Extreme Networks

Hi Andre,

Isn't the BVLAN transported explicitly by your VPLS? Seems so, but with the ISP you cannot always guarantee that the customer will have exactly same VLAN-s available for his point-to-point mesh between the sites.

Please forgive me as I'm not enough oriented with ISP transport standards, but with VPLS i.e. L2 VPN and with other mechanisms, couple of issues have to be taken into account. I would think you can just translate the BVLANs to carrier-VLANs, but in some materials I got I see VPLS scenario with MPLS routers at customer edge.

You will have to transport BVLAN IS-IS TLVs as well as 802.1ah-encapsulated tenant data traffic. The way ISP handles your traffic requires you to use tunneling (VXLAN on-board with VOSS) or perhaps just translate the BVLANs (I suppose that's your case). All of this requires you to also take a look at ISP MTU so your MAC-in-MAC traffic and perhaps encapsulated within VXLAN tunnel, has to fit the MTU. All issues that might occur in the meantime require different approaches. Fabric Extend is really flexible and thus selecting good approach is critical.

With that in mind, some ISP methods (MPLS Pseudowire, PBB E-line) require creating logical IS-IS interface to each destination, with specifying ISP-provided VLANs (could be different per each link) for BVLAN translation.
Some methods (MPLS IPVPN, where MPLS routers on each customer edge will be in different subnet) require again logical IS-IS interface but with different VOSS config aand... ONA perhaps; the Open Networking Adapter is a small device that is going to be renamed from what can be seen on marketing materials. It enables VSP 4Ks for VXLAN encapsulation. Moreover, if your ISP MTUs are not enough for you, you need to fragment and reassembly the frames (normally you couldn't and it's not applicable for L2 ISP situation!), ONA gives you that so then it is a must. ONA is just for VSP 4K. It is really nice device with also different use cases ('IoT defender'), one I cry about is just 1 Gbps connectivity for FE in that scenario where you should have ONA because of the MTU or because of having VSP 4Ks only.
With scenarios like MPLS VPLS/ELAN/VLAN, where you would have MPLS routers within same subnet at each edge, there was slightly different config.
If you could explain how will the ISP operate, we could select appropriate scenario and work on the config for this.

If you work with pure L2 core you need configuration with:
enable
conf t
logical-intf isis <1-255> vid primary-vid port name (or else, name is optional but nice to have) (could be with mlt instead of a port if applicable)Then you can see the logical interface UP as well as adjacencies:
show isis logical-interface
show isis interface
show isis adjacenciesLogical interface should be set for each point-to-point. With hub and spoke it is easy, with mesh I think you need complete set of those.

If you work with L3 core and with ONA perhaps, it's a little bit more hassle but not that much. I can provide you with more input about ONA if you will work with it eventually. I've had couple of weeks break from VOSS/BOSS configuration so gotta recall things on-the-fly.

Details on MTU:
- L2 service providers should give you at least 1544 B,
- L3 service providers should give you at least 1594 B (total with MAC-in-MAC and VXLAN headers) - if that requirement won't be met, you will get a log message about IS-IS adjacency not established;
- If for L3 service you have smaller MTU than 1594 B, you need VSP 4K + ONA
- MTU cannot be auto-discovered over IP so the tunnel MTU will not be automatically set (on VOSS default is 1950 .

Hope that helps,
Tomasz