more stack for json, more json for mqtt
This commit is contained in:
parent
b57eb2513c
commit
4d92e0c2a6
@ -1,5 +1,5 @@
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# Rust often needs a bit of an extra main task stack size compared to C (the default is 3K)
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CONFIG_ESP_MAIN_TASK_STACK_SIZE=25000
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CONFIG_ESP_MAIN_TASK_STACK_SIZE=50000
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# Use this to set FreeRTOS kernel tick frequency to 1000 Hz (100 Hz by default).
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# This allows to use 1 ms granuality for thread sleeps (10 ms by default).
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282
rust/src/main.rs
282
rust/src/main.rs
@ -46,7 +46,7 @@ mod webserver {
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pub mod webserver;
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}
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#[derive(Serialize, Deserialize, Copy, Clone, Debug, PartialEq)]
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#[derive(Serialize, Deserialize, Debug, PartialEq)]
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enum OnlineMode {
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Offline,
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Wifi,
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@ -54,7 +54,7 @@ enum OnlineMode {
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Online,
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}
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#[derive(Serialize, Deserialize, Copy, Clone, Debug, PartialEq)]
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#[derive(Serialize, Deserialize, Debug, PartialEq)]
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enum WaitType {
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InitialConfig,
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FlashError,
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@ -62,7 +62,7 @@ enum WaitType {
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StayAlive,
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}
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#[derive(Serialize, Deserialize, Copy, Clone, Debug, PartialEq, Default)]
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#[derive(Serialize, Deserialize, Debug, PartialEq, Default)]
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struct LightState {
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active: bool,
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out_of_work_hour: bool,
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@ -70,7 +70,7 @@ struct LightState {
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is_day: bool,
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}
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#[derive(Clone, Copy, Debug, PartialEq, Default)]
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#[derive(Debug, PartialEq, Default)]
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struct PlantState {
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a: Option<u8>,
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b: Option<u8>,
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@ -91,14 +91,14 @@ struct PlantState {
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next_pump: Option<DateTime<Tz>>,
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}
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#[derive(Serialize, Deserialize, Copy, Clone, Debug, PartialEq)]
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#[derive(Serialize, Deserialize, Debug, PartialEq)]
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enum SensorError {
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Unknown,
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ShortCircuit { hz: f32, max: f32 },
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OpenCircuit { hz: f32, min: f32 },
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}
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#[derive(Copy, Clone, Debug, PartialEq, Default)]
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#[derive(Debug, PartialEq, Default)]
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struct TankState {
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enough_water: bool,
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warn_level: bool,
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@ -113,7 +113,7 @@ struct TankStateMQTT {
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left_ml: u32,
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sensor_error: bool,
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raw: u16,
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water_frozen: String
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water_frozen: String,
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}
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#[derive(Serialize)]
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@ -371,7 +371,7 @@ fn safe_main() -> anyhow::Result<()> {
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warn_level: tank_state.warn_level,
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sensor_error: tank_state.sensor_error,
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raw: tank_state.raw,
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water_frozen: "".to_owned()
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water_frozen: "".to_owned(),
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};
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let mut water_frozen = false;
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@ -396,9 +396,7 @@ fn safe_main() -> anyhow::Result<()> {
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}
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tank_state_mqtt.water_frozen = water_frozen.to_string();
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}
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None => {
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tank_state_mqtt.water_frozen = "tank sensor error".to_owned()
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}
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None => tank_state_mqtt.water_frozen = "tank sensor error".to_owned(),
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}
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if online_mode == OnlineMode::Online {
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@ -412,9 +410,9 @@ fn safe_main() -> anyhow::Result<()> {
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};
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}
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let mut plantstate = [PlantState {
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let mut plantstate: [PlantState; PLANT_COUNT] = core::array::from_fn(|_| PlantState {
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..Default::default()
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}; PLANT_COUNT];
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});
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let plant_to_pump = determine_next_plant(
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&mut plantstate,
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europe_time,
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@ -426,12 +424,7 @@ fn safe_main() -> anyhow::Result<()> {
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let stay_alive = STAY_ALIVE.load(std::sync::atomic::Ordering::Relaxed);
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println!("Check stay alive, current state is {}", stay_alive);
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if stay_alive {
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drop(board);
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let reboot_now = Arc::new(AtomicBool::new(false));
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let _webserver = httpd(reboot_now.clone());
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wait_infinity(WaitType::StayAlive, reboot_now.clone());
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}
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let mut did_pump = false;
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match plant_to_pump {
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Some(plant) => {
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@ -461,6 +454,7 @@ fn safe_main() -> anyhow::Result<()> {
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"Trying to pump for {}s with pump {} now",
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plant_config.pump_time_s, plant
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);
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if !stay_alive {
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did_pump = true;
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board.any_pump(true)?;
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board.store_last_pump_time(plant, cur);
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@ -469,7 +463,7 @@ fn safe_main() -> anyhow::Result<()> {
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state.active = true;
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for _ in 0..plant_config.pump_time_s {
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unsafe { vTaskDelay(CONFIG_FREERTOS_HZ) };
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let p_live_topic = format!("/plant{}/p live", plant + 1);
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let p_live_topic = format!("/plant{} p live", plant + 1);
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if plant_config.sensor_p {
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let moist = map_range_moisture(
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board.measure_moisture_hz(plant, plant_hal::Sensor::PUMP)? as f32,
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@ -478,17 +472,20 @@ fn safe_main() -> anyhow::Result<()> {
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let _ = board.mqtt_publish(
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&config,
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&p_live_topic,
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option_to_string(moist.ok()).as_bytes(),
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option_to_string(&moist.ok()).as_bytes(),
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);
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}
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} else {
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if online_mode == OnlineMode::Online {
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let _ = board.mqtt_publish(&config, &p_live_topic, "disabled".as_bytes());
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let _ =
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board.mqtt_publish(&config, &p_live_topic, "disabled".as_bytes());
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}
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}
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}
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board.pump(plant, false)?;
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}
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if plant_config.sensor_p {
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match map_range_moisture(
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board.measure_moisture_hz(plant, plant_hal::Sensor::PUMP)? as f32,
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@ -522,7 +519,7 @@ fn safe_main() -> anyhow::Result<()> {
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let is_day = board.is_day();
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light_state.is_day = is_day;
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light_state.out_of_work_hour = !in_time_range(
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europe_time,
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&europe_time,
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config.night_lamp_hour_start,
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config.night_lamp_hour_end,
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);
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@ -604,16 +601,14 @@ fn safe_main() -> anyhow::Result<()> {
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//is deep sleep
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mark_app_valid();
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unsafe { esp_deep_sleep(1000 * 1000 * 60 * deep_sleep_duration_minutes as u64) };
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if stay_alive {
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drop(board);
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let reboot_now = Arc::new(AtomicBool::new(false));
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let _webserver = httpd(reboot_now.clone());
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wait_infinity(WaitType::StayAlive, reboot_now.clone());
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}
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fn to_string<T: Display>(value: Result<T>) -> String {
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return match value {
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Ok(v) => v.to_string(),
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Err(err) => {
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format!("{:?}", err)
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}
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};
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unsafe { esp_deep_sleep(1000 * 1000 * 60 * deep_sleep_duration_minutes as u64) };
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}
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fn publish_battery_state(
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@ -621,13 +616,13 @@ fn publish_battery_state(
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config: &Config,
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) {
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let bat = BatteryState {
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voltage_milli_volt: &to_string(board.voltage_milli_volt()),
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current_milli_ampere: &to_string(board.average_current_milli_ampere()),
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cycle_count: &to_string(board.cycle_count()),
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design_milli_ampere: &to_string(board.design_milli_ampere_hour()),
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remaining_milli_ampere: &to_string(board.remaining_milli_ampere_hour()),
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state_of_charge: &to_string(board.state_charge_percent()),
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state_of_health: &to_string(board.state_health_percent()),
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voltage_milli_volt: &to_string(&board.voltage_milli_volt()),
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current_milli_ampere: &to_string(&board.average_current_milli_ampere()),
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cycle_count: &to_string(&board.cycle_count()),
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design_milli_ampere: &to_string(&board.design_milli_ampere_hour()),
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remaining_milli_ampere: &to_string(&board.remaining_milli_ampere_hour()),
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state_of_charge: &to_string(&board.state_charge_percent()),
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state_of_health: &to_string(&board.state_health_percent()),
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};
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match serde_json::to_string(&bat) {
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Ok(state) => {
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@ -701,54 +696,6 @@ fn determine_tank_state(
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};
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}
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fn map_range(from_range: (f32, f32), s: f32) -> anyhow::Result<f32> {
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if s < from_range.0 {
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anyhow::bail!(
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"Value out of range, min {} but current is {}",
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from_range.0,
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s
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);
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}
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if s > from_range.1 {
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anyhow::bail!(
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"Value out of range, max {} but current is {}",
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from_range.1,
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s
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);
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}
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return Ok(TO.0 + (s - from_range.0) * (TO.1 - TO.0) / (from_range.1 - from_range.0));
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}
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fn map_range_moisture(s: f32) -> Result<u8, SensorError> {
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if s < FROM.0 {
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return Err(SensorError::OpenCircuit { hz: s, min: FROM.0 });
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}
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if s > FROM.1 {
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return Err(SensorError::ShortCircuit { hz: s, max: FROM.1 });
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}
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let tmp = TO.0 + (s - FROM.0) * (TO.1 - TO.0) / (FROM.1 - FROM.0);
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return Ok(tmp as u8);
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}
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fn in_time_range(cur: DateTime<Tz>, start: u8, end: u8) -> bool {
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let curhour = cur.hour() as u8;
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//eg 10-14
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if start < end {
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return curhour > start && curhour < end;
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} else {
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//eg 20-05
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return curhour > start || curhour < end;
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}
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}
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fn option_to_string(value: Option<u8>) -> String {
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match value {
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Some(v) => v.to_string(),
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None => "Error".to_owned(),
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}
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}
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fn determine_state_target_moisture_for_plant(
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board: &mut std::sync::MutexGuard<'_, PlantCtrlBoard<'_>>,
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plant: usize,
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@ -761,7 +708,20 @@ fn determine_state_target_moisture_for_plant(
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if plant_config.mode == Mode::OFF {
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return;
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}
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match board.measure_moisture_hz(plant, plant_hal::Sensor::A) {
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Ok(a) => {
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let mapped = map_range_moisture(a as f32);
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match mapped {
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Ok(result) => state.a = Some(result),
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Err(err) => {
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state.sensor_error_a = Some(err);
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}
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}
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}
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Err(_) => {
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state.sensor_error_a = Some(SensorError::Unknown);
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}
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}
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if plant_config.sensor_b {
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match board.measure_moisture_hz(plant, plant_hal::Sensor::B) {
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Ok(b) => {
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@ -813,7 +773,7 @@ fn determine_state_target_moisture_for_plant(
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}
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if !in_time_range(
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cur,
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&cur,
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plant_config.pump_hour_start,
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plant_config.pump_hour_end,
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) {
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@ -883,7 +843,7 @@ fn determine_state_timer_and_deadzone_for_plant(
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state.cooldown = true;
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}
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if !in_time_range(
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cur,
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&cur,
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plant_config.pump_hour_start,
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plant_config.pump_hour_end,
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) {
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@ -976,13 +936,17 @@ fn update_plant_state(
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let mode = format!("{:?}", plant_config.mode);
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let plant_dto = PlantStateMQTT {
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p_start: &sensor_to_string(state.p, state.sensor_error_p, plant_config.sensor_p),
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p_end: &sensor_to_string(state.after_p, state.sensor_error_p, plant_config.sensor_p),
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a: &sensor_to_string(state.a, state.sensor_error_a, true),
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b: &sensor_to_string(state.b, state.sensor_error_b, plant_config.sensor_b),
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p_start: &sensor_to_string(&state.p, &state.sensor_error_p, plant_config.sensor_p),
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p_end: &sensor_to_string(&state.after_p, &state.sensor_error_p, plant_config.sensor_p),
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a: &sensor_to_string(
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&state.a,
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&state.sensor_error_a,
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plant_config.mode != Mode::OFF,
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),
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b: &sensor_to_string(&state.b, &state.sensor_error_b, plant_config.sensor_b),
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active: state.active,
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mode: &mode,
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last_pump: &&time_to_string_utc(board.last_pump_time(plant)),
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last_pump: &time_to_string_utc(board.last_pump_time(plant)),
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next_pump: &time_to_string(state.next_pump),
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consecutive_pump_count: state.consecutive_pump_count,
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cooldown: state.cooldown,
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@ -996,6 +960,8 @@ fn update_plant_state(
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Ok(state) => {
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let plant_topic = format!("/plant{}", plant + 1);
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let _ = board.mqtt_publish(&config, &plant_topic, state.as_bytes());
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//reduce speed as else messages will be dropped
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Delay::new_default().delay_ms(200);
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}
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Err(err) => {
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println!("Error publishing lightstate {}", err);
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@ -1004,39 +970,6 @@ fn update_plant_state(
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}
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}
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fn time_to_string_utc(value_option: Option<DateTime<Utc>>) -> String {
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let converted = value_option.and_then(|utc| Some(utc.with_timezone(&Berlin)));
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return time_to_string(converted);
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}
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fn time_to_string(value_option: Option<DateTime<Tz>>) -> String {
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match value_option {
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Some(value) => {
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let europe_time = value.with_timezone(&Berlin);
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if europe_time.year() > 2023 {
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return europe_time.to_rfc3339();
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} else {
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return "smtp error".to_owned();
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}
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}
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None => return "N/A".to_owned(),
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};
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}
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fn sensor_to_string(value: Option<u8>, error: Option<SensorError>, enabled: bool) -> String {
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if enabled {
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match error {
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Some(error) => return format!("{:?}", error),
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None => match value {
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Some(v) => return v.to_string(),
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None => return "Error".to_owned(),
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},
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}
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} else {
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return "disabled".to_owned();
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};
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}
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fn wait_infinity(wait_type: WaitType, reboot_now: Arc<AtomicBool>) -> ! {
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let delay = match wait_type {
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WaitType::InitialConfig => 250_u32,
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@ -1091,7 +1024,94 @@ fn main() {
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}
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}
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}
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//error codes
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//error_reading_config_after_upgrade
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//error_no_config_after_upgrade
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//error_tank_sensor_fault
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fn time_to_string_utc(value_option: Option<DateTime<Utc>>) -> String {
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let converted = value_option.and_then(|utc| Some(utc.with_timezone(&Berlin)));
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return time_to_string(converted);
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}
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fn time_to_string(value_option: Option<DateTime<Tz>>) -> String {
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match value_option {
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Some(value) => {
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let europe_time = value.with_timezone(&Berlin);
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if europe_time.year() > 2023 {
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return europe_time.to_rfc3339();
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} else {
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//initial value of 0 in rtc memory
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return "N/A".to_owned();
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}
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}
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None => return "N/A".to_owned(),
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};
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}
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fn sensor_to_string(value: &Option<u8>, error: &Option<SensorError>, enabled: bool) -> String {
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if enabled {
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match error {
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Some(error) => return format!("{:?}", error),
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None => match value {
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Some(v) => return v.to_string(),
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None => return "Error".to_owned(),
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},
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}
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} else {
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return "disabled".to_owned();
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};
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}
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fn to_string<T: Display>(value: &Result<T>) -> String {
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return match value {
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Ok(v) => v.to_string(),
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Err(err) => {
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format!("{:?}", err)
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}
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};
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}
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fn map_range(from_range: (f32, f32), s: f32) -> anyhow::Result<f32> {
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if s < from_range.0 {
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anyhow::bail!(
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"Value out of range, min {} but current is {}",
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from_range.0,
|
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s
|
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);
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}
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if s > from_range.1 {
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anyhow::bail!(
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"Value out of range, max {} but current is {}",
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from_range.1,
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s
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);
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}
|
||||
return Ok(TO.0 + (s - from_range.0) * (TO.1 - TO.0) / (from_range.1 - from_range.0));
|
||||
}
|
||||
|
||||
fn map_range_moisture(s: f32) -> Result<u8, SensorError> {
|
||||
if s < FROM.0 {
|
||||
return Err(SensorError::OpenCircuit { hz: s, min: FROM.0 });
|
||||
}
|
||||
if s > FROM.1 {
|
||||
return Err(SensorError::ShortCircuit { hz: s, max: FROM.1 });
|
||||
}
|
||||
let tmp = TO.0 + (s - FROM.0) * (TO.1 - TO.0) / (FROM.1 - FROM.0);
|
||||
|
||||
return Ok(tmp as u8);
|
||||
}
|
||||
|
||||
fn in_time_range(cur: &DateTime<Tz>, start: u8, end: u8) -> bool {
|
||||
let curhour = cur.hour() as u8;
|
||||
//eg 10-14
|
||||
if start < end {
|
||||
return curhour > start && curhour < end;
|
||||
} else {
|
||||
//eg 20-05
|
||||
return curhour > start || curhour < end;
|
||||
}
|
||||
}
|
||||
|
||||
fn option_to_string(value: &Option<u8>) -> String {
|
||||
match value {
|
||||
Some(v) => v.to_string(),
|
||||
None => "Error".to_owned(),
|
||||
}
|
||||
}
|
||||
|
@ -17,7 +17,7 @@ use esp_idf_svc::mqtt::client::{EspMqttClient, LwtConfiguration, MqttClientConfi
|
||||
use esp_idf_svc::nvs::EspDefaultNvsPartition;
|
||||
use esp_idf_svc::wifi::config::{ScanConfig, ScanType};
|
||||
use esp_idf_svc::wifi::EspWifi;
|
||||
use measurements::{Frequency, Temperature};
|
||||
use measurements::Temperature;
|
||||
use plant_ctrl2::sipo::ShiftRegister40;
|
||||
|
||||
use anyhow::anyhow;
|
||||
|
Loading…
Reference in New Issue
Block a user