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I'm writing a very simple net filter, and getting to where I want to parse IPv6 headers to match things like ICMPv6 types, TCP/UDP port numbers, etc.

So I'm reading about the IPv6 packet format in depth, and I'm kind of like... well... I sort of had to read it over and over again to make sure I was actually reading it right. It looks to me that you have to start with the 40-byte fixed header and look at its next header field. Then you have to look at the next header's next header field, and so on, like a linked list, until you reach the end. If there's payload, it will follow.

The problem is that there is no length field either in the fixed header or the extension headers. You have to have a table of extension header types and their sizes so that you can chase this linked list to the end.

This strikes me as a strange, possibly even hare-brained design. What if I encounter an unrecognized extension header type? What do I do? I don't know its length. I guess I have to throw the packet out and block it, since in a net filter allowing the packet through would allow an attacker to evade the net filter by including a bogus header type. But that means that if the protocol is ever extended, every single piece of IPv6 header parsing software ever written must be simultaneously updated if the new extension is to be used.

So how can I parse IPv6 headers if I don't know the extensions they're using? How can I skip a header for an unknown extension, since I don't know its length?

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Based on this question it looks like I'm not stupid and yes I am reading this right: it is (in the real world) impossible to add a new extension header to IPv6. stackoverflow.com/questions/9847923/… –  AdamIerymenko Jul 8 '13 at 3:54
And yes, it also does seem that computing header length requires a linked list traversal: stackoverflow.com/questions/14762193/… Don't get me wrong. IPv6 is awesome and much needed. But this still seems bone-headed. –  AdamIerymenko Jul 8 '13 at 3:56
The spec (linked in the top comment) says routers are not supposed to look at the headers, so shouldn't care what headers you add. Only the destination node is supposed to look at the headers. –  Anders E. Andersen Jul 8 '13 at 9:35
Just a note: "hair-brained" is a fairly confusing spelling, and "hare-brained" should be preferred (source: tfd) –  bigbadonk420 Jul 8 '13 at 9:42
Insofar as there's only one correct spelling, which is 'hare-brained'. –  Alan B Jul 8 '13 at 11:58

4 Answers 4

up vote 33 down vote accepted

If you run into something you cannot parse, you have to make your decision or perform your action based on what you've parsed already.

The design is that way because in IPv6, each extension header "wraps" the rest of the packet. If you see the routing header, then some header you've never heard of, then the payload, then you cannot parse the payload. The meaning of the payload depends in principle on the header you don't know how to interpret.

Routers can route such packets, because all they need is the routing header. Deep packet inspection gadgets and suchlike need to know a lot, but then that's their fate anyway.

Edited to add: This design means that middleboxes can only change what they know. If a middlebox sees a header it doesn't know, then it has only two options: Reject or pass on. In IPv4 it could also remove the unknown extension and pass on the rest. IMO this property makes the design more rather than less extensible.

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What if I encounter an unrecognized extension header type?

From RFC 2460:

If, as a result of processing a header, a node is required to proceed to the next header but the Next Header value in the current header is unrecognized by the node, it should discard the packet and send an ICMP Parameter Problem message to the source of the packet, with an ICMP Code value of 1 ("unrecognized Next Header type encountered") and the ICMP Pointer field containing the offset of the unrecognized value within the original packet. The same action should be taken if a node encounters a Next Header value of zero in any header other than an IPv6 header.

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Good. I thought I was losing my mind. So yes, it really is a completely un-extensible design... at least without in-band signaling and other hacks. That's excusable in an application protocol where you control both ends and only have to account for new versions of your app, but not in something designed to last for... hundreds of years? –  AdamIerymenko Jul 8 '13 at 3:59
Having the ability to ignore unknown headers would lead to much more complicated issues. (What if an intermediate proxy modified TCP headers without knowledge of an encapsulating ESP header?) Simplicity beats "extensible" in this case! –  jman Jul 8 '13 at 4:08
@Max IPv6 has quite literally enough addresses to assign one to every single atom on Earth. There's no number of Internet-connected toasters that will deplete this space. –  Tyler McHenry Jul 8 '13 at 6:19
@Max I won't say we'll absolutely never need IPv7, but with IPv6 we have enough address space to give each cubic millimeter in Earth's atmosphere (130,000km up) a unique address...100,000 times over. So I mean, once we start colonizing other galaxies we might have something to worry about, but until then we should be pretty good. –  cincodenada Jul 8 '13 at 6:41
@cincodenada: xkcd.com/865 –  Thomas Padron-McCarthy Jul 8 '13 at 7:16

It is (in the real world) impossible to add a new extension header to IPv6.

Incorrect, because:

  1. Only the destination host is allowed to reject based on unrecognized extensions headers (with that one exception mentioned in the question you linked)

  2. If your new extension header is in some way optional (it had better be), you will receive an ICMP error about that and can try again without it.

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And you're certain that that ICMP packet will make it through the NAT to the actual sender? –  Dexter Jul 8 '13 at 12:08
@Dexter ipv6 will kill NAT ... hopefully –  Janus Troelsen Jul 8 '13 at 12:37
@Dexter: Those ICMP packets need to arrive for a number of reasons. For example, if the MTU of the pipe has shrunk (perhaps packet encapsulation has happened because of PPPoE or a VPN), and the packet being sent is too large, an ICMP packet will be returned saying that the packet is too large. –  Bill Lynch Jul 8 '13 at 14:32
@JanusTroelsen not everyone shares your hopes. –  Dexter Jul 8 '13 at 16:12

The update RFC 6564 covers this case. It lays out exactly the scenario you describe and puts forth a format for any new extension headers (if any are ever defined) which middleboxes such as yours will be able to work with, at least some of the time.

Keep in mind that it isn't intended to extend IPv6 by creating new extension headers, but by adding new Destination Options. It should be trivial, or at least much easier, for you to deal with unknown destination options.

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