We’ve been hearing how the networking is the last bastion of rigidity in the wonderful unicorn-flavored virtual world for the last few years. Let’s see why it’s so much harder to virtualize the networks as opposed to compute or storage capacities (side note: it didn’t help that virtualization vendors had no clue about networking, but things are changing).

When talking about OpenFlow and the whole idea of controller-based networking, people usually say “well, it’s nothing radically new, we’ve been using wireless controllers for years and they work well, so the OpenFlow ones will work as well.”

Unfortunately, the comparison is totally misleading.

Finally a good explanation of what DF bit does ;)

Source. DevOps Reactions

The second half of the Enterasys DCI Solutions webinar focused on real-life case studies. First the less interesting one: long-distance live VM migration (you know my feelings about the whole concept, but sometimes you just have to do it) and the role of fabric routing and host routing in the process.

I loved listening to OTV/FabricPath/LISP Packet Pushers podcast. Ron Fuller and Russ White did a great job explaining the role of OTV, FabricPath and LISP in a stretched (inter-DC) subnet deployment scenario and how the three pieces fit together … but I couldn't stop wondering whether there is a better method to solve the underlying business need than throwing three new pretty complex technologies and associated equipment (or VDC contexts or line cards) into the mix.

Carlos Asensio was facing an “interesting” challenge: someone has sold a layer-2 extension into their public cloud to one of the customers. Being a good engineer, he wanted to limit the damage the customer could do to the cloud infrastructure and thus immediately rejected the idea to connect the customer straight into the layer-2 network core ... but what could he do?

Plexxi has an incredibly creative data center fabric solution: they paired data center switching with CWDM optics, programmable ROADMs and controller-based traffic engineering to get something that looks almost like distributed switched version of FDDI (or Token Ring for the FCoTR fans). Not surprisingly, the tools we use to build traditional networks don’t work well with their architecture.

In a recent blog post Marten Terpstra hinted at shortcomings of Shortest Path First (SPF) approach used by every single modern routing algorithm. Let’s take a closer look at why Plexxi’s engineers couldn’t use SPF.

One of the Expert Express sessions focused on an MPLS/VPN-based WAN network using OSPF as the routing protocol. The customer wanted to add DMVPN-based backup links and planned to retain OSPF as the routing protocol. Not surprisingly, the initial design had all sorts of unexpectedly complex kludges (see the case study for more details).

Having a really smart engineer on the other end of the WebEx call, I had to ask a single question: “Why don’t you use BGP everywhere” and after a short pause got back the expected reply “wow… now it all makes sense.”

I spent the last few weeks blogging about the brave new overlay worlds. Time to return to VLAN-based physical reality and revisit one of the challenges of VM mobility: mobile IP addresses.

A while ago I speculated that you might solve inter-subnet VM mobility with Mobile ARP. While Mobile ARP isn’t the best idea ever invented it just might work reasonably well for environments with dozens (not millions) of virtual servers.

Enterasys decided to go down that route and implement host routing in their data center switches. For more details, watch the video from the Enterasys DCI webinar.

Routing protocols running on virtual appliances significantly increase the flexibility of virtual-to-physical network integration – you can easily move the whole application stack across subnets or data centers without changing the physical network configuration.

Major hypervisor vendors already support the concept: VMware NSX-T edge nodes can run BGP or OSPF¹, and Hyper-V gateways can run BGP. Like it or not, we’ll have to accept these solutions in the near future – here’s a quick survival guide.