VPN, Netfilter and Shorewall — The Basics
Tom
Eastep
2004-12-23
2004
Thomas M. Eastep
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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
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License
.
Gateway-to-gateway traffic vs. Host-to-host traffic.
The purpose of a Virtual Private Network
(VPN) is to provide for secure communication between a set of hosts.
Communication between a pair of hosts connected by a VPN occurs in
stages:
Local-host-to-local-gateway.
This communication is not encrypted; in the case where the traffic
originates on the gateway itself, the communication is local to that
system.
Local-gateway-to-remote-gateway. This
communication is encrypted and can use a tunneling protocol such as
GRE, AH or ESP or a standard protocol such as UDP or TCP. Some VPNs
use multiple protocols; for example PPTP uses TCP port 1723 and GRE
while IPSEC uses UDP port 500 together with ESP or AH.
Remote-gateway-to-remote-host.
This is just the unencrypted traffic described in the first item as it
is delivered to its destination.
Of course, one-way communication generally isn't useful so we need
traffic in the other direction as well.
Remote-host-to-remote-gateway.
Remote-gateway-to-local-gateway.
Local-gateway-to-local-host.
Relationship to Netfilter
When Netfilter is configured on a VPN gateway, each VPN packet goes
through Netfilter twice! Let's first consider outbound traffic:
Local-host-to-local-gateway.
This traffic has a source address in the local network or on the
gateway itself. The destination IP address is that of a remote host;
either the remote gateway itself or a host behind that gaeway.
Local-gateway-to-remote-gateway. This
(encrypted) traffic has a source IP address on the gateway and is
addressed to the remote gateway.
Incoming traffic is similar.
What does this mean with Shorewall?
When Shorewall is installed on a VPN gateway system, it catagorizes
the VPN-related traffic slightly differently:
Local-host-to-remote-host —
same as Local-host-to-local-gateway
above.
Local-gateway-to-remote-gateway.
Remote-gateway-to-local-gateway.
Remote-host-to-local-host —
same as Local-gateway-to-local-host
above.
Shorewall implements a set of features for dealing with VPN.
The /etc/shorewall/tunnels file. This file
is used to define remote gateways and the type of encrypted traffic
that will be passed between the Shorewall system and those remote
gateways. In other words, the tunnels file deals with Local-gateway-to-remote-gateway and Remote-gateway-to-local-gateway traffic.
The /etc/shorewall/zones file. An entry in
this file allows you to associated a name with the set of hosts behind
the remote gateway (or to the remote gateway itself if it is a
standalone system).
The /etc/shorewall/interfaces and
/etc/shorewall/hosts files. These files are used
to associate a set of remote hosts with the zone name defined in
/etc/shorewall/zones.
The /etc/shorewall/policy and
/etc/shorewall/rules files. These files are used
to define the connections that are permitted between the remote and
local hosts -- in other words, the Local-host-to-remote-host and Remote-host-to-local-host traffic.
Defining Remote Zones
Most VPN types are implemented using a virtual network device such
as pppN (e.g., ppp0), tunN (e.g., tun0), etc. This means that in most
cases, remote zone definition is similar to zones that you have already
defined.
/etc/shorewall/zones:
#ZONE DISPLAY COMMENT
net Internet The big bad net
loc Local Local LAN
rem Remote Remote LAN
/etc/shorewall/interfaces:
#ZONE INTERFACE BROADCAST OPTION
net eth0 detect norft1918,routefilter
loc eth1 detect
rem tun0 192.168.10.0/24
The /etc/shorewall/hosts file comes into play when:
You have a number of remote networks.
The remote networks have different firewall requirements and you
want to divide them into multiple zones.
There is no fixed relationship between the remote networks and
virtual network devices (for example, the VPN uses PPTP and remote
gateways connect on demand).
In this case, your configuration takes the following
approach:
etc/shorewall/zones:
#ZONE DISPLAY COMMENT
net Internet The big bad net
loc Local Local LAN
rem1 Remote1 Remote LAN 1
rem2 Remote2 Remote LAN 2
/etc/shorewall/interfaces:
#ZONE INTERFACE BROADCAST OPTION
net eth0 detect norft1918,routefilter
loc eth1 detect
- tun+ -
/etc/shorewall/hosts:
#ZONE HOST(S) OPTIONS
rem1 tun+:10.0.0.0/24
rem2 tun+:10.0.1.0/24
The /etc/shorewall/hosts file is also used with
kernel 2.6 native IPSEC.
Eliminating the /etc/shorewall/tunnels file
The /etc/shorewall/tunnels file provides no
functionality that could not be implemented using entries in
/etc/shorewall/rules and I have elimination of the
/etc/shorewall/tunnels file as a long-term goal. The
following sections show how entries in
/etc/shorewall/tunnels can be replaced by rules for
some common tunnel types.
IPSEC
/etc/shorewall/tunnels:
#TYPE ZONE GATEWAY GATEWAY ZONE
ipsec Z1 1.2.3.4 Z2
/etc/shorewall/rules:
#ACTION SOURCE DEST PROTO DEST SOURCE
# PORT PORT(S)
ACCEPT $FW Z1:1.2.3.4 udp 500
ACCEPT Z1:1.2.3.4 $FW udp 500
ACCEPT $FW Z1:1.2.3.4 50
ACCEPT Z1:1.2.3.4 $FW 50
ACCEPT $FW Z1:1.2.3.4 51
ACCEPT Z1:1.2.3.4 $FW 51
ACCEPT $FW Z2:1.2.3.4 udp 500
ACCEPT Z2:1.2.3.4 $FW udp 500
The "noah" option causes the rules for protocol 51 to be
eliminated. The "ipsecnat" causes UDP port 4500 to be accepted in both
directions. If no GATEWAY ZONE is given then the last two rules above
are omitted.
PPTP
/etc/shorewall/tunnels:
#TYPE ZONE GATEWAY GATEWAY ZONE
pptpserver Z1 1.2.3.4
/etc/shorewall/rules:
#ACTION SOURCE DEST PROTO DEST SOURCE
# PORT PORT(S)
ACCEPT Z1:1.2.3.4 $FW tcp 1723
ACCEPT $FW Z1:1.2.3.4 47
ACCEPT Z1:1.2.3.4 $FW 47
Tunnel type "pptpclient" simply reverses the direction of the tcp
port 1723 rule.
OpenVPN
/etc/shorewall/tunnels:
#TYPE ZONE GATEWAY GATEWAY ZONE
openvpn:P Z1 1.2.3.4
/etc/shorewall/rules:
#ACTION SOURCE DEST PROTO DEST SOURCE
# PORT PORT(S)
ACCEPT Z1:1.2.3.4 $FW udp P
ACCEPT $FW Z1:1.2.3.4 udp P