use std::{sync::{Arc, Mutex}, env}; use chrono::{Datelike, NaiveDateTime, Timelike}; use anyhow::Result; use chrono_tz::Europe::Berlin; use esp_idf_hal::delay::Delay; use esp_idf_sys::{esp_restart, vTaskDelay}; use plant_hal::{CreatePlantHal, PlantCtrlBoard, PlantCtrlBoardInteraction, PlantHal, PLANT_COUNT}; use crate::{config::{Config, WifiConfig}, webserver::webserver::httpd_initial}; mod config; pub mod plant_hal; mod webserver { pub mod webserver; } #[derive(PartialEq)] enum OnlineMode { Offline, Wifi, SnTp, Mqtt, MqttRoundtrip } enum WaitType{ InitialConfig, FlashError } fn wait_infinity(board_access: Arc>>, wait_type:WaitType) -> !{ let delay = match wait_type { WaitType::InitialConfig => 250_u32, WaitType::FlashError => 100_u32, }; board_access.lock().unwrap().light(true); loop { unsafe { //do not trigger watchdog for i in 0..7 { board_access.lock().unwrap().fault(i, true); } board_access.lock().unwrap().general_fault(true); vTaskDelay(delay); board_access.lock().unwrap().general_fault(false); for i in 0..7 { board_access.lock().unwrap().fault(i, false); } vTaskDelay(delay); } } } fn main() -> Result<()> { // 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(); log::info!("Startup Rust"); let git_hash = env!("VERGEN_GIT_DESCRIBE"); println!("Version useing git has {}", git_hash); println!("Board hal init"); let board_access = PlantHal::create()?; let mut board = board_access.lock().unwrap(); println!("Mounting filesystem"); board.mountFileSystem()?; let free_space = board.fileSystemSize()?; println!( "Mounted, total space {} used {} free {}", free_space.total_size, free_space.used_size, free_space.free_size ); let time = board.time(); let mut cur = match time { Ok(cur) => cur, Err(err) => { log::error!("time error {}", err); NaiveDateTime::from_timestamp_millis(0).unwrap().and_utc() } }; //check if we know the time current > 2020 if cur.year() < 2020 { if board.is_day() { //assume TZ safe times ;) cur = *cur.with_hour(15).get_or_insert(cur); } else { cur = *cur.with_hour(3).get_or_insert(cur); } } println!("cur is {}", cur); if board.is_config_reset() { println!("Reset config is pressed, waiting 5s"); Delay::new_default().delay_ms(5000); if board.is_config_reset() { println!("Reset config is still pressed, deleting configs and reboot"); match board.remove_configs() { Ok(_) => { println!("Removed config files, restarting"); unsafe { esp_restart(); } } Err(err) => { println!("Could not remove config files, system borked {}", err); //terminate main app and freeze wait_infinity( board_access.clone(), WaitType::FlashError); } } } } let mut online_mode = OnlineMode::Offline; let wifi_conf = board.get_wifi(); let wifi: WifiConfig; match wifi_conf{ Ok(conf) => { wifi = conf; }, Err(err) => { println!("Missing wifi config, entering initial config mode {}", err); board.wifi_ap().unwrap(); //config upload will trigger reboot! drop(board); let _webserver = httpd_initial(board_access.clone()); wait_infinity(board_access.clone(), WaitType::InitialConfig); }, }; // let proceed = config.unwrap(); //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 //if proceed.tank_sensor_enabled() { //} //is tank sensor enabled in config? //measure tank level (without wifi due to interference) //TODO this should be a result// detect invalid measurement value let tank_value = board.tank_sensor_mv(); match tank_value { Ok(tank_raw) => { println!("Tank sensor returned {}", tank_raw); } Err(_) => { //if not possible value, blink general fault error_tank_sensor_fault board.general_fault(true); //set general fault persistent //set tank sensor state to fault } } //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)?; } println!("attempting to connect wifi"); match board.wifi(&wifi.ssid, wifi.password.as_deref(), 10000) { Ok(_) => { online_mode = OnlineMode::Wifi; } Err(_) => { println!("Offline mode"); board.general_fault(true); } } if online_mode == OnlineMode::Wifi { match board.sntp(1000 * 120) { Ok(new_time) => { cur = new_time; online_mode = OnlineMode::SnTp; }, Err(err) => { println!("sntp error: {}", err); board.general_fault(true); } } println!("Running logic at utc {}", cur); let europe_time = cur.with_timezone(&Berlin); println!("Running logic at europe/berlin {}", europe_time); } if online_mode == OnlineMode::SnTp { //mqtt here } if online_mode == OnlineMode::Mqtt { //mqtt roundtrip here } //TODO configmode webserver logic here /* //if config battery mode //read battery level //if not possible set general fault persistent, but do continue //else //assume 12v and max capacity //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 //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 //keep webserver in scope let webserver = httpd(true); let delay = Delay::new_default(); loop { //let freertos do shit delay.delay_ms(1001); } */ //deepsleep here? return Ok(()); } //error codes //error_reading_config_after_upgrade //error_no_config_after_upgrade //error_tank_sensor_fault