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targets/TARGET_NUVOTON/TARGET_M451/device/StdDriver/m451_scuart.c
- Committer:
- <>
- Date:
- 2016-10-28
- Revision:
- 149:156823d33999
File content as of revision 149:156823d33999:
/**************************************************************************//** * @file scuart.c * @version V3.00 * $Revision: 8 $ * $Date: 15/08/11 10:26a $ * @brief M451 series Smartcard UART mode (SCUART) driver source file * * @note * Copyright (C) 2013~2015 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #include "M451Series.h" /** @addtogroup Standard_Driver Standard Driver @{ */ /** @addtogroup SCUART_Driver SCUART Driver @{ */ /** @addtogroup SCUART_EXPORTED_FUNCTIONS SCUART Exported Functions @{ */ /** * @brief Disable smartcard uart interface. * @param sc The pointer of smartcard module. * @return None * @details The function is used to disable smartcard interface UART mode. */ void SCUART_Close(SC_T* sc) { sc->INTEN = 0; sc->UARTCTL = 0; sc->CTL = 0; } /// @cond HIDDEN_SYMBOLS /** * @brief This function returns module clock of specified SC interface * @param[in] sc The pointer of smartcard module. * @return Module clock of specified SC interface */ static uint32_t SCUART_GetClock(SC_T *sc) { uint32_t u32ClkSrc, u32Num, u32Clk; if(sc == SC0) u32Num = 0; #if 0 /* M451 series has only one SC interface */ else if(sc == SC1) u32Num = 1; else if(sc == SC2) u32Num = 2; else if(sc == SC3) u32Num = 3; else if(sc == SC4) u32Num = 4; else if(sc == SC5) u32Intf = 5; #endif else return FALSE; u32ClkSrc = (CLK->CLKSEL3 >> (2 * u32Num)) & CLK_CLKSEL3_SC0SEL_Msk; // Get smartcard module clock if(u32ClkSrc == 0) u32Clk = __HXT; else if(u32ClkSrc == 1) u32Clk = CLK_GetPLLClockFreq(); else if(u32ClkSrc == 2) { SystemCoreClockUpdate(); if(CLK->CLKSEL0 & CLK_CLKSEL0_PCLK0SEL_Msk) u32Clk = SystemCoreClock / 2; else u32Clk = SystemCoreClock; } else u32Clk = __HIRC; #if 0 /* M451 series has only one SC interface */ if(u32Num < 4) { u32Clk /= (((CLK->CLKDIV1 >> (8 * u32Num)) & CLK_CLKDIV1_SC0DIV_Msk) + 1); } else { u32Clk /= (((CLK->CLKDIV2 >> (8 * (u32Num - 4))) & CLK_CLKDIV2_SC4DIV_Msk) + 1); } #else u32Clk /= (((CLK->CLKDIV1 >> (8 * u32Num)) & CLK_CLKDIV1_SC0DIV_Msk) + 1); #endif return u32Clk; } /// @endcond HIDDEN_SYMBOLS /** * @brief Enable smartcard uart interface. * @param[in] sc The pointer of smartcard module. * @param[in] u32baudrate Target baudrate of smartcard module. * @return Actual baudrate of smartcard mode. * @details This function use to enable smartcard module UART mode and set baudrate. * @note This function configures character width to 8 bits, 1 stop bit, and no parity. * And can use \ref SCUART_SetLineConfig function to update these settings. */ uint32_t SCUART_Open(SC_T* sc, uint32_t u32baudrate) { uint32_t u32Clk = SCUART_GetClock(sc), u32Div; // Calculate divider for target baudrate u32Div = (u32Clk + (u32baudrate >> 1) - 1) / u32baudrate - 1; sc->CTL = SC_CTL_SCEN_Msk | SC_CTL_NSB_Msk; // Enable smartcard interface and stop bit = 1 sc->UARTCTL = SCUART_CHAR_LEN_8 | SCUART_PARITY_NONE | SC_UARTCTL_UARTEN_Msk; // Enable UART mode, disable parity and 8 bit per character sc->ETUCTL = u32Div; return(u32Clk / (u32Div+1)); } /** * @brief Read data from smartcard UART interface. * @param[in] sc The pointer of smartcard module. * @param[in] pu8RxBuf The buffer to store receive the data. * @param[in] u32ReadBytes Target number of characters to receive. * @return Actual character number reads to buffer. * @details The function is used to read Rx data from RX FIFO. * @note This function does not block and return immediately if there's no data available. */ uint32_t SCUART_Read(SC_T* sc, uint8_t *pu8RxBuf, uint32_t u32ReadBytes) { uint32_t u32Count; for(u32Count = 0; u32Count < u32ReadBytes; u32Count++) { if(SCUART_GET_RX_EMPTY(sc)) { // no data available break; } pu8RxBuf[u32Count] = SCUART_READ(sc); // get data from FIFO } return u32Count; } /** * @brief This function use to config smartcard UART mode line setting. * @param[in] sc The pointer of smartcard module. * @param[in] u32Baudrate Target baudrate of smartcard module. If this value is 0, UART baudrate will not change. * @param[in] u32DataWidth The data length, could be: * - \ref SCUART_CHAR_LEN_5 * - \ref SCUART_CHAR_LEN_6 * - \ref SCUART_CHAR_LEN_7 * - \ref SCUART_CHAR_LEN_8 * @param[in] u32Parity The parity setting, could be: * - \ref SCUART_PARITY_NONE * - \ref SCUART_PARITY_ODD * - \ref SCUART_PARITY_EVEN * @param[in] u32StopBits The stop bit length, could be: * - \ref SCUART_STOP_BIT_1 * - \ref SCUART_STOP_BIT_2 * @return Actual baudrate of smartcard. * @details Smartcard UART mode is operated in LIN data frame. */ uint32_t SCUART_SetLineConfig(SC_T* sc, uint32_t u32Baudrate, uint32_t u32DataWidth, uint32_t u32Parity, uint32_t u32StopBits) { uint32_t u32Clk = SCUART_GetClock(sc), u32Div; if(u32Baudrate == 0) { // keep original baudrate setting u32Div = sc->ETUCTL & SC_ETUCTL_ETURDIV_Msk; } else { // Calculate divider for target baudrate u32Div = (u32Clk + (u32Baudrate >> 1) - 1) / u32Baudrate - 1; sc->ETUCTL = u32Div; } sc->CTL = u32StopBits | SC_CTL_SCEN_Msk; // Set stop bit sc->UARTCTL = u32Parity | u32DataWidth | SC_UARTCTL_UARTEN_Msk; // Set character width and parity return(u32Clk / (u32Div+1)); } /** * @brief This function use to set receive timeout count. * @param[in] sc The pointer of smartcard module. * @param[in] u32TOC Rx timeout counter, using baudrate as counter unit. Valid range are 0~0x1FF, * set this value to 0 will disable timeout counter. * @return None * @details The time-out counter resets and starts counting whenever the RX buffer received a * new data word. Once the counter decrease to 1 and no new data is received or CPU * does not read any data from FIFO, a receiver time-out interrupt will be generated. */ void SCUART_SetTimeoutCnt(SC_T* sc, uint32_t u32TOC) { sc->RXTOUT = u32TOC; } /** * @brief Write data to smartcard UART interface. * @param[in] sc The pointer of smartcard module. * @param[in] pu8TxBuf The buffer containing data to send to transmit FIFO. * @param[in] u32WriteBytes Number of data to send. * @return None * @details This function is to write data into transmit FIFO to send data out. * @note This function blocks until all data write into FIFO. */ void SCUART_Write(SC_T* sc, uint8_t *pu8TxBuf, uint32_t u32WriteBytes) { uint32_t u32Count; for(u32Count = 0; u32Count != u32WriteBytes; u32Count++) { while(SCUART_GET_TX_FULL(sc)); // Wait 'til FIFO not full sc->DAT = pu8TxBuf[u32Count]; // Write 1 byte to FIFO } } /*@}*/ /* end of group SCUART_EXPORTED_FUNCTIONS */ /*@}*/ /* end of group SCUART_Driver */ /*@}*/ /* end of group Standard_Driver */ /*** (C) COPYRIGHT 2013~2015 Nuvoton Technology Corp. ***/