199 lines
6.1 KiB
Rust
199 lines
6.1 KiB
Rust
use pac::clocks::vals::*;
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use crate::{pac, reset};
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const XOSC_MHZ: u32 = 12;
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/// safety: must be called exactly once at bootup
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pub unsafe fn init() {
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// Reset everything except:
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// - QSPI (we're using it to run this code!)
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// - PLLs (it may be suicide if that's what's clocking us)
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// - USB, SYSCFG (breaks usb-to-swd on core1)
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let mut peris = reset::ALL_PERIPHERALS;
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peris.set_io_qspi(false);
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peris.set_pads_qspi(false);
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peris.set_pll_sys(false);
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peris.set_pll_usb(false);
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peris.set_usbctrl(false);
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peris.set_syscfg(false);
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reset::reset(peris);
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// Remove reset from peripherals which are clocked only by clk_sys and
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// clk_ref. Other peripherals stay in reset until we've configured clocks.
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let mut peris = reset::ALL_PERIPHERALS;
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peris.set_adc(false);
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peris.set_rtc(false);
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peris.set_spi0(false);
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peris.set_spi1(false);
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peris.set_uart0(false);
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peris.set_uart1(false);
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peris.set_usbctrl(false);
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reset::unreset_wait(peris);
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// Start tick in watchdog
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// xosc 12 mhz
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pac::WATCHDOG.tick().write(|w| {
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w.set_cycles(XOSC_MHZ as u16);
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w.set_enable(true);
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});
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// Disable resus that may be enabled from previous software
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let c = pac::CLOCKS;
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c.clk_sys_resus_ctrl()
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.write_value(pac::clocks::regs::ClkSysResusCtrl(0));
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// start XOSC
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start_xosc();
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// Before we touch PLLs, switch sys and ref cleanly away from their aux sources.
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c.clk_sys_ctrl().modify(|w| w.set_src(ClkSysCtrlSrc::CLK_REF));
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while c.clk_sys_selected().read() != 1 {}
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c.clk_ref_ctrl().modify(|w| w.set_src(ClkRefCtrlSrc::ROSC_CLKSRC_PH));
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while c.clk_ref_selected().read() != 1 {}
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// Configure PLLs
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// REF FBDIV VCO POSTDIV
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// PLL SYS: 12 / 1 = 12MHz * 125 = 1500MHZ / 6 / 2 = 125MHz
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// PLL USB: 12 / 1 = 12MHz * 40 = 480 MHz / 5 / 2 = 48MHz
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configure_pll(pac::PLL_SYS, 1, 1500_000_000, 6, 2);
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configure_pll(pac::PLL_USB, 1, 480_000_000, 5, 2);
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// CLK_REF = XOSC (12MHz) / 1 = 12MHz2Mhz
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c.clk_ref_ctrl().write(|w| {
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w.set_src(ClkRefCtrlSrc::XOSC_CLKSRC);
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});
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while c.clk_ref_selected().read() != 1 << ClkRefCtrlSrc::XOSC_CLKSRC.0 {}
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c.clk_ref_div().write(|w| w.set_int(1));
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// CLK SYS = PLL SYS (125MHz) / 1 = 125MHz
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c.clk_sys_ctrl().write(|w| {
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w.set_src(ClkSysCtrlSrc::CLK_REF);
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});
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while c.clk_sys_selected().read() != 1 << ClkSysCtrlSrc::CLK_REF.0 {}
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c.clk_sys_div().write(|w| w.set_int(1));
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c.clk_sys_ctrl().write(|w| {
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w.set_auxsrc(ClkSysCtrlAuxsrc::CLKSRC_PLL_SYS);
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w.set_src(ClkSysCtrlSrc::CLKSRC_CLK_SYS_AUX);
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});
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while c.clk_sys_selected().read() != 1 << ClkSysCtrlSrc::CLKSRC_CLK_SYS_AUX.0 {}
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// CLK USB = PLL USB (48MHz) / 1 = 48MHz
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c.clk_usb_div().write(|w| w.set_int(1));
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c.clk_usb_ctrl().write(|w| {
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w.set_enable(true);
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w.set_auxsrc(ClkUsbCtrlAuxsrc::CLKSRC_PLL_USB);
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});
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// CLK ADC = PLL USB (48MHZ) / 1 = 48MHz
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c.clk_adc_div().write(|w| w.set_int(1));
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c.clk_adc_ctrl().write(|w| {
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w.set_enable(true);
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w.set_auxsrc(ClkAdcCtrlAuxsrc::CLKSRC_PLL_USB);
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});
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// CLK RTC = PLL USB (48MHz) / 1024 = 46875Hz
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c.clk_rtc_ctrl().modify(|w| {
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w.set_enable(false);
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});
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c.clk_rtc_div().write(|w| w.set_int(1024));
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c.clk_rtc_ctrl().write(|w| {
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w.set_enable(true);
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w.set_auxsrc(ClkRtcCtrlAuxsrc::CLKSRC_PLL_USB);
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});
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// CLK PERI = clk_sys. Used as reference clock for Peripherals. No dividers so just select and enable
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// Normally choose clk_sys or clk_usb
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c.clk_peri_ctrl().write(|w| {
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w.set_enable(true);
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w.set_auxsrc(ClkPeriCtrlAuxsrc::CLK_SYS);
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});
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// Peripheral clocks should now all be running
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let peris = reset::ALL_PERIPHERALS;
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reset::unreset_wait(peris);
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}
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pub(crate) fn _clk_sys_freq() -> u32 {
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125_000_000
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}
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pub(crate) fn clk_peri_freq() -> u32 {
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125_000_000
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}
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pub(crate) fn _clk_rtc_freq() -> u32 {
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46875
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}
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unsafe fn start_xosc() {
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const XOSC_MHZ: u32 = 12;
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pac::XOSC
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.ctrl()
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.write(|w| w.set_freq_range(pac::xosc::vals::CtrlFreqRange::_1_15MHZ));
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let startup_delay = (((XOSC_MHZ * 1_000_000) / 1000) + 128) / 256;
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pac::XOSC.startup().write(|w| w.set_delay(startup_delay as u16));
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pac::XOSC.ctrl().write(|w| {
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w.set_freq_range(pac::xosc::vals::CtrlFreqRange::_1_15MHZ);
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w.set_enable(pac::xosc::vals::Enable::ENABLE);
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});
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while !pac::XOSC.status().read().stable() {}
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}
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unsafe fn configure_pll(p: pac::pll::Pll, refdiv: u32, vco_freq: u32, post_div1: u8, post_div2: u8) {
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let ref_freq = XOSC_MHZ * 1_000_000 / refdiv;
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let fbdiv = vco_freq / ref_freq;
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assert!(fbdiv >= 16 && fbdiv <= 320);
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assert!(post_div1 >= 1 && post_div1 <= 7);
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assert!(post_div2 >= 1 && post_div2 <= 7);
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assert!(post_div2 <= post_div1);
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assert!(ref_freq <= (vco_freq / 16));
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// do not disrupt PLL that is already correctly configured and operating
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let cs = p.cs().read();
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let prim = p.prim().read();
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if cs.lock()
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&& cs.refdiv() == refdiv as _
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&& p.fbdiv_int().read().fbdiv_int() == fbdiv as _
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&& prim.postdiv1() == post_div1
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&& prim.postdiv2() == post_div2
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{
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return;
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}
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// Reset it
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let mut peris = reset::Peripherals(0);
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match p {
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pac::PLL_SYS => peris.set_pll_sys(true),
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pac::PLL_USB => peris.set_pll_usb(true),
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_ => unreachable!(),
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}
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reset::reset(peris);
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reset::unreset_wait(peris);
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// Load VCO-related dividers before starting VCO
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p.cs().write(|w| w.set_refdiv(refdiv as _));
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p.fbdiv_int().write(|w| w.set_fbdiv_int(fbdiv as _));
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// Turn on PLL
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p.pwr().modify(|w| {
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w.set_pd(false);
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w.set_vcopd(false);
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w.set_postdivpd(true);
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});
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// Wait for PLL to lock
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while !p.cs().read().lock() {}
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// Wait for PLL to lock
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p.prim().write(|w| {
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w.set_postdiv1(post_div1);
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w.set_postdiv2(post_div2);
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});
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// Turn on post divider
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p.pwr().modify(|w| w.set_postdivpd(false));
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}
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