Quantum, OpenStack Networking is getting more important, as it gives much more flexibility to the cloud users than its predecessor, Nova network. If you are interested in the details, look at the wiki page of the project. I highly recommend the videos, as they were very useful for me during my journey to the world of OpenStack Networking. The introductory details will also explain some of the concepts mentioned in this blog post – such as l2 agents.

Initial Work

Just after the Havana summit, all the patches that enabled the use of Quantum with XenServer were waiting to be approved. All the work was done by Maru Newby, with the initial patch proposed on the end of 2012. You can look at the patch here. Unfortunately, the patch did not make the Grizzly release and we decided to put much more effort to get OpenStack Networking working with XenServer.

As I had no previous experiences with Quantum, I started to read the wiki, watch the videos to get some basic understanding. Right after that, I started to test the patches provided by Maru Newby.

I was using devstack to setup the environment as several changes had to be made in order to make it easier to test Quantum. Devstack was then modified so that it does not connect the host networks to any physical interfaces, and we also got rid of the VLAN tagging mess. There are a lot more to do to make getting started with devstack on XenServer easier. A blueprint was created to record our efforts.

Single Box Installation Using Devstack

I do not want to duplicate the wiki page, which describes how to install an all-in one OpenStack developer instance with Quantum. I would like to show what the environment looks like.

Deployment Architecture

This picture will give you an overview on what devstack is doing. The most significant difference, is that you will have two L2 agents:

  • q-domua managing the OpenvSwitch in domU, providing connectivity for dhcp
    and routing components to the physnet1 network.
  • q-agt managing the OpenvSwitch in dom0, connecting tenant interfaces to
    the physnet1 network.

You might ask, what is physnet1. That network represents the datacenter network, this network is accessible on the hypervisor, as “OpenStack VM Network”. It is not connected to any physical interfaces, so don’t be confused by the phys.

Let’s look at the configuration, by issueing some quantum commands.

$ quantum net-list

Will display two networks: public and private. Using

$ quantum net-show <network uuid comes here>

will show the details of those networks. Look at the private network: the provider:network_type is vlan and provider:physical_network is physnet1. You can also see what VLAN id is used. In my case, private is using VLAN 1000. These numbers are coming from the localrc file, see the OVS_VLAN_RANGES variable if you want to change the used range.

Switch configuration

The OpenvSwitch configuration could be displayed by:

$ sudo ovs-vsctl show

Look at the integration bridge, and notice the interfaces for the dhcp server (qdhcp-) and the router (qrouter-). Also note, that the integration bridge has an uplink port to the physnet1 bridge – int-br-eth1.

Now, switch to the dom0, and look at the network configuration:

# xe network-list

You should see a network with the name OpenStack VM Integration Network. Note its bridge, and look at the OpenvSwitch configuration:

# sudo ovs-vsctl show

This is the switch that is used by the tenant VMs. You can see a port hanging around there with VLAN id 4095. This is an interface, that is plugged to domU, but not used. This vif is there to force xapi to create the underlying OpenvSwitch bridge. It turned out that simply creating a network through xapi does not create the OpenvSwitch bridge. Please note, that this bridge also has an uplink port to physnet1.

Mapping to physnet1

Back to domU, look at the flows:

$ sudo ovs-ofctl show br-int

And look for the line which represents the uplink to the physical net:

3(int-br-eth1): addr:5a:bf:61:b5:45:49

And see how the VLANs are mapped to the physical network:

$ sudo ovs-ofctl dump-flows br-int

And in my case the private network is tagged with VLAN id 1 on the domU br-int:

... in_port=3,dl_vlan=1000 actions=mod_vlan_vid:1,NORMAL

So we expect that the port of the dhcp server and the router is tagged with VLAN 1. Execute sudo ovs-vsctl show, and look for the tag: lines to verify this.

Next Steps

I was intentionally not covering the public network. This network is supposed to be the external network. If you look at its configuration, you will find, that it is mapped to physnet1 as well, but if you are looking for the flows, with sudo ovs-ofctl dump-flows br-ex, you will not find the traces of the VLAN id. You will need to start another agent to manage your br-ex bridge.

To be continued…