teslatte/examples/cli.rs

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mod cli_vehicle;
use chrono::DateTime;
use clap::{Args, Parser, Subcommand};
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use cli_vehicle::VehicleArgs;
use miette::{miette, IntoDiagnostic, WrapErr};
use serde::{Deserialize, Serialize};
use teslatte::auth::{AccessToken, Authentication, RefreshToken};
use teslatte::calendar_history::{CalendarHistoryValues, HistoryKind, HistoryPeriod};
use teslatte::energy::EnergySiteId;
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use teslatte::powerwall::PowerwallId;
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use teslatte::vehicles::{SetChargeLimit, SetChargingAmps};
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use teslatte::{Api, VehicleId};
/// Teslatte
///
/// A command line interface for the Tesla API.
#[derive(Parser, Debug)]
#[clap(author, version, about, long_about = None)]
struct Cli {
#[clap(subcommand)]
command: Command,
}
#[derive(Debug, Subcommand)]
enum Command {
/// Authenticate with Tesla via URL, and receive an access token and refresh token.
Auth {
/// Save tokens to a cli.json file.
///
/// Be careful with your access tokens!
#[clap(short, long)]
save: bool,
},
/// Refresh your tokens.
Refresh {
/// If not provided, will try to read the token from a cli.json file and automatically
/// update the file.
#[clap(short, long, env = "TESLA_REFRESH_TOKEN")]
refresh_token: Option<RefreshToken>,
},
/// Run API commands.
Api(ApiArgs),
}
#[derive(Debug, Args)]
struct ApiArgs {
/// Access token. If not provided, will try to load from the cli.json file.
#[clap(short, long, env = "TESLA_ACCESS_TOKEN")]
access_token: Option<AccessToken>,
#[clap(subcommand)]
command: ApiCommand,
}
#[derive(Debug, Subcommand)]
enum ApiCommand {
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/// List of vehicles.
Vehicles,
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/// Specific Vehicle.
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Vehicle(VehicleArgs),
/// List of energy sites.
EnergySites,
/// Specific energy site.
EnergySite(EnergySiteArgs),
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/// Powerwall queries.
Powerwall(PowerwallArgs),
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}
#[derive(Debug, Args)]
struct EnergySiteArgs {
pub id: EnergySiteId,
#[clap(subcommand)]
pub command: EnergySiteCommand,
}
impl EnergySiteArgs {
pub async fn run(&self, api: &Api) -> miette::Result<()> {
match &self.command {
EnergySiteCommand::CalendarHistory(args) => {
let start_date = args
.start
.as_ref()
.map(|s| DateTime::parse_from_rfc3339(&s).into_diagnostic())
.transpose()
.wrap_err("start_date")?;
let end_date = args
.end
.as_ref()
.map(|s| DateTime::parse_from_rfc3339(&s).into_diagnostic())
.transpose()
.wrap_err("end_date")?;
let values = CalendarHistoryValues {
site_id: self.id.clone(),
kind: args.kind.clone(),
period: args.period.clone(),
start_date,
end_date,
};
let history = api.energy_sites_calendar_history(&values).await?;
println!("{:#?}", history);
}
}
Ok(())
}
}
#[derive(Debug, Subcommand)]
enum EnergySiteCommand {
CalendarHistory(CalendarHistoryArgs),
}
#[derive(Debug, Args)]
struct CalendarHistoryArgs {
pub kind: HistoryKind,
#[clap(short, long, default_value = "day")]
pub period: HistoryPeriod,
#[clap(short, long)]
start: Option<String>,
#[clap(short, long)]
end: Option<String>,
}
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#[derive(Debug, Args)]
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struct PowerwallArgs {
pub id: PowerwallId,
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#[clap(subcommand)]
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pub command: PowerwallCommand,
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}
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impl PowerwallArgs {
pub async fn run(&self, api: &Api) -> miette::Result<()> {
match self.command {
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PowerwallCommand::Status => {
dbg!(api.powerwall_status(&self.id).await?);
}
}
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Ok(())
}
}
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#[derive(Debug, Subcommand)]
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enum PowerwallCommand {
/// Show the status of the Powerwall.
Status,
}
#[tokio::main]
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async fn main() -> miette::Result<()> {
tracing_subscriber::fmt::init();
let args = Cli::parse();
match args.command {
Command::Auth { save } => {
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let auth = Authentication::new()?;
let (access_token, refresh_token) = auth.interactive_get_access_token().await?;
updated_tokens(save, access_token, refresh_token);
}
Command::Refresh { refresh_token } => {
let (save, refresh_token) = match refresh_token {
Some(refresh_token) => (false, refresh_token),
None => {
let config = Config::load();
(true, config.refresh_token)
}
};
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let auth = Authentication::new()?;
let response = auth.refresh_access_token(&refresh_token).await?;
updated_tokens(save, response.access_token, refresh_token);
}
Command::Api(api_args) => {
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let access_token = match &api_args.access_token {
Some(a) => a.clone(),
None => {
let config = Config::load();
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config.access_token.clone()
}
};
let api = Api::new(&access_token);
match api_args.command {
ApiCommand::Vehicles => {
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dbg!(api.vehicles().await?);
}
ApiCommand::Vehicle(v) => {
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v.run(&api).await?;
}
ApiCommand::EnergySites => {
dbg!(api.energy_sites().await?);
}
ApiCommand::EnergySite(e) => {
e.run(&api).await?;
}
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ApiCommand::Powerwall(p) => {
p.run(&api).await?;
}
}
}
}
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Ok(())
}
fn updated_tokens(save: bool, access_token: AccessToken, refresh_token: RefreshToken) {
println!("Access token: {}", access_token.0);
println!("Refresh token: {}", refresh_token.0);
if save {
Config {
access_token,
refresh_token,
}
.save();
}
}
#[derive(Serialize, Deserialize)]
struct Config {
access_token: AccessToken,
refresh_token: RefreshToken,
}
impl Config {
fn save(&self) {
let json = serde_json::to_string(&self).unwrap();
std::fs::write("cli.json", json).unwrap();
}
fn load() -> Self {
let file = std::fs::File::open("cli.json").unwrap();
let reader = std::io::BufReader::new(file);
let json: serde_json::Value = serde_json::from_reader(reader).unwrap();
let config: Config = serde_json::from_str(&json.to_string()).unwrap();
config
}
}