mod utils; use std::os::unix::io::AsRawFd; use smoltcp::iface::{Config, Interface, SocketSet}; use smoltcp::phy::{wait as phy_wait, Device, Medium}; use smoltcp::socket::{raw, udp}; use smoltcp::time::Instant; use smoltcp::wire::{ EthernetAddress, IgmpPacket, IgmpRepr, IpAddress, IpCidr, IpProtocol, IpVersion, Ipv4Address, Ipv4Packet, Ipv6Address, }; const MDNS_PORT: u16 = 5353; const MDNS_GROUP: Ipv4Address = Ipv4Address::new(224, 0, 0, 251); fn main() { utils::setup_logging("warn"); let (mut opts, mut free) = utils::create_options(); utils::add_tuntap_options(&mut opts, &mut free); utils::add_middleware_options(&mut opts, &mut free); let mut matches = utils::parse_options(&opts, free); let device = utils::parse_tuntap_options(&mut matches); let fd = device.as_raw_fd(); let mut device = utils::parse_middleware_options(&mut matches, device, /*loopback=*/ false); // Create interface let mut config = match device.capabilities().medium { Medium::Ethernet => { Config::new(EthernetAddress([0x02, 0x00, 0x00, 0x00, 0x00, 0x01]).into()) } Medium::Ip => Config::new(smoltcp::wire::HardwareAddress::Ip), Medium::Ieee802154 => todo!(), }; config.random_seed = rand::random(); let mut iface = Interface::new(config, &mut device, Instant::now()); iface.update_ip_addrs(|ip_addrs| { ip_addrs .push(IpCidr::new(IpAddress::v4(192, 168, 69, 1), 24)) .unwrap(); ip_addrs .push(IpCidr::new(IpAddress::v6(0xfdaa, 0, 0, 0, 0, 0, 0, 1), 64)) .unwrap(); ip_addrs .push(IpCidr::new(IpAddress::v6(0xfe80, 0, 0, 0, 0, 0, 0, 1), 64)) .unwrap(); }); iface .routes_mut() .add_default_ipv4_route(Ipv4Address::new(192, 168, 69, 100)) .unwrap(); iface .routes_mut() .add_default_ipv6_route(Ipv6Address::new(0xfe80, 0, 0, 0, 0, 0, 0, 0x100)) .unwrap(); // Create sockets let mut sockets = SocketSet::new(vec![]); // Must fit at least one IGMP packet let raw_rx_buffer = raw::PacketBuffer::new(vec![raw::PacketMetadata::EMPTY; 2], vec![0; 512]); // Will not send IGMP let raw_tx_buffer = raw::PacketBuffer::new(vec![], vec![]); let raw_socket = raw::Socket::new( IpVersion::Ipv4, IpProtocol::Igmp, raw_rx_buffer, raw_tx_buffer, ); let raw_handle = sockets.add(raw_socket); // Must fit mDNS payload of at least one packet let udp_rx_buffer = udp::PacketBuffer::new(vec![udp::PacketMetadata::EMPTY; 4], vec![0; 1024]); // Will not send mDNS let udp_tx_buffer = udp::PacketBuffer::new(vec![udp::PacketMetadata::EMPTY], vec![0; 0]); let udp_socket = udp::Socket::new(udp_rx_buffer, udp_tx_buffer); let udp_handle = sockets.add(udp_socket); // Join a multicast group to receive mDNS traffic iface.join_multicast_group(MDNS_GROUP).unwrap(); loop { let timestamp = Instant::now(); iface.poll(timestamp, &mut device, &mut sockets); let socket = sockets.get_mut::(raw_handle); if socket.can_recv() { // For display purposes only - normally we wouldn't process incoming IGMP packets // in the application layer match socket.recv() { Err(e) => println!("Recv IGMP error: {e:?}"), Ok(buf) => { Ipv4Packet::new_checked(buf) .and_then(|ipv4_packet| IgmpPacket::new_checked(ipv4_packet.payload())) .and_then(|igmp_packet| IgmpRepr::parse(&igmp_packet)) .map(|igmp_repr| println!("IGMP packet: {igmp_repr:?}")) .unwrap_or_else(|e| println!("parse IGMP error: {e:?}")); } } } let socket = sockets.get_mut::(udp_handle); if !socket.is_open() { socket.bind(MDNS_PORT).unwrap() } if socket.can_recv() { socket .recv() .map(|(data, sender)| { println!("mDNS traffic: {} UDP bytes from {}", data.len(), sender) }) .unwrap_or_else(|e| println!("Recv UDP error: {e:?}")); } phy_wait(fd, iface.poll_delay(timestamp, &sockets)).expect("wait error"); } }