229 lines
7.5 KiB
Rust
229 lines
7.5 KiB
Rust
use std::collections::HashMap;
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use std::ops::{Deref, DerefMut};
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use std::sync::Arc;
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use futures::future::join_all;
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use mlua::FromLua;
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use tokio::sync::{RwLock, RwLockReadGuard};
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use tokio_cron_scheduler::{Job, JobScheduler};
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use tracing::{debug, instrument, trace};
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use crate::devices::Device;
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use crate::event::{Event, EventChannel, OnDarkness, OnMqtt, OnNotification, OnPresence};
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use crate::LUA;
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#[derive(Debug, FromLua, Clone)]
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pub struct WrappedDevice(Arc<RwLock<Box<dyn Device>>>);
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impl WrappedDevice {
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pub fn new(device: Box<dyn Device>) -> Self {
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Self(Arc::new(RwLock::new(device)))
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}
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}
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impl Deref for WrappedDevice {
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type Target = Arc<RwLock<Box<dyn Device>>>;
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fn deref(&self) -> &Self::Target {
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&self.0
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}
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}
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impl DerefMut for WrappedDevice {
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fn deref_mut(&mut self) -> &mut Self::Target {
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&mut self.0
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}
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}
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impl mlua::UserData for WrappedDevice {
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fn add_methods<'lua, M: mlua::prelude::LuaUserDataMethods<'lua, Self>>(methods: &mut M) {
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methods.add_async_method("get_id", |_lua, this, _: ()| async {
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Ok(crate::devices::Device::get_id(this.0.read().await.as_ref()))
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});
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}
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}
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pub type DeviceMap = HashMap<String, Arc<RwLock<Box<dyn Device>>>>;
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#[derive(Clone)]
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pub struct DeviceManager {
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devices: Arc<RwLock<DeviceMap>>,
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event_channel: EventChannel,
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scheduler: JobScheduler,
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}
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impl DeviceManager {
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pub async fn new() -> Self {
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let (event_channel, mut event_rx) = EventChannel::new();
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let device_manager = Self {
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devices: Arc::new(RwLock::new(HashMap::new())),
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event_channel,
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scheduler: JobScheduler::new().await.unwrap(),
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};
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tokio::spawn({
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let device_manager = device_manager.clone();
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async move {
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loop {
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if let Some(event) = event_rx.recv().await {
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device_manager.handle_event(event).await;
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} else {
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todo!("Handle errors with the event channel properly")
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}
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}
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}
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});
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device_manager.scheduler.start().await.unwrap();
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device_manager
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}
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pub async fn add(&self, device: &WrappedDevice) {
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let id = device.read().await.get_id().to_owned();
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debug!(id, "Adding device");
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self.devices.write().await.insert(id, device.0.clone());
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}
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pub fn event_channel(&self) -> EventChannel {
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self.event_channel.clone()
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}
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pub async fn get(&self, name: &str) -> Option<WrappedDevice> {
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self.devices
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.read()
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.await
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.get(name)
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.cloned()
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.map(WrappedDevice)
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}
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pub async fn devices(&self) -> RwLockReadGuard<DeviceMap> {
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self.devices.read().await
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}
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#[instrument(skip(self))]
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async fn handle_event(&self, event: Event) {
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match event {
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Event::MqttMessage(message) => {
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let devices = self.devices.read().await;
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let iter = devices.iter().map(|(id, device)| {
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let message = message.clone();
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async move {
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let mut device = device.write().await;
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let device: Option<&mut dyn OnMqtt> = device.as_mut().cast_mut();
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if let Some(device) = device {
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// let subscribed = device
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// .topics()
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// .iter()
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// .any(|topic| matches(&message.topic, topic));
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//
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// if subscribed {
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trace!(id, "Handling");
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device.on_mqtt(message).await;
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trace!(id, "Done");
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// }
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}
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}
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});
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join_all(iter).await;
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}
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Event::Darkness(dark) => {
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let devices = self.devices.read().await;
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let iter = devices.iter().map(|(id, device)| async move {
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let mut device = device.write().await;
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let device: Option<&mut dyn OnDarkness> = device.as_mut().cast_mut();
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if let Some(device) = device {
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trace!(id, "Handling");
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device.on_darkness(dark).await;
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trace!(id, "Done");
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}
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});
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join_all(iter).await;
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}
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Event::Presence(presence) => {
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let devices = self.devices.read().await;
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let iter = devices.iter().map(|(id, device)| async move {
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let mut device = device.write().await;
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let device: Option<&mut dyn OnPresence> = device.as_mut().cast_mut();
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if let Some(device) = device {
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trace!(id, "Handling");
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device.on_presence(presence).await;
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trace!(id, "Done");
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}
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});
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join_all(iter).await;
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}
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Event::Ntfy(notification) => {
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let devices = self.devices.read().await;
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let iter = devices.iter().map(|(id, device)| {
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let notification = notification.clone();
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async move {
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let mut device = device.write().await;
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let device: Option<&mut dyn OnNotification> = device.as_mut().cast_mut();
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if let Some(device) = device {
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trace!(id, "Handling");
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device.on_notification(notification).await;
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trace!(id, "Done");
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}
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}
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});
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join_all(iter).await;
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}
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}
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}
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}
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impl mlua::UserData for DeviceManager {
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fn add_methods<'lua, M: mlua::UserDataMethods<'lua, Self>>(methods: &mut M) {
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methods.add_async_method("add", |_lua, this, device: WrappedDevice| async move {
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this.add(&device).await;
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Ok(())
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});
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methods.add_async_method(
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"schedule",
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|lua, this, (schedule, f): (String, mlua::Function)| async move {
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debug!("schedule = {schedule}");
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let uuid = this
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.scheduler
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.add(
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Job::new_async(schedule.as_str(), |uuid, _lock| {
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Box::pin(async move {
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let lua = LUA.lock().await;
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let f: mlua::Function =
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lua.named_registry_value(uuid.to_string().as_str()).unwrap();
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f.call::<_, ()>(()).unwrap();
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})
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})
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.unwrap(),
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)
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.await
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.unwrap();
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// Store the function in the registry
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lua.set_named_registry_value(uuid.to_string().as_str(), f)
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.unwrap();
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Ok(())
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},
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);
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// methods.add_async_method("add_schedule", |lua, this, schedule| async {
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// let schedule = lua.from_value(schedule)?;
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// this.add_schedule(schedule).await;
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// Ok(())
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// });
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methods.add_method("event_channel", |_lua, this, ()| Ok(this.event_channel()))
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}
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}
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