mirror of
https://gitlab.com/fabinfra/fabaccess/bffh.git
synced 2024-11-26 00:24:55 +01:00
266 lines
9.2 KiB
Rust
266 lines
9.2 KiB
Rust
use crate::actors::shelly::Shelly;
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use crate::resources::state::State;
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use crate::{Config, ResourcesHandle};
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use async_compat::CompatExt;
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use executor::pool::Executor;
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use futures_signals::signal::{Signal};
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use futures_util::future::BoxFuture;
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use rumqttc::{AsyncClient, ConnectionError, Event, Incoming, MqttOptions};
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use std::cell::Cell;
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use std::collections::HashMap;
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use std::future::Future;
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use std::pin::Pin;
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use std::task::{Context, Poll};
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use std::time::Duration;
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use once_cell::sync::Lazy;
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use rumqttc::ConnectReturnCode::Success;
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use rumqttc::Packet::ConnAck;
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use rustls::{RootCertStore};
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use url::Url;
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use crate::actors::dummy::Dummy;
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use crate::actors::process::Process;
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use crate::db::ArchivedValue;
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mod shelly;
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mod process;
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mod dummy;
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pub trait Actor {
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fn apply(&mut self, state: ArchivedValue<State>) -> BoxFuture<'static, ()>;
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}
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pub struct ActorDriver<S: 'static> {
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signal: S,
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actor: Box<dyn Actor + Send + Sync>,
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future: Option<BoxFuture<'static, ()>>,
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}
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impl<S: Signal<Item = ArchivedValue<State>>> ActorDriver<S> {
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pub fn new(signal: S, actor: Box<dyn Actor + Send + Sync>) -> Self {
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Self {
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signal,
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actor,
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future: None,
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}
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}
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}
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impl<S> Future for ActorDriver<S>
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where
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S: Signal<Item = ArchivedValue<State>> + Unpin + Send,
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{
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type Output = ();
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fn poll(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll<Self::Output> {
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// Work until there is no more work to do.
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loop {
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// Poll the `apply` future. And ensure it's completed before the next one is started
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match self
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.future
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.as_mut()
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.map(|future| Future::poll(Pin::new(future), cx))
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{
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// Skip and poll for a new future to do
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None => {}
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// This apply future is done, get a new one
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Some(Poll::Ready(_)) => self.future = None,
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// This future would block so we return to continue work another time
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Some(Poll::Pending) => return Poll::Pending,
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}
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// Poll the signal and apply any change that happen to the inner Actuator
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match Pin::new(&mut self.signal).poll_change(cx) {
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Poll::Pending => return Poll::Pending,
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Poll::Ready(None) => return Poll::Ready(()),
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Poll::Ready(Some(state)) => {
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// This future MUST be polled before we exit from the Actor::poll because if we
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// do not do that it will not register the dependency and thus NOT BE POLLED.
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let f = self.actor.apply(state);
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self.future.replace(f);
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}
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}
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}
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}
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}
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static ROOT_CERTS: Lazy<RootCertStore> = Lazy::new(|| {
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let span = tracing::info_span!("loading system certificates");
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let _guard = span.enter();
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let mut store = RootCertStore::empty();
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match rustls_native_certs::load_native_certs() {
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Ok(certs) => {
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let certs: Vec<Vec<u8>> = certs.into_iter().map(|c| c.0).collect();
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let (loaded, ignored) = store.add_parsable_certificates(&certs[..]);
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if ignored != 0 {
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tracing::info!(loaded, ignored, "certificates loaded, some ignored");
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} else {
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tracing::info!(loaded, "certificates loaded");
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}
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},
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Err(error) => {
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tracing::error!(%error, "failed to load system certificates");
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}
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}
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store
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});
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pub fn load(executor: Executor, config: &Config, resources: ResourcesHandle) -> anyhow::Result<()> {
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let span = tracing::info_span!("loading actors");
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let _guard = span;
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let mqtt_url = Url::parse(config.mqtt_url.as_str())?;
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let (transport, default_port) = match mqtt_url.scheme() {
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"mqtts" | "ssl" => (
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rumqttc::Transport::tls_with_config(
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rumqttc::ClientConfig::builder()
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.with_safe_defaults()
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.with_root_certificates(ROOT_CERTS.clone())
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.with_no_client_auth()
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.into(),
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),
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8883,
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),
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"mqtt" | "tcp" => (rumqttc::Transport::tcp(), 1883),
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scheme => {
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tracing::error!(%scheme, "MQTT url uses invalid scheme");
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anyhow::bail!("invalid config");
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}
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};
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let host = mqtt_url.host_str().ok_or_else(|| {
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tracing::error!("MQTT url must contain a hostname");
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anyhow::anyhow!("invalid config")
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})?;
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let port = mqtt_url.port().unwrap_or(default_port);
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let mut mqttoptions = MqttOptions::new("bffh", host, port);
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mqttoptions
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.set_transport(transport)
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.set_keep_alive(Duration::from_secs(20));
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if !mqtt_url.username().is_empty() {
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mqttoptions.set_credentials(mqtt_url.username(), mqtt_url.password().unwrap_or_default());
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}
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let (mqtt, mut eventloop) = AsyncClient::new(mqttoptions, 256);
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let mut eventloop = executor.run(
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async move {
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match eventloop.poll().await {
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Ok(Event::Incoming(Incoming::Connect(_connect))) => {}
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Ok(Event::Incoming(Incoming::ConnAck(connack))) => {
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if connack.code == Success {
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tracing::debug!(?connack, "MQTT connection established");
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} else {
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tracing::error!(?connack, "MQTT connect failed");
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}
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}
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Ok(event) => {
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tracing::warn!(?event, "Got unexpected mqtt event");
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}
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Err(error) => {
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tracing::error!(?error, "MQTT connection failed");
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anyhow::bail!("mqtt connection failed")
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}
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}
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Ok(eventloop)
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}
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.compat(),
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)?;
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executor.spawn(
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async move {
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let mut fault = false;
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loop {
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match eventloop.poll().compat().await {
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Ok(_) => {
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fault = false;
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// TODO: Handle incoming MQTT messages
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}
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Err(ConnectionError::Cancel)
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| Err(ConnectionError::StreamDone)
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| Err(ConnectionError::RequestsDone) => {
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// Normal exit
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tracing::info!("MQTT request queue closed, stopping client.");
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return;
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}
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Err(ConnectionError::Timeout(_)) => {
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tracing::error!("MQTT operation timed out!");
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tracing::warn!(
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"MQTT client will continue, but messages may have been lost."
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)
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// Timeout does not close the client
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}
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Err(ConnectionError::Io(error)) if fault => {
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tracing::error!(?error, "MQTT recurring IO error, closing client");
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// Repeating IO errors close client. Any Ok() in between resets fault to false.
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return;
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}
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Err(ConnectionError::Io(error)) => {
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fault = true;
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tracing::error!(?error, "MQTT encountered IO error");
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// *First* IO error does not close the client.
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}
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Err(error) => {
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tracing::error!(?error, "MQTT client encountered unhandled error");
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return;
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}
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}
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}
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}
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.compat(),
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);
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let mut actor_map: HashMap<String, _> = config.actor_connections.iter()
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.filter_map(|(k,v)| {
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if let Some(resource) = resources.get_by_id(v) {
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Some((k.clone(), resource.get_signal()))
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} else {
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tracing::error!(actor=%k, machine=%v, "Machine configured for actor not found!");
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None
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}
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})
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.collect();
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for (name, cfg) in config.actors.iter() {
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if let Some(sig) = actor_map.remove(name) {
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if let Some(actor) = load_single(name, &cfg.module, &cfg.params, mqtt.clone()) {
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let driver = ActorDriver::new(sig, actor);
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tracing::debug!(module_name=%cfg.module, %name, "starting actor task");
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executor.spawn(driver);
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} else {
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tracing::error!(module_name=%cfg.module, %name, "Actor module type not found");
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}
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} else {
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tracing::warn!(actor=%name, ?config, "Actor has no machine configured. Skipping!");
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}
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}
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Ok(())
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}
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fn load_single(
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name: &String,
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module_name: &String,
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params: &HashMap<String, String>,
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client: AsyncClient,
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) -> Option<Box<dyn Actor + Sync + Send>> {
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tracing::info!(%name, %module_name, ?params, "Loading actor");
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match module_name.as_ref() {
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"Dummy" => Some(Box::new(Dummy::new(name.clone(), params.clone()))),
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"Process" => Process::new(name.clone(), params).map(|a| a.into_boxed_actuator()),
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"Shelly" => Some(Box::new(Shelly::new(name.clone(), client, params))),
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_ => {
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None
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}
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}
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}
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