This repository contains Alias Robotics' aztarna, a footprinting tool for robots.
Alias Robotics supports original robot manufacturers assessing their security and improving their quality of software. By no means we encourage or promote the unauthorized tampering with running robotic systems. This can cause serious human harm and material damages.
- A list of the ROS nodes present in the system (Publishers and Subscribers)
- For each node, the published and subscribed topis including the topic type
- For each node, the ROS services each of the nodes offer
- A list of all ROS parameters present in the Parameter Server
- A list of the active communications running in the system. A single communication includes the involved publiser/subscriber nodes and the topics
- Determining if the system is a SROS master.
- Detecting if demo configuration is in use.
- A list of the nodes found in the system. (Extended mode)
- A list of allow/deny policies for each node.
- Publishable topics.
- Subscriptable topics.
- Executable services.
- Readable parameters.
- Detecting eWON, Moxa, Sierra Wireless and Westermo industrial routers.
- Default credential checking for found routers.
Direcly from PyPi
pip3 install aztarna
or from the repository:
pip3 install .
pip3 install -e .
or
python3 setup.py develop
Python 3.7 and the setuptools package is required for installation.
docker build -t aztarna_docker .usage: aztarna [-h] -t TYPE [-a ADDRESS] [-p PORTS] [-i INPUT_FILE]
[-o OUT_FILE] [-e] [-r RATE] [--shodan] [--api-key API_KEY]
Aztarna
optional arguments:
-h, --help show this help message and exit
-t TYPE, --type TYPE <ROS/ros/SROS/sros/IROUTERS/irouters> Scan ROS, SROS
hosts or Industrial routers
-a ADDRESS, --address ADDRESS
Single address or network range to scan.
-p PORTS, --ports PORTS
Ports to scan (format: 13311 or 11111-11155 or
1,2,3,4)
-i INPUT_FILE, --input_file INPUT_FILE
Input file of addresses to use for scanning
-o OUT_FILE, --out_file OUT_FILE
Output file for the results
-e, --extended Extended scan of the hosts
-r RATE, --rate RATE Maximum simultaneous network connections
--shodan Use shodan for the scan types that support it.
--api-key API_KEY Shodan API Key
aztarna -t ROS -p 11311 -i ros_scan_s20.csvdocker run -v <host_path>:/root -it aztarna_docker -t ROS -p 11311 -i <input_file>aztarna -t ROS -p 11311 -a 115.129.241.241aztarna -t ROS -p 11311 -a 115.129.241.0/24aztarna -t ROS -p 11311-11500 -a 115.129.241.241aztarna -t ROS -p 11311,11312,11313 -a 115.129.241.241zmap -p 11311 0.0.0.0/0 -q | aztarna -t SROS -p 11311aztarna -t IROUTERS --shodan --api-key <yourshodanapikey>aztarna -t IROUTERS --shodan --api-key <yourshodanapikey> -o routers.csvIf you're using our work for your research, please cite us as:
@ARTICLE{2018arXiv181209490V,
author = {{Vilches}, V{\'\i}ctor Mayoral and {Mendia}, Gorka Olalde and
{Baskaran}, Xabier Perez and {Cordero}, Alejandro Hern{\'a}ndez
and {Juan}, Lander Usategui San and {Gil-Uriarte}, Endika and
{de Urabain}, Odei Olalde Saez and {Kirschgens}, Laura Alzola},
title = "{Aztarna, a footprinting tool for robots}",
journal = {arXiv e-prints},
keywords = {Computer Science - Cryptography and Security, Computer Science - Robotics},
year = 2018,
month = Dec,
eid = {arXiv:1812.09490},
pages = {arXiv:1812.09490},
archivePrefix = {arXiv},
eprint = {1812.09490},
primaryClass = {cs.CR},
adsurl = {https://ui.adsabs.harvard.edu/\#abs/2018arXiv181209490V},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}