Kevin
/
NixieTubeClock


			
				
					
						
						
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							#![cfg_attr(test, allow(unused_imports))]
#![cfg_attr(not(test), no_std)]
#![cfg_attr(not(test), no_main)]
// #![feature(generic_const_exprs)]
#![feature(half_open_range_patterns)]
#![feature(exclusive_range_pattern)]
#![allow(dead_code)]

// custom panic handler
#[cfg(not(test))]
use core::panic::PanicInfo;

use core::{cell::RefCell, ops::DerefMut};
// use cortex_m::asm;
use cortex_m::{interrupt::free, interrupt::Mutex, peripheral::NVIC};
use cortex_m_rt::entry;
// use cortex_m_semihosting::hprintln;
use stm32l4xx_hal::{
    delay::Delay,
    device::I2C1,
    gpio::{Alternate, Edge, Input, OpenDrain, Output, PullUp, PushPull, AF4, PA3, PC15},
    gpio::{State, PA10, PA9},
    i2c::I2c,
    interrupt, pac,
    prelude::*,
    rcc,
    stm32::Interrupt,
};

mod ds3231;
// mod pca9685;
mod tusb322;

static FAULT_INT: Mutex<RefCell<Option<PA3<Input<PullUp>>>>> = Mutex::new(RefCell::new(None));
static FAULT_LED: Mutex<RefCell<Option<PC15<Output<PushPull>>>>> = Mutex::new(RefCell::new(None));
static I2C: Mutex<
    RefCell<
        Option<
            I2c<
                I2C1,
                (
                    PA9<Alternate<AF4, Output<OpenDrain>>>,
                    PA10<Alternate<AF4, Output<OpenDrain>>>,
                ),
            >,
        >,
    >,
> = Mutex::new(RefCell::new(None));

const DS3231_ADDR: u8 = 0x68;
const TUSB322_ADDR: u8 = 0x47;

// NewType wrapper for the
// unsafe fn any_as_u8_slice<T: Sized>(p: &T) -> &[u8] {
//     core::slice::from_raw_parts(
//         (p as *const T) as *const u8,
//         core::mem::size_of::<T>(),
//     )
// }

// pub fn concat<T: Copy + Default, const A: usize, const B: usize>(a: &[T; A], b: &[T; B]) -> [T; A+B] {
//     let mut whole: [T; A+B] = [Default::default(); A+B];
//     let (one, two) = whole.split_at_mut(A);
//     one.copy_from_slice(a);
//     two.copy_from_slice(b);
//     whole
// }

#[cfg(not(test))]
#[entry]
fn main() -> ! {
    // Semihosting only works if debugger is connected.
    // See https://github.com/rust-embedded/cortex-m/issues/289
    // hprintln!("Hello, world!").unwrap();

    // Acquire a singleton instance for the chip's peripherals
    let mut dp = pac::Peripherals::take().unwrap();
    let cp = pac::CorePeripherals::take().unwrap();

    // Consume the raw peripheral and return a new object that implements a higher level API
    let mut flash = dp.FLASH.constrain();
    let mut rcc = dp.RCC.constrain();
    let mut pwr = dp.PWR.constrain(&mut rcc.apb1r1);

    // Configure clocks to run at maximum frequency off internal oscillator
    let clocks = rcc
        .cfgr
        .pll_source(rcc::PllSource::HSI16)
        .sysclk(80.mhz())
        .hclk(80.mhz())
        .pclk1(80.mhz())
        .pclk2(80.mhz())
        .freeze(&mut flash.acr, &mut pwr);

    // Split GPIO peripheral into independent pins and registers
    // let mut gpiob = dp.GPIOB.split(&mut rcc.ahb2);
    let mut gpioa = dp.GPIOA.split(&mut rcc.ahb2);
    let mut gpioc = dp.GPIOC.split(&mut rcc.ahb2);

    // Configure fault LED output on PC15
    let fault_led = gpioc.pc15.into_push_pull_output_with_state(
        &mut gpioc.moder,
        &mut gpioc.otyper,
        State::Low,
    );

    // Store fault LED in global static variable as it is accessed in interrupts
    free(|cs| {
        FAULT_LED.borrow(cs).replace(Some(fault_led));
    });

    // Configure fault input interrupt on PA3
    let mut fault_int = gpioa
        .pa3
        .into_pull_up_input(&mut gpioa.moder, &mut gpioa.pupdr);
    fault_int.make_interrupt_source(&mut dp.SYSCFG, &mut rcc.apb2);
    fault_int.enable_interrupt(&mut dp.EXTI);
    fault_int.trigger_on_edge(&mut dp.EXTI, Edge::FALLING);

    // Sanity check that fault pin isn't already set (active low) before enabling interrupt
    if fault_int.is_high().unwrap() {
        // Configure NVIC mask to enable interrupt source
        unsafe {
            NVIC::unmask(Interrupt::EXTI3);
        }

        // Store fault input in global static variable as it is accessed in interrupt
        free(|cs| {
            FAULT_INT.borrow(cs).replace(Some(fault_int));
        });
    } else {
        panic!();
    }

    // Start with HV PSU disabled (enable pin on PA2)
    let mut _hv_en =
        gpioa
            .pa2
            .into_push_pull_output_with_state(&mut gpioa.moder, &mut gpioa.otyper, State::Low);

    // Configure I2C SCL
    let scl = gpioa
        .pa9
        .into_open_drain_output(&mut gpioa.moder, &mut gpioa.otyper);
    let scl = scl.into_af4(&mut gpioa.moder, &mut gpioa.afrh);

    // Configure I2C SDA
    let sda = gpioa
        .pa10
        .into_open_drain_output(&mut gpioa.moder, &mut gpioa.otyper);
    let sda = sda.into_af4(&mut gpioa.moder, &mut gpioa.afrh);

    // Initialize I2C
    let mut i2c = I2c::i2c1(dp.I2C1, (scl, sda), 100.khz(), clocks, &mut rcc.apb1r1);

    tusb322::init(TUSB322_ADDR, &mut i2c);

    ds3231::init(DS3231_ADDR, &mut i2c);

    free(|cs| {
        I2C.borrow(cs).replace(Some(i2c));
    });

    // Configure abstract timer that operates off systick timer
    let mut timer = Delay::new(cp.SYST, clocks);

    loop {
        timer.delay_ms(1000_u32);
        set_fault_led(State::High);
        timer.delay_ms(1000_u32);
        set_fault_led(State::Low);
    }
}

fn set_fault_led(state: State) {
    free(|cs| {
        let mut led_ref = FAULT_LED.borrow(cs).borrow_mut();
        if let Some(ref mut led) = led_ref.deref_mut() {
            match state {
                State::High => led.set_high().unwrap(),
                State::Low => led.set_low().unwrap(),
            };
        }
    });
}

#[interrupt]
fn EXTI3() {
    free(|cs| {
        let mut nfault_ref = FAULT_INT.borrow(cs).borrow_mut();
        if let Some(ref mut nfault) = nfault_ref.deref_mut() {
            if nfault.check_interrupt() {
                // hprintln!("Fault pin interrupt triggered!").unwrap();
                // nfault.clear_interrupt_pending_bit();
                panic!();
            }
        }
    });
}

#[panic_handler]
#[cfg(not(test))]
/// Custom panic handler
fn panic(_info: &PanicInfo) -> ! {
    // if let Some(location) = info.location() {
    //     hprintln!(
    //         "Panic in file '{}' at line {}",
    //         location.file(),
    //         location.line()
    //     )
    //     .unwrap();
    // } else {
    //     hprintln!("Panic'd!").unwrap();
    // }
    set_fault_led(State::High);
    loop {
        continue;
    }
}