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view Common/Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_rtc_ex.c @ 739:4a6bffaa38b3
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author | Ideenmodellierer |
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date | Thu, 02 Feb 2023 17:26:54 +0100 |
parents | c78bcbd5deda |
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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****/