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mbed library sources. Supersedes mbed-src.
Dependents: Nucleo_Hello_Encoder BLE_iBeaconScan AM1805_DEMO DISCO-F429ZI_ExportTemplate1 ... more
targets/TARGET_NUVOTON/TARGET_NANO100/device/StdDriver/nano100_spi.h
- Committer:
- AnnaBridge
- Date:
- 2017-10-02
- Revision:
- 174:b96e65c34a4d
File content as of revision 174:b96e65c34a4d:
/****************************************************************************//**
* @file spi.h
* @version V1.00
* $Revision: 8 $
* $Date: 15/06/08 5:03p $
* @brief NANO100 series SPI driver header file
*
* @note
* Copyright (C) 2014 Nuvoton Technology Corp. All rights reserved.
*****************************************************************************/
#ifndef __SPI_H__
#define __SPI_H__
#ifdef __cplusplus
extern "C"
{
#endif
/** @addtogroup NANO100_Device_Driver NANO100 Device Driver
@{
*/
/** @addtogroup NANO100_SPI_Driver SPI Driver
@{
*/
/** @addtogroup NANO100_SPI_EXPORTED_CONSTANTS SPI Exported Constants
@{
*/
#define SPI_MODE_0 (SPI_CTL_TX_NEG_Msk) /*!< CLKP=0; RX_NEG=0; TX_NEG=1 */
#define SPI_MODE_1 (SPI_CTL_RX_NEG_Msk) /*!< CLKP=0; RX_NEG=1; TX_NEG=0 */
#define SPI_MODE_2 (SPI_CTL_CLKP_Msk | SPI_CTL_RX_NEG_Msk) /*!< CLKP=1; RX_NEG=1; TX_NEG=0 */
#define SPI_MODE_3 (SPI_CTL_CLKP_Msk | SPI_CTL_TX_NEG_Msk) /*!< CLKP=1; RX_NEG=0; TX_NEG=1 */
#define SPI_SLAVE (SPI_CTL_SLAVE_Msk) /*!< Set as slave */
#define SPI_MASTER (0x0) /*!< Set as master */
#define SPI_SS0 (0x1) /*!< Set SS0 */
#define SPI_SS0_ACTIVE_HIGH (SPI_SSR_SS_LVL_Msk) /*!< SS0 active high */
#define SPI_SS0_ACTIVE_LOW (0x0) /*!< SS0 active low */
#define SPI_SS1 (0x2) /*!< Set SS1 */
#define SPI_SS1_ACTIVE_HIGH (SPI_SSR_SS_LVL_Msk) /*!< SS1 active high */
#define SPI_SS1_ACTIVE_LOW (0x0) /*!< SS1 active low */
#define SPI_IE_MASK (0x01) /*!< Interrupt enable mask */
#define SPI_SSTA_INTEN_MASK (0x04) /*!< Slave 3-Wire mode start interrupt enable mask */
#define SPI_FIFO_TX_INTEN_MASK (0x08) /*!< FIFO TX interrupt mask */
#define SPI_FIFO_RX_INTEN_MASK (0x10) /*!< FIFO RX interrupt mask */
#define SPI_FIFO_RXOVR_INTEN_MASK (0x20) /*!< FIFO RX overrun interrupt mask */
#define SPI_FIFO_TIMEOUT_INTEN_MASK (0x40) /*!< FIFO timeout interrupt mask */
/*@}*/ /* end of group NANO100_SPI_EXPORTED_CONSTANTS */
/** @addtogroup NANO100_SPI_EXPORTED_FUNCTIONS SPI Exported Functions
@{
*/
/**
* @brief Abort the current transfer in slave 3-wire mode.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_ABORT_3WIRE_TRANSFER(spi) ( (spi)->SSR |= SPI_SSR_SLV_ABORT_Msk )
/**
* @brief Clear the slave 3-wire mode start interrupt flag.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_CLR_3WIRE_START_INT_FLAG(spi) ( (spi)->STATUS = SPI_STATUS_SLV_START_INTSTS_Msk )
/**
* @brief Clear the unit transfer interrupt flag.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_CLR_UNIT_TRANS_INT_FLAG(spi) ( (spi)->STATUS = SPI_STATUS_INTSTS_Msk )
/**
* @brief Disable slave 3-wire mode.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_DISABLE_3WIRE_MODE(spi) ( (spi)->SSR &= ~SPI_SSR_NOSLVSEL_Msk )
/**
* @brief Enable slave 3-wire mode.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_ENABLE_3WIRE_MODE(spi) ( (spi)->SSR |= SPI_SSR_NOSLVSEL_Msk )
/**
* @brief Get the count of available data in RX FIFO.
* @param[in] spi is the base address of SPI module.
* @return The count of available data in RX FIFO.
* \hideinitializer
*/
#define SPI_GET_RX_FIFO_COUNT(spi) ( (((spi)->STATUS & SPI_STATUS_RX_FIFO_CNT_Msk) >> SPI_STATUS_RX_FIFO_CNT_Pos) & 0xf )
/**
* @brief Get the Rx FIFO empty flag.
* @param[in] spi is the base address of SPI module.
* @return Rx FIFO flag
* @retval 0 Rx FIFO is not empty
* @retval 1 Rx FIFO is empty
* \hideinitializer
*/
#define SPI_GET_RX_FIFO_EMPTY_FLAG(spi) ( ((spi)->STATUS & SPI_STATUS_RX_EMPTY_Msk) == SPI_STATUS_RX_EMPTY_Msk ? 1:0)
/**
* @brief Get the Tx FIFO empty flag.
* @param[in] spi is the base address of SPI module.
* @return Tx FIFO flag
* @retval 0 Tx FIFO is not empty
* @retval 1 Tx FIFO is empty
* \hideinitializer
*/
#define SPI_GET_TX_FIFO_EMPTY_FLAG(spi) ( ((spi)->STATUS & SPI_STATUS_TX_EMPTY_Msk) == SPI_STATUS_TX_EMPTY_Msk ? 1:0)
/**
* @brief Get the Tx FIFO full flag.
* @param[in] spi is the base address of SPI module.
* @return Tx FIFO flag
* @retval 0 Tx FIFO is not full
* @retval 1 Tx FIFO is full
* \hideinitializer
*/
#define SPI_GET_TX_FIFO_FULL_FLAG(spi) ( ((spi)->STATUS & SPI_STATUS_TX_FULL_Msk) == SPI_STATUS_TX_FULL_Msk ? 1:0)
/**
* @brief Get the datum read from RX0 FIFO.
* @param[in] spi is the base address of SPI module.
* @return Data in Rx0 register.
* \hideinitializer
*/
#define SPI_READ_RX0(spi) ( (spi)->RX0 )
/**
* @brief Get the datum read from RX1 FIFO.
* @param[in] spi is the base address of SPI module.
* @return Data in Rx1 register.
*/
#define SPI_READ_RX1(spi) ( (spi)->RX1 )
/**
* @brief Write datum to TX0 register.
* @param[in] spi is the base address of SPI module.
* @param[in] u32TxData is the datum which user attempt to transfer through SPI bus.
* @return none
* \hideinitializer
*/
#define SPI_WRITE_TX0(spi, u32TxData) ( (spi)->TX0 = u32TxData )
/**
* @brief Write datum to TX1 register.
* @param[in] spi is the base address of SPI module.
* @param[in] u32TxData is the datum which user attempt to transfer through SPI bus.
* @return none
* \hideinitializer
*/
#define SPI_WRITE_TX1(spi, u32TxData) ( (spi)->TX1 = u32TxData )
/**
* @brief Set SPIn_SS0 pin to high state.
* @param[in] spi The pointer of the specified SPI module.
* @return None.
* @details Disable automatic slave selection function and set SPIn_SS0 pin to high state. Only available in Master mode.
* \hideinitializer
*/
#define SPI_SET_SS0_HIGH(spi) ((spi)->SSR = ((spi)->SSR & ~(SPI_SSR_AUTOSS_Msk|SPI_SSR_SS_LVL_Msk|SPI_SS0)))
/**
* @brief Set SPIn_SS0 pin to low state.
* @param[in] spi The pointer of the specified SPI module.
* @return None.
* @details Disable automatic slave selection function and set SPIn_SS0 pin to low state. Only available in Master mode.
* \hideinitializer
*/
#define SPI_SET_SS0_LOW(spi) ((spi)->SSR = ((spi)->SSR & ~(SPI_SSR_AUTOSS_Msk|SPI_SSR_SS_LVL_Msk|SPI_SS0)) | SPI_SS0)
/**
* @brief Set SPIn_SS1 pin to high state.
* @param[in] spi The pointer of the specified SPI module.
* @return None.
* @details Disable automatic slave selection function and set SPIn_SS1 pin to high state. Only available in Master mode.
* \hideinitializer
*/
#define SPI_SET_SS1_HIGH(spi) ((spi)->SSR = ((spi)->SSR & ~(SPI_SSR_AUTOSS_Msk|SPI_SSR_SS_LVL_Msk|SPI_SS1)))
/**
* @brief Set SPIn_SS1 pin to low state.
* @param[in] spi The pointer of the specified SPI module.
* @return None.
* @details Disable automatic slave selection function and set SPIn_SS1 pin to low state. Only available in Master mode.
* \hideinitializer
*/
#define SPI_SET_SS1_LOW(spi) ((spi)->SSR = ((spi)->SSR & ~(SPI_SSR_AUTOSS_Msk|SPI_SSR_SS_LVL_Msk|SPI_SS1)) | SPI_SS1)
/**
* @brief Set SPIn_SS0, SPIn_SS1 pin to high or low state.
* @param[in] spi The pointer of the specified SPI module.
* @param[in] ss0 0 = Set SPIn_SS0 to low. 1 = Set SPIn_SS0 to high.
* @param[in] ss1 0 = Set SPIn_SS1 to low. 1 = Set SPIn_SS1 to high.
* @return None.
* @details Disable automatic slave selection function and set SPIn_SS0/SPIn_SS1 pin to specified high/low state.
* Only available in Master mode.
*/
#define SPI_SET_SS_LEVEL(spi, ss0, ss1) ((spi)->SSR = ((spi)->SSR & ~(SPI_SSR_AUTOSS_Msk|SPI_SSR_SS_LVL_Msk|SPI_SSR_SSR_Msk)) | (((ss1)^1) << 1) | ((ss0)^1))
/**
* @brief Enable byte reorder function.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_ENABLE_BYTE_REORDER(spi) ( (spi)->CTL |= SPI_CTL_REORDER_Msk )
/**
* @brief Disable byte reorder function.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_DISABLE_BYTE_REORDER(spi) ( (spi)->CTL &= ~SPI_CTL_REORDER_Msk )
/**
* @brief Set the length of suspend interval.
* @param[in] spi is the base address of SPI module.
* @param[in] u32SuspCycle decides the length of suspend interval.
* @return none
* \hideinitializer
*/
#define SPI_SET_SUSPEND_CYCLE(spi, u32SuspCycle) ( (spi)->CTL = ((spi)->CTL & ~SPI_CTL_SP_CYCLE_Msk) | (u32SuspCycle << SPI_CTL_SP_CYCLE_Pos) )
/**
* @brief Set the SPI transfer sequence with LSB first.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_SET_LSB_FIRST(spi) ( (spi)->CTL |= SPI_CTL_LSB_Msk )
/**
* @brief Set the SPI transfer sequence with MSB first.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_SET_MSB_FIRST(spi) ( (spi)->CTL &= ~SPI_CTL_LSB_Msk )
/**
* @brief Set the data width of a SPI transaction.
* @param[in] spi is the base address of SPI module.
* @param[in] u32Width is the data width (from 8-32 bits).
* @return none
* \hideinitializer
*/
static __INLINE void SPI_SET_DATA_WIDTH(SPI_T *spi, uint32_t u32Width)
{
if(u32Width == 32)
u32Width = 0;
spi->CTL = (spi->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (u32Width << SPI_CTL_TX_BIT_LEN_Pos);
}
/**
* @brief Get the SPI busy state.
* @param[in] spi is the base address of SPI module.
* @return SPI busy status
* @retval 0 SPI module is not busy
* @retval 1 SPI module is busy
* \hideinitializer
*/
#define SPI_IS_BUSY(spi) ( ((spi)->CTL & SPI_CTL_GO_BUSY_Msk) == SPI_CTL_GO_BUSY_Msk ? 1:0)
/**
* @brief Set the GO_BUSY bit to trigger SPI transfer.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_TRIGGER(spi) ( (spi)->CTL |= SPI_CTL_GO_BUSY_Msk )
/**
* @brief Disable SPI Dual IO function.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_DISABLE_DUAL_MODE(spi) ( (spi)->CTL &= ~SPI_CTL_DUAL_IO_EN_Msk )
/**
* @brief Enable Dual IO function and set SPI Dual IO direction to input.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_ENABLE_DUAL_INPUT_MODE(spi) ( (spi)->CTL = ((spi)->CTL & ~SPI_CTL_DUAL_IO_DIR_Msk) | SPI_CTL_DUAL_IO_EN_Msk )
/**
* @brief Enable Dual IO function and set SPI Dual IO direction to output.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_ENABLE_DUAL_OUTPUT_MODE(spi) ( (spi)->CTL |= (SPI_CTL_DUAL_IO_DIR_Msk | SPI_CTL_DUAL_IO_EN_Msk) )
/**
* @brief Trigger RX PDMA transfer.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_TRIGGER_RX_PDMA(spi) ( (spi)->DMA |= SPI_DMA_RX_DMA_EN_Msk )
/**
* @brief Trigger TX PDMA transfer.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_TRIGGER_TX_PDMA(spi) ( (spi)->DMA |= SPI_DMA_TX_DMA_EN_Msk )
/**
* @brief Enable 2-bit transfer mode.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_ENABLE_2BIT_MODE(spi) ( (spi)->CTL |= SPI_CTL_TWOB_Msk )
/**
* @brief Disable 2-bit transfer mode.
* @param[in] spi is the base address of SPI module.
* @return none
* \hideinitializer
*/
#define SPI_DISABLE_2BIT_MODE(spi) ( (spi)->CTL &= ~SPI_CTL_TWOB_Msk )
/**
* @brief Get the status register value.
* @param[in] spi is the base address of SPI module.
* @return status value.
* \hideinitializer
*/
#define SPI_GET_STATUS(spi) ( (spi)->STATUS )
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_EnableFIFO(SPI_T *spi, uint32_t u32TxThreshold, uint32_t u32RxThreshold);
void SPI_DisableFIFO(SPI_T *spi);
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);
void SPI_EnableWakeup(SPI_T *spi);
void SPI_DisableWakeup(SPI_T *spi);
/*@}*/ /* end of group NANO100_SPI_EXPORTED_FUNCTIONS */
/*@}*/ /* end of group NANO100_SPI_Driver */
/*@}*/ /* end of group NANO100_Device_Driver */
#ifdef __cplusplus
}
#endif
#endif //__SPI_H__
/*** (C) COPYRIGHT 2014 Nuvoton Technology Corp. ***/
