Implement periodic ping frames in WebSocket server for keepalive and update overproduction handling in ProduceWorker to include branch_id. This enhances connection stability and improves notification clarity for overproduction events.

src/websocket_server.rs

@@ -15,6 +15,7 @@ use tokio::io::{AsyncRead, AsyncWrite};
 use tokio::net::TcpListener;
 use tokio::runtime::{Builder, Runtime};
 use tokio::sync::{broadcast, mpsc, Mutex};
+use tokio::time::{interval, Duration as TokioDuration};
 use tokio_rustls::rustls::{self, ServerConfig};
 use tokio_rustls::TlsAcceptor;
 use tokio_tungstenite::tungstenite::Message;
@@ -473,8 +474,12 @@ async fn handle_connection<S>(
         }
     };
 
-    // Broker-Nachrichten an den Client
+    // Broker-Nachrichten an den Client + periodische Ping-Frames als Keepalive
     let outgoing = async move {
+        // Regelmäßiges Ping, um inaktiven Verbindungen ein Lebenszeichen zu senden
+        // und Timeouts auf dem Weg (Proxy/Loadbalancer) zu vermeiden.
+        let mut ping_interval = interval(TokioDuration::from_secs(240));
+
         loop {
             tokio::select! {
                 // Nachrichten aus dem MessageBroker
@@ -551,6 +556,16 @@ async fn handle_connection<S>(
                         }
                     }
                 }
+                // Periodisches Ping an den Client
+                _ = ping_interval.tick() => {
+                    if let Err(e) = ws_sender.send(Message::Ping(Vec::new())).await {
+                        eprintln!(
+                            "[WebSocketServer] Fehler beim Senden von Ping an {}: {}",
+                            peer_addr, e
+                        );
+                        break;
+                    }
+                }
             }
         }
     };

src/worker/produce.rs

@@ -271,7 +271,9 @@ impl ProduceWorker {
             self.send_production_ready_event(user_id, product_id, quantity, quality, branch_id);
             true
         } else {
-            self.handle_overproduction(user_id, remaining_quantity);
+            // Es konnten nicht alle produzierten Einheiten eingelagert werden –
+            // Überproduktion für diesen Branch melden.
+            self.handle_overproduction(user_id, branch_id, remaining_quantity);
             true
         }
     }
@@ -331,8 +333,10 @@ impl ProduceWorker {
         self.base.broker.publish(message);
     }
 
-    fn handle_overproduction(&self, user_id: i32, remaining_quantity: i32) {
-        if let Err(err) = self.insert_overproduction_notification(user_id, remaining_quantity) {
+    fn handle_overproduction(&self, user_id: i32, branch_id: i32, remaining_quantity: i32) {
+        if let Err(err) =
+            self.insert_overproduction_notification(user_id, branch_id, remaining_quantity)
+        {
             eprintln!(
                 "[ProduceWorker] Fehler beim Schreiben der Overproduction-Notification: {err}"
             );
@@ -424,6 +428,7 @@ impl ProduceWorker {
     fn insert_overproduction_notification(
         &self,
         user_id: i32,
+        branch_id: i32,
         remaining_quantity: i32,
     ) -> Result<(), crate::db::DbError> {
         let mut conn = self
@@ -437,9 +442,11 @@ impl ProduceWorker {
             QUERY_ADD_OVERPRODUCTION_NOTIFICATION,
         )?;
 
+        // Zusätzlich zur Menge die Branch-ID in der Payload mitschicken, damit
+        // das Frontend die Überproduktion einem konkreten Branch zuordnen kann.
         let notification = format!(
-            r#"{{"tr":"production.overproduction","value":{}}}"#,
-            remaining_quantity
+            r#"{{"tr":"production.overproduction","value":{},"branch_id":{}}}"#,
+            remaining_quantity, branch_id
         );
 
         conn.execute(