thermostat/src/main.rs

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#![no_std]
#![no_main]
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#![feature(maybe_uninit_extra, maybe_uninit_ref)]
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// TODO: #![deny(warnings, unused)]
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#[cfg(not(feature = "semihosting"))]
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use panic_abort as _;
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#[cfg(feature = "semihosting")]
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use panic_semihosting as _;
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use log::{info, warn};
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use core::ops::DerefMut;
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use core::fmt::Write;
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use cortex_m::asm::wfi;
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use cortex_m_rt::entry;
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use stm32f4xx_hal::{
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hal::{
self,
watchdog::{WatchdogEnable, Watchdog},
},
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rcc::RccExt,
watchdog::IndependentWatchdog,
time::{U32Ext, MegaHertz},
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stm32::{CorePeripherals, Peripherals},
};
use smoltcp::{
time::Instant,
wire::EthernetAddress,
};
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use uom::{
fmt::DisplayStyle::Abbreviation,
si::{
f64::{
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ElectricCurrent,
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ElectricPotential,
ElectricalResistance,
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ThermodynamicTemperature,
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},
electric_current::ampere,
electric_potential::volt,
electrical_resistance::ohm,
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thermodynamic_temperature::degree_celsius,
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},
};
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mod init_log;
use init_log::init_log;
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mod usb;
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mod leds;
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mod pins;
use pins::Pins;
mod ad7172;
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mod ad5680;
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mod net;
mod server;
use server::Server;
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mod session;
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use session::{Session, SessionOutput};
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mod command_parser;
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use command_parser::{Command, ShowCommand, PwmPin};
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mod timer;
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mod pid;
mod steinhart_hart;
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mod channels;
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use channels::{CHANNELS, Channels};
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mod channel;
mod channel_state;
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const HSE: MegaHertz = MegaHertz(8);
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#[cfg(not(feature = "semihosting"))]
const WATCHDOG_INTERVAL: u32 = 1_000;
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#[cfg(feature = "semihosting")]
const WATCHDOG_INTERVAL: u32 = 30_000;
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#[cfg(not(feature = "generate-hwaddr"))]
const NET_HWADDR: [u8; 6] = [0x02, 0x00, 0xDE, 0xAD, 0xBE, 0xEF];
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const TCP_PORT: u16 = 23;
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/// Initialization and main loop
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#[entry]
fn main() -> ! {
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init_log();
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info!("tecpak");
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let mut cp = CorePeripherals::take().unwrap();
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cp.SCB.enable_icache();
cp.SCB.enable_dcache(&mut cp.CPUID);
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let dp = Peripherals::take().unwrap();
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let clocks = dp.RCC.constrain()
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.cfgr
.use_hse(HSE)
.sysclk(168.mhz())
.hclk(168.mhz())
.pclk1(32.mhz())
.pclk2(64.mhz())
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.freeze();
let mut wd = IndependentWatchdog::new(dp.IWDG);
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wd.start(WATCHDOG_INTERVAL.ms());
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wd.feed();
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timer::setup(cp.SYST, clocks);
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let (pins, mut leds, eth_pins, usb) = Pins::setup(
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clocks, dp.TIM1, dp.TIM3,
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dp.GPIOA, dp.GPIOB, dp.GPIOC, dp.GPIOD, dp.GPIOE, dp.GPIOF, dp.GPIOG,
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dp.SPI2, dp.SPI4, dp.SPI5,
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dp.ADC1,
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dp.OTG_FS_GLOBAL,
dp.OTG_FS_DEVICE,
dp.OTG_FS_PWRCLK,
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);
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leds.r1.on();
leds.g3.off();
leds.g4.off();
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usb::State::setup(usb);
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let mut channels = Channels::new(pins);
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#[cfg(not(feature = "generate-hwaddr"))]
let hwaddr = EthernetAddress(NET_HWADDR);
#[cfg(feature = "generate-hwaddr")]
let hwaddr = {
let uid = stm32f4xx_hal::signature::Uid::get();
EthernetAddress(hash2hwaddr::generate_hwaddr(uid))
};
info!("Net hwaddr: {}", hwaddr);
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net::run(clocks, dp.ETHERNET_MAC, dp.ETHERNET_DMA, eth_pins, hwaddr, |iface| {
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Server::<Session>::run(iface, |server| {
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leds.r1.off();
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loop {
let instant = Instant::from_millis(i64::from(timer::now()));
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let updated_channel = channels.poll_adc(instant);
if let Some(channel) = updated_channel {
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server.for_each(|_, session| session.set_report_pending(channel.into()));
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}
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let instant = Instant::from_millis(i64::from(timer::now()));
cortex_m::interrupt::free(net::clear_pending);
server.poll(instant)
.unwrap_or_else(|e| {
warn!("poll: {:?}", e);
});
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// TCP protocol handling
server.for_each(|mut socket, session| {
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if ! socket.is_active() {
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let _ = socket.listen(TCP_PORT);
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session.reset();
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} else if socket.can_send() && socket.can_recv() && socket.send_capacity() - socket.send_queue() > 1024 {
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match socket.recv(|buf| session.feed(buf)) {
Ok(SessionOutput::Nothing) => {}
Ok(SessionOutput::Command(command)) => match command {
Command::Quit =>
socket.close(),
Command::Reporting(reporting) => {
let _ = writeln!(socket, "report={}", if reporting { "on" } else { "off" });
}
Command::Show(ShowCommand::Reporting) => {
let _ = writeln!(socket, "report={}", if session.reporting() { "on" } else { "off" });
}
Command::Show(ShowCommand::Input) => {
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for channel in 0..CHANNELS {
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if let Some(adc_input) = channels.channel_state(channel).get_adc() {
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let vref = channels.read_vref(channel);
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let dac_feedback = channels.read_dac_feedback(channel);
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let itec = channels.read_itec(channel);
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let tec_i = -(itec - ElectricPotential::new::<volt>(1.5)) / ElectricalResistance::new::<ohm>(0.4);
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let tec_u_meas = channels.read_tec_u_meas(channel);
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let state = channels.channel_state(channel);
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let _ = writeln!(
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socket, "channel {}: t={} adc{}={} adc_r={} vref={} dac_feedback={} itec={} tec={} tec_u_meas={} r={:03}",
channel, state.adc_time,
channel, adc_input.into_format_args(volt, Abbreviation),
state.get_sens().unwrap().into_format_args(ohm, Abbreviation),
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vref.into_format_args(volt, Abbreviation), dac_feedback.into_format_args(volt, Abbreviation),
itec.into_format_args(volt, Abbreviation), tec_i.into_format_args(ampere, Abbreviation),
tec_u_meas.into_format_args(volt, Abbreviation),
(tec_u_meas / tec_i).into_format_args(ohm, Abbreviation),
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);
} else {
let _ = writeln!(socket, "channel {}: no adc input", channel);
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}
}
}
Command::Show(ShowCommand::Pid) => {
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for channel in 0..CHANNELS {
let state = channels.channel_state(channel);
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let _ = writeln!(socket, "PID settings for channel {}", channel);
let pid = &state.pid;
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let _ = writeln!(socket, "- target={:.4}", pid.target);
macro_rules! show_pid_parameter {
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($p: tt) => {
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let _ = writeln!(
socket, "- {}={:.4}",
stringify!($p), pid.parameters.$p
);
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};
}
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show_pid_parameter!(kp);
show_pid_parameter!(ki);
show_pid_parameter!(kd);
show_pid_parameter!(integral_min);
show_pid_parameter!(integral_max);
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show_pid_parameter!(output_min);
show_pid_parameter!(output_max);
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if let Some(last_output) = pid.last_output {
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let _ = writeln!(socket, "- last_output={:.4}", last_output);
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}
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let _ = writeln!(socket, "");
}
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}
Command::Show(ShowCommand::Pwm) => {
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for channel in 0..CHANNELS {
let state = channels.channel_state(channel);
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let _ = writeln!(
socket, "channel {}: PID={}",
channel,
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if state.pid_engaged { "engaged" } else { "disengaged" }
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);
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let _ = writeln!(socket, "- i_set={:.3}", state.dac_value.into_format_args(volt, Abbreviation));
let max_v = channels.get_max_v(channel);
let _ = writeln!(
socket, "- max_v={:.3} / {:.3}",
max_v.0.into_format_args(volt, Abbreviation),
max_v.1.into_format_args(volt, Abbreviation),
);
let max_i_pos = channels.get_max_i_pos(channel);
let _ = writeln!(
socket, "- max_i_pos={:.3} / {:.3}",
max_i_pos.0.into_format_args(ampere, Abbreviation),
max_i_pos.1.into_format_args(ampere, Abbreviation),
);
let max_i_neg = channels.get_max_i_neg(channel);
let _ = writeln!(
socket, "- max_i_neg={:.3} / {:.3}",
max_i_neg.0.into_format_args(ampere, Abbreviation),
max_i_neg.1.into_format_args(ampere, Abbreviation),
);
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}
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let _ = writeln!(socket, "");
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}
Command::Show(ShowCommand::SteinhartHart) => {
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for channel in 0..CHANNELS {
let state = channels.channel_state(channel);
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let _ = writeln!(
socket, "channel {}: Steinhart-Hart equation parameters",
channel,
);
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let _ = writeln!(socket, "- t0={}", state.sh.t0.into_format_args(degree_celsius, Abbreviation));
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let _ = writeln!(socket, "- b={}", state.sh.b);
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let _ = writeln!(socket, "- r0={}", state.sh.r0.into_format_args(ohm, Abbreviation));
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match (state.get_adc(), state.get_sens(), state.get_temperature()) {
(Some(adc), Some(sens), Some(temp)) => {
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let _ = writeln!(
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socket, "- adc={} r={} temp={:.3}K",
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adc.into_format_args(volt, Abbreviation),
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sens.into_format_args(ohm, Abbreviation),
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temp.into_format_args(degree_celsius, Abbreviation),
);
}
_ => {}
}
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let _ = writeln!(socket, "");
}
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}
Command::Show(ShowCommand::PostFilter) => {
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for channel in 0..CHANNELS {
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match channels.adc.get_postfilter(channel as u8).unwrap() {
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Some(filter) => {
let _ = writeln!(
socket, "channel {}: postfilter={:.2} SPS",
channel, filter.output_rate().unwrap()
);
}
None => {
let _ = writeln!(
socket, "channel {}: no postfilter",
channel
);
}
}
}
}
Command::PwmPid { channel } => {
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channels.channel_state(channel).pid_engaged = true;
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leds.g3.on();
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let _ = writeln!(socket, "channel {}: PID enabled to control PWM", channel
);
}
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Command::Pwm { channel, pin: PwmPin::ISet, value } => {
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channels.channel_state(channel).pid_engaged = false;
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leds.g3.off();
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let voltage = ElectricPotential::new::<volt>(value);
let (voltage, max) = channels.set_dac(channel, voltage);
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let _ = writeln!(
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socket, "channel {}: i_set DAC output set to {:.3} / {:.3}",
channel,
voltage.into_format_args(volt, Abbreviation),
max.into_format_args(volt, Abbreviation),
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);
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}
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Command::Pwm { channel, pin, value } => {
match pin {
PwmPin::ISet =>
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// Handled above
unreachable!(),
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PwmPin::MaxV => {
let voltage = ElectricPotential::new::<volt>(value);
let (voltage, max) = channels.set_max_v(channel, voltage);
let _ = writeln!(
socket, "channel {:.3}: max_v set to {:.3} / {:.3}",
channel,
voltage.into_format_args(volt, Abbreviation),
max.into_format_args(volt, Abbreviation),
);
}
PwmPin::MaxIPos => {
let current = ElectricCurrent::new::<ampere>(value);
let (current, max) = channels.set_max_i_pos(channel, current);
let _ = writeln!(
socket, "channel {:.3}: max_i_pos set to {:.3} / {:.3}",
channel,
current.into_format_args(ampere, Abbreviation),
max.into_format_args(ampere, Abbreviation),
);
}
PwmPin::MaxINeg => {
let current = ElectricCurrent::new::<ampere>(value);
let (current, max) = channels.set_max_i_neg(channel, current);
let _ = writeln!(
socket, "channel {:.3}: max_i_neg set to {:.3} / {:.3}",
channel,
current.into_format_args(ampere, Abbreviation),
max.into_format_args(ampere, Abbreviation),
);
}
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_ =>
unreachable!(),
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}
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}
Command::Pid { channel, parameter, value } => {
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let pid = &mut channels.channel_state(channel).pid;
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use command_parser::PidParameter::*;
match parameter {
Target =>
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pid.target = value,
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KP =>
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pid.parameters.kp = value,
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KI =>
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pid.parameters.ki = value,
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KD =>
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pid.parameters.kd = value,
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OutputMin =>
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pid.parameters.output_min = value,
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OutputMax =>
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pid.parameters.output_max = value,
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IntegralMin =>
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pid.parameters.integral_min = value,
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IntegralMax =>
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pid.parameters.integral_max = value,
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}
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// TODO: really reset PID state
// after each parameter change?
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pid.reset();
let _ = writeln!(socket, "PID parameter updated");
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}
Command::SteinhartHart { channel, parameter, value } => {
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let sh = &mut channels.channel_state(channel).sh;
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use command_parser::ShParameter::*;
match parameter {
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T0 => sh.t0 = ThermodynamicTemperature::new::<degree_celsius>(value),
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B => sh.b = value,
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R0 => sh.r0 = ElectricalResistance::new::<ohm>(value),
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}
let _ = writeln!(socket, "Steinhart-Hart equation parameter updated");
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}
Command::PostFilter { channel, rate } => {
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let filter = ad7172::PostFilter::closest(rate);
match filter {
Some(filter) => {
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channels.adc.set_postfilter(channel as u8, Some(filter)).unwrap();
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let _ = writeln!(
socket, "channel {}: postfilter set to {:.2} SPS",
channel, filter.output_rate().unwrap()
);
}
None => {
let _ = writeln!(socket, "Unable to choose postfilter");
}
}
}
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}
Ok(SessionOutput::Error(e)) => {
let _ = writeln!(socket, "Command error: {:?}", e);
}
Err(_) =>
socket.close(),
}
} else if socket.can_send() && socket.send_capacity() - socket.send_queue() > 256 {
while let Some(channel) = session.is_report_pending() {
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let state = &mut channels.channel_state(usize::from(channel));
let adc_data = state.adc_data.unwrap_or(0);
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let _ = writeln!(
socket, "t={} raw{}=0x{:06X} value={}",
state.adc_time, channel, adc_data,
state.get_adc().unwrap().into_format_args(volt, Abbreviation),
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).map(|_| {
session.mark_report_sent(channel);
});
}
}
});
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// Update watchdog
wd.feed();
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leds.g4.off();
cortex_m::interrupt::free(|cs| {
if !net::is_pending(cs) {
// Wait for interrupts
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// (Ethernet, SysTick, or USB)
wfi();
}
});
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leds.g4.on();
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}
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});
});
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unreachable!()
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}