/* ****************************************************************************** * @file HAL_RTC.c * @version V1.0.0 * @date 2020 * @brief RTC HAL module driver. * This file provides firmware functions to manage the following * functionalities of the Real-Time Clock (RTC) peripheral: * + Initialization functions * + Time and Date configuration * + Alarm configuration * + WakeUp Timer configuration * + TimeStamp configuration * + Tampers configuration * + Backup Data Registers configuration * + RTC Tamper and TimeStamp Pins Selection * + Interrupts and flags management ****************************************************************************** */ #include "ACM32Fxx_HAL.h" /********************************************************************************* * Function : HAL_RTC_Config * Description : Initialize the RTC peripheral * Input : * Outpu : * Author : Chris_Kyle Data : 2020年 **********************************************************************************/ HAL_StatusTypeDef HAL_RTC_Config(RTC_ConfigTypeDef *hrtc) { #if (USE_FULL_ASSERT == 1) /* Check RTC Parameter */ if (!IS_RTC_CLOCKSRC(hrtc->u32_ClockSource)) return HAL_ERROR; if (!IS_RTC_COMPENSATION(hrtc->u32_Compensation)) return HAL_ERROR; #endif /* RTC domain write enable */ SCU->STOPCFG |= (1 << 0); PMU->CR1 |= RPMU_CR_RTCEN; switch (hrtc->u32_ClockSource) { case RTC_CLOCK_RC32K: { PMU->ANACR |= RPMU_ANACR_RC32K_EN; while(!(PMU->ANACR & RPMU_ANACR_RC32K_RDY)); PMU->CR1 &= ~RTC_CLOCK_XTL; }break; case RTC_CLOCK_XTL: { PMU->ANACR = (PMU->ANACR & ~RPMU_ANACR_XTLDRV) | (RPMU_ANACR_XTLDRV_1 | RPMU_ANACR_XTLDRV_0); PMU->ANACR |= RPMU_ANACR_XTLEN; while(!(PMU->ANACR & RPMU_ANACR_XTLRDY)); PMU->CR1 |= RTC_CLOCK_XTL; }break; default: break; } if (hrtc->u32_CompensationValue) { RTC->ADJUST = hrtc->u32_Compensation | hrtc->u32_CompensationValue; } return HAL_OK; } /********************************************************************************* * Function : HAL_RTC_SetTime * Description : Set RTC current time. * Input : fp_Time Pointer to Time structure. * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_SetTime(RTC_TimeTypeDef *fp_Time) { #if (USE_FULL_ASSERT == 1) /* Check RTC Parameter */ if (!IS_RTC_HOUR(fp_Time->u8_Hours)) return; if (!IS_RTC_MIN(fp_Time->u8_Minutes)) return; if (!IS_RTC_SEC(fp_Time->u8_Seconds)) return; #endif /* Write-Protect Disable */ RTC->WP = 0xCA53CA53; RTC->HOUR = fp_Time->u8_Hours; RTC->MIN = fp_Time->u8_Minutes; RTC->SEC = fp_Time->u8_Seconds; /* Write-Protect Enable */ RTC->WP = 0; } /********************************************************************************* * Function : HAL_RTC_GetTime * Description : Get RTC current time. * Input : fp_Time Pointer to Time structure. * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_GetTime(RTC_TimeTypeDef *fp_Time) { fp_Time->u8_Hours = RTC->HOUR; fp_Time->u8_Minutes = RTC->MIN; fp_Time->u8_Seconds = RTC->SEC; } /********************************************************************************* * Function : HAL_RTC_SetDate * Description : Set RTC current Date. * Input : fp_Date Pointer to Date structure. * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_SetDate(RTC_DateTypeDef *fp_Date) { #if (USE_FULL_ASSERT == 1) /* Check RTC Parameter */ if (!IS_RTC_YEAR(fp_Date->u8_Year)) return; if (!IS_RTC_MONTH(fp_Date->u8_Month)) return; if (!IS_RTC_DAY(fp_Date->u8_Date)) return; if (!IS_RTC_WEEKDAY(fp_Date->u8_WeekDay)) return; #endif /* Write-Protect Disable */ RTC->WP = 0xCA53CA53; RTC->YEAR = fp_Date->u8_Year; RTC->MONTH = fp_Date->u8_Month; RTC->DATE = fp_Date->u8_Date; RTC->WEEK = fp_Date->u8_WeekDay; /* Write-Protect Enable */ RTC->WP = 0; } /********************************************************************************* * Function : HAL_RTC_GetDate * Description : Get RTC current Date. * Input : fp_Date Pointer to Date structure. * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_GetDate(RTC_DateTypeDef *fp_Date) { fp_Date->u8_Year = RTC->YEAR; fp_Date->u8_Month = RTC->MONTH; fp_Date->u8_Date = RTC->DATE; fp_Date->u8_WeekDay = RTC->WEEK; } /********************************************************************************* * Function : HAL_RTC_AlarmConfig * Description : Alarm Config * Input : fp_Alarm Pointer to ALarm structure. * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_AlarmConfig(RTC_AlarmTypeDef *fp_Alarm) { uint32_t lu32_WeekDay; #if (USE_FULL_ASSERT == 1) /* Check RTC Parameter */ if (!IS_RTC_ALARM_MODE(fp_Alarm->u32_AlarmMode)) return; if (!IS_RTC_ALARM_INT(fp_Alarm->u32_AlarmInterrupt)) return; if (!IS_RTC_ALARM_DAY_MASK(fp_Alarm->u32_DayMask)) return; if (!IS_RTC_ALARM_HOUR_MASK(fp_Alarm->u32_HourMask)) return; if (!IS_RTC_ALARM_MIN_MASK(fp_Alarm->u32_MinMask)) return; if (fp_Alarm->u32_AlarmMode == RTC_ALARM_WEEK_MODE) { if (!IS_RTC_ALARM_WEEKDAY(fp_Alarm->u32_AlarmWeek)) return; } else { if (!IS_RTC_DAY(fp_Alarm->u32_AlarmDay)) return; } if (!IS_RTC_HOUR(fp_Alarm->u32_Hours)) return; if (!IS_RTC_MIN(fp_Alarm->u32_Minutes)) return; if (!IS_RTC_SEC(fp_Alarm->u32_Seconds)) return; #endif if (fp_Alarm->u32_AlarmMode == RTC_ALARM_WEEK_MODE) { lu32_WeekDay = fp_Alarm->u32_AlarmWeek; } else { lu32_WeekDay = fp_Alarm->u32_AlarmDay; } /* Coinfig Week/Day、Hour、Min、Sec */ RTC->ALM = fp_Alarm->u32_AlarmMode | lu32_WeekDay | fp_Alarm->u32_Hours << 16 | fp_Alarm->u32_Minutes << 8 | fp_Alarm->u32_Seconds; /* Interrupt Enable */ if (RTC_ALARM_INT_ENABLE == fp_Alarm->u32_AlarmInterrupt) { RTC->IE |= RTC_IE_ALM; } RTC->CR |= (fp_Alarm->u32_DayMask) ? RTC_ALARM_DAY_MASK_ENABLE : RTC_ALARM_DAY_MASK_DISABLE; RTC->CR |= (fp_Alarm->u32_HourMask) ? RTC_ALARM_HOUR_MASK_ENABLE : RTC_ALARM_HOUR_MASK_DISABLE; RTC->CR |= (fp_Alarm->u32_MinMask) ? RTC_ALARM_MIN_MASK_ENABLE : RTC_ALARM_MIN_MASK_DISABLE; } /********************************************************************************* * Function : HAL_RTC_AlarmEnable * Description : Alarm Enable * Input : * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_AlarmEnable(void) { RTC->CR |= RTC_CR_ALM_EN; } /********************************************************************************* * Function : HAL_RTC_AlarmDisable * Description : Alarm Disable * Input : * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_AlarmDisable(void) { RTC->CR &= ~RTC_CR_ALM_EN; } /********************************************************************************* * Function : HAL_RTC_Tamper * Description : Temper1 use PC13、Temper2 use PA0 * Input : * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_Tamper(enum_Temper_t fe_Temper, RTC_TemperTypeDef *fp_Temper) { #if (USE_FULL_ASSERT == 1) /* Check RTC Parameter */ if (!IS_RTC_TEMP_EDGE(fp_Temper->u32_TemperEdge)) return; if (!IS_RTC_TEMP_INT(fp_Temper->u32_InterruptEN)) return; if (!IS_RTC_TEMP_CLEAR_BACKUP(fp_Temper->u32_ClearBackup)) return; if (!IS_RTC_TEMP_FILTER(fp_Temper->u32_Filter)) return; #endif switch (fe_Temper) { case RTC_TEMPER_1: { PMU->IOCR &= ~0x40; // Configure PC13 as digital IO PMU->IOSEL |= 0x02; // Configure PC13 as tamper function /* Clear Config */ RTC->CR &= ~(RTC_CR_TAMP1RCLR | RTC_CR_TAMP1FCLR | RTC_CR_TAMP1FLTEN | RTC_CR_TAMP1FLT | RTC_CR_TS1EDGE | RTC_CR_TAMPFLTCLK); /* Edge select */ RTC->CR |= fp_Temper->u32_TemperEdge ? RTC_CR_TS1EDGE : 0x00; /* Auto clear backup register */ if (fp_Temper->u32_ClearBackup) { RTC->CR |= fp_Temper->u32_TemperEdge ? RTC_CR_TAMP1FCLR : RTC_CR_TAMP1RCLR; } /* Temper filter */ if (fp_Temper->u32_Filter) { if (fp_Temper->u32_Filter == RTC_TEMP_FILTER_512_RTCCLK) { RTC->CR |= RTC_CR_TAMPFLTCLK; } else { RTC->CR |= (fp_Temper->u32_Filter - 2) << 13; } } RTC->CR |= RTC_CR_TAMP1EN; System_Delay(2000); RTC->SR |= (RTC_SR_STP1FIE|RTC_SR_STP1RIE); RTC->IE &= (~(RTC_IE_STP1FIE|RTC_IE_STP1RIE)); /* Put Temper Interrupt enable here !!!*/ if (fp_Temper->u32_InterruptEN) { RTC->IE |= fp_Temper->u32_TemperEdge ? RTC_IE_STP1FIE : RTC_IE_STP1RIE; } }break; case RTC_TEMPER_2: { /* Clear Config */ RTC->CR &= ~(RTC_CR_TAMP2RCLR | RTC_CR_TAMP2FCLR | RTC_CR_TAMP2FLTEN | RTC_CR_TAMP2FLT | RTC_CR_TS2EDGE | RTC_CR_TAMPFLTCLK); /* Edge select */ RTC->CR |= fp_Temper->u32_TemperEdge ? RTC_CR_TS2EDGE : 0x00; /* Auto clear backup register */ if (fp_Temper->u32_ClearBackup) { RTC->CR |= fp_Temper->u32_TemperEdge ? RTC_CR_TAMP2FCLR : RTC_CR_TAMP2RCLR; } /* Temper filter */ if (fp_Temper->u32_Filter) { if (fp_Temper->u32_Filter == RTC_TEMP_FILTER_512_RTCCLK) { RTC->CR |= RTC_CR_TAMPFLTCLK; } else { RTC->CR |= (fp_Temper->u32_Filter - 2) << 19; } } RTC->CR |= RTC_CR_TAMP2EN; System_Delay(2000); RTC->SR |= (RTC_SR_STP2FIE|RTC_SR_STP2RIE); RTC->IE &= (~(RTC_IE_STP2FIE|RTC_IE_STP2RIE)); /* Temper Interrupt */ if (fp_Temper->u32_InterruptEN) { RTC->IE |= fp_Temper->u32_TemperEdge ? RTC_IE_STP2FIE : RTC_IE_STP2RIE; } }break; default: break; } } /********************************************************************************* * Function : HAL_RTC_TamperEnable * Description : * Input : * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_TamperEnable(enum_Temper_t fe_Temper) { if (fe_Temper == RTC_TEMPER_1) { RTC->CR |= RTC_CR_TAMP1EN; } else { RTC->CR |= RTC_CR_TAMP2EN; } } /********************************************************************************* * Function : HAL_RTC_TamperDisable * Description : * Input : * Outpu : * Author : Chris_Kyle Data : 2020定 **********************************************************************************/ void HAL_RTC_TamperDisable(enum_Temper_t fe_Temper) { if (fe_Temper == RTC_TEMPER_1) { RTC->CR &= ~RTC_CR_TAMP1EN; } else { RTC->CR &= ~RTC_CR_TAMP2EN; } } /*************************************************************************************************** * Function : HAL_RTC_Standby_Wakeup * Description : wakeup source select * Input : fu32_Edge 0: Rising edge * 1: Falling edge * fe_Wakeup : wakeup source select, STANDBY_WAKEUP_RISING, STANDBY_WAKEUP_FALLING * Outpu : * Author : Chris_Kyle Date : 2021 *******************************************************************************************************/ void HAL_RTC_Standby_Wakeup(enum_WKUP_t fe_Wakeup, uint32_t fu32_Edge) { switch (fe_Wakeup) { case RTC_WAKEUP_WKUP1: case RTC_WAKEUP_WKUP2: case RTC_WAKEUP_WKUP3: case RTC_WAKEUP_WKUP4: case RTC_WAKEUP_WKUP5: case RTC_WAKEUP_WKUP6: { /* Clear flags、Standby Enable */ PMU->CR1 |= RPMU_CR_STB_EN | RPMU_CR_CWUF | RPMU_CR_CSBF; /* Wakeup IO Filter Enable */ PMU->CR1 |= fe_Wakeup << 8; /* Wakeup IO Enable */ PMU->CR1 |= fe_Wakeup; if (fe_Wakeup == RTC_WAKEUP_WKUP2) { /* PC13 */ PMU->IOCR &= ~0x40; // must configure PC13 as digital function } if (fu32_Edge) { PMU->CR2 |= fe_Wakeup >> 16; } else { PMU->CR2 &= ~(fe_Wakeup >> 16); } PMU->CR1 |= RPMU_CR_CWUF; // clear wakeup flag System_Enter_Standby_Mode(); }break; case RTC_WAKEUP_STAMP2: case RTC_WAKEUP_STAMP1: case RTC_WAKEUP_32S: case RTC_WAKEUP_SEC: case RTC_WAKEUP_MIN: case RTC_WAKEUP_HOUR: case RTC_WAKEUP_DATE: { /* Clear flags、Standby Enable */ PMU->CR1 |= RPMU_CR_STB_EN | RPMU_CR_CWUF | RPMU_CR_CSBF; RTC->SR |= fe_Wakeup; RTC->IE |= fe_Wakeup; System_Enter_Standby_Mode(); }break; default: break; } } /********************************************************************************* * Function : HAL_RTC_GetStandbyStatus * Description : Check MCU have entered standby mode * Input : * Outpu : 0: Not Enter Standby Mode 1: Entered Standby Mode * Author : Chris_Kyle Data : 2020 **********************************************************************************/ bool HAL_RTC_Get_StandbyStatus(void) { if (PMU->SR & RPMU_SR_SBF) { return true; } else { return false; } } /********************************************************************************* * Function : HAL_RTC_Get_StandbyWakeupSource * Description : Get MCU Standby Wakeup Source * Input : * Outpu : RTC_WAKEUP_SOURCE_BORWUF RTC_WAKEUP_SOURCE_IWDTWUF RTC_WAKEUP_SOURCE_RSTWUF RTC_WAKEUP_SOURCE_RTCWUF RTC_WAKEUP_SOURCE_WKUP6 RTC_WAKEUP_SOURCE_WKUP5 RTC_WAKEUP_SOURCE_WKUP4 RTC_WAKEUP_SOURCE_WKUP3 RTC_WAKEUP_SOURCE_WKUP2 RTC_WAKEUP_SOURCE_WKUP1 * Author : Chris_Kyle Data : 2020 **********************************************************************************/ uint32_t HAL_RTC_Get_StandbyWakeupSource(void) { return PMU->SR; }