Installing KDCs¶
When setting up Kerberos in a production environment, it is best to have multiple replica KDCs alongside with a master KDC to ensure the continued availability of the Kerberized services. Each KDC contains a copy of the Kerberos database. The master KDC contains the writable copy of the realm database, which it replicates to the replica KDCs at regular intervals. All database changes (such as password changes) are made on the master KDC. Replica KDCs provide Kerberos ticket-granting services, but not database administration, when the master KDC is unavailable. MIT recommends that you install all of your KDCs to be able to function as either the master or one of the replicas. This will enable you to easily switch your master KDC with one of the replicas if necessary (see Switching master and replica KDCs). This installation procedure is based on that recommendation.
Warning
- The Kerberos system relies on the availability of correct time information. Ensure that the master and all replica KDCs have properly synchronized clocks.
- It is best to install and run KDCs on secured and dedicated hardware with limited access. If your KDC is also a file server, FTP server, Web server, or even just a client machine, someone who obtained root access through a security hole in any of those areas could potentially gain access to the Kerberos database.
Install and configure the master KDC¶
Install Kerberos either from the OS-provided packages or from the source (See Building within a single tree).
Note
For the purpose of this document we will use the following names:
kerberos.mit.edu - master KDC
kerberos-1.mit.edu - replica KDC
ATHENA.MIT.EDU - realm name
.k5.ATHENA.MIT.EDU - stash file
admin/admin - admin principal
See MIT Kerberos defaults for the default names and locations of the relevant to this topic files. Adjust the names and paths to your system environment.
Edit KDC configuration files¶
Modify the configuration files, krb5.conf and kdc.conf, to reflect the correct information (such as domain-realm mappings and Kerberos servers names) for your realm. (See MIT Kerberos defaults for the recommended default locations for these files).
Most of the tags in the configuration have default values that will work well for most sites. There are some tags in the krb5.conf file whose values must be specified, and this section will explain those.
If the locations for these configuration files differs from the default ones, set KRB5_CONFIG and KRB5_KDC_PROFILE environment variables to point to the krb5.conf and kdc.conf respectively. For example:
export KRB5_CONFIG=/yourdir/krb5.conf
export KRB5_KDC_PROFILE=/yourdir/kdc.conf
krb5.conf¶
If you are not using DNS TXT records (see Mapping hostnames onto Kerberos realms), you must specify the default_realm in the [libdefaults] section. If you are not using DNS URI or SRV records (see Hostnames for KDCs and KDC Discovery), you must include the kdc tag for each realm in the [realms] section. To communicate with the kadmin server in each realm, the admin_server tag must be set in the [realms] section.
An example krb5.conf file:
[libdefaults]
default_realm = ATHENA.MIT.EDU
[realms]
ATHENA.MIT.EDU = {
kdc = kerberos.mit.edu
kdc = kerberos-1.mit.edu
admin_server = kerberos.mit.edu
}
kdc.conf¶
The kdc.conf file can be used to control the listening ports of the KDC and kadmind, as well as realm-specific defaults, the database type and location, and logging.
An example kdc.conf file:
[kdcdefaults]
kdc_listen = 88
kdc_tcp_listen = 88
[realms]
ATHENA.MIT.EDU = {
kadmind_port = 749
max_life = 12h 0m 0s
max_renewable_life = 7d 0h 0m 0s
master_key_type = aes256-cts
supported_enctypes = aes256-cts:normal aes128-cts:normal
# If the default location does not suit your setup,
# explicitly configure the following values:
# database_name = /var/krb5kdc/principal
# key_stash_file = /var/krb5kdc/.k5.ATHENA.MIT.EDU
# acl_file = /var/krb5kdc/kadm5.acl
}
[logging]
# By default, the KDC and kadmind will log output using
# syslog. You can instead send log output to files like this:
kdc = FILE:/var/log/krb5kdc.log
admin_server = FILE:/var/log/kadmin.log
default = FILE:/var/log/krb5lib.log
Replace ATHENA.MIT.EDU
and kerberos.mit.edu
with the name of
your Kerberos realm and server respectively.
Note
You have to have write permission on the target directories (these directories must exist) used by database_name, key_stash_file, and acl_file.
Create the KDC database¶
You will use the kdb5_util command on the master KDC to create the Kerberos database and the optional stash file.
Note
If you choose not to install a stash file, the KDC will prompt you for the master key each time it starts up. This means that the KDC will not be able to start automatically, such as after a system reboot.
kdb5_util will prompt you for the master password for the Kerberos database. This password can be any string. A good password is one you can remember, but that no one else can guess. Examples of bad passwords are words that can be found in a dictionary, any common or popular name, especially a famous person (or cartoon character), your username in any form (e.g., forward, backward, repeated twice, etc.), and any of the sample passwords that appear in this manual. One example of a password which might be good if it did not appear in this manual is “MITiys4K5!”, which represents the sentence “MIT is your source for Kerberos 5!” (It’s the first letter of each word, substituting the numeral “4” for the word “for”, and includes the punctuation mark at the end.)
The following is an example of how to create a Kerberos database and
stash file on the master KDC, using the kdb5_util command.
Replace ATHENA.MIT.EDU
with the name of your Kerberos realm:
shell% kdb5_util create -r ATHENA.MIT.EDU -s
Initializing database '/usr/local/var/krb5kdc/principal' for realm 'ATHENA.MIT.EDU',
master key name 'K/M@ATHENA.MIT.EDU'
You will be prompted for the database Master Password.
It is important that you NOT FORGET this password.
Enter KDC database master key: <= Type the master password.
Re-enter KDC database master key to verify: <= Type it again.
shell%
This will create five files in LOCALSTATEDIR/krb5kdc
(or at the locations specified
in kdc.conf):
- two Kerberos database files,
principal
, andprincipal.ok
- the Kerberos administrative database file,
principal.kadm5
- the administrative database lock file,
principal.kadm5.lock
- the stash file, in this example
.k5.ATHENA.MIT.EDU
. If you do not want a stash file, run the above command without the -s option.
For more information on administrating Kerberos database see Operations on the Kerberos database.
Add administrators to the ACL file¶
Next, you need create an Access Control List (ACL) file and put the
Kerberos principal of at least one of the administrators into it.
This file is used by the kadmind daemon to control which
principals may view and make privileged modifications to the Kerberos
database files. The ACL filename is determined by the acl_file
variable in kdc.conf; the default is LOCALSTATEDIR/krb5kdc
/kadm5.acl
.
For more information on Kerberos ACL file see kadm5.acl.
Add administrators to the Kerberos database¶
Next you need to add administrative principals (i.e., principals who are allowed to administer Kerberos database) to the Kerberos database. You must add at least one principal now to allow communication between the Kerberos administration daemon kadmind and the kadmin program over the network for further administration. To do this, use the kadmin.local utility on the master KDC. kadmin.local is designed to be run on the master KDC host without using Kerberos authentication to an admin server; instead, it must have read and write access to the Kerberos database on the local filesystem.
The administrative principals you create should be the ones you added to the ACL file (see Add administrators to the ACL file).
In the following example, the administrative principal admin/admin
is created:
shell% kadmin.local
kadmin.local: addprinc admin/admin@ATHENA.MIT.EDU
WARNING: no policy specified for "admin/admin@ATHENA.MIT.EDU";
assigning "default".
Enter password for principal admin/admin@ATHENA.MIT.EDU: <= Enter a password.
Re-enter password for principal admin/admin@ATHENA.MIT.EDU: <= Type it again.
Principal "admin/admin@ATHENA.MIT.EDU" created.
kadmin.local:
Start the Kerberos daemons on the master KDC¶
At this point, you are ready to start the Kerberos KDC (krb5kdc) and administrative daemons on the Master KDC. To do so, type:
shell% krb5kdc
shell% kadmind
Each server daemon will fork and run in the background.
Note
Assuming you want these daemons to start up automatically at
boot time, you can add them to the KDC’s /etc/rc
or
/etc/inittab
file. You need to have a
stash file in order to do this.
You can verify that they started properly by checking for their startup messages in the logging locations you defined in krb5.conf (see [logging]). For example:
shell% tail /var/log/krb5kdc.log
Dec 02 12:35:47 beeblebrox krb5kdc[3187](info): commencing operation
shell% tail /var/log/kadmin.log
Dec 02 12:35:52 beeblebrox kadmind[3189](info): starting
Any errors the daemons encounter while starting will also be listed in the logging output.
As an additional verification, check if kinit succeeds against the principals that you have created on the previous step (Add administrators to the Kerberos database). Run:
shell% kinit admin/admin@ATHENA.MIT.EDU
Install the replica KDCs¶
You are now ready to start configuring the replica KDCs.
Note
Assuming you are setting the KDCs up so that you can easily switch the master KDC with one of the replicas, you should perform each of these steps on the master KDC as well as the replica KDCs, unless these instructions specify otherwise.
Create host keytabs for replica KDCs¶
Each KDC needs a host
key in the Kerberos database. These keys
are used for mutual authentication when propagating the database dump
file from the master KDC to the secondary KDC servers.
On the master KDC, connect to administrative interface and create the
host principal for each of the KDCs’ host
services. For example,
if the master KDC were called kerberos.mit.edu
, and you had a
replica KDC named kerberos-1.mit.edu
, you would type the
following:
shell% kadmin
kadmin: addprinc -randkey host/kerberos.mit.edu
NOTICE: no policy specified for "host/kerberos.mit.edu@ATHENA.MIT.EDU"; assigning "default"
Principal "host/kerberos.mit.edu@ATHENA.MIT.EDU" created.
kadmin: addprinc -randkey host/kerberos-1.mit.edu
NOTICE: no policy specified for "host/kerberos-1.mit.edu@ATHENA.MIT.EDU"; assigning "default"
Principal "host/kerberos-1.mit.edu@ATHENA.MIT.EDU" created.
It is not strictly necessary to have the master KDC server in the Kerberos database, but it can be handy if you want to be able to swap the master KDC with one of the replicas.
Next, extract host
random keys for all participating KDCs and
store them in each host’s default keytab file. Ideally, you should
extract each keytab locally on its own KDC. If this is not feasible,
you should use an encrypted session to send them across the network.
To extract a keytab directly on a replica KDC called
kerberos-1.mit.edu
, you would execute the following command:
kadmin: ktadd host/kerberos-1.mit.edu
Entry for principal host/kerberos-1.mit.edu with kvno 2, encryption
type aes256-cts-hmac-sha1-96 added to keytab FILE:/etc/krb5.keytab.
Entry for principal host/kerberos-1.mit.edu with kvno 2, encryption
type aes128-cts-hmac-sha1-96 added to keytab FILE:/etc/krb5.keytab.
Entry for principal host/kerberos-1.mit.edu with kvno 2, encryption
type des3-cbc-sha1 added to keytab FILE:/etc/krb5.keytab.
Entry for principal host/kerberos-1.mit.edu with kvno 2, encryption
type arcfour-hmac added to keytab FILE:/etc/krb5.keytab.
If you are instead extracting a keytab for the replica KDC called
kerberos-1.mit.edu
on the master KDC, you should use a dedicated
temporary keytab file for that machine’s keytab:
kadmin: ktadd -k /tmp/kerberos-1.keytab host/kerberos-1.mit.edu
Entry for principal host/kerberos-1.mit.edu with kvno 2, encryption
type aes256-cts-hmac-sha1-96 added to keytab FILE:/etc/krb5.keytab.
Entry for principal host/kerberos-1.mit.edu with kvno 2, encryption
type aes128-cts-hmac-sha1-96 added to keytab FILE:/etc/krb5.keytab.
The file /tmp/kerberos-1.keytab
can then be installed as
/etc/krb5.keytab
on the host kerberos-1.mit.edu
.
Configure replica KDCs¶
Database propagation copies the contents of the master’s database, but does not propagate configuration files, stash files, or the kadm5 ACL file. The following files must be copied by hand to each replica (see MIT Kerberos defaults for the default locations for these files):
- krb5.conf
- kdc.conf
- kadm5.acl
- master key stash file
Move the copied files into their appropriate directories, exactly as on the master KDC. kadm5.acl is only needed to allow a replica to swap with the master KDC.
The database is propagated from the master KDC to the replica KDCs via
the kpropd daemon. You must explicitly specify the
principals which are allowed to provide Kerberos dump updates on the
replica machine with a new database. Create a file named kpropd.acl
in the KDC state directory containing the host
principals for each
of the KDCs:
host/kerberos.mit.edu@ATHENA.MIT.EDU
host/kerberos-1.mit.edu@ATHENA.MIT.EDU
Note
If you expect that the master and replica KDCs will be switched at some point of time, list the host principals from all participating KDC servers in kpropd.acl files on all of the KDCs. Otherwise, you only need to list the master KDC’s host principal in the kpropd.acl files of the replica KDCs.
Then, add the following line to /etc/inetd.conf
on each KDC
(adjust the path to kpropd):
krb5_prop stream tcp nowait root /usr/local/sbin/kpropd kpropd
You also need to add the following line to /etc/services
on each
KDC, if it is not already present (assuming that the default port is
used):
krb5_prop 754/tcp # Kerberos replica propagation
Restart inetd daemon.
Alternatively, start kpropd as a stand-alone daemon. This is required when incremental propagation is enabled.
Now that the replica KDC is able to accept database propagation, you’ll need to propagate the database from the master server.
NOTE: Do not start the replica KDC yet; you still do not have a copy of the master’s database.
Propagate the database to each replica KDC¶
First, create a dump file of the database on the master KDC, as follows:
shell% kdb5_util dump /usr/local/var/krb5kdc/replica_datatrans
Then, manually propagate the database to each replica KDC, as in the following example:
shell% kprop -f /usr/local/var/krb5kdc/replica_datatrans kerberos-1.mit.edu
Database propagation to kerberos-1.mit.edu: SUCCEEDED
You will need a script to dump and propagate the database. The following is an example of a Bourne shell script that will do this.
Note
Remember that you need to replace /usr/local/var/krb5kdc
with the name of the KDC state directory.
#!/bin/sh
kdclist = "kerberos-1.mit.edu kerberos-2.mit.edu"
kdb5_util dump /usr/local/var/krb5kdc/replica_datatrans
for kdc in $kdclist
do
kprop -f /usr/local/var/krb5kdc/replica_datatrans $kdc
done
You will need to set up a cron job to run this script at the intervals you decided on earlier (see Database propagation).
Now that the replica KDC has a copy of the Kerberos database, you can start the krb5kdc daemon:
shell% krb5kdc
As with the master KDC, you will probably want to add this command to
the KDCs’ /etc/rc
or /etc/inittab
files, so they will start
the krb5kdc daemon automatically at boot time.
Propagation failed?¶
You may encounter the following error messages. For a more detailed discussion on possible causes and solutions click on the error link to be redirected to Troubleshooting section.
Add Kerberos principals to the database¶
Once your KDCs are set up and running, you are ready to use kadmin to load principals for your users, hosts, and other services into the Kerberos database. This procedure is described fully in Adding, modifying and deleting principals.
You may occasionally want to use one of your replica KDCs as the master. This might happen if you are upgrading the master KDC, or if your master KDC has a disk crash. See the following section for the instructions.
Switching master and replica KDCs¶
You may occasionally want to use one of your replica KDCs as the master. This might happen if you are upgrading the master KDC, or if your master KDC has a disk crash.
Assuming you have configured all of your KDCs to be able to function as either the master KDC or a replica KDC (as this document recommends), all you need to do to make the changeover is:
If the master KDC is still running, do the following on the old master KDC:
- Kill the kadmind process.
- Disable the cron job that propagates the database.
- Run your database propagation script manually, to ensure that the replicas all have the latest copy of the database (see Propagate the database to each replica KDC).
On the new master KDC:
- Start the kadmind daemon (see Start the Kerberos daemons on the master KDC).
- Set up the cron job to propagate the database (see Propagate the database to each replica KDC).
- Switch the CNAMEs of the old and new master KDCs. If you can’t do this, you’ll need to change the krb5.conf file on every client machine in your Kerberos realm.
Incremental database propagation¶
If you expect your Kerberos database to become large, you may wish to set up incremental propagation to replica KDCs. See Incremental database propagation for details.