stm32/f3: add high res for hrtim and misc.

This commit is contained in:
xoviat 2023-09-10 13:33:17 -05:00
parent a47fb42962
commit 08415e001e
8 changed files with 184 additions and 93 deletions

View file

@ -60,7 +60,7 @@ impl<'d, T: Instance> Adc<'d, T> {
}
fn freq() -> Hertz {
unsafe { get_freqs() }.adc
unsafe { get_freqs() }.adc.unwrap()
}
pub fn sample_time_for_us(&self, us: u32) -> SampleTime {

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@ -8,6 +8,8 @@ pub use traits::Instance;
#[allow(unused_imports)]
use crate::gpio::sealed::{AFType, Pin};
use crate::gpio::AnyPin;
#[cfg(stm32f334)]
use crate::rcc::get_freqs;
use crate::time::Hertz;
use crate::Peripheral;
@ -158,17 +160,29 @@ impl<'d, T: Instance> AdvancedPwm<'d, T> {
T::enable();
<T as crate::rcc::sealed::RccPeripheral>::reset();
// // Enable and and stabilize the DLL
// T::regs().dllcr().modify(|w| {
// // w.set_calen(true);
// // w.set_calrte(11);
// w.set_cal(true);
// });
//
// debug!("wait for dll calibration");
// while !T::regs().isr().read().dllrdy() {}
//
// debug!("dll calibration complete");
#[cfg(stm32f334)]
if unsafe { get_freqs() }.hrtim.is_some() {
// Enable and and stabilize the DLL
T::regs().dllcr().modify(|w| {
w.set_cal(true);
});
trace!("hrtim: wait for dll calibration");
while !T::regs().isr().read().dllrdy() {}
trace!("hrtim: dll calibration complete");
// Enable periodic calibration
// Cal must be disabled before we can enable it
T::regs().dllcr().modify(|w| {
w.set_cal(false);
});
T::regs().dllcr().modify(|w| {
w.set_calen(true);
w.set_calrte(11);
});
}
Self {
_inner: tim,

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@ -104,7 +104,13 @@ foreach_interrupt! {
use crate::rcc::sealed::RccPeripheral;
let f = frequency.0;
#[cfg(not(stm32f334))]
let timer_f = Self::frequency().0;
#[cfg(stm32f334)]
let timer_f = unsafe { crate::rcc::get_freqs() }.hrtim.unwrap_or(
Self::frequency()
).0;
let psc_min = (timer_f / f) / (u16::MAX as u32 / 32);
let psc = if Self::regs().isr().read().dllrdy() {
Prescaler::compute_min_high_res(psc_min)
@ -125,7 +131,13 @@ foreach_interrupt! {
use crate::rcc::sealed::RccPeripheral;
let f = frequency.0;
#[cfg(not(stm32f334))]
let timer_f = Self::frequency().0;
#[cfg(stm32f334)]
let timer_f = unsafe { crate::rcc::get_freqs() }.hrtim.unwrap_or(
Self::frequency()
).0;
let psc_min = (timer_f / f) / (u16::MAX as u32 / 32);
let psc = if Self::regs().isr().read().dllrdy() {
Prescaler::compute_min_high_res(psc_min)

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@ -184,6 +184,6 @@ pub(crate) unsafe fn init(config: Config) {
apb1_tim: Hertz(pclk1 * timer_mul1),
apb2_tim: Hertz(pclk2 * timer_mul2),
ahb1: Hertz(hclk),
adc: Hertz(adcclk),
adc: Some(Hertz(adcclk)),
});
}

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@ -1,3 +1,5 @@
#[cfg(rcc_f3)]
use crate::pac::adccommon::vals::Ckmode;
use crate::pac::flash::vals::Latency;
use crate::pac::rcc::vals::{Adcpres, Hpre, Pllmul, Pllsrc, Ppre, Prediv, Sw, Usbpre};
use crate::pac::{FLASH, RCC};
@ -10,44 +12,80 @@ pub const HSI_FREQ: Hertz = Hertz(8_000_000);
/// LSI speed
pub const LSI_FREQ: Hertz = Hertz(40_000);
#[repr(u16)]
#[derive(Clone, Copy)]
pub enum ADCPrescaler {
Div1 = 1,
Div2 = 2,
Div4 = 4,
Div6 = 6,
Div8 = 8,
Div12 = 12,
Div16 = 16,
Div32 = 32,
Div64 = 64,
Div128 = 128,
Div256 = 256,
}
impl From<ADCPrescaler> for Adcpres {
fn from(value: ADCPrescaler) -> Self {
impl From<AdcClockSource> for Adcpres {
fn from(value: AdcClockSource) -> Self {
match value {
ADCPrescaler::Div1 => Adcpres::DIV1,
ADCPrescaler::Div2 => Adcpres::DIV2,
ADCPrescaler::Div4 => Adcpres::DIV4,
ADCPrescaler::Div6 => Adcpres::DIV6,
ADCPrescaler::Div8 => Adcpres::DIV8,
ADCPrescaler::Div12 => Adcpres::DIV12,
ADCPrescaler::Div16 => Adcpres::DIV16,
ADCPrescaler::Div32 => Adcpres::DIV32,
ADCPrescaler::Div64 => Adcpres::DIV64,
ADCPrescaler::Div128 => Adcpres::DIV128,
ADCPrescaler::Div256 => Adcpres::DIV256,
AdcClockSource::PllDiv1 => Adcpres::DIV1,
AdcClockSource::PllDiv2 => Adcpres::DIV2,
AdcClockSource::PllDiv4 => Adcpres::DIV4,
AdcClockSource::PllDiv6 => Adcpres::DIV6,
AdcClockSource::PllDiv8 => Adcpres::DIV8,
AdcClockSource::PllDiv12 => Adcpres::DIV12,
AdcClockSource::PllDiv16 => Adcpres::DIV16,
AdcClockSource::PllDiv32 => Adcpres::DIV32,
AdcClockSource::PllDiv64 => Adcpres::DIV64,
AdcClockSource::PllDiv128 => Adcpres::DIV128,
AdcClockSource::PllDiv256 => Adcpres::DIV256,
_ => unreachable!(),
}
}
}
#[cfg(rcc_f3)]
impl From<AdcClockSource> for Ckmode {
fn from(value: AdcClockSource) -> Self {
match value {
AdcClockSource::BusDiv1 => Ckmode::SYNCDIV1,
AdcClockSource::BusDiv2 => Ckmode::SYNCDIV2,
AdcClockSource::BusDiv4 => Ckmode::SYNCDIV4,
_ => unreachable!(),
}
}
}
#[derive(Clone, Copy)]
pub enum ADCClock {
AHB(ADCPrescaler),
PLL(ADCPrescaler),
pub enum AdcClockSource {
PllDiv1 = 1,
PllDiv2 = 2,
PllDiv4 = 4,
PllDiv6 = 6,
PllDiv8 = 8,
PllDiv12 = 12,
PllDiv16 = 16,
PllDiv32 = 32,
PllDiv64 = 64,
PllDiv128 = 128,
PllDiv256 = 256,
BusDiv1,
BusDiv2,
BusDiv4,
}
impl AdcClockSource {
pub fn is_bus(&self) -> bool {
match self {
Self::BusDiv1 => true,
Self::BusDiv2 => true,
Self::BusDiv4 => true,
_ => false,
}
}
pub fn bus_div(&self) -> u32 {
match self {
Self::BusDiv1 => 1,
Self::BusDiv2 => 2,
Self::BusDiv4 => 4,
_ => unreachable!(),
}
}
}
#[derive(Default)]
pub enum HrtimClockSource {
#[default]
BusClk,
PllClk,
}
/// Clocks configutation
@ -79,11 +117,13 @@ pub struct Config {
#[cfg(rcc_f3)]
/// ADC clock setup
/// - For AHB, a psc of 4 or less must be used
pub adc: Option<ADCClock>,
pub adc: Option<AdcClockSource>,
#[cfg(rcc_f3)]
/// ADC clock setup
/// - For AHB, a psc of 4 or less must be used
pub adc34: Option<ADCClock>,
pub adc34: Option<AdcClockSource>,
#[cfg(stm32f334)]
pub hrtim: HrtimClockSource,
}
// Information required to setup the PLL clock
@ -197,44 +237,6 @@ pub(crate) unsafe fn init(config: Config) {
});
}
#[cfg(rcc_f3)]
let adc = config.adc.map(|adc| match adc {
ADCClock::PLL(psc) => RCC.cfgr2().modify(|w| {
// Make sure that we're using the PLL
pll_config.unwrap();
w.set_adc12pres(psc.into());
Hertz(sysclk / psc as u32)
}),
ADCClock::AHB(psc) => {
assert!(psc as u16 <= 4);
assert!(!(psc as u16 == 1 && hpre_bits != Hpre::DIV1));
// To select this scheme, bits CKMODE[1:0] of the ADCx_CCR register must be
// different from “00”.
todo!();
}
});
#[cfg(rcc_f3)]
let adc34 = config.adc34.map(|adc| match adc {
ADCClock::PLL(psc) => RCC.cfgr2().modify(|w| {
// Make sure that we're using the PLL
pll_config.unwrap();
w.set_adc34pres(psc.into());
Hertz(sysclk / psc as u32)
}),
ADCClock::AHB(psc) => {
assert!(psc as u16 <= 4);
assert!(!(psc as u16 == 1 && hpre_bits != Hpre::DIV1));
// To select this scheme, bits CKMODE[1:0] of the ADCx_CCR register must be
// different from “00”.
todo!();
}
});
// Set prescalers
// CFGR has been written before (PLL, PLL48) don't overwrite these settings
RCC.cfgr().modify(|w| {
@ -257,6 +259,61 @@ pub(crate) unsafe fn init(config: Config) {
})
});
#[cfg(rcc_f3)]
let adc = config.adc.map(|adc| {
if !adc.is_bus() {
RCC.cfgr2().modify(|w| {
// Make sure that we're using the PLL
pll_config.unwrap();
w.set_adc12pres(adc.into());
Hertz(sysclk / adc as u32)
})
} else {
crate::pac::ADC_COMMON.ccr().modify(|w| {
assert!(!(adc.bus_div() == 1 && hpre_bits != Hpre::DIV1));
w.set_ckmode(adc.into());
Hertz(sysclk / adc.bus_div() as u32)
})
}
});
#[cfg(rcc_f3)]
let adc34 = config.adc.map(|adc| {
if !adc.is_bus() {
RCC.cfgr2().modify(|w| {
// Make sure that we're using the PLL
pll_config.unwrap();
w.set_adc12pres(adc.into());
Hertz(sysclk / adc as u32)
})
} else {
// TODO: need to use only if adc32_common is present
todo!()
}
});
#[cfg(stm32f334)]
let hrtim = match config.hrtim {
// Must be configured after the bus is ready, otherwise it won't work
HrtimClockSource::BusClk => None,
HrtimClockSource::PllClk => {
use crate::pac::rcc::vals::Timsw;
// Make sure that we're using the PLL
pll_config.unwrap();
assert!((pclk2 == sysclk) || (pclk2 * 2 == sysclk));
RCC.cfgr3().modify(|w| w.set_hrtim1sw(Timsw::PLL));
Some(Hertz(sysclk * 2))
}
};
set_freqs(Clocks {
sys: Hertz(sysclk),
apb1: Hertz(pclk1),
@ -268,6 +325,8 @@ pub(crate) unsafe fn init(config: Config) {
adc: adc,
#[cfg(rcc_f3)]
adc34: adc34,
#[cfg(stm32f334)]
hrtim: hrtim,
});
}

View file

@ -71,15 +71,15 @@ pub struct Clocks {
#[cfg(any(stm32f427, stm32f429, stm32f437, stm32f439, stm32f446, stm32f469, stm32f479))]
pub pllsai: Option<Hertz>,
#[cfg(stm32f1)]
pub adc: Hertz,
#[cfg(any(rcc_h5, rcc_h50, rcc_h7, rcc_h7ab, rcc_f3, rcc_g4))]
#[cfg(any(rcc_f1, rcc_f100, rcc_f1cl, rcc_h5, rcc_h50, rcc_h7, rcc_h7ab, rcc_f3, rcc_g4))]
pub adc: Option<Hertz>,
#[cfg(any(rcc_f3, rcc_g4))]
pub adc34: Option<Hertz>,
#[cfg(stm32f334)]
pub hrtim: Option<Hertz>,
#[cfg(any(rcc_wb, rcc_f4, rcc_f410))]
/// Set only if the lsi or lse is configured, indicates stop is supported
pub rtc: Option<Hertz>,

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@ -4,9 +4,9 @@
use defmt::info;
use embassy_executor::Spawner;
use embassy_stm32::adc::{Adc, VREF_INT};
use embassy_stm32::rcc::{ADCClock, ADCPrescaler};
use embassy_stm32::time::Hertz;
use embassy_stm32::adc::{Adc, SampleTime, VREF_INT};
use embassy_stm32::rcc::AdcClockSource;
use embassy_stm32::time::mhz;
use embassy_stm32::Config;
use embassy_time::{Delay, Duration, Timer};
use {defmt_rtt as _, panic_probe as _};
@ -14,9 +14,11 @@ use {defmt_rtt as _, panic_probe as _};
#[embassy_executor::main]
async fn main(_spawner: Spawner) -> ! {
let mut config = Config::default();
config.rcc.hse = Some(Hertz(8_000_000));
config.rcc.sysclk = Some(Hertz(16_000_000));
config.rcc.adc = Some(ADCClock::PLL(ADCPrescaler::Div1));
config.rcc.sysclk = Some(mhz(64));
config.rcc.hclk = Some(mhz(64));
config.rcc.pclk1 = Some(mhz(32));
config.rcc.pclk2 = Some(mhz(64));
config.rcc.adc = Some(AdcClockSource::PllDiv1);
let mut p = embassy_stm32::init(config);
@ -24,6 +26,8 @@ async fn main(_spawner: Spawner) -> ! {
let mut adc = Adc::new(p.ADC1, &mut Delay);
adc.set_sample_time(SampleTime::Cycles601_5);
info!("enable vrefint...");
let mut vrefint = adc.enable_vref(&mut Delay);

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@ -5,6 +5,7 @@
use defmt::*;
use embassy_executor::Spawner;
use embassy_stm32::hrtim::*;
use embassy_stm32::rcc::HrtimClockSource;
use embassy_stm32::time::{khz, mhz};
use embassy_stm32::Config;
use embassy_time::{Duration, Timer};
@ -17,6 +18,7 @@ async fn main(_spawner: Spawner) {
config.rcc.hclk = Some(mhz(64));
config.rcc.pclk1 = Some(mhz(32));
config.rcc.pclk2 = Some(mhz(64));
config.rcc.hrtim = HrtimClockSource::PllClk;
let p = embassy_stm32::init(config);
info!("Hello World!");