/* Board Support Package (BSP) for the STM32 NUCLEO-C031C6 board */ #include /* Standard integers. WG14/N843 C99 Standard */ #include "sched.h" #include "bsp.h" #include "stm32c0xx.h" // CMSIS-compliant header file for the MCU used /* add other drivers if necessary... */ // Local-scope defines ----------------------------------------------------- // LED pins available on the board (just one user LED LD4--Green on PA.5) #define LD4_PIN 5U // external LED to be inserted between GND (short leg) and // D12 (longer leg) on the CN9 connector #define LD5_PIN 6U // Button pins available on the board (just one user Button B1 on PC.13) #define B1_PIN 13U uint32_t volatile ready_set; /* ISRs ===================================================================*/ void EXTI4_15_IRQHandler(void) { uint32_t pins = EXTI->FPR1; if (pins & (1U << B1_PIN)) { EXTI->FPR1 = (1U << B1_PIN); // clear the interrupt source sched_post(TASK_AIRBAG_PRIO); } } /* BSP functions ===========================================================*/ void BSP_init(void) { // enable GPIOA clock port for the LED LD4 RCC->IOPENR |= (1U << 0U); // NUCLEO-C031C6 board has LED LD4 on GPIOA pin LD4_PIN // and external LED LD5 on GPIO LD5_PIN // set the LED pins as push-pull output, no pull-up, pull-down GPIOA->MODER &= ~((3U << 2U*LD4_PIN) | (3U << 2U*LD5_PIN)); GPIOA->MODER |= ((1U << 2U*LD4_PIN) | (1U << 2U*LD5_PIN)); GPIOA->OTYPER &= ~((1U << LD4_PIN) | (1U << LD5_PIN)); GPIOA->OSPEEDR &= ~((3U << 2U*LD4_PIN) | (3U << 2U*LD5_PIN)); GPIOA->OSPEEDR |= ((1U << 2U*LD4_PIN) | (1U << 2U*LD5_PIN)); GPIOA->PUPDR &= ~((3U << 2U*LD4_PIN) | (3U << 2U*LD5_PIN)); // enable GPIOC clock port for the Button B1 RCC->IOPENR |= (1U << 2U); // configure Button B1 pin on GPIOC as input, no pull-up, pull-down GPIOC->MODER &= ~(3U << 2U*B1_PIN); // pin mode GPIOC->PUPDR &= ~(3U << 2U*B1_PIN); // configure EXTI line for interrupt on Button B1 EXTI->EMR1 &= ~(1U << B1_PIN); // disable event for B1 EXTI->IMR1 |= (1U << B1_PIN); // enable EXIT line for B1 EXTI->RTSR1 &= ~(1U << B1_PIN); // disable raising edge trigger EXTI->FTSR1 |= (1U << B1_PIN); // enable falling edge trigger EXTI->EXTICR[3] = (EXTI->EXTICR[3] & (~(7U << 8U))) | (2U << 8U); // enable the EXIT IRQ NVIC_EnableIRQ(EXTI4_15_IRQn); } void BSP_deployAirbag(void) { GPIOA->BSRR = (1U << LD4_PIN); // turn LD4 on } void BSP_engageABS(void) { GPIOA->BSRR = (1U << LD5_PIN); // turn LD5 on } uint32_t goToSleepCtr = 0; void BSP_goToSleep() { ++goToSleepCtr; // disable clock to the unused peripherals // setup the desired sleep mode __WFI(); // wait for interrupt; EXECUTION STOPS! // enable clock to the used peripherals __enable_irq(); // enable interrupts with PRIMASK } void BSP_intDisable(void) { __disable_irq(); } void BSP_intEnable(void) { __enable_irq(); } //............................................................................ _Noreturn void assert_failed(char const * const module, int const id) { (void)module; // unused parameter (void)id; // unused parameter #ifndef NDEBUG // turn LD4 and LD5 on GPIOA->BSRR = ((1U << LD4_PIN) | (1U << LD5_PIN)); // for debugging, hang on in an endless loop... for (;;) { } #endif NVIC_SystemReset(); }