Main application for Octavo A8 with Debian Linux version of the C3 card.
The C3 card is the "flight" computer of OreSat. C3 stands for command, control, and communication. It handles all communications and controls the state of the satellite.
Note: For OreSat0, the C3 card used STM32F4 and ChibiOS, for that project
see the oresat-firmware repo and the src/f4/app_control
directory.
The C3 card was converted to Octavo A8 card to simplify the code base
by swapping from heavily embedded system using ChibiOS to a general
Linux-environment using Python and make to use existing Python libraries.
Like all OreSat software projects it is built using OLAF (OreSat Linux App Framework), which it built on top of CANopen for Python project. See the oresat-olaf repo for more info about OLAF.
For development, install oresat-configs
from the GitHub repo at
https://github.com/oresat/oresat-configs (not from PyPI). That repo may have
changes that are not apart of the latest release yet.
Install dependencies
$ pip3 install -r requirements.txt
Make a virtual CAN bus (skip if using a real CAN bus)
$ sudo ip link add dev vcan0 type vcan
$ sudo ip link set vcan0 up
Run the C3 app
$ python3 -m oresat_c3
Can select the CAN bus to use (vcan0
, can0
, etc) with the -b BUS
argument.
Can mock hardware by using the -m HARDWARE
flag.
- The
-m all
argument can be used to mock hardware (CAN bus is always required). - The
-m opd
argument would only mock the hardware for the OPD subsystem and expect all other hardware to exist. - The
-m fram
argument would only mock the F-RAM chip and expect all other hardware to exist. - The
-m opd fram
argument would both mock the hardware for the OPD subsystem and the F-RAM chip and expect all other hardware to exist.
See other options with -h
flag.
A basic Flask-based website for development and integration can be found at
http://localhost:8000
when the software is running.
docs/
: Source of Read the Docs documentation.oresat_c3/
: Source code.data/
: Holds the CANopen EDS and DCF files for project.drivers/
: Fully stand-alone (doesn't import anything else from project) Pythonic drivers used by project. All drivers can mock hardware it's for.protocols/
: Anything dealing with packing or unpacking beacon and EDL packets.services/
: OLAF services, the "glue" between protocol, drivers, and/or subsystems with the CANopen node with a dedicated thread.subsystems/
: Anything dealing with the subsystems of the C3 other than the CAN bus.templates/
: The Flask-based templates to add OLAF's REST API to be used for development and integration (not used in production).
tests/
: Unit tests.
Project uses Sphinx to generate documentation.
Documentation is hosted on Read the Docs, see https://oresat-c3-software.readthedocs.io/en/latest/
To manually build the documentation:
$ make -C docs html
Open docs/build/html/index.html
in a web browser
This project uses python's build in unittest
module for unit testing.
To run units:
$ python3 -m unittest
By default all unit tests run with the hardware mocked. When running on the real
hardware set the MOCK_HW
environment variable to "false"
(case insensitive).
To run units when on real hardware:
$ MOCK_HW="false" python3 -m unittest
Note: The follow environment variables are also available:
I2C_BUS_NUM
: The I2C bus number used by the OPD and F-RAM.FRAM_ADDR
: The I2C address for the F-RAM chip. Must be in hex (e.g.,"0x50"
)