In message <28327223.2951.1321412909463.JavaMail.root@benjamin.baylink.com>, Ja y Ashworth writes:
----- Original Message -----
From: "Mark Andrews" <marka@isc.org>
In message <29838609.2919.1321392184239.JavaMail.root@benjamin.baylink.com>, Ja y Ashworth writes:
If your firewall is not working, it should not be passing packets.
And of course, things always fail just the way we want them to.
Your stateful firewall is no more likely to fail open than your header-mutilating device.
Please show your work.
Prove to me that all NAT won't pass packets not addressed directly to it. Show your work.
I did not *assert* that. So I don't have to prove that.
What I *asserted* was that inbound 1:N DNAT *reduces the probability of an attacker being able to target a specific inbound attack to a specific computer*. QED.
You are making assumptions about how the NAT is designed. Many NATs only take packets addressed to particular address ranges and process them though the state tables. All the rest of the packets are treated as normal traffic which may or may not be forwarded depending apon the way the base platform is configured which is usually as a router. Many NAT's will honour LSR.
As someone pointed out elsewhere, that's bad, but it's bad whether the box does NAT or not; even if the internal network is unrouted public space, that would be troublesome.
Actually LSR is not bad in and of itself. The actual problem was badly designed firewall code that failed properly examine the LSR option. Rather than fix the firewall code people choose to drop packets with LSR options.
Unless you know the internals of a NAT you cannot say whether it fails open or closed.
It's probably impossible to determine whether any box's response to any failure will be pass or drop, with any reliability. All you can figure is probabilities.
Given that most NATs only use a small set of address on the inside it is actually feasible to probe through a NAT using LSR. Most attacks don't do this as there are lots of lower hanging fruit but if it is a targeted attack then yes you can expect to see LSR based attacks which depending apon how the NAT is built may pass through it without even being noticed.
Someone else has already addressed "low-hanging fruit", so I won't. I do concur, though: if you have specific examples of boxes which, as you allege, respect LSR to 1918 internal addresses, please, name and shame.
Why do they need to be "named and shamed"? They are NOT firewalls. It is not their job to block LSR traffic. The fact that you think NATs should be doing this is yet another indication that you don't understand the difference between a NAT and a firewall.
Now can we put to bed that NAT provides any real security. If you want security add and configure a firewall. That firewall can be in the same box as the NAT. It can use the same state tables as the NAT but it is the firewall, not the NAT functionality, that provides the protection.
Nope; I'm afraid we still can't. As long as you continue to strawman that I/we are even *alleging* that NAT "provides" security (rather than "contributing" to it, we're just going to keep talking past each other, Mark.
As long as you keep defining protection as "one thing in one place", I'll keep assuming you're flapping your jaws to dry your teeth. ("provides *the* protection")
Cheers, -- jra -- Jay R. Ashworth Baylink jra@baylink.co m Designer The Things I Think RFC 210 0 Ashworth & Associates http://baylink.pitas.com 2000 Land Rover DI I St Petersburg FL USA http://photo.imageinc.us +1 727 647 127 4
-- Mark Andrews, ISC 1 Seymour St., Dundas Valley, NSW 2117, Australia PHONE: +61 2 9871 4742 INTERNET: marka@isc.org