circuitpython/stmhal
Damien George 0bb3c7d3b7 stmhal: Enable machine.time_pulse_us() function. 2016-10-06 12:12:20 +11:00
..
boards stmhal: Disable network and usocket for ESPRUINO_PICO 2016-10-06 11:47:45 +11:00
cmsis lib/cmsis: move CMSIS headers to lib/ 2016-09-30 16:19:03 +10:00
hal stmhal: Remove STM32CubeF2 HAL files, they are unused/unsupported. 2016-09-22 12:11:01 +10:00
usbdev stmhal/usb: Use real packet size (not maximum) in HID receive. 2016-10-04 15:39:31 +11:00
usbhost
.gitignore
Makefile stmhal: Fix ESPRUINO_PICO by adding ld scripts with correct flash size. 2016-10-05 11:42:50 +11:00
README.md
accel.c stmhal/{accel,lcd}: use GPIO_{set,clear}_pin 2016-09-09 10:38:08 +02:00
accel.h
adc.c stmhal: Make ADC channel 16 available on L4 MCUs. 2016-08-25 13:49:51 +10:00
adc.h
autoflash
bufhelper.c
bufhelper.h
builtin_open.c
can.c all: Rename mp_obj_type_t::stream_p to protocol. 2016-06-18 18:44:57 +03:00
can.h
dac.c stmhal/dac: Fix DAC (re-)initialisation by resetting DMA. 2016-09-05 15:07:23 +10:00
dac.h
dma.c stmhal: Correct DMA to allow SD card on L4 MCUs. 2016-06-29 14:28:49 +01:00
dma.h stmhal: Correct DMA to allow SD card on L4 MCUs. 2016-06-29 14:28:49 +01:00
extint.c stmhal/extint: Force 0 to 1 transition on swint(). 2016-09-09 19:35:21 +10:00
extint.h
fatfs_port.c
flash.c
flash.h
font_petme128_8x8.h
gccollect.c
gccollect.h
gchelper.s
help.c
i2c.c
i2c.h
import.c
input.c
irq.c
irq.h stmhal: Remove obsolete code for special handling of TIM3 irq settings. 2016-08-22 12:24:49 +10:00
lcd.c stmhal/{accel,lcd}: use GPIO_{set,clear}_pin 2016-09-09 10:38:08 +02:00
lcd.h
led.c
led.h
lexerfatfs.c
main.c stmhal: Disable network and usocket for ESPRUINO_PICO 2016-10-06 11:47:45 +11:00
make-stmconst.py
memory.h
modmachine.c stmhal: Enable machine.time_pulse_us() function. 2016-10-06 12:12:20 +11:00
modmachine.h stmhal/modmachine: Implement machine.reset_cause() function, and consts. 2016-09-06 14:20:19 +10:00
modnetwork.c stmhal: Disable network and usocket for ESPRUINO_PICO 2016-10-06 11:47:45 +11:00
modnetwork.h
modnwcc3k.c
modnwwiznet5k.c
modpyb.c all: Remove 'name' member from mp_obj_module_t struct. 2016-09-22 00:23:16 +10:00
modstm.c all: Remove 'name' member from mp_obj_module_t struct. 2016-09-22 00:23:16 +10:00
moduos.c stmhal/moduos: Implement total-number-of-blocks field in statvfs. 2016-10-05 15:52:36 +11:00
moduselect.c all: Remove 'name' member from mp_obj_module_t struct. 2016-09-22 00:23:16 +10:00
modusocket.c stmhal: Disable network and usocket for ESPRUINO_PICO 2016-10-06 11:47:45 +11:00
modutime.c all: Remove 'name' member from mp_obj_module_t struct. 2016-09-22 00:23:16 +10:00
mpconfigport.h stmhal: Enable machine.time_pulse_us() function. 2016-10-06 12:12:20 +11:00
mpconfigport.mk
mphalport.c
mphalport.h stmhal: Enable machine.time_pulse_us() function. 2016-10-06 12:12:20 +11:00
pendsv.c
pendsv.h
pin.c stmhal: Update pin print to print new constants 2016-08-25 16:11:42 +10:00
pin.h
pin_defs_stmhal.c
pin_defs_stmhal.h
pin_named_pins.c
portmodules.h
pybcdc.inf_template
pybioctl.h
pybstdio.c all: Rename mp_obj_type_t::stream_p to protocol. 2016-06-18 18:44:57 +03:00
qstrdefsport.h
rng.c
rng.h
rtc.c
rtc.h
sdcard.c stmhal: Enable SD card on L4 MCUs. 2016-06-29 14:29:01 +01:00
sdcard.h
servo.c
servo.h
spi.c stmhal/spi: Enable use of fast software SPI. 2016-10-04 13:51:30 +11:00
spi.h stmhal/spi: Make machine.SPI class conform to correct API. 2016-10-03 17:12:43 +11:00
startup_stm32.S
stm32_it.c stmhal: Fix timer capture/compare interrupt handling for TIM1 and TIM8. 2016-08-22 12:18:04 +10:00
stm32_it.h
storage.c stmhal: Fix linker map for STM32L476 chips. 2016-10-04 14:31:19 +11:00
storage.h
system_stm32.c
systick.c
systick.h
timer.c stmhal: Remove obsolete code for special handling of TIM3 irq settings. 2016-08-22 12:24:49 +10:00
timer.h
uart.c all: Rename mp_obj_type_t::stream_p to protocol. 2016-06-18 18:44:57 +03:00
uart.h
usb.c stmhal/usb: Add support to receive USB HID messages from host. 2016-10-04 15:38:01 +11:00
usb.h
usbd_cdc_interface.c
usbd_cdc_interface.h
usbd_conf.c
usbd_conf.h
usbd_desc.c
usbd_desc.h
usbd_hid_interface.c stmhal/usb: Use correct ClassData structure for HID receive. 2016-10-04 15:38:32 +11:00
usbd_hid_interface.h stmhal/usb: Add support to receive USB HID messages from host. 2016-10-04 15:38:01 +11:00
usbd_msc_storage.c
usbd_msc_storage.h
usrsw.c
usrsw.h
wdt.c stmhal/wdt: Implement keyword args to WDT constructor. 2016-09-06 14:19:40 +10:00
wdt.h stmhal: Add machine.WDT class. 2016-09-04 00:12:48 +10:00

README.md

MicroPython port to STM32 MCUs

This directory contains the port of MicroPython to ST's line of STM32Fxxx microcontrollers. It is based on the STM32Cube HAL library and currently supports: STM32F401, STM32F405, STM32F411, STM32F429, STM32F746.

The officially supported boards are the line of pyboards: PYBv1.0 and PYBv1.1 (both with STM32F405), and PYBLITEv1.0 (with STM32F411). See micropython.org/pyboard for further details.

Other boards that are supported include ST Discovery and Nucleo boards. See the boards/ subdirectory, which contains the configuration files used to build each individual board.

Build instructions

An ARM compiler is required for the build, along with the associated binary utilities. The default compiler is arm-none-eabi-gcc, which is available for Arch Linux via the package arm-none-eabi-gcc, for Ubuntu via instructions here, or see here for the main GCC ARM Embedded page. The compiler can be changed using the CROSS_COMPILE variable when invoking make.

To build for a given board, run:

$ make BOARD=PYBV11

The default board is PYBV10 but any of the names of the subdirectories in the boards/ directory can be passed as the argument to BOARD=. The above command should produce binary images in the build-PYBV11/ subdirectory (or the equivalent directory for the board specified).

You must then get your board/microcontroller into DFU mode. On the pyboard connect the 3V3 pin to the P1/DFU pin with a wire (they are next to each other on the bottom left of the board, second row from the bottom) and then reset (by pressing the RST button) or power on the board. Then flash the firmware using the command:

$ make BOARD=PYBV11 deploy

This will use the included tools/pydfu.py script. You can use instead the dfu-util program (available here) by passing USE_PYDFU=0:

$ make BOARD=PYBV11 USE_PYDFU=0 deploy

If flashing the firmware does not work it may be because you don't have the correct permissions. Try then:

$ sudo make BOARD=PYBV11 deploy

Or using dfu-util directly:

$ sudo dfu-util -a 0 -d 0483:df11 -D build-PYBV11/firmware.dfu

ST Discovery or Nucleo boards have a builtin programmer called ST-LINK. With these boards and using Linux or OS X, you have the option to upload the stmhal firmware using the st-flash utility from the stlink project. To do so, connect the board with a mini USB cable to its ST-LINK USB port and then use the make target deploy-stlink. For example, if you have the STM32F4DISCOVERY board, you can run:

$ make BOARD=STM32F4DISC deploy-stlink

The st-flash program should detect the USB connection to the board automatically. If not, run lsusb to determine its USB bus and device number and set the STLINK_DEVICE environment variable accordingly, using the format <USB_BUS>:<USB_ADDR>. Example:

$ lsusb
[...]
Bus 002 Device 035: ID 0483:3748 STMicroelectronics ST-LINK/V2
$ export STLINK_DEVICE="002:0035"
$ make BOARD=STM32F4DISC deploy-stlink

Flashing the Firmware with OpenOCD

Another option to deploy the firmware on ST Discovery or Nucleo boards with a ST-LINK interface uses OpenOCD. Connect the board with a mini USB cable to its ST-LINK USB port and then use the make target deploy-openocd. For example, if you have the STM32F4DISCOVERY board:

$ make BOARD=STM32F4DISC deploy-openocd

The openocd program, which writes the firmware to the target board's flash, is configured via the file stmhal/boards/openocd_stm32f4.cfg. This configuration should work for all boards based on a STM32F4xx MCU with a ST-LINKv2 interface. You can override the path to this configuration by setting OPENOCD_CONFIG in your Makefile or on the command line.

Accessing the board

Once built and deployed, access the MicroPython REPL (the Python prompt) via USB serial or UART, depending on the board. For the pyboard you can try:

$ picocom /dev/ttyACM0