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VPN Benchmarking Framework

This project aims to measure and compare the performance overhead of using a VPN connection and to visualize the resulting data. The framework can be used for different tasks (like sending an HTTP GET packet or a big file) using different VPNs (like Wireguard or Rosenpass).

Usage for Performance Measurements

Installing dependencies

To install the necessary dependencies, you should create a Python venv environment with the command

$ python -m venv . && source bin/activate

and use:

$ sudo python install_requirements.py

If you use a venv environment, use bin/python on the commands. Alternatively to using a virtual environment, you can use the framework without a virtual environment. In that case, you will have to install the necessary modules yourself: psutil, click, inquirer, numpy, pycurl, dateutil, matplotlib.

Setting the hosts

To define the host data, execute the command

$ python set_hosts.py --server USER@IP_ADDRESS --client USER@IP_ADDRESS

on all hosts.

USER and IP_ADDRESS describe the user and the IP address on the respective host. Note, that both options --server and --client have to be set on both hosts.

After setting the hosts, you will be asked if you want to set the same hosts for the Ansible hosts file. This can be used in the next step, to install Rosenpass on the hosts.

Install latest Rosenpass version

For setting up the environment if you want to measure the performance of Rosenpass, either install Rosenpass from their official GitHub page, or use Ansible to install Rosenpass on the remote host:

~/ansible_files$ ansible-playbook install_rosenpass.yml --ask-become-pass

You will be asked to enter the password for the remote machine.

Generate keys and share public keys

All the following functions can be used by executing main.py with different arguments and options.

Generating keys

To generate the necessary keys, use the command:

user@server:~$ python main.py server VPN_OPTION EXCHANGE_TYPE keygen
user@client:~$ python main.py client VPN_OPTION EXCHANGE_TYPE keygen

with VPN_OPTION being the VPN you want to use (currently you can use novpn (baseline), rosenpass, wg, openvpn, and openvpnstatic). EXCHANGE_TYPE describes what kind of exchange should be executed (currently you can use http for sending a specified number of GET packets from the client to the server).

Make sure to not use sudo on these commands, since this will limit the read rights for the keys folder and lead to an unsuccessful keysend operation.

Sharing public keys with the other host

For sharing the keys, it is necessary to set up SSH keys on both the server and the client. To share the keys, execute:

user@server:~$ python main.py server VPN_OPTION EXCHANGE_TYPE keysend [-d REMOTE_CLIENT_DIRECTORY]
user@client:~$ python main.py client VPN_OPTION EXCHANGE_TYPE keysend [-d REMOTE_SERVER_DIRECTORY]

REMOTE_SERVER_DIRECTORY and REMOTE_CLIENT_DIRECTORY specify the working directory on the remote host, in which the folder rp-keys for the keys is existent.

Execute HTTP exchange

Now the keys and hosts are ready to start and monitor exchanges. Start the server first.

HTTP exchange using no vpn (baseline)

Start the baseline HTTP exchange, by running the following commands:

user@server:~$ python main.py server novpn http exchange [-i/--iterations ITERATIONS] [--auto]
user@client:~$ python main.py client novpn http exchange [-i/--iterations ITERATIONS] [--auto]

The --auto option lets the software save the hardware/network performance every 0.1 seconds automatically, additionally to the values when a new exchange starts. This makes sure that you get values during the entire exchange, without breaks in the execution stopping the values from being saved.

HTTP exchange via Rosenpass connection

Start the HTTP exchange with Rosenpass VPN, by running the following commands:

user@server:~$ sudo python main.py server rosenpass http exchange [-i/--iterations ITERATIONS] [--auto]
user@client:~$ sudo python main.py client rosenpass http exchange [-i/--iterations ITERATIONS] [--auto]

Enter a number as ITERATIONS and the exchange will be repeated as often as you entered, using the previously generated key set.

The --auto option works as described in the baseline HTTP exchange above.

Usage for Visualizing Data

Generate correctly formatted data

To generate the data for later visualization, just follow the steps in the above chapter 'Usage for Performance Measurements'.

Output diagrams

To visualize the stored data using graphs, use

$ python output.py OUTPUT_TYPE DIRECTORY|FILE [-d] [-f] [-n] [-m]

where DIRECTORY|FILE is either the folder containing the .json files or the .json file itself, and OUTPUT_TYPE is the type of diagram to be created. The base version of the framework can create graphs (for this, set OUTPUT_TYPE to graphs).

At least one of the flags -d (detailed) -f (full) has to be set, this also applies to the flags -n (normal) and -m (min/max/median). A detailed graph only shows the range on relative graphs where values are present, a full graph shows the entire range from 0 to 100 percent. A normal graph displays all values, while a min/max/median graph splits the data into 8 intervals, and shows the value range as well as the median.

After executing the command, you will have to determine what graphs should be created. Here you can choose the value types you want to generate graphs for.

Constructing NixOS SD Card image to facilitate the deployment of the framework to Raspberry Pis

The nixos directory contains the nix configuration. Optionally, under users.users.root.openssh.authorizedKeys.keys a ssh key can be set up for easier access to the Raspberry Pis, additionally theinitialPassword should be changed. With the help of this guide and the additional configuration vpn-benchmarking a NixOS SD Card image can be constructed to deploy the framework on Raspberry Pis. The rev and sha256 entries have to be changed according to the version of the VPN Benchmarking Framework you want to be build. Using this method the chapter Installing depencies can be skipped, since all the necessary dependencies are already installed during the construction of the NixOS SD Card image. The Python venv environment is created and the requirements file is used to install the necessary modules. Note, that this version does not currently support the rosenpass VPN_OPTION.

Expanding the framework

Currently, the framework provides the class HTTP in the src/exchanges directory for exchange types and the classes NoVPN and Rosenpass in the src/vpns directory for different VPNs. You can implement new classes to extend the base exchange types and VPNs. Additionally, you can expand the framework's visualization capabilities by extending the src/bin directory, and the monitored value types by extending src/output/ValueType.py.