Not sure the IETF looked at it or not, but personally I'm one of those people that has never accepted a solution just because, its the only option there. I haven't always won my battles, but never just give in :) -jim On Sat, Apr 3, 2010 at 3:47 AM, Jim Burwell <jimb@jsbc.cc> wrote:
On 4/2/2010 19:13, George Bonser wrote:
-----Original Message----- From: Jim Burwell [mailto:jimb@jsbc.cc] Sent: Friday, April 02, 2010 6:00 PM To: nanog@nanog.org Subject: Re: legacy /8
So, jump through hoops to kludge up IPv4 so it continues to provide address space for new allocations through multiple levels of NAT (or whatever), and buy a bit more time, or jump through the hoops required to deploy IPv6 and eliminate the exhaustion problem? And also, if the IPv4 space is horse-traded among RIRs and customers as you allude to above, IPv6 will look even more attactive as the price and
preciousness
of IPv4 addresses increases.
No problem, everyone tunnels v4 in v4 and the "outer" ip address is your 32-bit ASN and you get an entire /0 of "legacy" ip space inside your ASN. Just need to get rid of BGP and go to some sort of label switching with the border routers having an ASN to upstream label table and there ya go. Oh, and probably create an AA RR in DNS that is in ASN:x.x.x.x format. Increase the MTU a little and whammo! There ya go! Done.
:)
So essentially add 32-bits to the IPv4 address, used as a ASN, and use legacy V4 on the "backbone" which tunnels everything, so the entire intra-ASN internet has to go through v4-in-v4 tunnels. A few "little" changes to DNS, and voila! And of course, there's no "devils in the details" we have to worry about. Heck. Just quote that last post up and submit it as an RFC to replace the IPv6 RFCs! :-)
Seriously though, would that really be easier to implement, or be better than IPv6 as this point? I'd think the IETF would probably have considered solutions like that, but IPv6 is what we got. So best learn to love it. :P
-Jim