PlantCtrl/rust/src/main.rs

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Rust
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use std::{fs::File, io::Write};
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use chrono::{Datelike, Timelike, NaiveDateTime};
use chrono_tz::Europe::Berlin;
use esp_idf_hal::delay::Delay;
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use esp_idf_svc::http::server::EspHttpServer;
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use plant_hal::{PlantCtrlBoardInteraction, PlantHal, CreatePlantHal, PLANT_COUNT};
use anyhow::{Context, Result};
use webserver::webserver::httpd;
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pub mod plant_hal;
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mod config;
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mod webserver {
pub mod webserver;
}
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fn main() -> Result<()>{
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// It is necessary to call this function once. Otherwise some patches to the runtime
// implemented by esp-idf-sys might not link properly. See https://github.com/esp-rs/esp-idf-template/issues/71
esp_idf_svc::sys::link_patches();
// Bind the log crate to the ESP Logging facilities
esp_idf_svc::log::EspLogger::initialize_default();
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log::info!("Startup Rust");
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let git_hash = env!("VERGEN_GIT_DESCRIBE");
println!("Version useing git has {}", git_hash);
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let mut board = PlantHal::create()?;
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println!("Board hal init");
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let time = board.time();
let mut cur = match time {
Ok(cur) => cur,
Err(err) => {
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log::error!("time error {}", err);
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NaiveDateTime::from_timestamp_millis(0).unwrap().and_utc()
}
};
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//check if we know the time current > 2020
if cur.year() < 2020 {
if board.is_day() {
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//assume TZ safe times ;)
cur = *cur.with_hour(15).get_or_insert(cur);
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} else {
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cur = *cur.with_hour(3).get_or_insert(cur);
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}
}
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println!("cur is {}", cur);
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//continous/interrupt?
//check if boot button is pressed, if longer than 5s delete config and reboot into config mode
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let config = board.get_config();
match config {
Ok(conf) => {
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},
Err(err) => {
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},
}
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// let proceed = config.unwrap();
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//check if we have a config file
// if not found or parsing error -> error very fast blink general fault
//if this happens after a firmeware upgrade (check image state), mark as invalid
//blink general fault error_reading_config_after_upgrade, reboot after
// open accesspoint with webserver for wlan mqtt setup
//blink general fault error_no_config_after_upgrade
//once config is set store it and reboot
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//if proceed.tank_sensor_enabled() {
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//}
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//is tank sensor enabled in config?
//measure tank level (without wifi due to interference)
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//TODO this should be a result// detect invalid measurement value
let tank_value = board.tank_sensor_mv();
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match tank_value {
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Ok(tank_raw) => {
println!("Tank sensor returned {}", tank_raw);
},
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Err(_) => {
//if not possible value, blink general fault error_tank_sensor_fault
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board.general_fault(true);
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//set general fault persistent
//set tank sensor state to fault
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},
}
//measure each plant moisture
let mut initial_measurements_a: [i32;PLANT_COUNT] = [0;PLANT_COUNT];
let mut initial_measurements_b: [i32;PLANT_COUNT] = [0;PLANT_COUNT];
let mut initial_measurements_p: [i32;PLANT_COUNT] = [0;PLANT_COUNT];
for plant in 0..PLANT_COUNT {
initial_measurements_a[plant] = board.measure_moisture_hz(plant, plant_hal::Sensor::A)?;
initial_measurements_b[plant] = board.measure_moisture_hz(plant, plant_hal::Sensor::B)?;
initial_measurements_p[plant] = board.measure_moisture_hz(plant, plant_hal::Sensor::PUMP)?;
}
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match board.wifi("C3MA", Some("chaosimquadrat"), 10000) {
Ok(_) => println!("online mode"),
Err(_) => {
println!("Offline mode");
},
}
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//try connect wifi and do mqtt roundtrip
// if no wifi, set general fault persistent
//if no mqtt, set general fault persistent
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match board.sntp(1000*120) {
Ok(new_time) => cur = new_time,
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Err(err) => {
println!("sntp error: {}", err);
}
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}
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println!("Running logic at utc {}", cur);
let europe_time = cur.with_timezone(&Berlin);
println!("Running logic at europe/berlin {}", europe_time);
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//if config battery mode
//read battery level
//if not possible set general fault persistent, but do continue
//else
//assume 12v and max capacity
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//if tank sensor is enabled
//if tank sensor fault abort if config require is set
//check if water is > minimum allowed || fault
//if not, set all plants requiring water to persistent fault
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//for each plant
//check if moisture is < target
//state += dry
//check if in cooldown
//state += cooldown
//check if consecutive pumps > limit
//state += notworking
//set plant fault persistent
//pump one cycle
// set last pump time to now
//during pump state += active
//after pump check if Pump moisture value is increased by config delta x
// state -= active
// state += cooldown
// if not set plant error persistent fault
// state += notworking
//set consecutive pumps+=1
//check if during light time
//lightstate += out of worktime
//check battery level
//lightstate += battery empty
//check solar level if config requires
//lightstate += stillday
//if no preventing lightstate, enable light
//lightstate = active
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//keep webserver in scope
let webserver = httpd(true);
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let delay = Delay::new_default();
loop {
//let freertos do shit
delay.delay_ms(1001);
}
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return Ok(())
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}
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//error codes
//error_reading_config_after_upgrade
//error_no_config_after_upgrade
//error_tank_sensor_fault