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Secure ROS 2 Office Demo

The office demo can be run in secure mode using the ROS 2 DDS-Security integration (SROS2) capabilities. This security features will provide encryption, authentication and access control to the whole ROS2 setup of RMF.

Because of the heavy development undergoing RMF, changes happen in a very fast manner. Therefore, the ROS 2 Access Control Policies declared in the office.policy.xml file are only guaranteed to work with the RMF release 1.1.X, so please set all the git repos of your RMF workspace to point to the tag 1.1.0. Alternatively you could update the policies yourself to any later version of RMF (PRs are welcome if you do so 😏).

There is a tmux based script that automates pane splitting and the execution of all the required commands to run the office demo. In order to run it this way just open a tmux terminal and run the script.

bash ./install/rmf_demos/share/rmf_demos/sros2/office_deploy.bash

Alongside, the following steps can be used to run all required commands individually.

To use ROS 2 to secure the office demo a few environmental variables need to be set. Adding them to a script would make it easier to source them in any shell where we need to run ROS 2 secured nodes.

echo 'export ROS_SECURITY_KEYSTORE=~/rmf_demos_ws/keystore
export ROS_SECURITY_ENABLE=true
export ROS_SECURITY_STRATEGY=Enforce
export ROS_DOMAIN_ID=42' > sros2_environment.sh

A few security artifacts like signed permission files, identity certificates and Certificate Authorities (CA) are needed to enable the DDS Security. They can be generated using the security tools from the ROS2 cli. Because of #242 and until its solution #238 is released it is recommended to generate the security artifacts before switching to cyclone_dds.

source sros2_environment.sh
mkdir keystore
ros2 security generate_artifacts -k keystore -p ./install/rmf_demos/share/rmf_demos/sros2/policies/office.policy.xml

It is recommended to use cyclone dds with the secure version of the demo, make sure it is properly installed, with security support and selected through the correspondent environment variable (here you can find instructions on how to do it). Adding this to the environment script makes it easier to source in any terminal that might need it,

echo 'export RMW_IMPLEMENTATION=rmw_cyclonedds_cpp' >> sros2_environment.sh

Because SROS2 does not support ros2 launch yet all the different nodes will have to be launched individually. A yaml file with the parameters of all the nodes is provided. One terminal per execution is recommended for an easier debug of the system. Make sure you source ~/rmf_demos_ws/install/setup.bash in each of them before executing the different commands.

source sros2_environment.sh
ros2 run rmf_traffic_ros2 rmf_traffic_schedule --ros-args --params-file ./install/rmf_demos/share/rmf_demos/sros2/office.params.yaml --enclave /office/rmf_traffic_schedule_node
source sros2_environment.sh
ros2 run rmf_building_map_tools building_map_server ./install/rmf_demos_maps/share/rmf_demos_maps/office/office.building.yaml --ros-args --enclave /office/building_map_server
source sros2_environment.sh
ros2 run rmf_schedule_visualizer rviz2 -r 10 -m L1 --ros-args --params-file ./install/rmf_demos/share/rmf_demos/sros2/office.params.yaml --enclave /office/rviz2_node
source sros2_environment.sh
ros2 run building_systems_visualizer building_systems_visualizer -m L1 --ros-args --params-file ./install/rmf_demos/share/rmf_demos/sros2/office.params.yaml --enclave /office/building_systems_visualizer
source sros2_environment.sh
ros2 run fleet_state_visualizer fleet_state_visualizer -m L1 --ros-args --params-file ./install/rmf_demos/share/rmf_demos/sros2/office.params.yaml --enclave /office/fleet_state_visualizer
source sros2_environment.sh
rviz2 -d ./install/rmf_demos/share/rmf_demos/include/office/office.rviz --ros-args --enclave /office/rviz2
source sros2_environment.sh
ros2 run rmf_fleet_adapter door_supervisor --ros-args --enclave /office/door_supervisor

Gazebo needs the environment variables to locate files, and set up communications between the server and clients. They can be added to a script for an easier re-use.

echo 'export GAZEBO_MODEL_PATH=~/rmf_demos_ws/install/rmf_demos_maps/share/rmf_demos_maps/maps/office/models:~/rmf_demos_ws/install/rmf_demos_assets/share/rmf_demos_assets/models:/usr/share/gazebo-11/models
export GAZEBO_RESOURCE_PATH=~/rmf_demos_ws/install/rmf_demos_assets/share/rmf_demos_assets:/usr/share/gazebo-11
export GAZEBO_PLUGIN_PATH=~/rmf_demos_ws/install/rmf_robot_sim_gz_classic_plugins/lib:~/rmf_demos_ws/install/building_gazebo_plugins/lib/
export GAZEBO_MODEL_DATABASE_URI=""' > gazebo_environment.sh
source sros2_environment.sh
source gazebo_environment.sh
gzserver --verbose -s libgazebo_ros_factory.so -s libgazebo_ros_init.so ./install/rmf_demos_maps/share/rmf_demos_maps/maps/office/office.world --ros-args --enclave /office/gzserver

Because of #151, the ros node created by plugins run on gzclient will be left out of the secured network. This should only affect the toggle_floors plugin that runs on gzclient and is intended for multilevel demos.

source gazebo_environment.sh
gzclient --verbose ./install/rmf_demos_maps/share/rmf_demos_maps/maps/office/office.world
source sros2_environment.sh
ros2 run rmf_fleet_adapter full_control --ros-args -r __node:=tinyRobot_fleet_adapter --params-file ./install/rmf_demos/share/rmf_demos/sros2/office.params.yaml --enclave /office/tinyRobot_fleet_adapter
source sros2_environment.sh
ros2 run rmf_fleet_adapter robot_state_aggregator --ros-args -r __node:=tinyRobot_state_aggregator --params-file ./install/rmf_demos/share/rmf_demos/sros2/office.params.yaml --enclave /office/tinyRobot_state_aggregator

The system is now ready to attend simulated delivery requests as per usual but with all the guarantees of DDS-security!