Shorewall and Bridged Firewalls
Tom
Eastep
2004-04-12
2004
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
.
Background
Systems where Shorewall runs normally function as
routers. In the context of the Open System
Interconnect (OSI) reference model, a router operates at layer 3.
Beginning with Shorewall version 2.0.1, Shorewall may also be deployed on
a GNU Linux System that acts as a bridge. Bridges
are layer-2 devices in the OSI model (think of a bridge as an ethernet
switch).
Some differences between routers and bridges are:
Routers determine packet destination based on the destination IP
address while bridges route traffic based on the destination MAC
address in the ethernet frame.
As a consequence of the first difference, routers can be
connected to more than one IP network while a bridge may be part of
only a single network.
A router cannot forward broadcast packets while a bridge can.
Requirements
In order to use Shorewall with a bridging firewall:
Your kernel must contain bridge support (CONFIG_BRIDGE=m or
CONFIG_BRIDGE=y).
Your kernel must contain Netfilter physdev match support
(CONFIG_IP_NF_MATCH_PHYSDEV=m or CONFIG_IP_NF_MATCH_PHYSDEV=y).
Physdev match is standard in the 2.6 kernel series but must be patched
into the 2.4 kernels (see http://bridge.sf.net).
Your iptables must contain physdev match support. iptables 1.2.9
and later contain this support.
You must have the bridge utilities (bridge-utils) package
installed.
You must be running Shorewall 2.0.1 Beta 1 or later.
Application
The following diagram shows a typical application of a
bridge/firewall. There is already an existing router in place whose
internal interface supports a network and you want to insert a firewall
between the router and the systems in the local network. In the example
shown, the network uses RFC 1918 addresses but that is not a requirement;
the bridge would work exactly the same if public IP addresses were used
(remember that the bridge doesn't deal with IP addresses).
There are a several key differences in this setup and a normal
Shorewall configuration:
The Shorewall system (the Bridge/Firewall) has only a single IP
address even though it has two ethernet interfaces! The IP address is
configured on the bridge itself rather than on either of the network
cards.
The systems connected to the LAN are configured with the
router's IP address (192.168.1.254 in the above diagram) as their
default gateway.
traceroute doesn't detect the
Bridge/Firewall as an intermediate router.
If the router runs a DHCP server, the hosts connected to the LAN
can use that server without having dhcrelay running
on the Bridge/Firewall.
There are other possibilities here -- there could be a hub or switch
between the router and the Bridge/Firewall and there could be other
systems connected to that switch. All of the systems on the local side of
the router would still be configured with
IP addresses in 192.168.1.0/24 as shown below.
Configuring the Bridge
Configuring the bridge itself is quite simple and uses the
brctl utility from the bridge-utils package. Bridge
configuration information may be found at http://bridge.sf.net.
Unfortunately, Linux distributions don't have good bridge
configuration tools and the network configuration GUIs don't detect
the presence of bridge devices. You may refer to my configuration files
for an example of configuring a three-port bridge at system boot under
SuSE. Here is an excerpt from a Debian
/etc/network/interfaces file for a two-port bridge
with a static IP address:
auto br0
iface br0 inet static
address 192.168.1.253
netmask 255.255.255.0
network 192.168.1.0
broadcast 192.168.1.255
pre-up /sbin/ip link set eth0 up
pre-up /sbin/ip link set eth1 up
pre-up /usr/sbin/brctl addbr br0
pre-up /usr/sbin/brctl addif br0 eth0
pre-up /usr/sbin/brctl addif br0 eth1
While it is not a requirement to give the bridge an IP address,
doing so allows the bridge/firewall to access other systems and allows the
bridge/firewall to be managed remotely. The bridge must also have an IP
address for REJECT rules and policies to work correctly — otherwise REJECT
behaves the same as DROP.
The bridge may have its IP address assigned via DHCP. Here's an
example of an /etc/sysconfig/network/ifcfg-br0 file from a
SuSE system:
BOOTPROTO='dhcp'
REMOTE_IPADDR=''
STARTMODE='onboot'
UNIQUE='3hqH.MjuOqWfSZ+C'
WIRELESS='no'
MTU=''
Here's an /etc/sysconfig/network-scripts/ifcfg-br0 file for a
Mandrake system:
DEVICE=br0
BOOTPROTO=dhcp
ONBOOT=yes
On both the SuSE and Mandrake systems, a separate script is required
to configure the bridge itself (again see my
configuration files for an example - /etc/init.d/bridge).
Axel Westerhold has contributed this example of configuring a bridge
with a static IP address on a Fedora System (Core 1 and Core 2 Test 1).
Note that these files also configure the bridge itself so there is no need
for a separate bridge config script.
/etc/sysconfig/network-scripts/ifcfg-br0:
DEVICE=br0
TYPE=Bridge
IPADDR=192.168.50.14
NETMASK=255.255.255.0
ONBOOT=yes
/etc/sysconfig/network-scripts/ifcfg-eth0:DEVICE=eth0
TYPE=ETHER
BRIDGE=br0
ONBOOT=yes/etc/sysconfig/network-scripts/ifcfg-eth1:DEVICE=eth1
TYPE=ETHER
BRIDGE=br0
ONBOOT=yes
Users who successfully configure bridges on other distributions,
with static or dynamic IP addresses, are encouraged to send me their configuration so I
can post it here.
Configuring Shorewall
Bridging in Shorewall is enabled using the BRIDGING option in
/etc/shorewall/shorewall.conf:
BRIDGING=Yes
In the scenario pictured above, there would probably be two zones
defined -- one for the internet and one for the local LAN so in
/etc/shorewall/zones:
#ZONE DISPLAY COMMENTS
net Net Internet
loc Local Local networks
#LAST LINE - ADD YOUR ENTRIES ABOVE THIS ONE - DO NOT REMOVE
A conventional two-zone policy file is appropriate here —
/etc/shorewall/policy:
#SOURCE DEST POLICY LOG LIMIT:BURST
loc net ACCEPT
net all DROP info
all all REJECT info
#LAST LINE - ADD YOUR ENTRIES ABOVE THIS ONE - DO NOT REMOVE
Only the bridge device itself is configured with an IP address so
only that device is defined to Shorewall in /etc/shorewall/interfaces:
#ZONE INTERFACE BROADCAST OPTIONS
- br0 192.168.1.255
#LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVE
The zones are defined using the /etc/shorewall/hosts
file. Assuming that the router is connected to eth0 and the switch to eth1:
#ZONE HOST(S) OPTIONS
net br0:eth0
loc br0:eth1
#LAST LINE -- ADD YOUR ENTRIES BEFORE THIS LINE -- DO NOT REMOVE
When Shorewall is stopped, you want to allow only local traffic
through the bridge — /etc/shorewall/routestopped:
#INTERFACE HOST(S) OPTIONS
br0 192.168.1.0/24 routeback
#LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVE
The /etc/shorewall/rules file from the
two-interface sample is a good place to start for defining a set of
firewall rules.
Combination Router/Bridge
A system running Shorewall doesn't have to be exclusively a
bridge or a router -- it can act as both. Here's an example:
This is basically the same setup as shown in the Shorewall Setup Guide with the
exception that the DMZ is bridged rather than using Proxy ARP. Changes in
the configuration shown in the Setup Guide are as follows:
The /etc/shorewall/proxyarp file is empty
in this confiiguration.
The /etc/shorewall/interfaces file is as
follows:#ZONE INTERFACE BROADCAST OPTIONS
- br0 detect routefilter
loc eth1 detect
The /etc/shorewall/hosts file would have:
#ZONE HOSTS OPTIONS
net br0:eth0
dmz br0:eth2
Limitations
Bridging doesn' t work with some wireless cards — see http://bridge.sf.net.