At a Glance

Prerequisites

• Our development environment
• STM32F072B Discovery board
• UART to USB adapter

Hello World

With our development environment set up, let's make a basic project!

First, let's set up our hardware:

Feature Branches - Git

cd ~/shared/firmware
# Create a new branch off of master
git checkout master
git checkout -b wip_getting_started

Our first step is creating a new branch, wip_getting_started. Normally, in our development workflow, we create new feature branches for each JIRA issue with the naming convention of elec_[ticket number]_[shortname]. In this case, we'll be using wip_ as a prefix instead of elec_[ticket number]_.

By convention, we use lower snake case for most of our naming schemes. For example, these documents were created under elec_281_add_basic_docs. This lets us keep our work organized. See our Git Workflow for more information.

New Project - Hello World

# Initialize the directory structure for a new project named "getting_started"
# See projects/README.md for more information on how our projects work
make new PROJECT=getting_started

With our branch created, we initialize our new project getting_started. You should see a new folder at projects/getting_started.

In your favorite editor, create a new file main.c in getting_started/src. We advise opening the firmware folder as a project or workspace in your editor supports that.

#include "log.h"

int main(void) {
  LOG_DEBUG("Hello World!\n");

  return 0;
}

You should have the following directory structure:

projects/getting_started/
├── inc
├── rules.mk
├── src
│   └── main.c
└── test


3 directories, 2 files

You'll notice that make new also created a rules.mk. This file is what identifies the folder getting_started as a project to our build system. Please refer to the projects readme for more information.

Running Code - Hello World

Now, it's time to build and run the project!

In a new terminal (or tmux pane), open a serial terminal:

# If no device is found, try /dev/tty[tab]
minicom -D /dev/ttyACM0

Back to the old terminal:

# Build and run the project on x86
make run PROJECT=hello_world PLATFORM=x86

# Build and run the project on STM32F0xx (discovery board)
# PLATFORM=stm32f0xx is implied
# PROBE=cmsis is normally implied, override for Discovery boards
make program PROJECT=hello_world PROBE=stlink-v2

You should see "hello world" appear twice - once when running on x86, and once in minicom! As you can see, our build system and HAL (hardware abstraction layer) allow us to build applications that can run natively on mutliple platforms. In this case, LOG_DEBUG is targeted to stdout on x86 (standard output) and UART1 on STM32. This makes testing a lot easier, and allows us to develop application code even without access to the hardware.

Clean Code - Hello World

With your code workring, we want to make sure your code matches our Coding Standards. We use two tools for that:

• clang-format: Reformats code according to our specified style.
• cpplint and pylint: Parses code to find discrepancies between it and our style guide. We actually use our own fork.

Note that these are both just tools, and should not be relied on to be perfect. We have a few rules that would be very difficult to parse, so please try your best to follow our style guide.

# Runs clang-format
make format
# Runs lint.py (cpplint) and pylint
make lint

Committing Changes - Git

Now that your code (hopefully) meets our standards, let's save your work. You should commit your changes relatively often. The goal is to have each commit represent a cohesive chunk of work. Basically, if you hit a point where you think you might want to come back to your work later, you should probably commit.

# Stage all changes
git add .
# Commit staged changes to the local repo
git commit -m "WIP: Adds working hello world project"

This time, we've used the -m argument to add a message directly on the command line. Alternatively, you can use git commit (no -m). This should result in a temporary COMMIT_EDITMSG being opened in your editor of choice. This method is recommended for multiline commit messages.

Notice how the commit message followed the format "WIP: ...". Similarly to branch naming, we follow a convention of "ELEC-[ticket number]: ..." for our commit messages. For example, "ELEC-281: Added part 1 of getting started guides".

Using a version control system (VCS) such as git allows you to keep track of changes over time and revert back if necessary. Feature branches allow you to organize your work and keep different projects separate from each other.

Since git is a distributed VCS, you have a local copy of the repository that needs to be synced with the remote server (GitHub). This means you can commit and make branches without internet access. Normally, we recommend you push your changes to GitHub as often as possible (git push), but since this is a tutorial, we won't bother with that.

Summary

We covered:

• Basic Git workflow
• Creating a new project
• Printing over UART
• HAL support for x86 and STM32
• Code cleanliness