kirdy/src/main.rs

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Rust
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#![cfg_attr(not(test), no_main)]
#![cfg_attr(not(test), no_std)]
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use cortex_m_rt::entry;
use log::{info, debug};
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use stm32f4xx_hal::pac::{CorePeripherals, Peripherals};
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mod device;
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mod laser_diode;
mod thermostat;
mod pid;
mod net;
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use device::{boot::bootup, log_setup, sys_timer};
use uom::fmt::DisplayStyle::Abbreviation;
use uom::si::electric_potential::volt;
use uom::si::electric_current::{ampere, milliampere};
use uom::si::power::milliwatt;
use uom::si::f64::{ElectricPotential, ElectricCurrent, Power};
use serde::{Serialize, Deserialize};
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// If RTT is used, print panic info through RTT
#[cfg(all(feature = "RTT", not(test)))]
use {core::panic::PanicInfo, rtt_target::rprintln};
#[cfg(all(feature = "RTT", not(test)))]
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#[panic_handler]
fn panic(info: &PanicInfo) -> ! {
rprintln!("{}", info);
loop {}
}
// Otherwise use panic halt
#[cfg(all(not(feature = "RTT"), not(test)))]
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use panic_halt as _;
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use miniconf::{Error, JsonCoreSlash, Tree, TreeKey};
static mut ETH_DATA_BUFFER: [u8; 1024] = [0; 1024];
#[cfg(not(test))]
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#[entry]
fn main() -> ! {
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log_setup::init_log();
info!("Kirdy init");
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let core_perif = CorePeripherals::take().unwrap();
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let perif = Peripherals::take().unwrap();
let (mut wd, mut _flash_store, mut laser, mut thermostat,) = bootup(core_perif, perif);
// Demo Fns for reading and writing stm32 Internal Flash
/*
let key = "test";
info!("Read the Flash Content Stored");
match flash_store.read(key).unwrap() {
Some(val) => {info!("Flash Valued Read: {:?}", val)}
_ => {info!("Key does not match")}
}
info!("Erasing Flash");
flash_store.erase().unwrap();
match flash_store.read(key).unwrap() {
Some(val) => {info!("Flash Valued Read: {:?}", val)}
_ => {info!("Key does not match")}
}
info!("Writing Flash");
let buf = [1, 2, 3, 4];
flash_store.write(key, &buf).unwrap();
info!("Reading Flash");
match flash_store.read(key).unwrap() {
Some(val) => {info!("Val: {:?}", val)}
_ => {info!("Key does not match")}
};
*/
// https://github.com/iliekturtles/uom/blob/master/examples/si.rs
let volt_fmt = ElectricPotential::format_args(volt, Abbreviation);
let amp_fmt = ElectricCurrent::format_args(ampere, Abbreviation);
let mili_amp_fmt = ElectricCurrent::format_args(milliampere, Abbreviation);
let mili_watt_fmt = Power::format_args(milliwatt, Abbreviation);
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loop {
wd.feed();
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info!("looping");
info!("curr_ld_drive_cuurent: {:?}", mili_amp_fmt.with(laser.get_ld_drive_current()));
info!("curr_dac_vfb: {:?}", volt_fmt.with(thermostat.get_dac_vfb()));
info!("curr_vref: {:?}", volt_fmt.with(thermostat.get_vref()));
info!("curr_tec_i: {:?}", amp_fmt.with(thermostat.get_tec_i()));
info!("curr_tec_v: {:?}", volt_fmt.with(thermostat.get_tec_v()));
info!("pd_mon_v: {:?}", volt_fmt.with(laser.pd_mon_status().v));
info!("power_excursion: {:?}", laser.pd_mon_status().pwr_excursion);
info!("Termination Status: {:?}", laser.get_term_status());
let mut eth_is_pending = false;
if net::net::eth_is_socket_active() {
cortex_m::interrupt::free(|cs|
{
eth_is_pending = net::net::is_pending(cs);
}
);
if eth_is_pending {
unsafe{
cortex_m::interrupt::free(|cs| {
net::net::clear_pending(cs);
});
let bytes = net::net::eth_recv(&mut ETH_DATA_BUFFER);
debug!("Number of bytes recv: {:?}", bytes);
laser = net::cmd_handler::execute_cmd(&mut ETH_DATA_BUFFER, bytes, laser);
}
}
}
sys_timer::sleep(500);
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}
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}