426 lines
16 KiB
C
426 lines
16 KiB
C
/**************************************************************************//**
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* @file sc.h
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* @brief NUC980 Smartcard (SC) driver header file
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*
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* SPDX-License-Identifier: Apache-2.0
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* @copyright (C) 2018 Nuvoton Technology Corp. All rights reserved.
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*****************************************************************************/
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#ifndef __NU_SC_H__
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#define __NU_SC_H__
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#include "nuc980.h"
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#ifdef __cplusplus
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extern "C"
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{
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#endif
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/** @addtogroup Standard_Driver Standard Driver
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@{
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*/
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/** @addtogroup SC_Driver SC Driver
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@{
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*/
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/** @addtogroup SC_EXPORTED_CONSTANTS SC Exported Constants
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@{
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*/
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#define SC_INTERFACE_NUM 2 /*!< Smartcard interface numbers */ /* NUC980 series has two SC interface */
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#define SC_PIN_STATE_HIGH 1 /*!< Smartcard pin status high */
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#define SC_PIN_STATE_LOW 0 /*!< Smartcard pin status low */
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#define SC_PIN_STATE_IGNORE 0xFFFFFFFF /*!< Ignore pin status */
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#define SC_CLK_ON 1 /*!< Smartcard clock on */
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#define SC_CLK_OFF 0 /*!< Smartcard clock off */
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#define SC_TMR_MODE_0 (0ul << 24) /*!<Timer Operation Mode 0, down count */
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#define SC_TMR_MODE_1 (1ul << 24) /*!<Timer Operation Mode 1, down count, start after detect start bit */
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#define SC_TMR_MODE_2 (2ul << 24) /*!<Timer Operation Mode 2, down count, start after receive start bit */
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#define SC_TMR_MODE_3 (3ul << 24) /*!<Timer Operation Mode 3, down count, use for activation, only timer 0 support this mode */
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#define SC_TMR_MODE_4 (4ul << 24) /*!<Timer Operation Mode 4, down count with reload after timeout */
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#define SC_TMR_MODE_5 (5ul << 24) /*!<Timer Operation Mode 5, down count, start after detect start bit, reload after timeout */
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#define SC_TMR_MODE_6 (6ul << 24) /*!<Timer Operation Mode 6, down count, start after receive start bit, reload after timeout */
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#define SC_TMR_MODE_7 (7ul << 24) /*!<Timer Operation Mode 7, down count, start and reload after detect start bit */
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#define SC_TMR_MODE_8 (8ul << 24) /*!<Timer Operation Mode 8, up count */
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#define SC_TMR_MODE_F (0xF << 24) /*!<Timer Operation Mode 15, down count, reload after detect start bit */
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#define SC_INTEN_ACERRIEN_Msk 0x00000400
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#define SC_INTEN_RXTOIF_Msk 0x00000200
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#define SC_INTEN_INITIEN_Msk 0x00000100
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#define SC_INTEN_CDIEN_Msk 0x00000080
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#define SC_INTEN_BGTIEN_Msk 0x00000040
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#define SC_INTEN_TMR2IEN_Msk 0x00000020
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#define SC_INTEN_TMR1IEN_Msk 0x00000010
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#define SC_INTEN_TMR0IEN_Msk 0x00000008
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#define SC_INTEN_TERRIEN_Msk 0x00000004
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#define SC_INTEN_TBEIEN_Msk 0x00000002
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#define SC_INTEN_RDAIEN_Msk 0x00000001
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#define SC_INTSTS_ACERRIF_Msk 0x00000400
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#define SC_INTSTS_RBTOIF_Msk 0x00000200
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#define SC_INTSTS_CDIF_Msk 0x00000080
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#define SC_INTSTS_TMR2IF_Msk 0x00000020
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#define SC_INTSTS_TMR1IF_Msk 0x00000010
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#define SC_INTSTS_TMR0IF_Msk 0x00000008
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#define SC_INTSTS_TERRIF_Msk 0x00000004
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#define SC_INTSTS_TBEIF_Msk 0x00000002
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#define SC_INTSTS_RDAIF_Msk 0x00000001
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#define SC_CTL_SYNC_Msk 0x40000000
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#define SC_CTL_CDLV_Msk 0x04000000
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#define SC_CTL_CDDBSEL_Msk 0x03000000
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#define SC_CTL_TXRTYEN_Msk 0x00800000
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#define SC_CTL_TXRTY_Msk 0x00700000
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#define SC_CTL_RXRTYEN_Msk 0x00080000
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#define SC_CTL_RXRTY_Msk 0x00070000
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#define SC_CTL_NSB_Msk 0x00008000
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#define SC_CTL_TMRSEL_Msk 0x00006000
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#define SC_CTL_RXTRGLV_Msk 0x000000C0
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#define SC_CTL_AUTOCEN_Msk 0x00000008
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#define SC_CTL_RXOFF_Msk 0x00000002
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#define SC_CTL_SCEN_Msk 0x00000001
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#define SC_PINCTL_SYNC_Msk 0x40000000
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#define SC_PINCTL_PWRINV_Msk 0x00000800
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#define SC_PINCTL_SCDOUT_Msk 0x00000200
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#define SC_PINCTL_CLKKEEP_Msk 0x00000040
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#define SC_PINCTL_SCRST_Msk 0x00000002
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#define SC_PINCTL_PWREN_Msk 0x00000001
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#define SC_ALTCTL_ADACEN_Msk 0x00000800
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#define SC_ALTCTL_CNTEN2_Msk 0x00000080
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#define SC_ALTCTL_CNTEN1_Msk 0x00000040
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#define SC_ALTCTL_CNTEN0_Msk 0x00000020
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#define SC_ALTCTL_RXRST_Msk 0x00000002
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#define SC_ALTCTL_TXRST_Msk 0x00000001
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#define SC_ETUCTL_CMPEN_Msk 0x00008000
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#define SC_ETUCTL_ETURDIV_Msk 0x00000FFF
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#define SC_EGT_EGT_Msk 0x000000FF
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#define SC_STATUS_TXACT_Msk 0x80000000
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#define SC_STATUS_TXOVERR_Msk 0x40000000
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#define SC_STATUS_TXRERR_Msk 0x20000000
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#define SC_STATUS_RXACT_Msk 0x00800000
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#define SC_STATUS_RXOVERR_Msk 0x00400000
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#define SC_STATUS_RXRERR_Msk 0x00200000
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#define SC_STATUS_CDPINSTS_Msk 0x00002000
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#define SC_STATUS_CINSERT_Msk 0x00001000
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#define SC_STATUS_CREMOVE_Msk 0x00000800
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#define SC_STATUS_TXEMPTY_Msk 0x00000200
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#define SC_STATUS_TXOV_Msk 0x00000100
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#define SC_STATUS_BEF_Msk 0x00000040
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#define SC_STATUS_FEF_Msk 0x00000020
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#define SC_STATUS_PEF_Msk 0x00000010
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#define SC_STATUS_RXEMPTY_Msk 0x00000002
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#define SC_STATUS_RXOV_Msk 0x00000001
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/*@}*/ /* end of group NUC980_SC_EXPORTED_CONSTANTS */
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/** @addtogroup NUC980_SC_EXPORTED_FUNCTIONS SC Exported Functions
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@{
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*/
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/**
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* @brief Enable smartcard interrupt.
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* @param[in] sc Smartcard module number
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* @param[in] u32Mask Interrupt mask to be enabled. A combination of
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* - \ref SC_INTEN_ACERRIEN_Msk
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* - \ref SC_INTEN_RXTOIF_Msk
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* - \ref SC_INTEN_INITIEN_Msk
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* - \ref SC_INTEN_CDIEN_Msk
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* - \ref SC_INTEN_BGTIEN_Msk
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* - \ref SC_INTEN_TMR2IEN_Msk
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* - \ref SC_INTEN_TMR1IEN_Msk
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* - \ref SC_INTEN_TMR0IEN_Msk
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* - \ref SC_INTEN_TERRIEN_Msk
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* - \ref SC_INTEN_TBEIEN_Msk
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* - \ref SC_INTEN_RDAIEN_Msk
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* @return None
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* @details The macro is used to enable Auto-convention error interrupt, Receiver buffer time-out interrupt, Initial end interrupt,
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* Card detect interrupt, Block guard time interrupt, Timer2 interrupt, Timer1 interrupt, Timer0 interrupt,
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* Transfer error interrupt, Transmit buffer empty interrupt or Receive data reach trigger level interrupt.
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* \hideinitializer
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*/
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#define SC_ENABLE_INT(sc, u32Mask) \
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do {\
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if(sc == 0)\
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outpw(REG_SC0_INTEN, inpw(REG_SC0_INTEN) | (u32Mask));\
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else\
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outpw(REG_SC1_INTEN, inpw(REG_SC1_INTEN) | (u32Mask));\
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}while(0)
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/**
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* @brief Disable smartcard interrupt.
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* @param[in] sc Smartcard module number
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* @param[in] u32Mask Interrupt mask to be disabled. A combination of
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* - \ref SC_INTEN_ACERRIEN_Msk
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* - \ref SC_INTEN_RXTOIF_Msk
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* - \ref SC_INTEN_INITIEN_Msk
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* - \ref SC_INTEN_CDIEN_Msk
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* - \ref SC_INTEN_BGTIEN_Msk
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* - \ref SC_INTEN_TMR2IEN_Msk
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* - \ref SC_INTEN_TMR1IEN_Msk
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* - \ref SC_INTEN_TMR0IEN_Msk
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* - \ref SC_INTEN_TERRIEN_Msk
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* - \ref SC_INTEN_TBEIEN_Msk
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* - \ref SC_INTEN_RDAIEN_Msk
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* @return None
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* @details The macro is used to disable Auto-convention error interrupt, Receiver buffer time-out interrupt, Initial end interrupt,
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* Card detect interrupt, Block guard time interrupt, Timer2 interrupt, Timer1 interrupt, Timer0 interrupt,
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* Transfer error interrupt, Transmit buffer empty interrupt or Receive data reach trigger level interrupt.
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* \hideinitializer
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*/
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#define SC_DISABLE_INT(sc, u32Mask) \
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do {\
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if(sc == 0)\
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outpw(REG_SC0_INTEN, inpw(REG_SC0_INTEN) & ~(u32Mask));\
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else\
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outpw(REG_SC1_INTEN, inpw(REG_SC1_INTEN) & ~(u32Mask));\
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}while(0)
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/**
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* @brief This macro set VCC pin state of smartcard interface.
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* @param[in] sc Smartcard module number
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* @param[in] u32State Pin state of VCC pin, valid parameters are:
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* \ref SC_PIN_STATE_HIGH :Smartcard pin status high.
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* \ref SC_PIN_STATE_LOW :Smartcard pin status low.
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* @return None
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* @details User can set PWREN (SC_PINCTL[0]) and PWRINV (SC_PINCTL[11])to decide SC_PWR pin is in high or low level.
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* \hideinitializer
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*/
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#define SC_SET_VCC_PIN(sc, u32State) \
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do {\
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if(sc == 0) {\
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while(inpw(REG_SC0_PINCTL) & SC_PINCTL_SYNC_Msk);\
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if(u32State)\
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outpw(REG_SC0_PINCTL, inpw(REG_SC0_PINCTL) | SC_PINCTL_PWREN_Msk);\
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else\
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outpw(REG_SC0_PINCTL, inpw(REG_SC0_PINCTL) & ~SC_PINCTL_PWREN_Msk);\
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} else {\
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while(inpw(REG_SC1_PINCTL) & SC_PINCTL_SYNC_Msk);\
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if(u32State)\
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outpw(REG_SC1_PINCTL, inpw(REG_SC1_PINCTL) | SC_PINCTL_PWREN_Msk);\
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else\
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outpw(REG_SC1_PINCTL, inpw(REG_SC1_PINCTL) & ~SC_PINCTL_PWREN_Msk);\
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}\
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}while(0)
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/**
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* @brief Set CLK output status.
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* @param[in] sc Smartcard module number
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* @param[in] u32OnOff Clock on or off for selected smartcard module, valid values are:
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* \ref SC_CLK_ON :Smartcard clock on.
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* \ref SC_CLK_OFF :Smartcard clock off.
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* @return None
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* @details User can set CLKKEEP (SC_PINCTL[6]) to decide SC_CLK pin always keeps free running or not.
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* \hideinitializer
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*/
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#define SC_SET_CLK_PIN(sc, u32OnOff)\
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do {\
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if(sc == 0) {\
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while(inpw(REG_SC0_PINCTL) & SC_PINCTL_SYNC_Msk);\
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if(u32OnOff)\
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outpw(REG_SC0_PINCTL, inpw(REG_SC0_PINCTL) | SC_PINCTL_CLKKEEP_Msk);\
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else\
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outpw(REG_SC0_PINCTL, inpw(REG_SC0_PINCTL) & ~SC_PINCTL_CLKKEEP_Msk);\
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} else {\
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while(inpw(REG_SC1_PINCTL) & SC_PINCTL_SYNC_Msk);\
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if(u32OnOff)\
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outpw(REG_SC1_PINCTL, inpw(REG_SC1_PINCTL) | SC_PINCTL_CLKKEEP_Msk);\
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else\
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outpw(REG_SC1_PINCTL, inpw(REG_SC1_PINCTL) & ~SC_PINCTL_CLKKEEP_Msk);\
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}\
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}while(0)
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/**
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* @brief Set I/O pin state.
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* @param[in] sc Smartcard module number
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* @param[in] u32State Pin state of I/O pin, valid parameters are:
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* \ref SC_PIN_STATE_HIGH :Smartcard pin status high.
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* \ref SC_PIN_STATE_LOW :Smartcard pin status low.
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* @return None
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* @details User can set SCDOUT(SC_PINCTL[9]) to decide SCDOUT pin to high or low.
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* \hideinitializer
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*/
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#define SC_SET_IO_PIN(sc, u32State)\
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do {\
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if(sc == 0) {\
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while(inpw(REG_SC0_PINCTL) & SC_PINCTL_SYNC_Msk);\
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if(u32State)\
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outpw(REG_SC0_PINCTL, inpw(REG_SC0_PINCTL) | SC_PINCTL_SCDOUT_Msk);\
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else\
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outpw(REG_SC0_PINCTL, inpw(REG_SC0_PINCTL) & ~SC_PINCTL_SCDOUT_Msk);\
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} else {\
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while(inpw(REG_SC1_PINCTL) & SC_PINCTL_SYNC_Msk);\
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if(u32State)\
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outpw(REG_SC1_PINCTL, inpw(REG_SC1_PINCTL) | SC_PINCTL_SCDOUT_Msk);\
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else\
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outpw(REG_SC1_PINCTL, inpw(REG_SC1_PINCTL) & ~SC_PINCTL_SCDOUT_Msk);\
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}\
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}while(0)
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/**
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* @brief Set RST pin state.
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* @param[in] sc Smartcard module number
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* @param[in] u32State Pin state of RST pin, valid parameters are:
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* \ref SC_PIN_STATE_HIGH :Smartcard pin status high.
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* \ref SC_PIN_STATE_LOW :Smartcard pin status low.
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* @return None
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* @details User can set SCRST(SC_PINCTL[1]) to decide SCRST pin to high or low.
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* \hideinitializer
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*/
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#define SC_SET_RST_PIN(sc, u32State)\
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do {\
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if(sc == 0) {\
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while(inpw(REG_SC0_PINCTL) & SC_PINCTL_SYNC_Msk);\
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if(u32State)\
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outpw(REG_SC0_PINCTL, inpw(REG_SC0_PINCTL) | SC_PINCTL_SCRST_Msk);\
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else\
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outpw(REG_SC0_PINCTL, inpw(REG_SC0_PINCTL) & ~SC_PINCTL_SCRST_Msk);\
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} else {\
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while(inpw(REG_SC1_PINCTL) & SC_PINCTL_SYNC_Msk);\
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if(u32State)\
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outpw(REG_SC1_PINCTL, inpw(REG_SC1_PINCTL) | SC_PINCTL_SCRST_Msk);\
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else\
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outpw(REG_SC1_PINCTL, inpw(REG_SC1_PINCTL) & ~SC_PINCTL_SCRST_Msk);\
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}\
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}while(0)
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/**
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* @brief Read one byte from smartcard module receive FIFO.
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* @param[in] sc Smartcard module number
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* @return One byte read from receive FIFO.
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* @details By reading DAT register, the SC will return an 8-bit received data.
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* \hideinitializer
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*/
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#define SC_READ(sc) (sc == 0 ? inpw(REG_SC0_DAT) : inpw(REG_SC1_DAT))
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/**
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* @brief Write one byte to smartcard module transmit FIFO.
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* @param[in] sc Smartcard module number
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* @param[in] u8Data Data to write to transmit FIFO.
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* @return None
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* @details By writing data to DAT register, the SC will send out an 8-bit data.
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* \hideinitializer
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*/
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#define SC_WRITE(sc, u8Data) \
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do {\
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if(sc == 0)\
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outpw(REG_SC0_DAT, u8Data);\
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else\
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outpw(REG_SC1_DAT, u8Data);\
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}while(0)
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/**
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* @brief This macro set smartcard stop bit length.
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* @param[in] sc Smartcard module number
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* @param[in] u32Len Stop bit length, ether 1 or 2.
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* @return None
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* @details Stop bit length must be 1 for T = 1 protocol and 2 for T = 0 protocol.
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* \hideinitializer
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*/
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#define SC_SET_STOP_BIT_LEN(sc, u32Len) \
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do {\
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if(sc == 0) {\
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outpw(REG_SC0_CTL, (inpw(REG_SC0_CTL) & ~SC_CTL_NSB_Msk) | ((u32Len) == 1 ? 1 : 0));\
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} else{ \
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outpw(REG_SC1_CTL, (inpw(REG_SC1_CTL) & ~SC_CTL_NSB_Msk) | ((u32Len) == 1 ? 1 : 0));\
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}\
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}while(0)
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/**
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* @brief Enable/Disable Tx error retry, and set Tx error retry count.
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* @param[in] sc Smartcard module number
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* @param[in] u32Count The number of times of Tx error retry count, between 0~8. 0 means disable Tx error retry.
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* @return None
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* @details This macro enable/disable transmitter retry function when parity error has occurred, and set error retry count.
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*/
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static __inline void SC_SetTxRetry(UINT sc, uint32_t u32Count)
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{
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if (sc == 0)
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{
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while (inpw(REG_SC0_CTL) & SC_CTL_SYNC_Msk);
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outpw(REG_SC0_CTL, inpw(REG_SC0_CTL) & ~(SC_CTL_TXRTY_Msk | SC_CTL_TXRTYEN_Msk));
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if (u32Count != 0)
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{
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while (inpw(REG_SC0_CTL) & SC_CTL_SYNC_Msk);
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outpw(REG_SC0_CTL, inpw(REG_SC0_CTL) | (((u32Count - 1) << 20) | SC_CTL_TXRTYEN_Msk));
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}
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}
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else
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{
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while (inpw(REG_SC1_CTL) & SC_CTL_SYNC_Msk);
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outpw(REG_SC1_CTL, inpw(REG_SC1_CTL) & ~(SC_CTL_TXRTY_Msk | SC_CTL_TXRTYEN_Msk));
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if (u32Count != 0)
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{
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while (inpw(REG_SC1_CTL) & SC_CTL_SYNC_Msk);
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outpw(REG_SC1_CTL, inpw(REG_SC1_CTL) | (((u32Count - 1) << 20) | SC_CTL_TXRTYEN_Msk));
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}
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}
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}
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/**
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* @brief Enable/Disable Rx error retry, and set Rx error retry count.
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* @param[in] sc Smartcard module number
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* @param[in] u32Count The number of times of Rx error retry count, between 0~8. 0 means disable Rx error retry.
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* @return None
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* @details This macro enable/disable receiver retry function when parity error has occurred, and set error retry count.
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*/
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static __inline void SC_SetRxRetry(UINT sc, uint32_t u32Count)
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{
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if (sc == 0)
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{
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while (inpw(REG_SC0_CTL) & SC_CTL_SYNC_Msk);
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outpw(REG_SC0_CTL, inpw(REG_SC0_CTL) & ~(SC_CTL_RXRTY_Msk | SC_CTL_RXRTYEN_Msk));
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if (u32Count != 0)
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{
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while (inpw(REG_SC0_CTL) & SC_CTL_SYNC_Msk);
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outpw(REG_SC0_CTL, inpw(REG_SC0_CTL) | (((u32Count - 1) << 16) | SC_CTL_RXRTYEN_Msk));
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}
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}
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else
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{
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while (inpw(REG_SC1_CTL) & SC_CTL_SYNC_Msk);
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outpw(REG_SC1_CTL, inpw(REG_SC1_CTL) & ~(SC_CTL_RXRTY_Msk | SC_CTL_RXRTYEN_Msk));
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if (u32Count != 0)
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{
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while (inpw(REG_SC1_CTL) & SC_CTL_SYNC_Msk);
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outpw(REG_SC1_CTL, inpw(REG_SC1_CTL) | (((u32Count - 1) << 16) | SC_CTL_RXRTYEN_Msk));
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}
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}
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}
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UINT SC_IsCardInserted(UINT sc);
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void SC_ClearFIFO(UINT sc);
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void SC_Close(UINT sc);
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void SC_Open(UINT sc, UINT u32CardDet, UINT u32PWR);
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void SC_ResetReader(UINT sc);
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void SC_SetBlockGuardTime(UINT sc, UINT u32BGT);
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void SC_SetCharGuardTime(UINT sc, UINT u32CGT);
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void SC_StopAllTimer(UINT sc);
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void SC_StartTimer(UINT sc, UINT u32TimerNum, UINT u32Mode, UINT u32ETUCount);
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void SC_StopTimer(UINT sc, UINT u32TimerNum);
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/*@}*/ /* end of group SC_EXPORTED_FUNCTIONS */
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/*@}*/ /* end of group SC_Driver */
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/*@}*/ /* end of group Standard_Driver */
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#ifdef __cplusplus
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}
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#endif
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#endif //__NU_SC_H__
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