Can't believe this is still going on. ;-) NAT does not provide security; it provides utility. It is useful in many situations, though. If you are limited in the amount of public IP space you have, then NAT is one solution to that. If you want to have a backup connection to the Internet, but don't want to involve your ISP, or your ISP won't let you talk BGP with them (often for good reason), then NAT can be a solution to that as well. IPv6 doesn't have NAT yet, because NAT has a lot of issues. We think we can do better. The current momentum is behind Network Prefix Translation (NPT); which rather than re-writing addresses and ports, rewrites only the network segment of an address, leaving the host segment unchanged. This is stateless translation and can be implemented very efficiently to provide utility without limiting performance in a meaningful way. It will likely be the way that most small networks get service from more than one provider as IPv6 adoption grows (predictable internal addresses, independent from provide addressing changes, etc.) Like NAT, though, it doesn't provide security. Stateful Packet Inspection (SPI) provides some level of security; and most NAT devices include an SPI firewall, as state tracking is already a requirement for NAT to function. There is no requirement that SPI to use NAT, though. For the majority of scenarios the failure mode for a firewall running NAT with private IP address space, and the failure mode for a firewall not performing NAT, are identical; except that the extra overhead and complexity required by NAT can actually mean a higher failure rate in some cases. It's an absurd generalization (which is not based in fact) that a NAT firewall will fail closed, and a firewall not using NAT will fail open. The problem with the article in the OP -- the thing that rubs most of this list in the wrong way -- is that it's yet another self-proclaimed expert telling people that private IP addresses provide security. They do not. Most on this list have seen time and time again compromised networks that sit behind NAT. Almost every time it turns out to be that the user though they were protected by NAT, and proceeded to not address security concerns internally. Examples included disabling host firewalls, not updating systems, and not monitoring activity. Worse they then proceed to ask you how to find out which host is compromise because the report only mentioned the IP of their firewall. I would go as far as to argue that the false sense of security provided by NAT is more dangerous than any current threat that NAT alone would prevent. Firewalls are still a necessary tool; but they don't really provide the security that people associate with them. It isn't a magic box; and short of blocking all traffic, they really don't provide comprehensive security. The article in the OP not only makes it sound like a magic box; but goes on to say that the magic box isn't what keeps you safe -- it's the fact that your IP is "private". So the idea that the answer for a nuclear power plant is to use private IP addresses and that will address all their security concerns is just frustrating and ridiculous. The author tried to simplify things so much that the information become incorrect somewhere along the way. I for one hope that our nuclear power plants are protected by more than NAT. I don't care if they don't use NAT. Just as long as they address security. On Wed, Nov 16, 2011 at 1:58 PM, Jay Ashworth <jra@baylink.com> wrote:
----- Original Message -----
From: "Owen DeLong" <owen@delong.com>
In this case, a router with NAT is slightly more likely to fail closed than a router without NAT.
"Slightly"? Continuing to assume here, as we have been, that the network behind a NAT is *unroutable*, then a NAT router has, IME, *many* more obvious possible failure modes which will make the internal network inaccessible from outside than modes which cause the opposite.
If you're an attacker, targeting a behind-NAT box from the outside, then if the NAT's working, you can hit directly any ports that are forwarded to it.
If not, then you have to a) know the private IP of the box and b) be able to get packets to the last upstream hop with source routing on them and c) the box has to have failed (or been configured or built) in such a way as to *listen* to source-routing. Those layers may have varying thicknesses, but there *are* at least 3 more of them, *on top of* "did it fail in a way where it's listening at all?".
However, a firewall without NAT is more likely to fail closed than a router with or without NAT and equally likely to a firewall with NAT.
If it's a firewall that meets your definition of the word, as opposed to, say, a shorewall box, a smoothwall box, a pf box, or any of the other 3 or 4 dozen packaged linux based firewall routers of which there are *lots* out there. Probably the most common failure more on those is "iptables accidentally cleared; box routes all packets".
That's one failure to get to that point, insted of 2, 3 or 4. And since it's human-based a lot of the time, it's probably even more likely.
In other words, NAT doesn't really improve anything, but, the difference between the common failure modes of a firewall vs. a router are worthy of consideration. The infinitesimal advantage of NAT if you use a router instead of a firewall to perform the duties of a firewall is dramatically overshadowed by the costs and damage done by NAT.
Costs already sunk, IME. Damage is a question-begging term here.
OTOH, routers, being designed primarily to forward packets and having security appliance features added as a secondary capability will, in many cases, address most of these failures by passing packets which would not be permitted if properly configured and/or functioning.
Yup. What I've been saying (or implying) right along. So, in networks, or in seats, take your pick, does anyone have any deployment numbers on router-based firewalls vs the other sort, whatever we're calling them?
Yes, they are identical and NAT makes no meaningful difference to the chances that undesired packets will be forwarded in the event of a catastrophic failure outside of these more common failure modes.
I guess we're going to have to agree to disagree here; our respective clients will decide what their opinions on that are.
Cheers, -- jra -- Jay R. Ashworth Baylink jra@baylink.com Designer The Things I Think RFC 2100 Ashworth & Associates http://baylink.pitas.com 2000 Land Rover DII St Petersburg FL USA http://photo.imageinc.us +1 727 647 1274
-- Ray Soucy Epic Communications Specialist Phone: +1 (207) 561-3526 Networkmaine, a Unit of the University of Maine System http://www.networkmaine.net/