tree: 26b948efbcad31d49f5d8175e50be7729eb46c2a [path history] [tgz]
  1. Makefile
  2. NOTES.txt
  3. README-Tutorial.md
  4. README.md
  5. admin-openrc.sh
  6. base-config-2x2
  7. cdn/
  8. cleanup.sh
  9. cord-services.yaml
  10. cord-test-subscriber.yaml
  11. cord-volt-devices.yaml
  12. docker-compose-bootstrap.yml
  13. files/
  14. images/
  15. make-fabric-yaml.sh
  16. make-virtualbng-json.sh
  17. make-vtn-external-yaml.sh
  18. mgmt-net.yaml
  19. monitoring_synchronizer.yaml
  20. monitoringservice.yaml
  21. monitoringtenant.yaml
  22. pod-cdn.yaml
  23. pod-exampleservice.yaml
  24. setup.yaml
  25. synchronizers.yaml
  26. xos.yaml
  27. xos_cord_config
cord-pod/README.md

XOS Configuration for CORD development POD

Introduction

This directory holds files that are used to configure a development POD for CORD. For more information on the CORD project, check out the CORD website.

XOS is composed of several core services:

  • A database backend (postgres)
  • A webserver front end (django)
  • A synchronizer daemon that interacts with the openstack backend
  • A synchronizer for each configured XOS service

Each service runs in a separate Docker container. The containers are built automatically by Docker Hub using the HEAD of the XOS repository.

How to bring up CORD

Installing a CORD POD involves these steps:

  1. Install OpenStack on a cluster
  2. Set up the ONOS VTN app and configuring OVS on the nova-compute nodes to be controlled by VTN
  3. Set up external connectivity for VMs (if not using the CORD fabric)
  4. Bring up XOS with the CORD services

Install OpenStack

To set up OpenStack, follow the instructions in the README.md file of the open-cloud/openstack-cluster-setup repository. If you're just getting started with CORD, it's probably best to begin with the single-node CORD test environment to familiarize yourself with the overall setup.

NOTE: In order to use the cord-pod configuration, you must set up OpenStack using the above recipe.

Set up ONOS VTN

The OpenStack installer above creates a VM called onos-cord on the head node. To bring up ONOS in this VM, log into the head node and run:

$ ssh ubuntu@onos-cord
ubuntu@onos-cord:~$ cd cord; sudo docker-compose up -d

Set up external connectivity for VMs

The CORD fabric is responsible for providing external (Internet) connectivity for VMs created on CORD. If you are running on CloudLab (or another development environment) and want external connectivity without the fabric, download this script and run it on the Nova compute node(s) as root:

$ sudo compute-ext-net.sh

The script creates a bridge (databr) on the node as well as a veth pair (veth0/veth1). The veth0 interface is added as a port on databr and VTN is configured to use veth1 as its data plane interface. Traffic coming from databr is NAT'ed to the external network via iptables. The configuration assumes that databr takes the MAC address of veth0 when it is added as a port -- this seems to always be the case (though not sure why).

Note that setting up the full fabric is beyond the scope of this README.

Bringing up XOS

The OpenStack installer above creates a VM called xos on the head node. To bring up XOS in this VM, first log into the head node and run:

$ ssh ubuntu@xos
ubuntu@xos:~$ cd xos/xos/configurations/cord-pod

Next, check that the following files exist in this directory (they will have been put there for you by the cluster installation scripts):

  • admin-openrc.sh: Admin credentials for your OpenStack cloud
  • id_rsa[.pub]: A keypair that will be used by the various services
  • node_key: A private key that allows root login to the compute nodes

XOS can then be brought up for CORD by running a few make commands. First, run:

ubuntu@xos:~/xos/xos/configurations/cord-pod$ make

Before proceeding, you should verify that objects in XOS are being sync'ed with OpenStack. Login to the XOS GUI and select Users at left. Make sure there is a green check next to padmin@vicci.org.

If you are not building the single-node development POD, the next step is to create and edit the VTN configuration. Run make vtn-external.yaml then edit the vtn-external.yml TOSCA file. The rest_hostname: field points to the host where ONOS should run the VTN app. The fields in the service_vtn and the objects of type tosca.nodes.Tag correspond to the VTN fields listed on the CORD VTN page on the ONOS Wiki, under the ONOS Settings heading; refer there for the fields' meanings.

Then run:

ubuntu@xos:~/xos/xos/configurations/cord-pod$ make vtn

The above step configures the ONOS VTN app by generating a configuration and pushing it to ONOS. You are able to see and modify the configuration via the GUI as follows:

  • To see the generated configuration, go to http://xos/admin/onos/onosapp/ (caveat), select VTN_ONOS_app, then the Attributes tab, and look for the rest_onos/v1/network/configuration/ attribute.

  • To change the VTN configuration, modify the fields of the VTN Service object and the Tag objects associated with Nodes. Don't forget to select Save.

  • After modifying the above fields, delete the rest_onos/v1/network/configuration/ attribute in the ONOS_VTN_app and select Save. The attribute will be regenerated using the new information.

  • Alternatively, if you want to load your own VTN configuration manually, you can delete the autogenerate attribute from the ONOS_VTN_app, edit the configuration in the rest_onos/v1/network/configuration/ attribute, and select Save.

Before proceeding, check that the VTN app is controlling Open vSwitch on the compute nodes. Log into ONOS and run the cordvtn-nodes command:

$ ssh -p 8101 karaf@onos-cord   # password is karaf
onos> cordvtn-nodes
hostname=nova-compute, hostMgmtIp=192.168.122.177/24, dpIp=192.168.199.1/24, br-int=of:0000000000000001, dpIntf=veth1, init=COMPLETE
Total 1 nodes

The important part is the init=COMPLETE at the end. If you do not see this, refer to the CORD VTN page on the ONOS Wiki for help fixing the problem. This must be working to bring up VMs on the POD.

If you are not building the single-node development POD, modify cord-vtn-vsg.yml and change addresses_vsg so that it contains the IP address block, gateway IP, and gateway MAC of the CORD fabric.

Then run:

ubuntu@xos:~/xos/xos/configurations/cord-pod$ make cord

Inspecting the vSG

The above series of make commands will spin up a vSG for a sample subscriber. The vSG is implemented as a Docker container (using the andybavier/docker-vcpe image hosted on Docker Hub) running inside an Ubuntu VM. Once the VM is created, you can login as the ubuntu user at the management network IP (172.27.0.x) on the compute node hosting the VM, using the private key generated on the head node by the install process. For example, in the single-node development POD configuration, you can login to the VM with management IP 172.27.0.2 using a ProxyCommand as follows:

ubuntu@pod:~$ ssh -o ProxyCommand="ssh -W %h:%p ubuntu@nova-compute" ubuntu@172.27.0.2

Alternatively, you could copy the generated private key to the compute node and login from there:

ubuntu@pod:~$ scp ~/.ssh/id_rsa ubuntu@nova-compute:~/.ssh
ubuntu@pod:~$ ssh ubuntu@nova-compute
ubuntu@nova-compute:~$ ssh ubuntu@172.27.0.2

Once logged in to the VM, you can run sudo docker ps to see the running vSG containers:

ubuntu@mysite-vsg-1:~$ sudo docker ps
CONTAINER ID        IMAGE                    COMMAND             CREATED             STATUS              PORTS               NAMES
2b0bfb3662c7        andybavier/docker-vcpe   "/sbin/my_init"     5 days ago          Up 5 days                               vcpe-222-111

Logging into XOS on CloudLab (or any remote host)

The XOS service is accessible on the POD at http://xos/, but xos maps to a private IP address on the management network. If you install CORD on CloudLab you will not be able to directly access the XOS GUI. In order to log into the XOS GUI in the browser on your local machine (desktop or laptop), you can set up an SSH tunnel to your CloudLab node. Assuming that <your-cloudlab-node> is the DNS name of the CloudLab node hosting your experiment, run the following on your local machine to create the tunnel:

$ ssh -L 8888:xos:80 <your-cloudlab-node>

Then you should be able to access the XOS GUI by pointing your browser to http://localhost:8888. Default username/password is padmin@vicci.org/letmein.