Re: [Bier] Q on the congestion awareness of routing protocols

If we could please have a Routing Research Group, it would be a lot more
fun to revisit all those complex historical experiences. I am just trying to
get the most basic understanding of congestion control (TCP) to also be applied to
traffic of an IETF protocol targeting standards track, even if its as uninteresting
as an IP multicast 'routing' protocol.

Cheers
    Toerless

On Fri, Dec 02, 2022 at 10:20:53AM -0800, Matt Mathis wrote:
> There were some very early failure examples with David Mill's HELLO
> protocol (the precursor to NTP).  Basically load sensitive routing is prone
> to route sloshing, where too many routes change once congestion is
> detected, causing pervasive route flapping.
> 
> AFAICR People concluded that it was not feasible for a distributed
> algorithm to solve this problem, so HELLO was abandoned (except extracting
> NTP as a stand alone protocol).
> 
> That work was more than 30 years ago, so it might pay to revisit it, to
> re-examine it to see if something has changed.   However, the conclusion
> matches my intuition.
> 
> Thanks,
> --MM--
> The best way to predict the future is to create it.  - Alan Kay
> 
> We must not tolerate intolerance;
>        however our response must be carefully measured:
>             too strong would be hypocritical and risks spiraling out of
> control;
>             too weak risks being mistaken for tacit approval.
> 
> 
> On Fri, Dec 2, 2022 at 9:57 AM Jon Crowcroft <jon.crowcroft@cl.cam.ac.uk>
> wrote:
> 
> > Gonna say, ironically, one early use of multicast was a proposal to use
> > SRM instead of a mesh of tcp connections for iBGP...so some people do think
> > about scaling control plane traffic in the presence of congestion, some
> > times:-)
> >
> > On Fri, 2 Dec 2022, 17:03 Toerless Eckert, <tte@cs.fau.de> wrote:
> >
> >> Dear routing-discussion / TSV folks
> >> (sorry for escalating this, but it really bugs me - Cc'ing PIM/BIER)
> >>
> >> What are these days the expectations against let's say a full Internet
> >> Standard
> >> for a routing protocol to support in terms of congestion safe behavior ?
> >> And
> >> what are congestion control expectation for new routing protocl RFCs even
> >> if
> >> just proposed standard ?
> >>
> >> I am asking, because i think that our core IP multicast routing protocol
> >> fails miserably on this end, and quite frankly i do not understand how
> >> PIM-SM (RFC7761) could have become a full Internet standard given how it
> >> has zilch discussion about congestion or loss handling.
> >>
> >> [ Especially, when in comparison a protocol like RFC7450 where TSV did
> >> raise concerns
> >>   about multicast data plane congestion awareness, and it  was held up
> >> for years, and
> >>   GregS as the WG-chair for the WG responsible for RFC7450 had to even
> >> help
> >>   co-author RFC8085 to cut through the congestion control concern-cord.
> >> But likely
> >>   all for the better!].
> >>
> >> To quickly summarize the issue with PIM-SM to those who do not know it:
> >>
> >>                  /- R2 -------- R6 -\
> >>      Rcvrs ... R1                    R7 ... Senders
> >>                  \- R3 -- R4 -- R5 -/
> >>
> >>         CE ... PE .. P    P     P    PE  CE ...
> >>
> >> R1 has let's say 100,000 ulticast/PIM (S,G) states with sources behind
> >> R7, so
> >> it has to maintain 1000,000 so-called PIM (S,G) joins across the path R2,
> >> R6, R7.
> >> Lets say roughly an (S,G) join for IPv6 is about 38 byte (IPv6), maybe 35
> >> (S,G)
> >> per 1500 byte packet, so 2857 packets of 1500 byte to carry all 100,000
> >> (S,G).
> >>
> >> Assume link R6/R7 fails, IGP reconverges, R1 recognizes that it needs to
> >> change path, so it sends 2857 PIM-SM packets with prunes to R2 and 2857
> >> PIM -SM
> >> packets with joins to R3.
> >>
> >> Assume R1 is a PE, R2 and R3 are P routers in an SP, and actually R2/R3
> >> connect
> >> to lets say 100 routers like R1. Now R2 and R3 get 100 x 2857 1500 byte
> >> packets.
> >>
> >> And there is nothing in the PIM-SM spec that talks about how to throttle
> >> this
> >> heap of PIM-SM packets. Typically, routers would just send them
> >> back-to-back.
> >> And those packets repeat every 60 seconds given how PIM-SM is datagram /
> >> periodic
> >> soft-state.  In fact, if you try to scale this in production networks,
> >> you will
> >> most likely fail a lot more than IP multicast in those routers, because
> >> PIM not
> >> only will badly compete on control-plane CPU time, but even more so on
> >> control-plane
> >> to hardware-forwarding time when updating the 100,000 (S,G) hardware
> >> forwarding entries.
> >>
> >> Correct me if i am wrong, but did the same type of issues in ISIS/OSPF in
> >> DC because of so many parallel paths and hence duplication of LSA recently
> >> lead to the creation of multiple IETF working groups in RTG to solve these
> >> issues ?
> >>
> >> In IP multicast, we where well aware of these issues and they where a
> >> core
> >> reason to not build a PIM-based MPLS multicast protocol, but use the TCP
> >> based LDP
> >> to specify mLDP (RFC6388). Same thing, when various BGP multicast work was
> >> done as an alternative to PIM for SPs (BCP also being TCP based).
> >>
> >> We did even fix this problem in PIM by specifying RFC6559 (PIM over TCP),
> >> but instead of making that mechanisms mandatory and become the only option
> >> for PIM when moving PIM up the IETF standards ladder to RFC7761, that
> >> RFC had seemingly fallen into ignorance in the IP Multicast community,
> >> because most IP multicast deployments are small enough that these issues
> >> do not occur.
> >>
> >> So, why do i escalate this issue now ?
> >>
> >> We have a great new multicast architecture called BIER that eliminates
> >> all this PIM multicast state issues from the P routers of such large
> >> service provider networks by being stateless. But it still leaves the
> >> need for overlay signaling, such as with PIM to operate between the
> >> PE, such as in above picture the hundreds if not thousands
> >> of receiver PE R1' and sender PE R7'. In which case you would have
> >> PIM directly between those R1'/R7' across multihop paths, leading
> >> to even more congestion considerations. And in support of such BIER
> >> networks,
> >> there is a draft draft-hb-pim-light proposed to PIM-WG to optimize PIM
> >> explicitly
> >> for this type of deployment. And when i said in PIM@IETF115, that such a
> >> draft IMHO
> >> should only allowed to proceed when it is written to say it MUST
> >> be based on PIM over TCP (RFC6388), all other people responding
> >> on the thread said at best it could be be a MAY. Aka: Congestion control
> >> optional.
> >>
> >> Am i a congestion control extremist ? I really only want to have
> >> scaleable, reliably multicast RFCs, especially when they aspire and
> >> go to full IETF standard and are meant to support our next-gen IP
> >> Multicast
> >> architectures (BIER). I do fully understand how there is a lot
> >> of cost pressure on vendor development, and having procrastinated
> >> to implement, proliferate and deploy PIM over TCP so far (almost a
> >> decade!)
> >> does make this a less attractive choice short term. And the whole purpose
> >> of the PIM light draft of course is to reduce the amount of development
> >> needed
> >> by making PIM more "light" (which is a good think). But when it
> >> carries forward the problems of PIM to another generation of networks
> >> (using BIER) that was especially built to scale better, then one
> >> should IMHO really become worried. At least i do. But i also struggled to
> >> implement datagram PIM processing for 100,000 states in a prior life
> >> and then pushed for PIM over TCP...
> >>
> >> Thanks!
> >>     Toerless
> >>
> >> _______________________________________________
> >> routing-discussion mailing list
> >> routing-discussion@ietf.org
> >> https://www.ietf.org/mailman/listinfo/routing-discussion
> >>
> >

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---
tte@cs.fau.de