Mercurial > public > ostc4
view Common/Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_rtc_ex.c @ 734:190e5814b2f5
Removed interface selection from sensor menu:
By implementing the automatic sensor detection the need for the manual selection has become obsulete. By removing the selection button space became available to insert the sensor information button which shows detailed data of DigO2 sensor.
| author | Ideenmodellierer |
|---|---|
| date | Sun, 15 Jan 2023 21:51:54 +0100 |
| parents | c78bcbd5deda |
| children |
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/** ****************************************************************************** * @file stm32f4xx_hal_rtc_ex.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) Extension peripheral: * + RTC Time Stamp functions * + RTC Tamper functions * + RTC Wake-up functions * + Extension Control functions * + Extension RTC features functions * @verbatim ============================================================================== ##### How to use this driver ##### ============================================================================== [..] (+) Enable the RTC domain access. (+) Configure the RTC Prescaler (Asynchronous and Synchronous) and RTC hour format using the HAL_RTC_Init() function. *** RTC Wake-up configuration *** ================================ [..] (+) To configure the RTC Wake-up Clock source and Counter use the HAL_RTC_SetWakeUpTimer() function. You can also configure the RTC Wake-up timer in interrupt mode using the HAL_RTC_SetWakeUpTimer_IT() function. (+) To read the RTC Wake-up Counter register, use the HAL_RTC_GetWakeUpTimer() function. *** TimeStamp configuration *** =============================== [..] (+) Configure the RTC_AFx trigger and enable the RTC TimeStamp using the HAL_RTC_SetTimeStamp() function. You can also configure the RTC TimeStamp with interrupt mode using the HAL_RTC_SetTimeStamp_IT() function. (+) To read the RTC TimeStamp Time and Date register, use the HAL_RTC_GetTimeStamp() function. (+) The TIMESTAMP alternate function can be mapped either to RTC_AF1 (PC13) or RTC_AF2 (PI8 or PA0 only for STM32F446xx devices) depending on the value of TSINSEL bit in RTC_TAFCR register. The corresponding pin is also selected by HAL_RTC_SetTimeStamp() or HAL_RTC_SetTimeStamp_IT() function. *** Tamper configuration *** ============================ [..] (+) Enable the RTC Tamper and configure the Tamper filter count, trigger Edge or Level according to the Tamper filter (if equal to 0 Edge else Level) value, sampling frequency, precharge or discharge and Pull-UP using the HAL_RTC_SetTamper() function. You can configure RTC Tamper in interrupt mode using HAL_RTC_SetTamper_IT() function. (+) The TAMPER1 alternate function can be mapped either to RTC_AF1 (PC13) or RTC_AF2 (PI8 or PA0 only for STM32F446xx devices) depending on the value of TAMP1INSEL bit in RTC_TAFCR register. The corresponding pin is also selected by HAL_RTC_SetTamper() or HAL_RTC_SetTamper_IT() function. *** Backup Data Registers configuration *** =========================================== [..] (+) To write to the RTC Backup Data registers, use the HAL_RTC_BKUPWrite() function. (+) To read the RTC Backup Data registers, use the HAL_RTC_BKUPRead() function. @endverbatim ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2017 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 "stm32f4xx_hal.h" /** @addtogroup STM32F4xx_HAL_Driver * @{ */ /** @defgroup RTCEx RTCEx * @brief RTC HAL module driver * @{ */ #ifdef HAL_RTC_MODULE_ENABLED /* Private typedef -----------------------------------------------------------*/ /* Private define ------------------------------------------------------------*/ /* Private macro -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /* Private function prototypes -----------------------------------------------*/ /* Private functions ---------------------------------------------------------*/ /** @defgroup RTCEx_Exported_Functions RTCEx Exported Functions * @{ */ /** @defgroup RTCEx_Exported_Functions_Group1 RTC TimeStamp and Tamper functions * @brief RTC TimeStamp and Tamper functions * @verbatim =============================================================================== ##### RTC TimeStamp and Tamper functions ##### =============================================================================== [..] This section provides functions allowing to configure TimeStamp feature @endverbatim * @{ */ /** * @brief Sets TimeStamp. * @note This API must be called before enabling the TimeStamp feature. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param TimeStampEdge Specifies the pin edge on which the TimeStamp is * activated. * This parameter can be one of the following values: * @arg RTC_TIMESTAMPEDGE_RISING: the Time stamp event occurs on the * rising edge of the related pin. * @arg RTC_TIMESTAMPEDGE_FALLING: the Time stamp event occurs on the * falling edge of the related pin. * @param RTC_TimeStampPin specifies the RTC TimeStamp Pin. * This parameter can be one of the following values: * @arg RTC_TIMESTAMPPIN_DEFAULT: PC13 is selected as RTC TimeStamp Pin. * @arg RTC_TIMESTAMPPIN_POS1: PI8/PA0 is selected as RTC TimeStamp Pin. * (not applicable in the case of STM32F412xx, STM32F413xx and STM32F423xx devices) * (PI8 for all STM32 devices except for STM32F446xx devices the PA0 is used) * @arg RTC_TIMESTAMPPIN_PA0: PA0 is selected as RTC TimeStamp Pin only for STM32F446xx devices * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetTimeStamp(RTC_HandleTypeDef *hrtc, uint32_t TimeStampEdge, uint32_t RTC_TimeStampPin) { uint32_t tmpreg = 0U; /* Check the parameters */ assert_param(IS_TIMESTAMP_EDGE(TimeStampEdge)); assert_param(IS_RTC_TIMESTAMP_PIN(RTC_TimeStampPin)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Get the RTC_CR register and clear the bits to be configured */ tmpreg = (uint32_t)(hrtc->Instance->CR & (uint32_t)~(RTC_CR_TSEDGE | RTC_CR_TSE)); tmpreg|= TimeStampEdge; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); hrtc->Instance->TAFCR &= (uint32_t)~RTC_TAFCR_TSINSEL; hrtc->Instance->TAFCR |= (uint32_t)(RTC_TimeStampPin); /* Configure the Time Stamp TSEDGE and Enable bits */ hrtc->Instance->CR = (uint32_t)tmpreg; __HAL_RTC_TIMESTAMP_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 Sets TimeStamp with Interrupt. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @note This API must be called before enabling the TimeStamp feature. * @param TimeStampEdge Specifies the pin edge on which the TimeStamp is * activated. * This parameter can be one of the following values: * @arg RTC_TIMESTAMPEDGE_RISING: the Time stamp event occurs on the * rising edge of the related pin. * @arg RTC_TIMESTAMPEDGE_FALLING: the Time stamp event occurs on the * falling edge of the related pin. * @param RTC_TimeStampPin Specifies the RTC TimeStamp Pin. * This parameter can be one of the following values: * @arg RTC_TIMESTAMPPIN_DEFAULT: PC13 is selected as RTC TimeStamp Pin. * @arg RTC_TIMESTAMPPIN_PI8: PI8 is selected as RTC TimeStamp Pin. (not applicable in the case of STM32F446xx, STM32F412xx, STM32F413xx and STM32F423xx devices) * @arg RTC_TIMESTAMPPIN_PA0: PA0 is selected as RTC TimeStamp Pin only for STM32F446xx devices * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetTimeStamp_IT(RTC_HandleTypeDef *hrtc, uint32_t TimeStampEdge, uint32_t RTC_TimeStampPin) { uint32_t tmpreg = 0U; /* Check the parameters */ assert_param(IS_TIMESTAMP_EDGE(TimeStampEdge)); assert_param(IS_RTC_TIMESTAMP_PIN(RTC_TimeStampPin)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Get the RTC_CR register and clear the bits to be configured */ tmpreg = (uint32_t)(hrtc->Instance->CR & (uint32_t)~(RTC_CR_TSEDGE | RTC_CR_TSE)); tmpreg |= TimeStampEdge; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* Configure the Time Stamp TSEDGE and Enable bits */ hrtc->Instance->CR = (uint32_t)tmpreg; hrtc->Instance->TAFCR &= (uint32_t)~RTC_TAFCR_TSINSEL; hrtc->Instance->TAFCR |= (uint32_t)(RTC_TimeStampPin); /* Clear RTC Timestamp flag */ __HAL_RTC_TIMESTAMP_CLEAR_FLAG(hrtc, RTC_FLAG_TSF); __HAL_RTC_TIMESTAMP_ENABLE(hrtc); /* Enable IT timestamp */ __HAL_RTC_TIMESTAMP_ENABLE_IT(hrtc,RTC_IT_TS); /* RTC timestamp Interrupt Configuration: EXTI configuration */ __HAL_RTC_TAMPER_TIMESTAMP_EXTI_ENABLE_IT(); EXTI->RTSR |= RTC_EXTI_LINE_TAMPER_TIMESTAMP_EVENT; /* 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 Deactivates TimeStamp. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_DeactivateTimeStamp(RTC_HandleTypeDef *hrtc) { uint32_t tmpreg = 0U; /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* In case of interrupt mode is used, the interrupt source must disabled */ __HAL_RTC_TIMESTAMP_DISABLE_IT(hrtc, RTC_IT_TS); /* Get the RTC_CR register and clear the bits to be configured */ tmpreg = (uint32_t)(hrtc->Instance->CR & (uint32_t)~(RTC_CR_TSEDGE | RTC_CR_TSE)); /* Configure the Time Stamp TSEDGE and Enable bits */ hrtc->Instance->CR = (uint32_t)tmpreg; /* 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 Gets the RTC TimeStamp value. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param sTimeStamp Pointer to Time structure * @param sTimeStampDate Pointer to Date structure * @param Format specifies the format of the entered parameters. * This parameter can be one of the following values: * RTC_FORMAT_BIN: Binary data format * RTC_FORMAT_BCD: BCD data format * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_GetTimeStamp(RTC_HandleTypeDef *hrtc, RTC_TimeTypeDef* sTimeStamp, RTC_DateTypeDef* sTimeStampDate, uint32_t Format) { uint32_t tmptime = 0U, tmpdate = 0U; /* Check the parameters */ assert_param(IS_RTC_FORMAT(Format)); /* Get the TimeStamp time and date registers values */ tmptime = (uint32_t)(hrtc->Instance->TSTR & RTC_TR_RESERVED_MASK); tmpdate = (uint32_t)(hrtc->Instance->TSDR & RTC_DR_RESERVED_MASK); /* Fill the Time structure fields with the read parameters */ sTimeStamp->Hours = (uint8_t)((tmptime & (RTC_TR_HT | RTC_TR_HU)) >> 16U); sTimeStamp->Minutes = (uint8_t)((tmptime & (RTC_TR_MNT | RTC_TR_MNU)) >> 8U); sTimeStamp->Seconds = (uint8_t)(tmptime & (RTC_TR_ST | RTC_TR_SU)); sTimeStamp->TimeFormat = (uint8_t)((tmptime & (RTC_TR_PM)) >> 16U); sTimeStamp->SubSeconds = (uint32_t) hrtc->Instance->TSSSR; /* Fill the Date structure fields with the read parameters */ sTimeStampDate->Year = 0U; sTimeStampDate->Month = (uint8_t)((tmpdate & (RTC_DR_MT | RTC_DR_MU)) >> 8U); sTimeStampDate->Date = (uint8_t)(tmpdate & (RTC_DR_DT | RTC_DR_DU)); sTimeStampDate->WeekDay = (uint8_t)((tmpdate & (RTC_DR_WDU)) >> 13U); /* Check the input parameters format */ if(Format == RTC_FORMAT_BIN) { /* Convert the TimeStamp structure parameters to Binary format */ sTimeStamp->Hours = (uint8_t)RTC_Bcd2ToByte(sTimeStamp->Hours); sTimeStamp->Minutes = (uint8_t)RTC_Bcd2ToByte(sTimeStamp->Minutes); sTimeStamp->Seconds = (uint8_t)RTC_Bcd2ToByte(sTimeStamp->Seconds); /* Convert the DateTimeStamp structure parameters to Binary format */ sTimeStampDate->Month = (uint8_t)RTC_Bcd2ToByte(sTimeStampDate->Month); sTimeStampDate->Date = (uint8_t)RTC_Bcd2ToByte(sTimeStampDate->Date); sTimeStampDate->WeekDay = (uint8_t)RTC_Bcd2ToByte(sTimeStampDate->WeekDay); } /* Clear the TIMESTAMP Flag */ __HAL_RTC_TIMESTAMP_CLEAR_FLAG(hrtc, RTC_FLAG_TSF); return HAL_OK; } /** * @brief Sets Tamper * @note By calling this API we disable the tamper interrupt for all tampers. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param sTamper Pointer to Tamper Structure. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetTamper(RTC_HandleTypeDef *hrtc, RTC_TamperTypeDef* sTamper) { uint32_t tmpreg = 0U; /* Check the parameters */ assert_param(IS_RTC_TAMPER(sTamper->Tamper)); assert_param(IS_RTC_TAMPER_PIN(sTamper->PinSelection)); assert_param(IS_RTC_TAMPER_TRIGGER(sTamper->Trigger)); assert_param(IS_RTC_TAMPER_FILTER(sTamper->Filter)); assert_param(IS_RTC_TAMPER_SAMPLING_FREQ(sTamper->SamplingFrequency)); assert_param(IS_RTC_TAMPER_PRECHARGE_DURATION(sTamper->PrechargeDuration)); assert_param(IS_RTC_TAMPER_PULLUP_STATE(sTamper->TamperPullUp)); assert_param(IS_RTC_TAMPER_TIMESTAMPONTAMPER_DETECTION(sTamper->TimeStampOnTamperDetection)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; if(sTamper->Trigger != RTC_TAMPERTRIGGER_RISINGEDGE) { sTamper->Trigger = (uint32_t)(sTamper->Tamper << 1U); } tmpreg = ((uint32_t)sTamper->Tamper | (uint32_t)sTamper->PinSelection | (uint32_t)sTamper->Trigger |\ (uint32_t)sTamper->Filter | (uint32_t)sTamper->SamplingFrequency | (uint32_t)sTamper->PrechargeDuration |\ (uint32_t)sTamper->TamperPullUp | sTamper->TimeStampOnTamperDetection); hrtc->Instance->TAFCR &= (uint32_t)~((uint32_t)sTamper->Tamper | (uint32_t)(sTamper->Tamper << 1U) | (uint32_t)RTC_TAFCR_TAMPTS |\ (uint32_t)RTC_TAFCR_TAMPFREQ | (uint32_t)RTC_TAFCR_TAMPFLT | (uint32_t)RTC_TAFCR_TAMPPRCH |\ (uint32_t)RTC_TAFCR_TAMPPUDIS | (uint32_t)RTC_TAFCR_TAMPINSEL | (uint32_t)RTC_TAFCR_TAMPIE); hrtc->Instance->TAFCR |= tmpreg; hrtc->State = HAL_RTC_STATE_READY; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_OK; } /** * @brief Sets Tamper with interrupt. * @note By calling this API we force the tamper interrupt for all tampers. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param sTamper Pointer to RTC Tamper. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetTamper_IT(RTC_HandleTypeDef *hrtc, RTC_TamperTypeDef* sTamper) { uint32_t tmpreg = 0U; /* Check the parameters */ assert_param(IS_RTC_TAMPER(sTamper->Tamper)); assert_param(IS_RTC_TAMPER_PIN(sTamper->PinSelection)); assert_param(IS_RTC_TAMPER_TRIGGER(sTamper->Trigger)); assert_param(IS_RTC_TAMPER_FILTER(sTamper->Filter)); assert_param(IS_RTC_TAMPER_SAMPLING_FREQ(sTamper->SamplingFrequency)); assert_param(IS_RTC_TAMPER_PRECHARGE_DURATION(sTamper->PrechargeDuration)); assert_param(IS_RTC_TAMPER_PULLUP_STATE(sTamper->TamperPullUp)); assert_param(IS_RTC_TAMPER_TIMESTAMPONTAMPER_DETECTION(sTamper->TimeStampOnTamperDetection)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Configure the tamper trigger */ if(sTamper->Trigger != RTC_TAMPERTRIGGER_RISINGEDGE) { sTamper->Trigger = (uint32_t)(sTamper->Tamper << 1U); } tmpreg = ((uint32_t)sTamper->Tamper | (uint32_t)sTamper->PinSelection | (uint32_t)sTamper->Trigger |\ (uint32_t)sTamper->Filter | (uint32_t)sTamper->SamplingFrequency | (uint32_t)sTamper->PrechargeDuration |\ (uint32_t)sTamper->TamperPullUp | sTamper->TimeStampOnTamperDetection); hrtc->Instance->TAFCR &= (uint32_t)~((uint32_t)sTamper->Tamper | (uint32_t)(sTamper->Tamper << 1U) | (uint32_t)RTC_TAFCR_TAMPTS |\ (uint32_t)RTC_TAFCR_TAMPFREQ | (uint32_t)RTC_TAFCR_TAMPFLT | (uint32_t)RTC_TAFCR_TAMPPRCH |\ (uint32_t)RTC_TAFCR_TAMPPUDIS | (uint32_t)RTC_TAFCR_TAMPINSEL); hrtc->Instance->TAFCR |= tmpreg; /* Configure the Tamper Interrupt in the RTC_TAFCR */ hrtc->Instance->TAFCR |= (uint32_t)RTC_TAFCR_TAMPIE; if(sTamper->Tamper == RTC_TAMPER_1) { /* Clear RTC Tamper 1 flag */ __HAL_RTC_TAMPER_CLEAR_FLAG(hrtc, RTC_FLAG_TAMP1F); } else { /* Clear RTC Tamper 2 flag */ __HAL_RTC_TAMPER_CLEAR_FLAG(hrtc, RTC_FLAG_TAMP2F); } /* RTC Tamper Interrupt Configuration: EXTI configuration */ __HAL_RTC_TAMPER_TIMESTAMP_EXTI_ENABLE_IT(); EXTI->RTSR |= RTC_EXTI_LINE_TAMPER_TIMESTAMP_EVENT; hrtc->State = HAL_RTC_STATE_READY; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_OK; } /** * @brief Deactivates Tamper. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param Tamper Selected tamper pin. * This parameter can be RTC_Tamper_1 and/or RTC_TAMPER_2. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_DeactivateTamper(RTC_HandleTypeDef *hrtc, uint32_t Tamper) { assert_param(IS_RTC_TAMPER(Tamper)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the selected Tamper pin */ hrtc->Instance->TAFCR &= (uint32_t)~Tamper; hrtc->State = HAL_RTC_STATE_READY; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_OK; } /** * @brief This function handles TimeStamp interrupt request. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval None */ void HAL_RTCEx_TamperTimeStampIRQHandler(RTC_HandleTypeDef *hrtc) { if(__HAL_RTC_TIMESTAMP_GET_IT(hrtc, RTC_IT_TS)) { /* Get the status of the Interrupt */ if((uint32_t)(hrtc->Instance->CR & RTC_IT_TS) != (uint32_t)RESET) { /* TIMESTAMP callback */ HAL_RTCEx_TimeStampEventCallback(hrtc); /* Clear the TIMESTAMP interrupt pending bit */ __HAL_RTC_TIMESTAMP_CLEAR_FLAG(hrtc,RTC_FLAG_TSF); } } /* Get the status of the Interrupt */ if(__HAL_RTC_TAMPER_GET_IT(hrtc,RTC_IT_TAMP1)) { /* Get the TAMPER Interrupt enable bit and pending bit */ if(((hrtc->Instance->TAFCR & (RTC_TAFCR_TAMPIE))) != (uint32_t)RESET) { /* Tamper callback */ HAL_RTCEx_Tamper1EventCallback(hrtc); /* Clear the Tamper interrupt pending bit */ __HAL_RTC_TAMPER_CLEAR_FLAG(hrtc,RTC_FLAG_TAMP1F); } } /* Get the status of the Interrupt */ if(__HAL_RTC_TAMPER_GET_IT(hrtc, RTC_IT_TAMP2)) { /* Get the TAMPER Interrupt enable bit and pending bit */ if(((hrtc->Instance->TAFCR & RTC_TAFCR_TAMPIE)) != (uint32_t)RESET) { /* Tamper callback */ HAL_RTCEx_Tamper2EventCallback(hrtc); /* Clear the Tamper interrupt pending bit */ __HAL_RTC_TAMPER_CLEAR_FLAG(hrtc, RTC_FLAG_TAMP2F); } } /* Clear the EXTI's Flag for RTC TimeStamp and Tamper */ __HAL_RTC_TAMPER_TIMESTAMP_EXTI_CLEAR_FLAG(); /* Change RTC state */ hrtc->State = HAL_RTC_STATE_READY; } /** * @brief TimeStamp callback. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval None */ __weak void HAL_RTCEx_TimeStampEventCallback(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_TimeStampEventCallback could be implemented in the user file */ } /** * @brief Tamper 1 callback. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval None */ __weak void HAL_RTCEx_Tamper1EventCallback(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_Tamper1EventCallback could be implemented in the user file */ } /** * @brief Tamper 2 callback. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval None */ __weak void HAL_RTCEx_Tamper2EventCallback(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_Tamper2EventCallback could be implemented in the user file */ } /** * @brief This function handles TimeStamp polling request. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param Timeout Timeout duration * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_PollForTimeStampEvent(RTC_HandleTypeDef *hrtc, uint32_t Timeout) { uint32_t tickstart = 0U; /* Get tick */ tickstart = HAL_GetTick(); while(__HAL_RTC_TIMESTAMP_GET_FLAG(hrtc, RTC_FLAG_TSF) == RESET) { if(__HAL_RTC_TIMESTAMP_GET_FLAG(hrtc, RTC_FLAG_TSOVF) != RESET) { /* Clear the TIMESTAMP Overrun Flag */ __HAL_RTC_TIMESTAMP_CLEAR_FLAG(hrtc, RTC_FLAG_TSOVF); /* Change TIMESTAMP state */ hrtc->State = HAL_RTC_STATE_ERROR; return HAL_ERROR; } if(Timeout != HAL_MAX_DELAY) { if((Timeout == 0U)||((HAL_GetTick() - tickstart ) > Timeout)) { hrtc->State = HAL_RTC_STATE_TIMEOUT; return HAL_TIMEOUT; } } } /* Change RTC state */ hrtc->State = HAL_RTC_STATE_READY; return HAL_OK; } /** * @brief This function handles Tamper1 Polling. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param Timeout Timeout duration * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_PollForTamper1Event(RTC_HandleTypeDef *hrtc, uint32_t Timeout) { uint32_t tickstart = 0U; /* Get tick */ tickstart = HAL_GetTick(); /* Get the status of the Interrupt */ while(__HAL_RTC_TAMPER_GET_FLAG(hrtc, RTC_FLAG_TAMP1F)== RESET) { if(Timeout != HAL_MAX_DELAY) { if((Timeout == 0U)||((HAL_GetTick() - tickstart ) > Timeout)) { hrtc->State = HAL_RTC_STATE_TIMEOUT; return HAL_TIMEOUT; } } } /* Clear the Tamper Flag */ __HAL_RTC_TAMPER_CLEAR_FLAG(hrtc,RTC_FLAG_TAMP1F); /* Change RTC state */ hrtc->State = HAL_RTC_STATE_READY; return HAL_OK; } /** * @brief This function handles Tamper2 Polling. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param Timeout Timeout duration * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_PollForTamper2Event(RTC_HandleTypeDef *hrtc, uint32_t Timeout) { uint32_t tickstart = 0U; /* Get tick */ tickstart = HAL_GetTick(); /* Get the status of the Interrupt */ while(__HAL_RTC_TAMPER_GET_FLAG(hrtc, RTC_FLAG_TAMP2F) == RESET) { if(Timeout != HAL_MAX_DELAY) { if((Timeout == 0U)||((HAL_GetTick() - tickstart ) > Timeout)) { hrtc->State = HAL_RTC_STATE_TIMEOUT; return HAL_TIMEOUT; } } } /* Clear the Tamper Flag */ __HAL_RTC_TAMPER_CLEAR_FLAG(hrtc,RTC_FLAG_TAMP2F); /* Change RTC state */ hrtc->State = HAL_RTC_STATE_READY; return HAL_OK; } /** * @} */ /** @defgroup RTCEx_Exported_Functions_Group2 RTC Wake-up functions * @brief RTC Wake-up functions * @verbatim =============================================================================== ##### RTC Wake-up functions ##### =============================================================================== [..] This section provides functions allowing to configure Wake-up feature @endverbatim * @{ */ /** * @brief Sets wake up timer. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param WakeUpCounter Wake up counter * @param WakeUpClock Wake up clock * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetWakeUpTimer(RTC_HandleTypeDef *hrtc, uint32_t WakeUpCounter, uint32_t WakeUpClock) { uint32_t tickstart = 0U; /* Check the parameters */ assert_param(IS_RTC_WAKEUP_CLOCK(WakeUpClock)); assert_param(IS_RTC_WAKEUP_COUNTER(WakeUpCounter)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /*Check RTC WUTWF flag is reset only when wake up timer enabled*/ if((hrtc->Instance->CR & RTC_CR_WUTE) != RESET) { tickstart = HAL_GetTick(); /* Wait till RTC WUTWF flag is reset and if Time out is reached exit */ while(__HAL_RTC_WAKEUPTIMER_GET_FLAG(hrtc, RTC_FLAG_WUTWF) == SET) { 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; } } } __HAL_RTC_WAKEUPTIMER_DISABLE(hrtc); tickstart = HAL_GetTick(); /* Wait till RTC WUTWF flag is set and if Time out is reached exit */ while(__HAL_RTC_WAKEUPTIMER_GET_FLAG(hrtc, RTC_FLAG_WUTWF) == 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; } } /* Clear the Wake-up Timer clock source bits in CR register */ hrtc->Instance->CR &= (uint32_t)~RTC_CR_WUCKSEL; /* Configure the clock source */ hrtc->Instance->CR |= (uint32_t)WakeUpClock; /* Configure the Wake-up Timer counter */ hrtc->Instance->WUTR = (uint32_t)WakeUpCounter; /* Enable the Wake-up Timer */ __HAL_RTC_WAKEUPTIMER_ENABLE(hrtc); /* 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 Sets wake up timer with interrupt * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param WakeUpCounter Wake up counter * @param WakeUpClock Wake up clock * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetWakeUpTimer_IT(RTC_HandleTypeDef *hrtc, uint32_t WakeUpCounter, uint32_t WakeUpClock) { __IO uint32_t count; /* Check the parameters */ assert_param(IS_RTC_WAKEUP_CLOCK(WakeUpClock)); assert_param(IS_RTC_WAKEUP_COUNTER(WakeUpCounter)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* Check RTC WUTWF flag is reset only when wake up timer enabled */ if((hrtc->Instance->CR & RTC_CR_WUTE) != RESET) { /* Wait till RTC WUTWF flag is reset and if Time out is reached exit */ count = RTC_TIMEOUT_VALUE * (SystemCoreClock / 32U / 1000U); do { if(count-- == 0U) { /* 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; } } while(__HAL_RTC_WAKEUPTIMER_GET_FLAG(hrtc, RTC_FLAG_WUTWF) == SET); } __HAL_RTC_WAKEUPTIMER_DISABLE(hrtc); /* Wait till RTC WUTWF flag is set and if Time out is reached exit */ count = RTC_TIMEOUT_VALUE * (SystemCoreClock / 32U / 1000U); do { if(count-- == 0U) { /* 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; } } while(__HAL_RTC_WAKEUPTIMER_GET_FLAG(hrtc, RTC_FLAG_WUTWF) == RESET); /* Configure the Wake-up Timer counter */ hrtc->Instance->WUTR = (uint32_t)WakeUpCounter; /* Clear the Wake-up Timer clock source bits in CR register */ hrtc->Instance->CR &= (uint32_t)~RTC_CR_WUCKSEL; /* Configure the clock source */ hrtc->Instance->CR |= (uint32_t)WakeUpClock; /* RTC WakeUpTimer Interrupt Configuration: EXTI configuration */ __HAL_RTC_WAKEUPTIMER_EXTI_ENABLE_IT(); EXTI->RTSR |= RTC_EXTI_LINE_WAKEUPTIMER_EVENT; /* Clear RTC Wake Up timer Flag */ __HAL_RTC_WAKEUPTIMER_CLEAR_FLAG(hrtc, RTC_FLAG_WUTF); /* Configure the Interrupt in the RTC_CR register */ __HAL_RTC_WAKEUPTIMER_ENABLE_IT(hrtc,RTC_IT_WUT); /* Enable the Wake-up Timer */ __HAL_RTC_WAKEUPTIMER_ENABLE(hrtc); /* 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 Deactivates wake up timer counter. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval HAL status */ uint32_t HAL_RTCEx_DeactivateWakeUpTimer(RTC_HandleTypeDef *hrtc) { uint32_t tickstart = 0U; /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* Disable the Wake-up Timer */ __HAL_RTC_WAKEUPTIMER_DISABLE(hrtc); /* In case of interrupt mode is used, the interrupt source must disabled */ __HAL_RTC_WAKEUPTIMER_DISABLE_IT(hrtc,RTC_IT_WUT); /* Get tick */ tickstart = HAL_GetTick(); /* Wait till RTC WUTWF flag is set and if Time out is reached exit */ while(__HAL_RTC_WAKEUPTIMER_GET_FLAG(hrtc, RTC_FLAG_WUTWF) == 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 Gets wake up timer counter. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval Counter value */ uint32_t HAL_RTCEx_GetWakeUpTimer(RTC_HandleTypeDef *hrtc) { /* Get the counter value */ return ((uint32_t)(hrtc->Instance->WUTR & RTC_WUTR_WUT)); } /** * @brief This function handles Wake Up Timer interrupt request. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval None */ void HAL_RTCEx_WakeUpTimerIRQHandler(RTC_HandleTypeDef *hrtc) { if(__HAL_RTC_WAKEUPTIMER_GET_IT(hrtc, RTC_IT_WUT)) { /* Get the status of the Interrupt */ if((uint32_t)(hrtc->Instance->CR & RTC_IT_WUT) != (uint32_t)RESET) { /* WAKEUPTIMER callback */ HAL_RTCEx_WakeUpTimerEventCallback(hrtc); /* Clear the WAKEUPTIMER interrupt pending bit */ __HAL_RTC_WAKEUPTIMER_CLEAR_FLAG(hrtc, RTC_FLAG_WUTF); } } /* Clear the EXTI's line Flag for RTC WakeUpTimer */ __HAL_RTC_WAKEUPTIMER_EXTI_CLEAR_FLAG(); /* Change RTC state */ hrtc->State = HAL_RTC_STATE_READY; } /** * @brief Wake Up Timer callback. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval None */ __weak void HAL_RTCEx_WakeUpTimerEventCallback(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_WakeUpTimerEventCallback could be implemented in the user file */ } /** * @brief This function handles Wake Up Timer Polling. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param Timeout Timeout duration * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_PollForWakeUpTimerEvent(RTC_HandleTypeDef *hrtc, uint32_t Timeout) { uint32_t tickstart = 0U; /* Get tick */ tickstart = HAL_GetTick(); while(__HAL_RTC_WAKEUPTIMER_GET_FLAG(hrtc, RTC_FLAG_WUTF) == RESET) { if(Timeout != HAL_MAX_DELAY) { if((Timeout == 0U)||((HAL_GetTick() - tickstart ) > Timeout)) { hrtc->State = HAL_RTC_STATE_TIMEOUT; return HAL_TIMEOUT; } } } /* Clear the WAKEUPTIMER Flag */ __HAL_RTC_WAKEUPTIMER_CLEAR_FLAG(hrtc, RTC_FLAG_WUTF); /* Change RTC state */ hrtc->State = HAL_RTC_STATE_READY; return HAL_OK; } /** * @} */ /** @defgroup RTCEx_Exported_Functions_Group3 Extension Peripheral Control functions * @brief Extension Peripheral Control functions * @verbatim =============================================================================== ##### Extension Peripheral Control functions ##### =============================================================================== [..] This subsection provides functions allowing to (+) Write a data in a specified RTC Backup data register (+) Read a data in a specified RTC Backup data register (+) Set the Coarse calibration parameters. (+) Deactivate the Coarse calibration parameters (+) Set the Smooth calibration parameters. (+) Configure the Synchronization Shift Control Settings. (+) Configure the Calibration Pinout (RTC_CALIB) Selection (1Hz or 512Hz). (+) Deactivate the Calibration Pinout (RTC_CALIB) Selection (1Hz or 512Hz). (+) Enable the RTC reference clock detection. (+) Disable the RTC reference clock detection. (+) Enable the Bypass Shadow feature. (+) Disable the Bypass Shadow feature. @endverbatim * @{ */ /** * @brief Writes a data in a specified RTC Backup data register. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param BackupRegister RTC Backup data Register number. * This parameter can be: RTC_BKP_DRx where x can be from 0 to 19 to * specify the register. * @param Data Data to be written in the specified RTC Backup data register. * @retval None */ void HAL_RTCEx_BKUPWrite(RTC_HandleTypeDef *hrtc, uint32_t BackupRegister, uint32_t Data) { uint32_t tmp = 0U; /* Check the parameters */ assert_param(IS_RTC_BKP(BackupRegister)); tmp = (uint32_t)&(hrtc->Instance->BKP0R); tmp += (BackupRegister * 4U); /* Write the specified register */ *(__IO uint32_t *)tmp = (uint32_t)Data; } /** * @brief Reads data from the specified RTC Backup data Register. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param BackupRegister RTC Backup data Register number. * This parameter can be: RTC_BKP_DRx where x can be from 0 to 19 to * specify the register. * @retval Read value */ uint32_t HAL_RTCEx_BKUPRead(RTC_HandleTypeDef *hrtc, uint32_t BackupRegister) { uint32_t tmp = 0U; /* Check the parameters */ assert_param(IS_RTC_BKP(BackupRegister)); tmp = (uint32_t)&(hrtc->Instance->BKP0R); tmp += (BackupRegister * 4U); /* Read the specified register */ return (*(__IO uint32_t *)tmp); } /** * @brief Sets the Coarse calibration parameters. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param CalibSign Specifies the sign of the coarse calibration value. * This parameter can be one of the following values : * @arg RTC_CALIBSIGN_POSITIVE: The value sign is positive * @arg RTC_CALIBSIGN_NEGATIVE: The value sign is negative * @param Value value of coarse calibration expressed in ppm (coded on 5 bits). * * @note This Calibration value should be between 0 and 63 when using negative * sign with a 2-ppm step. * * @note This Calibration value should be between 0 and 126 when using positive * sign with a 4-ppm step. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetCoarseCalib(RTC_HandleTypeDef* hrtc, uint32_t CalibSign, uint32_t Value) { /* Check the parameters */ assert_param(IS_RTC_CALIB_SIGN(CalibSign)); assert_param(IS_RTC_CALIB_VALUE(Value)); /* Process Locked */ __HAL_LOCK(hrtc); 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; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_ERROR; } else { /* Enable the Coarse Calibration */ __HAL_RTC_COARSE_CALIB_ENABLE(hrtc); /* Set the coarse calibration value */ hrtc->Instance->CALIBR = (uint32_t)(CalibSign|Value); /* Exit Initialization mode */ hrtc->Instance->ISR &= (uint32_t)~RTC_ISR_INIT; } /* Enable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); /* Change state */ hrtc->State = HAL_RTC_STATE_READY; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_OK; } /** * @brief Deactivates the Coarse calibration parameters. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_DeactivateCoarseCalib(RTC_HandleTypeDef* hrtc) { /* Process Locked */ __HAL_LOCK(hrtc); 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; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_ERROR; } else { /* Enable the Coarse Calibration */ __HAL_RTC_COARSE_CALIB_DISABLE(hrtc); /* Exit Initialization mode */ hrtc->Instance->ISR &= (uint32_t)~RTC_ISR_INIT; } /* Enable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); /* Change state */ hrtc->State = HAL_RTC_STATE_READY; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_OK; } /** * @brief Sets the Smooth calibration parameters. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param SmoothCalibPeriod Select the Smooth Calibration Period. * This parameter can be can be one of the following values : * @arg RTC_SMOOTHCALIB_PERIOD_32SEC: The smooth calibration period is 32s. * @arg RTC_SMOOTHCALIB_PERIOD_16SEC: The smooth calibration period is 16s. * @arg RTC_SMOOTHCALIB_PERIOD_8SEC: The smooth calibration period is 8s. * @param SmoothCalibPlusPulses Select to Set or reset the CALP bit. * This parameter can be one of the following values: * @arg RTC_SMOOTHCALIB_PLUSPULSES_SET: Add one RTCCLK pulse every 2*11 pulses. * @arg RTC_SMOOTHCALIB_PLUSPULSES_RESET: No RTCCLK pulses are added. * @param SmouthCalibMinusPulsesValue Select the value of CALM[80] bits. * This parameter can be one any value from 0 to 0x000001FF. * @note To deactivate the smooth calibration, the field SmoothCalibPlusPulses * must be equal to SMOOTHCALIB_PLUSPULSES_RESET and the field * SmouthCalibMinusPulsesValue must be equal to 0. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetSmoothCalib(RTC_HandleTypeDef* hrtc, uint32_t SmoothCalibPeriod, uint32_t SmoothCalibPlusPulses, uint32_t SmouthCalibMinusPulsesValue) { uint32_t tickstart = 0U; /* Check the parameters */ assert_param(IS_RTC_SMOOTH_CALIB_PERIOD(SmoothCalibPeriod)); assert_param(IS_RTC_SMOOTH_CALIB_PLUS(SmoothCalibPlusPulses)); assert_param(IS_RTC_SMOOTH_CALIB_MINUS(SmouthCalibMinusPulsesValue)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* check if a calibration is pending*/ if((hrtc->Instance->ISR & RTC_ISR_RECALPF) != RESET) { /* Get tick */ tickstart = HAL_GetTick(); /* check if a calibration is pending*/ while((hrtc->Instance->ISR & RTC_ISR_RECALPF) != RESET) { if((HAL_GetTick() - tickstart ) > RTC_TIMEOUT_VALUE) { /* Enable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); /* Change RTC state */ hrtc->State = HAL_RTC_STATE_TIMEOUT; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_TIMEOUT; } } } /* Configure the Smooth calibration settings */ hrtc->Instance->CALR = (uint32_t)((uint32_t)SmoothCalibPeriod | (uint32_t)SmoothCalibPlusPulses | (uint32_t)SmouthCalibMinusPulsesValue); /* 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 Configures the Synchronization Shift Control Settings. * @note When REFCKON is set, firmware must not write to Shift control register. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param ShiftAdd1S Select to add or not 1 second to the time calendar. * This parameter can be one of the following values : * @arg RTC_SHIFTADD1S_SET: Add one second to the clock calendar. * @arg RTC_SHIFTADD1S_RESET: No effect. * @param ShiftSubFS Select the number of Second Fractions to substitute. * This parameter can be one any value from 0 to 0x7FFF. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetSynchroShift(RTC_HandleTypeDef* hrtc, uint32_t ShiftAdd1S, uint32_t ShiftSubFS) { uint32_t tickstart = 0U; /* Check the parameters */ assert_param(IS_RTC_SHIFT_ADD1S(ShiftAdd1S)); assert_param(IS_RTC_SHIFT_SUBFS(ShiftSubFS)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* Get tick */ tickstart = HAL_GetTick(); /* Wait until the shift is completed*/ while((hrtc->Instance->ISR & RTC_ISR_SHPF) != 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; } } /* Check if the reference clock detection is disabled */ if((hrtc->Instance->CR & RTC_CR_REFCKON) == RESET) { /* Configure the Shift settings */ hrtc->Instance->SHIFTR = (uint32_t)(uint32_t)(ShiftSubFS) | (uint32_t)(ShiftAdd1S); /* 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; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_ERROR; } } } else { /* Enable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_ENABLE(hrtc); /* Change RTC state */ 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); /* Change RTC state */ hrtc->State = HAL_RTC_STATE_READY; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_OK; } /** * @brief Configures the Calibration Pinout (RTC_CALIB) Selection (1Hz or 512Hz). * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param CalibOutput Select the Calibration output Selection . * This parameter can be one of the following values: * @arg RTC_CALIBOUTPUT_512HZ: A signal has a regular waveform at 512Hz. * @arg RTC_CALIBOUTPUT_1HZ: A signal has a regular waveform at 1Hz. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetCalibrationOutPut(RTC_HandleTypeDef* hrtc, uint32_t CalibOutput) { /* Check the parameters */ assert_param(IS_RTC_CALIB_OUTPUT(CalibOutput)); /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* Clear flags before config */ hrtc->Instance->CR &= (uint32_t)~RTC_CR_COSEL; /* Configure the RTC_CR register */ hrtc->Instance->CR |= (uint32_t)CalibOutput; __HAL_RTC_CALIBRATION_OUTPUT_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 Deactivates the Calibration Pinout (RTC_CALIB) Selection (1Hz or 512Hz). * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_DeactivateCalibrationOutPut(RTC_HandleTypeDef* hrtc) { /* 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_CALIBRATION_OUTPUT_DISABLE(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 Enables the RTC reference clock detection. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_SetRefClock(RTC_HandleTypeDef* hrtc) { /* Process Locked */ __HAL_LOCK(hrtc); 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; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_ERROR; } else { __HAL_RTC_CLOCKREF_DETECTION_ENABLE(hrtc); /* Exit Initialization mode */ hrtc->Instance->ISR &= (uint32_t)~RTC_ISR_INIT; } /* 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 Disable the RTC reference clock detection. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_DeactivateRefClock(RTC_HandleTypeDef* hrtc) { /* Process Locked */ __HAL_LOCK(hrtc); 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; /* Process Unlocked */ __HAL_UNLOCK(hrtc); return HAL_ERROR; } else { __HAL_RTC_CLOCKREF_DETECTION_DISABLE(hrtc); /* Exit Initialization mode */ hrtc->Instance->ISR &= (uint32_t)~RTC_ISR_INIT; } /* 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 Enables the Bypass Shadow feature. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @note When the Bypass Shadow is enabled the calendar value are taken * directly from the Calendar counter. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_EnableBypassShadow(RTC_HandleTypeDef* hrtc) { /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* Set the BYPSHAD bit */ hrtc->Instance->CR |= (uint8_t)RTC_CR_BYPSHAD; /* 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 Disables the Bypass Shadow feature. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @note When the Bypass Shadow is enabled the calendar value are taken * directly from the Calendar counter. * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_DisableBypassShadow(RTC_HandleTypeDef* hrtc) { /* Process Locked */ __HAL_LOCK(hrtc); hrtc->State = HAL_RTC_STATE_BUSY; /* Disable the write protection for RTC registers */ __HAL_RTC_WRITEPROTECTION_DISABLE(hrtc); /* Reset the BYPSHAD bit */ hrtc->Instance->CR &= (uint8_t)~RTC_CR_BYPSHAD; /* 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; } /** * @} */ /** @defgroup RTCEx_Exported_Functions_Group4 Extended features functions * @brief Extended features functions * @verbatim =============================================================================== ##### Extended features functions ##### =============================================================================== [..] This section provides functions allowing to: (+) RTC Alarm B callback (+) RTC Poll for Alarm B request @endverbatim * @{ */ /** * @brief Alarm B callback. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @retval None */ __weak void HAL_RTCEx_AlarmBEventCallback(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_AlarmBEventCallback could be implemented in the user file */ } /** * @brief This function handles AlarmB Polling request. * @param hrtc pointer to a RTC_HandleTypeDef structure that contains * the configuration information for RTC. * @param Timeout Timeout duration * @retval HAL status */ HAL_StatusTypeDef HAL_RTCEx_PollForAlarmBEvent(RTC_HandleTypeDef *hrtc, uint32_t Timeout) { uint32_t tickstart = 0U; /* Get tick */ tickstart = HAL_GetTick(); while(__HAL_RTC_ALARM_GET_FLAG(hrtc, RTC_FLAG_ALRBF) == 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 Flag */ __HAL_RTC_ALARM_CLEAR_FLAG(hrtc, RTC_FLAG_ALRBF); /* Change RTC state */ hrtc->State = HAL_RTC_STATE_READY; return HAL_OK; } /** * @} */ /** * @} */ #endif /* HAL_RTC_MODULE_ENABLED */ /** * @} */ /** * @} */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/