Hi Acee 6MAN deals with the IPv6 protocol specifications and not routing protocols in the ECMP load balancing framework.
6MAN would not have any idea if ISIS or OSPF AFI IPv6 5-tuple ECMP load balancing is supported and industry direction to support this critical feature from a IGP perspective. This question posed is in the context of LSR IGP load balancing framework, OSPF & ISIS AFI IPv6 use of RFC 6437 for 5-tuple hash ECMP load balancing for even 50/50 load balancing hash as opposed to router default flow or session based load balancing. Any feedback related in this context is much appreciated. Kind Regards Gyan On Mon, Nov 30, 2020 at 3:39 PM Acee Lindem (acee) <[email protected]> wrote: > Speaking as LSR Co-Chair: > > > > Hi Gyan, > > This is more a discussion for the 6MAN WG. Here is the charter for the LSR > WG: https://datatracker.ietf.org/wg/lsr/about/ > > No need to cross-post to the LSR list… > > Thanks, > > Acee > > > > *From: *Lsr <[email protected]> on behalf of Gyan Mishra < > [email protected]> > *Date: *Monday, November 30, 2020 at 3:22 PM > *To: *lsr <[email protected]> > *Subject: *[Lsr] IPv6 Flow Label QOS marking support for 5-tuple ECMP / > LAG / MLAG hash > > > > > > Dear LSR WG experts, > > > > > > Does anyone know if vendors have started or plan to start supporting IPv6 > flow label 5-tuple dscp marking for ECMP hashing. > > > > IPv6 flow label support for ECMP > > > > https://tools.ietf.org/html/rfc6437 > > > > IPv4 has traditionally always utilized recommended BCP of flow based load > balancing due to issues related to out of order and reordering of packets. > Although per packet load balancing is supported by most vendors it is not > recommended due to forwarding plane impact. > > > > This IPv6 flow label feature of 5-tuple hash provides significant > advantages for operators much needed ECMP load balancing entropy as compare > to traditional “flow or session” based load balancing which is the case as > well with MPLS entropy label RFC 6790 load balancing contrasted below. > > > > IPv6 flow label has significant benefits for operators deploying SRv6 > which utilizes the IPv6 data plane to now have “native” built in ECMP > entropy as part of the protocol as compare to its predecessor IPv4. > > > > This gives SRv6 another significant edge over MPLS predecessor. > > > > Excerpt from RFC 6437: > > > > Forwarding nodes such as routers and load distributors MUST NOT > > depend only on Flow Label values being uniformly distributed. In > > any usage such as a hash key for load distribution, the Flow Label > > bits MUST be combined at least with bits from other sources within > > the packet, so as to produce a constant hash value for each flow > > and a suitable distribution of hash values across flows. > > Typically, the other fields used will be some or all components of > > the usual 5-tuple. In this way, load distribution will still > > occur even if the Flow Label values are poorly distributed. > > > > Although uniformly distributed flow label values are recommended > > below, and will always be helpful for load distribution, it is unsafe > > to assume their presence in the general case, and the use case needs > > to work even if the flow label value is zero. > > > > As a general practice, packet flows should not be reordered, and the > > use of the Flow Label field does not affect this. In particular, a > > Flow label value of zero does not imply that reordering is > > acceptable. > > > > > > Below comparison of IPv6 flow label benefits over MPLS entropy label: > > > > > > ! MPLS Entropy label > > https://tools.ietf.org/html/rfc6790 > > > > > > > > As a comparison to MPLS entropy label, the mpls entropy label reduces the > control plane label binding and LFIB forwarding plane data structure by not > having a per ECMP path label allocation per FEC by adding an additional > entropy label to the label stack. > > > > > > However MPLS entropy label is still uses the traditional flow or session > based load balancing algorithm which results in > > uneven load balancing. > > > > > > Kind Regards > > > > Gyan > > > > > > -- > > [image: Image removed by sender.] <http://www.verizon.com/> > > *Gyan Mishra* > > *Network Solutions Architect * > > > > *M 301 502-1347 13101 Columbia Pike *Silver Spring, MD > > > -- <http://www.verizon.com/> *Gyan Mishra* *Network Solutions A**rchitect * *M 301 502-134713101 Columbia Pike *Silver Spring, MD
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