Table of Contents
This package tracks the upstream Open Ethercat Master Repo and thus should
directly reference the respective version number of the upstream.
As this does not allow for intermediate releases that only change ROS specific
parts, like the CMake plumbing, it has been decided to deviate from the upstream
version by adding an arbitrary number (100
) to the patch part of the version,
and then multiplying by ten (i.e. (patch of upstream + 100) * 10
).
This allows for intermediate releases in between integrations of upstream releases.
Thus, the version numbers relate to each other as follows:
1.4.1000 -> upstream 1.4.0
1.4.1010 -> upstream 1.4.1
1.4.1011 -> upstream 1.4.1 + ROS specific changes 1
The idea for this approach was taken from the cartographer_ros package.
SOEM is an open source EtherCAT master library written in C. Its primary target is Linux but can be adapted to other OS and embedded systems.
SOEM has originally been hosted at http://developer.berlios.de/projects/soem/ but has been moved to GitHub and the OpenEtherCATsociety organisation.
This package contains the upstream SOEM repository as a git subtree and wraps it to be easily used within ROS.
Disclaimer: This package is not a development package for SOEM, but rather a wrapper to provide SOEM to ROS. In the end, this just provides the CMake quirks that allows releasing SOEM as a ROS package.
All bug reports regarding the original SOEM source code should go to the bugtracker at https://github.com/OpenEtherCATsociety/SOEM/issues.
All ROS related issues should target the bug tracker on GitHub (but might be redirected ;-)).
Obviously, any support, being it bug reports or pull requests (obviously preferred) are highly welcome!
If soem
has been released for your respective ROS distribution, you can simply install it using
sudo apt install ros-<DISTRO>-soem
Currently, soem
has been released for ROS indigo
, kinetic
and melodic
.
If you want to use soem
from source, please check out the section about Development.
To use soem
in your ROS package add the following to your package.xml
and CMakeLists.txt
, respectively.
In your package.xml
add:
<build_depend>soem</build_depend>
<exec_depend>soem</exec_depend>
and in your CMakeLists.txt
, add it to find_package
and adapt the include_directories
as shown:
find_package(catkin REQUIRED COMPONENTS
...
soem
...
)
include_directories(
...
${catkin_INCLUDE_DIRS}
)
SOEM requires access to certain network capabilities as it is using raw sockets, and as such any executable linking
against SOEM needs to be run with certain privileges.
Typically, you run any SOEM executables with sudo
or as root
.
Tis is impractical for any ROS system, and as such there exists a tool called
ethercat_grant
that helps with that.
Install with
sudo apt install ros-<DISTRO>-ethercat-ethercat_grant
and add the following to your your node
tag in your launchfile
launch-prefix="ethercat_grant
With the integration of the upstream SOEM repo as a git subtree, and a major overhaul of the build system, it is now possible to use the soem ROS package easily from your regular ROS workspace.
Simply clone this repository into your workspace
git clone [email protected]:mgruhler/soem.git
Note that if you want to update or patch the subtree which includes the SOEM upstream repository, you need to be sure to do this properly. When creating this, I followed the instructions in this Atlassian blog post. This covers all the things you need.
This package has been tested using both, catkin_make
and catkin build
.