tesla-charge-controller/src/tesla_charge_rate.rs

use std::sync::{Arc, RwLock};

use metrics::{describe_gauge, gauge, Gauge};
use serde::{Deserialize, Serialize};

use crate::{
    api_interface::InterfaceRequest,
    charge_controllers::pl::PlState,
    config::access_config,
    types::{CarState, ChargeState},
};

pub struct TeslaChargeRateController {
    pub car_state: Arc<RwLock<CarState>>,
    pub pl_state: Option<Arc<RwLock<PlState>>>,
    pub tcrc_state: Arc<RwLock<TcrcState>>,
    voltage_low: u64,
    control_enable_gauge: Gauge,
}

pub enum TcrcRequest {
    DisableAutomaticControl,
    EnableAutomaticControl,
}

#[derive(Clone, Copy, Serialize, Deserialize, Debug)]
pub struct TcrcState {
    pub control_enable: bool,
}

impl Default for TcrcState {
    fn default() -> Self {
        Self {
            control_enable: true,
        }
    }
}

impl TeslaChargeRateController {
    pub fn new(car_state: Arc<RwLock<CarState>>, pl_state: Option<Arc<RwLock<PlState>>>) -> Self {
        describe_gauge!("tcrc_control_enable", "Enable Tesla charge rate control");
        Self {
            car_state,
            pl_state,
            tcrc_state: Default::default(),
            voltage_low: 0,
            control_enable_gauge: gauge!("tcrc_control_enable"),
        }
    }

    pub fn control_charge_rate(&mut self) -> Option<InterfaceRequest> {
        if let Some(pl_state) = self.pl_state.as_ref().and_then(|v| v.read().ok()) {
            if let Ok(car_state) = self.car_state.read() {
                if let Some(charge_state) = car_state.charge_state {
                    // we don't need to check if we're at home because we only call this when we are
                    // TODO: enforce this through type system

                    // automatic control or not, check if we're below shutoff voltage
                    if pl_state.battery_voltage < access_config().shutoff_voltage {
                        self.voltage_low += 1;
                        if (self.voltage_low * access_config().charge_rate_update_interval_seconds)
                            >= access_config().shutoff_voltage_time_seconds
                        {
                            return Some(InterfaceRequest::StopCharge);
                        }
                    } else {
                        self.voltage_low = 0;
                        if self.tcrc_state.read().is_ok_and(|v| v.control_enable) {
                            return get_control(&pl_state, &charge_state);
                        }
                    }
                }
            }
        }
        None
    }

    pub fn process_request(&mut self, message: TcrcRequest) {
        match message {
            TcrcRequest::DisableAutomaticControl => {
                self.tcrc_state
                    .write()
                    .expect("failed to write to tcrc state")
                    .control_enable = false;
                self.control_enable_gauge.set(0.);
            }
            TcrcRequest::EnableAutomaticControl => {
                self.tcrc_state
                    .write()
                    .expect("failed to write to tcrc state")
                    .control_enable = true;
                self.control_enable_gauge.set(1.);
            }
        }
    }
}

fn get_control(pl_state: &PlState, charge_state: &ChargeState) -> Option<InterfaceRequest> {
    let config = access_config();
    if pl_state.duty_cycle > config.duty_cycle_too_high {
        let rate = charge_state.charge_amps - 2;
        return valid_rate(rate, charge_state.charge_amps).map(InterfaceRequest::SetChargeRate);
    } else if pl_state.duty_cycle < config.duty_cycle_too_low {
        let rate = charge_state.charge_amps + 1;
        return valid_rate(rate, charge_state.charge_amps).map(InterfaceRequest::SetChargeRate);
    }

    valid_rate(charge_state.charge_amps, charge_state.charge_amps)
        .map(InterfaceRequest::SetChargeRate)
}

fn valid_rate(rate: i64, previous: i64) -> Option<i64> {
    let config = access_config();
    let new = rate.clamp(config.min_rate, config.max_rate);
    if new == previous {
        None
    } else {
        Some(new)
    }
}
fix some baaad state management (LOL) 2024-01-17 09:11:18 +11:00			`use std::sync::{Arc, RwLock};`
automatic control beta 1 2024-01-16 11:00:11 +11:00
			`use metrics::{describe_gauge, gauge, Gauge};`
			`use serde::{Deserialize, Serialize};`

			`use crate::{`
			`api_interface::InterfaceRequest,`
			`charge_controllers::pl::PlState,`
			`config::access_config,`
			`types::{CarState, ChargeState},`
			`};`

			`pub struct TeslaChargeRateController {`
			`pub car_state: Arc<RwLock<CarState>>,`
			`pub pl_state: Option<Arc<RwLock<PlState>>>,`
			`pub tcrc_state: Arc<RwLock<TcrcState>>,`
fix some baaad state management (LOL) 2024-01-17 09:11:18 +11:00			`voltage_low: u64,`
automatic control beta 1 2024-01-16 11:00:11 +11:00			`control_enable_gauge: Gauge,`
			`}`

			`pub enum TcrcRequest {`
			`DisableAutomaticControl,`
			`EnableAutomaticControl,`
			`}`

default state control enable 2024-01-16 11:10:20 +11:00			`#[derive(Clone, Copy, Serialize, Deserialize, Debug)]`
automatic control beta 1 2024-01-16 11:00:11 +11:00			`pub struct TcrcState {`
			`pub control_enable: bool,`
			`}`

default state control enable 2024-01-16 11:10:20 +11:00			`impl Default for TcrcState {`
			`fn default() -> Self {`
			`Self {`
			`control_enable: true,`
			`}`
			`}`
			`}`

automatic control beta 1 2024-01-16 11:00:11 +11:00			`impl TeslaChargeRateController {`
			`pub fn new(car_state: Arc<RwLock<CarState>>, pl_state: Option<Arc<RwLock<PlState>>>) -> Self {`
			`describe_gauge!("tcrc_control_enable", "Enable Tesla charge rate control");`
			`Self {`
			`car_state,`
			`pl_state,`
			`tcrc_state: Default::default(),`
fix some baaad state management (LOL) 2024-01-17 09:11:18 +11:00			`voltage_low: 0,`
automatic control beta 1 2024-01-16 11:00:11 +11:00			`control_enable_gauge: gauge!("tcrc_control_enable"),`
			`}`
			`}`

			`pub fn control_charge_rate(&mut self) -> Option<InterfaceRequest> {`
			`if let Some(pl_state) = self.pl_state.as_ref().and_then(\|v\| v.read().ok()) {`
			`if let Ok(car_state) = self.car_state.read() {`
			`if let Some(charge_state) = car_state.charge_state {`
fix some baaad state management (LOL) 2024-01-17 09:11:18 +11:00			`// we don't need to check if we're at home because we only call this when we are`
			`// TODO: enforce this through type system`

			`// automatic control or not, check if we're below shutoff voltage`
			`if pl_state.battery_voltage < access_config().shutoff_voltage {`
			`self.voltage_low += 1;`
			`if (self.voltage_low * access_config().charge_rate_update_interval_seconds)`
			`>= access_config().shutoff_voltage_time_seconds`
			`{`
			`return Some(InterfaceRequest::StopCharge);`
			`}`
			`} else {`
			`self.voltage_low = 0;`
			`if self.tcrc_state.read().is_ok_and(\|v\| v.control_enable) {`
			`return get_control(&pl_state, &charge_state);`
automatic control beta 1 2024-01-16 11:00:11 +11:00			`}`
			`}`
			`}`
			`}`
			`}`
			`None`
			`}`

			`pub fn process_request(&mut self, message: TcrcRequest) {`
			`match message {`
			`TcrcRequest::DisableAutomaticControl => {`
			`self.tcrc_state`
			`.write()`
			`.expect("failed to write to tcrc state")`
			`.control_enable = false;`
			`self.control_enable_gauge.set(0.);`
			`}`
			`TcrcRequest::EnableAutomaticControl => {`
			`self.tcrc_state`
			`.write()`
			`.expect("failed to write to tcrc state")`
			`.control_enable = true;`
			`self.control_enable_gauge.set(1.);`
			`}`
			`}`
			`}`
			`}`

			`fn get_control(pl_state: &PlState, charge_state: &ChargeState) -> Option<InterfaceRequest> {`
			`let config = access_config();`
			`if pl_state.duty_cycle > config.duty_cycle_too_high {`
variable tesla refresh period + low voltage timeout + better valid rate checking 2024-01-16 12:28:15 +11:00			`let rate = charge_state.charge_amps - 2;`
			`return valid_rate(rate, charge_state.charge_amps).map(InterfaceRequest::SetChargeRate);`
automatic control beta 1 2024-01-16 11:00:11 +11:00			`} else if pl_state.duty_cycle < config.duty_cycle_too_low {`
variable tesla refresh period + low voltage timeout + better valid rate checking 2024-01-16 12:28:15 +11:00			`let rate = charge_state.charge_amps + 1;`
			`return valid_rate(rate, charge_state.charge_amps).map(InterfaceRequest::SetChargeRate);`
automatic control beta 1 2024-01-16 11:00:11 +11:00			`}`

bring charge rate back down if it's changed from the webui 2024-01-21 18:00:06 +11:00			`valid_rate(charge_state.charge_amps, charge_state.charge_amps)`
			`.map(InterfaceRequest::SetChargeRate)`
automatic control beta 1 2024-01-16 11:00:11 +11:00			`}`
variable tesla refresh period + low voltage timeout + better valid rate checking 2024-01-16 12:28:15 +11:00
bring charge rate back down if it's changed from the webui 2024-01-21 18:00:06 +11:00			`fn valid_rate(rate: i64, previous: i64) -> Option<i64> {`
variable tesla refresh period + low voltage timeout + better valid rate checking 2024-01-16 12:28:15 +11:00			`let config = access_config();`
clamp rate 2024-01-17 08:35:00 +11:00			`let new = rate.clamp(config.min_rate, config.max_rate);`
bring charge rate back down if it's changed from the webui 2024-01-21 18:00:06 +11:00			`if new == previous {`
variable tesla refresh period + low voltage timeout + better valid rate checking 2024-01-16 12:28:15 +11:00			`None`
			`} else {`
			`Some(new)`
			`}`
			`}`