rt-thread/bsp/nuvoton/libraries/m2354/StdDriver/src/nu_usci_spi.c

636 lines
19 KiB
C

/****************************************************************************//**
* @file usci_spi.c
* @version V3.00
* @brief M2354 series USCI_SPI driver source file
*
* @copyright SPDX-License-Identifier: Apache-2.0
* @copyright Copyright (C) 2020 Nuvoton Technology Corp. All rights reserved.
*****************************************************************************/
#include "NuMicro.h"
/** @addtogroup Standard_Driver Standard Driver
@{
*/
/** @addtogroup USCI_SPI_Driver USCI_SPI Driver
@{
*/
/** @addtogroup USCI_SPI_EXPORTED_FUNCTIONS USCI_SPI Exported Functions
@{
*/
/**
* @brief This function make USCI_SPI module be ready to transfer.
* By default, the USCI_SPI transfer sequence is MSB first, the slave selection
* signal is active low and the automatic slave select function is disabled. In
* Slave mode, the u32BusClock must be NULL and the USCI_SPI clock
* divider setting will be 0.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @param[in] u32MasterSlave Decide the USCI_SPI module is operating in master mode or in slave mode. Valid values are:
* - \ref USPI_SLAVE
* - \ref USPI_MASTER
* @param[in] u32SPIMode Decide the transfer timing. Valid values are:
* - \ref USPI_MODE_0
* - \ref USPI_MODE_1
* - \ref USPI_MODE_2
* - \ref USPI_MODE_3
* @param[in] u32DataWidth The data width of a USCI_SPI transaction.
* @param[in] u32BusClock The expected frequency of USCI_SPI bus clock in Hz.
* @return Actual frequency of USCI_SPI peripheral clock.
*/
uint32_t USPI_Open(USPI_T *uspi, uint32_t u32MasterSlave, uint32_t u32SPIMode, uint32_t u32DataWidth, uint32_t u32BusClock)
{
uint32_t u32ClkDiv = 0UL;
uint32_t u32Pclk;
uint32_t u32RetValue = 0UL;
if((uspi == USPI0) || (uspi == USPI0_NS))
{
u32Pclk = CLK_GetPCLK0Freq();
}
else
{
u32Pclk = CLK_GetPCLK1Freq();
}
if(u32BusClock != 0UL)
{
u32ClkDiv = (uint32_t)((((((u32Pclk / 2UL) * 10UL) / (u32BusClock)) + 5UL) / 10UL) - 1UL); /* Compute proper divider for USCI_SPI clock */
}
/* Enable USCI_SPI protocol */
uspi->CTL &= ~USPI_CTL_FUNMODE_Msk;
uspi->CTL = 1UL << USPI_CTL_FUNMODE_Pos;
/* Data format configuration */
if(u32DataWidth == 16UL)
{
u32DataWidth = 0UL;
}
uspi->LINECTL &= ~USPI_LINECTL_DWIDTH_Msk;
uspi->LINECTL |= (u32DataWidth << USPI_LINECTL_DWIDTH_Pos);
/* MSB data format */
uspi->LINECTL &= ~USPI_LINECTL_LSB_Msk;
/* Set slave selection signal active low */
if(u32MasterSlave == USPI_MASTER)
{
uspi->LINECTL |= USPI_LINECTL_CTLOINV_Msk;
}
else
{
uspi->CTLIN0 |= USPI_CTLIN0_ININV_Msk;
}
/* Set operating mode and transfer timing */
uspi->PROTCTL &= ~(USPI_PROTCTL_SCLKMODE_Msk | USPI_PROTCTL_AUTOSS_Msk | USPI_PROTCTL_SLAVE_Msk);
uspi->PROTCTL |= (u32MasterSlave | u32SPIMode);
/* Set USCI_SPI bus clock */
uspi->BRGEN &= ~USPI_BRGEN_CLKDIV_Msk;
uspi->BRGEN |= (u32ClkDiv << USPI_BRGEN_CLKDIV_Pos);
uspi->PROTCTL |= USPI_PROTCTL_PROTEN_Msk;
if(u32BusClock != 0UL)
{
u32RetValue = (u32Pclk / ((u32ClkDiv + 1UL) << 1UL));
}
else
{
u32RetValue = 0UL;
}
return u32RetValue;
}
/**
* @brief Disable USCI_SPI function mode.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @return None
*/
void USPI_Close(USPI_T *uspi)
{
uspi->CTL &= ~USPI_CTL_FUNMODE_Msk;
}
/**
* @brief Clear Rx buffer.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @return None
*/
void USPI_ClearRxBuf(USPI_T *uspi)
{
uspi->BUFCTL |= USPI_BUFCTL_RXCLR_Msk;
}
/**
* @brief Clear Tx buffer.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @return None
*/
void USPI_ClearTxBuf(USPI_T *uspi)
{
uspi->BUFCTL |= USPI_BUFCTL_TXCLR_Msk;
}
/**
* @brief Disable the automatic slave select function.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @return None
*/
void USPI_DisableAutoSS(USPI_T *uspi)
{
uspi->PROTCTL &= ~(USPI_PROTCTL_AUTOSS_Msk | USPI_PROTCTL_SS_Msk);
}
/**
* @brief Enable the automatic slave select function. Only available in Master mode.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @param[in] u32SSPinMask This parameter is not used.
* @param[in] u32ActiveLevel The active level of slave select signal. Valid values are:
* - \ref USPI_SS_ACTIVE_HIGH
* - \ref USPI_SS_ACTIVE_LOW
* @return None
*/
void USPI_EnableAutoSS(USPI_T *uspi, uint32_t u32SSPinMask, uint32_t u32ActiveLevel)
{
(void)u32SSPinMask;
uspi->LINECTL = (uspi->LINECTL & ~USPI_LINECTL_CTLOINV_Msk) | u32ActiveLevel;
uspi->PROTCTL |= USPI_PROTCTL_AUTOSS_Msk;
}
/**
* @brief Set the USCI_SPI bus clock. Only available in Master mode.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @param[in] u32BusClock The expected frequency of USCI_SPI bus clock.
* @return Actual frequency of USCI_SPI peripheral clock.
*/
uint32_t USPI_SetBusClock(USPI_T *uspi, uint32_t u32BusClock)
{
uint32_t u32ClkDiv;
uint32_t u32Pclk;
if((uspi == USPI0) || (uspi == USPI0_NS))
{
u32Pclk = CLK_GetPCLK0Freq();
}
else
{
u32Pclk = CLK_GetPCLK1Freq();
}
u32ClkDiv = (uint32_t)((((((u32Pclk / 2UL) * 10UL) / (u32BusClock)) + 5UL) / 10UL) - 1UL); /* Compute proper divider for USCI_SPI clock */
/* Set USCI_SPI bus clock */
uspi->BRGEN &= ~USPI_BRGEN_CLKDIV_Msk;
uspi->BRGEN |= (u32ClkDiv << USPI_BRGEN_CLKDIV_Pos);
return (u32Pclk / ((u32ClkDiv + 1UL) << 1UL));
}
/**
* @brief Get the actual frequency of USCI_SPI bus clock. Only available in Master mode.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @return Actual USCI_SPI bus clock frequency.
*/
uint32_t USPI_GetBusClock(USPI_T *uspi)
{
uint32_t u32ClkDiv, u32BusClk;
u32ClkDiv = (uspi->BRGEN & USPI_BRGEN_CLKDIV_Msk) >> USPI_BRGEN_CLKDIV_Pos;
if((uspi == USPI0) || (uspi == USPI0_NS))
{
u32BusClk = (CLK_GetPCLK0Freq() / ((u32ClkDiv + 1UL) << 1UL));
}
else
{
u32BusClk = (CLK_GetPCLK1Freq() / ((u32ClkDiv + 1UL) << 1UL));
}
return u32BusClk;
}
/**
* @brief Enable related interrupts specified by u32Mask parameter.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @param[in] u32Mask The combination of all related interrupt enable bits.
* Each bit corresponds to a interrupt bit.
* This parameter decides which interrupts will be enabled. Valid values are:
* - \ref USPI_SSINACT_INT_MASK
* - \ref USPI_SSACT_INT_MASK
* - \ref USPI_SLVTO_INT_MASK
* - \ref USPI_SLVBE_INT_MASK
* - \ref USPI_TXUDR_INT_MASK
* - \ref USPI_RXOV_INT_MASK
* - \ref USPI_TXST_INT_MASK
* - \ref USPI_TXEND_INT_MASK
* - \ref USPI_RXST_INT_MASK
* - \ref USPI_RXEND_INT_MASK
* @return None
*/
void USPI_EnableInt(USPI_T *uspi, uint32_t u32Mask)
{
/* Enable slave selection signal inactive interrupt flag */
if((u32Mask & USPI_SSINACT_INT_MASK) == USPI_SSINACT_INT_MASK)
{
uspi->PROTIEN |= USPI_PROTIEN_SSINAIEN_Msk;
}
/* Enable slave selection signal active interrupt flag */
if((u32Mask & USPI_SSACT_INT_MASK) == USPI_SSACT_INT_MASK)
{
uspi->PROTIEN |= USPI_PROTIEN_SSACTIEN_Msk;
}
/* Enable slave time-out interrupt flag */
if((u32Mask & USPI_SLVTO_INT_MASK) == USPI_SLVTO_INT_MASK)
{
uspi->PROTIEN |= USPI_PROTIEN_SLVTOIEN_Msk;
}
/* Enable slave bit count error interrupt flag */
if((u32Mask & USPI_SLVBE_INT_MASK) == USPI_SLVBE_INT_MASK)
{
uspi->PROTIEN |= USPI_PROTIEN_SLVBEIEN_Msk;
}
/* Enable TX under run interrupt flag */
if((u32Mask & USPI_TXUDR_INT_MASK) == USPI_TXUDR_INT_MASK)
{
uspi->BUFCTL |= USPI_BUFCTL_TXUDRIEN_Msk;
}
/* Enable RX overrun interrupt flag */
if((u32Mask & USPI_RXOV_INT_MASK) == USPI_RXOV_INT_MASK)
{
uspi->BUFCTL |= USPI_BUFCTL_RXOVIEN_Msk;
}
/* Enable TX start interrupt flag */
if((u32Mask & USPI_TXST_INT_MASK) == USPI_TXST_INT_MASK)
{
uspi->INTEN |= USPI_INTEN_TXSTIEN_Msk;
}
/* Enable TX end interrupt flag */
if((u32Mask & USPI_TXEND_INT_MASK) == USPI_TXEND_INT_MASK)
{
uspi->INTEN |= USPI_INTEN_TXENDIEN_Msk;
}
/* Enable RX start interrupt flag */
if((u32Mask & USPI_RXST_INT_MASK) == USPI_RXST_INT_MASK)
{
uspi->INTEN |= USPI_INTEN_RXSTIEN_Msk;
}
/* Enable RX end interrupt flag */
if((u32Mask & USPI_RXEND_INT_MASK) == USPI_RXEND_INT_MASK)
{
uspi->INTEN |= USPI_INTEN_RXENDIEN_Msk;
}
}
/**
* @brief Disable related interrupts specified by u32Mask parameter.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @param[in] u32Mask The combination of all related interrupt enable bits.
* Each bit corresponds to a interrupt bit.
* This parameter decides which interrupts will be disabled. Valid values are:
* - \ref USPI_SSINACT_INT_MASK
* - \ref USPI_SSACT_INT_MASK
* - \ref USPI_SLVTO_INT_MASK
* - \ref USPI_SLVBE_INT_MASK
* - \ref USPI_TXUDR_INT_MASK
* - \ref USPI_RXOV_INT_MASK
* - \ref USPI_TXST_INT_MASK
* - \ref USPI_TXEND_INT_MASK
* - \ref USPI_RXST_INT_MASK
* - \ref USPI_RXEND_INT_MASK
* @return None
*/
void USPI_DisableInt(USPI_T *uspi, uint32_t u32Mask)
{
/* Disable slave selection signal inactive interrupt flag */
if((u32Mask & USPI_SSINACT_INT_MASK) == USPI_SSINACT_INT_MASK)
{
uspi->PROTIEN &= ~USPI_PROTIEN_SSINAIEN_Msk;
}
/* Disable slave selection signal active interrupt flag */
if((u32Mask & USPI_SSACT_INT_MASK) == USPI_SSACT_INT_MASK)
{
uspi->PROTIEN &= ~USPI_PROTIEN_SSACTIEN_Msk;
}
/* Disable slave time-out interrupt flag */
if((u32Mask & USPI_SLVTO_INT_MASK) == USPI_SLVTO_INT_MASK)
{
uspi->PROTIEN &= ~USPI_PROTIEN_SLVTOIEN_Msk;
}
/* Disable slave bit count error interrupt flag */
if((u32Mask & USPI_SLVBE_INT_MASK) == USPI_SLVBE_INT_MASK)
{
uspi->PROTIEN &= ~USPI_PROTIEN_SLVBEIEN_Msk;
}
/* Disable TX under run interrupt flag */
if((u32Mask & USPI_TXUDR_INT_MASK) == USPI_TXUDR_INT_MASK)
{
uspi->BUFCTL &= ~USPI_BUFCTL_TXUDRIEN_Msk;
}
/* Disable RX overrun interrupt flag */
if((u32Mask & USPI_RXOV_INT_MASK) == USPI_RXOV_INT_MASK)
{
uspi->BUFCTL &= ~USPI_BUFCTL_RXOVIEN_Msk;
}
/* Disable TX start interrupt flag */
if((u32Mask & USPI_TXST_INT_MASK) == USPI_TXST_INT_MASK)
{
uspi->INTEN &= ~USPI_INTEN_TXSTIEN_Msk;
}
/* Disable TX end interrupt flag */
if((u32Mask & USPI_TXEND_INT_MASK) == USPI_TXEND_INT_MASK)
{
uspi->INTEN &= ~USPI_INTEN_TXENDIEN_Msk;
}
/* Disable RX start interrupt flag */
if((u32Mask & USPI_RXST_INT_MASK) == USPI_RXST_INT_MASK)
{
uspi->INTEN &= ~USPI_INTEN_RXSTIEN_Msk;
}
/* Disable RX end interrupt flag */
if((u32Mask & USPI_RXEND_INT_MASK) == USPI_RXEND_INT_MASK)
{
uspi->INTEN &= ~USPI_INTEN_RXENDIEN_Msk;
}
}
/**
* @brief Get interrupt flag.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @param[in] u32Mask The combination of all related interrupt sources.
* Each bit corresponds to a interrupt source.
* This parameter decides which interrupt flags will be read. It is combination of:
* - \ref USPI_SSINACT_INT_MASK
* - \ref USPI_SSACT_INT_MASK
* - \ref USPI_SLVTO_INT_MASK
* - \ref USPI_SLVBE_INT_MASK
* - \ref USPI_TXUDR_INT_MASK
* - \ref USPI_RXOV_INT_MASK
* - \ref USPI_TXST_INT_MASK
* - \ref USPI_TXEND_INT_MASK
* - \ref USPI_RXST_INT_MASK
* - \ref USPI_RXEND_INT_MASK
* @return Interrupt flags of selected sources.
*/
uint32_t USPI_GetIntFlag(USPI_T *uspi, uint32_t u32Mask)
{
uint32_t u32ProtStatus, u32BufStatus;
uint32_t u32IntFlag = 0UL;
u32ProtStatus = uspi->PROTSTS;
u32BufStatus = uspi->BUFSTS;
/* Check slave selection signal inactive interrupt flag */
if((u32Mask & USPI_SSINACT_INT_MASK) && (u32ProtStatus & USPI_PROTSTS_SSINAIF_Msk))
{
u32IntFlag |= USPI_SSINACT_INT_MASK;
}
/* Check slave selection signal active interrupt flag */
if((u32Mask & USPI_SSACT_INT_MASK) && (u32ProtStatus & USPI_PROTSTS_SSACTIF_Msk))
{
u32IntFlag |= USPI_SSACT_INT_MASK;
}
/* Check slave time-out interrupt flag */
if((u32Mask & USPI_SLVTO_INT_MASK) && (u32ProtStatus & USPI_PROTSTS_SLVTOIF_Msk))
{
u32IntFlag |= USPI_SLVTO_INT_MASK;
}
/* Check slave bit count error interrupt flag */
if((u32Mask & USPI_SLVBE_INT_MASK) && (u32ProtStatus & USPI_PROTSTS_SLVBEIF_Msk))
{
u32IntFlag |= USPI_SLVBE_INT_MASK;
}
/* Check TX under run interrupt flag */
if((u32Mask & USPI_TXUDR_INT_MASK) && (u32BufStatus & USPI_BUFSTS_TXUDRIF_Msk))
{
u32IntFlag |= USPI_TXUDR_INT_MASK;
}
/* Check RX overrun interrupt flag */
if((u32Mask & USPI_RXOV_INT_MASK) && (u32BufStatus & USPI_BUFSTS_RXOVIF_Msk))
{
u32IntFlag |= USPI_RXOV_INT_MASK;
}
/* Check TX start interrupt flag */
if((u32Mask & USPI_TXST_INT_MASK) && (u32ProtStatus & USPI_PROTSTS_TXSTIF_Msk))
{
u32IntFlag |= USPI_TXST_INT_MASK;
}
/* Check TX end interrupt flag */
if((u32Mask & USPI_TXEND_INT_MASK) && (u32ProtStatus & USPI_PROTSTS_TXENDIF_Msk))
{
u32IntFlag |= USPI_TXEND_INT_MASK;
}
/* Check RX start interrupt flag */
if((u32Mask & USPI_RXST_INT_MASK) && (u32ProtStatus & USPI_PROTSTS_RXSTIF_Msk))
{
u32IntFlag |= USPI_RXST_INT_MASK;
}
/* Check RX end interrupt flag */
if((u32Mask & USPI_RXEND_INT_MASK) && (u32ProtStatus & USPI_PROTSTS_RXENDIF_Msk))
{
u32IntFlag |= USPI_RXEND_INT_MASK;
}
return u32IntFlag;
}
/**
* @brief Clear interrupt flag.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @param[in] u32Mask The combination of all related interrupt sources.
* Each bit corresponds to a interrupt source.
* This parameter decides which interrupt flags will be cleared. It could be the combination of:
* - \ref USPI_SSINACT_INT_MASK
* - \ref USPI_SSACT_INT_MASK
* - \ref USPI_SLVTO_INT_MASK
* - \ref USPI_SLVBE_INT_MASK
* - \ref USPI_TXUDR_INT_MASK
* - \ref USPI_RXOV_INT_MASK
* - \ref USPI_TXST_INT_MASK
* - \ref USPI_TXEND_INT_MASK
* - \ref USPI_RXST_INT_MASK
* - \ref USPI_RXEND_INT_MASK
* @return None
*/
void USPI_ClearIntFlag(USPI_T *uspi, uint32_t u32Mask)
{
/* Clear slave selection signal inactive interrupt flag */
if(u32Mask & USPI_SSINACT_INT_MASK)
{
uspi->PROTSTS = USPI_PROTSTS_SSINAIF_Msk;
}
/* Clear slave selection signal active interrupt flag */
if(u32Mask & USPI_SSACT_INT_MASK)
{
uspi->PROTSTS = USPI_PROTSTS_SSACTIF_Msk;
}
/* Clear slave time-out interrupt flag */
if(u32Mask & USPI_SLVTO_INT_MASK)
{
uspi->PROTSTS = USPI_PROTSTS_SLVTOIF_Msk;
}
/* Clear slave bit count error interrupt flag */
if(u32Mask & USPI_SLVBE_INT_MASK)
{
uspi->PROTSTS = USPI_PROTSTS_SLVBEIF_Msk;
}
/* Clear TX under run interrupt flag */
if(u32Mask & USPI_TXUDR_INT_MASK)
{
uspi->BUFSTS = USPI_BUFSTS_TXUDRIF_Msk;
}
/* Clear RX overrun interrupt flag */
if(u32Mask & USPI_RXOV_INT_MASK)
{
uspi->BUFSTS = USPI_BUFSTS_RXOVIF_Msk;
}
/* Clear TX start interrupt flag */
if(u32Mask & USPI_TXST_INT_MASK)
{
uspi->PROTSTS = USPI_PROTSTS_TXSTIF_Msk;
}
/* Clear TX end interrupt flag */
if(u32Mask & USPI_TXEND_INT_MASK)
{
uspi->PROTSTS = USPI_PROTSTS_TXENDIF_Msk;
}
/* Clear RX start interrupt flag */
if(u32Mask & USPI_RXST_INT_MASK)
{
uspi->PROTSTS = USPI_PROTSTS_RXSTIF_Msk;
}
/* Clear RX end interrupt flag */
if(u32Mask & USPI_RXEND_INT_MASK)
{
uspi->PROTSTS = USPI_PROTSTS_RXENDIF_Msk;
}
}
/**
* @brief Get USCI_SPI status.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @param[in] u32Mask The combination of all related sources.
* Each bit corresponds to a source.
* This parameter decides which flags will be read. It is combination of:
* - \ref USPI_BUSY_MASK
* - \ref USPI_RX_EMPTY_MASK
* - \ref USPI_RX_FULL_MASK
* - \ref USPI_TX_EMPTY_MASK
* - \ref USPI_TX_FULL_MASK
* - \ref USPI_SSLINE_STS_MASK
* @return Flags of selected sources.
*/
uint32_t USPI_GetStatus(USPI_T *uspi, uint32_t u32Mask)
{
uint32_t u32ProtStatus, u32BufStatus;
uint32_t u32Flag = 0UL;
u32ProtStatus = uspi->PROTSTS;
u32BufStatus = uspi->BUFSTS;
/* Check busy status */
if((u32Mask & USPI_BUSY_MASK) && (u32ProtStatus & USPI_PROTSTS_BUSY_Msk))
{
u32Flag |= USPI_BUSY_MASK;
}
/* Check RX empty flag */
if((u32Mask & USPI_RX_EMPTY_MASK) && (u32BufStatus & USPI_BUFSTS_RXEMPTY_Msk))
{
u32Flag |= USPI_RX_EMPTY_MASK;
}
/* Check RX full flag */
if((u32Mask & USPI_RX_FULL_MASK) && (u32BufStatus & USPI_BUFSTS_RXFULL_Msk))
{
u32Flag |= USPI_RX_FULL_MASK;
}
/* Check TX empty flag */
if((u32Mask & USPI_TX_EMPTY_MASK) && (u32BufStatus & USPI_BUFSTS_TXEMPTY_Msk))
{
u32Flag |= USPI_TX_EMPTY_MASK;
}
/* Check TX full flag */
if((u32Mask & USPI_TX_FULL_MASK) && (u32BufStatus & USPI_BUFSTS_TXFULL_Msk))
{
u32Flag |= USPI_TX_FULL_MASK;
}
/* Check USCI_SPI_SS line status */
if((u32Mask & USPI_SSLINE_STS_MASK) && (u32ProtStatus & USPI_PROTSTS_SSLINE_Msk))
{
u32Flag |= USPI_SSLINE_STS_MASK;
}
return u32Flag;
}
/**
* @brief Enable USCI_SPI Wake-up Function.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @return None
*/
void USPI_EnableWakeup(USPI_T *uspi)
{
uspi->WKCTL |= USPI_WKCTL_WKEN_Msk;
}
/**
* @brief Disable USCI_SPI Wake-up Function.
* @param[in] uspi The pointer of the specified USCI_SPI module.
* @return None
*/
void USPI_DisableWakeup(USPI_T *uspi)
{
uspi->WKCTL &= ~USPI_WKCTL_WKEN_Msk;
}
/**@}*/ /* end of group USCI_SPI_EXPORTED_FUNCTIONS */
/**@}*/ /* end of group USCI_SPI_Driver */
/**@}*/ /* end of group Standard_Driver */