PlantCtrl/rust/src/main.rs

use std::{
    ffi::CString,
    fs::File,
    io::{Read, Write},
    str::from_utf8,
};

use chrono::{Datelike, NaiveDateTime, Timelike};

use anyhow::{Context, Result};
use chrono_tz::Europe::Berlin;
use esp_idf_hal::delay::Delay;
use esp_idf_svc::http::server::EspHttpServer;
use plant_hal::{CreatePlantHal, PlantCtrlBoardInteraction, PlantHal, PLANT_COUNT};
use webserver::webserver::httpd;
mod config;
pub mod plant_hal;
mod webserver {
    pub mod webserver;
}

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);

    
        let mut board = PlantHal::create()?;

        println!("Board hal init");

        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);


        //continous/interrupt?
            //check if boot button is pressed, if longer than 5s delete config and reboot into config mode


        let config = board.get_config();
        match config {
            Ok(conf) => {

            },
            Err(err) => {

            },
        }

    //    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)?;
        }

        //match board.wifi("C3MA", Some("chaosimquadrat"), 10000) {
        //    Ok(_) => println!("online mode"),
        //    Err(_) => {

    //            println!("Offline mode");
            //},
        //}
        //try connect wifi and do mqtt roundtrip
            // if no wifi, set general fault persistent
                //if no mqtt, set general fault persistent
                
    unsafe {
        let base_path = CString::new("/spiffs").unwrap();
        let storage = CString::new("storage").unwrap();

        let conf = esp_idf_sys::esp_vfs_spiffs_conf_t {
            base_path: base_path.as_ptr(),
            partition_label: storage.as_ptr(),
            max_files: 5,
            format_if_mount_failed: true,
        };

        let mount = esp_idf_sys::esp_vfs_spiffs_register(&conf);
        println!("Mount returned {}", mount);
    }
    println!("writing");
    let mut config_file = File::create("/spiffs/config.cfg")?;
    config_file.write_all("test stuff".as_bytes())?;
    config_file.flush()?;
    println!("Reading");
    let mut cfg = File::open("/spiffs/config.cfg")?;
    let mut data: [u8; 512] = [0; 512];
    let read = cfg.read(&mut data)?;
    println!("Read file {}", from_utf8(&data[0..read])?);

    /* 
    match board.sntp(1000 * 120) {
        Ok(new_time) => cur = new_time,
        Err(err) => {
            println!("sntp error: {}", err);
        }
    }
    println!("Running logic at utc {}", cur);
    let europe_time = cur.with_timezone(&Berlin);
    println!("Running logic at europe/berlin {}", europe_time);

    //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);
    }
*/
    return Ok(());
}

//error codes
//error_reading_config_after_upgrade
//error_no_config_after_upgrade
//error_tank_sensor_fault
file write test 2023-12-07 02:33:17 +01:00			`use std::{`
			`ffi::CString,`
			`fs::File,`
			`io::{Read, Write},`
			`str::from_utf8,`
			`};`
adjustments 2023-12-04 00:41:29 +01:00
file write test 2023-12-07 02:33:17 +01:00			`use chrono::{Datelike, NaiveDateTime, Timelike};`
added chrono-tz filter 2023-11-23 22:50:17 +01:00
file write test 2023-12-07 02:33:17 +01:00			`use anyhow::{Context, Result};`
added chrono-tz filter 2023-11-23 22:50:17 +01:00			`use chrono_tz::Europe::Berlin;`
			`use esp_idf_hal::delay::Delay;`
config start 2023-11-29 18:27:40 +01:00			`use esp_idf_svc::http::server::EspHttpServer;`
file write test 2023-12-07 02:33:17 +01:00			`use plant_hal::{CreatePlantHal, PlantCtrlBoardInteraction, PlantHal, PLANT_COUNT};`
added chrono-tz filter 2023-11-23 22:50:17 +01:00			`use webserver::webserver::httpd;`
config start 2023-11-29 18:27:40 +01:00			`mod config;`
file write test 2023-12-07 02:33:17 +01:00			`pub mod plant_hal;`
added chrono-tz filter 2023-11-23 22:50:17 +01:00			`mod webserver {`
			`pub mod webserver;`
			`}`
adjust folder to be shorter 2023-11-20 01:46:19 +01:00
file write test 2023-12-07 02:33:17 +01:00			`fn main() -> Result<()> {`
adjust folder to be shorter 2023-11-20 01:46:19 +01:00			`// 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();`

added chrono-tz filter 2023-11-23 22:50:17 +01:00			`log::info!("Startup Rust");`
adjust folder to be shorter 2023-11-20 01:46:19 +01:00
use vergen 2023-11-27 01:07:07 +01:00			`let git_hash = env!("VERGEN_GIT_DESCRIBE");`
			`println!("Version useing git has {}", git_hash);`
added chrono-tz filter 2023-11-23 22:50:17 +01:00
adjustments 2023-11-21 23:45:15 +01:00
file write test 2023-12-07 02:33:17 +01:00			`let mut board = PlantHal::create()?;`

			`println!("Board hal init");`

			`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);`
			`}`
adjustments 2023-11-21 23:45:15 +01:00			`}`
adjust folder to be shorter 2023-11-20 01:46:19 +01:00
file write test 2023-12-07 02:33:17 +01:00			`println!("cur is {}", cur);`
proceeed further 2023-11-21 01:05:12 +01:00
adjustments 2023-12-04 00:41:29 +01:00

proceeed further 2023-11-21 01:05:12 +01:00
file write test 2023-12-07 02:33:17 +01:00			`//continous/interrupt?`
			`//check if boot button is pressed, if longer than 5s delete config and reboot into config mode`
config start 2023-11-29 18:27:40 +01:00

file write test 2023-12-07 02:33:17 +01:00			`let config = board.get_config();`
			`match config {`
			`Ok(conf) => {`

config start 2023-11-29 18:27:40 +01:00			`},`
file write test 2023-12-07 02:33:17 +01:00			`Err(err) => {`

added chrono-tz filter 2023-11-23 22:50:17 +01:00			`},`
			`}`
adjustments 2023-11-21 23:45:15 +01:00
file write test 2023-12-07 02:33:17 +01:00			`// 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)?;`
			`}`
config start 2023-11-29 18:27:40 +01:00
file write test 2023-12-07 02:33:17 +01:00			`//match board.wifi("C3MA", Some("chaosimquadrat"), 10000) {`
			`// Ok(_) => println!("online mode"),`
			`// Err(_) => {`

			`// println!("Offline mode");`
			`//},`
			`//}`
			`//try connect wifi and do mqtt roundtrip`
			`// if no wifi, set general fault persistent`
			`//if no mqtt, set general fault persistent`

			`unsafe {`
			`let base_path = CString::new("/spiffs").unwrap();`
			`let storage = CString::new("storage").unwrap();`

			`let conf = esp_idf_sys::esp_vfs_spiffs_conf_t {`
			`base_path: base_path.as_ptr(),`
			`partition_label: storage.as_ptr(),`
			`max_files: 5,`
			`format_if_mount_failed: true,`
			`};`

			`let mount = esp_idf_sys::esp_vfs_spiffs_register(&conf);`
			`println!("Mount returned {}", mount);`
config start 2023-11-29 18:27:40 +01:00			`}`
file write test 2023-12-07 02:33:17 +01:00			`println!("writing");`
			`let mut config_file = File::create("/spiffs/config.cfg")?;`
			`config_file.write_all("test stuff".as_bytes())?;`
			`config_file.flush()?;`
			`println!("Reading");`
			`let mut cfg = File::open("/spiffs/config.cfg")?;`
			`let mut data: [u8; 512] = [0; 512];`
			`let read = cfg.read(&mut data)?;`
			`println!("Read file {}", from_utf8(&data[0..read])?);`

			`/*`
			`match board.sntp(1000 * 120) {`
adjustments 2023-11-21 23:45:15 +01:00			`Ok(new_time) => cur = new_time,`
added chrono-tz filter 2023-11-23 22:50:17 +01:00			`Err(err) => {`
			`println!("sntp error: {}", err);`
			`}`
adjustments 2023-11-21 23:45:15 +01:00			`}`
added chrono-tz filter 2023-11-23 22:50:17 +01:00			`println!("Running logic at utc {}", cur);`
			`let europe_time = cur.with_timezone(&Berlin);`
			`println!("Running logic at europe/berlin {}", europe_time);`

proceeed further 2023-11-21 01:05:12 +01:00			`//if config battery mode`
file write test 2023-12-07 02:33:17 +01:00			`//read battery level`
			`//if not possible set general fault persistent, but do continue`
proceeed further 2023-11-21 01:05:12 +01:00			`//else`
file write test 2023-12-07 02:33:17 +01:00			`//assume 12v and max capacity`
design 2023-11-20 02:24:14 +01:00
			`//if tank sensor is enabled`
file write test 2023-12-07 02:33:17 +01:00			`//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`
proceeed further 2023-11-21 01:05:12 +01:00
			`//for each plant`
file write test 2023-12-07 02:33:17 +01:00			`//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`
proceeed further 2023-11-21 01:05:12 +01:00
			`//check if during light time`
file write test 2023-12-07 02:33:17 +01:00			`//lightstate += out of worktime`
proceeed further 2023-11-21 01:05:12 +01:00			`//check battery level`
file write test 2023-12-07 02:33:17 +01:00			`//lightstate += battery empty`
proceeed further 2023-11-21 01:05:12 +01:00			`//check solar level if config requires`
file write test 2023-12-07 02:33:17 +01:00			`//lightstate += stillday`
proceeed further 2023-11-21 01:05:12 +01:00			`//if no preventing lightstate, enable light`
file write test 2023-12-07 02:33:17 +01:00			`//lightstate = active`

			`//keep webserver in scope`
			`let webserver = httpd(true);`
			`let delay = Delay::new_default();`
			`loop {`
			`//let freertos do shit`
			`delay.delay_ms(1001);`
			`}`
			`*/`
			`return Ok(());`
adjust folder to be shorter 2023-11-20 01:46:19 +01:00			`}`
design 2023-11-20 02:24:14 +01:00
			`//error codes`
			`//error_reading_config_after_upgrade`
			`//error_no_config_after_upgrade`
file write test 2023-12-07 02:33:17 +01:00			`//error_tank_sensor_fault`