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`no_std` library that implements the algorithms for solving the mathematical model of the Bioristor sensor

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dsg-unipr/bioristor-lib

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bioristor-lib

This repository contains the following packages:

  • bioristor-lib: library that implements the algorithms for solving the mathematical model that describes the behavior of the Bioristor sensor for embedded devices (no_std packages);
  • nucleo-f767zi: example of application of the bioristor-lib library to a NUCLEO-F767ZI board;
  • nucleo-l476rg: example of application of the bioristor-lib library to a NUCLEO-L476RG board;
  • profiler: library that implements a profiler based on SysTick for Cortex-M microcontrollers.

Table of Contents

Development

For contributing to this project, you can either choose to work in a development container or manually setup the enviroment.

The use of a development container is strongly recommended since it allows the developers to work in the same environment and to make no additional effort to setup all the tools required during the development.

Developing inside a Container

Prerequisites:

In a nutshell, you need to:

  1. Clone the repository with git clone https://github.com/dsg-unipr/bioristor-lib.git.
  2. Start VS Code and run Dev Containers: Open Folder in Container... from the Command Palette.

Or:

  1. Start VS Code and run Dev Containers: Clone Repository in Container Volume... from the Command Palette.
  2. Enter https://github.com/dsg-unipr/bioristor-lib.git in the input box that appears and press Enter.

The VS Code window will reload, clone the source code, and start building the dev container. A progress notification provides status updates. After the build completes, VS Code will automatically connect to the container.

Manual Setup

To edit this project, you must first make a clone of the repository:

git clone https://github.com/dsg-unipr/bioristor-lib.git

Install various dependencies needed to connect and debug development boards:

apt-get update
apt-get -y install --no-install-recommends \
    libudev-dev \
    libcapstone4 \
    libftdi1-dev \
    libgpiod2 \
    libhidapi-hidraw0 \
    libjaylink0 \
    libjim0.79 \
    libusb-0.1-4 \
    libusb-1.0-0-dev \
    pkg-config
# Install multi-arch version of objdump and nm, and create symbolic links.
apt-get -y install --no-install-recommends binutils-multiarch
ln -s /usr/bin/objdump /usr/bin/objdump-multiarch
ln -s /usr/bin/nm /usr/bin/nm-multiarch
# Install GDB for ARM systems.
apt-get -y install --no-install-recommends gdb-arm-none-eabi
# Install OpenOCD for debbuging.
apt-get -y install --no-install-recommends openocd

Then, follow the instructions in Install Rust to download Rustup, the Rust toolchain installer, and setup cargo and rustc.

Make sure you are using the latest stable version of Rust:

rustup toolchain install stable
rustup default stable

Install some usefull cargo components:

rustup component add llvm-tools-preview
cargo install cargo-binutils
cargo install cargo-flash
cargo install probe-run
rustup component add clippy rustfmt

Finally, install the Rust Toolchain for Cortex-M4 and Cortex-M7 with hardware floating point:

rustup target add thumbv7em-none-eabihf

Build

To build the project, run the following command:

cargo build [--release]

This will generate an executable program in the folder target/debug or target/release, depending on which build profile was selected. Use the release profile if you care about performance.

Tests

To execute all the unit/integration tests implemented in the project, run the following command:

cargo test

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