stm — functionality specific to STM32 MCUs

This module provides functionality specific to STM32 microcontrollers, including direct access to peripheral registers.

Memory access

The module exposes three objects used for raw memory access.

stm.mem8

Read/write 8 bits of memory.

stm.mem16

Read/write 16 bits of memory.

stm.mem32

Read/write 32 bits of memory.

Use subscript notation [...] to index these objects with the address of interest.

These memory objects can be used in combination with the peripheral register constants to read and write registers of the MCU hardware peripherals, as well as all other areas of address space.

Peripheral register constants

The module defines constants for registers which are generated from CMSIS header files, and the constants available depend on the microcontroller series that is being compiled for. Examples of some constants include:

stm.GPIOA

Base address of the GPIOA peripheral.

stm.GPIOB

Base address of the GPIOB peripheral.

stm.GPIO_BSRR

Offset of the GPIO bit set/reset register.

stm.GPIO_IDR

Offset of the GPIO input data register.

stm.GPIO_ODR

Offset of the GPIO output data register.

Constants that are named after a peripheral, like GPIOA, are the absolute address of that peripheral. Constants that have a prefix which is the name of a peripheral, like GPIO_BSRR, are relative offsets of the register. Accessing peripheral registers requires adding the absolute base address of the peripheral and the relative register offset. For example GPIOA + GPIO_BSRR is the full, absolute address of the GPIOA->BSRR register.

Example use:

# set PA2 high
stm.mem32[stm.GPIOA + stm.GPIO_BSRR] = 1 << 2

# read PA3
value = (stm.mem32[stm.GPIOA + stm.GPIO_IDR] >> 3) & 1

Functions specific to STM32WBxx MCUs

These functions are available on STM32WBxx microcontrollers, and interact with the second CPU, the RF core.

stm.rfcore_status()

Returns the status of the second CPU as an integer (the first word of device info table).

stm.rfcore_fw_version(id)

Get the version of the firmware running on the second CPU. Pass in 0 for id to get the FUS version, and 1 to get the WS version.

Returns a 5-tuple with the full version number.

stm.rfcore_sys_hci(ogf, ocf, data, timeout_ms=0)

Execute a HCI command on the SYS channel. The execution is synchronous.

Returns a bytes object with the result of the SYS command.