embassy/embassy-stm32/src/rcc/l0.rs

use crate::pac::rcc::vals::{Hpre, Msirange, Plldiv, Pllmul, Pllsrc, Ppre, Sw};
use crate::pac::RCC;
#[cfg(crs)]
use crate::pac::{CRS, SYSCFG};
use crate::rcc::{set_freqs, Clocks};
use crate::time::Hertz;

/// HSI speed
pub const HSI_FREQ: Hertz = Hertz(16_000_000);

/// LSI speed
pub const LSI_FREQ: Hertz = Hertz(32_000);

/// System clock mux source
#[derive(Clone, Copy)]
pub enum ClockSrc {
    MSI(MSIRange),
    PLL(PLLSource, PLLMul, PLLDiv),
    HSE(Hertz),
    HSI16,
}

/// 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
    }
}

/// PLL divider
#[derive(Clone, Copy)]
pub enum PLLDiv {
    Div2,
    Div3,
    Div4,
}

/// PLL multiplier
#[derive(Clone, Copy)]
pub enum PLLMul {
    Mul3,
    Mul4,
    Mul6,
    Mul8,
    Mul12,
    Mul16,
    Mul24,
    Mul32,
    Mul48,
}

/// 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,
}

/// PLL clock input source
#[derive(Clone, Copy)]
pub enum PLLSource {
    HSI16,
    HSE(Hertz),
}

impl From<PLLMul> for Pllmul {
    fn from(val: PLLMul) -> Pllmul {
        match val {
            PLLMul::Mul3 => Pllmul::MUL3,
            PLLMul::Mul4 => Pllmul::MUL4,
            PLLMul::Mul6 => Pllmul::MUL6,
            PLLMul::Mul8 => Pllmul::MUL8,
            PLLMul::Mul12 => Pllmul::MUL12,
            PLLMul::Mul16 => Pllmul::MUL16,
            PLLMul::Mul24 => Pllmul::MUL24,
            PLLMul::Mul32 => Pllmul::MUL32,
            PLLMul::Mul48 => Pllmul::MUL48,
        }
    }
}

impl From<PLLDiv> for Plldiv {
    fn from(val: PLLDiv) -> Plldiv {
        match val {
            PLLDiv::Div2 => Plldiv::DIV2,
            PLLDiv::Div3 => Plldiv::DIV3,
            PLLDiv::Div4 => Plldiv::DIV4,
        }
    }
}

impl From<PLLSource> for Pllsrc {
    fn from(val: PLLSource) -> Pllsrc {
        match val {
            PLLSource::HSI16 => Pllsrc::HSI16,
            PLLSource::HSE(_) => Pllsrc::HSE,
        }
    }
}

impl From<APBPrescaler> for Ppre {
    fn from(val: APBPrescaler) -> Ppre {
        match val {
            APBPrescaler::NotDivided => Ppre::DIV1,
            APBPrescaler::Div2 => Ppre::DIV2,
            APBPrescaler::Div4 => Ppre::DIV4,
            APBPrescaler::Div8 => Ppre::DIV8,
            APBPrescaler::Div16 => Ppre::DIV16,
        }
    }
}

impl From<AHBPrescaler> for Hpre {
    fn from(val: AHBPrescaler) -> Hpre {
        match val {
            AHBPrescaler::NotDivided => Hpre::DIV1,
            AHBPrescaler::Div2 => Hpre::DIV2,
            AHBPrescaler::Div4 => Hpre::DIV4,
            AHBPrescaler::Div8 => Hpre::DIV8,
            AHBPrescaler::Div16 => Hpre::DIV16,
            AHBPrescaler::Div64 => Hpre::DIV64,
            AHBPrescaler::Div128 => Hpre::DIV128,
            AHBPrescaler::Div256 => Hpre::DIV256,
            AHBPrescaler::Div512 => Hpre::DIV512,
        }
    }
}

impl From<MSIRange> for Msirange {
    fn from(val: MSIRange) -> Msirange {
        match val {
            MSIRange::Range0 => Msirange::RANGE0,
            MSIRange::Range1 => Msirange::RANGE1,
            MSIRange::Range2 => Msirange::RANGE2,
            MSIRange::Range3 => Msirange::RANGE3,
            MSIRange::Range4 => Msirange::RANGE4,
            MSIRange::Range5 => Msirange::RANGE5,
            MSIRange::Range6 => Msirange::RANGE6,
        }
    }
}

/// Clocks configutation
pub struct Config {
    pub mux: ClockSrc,
    pub ahb_pre: AHBPrescaler,
    pub apb1_pre: APBPrescaler,
    pub apb2_pre: APBPrescaler,
    #[cfg(crs)]
    pub enable_hsi48: bool,
}

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,
            #[cfg(crs)]
            enable_hsi48: false,
        }
    }
}

pub(crate) unsafe fn init(config: Config) {
    let (sys_clk, sw) = match config.mux {
        ClockSrc::MSI(range) => {
            // Set MSI range
            RCC.icscr().write(|w| w.set_msirange(range.into()));

            // Enable MSI
            RCC.cr().write(|w| w.set_msion(true));
            while !RCC.cr().read().msirdy() {}

            let freq = 32_768 * (1 << (range as u8 + 1));
            (freq, Sw::MSI)
        }
        ClockSrc::HSI16 => {
            // Enable HSI16
            RCC.cr().write(|w| w.set_hsi16on(true));
            while !RCC.cr().read().hsi16rdyf() {}

            (HSI_FREQ.0, Sw::HSI16)
        }
        ClockSrc::HSE(freq) => {
            // Enable HSE
            RCC.cr().write(|w| w.set_hseon(true));
            while !RCC.cr().read().hserdy() {}

            (freq.0, Sw::HSE)
        }
        ClockSrc::PLL(src, mul, div) => {
            let freq = match src {
                PLLSource::HSE(freq) => {
                    // Enable HSE
                    RCC.cr().write(|w| w.set_hseon(true));
                    while !RCC.cr().read().hserdy() {}
                    freq.0
                }
                PLLSource::HSI16 => {
                    // Enable HSI
                    RCC.cr().write(|w| w.set_hsi16on(true));
                    while !RCC.cr().read().hsi16rdyf() {}
                    HSI_FREQ.0
                }
            };

            // Disable PLL
            RCC.cr().modify(|w| w.set_pllon(false));
            while RCC.cr().read().pllrdy() {}

            let freq = match mul {
                PLLMul::Mul3 => freq * 3,
                PLLMul::Mul4 => freq * 4,
                PLLMul::Mul6 => freq * 6,
                PLLMul::Mul8 => freq * 8,
                PLLMul::Mul12 => freq * 12,
                PLLMul::Mul16 => freq * 16,
                PLLMul::Mul24 => freq * 24,
                PLLMul::Mul32 => freq * 32,
                PLLMul::Mul48 => freq * 48,
            };

            let freq = match div {
                PLLDiv::Div2 => freq / 2,
                PLLDiv::Div3 => freq / 3,
                PLLDiv::Div4 => freq / 4,
            };
            assert!(freq <= 32_000_000);

            RCC.cfgr().write(move |w| {
                w.set_pllmul(mul.into());
                w.set_plldiv(div.into());
                w.set_pllsrc(src.into());
            });

            // Enable PLL
            RCC.cr().modify(|w| w.set_pllon(true));
            while !RCC.cr().read().pllrdy() {}

            (freq, Sw::PLL)
        }
    };

    RCC.cfgr().modify(|w| {
        w.set_sw(sw);
        w.set_hpre(config.ahb_pre.into());
        w.set_ppre1(config.apb1_pre.into());
        w.set_ppre2(config.apb2_pre.into());
    });

    let ahb_freq: u32 = match config.ahb_pre {
        AHBPrescaler::NotDivided => sys_clk,
        pre => {
            let pre: Hpre = pre.into();
            let pre = 1 << (pre.0 as u32 - 7);
            sys_clk / pre
        }
    };

    let (apb1_freq, apb1_tim_freq) = match config.apb1_pre {
        APBPrescaler::NotDivided => (ahb_freq, ahb_freq),
        pre => {
            let pre: Ppre = pre.into();
            let pre: u8 = 1 << (pre.0 - 3);
            let freq = ahb_freq / pre as u32;
            (freq, freq * 2)
        }
    };

    let (apb2_freq, apb2_tim_freq) = match config.apb2_pre {
        APBPrescaler::NotDivided => (ahb_freq, ahb_freq),
        pre => {
            let pre: Ppre = pre.into();
            let pre: u8 = 1 << (pre.0 - 3);
            let freq = ahb_freq / pre as u32;
            (freq, freq * 2)
        }
    };

    #[cfg(crs)]
    if config.enable_hsi48 {
        // Reset SYSCFG peripheral
        RCC.apb2rstr().modify(|w| w.set_syscfgrst(true));
        RCC.apb2rstr().modify(|w| w.set_syscfgrst(false));

        // Enable SYSCFG peripheral
        RCC.apb2enr().modify(|w| w.set_syscfgen(true));

        // Reset CRS peripheral
        RCC.apb1rstr().modify(|w| w.set_crsrst(true));
        RCC.apb1rstr().modify(|w| w.set_crsrst(false));

        // Enable CRS peripheral
        RCC.apb1enr().modify(|w| w.set_crsen(true));

        // Initialize CRS
        CRS.cfgr().write(|w|

        // Select LSE as synchronization source
        w.set_syncsrc(0b01));
        CRS.cr().modify(|w| {
            w.set_autotrimen(true);
            w.set_cen(true);
        });

        // Enable VREFINT reference for HSI48 oscillator
        SYSCFG.cfgr3().modify(|w| {
            w.set_enref_hsi48(true);
            w.set_en_vrefint(true);
        });

        // Select HSI48 as USB clock
        RCC.ccipr().modify(|w| w.set_hsi48msel(true));

        // Enable dedicated USB clock
        RCC.crrcr().modify(|w| w.set_hsi48on(true));
        while !RCC.crrcr().read().hsi48rdy() {}
    }

    set_freqs(Clocks {
        sys: Hertz(sys_clk),
        ahb1: Hertz(ahb_freq),
        apb1: Hertz(apb1_freq),
        apb2: Hertz(apb2_freq),
        apb1_tim: Hertz(apb1_tim_freq),
        apb2_tim: Hertz(apb2_tim_freq),
    });
}
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`use crate::pac::rcc::vals::{Hpre, Msirange, Plldiv, Pllmul, Pllsrc, Ppre, Sw};`
stm32/rcc: fix build on l0 chips without CRS 2022-02-24 05:57:17 +01:00			`use crate::pac::RCC;`
			`#[cfg(crs)]`
			`use crate::pac::{CRS, SYSCFG};`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`use crate::rcc::{set_freqs, Clocks};`
embassy-stm32: Simplify time - Remove unused `MilliSeconds`, `MicroSeconds`, and `NanoSeconds` types - Remove `Bps`, `KiloHertz`, and `MegaHertz` types that were only used for converting to `Hertz` - Replace all instances of `impl Into<Hertz>` with `Hertz` - Add `hz`, `khz`, and `mhz` methods to `Hertz`, as well as free function shortcuts - Remove `U32Ext` extension trait 2022-07-11 00:36:10 +02:00			`use crate::time::Hertz;`
Add stm32l0 2021-05-25 13:32:10 +02:00
Refactor IWDG to use LSI frequency from RCC 2022-07-10 19:59:36 +02:00			`/// HSI speed`
			`pub const HSI_FREQ: Hertz = Hertz(16_000_000);`

			`/// LSI speed`
			`pub const LSI_FREQ: Hertz = Hertz(32_000);`
Add Clock type per RCC family 2021-06-11 17:45:07 +02:00
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00			`/// System clock mux source`
			`#[derive(Clone, Copy)]`
			`pub enum ClockSrc {`
			`MSI(MSIRange),`
			`PLL(PLLSource, PLLMul, PLLDiv),`
			`HSE(Hertz),`
			`HSI16,`
			`}`

Remove common clock types Different STM32 RCC peripherals have different capabilities and register values. Define types for each RCC types inside each module to ensure full range of capabilities for each family can be used 2021-11-28 16:46:08 +01:00			`/// 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`
			`}`
			`}`

			`/// PLL divider`
			`#[derive(Clone, Copy)]`
			`pub enum PLLDiv {`
			`Div2,`
			`Div3,`
			`Div4,`
			`}`

			`/// PLL multiplier`
			`#[derive(Clone, Copy)]`
			`pub enum PLLMul {`
			`Mul3,`
			`Mul4,`
			`Mul6,`
			`Mul8,`
			`Mul12,`
			`Mul16,`
			`Mul24,`
			`Mul32,`
			`Mul48,`
			`}`

			`/// 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,`
			`}`

			`/// PLL clock input source`
			`#[derive(Clone, Copy)]`
			`pub enum PLLSource {`
			`HSI16,`
			`HSE(Hertz),`
			`}`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`impl From<PLLMul> for Pllmul {`
			`fn from(val: PLLMul) -> Pllmul {`
			`match val {`
Simplify 2021-05-26 13:29:11 +02:00			`PLLMul::Mul3 => Pllmul::MUL3,`
			`PLLMul::Mul4 => Pllmul::MUL4,`
			`PLLMul::Mul6 => Pllmul::MUL6,`
			`PLLMul::Mul8 => Pllmul::MUL8,`
			`PLLMul::Mul12 => Pllmul::MUL12,`
			`PLLMul::Mul16 => Pllmul::MUL16,`
			`PLLMul::Mul24 => Pllmul::MUL24,`
			`PLLMul::Mul32 => Pllmul::MUL32,`
			`PLLMul::Mul48 => Pllmul::MUL48,`
			`}`
			`}`
			`}`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`impl From<PLLDiv> for Plldiv {`
			`fn from(val: PLLDiv) -> Plldiv {`
			`match val {`
Simplify 2021-05-26 13:29:11 +02:00			`PLLDiv::Div2 => Plldiv::DIV2,`
			`PLLDiv::Div3 => Plldiv::DIV3,`
			`PLLDiv::Div4 => Plldiv::DIV4,`
			`}`
			`}`
			`}`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`impl From<PLLSource> for Pllsrc {`
			`fn from(val: PLLSource) -> Pllsrc {`
			`match val {`
Simplify 2021-05-26 13:29:11 +02:00			`PLLSource::HSI16 => Pllsrc::HSI16,`
			`PLLSource::HSE(_) => Pllsrc::HSE,`
			`}`
			`}`
			`}`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`impl From<APBPrescaler> for Ppre {`
			`fn from(val: APBPrescaler) -> Ppre {`
			`match val {`
Simplify 2021-05-26 13:29:11 +02:00			`APBPrescaler::NotDivided => Ppre::DIV1,`
			`APBPrescaler::Div2 => Ppre::DIV2,`
			`APBPrescaler::Div4 => Ppre::DIV4,`
			`APBPrescaler::Div8 => Ppre::DIV8,`
			`APBPrescaler::Div16 => Ppre::DIV16,`
			`}`
			`}`
			`}`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`impl From<AHBPrescaler> for Hpre {`
			`fn from(val: AHBPrescaler) -> Hpre {`
			`match val {`
Simplify 2021-05-26 13:29:11 +02:00			`AHBPrescaler::NotDivided => Hpre::DIV1,`
			`AHBPrescaler::Div2 => Hpre::DIV2,`
			`AHBPrescaler::Div4 => Hpre::DIV4,`
			`AHBPrescaler::Div8 => Hpre::DIV8,`
			`AHBPrescaler::Div16 => Hpre::DIV16,`
			`AHBPrescaler::Div64 => Hpre::DIV64,`
			`AHBPrescaler::Div128 => Hpre::DIV128,`
			`AHBPrescaler::Div256 => Hpre::DIV256,`
			`AHBPrescaler::Div512 => Hpre::DIV512,`
			`}`
			`}`
			`}`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`impl From<MSIRange> for Msirange {`
			`fn from(val: MSIRange) -> Msirange {`
			`match val {`
Simplify 2021-05-26 13:29:11 +02:00			`MSIRange::Range0 => Msirange::RANGE0,`
			`MSIRange::Range1 => Msirange::RANGE1,`
			`MSIRange::Range2 => Msirange::RANGE2,`
			`MSIRange::Range3 => Msirange::RANGE3,`
			`MSIRange::Range4 => Msirange::RANGE4,`
			`MSIRange::Range5 => Msirange::RANGE5,`
			`MSIRange::Range6 => Msirange::RANGE6,`
			`}`
			`}`
			`}`

Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00			`/// Clocks configutation`
			`pub struct Config {`
stm32/rcc: remove builders on Config. This makes API consistent with other Config structs in Embassy, where the convention is to not use builders. 2022-01-04 11:18:59 +01:00			`pub mux: ClockSrc,`
			`pub ahb_pre: AHBPrescaler,`
			`pub apb1_pre: APBPrescaler,`
			`pub apb2_pre: APBPrescaler,`
stm32/rcc: fix build on l0 chips without CRS 2022-02-24 05:57:17 +01:00			`#[cfg(crs)]`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`pub enable_hsi48: bool,`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00			`}`

			`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,`
stm32/rcc: fix build on l0 chips without CRS 2022-02-24 05:57:17 +01:00			`#[cfg(crs)]`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`enable_hsi48: false,`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00			`}`
			`}`
			`}`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`pub(crate) unsafe fn init(config: Config) {`
			`let (sys_clk, sw) = match config.mux {`
			`ClockSrc::MSI(range) => {`
			`// Set MSI range`
			`RCC.icscr().write(\|w\| w.set_msirange(range.into()));`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Enable MSI`
			`RCC.cr().write(\|w\| w.set_msion(true));`
			`while !RCC.cr().read().msirdy() {}`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`let freq = 32_768 * (1 << (range as u8 + 1));`
			`(freq, Sw::MSI)`
			`}`
			`ClockSrc::HSI16 => {`
			`// Enable HSI16`
			`RCC.cr().write(\|w\| w.set_hsi16on(true));`
			`while !RCC.cr().read().hsi16rdyf() {}`
Add a way to enable more features of the STM32L0 RCC Add ability to enable the hsi48 clock. Code modified from the STM32L0XX hal 2021-06-02 14:28:33 +02:00
Refactor IWDG to use LSI frequency from RCC 2022-07-10 19:59:36 +02:00			`(HSI_FREQ.0, Sw::HSI16)`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`}`
			`ClockSrc::HSE(freq) => {`
			`// Enable HSE`
			`RCC.cr().write(\|w\| w.set_hseon(true));`
			`while !RCC.cr().read().hserdy() {}`
Add a way to enable more features of the STM32L0 RCC Add ability to enable the hsi48 clock. Code modified from the STM32L0XX hal 2021-06-02 14:28:33 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`(freq.0, Sw::HSE)`
			`}`
			`ClockSrc::PLL(src, mul, div) => {`
			`let freq = match src {`
			`PLLSource::HSE(freq) => {`
			`// Enable HSE`
			`RCC.cr().write(\|w\| w.set_hseon(true));`
			`while !RCC.cr().read().hserdy() {}`
			`freq.0`
			`}`
			`PLLSource::HSI16 => {`
			`// Enable HSI`
			`RCC.cr().write(\|w\| w.set_hsi16on(true));`
			`while !RCC.cr().read().hsi16rdyf() {}`
Refactor IWDG to use LSI frequency from RCC 2022-07-10 19:59:36 +02:00			`HSI_FREQ.0`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`}`
			`};`

			`// Disable PLL`
			`RCC.cr().modify(\|w\| w.set_pllon(false));`
			`while RCC.cr().read().pllrdy() {}`

			`let freq = match mul {`
			`PLLMul::Mul3 => freq * 3,`
			`PLLMul::Mul4 => freq * 4,`
			`PLLMul::Mul6 => freq * 6,`
			`PLLMul::Mul8 => freq * 8,`
			`PLLMul::Mul12 => freq * 12,`
			`PLLMul::Mul16 => freq * 16,`
			`PLLMul::Mul24 => freq * 24,`
			`PLLMul::Mul32 => freq * 32,`
			`PLLMul::Mul48 => freq * 48,`
			`};`

			`let freq = match div {`
			`PLLDiv::Div2 => freq / 2,`
			`PLLDiv::Div3 => freq / 3,`
			`PLLDiv::Div4 => freq / 4,`
			`};`
embassy-stm32: Simplify time - Remove unused `MilliSeconds`, `MicroSeconds`, and `NanoSeconds` types - Remove `Bps`, `KiloHertz`, and `MegaHertz` types that were only used for converting to `Hertz` - Replace all instances of `impl Into<Hertz>` with `Hertz` - Add `hz`, `khz`, and `mhz` methods to `Hertz`, as well as free function shortcuts - Remove `U32Ext` extension trait 2022-07-11 00:36:10 +02:00			`assert!(freq <= 32_000_000);`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00
			`RCC.cfgr().write(move \|w\| {`
			`w.set_pllmul(mul.into());`
			`w.set_plldiv(div.into());`
			`w.set_pllsrc(src.into());`
Add a way to enable more features of the STM32L0 RCC Add ability to enable the hsi48 clock. Code modified from the STM32L0XX hal 2021-06-02 14:28:33 +02:00			`});`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Enable PLL`
			`RCC.cr().modify(\|w\| w.set_pllon(true));`
			`while !RCC.cr().read().pllrdy() {}`
Add a way to enable more features of the STM32L0 RCC Add ability to enable the hsi48 clock. Code modified from the STM32L0XX hal 2021-06-02 14:28:33 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`(freq, Sw::PLL)`
Add a way to enable more features of the STM32L0 RCC Add ability to enable the hsi48 clock. Code modified from the STM32L0XX hal 2021-06-02 14:28:33 +02:00			`}`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`};`

			`RCC.cfgr().modify(\|w\| {`
			`w.set_sw(sw);`
			`w.set_hpre(config.ahb_pre.into());`
			`w.set_ppre1(config.apb1_pre.into());`
			`w.set_ppre2(config.apb2_pre.into());`
			`});`

			`let ahb_freq: u32 = match config.ahb_pre {`
			`AHBPrescaler::NotDivided => sys_clk,`
			`pre => {`
			`let pre: Hpre = pre.into();`
			`let pre = 1 << (pre.0 as u32 - 7);`
			`sys_clk / pre`
			`}`
			`};`

			`let (apb1_freq, apb1_tim_freq) = match config.apb1_pre {`
			`APBPrescaler::NotDivided => (ahb_freq, ahb_freq),`
			`pre => {`
			`let pre: Ppre = pre.into();`
			`let pre: u8 = 1 << (pre.0 - 3);`
			`let freq = ahb_freq / pre as u32;`
			`(freq, freq * 2)`
			`}`
			`};`

			`let (apb2_freq, apb2_tim_freq) = match config.apb2_pre {`
			`APBPrescaler::NotDivided => (ahb_freq, ahb_freq),`
			`pre => {`
			`let pre: Ppre = pre.into();`
			`let pre: u8 = 1 << (pre.0 - 3);`
Fix APB clock calculation for several STM32 families 2023-03-17 04:21:39 +01:00			`let freq = ahb_freq / pre as u32;`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`(freq, freq * 2)`
			`}`
			`};`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: fix build on l0 chips without CRS 2022-02-24 05:57:17 +01:00			`#[cfg(crs)]`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`if config.enable_hsi48 {`
			`// Reset SYSCFG peripheral`
			`RCC.apb2rstr().modify(\|w\| w.set_syscfgrst(true));`
			`RCC.apb2rstr().modify(\|w\| w.set_syscfgrst(false));`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Enable SYSCFG peripheral`
			`RCC.apb2enr().modify(\|w\| w.set_syscfgen(true));`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Reset CRS peripheral`
			`RCC.apb1rstr().modify(\|w\| w.set_crsrst(true));`
			`RCC.apb1rstr().modify(\|w\| w.set_crsrst(false));`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Enable CRS peripheral`
			`RCC.apb1enr().modify(\|w\| w.set_crsen(true));`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Initialize CRS`
			`CRS.cfgr().write(\|w\|`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Select LSE as synchronization source`
			`w.set_syncsrc(0b01));`
			`CRS.cr().modify(\|w\| {`
			`w.set_autotrimen(true);`
			`w.set_cen(true);`
			`});`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Enable VREFINT reference for HSI48 oscillator`
			`SYSCFG.cfgr3().modify(\|w\| {`
			`w.set_enref_hsi48(true);`
			`w.set_en_vrefint(true);`
			`});`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Select HSI48 as USB clock`
			`RCC.ccipr().modify(\|w\| w.set_hsi48msel(true));`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`// Enable dedicated USB clock`
			`RCC.crrcr().modify(\|w\| w.set_hsi48on(true));`
			`while !RCC.crrcr().read().hsi48rdy() {}`
Enable clock by default for stm32l0 Modify init function to return a Clock instance defined by a per-chip SystemClock type and use this in macro setup A proof of concept implementation for STM32 L0 chips. This allows using embassy::main macros for STM32 devices that have the clock setup logic. 2021-05-25 17:09:01 +02:00			`}`

stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`set_freqs(Clocks {`
embassy-stm32: Simplify time - Remove unused `MilliSeconds`, `MicroSeconds`, and `NanoSeconds` types - Remove `Bps`, `KiloHertz`, and `MegaHertz` types that were only used for converting to `Hertz` - Replace all instances of `impl Into<Hertz>` with `Hertz` - Add `hz`, `khz`, and `mhz` methods to `Hertz`, as well as free function shortcuts - Remove `U32Ext` extension trait 2022-07-11 00:36:10 +02:00			`sys: Hertz(sys_clk),`
			`ahb1: Hertz(ahb_freq),`
			`apb1: Hertz(apb1_freq),`
			`apb2: Hertz(apb2_freq),`
			`apb1_tim: Hertz(apb1_tim_freq),`
			`apb2_tim: Hertz(apb2_tim_freq),`
stm32/rcc: remove Rcc struct, RccExt trait. All the RCC configuration is executed in init(). 2022-01-04 23:58:13 +01:00			`});`
Add stm32l0 2021-05-25 13:32:10 +02:00			`}`