Hi Ketan, thanks for the support and comments. some clarification inline,
> On Nov 28, 2017, at 11:54 PM, Ketan Talaulikar (ketant) <[email protected]> > wrote: > > Hello, > > I support this draft, however would like the following aspect/scenario > clarified. > > Consider the scenario where both the neighbours on a p2p link initiate the > reverse metric procedure (i.e. include the TLV in their hellos concurrently). > How are implementations supposed to handle this? Normally the choice of > metric conveyed via this TLV is based on a particular condition (which need > not just be "overload") on the local router which requires the neighbour to > use shift to using the reverse metric supplied. So when both neighbours > initiate this process, it would be good to have the specification provide a > deterministic behaviour since the reverse metric values provided may conflict > in certain "non-overload" conditions. If both routers simply accept the value > supplied by their neighbour, it may not achieve the original purpose/design > of this triggering this mechanism? When you say if both sides initiated this ‘reverse metric’, you implied there is a timing issue with this procedure in the draft. The value of this ‘metric offset’ (or whatever will be called) of this TLV, is just a number. The draft does not say this number is equal to the configured ‘metric’ value plus the received ‘reverse metrc’ value, that would be non-deterministic and both sides would keep going up until it’s overloaded:-) Each side of IS-IS link decides if it needs to send a ‘reverse metric’ over the link, either in link-overloading case, or other cases. It’s a static number, it does not depend on the other side sending a ‘reverse metric’ or not. This both sides sending a ‘reverse-metric’ over a link is equivalent to an operator provisions new metric (say both plus 10 to the old metric) on both sides of the link at the same time, there is no non-determinitic thing in this. thanks. - Naiming > > Following options come to my mind: > a) when this condition is detected, none of the routers actually apply the > reverse metric procedure > b) when this condition is detected, the router with higher/lower system-id > value (or some such tiebreaker) wins and the other withdraws its reverse > metric (until then (a) applies) > c) some mechanism/rule that is based on the value of metric offset specified > perhaps (made harder since the actual metric is not signalled but the offset) > which determines the "winner" so the other withdraws their TLV. > > Since the mechanism is not specific to overload conditions (where this is not > an issue), it may be necessary for the specification to clarify this > behaviour to ensure interoperability. > > Thanks, > Ketan > > -----Original Message----- > From: Isis-wg [mailto:[email protected]] On Behalf Of Christian Hopps > Sent: 16 November 2017 04:13 > To: [email protected] > Cc: [email protected] > Subject: [Isis-wg] WG Last Call for draft-ietf-isis-reverse-metric-07 > > > The authors have asked for and we are starting a WG Last Call on > > https://datatracker.ietf.org/doc/draft-ietf-isis-reverse-metric/ > > which will last an extended 3 weeks to allow for IETF100. > > Thanks, > Chris. > > _______________________________________________ > Isis-wg mailing list > [email protected] > https://www.ietf.org/mailman/listinfo/isis-wg > > _______________________________________________ > Isis-wg mailing list > [email protected] > https://www.ietf.org/mailman/listinfo/isis-wg _______________________________________________ Isis-wg mailing list [email protected] https://www.ietf.org/mailman/listinfo/isis-wg
