/* * Copyright (c) 2023 Renesas Electronics Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include #include #include #include #include LOG_MODULE_REGISTER(rtc_smartbond, CONFIG_RTC_LOG_LEVEL); #define DT_DRV_COMPAT renesas_smartbond_rtc #define SMARTBOND_IRQN DT_INST_IRQN(0) #define SMARTBOND_IRQ_PRIO DT_INST_IRQ(0, priority) #define RTC_ALARMS_COUNT DT_PROP(DT_NODELABEL(rtc), alarms_count) #define TM_YEAR_REF 1900 #define RTC_DIV_DENOM_1000 0 #define RTC_DIV_DENOM_1024 1 #define RTC_SMARTBOND_SUPPORTED_ALARM_FIELDS \ (RTC_ALARM_TIME_MASK_SECOND | RTC_ALARM_TIME_MASK_MINUTE | RTC_ALARM_TIME_MASK_HOUR | \ RTC_ALARM_TIME_MASK_MONTH | RTC_ALARM_TIME_MASK_MONTHDAY) #define RTC_TIME_REG_SET_FIELD(_field, _var, _val) \ ((_var) = \ ((_var) & ~(RTC_RTC_TIME_REG_RTC_TIME_ ## _field ## _T_Msk | \ RTC_RTC_TIME_REG_RTC_TIME_ ## _field ## _U_Msk)) | \ (((_val) << RTC_RTC_TIME_REG_RTC_TIME_ ## _field ## _U_Pos) & \ (RTC_RTC_TIME_REG_RTC_TIME_ ## _field ## _T_Msk | \ RTC_RTC_TIME_REG_RTC_TIME_ ## _field ## _U_Msk))) #define RTC_CALENDAR_REG_SET_FIELD(_field, _var, _val) \ ((_var) = \ ((_var) & ~(RTC_RTC_CALENDAR_REG_RTC_CAL_ ## _field ## _T_Msk | \ RTC_RTC_CALENDAR_REG_RTC_CAL_ ## _field ## _U_Msk)) | \ (((_val) << RTC_RTC_CALENDAR_REG_RTC_CAL_ ## _field ## _U_Pos) & \ (RTC_RTC_CALENDAR_REG_RTC_CAL_ ## _field ## _T_Msk | \ RTC_RTC_CALENDAR_REG_RTC_CAL_ ## _field ## _U_Msk))) #define RTC_CALENDAR_ALARM_REG_SET_FIELD(_field, _var, _val) \ ((_var) = \ ((_var) & ~(RTC_RTC_CALENDAR_ALARM_REG_RTC_CAL_ ## _field ## _T_Msk | \ RTC_RTC_CALENDAR_ALARM_REG_RTC_CAL_ ## _field ## _U_Msk)) | \ (((_val) << RTC_RTC_CALENDAR_ALARM_REG_RTC_CAL_ ## _field ## _U_Pos) & \ (RTC_RTC_CALENDAR_ALARM_REG_RTC_CAL_ ## _field ## _T_Msk | \ RTC_RTC_CALENDAR_ALARM_REG_RTC_CAL_ ## _field ## _U_Msk))) #define RTC_TIME_ALARM_REG_SET_FIELD(_field, _var, _val) \ ((_var) = \ ((_var) & ~(RTC_RTC_TIME_ALARM_REG_RTC_TIME_ ## _field ## _T_Msk | \ RTC_RTC_TIME_ALARM_REG_RTC_TIME_ ## _field ## _U_Msk)) | \ (((_val) << RTC_RTC_TIME_ALARM_REG_RTC_TIME_ ## _field ## _U_Pos) & \ (RTC_RTC_TIME_ALARM_REG_RTC_TIME_ ## _field ## _T_Msk | \ RTC_RTC_TIME_ALARM_REG_RTC_TIME_ ## _field ## _U_Msk))) #define RTC_TIME_REG_GET_FIELD(_field, _var) \ (((_var) & (RTC_RTC_TIME_REG_RTC_TIME_ ## _field ## _T_Msk | \ RTC_RTC_TIME_REG_RTC_TIME_ ## _field ## _U_Msk)) >> \ RTC_RTC_TIME_REG_RTC_TIME_ ## _field ## _U_Pos) #define RTC_CALENDAR_REG_GET_FIELD(_field, _var) \ (((_var) & (RTC_RTC_CALENDAR_REG_RTC_CAL_ ## _field ## _T_Msk | \ RTC_RTC_CALENDAR_REG_RTC_CAL_ ## _field ## _U_Msk)) >> \ RTC_RTC_CALENDAR_REG_RTC_CAL_ ## _field ## _U_Pos) #define RTC_CALENDAR_ALARM_REG_GET_FIELD(_field, _var) \ (((_var) & (RTC_RTC_CALENDAR_ALARM_REG_RTC_CAL_ ## _field ## _T_Msk | \ RTC_RTC_CALENDAR_ALARM_REG_RTC_CAL_ ## _field ## _U_Msk)) >> \ RTC_RTC_CALENDAR_ALARM_REG_RTC_CAL_ ## _field ## _U_Pos) #define RTC_TIME_ALARM_REG_GET_FIELD(_field, _var) \ (((_var) & (RTC_RTC_TIME_ALARM_REG_RTC_TIME_ ## _field ## _T_Msk | \ RTC_RTC_TIME_ALARM_REG_RTC_TIME_ ## _field ## _U_Msk)) >> \ RTC_RTC_TIME_ALARM_REG_RTC_TIME_ ## _field ## _U_Pos) #define CLK_RTCDIV_REG_SET_FIELD(_field, _var, _val) \ ((_var) = \ ((_var) & ~CRG_TOP_CLK_RTCDIV_REG_RTC_DIV_ ## _field ## _Msk) | \ (((_val) << CRG_TOP_CLK_RTCDIV_REG_RTC_DIV_ ## _field ## _Pos) & \ CRG_TOP_CLK_RTCDIV_REG_RTC_DIV_ ## _field ## _Msk)) struct rtc_smartbond_data { struct k_mutex lock; bool is_rtc_configured; #if defined(CONFIG_RTC_ALARM) volatile bool is_alarm_pending; rtc_alarm_callback alarm_cb; void *alarm_user_data; #endif #if defined(CONFIG_RTC_UPDATE) rtc_update_callback update_cb; void *update_user_data; #endif }; #if defined(CONFIG_RTC_ALARM) || defined(CONFIG_RTC_UPDATE) static void smartbond_rtc_isr(const struct device *dev) { struct rtc_smartbond_data *data = dev->data; /* Exercise which events asserted the RTC IRQ line. Register is cleared upon read. */ uint32_t rtc_event_flags_reg = RTC->RTC_EVENT_FLAGS_REG; /* RTC_EVENT_FLASH_REG will be updated regardless of the interrupt mask. */ uint32_t rtc_interrupt_mask_reg = RTC->RTC_INTERRUPT_MASK_REG; #if defined(CONFIG_RTC_ALARM) if ((rtc_event_flags_reg & RTC_RTC_EVENT_FLAGS_REG_RTC_EVENT_ALRM_Msk) && !(rtc_interrupt_mask_reg & RTC_RTC_INTERRUPT_MASK_REG_RTC_ALRM_INT_MSK_Msk)) { if (data->alarm_cb) { data->alarm_cb(dev, 0, data->alarm_user_data); data->is_alarm_pending = false; } else { data->is_alarm_pending = true; } } #endif #if defined(CONFIG_RTC_UPDATE) if ((rtc_event_flags_reg & RTC_RTC_EVENT_FLAGS_REG_RTC_EVENT_SEC_Msk) && !(rtc_interrupt_mask_reg & RTC_RTC_INTERRUPT_MASK_REG_RTC_SEC_INT_MSK_Msk)) { if (data->update_cb) { data->update_cb(dev, data->update_user_data); } } #endif } #endif static inline void rtc_smartbond_set_status(bool status) { if (status) { CRG_TOP->CLK_RTCDIV_REG |= CRG_TOP_CLK_RTCDIV_REG_RTC_DIV_ENABLE_Msk; RTC->RTC_CONTROL_REG = 0; } else { RTC->RTC_CONTROL_REG = (RTC_RTC_CONTROL_REG_RTC_CAL_DISABLE_Msk | RTC_RTC_CONTROL_REG_RTC_TIME_DISABLE_Msk); CRG_TOP->CLK_RTCDIV_REG &= ~CRG_TOP_CLK_RTCDIV_REG_RTC_DIV_ENABLE_Msk; } } static uint32_t rtc_time_to_bcd(const struct rtc_time *timeptr) { uint32_t rtc_time_reg = 0; RTC_TIME_REG_SET_FIELD(S, rtc_time_reg, bin2bcd(timeptr->tm_sec)); /*[0, 59]*/ RTC_TIME_REG_SET_FIELD(M, rtc_time_reg, bin2bcd(timeptr->tm_min)); /*[0, 59]*/ RTC_TIME_REG_SET_FIELD(HR, rtc_time_reg, bin2bcd(timeptr->tm_hour)); /*[0, 23]*/ return rtc_time_reg; } static uint32_t rtc_calendar_to_bcd(const struct rtc_time *timeptr) { uint32_t rtc_calendar_reg = 0; RTC_CALENDAR_REG_SET_FIELD(D, rtc_calendar_reg, bin2bcd(timeptr->tm_mday)); /*[1, 31]*/ RTC_CALENDAR_REG_SET_FIELD(Y, rtc_calendar_reg, bin2bcd((timeptr->tm_year + TM_YEAR_REF) % 100)); /*[year - 1900]*/ RTC_CALENDAR_REG_SET_FIELD(C, rtc_calendar_reg, bin2bcd((timeptr->tm_year + TM_YEAR_REF) / 100)); RTC_CALENDAR_REG_SET_FIELD(M, rtc_calendar_reg, bin2bcd(timeptr->tm_mon + 1)); /*[0, 11]*/ if (timeptr->tm_wday != -1) { rtc_calendar_reg |= ((timeptr->tm_wday + 1) & RTC_RTC_CALENDAR_REG_RTC_DAY_Msk); /*[0, 6]*/ } return rtc_calendar_reg; } static void bcd_to_rtc_time(struct rtc_time *timeptr) { uint32_t rtc_time_reg = RTC->RTC_TIME_REG; timeptr->tm_sec = bcd2bin(RTC_TIME_REG_GET_FIELD(S, rtc_time_reg)); timeptr->tm_min = bcd2bin(RTC_TIME_REG_GET_FIELD(M, rtc_time_reg)); timeptr->tm_hour = bcd2bin(RTC_TIME_REG_GET_FIELD(HR, rtc_time_reg)); timeptr->tm_nsec = 0; /*Unknown*/ } static void bcd_to_rtc_calendar(struct rtc_time *timeptr) { uint32_t rtc_calendar_reg = RTC->RTC_CALENDAR_REG; timeptr->tm_mday = bcd2bin(RTC_CALENDAR_REG_GET_FIELD(D, rtc_calendar_reg)); timeptr->tm_mon = bcd2bin(RTC_CALENDAR_REG_GET_FIELD(M, rtc_calendar_reg)) - 1; timeptr->tm_year = bcd2bin(RTC_CALENDAR_REG_GET_FIELD(Y, rtc_calendar_reg)) + (bcd2bin(RTC_CALENDAR_REG_GET_FIELD(C, rtc_calendar_reg)) * 100) - TM_YEAR_REF; timeptr->tm_wday = (rtc_calendar_reg & RTC_RTC_CALENDAR_REG_RTC_DAY_Msk) - 1; timeptr->tm_yday = timeptr->tm_isdst = -1; /*Unknown*/ } static int rtc_smartbond_set_time(const struct device *dev, const struct rtc_time *timeptr) { struct rtc_smartbond_data *data = dev->data; int ret = 0; uint32_t rtc_time_reg, rtc_calendar_reg, rtc_status_reg; if (timeptr == NULL) { LOG_ERR("No pointer is provided to set time"); return -EINVAL; } if (timeptr->tm_year + TM_YEAR_REF < TM_YEAR_REF) { LOG_ERR("RTC time exceeds HW capabilities"); return -EINVAL; } if ((timeptr->tm_yday != -1) || (timeptr->tm_isdst != -1) || (timeptr->tm_nsec != 0)) { LOG_WRN("Unsupported RTC sub-values"); } k_mutex_lock(&data->lock, K_FOREVER); rtc_smartbond_set_status(false); /* Store current counter values as it might happen that the requested time is not valid */ rtc_time_reg = RTC->RTC_TIME_REG; rtc_calendar_reg = RTC->RTC_CALENDAR_REG; RTC->RTC_TIME_REG = rtc_time_to_bcd(timeptr); RTC->RTC_CALENDAR_REG = rtc_calendar_to_bcd(timeptr); /* Check if the new values were valid, otherwise reset back to the previous ones. */ rtc_status_reg = RTC->RTC_STATUS_REG; if (!(rtc_status_reg & RTC_RTC_STATUS_REG_RTC_VALID_CAL_Msk) || !(rtc_status_reg & RTC_RTC_STATUS_REG_RTC_VALID_TIME_Msk)) { RTC->RTC_TIME_REG = rtc_time_reg; RTC->RTC_CALENDAR_REG = rtc_calendar_reg; ret = -EINVAL; } /* Mark the very first valid RTC configuration; used to check if RTC contains valid data. */ if (!data->is_rtc_configured && (ret == 0)) { data->is_rtc_configured = true; } /* It might happen that the very first time RTC is not configured correctly; do not care. */ rtc_smartbond_set_status(true); k_mutex_unlock(&data->lock); return ret; } static int rtc_smartbond_get_time(const struct device *dev, struct rtc_time *timeptr) { struct rtc_smartbond_data *data = dev->data; if (timeptr == NULL) { LOG_ERR("No pointer is provided to store the requested time"); return -EINVAL; } if (!data->is_rtc_configured) { LOG_ERR("RTC is not initialized yet"); return -ENODATA; } k_mutex_lock(&data->lock, K_FOREVER); /* Stop RTC counters to obtain coherent data. */ rtc_smartbond_set_status(false); bcd_to_rtc_time(timeptr); bcd_to_rtc_calendar(timeptr); rtc_smartbond_set_status(true); k_mutex_unlock(&data->lock); return 0; } #if defined(CONFIG_RTC_ALARM) BUILD_ASSERT(RTC_ALARMS_COUNT, "At least one alarm event should be supported"); /* Define a valid calendar value as a zero sub-field is not valid for the alarm calendar value */ static uint32_t alarm_calendar_to_bcd(const struct rtc_time *timeptr, uint16_t mask) { uint32_t rtc_calendar_alarm_reg = 0x0108; if (mask & RTC_ALARM_TIME_MASK_MONTHDAY) { RTC_CALENDAR_ALARM_REG_SET_FIELD(D, rtc_calendar_alarm_reg, bin2bcd(timeptr->tm_mday)); } if (mask & RTC_ALARM_TIME_MASK_MONTH) { RTC_CALENDAR_ALARM_REG_SET_FIELD(M, rtc_calendar_alarm_reg, bin2bcd(timeptr->tm_mon + 1)); } return rtc_calendar_alarm_reg; } /* No need to parse the alarm mask as a zero sub-field is valid for the alarm time counter. */ static inline uint32_t alarm_time_to_bcd(const struct rtc_time *timeptr) { uint32_t rtc_time_alarm_reg = 0; RTC_TIME_ALARM_REG_SET_FIELD(S, rtc_time_alarm_reg, bin2bcd(timeptr->tm_sec)); /*[0, 59]*/ RTC_TIME_ALARM_REG_SET_FIELD(M, rtc_time_alarm_reg, bin2bcd(timeptr->tm_min)); /*[0, 59]*/ RTC_TIME_ALARM_REG_SET_FIELD(HR, rtc_time_alarm_reg, bin2bcd(timeptr->tm_hour)); /*[0, 23]*/ return rtc_time_alarm_reg; } static void bcd_to_alarm_calendar(struct rtc_time *timeptr) { uint32_t rtc_calendar_alarm_reg = RTC->RTC_CALENDAR_ALARM_REG; timeptr->tm_mday = bcd2bin(RTC_CALENDAR_ALARM_REG_GET_FIELD(D, rtc_calendar_alarm_reg)); timeptr->tm_mon = bcd2bin(RTC_CALENDAR_ALARM_REG_GET_FIELD(M, rtc_calendar_alarm_reg)) - 1; timeptr->tm_yday = timeptr->tm_wday = timeptr->tm_isdst = timeptr->tm_year = -1; } static void bcd_to_alarm_time(struct rtc_time *timeptr) { uint32_t rtc_time_alarm_reg = RTC->RTC_TIME_ALARM_REG; timeptr->tm_sec = bcd2bin(RTC_TIME_ALARM_REG_GET_FIELD(S, rtc_time_alarm_reg)); timeptr->tm_min = bcd2bin(RTC_TIME_ALARM_REG_GET_FIELD(M, rtc_time_alarm_reg)); timeptr->tm_hour = bcd2bin(RTC_TIME_ALARM_REG_GET_FIELD(HR, rtc_time_alarm_reg)); timeptr->tm_nsec = 0; } static uint32_t tm_to_rtc_alarm_mask(uint16_t mask) { uint32_t rtc_alarm_enable_reg = 0; if (mask & RTC_ALARM_TIME_MASK_SECOND) { rtc_alarm_enable_reg |= RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_SEC_EN_Msk; } if (mask & RTC_ALARM_TIME_MASK_MINUTE) { rtc_alarm_enable_reg |= RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_MIN_EN_Msk; } if (mask & RTC_ALARM_TIME_MASK_HOUR) { rtc_alarm_enable_reg |= RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_HOUR_EN_Msk; } if (mask & RTC_ALARM_TIME_MASK_MONTH) { rtc_alarm_enable_reg |= RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_MNTH_EN_Msk; } if (mask & RTC_ALARM_TIME_MASK_MONTHDAY) { rtc_alarm_enable_reg |= RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_DATE_EN_Msk; } return rtc_alarm_enable_reg; } static uint16_t rtc_to_tm_alarm_mask(uint32_t rtc_alarm_enable_reg) { uint16_t mask = 0; if (rtc_alarm_enable_reg & RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_SEC_EN_Msk) { mask |= RTC_ALARM_TIME_MASK_SECOND; } if (rtc_alarm_enable_reg & RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_MIN_EN_Msk) { mask |= RTC_ALARM_TIME_MASK_MINUTE; } if (rtc_alarm_enable_reg & RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_HOUR_EN_Msk) { mask |= RTC_ALARM_TIME_MASK_HOUR; } if (rtc_alarm_enable_reg & RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_MNTH_EN_Msk) { mask |= RTC_ALARM_TIME_MASK_MONTH; } if (rtc_alarm_enable_reg & RTC_RTC_ALARM_ENABLE_REG_RTC_ALARM_DATE_EN_Msk) { mask |= RTC_ALARM_TIME_MASK_MONTHDAY; } return mask; } static int rtc_smartbond_alarm_set_time(const struct device *dev, uint16_t id, uint16_t mask, const struct rtc_time *timeptr) { int ret = 0; struct rtc_smartbond_data *data = dev->data; uint32_t rtc_time_alarm_reg; uint32_t rtc_calendar_alarm_reg; uint32_t rtc_alarm_enable_reg; uint32_t rtc_status_reg; if (id >= RTC_ALARMS_COUNT) { LOG_ERR("Alarm id is out of range"); return -EINVAL; } if (mask & ~RTC_SMARTBOND_SUPPORTED_ALARM_FIELDS) { LOG_ERR("Invalid alarm mask"); return -EINVAL; } if ((timeptr == NULL) && (mask != 0)) { LOG_ERR("No pointer is provided to set alarm"); return -EINVAL; } if (!data->is_rtc_configured) { LOG_WRN("RTC is not initialized yet"); } k_mutex_lock(&data->lock, K_FOREVER); rtc_alarm_enable_reg = RTC->RTC_ALARM_ENABLE_REG; /* Disable alarm to obtain coherency and/or when the alarm mask is empty */ RTC->RTC_ALARM_ENABLE_REG = 0; RTC->RTC_INTERRUPT_DISABLE_REG = RTC_RTC_INTERRUPT_DISABLE_REG_RTC_ALRM_INT_DIS_Msk; if (mask) { /* Store current counter values as it might happen requested alrm is not valid */ rtc_time_alarm_reg = RTC->RTC_TIME_ALARM_REG; rtc_calendar_alarm_reg = RTC->RTC_CALENDAR_ALARM_REG; RTC->RTC_TIME_ALARM_REG = alarm_time_to_bcd(timeptr); RTC->RTC_CALENDAR_ALARM_REG = alarm_calendar_to_bcd(timeptr, mask); rtc_status_reg = RTC->RTC_STATUS_REG; if (!(rtc_status_reg & RTC_RTC_STATUS_REG_RTC_VALID_CAL_ALM_Msk) || !(rtc_status_reg & RTC_RTC_STATUS_REG_RTC_VALID_TIME_ALM_Msk)) { RTC->RTC_TIME_ALARM_REG = rtc_time_alarm_reg; RTC->RTC_CALENDAR_ALARM_REG = rtc_calendar_alarm_reg; RTC->RTC_ALARM_ENABLE_REG = rtc_alarm_enable_reg; ret = -EINVAL; } else { RTC->RTC_ALARM_ENABLE_REG = tm_to_rtc_alarm_mask(mask); } RTC->RTC_INTERRUPT_ENABLE_REG = RTC_RTC_INTERRUPT_ENABLE_REG_RTC_ALRM_INT_EN_Msk; } k_mutex_unlock(&data->lock); return ret; } static int rtc_smartbond_alarm_get_time(const struct device *dev, uint16_t id, uint16_t *mask, struct rtc_time *timeptr) { struct rtc_smartbond_data *data = dev->data; if (id >= RTC_ALARMS_COUNT) { LOG_ERR("Alarm id is out of range"); return -EINVAL; } if ((timeptr == NULL) || (mask == NULL)) { LOG_ERR("No pointer is provided to store the requested alarm time/mask"); return -EINVAL; } if (!data->is_rtc_configured) { LOG_WRN("RTC is not initialized yet"); } k_mutex_lock(&data->lock, K_FOREVER); bcd_to_alarm_calendar(timeptr); bcd_to_alarm_time(timeptr); *mask = rtc_to_tm_alarm_mask(RTC->RTC_ALARM_ENABLE_REG); k_mutex_unlock(&data->lock); return 0; } static int rtc_smartbond_alarm_is_pending(const struct device *dev, uint16_t id) { unsigned int key; int status; struct rtc_smartbond_data *data = dev->data; if (id >= RTC_ALARMS_COUNT) { LOG_ERR("Alarm id is out of range"); return -EINVAL; } /* Globally disable interrupts as the status flag can be updated within ISR */ key = DA1469X_IRQ_DISABLE(); status = data->is_alarm_pending; /* After reading, the alarm status should be cleared. */ data->is_alarm_pending = 0; DA1469X_IRQ_ENABLE(key); return status; } static int rtc_smartbond_alarm_set_callback(const struct device *dev, uint16_t id, rtc_alarm_callback callback, void *user_data) { struct rtc_smartbond_data *data = dev->data; if (id >= RTC_ALARMS_COUNT) { LOG_ERR("Alarm id is out of range"); return -EINVAL; } k_mutex_lock(&data->lock, K_FOREVER); data->alarm_cb = callback; data->alarm_user_data = user_data; k_mutex_unlock(&data->lock); return 0; } static int rtc_smartbond_alarm_get_supported_fields(const struct device *dev, uint16_t id, uint16_t *mask) { if (id >= RTC_ALARMS_COUNT) { LOG_ERR("Alarm id is out of range"); return -EINVAL; } if (mask == NULL) { LOG_ERR("Pointer to store the mask value is missed"); return -EINVAL; } *mask = (uint16_t)RTC_SMARTBOND_SUPPORTED_ALARM_FIELDS; return 0; } #endif #if defined(CONFIG_RTC_UPDATE) static int rtc_smartbond_update_set_callback(const struct device *dev, rtc_update_callback callback, void *user_data) { struct rtc_smartbond_data *data = dev->data; k_mutex_lock(&data->lock, K_FOREVER); data->update_cb = callback; data->update_user_data = user_data; if (data->update_cb) { /* Enable asserting the RTC interrupt line when the second counter rolls over. */ RTC->RTC_INTERRUPT_ENABLE_REG = RTC_RTC_INTERRUPT_ENABLE_REG_RTC_SEC_INT_EN_Msk; } else { RTC->RTC_INTERRUPT_DISABLE_REG = RTC_RTC_INTERRUPT_DISABLE_REG_RTC_SEC_INT_DIS_Msk; } k_mutex_unlock(&data->lock); return 0; } #endif static const struct rtc_driver_api rtc_smartbond_driver_api = { .get_time = rtc_smartbond_get_time, .set_time = rtc_smartbond_set_time, #if defined(CONFIG_RTC_ALARM) .alarm_get_time = rtc_smartbond_alarm_get_time, .alarm_set_time = rtc_smartbond_alarm_set_time, .alarm_is_pending = rtc_smartbond_alarm_is_pending, .alarm_set_callback = rtc_smartbond_alarm_set_callback, .alarm_get_supported_fields = rtc_smartbond_alarm_get_supported_fields, #endif #if defined(CONFIG_RTC_UPDATE) .update_set_callback = rtc_smartbond_update_set_callback, #endif }; static void rtc_smartbond_100HZ_clock_cfg(void) { const struct device * const dev = DEVICE_DT_GET(DT_NODELABEL(osc)); uint32_t lp_clk_rate; uint32_t clk_rtcdiv_reg; if (!device_is_ready(dev)) { __ASSERT_MSG_INFO("Clock device is not ready"); } if (clock_control_get_rate(dev, (clock_control_subsys_t)SMARTBOND_CLK_LP_CLK, &lp_clk_rate) < 0) { __ASSERT_MSG_INFO("Cannot extract LP clock rate"); } clk_rtcdiv_reg = CRG_TOP->CLK_RTCDIV_REG; CLK_RTCDIV_REG_SET_FIELD(DENOM, clk_rtcdiv_reg, RTC_DIV_DENOM_1000); CLK_RTCDIV_REG_SET_FIELD(INT, clk_rtcdiv_reg, lp_clk_rate / 100); CLK_RTCDIV_REG_SET_FIELD(FRAC, clk_rtcdiv_reg, (lp_clk_rate % 100) * 10); CRG_TOP->CLK_RTCDIV_REG = clk_rtcdiv_reg; } static int rtc_smartbond_init(const struct device *dev) { ARG_UNUSED(dev); /* Wakeup device from RTC events (alarm/roll over) */ #if CONFIG_PM bool is_xtal32m_enabled = DT_NODE_HAS_STATUS(DT_NODELABEL(xtal32m), okay); int pdc_idx = da1469x_pdc_add(MCU_PDC_TRIGGER_RTC_ALARM, MCU_PDC_MASTER_M33, is_xtal32m_enabled ? MCU_PDC_EN_XTAL : 0); __ASSERT(pdc_idx >= 0, "Failed to add RTC PDC entry"); da1469x_pdc_set(pdc_idx); da1469x_pdc_ack(pdc_idx); #endif rtc_smartbond_100HZ_clock_cfg(); /* Timer and calendar counters will not reset after SW reset */ RTC->RTC_KEEP_RTC_REG |= RTC_RTC_KEEP_RTC_REG_RTC_KEEP_Msk; #if defined(CONFIG_RTC_ALARM) || defined(CONFIG_RTC_UPDATE) IRQ_CONNECT(SMARTBOND_IRQN, SMARTBOND_IRQ_PRIO, smartbond_rtc_isr, DEVICE_DT_INST_GET(0), 0); irq_enable(SMARTBOND_IRQN); #endif return 0; } #define SMARTBOND_RTC_INIT(inst) \ BUILD_ASSERT((inst) == 0, "multiple instances are not supported"); \ \ static struct rtc_smartbond_data rtc_smartbond_data_ ## inst; \ \ DEVICE_DT_INST_DEFINE(0, rtc_smartbond_init, NULL, \ &rtc_smartbond_data_ ## inst, NULL, \ POST_KERNEL, \ CONFIG_RTC_INIT_PRIORITY, \ &rtc_smartbond_driver_api); DT_INST_FOREACH_STATUS_OKAY(SMARTBOND_RTC_INIT)