use super::*;
#[tokio::test]
async fn test_tun_outbound_unknown_destination() {
let edges = vec![(0, 1)];
let mut nodes = run_tree_test(2, &edges, false).await;
verify_tree_convergence(&nodes);
let (tun_tx, tun_rx) = std::sync::mpsc::channel();
nodes[0].node.tun_tx = Some(tun_tx);
let src_fips = crate::FipsAddress::from_node_addr(nodes[0].node.node_addr());
let unknown_addr = NodeAddr::from_bytes([0xAA; 16]);
let unknown_fips = crate::FipsAddress::from_node_addr(&unknown_addr);
let ipv6_packet = build_ipv6_packet(&src_fips, &unknown_fips, b"unknown");
nodes[0].node.handle_tun_outbound(ipv6_packet).await;
let delivered: Vec<Vec<u8>> = std::iter::from_fn(|| tun_rx.try_recv().ok()).collect();
assert_eq!(
delivered.len(),
1,
"Should receive ICMPv6 Destination Unreachable"
);
assert!(delivered[0].len() >= 48, "ICMPv6 response too short");
assert_eq!(delivered[0][6], 58, "Next header should be ICMPv6 (58)");
assert_eq!(
delivered[0][40], 1,
"ICMPv6 type should be Destination Unreachable (1)"
);
assert_eq!(delivered[0][41], 0, "ICMPv6 code should be No Route (0)");
cleanup_nodes(&mut nodes).await;
}
#[tokio::test]
async fn test_tun_outbound_3node_forwarded() {
let edges = vec![(0, 1), (1, 2)];
let mut nodes = run_tree_test(3, &edges, false).await;
verify_tree_convergence(&nodes);
populate_all_coord_caches(&mut nodes);
let node0_addr = *nodes[0].node.node_addr();
let node2_addr = *nodes[2].node.node_addr();
let src_fips = crate::FipsAddress::from_node_addr(&node0_addr);
let dst_fips = crate::FipsAddress::from_node_addr(&node2_addr);
let node2_pubkey = nodes[2].node.identity().pubkey_full();
nodes[0].node.register_identity(node2_addr, node2_pubkey);
let (tun_tx, tun_rx) = std::sync::mpsc::channel();
nodes[2].node.tun_tx = Some(tun_tx);
let test_payload = b"forwarded-data-plane";
let ipv6_packet = build_ipv6_packet(&src_fips, &dst_fips, test_payload);
nodes[0].node.handle_tun_outbound(ipv6_packet.clone()).await;
drain_to_quiescence(&mut nodes).await;
assert!(
nodes[0]
.node
.get_session(&node2_addr)
.unwrap()
.state()
.is_established()
);
let delivered: Vec<Vec<u8>> = std::iter::from_fn(|| tun_rx.try_recv().ok()).collect();
assert_eq!(delivered.len(), 1, "Packet should be delivered to Node 2");
assert_eq!(delivered[0], ipv6_packet);
cleanup_nodes(&mut nodes).await;
}
#[tokio::test]
async fn test_tun_outbound_pending_queue_flush() {
let edges = vec![(0, 1)];
let mut nodes = run_tree_test(2, &edges, false).await;
verify_tree_convergence(&nodes);
populate_all_coord_caches(&mut nodes);
let node0_addr = *nodes[0].node.node_addr();
let node1_addr = *nodes[1].node.node_addr();
let src_fips = crate::FipsAddress::from_node_addr(&node0_addr);
let dst_fips = crate::FipsAddress::from_node_addr(&node1_addr);
let (tun_tx, tun_rx) = std::sync::mpsc::channel();
nodes[1].node.tun_tx = Some(tun_tx);
let mut packets = Vec::new();
for i in 0..5u8 {
let payload = format!("queued-pkt-{}", i).into_bytes();
let ipv6_packet = build_ipv6_packet(&src_fips, &dst_fips, &payload);
packets.push(ipv6_packet.clone());
nodes[0].node.handle_tun_outbound(ipv6_packet).await;
}
assert_eq!(nodes[0].node.session_count(), 1);
assert!(
nodes[0]
.node
.get_session(&node1_addr)
.unwrap()
.state()
.is_initiating()
);
drain_to_quiescence(&mut nodes).await;
assert!(
nodes[0]
.node
.get_session(&node1_addr)
.unwrap()
.state()
.is_established()
);
let delivered: Vec<Vec<u8>> = std::iter::from_fn(|| tun_rx.try_recv().ok()).collect();
assert_eq!(
delivered.len(),
5,
"All 5 queued packets should be delivered"
);
for (i, pkt) in delivered.iter().enumerate() {
assert_eq!(*pkt, packets[i], "Packet {} should match", i);
}
cleanup_nodes(&mut nodes).await;
}