-First we need to install and configure moonshot, its dependencies, and a local RADIUS server for testing
-In a real deployment, a local RADIUS server is not needed, however it simplifies testing if one is available
-__gss-server__ and __gss-client__ are standard Kerberos diagnostic tools, which give us a lot of information that is helpful for debugging
+First we need to install and configure moonshot, its dependencies, and a local RADIUS server for testing<br />
+In a real deployment, a local RADIUS server is not needed, however it simplifies testing if one is available<br />
+__gss-server__ and __gss-client__ are standard Kerberos diagnostic tools, which give us a lot of information that is helpful for debugging<br />
Again, in a real deployment these are not required, but help with testing
This guide walks through deploying the client, IdP and SP portions of moonshot - depending on your target, some steps may be inappropriate.
__LD_LIBRARY_PATH__ has to have _/opt/moonshot/lib64/_ and _/usr/lib64/freeradius_ added to it.<br />
The best way to do this is create a file at _/etc/profile.d/moonshot.sh_, with the following:
- if [ [ $LD_LIBRARY_PATH != */opt/moonshot/lib64/:/usr/lib64/freeradius/* ] ]
+ if \[[ $LD_LIBRARY_PATH != */opt/moonshot/lib64/:/usr/lib64/freeradius/* ]]
then
export LD_LIBRARY_PATH=/opt/moonshot/lib64/:/usr/lib64/freeradius/:$LD_LIBRARY_PATH
fi
+After, either restart your shell session, or:
+
+ source /etc/profile.d/moonshot.sh
+
This is required as moonshot currently stores its modified libraries separately to the main system ones to avoid conflicts. This should not be necessary in the future.
Moonshot needs __EPEL__ for a few extra libraries (as pulling them from a semi-supported repository is preferable to repackaging).<br />
The simplest way to install EPEL is:
+ rpm -ivh http://download.fedoraproject.org/pub/epel/6/i386/epel-release-6-5.noarch.rpm
yum install epel-release
## Moonshot Packages
##Moonshot IdP
To install the diagnostic tools (only needed for testing) and the RADIUSd:
- yum install freeradius krb5-moonshot-devel
+ yum install freeradius krb5-moonshot-devel moonshot-gss-eap
+
Once FreeRADIUS is installed, a source of identity needs to be enabled - either the roaming network in the case of an ORPS, or AD/LDAP/etc for an IdP. For now, we'll just use a flat file. Open _/etc/raddb/users_ and locate the following fragment:
# User-Name = "%{request:User-Name}"
#}
+Finally, set the EAP type in use by moonshot (EAP-TTLS) by editing _/etc/raddb/eap.conf_
+
+ default_eap_type = md5
+
+FreeRADIUS now has a very minimal IdP/ORPS configuration, and can be started with:
+
+ service radiusd restart
+
+
+If you encounter any issues, you can run radius in debug mode to see what is going on internally.
+
+ service radiusd stop
+ radiusd -X
+
+When in debug mode, FreeRADIUS acts as an interactive program, so it should be run on a separate console, or under GNU Screen.
+
+##Moonshot Proper
+First we need a minimal _/etc/radsec.conf_
+
+ dictionary = "/etc/raddb/dictionary"
+
+ realm gss-eap {
+ type = "UDP"
+ timeout = 5
+ retries = 3
+ server {
+ hostname = "127.0.0.1"
+ service = "1812"
+ secret = "testing123"
+ }
+ }
+
+This tells the moonshot SP where to find a RADIUS server for authentication - in this case, we will use the local server just configured.<br />
+Moonshot will ultimately use RADSEC for communicating with the radius server – in which case you would use __transport="TCP"__ in _/etc/radsc.conf_<br />
+Ultimately, the final values depend on the deployment – probably the address, port and secret used by your ORPS.
+
+###gss_eap_id
+
+Next, a file is created in the home directory at _~/.gss_eap_id_ – this is the file that moonshot looks in for credentials.
+The format is very simple – username followed by a password. For now, set it to:
+ steve
+ testing
+
+In a deployment with a GUI, this file is replaced by the Moonshot Identity Selector. It is conceivable in the future that the Identity Selector GUI will be supplemented with a curses-like UI, or other mechanism allowing console usage.
+
+###Shibboleth
+
+Moonshot uses _libshib_ to parse RADIUS and SAML attributes – SAML assertions can be embedded inside RADIUS responses by the IdP, allowing an ORPS to exercise a very fine-grained authorization policy.
+In the demo we just use a very simple example – mapping the _Chargeable-User-Identity_ to a local user account, but in a real deployment you could map a SAML attribute to the user account just as easily.
+
+Delete _/etc/shibboleth/attribute-map.xml_ and replace it with:
+
+ <Attributes xmlns="urn:mace:shibboleth:2.0:attribute-map" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
+ <GSSAPIAttribute name="urn:ietf:params:gss-eap:radius-avp urn:x-radius:89" id="local-login-user"/>
+ </Attributes>
+
+In this case, 89 corresponds to _Chargeable-User-Identity_, which is mapped to _local-login-user_, which sets the local account that the user will be given access to.
+
+To load the moonshot extensions, under the root node in _/etc/shibboleth/shibboleth2.xml_, add:
+ <Extensions>
+ <Library path="plugins.so" fatal="true"/>
+ </Extensions>
+
+Further down the same file, find this line:
+
+ <AttributeExtractor type="XML" validate="true" path="attribute-map.xml"/>
+
+Directly underneath it, add:
+
+ <AttributeExtractor type="GSSAPI" validate="true" path="attribute-map.xml"/>
+
+Note that this file is sensitive to the order of statements.
+
+###/etc/gss/mech
+
+This file tells moonshot what encryption options are valid for use with GSS.
+
+ #
+ # Sample mechanism glue configuration for EAP GSS mechanism.
+ #
+ # Any encryption type supported by Kerberos can be defined as the
+ # last element of the OID arc.
+ #
+ eap-aes128 1.3.6.1.4.1.5322.22.1.17 mech_eap.so
+ eap-aes256 1.3.6.1.4.1.5322.22.1.18 mech_eap.so
+
+##Testing Functionality
+
+As mentioned earlier, we will be using the Kerberos test tools to make sure that things are working.<br />
+To start the _gss-server_, run:
+ /opt/moonshot/sbin/gss-server host@localhost &
+
+There are two ways to start _gss-client_ – the first specifies an encryption method to use by its OID 1.3.6.1.4.1.5322.22.1.18 (as seen in /etc/gss/mech):
+ /opt/moonshot/bin/gss-client -mech "{1 3 6 1 4 1 5322 22 1 18}" 127.0.0.1 host@localhost bar
+
+
+The second uses __Simple and Protected GSSAPI Negotiation Mechanism (SPNEGO)__<br />
+This chooses the "best" mutually-agreeable encryption method for between client and server. To invoke the client using __SPNEGO__, use:
+ /opt/moonshot/bin/gss-client -spnego 127.0.0.1 host@localhost bar
+
+##Sample Output
+
+ Attribute local-login-user Authenticated Complete
+
+ moonshot
+
+ 6d6f6f6e73686f74
+
+ UID: 501
+ Accepted connection: "steve"
+ Sending init_sec_context token (size=150)...continue needed...
+
+ context flag: GSS_C_MUTUAL_FLAG
+ context flag: GSS_C_REPLAY_FLAG
+ context flag: GSS_C_SEQUENCE_FLAG
+ context flag: GSS_C_CONF_FLAG
+ context flag: GSS_C_INTEG_FLAG
+ "steve" to "host/moonbuildcentos.dev.ja.net", lifetime -1, flags 13e, locally initiated, open
+ Name type of source name is { 1 2 840 113554 1 2 1 1 }.
+ Mechanism { 1 3 6 1 5 5 2 } supports 4 names
+ 0: { 1 2 840 113554 1 2 1 1 }
+ 1: { 1 2 840 113554 1 2 1 2 }
+ 2: { 1 2 840 113554 1 2 1 3 }
+ 3: { 1 2 840 113554 1 2 1 4 }
+ Received message: "testing"
+ Signature verified.
+ NOOP token
+
+Running _gss-client_ produces a massive amount of output.<br />
+The important part is at the end – you should see output similar to what is on the previous slide.<br />
+If you do not see the line:
+ Attribute local-login-user Authenticated Complete
+Then attribute mapping is not functioning properly, and you need to check your shibboleth configuration.
+
+##SSH
+To install moonshot-enabled SSH:
+
+ yum install openssh-moonshot-clients openssh-moonshot-server
+
+
+Inside _/etc/ssh/sshd\_config_, and if these values are not set already:<br />
+Uncomment __UsePrivilegeSeparation__ and set it to __‘no’__
+
+ UsePriviligeSeparation no
+
+Uncomment __GSSAPIAuthentication__ and set it to __‘yes’__
+
+ GSSAPIAuthentication yes
+
+Uncomment __GSSAPIKeyExchange__ and set it to __‘yes’__
+
+ GSSAPIKeyExchange yes
+
+Inside _/etc/ssh/ssh\_config_ and if these values are not set already:<br />
+Uncomment __GSSAPIAuthentication__ and set it to __‘yes’__
+
+ GSSAPIAuthentication yes
+
+Uncomment __GSSAPIKeyExchange__ and set it to __‘yes’__
+
+ GSSAPIKeyExchange yes
+
+###Running SSH
+
+Finally, we need to start sshd on a seperate port:
+
+ /opt/moonshot/sbin/sshd –p 2222
+
+At this time we do not recommend running __openssh-moonshot__ as the systemwide SSH client or server – it should be installed alongside the the standard SSH client and server.<br />
+Also note, that sshd must be invoked with its full path, i.e. _/opt/moonshot/sbin/sshd._
+
+Finally, try connecting with the following:
+
+ /opt/moonshot/bin/ssh –p 2222 –l "" 127.0.0.1
+
+With any luck, magic happens and you are logged in as the user specified in your _Chargeable-User-Identity_!<br />
+After successfully logging in, don’t forget to type __exit__ to end the SSH session and return to the root shell.<br />
+Note in the SSH client command, the option __-l ""__ – this signifies that no username is to be sent to the SSH server.
+##Remote IdP
+This is left for an exercise for the user - at this stage it should just be a case of changing _/etc/radsec.conf_ to point at the right RADIUSd