2022-09-29 07:49:32 +02:00
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//! RTC peripheral abstraction
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mod datetime;
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2023-08-27 03:31:12 +02:00
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#[cfg(feature = "low-power")]
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use core::cell::Cell;
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#[cfg(feature = "low-power")]
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use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex;
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#[cfg(feature = "low-power")]
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use embassy_sync::blocking_mutex::Mutex;
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2022-09-29 07:49:32 +02:00
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pub use self::datetime::{DateTime, DayOfWeek, Error as DateTimeError};
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2023-08-27 16:07:34 +02:00
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use crate::rcc::bd::BackupDomain;
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2023-08-27 16:25:14 +02:00
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pub use crate::rcc::RtcClockSource;
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2023-08-30 02:41:03 +02:00
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use crate::time::Hertz;
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2022-09-29 07:49:32 +02:00
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/// refer to AN4759 to compare features of RTC2 and RTC3
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#[cfg_attr(any(rtc_v1), path = "v1.rs")]
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#[cfg_attr(
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any(
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rtc_v2f0, rtc_v2f2, rtc_v2f3, rtc_v2f4, rtc_v2f7, rtc_v2h7, rtc_v2l0, rtc_v2l1, rtc_v2l4, rtc_v2wb
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),
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2023-04-18 00:02:40 +02:00
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path = "v2.rs"
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2022-09-29 07:49:32 +02:00
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)]
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#[cfg_attr(any(rtc_v3, rtc_v3u5), path = "v3.rs")]
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2023-04-19 03:35:43 +02:00
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mod _version;
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2023-08-11 02:14:55 +02:00
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#[allow(unused_imports)]
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2023-04-19 03:35:43 +02:00
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pub use _version::*;
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2023-07-28 13:23:22 +02:00
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use embassy_hal_internal::Peripheral;
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2022-09-29 07:49:32 +02:00
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2023-08-09 02:47:01 +02:00
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use crate::peripherals::RTC;
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use crate::rtc::sealed::Instance;
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2022-09-29 07:49:32 +02:00
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/// Errors that can occur on methods on [RtcClock]
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#[derive(Clone, Debug, PartialEq, Eq)]
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pub enum RtcError {
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/// An invalid DateTime was given or stored on the hardware.
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InvalidDateTime(DateTimeError),
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/// The RTC clock is not running
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NotRunning,
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}
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2023-08-27 03:31:12 +02:00
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#[cfg(feature = "low-power")]
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/// Represents an instant in time that can be substracted to compute a duration
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struct RtcInstant {
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second: u8,
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subsecond: u16,
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}
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2023-08-28 04:15:57 +02:00
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#[cfg(all(feature = "low-power", feature = "defmt"))]
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impl defmt::Format for RtcInstant {
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fn format(&self, fmt: defmt::Formatter) {
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defmt::write!(
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fmt,
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"{}:{}",
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self.second,
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RTC::regs().prer().read().prediv_s() - self.subsecond,
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)
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}
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}
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2023-08-27 03:31:12 +02:00
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#[cfg(feature = "low-power")]
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impl core::ops::Sub for RtcInstant {
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type Output = embassy_time::Duration;
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fn sub(self, rhs: Self) -> Self::Output {
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use embassy_time::{Duration, TICK_HZ};
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let second = if self.second < rhs.second {
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self.second + 60
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} else {
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self.second
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};
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2023-08-27 23:06:33 +02:00
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let psc = RTC::regs().prer().read().prediv_s() as u32;
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2023-08-27 03:31:12 +02:00
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2023-08-27 23:06:33 +02:00
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let self_ticks = second as u32 * (psc + 1) + (psc - self.subsecond as u32);
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let other_ticks = rhs.second as u32 * (psc + 1) + (psc - rhs.subsecond as u32);
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2023-08-27 03:31:12 +02:00
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let rtc_ticks = self_ticks - other_ticks;
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2023-08-28 04:24:16 +02:00
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Duration::from_ticks(((rtc_ticks * TICK_HZ as u32) / (psc + 1)) as u64)
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2023-08-27 03:31:12 +02:00
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}
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}
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2022-09-29 07:49:32 +02:00
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/// RTC Abstraction
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2023-08-09 02:47:01 +02:00
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pub struct Rtc {
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2023-08-27 03:31:12 +02:00
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#[cfg(feature = "low-power")]
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stop_time: Mutex<CriticalSectionRawMutex, Cell<Option<RtcInstant>>>,
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2022-09-29 07:49:32 +02:00
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}
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#[derive(Copy, Clone, PartialEq)]
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pub struct RtcConfig {
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2023-08-30 02:41:03 +02:00
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/// The subsecond counter frequency; default is 256
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///
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/// A high counter frequency may impact stop power consumption
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pub frequency: Hertz,
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2022-09-29 07:49:32 +02:00
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}
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impl Default for RtcConfig {
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/// LSI with prescalers assuming 32.768 kHz.
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/// Raw sub-seconds in 1/256.
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fn default() -> Self {
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2023-08-30 02:41:03 +02:00
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RtcConfig { frequency: Hertz(256) }
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2022-09-29 07:49:32 +02:00
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}
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}
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#[derive(Copy, Clone, Debug, PartialEq)]
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#[repr(u8)]
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pub enum RtcCalibrationCyclePeriod {
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/// 8-second calibration period
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Seconds8,
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/// 16-second calibration period
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Seconds16,
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/// 32-second calibration period
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Seconds32,
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}
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impl Default for RtcCalibrationCyclePeriod {
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fn default() -> Self {
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RtcCalibrationCyclePeriod::Seconds32
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}
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}
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2023-08-09 02:47:01 +02:00
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impl Rtc {
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pub fn new(_rtc: impl Peripheral<P = RTC>, rtc_config: RtcConfig) -> Self {
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2023-08-30 02:41:03 +02:00
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use crate::rcc::get_freqs;
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2022-09-29 07:49:32 +02:00
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2023-08-30 02:41:03 +02:00
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RTC::enable_peripheral_clk();
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BackupDomain::enable_rtc();
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2022-09-29 07:49:32 +02:00
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2023-08-30 02:41:03 +02:00
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let mut this = Self {
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#[cfg(feature = "low-power")]
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2023-08-27 03:31:12 +02:00
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stop_time: Mutex::const_new(CriticalSectionRawMutex::new(), Cell::new(None)),
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};
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2023-08-30 02:41:03 +02:00
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#[cfg(any(rcc_wb, rcc_f4, rcc_f410))]
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let freqs = unsafe { get_freqs() };
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// Load the clock frequency from the rcc mod, if supported
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#[cfg(any(rcc_wb, rcc_f4, rcc_f410))]
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let frequency = match freqs.rtc {
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Some(hertz) => hertz,
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None => freqs.rtc_hse.unwrap(),
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};
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2023-08-06 18:58:28 +02:00
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2023-08-30 02:41:03 +02:00
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// Assume the default value, if not supported
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#[cfg(not(any(rcc_wb, rcc_f4, rcc_f410)))]
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let frequency = Hertz(32_768);
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2022-09-29 07:49:32 +02:00
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2023-08-30 02:41:03 +02:00
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let async_psc = ((frequency.0 / rtc_config.frequency.0) - 1) as u8;
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let sync_psc = (rtc_config.frequency.0 - 1) as u16;
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this.configure(async_psc, sync_psc);
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this
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2022-09-29 07:49:32 +02:00
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}
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/// Set the datetime to a new value.
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///
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/// # Errors
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///
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/// Will return `RtcError::InvalidDateTime` if the datetime is not a valid range.
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pub fn set_datetime(&mut self, t: DateTime) -> Result<(), RtcError> {
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self::datetime::validate_datetime(&t).map_err(RtcError::InvalidDateTime)?;
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self.write(true, |rtc| self::datetime::write_date_time(rtc, t));
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Ok(())
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}
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2023-08-28 04:26:29 +02:00
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#[cfg(feature = "low-power")]
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2023-08-27 23:06:33 +02:00
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/// Return the current instant.
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fn instant(&self) -> RtcInstant {
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let r = RTC::regs();
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let tr = r.tr().read();
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let subsecond = r.ssr().read().ss();
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let second = bcd2_to_byte((tr.st(), tr.su()));
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// Unlock the registers
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2023-08-28 04:15:57 +02:00
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r.dr().read();
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2023-08-27 23:06:33 +02:00
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RtcInstant { second, subsecond }
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}
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2022-09-29 07:49:32 +02:00
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/// Return the current datetime.
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///
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/// # Errors
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///
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/// Will return an `RtcError::InvalidDateTime` if the stored value in the system is not a valid [`DayOfWeek`].
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pub fn now(&self) -> Result<DateTime, RtcError> {
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2023-08-09 02:47:01 +02:00
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let r = RTC::regs();
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2023-06-19 03:07:26 +02:00
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let tr = r.tr().read();
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let second = bcd2_to_byte((tr.st(), tr.su()));
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let minute = bcd2_to_byte((tr.mnt(), tr.mnu()));
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let hour = bcd2_to_byte((tr.ht(), tr.hu()));
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// Reading either RTC_SSR or RTC_TR locks the values in the higher-order
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// calendar shadow registers until RTC_DR is read.
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let dr = r.dr().read();
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let weekday = dr.wdu();
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let day = bcd2_to_byte((dr.dt(), dr.du()));
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let month = bcd2_to_byte((dr.mt() as u8, dr.mu()));
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let year = bcd2_to_byte((dr.yt(), dr.yu())) as u16 + 1970_u16;
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self::datetime::datetime(year, month, day, weekday, hour, minute, second).map_err(RtcError::InvalidDateTime)
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2022-09-29 07:49:32 +02:00
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}
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/// Check if daylight savings time is active.
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pub fn get_daylight_savings(&self) -> bool {
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2023-08-09 02:47:01 +02:00
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let cr = RTC::regs().cr().read();
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2022-09-29 07:49:32 +02:00
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cr.bkp()
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}
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/// Enable/disable daylight savings time.
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pub fn set_daylight_savings(&mut self, daylight_savings: bool) {
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self.write(true, |rtc| {
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2023-06-19 03:07:26 +02:00
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rtc.cr().modify(|w| w.set_bkp(daylight_savings));
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2022-09-29 07:49:32 +02:00
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})
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}
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2023-08-09 02:47:01 +02:00
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pub const BACKUP_REGISTER_COUNT: usize = RTC::BACKUP_REGISTER_COUNT;
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2022-09-29 07:49:32 +02:00
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/// Read content of the backup register.
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///
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/// The registers retain their values during wakes from standby mode or system resets. They also
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/// retain their value when Vdd is switched off as long as V_BAT is powered.
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pub fn read_backup_register(&self, register: usize) -> Option<u32> {
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2023-08-09 02:47:01 +02:00
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RTC::read_backup_register(&RTC::regs(), register)
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2022-09-29 07:49:32 +02:00
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}
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/// Set content of the backup register.
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///
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/// The registers retain their values during wakes from standby mode or system resets. They also
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/// retain their value when Vdd is switched off as long as V_BAT is powered.
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pub fn write_backup_register(&self, register: usize, value: u32) {
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2023-08-09 02:47:01 +02:00
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RTC::write_backup_register(&RTC::regs(), register, value)
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2022-09-29 07:49:32 +02:00
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}
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}
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pub(crate) fn byte_to_bcd2(byte: u8) -> (u8, u8) {
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let mut bcd_high: u8 = 0;
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let mut value = byte;
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while value >= 10 {
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bcd_high += 1;
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value -= 10;
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}
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(bcd_high, ((bcd_high << 4) | value) as u8)
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}
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pub(crate) fn bcd2_to_byte(bcd: (u8, u8)) -> u8 {
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let value = bcd.1 | bcd.0 << 4;
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let tmp = ((value & 0xF0) >> 0x4) * 10;
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tmp + (value & 0x0F)
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}
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pub(crate) mod sealed {
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2023-04-19 03:35:43 +02:00
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use crate::pac::rtc::Rtc;
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2022-09-29 07:49:32 +02:00
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pub trait Instance {
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2023-04-19 03:35:43 +02:00
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const BACKUP_REGISTER_COUNT: usize;
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2022-09-29 07:49:32 +02:00
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2023-04-19 03:35:43 +02:00
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fn regs() -> Rtc {
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crate::pac::RTC
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}
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2022-09-29 07:49:32 +02:00
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2023-06-19 03:07:26 +02:00
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fn enable_peripheral_clk() {}
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2023-04-19 03:35:43 +02:00
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/// Read content of the backup register.
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///
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/// The registers retain their values during wakes from standby mode or system resets. They also
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/// retain their value when Vdd is switched off as long as V_BAT is powered.
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fn read_backup_register(rtc: &Rtc, register: usize) -> Option<u32>;
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/// Set content of the backup register.
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///
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/// The registers retain their values during wakes from standby mode or system resets. They also
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/// retain their value when Vdd is switched off as long as V_BAT is powered.
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fn write_backup_register(rtc: &Rtc, register: usize, value: u32);
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// fn apply_config(&mut self, rtc_config: RtcConfig);
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2022-09-29 07:49:32 +02:00
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}
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}
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