IPSEC Tunnels
Tom
Eastep
2004-12-23
2001-2004
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
.
This documentation is incomplete regarding using IPSEC and the 2.6
Kernel. Netfilter currently lacks full support for the 2.6 kernel's
implementation of IPSEC. Until that implementation is complete, only a
simple network-network tunnel is described for 2.6.
UPDATE: Some distributions such as SuSE are
now shipping Kernels and iptables with the IPSEC-Netfilter patches and
policy match support. Check this
article for information concerning this support and
Shorewall.
Preliminary Reading
I recommend reading the VPN
Basics article if you plan to implement any type of VPN.
Configuring FreeS/Wan
There is an excellent guide to configuring IPSEC tunnels at http://jixen.tripod.com/. I highly
recommend that you consult that site for information about configuring
FreeS/Wan.
IPSEC and Proxy ARP do not work unless you are running Shorewall
2.0.1 Beta 3 or later or unless you have installed the fix to Shorewall
2.0.0 available from the Errata
Page.
The documentation below assumes that you have disabled
opportunistic encryption feature in FreeS/Wan 2.0 using the following
additional entries in ipsec.conf:
conn block
auto=ignore
conn private
auto=ignore
conn private-or-clear
auto=ignore
conn clear-or-private
auto=ignore
conn clear
auto=ignore
conn packetdefault
auto=ignore
For further information see http://www.freeswan.org/freeswan_trees/freeswan-2.03/doc/policygroups.html.
IPSec Gateway on the Firewall System
Suppose that we have the following sutuation:
We want systems in the 192.168.1.0/24 sub-network to be able to
communicate with systems in the 10.0.0.0/8 network. We assume that on both
systems A and B, eth0 is the internet interface.
To make this work, we need to do two things:
Open the firewall so that the IPSEC tunnel can be established
(allow the ESP and AH protocols and UDP Port 500).
Allow traffic through the tunnel.
Opening the firewall for the IPSEC tunnel is accomplished by adding
an entry to the /etc/shorewall/tunnels file.
In /etc/shorewall/tunnels on system A, we need the following
/etc/shorewall/tunnels - System A
TYPE
ZONE
GATEWAY
GATEWAY ZONE
ipsec
net
134.28.54.2
In /etc/shorewall/tunnels on system B, we would have:
/etc/shorewall/tunnels - System B
TYPE
ZONE
GATEWAY
GATEWAY ZONE
ipsec
net
206.161.148.9
If either of the endpoints is behind a NAT gateway then the
tunnels file entry on the other
endpoint should specify a tunnel type of ipsecnat rather than ipsec and
the GATEWAY address should specify the external address of the NAT
gateway.
You need to define a zone for the remote subnet or include it in
your local zone. In this example, we'll assume that you have created a
zone called vpn
to represent the remote subnet. Note that
you should define the vpn zone before the net zone.
/etc/shorewall/zones - Systems A and B
ZONE
DISPLAY
COMMENTS
vpn
VPN
Remote Subnet
net
Internet
The big bad internet
If you are running kernel
2.4:
At both systems, ipsec0 would be included in
/etc/shorewall/interfaces as a vpn
interface:
/etc/shorewall/interfaces - Systems A and B
ZONE
INTERFACE
BROADCAST
OPTIONS
vpn
ipsec0
If you are running kernel
2.6:
It is essential that the
vpn zone be declared before the
net zone in
/etc/shorewall/zones.
Remember the assumption that both systems A and B have eth0 as
their internet interface.
You must define the vpn zone using the /etc/shorewall/hosts
file.
/etc/shorewall/hosts - System A
ZONE
HOSTS
OPTIONS
vpn
eth0:10.0.0.0/8
/etc/shorewall/hosts - System B
ZONE
HOSTS
OPTIONS
vpn
eth0:192.168.1.0/24
In addition, if you are using Masquerading
or SNAT on your firewalls, you need to elmiinate the remote
network from Masquerade/SNAT. These entries replace your current masquerade/SNAT entries for
the local networks.
/etc/shorewall/masq - System A
INTERFACE
SUBNET
ADDRESS
eth0:!10.0.0.0/8
192.168.1.0/24
...
/etc/shorewall/masq System B
INTERFACE
SUBNET
ADDRESS
eth0:!192.168.1.0/24
10.0.0.0/8
...
You will need to allow traffic between the vpn
zone
and the loc
zone -- if you simply want to admit all traffic
in both directions, you can use the policy file:
/etc/shorewall/policy - Systems A and B
SOURCE
DEST
POLICY
LOG LEVEL
loc
vpn
ACCEPT
vpn
loc
ACCEPT
Once you have these entries in place, restart Shorewall (type
shorewall restart); you are now ready to configure the tunnel in FreeS/WAN.
VPN Hub using Kernel 2.4
Shorewall can be used in a VPN Hub environment where multiple remote
networks are connected to a gateway running Shorewall. This environment is
shown in this diatram.
We want systems in the 192.168.1.0/24 sub-network to be able to
communicate with systems in the 10.0.0.0/16 and 10.1.0.0/16 networks and
we want the 10.0.0.0/16 and 10.1.0.0/16 networks to be able to
communicate.
To make this work, we need to do several things:
Open the firewall so that two IPSEC tunnels can be established
(allow the ESP and AH protocols and UDP Port 500).
Allow traffic through the tunnels two/from the local zone
(192.168.1.0/24).
Deny traffic through the tunnels between the two remote
networks.
Opening the firewall for the IPSEC tunnels is accomplished by adding
two entries to the /etc/shorewall/tunnels file.
In /etc/shorewall/tunnels on system A, we need the following
/etc/shorewall/tunnels system A
TYPE
ZONE
GATEWAY
GATEWAY ZONE
ipsec
net
134.28.54.2
ipsec
net
130.152.100.14
In /etc/shorewall/tunnels on systems B and C, we would have:
/etc/shorewall/tunnels system B & C
TYPE
ZONE
GATEWAY
GATEWAY ZONE
ipsec
net
206.161.148.9
If either of the endpoints is behind a NAT gateway then the
tunnels file entry on the other
endpoint should specify a tunnel type of ipsecnat
rather than ipsec and the GATEWAY address should specify the external
address of the NAT gateway.
On each system, we will create a zone to represent the remote
networks. On System A:
/etc/shorewall/zones system A
ZONE
DISPLAY
COMMENTS
vpn1
VPN1
Remote Subnet on system B
vpn2
VPN2
Remote Subnet on system C
On systems B and C:
/etc/shorewall/zones system B & C
ZONE
DISPLAY
COMMENTS
vpn
VPN
Remote Subnet on system A
At system A, ipsec0 represents two zones so we have the following in
/etc/shorewall/interfaces:
/etc/shorewall/interfaces system A
ZONE
INTERFACE
BROADCAST
OPTIONS
-
ipsec0
The /etc/shorewall/hosts file on system A defines the two VPN
zones:
/etc/shorewall/hosts system A
ZONE
HOSTS
OPTIONS
vpn1
ipsec0:10.0.0.0/16
vpn2
ipsec0:10.1.0.0/16
At systems B and C, ipsec0 represents a single zone so we have the
following in /etc/shorewall/interfaces:
/etc/shorewall/interfaces system B & C
ZONE
INTERFACE
BROADCAST
OPTIONS
vpn
ipsec0
On systems A, you will need to allow traffic between the
vpn1
zone and the loc
zone as well as
between vpn2
and the loc
zone -- if you
simply want to admit all traffic in both directions, you can use the
following policy file entries on all three gateways:
/etc/shorewall/policy system A
SOURCE
DEST
POLICY
LOG LEVEL
loc
vpn1
ACCEPT
vpn1
loc
ACCEPT
loc
vpn2
ACCEPT
vpn2
loc
ACCEPT
On systems B and C, you will need to allow traffic between the
vpn
zone and the loc
zone -- if you simply
want to admit all traffic in both directions, you can use the following
policy file entries on all three gateways:
/etc/shorewall/policy system B & C
SOURCE
DEST
POLICY
LOG LEVEL
loc
vpn
ACCEPT
vpn
loc
ACCEPT
Once you have the Shorewall entries added, restart Shorewall on each
gateway (type shorewall restart); you are now ready to configure the
tunnels in FreeS/WAN.
to allow traffic between the networks attached to systems B and C,
it is necessary to simply add two additional entries to the
/etc/shorewall/policy file on system A.
/etc/shorewall/policy system A
SOURCE
DEST
POLICY
LOG LEVEL
vpn1
vpn2
ACCEPT
vpn2
vpn1
ACCEPT
If you find traffic being rejected/dropped in the OUTPUT chain,
place the names of the remote VPN zones as a comma-separated list in the
GATEWAY ZONE column of the /etc/shorewall/tunnels file entry.
Mobile System (Road Warrior) Using Kernel 2.4
Suppose that you have a laptop system (B) that you take with you
when you travel and you want to be able to establish a secure connection
back to your local network.
Road Warrior VPN
You need to define a zone for the laptop or include it in your
local zone. In this example, we'll assume that you have created a zone
called vpn
to represent the remote host.
/etc/shorewall/zones local
ZONE
DISPLAY
COMMENTS
vpn
VPN
Remote Subnet
In this instance, the mobile system (B) has IP address 134.28.54.2
but that cannot be determined in advance. In the /etc/shorewall/tunnels
file on system A, the following entry should be made:
/etc/shorewall/tunnels system A
TYPE
ZONE
GATEWAY
GATEWAY ZONE
ipsec
net
0.0.0.0/0
vpn
the GATEWAY ZONE column contains the name of the zone
corresponding to peer subnetworks. This indicates that the gateway
system itself comprises the peer subnetwork; in other words, the
remote gateway is a standalone system.
You will need to configure /etc/shorewall/interfaces and establish
your through the tunnel
policy as shown under the first
example above.
Dynamic RoadWarrior Zones
Beginning with Shorewall release 1.3.10, you can define multiple VPN
zones and add and delete remote endpoints dynamically using
/sbin/shorewall. With Shorewall 2.0.2 Beta 1 and later versions, this
capability must be enabled by setting DYNAMIC_ZONES=Yes in shorewall.conf.
In /etc/shorewall/zones:
/etc/shorewall/zones
ZONE
DISPLAY
COMMENTS
vpn1
VPN-1
First VPN Zone
vpn2
VPN-2
Second VPN Zone
vpn3
VPN-3
Third VPN Zone
In /etc/shorewall/tunnels:
/etc/shorewall/tunnels
TYPE
ZONE
GATEWAY
GATEWAY ZONE
ipsec
net
0.0.0.0/0
vpn1,vpn2,vpn3
When Shorewall is started, the zones vpn[1-3] will all be empty and
Shorewall will issue warnings to that effect. These warnings may be safely
ignored. FreeS/Wan may now be configured to have three different Road
Warrior connections with the choice of connection being based on X-509
certificates or some other means. Each of these connectioins will utilize
a different updown script that adds the remote station to the appropriate
zone when the connection comes up and that deletes the remote station when
the connection comes down. For example, when 134.28.54.2 connects for the
vpn2 zone the up
part of the script will issue the
command:
/sbin/shorewall add ipsec0:134.28.54.2 vpn2
and the down
part will:
/sbin/shorewall delete ipsec0:134.28.54.2 vpn2
Limitations of Dynamic Zones
If you include a dynamic zone in the exclude list of a DNAT rule,
the dynamically-added hosts are not excluded from the rule.
dyn=dynamic zone
ACTION
SOURCE
DESTINATION
PROTOCOL
PORT(S)
CLIENT PORT(S)
ORIGINAL DESTINATION
DNAT
z!dyn
loc:192.168.1.3
tcp
80
Dynamic changes to the zone dyn
will have no effect on the above rule.