On this page you will find instructions on how to set up a Trust Router on RedHat, CentOS, or Scientific Linux 6.
Contents
This guide assumes that you are using the latest available version of RHEL/CentOS/SL 6 - which at the time of writing this guide is 6.5.
System Preparation
Install CentOS
The first thing that is required is a CentOS machine - this can be physical or virtual.
- Install the operating system via usual mechanism (e.g., net boot CD, ISO in VMware/VirtualBox or the DVD image).
- Choose the following server install options: "Basic server”.
- Create/choose a secure root password and an initial system user account.
- Once installed, make sure you run a
yum makecache
andyum update
to ensure your system is fully up to date.
Tip
We would recommend using LVM when disk partitioning to allow easier partition/disk expansion on a live system.
Warning
After install, you will want to secure/lockdown the server as best practice dictates - for both the server and any extra software installed. This is beyond the remit of this guide but there are many guides available that provide information on how to secure your CentOS servers and applications.
Configure CentOS
Next, there are a few CentOS configuration options that need to be set in advance.
Networking configuration
For production deployments, it is recommended that the machine be assigned a static IP address.
For CentOS networking information please refer to the official Red Hat guide:
Firewall configuration
The following ports are required to be accessible from the outside world, both in the local firewall and in any external firewalls:
- 2083/tcp (for RadSec connections to other Moonshot entities)
- 12309/tcp (for Trust Router client connections - if using the Trust Router to broker trust relationships between entities)
Here are sample firewall rules that establish incoming and outgoing rules to both the Test and Live (Jisc Assent) Moonshot trust router infrastructures. If you connect to another Trust Router, adjust these rules to suit:
IP Tables sample firewall rules (Jisc Assent)
-A INPUT -m state --state NEW,ESTABLISHED,RELATED -m tcp -p tcp -s 0/0 --dst <IdP/RP Proxy IP address> --dport 2083 -j ACCEPT
-A OUTPUT -m state --state NEW,ESTABLISHED,RELATED -m tcp -p tcp -s <IdP/RP Proxy IP address> --dst 0/0 --dport 2083 -j ACCEPT
-A INPUT -m state --state NEW,ESTABLISHED,RELATED -m tcp -p tcp -s 212.219.179.130,212.219.179.131,212.219.179.138,212.219.179.146 --dst <IdP/RP Proxy IP address> --dport 12309 -j ACCEPT
-A OUTPUT -m state --state NEW,ESTABLISHED,RELATED -m tcp -p tcp -s <IdP/RP Proxy IP address> --dst 212.219.179.130,212.219.179.131,212.219.179.138,212.219.179.146 --dport 12309 -j ACCEPT
IP Tables sample firewall rules (Test Network)
-A INPUT -m state --state NEW,ESTABLISHED,RELATED -m tcp -p tcp -s 0/0 --dst <IdP/RP Proxy IP address> --dport 2083 -j ACCEPT
-A OUTPUT -m state --state NEW,ESTABLISHED,RELATED -m tcp -p tcp -s <IdP/RP Proxy IP address> --dst 0/0 --dport 2083 -j ACCEPT
-A INPUT -m state --state NEW,ESTABLISHED,RELATED -m tcp -p tcp -s 13.79.134.211,13.79.128.103,52.169.31.104 --dst <IdP/RP Proxy IP address> --dport 12309 -j ACCEPT
-A OUTPUT -m state --state NEW,ESTABLISHED,RELATED -m tcp -p tcp -s <IdP/RP Proxy IP address> --dst 13.79.134.211,13.79.128.103,52.169.31.104 --dport 12309 -j ACCEPT
Add the Required Repositories
Supported versions
At the moment, CentOS/RHEL/SL 7 and 8 are supported.
Moonshot requires three yum
repositories to be added to the system - EPEL and the Shibboleth repositories (home of some required dependencies), and the Moonshot repository itself.
Install EPEL by running the following command:
yum install epel-release
Depending on your platform, the
epel-release
package is part of one of the optional repositories.On CentOS, it is part of the Extras repository. On RHEL, you must enable both the Optional and Extras repositories. For more information, visit the EPEL homepage.
On newer releases of Scientific Linux 7, the
epel-release
package does not exist. Useyum install yum-conf-epel
instead. For more information, see the Scientific Linux 7.2 release notes.Install the Moonshot repository information running one of the the following commands depending on your CentOS version:
This installs the Yum repository, the current Moonshot GPG key, and a package that can update both. This is the preferred method of deploying repository information.
Verifying the Moonshot GPG key
If you wish to verify the Moonshot GPG key's validity and integrity, please see the Packaging GPG Key for further details.
(Optional - Not required if you install the
noshib
versions) Install the official Shibboleth repository using one of the following commands, according to your CentOS version:
1. Install Trust Router
We’re now ready to install the Trust Router software and its required dependencies. Install the software by running the following command:
$ yum install trust_router moonshot-ui
2. Configure Trust Router
Next, we need to configure the Trust Router.
2.1. RadSec
2.1.1. APC TLS
First, you will need a copy of a client key and certificate (and appropriate CA) from the APC(s) that your Trust Router serves. Copy them onto the filesystem.
You can put these files anywhere on the file system, but this guide assumes you put them in /etc/pki/tls
. If you place them in a different location you will need to change the locations below as appropriate.
2.1.2. Connection to APC
Next, we need to configure the RadSec configuration for the APC. We do this by creating a file at /etc/radsec.conf
with the following:
realm gss-eap { type = "TLS" cacertfile = "/etc/pki/tls/tr-ca.crt" certfile = "/etc/pki/tls/tr-client.pem" certkeyfile = "/etc/pki/tls/tr-client.key" disable_hostname_check = yes server { hostname = "apc.moonshot.ja.net" service = "2083" secret = "radsec" } }
2.2. Trust Router
2.2.1. Daemon Configuration
Your Trust Router will need to have a few core configuration items set. To do this:
- Open the
/etc/sysconfig/trust_router
file for editing. Make sure the configuration items are correct. Items you will most likely have to change are:TR_DEFAULT_TEST_ACCEPTOR - this will need to be set to the (fully qualified) hostname of your Trust Router.
TR_DEFAULT_TEST_RPREALM - this will need to be set to the (fully qualified) hostname for your APC.
TR_DEFAULT_TEST_COMMUNITY - this will need to be set to the (fully qualified) hostname for your APC.
TR_DEFAULT_TEST_REALM - this will need to be set to the (fully qualified) hostname for your APC.
- Open the default instance's main configuration file at
/etc/trust_router/conf.d/default/main.cfg
for editing.- Change the hostname to the (fully qualified) hostname of your Trust Router.
- Change the port that it runs on, if necessary.
2.2.2. Moonshot Configuration
Moonshot, you say? Yes, Trust Router uses Moonshot to authenticate and secure all communications between Trust Router clients and servers. So, you will need to configure the trust router user to make use of the Moonshot flatstore (i.e. telling Moonshot that this is a special system account, not a regular user account), and you will need to import a set of credentials for your Trust Router to use.
Enable the trustrouter user to use the Moonshot UI flatstore:
$ echo "trustrouter" >> /etc/moonshot/flatstore-users
Import it using the moonshot-webp command (as the trustrouter user):
$ su - --shell=/bin/bash trustrouter $ unset DISPLAY $ moonshot-webp [path to credential file]
The credentials file will be given to you by the administrator of the APC.
2.2.3. Shibboleth
Shibboleth, you say? Yes, Shibboleth is used by the Moonshot components to be able to deal with incoming SAML. However, this feature typically isn't used in Trust Router, but its logging will appear in your Trust Router's log files. So, to simplify your log files, it is recommended that you silence the Shibboleth logging. To do this:
- Open
/etc/shibboleth/console.logger
for editing. Change WARN to NONE on the first line, i.e.
log4j.rootCategory=NONE, console
2.2.4. Default Peer
If your Trust Router is going to run in its own, standalone, trust network, then you can skip this step. If it is going to run in a wider trust network, then you can configure your Trust Router's default peer - i.e. the Trust Router it sends its clients to when they ask it to locate a Moonshot entity that your Trust Router doesn't know about. To do this:
Open
/etc/trust_router/conf.d/default/peering.cfg
for editing. Change the content as follows:{ "default_servers": [ "[hostname of trust router]" ] }
Example
If you were configuring your default Trust Router peer to be Janet's Trust Router at tr1.moonshot.ja.net, its
peering.cfg
file would look like this:{ "default_servers": [ "tr1.moonshot.ja.net" ] }
2.2.5. Restart your Trust Router
You are now ready to restart your Trust Router and test it. To do this:
As root, restart the Trust Router daemon:
$ service trust_router restart
3. Testing
service trustrouter status. Default should work, tr-test shouldn't.
4. Next Steps
At this point, you now have a Trust Router. Blimey.
/etc/trust_router/trusts.cfg with trust config