fiatlux/peripherals/cc48x6/firmware/Src/main.c

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/* USER CODE BEGIN Header */
/**
******************************************************************************
* @file : main.c
* @brief : Main program body
******************************************************************************
* @attention
*
* Copyright (c) 2022 STMicroelectronics.
* All rights reserved.
*
* This software is licensed under terms that can be found in the LICENSE file
* in the root directory of this software component.
* If no LICENSE file comes with this software, it is provided AS-IS.
*
******************************************************************************
*/
/* USER CODE END Header */
/* Includes ------------------------------------------------------------------*/
#include "main.h"
#include "crc.h"
#include "dma.h"
#include "tim.h"
#include "gpio.h"
/* Private includes ----------------------------------------------------------*/
/* USER CODE BEGIN Includes */
#include <stdbool.h>
#include "spi.h"
#include "stm32f0xx_ll_spi.h"
/* USER CODE END Includes */
/* Private typedef -----------------------------------------------------------*/
/* USER CODE BEGIN PTD */
/* USER CODE END PTD */
/* Private define ------------------------------------------------------------*/
/* USER CODE BEGIN PD */
/* USER CODE END PD */
/* Private macro -------------------------------------------------------------*/
/* USER CODE BEGIN PM */
/* USER CODE END PM */
/* Private variables ---------------------------------------------------------*/
/* USER CODE BEGIN PV */
/* USER CODE END PV */
/* Private function prototypes -----------------------------------------------*/
void SystemClock_Config(void);
/* USER CODE BEGIN PFP */
/* USER CODE END PFP */
/* Private user code ---------------------------------------------------------*/
/* USER CODE BEGIN 0 */
const uint16_t version = 42;
bool toggle = false;
uint16_t counter = 0;
bool dirty = true;
//uint16_t mem[12] = {0xFFF, 0xFF, 0xFFF, 0xFF, 0xFFF, 0xFF, 0xFFF, 0xFF, 0xFFF, 0xFF, 0xFFF, 0xFF};
//uint16_t mem[12] = {0x300, 0x40, 0x300, 0x40, 0x300, 0x40, 0x300, 0x40, 0x300, 0x40, 0x300, 0x40};
uint16_t mem[12] = {0xFFF, 0xFF, 0xFFF, 0xFF, 0xFFF, 0xFF, 0xFFF, 0xFF, 0xFFF, 0xFF, 0xFFF, 0xFF};
uint16_t conf[8] = {version, 0, 0, 0, 0, 0, 0, 0};
#define BUFFER_SIZE 64
uint16_t RX_Buffer[BUFFER_SIZE] = {0};
uint16_t TX_Buffer[BUFFER_SIZE] = {0};
void HAL_GPIO_EXTI_Callback(uint16_t GPIO_Pin) {
if(GPIO_Pin == SPI_INT_Pin) {
hspi2.Instance->CR1 |= SPI_CR1_SSI;
HAL_GPIO_WritePin(INIT_OUT_GPIO_Port, INIT_OUT_Pin, GPIO_PIN_SET);
for (volatile int i = 0; i < 3; i++);
hspi2.Instance->CR1 &= ~SPI_CR1_SSI;
HAL_GPIO_WritePin(INIT_OUT_GPIO_Port, INIT_OUT_Pin, GPIO_PIN_RESET);
}
}
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typedef union {
struct {
unsigned dat: 12;
unsigned addr: 4;
} __attribute__((packed));
uint16_t _;
} cc48x6_frame;
typedef enum {
CMD_NONE = 0,
CMD_READ = 1,
CMD_WRITE = 2,
CMD_INIT = 3,
CMD_RESET = 4,
CMD_VERSION = 5,
CMD_CONFIG = 6,
CMD_PING = 7
} bus_cmd;
typedef union {
struct {
unsigned dat: 16;
unsigned addr: 8;
unsigned cmd: 8;
} __attribute__((packed));
uint32_t _;
} request_frame;
typedef union {
struct {
unsigned dat: 16;
unsigned addr: 8;
unsigned flags: 7;
unsigned: 1;
} __attribute__((packed));
uint32_t _;
} reply_frame;
uint8_t addr = 0;
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void HAL_SPI_CpltCallback(SPI_HandleTypeDef *hspi) {
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request_frame req = {._ = ((uint32_t) RX_Buffer[0]) << 16 | (uint32_t) RX_Buffer[1]};
reply_frame rep = {._ = 0};
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if(addr == 0) {
bool init = HAL_GPIO_ReadPin(INIT_IN_GPIO_Port, INIT_IN_Pin);
if(init && req.cmd == CMD_INIT) {
addr = req.addr;
} else if(init) {
rep.flags = 5;
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} else {
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rep.flags = 7;
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}
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} else if(addr == req.addr) {
if(req.cmd == CMD_PING){
rep.dat = req.dat;
}else {
cc48x6_frame frame = {._=req.dat};
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counter++;
toggle = !toggle;
if(toggle) {
HAL_GPIO_WritePin(SIGNAL_LED_GPIO_Port, SIGNAL_LED_Pin, GPIO_PIN_SET);
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} else {
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HAL_GPIO_WritePin(SIGNAL_LED_GPIO_Port, SIGNAL_LED_Pin, GPIO_PIN_RESET);
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}
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if(frame.addr <= 6 && frame.addr >= 1) {
frame.addr--;
if(frame.dat > 0x300) {
mem[frame.addr * 2 + 1] = 0xFF;
mem[frame.addr * 2] = frame.dat;
} else {
mem[frame.addr * 2 + 1] = (frame.dat * 0xFF) / 0x300;
mem[frame.addr * 2] = 0x300;
}
dirty = true;
rep.dat = req.dat;
} else if(frame.addr == 15 && frame.dat < 8) {
TX_Buffer[0] = conf[frame.dat];
}
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}
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}
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TX_Buffer[0] = rep._ >> 16;
TX_Buffer[1] = rep._ & 0xFFFF;
HAL_SPI_TransmitReceive_DMA(&hspi2, TX_Buffer, RX_Buffer, 2);
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HAL_GPIO_WritePin(INIT_OUT_GPIO_Port, INIT_OUT_Pin, GPIO_PIN_SET);
for (volatile int i = 0; i < 3; i++);
HAL_GPIO_WritePin(INIT_OUT_GPIO_Port, INIT_OUT_Pin, GPIO_PIN_RESET);
}
void HAL_SPI_RxCpltCallback(SPI_HandleTypeDef *hspi) {
HAL_SPI_CpltCallback(hspi);
}
void HAL_SPI_TxRxCpltCallback(SPI_HandleTypeDef *hspi) {
HAL_SPI_CpltCallback(hspi);
}
void HAL_SPI_TxCpltCallback(SPI_HandleTypeDef *hspi) {
HAL_SPI_Transmit_DMA(&hspi2, (uint8_t *) TX_Buffer, 2);
}
void setDAC(uint8_t channel, uint16_t val) {
uint16_t frame = (val & 0x0FFF) | (0x7000 & (channel << 12));
HAL_SPI_Transmit(&hspi1, (uint8_t * ) & frame, 1, 100);
}
/* USER CODE END 0 */
/**
* @brief The application entry point.
* @retval int
*/
int main(void) {
/* USER CODE BEGIN 1 */
/* USER CODE END 1 */
/* MCU Configuration--------------------------------------------------------*/
/* Reset of all peripherals, Initializes the Flash interface and the Systick. */
HAL_Init();
/* USER CODE BEGIN Init */
/* USER CODE END Init */
/* Configure the system clock */
SystemClock_Config();
/* USER CODE BEGIN SysInit */
/* USER CODE END SysInit */
/* Initialize all configured peripherals */
MX_GPIO_Init();
MX_CRC_Init();
MX_TIM1_Init();
MX_DMA_Init();
MX_TIM3_Init();
/* USER CODE BEGIN 2 */
MX_SPI1_Init();
MX_SPI2_Init();
TIM1->ARR = 254;
TIM1->CCR1 = 10;
TIM1->CCR2 = 10;
TIM1->CCR3 = 10;
TIM1->CCR4 = 10;
TIM1->CCMR1 = 0x6868;
TIM1->CCMR2 = 0x6868;
TIM1->CCER = 0x1111;
TIM1->EGR |= TIM_EGR_UG;
TIM1->BDTR |= TIM_BDTR_MOE;
TIM1->CR1 |= TIM_CR1_CEN;
TIM3->ARR = 254;
TIM3->CCR1 = 10;
TIM3->CCR2 = 10;
TIM3->CCMR1 = 0x6868;
TIM3->CCER = 0x1111;
TIM3->EGR |= TIM_EGR_UG;
TIM3->BDTR |= TIM_BDTR_MOE;
TIM3->CR1 |= TIM_CR1_CEN;
HAL_GPIO_WritePin(SIGNAL_LED_GPIO_Port, SIGNAL_LED_Pin, GPIO_PIN_RESET);
uint16_t frame = 0b1001000000000000;
HAL_SPI_Transmit(&hspi1, (uint8_t * ) & frame, 1, 100);
for (int i = 0; i < 6; ++i) {
setDAC(i, mem[i * 2]);
}
TIM1->CCR1 = 0xFF & mem[1];
TIM1->CCR2 = 0xFF & mem[3];
TIM1->CCR3 = 0xFF & mem[5];
TIM1->CCR4 = 0xFF & mem[7];
TIM3->CCR1 = 0xFF & mem[9];
TIM3->CCR2 = 0xFF & mem[11];
HAL_GPIO_WritePin(SIGNAL_LED_GPIO_Port, SIGNAL_LED_Pin, GPIO_PIN_SET);
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HAL_SPI_Receive_DMA(&hspi2, (uint8_t *) RX_Buffer, 2);
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/* USER CODE END 2 */
/* Infinite loop */
/* USER CODE BEGIN WHILE */
while (1) {
/* USER CODE END WHILE */
/* USER CODE BEGIN 3 */
#if 1
//if(dirty) {
for (int i = 0; i < 6; ++i) {
setDAC(i, mem[i * 2]);
}
TIM1->CCR1 = 0xFF & mem[1];
TIM1->CCR2 = 0xFF & mem[3];
TIM1->CCR3 = 0xFF & mem[5];
TIM1->CCR4 = 0xFF & mem[7];
TIM3->CCR1 = 0xFF & mem[9];
TIM3->CCR2 = 0xFF & mem[11];
dirty = false;
//}
#else
setDAC(0, 50 << 4);
setDAC(1, 50 << 4);
setDAC(2, 50 << 4);
setDAC(3, 50 << 4);
setDAC(4, 50 << 4);
setDAC(5, 50 << 4);
HAL_GPIO_WritePin(SIGNAL_LED_GPIO_Port, SIGNAL_LED_Pin, GPIO_PIN_SET);
for (int i = 0; i < sizeof(pwm_lookup); i++) {
uint8_t j = pwm_lookup[i];
TIM1->CCR1 = j;
TIM1->CCR2 = j;
TIM1->CCR3 = j;
TIM1->CCR4 = j;
TIM3->CCR1 = j;
TIM3->CCR2 = j;
HAL_Delay(5);
}
TIM1->CCR1 = 256;
TIM1->CCR2 = 256;
TIM1->CCR3 = 256;
TIM1->CCR4 = 256;
TIM3->CCR1 = 256;
TIM3->CCR2 = 256;
for (int i = 50; i < 256; i++) {
setDAC(0, i << 4);
setDAC(1, i << 4);
setDAC(2, i << 4);
setDAC(3, i << 4);
setDAC(4, i << 4);
setDAC(5, i << 4);
HAL_Delay(5);
}
HAL_GPIO_WritePin(SIGNAL_LED_GPIO_Port, SIGNAL_LED_Pin, GPIO_PIN_RESET);
HAL_Delay(200);
#endif
}
/* USER CODE END 3 */
}
/**
* @brief System Clock Configuration
* @retval None
*/
void SystemClock_Config(void) {
RCC_OscInitTypeDef RCC_OscInitStruct = {0};
RCC_ClkInitTypeDef RCC_ClkInitStruct = {0};
/** Initializes the RCC Oscillators according to the specified parameters
* in the RCC_OscInitTypeDef structure.
*/
RCC_OscInitStruct.OscillatorType = RCC_OSCILLATORTYPE_HSI;
RCC_OscInitStruct.HSIState = RCC_HSI_ON;
RCC_OscInitStruct.HSICalibrationValue = RCC_HSICALIBRATION_DEFAULT;
RCC_OscInitStruct.PLL.PLLState = RCC_PLL_ON;
RCC_OscInitStruct.PLL.PLLSource = RCC_PLLSOURCE_HSI;
RCC_OscInitStruct.PLL.PLLMUL = RCC_PLL_MUL12;
RCC_OscInitStruct.PLL.PREDIV = RCC_PREDIV_DIV1;
if(HAL_RCC_OscConfig(&RCC_OscInitStruct) != HAL_OK) {
Error_Handler();
}
/** Initializes the CPU, AHB and APB buses clocks
*/
RCC_ClkInitStruct.ClockType = RCC_CLOCKTYPE_HCLK | RCC_CLOCKTYPE_SYSCLK
| RCC_CLOCKTYPE_PCLK1;
RCC_ClkInitStruct.SYSCLKSource = RCC_SYSCLKSOURCE_PLLCLK;
RCC_ClkInitStruct.AHBCLKDivider = RCC_SYSCLK_DIV1;
RCC_ClkInitStruct.APB1CLKDivider = RCC_HCLK_DIV1;
if(HAL_RCC_ClockConfig(&RCC_ClkInitStruct, FLASH_LATENCY_1) != HAL_OK) {
Error_Handler();
}
}
/* USER CODE BEGIN 4 */
/* USER CODE END 4 */
/**
* @brief This function is executed in case of error occurrence.
* @retval None
*/
void Error_Handler(void) {
/* USER CODE BEGIN Error_Handler_Debug */
/* User can add his own implementation to report the HAL error return state */
__disable_irq();
while (1) {
}
/* USER CODE END Error_Handler_Debug */
}
#ifdef USE_FULL_ASSERT
/**
* @brief Reports the name of the source file and the source line number
* where the assert_param error has occurred.
* @param file: pointer to the source file name
* @param line: assert_param error line source number
* @retval None
*/
void assert_failed(uint8_t *file, uint32_t line)
{
/* USER CODE BEGIN 6 */
/* User can add his own implementation to report the file name and line number,
ex: printf("Wrong parameters value: file %s on line %d\r\n", file, line) */
/* USER CODE END 6 */
}
#endif /* USE_FULL_ASSERT */