/****************************************************************************** * @file nu_spi.h * @version V1.00 * $Revision: 4 $ * $Date: 18/06/07 2:32p $ * @brief M031 series SPI driver header file * * SPDX-License-Identifier: Apache-2.0 * @copyright (C) 2018 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #ifndef __NU_SPI_H__ #define __NU_SPI_H__ #ifdef __cplusplus extern "C" { #endif /** @addtogroup Standard_Driver Standard Driver @{ */ /** @addtogroup SPI_Driver SPI Driver @{ */ /** @addtogroup SPI_EXPORTED_CONSTANTS SPI Exported Constants @{ */ #define SPI_NONE (0x00ul) /*!< SPI interface not existed \hideinitializer */ #define SPI_MODE_0 (SPI_CTL_TXNEG_Msk) /*!< CLKPOL=0; RXNEG=0; TXNEG=1 \hideinitializer */ #define SPI_MODE_1 (SPI_CTL_RXNEG_Msk) /*!< CLKPOL=0; RXNEG=1; TXNEG=0 \hideinitializer */ #define SPI_MODE_2 (SPI_CTL_CLKPOL_Msk | SPI_CTL_RXNEG_Msk) /*!< CLKPOL=1; RXNEG=1; TXNEG=0 \hideinitializer */ #define SPI_MODE_3 (SPI_CTL_CLKPOL_Msk | SPI_CTL_TXNEG_Msk) /*!< CLKPOL=1; RXNEG=0; TXNEG=1 \hideinitializer */ #define SPI_SLAVE (SPI_CTL_SLAVE_Msk) /*!< Set as slave \hideinitializer */ #define SPI_MASTER (0x0ul) /*!< Set as master \hideinitializer */ #define SPI_SS (SPI_SSCTL_SS_Msk) /*!< Set SS \hideinitializer */ #define SPI_SS_ACTIVE_HIGH (SPI_SSCTL_SSACTPOL_Msk) /*!< SS active high \hideinitializer */ #define SPI_SS_ACTIVE_LOW (0x0ul) /*!< SS active low \hideinitializer */ /* SPI Interrupt Mask */ #define SPI_UNIT_INT_MASK (0x001ul) /*!< Unit transfer interrupt mask \hideinitializer */ #define SPI_SSACT_INT_MASK (0x002ul) /*!< Slave selection signal active interrupt mask \hideinitializer */ #define SPI_SSINACT_INT_MASK (0x004ul) /*!< Slave selection signal inactive interrupt mask \hideinitializer */ #define SPI_SLVUR_INT_MASK (0x008ul) /*!< Slave under run interrupt mask \hideinitializer */ #define SPI_SLVBE_INT_MASK (0x010ul) /*!< Slave bit count error interrupt mask \hideinitializer */ #define SPI_TXUF_INT_MASK (0x040ul) /*!< Slave TX underflow interrupt mask \hideinitializer */ #define SPI_FIFO_TXTH_INT_MASK (0x080ul) /*!< FIFO TX threshold interrupt mask \hideinitializer */ #define SPI_FIFO_RXTH_INT_MASK (0x100ul) /*!< FIFO RX threshold interrupt mask \hideinitializer */ #define SPI_FIFO_RXOV_INT_MASK (0x200ul) /*!< FIFO RX overrun interrupt mask \hideinitializer */ #define SPI_FIFO_RXTO_INT_MASK (0x400ul) /*!< FIFO RX time-out interrupt mask \hideinitializer */ /* SPI Status Mask */ #define SPI_BUSY_MASK (0x01ul) /*!< Busy status mask \hideinitializer */ #define SPI_RX_EMPTY_MASK (0x02ul) /*!< RX empty status mask \hideinitializer */ #define SPI_RX_FULL_MASK (0x04ul) /*!< RX full status mask \hideinitializer */ #define SPI_TX_EMPTY_MASK (0x08ul) /*!< TX empty status mask \hideinitializer */ #define SPI_TX_FULL_MASK (0x10ul) /*!< TX full status mask \hideinitializer */ #define SPI_TXRX_RESET_MASK (0x20ul) /*!< TX or RX reset status mask \hideinitializer */ #define SPI_SPIEN_STS_MASK (0x40ul) /*!< SPIEN status mask \hideinitializer */ #define SPI_SSLINE_STS_MASK (0x80ul) /*!< SPIx_SS line status mask \hideinitializer */ /* SPII2S Data Width */ #define SPII2S_DATABIT_8 (0ul << SPI_I2SCTL_WDWIDTH_Pos) /*!< SPII2S data width is 8-bit \hideinitializer */ #define SPII2S_DATABIT_16 (1ul << SPI_I2SCTL_WDWIDTH_Pos) /*!< SPII2S data width is 16-bit \hideinitializer */ #define SPII2S_DATABIT_24 (2ul << SPI_I2SCTL_WDWIDTH_Pos) /*!< SPII2S data width is 24-bit \hideinitializer */ #define SPII2S_DATABIT_32 (3ul << SPI_I2SCTL_WDWIDTH_Pos) /*!< SPII2S data width is 32-bit \hideinitializer */ /* SPII2S Audio Format */ #define SPII2S_MONO SPI_I2SCTL_MONO_Msk /*!< Monaural channel \hideinitializer */ #define SPII2S_STEREO (0x0ul) /*!< Stereo channel \hideinitializer */ /* SPII2S Data Format */ #define SPII2S_FORMAT_I2S (0ul<STATUS = SPI_STATUS_UNITIF_Msk) /** * @brief Trigger RX PDMA function. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Set RXPDMAEN bit of SPI_PDMACTL register to enable RX PDMA transfer function. */ #define SPI_TRIGGER_RX_PDMA(spi) ((spi)->PDMACTL |= SPI_PDMACTL_RXPDMAEN_Msk) /** * @brief Trigger TX PDMA function. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Set TXPDMAEN bit of SPI_PDMACTL register to enable TX PDMA transfer function. */ #define SPI_TRIGGER_TX_PDMA(spi) ((spi)->PDMACTL |= SPI_PDMACTL_TXPDMAEN_Msk) /** * @brief Trigger TX and RX PDMA function. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Set TXPDMAEN bit and RXPDMAEN bit of SPI_PDMACTL register to enable TX and RX PDMA transfer function. */ #define SPI_TRIGGER_TX_RX_PDMA(spi) ( (spi)->PDMACTL |= (SPI_PDMACTL_TXPDMAEN_Msk | SPI_PDMACTL_RXPDMAEN_Msk) ) /** * @brief Disable RX PDMA transfer. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Clear RXPDMAEN bit of SPI_PDMACTL register to disable RX PDMA transfer function. */ #define SPI_DISABLE_RX_PDMA(spi) ( (spi)->PDMACTL &= ~SPI_PDMACTL_RXPDMAEN_Msk ) /** * @brief Disable TX PDMA transfer. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Clear TXPDMAEN bit of SPI_PDMACTL register to disable TX PDMA transfer function. */ #define SPI_DISABLE_TX_PDMA(spi) ( (spi)->PDMACTL &= ~SPI_PDMACTL_TXPDMAEN_Msk ) /** * @brief Disable TX and RX PDMA transfer. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Clear TXPDMAEN bit and RXPDMAEN bit of SPI_PDMACTL register to disable TX and RX PDMA transfer function. */ #define SPI_DISABLE_TX_RX_PDMA(spi) ( (spi)->PDMACTL &= ~(SPI_PDMACTL_TXPDMAEN_Msk | SPI_PDMACTL_RXPDMAEN_Msk) ) /** * @brief Get the count of available data in RX FIFO. * @param[in] spi The pointer of the specified SPI module. * @return The count of available data in RX FIFO. * @details Read RXCNT (SPI_STATUS[27:24]) to get the count of available data in RX FIFO. */ #define SPI_GET_RX_FIFO_COUNT(spi) (((spi)->STATUS & SPI_STATUS_RXCNT_Msk) >> SPI_STATUS_RXCNT_Pos) /** * @brief Get the RX FIFO empty flag. * @param[in] spi The pointer of the specified SPI module. * @retval 0 RX FIFO is not empty. * @retval 1 RX FIFO is empty. * @details Read RXEMPTY bit of SPI_STATUS register to get the RX FIFO empty flag. */ #define SPI_GET_RX_FIFO_EMPTY_FLAG(spi) (((spi)->STATUS & SPI_STATUS_RXEMPTY_Msk)>>SPI_STATUS_RXEMPTY_Pos) /** * @brief Get the TX FIFO empty flag. * @param[in] spi The pointer of the specified SPI module. * @retval 0 TX FIFO is not empty. * @retval 1 TX FIFO is empty. * @details Read TXEMPTY bit of SPI_STATUS register to get the TX FIFO empty flag. */ #define SPI_GET_TX_FIFO_EMPTY_FLAG(spi) (((spi)->STATUS & SPI_STATUS_TXEMPTY_Msk)>>SPI_STATUS_TXEMPTY_Pos) /** * @brief Get the TX FIFO full flag. * @param[in] spi The pointer of the specified SPI module. * @retval 0 TX FIFO is not full. * @retval 1 TX FIFO is full. * @details Read TXFULL bit of SPI_STATUS register to get the TX FIFO full flag. */ #define SPI_GET_TX_FIFO_FULL_FLAG(spi) (((spi)->STATUS & SPI_STATUS_TXFULL_Msk)>>SPI_STATUS_TXFULL_Pos) /** * @brief Get the datum read from RX register. * @param[in] spi The pointer of the specified SPI module. * @return Data in RX register. * @details Read SPI_RX register to get the received datum. */ #define SPI_READ_RX(spi) ((spi)->RX) /** * @brief Write datum to TX register. * @param[in] spi The pointer of the specified SPI module. * @param[in] u32TxData The datum which user attempt to transfer through SPI bus. * @return None. * @details Write u32TxData to SPI_TX register. */ #define SPI_WRITE_TX(spi, u32TxData) ((spi)->TX = (u32TxData)) /** * @brief Set SPIx_SS pin to high state. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Disable automatic slave selection function and set SPIx_SS pin to high state. */ #define SPI_SET_SS_HIGH(spi) ((spi)->SSCTL = ((spi)->SSCTL & (~SPI_SSCTL_AUTOSS_Msk)) | (SPI_SSCTL_SSACTPOL_Msk | SPI_SSCTL_SS_Msk)) /** * @brief Set SPIx_SS pin to low state. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Disable automatic slave selection function and set SPIx_SS pin to low state. */ #define SPI_SET_SS_LOW(spi) ((spi)->SSCTL = ((spi)->SSCTL & (~(SPI_SSCTL_AUTOSS_Msk | SPI_SSCTL_SSACTPOL_Msk))) | SPI_SSCTL_SS_Msk) /** * @brief Enable Byte Reorder function. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Enable Byte Reorder function. The suspend interval depends on the setting of SUSPITV (SPI_CTL[7:4]). */ #define SPI_ENABLE_BYTE_REORDER(spi) ((spi)->CTL |= SPI_CTL_REORDER_Msk) /** * @brief Disable Byte Reorder function. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Clear REORDER bit field of SPI_CTL register to disable Byte Reorder function. */ #define SPI_DISABLE_BYTE_REORDER(spi) ((spi)->CTL &= ~SPI_CTL_REORDER_Msk) /** * @brief Set the length of suspend interval. * @param[in] spi The pointer of the specified SPI module. * @param[in] u32SuspCycle Decides the length of suspend interval. It could be 0 ~ 15. * @return None. * @details Set the length of suspend interval according to u32SuspCycle. * The length of suspend interval is ((u32SuspCycle + 0.5) * the length of one SPI bus clock cycle). */ #define SPI_SET_SUSPEND_CYCLE(spi, u32SuspCycle) ((spi)->CTL = ((spi)->CTL & ~SPI_CTL_SUSPITV_Msk) | ((u32SuspCycle) << SPI_CTL_SUSPITV_Pos)) /** * @brief Set the SPI transfer sequence with LSB first. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Set LSB bit of SPI_CTL register to set the SPI transfer sequence with LSB first. */ #define SPI_SET_LSB_FIRST(spi) ((spi)->CTL |= SPI_CTL_LSB_Msk) /** * @brief Set the SPI transfer sequence with MSB first. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Clear LSB bit of SPI_CTL register to set the SPI transfer sequence with MSB first. */ #define SPI_SET_MSB_FIRST(spi) ((spi)->CTL &= ~SPI_CTL_LSB_Msk) /** * @brief Set the data width of a SPI transaction. * @param[in] spi The pointer of the specified SPI module. * @param[in] u32Width The bit width of one transaction. * @return None. * @details The data width can be 8 ~ 32 bits. */ #define SPI_SET_DATA_WIDTH(spi, u32Width) ((spi)->CTL = ((spi)->CTL & ~SPI_CTL_DWIDTH_Msk) | (((u32Width)&0x1F) << SPI_CTL_DWIDTH_Pos)) /** * @brief Get the SPI busy state. * @param[in] spi The pointer of the specified SPI module. * @retval 0 SPI controller is not busy. * @retval 1 SPI controller is busy. * @details This macro will return the busy state of SPI controller. */ #define SPI_IS_BUSY(spi) ( ((spi)->STATUS & SPI_STATUS_BUSY_Msk)>>SPI_STATUS_BUSY_Pos ) /** * @brief Enable SPI controller. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Set SPIEN (SPI_CTL[0]) to enable SPI controller. */ #define SPI_ENABLE(spi) ((spi)->CTL |= SPI_CTL_SPIEN_Msk) /** * @brief Disable SPI controller. * @param[in] spi The pointer of the specified SPI module. * @return None. * @details Clear SPIEN (SPI_CTL[0]) to disable SPI controller. */ #define SPI_DISABLE(spi) ((spi)->CTL &= ~SPI_CTL_SPIEN_Msk) /** * @brief Enable zero cross detection function. * @param[in] i2s The pointer of the specified SPII2S module. * @param[in] u32ChMask The mask for left or right channel. Valid values are: * - \ref SPII2S_RIGHT * - \ref SPII2S_LEFT * @return None * @details This function will set RZCEN or LZCEN bit of SPI_I2SCTL register to enable zero cross detection function. */ static __INLINE void SPII2S_ENABLE_TX_ZCD(SPI_T *i2s, uint32_t u32ChMask) { if (u32ChMask == SPII2S_RIGHT) i2s->I2SCTL |= SPI_I2SCTL_RZCEN_Msk; else i2s->I2SCTL |= SPI_I2SCTL_LZCEN_Msk; } /** * @brief Disable zero cross detection function. * @param[in] i2s The pointer of the specified SPII2S module. * @param[in] u32ChMask The mask for left or right channel. Valid values are: * - \ref SPII2S_RIGHT * - \ref SPII2S_LEFT * @return None * @details This function will clear RZCEN or LZCEN bit of SPI_I2SCTL register to disable zero cross detection function. */ static __INLINE void SPII2S_DISABLE_TX_ZCD(SPI_T *i2s, uint32_t u32ChMask) { if (u32ChMask == SPII2S_RIGHT) i2s->I2SCTL &= ~SPI_I2SCTL_RZCEN_Msk; else i2s->I2SCTL &= ~SPI_I2SCTL_LZCEN_Msk; } /** * @brief Enable SPII2S TX DMA function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will set TXPDMAEN bit of SPI_PDMACTL register to transmit data with PDMA. */ #define SPII2S_ENABLE_TXDMA(i2s) ( (i2s)->PDMACTL |= SPI_PDMACTL_TXPDMAEN_Msk ) /** * @brief Disable SPII2S TX DMA function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will clear TXPDMAEN bit of SPI_PDMACTL register to disable TX DMA function. */ #define SPII2S_DISABLE_TXDMA(i2s) ( (i2s)->PDMACTL &= ~SPI_PDMACTL_TXPDMAEN_Msk ) /** * @brief Enable SPII2S RX DMA function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will set RXPDMAEN bit of SPI_PDMACTL register to receive data with PDMA. */ #define SPII2S_ENABLE_RXDMA(i2s) ( (i2s)->PDMACTL |= SPI_PDMACTL_RXPDMAEN_Msk ) /** * @brief Disable SPII2S RX DMA function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will clear RXPDMAEN bit of SPI_PDMACTL register to disable RX DMA function. */ #define SPII2S_DISABLE_RXDMA(i2s) ( (i2s)->PDMACTL &= ~SPI_PDMACTL_RXPDMAEN_Msk ) /** * @brief Enable SPII2S TX function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will set TXEN bit of SPI_I2SCTL register to enable SPII2S TX function. */ #define SPII2S_ENABLE_TX(i2s) ( (i2s)->I2SCTL |= SPI_I2SCTL_TXEN_Msk ) /** * @brief Disable SPII2S TX function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will clear TXEN bit of SPI_I2SCTL register to disable SPII2S TX function. */ #define SPII2S_DISABLE_TX(i2s) ( (i2s)->I2SCTL &= ~SPI_I2SCTL_TXEN_Msk ) /** * @brief Enable SPII2S RX function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will set RXEN bit of SPI_I2SCTL register to enable SPII2S RX function. */ #define SPII2S_ENABLE_RX(i2s) ( (i2s)->I2SCTL |= SPI_I2SCTL_RXEN_Msk ) /** * @brief Disable SPII2S RX function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will clear RXEN bit of SPI_I2SCTL register to disable SPII2S RX function. */ #define SPII2S_DISABLE_RX(i2s) ( (i2s)->I2SCTL &= ~SPI_I2SCTL_RXEN_Msk ) /** * @brief Enable TX Mute function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will set MUTE bit of SPI_I2SCTL register to enable SPII2S TX mute function. */ #define SPII2S_ENABLE_TX_MUTE(i2s) ( (i2s)->I2SCTL |= SPI_I2SCTL_MUTE_Msk ) /** * @brief Disable TX Mute function. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will clear MUTE bit of SPI_I2SCTL register to disable SPII2S TX mute function. */ #define SPII2S_DISABLE_TX_MUTE(i2s) ( (i2s)->I2SCTL &= ~SPI_I2SCTL_MUTE_Msk ) /** * @brief Clear TX FIFO. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will clear TX FIFO. The internal TX FIFO pointer will be reset to FIFO start point. */ #define SPII2S_CLR_TX_FIFO(i2s) ( (i2s)->FIFOCTL |= SPI_FIFOCTL_TXFBCLR_Msk ) /** * @brief Clear RX FIFO. * @param[in] i2s The pointer of the specified SPII2S module. * @return None * @details This macro will clear RX FIFO. The internal RX FIFO pointer will be reset to FIFO start point. */ #define SPII2S_CLR_RX_FIFO(i2s) ( (i2s)->FIFOCTL |= SPI_FIFOCTL_RXFBCLR_Msk ) /** * @brief This function sets the recording source channel when mono mode is used. * @param[in] i2s The pointer of the specified SPII2S module. * @param[in] u32Ch left or right channel. Valid values are: * - \ref SPII2S_MONO_LEFT * - \ref SPII2S_MONO_RIGHT * @return None * @details This function selects the recording source channel of monaural mode. */ static __INLINE void SPII2S_SET_MONO_RX_CHANNEL(SPI_T *i2s, uint32_t u32Ch) { u32Ch == SPII2S_MONO_LEFT ? (i2s->I2SCTL |= SPI_I2SCTL_RXLCH_Msk) : (i2s->I2SCTL &= ~SPI_I2SCTL_RXLCH_Msk); } /** * @brief Write data to SPII2S TX FIFO. * @param[in] i2s The pointer of the specified SPII2S module. * @param[in] u32Data The value written to TX FIFO. * @return None * @details This macro will write a value to TX FIFO. */ #define SPII2S_WRITE_TX_FIFO(i2s, u32Data) ( (i2s)->TX = (u32Data) ) /** * @brief Read RX FIFO. * @param[in] i2s The pointer of the specified SPII2S module. * @return The value read from RX FIFO. * @details This function will return a value read from RX FIFO. */ #define SPII2S_READ_RX_FIFO(i2s) ( (i2s)->RX ) /** * @brief Get the interrupt flag. * @param[in] i2s The pointer of the specified SPII2S module. * @param[in] u32Mask The mask value for all interrupt flags. * @return The interrupt flags specified by the u32mask parameter. * @details This macro will return the combination interrupt flags of SPI_I2SSTS register. The flags are specified by the u32mask parameter. */ #define SPII2S_GET_INT_FLAG(i2s, u32Mask) ( (i2s)->I2SSTS & (u32Mask) ) /** * @brief Clear the interrupt flag. * @param[in] i2s The pointer of the specified SPII2S module. * @param[in] u32Mask The mask value for all interrupt flags. * @return None * @details This macro will clear the interrupt flags specified by the u32mask parameter. * @note Except TX and RX FIFO threshold interrupt flags, the other interrupt flags can be cleared by writing 1 to itself. */ #define SPII2S_CLR_INT_FLAG(i2s, u32Mask) ( (i2s)->I2SSTS = (u32Mask) ) /** * @brief Get transmit FIFO level * @param[in] i2s The pointer of the specified SPII2S module. * @return TX FIFO level * @details This macro will return the number of available words in TX FIFO. */ #define SPII2S_GET_TX_FIFO_LEVEL(i2s) ( ((i2s)->I2SSTS & SPI_I2SSTS_TXCNT_Msk) >> SPI_I2SSTS_TXCNT_Pos ) /** * @brief Get receive FIFO level * @param[in] i2s The pointer of the specified SPII2S module. * @return RX FIFO level * @details This macro will return the number of available words in RX FIFO. */ #define SPII2S_GET_RX_FIFO_LEVEL(i2s) ( ((i2s)->I2SSTS & SPI_I2SSTS_RXCNT_Msk) >> SPI_I2SSTS_RXCNT_Pos ) /* Function prototype declaration */ uint32_t SPI_Open(SPI_T *spi, uint32_t u32MasterSlave, uint32_t u32SPIMode, uint32_t u32DataWidth, uint32_t u32BusClock); void SPI_Close(SPI_T *spi); void SPI_ClearRxFIFO(SPI_T *spi); void SPI_ClearTxFIFO(SPI_T *spi); void SPI_DisableAutoSS(SPI_T *spi); void SPI_EnableAutoSS(SPI_T *spi, uint32_t u32SSPinMask, uint32_t u32ActiveLevel); uint32_t SPI_SetBusClock(SPI_T *spi, uint32_t u32BusClock); void SPI_SetFIFO(SPI_T *spi, uint32_t u32TxThreshold, uint32_t u32RxThreshold); uint32_t SPI_GetBusClock(SPI_T *spi); void SPI_EnableInt(SPI_T *spi, uint32_t u32Mask); void SPI_DisableInt(SPI_T *spi, uint32_t u32Mask); uint32_t SPI_GetIntFlag(SPI_T *spi, uint32_t u32Mask); void SPI_ClearIntFlag(SPI_T *spi, uint32_t u32Mask); uint32_t SPI_GetStatus(SPI_T *spi, uint32_t u32Mask); uint32_t SPII2S_Open(SPI_T *i2s, uint32_t u32MasterSlave, uint32_t u32SampleRate, uint32_t u32WordWidth, uint32_t u32Channels, uint32_t u32DataFormat); void SPII2S_Close(SPI_T *i2s); void SPII2S_EnableInt(SPI_T *i2s, uint32_t u32Mask); void SPII2S_DisableInt(SPI_T *i2s, uint32_t u32Mask); uint32_t SPII2S_EnableMCLK(SPI_T *i2s, uint32_t u32BusClock); void SPII2S_DisableMCLK(SPI_T *i2s); void SPII2S_SetFIFO(SPI_T *i2s, uint32_t u32TxThreshold, uint32_t u32RxThreshold); /*@}*/ /* end of group SPI_EXPORTED_FUNCTIONS */ /*@}*/ /* end of group SPI_Driver */ /*@}*/ /* end of group Standard_Driver */ #ifdef __cplusplus } #endif #endif //__NU_SPI_H__ /*** (C) COPYRIGHT 2017 Nuvoton Technology Corp. ***/