use super::common::{Message};
use message_io::network::{NetEvent, Transport, Endpoint};
use message_io::node::{self, NodeHandler, NodeListener};
use std::net::{SocketAddr};
use std::collections::{HashMap};
use std::io::{self};
struct ParticipantInfo {
addr: SocketAddr,
endpoint: Endpoint,
}
pub struct DiscoveryServer {
handler: NodeHandler<()>,
node_listener: Option<NodeListener<()>>,
participants: HashMap<String, ParticipantInfo>,
}
impl DiscoveryServer {
pub fn new() -> io::Result<DiscoveryServer> {
let (handler, node_listener) = node::split::<()>();
let listen_addr = "127.0.0.1:5000";
handler.network().listen(Transport::FramedTcp, listen_addr)?;
println!("Discovery server running at {}", listen_addr);
Ok(DiscoveryServer {
handler,
node_listener: Some(node_listener),
participants: HashMap::new(),
})
}
pub fn run(mut self) {
let node_listener = self.node_listener.take().unwrap();
node_listener.for_each(move |event| match event.network() {
NetEvent::Connected(_, _) => unreachable!(), NetEvent::Accepted(_, _) => (), NetEvent::Message(endpoint, input_data) => {
let message: Message = bincode::deserialize(&input_data).unwrap();
match message {
Message::RegisterParticipant(name, addr) => {
self.register(&name, addr, endpoint);
}
Message::UnregisterParticipant(name) => {
self.unregister(&name);
}
_ => unreachable!(),
}
}
NetEvent::Disconnected(endpoint) => {
let participant =
self.participants.iter().find(|(_, info)| info.endpoint == endpoint);
if let Some(participant) = participant {
let name = participant.0.to_string();
self.unregister(&name);
}
}
});
}
fn register(&mut self, name: &str, addr: SocketAddr, endpoint: Endpoint) {
if !self.participants.contains_key(name) {
let list =
self.participants.iter().map(|(name, info)| (name.clone(), info.addr)).collect();
let message = Message::ParticipantList(list);
let output_data = bincode::serialize(&message).unwrap();
self.handler.network().send(endpoint, &output_data);
let message = Message::ParticipantNotificationAdded(name.to_string(), addr);
let output_data = bincode::serialize(&message).unwrap();
for participant in &mut self.participants {
self.handler.network().send(participant.1.endpoint, &output_data);
}
self.participants.insert(name.to_string(), ParticipantInfo { addr, endpoint });
println!("Added participant '{}' with ip {}", name, addr);
}
else {
println!(
"Participant with name '{}' already exists, please registry with another name",
name
);
}
}
fn unregister(&mut self, name: &str) {
if let Some(info) = self.participants.remove(name) {
let message = Message::ParticipantNotificationRemoved(name.to_string());
let output_data = bincode::serialize(&message).unwrap();
for participant in &mut self.participants {
self.handler.network().send(participant.1.endpoint, &output_data);
}
println!("Removed participant '{}' with ip {}", name, info.addr);
}
else {
println!("Can not unregister an non-existent participant with name '{}'", name);
}
}
}