/* ****************************************************************************** * @file HAL_Spi.c * @version V1.0.0 * @date 2020 * @brief SPI HAL module driver. * This file provides firmware functions to manage the following * functionalities of the Serial Peripheral Interface (SPI) peripheral. * @ Initialization and de-initialization functions * @ IO operation functions * @ Peripheral Control functions ****************************************************************************** */ #include "ACM32Fxx_HAL.h" #define SPI_RX_TIMEOUT 2000 #define SPI_TX_DMA_TIMEOUT 2000 volatile uint32_t lu32_ReceiveTimeOut = SPI_RX_TIMEOUT; volatile uint32_t lu32_TX_DMA_TimeOut = SPI_TX_DMA_TIMEOUT; /************************************************************************ * function : HAL_SPI_IRQHandler * Description: This function handles SPI interrupt request. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module ************************************************************************/ __weak void HAL_SPI_IRQHandler(SPI_HandleTypeDef *hspi) { /* NOTE : This function should be modified by the user. */ if ( (hspi->Instance->STATUS & SPI_STATUS_RX_NOT_EMPTY) && ((hspi->Instance->IE) & SPI_STATUS_RX_NOT_EMPTY) ) { /* In master mode */ if (hspi->Instance->CTL & SPI_CTL_MST_MODE) { while (hspi->Instance->STATUS & SPI_STATUS_RX_NOT_EMPTY) { hspi->Rx_Buffer[hspi->Rx_Count++] = hspi->Instance->DAT; if (hspi->Rx_Count >= hspi->Rx_Size) { /* Wait Transmit Done */ while (!(hspi->Instance->STATUS & SPI_STATUS_RX_BATCH_DONE)); /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); /* Receive End */ hspi->Instance->CS &= (~SPI_CS_CS0); /* Disable Rx Not Empty Interrupt */ CLEAR_BIT(hspi->Instance->IE, SPI_STATUS_RX_NOT_EMPTY); if(hspi->Instance == SPI1) NVIC_ClearPendingIRQ(SPI1_IRQn); else if(hspi->Instance == SPI2) NVIC_ClearPendingIRQ(SPI2_IRQn); /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Set machine is DILE */ hspi->RxState = SPI_RX_STATE_IDLE; } } } /* In Slave mode */ else { while ((hspi->Rx_Count < hspi->Rx_Size) && (lu32_ReceiveTimeOut > 0) ) { if (hspi->Instance->STATUS & SPI_STATUS_RX_NOT_EMPTY) { hspi->Rx_Buffer[hspi->Rx_Count++] = hspi->Instance->DAT; lu32_ReceiveTimeOut = SPI_RX_TIMEOUT; //If recieve data, Reset the timeout value } else { lu32_ReceiveTimeOut--; } } /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); /* Disable Rx Not Empty Interrupt */ CLEAR_BIT(hspi->Instance->IE, SPI_STATUS_RX_NOT_EMPTY); if(hspi->Instance == SPI1) NVIC_ClearPendingIRQ(SPI1_IRQn); else if(hspi->Instance == SPI2) NVIC_ClearPendingIRQ(SPI2_IRQn); /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Set machine is DILE */ hspi->RxState = SPI_RX_STATE_IDLE; } } if ( (hspi->Instance->STATUS & SPI_STATUS_TX_FIFO_HALF_EMPTY) && ((hspi->Instance->IE) & SPI_IE_TX_FIFO_HALF_EMPTY_EN) ) { while (hspi->Tx_Count < hspi->Tx_Size) { if (!(hspi->Instance->STATUS & SPI_STATUS_TX_FIFO_FULL)) { hspi->Instance->DAT = hspi->Tx_Buffer[hspi->Tx_Count++]; } else { break; } } /* Clear Tx FIFO half empty Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_FIFO_HALF_EMPTY); if(hspi->Tx_Count == hspi->Tx_Size) { /* Disable Tx FIFO half empty Interrupt */ CLEAR_BIT(hspi->Instance->IE, SPI_IE_TX_FIFO_HALF_EMPTY_EN); } } if ((hspi->Instance->STATUS & SPI_STATUS_TX_BATCH_DONE) && ((hspi->Instance->IE) & SPI_IE_TX_BATCH_DONE_EN) ) { /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Disable TX Batch Done Interrupt */ CLEAR_BIT(hspi->Instance->IE, SPI_STATUS_TX_BATCH_DONE); /* Disable Tx FIFO half empty Interrupt */ CLEAR_BIT(hspi->Instance->IE, SPI_IE_TX_FIFO_HALF_EMPTY_EN); if(hspi->Instance == SPI1) NVIC_ClearPendingIRQ(SPI1_IRQn); else if(hspi->Instance == SPI2) NVIC_ClearPendingIRQ(SPI2_IRQn); lu32_TX_DMA_TimeOut = SPI_TX_DMA_TIMEOUT; while (hspi->Instance->STATUS & SPI_STATUS_TX_BUSY) { lu32_TX_DMA_TimeOut--; if(0 == lu32_TX_DMA_TimeOut) { break; } } /* Tx Disable */ hspi->Instance->TX_CTL &= (~SPI_TX_CTL_EN); hspi->Instance->TX_CTL &= (~SPI_TX_CTL_DMA_REQ_EN); if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Transmit End */ hspi->Instance->CS &= (~SPI_CS_CS0); } /* Tx Disable */ hspi->Instance->TX_CTL &= (~SPI_TX_CTL_EN); hspi->TxState = SPI_TX_STATE_IDLE; } if ( (hspi->Instance->STATUS & SPI_STATUS_RX_BATCH_DONE) && ((hspi->Instance->IE) & SPI_STATUS_RX_BATCH_DONE) ) { /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Disable RX Batch Done Interrupt */ CLEAR_BIT(hspi->Instance->IE, SPI_STATUS_RX_BATCH_DONE); if(hspi->Instance == SPI1) NVIC_ClearPendingIRQ(SPI1_IRQn); else if(hspi->Instance == SPI2) NVIC_ClearPendingIRQ(SPI2_IRQn); /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_DMA_REQ_EN); hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Receive End */ hspi->Instance->CS &= (~SPI_CS_CS0); } hspi->RxState = SPI_RX_STATE_IDLE; } } /************************************************************************ * function : HAL_SPI_MspInit * Description: * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module ************************************************************************/ __weak void HAL_SPI_MspInit(SPI_HandleTypeDef *hspi) { /* NOTE : This function should be modified by the user. */ /* For Example */ GPIO_InitTypeDef GPIO_Handle; /* SPI1 */ if (hspi->Instance == SPI1) { } /* SPI2 */ else if (hspi->Instance == SPI2) { /* Enable Clock */ System_Module_Enable(EN_SPI2); /* SPI2 CS PB12 */ /* SPI2 SCK PB13 */ /* SPI2 MOSI PB15 */ /* SPI2 MISO PB14 */ GPIO_Handle.Pin = GPIO_PIN_12 | GPIO_PIN_13 | GPIO_PIN_14 | GPIO_PIN_15; GPIO_Handle.Mode = GPIO_MODE_AF_PP; GPIO_Handle.Pull = GPIO_PULLUP; GPIO_Handle.Alternate = GPIO_FUNCTION_4; HAL_GPIO_Init(GPIOB, &GPIO_Handle); if (hspi->Init.X_Mode == SPI_4X_MODE) { /* SPI2 IO3 PC6 */ /* SPI2 IO2 PC7 */ GPIO_Handle.Pin = GPIO_PIN_6 | GPIO_PIN_7; GPIO_Handle.Mode = GPIO_MODE_AF_PP; GPIO_Handle.Pull = GPIO_PULLUP; GPIO_Handle.Alternate = GPIO_FUNCTION_2; HAL_GPIO_Init(GPIOC, &GPIO_Handle); } /* Clear Pending Interrupt */ NVIC_ClearPendingIRQ(SPI2_IRQn); /* Enable External Interrupt */ NVIC_EnableIRQ(SPI2_IRQn); } } /************************************************************************ * function : HAL_SPI_MspDeInit * Description: SPI De-Initialize the SPI clock, GPIO, IRQ. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module ************************************************************************/ __weak void HAL_SPI_MspDeInit(SPI_HandleTypeDef *hspi) { /* NOTE : This function should be modified by the user. */ /* For Example */ /* SPI1 */ if (hspi->Instance == SPI1) { } /* SPI2 */ else if (hspi->Instance == SPI2) { /* Disable Clock */ System_Module_Disable(EN_SPI2); /* Reset the used GPIO to analog */ HAL_GPIO_DeInit(GPIOB, GPIO_PIN_12 | GPIO_PIN_13 | GPIO_PIN_14 | GPIO_PIN_15); if (hspi->Init.X_Mode == SPI_4X_MODE) { HAL_GPIO_DeInit(GPIOC, GPIO_PIN_6 | GPIO_PIN_7); } /* Clear Pending Interrupt */ NVIC_ClearPendingIRQ(SPI2_IRQn); /* Disable External Interrupt */ NVIC_DisableIRQ(SPI2_IRQn); } } /************************************************************************ * function : HAL_SPI_Init * Description: SPI initial with parameters. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module ************************************************************************/ HAL_StatusTypeDef HAL_SPI_Init(SPI_HandleTypeDef *hspi) { /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; if (!IS_SPI_ALL_MODE(hspi->Init.SPI_Mode)) return HAL_ERROR; if (!IS_SPI_WORK_MODE(hspi->Init.SPI_Work_Mode)) return HAL_ERROR; if (!IS_SPI_X_MODE(hspi->Init.X_Mode)) return HAL_ERROR; if (!IS_SPI_FIRST_BIT(hspi->Init.First_Bit)) return HAL_ERROR; if (!IS_SPI_BAUDRATE_PRESCALER(hspi->Init.BaudRate_Prescaler)) return HAL_ERROR; /* Init the low level hardware : GPIO, CLOCK, NVIC */ HAL_SPI_MspInit(hspi); /* Automatic change direction */ hspi->Instance->CTL |= (SPI_CTL_IO_MODE); /* Set SPI Work mode */ if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { SET_BIT(hspi->Instance->CTL, SPI_CTL_MST_MODE); } else { CLEAR_BIT(hspi->Instance->CTL, SPI_CTL_MST_MODE); hspi->Instance->BATCH = (hspi->Instance->BATCH & (~0x000FFFFFU)) | (1 << 0); hspi->Instance->TX_CTL |= SPI_TX_CTL_MODE | (0x88 << 8); // dummy data = 0x88 if (hspi->Init.X_Mode != SPI_1X_MODE) { hspi->Instance->CTL |= SPI_CTL_SFILTER; } /* Slave Alternate Enable */ hspi->Instance->CTL |= SPI_CTL_SLAVE_EN; /* Slave Mode Enable Rx By Default */ hspi->Instance->RX_CTL |= SPI_RX_CTL_EN; } /* Set SPI First Bit */ if (hspi->Init.First_Bit == SPI_FIRSTBIT_LSB) SET_BIT(hspi->Instance->CTL, SPI_CTL_LSB_FIRST); else CLEAR_BIT(hspi->Instance->CTL, SPI_CTL_LSB_FIRST); /* Set SPI Work Mode */ hspi->Instance->CTL = ((hspi->Instance->CTL) & (~(SPI_CTL_CPHA | SPI_CTL_CPOL))) | (hspi->Init.SPI_Work_Mode); /* Set SPI X_Mode */ hspi->Instance->CTL = ((hspi->Instance->CTL) & (~SPI_CTL_X_MODE)) | (hspi->Init.X_Mode); /* Set SPI BaudRate Prescaler */ hspi->Instance->BAUD = ((hspi->Instance->BAUD) & (~0x0000FFFF)) | (hspi->Init.BaudRate_Prescaler); /* Disable All Interrupt */ hspi->Instance->IE = 0x00000000; return HAL_OK; } /************************************************************************ * function : HAL_SPI_DeInit * Description: De-Initialize the SPI peripheral. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * return : HAL_StatusTypeDef : HAL status ************************************************************************/ HAL_StatusTypeDef HAL_SPI_DeInit(SPI_HandleTypeDef *hspi) { /* Check the SPI handle allocation */ if (hspi == NULL) { return HAL_ERROR; } /* Check SPI Instance parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; hspi->RxState = SPI_RX_STATE_IDLE; hspi->TxState = SPI_TX_STATE_IDLE; /* DeInit the low level hardware: GPIO, CLOCK, NVIC... */ HAL_SPI_MspDeInit(hspi); hspi->Rx_Size = 0; hspi->Tx_Size = 0; hspi->Rx_Count = 0; hspi->Tx_Count = 0; return HAL_OK; } /************************************************************************ * function : HAL_SPI_Transmit * Description: Transmits an amount of data in blocking mode. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * pData : Pointer to data buffer * Size : Amount of data to be sent * Timeout : Transmit Timeout ************************************************************************/ HAL_StatusTypeDef HAL_SPI_Transmit(SPI_HandleTypeDef *hspi, uint8_t *pData, uint32_t Size, uint32_t Timeout) { HAL_StatusTypeDef Status = HAL_OK; __IO uint32_t uiTimeout; /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; if(!Size) return HAL_ERROR; if (pData == NULL) return HAL_ERROR; hspi->Tx_Count = 0; hspi->Tx_Size = Size; hspi->Tx_Buffer = pData; uiTimeout = Timeout; /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Clear TX FIFO */ SET_BIT(hspi->Instance->TX_CTL, SPI_TX_CTL_FIFO_RESET); CLEAR_BIT(hspi->Instance->TX_CTL, SPI_TX_CTL_FIFO_RESET); /* Set Data Size */ hspi->Instance->BATCH = Size; /* Tx Enable */ hspi->Instance->TX_CTL |= SPI_TX_CTL_EN; if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Transmit Start */ hspi->Instance->CS |= SPI_CS_CS0; } else { /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); } while(hspi->Tx_Size > 0) { /* Wait Tx FIFO Not Full */ while (hspi->Instance->STATUS & SPI_STATUS_TX_FIFO_FULL) { if(uiTimeout) { uiTimeout--; if (uiTimeout == 0) { Status = HAL_TIMEOUT; goto End; } } } hspi->Instance->DAT = hspi->Tx_Buffer[hspi->Tx_Count++]; hspi->Tx_Size--; uiTimeout = Timeout; } if (hspi->Init.SPI_Mode == SPI_MODE_SLAVE) { /* Wait Transmit Done */ while (!(hspi->Instance->STATUS & SPI_STATUS_TX_BUSY)); while (hspi->Instance->STATUS & SPI_STATUS_TX_BUSY) { if(uiTimeout) { uiTimeout--; if (uiTimeout == 0) { Status = HAL_TIMEOUT; goto End; } } } } else { /* Wait Transmit Done */ while (!(hspi->Instance->STATUS & SPI_STATUS_TX_BATCH_DONE)); Status = HAL_OK; } End: /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Tx Disable */ hspi->Instance->TX_CTL &= (~SPI_TX_CTL_EN); if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Transmit End */ hspi->Instance->CS &= (~SPI_CS_CS0); } return Status; } /************************************************************************ * function : HAL_SPI_Transmit_DMA * Description: Transmits an amount of data in blocking mode with DMA. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * pData : Pointer to data buffer * Size : Amount of data to be sent ************************************************************************/ HAL_StatusTypeDef HAL_SPI_Transmit_DMA(SPI_HandleTypeDef *hspi, uint8_t *pData, uint32_t Size) { /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; /* Rx machine is running */ if (hspi->TxState != SPI_TX_STATE_IDLE) { return HAL_ERROR; } /* Set machine is Sending */ hspi->TxState = SPI_TX_STATE_SENDING; /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Enable Tx Batch Done Interrupt */ SET_BIT(hspi->Instance->IE, SPI_STATUS_TX_BATCH_DONE); /* Set Data Size */ hspi->Instance->BATCH = Size; /* Tx FIFO */ hspi->Instance->TX_CTL &= ~SPI_TX_CTL_DMA_LEVEL; hspi->Instance->TX_CTL |= SPI_TX_CTL_DMA_LEVEL_0; /* Tx Enable */ hspi->Instance->TX_CTL |= SPI_TX_CTL_EN; if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Transmit Start */ hspi->Instance->CS |= SPI_CS_CS0; } else { /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); } HAL_DMA_Start(hspi->HDMA_Tx, (uint32_t)pData, (uint32_t)&hspi->Instance->DAT, Size); hspi->Instance->TX_CTL |= SPI_TX_CTL_DMA_REQ_EN; return HAL_OK; } /************************************************************************ * function : HAL_SPI_Receive * Description: Receive an amount of data in blocking mode. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * pData : Pointer to data buffer * Size : Amount of data to be Receive * Timeout : Receive Timeout ************************************************************************/ HAL_StatusTypeDef HAL_SPI_Receive(SPI_HandleTypeDef *hspi, uint8_t *pData, uint32_t Size, uint32_t Timeout) { HAL_StatusTypeDef Status = HAL_OK; __IO uint32_t uiTimeout; /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; if (pData == NULL) return HAL_ERROR; hspi->Rx_Count = 0; hspi->Rx_Size = Size; hspi->Rx_Buffer = pData; uiTimeout = Timeout; if (hspi->Init.SPI_Mode == SPI_MODE_SLAVE) { hspi->Instance->BATCH = 1; /* Rx Enable */ hspi->Instance->RX_CTL |= SPI_RX_CTL_EN; while ( hspi->Rx_Size > 0) { while (READ_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_FIFO_EMPTY)) { if(uiTimeout) { uiTimeout--; if (uiTimeout == 0) { /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); return HAL_TIMEOUT; } } } hspi->Rx_Buffer[hspi->Rx_Count++] = hspi->Instance->DAT; hspi->Rx_Size--; uiTimeout = Timeout; } /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); return HAL_OK; } /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Set Data Size */ hspi->Instance->BATCH = Size; /* Rx Enable */ hspi->Instance->RX_CTL |= SPI_RX_CTL_EN; /* Receive Start */ hspi->Instance->CS |= SPI_CS_CS0; while(hspi->Rx_Size > 0) { /* have no timeout */ if (uiTimeout == 0) { /* Wait Rx FIFO Not Empty */ while (hspi->Instance->STATUS & SPI_STATUS_RX_FIFO_EMPTY); } else { while (hspi->Instance->STATUS & SPI_STATUS_RX_FIFO_EMPTY) { if (uiTimeout-- == 0) { Status = HAL_TIMEOUT; goto End; } } } hspi->Rx_Buffer[hspi->Rx_Count++] = hspi->Instance->DAT; hspi->Rx_Size--; } Status = HAL_OK; /* Wait Transmit Done */ while (!(hspi->Instance->STATUS & SPI_STATUS_RX_BATCH_DONE)); End: /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); /* Receive End */ hspi->Instance->CS &= (~SPI_CS_CS0); return Status; } /************************************************************************ * function : HAL_SPI_Receive_DMA * Description: Receive an amount of data in blocking mode with DMA. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * pData : Pointer to data buffer * Size : Amount of data to be Receive ************************************************************************/ HAL_StatusTypeDef HAL_SPI_Receive_DMA(SPI_HandleTypeDef *hspi, uint8_t *pData, uint32_t Size) { /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; /* Rx machine is running */ if (hspi->RxState != SPI_RX_STATE_IDLE) { return HAL_ERROR; } /* Set Slave machine is receiving */ hspi->RxState = SPI_RX_STATE_RECEIVING; /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Enable Rx Batch Done Interrupt */ SET_BIT(hspi->Instance->IE, SPI_STATUS_RX_BATCH_DONE); /* Set Data Size */ hspi->Instance->BATCH = Size; /* Rx Enable */ hspi->Instance->RX_CTL |= SPI_RX_CTL_EN; /* Rx FIFO */ hspi->Instance->RX_CTL |= SPI_RX_CTL_DMA_LEVEL_0; if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Receive Start */ hspi->Instance->CS |= SPI_CS_CS0; } HAL_DMA_Start(hspi->HDMA_Rx, (uint32_t)&hspi->Instance->DAT, (uint32_t)pData, Size); hspi->Instance->RX_CTL |= SPI_RX_CTL_DMA_REQ_EN; return HAL_OK; } /************************************************************************ * function : HAL_SPI_Wire_Config * Description: SPI Wire Config * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * Mode : This parameter can be a value of @ref X_MODE ************************************************************************/ HAL_StatusTypeDef HAL_SPI_Wire_Config(SPI_HandleTypeDef *hspi, uint32_t X_Mode) { /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; /* Set SPI X_Mode */ hspi->Instance->CTL = ((hspi->Instance->CTL) & (~SPI_CTL_X_MODE)) | X_Mode; return HAL_OK; } /************************************************************************ * function : HAL_SPI_Transmit_IT * Description: Transmit an amount of data in blocking mode with interrupt. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * pData : Pointer to data buffer ************************************************************************/ HAL_StatusTypeDef HAL_SPI_Transmit_IT(SPI_HandleTypeDef *hspi, uint8_t *pData, uint32_t Size) { /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; /* Tx machine is running */ if (hspi->TxState != SPI_TX_STATE_IDLE) { return HAL_ERROR; } hspi->Tx_Size = Size; hspi->Tx_Buffer = pData; hspi->Tx_Count = 0; /* Set machine is Sending */ hspi->TxState = SPI_TX_STATE_SENDING; /* Clear TX FIFO */ SET_BIT(hspi->Instance->TX_CTL, SPI_TX_CTL_FIFO_RESET); CLEAR_BIT(hspi->Instance->TX_CTL, SPI_TX_CTL_FIFO_RESET); /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Set Data Size */ hspi->Instance->BATCH = Size; /* Tx Enable */ hspi->Instance->TX_CTL |= SPI_TX_CTL_EN; if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Transmit Start */ hspi->Instance->CS |= SPI_CS_CS0; } else { /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); } while (hspi->Tx_Count < hspi->Tx_Size) { if (!(hspi->Instance->STATUS & SPI_STATUS_TX_FIFO_FULL)) hspi->Instance->DAT = hspi->Tx_Buffer[hspi->Tx_Count++]; else break; } /* Clear Tx FIFO half empty Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_FIFO_HALF_EMPTY); /* Enable Tx FIFO half empty Interrupt and Tx batch done Interrupt*/ SET_BIT(hspi->Instance->IE, (SPI_IE_TX_FIFO_HALF_EMPTY_EN | SPI_IE_TX_BATCH_DONE_EN)); return HAL_OK; } /************************************************************************ * function : HAL_SPI_Receive_IT * Description: Receive an amount of data in blocking mode with interrupt. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * pData : Pointer to data buffer ************************************************************************/ HAL_StatusTypeDef HAL_SPI_Receive_IT(SPI_HandleTypeDef *hspi, uint8_t *pData, uint32_t Size) { /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; /* Rx machine is running */ if (hspi->RxState != SPI_RX_STATE_IDLE) { return HAL_ERROR; } /* Set Slave machine is receiving */ hspi->RxState = SPI_RX_STATE_RECEIVING; if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_RX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Set Data Size */ hspi->Instance->BATCH = Size; /* Rx Enable */ hspi->Instance->RX_CTL |= SPI_RX_CTL_EN; /* Receive Start */ hspi->Instance->CS |= SPI_CS_CS0; } else { /* Reset BATCH register */ hspi->Instance->BATCH = 1; hspi->Instance->RX_CTL |= SPI_RX_CTL_EN; } hspi->Rx_Size = Size; hspi->Rx_Buffer = pData; hspi->Rx_Count = 0; lu32_ReceiveTimeOut = SPI_RX_TIMEOUT; /* Enable Rx FIFO Not Empty Interrupt */ SET_BIT(hspi->Instance->IE, SPI_STATUS_RX_NOT_EMPTY); return HAL_OK; } /************************************************************************ * function : HAL_SPI_TransmitReceive * Description: Transmits and recieve an amount of data in blocking mode. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module * pTxData : Pointer to transmit data buffer * pRxData : Pointer to recieve data buffer * Size : Amount of data to be sent * Timeout : TransmitReceive Timeout ************************************************************************/ HAL_StatusTypeDef HAL_SPI_TransmitReceive(SPI_HandleTypeDef *hspi, uint8_t *pTxData, uint8_t *pRxData, uint32_t Size, uint32_t Timeout) { __IO uint32_t TxFlag = 1U, uiTimeout, uiRegTemp; HAL_StatusTypeDef Status = HAL_OK; /* Check SPI Parameter */ if (!IS_SPI_ALL_INSTANCE(hspi->Instance)) return HAL_ERROR; if ((pTxData == NULL)||(pRxData == NULL)) return HAL_ERROR; hspi->Tx_Count = 0; hspi->Rx_Count = 0; hspi->Tx_Buffer = pTxData; hspi->Rx_Buffer = pRxData; hspi->Tx_Size = Size; hspi->Rx_Size = Size; uiTimeout = Timeout; /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Tx Enable */ hspi->Instance->TX_CTL |= SPI_TX_CTL_EN; /* Rx Enable */ hspi->Instance->RX_CTL |= SPI_RX_CTL_EN; /* Clear TX FIFO */ SET_BIT(hspi->Instance->TX_CTL, SPI_TX_CTL_FIFO_RESET); CLEAR_BIT(hspi->Instance->TX_CTL, SPI_TX_CTL_FIFO_RESET); if (hspi->Init.SPI_Mode == SPI_MODE_SLAVE) { while((!(hspi->Instance->STATUS & SPI_STATUS_TX_FIFO_FULL)) && (hspi->Tx_Size>0)) { hspi->Instance->DAT = hspi->Tx_Buffer[hspi->Tx_Count++]; hspi->Tx_Size--; } TxFlag = 0; } else { /* Set Data Size */ hspi->Instance->BATCH = hspi->Tx_Size; /* Transmit Start */ hspi->Instance->CS |= SPI_CS_CS0; TxFlag = 1; } while((hspi->Tx_Size>0) || (hspi->Rx_Size>0)) { uiRegTemp = hspi->Instance->STATUS; if (hspi->Init.SPI_Mode == SPI_MODE_SLAVE) { /* Wait Rx FIFO Not Empty */ if((!(uiRegTemp & SPI_STATUS_RX_FIFO_EMPTY)) && (hspi->Rx_Size>0)) { hspi->Rx_Buffer[hspi->Rx_Count++] = hspi->Instance->DAT; hspi->Rx_Size--; TxFlag = 1U; } /* Wait Tx FIFO Not Full */ if(((uiRegTemp & SPI_STATUS_TX_FIFO_HALF_EMPTY)) && (hspi->Tx_Size>0) && (TxFlag == 1U)) { while((!(hspi->Instance->STATUS & SPI_STATUS_TX_FIFO_FULL)) && (hspi->Tx_Size>0)) { hspi->Instance->DAT = hspi->Tx_Buffer[hspi->Tx_Count++]; hspi->Tx_Size--; } TxFlag = 0; } } else { /* Wait Tx FIFO Not Full */ if((!(uiRegTemp & SPI_STATUS_TX_FIFO_FULL)) && (hspi->Tx_Size>0) && (TxFlag == 1U)) { hspi->Instance->DAT = hspi->Tx_Buffer[hspi->Tx_Count++]; hspi->Tx_Size--; TxFlag = 0; } /* Wait Rx FIFO Not Empty */ if((!(uiRegTemp & SPI_STATUS_RX_FIFO_EMPTY)) && (hspi->Rx_Size>0)) { hspi->Rx_Buffer[hspi->Rx_Count++] = hspi->Instance->DAT; hspi->Rx_Size--; TxFlag = 1U; } } /* Wait Timeout */ if(uiTimeout) { uiTimeout--; if(uiTimeout == 0) { Status = HAL_TIMEOUT; goto End; } } } /* Wait Transmit Done */ while (!(hspi->Instance->STATUS & SPI_STATUS_TX_BATCH_DONE)); Status = HAL_OK; End: /* Clear Batch Done Flag */ SET_BIT(hspi->Instance->STATUS, SPI_STATUS_TX_BATCH_DONE); SET_BIT(hspi->Instance->STATUS, SPI_STATUS_BATCH_DONE); /* Tx Disable */ hspi->Instance->TX_CTL &= (~SPI_TX_CTL_EN); /* Rx Disable */ hspi->Instance->RX_CTL &= (~SPI_RX_CTL_EN); if (hspi->Init.SPI_Mode == SPI_MODE_MASTER) { /* Transmit End */ hspi->Instance->CS &= (~SPI_CS_CS0); } return Status; } /************************************************************************ * function : HAL_SPI_GetTxState * Description: Get Tx state. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module ************************************************************************/ uint8_t HAL_SPI_GetTxState(SPI_HandleTypeDef *hspi) { return hspi->TxState; } /************************************************************************ * function : HAL_SPI_GetRxState * Description: Get Rx state. * input : hspi : pointer to a SPI_HandleTypeDef structure that contains * the configuration information for SPI module ************************************************************************/ uint8_t HAL_SPI_GetRxState(SPI_HandleTypeDef *hspi) { return hspi->RxState; }