OpenVPN Tunnels and Bridges

OpenVPN Tunnels and Bridges Simon Matter Tom Eastep 2003 2004 2005 2006 Simon Mater 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 article applies to Shorewall 3.0 and later and to OpenVPN 2.0 and later. If you are running a version of Shorewall earlier than Shorewall 3.0.0 then please see the documentation for that release. OpenVPN is a robust and highly configurable VPN (Virtual Private Network) daemon which can be used to securely link two or more private networks using an encrypted tunnel over the internet. OpenVPN is an Open Source project and is licensed under the GPL. OpenVPN can be downloaded from http://openvpn.net/. Unless there are interoperability issues (the remote systems do not support OpenVPN), OpenVPN is my choice any time that I need a VPN. It is widely supported -- I run it on both Linux and Windows XP. It requires no kernel patching. It is very easy to configure. It just works!

Preliminary Reading I recommend reading the VPN Basics article if you plan to implement any type of VPN.

Bridging two Masqueraded Networks Suppose that we have the following situation: We want systems in the 192.168.1.0/24 subnetwork to be able to communicate with the systems in the 10.0.0.0/8 network. This is accomplished through use of the /etc/shorewall/tunnels file and the /etc/shorewall/policy file and OpenVPN. While it was possible to use the Shorewall start and stop script to start and stop OpenVPN, I decided to use the init script of OpenVPN to start and stop it. On each firewall, you will need to declare a zone to represent the remote subnet. We'll assume that this zone is called vpn and declare it in /etc/shorewall/zones on both systems as follows.

/etc/shorewall/zones — Systems A & B #ZONE TYPE OPTIONS IN OUT # OPTIONS OPTIONS vpn ipv4

On system A, the 10.0.0.0/8 will comprise the vpn zone.

In /etc/shorewall/interfaces on system A: #ZONE INTERFACE BROADCAST OPTIONS vpn tun0

In /etc/shorewall/tunnels on system A, we need the following:

#TYPE ZONE GATEWAY GATEWAY ZONE openvpn net 134.28.54.2

This entry in /etc/shorewall/tunnels opens the firewall so that OpenVPN traffic on the default port 1194/udp will be accepted to/from the remote gateway. If you change the port used by OpenVPN to 7777, you can define /etc/shorewall/tunnels like this:

/etc/shorewall/tunnels with port 7777: #TYPE ZONE GATEWAY GATEWAY ZONE openvpn:7777 net 134.28.54.2

Similarly, if you want to use TCP for your tunnel rather than UDP (the default), then you can define /etc/shorewall/tunnels like this:

/etc/shorewall/tunnels using TCP: #TYPE ZONE GATEWAY GATEWAY ZONE openvpn:tcp net 134.28.54.2

Finally, if you want to use TCP and port 7777:

/etc/shorewall/tunnels using TCP port 7777: #TYPE ZONE GATEWAY GATEWAY ZONE openvpn:tcp:7777 net 134.28.54.2

This is the OpenVPN config on system A:

dev tun local 206.162.148.9 remote 134.28.54.2 ifconfig 192.168.99.1 192.168.99.2 route 10.0.0.0 255.0.0.0 192.168.99.2 tls-server dh dh1024.pem ca ca.crt cert my-a.crt key my-a.key comp-lzo verb 5

Similarly, On system B the 192.168.1.0/24 subnet will comprise the vpn zone

In /etc/shorewall/interfaces on system B: #ZONE INTERFACE BROADCAST OPTIONS vpn tun0

In /etc/shorewall/tunnels on system B, we have:

#TYPE ZONE GATEWAY GATEWAY ZONE openvpn net 206.191.148.9

And in the OpenVPN config on system B:

dev tun local 134.28.54.2 remote 206.162.148.9 ifconfig 192.168.99.2 192.168.99.1 route 192.168.1.0 255.255.255.0 192.168.99.1 tls-client ca ca.crt cert my-b.crt key my-b.key comp-lzo verb 5

You will need to allow traffic between the vpn zone and the loc zone on both systems -- if you simply want to admit all traffic in both directions, you can use the policy file:

/etc/shorewall/policy on systems A & B #SOURCE DEST POLICY LOG LEVEL loc vpn ACCEPT vpn loc ACCEPT

On both systems, restart Shorewall and start OpenVPN. The systems in the two masqueraded subnetworks can now talk to each other.

Roadwarrior OpenVPN 2.0 provides excellent support for roadwarriors. Consider the setup in the following diagram: On the gateway system (System A), we need a zone to represent the remote clients — we'll call that zone road.

/etc/shorewall/zones — System A: #ZONE TYPE OPTIONS IN OUT # OPTIONS OPTIONS road ipv4

On system A, the remote clients will comprise the road zone.

In /etc/shorewall/interfaces on system A: #ZONE INTERFACE BROADCAST OPTIONS road tun+

In /etc/shorewall/tunnels on system A, we need the following:

#TYPE ZONE GATEWAY GATEWAY ZONE openvpn:1194 net 0.0.0.0/0

If you are running Shorewall 2.4.3 or later, you might prefer the following in /etc/shorewall/tunnels on system A. Specifying the tunnel type as openvpnserver has the advantage that the VPN connection will still work if the client is behind a gateway/firewall that uses NAT.

#TYPE ZONE GATEWAY GATEWAY ZONE openvpnserver:1194 net 0.0.0.0/0

We want the remote systems to have access to the local LAN — we do that with an entry in /etc/shorewall/policy (assume that the local LAN comprises the zone loc).

#SOURCE DESTINATION POLICY road loc ACCEPT

The OpenVPN configuration file on system A is something like the following:

dev tun server 192.168.2.0 255.255.255.0 dh dh1024.pem ca /etc/certs/cacert.pem crl-verify /etc/certs/crl.pem cert /etc/certs/SystemA.pem key /etc/certs/SystemA_key.pem port 1194 comp-lzo user nobody group nogroup ping 15 ping-restart 45 ping-timer-rem persist-tun persist-key verb 3

Configuration on the remote clients follows a similar line. We define a zone to represent the remote LAN:

/etc/shorewall/zones — System B: #ZONE TYPE OPTIONS IN OUT # OPTIONS OPTIONS home ipv4

On system A, the hosts accessible through the tunnel will comprise the home zone.

In /etc/shorewall/interfaces on system B: #ZONE INTERFACE BROADCAST OPTIONS home tun0

In /etc/shorewall/tunnels on system B, we need the following:

#TYPE ZONE GATEWAY GATEWAY ZONE openvpn:1194 net 206.162.148.9

Again in you are running Shorewall 2.4.3 or later, in /etc/shorewall/tunnels on system B you might prefer:

#TYPE ZONE GATEWAY GATEWAY ZONE openvpnclient:1194 net 206.162.148.9

We want the remote client to have access to the local LAN — we do that with an entry in /etc/shorewall/policy.

#SOURCE DESTINATION POLICY $FW home ACCEPT

The OpenVPN configuration on the remote clients is along the following line:

dev tun remote 206.162.148.9 up /etc/openvpn/home.up tls-client pull ca /etc/certs/cacert.pem cert /etc/certs/SystemB.pem key /etc/certs/SystemB_key.pem port 1194 user nobody group nogroup comp-lzo ping 15 ping-restart 45 ping-timer-rem persist-tun persist-key verb 3

If you want multiple remote clients to be able to communicate openly with each other then you must: Include the client-to-client directive in the server's OpenVPN configuration; and Specify the routeback option on the tun+ device in /etc/shorewall/interfaces. If you want to selectively allow communication between the clients, then see this article by Marc Zonzon

Securing a Home Wireless Network with OpenVPN (OpenVPN Bridge) This section will describe how we once secured our home wireless network using OpenVPN. Our network as it was then Our current network uses a similar technique -- see the Xen My Way article. is as shown in the following diagram. The Wireless network is in the lower right of the diagram and consists of two laptops: Eastepnc6000 (Dual Boot Windows XP - SP1, SUSE 10.0) and Tipper (SUSE 10.0). We used OpenVPN to bridge those two laptops with the local LAN shown in the lower left hand corner. The laptops were configured with addresses in the 192.168.3.0/24 network connected to the firewall's eth0 interface which places them in the firewall's Wifi zone. OpenVPN bridging allowed them to be assigned an additional IP address from the 192.168.1.0/24 network and to be securely bridged to the LAN on the lower left. Eastepnc6000 is shown in both the local LAN and in the Wifi zone with IP address 192.168.1.6 -- clearly, the computer could only be in one place or the other. Tipper could also be in either place and would have the IP address 192.168.1.8 regardless.

Configuring the Bridge The firewall ran Debian Sarge so the bridge was defined in /etc/network/interfaces. # LAN interface auto br0 iface br0 inet static address 192.168.1.254 netmask 255.255.255.0 pre-up /usr/sbin/openvpn --mktun --dev tap0 pre-up /sbin/ip link set tap0 up pre-up /sbin/ip link set eth3 up pre-up /usr/sbin/brctl addbr br0 pre-up /usr/sbin/brctl addif br0 eth3 pre-up /usr/sbin/brctl addif br0 tap0 pre-down /usr/sbin/brctl delif br0 eth3 pre-down /sbin/ip link set eth3 down pre-down /usr/sbin/brctl delif br0 tap0 pre-down /sbin/ip link set tap0 down post-down /usr/sbin/brctl delbr br0 post-down /usr/sbin/openvpn --rmtun --dev tap0 Note that the IP address assigned to the bridge is 192.168.1.254 -- that was the default gateway address for hosts in the local zone.

Configuring OpenVPN We used X.509 certificates for authentication.

Firewall (Server) configuration. /etc/openvpn/server-bridge.conf defined a bridge and reserved IP addresses 192.168.1.64-192.168.1.71 for VPN clients. Note that the bridge server only used local IP address 192.168.3.254. We ran two instances of OpenVPN; this one and a second tunnel-mode instance for remote access. dev tap0 local 192.168.3.254 server-bridge 192.168.1.254 255.255.255.0 192.168.1.64 192.168.1.71 client-to-client dh dh1024.pem ca /etc/certs/cacert.pem crl-verify /etc/certs/crl.pem cert /etc/certs/gateway.pem key /etc/certs/gateway_key.pem port 1194 comp-lzo user nobody group nogroup keepalive 15 45 ping-timer-rem persist-tun persist-key client-config-dir /etc/openvpn/bridge-clients ccd-exclusive verb 3 The files in /etc/openvpn/bridge-clients were used to assign a fixed IP address to each laptop. For example, tipper.shorewall.net: ifconfig-push 192.168.1.8 255.255.255.0

Tipper Configuration /etc/openvpn/wireless.conf: dev tap remote 192.168.3.254 tls-remote gateway.shorewall.net client redirect-gateway ca /etc/certs/cacert.pem cert /etc/certs/tipper.pem key /etc/certs/tipper_key.pem port 1194 comp-lzo ping 15 ping-restart 45 ping-timer-rem persist-tun persist-key mute-replay-warnings verb 3

Eastepnc6000 (Windows XP) Configuration C:\Program Files\Openvpn\config\homewireless.ovpn: dev tap remote 192.168.3.254 tls-remote gateway.shorewall.net tls-client pull ca "/Program Files/OpenVPN/certs/cacert.pem" cert "/Program Files/OpenVPN/certs/eastepnc6000.pem" key "/Program Files/OpenVPN/certs/eastepnc6000_key.pem" redirect-gateway port 1194 comp-lzo ping 15 ping-restart 45 ping-timer-rem persist-tun persist-key verb 3

Eastepnc6000 (SUSE 10.0) Configuration The configuration was the same as shown above only with "/Program Files/OpenVPN" replaced with "/etc/openvpn" (I love OpenVPN).

Ursa (Windows Vista) Configuration In December 2007, I acquired a new laptop that runs Windows Vista. After a frustrating effort, I managed to get it working. The keys to getting it working were: You must run a version of OpenVPN that is "Vista Ready" -- I used Matias Sundman's combined OpenVPN 2.1_rc4/OpenVPN GUI 1.0.3 installer (see http://openvpn.se/). OpenVPN GUI must be run as the Administrator. In the Explorer, right click on the OpenVPN GUI binary and select Properties->Compatibilty and select "Run this program as an administrator". If you encounter problems where everything looks correct but it doesn't work, reboot and try it again.

Configuring Shorewall In this configuration, we didn't need any firewalling between the laptops and the local LAN so we set BRIDGING=No in shorewall.conf. The configuration of the bridge then became as described in the Simple Bridge documentation. If you need to control the traffic allowed through the VPN bridge then you will want to configure Shorewall as shown in the Bridge/Firewall documentation.

Firewall

/etc/shorewall/interfaces Note that the bridge (br0) is defined as the interface to the local zone and has the routeback option. #ZONE INTERFACE BROADCAST OPTIONS net eth2 206.124.146.255 dhcp,norfc1918,logmartians,blacklist,tcpflags,nosmurfs loc br0 192.168.1.255 dhcp,routeback dmz eth1 - logmartians Wifi eth0 192.168.3.255 dhcp,maclist #LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVE

/etc/shorewall/tunnels #TYPE ZONE GATEWAY GATEWAY # ZONE openvpnserver:1194 Wifi 192.168.3.0/24 #LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVE

Tipper Wireless networks pose a threat to all systems that are connected to them and we therefore ran Firewalls on the two Laptops. Eastepnc6000 ran Sygate Security Agent and Tipper ran a Shorewall-based Netfilter firewall.

/etc/shorewall/zones #ZONE TYPE OPTIONS IN OUT # OPTIONS OPTIONS lan ipv4 #Wired LAN at our home net ipv4 #LAST LINE - ADD YOUR ENTRIES ABOVE THIS ONE - DO NOT REMOVE

/etc/shorewall/interfaces #ZONE INTERFACE BROADCAST OPTIONS # net eth0 detect routefilter,dhcp,tcpflags lan tap0 192.168.1.255 #LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVE

/etc/shorewall/policy Since we didn't expect any traffic between the net zone and the lan zone, we used NONE policies for that traffic. If any such traffic would have occurred, it would have been handled according to the all->all policy. #SOURCE DEST POLICY LOG LIMIT:BURST # LEVEL fw net ACCEPT fw lan ACCEPT lan fw ACCEPT net lan NONE lan net NONE net all DROP info # The FOLLOWING POLICY MUST BE LAST all all REJECT info #LAST LINE -- DO NOT REMOVE