Xen and Shorewall Tom Eastep 2006-02-02 2006 Thomas M. Eastep Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, with no Front-Cover, and with no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License.
Xen Network Environment Xen is a paravirtualization tool that allows you to run multiple virtual machines on one physical machine. It is available on a wide number of platforms and is included in recent SuSE distributions. Xen refers to the virtual machines as Domains. Domains are numbered with the first domain being domain 0, the second domain 1, and so on. Domain 0 is special because that is the domain created when to machine is booted. Additional domains are created using the xm create command from within Domain 0. Additional domains can also be created automatically at boot time by using the xendomains service. Xen virtualizes a network interface named eth0 This assumes the default Xen configuration created by xend and assumes that the host system has a single ethernet interface named eth0. in each domain. In domain 0, Xen also creates a bridge (xenbr0) and a number of virtual interfaces as shown in the following diagram. I use the term Extended Domain 0 to distinguish the bridge and virtual interfaces from domain 0 itself. That distinction is important when we try to apply Shorewall in this environment. The bridge has a number of ports: peth0 — This is the port that connects to the physical network interface in your system. vif0.0 — This is the bridge port that is used by traffic to/from Domain 0. vifX.0 — This is the bridge port that is used by traffic to/from Domain X.
Configuring Shorewall in Domain 0 As I state in the answer to Shorewall FAQ 2, I object to running servers in a local zone because if the server becomes compromised then there is no protection between that compromised server and the other local systems. Xen allows me to safely run Internet-accessible servers in my local zone by creating a firewall in (the Extended) Domain 0 to isolate the server(s) from the other local systems (including Domain 0). Here is an example. In this example, we will assume that the system is behind a second firewall that restricts incoming traffic so that we only have to worry about protecting the local lan from the systems running in domains other than domain 0. This is the real configuration which I run at shorewall.net.
/etc/shorewall/shorewall.conf Because Xen uses normal Linux bridging, you must enable bridge support in shorewall.conf
BRIDGING=Yes
/etc/shorewall/zones One thing strange about configuring Shorewall in this environment is that Domain 0 is defined as two different zones. It is defined as the firewall zone and it is also defined as "all systems connected to xenbr0:vif0.0. In this case, I call this second zone ursa (which is the name given to the virtual system running in Domain 0); that zone corresponds to Domain 0 as seen from the outside in the diagram above (see more below).
# OPTIONS OPTIONS fw firewall #Domain 0 ursa ipv4 #Domain 0 on the bridge dmz ipv4 #Server(s) running in Domains other than 0 net ipv4 #The local LAN and beyond #LAST LINE - ADD YOUR ENTRIES ABOVE THIS ONE - DO NOT REMOVE
/etc/shorewall/interfaces We must deal with two network interfaces. We must deal with the (virtualized) eth0 and we must also deal with the bridge (xenbr0) created by Xen.
#ZONE INTERFACE BROADCAST OPTIONS - xenbr0 - dhcp net eth0 detect dhcp #LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVE
/etc/shorewall/hosts Here we define the zones ursa and dmz and we extend the definition of the zone net.
#ZONE HOST(S) OPTIONS ursa xenbr0:vif0.0 dmz xenbr0:vif+ There is a bug in Shorewall versions prior to 3.0.4 that treats all bridge ports as if they had routeback specified. I recommend that you run a Shorewall verison > 3.0.3 if you run Xen. net xenbr0:peth0 #LAST LINE -- ADD YOUR ENTRIES BEFORE THIS LINE -- DO NOT REMOVE
Note that the net zone has two different interfaces. From the point of view of Domain 0 (which is where Shorewall runs), the net zone comprises everything except Domain 0. From the point of view of the Extended Domain 0, the net zone is everything connected (directly or indirectly) to the peth0 port on the bridge.
/etc/shorewall/policy The policies shown here effectively isolate Domains 1...N.
#SOURCE DEST POLICY LOG LIMIT:BURST # LEVEL all fw ACCEPT fw all ACCEPT ursa all ACCEPT net ursa ACCEPT net net NONE all all REJECT info #LAST LINE -- DO NOT REMOVE
/etc/shorewall/rules These rules determine the traffic allowed into and out of the dmz zone.
# # "Net' to DMZ # ACCEPT net dmz udp domain ACCEPT net dmz tcp www,smtp,smtps,domain,ssh,imap,rsync,https,imaps,ftp,10023,pop3,3128 Trcrt/ACCEPT net dmz # # DMZ to 'Net' # ACCEPT dmz net:!192.168.0.0/22 udp domain,ntp ACCEPT dmz net:!192.168.0.0/22 tcp echo,ftp,ssh,smtp,whois,domain,www,81,https,rsync,cvspserver,2702,2703,8080 ACCEPT dmz net:$POPSERVERS tcp pop3 Ping/ACCEPT dmz net Ping/ACCEPT dmz ursa
Here, 192.168.0.0/22 comprises my local network. From the point of view of Shorewall, the zone diagram is as shown in the following diagram. Note that the ursa zone subsumes the fw zone because the ursa zone is defined to be all systems that interface to xenbr0's vif0.0 port — it is the rules governing traffic to/from the ursa zone that protect the firewall in this configuration.