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Location: HydroBot/protomodule-firmware/Drivers/STM32F0xx_HAL_Driver/Src/stm32f0xx_hal_rtc.c - annotation

matthewreed
Added ability to read ph meter from analog input
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/**
  ******************************************************************************
  * @file    stm32f0xx_hal_rtc.c
  * @author  MCD Application Team
  * @brief   RTC HAL module driver.
  *          This file provides firmware functions to manage the following 
  *          functionalities of the Real Time Clock (RTC) peripheral:
  *           + Initialization and de-initialization functions
  *           + RTC Time and Date functions
  *           + RTC Alarm functions
  *           + Peripheral Control functions   
  *           + Peripheral State functions
  *         
  @verbatim
  ==============================================================================
                  ##### How to use RTC Driver #####
 ===================================================================
    [..] 
        (+) Enable the RTC domain access (see description in the section above).
        (+) Configure the RTC Prescaler (Asynchronous and Synchronous) and RTC hour 
            format using the HAL_RTC_Init() function.
  
    *** Time and Date configuration ***
    ===================================
    [..] 
        (+) To configure the RTC Calendar (Time and Date) use the HAL_RTC_SetTime() 
            and HAL_RTC_SetDate() functions.
        (+) To read the RTC Calendar, use the HAL_RTC_GetTime() and HAL_RTC_GetDate() functions. 
  
    *** Alarm configuration ***
    ===========================
    [..]
    (+) To configure the RTC Alarm use the HAL_RTC_SetAlarm() function.
            You can also configure the RTC Alarm with interrupt mode using the 
            HAL_RTC_SetAlarm_IT() function.
        (+) To read the RTC Alarm, use the HAL_RTC_GetAlarm() function.

                  ##### RTC and low power modes #####
 ===================================================================
    [..] The MCU can be woken up from a low power mode by an RTC alternate 
         function.
    [..] The RTC alternate functions are the RTC alarm (Alarm A), 
         RTC wake-up, RTC tamper event detection and RTC time stamp event detection.
         These RTC alternate functions can wake up the system from the Stop and 
         Standby low power modes.
    [..] The system can also wake up from low power modes without depending 
         on an external interrupt (Auto-wake-up mode), by using the RTC alarm 
         or the RTC wake-up events.
    [..] The RTC provides a programmable time base for waking up from the 
         Stop or Standby mode at regular intervals.
         Wake-up from STOP and STANDBY modes is possible only when the RTC clock source
         is LSE or LSI.
     
  @endverbatim
  ******************************************************************************
  * @attention
  *
  * <h2><center>&copy; COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
  *
  * Redistribution and use in source and binary forms, with or without modification,
  * are permitted provided that the following conditions are met:
  *   1. Redistributions of source code must retain the above copyright notice,
  *      this list of conditions and the following disclaimer.
  *   2. Redistributions in binary form must reproduce the above copyright notice,
  *      this list of conditions and the following disclaimer in the documentation
  *      and/or other materials provided with the distribution.
  *   3. Neither the name of STMicroelectronics nor the names of its contributors
  *      may be used to endorse or promote products derived from this software
  *      without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
  * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
  * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  *
  ******************************************************************************  
  */

/* Includes ------------------------------------------------------------------*/
#include "stm32f0xx_hal.h"

/** @addtogroup STM32F0xx_HAL_Driver
  * @{
  */

/** @addtogroup RTC
  * @brief RTC HAL module driver
  * @{
  */

#ifdef HAL_RTC_MODULE_ENABLED

/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* Private function prototypes -----------------------------------------------*/
/* Exported functions ---------------------------------------------------------*/

/** @addtogroup RTC_Exported_Functions
  * @{
  */
  
/** @addtogroup RTC_Exported_Functions_Group1
 *  @brief    Initialization and Configuration functions 
 *
@verbatim    
 ===============================================================================
              ##### Initialization and de-initialization functions #####
 ===============================================================================
   [..] This section provides functions allowing to initialize and configure the 
         RTC Prescaler (Synchronous and Asynchronous), RTC Hour format, disable 
         RTC registers Write protection, enter and exit the RTC initialization mode, 
         RTC registers synchronization check and reference clock detection enable.
         (#) The RTC Prescaler is programmed to generate the RTC 1Hz time base. 
             It is split into 2 programmable prescalers to minimize power consumption.
             (++) A 7-bit asynchronous prescaler and a 15-bit synchronous prescaler.
             (++) When both prescalers are used, it is recommended to configure the 
                 asynchronous prescaler to a high value to minimize power consumption.
         (#) All RTC registers are Write protected. Writing to the RTC registers
             is enabled by writing a key into the Write Protection register, RTC_WPR.
         (#) To configure the RTC Calendar, user application should enter 
             initialization mode. In this mode, the calendar counter is stopped 
             and its value can be updated. When the initialization sequence is 
             complete, the calendar restarts counting after 4 RTCCLK cycles.
         (#) To read the calendar through the shadow registers after Calendar 
             initialization, calendar update or after wake-up from low power modes 
             the software must first clear the RSF flag. The software must then 
             wait until it is set again before reading the calendar, which means 
             that the calendar registers have been correctly copied into the 
             RTC_TR and RTC_DR shadow registers.The HAL_RTC_WaitForSynchro() function 
             implements the above software sequence (RSF clear and RSF check).
 
@endverbatim
  * @{
  */

/**
  * @brief  Initialize the RTC according to the specified parameters 
  *         in the RTC_InitTypeDef structure and initialize the associated handle.
  * @param  hrtc RTC handle
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_Init(RTC_HandleTypeDef *hrtc)
{
  /* Check the RTC peripheral state */
  if(hrtc == NULL)
  {
     return HAL_ERROR;
  }
  
  /* Check the parameters */
  assert_param(IS_RTC_ALL_INSTANCE(hrtc->Instance));
  assert_param(IS_RTC_HOUR_FORMAT(hrtc->Init.HourFormat));
  assert_param(IS_RTC_ASYNCH_PREDIV(hrtc->Init.AsynchPrediv));
  assert_param(IS_RTC_SYNCH_PREDIV(hrtc->Init.SynchPrediv));
  assert_param(IS_RTC_OUTPUT(hrtc->Init.OutPut));
  assert_param(IS_RTC_OUTPUT_POL(hrtc->Init.OutPutPolarity));
  assert_param(IS_RTC_OUTPUT_TYPE(hrtc->Init.OutPutType));
    
  if(hrtc->State == HAL_RTC_STATE_RESET)
  {
    /* Allocate lock resource and initialize it */
    hrtc->Lock = HAL_UNLOCKED;

    /* Initialize RTC MSP */
    HAL_RTC_MspInit(hrtc);
  }
  
  /* Set RTC state */  
  hrtc->State = HAL_RTC_STATE_BUSY;  
       
  /* Disable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc);

  /* Set Initialization mode */
  if(RTC_EnterInitMode(hrtc) != HAL_OK)
  {
    /* Enable the write protection for RTC registers */
    __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); 
    
    /* Set RTC state */
    hrtc->State = HAL_RTC_STATE_ERROR;
    
    return HAL_ERROR;
  } 
  else
  { 
    /* Clear RTC_CR FMT, OSEL and POL Bits */
    hrtc->Instance->CR &= ((uint32_t)~(RTC_CR_FMT | RTC_CR_OSEL | RTC_CR_POL));
    /* Set RTC_CR register */
    hrtc->Instance->CR |= (uint32_t)(hrtc->Init.HourFormat | hrtc->Init.OutPut | hrtc->Init.OutPutPolarity);
    
    /* Configure the RTC PRER */
    hrtc->Instance->PRER = (uint32_t)(hrtc->Init.SynchPrediv);
    hrtc->Instance->PRER |= (uint32_t)(hrtc->Init.AsynchPrediv << 16U);
    
    /* Exit Initialization mode */
    hrtc->Instance->ISR &= (uint32_t)~RTC_ISR_INIT; 

    /* If  CR_BYPSHAD bit = 0, wait for synchro else this check is not needed */
    if((hrtc->Instance->CR & RTC_CR_BYPSHAD) == RESET)
    {
      if(HAL_RTC_WaitForSynchro(hrtc) != HAL_OK)
      {
        /* Enable the write protection for RTC registers */
        __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);

        hrtc->State = HAL_RTC_STATE_ERROR;

        return HAL_ERROR;
      }
    }

    hrtc->Instance->TAFCR &= (uint32_t)~RTC_TAFCR_ALARMOUTTYPE;
    hrtc->Instance->TAFCR |= (uint32_t)(hrtc->Init.OutPutType); 
    
    /* Enable the write protection for RTC registers */
    __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); 
    
    /* Set RTC state */
    hrtc->State = HAL_RTC_STATE_READY;
    
    return HAL_OK;
  }
}

/**
  * @brief  DeInitialize the RTC peripheral.
  * @param  hrtc RTC handle
  * @note   This function doesn't reset the RTC Backup Data registers.
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_DeInit(RTC_HandleTypeDef *hrtc)
{
#if defined (STM32F030xC) || defined (STM32F070xB) || \
    defined (STM32F071xB) || defined (STM32F072xB) || defined (STM32F078xx) || \
    defined (STM32F091xC) || defined (STM32F098xx)
  uint32_t tickstart = 0;
#endif /* defined (STM32F030xC) || defined (STM32F070xB) ||\
          defined (STM32F071xB) || defined (STM32F072xB) || defined (STM32F078xx) || \
          defined (STM32F091xC) || defined (STM32F098xx) ||*/

  /* Check the parameters */
  assert_param(IS_RTC_ALL_INSTANCE(hrtc->Instance));

  /* Set RTC state */
  hrtc->State = HAL_RTC_STATE_BUSY; 
  
  /* Disable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc);
  
  /* Set Initialization mode */
  if(RTC_EnterInitMode(hrtc) != HAL_OK)
  {
    /* Enable the write protection for RTC registers */
    __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); 
    
    /* Set RTC state */
    hrtc->State = HAL_RTC_STATE_ERROR;
    
    return HAL_ERROR;
  }  
  else
  {
    /* Reset TR, DR and CR registers */
    hrtc->Instance->TR = 0x00000000U;
    hrtc->Instance->DR = 0x00002101U;
    
#if defined (STM32F030xC) || defined (STM32F070xB) || \
    defined (STM32F071xB) || defined (STM32F072xB) || defined (STM32F078xx) || \
    defined (STM32F091xC) || defined (STM32F098xx)    
    /* Reset All CR bits except CR[2:0] */
    hrtc->Instance->CR &= 0x00000007U;
    
    tickstart = HAL_GetTick();
    
    /* Wait till WUTWF flag is set and if Time out is reached exit */
    while(((hrtc->Instance->ISR) & RTC_ISR_WUTWF) == (uint32_t)RESET)
    {
      if((HAL_GetTick() - tickstart ) >  RTC_TIMEOUT_VALUE)
      { 
        /* Enable the write protection for RTC registers */
        __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); 
        
        /* Set RTC state */
        hrtc->State = HAL_RTC_STATE_TIMEOUT;
        
        return HAL_TIMEOUT;
      } 
    }
#endif /* defined (STM32F030xC) || defined (STM32F070xB) ||\
          defined (STM32F071xB) || defined (STM32F072xB) || defined (STM32F078xx) || \
          defined (STM32F091xC) || defined (STM32F098xx) ||*/
          
    /* Reset all RTC CR register bits */
    hrtc->Instance->CR &= 0x00000000U;
#if defined (STM32F030xC) || defined (STM32F070xB) || \
    defined (STM32F071xB) || defined (STM32F072xB) || defined (STM32F078xx) || \
    defined (STM32F091xC) || defined (STM32F098xx)    
    hrtc->Instance->WUTR = 0x0000FFFFU;
#endif /* defined (STM32F030xC) || defined (STM32F070xB) ||\
          defined (STM32F071xB) || defined (STM32F072xB) || defined (STM32F078xx) || \
          defined (STM32F091xC) || defined (STM32F098xx) ||*/    
    hrtc->Instance->PRER = 0x007F00FFU;
    hrtc->Instance->ALRMAR = 0x00000000U;        
    hrtc->Instance->SHIFTR = 0x00000000U;
    hrtc->Instance->CALR = 0x00000000U;
    hrtc->Instance->ALRMASSR = 0x00000000U;
    
    /* Reset ISR register and exit initialization mode */
    hrtc->Instance->ISR = 0x00000000U;
    
    /* Reset Tamper and alternate functions configuration register */
    hrtc->Instance->TAFCR = 0x00000000;
    
    /* If  RTC_CR_BYPSHAD bit = 0, wait for synchro else this check is not needed */
    if((hrtc->Instance->CR & RTC_CR_BYPSHAD) == RESET)
    {
      if(HAL_RTC_WaitForSynchro(hrtc) != HAL_OK)
      {
        /* Enable the write protection for RTC registers */
        __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);  
        
        hrtc->State = HAL_RTC_STATE_ERROR;
        
        return HAL_ERROR;
      }
    }    
  }
  
  /* Enable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);
  
  /* De-Initialize RTC MSP */
  HAL_RTC_MspDeInit(hrtc);
  
  hrtc->State = HAL_RTC_STATE_RESET; 
  
  /* Release Lock */
  __HAL_UNLOCK(hrtc);

  return HAL_OK;
}

/**
  * @brief  Initialize the RTC MSP.
  * @param  hrtc RTC handle  
  * @retval None
  */
__weak void HAL_RTC_MspInit(RTC_HandleTypeDef* hrtc)
{
  /* Prevent unused argument(s) compilation warning */
  UNUSED(hrtc);

  /* NOTE : This function should not be modified, when the callback is needed,
            the HAL_RTC_MspInit could be implemented in the user file
   */ 
}

/**
  * @brief  DeInitialize the RTC MSP.
  * @param  hrtc RTC handle 
  * @retval None
  */
__weak void HAL_RTC_MspDeInit(RTC_HandleTypeDef* hrtc)
{
  /* Prevent unused argument(s) compilation warning */
  UNUSED(hrtc);

  /* NOTE : This function should not be modified, when the callback is needed,
            the HAL_RTC_MspDeInit could be implemented in the user file
   */ 
}

/**
  * @}
  */

/** @addtogroup RTC_Exported_Functions_Group2
 *  @brief   RTC Time and Date functions
 *
@verbatim   
 ===============================================================================
                 ##### RTC Time and Date functions #####
 ===============================================================================  
 
 [..] This section provides functions allowing to configure Time and Date features

@endverbatim
  * @{
  */

/**
  * @brief  Set RTC current time.
  * @param  hrtc RTC handle
  * @param  sTime Pointer to Time structure
  * @param  Format Specifies the format of the entered parameters.
  *          This parameter can be one of the following values:
  *            @arg RTC_FORMAT_BIN: Binary data format 
  *            @arg RTC_FORMAT_BCD: BCD data format
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_SetTime(RTC_HandleTypeDef *hrtc, RTC_TimeTypeDef *sTime, uint32_t Format)
{
  uint32_t tmpreg = 0U;
  
 /* Check the parameters */
  assert_param(IS_RTC_FORMAT(Format));
  assert_param(IS_RTC_DAYLIGHT_SAVING(sTime->DayLightSaving));
  assert_param(IS_RTC_STORE_OPERATION(sTime->StoreOperation));
  
  /* Process Locked */ 
  __HAL_LOCK(hrtc);
  
  hrtc->State = HAL_RTC_STATE_BUSY;
  
  if(Format == RTC_FORMAT_BIN)
  {
    if((hrtc->Instance->CR & RTC_CR_FMT) != (uint32_t)RESET)
    {
      assert_param(IS_RTC_HOUR12(sTime->Hours));
      assert_param(IS_RTC_HOURFORMAT12(sTime->TimeFormat));
    } 
    else
    {
      sTime->TimeFormat = 0x00U;
      assert_param(IS_RTC_HOUR24(sTime->Hours));
    }
    assert_param(IS_RTC_MINUTES(sTime->Minutes));
    assert_param(IS_RTC_SECONDS(sTime->Seconds));
    
    tmpreg = (uint32_t)(((uint32_t)RTC_ByteToBcd2(sTime->Hours) << 16U) | \
                        ((uint32_t)RTC_ByteToBcd2(sTime->Minutes) << 8U) | \
                        ((uint32_t)RTC_ByteToBcd2(sTime->Seconds)) | \
                        (((uint32_t)sTime->TimeFormat) << 16U));  
  }
  else
  {
    if((hrtc->Instance->CR & RTC_CR_FMT) != (uint32_t)RESET)
    {
      tmpreg = RTC_Bcd2ToByte(sTime->Hours);
      assert_param(IS_RTC_HOUR12(tmpreg));
      assert_param(IS_RTC_HOURFORMAT12(sTime->TimeFormat)); 
    } 
    else
    {
      sTime->TimeFormat = 0x00U;
      assert_param(IS_RTC_HOUR24(RTC_Bcd2ToByte(sTime->Hours)));
    }
    assert_param(IS_RTC_MINUTES(RTC_Bcd2ToByte(sTime->Minutes)));
    assert_param(IS_RTC_SECONDS(RTC_Bcd2ToByte(sTime->Seconds)));
    tmpreg = (((uint32_t)(sTime->Hours) << 16U) | \
              ((uint32_t)(sTime->Minutes) << 8U) | \
              ((uint32_t)sTime->Seconds) | \
              ((uint32_t)(sTime->TimeFormat) << 16U));   
  }
  
  /* Disable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc);
  
  /* Set Initialization mode */
  if(RTC_EnterInitMode(hrtc) != HAL_OK)
  {
    /* Enable the write protection for RTC registers */
    __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); 
    
    /* Set RTC state */
    hrtc->State = HAL_RTC_STATE_ERROR;
    
    /* Process Unlocked */ 
    __HAL_UNLOCK(hrtc);
    
    return HAL_ERROR;
  } 
  else
  {
    /* Set the RTC_TR register */
    hrtc->Instance->TR = (uint32_t)(tmpreg & RTC_TR_RESERVED_MASK);
     
    /* Clear the bits to be configured */
    hrtc->Instance->CR &= ((uint32_t)~RTC_CR_BKP);

    /* Configure the RTC_CR register */
    hrtc->Instance->CR |= (uint32_t)(sTime->DayLightSaving | sTime->StoreOperation);
    
    /* Exit Initialization mode */
    hrtc->Instance->ISR &= ((uint32_t)~RTC_ISR_INIT);

    /* If  CR_BYPSHAD bit = 0, wait for synchro else this check is not needed */
    if((hrtc->Instance->CR & RTC_CR_BYPSHAD) == RESET)
    {
      if(HAL_RTC_WaitForSynchro(hrtc) != HAL_OK)
      {        
        /* Enable the write protection for RTC registers */
        __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);  
        
        hrtc->State = HAL_RTC_STATE_ERROR;
        
        /* Process Unlocked */ 
        __HAL_UNLOCK(hrtc);
        
        return HAL_ERROR;
      }
    }
    
    /* Enable the write protection for RTC registers */
    __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);
    
   hrtc->State = HAL_RTC_STATE_READY;
  
   __HAL_UNLOCK(hrtc); 
     
   return HAL_OK;
  }
}

/**
  * @brief  Get RTC current time.
  * @param  hrtc RTC handle
  * @param  sTime Pointer to Time structure with Hours, Minutes and Seconds fields returned 
  *                with input format (BIN or BCD), also SubSeconds field returning the
  *                RTC_SSR register content and SecondFraction field the Synchronous pre-scaler
  *                factor to be used for second fraction ratio computation.
  * @param  Format Specifies the format of the entered parameters.
  *          This parameter can be one of the following values:
  *            @arg RTC_FORMAT_BIN: Binary data format 
  *            @arg RTC_FORMAT_BCD: BCD data format
  * @note  You can use SubSeconds and SecondFraction (sTime structure fields returned) to convert SubSeconds
  *        value in second fraction ratio with time unit following generic formula:
  *        Second fraction ratio * time_unit= [(SecondFraction-SubSeconds)/(SecondFraction+1)] * time_unit
  *        This conversion can be performed only if no shift operation is pending (ie. SHFP=0) when PREDIV_S >= SS
  * @note You must call HAL_RTC_GetDate() after HAL_RTC_GetTime() to unlock the values 
  * in the higher-order calendar shadow registers to ensure consistency between the time and date values.
  * Reading RTC current time locks the values in calendar shadow registers until Current date is read
  * to ensure consistency between the time and date values.
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_GetTime(RTC_HandleTypeDef *hrtc, RTC_TimeTypeDef *sTime, uint32_t Format)
{
  uint32_t tmpreg = 0;

  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(Format));
  
  /* Get subseconds structure field from the corresponding register*/
  sTime->SubSeconds = (uint32_t)(hrtc->Instance->SSR);

  /* Get SecondFraction structure field from the corresponding register field*/
  sTime->SecondFraction = (uint32_t)(hrtc->Instance->PRER & RTC_PRER_PREDIV_S);
  
  /* Get the TR register */
  tmpreg = (uint32_t)(hrtc->Instance->TR & RTC_TR_RESERVED_MASK); 
  
  /* Fill the structure fields with the read parameters */
  sTime->Hours = (uint8_t)((tmpreg & (RTC_TR_HT | RTC_TR_HU)) >> 16U);
  sTime->Minutes = (uint8_t)((tmpreg & (RTC_TR_MNT | RTC_TR_MNU)) >>8U);
  sTime->Seconds = (uint8_t)(tmpreg & (RTC_TR_ST | RTC_TR_SU));
  sTime->TimeFormat = (uint8_t)((tmpreg & (RTC_TR_PM)) >> 16U); 
  
  /* Check the input parameters format */
  if(Format == RTC_FORMAT_BIN)
  {
    /* Convert the time structure parameters to Binary format */
    sTime->Hours = (uint8_t)RTC_Bcd2ToByte(sTime->Hours);
    sTime->Minutes = (uint8_t)RTC_Bcd2ToByte(sTime->Minutes);
    sTime->Seconds = (uint8_t)RTC_Bcd2ToByte(sTime->Seconds);  
  }
  
  return HAL_OK;
}

/**
  * @brief  Set RTC current date.
  * @param  hrtc RTC handle
  * @param  sDate Pointer to date structure
  * @param  Format specifies the format of the entered parameters.
  *          This parameter can be one of the following values:
  *            @arg RTC_FORMAT_BIN: Binary data format 
  *            @arg RTC_FORMAT_BCD: BCD data format
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_SetDate(RTC_HandleTypeDef *hrtc, RTC_DateTypeDef *sDate, uint32_t Format)
{
  uint32_t datetmpreg = 0U;
  
 /* Check the parameters */
  assert_param(IS_RTC_FORMAT(Format));
  
 /* Process Locked */ 
 __HAL_LOCK(hrtc);
  
  hrtc->State = HAL_RTC_STATE_BUSY; 
  
  if((Format == RTC_FORMAT_BIN) && ((sDate->Month & 0x10U) == 0x10U))
  {
    sDate->Month = (uint8_t)((sDate->Month & (uint8_t)~(0x10U)) + (uint8_t)0x0AU);
  }
  
  assert_param(IS_RTC_WEEKDAY(sDate->WeekDay));
  
  if(Format == RTC_FORMAT_BIN)
  {   
    assert_param(IS_RTC_YEAR(sDate->Year));
    assert_param(IS_RTC_MONTH(sDate->Month));
    assert_param(IS_RTC_DATE(sDate->Date)); 
    
   datetmpreg = (((uint32_t)RTC_ByteToBcd2(sDate->Year) << 16U) | \
                 ((uint32_t)RTC_ByteToBcd2(sDate->Month) << 8U) | \
                 ((uint32_t)RTC_ByteToBcd2(sDate->Date)) | \
                 ((uint32_t)sDate->WeekDay << 13U));   
  }
  else
  {   
    assert_param(IS_RTC_YEAR(RTC_Bcd2ToByte(sDate->Year)));
    datetmpreg = RTC_Bcd2ToByte(sDate->Month);
    assert_param(IS_RTC_MONTH(datetmpreg));
    datetmpreg = RTC_Bcd2ToByte(sDate->Date);
    assert_param(IS_RTC_DATE(datetmpreg));
    
    datetmpreg = ((((uint32_t)sDate->Year) << 16U) | \
                  (((uint32_t)sDate->Month) << 8U) | \
                  ((uint32_t)sDate->Date) | \
                  (((uint32_t)sDate->WeekDay) << 13U));  
  }

  /* Disable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc);
  
  /* Set Initialization mode */
  if(RTC_EnterInitMode(hrtc) != HAL_OK)
  {
    /* Enable the write protection for RTC registers */
    __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); 
    
    /* Set RTC state*/
    hrtc->State = HAL_RTC_STATE_ERROR;
    
    /* Process Unlocked */ 
    __HAL_UNLOCK(hrtc);
    
    return HAL_ERROR;
  } 
  else
  {
    /* Set the RTC_DR register */
    hrtc->Instance->DR = (uint32_t)(datetmpreg & RTC_DR_RESERVED_MASK);
    
    /* Exit Initialization mode */
    hrtc->Instance->ISR &= ((uint32_t)~RTC_ISR_INIT);

    /* If  CR_BYPSHAD bit = 0, wait for synchro else this check is not needed */
    if((hrtc->Instance->CR & RTC_CR_BYPSHAD) == RESET)
    {
      if(HAL_RTC_WaitForSynchro(hrtc) != HAL_OK)
      { 
        /* Enable the write protection for RTC registers */
        __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);  
        
        hrtc->State = HAL_RTC_STATE_ERROR;
        
        /* Process Unlocked */ 
        __HAL_UNLOCK(hrtc);
        
        return HAL_ERROR;
      }
    }
    
    /* Enable the write protection for RTC registers */
    __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);  
    
    hrtc->State = HAL_RTC_STATE_READY ;
    
    /* Process Unlocked */ 
    __HAL_UNLOCK(hrtc);
    
    return HAL_OK;    
  }
}

/**
  * @brief  Get RTC current date.
  * @param  hrtc RTC handle
  * @param  sDate Pointer to Date structure
  * @param  Format Specifies the format of the entered parameters.
  *          This parameter can be one of the following values:
  *            @arg RTC_FORMAT_BIN :  Binary data format 
  *            @arg RTC_FORMAT_BCD :  BCD data format
  * @note You must call HAL_RTC_GetDate() after HAL_RTC_GetTime() to unlock the values 
  * in the higher-order calendar shadow registers to ensure consistency between the time and date values.
  * Reading RTC current time locks the values in calendar shadow registers until Current date is read.
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_GetDate(RTC_HandleTypeDef *hrtc, RTC_DateTypeDef *sDate, uint32_t Format)
{
  uint32_t datetmpreg = 0;

  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(Format));
          
  /* Get the DR register */
  datetmpreg = (uint32_t)(hrtc->Instance->DR & RTC_DR_RESERVED_MASK); 

  /* Fill the structure fields with the read parameters */
  sDate->Year = (uint8_t)((datetmpreg & (RTC_DR_YT | RTC_DR_YU)) >> 16U);
  sDate->Month = (uint8_t)((datetmpreg & (RTC_DR_MT | RTC_DR_MU)) >> 8U);
  sDate->Date = (uint8_t)(datetmpreg & (RTC_DR_DT | RTC_DR_DU));
  sDate->WeekDay = (uint8_t)((datetmpreg & (RTC_DR_WDU)) >> 13U); 

  /* Check the input parameters format */
  if(Format == RTC_FORMAT_BIN)
  {    
    /* Convert the date structure parameters to Binary format */
    sDate->Year = (uint8_t)RTC_Bcd2ToByte(sDate->Year);
    sDate->Month = (uint8_t)RTC_Bcd2ToByte(sDate->Month);
    sDate->Date = (uint8_t)RTC_Bcd2ToByte(sDate->Date);  
  }
  return HAL_OK;
}

/**
  * @}
  */

/** @addtogroup RTC_Exported_Functions_Group3
 *  @brief   RTC Alarm functions
 *
@verbatim   
 ===============================================================================
                 ##### RTC Alarm functions #####
 ===============================================================================  
 
 [..] This section provides functions allowing to configure Alarm feature

@endverbatim
  * @{
  */
/**
  * @brief  Set the specified RTC Alarm.
  * @param  hrtc RTC handle
  * @param  sAlarm Pointer to Alarm structure
  * @param  Format Specifies the format of the entered parameters.
  *          This parameter can be one of the following values:
  *             @arg RTC_FORMAT_BIN: Binary data format 
  *             @arg RTC_FORMAT_BCD: BCD data format
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_SetAlarm(RTC_HandleTypeDef *hrtc, RTC_AlarmTypeDef *sAlarm, uint32_t Format)
{
  uint32_t tickstart = 0U;
  uint32_t tmpreg = 0U, subsecondtmpreg = 0U;
  
  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(Format));
  assert_param(IS_RTC_ALARM(sAlarm->Alarm));
  assert_param(IS_RTC_ALARM_MASK(sAlarm->AlarmMask));
  assert_param(IS_RTC_ALARM_DATE_WEEKDAY_SEL(sAlarm->AlarmDateWeekDaySel));
  assert_param(IS_RTC_ALARM_SUB_SECOND_VALUE(sAlarm->AlarmTime.SubSeconds));
  assert_param(IS_RTC_ALARM_SUB_SECOND_MASK(sAlarm->AlarmSubSecondMask));
  
  /* Process Locked */ 
  __HAL_LOCK(hrtc);
  
  hrtc->State = HAL_RTC_STATE_BUSY;
  
  if(Format == RTC_FORMAT_BIN)
  {
    if((hrtc->Instance->CR & RTC_CR_FMT) != (uint32_t)RESET)
    {
      assert_param(IS_RTC_HOUR12(sAlarm->AlarmTime.Hours));
      assert_param(IS_RTC_HOURFORMAT12(sAlarm->AlarmTime.TimeFormat));
    } 
    else
    {
      sAlarm->AlarmTime.TimeFormat = 0x00U;
      assert_param(IS_RTC_HOUR24(sAlarm->AlarmTime.Hours));
    }
    assert_param(IS_RTC_MINUTES(sAlarm->AlarmTime.Minutes));
    assert_param(IS_RTC_SECONDS(sAlarm->AlarmTime.Seconds));
    
    if(sAlarm->AlarmDateWeekDaySel == RTC_ALARMDATEWEEKDAYSEL_DATE)
    {
      assert_param(IS_RTC_ALARM_DATE_WEEKDAY_DATE(sAlarm->AlarmDateWeekDay));
    }
    else
    {
      assert_param(IS_RTC_ALARM_DATE_WEEKDAY_WEEKDAY(sAlarm->AlarmDateWeekDay));
    }
    
    tmpreg = (((uint32_t)RTC_ByteToBcd2(sAlarm->AlarmTime.Hours) << 16U) | \
              ((uint32_t)RTC_ByteToBcd2(sAlarm->AlarmTime.Minutes) << 8U) | \
              ((uint32_t)RTC_ByteToBcd2(sAlarm->AlarmTime.Seconds)) | \
              ((uint32_t)(sAlarm->AlarmTime.TimeFormat) << 16U) | \
              ((uint32_t)RTC_ByteToBcd2(sAlarm->AlarmDateWeekDay) << 24U) | \
              ((uint32_t)sAlarm->AlarmDateWeekDaySel) | \
              ((uint32_t)sAlarm->AlarmMask)); 
  }
  else
  {
    if((hrtc->Instance->CR & RTC_CR_FMT) != (uint32_t)RESET)
    {
      tmpreg = RTC_Bcd2ToByte(sAlarm->AlarmTime.Hours);
      assert_param(IS_RTC_HOUR12(tmpreg));
      assert_param(IS_RTC_HOURFORMAT12(sAlarm->AlarmTime.TimeFormat));
    } 
    else
    {
      sAlarm->AlarmTime.TimeFormat = 0x00U;
      assert_param(IS_RTC_HOUR24(RTC_Bcd2ToByte(sAlarm->AlarmTime.Hours)));
    }
    
    assert_param(IS_RTC_MINUTES(RTC_Bcd2ToByte(sAlarm->AlarmTime.Minutes)));
    assert_param(IS_RTC_SECONDS(RTC_Bcd2ToByte(sAlarm->AlarmTime.Seconds)));
    
    if(sAlarm->AlarmDateWeekDaySel == RTC_ALARMDATEWEEKDAYSEL_DATE)
    {
      tmpreg = RTC_Bcd2ToByte(sAlarm->AlarmDateWeekDay);
      assert_param(IS_RTC_ALARM_DATE_WEEKDAY_DATE(tmpreg));    
    }
    else
    {
      tmpreg = RTC_Bcd2ToByte(sAlarm->AlarmDateWeekDay);
      assert_param(IS_RTC_ALARM_DATE_WEEKDAY_WEEKDAY(tmpreg));      
    }  
    
    tmpreg = (((uint32_t)(sAlarm->AlarmTime.Hours) << 16U) | \
              ((uint32_t)(sAlarm->AlarmTime.Minutes) << 8U) | \
              ((uint32_t) sAlarm->AlarmTime.Seconds) | \
              ((uint32_t)(sAlarm->AlarmTime.TimeFormat) << 16U) | \
              ((uint32_t)(sAlarm->AlarmDateWeekDay) << 24U) | \
              ((uint32_t)sAlarm->AlarmDateWeekDaySel) | \
              ((uint32_t)sAlarm->AlarmMask));   
  }
  
  /* Configure the Alarm A Sub Second registers */
  subsecondtmpreg = (uint32_t)((uint32_t)(sAlarm->AlarmTime.SubSeconds) | (uint32_t)(sAlarm->AlarmSubSecondMask));
  
  /* Disable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc);

  /* Disable the Alarm A interrupt */
  __HAL_RTC_ALARMA_DISABLE(hrtc);

  /* In case of interrupt mode is used, the interrupt source must disabled */ 
  __HAL_RTC_ALARM_DISABLE_IT(hrtc, RTC_IT_ALRA);
         
  tickstart = HAL_GetTick();
  /* Wait till RTC ALRAWF flag is set and if Time out is reached exit */
  while(__HAL_RTC_ALARM_GET_FLAG(hrtc, RTC_FLAG_ALRAWF) == RESET)
  {
    if((HAL_GetTick()-tickstart) > RTC_TIMEOUT_VALUE)
    {
      /* Enable the write protection for RTC registers */
      __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);

      hrtc->State = HAL_RTC_STATE_TIMEOUT; 

      /* Process Unlocked */ 
      __HAL_UNLOCK(hrtc);
        
      return HAL_TIMEOUT;
    }
  }
    
  hrtc->Instance->ALRMAR = (uint32_t)tmpreg;
  /* Configure the Alarm A Sub Second register */
  hrtc->Instance->ALRMASSR = subsecondtmpreg;
  /* Configure the Alarm state: Enable Alarm */
  __HAL_RTC_ALARMA_ENABLE(hrtc);
  
  /* Enable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);   
  
  /* Change RTC state */
  hrtc->State = HAL_RTC_STATE_READY; 
  
  /* Process Unlocked */ 
  __HAL_UNLOCK(hrtc);
  
  return HAL_OK;
}

/**
  * @brief  Set the specified RTC Alarm with Interrupt.
  * @param  hrtc RTC handle
  * @param  sAlarm Pointer to Alarm structure
  * @param  Format Specifies the format of the entered parameters.
  *          This parameter can be one of the following values:
  *             @arg RTC_FORMAT_BIN: Binary data format 
  *             @arg RTC_FORMAT_BCD: BCD data format
  * @note   The Alarm register can only be written when the corresponding Alarm
  *         is disabled (Use the HAL_RTC_DeactivateAlarm()).   
  * @note   The HAL_RTC_SetTime() must be called before enabling the Alarm feature.   
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_SetAlarm_IT(RTC_HandleTypeDef *hrtc, RTC_AlarmTypeDef *sAlarm, uint32_t Format)
{
  uint32_t tickstart = 0U;
  uint32_t tmpreg = 0U, subsecondtmpreg = 0U;
  
  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(Format));
  assert_param(IS_RTC_ALARM(sAlarm->Alarm));
  assert_param(IS_RTC_ALARM_MASK(sAlarm->AlarmMask));
  assert_param(IS_RTC_ALARM_DATE_WEEKDAY_SEL(sAlarm->AlarmDateWeekDaySel));
  assert_param(IS_RTC_ALARM_SUB_SECOND_VALUE(sAlarm->AlarmTime.SubSeconds));
  assert_param(IS_RTC_ALARM_SUB_SECOND_MASK(sAlarm->AlarmSubSecondMask));
      
  /* Process Locked */ 
  __HAL_LOCK(hrtc);
  
  hrtc->State = HAL_RTC_STATE_BUSY;
  
  if(Format == RTC_FORMAT_BIN)
  {
    if((hrtc->Instance->CR & RTC_CR_FMT) != (uint32_t)RESET)
    {
      assert_param(IS_RTC_HOUR12(sAlarm->AlarmTime.Hours));
      assert_param(IS_RTC_HOURFORMAT12(sAlarm->AlarmTime.TimeFormat));
    } 
    else
    {
      sAlarm->AlarmTime.TimeFormat = 0x00U;
      assert_param(IS_RTC_HOUR24(sAlarm->AlarmTime.Hours));
    }
    assert_param(IS_RTC_MINUTES(sAlarm->AlarmTime.Minutes));
    assert_param(IS_RTC_SECONDS(sAlarm->AlarmTime.Seconds));
    
    if(sAlarm->AlarmDateWeekDaySel == RTC_ALARMDATEWEEKDAYSEL_DATE)
    {
      assert_param(IS_RTC_ALARM_DATE_WEEKDAY_DATE(sAlarm->AlarmDateWeekDay));
    }
    else
    {
      assert_param(IS_RTC_ALARM_DATE_WEEKDAY_WEEKDAY(sAlarm->AlarmDateWeekDay));
    }
    tmpreg = (((uint32_t)RTC_ByteToBcd2(sAlarm->AlarmTime.Hours) << 16U) | \
              ((uint32_t)RTC_ByteToBcd2(sAlarm->AlarmTime.Minutes) << 8U) | \
              ((uint32_t)RTC_ByteToBcd2(sAlarm->AlarmTime.Seconds)) | \
              ((uint32_t)(sAlarm->AlarmTime.TimeFormat) << 16U) | \
              ((uint32_t)RTC_ByteToBcd2(sAlarm->AlarmDateWeekDay) << 24U) | \
              ((uint32_t)sAlarm->AlarmDateWeekDaySel) | \
              ((uint32_t)sAlarm->AlarmMask)); 
  }
  else
  {
    if((hrtc->Instance->CR & RTC_CR_FMT) != (uint32_t)RESET)
    {
      tmpreg = RTC_Bcd2ToByte(sAlarm->AlarmTime.Hours);
      assert_param(IS_RTC_HOUR12(tmpreg));
      assert_param(IS_RTC_HOURFORMAT12(sAlarm->AlarmTime.TimeFormat));
    } 
    else
    {
      sAlarm->AlarmTime.TimeFormat = 0x00U;
      assert_param(IS_RTC_HOUR24(RTC_Bcd2ToByte(sAlarm->AlarmTime.Hours)));
    }
    
    assert_param(IS_RTC_MINUTES(RTC_Bcd2ToByte(sAlarm->AlarmTime.Minutes)));
    assert_param(IS_RTC_SECONDS(RTC_Bcd2ToByte(sAlarm->AlarmTime.Seconds)));
    
    if(sAlarm->AlarmDateWeekDaySel == RTC_ALARMDATEWEEKDAYSEL_DATE)
    {
      tmpreg = RTC_Bcd2ToByte(sAlarm->AlarmDateWeekDay);
      assert_param(IS_RTC_ALARM_DATE_WEEKDAY_DATE(tmpreg));    
    }
    else
    {
      tmpreg = RTC_Bcd2ToByte(sAlarm->AlarmDateWeekDay);
      assert_param(IS_RTC_ALARM_DATE_WEEKDAY_WEEKDAY(tmpreg));      
    }
    tmpreg = (((uint32_t)(sAlarm->AlarmTime.Hours) << 16U) | \
              ((uint32_t)(sAlarm->AlarmTime.Minutes) << 8U) | \
              ((uint32_t) sAlarm->AlarmTime.Seconds) | \
              ((uint32_t)(sAlarm->AlarmTime.TimeFormat) << 16U) | \
              ((uint32_t)(sAlarm->AlarmDateWeekDay) << 24U) | \
              ((uint32_t)sAlarm->AlarmDateWeekDaySel) | \
              ((uint32_t)sAlarm->AlarmMask));     
  }
  /* Configure the Alarm A Sub Second registers */
  subsecondtmpreg = (uint32_t)((uint32_t)(sAlarm->AlarmTime.SubSeconds) | (uint32_t)(sAlarm->AlarmSubSecondMask));
  
  /* Disable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc);
  
  /* Disable the Alarm A interrupt */
  __HAL_RTC_ALARMA_DISABLE(hrtc);

  /* Clear flag alarm A */
  __HAL_RTC_ALARM_CLEAR_FLAG(hrtc, RTC_FLAG_ALRAF);

  tickstart = HAL_GetTick();
  
  /* Wait till RTC ALRAWF flag is set and if Time out is reached exit */
  while(__HAL_RTC_ALARM_GET_FLAG(hrtc, RTC_FLAG_ALRAWF) == RESET)
  {
    if((HAL_GetTick()-tickstart) > RTC_TIMEOUT_VALUE)
    {
      /* Enable the write protection for RTC registers */
      __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);
        
      hrtc->State = HAL_RTC_STATE_TIMEOUT; 
        
      /* Process Unlocked */ 
      __HAL_UNLOCK(hrtc);
        
      return HAL_TIMEOUT;
    }  
  }
    
  hrtc->Instance->ALRMAR = (uint32_t)tmpreg;
  /* Configure the Alarm A Sub Second register */
  hrtc->Instance->ALRMASSR = subsecondtmpreg;
  /* Configure the Alarm state: Enable Alarm */
  __HAL_RTC_ALARMA_ENABLE(hrtc);
  /* Configure the Alarm interrupt */
  __HAL_RTC_ALARM_ENABLE_IT(hrtc,RTC_IT_ALRA);

  /* RTC Alarm Interrupt Configuration: EXTI configuration */
  __HAL_RTC_ALARM_EXTI_ENABLE_IT();
  
  __HAL_RTC_ALARM_EXTI_ENABLE_RISING_EDGE();
  
  /* Enable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);  
  
  hrtc->State = HAL_RTC_STATE_READY; 
  
  /* Process Unlocked */ 
  __HAL_UNLOCK(hrtc);  
  
  return HAL_OK;
}

/**
  * @brief  Deactivate the specified RTC Alarm.
  * @param  hrtc RTC handle
  * @param  Alarm Specifies the Alarm.
  *          This parameter can be one of the following values:
  *            @arg RTC_ALARM_A:  AlarmA
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_DeactivateAlarm(RTC_HandleTypeDef *hrtc, uint32_t Alarm)
{
  uint32_t tickstart = 0U;
  
  /* Check the parameters */
  assert_param(IS_RTC_ALARM(Alarm));
  
  /* Process Locked */ 
  __HAL_LOCK(hrtc);
  
  hrtc->State = HAL_RTC_STATE_BUSY;
  
  /* Disable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc);
  
  __HAL_RTC_ALARMA_DISABLE(hrtc);
    
  /* In case of interrupt mode is used, the interrupt source must disabled */ 
  __HAL_RTC_ALARM_DISABLE_IT(hrtc, RTC_IT_ALRA);
    
  tickstart = HAL_GetTick();
    
  /* Wait till RTC ALRxWF flag is set and if Time out is reached exit */
  while(__HAL_RTC_ALARM_GET_FLAG(hrtc, RTC_FLAG_ALRAWF) == RESET)
  {
    if((HAL_GetTick()-tickstart) > RTC_TIMEOUT_VALUE)
    { 
      /* Enable the write protection for RTC registers */
      __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);
        
      hrtc->State = HAL_RTC_STATE_TIMEOUT; 
        
      /* Process Unlocked */ 
      __HAL_UNLOCK(hrtc);
        
      return HAL_TIMEOUT;
    }      
  }
  /* Enable the write protection for RTC registers */
  __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc);
  
  hrtc->State = HAL_RTC_STATE_READY; 
  
  /* Process Unlocked */ 
  __HAL_UNLOCK(hrtc);  
  
  return HAL_OK; 
}
           
/**
  * @brief  Get the RTC Alarm value and masks.
  * @param  hrtc RTC handle
  * @param  sAlarm Pointer to Date structure
  * @param  Alarm Specifies the Alarm.
  *          This parameter can be one of the following values:
  *             @arg RTC_ALARM_A: AlarmA
  * @param  Format Specifies the format of the entered parameters.
  *          This parameter can be one of the following values:
  *             @arg RTC_FORMAT_BIN: Binary data format 
  *             @arg RTC_FORMAT_BCD: BCD data format
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_GetAlarm(RTC_HandleTypeDef *hrtc, RTC_AlarmTypeDef *sAlarm, uint32_t Alarm, uint32_t Format)
{
  uint32_t tmpreg = 0U, subsecondtmpreg = 0U;
  
  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(Format));
  assert_param(IS_RTC_ALARM(Alarm));
  
  sAlarm->Alarm = RTC_ALARM_A;
    
  tmpreg = (uint32_t)(hrtc->Instance->ALRMAR);
  subsecondtmpreg = (uint32_t)((hrtc->Instance->ALRMASSR ) & RTC_ALRMASSR_SS);
    
  /* Fill the structure with the read parameters */
  sAlarm->AlarmTime.Hours = (uint32_t)((tmpreg & (RTC_ALRMAR_HT | RTC_ALRMAR_HU)) >> 16U);
  sAlarm->AlarmTime.Minutes = (uint32_t)((tmpreg & (RTC_ALRMAR_MNT | RTC_ALRMAR_MNU)) >> 8U);
  sAlarm->AlarmTime.Seconds = (uint32_t)(tmpreg & (RTC_ALRMAR_ST | RTC_ALRMAR_SU));
  sAlarm->AlarmTime.TimeFormat = (uint32_t)((tmpreg & RTC_ALRMAR_PM) >> 16U);
  sAlarm->AlarmTime.SubSeconds = (uint32_t) subsecondtmpreg;
  sAlarm->AlarmDateWeekDay = (uint32_t)((tmpreg & (RTC_ALRMAR_DT | RTC_ALRMAR_DU)) >> 24U);
  sAlarm->AlarmDateWeekDaySel = (uint32_t)(tmpreg & RTC_ALRMAR_WDSEL);
  sAlarm->AlarmMask = (uint32_t)(tmpreg & RTC_ALARMMASK_ALL);
    
  if(Format == RTC_FORMAT_BIN)
  {
    sAlarm->AlarmTime.Hours = RTC_Bcd2ToByte(sAlarm->AlarmTime.Hours);
    sAlarm->AlarmTime.Minutes = RTC_Bcd2ToByte(sAlarm->AlarmTime.Minutes);
    sAlarm->AlarmTime.Seconds = RTC_Bcd2ToByte(sAlarm->AlarmTime.Seconds);
    sAlarm->AlarmDateWeekDay = RTC_Bcd2ToByte(sAlarm->AlarmDateWeekDay);
  }  
    
  return HAL_OK;
}

/**
  * @brief  Handle Alarm interrupt request.
  * @param  hrtc RTC handle
  * @retval None
  */
void HAL_RTC_AlarmIRQHandler(RTC_HandleTypeDef* hrtc)
{  
  /* Get the AlarmA interrupt source enable status */
  if(__HAL_RTC_ALARM_GET_IT_SOURCE(hrtc, RTC_IT_ALRA) != RESET)
  {
    /* Get the pending status of the AlarmA Interrupt */
    if(__HAL_RTC_ALARM_GET_FLAG(hrtc, RTC_FLAG_ALRAF) != RESET)
    {
      /* AlarmA callback */
      HAL_RTC_AlarmAEventCallback(hrtc);

      /* Clear the AlarmA interrupt pending bit */
      __HAL_RTC_ALARM_CLEAR_FLAG(hrtc, RTC_FLAG_ALRAF);
    }
  }
  
  /* Clear the EXTI's line Flag for RTC Alarm */
  __HAL_RTC_ALARM_EXTI_CLEAR_FLAG();
  
  /* Change RTC state */
  hrtc->State = HAL_RTC_STATE_READY; 
}

/**
  * @brief  Alarm A callback.
  * @param  hrtc RTC handle
  * @retval None
  */
__weak void HAL_RTC_AlarmAEventCallback(RTC_HandleTypeDef *hrtc)
{
  /* Prevent unused argument(s) compilation warning */
  UNUSED(hrtc);

  /* NOTE : This function should not be modified, when the callback is needed,
            the HAL_RTC_AlarmAEventCallback could be implemented in the user file
   */
}

/**
  * @brief  Handle AlarmA Polling request.
  * @param  hrtc RTC handle
  * @param  Timeout Timeout duration
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_PollForAlarmAEvent(RTC_HandleTypeDef *hrtc, uint32_t Timeout)
{

  uint32_t tickstart = HAL_GetTick();   
  
  while(__HAL_RTC_ALARM_GET_FLAG(hrtc, RTC_FLAG_ALRAF) == RESET)
  {
    if(Timeout != HAL_MAX_DELAY)
    {
      if((Timeout == 0U) || ((HAL_GetTick() - tickstart) > Timeout))
      {
        hrtc->State = HAL_RTC_STATE_TIMEOUT;
        return HAL_TIMEOUT;
      }
    }
  }
  
  /* Clear the Alarm interrupt pending bit */
  __HAL_RTC_ALARM_CLEAR_FLAG(hrtc, RTC_FLAG_ALRAF);
  
  /* Change RTC state */
  hrtc->State = HAL_RTC_STATE_READY; 
  
  return HAL_OK;  
}

/**
  * @}
  */

/** @addtogroup RTC_Exported_Functions_Group4
 *  @brief   Peripheral Control functions 
 *
@verbatim   
 ===============================================================================
                     ##### Peripheral Control functions #####
 ===============================================================================  
    [..]
    This subsection provides functions allowing to
      (+) Wait for RTC Time and Date Synchronization

@endverbatim
  * @{
  */

/**
  * @brief  Wait until the RTC Time and Date registers (RTC_TR and RTC_DR) are
  *         synchronized with RTC APB clock.
  * @note   The RTC Resynchronization mode is write protected, use the 
  *         __HAL_RTC_WRITEPROTECTION_DISABLE() before calling this function. 
  * @note   To read the calendar through the shadow registers after Calendar 
  *         initialization, calendar update or after wakeup from low power modes
  *         the software must first clear the RSF flag.
  *         The software must then wait until it is set again before reading
  *         the calendar, which means that the calendar registers have been
  *         correctly copied into the RTC_TR and RTC_DR shadow registers.
  * @param  hrtc RTC handle
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_RTC_WaitForSynchro(RTC_HandleTypeDef* hrtc)
{
  uint32_t tickstart = 0U;

  /* Clear RSF flag */
  hrtc->Instance->ISR &= (uint32_t)RTC_RSF_MASK;

  tickstart = HAL_GetTick();

  /* Wait the registers to be synchronised */
  while((hrtc->Instance->ISR & RTC_ISR_RSF) == (uint32_t)RESET)
  {
    if((HAL_GetTick()-tickstart) > RTC_TIMEOUT_VALUE)
    {       
      return HAL_TIMEOUT;
    } 
  }

  return HAL_OK;
}

/**
  * @}
  */

/** @addtogroup RTC_Exported_Functions_Group5
 *  @brief   Peripheral State functions 
 *
@verbatim   
 ===============================================================================
                     ##### Peripheral State functions #####
 ===============================================================================  
    [..]
    This subsection provides functions allowing to
      (+) Get RTC state

@endverbatim
  * @{
  */
/**
  * @brief  Return the RTC handle state.
  * @param  hrtc RTC handle
  * @retval HAL state
  */
HAL_RTCStateTypeDef HAL_RTC_GetState(RTC_HandleTypeDef* hrtc)
{
  /* Return RTC handle state */
  return hrtc->State;
}

/**
  * @}
  */

/**
  * @}
  */

/** @addtogroup RTC_Private_Functions
  * @{
  */
/**
  * @brief  Enter the RTC Initialization mode.
  * @note   The RTC Initialization mode is write protected, use the
  *         __HAL_RTC_WRITEPROTECTION_DISABLE() before calling this function.
  * @param  hrtc RTC handle
  * @retval HAL status
  */
HAL_StatusTypeDef RTC_EnterInitMode(RTC_HandleTypeDef* hrtc)
{
  uint32_t tickstart = 0U;
  
  /* Check if the Initialization mode is set */
  if((hrtc->Instance->ISR & RTC_ISR_INITF) == (uint32_t)RESET)
  {
    /* Set the Initialization mode */
    hrtc->Instance->ISR = (uint32_t)RTC_INIT_MASK;
    
    tickstart = HAL_GetTick();
    
    /* Wait till RTC is in INIT state and if Time out is reached exit */
    while((hrtc->Instance->ISR & RTC_ISR_INITF) == (uint32_t)RESET)
    {
      if((HAL_GetTick()-tickstart) > RTC_TIMEOUT_VALUE)
      {       
        return HAL_TIMEOUT;
      } 
    }
  }
  
  return HAL_OK;  
}


/**
  * @brief  Convert a 2 digit decimal to BCD format.
  * @param  Value Byte to be converted
  * @retval Converted byte
  */
uint8_t RTC_ByteToBcd2(uint8_t Value)
{
  uint32_t bcdhigh = 0U;
  
  while(Value >= 10U)
  {
    bcdhigh++;
    Value -= 10U;
  }
  
  return  ((uint8_t)(bcdhigh << 4U) | Value);
}

/**
  * @brief  Convert from 2 digit BCD to Binary.
  * @param  Value BCD value to be converted
  * @retval Converted word
  */
uint8_t RTC_Bcd2ToByte(uint8_t Value)
{
  uint32_t tmp = 0U;
  tmp = ((uint8_t)(Value & (uint8_t)0xF0U) >> (uint8_t)0x4U) * 10U;
  return (tmp + (Value & (uint8_t)0x0FU));
}
/**
  * @}
  */

#endif /* HAL_RTC_MODULE_ENABLED */

/**
  * @}
  */


/**
  * @}
  */

/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/