fsfw/README.md
Robin Mueller 4f0669c574
doc update
2022-04-11 16:44:20 +02:00

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FSFW Logo

Flight Software Framework (FSFW)

The Flight Software Framework is a C++ Object Oriented Framework for unmanned, automated systems like Satellites.

The initial version of the Flight Software Framework was developed during the Flying Laptop Project by the University of Stuttgart in cooperation with Airbus Defence and Space GmbH.

Quick facts

The framework is designed for systems, which communicate with external devices, perform control loops, receive telecommands and send telemetry, and need to maintain a high level of availability. Therefore, a mode and health system provides control over the states of the software and the controlled devices. In addition, a simple mechanism of event based fault detection, isolation and recovery is implemented as well.

The FSFW provides abstraction layers for operating systems to provide a uniform operating system abstraction layer (OSAL). Some components of this OSAL are required internally by the FSFW but is also very useful for developers to implement the same application logic on different operating systems with a uniform interface.

Currently, the FSFW provides the following OSALs:

  • Linux
  • Host
  • FreeRTOS
  • RTEMS

The recommended hardware is a microprocessor with more than 1 MB of RAM and 1 MB of non-volatile memory. For reference, current applications use a Cobham Gaisler UT699 (LEON3FT), a ISISPACE IOBC or a Zynq-7020 SoC. The fsfw was also successfully run on the STM32H743ZI-Nucleo board and on a Raspberry Pi and is currently running on the active satellite mission Flying Laptop.

Getting started

The Hosted FSFW example provides a good starting point and a demo to see the FSFW capabilities. It is recommended to get started by building and playing around with the demo application. There are also other examples provided for all OSALs using the popular embedded platforms Raspberry Pi, Beagle Bone Black and STM32H7.

Generally, the FSFW is included in a project by providing a configuration folder, building the static library and linking against it. There are some functions like printChar which are different depending on the target architecture and need to be implemented by the mission developer.

A template configuration folder was provided and can be copied into the project root to have a starting point. The configuration section provides more specific information about the possible options.

Prerequisites

The Embedded Template Library (etl) is a dependency of the FSFW which is automatically installed and provided by the build system unless the correction version was installed. The current recommended version can be found inside the fsfw CMakeLists.txt file or by using ccmake and looking up the FSFW_ETL_LIB_MAJOR_VERSION variable.

You can install the ETL library like this. On Linux, it might be necessary to add sudo before the install call:

git clone https://github.com/ETLCPP/etl
cd etl
git checkout <currentRecommendedVersion>
mkdir build && cd build
cmake ..
cmake --install .

It is recommended to install 20.27.2 or newer for the package version handling of ETL to work.

Adding the library

The following steps show how to add and use FSFW components. It is still recommended to try out the example mentioned above to get started, but the following steps show how to add and link against the FSFW library in general.

  1. Add this repository as a submodule

    git submodule add https://egit.irs.uni-stuttgart.de/fsfw/fsfw.git fsfw   
    
  2. Add the following directive inside the uppermost CMakeLists.txt file of your project

    add_subdirectory(fsfw)
    
  3. Make sure to provide a configuration folder and supply the path to that folder with the FSFW_CONFIG_PATH CMake variable from the uppermost CMakeLists.txt file. It is also necessary to provide the printChar function. You can find an example implementation for a hosted build here.

  4. Link against the FSFW library

    target_link_libraries(${YourProjectName} PRIVATE fsfw)
    
  5. It should now be possible use the FSFW as a static library from the user code.

Building the unittests

The FSFW also has unittests which use the Catch2 library. These are built by setting the CMake option FSFW_BUILD_UNITTESTS to ON or TRUE from your project CMakeLists.txt file or from the command line.

You can install the Catch2 library, which prevents the build system to avoid re-downloading the dependency if the unit tests are completely rebuilt. The current recommended version can be found inside the fsfw CMakeLists.txt file or by using ccmake and looking up the FSFW_CATCH2_LIB_VERSION variable.

git clone https://github.com/catchorg/Catch2.git
cd Catch2
git checkout <currentRecommendedVersion>
cmake -Bbuild -H. -DBUILD_TESTING=OFF
sudo cmake --build build/ --target install

The fsfw-tests binary will be built as part of the static library and dropped alongside it. If the unittests are built, the library and the tests will be built with coverage information by default. This can be disabled by setting the FSFW_TESTS_COV_GEN option to OFF or FALSE.

You can use the following commands inside the fsfw folder to set up the build system

mkdir build-Unittest && cd build-Unittest
cmake -DFSFW_BUILD_UNITTESTS=ON -DFSFW_OSAL=host -DCMAKE_BUILD_TYPE=Debug ..

You can also use -DFSFW_OSAL=linux on Linux systems.

Coverage data in HTML format can be generated using the CodeCoverage CMake module. To build the unittests, run them and then generare the coverage data in this format, the following command can be used inside the build directory after the build system was set up

cmake --build . -- fsfw-tests_coverage -j

The coverage.py script located in the script folder can also be used to do this conveniently.

Building the documentations

The FSFW documentation is built using the tools Sphinx, doxygen and breathe based on the instructions provided in this blogpost. If you want to do this locally, set up the prerequisites first. This requires a python3 installation as well. Example here is for Ubuntu.

sudo apt-get install doxygen graphviz

And the following Python packages

python3 -m pip install sphinx breathe

You can set up a documentation build system using the following commands

mkdir build-docs && cd build-docs
cmake -DFSFW_BUILD_DOCS=ON -DFSFW_OSAL=host ..

Then you can generate the documentation using

cmake --build . -j

You can find the generated documentation inside the docs/sphinx folder inside the build folder. Simply open the index.html in the webbrowser of your choice.

The helper.py script located in the scriptfolder can also be used to create, build and open the documentation conveniently. Tryhelper.py -h for more information.

Formatting the sources

The formatting is done by the clang-format tool. The configuration is contained within the .clang-format file in the repository root. As long as clang-format is installed, you can run the apply-clang-format.sh helper script to format all source files consistently.

Index

1. High-level overview
2. Core components
3. Configuration
4. OSAL overview
5. PUS services
6. Device Handler overview
7. Controller overview
8. Local Data Pools