/rosserial_stm32

This is a part of [rosserial](https://github.com/ros-drivers/rosserial) repository to communicate with ROS system through a USART for STM32 embedded system.

Primary LanguageC++BSD 2-Clause "Simplified" LicenseBSD-2-Clause

rosserial_stm32

Note

This is a part of rosserial repository to communicate with ROS system through a USART for STM32 embedded system.

Limitation

The original code is focused on STM32F3xx, 4xx, and 7xx series and it uses the STM32CubeIDE or STM32CubeMX HAL.
If you use the package for other series, please edit the following line on src/ros_lib/STM32Hardware.h .

Generate code

$ cd target_workspace (It should contain Inc and Src directories).
$ rosrun rosserial_stm32 make_libraries.py .
Never forget to change the project type to cpp project in STM32CubeIDE or SW4STM32!!
For STM32CubeIDE users: You have to add /Inc directory as a "Source Location" in the project properties(C/C++ General > Paths and Symbols > Source Location).

Examples

See src/ros_lib/examples

Share your implementation based on this repo here

Make sure your code is working before adding your repo here ;)

fdila's repo, working with STM32CubeIDE and stm32f7 based board, CURRENTLY NOT MAINTAINED

On a Windows machine with virtual machine

Note

  • Make sure Hyper-V is correctly disabled.

Required softwares

  • VirtualBox
  • Vagrant

Run

  1. Generate headers for STM32

Terminal 1

> cd *rosserial_stm32 dir*
> vagrant up
> vagrant ssh

$ cd rosserial_stm32
$ docker-compose up prepare

Then, a sample project is generated on rosserial_stm32/src/ros_lib/examples/chatter/ .

  1. Build code with STM32CubeIDE on Windows
  • Open new workspace
  • Import the project as a ac6 System Workbench for STM32 project
  • Open *.ioc file with Device Configuration Tool
  • Generate codes with the tool
  • Change project type to C++ project on Eclipse
  • Only STM32CubeIDE users: Add /Inc directory to "Source Location" on project properties (C/C++ General > Paths and Symbols > Source Location)
  • Build
  1. Launch rosseral server

Terminal 1

$ docker-compose up srv
  1. Flash binary on STM32 and start a demo

Terminal 2

> cd *rosserial_stm32 dir*
> vagrant ssh

$ cd rosserial_stm32
$ docker-compose up client
  1. Stop and remove all containers

Terminal 2

[Ctrl+C]
$ exit

Terminal 1

[Ctrl+C]
$ docker stop $(docker ps -q)
$ docker rm $(docker ps -q -a)
$ exit

> vagrant halt