#include "bsp_spi.h" #include "memory.h" #include "stdlib.h" /* 所有的spi instance保存于此,用于callback时判断中断来源*/ static SPIInstance *spi_instance[SPI_DEVICE_CNT] = {NULL}; static uint8_t idx = 0; // 配合中断以及初始化 SPIInstance *SPIRegister(SPI_Init_Config_s *conf) { if (idx >= MX_SPI_BUS_SLAVE_CNT) // 超过最大实例数 while (1) ; SPIInstance *instance = (SPIInstance *)malloc(sizeof(SPIInstance)); memset(instance, 0, sizeof(SPIInstance)); instance->spi_handle = conf->spi_handle; instance->GPIOx = conf->GPIOx; instance->cs_pin = conf->cs_pin; instance->spi_work_mode = conf->spi_work_mode; instance->callback = conf->callback; instance->id = conf->id; spi_instance[idx++] = instance; return instance; } void SPITransmit(SPIInstance *spi_ins, uint8_t *ptr_data, uint8_t len) { // 拉低片选,开始传输(选中从机) HAL_GPIO_WritePin(spi_ins->GPIOx, spi_ins->cs_pin, GPIO_PIN_RESET); switch (spi_ins->spi_work_mode) { case SPI_DMA_MODE: HAL_SPI_Transmit_DMA(spi_ins->spi_handle, ptr_data, len); break; case SPI_IT_MODE: HAL_SPI_Transmit_IT(spi_ins->spi_handle, ptr_data, len); break; case SPI_BLOCK_MODE: HAL_SPI_Transmit(spi_ins->spi_handle, ptr_data, len, 1000); // 默认50ms超时 // 阻塞模式不会调用回调函数,传输完成后直接拉高片选结束 HAL_GPIO_WritePin(spi_ins->GPIOx, spi_ins->cs_pin, GPIO_PIN_SET); break; default: while (1) ; // error mode! 请查看是否正确设置模式,或出现指针越界导致模式被异常修改的情况 break; } } void SPIRecv(SPIInstance *spi_ins, uint8_t *ptr_data, uint8_t len) { // 用于稍后回调使用 spi_ins->rx_size = len; spi_ins->rx_buffer = ptr_data; // 拉低片选,开始传输 HAL_GPIO_WritePin(spi_ins->GPIOx, spi_ins->cs_pin, GPIO_PIN_RESET); switch (spi_ins->spi_work_mode) { case SPI_DMA_MODE: HAL_SPI_Receive_DMA(spi_ins->spi_handle, ptr_data, len); break; case SPI_IT_MODE: HAL_SPI_Receive_IT(spi_ins->spi_handle, ptr_data, len); break; case SPI_BLOCK_MODE: HAL_SPI_Receive(spi_ins->spi_handle, ptr_data, len, 1000); // 阻塞模式不会调用回调函数,传输完成后直接拉高片选结束 HAL_GPIO_WritePin(spi_ins->GPIOx, spi_ins->cs_pin, GPIO_PIN_SET); break; default: while (1) ; // error mode! 请查看是否正确设置模式,或出现指针越界导致模式被异常修改的情况 break; } } void SPITransRecv(SPIInstance *spi_ins, uint8_t *ptr_data_rx, uint8_t *ptr_data_tx, uint8_t len) { // 用于稍后回调使用,请保证ptr_data_rx在回调函数被调用之前仍然在作用域内,否则析构之后的行为是未定义的!!! spi_ins->rx_size = len; spi_ins->rx_buffer = ptr_data_rx; // 拉低片选,开始传输 HAL_GPIO_WritePin(spi_ins->GPIOx, spi_ins->cs_pin, GPIO_PIN_RESET); switch (spi_ins->spi_work_mode) { case SPI_DMA_MODE: HAL_SPI_TransmitReceive_DMA(spi_ins->spi_handle, ptr_data_tx, ptr_data_rx, len); break; case SPI_IT_MODE: HAL_SPI_TransmitReceive_IT(spi_ins->spi_handle, ptr_data_tx, ptr_data_rx, len); break; case SPI_BLOCK_MODE: HAL_SPI_TransmitReceive(spi_ins->spi_handle, ptr_data_tx, ptr_data_rx, len, 1000); // 默认50ms超时 // 阻塞模式不会调用回调函数,传输完成后直接拉高片选结束 HAL_GPIO_WritePin(spi_ins->GPIOx, spi_ins->cs_pin, GPIO_PIN_SET); break; default: while (1) ; // error mode! 请查看是否正确设置模式,或出现指针越界导致模式被异常修改的情况 break; } } void SPISetMode(SPIInstance *spi_ins, SPI_TXRX_MODE_e spi_mode) { if (spi_mode != SPI_DMA_MODE && spi_mode != SPI_IT_MODE && spi_mode != SPI_BLOCK_MODE) while (1) ; // error mode! 请查看是否正确设置模式,或出现指针越界导致模式被异常修改的情况 if (spi_ins->spi_work_mode != spi_mode) { spi_ins->spi_work_mode = spi_mode; } } /** * @brief 当SPI接收完成,将会调用此回调函数,可以进行协议解析或其他必须的数据处理等 * * @param hspi spi handle */ void HAL_SPI_RxCpltCallback(SPI_HandleTypeDef *hspi) { for (size_t i = 0; i < idx; i++) { // 如果是当前spi硬件发出的complete,且cs_pin为低电平(说明正在传输),则尝试调用回调函数 if (spi_instance[i]->spi_handle == hspi && // 显然同一时间一条总线只能有一个从机在接收数据 HAL_GPIO_ReadPin(spi_instance[i]->GPIOx, spi_instance[i]->cs_pin) == GPIO_PIN_RESET) { // 先拉高片选,结束传输,在判断是否有回调函数,如果有则调用回调函数 HAL_GPIO_WritePin(spi_instance[i]->GPIOx, spi_instance[i]->cs_pin, GPIO_PIN_SET); // @todo 后续添加holdon模式,由用户自行决定何时释放片选,允许进行连续传输 if (spi_instance[i]->callback != NULL) // 回调函数不为空, 则调用回调函数 spi_instance[i]->callback(spi_instance[i]); return; } } } /** * @brief 和RxCpltCallback共用解析即可,这里只是形式上封装一下,不用重复写 * 这是对HAL库的__weak函数的重写,传输使用IT或DMA模式,在传输完成时会调用此函数 * @param hspi spi handle */ void HAL_SPI_TxRxCpltCallback(SPI_HandleTypeDef *hspi) { HAL_SPI_RxCpltCallback(hspi); // 直接调用接收完成的回调函数 }