363 lines
11 KiB
Rust
363 lines
11 KiB
Rust
use stm32_metapac::flash::vals::Latency;
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use stm32_metapac::rcc::vals::{Adcsel, Pllsrc, Sw};
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use stm32_metapac::FLASH;
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pub use crate::pac::rcc::vals::{
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Adcsel as AdcClockSource, Hpre as AHBPrescaler, Pllm as PllM, Plln as PllN, Pllp as PllP, Pllq as PllQ,
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Pllr as PllR, Ppre as APBPrescaler,
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};
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use crate::pac::{PWR, RCC};
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use crate::rcc::sealed::RccPeripheral;
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use crate::rcc::{set_freqs, Clocks};
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use crate::time::Hertz;
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/// HSI speed
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pub const HSI_FREQ: Hertz = Hertz(16_000_000);
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/// System clock mux source
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#[derive(Clone, Copy)]
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pub enum ClockSrc {
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HSE(Hertz),
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HSI,
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PLL,
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}
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/// PLL clock input source
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#[derive(Clone, Copy, Debug)]
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pub enum PllSrc {
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HSI,
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HSE(Hertz),
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}
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impl Into<Pllsrc> for PllSrc {
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fn into(self) -> Pllsrc {
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match self {
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PllSrc::HSE(..) => Pllsrc::HSE,
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PllSrc::HSI => Pllsrc::HSI,
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}
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}
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}
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/// PLL Configuration
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///
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/// Use this struct to configure the PLL source, input frequency, multiplication factor, and output
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/// dividers. Be sure to keep check the datasheet for your specific part for the appropriate
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/// frequency ranges for each of these settings.
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pub struct Pll {
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/// PLL Source clock selection.
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pub source: PllSrc,
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/// PLL pre-divider
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pub prediv_m: PllM,
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/// PLL multiplication factor for VCO
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pub mul_n: PllN,
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/// PLL division factor for P clock (ADC Clock)
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pub div_p: Option<PllP>,
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/// PLL division factor for Q clock (USB, I2S23, SAI1, FDCAN, QSPI)
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pub div_q: Option<PllQ>,
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/// PLL division factor for R clock (SYSCLK)
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pub div_r: Option<PllR>,
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}
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/// Sets the source for the 48MHz clock to the USB and RNG peripherals.
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pub enum Clock48MhzSrc {
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/// Use the High Speed Internal Oscillator. For USB usage, the CRS must be used to calibrate the
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/// oscillator to comply with the USB specification for oscillator tolerance.
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Hsi48(Option<CrsConfig>),
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/// Use the PLLQ output. The PLL must be configured to output a 48MHz clock. For USB usage the
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/// PLL needs to be using the HSE source to comply with the USB specification for oscillator
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/// tolerance.
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PllQ,
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}
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/// Sets the sync source for the Clock Recovery System (CRS).
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pub enum CrsSyncSource {
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/// Use an external GPIO to sync the CRS.
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Gpio,
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/// Use the Low Speed External oscillator to sync the CRS.
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Lse,
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/// Use the USB SOF to sync the CRS.
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Usb,
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}
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/// Clocks configutation
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pub struct Config {
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pub mux: ClockSrc,
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pub ahb_pre: AHBPrescaler,
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pub apb1_pre: APBPrescaler,
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pub apb2_pre: APBPrescaler,
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pub low_power_run: bool,
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/// Iff PLL is requested as the main clock source in the `mux` field then the PLL configuration
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/// MUST turn on the PLLR output.
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pub pll: Option<Pll>,
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/// Sets the clock source for the 48MHz clock used by the USB and RNG peripherals.
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pub clock_48mhz_src: Option<Clock48MhzSrc>,
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pub adc12_clock_source: AdcClockSource,
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pub adc345_clock_source: AdcClockSource,
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pub ls: super::LsConfig,
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}
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/// Configuration for the Clock Recovery System (CRS) used to trim the HSI48 oscillator.
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pub struct CrsConfig {
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/// Sync source for the CRS.
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pub sync_src: CrsSyncSource,
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}
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impl Default for Config {
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#[inline]
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fn default() -> Config {
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Config {
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mux: ClockSrc::HSI,
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ahb_pre: AHBPrescaler::DIV1,
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apb1_pre: APBPrescaler::DIV1,
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apb2_pre: APBPrescaler::DIV1,
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low_power_run: false,
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pll: None,
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clock_48mhz_src: Some(Clock48MhzSrc::Hsi48(None)),
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adc12_clock_source: Adcsel::DISABLE,
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adc345_clock_source: Adcsel::DISABLE,
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ls: Default::default(),
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}
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}
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}
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pub struct PllFreq {
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pub pll_p: Option<Hertz>,
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pub pll_q: Option<Hertz>,
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pub pll_r: Option<Hertz>,
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}
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pub(crate) unsafe fn init(config: Config) {
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let pll_freq = config.pll.map(|pll_config| {
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let src_freq = match pll_config.source {
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PllSrc::HSI => {
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RCC.cr().write(|w| w.set_hsion(true));
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while !RCC.cr().read().hsirdy() {}
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HSI_FREQ
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}
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PllSrc::HSE(freq) => {
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RCC.cr().write(|w| w.set_hseon(true));
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while !RCC.cr().read().hserdy() {}
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freq
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}
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};
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// Disable PLL before configuration
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RCC.cr().modify(|w| w.set_pllon(false));
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while RCC.cr().read().pllrdy() {}
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let internal_freq = src_freq / pll_config.prediv_m * pll_config.mul_n;
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RCC.pllcfgr().write(|w| {
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w.set_plln(pll_config.mul_n);
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w.set_pllm(pll_config.prediv_m);
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w.set_pllsrc(pll_config.source.into());
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});
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let pll_p_freq = pll_config.div_p.map(|div_p| {
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RCC.pllcfgr().modify(|w| {
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w.set_pllp(div_p);
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w.set_pllpen(true);
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});
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internal_freq / div_p
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});
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let pll_q_freq = pll_config.div_q.map(|div_q| {
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RCC.pllcfgr().modify(|w| {
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w.set_pllq(div_q);
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w.set_pllqen(true);
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});
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internal_freq / div_q
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});
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let pll_r_freq = pll_config.div_r.map(|div_r| {
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RCC.pllcfgr().modify(|w| {
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w.set_pllr(div_r);
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w.set_pllren(true);
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});
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internal_freq / div_r
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});
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// Enable the PLL
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RCC.cr().modify(|w| w.set_pllon(true));
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while !RCC.cr().read().pllrdy() {}
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PllFreq {
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pll_p: pll_p_freq,
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pll_q: pll_q_freq,
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pll_r: pll_r_freq,
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}
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});
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let (sys_clk, sw) = match config.mux {
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ClockSrc::HSI => {
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// Enable HSI
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RCC.cr().write(|w| w.set_hsion(true));
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while !RCC.cr().read().hsirdy() {}
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(HSI_FREQ, Sw::HSI)
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}
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ClockSrc::HSE(freq) => {
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// Enable HSE
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RCC.cr().write(|w| w.set_hseon(true));
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while !RCC.cr().read().hserdy() {}
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(freq, Sw::HSE)
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}
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ClockSrc::PLL => {
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assert!(pll_freq.is_some());
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assert!(pll_freq.as_ref().unwrap().pll_r.is_some());
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let freq = pll_freq.as_ref().unwrap().pll_r.unwrap().0;
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assert!(freq <= 170_000_000);
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if freq >= 150_000_000 {
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// Enable Core Boost mode on freq >= 150Mhz ([RM0440] p234)
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PWR.cr5().modify(|w| w.set_r1mode(false));
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// Set flash wait state in boost mode based on frequency ([RM0440] p191)
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if freq <= 36_000_000 {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS0));
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} else if freq <= 68_000_000 {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS1));
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} else if freq <= 102_000_000 {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS2));
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} else if freq <= 136_000_000 {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS3));
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} else {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS4));
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}
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} else {
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PWR.cr5().modify(|w| w.set_r1mode(true));
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// Set flash wait state in normal mode based on frequency ([RM0440] p191)
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if freq <= 30_000_000 {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS0));
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} else if freq <= 60_000_000 {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS1));
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} else if freq <= 80_000_000 {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS2));
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} else if freq <= 120_000_000 {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS3));
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} else {
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FLASH.acr().modify(|w| w.set_latency(Latency::WS4));
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}
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}
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(Hertz(freq), Sw::PLL1_R)
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}
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};
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RCC.cfgr().modify(|w| {
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w.set_sw(sw);
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w.set_hpre(config.ahb_pre);
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w.set_ppre1(config.apb1_pre);
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w.set_ppre2(config.apb2_pre);
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});
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let ahb_freq = sys_clk / config.ahb_pre;
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let (apb1_freq, apb1_tim_freq) = match config.apb1_pre {
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APBPrescaler::DIV1 => (ahb_freq, ahb_freq),
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pre => {
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let freq = ahb_freq / pre;
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(freq, freq * 2u32)
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}
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};
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let (apb2_freq, apb2_tim_freq) = match config.apb2_pre {
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APBPrescaler::DIV1 => (ahb_freq, ahb_freq),
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pre => {
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let freq = ahb_freq / pre;
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(freq, freq * 2u32)
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}
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};
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// Setup the 48 MHz clock if needed
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if let Some(clock_48mhz_src) = config.clock_48mhz_src {
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let source = match clock_48mhz_src {
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Clock48MhzSrc::PllQ => {
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// Make sure the PLLQ is enabled and running at 48Mhz
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let pllq_freq = pll_freq.as_ref().and_then(|f| f.pll_q);
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assert!(pllq_freq.is_some() && pllq_freq.unwrap().0 == 48_000_000);
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crate::pac::rcc::vals::Clk48sel::PLL1_Q
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}
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Clock48MhzSrc::Hsi48(crs_config) => {
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// Enable HSI48
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RCC.crrcr().modify(|w| w.set_hsi48on(true));
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// Wait for HSI48 to turn on
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while RCC.crrcr().read().hsi48rdy() == false {}
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// Enable and setup CRS if needed
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if let Some(crs_config) = crs_config {
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crate::peripherals::CRS::enable_and_reset();
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let sync_src = match crs_config.sync_src {
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CrsSyncSource::Gpio => crate::pac::crs::vals::Syncsrc::GPIO,
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CrsSyncSource::Lse => crate::pac::crs::vals::Syncsrc::LSE,
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CrsSyncSource::Usb => crate::pac::crs::vals::Syncsrc::USB,
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};
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crate::pac::CRS.cfgr().modify(|w| {
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w.set_syncsrc(sync_src);
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});
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// These are the correct settings for standard USB operation. If other settings
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// are needed there will need to be additional config options for the CRS.
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crate::pac::CRS.cr().modify(|w| {
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w.set_autotrimen(true);
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w.set_cen(true);
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});
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}
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crate::pac::rcc::vals::Clk48sel::HSI48
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}
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};
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RCC.ccipr().modify(|w| w.set_clk48sel(source));
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}
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RCC.ccipr().modify(|w| w.set_adc12sel(config.adc12_clock_source));
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RCC.ccipr().modify(|w| w.set_adc345sel(config.adc345_clock_source));
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let adc12_ck = match config.adc12_clock_source {
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AdcClockSource::DISABLE => None,
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AdcClockSource::PLL1_P => pll_freq.as_ref().unwrap().pll_p,
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AdcClockSource::SYS => Some(sys_clk),
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_ => unreachable!(),
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};
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let adc345_ck = match config.adc345_clock_source {
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AdcClockSource::DISABLE => None,
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AdcClockSource::PLL1_P => pll_freq.as_ref().unwrap().pll_p,
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AdcClockSource::SYS => Some(sys_clk),
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_ => unreachable!(),
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};
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if config.low_power_run {
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assert!(sys_clk <= Hertz(2_000_000));
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PWR.cr1().modify(|w| w.set_lpr(true));
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}
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let rtc = config.ls.init();
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set_freqs(Clocks {
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sys: sys_clk,
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hclk1: ahb_freq,
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hclk2: ahb_freq,
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pclk1: apb1_freq,
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pclk1_tim: apb1_tim_freq,
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pclk2: apb2_freq,
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pclk2_tim: apb2_tim_freq,
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adc: adc12_ck,
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adc34: adc345_ck,
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pll1_p: None,
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rtc,
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});
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}
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