Working HAL for the XOSC

This commit is contained in:
Nic0w 2021-04-24 13:38:17 +02:00
parent b96339c417
commit d0d9291cde
3 changed files with 196 additions and 0 deletions

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@ -14,3 +14,4 @@ cortex-m = "0.7.1"
embedded-hal = "0.2.4" embedded-hal = "0.2.4"
nb = "1.0.0" nb = "1.0.0"
rp2040-pac = "0.1.1" rp2040-pac = "0.1.1"
embedded-time = "0.10.1"

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@ -10,6 +10,8 @@
extern crate cortex_m; extern crate cortex_m;
extern crate embedded_hal as hal; extern crate embedded_hal as hal;
extern crate nb; extern crate nb;
extern crate embedded_time;
pub extern crate rp2040_pac as pac; pub extern crate rp2040_pac as pac;
pub mod adc; pub mod adc;
@ -24,3 +26,4 @@ pub mod timer;
pub mod uart; pub mod uart;
pub mod usb; pub mod usb;
pub mod watchdog; pub mod watchdog;
pub mod xosc;

192
rp2040-hal/src/xosc.rs Normal file
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@ -0,0 +1,192 @@
//! Crystal Oscillator (XOSC)
// See [Chapter 2 Section 16](https://datasheets.raspberrypi.org/rp2040/rp2040_datasheet.pdf) for more details
use core::{
convert::Infallible,
ops::RangeInclusive
};
use embedded_time::{
fraction::Fraction,
fixed_point::FixedPoint,
rate::{
Hertz,
Megahertz,
},
duration::{
Seconds,
Milliseconds,
Duration
}
};
use nb::Error::WouldBlock;
/// State of the Crystal Oscillator (typestate trait)
pub trait State {}
/// XOSC is disabled (typestate)
pub struct Disabled;
/// XOSC is initialized, ie we've given parameters (typestate)
pub struct Initialized {
freq_hz: Hertz<u64>
}
/// Stable state (typestate)
pub struct Stable{
freq_hz: Hertz<u64>
}
/// XOSC is disabling (typestate)
pub struct Disabling;
/// XOSC is in dormant mode (see Chapter 2, Section 16, §5)
pub struct Dormant;
impl State for Disabled {}
impl State for Initialized {}
impl State for Stable {}
impl State for Disabling {}
impl State for Dormant {}
/// Possible errors when initializing the CrystalOscillator
pub enum Error {
/// Frequency is out of the 1-15MHz range (see datasheet)
FrequencyOutOfRange,
/// Argument is bad : overflows, ...
BadArgument
}
/// A Crystal Oscillator.
pub struct CrystalOscillator<S: State> {
device: rp2040_pac::XOSC,
state: S
}
impl<S: State> CrystalOscillator<S> {
/// Transitions the oscillator to another state.
fn transition<To: State>(self, state: To) -> CrystalOscillator<To> {
CrystalOscillator {
device: self.device,
state: state
}
}
/// Releases the underlying device.
pub fn free(self) -> rp2040_pac::XOSC {
self.device
}
}
impl CrystalOscillator<Disabled> {
/// Creates a new CrystalOscillator from the underlying device.
pub fn new(dev: rp2040_pac::XOSC) -> Self {
CrystalOscillator {
device: dev,
state: Disabled
}
}
/// Initializes the XOSC : frequency range is set, startup delay is calculated and set.
pub fn initialize(self, frequency: Megahertz<u32>) -> Result<CrystalOscillator<Initialized>, Error> {
const ALLOWED_FREQUENCY_RANGE: RangeInclusive<Megahertz<u32>> = Megahertz(1)..=Megahertz(15);
const STABLE_DELAY: Milliseconds<u64> = Milliseconds(1_u64);
const DIVIDER: Fraction = Fraction::new(1, 256);
if !ALLOWED_FREQUENCY_RANGE.contains(&frequency) {
return Err(Error::FrequencyOutOfRange)
}
self.device.ctrl.write(|w| {
w.freq_range()._1_15mhz();
w
});
let freq_hz: Hertz<u64> = frequency.into();
let delay_sec: Seconds<u64> = STABLE_DELAY.into();
//let startup_delay = ((freq_hz / 1000) + 128) / 256;
let startup_delay = delay_sec.
checked_mul(freq_hz.integer()).and_then(|r|
r.to_generic::<u64>(DIVIDER).ok()
).
ok_or(Error::BadArgument)?;
self.device.startup.write(|w| unsafe {
w.delay().bits(*startup_delay.integer() as u16);
w
});
self.device.ctrl.write(|w| {
w.enable().enable();
w
});
Ok(self.transition(Initialized {
freq_hz: freq_hz
}))
}
}
/// A token that's given when the oscillator is stablilzed, and can be exchanged to proceed to the next stage.
pub struct StableOscillatorToken {
_private : ()
}
impl CrystalOscillator<Initialized> {
/// One has to wait for the startup delay before using the oscillator, ie awaiting stablilzation of the XOSC
pub fn await_stabilization(&self) -> nb::Result<StableOscillatorToken, Infallible> {
if self.device.status.read().stable().bit_is_clear() {
return Err(WouldBlock)
}
Ok(StableOscillatorToken {
_private: ()
})
}
/// Returns the stablilzed oscillator
pub fn get_stable(self, _token: StableOscillatorToken) -> CrystalOscillator<Stable> {
let freq_hz = self.state.freq_hz;
self.transition(Stable {
freq_hz:freq_hz
})
}
}
impl CrystalOscillator<Stable> {
/// Operating frequency of the XOSC in hertz
pub fn operating_frequency(&self) -> Hertz<u64> {
self.state.freq_hz
}
/// Disables the XOSC
pub fn disable(self) -> CrystalOscillator<Disabling> {
self.device.ctrl.modify(|_r,w| {
w.enable().disable();
w
});
self.transition(Disabling)
}
/// Put the XOSC in dormant state
pub fn dormant(self) -> CrystalOscillator<Dormant> {
//taken from the C SDK
const XOSC_DORMANT_VALUE: u32 = 0x636f6d61;
self.device.dormant.write(|w| unsafe {
w.bits(XOSC_DORMANT_VALUE);
w
});
self.transition(Dormant)
}
}