01434265f6
* Disable USART in sleep * Restore UART state on suspend/resume * FuriHal: Enable stop mode and add insomnia to I2C and SPI * Remove IDLE interrupt * FuriHal: add FPU isr and disable all FPU interrupt, add core2 stop mode configuration on deep sleep * FuriHal: tie stop mode debug with debug rtc flag * FuriHal: adjust flash latency on clock switch, tie mcu debug with RTC debug flag * FuriHal: move resource init to early stage * Add EXTI pending check, enable debug traps with compile-time flag * Wrap sleep debug functions in conditional compilation * Remove erroneous changed * Do not use CSS, remove it from everywhere * Enable/disable USB on VBUS connect (prototype) * FuriHal: add LPMS and DEEPSLEEP magic, workaround state inconsistency between cores * FuriHal: honor c1 LMPS * USB mode switch fix * Applications: add flags and insomnia bypass system * Correct spelling * FuriHal: cleanup insomnia usage, reset sleep flags on wakeup, add shutdown api * FuriHal: extra check on reinit request * FuriHal: rename gpio_display_rst pin to gpio_display_rst_n * FuriHal: add debug HAL * FuriHal: add some magic to core2 reload procedure, fix issue with crash on ble keyboard exit * FuriHal: cleanup ble glue, add BLE_GLUE_DEBUG flag * FuriHal: ble reinit API, move os timer to LPTIM1 for deep sleep capability, shutdown that works * FuriHal: take insomnia while shutdown * Remove USB switch on/off on VBUS change * Better tick skew handling * Improve tick consistency under load * Add USB_HP dummy IRQ handler * Move interrupt check closer to sleep * Clean up includes * Re-enable Insomnia globally * FuriHal: enable CSS * FuriHal: remove questionable core2 clock shenanigans * FuriHal: use core1 RCC registers in idle timer config * FuriHal: return back CSS handlers, add lptim isr dispatching Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com> Co-authored-by: nminaylov <nm29719@gmail.com>
262 lines
7.9 KiB
C
262 lines
7.9 KiB
C
#include <furi_hal_rtc.h>
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#include <furi_hal_light.h>
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#include <furi_hal_debug.h>
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#include <stm32wbxx_ll_bus.h>
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#include <stm32wbxx_ll_pwr.h>
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#include <stm32wbxx_ll_rcc.h>
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#include <stm32wbxx_ll_rtc.h>
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#include <stm32wbxx_ll_utils.h>
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#include <furi.h>
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#define TAG "FuriHalRtc"
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#define RTC_CLOCK_IS_READY() (LL_RCC_LSE_IsReady() && LL_RCC_LSI1_IsReady())
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#define FURI_HAL_RTC_HEADER_MAGIC 0x10F1
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#define FURI_HAL_RTC_HEADER_VERSION 0
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typedef struct {
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uint16_t magic;
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uint8_t version;
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uint8_t unused;
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} FuriHalRtcHeader;
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typedef struct {
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uint8_t log_level : 4;
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uint8_t log_reserved : 4;
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uint8_t flags;
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uint8_t boot_mode : 4;
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uint16_t reserved : 12;
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} DeveloperReg;
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_Static_assert(sizeof(DeveloperReg) == 4, "DeveloperReg size mismatch");
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void furi_hal_rtc_init_early() {
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// LSE and RTC
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LL_PWR_EnableBkUpAccess();
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if(!RTC_CLOCK_IS_READY()) {
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LL_RCC_LSI1_Enable();
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// Try to start LSE normal way
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LL_RCC_LSE_SetDriveCapability(LL_RCC_LSEDRIVE_HIGH);
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LL_RCC_LSE_Enable();
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uint32_t c = 0;
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while(!RTC_CLOCK_IS_READY() && c < 200) {
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LL_mDelay(10);
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c++;
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}
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// Plan B: reset backup domain
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if(!RTC_CLOCK_IS_READY()) {
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furi_hal_light_sequence("rgb R.r.R.r.R");
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LL_RCC_ForceBackupDomainReset();
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LL_RCC_ReleaseBackupDomainReset();
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NVIC_SystemReset();
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}
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// Set RTC domain clock to LSE
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LL_RCC_SetRTCClockSource(LL_RCC_RTC_CLKSOURCE_LSE);
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}
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// Enable clocking
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LL_RCC_EnableRTC();
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LL_APB1_GRP1_EnableClock(LL_APB1_GRP1_PERIPH_RTCAPB);
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// Verify header register
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uint32_t data_reg = furi_hal_rtc_get_register(FuriHalRtcRegisterHeader);
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FuriHalRtcHeader* data = (FuriHalRtcHeader*)&data_reg;
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if(data->magic != FURI_HAL_RTC_HEADER_MAGIC || data->version != FURI_HAL_RTC_HEADER_VERSION) {
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// Reset all our registers to ensure consistency
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for(size_t i = 0; i < FuriHalRtcRegisterMAX; i++) {
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furi_hal_rtc_set_register(i, 0);
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}
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data->magic = FURI_HAL_RTC_HEADER_MAGIC;
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data->version = FURI_HAL_RTC_HEADER_VERSION;
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furi_hal_rtc_set_register(FuriHalRtcRegisterHeader, data_reg);
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}
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if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) {
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furi_hal_debug_enable();
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} else {
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furi_hal_debug_disable();
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}
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}
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void furi_hal_rtc_deinit_early() {
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}
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void furi_hal_rtc_init() {
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if(LL_RCC_GetRTCClockSource() != LL_RCC_RTC_CLKSOURCE_LSE) {
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LL_RCC_ForceBackupDomainReset();
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LL_RCC_ReleaseBackupDomainReset();
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LL_RCC_SetRTCClockSource(LL_RCC_RTC_CLKSOURCE_LSE);
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}
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LL_RCC_EnableRTC();
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LL_RTC_InitTypeDef RTC_InitStruct = {0};
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RTC_InitStruct.HourFormat = LL_RTC_HOURFORMAT_24HOUR;
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RTC_InitStruct.AsynchPrescaler = 127;
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RTC_InitStruct.SynchPrescaler = 255;
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LL_RTC_Init(RTC, &RTC_InitStruct);
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furi_log_set_level(furi_hal_rtc_get_log_level());
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FURI_LOG_I(TAG, "Init OK");
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}
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uint32_t furi_hal_rtc_get_register(FuriHalRtcRegister reg) {
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return LL_RTC_BAK_GetRegister(RTC, reg);
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}
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void furi_hal_rtc_set_register(FuriHalRtcRegister reg, uint32_t value) {
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LL_RTC_BAK_SetRegister(RTC, reg, value);
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}
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void furi_hal_rtc_set_log_level(uint8_t level) {
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uint32_t data_reg = furi_hal_rtc_get_register(FuriHalRtcRegisterSystem);
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DeveloperReg* data = (DeveloperReg*)&data_reg;
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data->log_level = level;
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furi_hal_rtc_set_register(FuriHalRtcRegisterSystem, data_reg);
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furi_log_set_level(level);
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}
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uint8_t furi_hal_rtc_get_log_level() {
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uint32_t data_reg = furi_hal_rtc_get_register(FuriHalRtcRegisterSystem);
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DeveloperReg* data = (DeveloperReg*)&data_reg;
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return data->log_level;
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}
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void furi_hal_rtc_set_flag(FuriHalRtcFlag flag) {
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uint32_t data_reg = furi_hal_rtc_get_register(FuriHalRtcRegisterSystem);
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DeveloperReg* data = (DeveloperReg*)&data_reg;
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data->flags |= flag;
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furi_hal_rtc_set_register(FuriHalRtcRegisterSystem, data_reg);
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if(flag & FuriHalRtcFlagDebug) {
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furi_hal_debug_enable();
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}
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}
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void furi_hal_rtc_reset_flag(FuriHalRtcFlag flag) {
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uint32_t data_reg = furi_hal_rtc_get_register(FuriHalRtcRegisterSystem);
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DeveloperReg* data = (DeveloperReg*)&data_reg;
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data->flags &= ~flag;
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furi_hal_rtc_set_register(FuriHalRtcRegisterSystem, data_reg);
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if(flag & FuriHalRtcFlagDebug) {
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furi_hal_debug_disable();
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}
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}
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bool furi_hal_rtc_is_flag_set(FuriHalRtcFlag flag) {
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uint32_t data_reg = furi_hal_rtc_get_register(FuriHalRtcRegisterSystem);
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DeveloperReg* data = (DeveloperReg*)&data_reg;
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return data->flags & flag;
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}
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void furi_hal_rtc_set_boot_mode(FuriHalRtcBootMode mode) {
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uint32_t data_reg = furi_hal_rtc_get_register(FuriHalRtcRegisterSystem);
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DeveloperReg* data = (DeveloperReg*)&data_reg;
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data->boot_mode = mode;
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furi_hal_rtc_set_register(FuriHalRtcRegisterSystem, data_reg);
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}
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FuriHalRtcBootMode furi_hal_rtc_get_boot_mode() {
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uint32_t data_reg = furi_hal_rtc_get_register(FuriHalRtcRegisterSystem);
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DeveloperReg* data = (DeveloperReg*)&data_reg;
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return (FuriHalRtcBootMode)data->boot_mode;
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}
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void furi_hal_rtc_set_datetime(FuriHalRtcDateTime* datetime) {
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furi_assert(datetime);
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/* Disable write protection */
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LL_RTC_DisableWriteProtection(RTC);
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/* Enter Initialization mode and wait for INIT flag to be set */
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LL_RTC_EnableInitMode(RTC);
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while(!LL_RTC_IsActiveFlag_INIT(RTC)) {
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}
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/* Set time */
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LL_RTC_TIME_Config(
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RTC,
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LL_RTC_TIME_FORMAT_AM_OR_24,
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__LL_RTC_CONVERT_BIN2BCD(datetime->hour),
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__LL_RTC_CONVERT_BIN2BCD(datetime->minute),
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__LL_RTC_CONVERT_BIN2BCD(datetime->second));
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/* Set date */
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LL_RTC_DATE_Config(
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RTC,
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datetime->weekday,
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__LL_RTC_CONVERT_BIN2BCD(datetime->day),
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__LL_RTC_CONVERT_BIN2BCD(datetime->month),
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__LL_RTC_CONVERT_BIN2BCD(datetime->year - 2000));
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/* Exit Initialization mode */
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LL_RTC_DisableInitMode(RTC);
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/* If RTC_CR_BYPSHAD bit = 0, wait for synchro else this check is not needed */
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if(!LL_RTC_IsShadowRegBypassEnabled(RTC)) {
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LL_RTC_ClearFlag_RS(RTC);
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while(!LL_RTC_IsActiveFlag_RS(RTC)) {
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};
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}
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/* Enable write protection */
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LL_RTC_EnableWriteProtection(RTC);
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}
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void furi_hal_rtc_get_datetime(FuriHalRtcDateTime* datetime) {
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furi_assert(datetime);
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uint32_t time = LL_RTC_TIME_Get(RTC); // 0x00HHMMSS
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uint32_t date = LL_RTC_DATE_Get(RTC); // 0xWWDDMMYY
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datetime->second = __LL_RTC_CONVERT_BCD2BIN((time >> 0) & 0xFF);
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datetime->minute = __LL_RTC_CONVERT_BCD2BIN((time >> 8) & 0xFF);
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datetime->hour = __LL_RTC_CONVERT_BCD2BIN((time >> 16) & 0xFF);
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datetime->year = __LL_RTC_CONVERT_BCD2BIN((date >> 0) & 0xFF) + 2000;
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datetime->month = __LL_RTC_CONVERT_BCD2BIN((date >> 8) & 0xFF);
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datetime->day = __LL_RTC_CONVERT_BCD2BIN((date >> 16) & 0xFF);
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datetime->weekday = __LL_RTC_CONVERT_BCD2BIN((date >> 24) & 0xFF);
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}
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bool furi_hal_rtc_validate_datetime(FuriHalRtcDateTime* datetime) {
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bool invalid = false;
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invalid |= (datetime->second > 59);
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invalid |= (datetime->minute > 59);
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invalid |= (datetime->hour > 23);
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invalid |= (datetime->year < 2000);
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invalid |= (datetime->year > 2099);
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invalid |= (datetime->month == 0);
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invalid |= (datetime->month > 12);
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invalid |= (datetime->day == 0);
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invalid |= (datetime->day > 31);
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invalid |= (datetime->weekday == 0);
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invalid |= (datetime->weekday > 7);
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return !invalid;
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}
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void furi_hal_rtc_set_fault_data(uint32_t value) {
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furi_hal_rtc_set_register(FuriHalRtcRegisterFaultData, value);
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}
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uint32_t furi_hal_rtc_get_fault_data() {
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return furi_hal_rtc_get_register(FuriHalRtcRegisterFaultData);
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}
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void furi_hal_rtc_set_pin_fails(uint32_t value) {
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furi_hal_rtc_set_register(FuriHalRtcRegisterPinFails, value);
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}
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uint32_t furi_hal_rtc_get_pin_fails() {
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return furi_hal_rtc_get_register(FuriHalRtcRegisterPinFails);
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}
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