While the $2 board is cheap and very commonly found, getting up and running is slightly convoluted. Here is a short guide on how to set it up to program directly from USB.
The bare STM32F103 board only comes with a default USART boot loader. Even though there is a USB port on the board, you cannot use it to program it because it does not have the relevant bootloader.
I got my board for less than $2 from Advanced Tech on AliExpress. We need to use a simple USB to UART converter to program the board via USART with a USB boot loader, and then we can get back to programming it directly via USB.
First, connect your USB to Serial/UART/TTL Converter like this:
In the image above, you see two yellow jumpers marked
BOOT1. These specify the source of code for the micro-controller. In the default state of both being
0, the micro-controller uses its own flash memory bootloader — which there is none right now — and which we are adding. For now, to be able to program the micro using USART, you need to set
1 and leave
0. Basically move the first jumper and leave the second one.
Now, download the stm32loader python script and run it to see that all the necessary dependencies are satisfied. I had to
pip install pyserial to get it to work.
Now we need the binary that we want to flash as our bootloader — we’ll use stm32duino bootloader by Roger Clark. Based on the repo, we need to find which pin the LED is connected to, which is pin PC13 for our board as per this wiki. Hence we need this file.
Once you have the file, now we simply need to run the following (after adding the correct port and file reference):
python ./stm32loader -p /dev/tty.SLAB_USBtoUART -w ~/Downloads/generic_boot20_pc13.bin
You might need to hit reset button before you run the above to get it to work. If it is successful, you should see the LED blink fast after pressing reset and then continue to blink slowly. It is signaling that no user program is found. Make sure to reset the boot setting jumpers back to default of both
Now we are ready to program via USB. Disconnect everything and use the USB to connect. Verify that your computer recognises the device using
dmesg or by going to About This Mac > System Report > USB. You should see a device as Maple (The hardware and software that we get to work on above are all thanks to the excellent folks at Maple Labs.)
Now in Arduino, install the ‘Arduino Due’ hardware using the Boards Manager (search online if you are not familiar with this step). Also, download Arduino_STM32 and place in your Arduino hardware directory. See these installation steps for more info.
Now after restarting the IDE, you should be able to select ‘Generic STM32F103C series’ in the list of boards and the STM32duino bootloader as the upload method.
Now from examples select the Blink example and modify the LED pin to be
PC13. Now hit upload (after pressing reset on the board) and you should see console messages saying that it is uploading the code.
Now you should be able to reset the board again and see the LED blink every second. Congrats!
Stretch Goal: Use the exact same steps to instead flash the Black Magic Probe firmware and make your own programmer capable of running a gdb server for debugging using breakpoints! (Update: Success! See this article.)
If you enjoyed the article, hit recommend! Follow me to know about my future projects. This post is based on work by Roger Clark.