object-oriented C++ RTOS for microcontrollers
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To configure & build distortos you need:
- CMake (version 3.8 or later);
- a build tool supported by CMake - it is highly recommended to use Ninja;
- arm-none-eabi bleeding-edge-toolchain (GCC version 10 or later);
distortos tries to follow typical CMake cross-compiling workflow, which means that you always have to use a so-called toolchain file. Toolchain files in distortos also serve another purpose - they select the board which is going to be used by your application.
- Download source package of distortos in zip or tar.gz format and extract it;
- Create a build folder, for example
output
; - From within the build folder, initialize it with CMake, for example with
cmake .. -DCMAKE_TOOLCHAIN_FILE=../source/board/ST_STM32F4DISCOVERY/Toolchain-ST_STM32F4DISCOVERY.cmake -GNinja
if you want a default configuration orcmake -C../configurations/ST_STM32F4DISCOVERY/test/distortosConfiguration.cmake .. -GNinja
if you want to start from a saved configuration; - Edit distortos configuration with a tool of your choice, for example
cmake-gui ..
(a GUI application) orccmake ..
(curses-based application); - Execute selected build tool, for example
ninja
orninja -v
if you want to see all command lines while building;
You can obviously replace step 1 with git clone https://github.com/DISTORTEC/distortos
.
Steps 2-4 can be all done from within cmake-gui
. After starting the application use Browse Source... button to
select the folder with distortos and Browse Build... button to select the build folder. Then click on Configure
button. In the CMakeSetup window which appears select the generator of your choice and make sure that
Specify toolchain file for cross-compiling is selected before going any further. Click Next and specify the
toolchain file (which also selects the board), for example
<source-folder>/source/board/ST_STM32F4DISCOVERY/Toolchain-ST_STM32F4DISCOVERY.cmake
and click Finish button.
The default target of build - all - is just the static library with distortos libdistortos.a
. If you want to build
the test application, specify distortosTest
as the target (for example ninja distortosTest
if you use Ninja).
$ wget https://github.com/DISTORTEC/distortos/archive/master.tar.gz
$ tar -xf master.tar.gz
$ cd distortos-master
$ mkdir output
$ cd output
$ cmake .. -DCMAKE_TOOLCHAIN_FILE=../source/board/ST_STM32F4DISCOVERY/Toolchain-ST_STM32F4DISCOVERY.cmake -GNinja
$ cmake-gui ..
$ ninja
or
$ wget https://github.com/DISTORTEC/distortos/archive/master.tar.gz
$ tar -xf master.tar.gz
$ cd distortos-master
$ mkdir output
$ cd output
$ cmake -C../configurations/ST_STM32F4DISCOVERY/test/distortosConfiguration.cmake .. -GNinja
$ cmake-gui ..
$ ninja
To generate a board you need:
- Python (version 2.7, version 3.6 or later);
- Jinja2 template engine for Python (version 2.10 or later);
- ruamel.yaml YAML loader/dumper package for Python;
Both Jinja2 and ruamel.yaml can be easily installed with pip install jinja2 && pip install ruamel.yaml
(or
python -m pip install jinja2
followed by python -m pip install ruamel.yaml
on Windows), however they may also be
available in the package manager of your system.
Board generator - scripts/generateBoard.py
- takes a *.yaml
file as an input and produces a folder containing
various board files: source files, headers, CMake files (including CMake toolchain file) and so on. The input
*.yaml
file describes the board hardware in a tree-like form. The idea is very close to devicetree and in fact
earlier versions of board generator used devicetree files.
To get an idea about the format of the board YAML files, take a look at some of the existing files, for example
source/board/ST_STM32F4DISCOVERY/ST_STM32F4DISCOVERY.yaml
- which describes STM32F4DISCOVERY board from ST - or
source/chip/STM32/STM32F4/chipYaml/ST_STM32F407VG.yaml
- which describes STM32F407VG chip used on this board. There
is also some documentation about YAML bindings in documentation/yaml-bindings
Assuming that you already have distortos either as part of your project or as a standalone folder, the basic
invocation of the board generator is just path/to/distortos/scripts/generateBoard.py path/to/board.yaml
(or
python path/to/distortos/scripts/generateBoard.py path/to/board.yaml
on Windows), for example
./scripts/generateBoard.py source/board/ST_STM32F4DISCOVERY/ST_STM32F4DISCOVERY.yaml
. You may also generate so-called
raw-boards, using chip YAML file as the input directly, for example
./scripts/generateBoard.py source/chip/STM32/STM32F4/chipYaml/ST_STM32F407VG.yaml -o output/path/of/raw/board
.