in nfm-controller/src/sock_diag.rs [14:80]
fn main() {
let mut socket = Socket::new(NETLINK_SOCK_DIAG).unwrap();
let _port_number = socket.bind_auto().unwrap().port_number();
socket.connect(&SocketAddr::new(0, 0)).unwrap();
let mut nl_hdr = NetlinkHeader::default();
nl_hdr.flags = NLM_F_REQUEST | NLM_F_DUMP;
let mut packet = NetlinkMessage::new(
nl_hdr,
SockDiagMessage::InetRequest(InetRequest {
family: AF_INET,
protocol: IPPROTO_TCP,
extensions: ExtensionFlags::INFO | ExtensionFlags::SKMEMINFO,
states: StateFlags::all(),
socket_id: SocketId::new_v4(),
})
.into(),
);
packet.finalize();
let mut buf = vec![0; packet.header.length as usize];
// Before calling serialize, it is important to check that the buffer in
// which we're emitting is big enough for the packet, other
// `serialize()` panics.
assert_eq!(buf.len(), packet.buffer_len());
packet.serialize(&mut buf[..]);
println!(">>> {packet:?}");
if let Err(e) = socket.send(&buf[..], 0) {
println!("SEND ERROR {e}");
return;
}
let mut receive_buffer = vec![0; 4096];
let mut offset = 0;
while let Ok(size) = socket.recv(&mut &mut receive_buffer[..], 0) {
loop {
let bytes = &receive_buffer[offset..];
let rx_packet =
<NetlinkMessage<SockDiagMessage>>::deserialize(bytes).unwrap();
println!("<<< {rx_packet:?}");
match rx_packet.payload {
NetlinkPayload::Noop => {}
NetlinkPayload::InnerMessage(
SockDiagMessage::InetResponse(response),
) => {
println!("{response:#?}");
}
NetlinkPayload::Done(_) => {
println!("Done!");
return;
}
_ => return,
}
offset += rx_packet.header.length as usize;
if offset == size || rx_packet.header.length == 0 {
offset = 0;
break;
}
}
}
}