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This is a work in progress, the API is in flux. Contributions, feedback, and issues are welcome.
Cortex M7
- STM32H745/55/47/57 (dual-core M7/M4): full support, except built-in ADC
- STM32F7xx (especially STM32F746, F76x): partial support
Cortex A7
- STM32MP157 (dual-core A7 + M4): partial support, but adding features daily.
- Easy to use, difficult to misuse.
- Provide modern C++20 classes for setting up and accessing internal peripherals and common external chips.
- Provide high-level functionality for common use cases in embedded projects (debouncing switches, wear-leveling, RGB color blending, filtering ADC readings).
- Allow use of lambdas as callbacks (e.g. interrupt request handlers) with minimal overhead
- Does not depend on dynamic memory (but provides some structures if you use it)
- Bare-metal: does not depend on a RTOS
- Priortize peripheral access efficiency over one-time cost of peripheral setup.
- Unit tests (using doctest)
- Example code (TODO: needs work!)
- Emphasis on higher-end microcontrollers and microprocessors
Peripheral | HAL | Config* | Notes |
---|---|---|---|
ADC | STM32-LL | template params | Circular DMA mode. F7/H7 only. Todo: split off target-specific code. Needs modernizing |
BDMA | CMSIS | template struct | Most configurations supported (H7 only, not present on F7 or MP1) |
DMA2D | CMSIS | - | Supports FillRect with Rgb565 on H7, no other modes yet. (Not present on F7 or MP1) |
I2C | STM32-HAL | config struct | Blocking, IT, DMA modes |
Interrupt | Cortex | - | Assign a lambda or any callable as any IRQ Handler at run-time. Supports NVIC (Cortex-M) and GIC (Cortex-A) |
MDMA | CMSIS | template struct | Supports mem-to-mem only, with byte/word-swapping. |
MPU | CMSIS | - | Only supports disabling Data Cache on a given memory region. MPU is only present on Cortex-M7 |
GPIO (Pin) | STM32-LL | init/ctor params | Supports all GPIO functions (except Locking?). Run-time values. |
GPIO (FPin) | CMSIS | template params | "Fast Pin". Constexpr-configured, maximum efficiency. Supports high(), low(), read(). |
EXTI (Pin change interrupt) | CMSIS | template params | Assign ISR callback for rising and/or falling edge for any pin. Todo: Finish migration from config struct to template params |
HSEM (Semaphores) | CMSIS | Safer wrappers over raw register access for HSEM (hardware semaphore). Supports managing multiple channel interrupt callbacks. Only for dual-core devices (H7 and MP1) | |
QSPI | STM32-HAL | config struct | Supports blocking and IT modes. Some chip-specific setup may be required in qspi_flash_registers.h file. Todo: use mdrivlib::Interrupt class instead of HAL Callbacks |
RCC | CMSIS | - | Safer wrapper over raw register access to enable/disable/reset peripherals |
SAI | STM32-HAL | config struct | For streaming audio. DMA mode only. Supports RX- or TX-master. Caller provides tx/rx buffers and callbacks (where audio processing is done) |
SDRAM | STM32-HAL | config struct | Setup/init FMC for SDRAM. Single bank supported only. Includes self-test. H7 only (MP1 SDRAM is init by U-boot) |
SPI (direct peripheral) | CMSIS | template struct | SpiPeriph: efficient wrapper over SPI registers (Currently onle for ST's SPI v2.x.x, found in H7 and MP1). Supports multi-chip buses (CS0 - CS3) |
SPI (transfer) | CMSIS | template struct | SpiTransfer: wraps SpiPeriph. Supports blocking, polling, FIFO, fixed-size transmissions in IT mode, multi-chip buses. |
TIM | STM32-LL | init/ctor params | Simple class to initialize a TIM peripheral. Can skip initialization if periph has already been init. |
UART | STM32-HAL | - | WIP |
Peripheral | Config* | Notes |
---|---|---|
ADC, I2C (MAX11645) | config struct | Blocking and IT mode |
ADC, SPI (MAX11666) | template struct | Heavily optimized. Takes FilterType template param |
Codec, I2C/I2S (WM8731) | config struct | Virtual class, ties I2C init with SAI+DMA init. Todo: make template class |
DAC, SPI (MCP48FVBxx) | template struct | Supports streaming and blocking modes |
GPIO Expander, I2C (TCA9535) | config struct | Supports inputs only (so far), I2C in IT mode |
LED Driver, I2C (PCA9685) | ctor/init params | Uses STM32-HAL, heavily (HAL callbacks). Supports DMA, IT, and blocking modes. Supports mono and RGB LEDs. Works well with Frame Buffer LED class. Needs modernizing |
Screen, SPI/DMA (ST77XX) | template struct | Use DMA to dump a framebuffer to SPI. Wraps SpiPeriph and a DMA driver (which is passed in as part of the config), and calls a callback when done. |
Peripheral | Config* | Notes |
---|---|---|
AnalogIn | template params | Generic class to combine multi-channel ADC sources with post-filtering. WIP |
Clocks | - | enable/disable/reset peripheral clocks |
CycleCounter | - | Measures cycles spent between a start and stop point |
DAC Stream | template struct | Allows circular buffer to be filled in bursts, and output to DAC a steady rate |
GPIO Stream | template struct | Same as DAC Stream, but for a GPIO Pin output |
Frame Buffer LED | - | Allows random access to a contigious frame buffer, used with LED DMA or IT drivers |
Peripheral Utils | - | Utilities for peripherals, such as finding the maximum frequency of a timer. WIP: many more helper functions to be added |
Pin debouncing | template params | Basic debouncing of physical pins (for buttons and other inputs). Requires util lib |
PWM analog output | ctor params | Sets up, starts, adjusts, and stops PWM output on pins with TIM OC functionality. (F7 only, H7 and MP1 may work but not tested) |
QSPI Flash Cell Block | template params | Store and recall any data struct in a block or sector or FLASH memory, |
RGB LED | - | Supports color blending 24-bit color, floats, RGB565 mode, flashing and fading animations. Supports different LED element types (e.g. Red and Blue are PWM-controlled, but Green is GPIO-controlled) |
Rotary Encoder | ctor params | Supports half-step and full-step rotaries. Accumulates net position until read. |
Timekeeper | config struct | Sets up a timer to call a given callback at regular intervals (lambda or any callable object). |
*See 'Configuring a Driver' section for description of Config types.
File | Notes |
---|---|
startup_*.s |
Assembly for Cortex startup (vector table, Reset handler, libc/cpp and static object initialization, calls SystemInit and main |
*.ld |
Linker script for memory layout. You may want to customize this for advanced applications (allocate more or less memory for DMA buffers, for example). |
cache.hh |
Wrappers for target-specific cache maintanance |
system_startup.cc/hh |
C++ startup code for F7 and H7 (M4 and M7 cores): managing multiple cores at startup, loading RCC clock configuration |
Add mdrivlib/drivers
and mdrivlib/target/XXX/drivers/
as INCLUDE dirs in your build system.
Compile and link any mdrivlib/drivers/*.cc
and mdrivlib/target/XXX/drivers/*.cc
that you wish to use.
Build with the proper symbols defined for your target: (TODO: specify these clearly in one place)
example: -DSTM32H7x5 -DCORE_CM7
Use it:
#include "pin.hh"
#include "timekeeper.hh"
Pin myRedLED {GPIO::A, 2, PinMode::Output};
myRedLED.high();
Timekeeper lightFlasher({.TIMx=TIM2, .period=100000000/*ns*/}, [](){
myRedLED.toggle();
});
lightFlasher.start();
mdrivlib contains a mix of three methods of hardware access:
-
STM32-HAL (
stm32xxxxx_XXX_hal.c/.h
files): The STM32 HAL library is used only when the peripheral is complex enough that re-writing it would be non-trivial and would offer very little benefit in terms of efficiency, code space, or additional features. -
STM32-LL (
stm32xxxxx_XXX_ll.c/.h
files): In some drivers, ST's LL drivers are used, which are thin wrappers over direct register control via CMSIS headers. I am mostly migrating the drivers that use LL to use CMSIS since the LL drivers aren't as portable as I originally believed. -
CMSIS (
stm32xxxxx.h
files): These are huge (2MB+) header files provided by the vendor (ST) that map all the registers to C-style structs and macros. The benefit of these is that the datasheet (Reference Manual) can be used along-side to setup and debug peripherals. Many drivers in mdrivlib useRegisterBits
andRegisterSection
which wrap the CMSIS macros. These can be specified as ReadWrite, ReadOnly, or WriteOnly, making this a bit safer to use than raw CMSIS register macros without sacrificing any efficiency.
The tables above mentions different types of configuration:
- Template params: e.g.
AdcChan<AdcPeriphNum::_1, AdcChanNum::_13, uint16_t> myADC;
- Template struct: wraps multiple params into a struct passed as a template argument:
struct MySpiAdcConfig : DefaultSpiConfig {
static constexpr uint16_t NumChips = 2;
//...
};
AdcSpi_MAX11666<MySpiAdcConfig> myADC;
- Config struct: wraps multiple params into a struct passed as a constructor argument:
I2CPeriph MyI2C {
.I2Cx = I2C3,
.SCL = {GPIO::B, 8, LL_GPIO_AF4},
.SDA = {GPIO::B, 9, LL_GPIO_AF4},
// ...
};
MyI2C.write(deviceAddr, data, dataSize);
- Ctor/init params: normal function parameters passed to the constructor or an init function. e.g.:
TIM_TypeDef *const TIMx = TIM2;
TimChannelNum const channelNum = TimChannelNum::2;
uint32_t period = 256;
uint16_t prescaler = 1;
uint32_t clock_division = 1;
TimPwmChannel myAnalogOut{TIMx, channelNum, period, prescaler, clock_division};
myAnalogOut.start_output();
for (int i = 0; i<256; i++)
myAnalogOut.set(i);