use crate::pac; use crate::peripherals::{self, RCC}; use crate::rcc::{get_freqs, set_freqs, Clocks}; use crate::time::Hertz; use crate::time::U32Ext; use core::marker::PhantomData; use embassy::util::Unborrow; use embassy_hal_common::unborrow; /// Most of clock setup is copied from rcc/l0 /// HSI speed pub const HSI_FREQ: u32 = 16_000_000; /// System clock mux source #[derive(Clone, Copy)] pub enum ClockSrc { MSI(MSIRange), HSE(Hertz), HSI, } /// MSI Clock Range /// /// These ranges control the frequency of the MSI. Internally, these ranges map /// to the `MSIRANGE` bits in the `RCC_ICSCR` register. #[derive(Clone, Copy)] pub enum MSIRange { /// Around 65.536 kHz Range0, /// Around 131.072 kHz Range1, /// Around 262.144 kHz Range2, /// Around 524.288 kHz Range3, /// Around 1.048 MHz Range4, /// Around 2.097 MHz (reset value) Range5, /// Around 4.194 MHz Range6, } impl Default for MSIRange { fn default() -> MSIRange { MSIRange::Range5 } } /// AHB prescaler #[derive(Clone, Copy, PartialEq)] pub enum AHBPrescaler { NotDivided, Div2, Div4, Div8, Div16, Div64, Div128, Div256, Div512, } /// APB prescaler #[derive(Clone, Copy)] pub enum APBPrescaler { NotDivided, Div2, Div4, Div8, Div16, } type Ppre = u8; impl Into for APBPrescaler { fn into(self) -> Ppre { match self { APBPrescaler::NotDivided => 0b000, APBPrescaler::Div2 => 0b100, APBPrescaler::Div4 => 0b101, APBPrescaler::Div8 => 0b110, APBPrescaler::Div16 => 0b111, } } } type Hpre = u8; impl Into for AHBPrescaler { fn into(self) -> Hpre { match self { AHBPrescaler::NotDivided => 0b0000, AHBPrescaler::Div2 => 0b1000, AHBPrescaler::Div4 => 0b1001, AHBPrescaler::Div8 => 0b1010, AHBPrescaler::Div16 => 0b1011, AHBPrescaler::Div64 => 0b1100, AHBPrescaler::Div128 => 0b1101, AHBPrescaler::Div256 => 0b1110, AHBPrescaler::Div512 => 0b1111, } } } impl Into for MSIRange { fn into(self) -> u8 { match self { MSIRange::Range0 => 0b000, MSIRange::Range1 => 0b001, MSIRange::Range2 => 0b010, MSIRange::Range3 => 0b011, MSIRange::Range4 => 0b100, MSIRange::Range5 => 0b101, MSIRange::Range6 => 0b110, } } } /// Clocks configutation pub struct Config { pub mux: ClockSrc, pub ahb_pre: AHBPrescaler, pub apb1_pre: APBPrescaler, pub apb2_pre: APBPrescaler, } impl Default for Config { #[inline] fn default() -> Config { Config { mux: ClockSrc::MSI(MSIRange::default()), ahb_pre: AHBPrescaler::NotDivided, apb1_pre: APBPrescaler::NotDivided, apb2_pre: APBPrescaler::NotDivided, } } } /// RCC peripheral pub struct Rcc<'d> { _rb: peripherals::RCC, phantom: PhantomData<&'d mut peripherals::RCC>, } impl<'d> Rcc<'d> { pub fn new(rcc: impl Unborrow + 'd) -> Self { unborrow!(rcc); Self { _rb: rcc, phantom: PhantomData, } } // Safety: RCC init must have been called pub fn clocks(&self) -> &'static Clocks { unsafe { get_freqs() } } } /// Extension trait that freezes the `RCC` peripheral with provided clocks configuration pub trait RccExt { fn freeze(self, config: Config) -> Clocks; } impl RccExt for RCC { // `cfgr` is almost always a constant, so make sure it can be constant-propagated properly by // marking this function and all `Config` constructors and setters as `#[inline]`. // This saves ~900 Bytes for the `pwr.rs` example. #[inline] fn freeze(self, cfgr: Config) -> Clocks { let rcc = pac::RCC; let (sys_clk, sw) = match cfgr.mux { ClockSrc::MSI(range) => { // Set MSI range unsafe { rcc.icscr().write(|w| w.set_msirange(range.into())); } // Enable MSI unsafe { rcc.cr().write(|w| w.set_msion(true)); while !rcc.cr().read().msirdy() {} } let freq = 32_768 * (1 << (range as u8 + 1)); (freq, 0b00) } ClockSrc::HSI => { // Enable HSI unsafe { rcc.cr().write(|w| w.set_hsion(true)); while !rcc.cr().read().hsirdy() {} } (HSI_FREQ, 0b01) } ClockSrc::HSE(freq) => { // Enable HSE unsafe { rcc.cr().write(|w| w.set_hseon(true)); while !rcc.cr().read().hserdy() {} } (freq.0, 0b10) } }; unsafe { rcc.cfgr().modify(|w| { w.set_sw(sw.into()); w.set_hpre(cfgr.ahb_pre.into()); w.set_ppre1(cfgr.apb1_pre.into()); w.set_ppre2(cfgr.apb2_pre.into()); }); } let ahb_freq: u32 = match cfgr.ahb_pre { AHBPrescaler::NotDivided => sys_clk, pre => { let pre: Hpre = pre.into(); let pre = 1 << (pre as u32 - 7); sys_clk / pre } }; let (apb1_freq, apb1_tim_freq) = match cfgr.apb1_pre { APBPrescaler::NotDivided => (ahb_freq, ahb_freq), pre => { let pre: Ppre = pre.into(); let pre: u8 = 1 << (pre - 3); let freq = ahb_freq / pre as u32; (freq, freq * 2) } }; let (apb2_freq, apb2_tim_freq) = match cfgr.apb2_pre { APBPrescaler::NotDivided => (ahb_freq, ahb_freq), pre => { let pre: Ppre = pre.into(); let pre: u8 = 1 << (pre - 3); let freq = ahb_freq / (1 << (pre as u8 - 3)); (freq, freq * 2) } }; Clocks { sys: sys_clk.hz(), ahb: ahb_freq.hz(), apb1: apb1_freq.hz(), apb2: apb2_freq.hz(), apb1_tim: apb1_tim_freq.hz(), apb2_tim: apb2_tim_freq.hz(), } } } pub(crate) unsafe fn init(config: Config) { let r = ::steal(); let clocks = r.freeze(config); set_freqs(clocks); }