Hi Bruno, Please refer to my inline comments identified with '[Robin]'.
Regards, Robin ________________________________ 发件人: [email protected] [[email protected]] 发送时间: 2015年1月18日 18:13 收件人: Lizhenbin; [email protected] 主题: RE: New Comments on Segment Routing(1): Challenge of Ordered mode for SR-BE Path and Incremental Deployment Hi Robin, Please see inline [Bruno2] Regards, Bruno From: Lizhenbin [mailto:[email protected]] Sent: Sunday, January 18, 2015 6:41 AM To: DECRAENE Bruno IMT/OLN; [email protected] Subject: ??: New Comments on Segment Routing(1): Challenge of Ordered mode for SR-BE Path and Incremental Deployment Hi Bruno, Please refer to my comments inline identified by '[Robin]'. For LDP, there are two LDP control modes: -- Ordered mode: Depend on the egress and the downstream node -- Independent mode: Depend on the downstream node. In fact, SR is based on IGP and introduces one totally different mode which I called as flooding mode. -- Flooding mode: Depend the node's self [Bruno2] I’m not sure to see what you mean by “depend”. In LDP ordered mode, there is a signaling end to end from the egress to the ingress, roughly a la “distance vector”. In LDP independent mode, the signaling is limited to be 2 adjacent nodes (me, my downstream). So roughly no signaling. In SPRING, the Link State paradigm is used. You know the status of the egress and all the links & nodes. [Robin] 1. The 'depend' means the label binding for the nodes in segment routing is stable, after the label binding are flooded, for every nodes in the network, once there are the routes to the destination nodes address, the ingress LSP can be setup to be used for VPN, etc. For LDP independent, even if the route is available, it has to wait for the label mapping from the downstream to setup the ingress LDP to be used for VPN, etc. 2. I am not sure what's the link state paradigm you mean? For LDP, it depends on IGP, it can also use the link state paradigm. The only difference is that the segment routing can use it conveniently since the label binding coexists with link state paradigm. Comparing the there mode, the flooding mode is more independent. This means it is the essiest one to set up the interrupted LSP and leak the useless traffic into the network which will have negative effect on the normal traffic in the network. [Bruno2] I disagree. You have the link state vision of the whole SPRING network. That’s the “mode” which provides the more information. Specifically, You know that the egress is “up” and that all nodes on the way are also “up” and ready (I do mean from a SPRING/MPLS standpoint). Obviously, this is a control plan vision only. If you want to check the FIB, you will need to test it (e.g. LSP Ping) [Robin] I understand your point about the control plane solution to some extent. In fact, I have also thought about solutions for the the possible interruption issues for SR-BE path. As to your suggested solution of the control plane, it can be done, but it has been the end-to-end path calculation like TE instead of the traditional route path calculation. Best Regards, Robin ________________________________ 发件人: [email protected]<mailto:[email protected]> [[email protected]] 发送时间: 2015年1月15日 23:56 收件人: Lizhenbin; [email protected]<mailto:[email protected]> 主题: RE: New Comments on Segment Routing(1): Challenge of Ordered mode for SR-BE Path and Incremental Deployment Hi Robin, Thanks for your interest on SR/SPRING. Please see inline. [Bruno] From: spring [mailto:[email protected]] On Behalf Of Lizhenbin Sent: Thursday, January 15, 2015 2:12 PM To: [email protected]<mailto:[email protected]> Subject: [spring] New Comments on Segment Routing(1): Challenge of Ordered mode for SR-BE Path and Incremental Deployment Hi all authors of segment routing, When we did research on segment routing and found some new issues. Could you help clarify if the analysis is right and how will they be taken into account in the design of SR. This is the first issue. (Non-SR) S11-----------S12----------S13---------S14 | | | | | | | | | | | | S21-----------S22----------S23---------S24 As above topoloby, there are 8 nodes and assume all the metics of the links are 1 and VPNs are deployed on S11/S21/S14/S24. If LDP is used as the tunnel for VPN on S11/S14, since LDP can support the ordered mode. The LSP for the S14 will be setup as the order S14->S13->S12->S11 for distribution of label mapping. And the shortest path for routes to S14 is also S11->S12->S13->S14. So the end-to-end LSP to S14 is setup. If one node (e.g. S13) does not support LDP, according to LDP ordered mode, the end-to-end LSP cannot setup since S12 does not receive the label mapping from the exact nexthop of the route, S13 and it will not distribute the label mapping to S11. And the result is that the VPN on S11 cannot take the LSP since the LSP cannot setup on S11. [Bruno] My understanding of your case is the following, please correct me if I’m wrong: There is no SPRING/SR. All nodes support LDP. S11, S12, S14 use ordered mode. S13 use independent mode. First, such cases happen today in multiple vendor networks since different implementation used different options. Then, I believe that your understanding of LDP independant mode is incorrect. In independent mode, S13 always advertises the S14 FEC to its neighbor, even if it don’t gets a label mapping from its downstream S14. This FEC is then propagated to S11 in ordered mode. As a result, S11 gets a label for S14 and will use S14 for the VPN. However in the forwarding plane the traffic will be dropped on S13. [Robin] It has explained in the previous mail. Please rethink the case that S13 does not support LDP instead of that S13 support independent mode. If SR-BE path is used as the tunnel for VPN on S11/S14 and assume the S13 cannot support the SR, according to my understanding, there will be an SR-BE path for the destination S14 which is interrupted at S12. This is similar as the independent mode of LDP. If this VPN takes this SR-BE Path at S11, the VPN traffic will be dropped at S12. If the analysis is right. I have two questions: 1. How will SR avoid such risk? Some enhancement on SR or just leave it to the local implmentation (For example, LSP ping is firstly used to check the connectivity)? [Bruno] A priori, I could see 3 answers -a- I guess one could use IGP multi-topology to handle a different topology between the IP and the MPLS one. This is similar to IPv6 introduction in a IPv4 network. -b- Another option is to enable interworking between LDP and SR/SPRING to handle such incremental deployment. Please see the following draft for an introduction on this interworking: https://tools.ietf.org/html/draft-filsfils-spring-segment-routing-ldp-interop-02 Comments are welcomed as I agree with you that’s an important topic for brownfield incremental deployment [Robin] I do not think multi-topoloty and SR-LDP interop will propose can not solved the issued. [Bruno2] Not sure why you use double negation. But in short, you also believe this should work. [Robin] But the price is high. In fact, I have read the draft. But I do not think think it is an easy work according to the past experience in the MPLS world. I will explain the possible work should be taken into account in the subsequent comments. A small example, SR claimed it can replace the IGP-LDP sync. But as a developer, I am sure that the effort of implementation of SR-LDP interop is much more than IGP-LDP sync. Can I say that in fact SR does not save our effort, but make more trouble? [Bruno2] The use of SR-LDP interwork allows incremental deployment of SR with incremental benefit but is indeed an additional work. It is only needed in a multi-vendor/plateform network when all nodes do not support SR, for a limited duration. It’s not long term feature. If you ask me, I would rather not have to use it, but it depends on the willing of vendors to implement the required IGP sub-TLVs. If we all agree that implementing such sub-TLV is easier and better (or if you assume mono vendor deployment, which I don’t) we won’t need to deploy/implement LDP-SPRING interworking. This is a roadmap versus deployment date issue, so a bit out of scope of this mailing list. However, from the mailing list standpoint, the point is that this can be done (specified and implemented) -c- Another option is to incrementally deploy SR in addition to LDP and to prefer LDP for end to end LSP (using administrative distance). Then it’s up to each SR application to see how much they can take benefit of partial SR deployment. e.g. FRR (TI-LFA, RLFA or DLFA) may/should be able to benefit from partial deployment. [Robin] The difficulty is that the ingress node cannot determine if the SR-BE path is end-to-end without extra methods which is unnecessary for the LDP already deployed in the whole network. [Bruno2] Again, No. please see https://tools.ietf.org/html/draft-ietf-isis-segment-routing-extensions-03#section-3 The ingress knows, within its IGP area/level, all nodes which supports SPRING or not. This includes nodes on the SPT to the egress. FYI, as of today/myself I say that “b” is required and “c” is nice to have. 2. Assume LDP is already deployed on all nodes in the network to bear VPN traffic. When SR-BE path is adopted in the network to replace LDP LSP, since there is the possible risk proposed by interrupted SR-BE path and I do not think it is impossible to carefully determine the upgraded nodes. [Bruno] I’m not sure to correctly understand your last sentence. Within an AS (well area/level) It is possible to identify nodes which are SR/SPRING compliant (or non compliant) as they advertise this in the link state IGP. [Robin] I agree your proposed the incremental deployment method by IGP extension to identifed the SR-node. This is not what my objective. My case is to show that the scope of end-to-end LSP and the scope of the SR nodes is different. The incremental deployment of SR cause the issue for the end-to-end LSP. [Bruno2] I’m not sure to see your point. In particular by “end-to-end” to you mean within an area/level, or across ASes? Because as SPRING uses the IGP, IGP frontiers makes a difference. Can you please rephrase or bring an non-working example? So the only choice is to upgrade all nodes to support SR all at once. [Bruno] No. [Robin] I can agree you that it may be necessary. But more details be taken into account and the price may be high and . is that right that the incremental deployment of SR in such scenario is difficult to adopt? Regards, Zhenbin(Robin) _________________________________________________________________________________________________________________________ Ce message et ses pieces jointes peuvent contenir des informations confidentielles ou privilegiees et ne doivent donc pas etre diffuses, exploites ou copies sans autorisation. Si vous avez recu ce message par erreur, veuillez le signaler a l'expediteur et le detruire ainsi que les pieces jointes. Les messages electroniques etant susceptibles d'alteration, Orange decline toute responsabilite si ce message a ete altere, deforme ou falsifie. Merci. This message and its attachments may contain confidential or privileged information that may be protected by law; they should not be distributed, used or copied without authorisation. 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