mod filter;
use embassy_hal_internal::{into_ref, Peripheral, PeripheralRef};
pub use self::filter::DateTimeFilter;
#[cfg_attr(feature = "chrono", path = "datetime_chrono.rs")]
#[cfg_attr(not(feature = "chrono"), path = "datetime_no_deps.rs")]
mod datetime;
pub use self::datetime::{DateTime, DayOfWeek, Error as DateTimeError};
use crate::clocks::clk_rtc_freq;
pub struct Rtc<'d, T: Instance> {
inner: PeripheralRef<'d, T>,
}
impl<'d, T: Instance> Rtc<'d, T> {
pub fn new(inner: impl Peripheral<P = T> + 'd) -> Self {
into_ref!(inner);
inner.regs().clkdiv_m1().write(|w| w.set_clkdiv_m1(clk_rtc_freq() - 1));
Self { inner }
}
pub fn set_leap_year_check(&mut self, leap_year_check_enabled: bool) {
self.inner.regs().ctrl().modify(|w| {
w.set_force_notleapyear(!leap_year_check_enabled);
});
}
pub fn restore(&mut self, ymd: rp_pac::rtc::regs::Rtc1, hms: rp_pac::rtc::regs::Rtc0) {
self.inner.regs().ctrl().modify(|w| w.set_rtc_enable(false));
while self.inner.regs().ctrl().read().rtc_active() {
core::hint::spin_loop();
}
self.inner.regs().setup_0().write(|w| {
*w = rp_pac::rtc::regs::Setup0(ymd.0);
});
self.inner.regs().setup_1().write(|w| {
*w = rp_pac::rtc::regs::Setup1(hms.0);
});
self.inner.regs().ctrl().write(|w| w.set_load(true));
self.inner.regs().ctrl().write(|w| w.set_rtc_enable(true));
while !self.inner.regs().ctrl().read().rtc_active() {
core::hint::spin_loop();
}
}
pub fn save(&mut self) -> (rp_pac::rtc::regs::Rtc1, rp_pac::rtc::regs::Rtc0) {
let rtc_0: rp_pac::rtc::regs::Rtc0 = self.inner.regs().rtc_0().read();
let rtc_1 = self.inner.regs().rtc_1().read();
(rtc_1, rtc_0)
}
pub fn is_running(&self) -> bool {
self.inner.regs().ctrl().read().rtc_active()
}
pub fn set_datetime(&mut self, t: DateTime) -> Result<(), RtcError> {
self::datetime::validate_datetime(&t).map_err(RtcError::InvalidDateTime)?;
self.inner.regs().ctrl().modify(|w| w.set_rtc_enable(false));
while self.inner.regs().ctrl().read().rtc_active() {
core::hint::spin_loop();
}
self.inner.regs().setup_0().write(|w| {
self::datetime::write_setup_0(&t, w);
});
self.inner.regs().setup_1().write(|w| {
self::datetime::write_setup_1(&t, w);
});
self.inner.regs().ctrl().write(|w| w.set_load(true));
self.inner.regs().ctrl().write(|w| w.set_rtc_enable(true));
while !self.inner.regs().ctrl().read().rtc_active() {
core::hint::spin_loop();
}
Ok(())
}
pub fn now(&self) -> Result<DateTime, RtcError> {
if !self.is_running() {
return Err(RtcError::NotRunning);
}
let rtc_0 = self.inner.regs().rtc_0().read();
let rtc_1 = self.inner.regs().rtc_1().read();
self::datetime::datetime_from_registers(rtc_0, rtc_1).map_err(RtcError::InvalidDateTime)
}
pub fn disable_alarm(&mut self) {
self.inner.regs().irq_setup_0().modify(|s| s.set_match_ena(false));
while self.inner.regs().irq_setup_0().read().match_active() {
core::hint::spin_loop();
}
}
pub fn schedule_alarm(&mut self, filter: DateTimeFilter) {
self.disable_alarm();
self.inner.regs().irq_setup_0().write(|w| {
filter.write_setup_0(w);
});
self.inner.regs().irq_setup_1().write(|w| {
filter.write_setup_1(w);
});
self.inner.regs().inte().modify(|w| w.set_rtc(true));
self.inner.regs().irq_setup_0().modify(|w| w.set_match_ena(true));
while !self.inner.regs().irq_setup_0().read().match_active() {
core::hint::spin_loop();
}
}
pub fn clear_interrupt(&mut self) {
self.disable_alarm();
}
}
#[derive(Clone, Debug, PartialEq, Eq)]
pub enum RtcError {
InvalidDateTime(DateTimeError),
NotRunning,
}
trait SealedInstance {
fn regs(&self) -> crate::pac::rtc::Rtc;
}
#[allow(private_bounds)]
pub trait Instance: SealedInstance {}
impl SealedInstance for crate::peripherals::RTC {
fn regs(&self) -> crate::pac::rtc::Rtc {
crate::pac::RTC
}
}
impl Instance for crate::peripherals::RTC {}