An Introduction to Using Linux as a Multipurpose Firewall
Some service providers do not assign an IP address to your connection, but rather assign you one each time you boot your PC, and at regular intervals afterwards. This is known as DHCP, or Dynamic Host Configuration Protocol. Some providers give you a choice of which you want to use. The decision to use one or the other depends on your situation. DHCP means it would be more difficult for someone to find your PC and break into it over a long period, because your IP address would change from time to time. However, if you wish to use TELNET or FTP to log in from the Internet, you would have to find a way to notify yourself of your firewall's new IP address each time it changed.
Red Hat 6.0 makes it easy to set up one interface for DHCP support. For the NIC facing the Internet, edit the /etc/sysconfig/network-scripts/ifcfg-eth1 file and set it up for DHCP use as per the Red Hat sidebar. If you have an X server available, you can also edit the settings via netcfg.
For both Slackware and the LRP, it is not quite as easy. DHCPCD is a program that comes installed on the latest Slackware, but may require configuration. For Slackware, you can start dhcpcd INTERFACE, where INTERFACE in our example would be eth1. Once that is in place, you would then create your routing tables. Therefore, start DHCPCD by placing this line in the /etc/rc.d/rc.inet1 file as shown in Listing 1. You will have no need to define the second card as we did in the static IP examples discussed previously.
For LRP, you will have to use FTP to get DHCPCD and build it on your system (remember that .lrp files are in fact groups of compressed (zip) files that make up the file system in a tar archive). By the time you read this, there will hopefully be a DHCP.LRP file available for LRP. For more information on DHCP setup, take a look at the mini-FAQ listed in Resources.
In the past several months, some service providers have rolled out Point-to-Point over Ethernet (PPPOE). As the name suggests, this is somewhat similar the Point-to-Point (PPP) used for most dial-up connections. There are variety of reasons why this is being introduced. Some reasons are the provision for access control as well as billing based on the user's amount of use. Because it is similar to dial-up PPP, you will likely have a different IP address assigned each time you boot your PC, as well as at regular intervals if you never turn your PC off. I have seen IP addresses change anytime after a few days to a week in the one installation I observed. For the service providers trying prevent their customers from running a web page or FTP server on their high-speed connection, the changing IP address makes it easy to discourage such uses.
To be able to communicate with a provider using PPPOE, you will require PPPOE compatible software/drivers on your Firewall.X Some service providers will supply at least the software and installation instructions, if not the full technical support for the installation of the PPPOE software itself. If no software is available from your service provider, look up PPPOE on the web, and you will should find enough information to get you started. The basic firewall configuration does not change, only the configuration of the Ethernet interface facing the ISP.
What I have presented to you is only a beginning. It may work very well for your application, but you may also want to expand on its abilities. I have added a third network card to my firewall so I can support a second local LAN segment. This works out well because it saves me from having to purchase another hub, and it also means that while I am using a lot of bandwidth, such as copying files on the local LAN, I am not chewing up bandwidth on the other local LAN, so that user who happens to be the only user on the second LAN segment can access the Internet without any difficulties. The firewall at that level acts as a router, and allows the user to print to my printer or have access to files on this segment, while preventing outsiders from doing so.
My firewall also acts as a DHCP server (using dhcpd) for my laptop, so that when I am out on the road or at home, I can leave the PC set for DHCP in both cases.
Other uses you may consider include allowing a small number of outside users to read their mail via a shell account on your firewall (they can IMAP or POP their mail and use something like Elm or Pine to read it). You could also create a small web server for either the internal LAN or the external LAN on your firewall. Shell accounts and Apache require you to enable services that would otherwise have been disabled.
I have also had the opportunity to see some virtual private networking over a Linux firewall. This could be used to allow you to access your internal LAN via the Internet and add encryption and other features. This is handy if you are on the road a lot and might normally call long distance to get into your LAN. Just dial up an ISP wherever you are currently located, and off you go.
You can also increase the overall security by implementing additional rules to prevent IP spoofing in the full firewall. These rules are already included in the LRP.
As you can see, you can do a lot with that old 486 sitting in the closet gathering dust. It can make a wonderful firewall, and allows you some flexibility if you have more than one PC you want to connect to your high-speed modem. Just remember to do what you can to keep up with any new security holes that someone may have found. Check the resources at the end of this article to learn more about where to look for more ongoing security information.
- March 2015 Issue of Linux Journal: System Administration
- High-Availability Storage with HA-LVM
- DNSMasq, the Pint-Sized Super Dæmon!
- Localhost DNS Cache
- Real-Time Rogue Wireless Access Point Detection with the Raspberry Pi
- Days Between Dates: the Counting
- You're the Boss with UBOS
- The Usability of GNOME
- Multitenant Sites
- Linux for Astronomers