Dear Abe: Yes, this is plain IP in IP. For a router does not know about YADA, this looks like the most basic form of tunnel you can get. Which is where the inner/outer terminology comes from. All very classical. We could do an over-UDP variation if people want it. I used a condensed format to focus the reader on the addresses that get swapped; also the visualization clarifies that there cannot be options between the outer header and the inner headers. The only routers that need to understand the fact that this is more than a plain tunnel are the routers that connect the realm to the shaft, because they have to check that the realm address is correct and do the address swap between inner and outer. The first version of the draft impacted routers for BCP 38 procedures, this is now changed. The routers inside a realm can keep operating unmodified, and there's no need to deploy new policies for ingress filtering. Keep safe; Pascal
-----Original Message----- From: Abraham Y. Chen <aychen@avinta.com> Sent: vendredi 15 avril 2022 0:47 To: Pascal Thubert (pthubert) <pthubert@cisco.com> Cc: nanog@nanog.org Subject: Re: Ready to compromise? was RE: V6 still not supported
Dear Pascal:
1) I had a quick look at the below updated draft. I presume Figure 2 is intended to address my request. Since each IPv4 address has 4 bytes, what are the 12 bytes allocated for IPv4 header fields (outer) and (inner), each? Aren't they the standard first 12 bytes of packet identifier in an IPv4 header? If so, why not show it straightforward as defined by RFC791?
2) If my above assumption is correct, you are essentially prefixing the packet identifying portion (inner) of an IPv4 header with another one (the "outer"), without making use of the existing Options words like my EzIP proposal. How could any existing routers handle a packet with this new header format, without any design related upgrade? If you do expect upgrade, it would appear to me as too much to ask. Am I missing something?
Regards,
Abe (2022-04-14 18:46)
Dear all
Following advice from thus list, I updated the YADA I-Draft (latest ishttps://www.ietf.org/archive/id/draft-thubert-v6ops-yada-yatt-03.html, more to come soon if feedback is heard) and proposed it to the v6ops WG at
On 2022-04-08 10:34, Pascal Thubert (pthubert) wrote: the IETF.
For memory, the main goal here is to find a compromise as opposed to yet
another transition solution, though it can be used as a side effect to move along the ladder. The compromise does not change IPv4 or IPv6, tries not to take side for one or the other, and add features to both sides which, if implemented, reduce the chasm that leads to dual stack and CG- NATs.
There's value for the movers, lots more public address space for the
IPv4-only stack/networks and free prefixes per node and new deployment opportunities for the IPv6-only ones.
One major update from the original text accounts for Dave's comment in
this list on BCP 38 enforcement, I believe it's solved now. I also added format layouts to Abe Chen's question, and text on the naïve version vs. all the elasticity that exists there and in IP in general to allow real world deployments.
Comments welcome, here and/or at v6ops for those who participate there.
Many thanks in advance;
Pascal
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