Robin Mueller
d386e5f6a1
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slot-a-blinky | ||
slot-b-blinky | ||
src | ||
.gitignore | ||
Cargo.toml | ||
image-loader.py | ||
loader.toml | ||
README.md | ||
requirements.txt |
VA416xx Flashloader Application
This flashloader shows a minimal example for a self-updatable Rust software which exposes
a simple PUS (CCSDS) interface to update the software. It also provides a Python application
called the image-loader.py
which can be used to upload compiled images to the flashloader
application to write them to the NVM.
The software can quickly be adapted to interface with a real primary on-board software instead of the Python script provided here to upload images because it uses a low-level CCSDS based packet interface.
Using the Python image loader
It is recommended to run the script in a dedicated virtual environment. For example, on UNIX
systems you can use python3 -m venv venv
and then source venv/bin/activate
to create
and activate a virtual environment.
After that, you can use
pip install -r requirements.txt
to install all required dependencies.
After that, it is recommended to use ./image-load.py -h
to get an overview of some options.
The flash loader uses the UART0 interface of the VA416xx board to perform CCSDS based
communication. The Python image loader application will search for a file named loader.toml
and
use the serial_port
key to determine the serial port to use for serial communication.
Examples
You can use
./image-loader.py -p
to send a ping an verify the connection.
You can use
cd flashloader/slot-a-blinky
cargo build --release
cd ../..
./image-loader.py -t a ./slot-a-blinky/target/thumbv7em-none-eabihf/release/slot-a-blinky
to build the slot A sample application and upload it to a running flash loader application to write it to slot A.
You can use
./image-loader.py -c -t a
to corrupt the image A and test that it switches to image B after a failed CRC check instead.