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rt-thread/bsp/nuvoton/libraries/m2354/StdDriver/src/nu_sc.c
Wayne Lin 4fcb87a8aa Support M2354 platform. 
1. Add NuMaker-M2354 BSP.
2. Fix SLCD library and modify its demo.
2021-02-05 18:52:13 +08:00

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/**************************************************************************//**
* @file sc.c
* @version V3.00
* @brief Smartcard(SC) driver source file
*
* @copyright SPDX-License-Identifier: Apache-2.0
* @copyright Copyright (C) 2020 Nuvoton Technology Corp. All rights reserved.
*****************************************************************************/
#include "NuMicro.h"
/* Below are variables used locally by SC driver and does not want to parse by doxygen unless HIDDEN_SYMBOLS is defined */
/** @cond HIDDEN_SYMBOLS */
static uint32_t g_u32CardStateIgnore[SC_INTERFACE_NUM] = {0UL, 0UL, 0UL};
/** @endcond HIDDEN_SYMBOLS */
/** @addtogroup Standard_Driver Standard Driver
@{
*/
/** @addtogroup SC_Driver SC Driver
@{
*/
/** @addtogroup SC_EXPORTED_FUNCTIONS SC Exported Functions
@{
*/
/**
* @brief Indicates specified smartcard slot status
*
* @param[in] sc The pointer of smartcard module.
*
* @return Card insert status
* @retval TRUE Card insert
* @retval FALSE Card remove
*
* @details This function is used to check if specified smartcard slot is presented.
*/
uint32_t SC_IsCardInserted(SC_T *sc)
{
uint32_t u32Ret;
/* put conditions into two variable to remove IAR compilation warning */
uint32_t cond1 = ((sc->STATUS & SC_STATUS_CDPINSTS_Msk) >> SC_STATUS_CDPINSTS_Pos);
uint32_t cond2 = ((sc->CTL & SC_CTL_CDLV_Msk) >> SC_CTL_CDLV_Pos);
if(((sc == SC0) || (sc == SC0_NS)) && (g_u32CardStateIgnore[0] == 1UL))
{
u32Ret = (uint32_t)TRUE;
}
else if(((sc == SC1) || (sc == SC1_NS)) && (g_u32CardStateIgnore[1] == 1UL))
{
u32Ret = (uint32_t)TRUE;
}
else if(((sc == SC2) || (sc == SC2_NS)) && (g_u32CardStateIgnore[2] == 1UL))
{
u32Ret = (uint32_t)TRUE;
}
else if(cond1 != cond2)
{
u32Ret = (uint32_t)FALSE;
}
else
{
u32Ret = (uint32_t)TRUE;
}
return u32Ret;
}
/*
* @brief Reset the Tx and Rx FIFO of smartcard module
*
* @param[in] sc The pointer of smartcard module.
*
* @return None
*
* @details This function reset both transmit and receive FIFO of specified smartcard module.
*/
void SC_ClearFIFO(SC_T *sc)
{
while((sc->ALTCTL & SC_ALTCTL_SYNC_Msk) == SC_ALTCTL_SYNC_Msk) {}
sc->ALTCTL |= (SC_ALTCTL_TXRST_Msk | SC_ALTCTL_RXRST_Msk);
}
/**
* @brief Disable specified smartcard module
*
* @param[in] sc The pointer of smartcard module.
*
* @return None
*
* @details This function disable specified smartcard module, and force all transition to IDLE state.
*/
void SC_Close(SC_T *sc)
{
sc->INTEN = 0UL;
while((sc->PINCTL & SC_PINCTL_SYNC_Msk) == SC_PINCTL_SYNC_Msk) {}
sc->PINCTL = 0UL;
sc->ALTCTL = 0UL;
while((sc->CTL & SC_CTL_SYNC_Msk) == SC_CTL_SYNC_Msk) {}
sc->CTL = 0UL;
}
/**
* @brief Initialized smartcard module
*
* @param[in] sc The pointer of smartcard module.
* @param[in] u32CardDet Card detect polarity, select the SC_CD pin state which indicates card absent. Could be:
* -\ref SC_PIN_STATE_HIGH
* -\ref SC_PIN_STATE_LOW
* -\ref SC_PIN_STATE_IGNORE, no card detect pin, always assumes card present.
* @param[in] u32PWR Power off polarity, select the SC_PWR pin state which could set smartcard VCC to high level. Could be:
* -\ref SC_PIN_STATE_HIGH
* -\ref SC_PIN_STATE_LOW
*
* @return None
*
* @details This function initialized smartcard module.
*/
void SC_Open(SC_T *sc, uint32_t u32CardDet, uint32_t u32PWR)
{
uint32_t u32Reg = 0UL, u32Intf;
if((sc == SC0) || (sc == SC0_NS))
{
u32Intf = 0UL;
}
else if((sc == SC1) || (sc == SC1_NS))
{
u32Intf = 1UL;
}
else
{
u32Intf = 2UL;
}
if(u32CardDet != SC_PIN_STATE_IGNORE)
{
u32Reg = u32CardDet ? 0UL : SC_CTL_CDLV_Msk;
g_u32CardStateIgnore[u32Intf] = 0UL;
}
else
{
g_u32CardStateIgnore[u32Intf] = 1UL;
}
sc->PINCTL = u32PWR ? 0UL : SC_PINCTL_PWRINV_Msk;
while((sc->CTL & SC_CTL_SYNC_Msk) == SC_CTL_SYNC_Msk) {}
sc->CTL = SC_CTL_SCEN_Msk | SC_CTL_TMRSEL_Msk | u32Reg;
}
/**
* @brief Reset specified smartcard module
*
* @param[in] sc The pointer of smartcard module.
*
* @return None
*
* @details This function reset specified smartcard module to its default state for activate smartcard.
*/
void SC_ResetReader(SC_T *sc)
{
uint32_t u32Intf;
if((sc == SC0) || (sc == SC0_NS))
{
u32Intf = 0UL;
}
else if((sc == SC1) || (sc == SC1_NS))
{
u32Intf = 1UL;
}
else
{
u32Intf = 2UL;
}
/* Reset FIFO, enable auto de-activation while card removal */
sc->ALTCTL |= (SC_ALTCTL_TXRST_Msk | SC_ALTCTL_RXRST_Msk | SC_ALTCTL_ADACEN_Msk);
/* Set Rx trigger level to 1 character, longest card detect debounce period, disable error retry (EMV ATR does not use error retry) */
while((sc->CTL & SC_CTL_SYNC_Msk) == SC_CTL_SYNC_Msk) {}
sc->CTL &= ~(SC_CTL_RXTRGLV_Msk |
SC_CTL_CDDBSEL_Msk |
SC_CTL_TXRTY_Msk |
SC_CTL_TXRTYEN_Msk |
SC_CTL_RXRTY_Msk |
SC_CTL_RXRTYEN_Msk);
while((sc->CTL & SC_CTL_SYNC_Msk) == SC_CTL_SYNC_Msk) {}
/* Enable auto convention, and all three smartcard internal timers */
sc->CTL |= SC_CTL_AUTOCEN_Msk | SC_CTL_TMRSEL_Msk;
/* Disable Rx timeout */
sc->RXTOUT = 0UL;
/* 372 clocks per ETU by default */
sc->ETUCTL = 371UL;
/* Enable necessary interrupt for smartcard operation */
if(g_u32CardStateIgnore[u32Intf]) /* Do not enable card detect interrupt if card present state ignore */
{
sc->INTEN = (SC_INTEN_RDAIEN_Msk |
SC_INTEN_TERRIEN_Msk |
SC_INTEN_TMR0IEN_Msk |
SC_INTEN_TMR1IEN_Msk |
SC_INTEN_TMR2IEN_Msk |
SC_INTEN_BGTIEN_Msk |
SC_INTEN_ACERRIEN_Msk);
}
else
{
sc->INTEN = (SC_INTEN_RDAIEN_Msk |
SC_INTEN_TERRIEN_Msk |
SC_INTEN_TMR0IEN_Msk |
SC_INTEN_TMR1IEN_Msk |
SC_INTEN_TMR2IEN_Msk |
SC_INTEN_BGTIEN_Msk |
SC_INTEN_ACERRIEN_Msk |
SC_INTEN_CDIEN_Msk);
}
return;
}
/**
* @brief Set Block Guard Time (BGT)
*
* @param[in] sc The pointer of smartcard module.
* @param[in] u32BGT Block guard time using ETU as unit, valid range are between 1 ~ 32.
*
* @return None
*
* @details This function is used to configure block guard time (BGT) of specified smartcard module.
*/
void SC_SetBlockGuardTime(SC_T *sc, uint32_t u32BGT)
{
sc->CTL = (sc->CTL & ~SC_CTL_BGT_Msk) | ((u32BGT - 1UL) << SC_CTL_BGT_Pos);
}
/**
* @brief Set Character Guard Time (CGT)
*
* @param[in] sc The pointer of smartcard module.
* @param[in] u32CGT Character guard time using ETU as unit, valid range are between 11 ~ 267.
*
* @return None
*
* @details This function is used to configure character guard time (CGT) of specified smartcard module.
* @note Before using this API, user should set the correct stop bit length first.
*/
void SC_SetCharGuardTime(SC_T *sc, uint32_t u32CGT)
{
/* CGT is "START bit" + "8-bits" + "Parity bit" + "STOP bit(s)" + "EGT counts" */
u32CGT -= ((sc->CTL & SC_CTL_NSB_Msk) == SC_CTL_NSB_Msk) ? 11UL : 12UL;
sc->EGT = u32CGT;
}
/**
* @brief Stop all smartcard timer
*
* @param[in] sc The pointer of smartcard module.
*
* @return None
*
* @note This function stop the timers within specified smartcard module, \b not timer module.
*/
void SC_StopAllTimer(SC_T *sc)
{
while((sc->ALTCTL & SC_ALTCTL_SYNC_Msk) == SC_ALTCTL_SYNC_Msk) {}
sc->ALTCTL &= ~(SC_ALTCTL_CNTEN0_Msk | SC_ALTCTL_CNTEN1_Msk | SC_ALTCTL_CNTEN2_Msk);
}
/**
* @brief Configure and start smartcard timer
*
* @param[in] sc The pointer of smartcard module.
* @param[in] u32TimerNum Timer to start. Valid values are 0, 1, 2.
* @param[in] u32Mode Timer operating mode, valid values are:
* - \ref SC_TMR_MODE_0
* - \ref SC_TMR_MODE_1
* - \ref SC_TMR_MODE_2
* - \ref SC_TMR_MODE_3
* - \ref SC_TMR_MODE_4
* - \ref SC_TMR_MODE_5
* - \ref SC_TMR_MODE_6
* - \ref SC_TMR_MODE_7
* - \ref SC_TMR_MODE_8
* - \ref SC_TMR_MODE_F
* @param[in] u32ETUCount Timer timeout duration, ETU based. For timer 0, valid range are between 1 ~ 0x1000000 ETUs.
* For timer 1 and timer 2, valid range are between 1 ~ 0x100 ETUs.
*
* @return None
*
* @note This function start the timer within specified smartcard module, \b not timer module.
* @note Depend on the timer operating mode, timer may not start counting immediately and starts when condition match.
*/
void SC_StartTimer(SC_T *sc, uint32_t u32TimerNum, uint32_t u32Mode, uint32_t u32ETUCount)
{
uint32_t u32Reg = u32Mode | (SC_TMRCTL0_CNT_Msk & (u32ETUCount - 1UL));
while((sc->ALTCTL & SC_ALTCTL_SYNC_Msk) == SC_ALTCTL_SYNC_Msk) {}
if(u32TimerNum == 0UL)
{
while((sc->TMRCTL0 & SC_TMRCTL0_SYNC_Msk) == SC_TMRCTL0_SYNC_Msk) {}
sc->TMRCTL0 = u32Reg;
sc->ALTCTL |= SC_ALTCTL_CNTEN0_Msk;
}
else if(u32TimerNum == 1UL)
{
while((sc->TMRCTL1 & SC_TMRCTL1_SYNC_Msk) == SC_TMRCTL1_SYNC_Msk) {}
sc->TMRCTL1 = u32Reg;
sc->ALTCTL |= SC_ALTCTL_CNTEN1_Msk;
}
else /* timer 2 */
{
while((sc->TMRCTL2 & SC_TMRCTL2_SYNC_Msk) == SC_TMRCTL2_SYNC_Msk) {}
sc->TMRCTL2 = u32Reg;
sc->ALTCTL |= SC_ALTCTL_CNTEN2_Msk;
}
}
/**
* @brief Stop a smartcard timer
*
* @param[in] sc The pointer of smartcard module.
* @param[in] u32TimerNum Timer to stop. Valid values are 0, 1, 2.
*
* @return None
*
* @note This function stop the timer within specified smartcard module, \b not timer module.
*/
void SC_StopTimer(SC_T *sc, uint32_t u32TimerNum)
{
while(sc->ALTCTL & SC_ALTCTL_SYNC_Msk) {}
if(u32TimerNum == 0UL) /* timer 0 */
{
sc->ALTCTL &= ~SC_ALTCTL_CNTEN0_Msk;
}
else if(u32TimerNum == 1UL) /* timer 1 */
{
sc->ALTCTL &= ~SC_ALTCTL_CNTEN1_Msk;
}
else /* timer 2 */
{
sc->ALTCTL &= ~SC_ALTCTL_CNTEN2_Msk;
}
}
/**
* @brief Get smartcard clock frequency
*
* @param[in] sc The pointer of smartcard module.
*
* @return Smartcard frequency in kHZ
*
* @details This function is used to get specified smartcard module clock frequency in kHz.
*/
uint32_t SC_GetInterfaceClock(SC_T *sc)
{
uint32_t u32ClkSrc = 0, u32Num = 0, u32ClkFreq = __HIRC, u32Div = 0;
/* Get smartcard module clock source and divider */
if((sc == SC0) || (sc == SC0_NS))
{
u32Num = 0UL;
u32ClkSrc = CLK_GetModuleClockSource(SC0_MODULE);
u32Div = CLK_GetModuleClockDivider(SC0_MODULE);
}
else if((sc == SC1) || (sc == SC1_NS))
{
u32Num = 1UL;
u32ClkSrc = CLK_GetModuleClockSource(SC1_MODULE);
u32Div = CLK_GetModuleClockDivider(SC1_MODULE);
}
else if((sc == SC2) || (sc == SC2_NS))
{
u32Num = 2UL;
u32ClkSrc = CLK_GetModuleClockSource(SC2_MODULE);
u32Div = CLK_GetModuleClockDivider(SC2_MODULE);
}
else
{
u32ClkFreq = 0UL;
}
if(u32ClkFreq != 0UL)
{
/* Get smartcard module clock */
if(u32ClkSrc == 0UL)
{
u32ClkFreq = __HXT;
}
else if(u32ClkSrc == 1UL)
{
u32ClkFreq = CLK_GetPLLClockFreq();
}
else if(u32ClkSrc == 2UL)
{
if(u32Num == 1UL)
{
u32ClkFreq = CLK_GetPCLK1Freq();
}
else
{
u32ClkFreq = CLK_GetPCLK0Freq();
}
}
else
{
u32ClkFreq = __HIRC;
}
u32ClkFreq /= (u32Div + 1UL) * 1000UL;
}
return u32ClkFreq;
}
/**@}*/ /* end of group SC_EXPORTED_FUNCTIONS */
/**@}*/ /* end of group SC_Driver */
/**@}*/ /* end of group Standard_Driver */
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