The three islands at Amalfi coast

The three islands (at Amalfi Coast), feel free to contact me via twitter if you want a higher res version of the picture.
Network Openstack

Creating a network interface to tenant network in baremetal node (neutron)

The next example illustrates how to create a test port on a bare-metal node connected to an specific tenant network, this can be useful for testing, or connecting specific bare-metal services to tenant networks.

The bare-metal node $HOST_ID needs to run the neutron-openvswitch-agent, which will wire the port into the right tag-id, tell neutron-server that our port is ACTIVE, and setup proper L2 connectivity (ext VLAN, tunnels, etc..)

Setup our host id and tenant network

NETWORK_ID=$(openstack network show -f value -c id $NETWORK_NAME)

Create the port in neutron

PORT_ID=$(neutron port-create --device-owner \  
          compute:container \
          --name test_interf0 $NETWORK_ID | awk '/ id / { print $4 }')

PORT_MAC=$(neutron port-show $PORT_ID -f value -c mac_address)

The port is not bound yet, so it will be in DOWN status

neutron port-show $PORT_ID -f value -c status

Create the test_interf0 interface, wired to our new port

ovs-vsctl -- --may-exist add-port br-int test_interf0 \
  -- set Interface test_interf0 type=internal \
  -- set Interface test_interf0 external-ids:iface-status=active \
  -- set Interface test_interf0 external-ids:attached-mac="$PORT_MAC" \
  -- set Interface test_interf0 external-ids:iface-id="$PORT_ID"

We can now see how neutron marked this port as ACTIVE

neutron port-show $PORT_ID -f value -c status

Set MAC address and move the interface into a namespace (namespace is important if you’re using dhclient, otherwise the host-wide routes and DNS configuration of the host would be changed, you can omit the netns if you’re setting the IP address manually)

ip link set dev test_interf0 address $PORT_MAC
ip netns add test-ns
ip link set test_interf0 netns test-ns
ip netns exec test-ns ip link set dev test_interf0 up

Get IP configuration via DHCP

ip netns exec test-ns dhclient -I test_interf0 --no-pid test_interf0 -v
Internet Systems Consortium DHCP Client 4.2.5
Copyright 2004-2013 Internet Systems Consortium.
All rights reserved.
For info, please visit

Listening on LPF/test_interf0/fa:16:3e:6f:64:46
Sending on   LPF/test_interf0/fa:16:3e:6f:64:46
Sending on   Socket/fallback
DHCPREQUEST on test_interf0 to port 67 (xid=0x5b6ddebc)
DHCPACK from (xid=0x5b6ddebc)

Test connectivity (assuming we have DNS and a router for this subnet)

ip netns exec test-ns ping
PING ( 56(84) bytes of data.
64 bytes from ( icmp_seq=1 ttl=36 time=115 ms
64 bytes from ( icmp_seq=2 ttl=36 time=114 ms
Network Opensource Openstack

Neutron QoS service plugin

Finally, I’ve been able to record a video showing how the QoS service plugin works.If you want to deploy this follow the instructions under the video. (open in vimeo for better quality)

Deployment instructions

Add to your devstack/local.conf

enable_plugin neutron git://
enable_service q-qos

Let stack!


now create rules to allow traffic to the VM port 22 & ICMP

source ~/devstack/accrc/demo/demo

neutron security-group-rule-create  --direction ingress \
                                --port-range-min 22     \
                                --port-range-max 22     \

neutron security-group-rule-create --protocol icmp     \
                                   --direction ingress \

nova net-list
nova boot --image cirros-0.3.4-x86_64-uec \
          --flavor m1.tiny \
          --nic net-id=*your-net-id* qos-cirros

nova show qos-cirros  # look for the IP
neutron port-list # look for the IP and find your *port id*

In another console, run the packet pusher

ssh cirros@$THE_IP_ADDRESS \
     'dd if=/dev/zero  bs=1M count=1000000000'

In yet another console, look for the port and monitor it

# given a port id 49d4a680-4236-4d0c-9feb-8b4990ac35b9
# look for the ovs port:
$ sudo ovs-vsctl show | grep qvo49d4a680-42
       Port "qvo49d4a680-42"
           Interface "qvo49d4a680-42"

finally, try the QoS rules

source ~/devstack/accrc/admin/admin

neutron qos-policy-create bw-limiter
neutron qos-bandwidth-limit-rule-create *rule-id* \
        bw-limiter \
        --max-kbps 3000 --max-burst-kbps 300

# after next command, the port will quickly
# go down to 3Mbps
neutron port-update *your-port-id* --qos-policy bw-limiter

You can change rules in runtime, and ports will be updated

neutron qos-bandwidth-limit-rule-update *rule-id* \
        bw-limiter \
        --max-kbps 5000 --max-burst-kbps 500

Or you can remove the policy from the port, and traffic will spike up fast to the original maximum.

neutron port-update *your-port-id* --no-qos-policy
Network Opensource Openstack

Neutron Quality of Service coding sprint

Last week we had the Openstack Neutron Quality of Service coding sprint in Ra‘anana, Israel to work on [1].

It’s been an amazing experience, we’ve accomplished a lot, but we still have a lot ahead.We gathered together at Red Hat office for three days [2], delivering almost (sigh!) the full stack for the QoS service with bandwidth limiting.The first day we had a short meeting where we went over the whole picture of blocks and dependencies that we had to complete.

The people from Huawei India (hi Vikram Choudhary & Ramanjaneya Reddy) helped us remotely by bootstraping the DB models and the neutron client.

Eran Gampel (Huawei), Irena Berezovsky (Midokura) and Mike Kolesnik (Red Hat) revised the API for REST consistency during the first day, provided an amendment to the original spec [12], the API extension and the service plugin [13] Concurrently John Schwarz (Red Hat) was working on the API tests which acted as validation of the work they were doing.

Ihar Hrachyshka (Red Hat) finished the DB models and submited the first neutron versioned objects ever on top of the DB models, I recomend reading those patches, they are like nirvana of coding ;).

Mike Kolesnik plugged the missing callbacks for extending networks and ports. Some of those, extending object reads will be moved to a new neutron.callbacks interface.I mostly worked on coordination and writing some code for the generic RPC callbacks [5] to be used with versioned objects, where I had lots of help from Eran and Moshe Levi (Mellanox), the current version is very basic, not supporting object updates but initial retrieval of the resources, hence not a real callback 😉 (yet!).

Eran wrote a pluggable driver backend interface for the service, [6] with a default rpc/messaging backend which fitted very nicely.

Gal Sagie (Huawei) and Moshe Levi worked at the agent level, Gal created the QoS OvS library with the ability to manipulate queues, configure the limits, and attach those queues to ports [7], Moshe leaded the agent design, providing an interface for dynamic agent extensions [8], a QoS agent extension interface [9], and the example for SRIOV [10], Gal then coded the OvS QoS extension driver [11].

During the last day, we tried to put all the pieces together, John was debugging API->SVC->vo->DB (you’d be amazed if you saw him going through vim or ipdb at high speed). Ihar was polishing the models and versioned objects, Mike was polishing the callbacks, and I was tying together the agent side. We were not able to fully assemble a POC in the end, but we were able to interact with neutron client to the server across all the layers. And the agent side was looking good but I managed to destroy the environment I was using, so I will be working on it next week.The plan aheadWe need to assemble the basic POC, make a checklist for missing tests and TODO(QoS), and start enforcing full testing for any other non-poc-essential patch.Doing it as I write: that’s done we may be ready to merge back during the end of liberty-2, or the very start of next one: liberty-3. Since QoS is designed as a separate service, most of the pieces won’t be activated unless explicitly installed, which makes it very low risk of breaking anything for anyone not using QoS.

What can be done better

Better coordination (in general), I’m not awesome at that, but I guess I had the whole picture of the service, so that’s what I did.Better coordination with remotes: It’s hard when you have a lot of ongoing local discussions, and very limited time to sprint, I’m looking forward to find formulas to enhance that part.


In my opinion, the mid-cycle coding sprint was very positive, the ability to meet every day, do fast cross-reviews, and very quickly loop in specific people to specific topics was very productive.I guess remote coding sprints should be very productive too, as long as companies guarantee the ability of people to focus on the specific topic, said that, the face to face part is always very valuable.I was able to learn a lot from all the other participants on specific parts of neutron I wasn’t fully aware of, and by building a service plugin we all got the understanding of a fullstack development, from API request, to database, messaging (or not), agents and how all fits together.

Special thanks Gary Kotton for joining us the first day to understand our plan, and help us later with reviews towards merging patches on the branch.To Livnat Peer, for organizing the event within Red Hat, and making sure we prioritized everything correctly.To Doug Wiegley and Kyle Mestery for helping us with rebases from master to the feature branch to cleanup gate bugs on time.




[3] Versioned objects 1/2:

[4] Versioned objects 2/2:

[5] Generic RPC callbacks:

[6] Pluggable driver backend:

[7] OVS Low level (ovsdb):

[8] Agent extensions:

[9] QoS agent extension :

[10] SRIOV agent extension

[11] OvS QoS extension:

[12] API amendment:

[13] SVC and extension amendment: