@c $Id: misc.texi,v 1.13 2003/03/30 21:30:59 lha Exp $ @node Things in search for a better place, Kerberos 4 issues, Setting up a realm, Top @chapter Things in search for a better place @section Making things work on Ciscos Modern versions of Cisco IOS has some support for authenticating via Kerberos 5. This can be used both by having the router get a ticket when you login (boring), and by using Kerberos authenticated telnet to access your router (less boring). The following has been tested on IOS 11.2(12), things might be different with other versions. Old versions are known to have bugs. To make this work, you will first have to configure your router to use Kerberos (this is explained in the documentation). A sample configuration looks like the following: @example aaa new-model aaa authentication login default krb5-telnet krb5 enable aaa authorization exec krb5-instance kerberos local-realm FOO.SE kerberos srvtab entry host/router.foo.se 0 891725446 4 1 8 012345678901234567 kerberos server FOO.SE 10.0.0.1 kerberos instance map admin 15 @end example This tells you (among other things) that when logging in, the router should try to authenticate with kerberised telnet, and if that fails try to verify a plain text password via a Kerberos ticket exchange (as opposed to a local database, RADIUS or something similar), and if that fails try the local enable password. If you're not careful when you specify the `login default' authentication mechanism, you might not be able to login at all. The `instance map' and `authorization exec' lines says that people with `admin' instances should be given `enabled' shells when logging in. The numbers after the principal on the `srvtab' line are principal type, time stamp (in seconds since 1970), key version number (4), keytype (1 == des), key length (always 8 with des), and then the key. To make the Heimdal KDC produce tickets that the Cisco can decode you might have to turn on the @samp{encode_as_rep_as_tgs_rep} flag in the KDC. You will also have to specify that the router can't handle anything but @samp{des-cbc-crc}. This can be done with the @samp{del_enctype} command of @samp{kadmin}. This all fine and so, but unless you have an IOS version with encryption (available only in the U.S) it doesn't really solve any problems. Sure you don't have to send your password over the wire, but since the telnet connection isn't protected it's still possible for someone to steal your session. This won't be fixed until someone adds integrity to the telnet protocol. A working solution would be to hook up a machine with a real operating system to the console of the Cisco and then use it as a backwards terminal server. @section Making things work on Transarc/OpenAFS AFS @subsection How to get a KeyFile @file{ktutil -k AFSKEYFILE:KeyFile get afs@@MY.REALM} or you can extract it with kadmin @example kadmin> ext -k AFSKEYFILE:/usr/afs/etc/KeyFile afs@@My.CELL.NAME @end example You have to make sure you have a @code{des-cbc-md5} encryption type since that is the key that will be converted. @subsection How to convert a srvtab to a KeyFile You need a @file{/usr/vice/etc/ThisCell} containing the cellname of you AFS-cell. @file{ktutil copy krb4:/root/afs-srvtab AFSKEYFILE:/usr/afs/etc/KeyFile}. If keyfile already exists, this will add the new key in afs-srvtab to KeyFile. @section Using 2b tokens with AFS @subsection What is 2b ? 2b is the name of the proposal that was implemented to give basic Kerberos 5 support to AFS in rxkad. Its not real Kerberos 5 support since it still uses fcrypt for data encryption and not Kerberos encryption types. Its only possible (in all cases) to do this for DES encryption types because only then the token (the AFS equivalent of a ticket) will be be smaller than the maximum size that can fit in the token cache in OpenAFS/Transarc client. Its so tight fit that some extra wrapping on the ASN1/DER encoding is removed from the Kerberos ticket. 2b uses a Kerberos 5 EncTicketPart instead of a Kerberos 4 ditto for the part of the ticket that is encrypted with the service's key. The client doesn't know what's inside the encrypted data so to the client it doesn't matter. To differentiate between Kerberos 4 tickets and Kerberos 5 tickets 2b uses a special kvno, 213 for 2b tokens and 255 for Kerberos 5 tokens. Its a requirement that all AFS servers that support 2b also support native Kerberos 5 in rxkad. @subsection Configuring Heimdal to use 2b tokens Support for 2b tokens are turned on for specific principals by adding them to the string list option @code{[kdc]use_2b} in the kdc's @file{krb5.conf} file. @example [kdc] use_2b = @{ afs@@SU.SE = yes afs/it.su.se@@SU.SE = yes @} @end example @subsection Configuring AFS clients There is no need to configure AFS clients. The only software that needs to be installed/upgrade is a Kerberos 5 enabled @file{afslog}.