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Copyright (c) 2019 Mateus Saquetti All rights reserved.

This software was developed by Institute of Informatics of the Federal University of Rio Grande do Sul (INF-UFRGS)

@NETFPGA_LICENSE_HEADER_START@

Licensed to NetFPGA C.I.C. (NetFPGA) under one or more contributor license agreements. See the NOTICE file distributed with this work for additional information regarding copyright ownership. NetFPGA licenses this file to you under the NetFPGA Hardware-Software License, Version 1.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at:

http://www.netfpga-cic.org

Unless required by applicable law or agreed to in writing, Work distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.

@NETFPGA_LICENSE_HEADER_END@

P4VBox

P4 Virtual Box (P4VBox) Forwarding Engine is a Hard-Virtualization (HDL-hypervisor) solution to programmable data planes. It enables virtualization by directly defining a parallel architecture for accommodating multiple programmable switch programs and their individual on FPGA-based devices NetFPGA SUME.

To more info, please see the links:

The source code of the P4VBox forwarding engine is a fork of P4-NetFPGA Project and use Xilinx P4-SDNet toolchain. Kindly note that this code is under development and may be unstable.

To more info about dependencies and installation:

Installation Ubuntu 16.04

How to clone this repository:

$  git clone https://github.com/p4vbox/P4VBox.git
$  git pull --tags

Add these lines at your environment variables file: vi ~/.bashrc

export P4VBOX=~/projects/P4VBox/scripts/settings.sh
source $P4VBOX

Updating environment:

$  source ~/.bashrc

Instaling all dependencies:

$  sudo $P4VBOX_SCRIPTS/tools/setup_SUME.sh  

Making the library and installing the SUME driver:

$  $P4VBOX_MAKE_LIBRARY
$  $P4VBOX_INSTALL_DRIVER

Usage

How to create a new P4VBox project:

$  $P4VBOX_NEWPROJ <project_name>

Update environment variables, change the $P4VBOX_SCRIPTS/settings.sh with the correct project name: vi $P4VBOX

...
export P4_PROJECT_NAME=<project_name>
...

Then update the environment with the new project name:

$  source $P4VBOX

Building a project - P4 switches Flow

Enter in the project folder to create virtual switches:

$  cd $P4_PROJECT_DIR

Write:

  • The virtual switch in P4 code (.p4), for example, on src/ folder.
  • The commands file commands_<name_p4_switch>.txt with switch tables.
  • The script generator for data tes on testdata/ folder. Warning: each switch should have a test data named: gen_testdata_<switch_name>.py and your project must have your propely test data named: gen_testdata_<project_name>.py

Running the Project - P4 switches Flow

Generate your test data, you can run this option with --pp option to see the packets:

cd $P4VBOX_SCRIPTS

$  ./p4vbox.py <virtual_switch_0> <virtual_switch_1> .. <virtual_switch_N> -name <project_name> -t

Verify your P4 Code sintaxe:

$  ./p4vbox.py <virtual_switch_0> <virtual_switch_1> .. <virtual_switch_N> -name <project_name> -c

Run the P4 switch simulation, you can run -v flag to see in terminal, the standart output is the log file in $P4_PROJECT_DIR/log/:

$  ./p4vbox.py <virtual_switch_0> <virtual_switch_1> .. <virtual_switch_N> -name <project_name> -s

Run the SUME simulation to all virtual switches:

$  ./p4vbox.py <virtual_switch_0> <virtual_switch_1> .. <virtual_switch_N> -name <project_name>

Implement your design:

$  ./p4vbox.py <virtual_switch_0> <virtual_switch_1> .. <virtual_switch_N> -name <project_name> --imp

Programming the SUME board:

$  sudo $P4VBOX_PROGSUME