use std::sync::{Arc, RwLock}; use metrics::{describe_gauge, gauge, Gauge}; use serde::{Deserialize, Serialize}; use teslatte::vehicles::ChargingState; use crate::{ api_interface::InterfaceRequest, charge_controllers::pl::PlState, config::access_config, types::{CarState, ChargeState}, }; pub struct TeslaChargeRateController { pub car_state: Arc>, pub pl_state: Option>>, pub tcrc_state: Arc>, control_enable_gauge: Gauge, } pub enum TcrcRequest { DisableAutomaticControl, EnableAutomaticControl, } #[derive(Default, Clone, Copy, Serialize, Deserialize, Debug)] pub struct TcrcState { pub control_enable: bool, } impl TeslaChargeRateController { pub fn new(car_state: Arc>, pl_state: Option>>) -> Self { describe_gauge!("tcrc_control_enable", "Enable Tesla charge rate control"); Self { car_state, pl_state, tcrc_state: Default::default(), control_enable_gauge: gauge!("tcrc_control_enable"), } } pub fn control_charge_rate(&mut self) -> Option { 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 { // check if we're charging at home if charge_state.charging_state == ChargingState::Charging && car_state.location_data.is_some_and(|v| v.home) { // automatic control or not, check if we're below shutoff voltage if pl_state.battery_voltage < access_config().shutoff_voltage { return Some(InterfaceRequest::StopCharge); } else if self.tcrc_state.read().is_ok_and(|v| v.control_enable) { return get_control(&pl_state, &charge_state); } } else if charge_state.charging_state == ChargingState::Disconnected { // only disable automatic control until the next time we're unplugged self.tcrc_state .write() .expect("failed to write to tcrc state") .control_enable = true; self.control_enable_gauge.set(1.); } } } } 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 { let config = access_config(); if pl_state.duty_cycle > config.duty_cycle_too_high { let new_rate = charge_state.charge_amps - 1; return if new_rate >= config.min_rate { Some(InterfaceRequest::SetChargeRate(new_rate)) } else { None }; } else if pl_state.duty_cycle < config.duty_cycle_too_low { let new_rate = charge_state.charge_amps + 1; return if new_rate <= config.max_rate { Some(InterfaceRequest::SetChargeRate(new_rate)) } else { None }; } None }