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451 lines
13 KiB
C
451 lines
13 KiB
C
/* ----------------------------------------------------------------------------
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* ATMEL Microcontroller Software Support
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* ----------------------------------------------------------------------------
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* Copyright (c) 2009, Atmel Corporation
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*
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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*
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* - Redistributions of source code must retain the above copyright notice,
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* this list of conditions and the disclaimer below.
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*
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* Atmel's name may not be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
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* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
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* DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
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* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
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* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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* ----------------------------------------------------------------------------
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*/
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/** \addtogroup rtc_module Working with RTC
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* The RTC driver provides the interface to configure and use the RTC
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* peripheral.
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*
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* It manages date, time, and alarms.\n
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* This timer is clocked by the 32kHz system clock, and is not impacted by
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* power management settings (PMC). To be accurate, it is better to use an
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* external 32kHz crystal instead of the internal 32kHz RC.\n
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*
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* It uses BCD format, and time can be set in AM/PM or 24h mode through a
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* configuration bit in the mode register.\n
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*
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* To update date or time, the user has to follow these few steps :
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* <ul>
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* <li>Set UPDTIM and/or UPDCAL bit(s) in RTC_CR,</li>
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* <li>Polling or IRQ on the ACKUPD bit of RTC_CR,</li>
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* <li>Clear ACKUPD bit in RTC_SCCR,</li>
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* <li>Update Time and/or Calendar values in RTC_TIMR/RTC_CALR (BCD format),</li>
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* <li>Clear UPDTIM and/or UPDCAL bit in RTC_CR.</li>
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* </ul>
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* An alarm can be set to happen on month, date, hours, minutes or seconds,
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* by setting the proper "Enable" bit of each of these fields in the Time and
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* Calendar registers.
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* This allows a large number of configurations to be available for the user.
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* Alarm occurence can be detected even by polling or interrupt.
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*
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* A check of the validity of the date and time format and values written by the user is automatically done.
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* Errors are reported through the Valid Entry Register.
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*
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* For more accurate information, please look at the RTC section of the
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* Datasheet.
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*
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* Related files :\n
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* \ref rtc.c\n
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* \ref rtc.h.\n
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*/
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/*@{*/
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/*@}*/
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/**
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* \file
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*
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* Implementation of Real Time Clock (RTC) controller.
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*
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*/
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/*----------------------------------------------------------------------------
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* Headers
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*----------------------------------------------------------------------------*/
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#include "chip.h"
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#include <stdint.h>
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#include <assert.h>
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/*----------------------------------------------------------------------------
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* Exported functions
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*----------------------------------------------------------------------------*/
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/**
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* \brief Sets the RTC in either 12 or 24 hour mode.
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*
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* \param mode Hour mode.
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*/
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extern void RTC_SetHourMode( Rtc* pRtc, uint32_t dwMode )
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{
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assert((dwMode & 0xFFFFFFFE) == 0);
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pRtc->RTC_MR = dwMode ;
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}
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/**
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* \brief Gets the RTC mode.
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*
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* \return Hour mode.
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*/
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extern uint32_t RTC_GetHourMode( Rtc* pRtc )
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{
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uint32_t dwMode ;
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dwMode = pRtc->RTC_MR;
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dwMode &= 0xFFFFFFFE;
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return dwMode ;
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}
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/**
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* \brief Enables the selected interrupt sources of the RTC.
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*
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* \param sources Interrupt sources to enable.
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*/
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extern void RTC_EnableIt( Rtc* pRtc, uint32_t dwSources )
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{
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assert((dwSources & (uint32_t)(~0x1F)) == 0);
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pRtc->RTC_IER = dwSources ;
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}
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/**
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* \brief Disables the selected interrupt sources of the RTC.
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*
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* \param sources Interrupt sources to disable.
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*/
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extern void RTC_DisableIt( Rtc* pRtc, uint32_t dwSources )
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{
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assert((dwSources & (uint32_t)(~0x1F)) == 0);
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pRtc->RTC_IDR = dwSources ;
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}
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/**
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* \brief Sets the current time in the RTC.
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*
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* \note In successive update operations, the user must wait at least one second
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* after resetting the UPDTIM/UPDCAL bit in the RTC_CR before setting these
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* bits again. Please look at the RTC section of the datasheet for detail.
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*
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* \param ucHour Current hour in 12 or 24 hour mode.
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* \param ucMinute Current minute.
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* \param ucSecond Current second.
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*
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* \return 0 sucess, 1 fail to set
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*/
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extern int RTC_SetTime( Rtc* pRtc, uint8_t ucHour, uint8_t ucMinute, uint8_t ucSecond )
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{
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uint32_t dwTime=0 ;
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uint8_t ucHour_bcd ;
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uint8_t ucMin_bcd ;
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uint8_t ucSec_bcd ;
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/* if 12-hour mode, set AMPM bit */
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if ( (pRtc->RTC_MR & RTC_MR_HRMOD) == RTC_MR_HRMOD )
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{
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if ( ucHour > 12 )
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{
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ucHour -= 12 ;
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dwTime |= RTC_TIMR_AMPM ;
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}
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}
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ucHour_bcd = (ucHour%10) | ((ucHour/10)<<4) ;
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ucMin_bcd = (ucMinute%10) | ((ucMinute/10)<<4) ;
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ucSec_bcd = (ucSecond%10) | ((ucSecond/10)<<4) ;
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/* value overflow */
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if ( (ucHour_bcd & (uint8_t)(~RTC_HOUR_BIT_LEN_MASK)) |
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(ucMin_bcd & (uint8_t)(~RTC_MIN_BIT_LEN_MASK)) |
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(ucSec_bcd & (uint8_t)(~RTC_SEC_BIT_LEN_MASK)))
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{
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return 1 ;
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}
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dwTime = ucSec_bcd | (ucMin_bcd << 8) | (ucHour_bcd<<16) ;
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pRtc->RTC_CR |= RTC_CR_UPDTIM ;
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while ((pRtc->RTC_SR & RTC_SR_ACKUPD) != RTC_SR_ACKUPD) ;
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pRtc->RTC_SCCR = RTC_SCCR_ACKCLR ;
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pRtc->RTC_TIMR = dwTime ;
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pRtc->RTC_CR &= (uint32_t)(~RTC_CR_UPDTIM) ;
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pRtc->RTC_SCCR |= RTC_SCCR_SECCLR ;
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return (int)(pRtc->RTC_VER & RTC_VER_NVTIM) ;
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}
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/**
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* \brief Retrieves the current time as stored in the RTC in several variables.
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*
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* \param pucHour If not null, current hour is stored in this variable.
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* \param pucMinute If not null, current minute is stored in this variable.
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* \param pucSecond If not null, current second is stored in this variable.
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*/
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extern void RTC_GetTime( Rtc* pRtc, uint8_t *pucHour, uint8_t *pucMinute, uint8_t *pucSecond )
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{
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uint32_t dwTime ;
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/* Get current RTC time */
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dwTime = pRtc->RTC_TIMR ;
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while ( dwTime != pRtc->RTC_TIMR )
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{
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dwTime = pRtc->RTC_TIMR ;
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}
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/* Hour */
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if ( pucHour )
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{
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*pucHour = ((dwTime & 0x00300000) >> 20) * 10
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+ ((dwTime & 0x000F0000) >> 16);
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if ( (dwTime & RTC_TIMR_AMPM) == RTC_TIMR_AMPM )
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{
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*pucHour += 12 ;
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}
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}
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/* Minute */
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if ( pucMinute )
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{
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*pucMinute = ((dwTime & 0x00007000) >> 12) * 10
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+ ((dwTime & 0x00000F00) >> 8);
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}
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/* Second */
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if ( pucSecond )
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{
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*pucSecond = ((dwTime & 0x00000070) >> 4) * 10
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+ (dwTime & 0x0000000F);
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}
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}
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/**
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* \brief Sets a time alarm on the RTC.
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* The match is performed only on the provided variables;
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* Setting all pointers to 0 disables the time alarm.
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*
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* \note In AM/PM mode, the hour value must have bit #7 set for PM, cleared for
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* AM (as expected in the time registers).
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*
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* \param pucHour If not null, the time alarm will hour-match this value.
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* \param pucMinute If not null, the time alarm will minute-match this value.
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* \param pucSecond If not null, the time alarm will second-match this value.
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*
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* \return 0 success, 1 fail to set
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*/
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extern int RTC_SetTimeAlarm( Rtc* pRtc, uint8_t *pucHour, uint8_t *pucMinute, uint8_t *pucSecond )
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{
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uint32_t dwAlarm=0 ;
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/* Hour */
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if ( pucHour )
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{
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dwAlarm |= RTC_TIMALR_HOUREN | ((*pucHour / 10) << 20) | ((*pucHour % 10) << 16);
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}
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/* Minute */
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if ( pucMinute )
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{
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dwAlarm |= RTC_TIMALR_MINEN | ((*pucMinute / 10) << 12) | ((*pucMinute % 10) << 8);
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}
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/* Second */
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if ( pucSecond )
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{
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dwAlarm |= RTC_TIMALR_SECEN | ((*pucSecond / 10) << 4) | (*pucSecond % 10);
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}
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pRtc->RTC_TIMALR = dwAlarm ;
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return (int)(pRtc->RTC_VER & RTC_VER_NVTIMALR) ;
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}
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/**
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* \brief Retrieves the current year, month and day from the RTC.
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* Month, day and week values are numbered starting at 1.
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*
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* \param pYwear Current year (optional).
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* \param pucMonth Current month (optional).
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* \param pucDay Current day (optional).
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* \param pucWeek Current day in current week (optional).
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*/
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extern void RTC_GetDate( Rtc* pRtc, uint16_t *pwYear, uint8_t *pucMonth, uint8_t *pucDay, uint8_t *pucWeek )
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{
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uint32_t dwDate ;
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/* Get current date (multiple reads are necessary to insure a stable value) */
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do
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{
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dwDate = pRtc->RTC_CALR ;
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}
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while ( dwDate != pRtc->RTC_CALR ) ;
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/* Retrieve year */
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if ( pwYear )
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{
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*pwYear = (((dwDate >> 4) & 0x7) * 1000)
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+ ((dwDate & 0xF) * 100)
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+ (((dwDate >> 12) & 0xF) * 10)
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+ ((dwDate >> 8) & 0xF);
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}
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/* Retrieve month */
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if ( pucMonth )
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{
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*pucMonth = (((dwDate >> 20) & 1) * 10) + ((dwDate >> 16) & 0xF);
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}
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/* Retrieve day */
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if ( pucDay )
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{
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*pucDay = (((dwDate >> 28) & 0x3) * 10) + ((dwDate >> 24) & 0xF);
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}
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/* Retrieve week */
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if ( pucWeek )
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{
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*pucWeek = ((dwDate >> 21) & 0x7);
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}
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}
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/**
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* \brief Sets the current year, month and day in the RTC.
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* Month, day and week values must be numbered starting from 1.
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*
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* \note In successive update operations, the user must wait at least one second
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* after resetting the UPDTIM/UPDCAL bit in the RTC_CR before setting these
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* bits again. Please look at the RTC section of the datasheet for detail.
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*
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* \param wYear Current year.
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* \param ucMonth Current month.
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* \param ucDay Current day.
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* \param ucWeek Day number in current week.
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*
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* \return 0 success, 1 fail to set
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*/
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extern int RTC_SetDate( Rtc* pRtc, uint16_t wYear, uint8_t ucMonth, uint8_t ucDay, uint8_t ucWeek )
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{
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uint32_t wDate ;
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uint8_t ucCent_bcd ;
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uint8_t ucYear_bcd ;
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uint8_t ucMonth_bcd ;
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uint8_t ucDay_bcd ;
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uint8_t ucWeek_bcd ;
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ucCent_bcd = ((wYear/100)%10) | ((wYear/1000)<<4);
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ucYear_bcd = (wYear%10) | (((wYear/10)%10)<<4);
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ucMonth_bcd = ((ucMonth%10) | (ucMonth/10)<<4);
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ucDay_bcd = ((ucDay%10) | (ucDay/10)<<4);
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ucWeek_bcd = ((ucWeek%10) | (ucWeek/10)<<4);
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/* value over flow */
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if ( (ucCent_bcd & (uint8_t)(~RTC_CENT_BIT_LEN_MASK)) |
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(ucYear_bcd & (uint8_t)(~RTC_YEAR_BIT_LEN_MASK)) |
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(ucMonth_bcd & (uint8_t)(~RTC_MONTH_BIT_LEN_MASK)) |
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(ucWeek_bcd & (uint8_t)(~RTC_WEEK_BIT_LEN_MASK)) |
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(ucDay_bcd & (uint8_t)(~RTC_DATE_BIT_LEN_MASK))
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)
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{
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return 1 ;
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}
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/* Convert values to date register value */
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wDate = ucCent_bcd |
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(ucYear_bcd << 8) |
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(ucMonth_bcd << 16) |
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(ucWeek_bcd << 21) |
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(ucDay_bcd << 24);
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/* Update calendar register */
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pRtc->RTC_CR |= RTC_CR_UPDCAL ;
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while ((pRtc->RTC_SR & RTC_SR_ACKUPD) != RTC_SR_ACKUPD) ;
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pRtc->RTC_SCCR = RTC_SCCR_ACKCLR;
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pRtc->RTC_CALR = wDate ;
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pRtc->RTC_CR &= (uint32_t)(~RTC_CR_UPDCAL) ;
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pRtc->RTC_SCCR |= RTC_SCCR_SECCLR; /* clear SECENV in SCCR */
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return (int)(pRtc->RTC_VER & RTC_VER_NVCAL) ;
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}
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/**
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* \brief Sets a date alarm in the RTC.
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* The alarm will match only the provided values;
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* Passing a null-pointer disables the corresponding field match.
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*
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* \param pucMonth If not null, the RTC alarm will month-match this value.
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* \param pucDay If not null, the RTC alarm will day-match this value.
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*
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* \return 0 success, 1 fail to set
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*/
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extern int RTC_SetDateAlarm( Rtc* pRtc, uint8_t *pucMonth, uint8_t *pucDay )
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{
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uint32_t dwAlarm ;
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dwAlarm = ((pucMonth) || (pucDay)) ? (0) : (0x01010000);
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/* Compute alarm field value */
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if ( pucMonth )
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{
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dwAlarm |= RTC_CALALR_MTHEN | ((*pucMonth / 10) << 20) | ((*pucMonth % 10) << 16);
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}
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if ( pucDay )
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{
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dwAlarm |= RTC_CALALR_DATEEN | ((*pucDay / 10) << 28) | ((*pucDay % 10) << 24);
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}
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/* Set alarm */
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pRtc->RTC_CALALR = dwAlarm ;
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return (int)(pRtc->RTC_VER & RTC_VER_NVCALALR) ;
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}
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/**
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* \brief Clear flag bits of status clear command register in the RTC.
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*
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* \param mask Bits mask of cleared events
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*/
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extern void RTC_ClearSCCR( Rtc* pRtc, uint32_t dwMask )
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{
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/* Clear all flag bits in status clear command register */
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dwMask &= RTC_SCCR_ACKCLR | RTC_SCCR_ALRCLR | RTC_SCCR_SECCLR | RTC_SCCR_TIMCLR | RTC_SCCR_CALCLR ;
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pRtc->RTC_SCCR = dwMask ;
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}
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/**
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* \brief Get flag bits of status register in the RTC.
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*
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* \param mask Bits mask of Status Register
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*
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* \return Status register & mask
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*/
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extern uint32_t RTC_GetSR( Rtc* pRtc, uint32_t dwMask )
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{
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uint32_t dwEvent ;
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dwEvent = pRtc->RTC_SR ;
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return (dwEvent & dwMask) ;
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}
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