- This fork removes all the code that isn't necessary for the port of FreeRTOS for STM32F7x, and makes small additions that allow it to work with STM32F7x but should work for any Cortex M7 based STM32 microcontroller.
- At the current state, all that is required is that you copy this folder to somewhere in your project and adjust its include paths accordingly, and then add your very own FreeRTOS application code. I have another repository that has a demo if you're interested (https://github.com/hugobpontes/FreeRtosStm32F7x_Demo). You are of course free to configure FreeRTOSConfig.h to configure this to your liking.
- One important note is that the FreeRTOS port defines some functions that are also auto-generated by the STM32 IDE, so if you get redefiniton errors, comment out the generated functions, which should be in stm32f7xx_it.c - I've arranged so that nothing breaks (as far as I know) when FreeRTOS functions are used instead.
This repository contains FreeRTOS kernel source/header files and kernel
ports only. This repository is referenced as a submodule in
FreeRTOS/FreeRTOS
repository, which contains pre-configured demo application projects under
FreeRTOS/Demo directory.
The easiest way to use FreeRTOS is to start with one of the pre-configured demo application projects. That way you will have the correct FreeRTOS source files included, and the correct include paths configured. Once a demo application is building and executing you can remove the demo application files, and start to add in your own application source files. See the FreeRTOS Kernel Quick Start Guide for detailed instructions and other useful links.
Additionally, for FreeRTOS kernel feature information refer to the Developer Documentation, and API Reference.
If you have any questions or need assistance troubleshooting your FreeRTOS project, we have an active community that can help on the FreeRTOS Community Support Forum.
If using CMake, it is recommended to use this repository using FetchContent.
Add the following into your project's main or a subdirectory's CMakeLists.txt:
- Define the source and version/tag you want to use:
FetchContent_Declare( freertos_kernel
GIT_REPOSITORY https://github.com/FreeRTOS/FreeRTOS-Kernel.git
GIT_TAG main #Note: Best practice to use specific git-hash or tagged version
)In case you prefer to add it as a git submodule, do:
$ git submodule add https://github.com/FreeRTOS/FreeRTOS-Kernel.git <path of the submodule>
$ git submodule update --init- Add a freertos_config library (typically an INTERFACE library) The following assumes the directory structure:
include/FreeRTOSConfig.h
add_library(freertos_config INTERFACE)
target_include_directories(freertos_config SYSTEM
INTERFACE
include
)
target_compile_definitions(freertos_config
INTERFACE
projCOVERAGE_TEST=0
)In case you installed FreeRTOS-Kernel as a submodule, you will have to add it as a subdirectory:
add_subdirectory(${FREERTOS_PATH})- Configure the FreeRTOS-Kernel and make it available
- this particular example supports a native and cross-compiled build option.
set( FREERTOS_HEAP "4" CACHE STRING "" FORCE)
# Select the native compile PORT
set( FREERTOS_PORT "GCC_POSIX" CACHE STRING "" FORCE)
# Select the cross-compile PORT
if (CMAKE_CROSSCOMPILING)
set(FREERTOS_PORT "GCC_ARM_CA9" CACHE STRING "" FORCE)
endif()
FetchContent_MakeAvailable(freertos_kernel)- In case of cross compilation, you should also add the following to
freertos_config:
target_compile_definitions(freertos_config INTERFACE ${definitions})
target_compile_options(freertos_config INTERFACE ${options})To clone using HTTPS:
git clone https://github.com/FreeRTOS/FreeRTOS-Kernel.git
Using SSH:
git clone git@github.com:FreeRTOS/FreeRTOS-Kernel.git
-
The root of this repository contains the three files that are common to every port - list.c, queue.c and tasks.c. The kernel is contained within these three files. croutine.c implements the optional co-routine functionality - which is normally only used on very memory limited systems.
-
The
./portabledirectory contains the files that are specific to a particular microcontroller and/or compiler. See the readme file in the./portabledirectory for more information. -
The
./includedirectory contains the real time kernel header files.
FreeRTOS files are formatted using the "uncrustify" tool. The configuration file used by uncrustify can be found in the FreeRTOS/CI-CD-GitHub-Actions's uncrustify.cfg file.
File checked into the FreeRTOS-Kernel repository use unix-style LF line endings for the best compatibility with git.
For optimal compatibility with Microsoft Windows tools, it is best to enable the git autocrlf feature. You can enable this setting for the current repository using the following command:
git config core.autocrlf true
Some commits in this repository perform large refactors which touch many lines
and lead to unwanted behavior when using the git blame command. You can
configure git to ignore the list of large refactor commits in this repository
with the following command:
git config blame.ignoreRevsFile .git-blame-ignore-revs
We recommend using Visual Studio Code,
commonly referred to as VSCode, when working on the FreeRTOS-Kernel.
The FreeRTOS-Kernel also uses cSpell as part of its
spelling check. The config file for which can be found at cspell.config.yaml
There is additionally a
cSpell plugin for VSCode
that can be used as well.
.cSpellWords.txt contains words that are not
traditionally found in an English dictionary. It is used by the spellchecker
to verify the various jargon, variable names, and other odd words used in the
FreeRTOS code base are correct. If your pull request fails to pass the spelling
and you believe this is a mistake, then add the word to
.cSpellWords.txt. When adding a word please
then sort the list, which can be done by running the bash command:
sort -u .cSpellWords.txt -o .cSpellWords.txt
Note that only the FreeRTOS-Kernel Source Files, include,
portable/MemMang, and portable/Common
files are checked for proper spelling, and formatting at this time.