1 files changed, 35 insertions, 21 deletions

diff --git a/src/netapp.rs b/src/netapp.rs
index 8397be9..a34b0d6 100644
--- a/src/netapp.rs
+++ b/src/netapp.rs
@@ -47,8 +47,7 @@ pub(crate) struct Handler {
 /// It is generally not necessary to use NetApp stand-alone, as the provided full mesh
 /// and RPS peering strategies take care of the most common use cases.
 pub struct NetApp {
-	pub listen_addr: SocketAddr,
-	pub public_addr: Option<IpAddr>,
+	listen_params: ArcSwapOption<ListenParams>,
 
 	pub netid: auth::Key,
 	pub pubkey: ed25519::PublicKey,
@@ -63,6 +62,11 @@ pub struct NetApp {
 	on_disconnected_handler: ArcSwapOption<Box<dyn Fn(ed25519::PublicKey, bool) + Send + Sync>>,
 }
 
+struct ListenParams {
+	listen_addr: SocketAddr,
+	public_addr: Option<IpAddr>,
+}
+
 async fn net_handler_aux<M, F, R>(
 	handler: Arc<F>,
 	remote: ed25519::PublicKey,
@@ -110,17 +114,13 @@ where
 }
 
 impl NetApp {
-	/// Creates a new instance of NetApp. No background process is
-	pub fn new(
-		listen_addr: SocketAddr,
-		public_addr: Option<IpAddr>,
-		netid: auth::Key,
-		privkey: ed25519::SecretKey,
-	) -> Arc<Self> {
+	/// Creates a new instance of NetApp, which can serve either as a full p2p node,
+	/// or just as a passive client. To upgrade to a full p2p node, spawn a listener
+	/// using `.listen()`
+	pub fn new(netid: auth::Key, privkey: ed25519::SecretKey) -> Arc<Self> {
 		let pubkey = privkey.public_key();
 		let netapp = Arc::new(Self {
-			listen_addr,
-			public_addr,
+			listen_params: ArcSwapOption::new(None),
 			netid,
 			pubkey,
 			privkey,
@@ -200,9 +200,16 @@ impl NetApp {
 
 	/// Main listening process for our app. This future runs during the whole
 	/// run time of our application.
-	pub async fn listen(self: Arc<Self>) {
-		let mut listener = TcpListener::bind(self.listen_addr).await.unwrap();
-		info!("Listening on {}", self.listen_addr);
+	/// If this is not called, the NetApp instance remains a passive client.
+	pub async fn listen(self: Arc<Self>, listen_addr: SocketAddr, public_addr: Option<IpAddr>) {
+		let listen_params = ListenParams {
+			listen_addr,
+			public_addr,
+		};
+		self.listen_params.store(Some(Arc::new(listen_params)));
+
+		let mut listener = TcpListener::bind(listen_addr).await.unwrap();
+		info!("Listening on {}", listen_addr);
 
 		loop {
 			// The second item contains the IP and port of the new connection.
@@ -315,8 +322,7 @@ impl NetApp {
 	fn handle_hello_message(&self, id: ed25519::PublicKey, msg: HelloMessage) {
 		if let Some(h) = self.on_connected_handler.load().as_ref() {
 			if let Some(c) = self.server_conns.read().unwrap().get(&id) {
-				let remote_ip = msg.server_addr
-					.unwrap_or(c.remote_addr.ip());
+				let remote_ip = msg.server_addr.unwrap_or(c.remote_addr.ip());
 				let remote_addr = SocketAddr::new(remote_ip, msg.server_port);
 				h(id, remote_addr, true);
 			}
@@ -363,13 +369,21 @@ impl NetApp {
 			h(conn.peer_pk, conn.remote_addr, false);
 		}
 
-		let server_addr = self.public_addr;
-		let server_port = self.listen_addr.port();
-		tokio::spawn(async move {
-			conn.request(HelloMessage { server_addr, server_port }, PRIO_NORMAL)
+		if let Some(lp) = self.listen_params.load_full() {
+			let server_addr = lp.public_addr;
+			let server_port = lp.listen_addr.port();
+			tokio::spawn(async move {
+				conn.request(
+					HelloMessage {
+						server_addr,
+						server_port,
+					},
+					PRIO_NORMAL,
+				)
 				.await
 				.log_err("Sending hello message");
-		});
+			});
+		}
 	}
 
 	// Called from conn.rs when an outgoinc connection is closed.