WORK IN PROGRESS
P4 is a programming language to define the behavior of the data plane, it can be used to program targets such as software switches, reconfigurable ASICs or FPGA-based NICs, or it can be used to formally specify the behavior of a fixed-function switch. P4 Runtime is a protocol to control at runtime the behavior of a P4-enabled data plane device. This page presents the support for P4 and P4 Runtime in ONOS, moreover, we provide steps to set up an environment to try ONOS with the Behavioral Model v2 (BMv2) (the reference P4 software switch). Support for P4 Runtime has been included in ONOS starting from the 1.11 (Loon) release.
This document assumes you are already familiar with ONOS, P4, P4 Runtime and BMv2. In other words, we assume you already know how to build and run ONOS, write a P4 program, build and run BMv2 with P4 Runtime support. If this is not the case, here's a list of pointers to get started:
- What's ONOS?
- ONOS Administrator Guide
- ONOS Developer Guide
- P4 white paper
- P4 language specification
- BMv2 slides at 2016 P4 workshop
- P4Runtime resources
Table of Contents
Features at a Glance
By using ONOS, you'll be able to program and control a network of comprising P4Runtime-enabled devices with all the benefits of a logically centralized SDN platform. The following features are currently supported:
P4 pipeline provisioning (ad device connection)
- Match-action table operations (via existing ONOS APIs such as FlowRule, FlowObjective, or Intent)
- Action profile group operations (via Group ONOS API)
Packet-ins and packet-outs
ONOS+P4 Developer VM
We have created a special VM with all you need to test P4Runtime support in ONOS.
You can use the following link to download an Open Virtual Appliance (OVA) package to be imported using VirtualBox or any other x86 virtualization system that supports this format.
Pre-built OVA package (approx. 3.5 GB):
VM login credentials
The VM comes with one user with sudo privileges. Use these credentials to log:
The VM is based on Ubuntu 16.04 (server) and contains the following software pre-installed:
- BMv2 (P4 software switch with P4Runtime support)
- p4c (P4 compiler)
- Mininet (network emulator)
Recommended System Requirements
The VM is configured with 4 GB of RAM and 2 CPU cores, while the disk has size of approx. 8 GB. For a flawless experience, we recommend running the VM on a host system that has at least the double of resources.
These are the recommended minimum requirements to be able to run a Mininet network with 1-10 BMv2 devices controlled by 1 ONOS instance. To emulate larger networks with multiple instances of ONOS (for example using onos.py), we recommend configuring the VM to use at least 4 CPU cores.
The VM comes with two network interfaces: a NATed interface that provides access to internet (
eth0), and a host-only one (
eth1). Once you are able to access the VM, use ifconfig (or your command of choice) to get the IP address of the host-only interface. You will need that later to access the ONOS GUI from your host system.
Interface naming inside the VM is not guaranteed, please use your linux/networking/VirtualBox skills to figure out which interface is the host-only one. It should be the one named
eth1, but that's not guaranteed. Similarly, make sure that VirtualBox is configured correctly such that the host-only interface can ping your host system.
Without trying to tell you how to live your life, we do recommend for your convenience to set up SSH access to the VM (e.g. copying SSH keys for faster access), as you will need to use multiple terminal shells at the same time. The Ubuntu system in the VM comes already equipped with an SSH server on port 22.
This walkthrough demonstrates the necessary steps and commands to run a network of BMv2 devices in Mininet, controlled by ONOS using P4Runtime.
In this example, the BMv2 devices will be configured with a sample P4 program that is provided by ONOS, named
If not differently specified, the following commands have to be executed in a terminal shell of the VM.
Build ONOS master
ONOS_APPSindicates which ONOS applications to execute at ONOS boot. The list includes the BMv2 drivers (based on P4Runtime), the Proxy ARP application, the LLDP Link Provider, the Host Location Provider, and the Reactive Forwarding application. These applications combined together provide ONOS with capabilities to discover the topology (via injection of LLDP packets), the hosts (by intercepting and handling ARP requests) and to provide basic point-to-point connectivity.
On a second terminal shell, access the ONOS command line:
Check that all applications have been loaded successfully. On the ONOS command line, type:
You should see an output similar to this (depending on your startup apps defined in $ONOS_APPS)
* 10 org.onosproject.drivers 1.13.0.SNAPSHOT Default Drivers
* 35 org.onosproject.generaldeviceprovider 1.13.0.SNAPSHOT General Device Provider
* 36 org.onosproject.protocols.grpc 1.13.0.SNAPSHOT gRPC Protocol Subsystem
* 37 org.onosproject.protocols.p4runtime 1.13.0.SNAPSHOT P4Runtime Protocol Subsystem
* 38 org.onosproject.p4runtime 1.13.0.SNAPSHOT P4Runtime Provider
* 39 org.onosproject.drivers.p4runtime 1.13.0.SNAPSHOT P4Runtime Drivers
* 42 org.onosproject.proxyarp 1.13.0.SNAPSHOT Proxy ARP/NDP
* 44 org.onosproject.hostprovider 1.13.0.SNAPSHOT Host Location Provider
* 45 org.onosproject.lldpprovider 1.13.0.SNAPSHOT LLDP Link Provider
* 73 org.onosproject.pipelines.basic 1.13.0.SNAPSHOT Basic Pipelines
* 119 org.onosproject.drivers.bmv2 1.13.0.SNAPSHOT BMv2 Drivers
* 146 org.onosproject.fwd 1.13.0.SNAPSHOT Reactive Forwarding
Start Mininet. On third VM terminal shell, type:
This will run a simple Mininet topology with 2 hosts connected to a BMv2 switch, to use a different topology please refer to the Mininet guide. The
-Eargument in sudo ensures that all environment variables are exported to the root user. $BMV2_MN_PY is used to point to the location of the Mininet custom file bmv2.py provided in ONOS. If successful, the output of the previous command should be similar to this:
*** Creating network
*** Adding controller
*** Adding hosts:
*** Adding switches:
*** Adding links:
(h1, s1) (h2, s1)
*** Configuring hosts
*** Starting controller
*** Starting 1 switches
Starting BMv2 target: simple_switch_grpc --device-id 1 -i 1@s1-eth1 -i 2@s1-eth2 --log-console -Lwarn --thrift-port 38148 --no-p4 -- --cpu-port 255 --grpc-server-addr 0.0.0.0:37346
*** Starting CLI:
Check that the BMv2 switch has successfully connected to ONOS. On the ONOS command line, check the output of the following command.
id=device:bmv2:1, available=false, local-status=connected 9m33s ago, role=NONE, type=SWITCH, mfr=p4.org, hw=master, sw=master, serial=unknown, driver=bmv2:org.onosproject.pipelines.basic, locType=geo, name=device:bmv2:1, protocol=[p4runtime]
From the output, we can see that the BMv2 switch is connected (
available=true), along with information on the P4 program (pipeconf) deployed (
driver=bmv2:org.onosproject.pipelines.basic) and on the protocol used to control the switch (
Check that the 2 hosts can ping each other. On the Mininet command line, use the
pingallcommand check the output:
Update P4Tools to latest version
Since P4Runtime is a work-in-progress effort, we frequently update ONOS to support the most recent capabilities. Similarly, we update the version of the P4 tools (BMv2, P4Runtime, and p4c) in the VM. Use the following commands to update ONOS and the P4 tools to the latest version:
onos-setup-p4-dev command will download and build the most recent version of the P4 tools. In case of errors, please remove any build artifact from previous executions: