
|
kerberos (not stored in any srvtab)
|
|
@item ftp.@var{hostname}
|
|
ftp (also tries with rcmd.@var{hostname})
|
|
@item zephyr.zephyr
|
|
Zephyr
|
|
@item afs or afs.@var{cellname}
|
|
Andrew File System
|
|
@end table
|
|
|
|
To create these keys you will use the the @code{ksrvutil} program.
|
|
Perform the
|
|
@pindex ksrvutil
|
|
following:
|
|
|
|
@example
|
|
@cartouche
|
|
bar# ksrvutil -p nisse.admin get
|
|
Name [rcmd]: <>
|
|
Instance [bar]: <>
|
|
Realm [FOO.SE]: <>
|
|
Is this correct? (y,n) [y] <>
|
|
Add more keys? (y,n) [n] <>
|
|
Password for nisse.admin@@FOO.SE: <nisse.admin's password>
|
|
Written rcmd.bar
|
|
rcmd.bar@@FOO.SE
|
|
Old keyfile in /etc/srvtab.old.
|
|
@end cartouche
|
|
@end example
|
|
|
|
@subsection Complete test of the kerberised services
|
|
|
|
Obtain a ticket on one machine (@samp{foo}) and use it to login with a
|
|
kerberised service to a second machine (@samp{bar}). The test should
|
|
look like this if successful:
|
|
|
|
@example
|
|
@cartouche
|
|
foo$ kinit nisse
|
|
eBones International (foo.foo.se)
|
|
Kerberos Initialization for "nisse"
|
|
Password: <nisse's password>
|
|
foo$ klist
|
|
Ticket file: /tmp/tkt4711
|
|
Principal: nisse@@FOO.SE
|
|
|
|
Issued Expires Principal
|
|
May 30 13:48:03 May 30 23:48:03 krbtgt.FOO.SE@@FOO.SE
|
|
foo$ telnet bar
|
|
Trying 17.17.17.17...
|
|
Connected to bar.foo.se
|
|
Escape character is '^]'.
|
|
[ Trying mutual KERBEROS4 ... ]
|
|
[ Kerberos V4 accepts you ]
|
|
[ Kerberos V4 challenge successful ]
|
|
bar$
|
|
@end cartouche
|
|
@end example
|
|
|
|
You can also try with @code{rsh}, @code{rcp}, @code{rlogin},
|
|
@code{rlogin -x}, and some other commands to see that everything is
|
|
working all right.
|
|
|
|
@node Install a slave kerberos server, Cross-realm functionality , Install the kerberised services, How to set up a realm
|
|
@section Install a slave kerberos server
|
|
|
|
It is desirable to have at least one backup (slave) server in case the
|
|
master server fails. It is possible to have any number of such slave
|
|
servers but more than three usually doesn't buy much more redundancy.
|
|
|
|
First select a good server machine. (@pxref{Choose a kerberos
|
|
server}).
|
|
|
|
On the master, add a @samp{rcmd.kerberos} (note, it should be literally
|
|
``kerberos'') principal (using @samp{ksrvutil get}). The
|
|
@pindex kprop
|
|
@code{kprop} program, running on the master, will use this when
|
|
authenticating to the
|
|
@pindex kpropd
|
|
@code{kpropd} daemons running on the slave servers. The @code{kpropd}
|
|
on the slave will use its @samp{rcmd.hostname} key for authenticating
|
|
the connection from the master. Therefore, the slave needs to have this
|
|
key in its srvtab, and it of course also needs to have enough of the
|
|
configuration files to act as a server. See @ref{Install the kerberised
|
|
services} for information on how to do this.
|
|
|
|
To summarize, the master should have a key for @samp{rcmd.kerberos} and
|
|
the slave one for @samp{rcmd.hostname}.
|
|
|
|
The slave will need the same master key as you used at the master.
|
|
|
|
On your master server, create a file, e.g. @file{/var/kerberos/slaves},
|
|
that contains the hostnames of your kerberos slave servers.
|
|
|
|
Start @code{kpropd} with @samp{kpropd -i} on your slave servers.
|
|
|
|
On your master server, create a dump of the database and then propagate
|
|
it.
|
|
|
|
@example
|
|
foo# kdb_util slave_dump /var/kerberos/slave_dump
|
|
foo# kprop
|
|
@end example
|
|
|
|
You should now have copies of the database on your slave servers. You
|
|
can verify this by issuing @samp{kdb_util dump @var{file}} on your
|
|
slave servers, and comparing with the original file on the master
|
|
server. Note that the entries will not be in the same order.
|
|
|
|
This procedure should be automated with a script run regularly by cron,
|
|
for instance once an hour.
|
|
|
|
Since the master and slave servers will use copies of the same
|
|
database, they need to use the same master key. Add the master key on
|
|
the slave with @code{kstash}. (@pxref{Set up the server})
|
|
|
|
To start the kerberos server on slaves, you first have to copy the
|
|
master key from the master server. You can do this either by remembering
|
|
the master password and issuing @samp{kstash}, or you can just copy the
|
|
keyfile. Remember that if you copy the file, do so on a safe media, not
|
|
over the network. Good means include floppy or paper. Paper is better,
|
|
since it is easier to swallow afterwards.
|
|
|
|
The kerberos server should be started with @samp{-s} on the slave
|
|
servers. This enables sanity checks, for example checking the time since
|
|
the last update from the master.
|
|
|
|
All changes to the database are made by @code{kadmind} at the master,
|
|
and then propagated to the slaves, so you should @strong{not} run
|
|
@code{kadmind} on the slaves.
|
|
|
|
Finally add the slave servers to
|
|
@file{/etc/krb.conf}. The clients will ask the servers in the order
|
|
specified by that file.
|
|
|
|
Consider adding CNAMEs to your slave servers, see @ref{Install the
|
|
configuration files}.
|
|
|
|
@node Cross-realm functionality , , Install a slave kerberos server, How to set up a realm
|
|
@section Cross-realm functionality
|
|
|
|
Suppose you are residing in the realm @samp{MY.REALM}, how do you
|
|
authenticate to a server in @samp{OTHER.REALM}? Having valid tickets in
|
|
@samp{MY.REALM} allows you to communicate with kerberised services in that
|
|
realm. However, the computer in the other realm does not have a secret
|
|
key shared with the kerberos server in your realm.
|
|
|
|
It is possible to add a shared key between two realms that trust each
|
|
other. When a client program, such as @code{telnet}, finds that the
|
|
other computer is in a different realm, it will try to get a ticket
|
|
granting ticket for that other realm, but from the local kerberos
|
|
server. With that ticket granting ticket, it will then obtain service
|
|
tickets from the kerberos server in the other realm.
|
|
|
|
To add this functionality you have to add a principal to each realm. The
|
|
principals should be @samp{krbtgt.OTHER.REALM} in @samp{MY.REALM}, and
|
|
@samp{krbtgt.MY.REALM} in @samp{OTHER.REALM}. The two different
|
|
principals should have the same key (and key version number). Remember
|
|
to transfer this key in a safe manner. This is all that is required.
|
|
|
|
@page
|
|
|
|
@example
|
|
@cartouche
|
|
blubb$ klist
|
|
Ticket file: /tmp/tkt3008
|
|
Principal: joda@@NADA.KTH.SE
|
|
|
|
Issued Expires Principal
|
|
Jun 7 02:26:23 Jun 7 12:26:23 krbtgt.NADA.KTH.SE@@NADA.KTH.SE
|
|
blubb$ telnet agat.e.kth.se
|
|
Trying 130.237.48.12...
|
|
Connected to agat.e.kth.se.
|
|
Escape character is '^]'.
|
|
[ Trying mutual KERBEROS4 ... ]
|
|
[ Kerberos V4 accepts you ]
|
|
[ Kerberos V4 challenge successful ]
|
|
Last login: Sun Jun 2 20:51:50 from emma.pdc.kth.se
|
|
|
|
agat$ exit
|
|
Connection closed by foreign host.
|
|
blubb$ klist
|
|
Ticket file: /tmp/tkt3008
|
|
Principal: joda@@NADA.KTH.SE
|
|
|
|
Issued Expires Principal
|
|
Jun 7 02:26:23 Jun 7 12:26:23 krbtgt.NADA.KTH.SE@@NADA.KTH.SE
|
|
Jun 7 02:26:50 Jun 7 12:26:50 krbtgt.E.KTH.SE@@NADA.KTH.SE
|
|
Jun 7 02:26:51 Jun 7 12:26:51 rcmd.agat@@E.KTH.SE
|
|
@end cartouche
|
|
@end example
|