Add missing functions, Cleanup, Gpout example
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1a96eae22c
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59132514cf
@ -2,7 +2,8 @@ use pac::clocks::vals::*;
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use crate::{pac, reset};
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static mut EXTERNAL_HZ: u32 = 0;
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// TODO fix terrible use of global here
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static mut XIN_HZ: u32 = 0;
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pub struct ClockConfig {
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rosc_config: Option<RoscConfig>,
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@ -49,7 +50,7 @@ impl ClockConfig {
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ref_clk_config: (RefClkSrc::Xosc, 1),
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sys_clk_config: (SysClkSrc::Aux(ClkSysCtrlAuxsrc::CLKSRC_PLL_SYS), 1),
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peri_clk_src: Some(ClkPeriCtrlAuxsrc::CLK_SYS),
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usb_clk_config: Some((ClkUsbCtrlAuxsrc::CLKSRC_PLL_SYS, 1)),
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usb_clk_config: Some((ClkUsbCtrlAuxsrc::CLKSRC_PLL_USB, 1)),
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adc_clk_config: Some((ClkAdcCtrlAuxsrc::CLKSRC_PLL_USB, 1)),
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rtc_clk_config: Some((ClkRtcCtrlAuxsrc::CLKSRC_PLL_USB, 1024)),
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}
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@ -164,7 +165,7 @@ pub(crate) unsafe fn init(config: ClockConfig) {
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}
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if let Some(config) = config.xosc_config {
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EXTERNAL_HZ = config.hz;
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XIN_HZ = config.hz;
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pac::WATCHDOG.tick().write(|w| {
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w.set_cycles((config.hz / 1_000_000) as u16);
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@ -343,22 +344,64 @@ pub fn estimate_rosc_freq() -> u32 {
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base / div
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}
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pub(crate) fn clk_sys_freq() -> u32 {
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pub fn xosc_freq() -> u32 {
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unsafe { XIN_HZ }
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}
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pub fn gpin0_freq() -> u32 {
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todo!()
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}
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pub fn gpin1_freq() -> u32 {
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todo!()
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}
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pub fn pll_sys_freq() -> u32 {
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let p = pac::PLL_SYS;
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let input_freq = xosc_freq();
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let cs = unsafe { p.cs().read() };
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let refdiv = cs.refdiv() as u32;
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let fbdiv = unsafe { p.fbdiv_int().read().fbdiv_int() } as u32;
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let (postdiv1, postdiv2) = unsafe {
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let prim = p.prim().read();
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(prim.postdiv1() as u32, prim.postdiv2() as u32)
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};
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(((input_freq / refdiv) * fbdiv) / postdiv1) / postdiv2
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}
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pub fn pll_usb_freq() -> u32 {
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let p = pac::PLL_USB;
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let input_freq = xosc_freq();
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let cs = unsafe { p.cs().read() };
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let refdiv = cs.refdiv() as u32;
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let fbdiv = unsafe { p.fbdiv_int().read().fbdiv_int() } as u32;
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let (postdiv1, postdiv2) = unsafe {
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let prim = p.prim().read();
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(prim.postdiv1() as u32, prim.postdiv2() as u32)
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};
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(((input_freq / refdiv) * fbdiv) / postdiv1) / postdiv2
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}
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pub fn clk_sys_freq() -> u32 {
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let c = pac::CLOCKS;
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let ctrl = unsafe { c.clk_sys_ctrl().read() };
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let base = match ctrl.src() {
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ClkSysCtrlSrc::CLK_REF => clk_ref_freq(),
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ClkSysCtrlSrc::CLKSRC_CLK_SYS_AUX => {
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match ctrl.auxsrc() {
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ClkSysCtrlAuxsrc::CLKSRC_PLL_SYS => clk_sys_pll_freq(),
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ClkSysCtrlAuxsrc::CLKSRC_PLL_USB => clk_usb_pll_freq(),
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ClkSysCtrlSrc::CLKSRC_CLK_SYS_AUX => match ctrl.auxsrc() {
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ClkSysCtrlAuxsrc::CLKSRC_PLL_SYS => pll_sys_freq(),
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ClkSysCtrlAuxsrc::CLKSRC_PLL_USB => pll_usb_freq(),
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ClkSysCtrlAuxsrc::ROSC_CLKSRC => estimate_rosc_freq(),
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ClkSysCtrlAuxsrc::XOSC_CLKSRC => unsafe { EXTERNAL_HZ },
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// TODO not sure how to handle clkin sources
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_ => todo!(),
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}
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}
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ClkSysCtrlAuxsrc::XOSC_CLKSRC => xosc_freq(),
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ClkSysCtrlAuxsrc::CLKSRC_GPIN0 => gpin0_freq(),
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ClkSysCtrlAuxsrc::CLKSRC_GPIN1 => gpin1_freq(),
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_ => unreachable!(),
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},
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_ => unreachable!(),
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};
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@ -370,82 +413,96 @@ pub(crate) fn clk_sys_freq() -> u32 {
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base / int
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}
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pub(crate) fn clk_sys_pll_freq() -> u32 {
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let p = pac::PLL_SYS;
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let input_freq = unsafe { EXTERNAL_HZ };
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let cs = unsafe { p.cs().read() };
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let refdiv = cs.refdiv() as u32;
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let fbdiv = unsafe { p.fbdiv_int().read().fbdiv_int() } as u32;
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let (postdiv1, postdiv2) = unsafe {
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let prim = p.prim().read();
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(prim.postdiv1() as u32, prim.postdiv2() as u32)
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};
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(((input_freq / refdiv) * fbdiv) / postdiv1) / postdiv2
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}
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pub(crate) fn clk_usb_pll_freq() -> u32 {
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let p = pac::PLL_USB;
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let input_freq = unsafe { EXTERNAL_HZ };
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let cs = unsafe { p.cs().read() };
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let refdiv = cs.refdiv() as u32;
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let fbdiv = unsafe { p.fbdiv_int().read().fbdiv_int() } as u32;
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let (postdiv1, postdiv2) = unsafe {
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let prim = p.prim().read();
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(prim.postdiv1() as u32, prim.postdiv2() as u32)
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};
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(((input_freq / refdiv) * fbdiv) / postdiv1) / postdiv2
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}
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pub(crate) fn clk_peri_freq() -> u32 {
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let c = pac::CLOCKS;
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let src = unsafe { c.clk_peri_ctrl().read().auxsrc() };
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match src {
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ClkPeriCtrlAuxsrc::CLK_SYS => clk_sys_freq(),
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ClkPeriCtrlAuxsrc::CLKSRC_PLL_SYS => clk_sys_pll_freq(),
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ClkPeriCtrlAuxsrc::ROSC_CLKSRC_PH => estimate_rosc_freq(),
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ClkPeriCtrlAuxsrc::XOSC_CLKSRC => unsafe { EXTERNAL_HZ },
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// TODO not sure how to handle clkin sources
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_ => todo!(),
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}
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}
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pub fn clk_ref_freq() -> u32 {
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let c = pac::CLOCKS;
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let ctrl = unsafe { c.clk_ref_ctrl().read() };
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let base = match ctrl.src() {
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ClkRefCtrlSrc::ROSC_CLKSRC_PH => estimate_rosc_freq(),
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ClkRefCtrlSrc::XOSC_CLKSRC => unsafe { EXTERNAL_HZ },
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ClkRefCtrlSrc::CLKSRC_CLK_REF_AUX => todo!(),
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ClkRefCtrlSrc::XOSC_CLKSRC => xosc_freq(),
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ClkRefCtrlSrc::CLKSRC_CLK_REF_AUX => match ctrl.auxsrc() {
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ClkRefCtrlAuxsrc::CLKSRC_PLL_USB => pll_usb_freq(),
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ClkRefCtrlAuxsrc::CLKSRC_GPIN0 => gpin0_freq(),
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ClkRefCtrlAuxsrc::CLKSRC_GPIN1 => gpin1_freq(),
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_ => unreachable!(),
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},
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_ => unreachable!(),
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};
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let mut div = unsafe { c.clk_ref_div().read().int() } as u32;
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if div == 0 {
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div = 4;
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let div = unsafe { c.clk_ref_div().read() };
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let int = if div.int() == 0 { 4 } else { div.int() as u32 };
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base / int
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}
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base / div
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pub fn clk_peri_freq() -> u32 {
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let c = pac::CLOCKS;
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let src = unsafe { c.clk_peri_ctrl().read().auxsrc() };
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match src {
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ClkPeriCtrlAuxsrc::CLK_SYS => clk_sys_freq(),
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ClkPeriCtrlAuxsrc::CLKSRC_PLL_SYS => pll_sys_freq(),
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ClkPeriCtrlAuxsrc::CLKSRC_PLL_USB => pll_usb_freq(),
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ClkPeriCtrlAuxsrc::ROSC_CLKSRC_PH => estimate_rosc_freq(),
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ClkPeriCtrlAuxsrc::XOSC_CLKSRC => xosc_freq(),
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ClkPeriCtrlAuxsrc::CLKSRC_GPIN0 => gpin0_freq(),
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ClkPeriCtrlAuxsrc::CLKSRC_GPIN1 => gpin1_freq(),
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_ => unreachable!(),
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}
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}
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pub(crate) fn clk_rtc_freq() -> u32 {
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pub fn clk_usb_freq() -> u32 {
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let c = pac::CLOCKS;
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let ctrl = unsafe { c.clk_usb_ctrl().read() };
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let base = match ctrl.auxsrc() {
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ClkUsbCtrlAuxsrc::CLKSRC_PLL_SYS => pll_sys_freq(),
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ClkUsbCtrlAuxsrc::CLKSRC_PLL_USB => pll_usb_freq(),
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ClkUsbCtrlAuxsrc::ROSC_CLKSRC_PH => estimate_rosc_freq(),
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ClkUsbCtrlAuxsrc::XOSC_CLKSRC => xosc_freq(),
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ClkUsbCtrlAuxsrc::CLKSRC_GPIN0 => gpin0_freq(),
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ClkUsbCtrlAuxsrc::CLKSRC_GPIN1 => gpin1_freq(),
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_ => unreachable!(),
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};
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let div = unsafe { c.clk_ref_div().read() };
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let int = if div.int() == 0 { 4 } else { div.int() as u32 };
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base / int
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}
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pub fn clk_adc_freq() -> u32 {
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let c = pac::CLOCKS;
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let ctrl = unsafe { c.clk_adc_ctrl().read() };
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let base = match ctrl.auxsrc() {
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ClkAdcCtrlAuxsrc::CLKSRC_PLL_SYS => pll_sys_freq(),
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ClkAdcCtrlAuxsrc::CLKSRC_PLL_USB => pll_usb_freq(),
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ClkAdcCtrlAuxsrc::ROSC_CLKSRC_PH => estimate_rosc_freq(),
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ClkAdcCtrlAuxsrc::XOSC_CLKSRC => xosc_freq(),
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ClkAdcCtrlAuxsrc::CLKSRC_GPIN0 => gpin0_freq(),
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ClkAdcCtrlAuxsrc::CLKSRC_GPIN1 => gpin1_freq(),
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_ => unreachable!(),
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};
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let div = unsafe { c.clk_adc_div().read() };
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let int = if div.int() == 0 { 4 } else { div.int() as u32 };
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base / int
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}
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pub fn clk_rtc_freq() -> u32 {
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let c = pac::CLOCKS;
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let src = unsafe { c.clk_rtc_ctrl().read().auxsrc() };
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let base = match src {
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ClkRtcCtrlAuxsrc::XOSC_CLKSRC => unsafe { EXTERNAL_HZ },
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ClkRtcCtrlAuxsrc::CLKSRC_PLL_USB => pll_usb_freq(),
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ClkRtcCtrlAuxsrc::CLKSRC_PLL_SYS => pll_sys_freq(),
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ClkRtcCtrlAuxsrc::ROSC_CLKSRC_PH => estimate_rosc_freq(),
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ClkRtcCtrlAuxsrc::CLKSRC_PLL_USB => clk_usb_pll_freq(),
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ClkRtcCtrlAuxsrc::CLKSRC_PLL_SYS => clk_sys_pll_freq(),
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// TODO not sure how to handle clkin sources
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_ => todo!(),
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ClkRtcCtrlAuxsrc::XOSC_CLKSRC => xosc_freq(),
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ClkRtcCtrlAuxsrc::CLKSRC_GPIN0 => gpin0_freq(),
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ClkRtcCtrlAuxsrc::CLKSRC_GPIN1 => gpin1_freq(),
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_ => unreachable!(),
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};
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let div = unsafe { c.clk_rtc_div().read() };
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@ -456,6 +513,60 @@ pub(crate) fn clk_rtc_freq() -> u32 {
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base / int
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}
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pub fn clk_gpout0_freq() -> u32 {
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let c = pac::CLOCKS;
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let src = unsafe { c.clk_gpout0_ctrl().read().auxsrc() };
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let base = match src {
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ClkGpout0ctrlAuxsrc::CLKSRC_PLL_SYS => pll_sys_freq(),
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ClkGpout0ctrlAuxsrc::CLKSRC_GPIN0 => gpin0_freq(),
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ClkGpout0ctrlAuxsrc::CLKSRC_GPIN1 => gpin1_freq(),
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ClkGpout0ctrlAuxsrc::CLKSRC_PLL_USB => pll_usb_freq(),
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ClkGpout0ctrlAuxsrc::ROSC_CLKSRC => estimate_rosc_freq(),
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ClkGpout0ctrlAuxsrc::XOSC_CLKSRC => xosc_freq(),
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ClkGpout0ctrlAuxsrc::CLK_SYS => clk_sys_freq(),
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ClkGpout0ctrlAuxsrc::CLK_USB => clk_usb_freq(),
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ClkGpout0ctrlAuxsrc::CLK_ADC => clk_adc_freq(),
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ClkGpout0ctrlAuxsrc::CLK_RTC => clk_rtc_freq(),
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ClkGpout0ctrlAuxsrc::CLK_REF => clk_ref_freq(),
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_ => unreachable!(),
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};
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let div = unsafe { c.clk_gpout0_div().read() };
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let int = if div.int() == 0 { 65536 } else { div.int() };
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// TODO handle fractional clock div
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let _frac = div.frac();
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base / int
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}
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pub fn clk_gpout1_freq() -> u32 {
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let c = pac::CLOCKS;
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let src = unsafe { c.clk_gpout1_ctrl().read().auxsrc() };
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let base = match src {
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ClkGpout1ctrlAuxsrc::CLKSRC_PLL_SYS => pll_sys_freq(),
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ClkGpout1ctrlAuxsrc::CLKSRC_GPIN0 => gpin0_freq(),
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ClkGpout1ctrlAuxsrc::CLKSRC_GPIN1 => gpin1_freq(),
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ClkGpout1ctrlAuxsrc::CLKSRC_PLL_USB => pll_usb_freq(),
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ClkGpout1ctrlAuxsrc::ROSC_CLKSRC => estimate_rosc_freq(),
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ClkGpout1ctrlAuxsrc::XOSC_CLKSRC => xosc_freq(),
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ClkGpout1ctrlAuxsrc::CLK_SYS => clk_sys_freq(),
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ClkGpout1ctrlAuxsrc::CLK_USB => clk_usb_freq(),
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ClkGpout1ctrlAuxsrc::CLK_ADC => clk_adc_freq(),
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ClkGpout1ctrlAuxsrc::CLK_RTC => clk_rtc_freq(),
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ClkGpout1ctrlAuxsrc::CLK_REF => clk_ref_freq(),
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_ => unreachable!(),
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};
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let div = unsafe { c.clk_gpout1_div().read() };
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let int = if div.int() == 0 { 65536 } else { div.int() };
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// TODO handle fractional clock div
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let _frac = div.frac();
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base / int
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}
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unsafe fn start_xosc(crystal_hz: u32) {
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pac::XOSC
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.ctrl()
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@ -526,6 +637,48 @@ unsafe fn configure_pll(p: pac::pll::Pll, input_freq: u32, config: PllConfig) {
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p.pwr().modify(|w| w.set_postdivpd(false));
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}
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pub struct Gpout0 {
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_pin: crate::peripherals::PIN_21,
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}
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impl Gpout0 {
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pub fn new(pin: crate::peripherals::PIN_21) -> Self {
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unsafe {
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let p = pac::IO_BANK0.gpio(21).ctrl();
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p.write(|w| w.set_funcsel(pac::io::vals::Gpio21ctrlFuncsel::CLOCKS_GPOUT_0.0))
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}
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Self { _pin: pin }
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}
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pub fn set_div(&self, int: u32, frac: u8) {
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unsafe {
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let c = pac::CLOCKS;
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c.clk_gpout0_div().write(|w| {
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w.set_int(int);
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w.set_frac(frac);
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});
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}
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}
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pub fn set_src(&self, src: ClkGpout0ctrlAuxsrc) {
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unsafe {
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let c = pac::CLOCKS;
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c.clk_gpout0_ctrl().modify(|w| {
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w.set_auxsrc(src);
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});
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}
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}
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pub fn enable(&self) {
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unsafe {
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let c = pac::CLOCKS;
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c.clk_gpout0_ctrl().modify(|w| {
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w.set_enable(true);
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});
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}
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}
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}
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/// Random number generator based on the ROSC RANDOMBIT register.
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///
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/// This will not produce random values if the ROSC is stopped or run at some
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21
examples/rp/src/bin/gpout.rs
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21
examples/rp/src/bin/gpout.rs
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@ -0,0 +1,21 @@
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#![no_std]
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#![no_main]
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#![feature(type_alias_impl_trait)]
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use defmt::*;
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use embassy_executor::Spawner;
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use embassy_rp::{clocks, pac};
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use {defmt_rtt as _, panic_probe as _};
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#[embassy_executor::main]
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async fn main(_spawner: Spawner) {
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let p = embassy_rp::init(Default::default());
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//let mut led = Output::new(p.PIN_25, Level::Low);
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let gpout0 = clocks::Gpout0::new(p.PIN_21);
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gpout0.set_src(pac::clocks::vals::ClkGpout0ctrlAuxsrc::CLK_SYS);
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gpout0.set_div(1000, 0);
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gpout0.enable();
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info!("Pin 21 should be toggling at {} hz", clocks::clk_gpout0_freq());
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}
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