176 lines
7.1 KiB
Markdown
176 lines
7.1 KiB
Markdown
<img align="center" src="https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-common/raw/branch/master/doc/images/FSFW_Logo_V3_bw.png" width="50%">
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# <a id="top"></a> <a name="linux"></a> FSFW Example Application
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This repository features a demo application. The example has been run successfully on the following
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platforms:
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- Linux host machine with the Linux OSAL or the Host OSAL
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- Windows with the Host OSAL
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- STM32H743ZI-Nucleo with the FreeRTOS OSAL
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- Raspberry Pi with the Linux OSAL
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- STM32H743ZI-Nucleo with the RTEMS OSAL
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The purpose of this example is to provide a demo of the FSFW capabilities.
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However, it can also be used as a starting point to set up a repository for
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new flight software. It also aims to provide developers with practical examples
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of how the FSFW is inteded to be used and how project using the FSFW should or can be
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set up and it might serve as a basic test platform for the FSFW as well to ensure all OSALs
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are compiling and running as expected.
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The repository contains a Python TMTC program which can be used to showcase
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the TMTC capabilities of the FSFW (currently, using the ECSS PUS packet standard).
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# Configuring the Example
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The build system will copy three configuration files into the build directory:
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1. `commonConfig.h` which contains common configuration parameters
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2. `OBSWConfig.h` which can contain machine and architecture specific configuration options
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3. `FSFWConfig.h` which contains the configuration for the flight software framework
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These files can be edited manually after `CMake` build generation.
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# Index
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[Getting started with Eclipse for C/C++](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-common/src/branch/master/doc/README-eclipse.md)<br>
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[Getting started with CMake](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-common/src/branch/master/doc/README-cmake.md)<br>
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[Getting started with the Hosted OSAL](#this)<br>
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[Getting started with the FreeRTOS OSAL on a STM32](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-stm32h7-freertos)<br>
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[Getting started with the RTEMS OSAL on a STM32](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-stm32h7-rtems)<br>
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[Getting started with the Raspberry Pi](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-linux-mcu)<br>
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[Getting started with the Beagle Bone Black](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-linux-mcu)<br>
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# <a id="this"></a> FSFW demo with Host OSAL on Windows or Linux
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This demo has been tested for Windows and Linux. It uses
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the host abstraction layer of the FSFW.
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## General Information
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This demo provides the opportunity to to test functionality of the
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FSFW on a host computer without the need of setting up external embedded hardware.
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## Prerequisites
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1. Makefile build: make installed (bundled with MSYS2 on Windows or via [xPacks Windows Build Tools](https://xpack.github.io/windows-build-tools/install/)). Natively installed on Linux.
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2. Recommended for application code development: [Eclipse for C/C++](https://www.eclipse.org/downloads/packages/) .
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Project files and launch configuration are provided for Eclipse to ease development.
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Visual Studio support might follow soon following CMake implementation.
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3. CMake Build: Correct CMake installation.
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### Windows - MinGW64 build
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1. [MSYS2 and MinGW64](https://www.msys2.org/) installed
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2. Update MSYS2 by opening it and running
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```sh
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pacman -Syuuu
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```
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After that, the gcc toolchain, git, make and CMake should be installed with
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```sh
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pacman -S git mingw-w64-x86_64-gcc mingw-w64-x86_64-gdb mingw-w64-x86_64-make mingw-w64-x86_64-cmake
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```
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You can install a full development environment with
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```sh
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pacman -S base-devel
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```
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or install `gcc`, `gdb` and `mingw32-make` with the following command
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```sh
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pacman -S mingw-w64-x86_64-toolchain
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```
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It is recommended to set up aliases to get to the example directory
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quickly.
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3. It is recommended to add the MinGW64 bit binaries to the system path so Eclipse can use
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them. It is also recommended to run `git config --global core.autocrlf true` when using MinGW64
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to have consistent line endings on Windows systems.
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### Linux - Enabling RTOS functionalities
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The dedicated [Linux README](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-linux-mcu/src/branch/mueller/master/doc/README-linux.md#top)
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specifies some steps required to cleanly run the FSFW.
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## Building the Software with CMake
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CMake should be [installed](https://cmake.org/install/) first.
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More detailed information on the CMake build process and options
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can be found in the [CMake README](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-common/src/branch/master/doc/README-cmake.md).
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Readers unfamiliar with CMake should read this first. The following steps will show to to build
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the Debug executable using either the "Unix Makefiles" generator on Linux or
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the "MinGW Makefiles" generator in Windows in the command line to be as generic as possible.
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### Linux Build
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1. Create a new folder for the executable.
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```sh
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mkdir Debug
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cd Debug
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```
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2. Configure the build system
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```sh
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cmake -G "Unix Makefiles" -DCMAKE_BUILD_TYPE=Debug -DOS_FSFW=host ..
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```
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You can also use `-DOS_FSFW=linux` to use the Linux OSAL of the FSFW.
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3. Build the software
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```sh
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cmake --build . -j
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```
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4. The binary will be located inside the Debug folder and can be run there
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```sh
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./fsfw-example
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```
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### MinGW64 Build
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Set up MinGW64 like explained previously.
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The CMake build can be generated either with the CMake GUI tool or with the MinGW64 command line.
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Steps will be shown with the MinGW64 command line tool, but the CMake GUI can be used on Windows
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as well to have a convenient way to configure the CMake build.
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1. Open the MinGW64 terminal and navigate to the `fsfw_example` folder
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2. Create a new folder for the executable.
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```sh
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mkdir Debug
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cd Debug
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```
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The build options can be displayed with `cmake -L` .
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3. Configure the project and generate the native MinGW64 buildsystem
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```sh
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cmake -G "MinGW Makefiles" -DCMAKE_BUILD_TYPE=Debug -DOS_FSFW=host ..
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```
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The build configuration can also be performed with the shell scripts located
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inside `cmake/scripts/Host` or the Python helper script `cmake_build_config.py`
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inside `cmake/scripts`. The configured build options can now be shown with `cmake -L`.
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4. Call the build system (Make)
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```
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cmake --build . -j
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```
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5. Like already mentioned, it is recommended to run the binary directly as an executable by
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double-clicking it or in the Windows Terminal.
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## Setting up Eclipse for CMake projects
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The separate [Eclipse README](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-common/src/branch/master/doc/README-eclipse.md) specifies how to set up Eclipse to build CMake
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projects. Separate project files and launch configurations for the MinGW build were provided.
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The debug output is colored by default. It is recommended to install the
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`ANSI Escape in Console` plugin in Eclipse so the coloring works in the Eclipse console. On Windows,
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it is recommended to run the applicaton with the Windows command line for the printout to work
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properly. You can do this by simply double-clicking the binary or using `start <Exe>` in the
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Windows command line
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