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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_M480/device/StdDriver/m480_uart.c
- Committer:
- AnnaBridge
- Date:
- 2019-02-20
- Revision:
- 189:f392fc9709a3
- Parent:
- 172:7d866c31b3c5
File content as of revision 189:f392fc9709a3:
/**************************************************************************//**
* @file uart.c
* @version V3.00
* @brief M480 series UART driver source file
*
* @copyright (C) 2016 Nuvoton Technology Corp. All rights reserved.
*****************************************************************************/
#include <stdio.h>
#include "M480.h"
/** @addtogroup M480_Device_Driver M480 Device Driver
@{
*/
/** @addtogroup M480_UART_Driver UART Driver
@{
*/
/** @addtogroup M480_UART_EXPORTED_FUNCTIONS UART Exported Functions
@{
*/
/**
* @brief Clear UART specified interrupt flag
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32InterruptFlag The specified interrupt of UART module.
* - \ref UART_INTSTS_LININT_Msk : LIN bus interrupt
* - \ref UART_INTEN_WKIEN_Msk : Wake-up interrupt
* - \ref UART_INTSTS_BUFERRINT_Msk : Buffer Error interrupt
* - \ref UART_INTSTS_MODEMINT_Msk : Modem Status interrupt
* - \ref UART_INTSTS_RLSINT_Msk : Receive Line Status interrupt
*
* @return None
*
* @details The function is used to clear UART specified interrupt flag.
*/
void UART_ClearIntFlag(UART_T* uart , uint32_t u32InterruptFlag)
{
if(u32InterruptFlag & UART_INTSTS_RLSINT_Msk) { /* Clear Receive Line Status Interrupt */
uart->FIFOSTS = UART_FIFOSTS_BIF_Msk | UART_FIFOSTS_FEF_Msk | UART_FIFOSTS_FEF_Msk;
uart->FIFOSTS = UART_FIFOSTS_ADDRDETF_Msk;
}
if(u32InterruptFlag & UART_INTSTS_MODEMINT_Msk) { /* Clear Modem Status Interrupt */
uart->MODEMSTS |= UART_MODEMSTS_CTSDETF_Msk;
} else {
}
if(u32InterruptFlag & UART_INTSTS_BUFERRINT_Msk) { /* Clear Buffer Error Interrupt */
uart->FIFOSTS = UART_FIFOSTS_RXOVIF_Msk | UART_FIFOSTS_TXOVIF_Msk;
}
if(u32InterruptFlag & UART_INTSTS_WKINT_Msk) { /* Clear Wake-up Interrupt */
uart->WKSTS = UART_WKSTS_CTSWKF_Msk | UART_WKSTS_DATWKF_Msk |
UART_WKSTS_RFRTWKF_Msk |UART_WKSTS_RS485WKF_Msk |
UART_WKSTS_TOUTWKF_Msk;
}
if(u32InterruptFlag & UART_INTSTS_LININT_Msk) { /* Clear LIN Bus Interrupt */
uart->INTSTS = UART_INTSTS_LINIF_Msk;
uart->LINSTS = UART_LINSTS_BITEF_Msk | UART_LINSTS_BRKDETF_Msk |
UART_LINSTS_SLVSYNCF_Msk | UART_LINSTS_SLVIDPEF_Msk |
UART_LINSTS_SLVHEF_Msk | UART_LINSTS_SLVHDETF_Msk ;
}
}
/**
* @brief Disable UART interrupt
*
* @param[in] uart The pointer of the specified UART module.
*
* @return None
*
* @details The function is used to disable UART interrupt.
*/
void UART_Close(UART_T* uart)
{
uart->INTEN = 0ul;
}
/**
* @brief Disable UART auto flow control function
*
* @param[in] uart The pointer of the specified UART module.
*
* @return None
*
* @details The function is used to disable UART auto flow control.
*/
void UART_DisableFlowCtrl(UART_T* uart)
{
uart->INTEN &= ~(UART_INTEN_ATORTSEN_Msk | UART_INTEN_ATOCTSEN_Msk);
}
/**
* @brief Disable UART specified interrupt
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32InterruptFlag The specified interrupt of UART module.
* - \ref UART_INTEN_WKIEN_Msk : Wake-up interrupt
* - \ref UART_INTEN_LINIEN_Msk : Lin bus interrupt
* - \ref UART_INTEN_BUFERRIEN_Msk : Buffer Error interrupt
* - \ref UART_INTEN_RXTOIEN_Msk : Rx time-out interrupt
* - \ref UART_INTEN_MODEMIEN_Msk : Modem status interrupt
* - \ref UART_INTEN_RLSIEN_Msk : Receive Line status interrupt
* - \ref UART_INTEN_THREIEN_Msk : Tx empty interrupt
* - \ref UART_INTEN_RDAIEN_Msk : Rx ready interrupt *
*
* @return None
*
* @details The function is used to disable UART specified interrupt and disable NVIC UART IRQ.
*/
void UART_DisableInt(UART_T* uart, uint32_t u32InterruptFlag)
{
/* Disable UART specified interrupt */
UART_DISABLE_INT(uart, u32InterruptFlag);
}
/**
* @brief Enable UART auto flow control function
*
* @param[in] uart The pointer of the specified UART module.
*
* @return None
*
* @details The function is used to Enable UART auto flow control.
*/
void UART_EnableFlowCtrl(UART_T* uart)
{
/* Set RTS pin output is low level active */
uart->MODEM |= UART_MODEM_RTSACTLV_Msk;
/* Set CTS pin input is low level active */
uart->MODEMSTS |= UART_MODEMSTS_CTSACTLV_Msk;
/* Set RTS and CTS auto flow control enable */
uart->INTEN |= UART_INTEN_ATORTSEN_Msk | UART_INTEN_ATOCTSEN_Msk;
}
/**
* @brief The function is used to enable UART specified interrupt and enable NVIC UART IRQ.
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32InterruptFlag The specified interrupt of UART module:
* - \ref UART_INTEN_WKIEN_Msk : Wake-up interrupt
* - \ref UART_INTEN_LINIEN_Msk : Lin bus interrupt
* - \ref UART_INTEN_BUFERRIEN_Msk : Buffer Error interrupt
* - \ref UART_INTEN_RXTOIEN_Msk : Rx time-out interrupt
* - \ref UART_INTEN_MODEMIEN_Msk : Modem status interrupt
* - \ref UART_INTEN_RLSIEN_Msk : Receive Line status interrupt
* - \ref UART_INTEN_THREIEN_Msk : Tx empty interrupt
* - \ref UART_INTEN_RDAIEN_Msk : Rx ready interrupt *
*
* @return None
*
* @details The function is used to enable UART specified interrupt and enable NVIC UART IRQ.
*/
void UART_EnableInt(UART_T* uart, uint32_t u32InterruptFlag)
{
/* Enable UART specified interrupt */
UART_ENABLE_INT(uart, u32InterruptFlag);
}
/**
* @brief Open and set UART function
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32baudrate The baudrate of UART module.
*
* @return None
*
* @details This function use to enable UART function and set baud-rate.
*/
void UART_Open(UART_T* uart, uint32_t u32baudrate)
{
uint32_t u32UartClkSrcSel=0ul, u32UartClkDivNum=0ul;
uint32_t u32ClkTbl[4] = {__HXT, 0ul, __LXT, __HIRC};
uint32_t u32Baud_Div = 0ul;
if(uart==(UART_T*)UART0) {
/* Get UART clock source selection */
u32UartClkSrcSel = ((uint32_t)(CLK->CLKSEL1 & CLK_CLKSEL1_UART0SEL_Msk)) >> CLK_CLKSEL1_UART0SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV0 & CLK_CLKDIV0_UART0DIV_Msk) >> CLK_CLKDIV0_UART0DIV_Pos;
} else if(uart==(UART_T*)UART1) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL1 & CLK_CLKSEL1_UART1SEL_Msk) >> CLK_CLKSEL1_UART1SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV0 & CLK_CLKDIV0_UART1DIV_Msk) >> CLK_CLKDIV0_UART1DIV_Pos;
} else if(uart==(UART_T*)UART2) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART2SEL_Msk) >> CLK_CLKSEL3_UART2SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART2DIV_Msk) >> CLK_CLKDIV4_UART2DIV_Pos;
} else if(uart==(UART_T*)UART3) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART3SEL_Msk) >> CLK_CLKSEL3_UART3SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART3DIV_Msk) >> CLK_CLKDIV4_UART3DIV_Pos;
} else if(uart==(UART_T*)UART4) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART4SEL_Msk) >> CLK_CLKSEL3_UART4SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART4DIV_Msk) >> CLK_CLKDIV4_UART4DIV_Pos;
} else if(uart==(UART_T*)UART5) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART5SEL_Msk) >> CLK_CLKSEL3_UART5SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART5DIV_Msk) >> CLK_CLKDIV4_UART5DIV_Pos;
}
/* Select UART function */
uart->FUNCSEL = UART_FUNCSEL_UART;
/* Set UART line configuration */
uart->LINE = UART_WORD_LEN_8 | UART_PARITY_NONE | UART_STOP_BIT_1;
/* Set UART Rx and RTS trigger level */
uart->FIFO &= ~(UART_FIFO_RFITL_Msk | UART_FIFO_RTSTRGLV_Msk);
/* Get PLL clock frequency if UART clock source selection is PLL */
if(u32UartClkSrcSel == 1ul) {
u32ClkTbl[u32UartClkSrcSel] = CLK_GetPLLClockFreq();
}
/* Set UART baud rate */
if(u32baudrate != 0ul) {
u32Baud_Div = UART_BAUD_MODE2_DIVIDER((u32ClkTbl[u32UartClkSrcSel]) / (u32UartClkDivNum + 1ul), u32baudrate);
if(u32Baud_Div > 0xFFFFul) {
uart->BAUD = (UART_BAUD_MODE0 | UART_BAUD_MODE0_DIVIDER((u32ClkTbl[u32UartClkSrcSel]) / (u32UartClkDivNum + 1ul), u32baudrate));
} else {
uart->BAUD = (UART_BAUD_MODE2 | u32Baud_Div);
}
}
}
/**
* @brief Read UART data
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] pu8RxBuf The buffer to receive the data of receive FIFO.
* @param[in] u32ReadBytes The the read bytes number of data.
*
* @return u32Count Receive byte count
*
* @details The function is used to read Rx data from RX FIFO and the data will be stored in pu8RxBuf.
*/
uint32_t UART_Read(UART_T* uart, uint8_t pu8RxBuf[], uint32_t u32ReadBytes)
{
uint32_t u32Count, u32delayno;
uint32_t u32Exit = 0ul;
for(u32Count = 0ul; u32Count < u32ReadBytes; u32Count++) {
u32delayno = 0ul;
while(uart->FIFOSTS & UART_FIFOSTS_RXEMPTY_Msk) { /* Check RX empty => failed */
u32delayno++;
if(u32delayno >= 0x40000000ul) {
u32Exit = 1ul;
break;
} else {
}
}
if(u32Exit == 1ul) {
break;
} else {
pu8RxBuf[u32Count] = (uint8_t)uart->DAT; /* Get Data from UART RX */
}
}
return u32Count;
}
/**
* @brief Set UART line configuration
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32baudrate The register value of baudrate of UART module.
* If u32baudrate = 0, UART baudrate will not change.
* @param[in] u32data_width The data length of UART module.
* - \ref UART_WORD_LEN_5
* - \ref UART_WORD_LEN_6
* - \ref UART_WORD_LEN_7
* - \ref UART_WORD_LEN_8
* @param[in] u32parity The parity setting (none/odd/even/mark/space) of UART module.
* - \ref UART_PARITY_NONE
* - \ref UART_PARITY_ODD
* - \ref UART_PARITY_EVEN
* - \ref UART_PARITY_MARK
* - \ref UART_PARITY_SPACE
* @param[in] u32stop_bits The stop bit length (1/1.5/2 bit) of UART module.
* - \ref UART_STOP_BIT_1
* - \ref UART_STOP_BIT_1_5
* - \ref UART_STOP_BIT_2
*
* @return None
*
* @details This function use to config UART line setting.
*/
void UART_SetLine_Config(UART_T* uart, uint32_t u32baudrate, uint32_t u32data_width, uint32_t u32parity, uint32_t u32stop_bits)
{
uint32_t u32UartClkSrcSel=0ul, u32UartClkDivNum=0ul;
uint32_t u32ClkTbl[4ul] = {__HXT, 0ul, __LXT, __HIRC};
uint32_t u32Baud_Div = 0ul;
if(uart==(UART_T*)UART0) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL1 & CLK_CLKSEL1_UART0SEL_Msk) >> CLK_CLKSEL1_UART0SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV0 & CLK_CLKDIV0_UART0DIV_Msk) >> CLK_CLKDIV0_UART0DIV_Pos;
} else if(uart==(UART_T*)UART1) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL1 & CLK_CLKSEL1_UART1SEL_Msk) >> CLK_CLKSEL1_UART1SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV0 & CLK_CLKDIV0_UART1DIV_Msk) >> CLK_CLKDIV0_UART1DIV_Pos;
} else if(uart==(UART_T*)UART2) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART2SEL_Msk) >> CLK_CLKSEL3_UART2SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART2DIV_Msk) >> CLK_CLKDIV4_UART2DIV_Pos;
} else if(uart==(UART_T*)UART3) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART3SEL_Msk) >> CLK_CLKSEL3_UART3SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART3DIV_Msk) >> CLK_CLKDIV4_UART3DIV_Pos;
} else if(uart==(UART_T*)UART4) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART4SEL_Msk) >> CLK_CLKSEL3_UART4SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART4DIV_Msk) >> CLK_CLKDIV4_UART4DIV_Pos;
} else if(uart==(UART_T*)UART5) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART5SEL_Msk) >> CLK_CLKSEL3_UART5SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART5DIV_Msk) >> CLK_CLKDIV4_UART5DIV_Pos;
}
/* Get PLL clock frequency if UART clock source selection is PLL */
if(u32UartClkSrcSel == 1ul) {
u32ClkTbl[u32UartClkSrcSel] = CLK_GetPLLClockFreq();
} else {
}
/* Set UART baud rate */
if(u32baudrate != 0ul) {
u32Baud_Div = UART_BAUD_MODE2_DIVIDER((u32ClkTbl[u32UartClkSrcSel]) / (u32UartClkDivNum + 1ul), u32baudrate);
if(u32Baud_Div > 0xFFFFul) {
uart->BAUD = (UART_BAUD_MODE0 | UART_BAUD_MODE0_DIVIDER((u32ClkTbl[u32UartClkSrcSel]) / (u32UartClkDivNum + 1ul), u32baudrate));
} else {
uart->BAUD = (UART_BAUD_MODE2 | u32Baud_Div);
}
}
/* Set UART line configuration */
uart->LINE = u32data_width | u32parity | u32stop_bits;
}
/**
* @brief Set Rx timeout count
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32TOC Rx timeout counter.
*
* @return None
*
* @details This function use to set Rx timeout count.
*/
void UART_SetTimeoutCnt(UART_T* uart, uint32_t u32TOC)
{
/* Set time-out interrupt comparator */
uart->TOUT = (uart->TOUT & ~UART_TOUT_TOIC_Msk) | (u32TOC);
/* Set time-out counter enable */
uart->INTEN |= UART_INTEN_TOCNTEN_Msk;
}
/**
* @brief Select and configure IrDA function
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32Buadrate The baudrate of UART module.
* @param[in] u32Direction The direction of UART module in IrDA mode:
* - \ref UART_IRDA_TXEN
* - \ref UART_IRDA_RXEN
*
* @return None
*
* @details The function is used to configure IrDA relative settings. It consists of TX or RX mode and baudrate.
*/
void UART_SelectIrDAMode(UART_T* uart, uint32_t u32Buadrate, uint32_t u32Direction)
{
uint32_t u32UartClkSrcSel=0ul, u32UartClkDivNum=0ul;
uint32_t u32ClkTbl[4ul] = {__HXT, 0ul, __LXT, __HIRC};
uint32_t u32Baud_Div;
/* Select IrDA function mode */
uart->FUNCSEL = UART_FUNCSEL_IrDA;
if(uart==UART0) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL1 & CLK_CLKSEL1_UART0SEL_Msk) >> CLK_CLKSEL1_UART0SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV0 & CLK_CLKDIV0_UART0DIV_Msk) >> CLK_CLKDIV0_UART0DIV_Pos;
} else if(uart==UART1) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL1 & CLK_CLKSEL1_UART1SEL_Msk) >> CLK_CLKSEL1_UART1SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV0 & CLK_CLKDIV0_UART1DIV_Msk) >> CLK_CLKDIV0_UART1DIV_Pos;
} else if(uart==UART2) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART2SEL_Msk) >> CLK_CLKSEL3_UART2SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART2DIV_Msk) >> CLK_CLKDIV4_UART2DIV_Pos;
} else if(uart==UART3) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART3SEL_Msk) >> CLK_CLKSEL3_UART3SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART3DIV_Msk) >> CLK_CLKDIV4_UART3DIV_Pos;
} else if(uart==UART4) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART4SEL_Msk) >> CLK_CLKSEL3_UART4SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART4DIV_Msk) >> CLK_CLKDIV4_UART4DIV_Pos;
} else if(uart==UART5) {
/* Get UART clock source selection */
u32UartClkSrcSel = (CLK->CLKSEL3 & CLK_CLKSEL3_UART5SEL_Msk) >> CLK_CLKSEL3_UART5SEL_Pos;
/* Get UART clock divider number */
u32UartClkDivNum = (CLK->CLKDIV4 & CLK_CLKDIV4_UART5DIV_Msk) >> CLK_CLKDIV4_UART5DIV_Pos;
}
/* Get PLL clock frequency if UART clock source selection is PLL */
if(u32UartClkSrcSel == 1ul) {
u32ClkTbl[u32UartClkSrcSel] = CLK_GetPLLClockFreq();
} else {
}
/* Set UART IrDA baud rate in mode 0 */
if(u32Buadrate != 0ul) {
u32Baud_Div = UART_BAUD_MODE0_DIVIDER((u32ClkTbl[u32UartClkSrcSel]) / (u32UartClkDivNum + 1ul), u32Buadrate);
if(u32Baud_Div < 0xFFFFul) {
uart->BAUD = (UART_BAUD_MODE0 | u32Baud_Div);
} else {
}
}
/* Configure IrDA relative settings */
if(u32Direction == UART_IRDA_RXEN) {
uart->IRDA |= UART_IRDA_RXINV_Msk; /*Rx signal is inverse*/
uart->IRDA &= ~UART_IRDA_TXEN_Msk;
} else {
uart->IRDA &= ~UART_IRDA_TXINV_Msk; /*Tx signal is not inverse*/
uart->IRDA |= UART_IRDA_TXEN_Msk;
}
}
/**
* @brief Select and configure RS485 function
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32Mode The operation mode(NMM/AUD/AAD).
* - \ref UART_ALTCTL_RS485NMM_Msk
* - \ref UART_ALTCTL_RS485AUD_Msk
* - \ref UART_ALTCTL_RS485AAD_Msk
* @param[in] u32Addr The RS485 address.
*
* @return None
*
* @details The function is used to set RS485 relative setting.
*/
void UART_SelectRS485Mode(UART_T* uart, uint32_t u32Mode, uint32_t u32Addr)
{
/* Select UART RS485 function mode */
uart->FUNCSEL = UART_FUNCSEL_RS485;
/* Set RS585 configuration */
uart->ALTCTL &= ~(UART_ALTCTL_RS485NMM_Msk | UART_ALTCTL_RS485AUD_Msk | UART_ALTCTL_RS485AAD_Msk | UART_ALTCTL_ADDRMV_Msk);
uart->ALTCTL |= (u32Mode | (u32Addr << UART_ALTCTL_ADDRMV_Pos));
}
/**
* @brief Select and configure LIN function
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] u32Mode The LIN direction :
* - \ref UART_ALTCTL_LINTXEN_Msk
* - \ref UART_ALTCTL_LINRXEN_Msk
* @param[in] u32BreakLength The break field length.
*
* @return None
*
* @details The function is used to set LIN relative setting.
*/
void UART_SelectLINMode(UART_T* uart, uint32_t u32Mode, uint32_t u32BreakLength)
{
/* Select LIN function mode */
uart->FUNCSEL = UART_FUNCSEL_LIN;
/* Select LIN function setting : Tx enable, Rx enable and break field length */
uart->ALTCTL &= ~(UART_ALTCTL_LINTXEN_Msk | UART_ALTCTL_LINRXEN_Msk | UART_ALTCTL_BRKFL_Msk);
uart->ALTCTL |= (u32Mode | (u32BreakLength << UART_ALTCTL_BRKFL_Pos));
}
/**
* @brief Write UART data
*
* @param[in] uart The pointer of the specified UART module.
* @param[in] pu8TxBuf The buffer to send the data to UART transmission FIFO.
* @param[out] u32WriteBytes The byte number of data.
*
* @return u32Count transfer byte count
*
* @details The function is to write data into TX buffer to transmit data by UART.
*/
uint32_t UART_Write(UART_T* uart, uint8_t pu8TxBuf[], uint32_t u32WriteBytes)
{
uint32_t u32Count, u32delayno;
uint32_t u32Exit = 0ul;
for(u32Count = 0ul; u32Count != u32WriteBytes; u32Count++) {
u32delayno = 0ul;
while((uart->FIFOSTS & UART_FIFOSTS_TXEMPTYF_Msk) == 0ul) { /* Wait Tx empty and Time-out manner */
u32delayno++;
if(u32delayno >= 0x40000000ul) {
u32Exit = 1ul;
break;
} else {
}
}
if(u32Exit == 1ul) {
break;
} else {
uart->DAT = pu8TxBuf[u32Count]; /* Send UART Data from buffer */
}
}
return u32Count;
}
/*@}*/ /* end of group M480_UART_EXPORTED_FUNCTIONS */
/*@}*/ /* end of group M480_UART_Driver */
/*@}*/ /* end of group M480_Device_Driver */
/*** (C) COPYRIGHT 2016 Nuvoton Technology Corp. ***/
