tesla-charge-controller/src/tesla_charge_rate.rs

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3.9 KiB
Rust
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use std::sync::{Arc, RwLock};
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use if_chain::if_chain;
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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>>,
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voltage_low: u64,
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control_enable_gauge: Gauge,
}
pub enum TcrcRequest {
DisableAutomaticControl,
EnableAutomaticControl,
}
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#[derive(Clone, Copy, Serialize, Deserialize, Debug)]
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pub struct TcrcState {
pub control_enable: bool,
}
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impl Default for TcrcState {
fn default() -> Self {
Self {
control_enable: true,
}
}
}
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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(),
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voltage_low: 0,
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control_enable_gauge: gauge!("tcrc_control_enable"),
}
}
pub fn control_charge_rate(&mut self) -> Option<InterfaceRequest> {
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if_chain! {
if let Some(pl_state) = self.pl_state.as_ref().and_then(|v| v.read().ok());
if let Some(charge_state) = self.car_state.read().ok().and_then(|v| v.charge_state);
then {
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);
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}
}
}
}
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);
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} 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);
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}
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// if max/min charge rate has changed, then the current charge rate might no longer be valid
// and we should move up/down to keep it in the new bounds
valid_rate(charge_state.charge_amps, charge_state.charge_amps)
.map(InterfaceRequest::SetChargeRate)
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}
fn valid_rate(rate: i64, previous: i64) -> Option<i64> {
let config = access_config();
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let new = rate.clamp(config.min_rate, config.max_rate);
if new == previous {
None
} else {
Some(new)
}
}