186 lines
5.0 KiB
Rust
186 lines
5.0 KiB
Rust
use core::convert::TryFrom;
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use super::{set_freqs, Clocks};
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use crate::pac::flash::vals::Latency;
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use crate::pac::rcc::vals::*;
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use crate::pac::{FLASH, RCC};
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use crate::time::Hertz;
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/// HSI speed
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pub const HSI_FREQ: Hertz = Hertz(8_000_000);
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/// LSI speed
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pub const LSI_FREQ: Hertz = Hertz(40_000);
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/// Configuration of the clocks
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///
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#[non_exhaustive]
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#[derive(Default)]
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pub struct Config {
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pub hse: Option<Hertz>,
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pub sys_ck: Option<Hertz>,
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pub hclk: Option<Hertz>,
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pub pclk1: Option<Hertz>,
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pub pclk2: Option<Hertz>,
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pub adcclk: Option<Hertz>,
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}
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pub(crate) unsafe fn init(config: Config) {
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let pllsrcclk = config.hse.map(|hse| hse.0).unwrap_or(HSI_FREQ.0 / 2);
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let sysclk = config.sys_ck.map(|sys| sys.0).unwrap_or(pllsrcclk);
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let pllmul = sysclk / pllsrcclk;
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let (pllmul_bits, real_sysclk) = if pllmul == 1 {
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(None, config.hse.map(|hse| hse.0).unwrap_or(HSI_FREQ.0))
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} else {
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let pllmul = core::cmp::min(core::cmp::max(pllmul, 1), 16);
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(Some(pllmul as u8 - 2), pllsrcclk * pllmul)
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};
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assert!(real_sysclk <= 72_000_000);
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let hpre_bits = config
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.hclk
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.map(|hclk| match real_sysclk / hclk.0 {
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0 => unreachable!(),
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1 => 0b0111,
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2 => 0b1000,
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3..=5 => 0b1001,
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6..=11 => 0b1010,
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12..=39 => 0b1011,
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40..=95 => 0b1100,
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96..=191 => 0b1101,
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192..=383 => 0b1110,
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_ => 0b1111,
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})
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.unwrap_or(0b0111);
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let hclk = if hpre_bits >= 0b1100 {
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real_sysclk / (1 << (hpre_bits - 0b0110))
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} else {
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real_sysclk / (1 << (hpre_bits - 0b0111))
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};
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assert!(hclk <= 72_000_000);
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let ppre1_bits = config
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.pclk1
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.map(|pclk1| match hclk / pclk1.0 {
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0 => unreachable!(),
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1 => 0b011,
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2 => 0b100,
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3..=5 => 0b101,
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6..=11 => 0b110,
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_ => 0b111,
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})
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.unwrap_or(0b011);
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let ppre1 = 1 << (ppre1_bits - 0b011);
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let pclk1 = hclk / u32::try_from(ppre1).unwrap();
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let timer_mul1 = if ppre1 == 1 { 1 } else { 2 };
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assert!(pclk1 <= 36_000_000);
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let ppre2_bits = config
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.pclk2
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.map(|pclk2| match hclk / pclk2.0 {
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0 => unreachable!(),
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1 => 0b011,
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2 => 0b100,
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3..=5 => 0b101,
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6..=11 => 0b110,
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_ => 0b111,
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})
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.unwrap_or(0b011);
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let ppre2 = 1 << (ppre2_bits - 0b011);
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let pclk2 = hclk / u32::try_from(ppre2).unwrap();
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let timer_mul2 = if ppre2 == 1 { 1 } else { 2 };
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assert!(pclk2 <= 72_000_000);
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// Only needed for stm32f103?
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FLASH.acr().write(|w| {
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w.set_latency(if real_sysclk <= 24_000_000 {
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Latency(0b000)
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} else if real_sysclk <= 48_000_000 {
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Latency(0b001)
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} else {
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Latency(0b010)
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});
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});
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// the USB clock is only valid if an external crystal is used, the PLL is enabled, and the
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// PLL output frequency is a supported one.
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// usbpre == false: divide clock by 1.5, otherwise no division
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#[cfg(not(rcc_f100))]
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let (usbpre, _usbclk_valid) = match (config.hse, pllmul_bits, real_sysclk) {
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(Some(_), Some(_), 72_000_000) => (false, true),
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(Some(_), Some(_), 48_000_000) => (true, true),
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_ => (true, false),
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};
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let apre_bits: u8 = config
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.adcclk
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.map(|adcclk| match pclk2 / adcclk.0 {
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0..=2 => 0b00,
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3..=4 => 0b01,
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5..=7 => 0b10,
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_ => 0b11,
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})
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.unwrap_or(0b11);
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let apre = (apre_bits + 1) << 1;
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let adcclk = pclk2 / unwrap!(u32::try_from(apre));
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assert!(adcclk <= 14_000_000);
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if config.hse.is_some() {
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// enable HSE and wait for it to be ready
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RCC.cr().modify(|w| w.set_hseon(true));
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while !RCC.cr().read().hserdy() {}
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}
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if let Some(pllmul_bits) = pllmul_bits {
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// enable PLL and wait for it to be ready
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RCC.cfgr().modify(|w| {
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w.set_pllmul(Pllmul(pllmul_bits));
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w.set_pllsrc(Pllsrc(config.hse.is_some() as u8));
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});
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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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}
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// Only needed for stm32f103?
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RCC.cfgr().modify(|w| {
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w.set_adcpre(Adcpre(apre_bits));
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w.set_ppre2(Ppre1(ppre2_bits));
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w.set_ppre1(Ppre1(ppre1_bits));
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w.set_hpre(Hpre(hpre_bits));
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#[cfg(not(rcc_f100))]
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w.set_usbpre(Usbpre(usbpre as u8));
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w.set_sw(Sw(if pllmul_bits.is_some() {
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// PLL
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0b10
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} else if config.hse.is_some() {
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// HSE
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0b1
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} else {
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// HSI
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0b0
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}));
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});
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set_freqs(Clocks {
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sys: Hertz(real_sysclk),
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apb1: Hertz(pclk1),
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apb2: Hertz(pclk2),
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apb1_tim: Hertz(pclk1 * timer_mul1),
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apb2_tim: Hertz(pclk2 * timer_mul2),
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ahb1: Hertz(hclk),
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adc: Hertz(adcclk),
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});
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}
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