use crate::{
broker::ServiceBroker,
channels::messages::incoming::RequestMessage,
config::{self, Channel, Config},
nats::Conn,
};
use act_zero::*;
use async_nats::Message;
use async_trait::async_trait;
use config::DeserializeError;
use futures::StreamExt as _;
use log::{debug, error, info};
use std::sync::Arc;
#[async_trait]
impl Actor for Request {
async fn started(&mut self, pid: Addr<Self>) -> ActorResult<()> {
let pid_clone = pid.clone();
send!(pid_clone.listen(pid));
Produces::ok(())
}
async fn error(&mut self, error: ActorError) -> bool {
error!("Request Actor Error: {:?}", error);
false
}
}
pub(crate) struct Request {
config: Arc<Config>,
broker: WeakAddr<ServiceBroker>,
conn: Conn,
}
impl Request {
pub(crate) async fn new(
broker: WeakAddr<ServiceBroker>,
config: &Arc<Config>,
conn: &Conn,
) -> Self {
Self {
broker,
conn: conn.clone(),
config: Arc::clone(config),
}
}
pub(crate) async fn listen(&mut self, pid: Addr<Self>) {
info!("Listening for REQUEST messages");
let mut channel = self
.conn
.subscribe(&Channel::Request.channel_to_string(&self.config))
.await
.unwrap();
pid.clone().send_fut(async move {
while let Some(msg) = channel.next().await {
match call!(pid.handle_message(msg)).await {
Ok(_) => debug!("Successfully handled REQUEST message"),
Err(e) => error!("Unable to handle REQUEST message: {}", e),
}
}
})
}
async fn handle_message(&self, msg: Message) -> ActorResult<()> {
let request_context: Result<RequestMessage, DeserializeError> =
self.config.serializer.deserialize(&msg.payload);
send!(self.broker.handle_incoming_request(request_context));
Produces::ok(())
}
}