micropython/ports/stm32/mphalport.c

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#include <string.h>
#include "py/runtime.h"
#include "py/stream.h"
#include "py/mperrno.h"
#include "py/mphal.h"
#include "extmod/misc.h"
#include "usb.h"
#include "uart.h"
// this table converts from HAL_StatusTypeDef to POSIX errno
const byte mp_hal_status_to_errno_table[4] = {
[HAL_OK] = 0,
[HAL_ERROR] = MP_EIO,
[HAL_BUSY] = MP_EBUSY,
[HAL_TIMEOUT] = MP_ETIMEDOUT,
};
NORETURN void mp_hal_raise(HAL_StatusTypeDef status) {
mp_raise_OSError(mp_hal_status_to_errno_table[status]);
}
MP_WEAK uintptr_t mp_hal_stdio_poll(uintptr_t poll_flags) {
uintptr_t ret = 0;
if (MP_STATE_PORT(pyb_stdio_uart) != NULL) {
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mp_obj_t pyb_stdio_uart = MP_OBJ_FROM_PTR(MP_STATE_PORT(pyb_stdio_uart));
int errcode;
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const mp_stream_p_t *stream_p = mp_get_stream(pyb_stdio_uart);
ret = stream_p->ioctl(pyb_stdio_uart, MP_STREAM_POLL, poll_flags, &errcode);
}
return ret | mp_uos_dupterm_poll(poll_flags);
}
MP_WEAK int mp_hal_stdin_rx_chr(void) {
for (;;) {
#if 0
#ifdef USE_HOST_MODE
pyb_usb_host_process();
int c = pyb_usb_host_get_keyboard();
if (c != 0) {
return c;
}
#endif
#endif
if (MP_STATE_PORT(pyb_stdio_uart) != NULL && uart_rx_any(MP_STATE_PORT(pyb_stdio_uart))) {
return uart_rx_char(MP_STATE_PORT(pyb_stdio_uart));
}
int dupterm_c = mp_uos_dupterm_rx_chr();
if (dupterm_c >= 0) {
return dupterm_c;
}
MICROPY_EVENT_POLL_HOOK
}
}
MP_WEAK void mp_hal_stdout_tx_strn(const char *str, size_t len) {
if (MP_STATE_PORT(pyb_stdio_uart) != NULL) {
uart_tx_strn(MP_STATE_PORT(pyb_stdio_uart), str, len);
}
#if 0 && defined(USE_HOST_MODE) && MICROPY_HW_HAS_LCD
lcd_print_strn(str, len);
#endif
mp_uos_dupterm_tx_strn(str, len);
}
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#if __CORTEX_M >= 0x03
void mp_hal_ticks_cpu_enable(void) {
if (!(DWT->CTRL & DWT_CTRL_CYCCNTENA_Msk)) {
CoreDebug->DEMCR |= CoreDebug_DEMCR_TRCENA_Msk;
#if defined(__CORTEX_M) && __CORTEX_M == 7
// on Cortex-M7 we must unlock the DWT before writing to its registers
DWT->LAR = 0xc5acce55;
#endif
DWT->CYCCNT = 0;
DWT->CTRL |= DWT_CTRL_CYCCNTENA_Msk;
}
}
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#endif
void mp_hal_gpio_clock_enable(GPIO_TypeDef *gpio) {
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#if defined(STM32L476xx) || defined(STM32L496xx)
if (gpio == GPIOG) {
// Port G pins 2 thru 15 are powered using VddIO2 on these MCUs.
HAL_PWREx_EnableVddIO2();
}
#endif
// This logic assumes that all the GPIOx_EN bits are adjacent and ordered in one register
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#if defined(STM32F0)
#define AHBxENR AHBENR
#define AHBxENR_GPIOAEN_Pos RCC_AHBENR_GPIOAEN_Pos
#elif defined(STM32F4) || defined(STM32F7)
#define AHBxENR AHB1ENR
#define AHBxENR_GPIOAEN_Pos RCC_AHB1ENR_GPIOAEN_Pos
#elif defined(STM32H7)
#define AHBxENR AHB4ENR
#define AHBxENR_GPIOAEN_Pos RCC_AHB4ENR_GPIOAEN_Pos
#elif defined(STM32L0)
#define AHBxENR IOPENR
#define AHBxENR_GPIOAEN_Pos RCC_IOPENR_IOPAEN_Pos
#elif defined(STM32G0)
#define AHBxENR IOPENR
#define AHBxENR_GPIOAEN_Pos RCC_IOPENR_GPIOAEN_Pos
#elif defined(STM32G4) || defined(STM32L4) || defined(STM32WB) || defined(STM32WL)
#define AHBxENR AHB2ENR
#define AHBxENR_GPIOAEN_Pos RCC_AHB2ENR_GPIOAEN_Pos
#endif
uint32_t gpio_idx = ((uint32_t)gpio - GPIOA_BASE) / (GPIOB_BASE - GPIOA_BASE);
RCC->AHBxENR |= 1 << (AHBxENR_GPIOAEN_Pos + gpio_idx);
volatile uint32_t tmp = RCC->AHBxENR; // Delay after enabling clock
(void)tmp;
}
void mp_hal_pin_config(mp_hal_pin_obj_t pin_obj, uint32_t mode, uint32_t pull, uint32_t alt) {
GPIO_TypeDef *gpio = pin_obj->gpio;
uint32_t pin = pin_obj->pin;
mp_hal_gpio_clock_enable(gpio);
if (mode == MP_HAL_PIN_MODE_ALT || mode == MP_HAL_PIN_MODE_ALT_OPEN_DRAIN) {
// To avoid any I/O glitches, make sure a valid alternate function is set in
// AFR first before switching the pin mode. When switching from AF to INPUT or
// OUTPUT, the AF in AFR will remain valid up until the pin mode is switched.
gpio->AFR[pin >> 3] = (gpio->AFR[pin >> 3] & ~(15 << (4 * (pin & 7)))) | (alt << (4 * (pin & 7)));
}
gpio->MODER = (gpio->MODER & ~(3 << (2 * pin))) | ((mode & 3) << (2 * pin));
#if defined(GPIO_ASCR_ASC0)
// The L4 has a special analog switch to connect the GPIO to the ADC
gpio->OTYPER = (gpio->OTYPER & ~(1 << pin)) | (((mode >> 2) & 1) << pin);
gpio->ASCR = (gpio->ASCR & ~(1 << pin)) | ((mode >> 3) & 1) << pin;
#else
gpio->OTYPER = (gpio->OTYPER & ~(1 << pin)) | ((mode >> 2) << pin);
#endif
gpio->OSPEEDR = (gpio->OSPEEDR & ~(3 << (2 * pin))) | (2 << (2 * pin)); // full speed
gpio->PUPDR = (gpio->PUPDR & ~(3 << (2 * pin))) | (pull << (2 * pin));
}
bool mp_hal_pin_config_alt(mp_hal_pin_obj_t pin, uint32_t mode, uint32_t pull, uint8_t fn, uint8_t unit) {
const pin_af_obj_t *af = pin_find_af(pin, fn, unit);
if (af == NULL) {
return false;
}
mp_hal_pin_config(pin, mode, pull, af->idx);
return true;
}
void mp_hal_pin_config_speed(mp_hal_pin_obj_t pin_obj, uint32_t speed) {
GPIO_TypeDef *gpio = pin_obj->gpio;
uint32_t pin = pin_obj->pin;
gpio->OSPEEDR = (gpio->OSPEEDR & ~(3 << (2 * pin))) | (speed << (2 * pin));
}
/*******************************************************************************/
// MAC address
// Generate a random locally administered MAC address (LAA)
void mp_hal_generate_laa_mac(int idx, uint8_t buf[6]) {
uint8_t *id = (uint8_t *)MP_HAL_UNIQUE_ID_ADDRESS;
buf[0] = 0x02; // LAA range
buf[1] = (id[11] << 4) | (id[10] & 0xf);
buf[2] = (id[9] << 4) | (id[8] & 0xf);
buf[3] = (id[7] << 4) | (id[6] & 0xf);
buf[4] = id[2];
buf[5] = (id[0] << 2) | idx;
}
// A board can override this if needed
MP_WEAK void mp_hal_get_mac(int idx, uint8_t buf[6]) {
mp_hal_generate_laa_mac(idx, buf);
}
void mp_hal_get_mac_ascii(int idx, size_t chr_off, size_t chr_len, char *dest) {
static const char hexchr[16] = "0123456789ABCDEF";
uint8_t mac[6];
mp_hal_get_mac(idx, mac);
for (; chr_len; ++chr_off, --chr_len) {
*dest++ = hexchr[mac[chr_off >> 1] >> (4 * (1 - (chr_off & 1))) & 0xf];
}
}
MP_REGISTER_ROOT_POINTER(struct _pyb_uart_obj_t *pyb_stdio_uart);