VPLS installation and configuration
VPLS is an ONOS application, included by default in the platform (both source code and packages). It needs to be explicitly configured and activated.
The goal of VPLS is to connect multiple end-points in an OpenFlow network, creating isolated L2 broadcast overlay networks.
While legacy technologies require the manual configuration of multiple devices in the network, VPLS tries to make the process easier for network operators.
The current model expects that hosts to be connected together (any L3 device), sends into the network tagged packets (VLAN Ids).
The User Guide assumes:
You already have knowledge on how ONOS generally works;
ONOS has been already installed OR there’s a management machine ready to push bits to some target machines;
Different hosts have been directly attached to the OpenFlow data plane and they send out packets using none or some (same or different) VLAN Ids.
VPLS can set to be installed and configured:
At setup-time, before pushing the ONOS bits from a management machine to target machines;
At run-time, while ONOS is running.
Following, the procedure to activate and configure VPLS will be described.
As for other ONOS applications, VPLS can be activated either:
Manually, through the ONOS Command Line (CLI), typing "app activate org.onosproject.vpls";
Automatically at ONOS start up, adding the application name "vpls" to the list of apps to be started automatically. Specific startup details can be defined in its own cell file, on the management machine, before pushing the ONOS bits. See example below:
VPLS relies on the ONOS network configuration subsystem, which is by default distributed on all ONOS nodes and shared by all ONOS applications.
In order to configure VPLS two things need to be done:
Configure two or more interfaces
Configure one or more VPLS that associate the interfaces configured together
The goal of the configuration process is to define what attachment points the hosts are connected to (so which DPID, twhich ports), and to associate them under the same overlay network, a VPLS. This will essentially determine what hosts should talk one each other (and which don’t).
Both the interfaces and the VPLS configuration itself can be applied either:
Creating a special network-cfg.json configuration file on the management machine in $ONOS/tools/package/config, before pushing the ONOS bits to the target machines. In this case - while deploying - the network-cfg.json file will be copied over the target machines and parsed;
Pushing a JSON file at run-time, using the specific REST API;
From the ONOS CLI, using the interface commands.
Configuration file format and syntax
Let’s assume the following scenario:
In this example, five hosts are sending in tagged packets with different VLAN Ids. Two networks will be created, one called VPLS-EXAMPLE-1 (VPLS1) - in green, the second one called VPLS-EXAMPLE-2 (VPLS2) - in red. Three hosts will be grouped and connected in VPLS1, while other two will be associated to VPLS2.
Hosts are grouped by VPLS in the following table:
OF Switch DPID
OF Port Number
-1 (no VLAN)
|VPLS1||-1 (no VLAN)||h6||0000000000000006||1|
In order to configure what has been described above, the following configuration should be pushed to ONOS (either before or after VPLS has been started).
The same result can be achieved at run-time, using the interface configuration and VPLS CLI commands as follows (see section "CLI syntax" for more details):
As soon as two or more interfaces are added to the same VPLS network, intents to manage broadcast will be installed.
As soon as two or more hosts connected to the same VPLS get discovered by ONOS (and VPLS), intents to manage unicast traffic will be installed.
For more details on the VPLS architecture, internal workflow and intents used, please visit the VPLS Architecture Guide.
Mininet network file (topo-vpls.py)
Would you like to give VPLS a try, but it's too hard and long bringing up an entire network with hosts sending in packets on different VLANs? The mininet (python) file attached gives you an example of how to simulate a similar network. Just modify the file, creating the topology you like and letting Mininet point to your controller IP address.
VPLS allows to define networks and attach or detach interfaces to them, also by command-line. There is also the option of cleaning all the state of the application for a clean start. Details on the CLI operations are detailed below:
Issues and Troubleshooting
Things not working as expected? Time to troubleshoot!
Hosts are not communicating? Do you have at least two interfaces configured and two hosts attached? Are the VLANs correct ?
Is your configuration correct? Has it been correctly parsed? The first step is to checked if the configuration has been parsed and correct running at the ONOS CLI the command "interfaces". This should give you a list of interfaces configured in the system
Any exception? Type log:exception-display in the ONOS CLI to discover it.
Are hosts connected to your OpenFlow data plane? I a host start to send out packets into the OpenFlow network you should be able to see it, even if VPLS is not installed yet or no configuration is provided. Go in the ONOS CLI and type "hosts". As result, you should see something similar to this (100, 2000, 300 in this case are the VLAN Ids used):
Please, note that you should see results only for hosts that already sent traffic into the Network. This doesn’t happen for example with Mininet, where hosts are only processes without any application running by default.
Also, as in any related Intent based ONOS applications, there are certain best-practices to follow, to see what’s going in the Intent / Flow subsystems. Type "intents" to see the detailed list of intents, or "intent -s" for the intents summary.
Below is an approximation of what you should see for the network "VPLS2", after pinging between interfaces "vpls2h1" and "vpls2h2". Notice that two broadcast intents are installed at the beginning, and two unicast intents once the interfaces start pinging each other.
Are intents installed?
Yes! (we’re happy!).
No! Ops….let’s check flows, since 1 intent is composed by one or more flows!
Type "flows pending-add" to see if there’s any flow for which ONOS still not received an installation confirmation
Type "flows" to see the detailed list of flows - installed or not by the system
Still having issues? Write to us. We can help! Mailing Lists