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use std::sync::{Arc, Mutex};
use std::thread;
use unmp::link::{Driver, Link, Recver};
use unmp::net;
use log::{trace, warn};
use websocket::OwnedMessage;
struct Server {
socket: Mutex<websocket::sender::Writer<std::net::TcpStream>>,
}
impl Driver for Server {
fn send(&self, buf: &[u8]) {
trace!("websocket_server send: {:02X?}.", buf);
let mut socket = self.socket.lock().unwrap();
socket
.send_message(&OwnedMessage::Binary(buf.into()))
.expect("websocket_server send error");
}
}
pub fn start(ip: &str, port: u16) {
let server = websocket::sync::Server::bind((ip, port)).unwrap();
thread::spawn(|| {
for request in server.filter_map(Result::ok) {
thread::spawn(|| {
if !request.protocols().contains(&"unmp".to_string()) {
request.reject().unwrap();
return;
}
let client = request.use_protocol("unmp").accept().unwrap();
let addr = client.peer_addr().unwrap();
let (mut receiver, sender) = client.split().unwrap();
let driver = Arc::new(Server {
socket: Mutex::new(sender),
});
let link = Link::new(
format!("WebSocket_Server({}:{})", addr.ip(), addr.port()),
driver.clone(),
);
let driver_tmp = driver.clone();
let link_tmp = link.clone();
for message in receiver.incoming_messages() {
let mut recver: Recver = Recver::new();
match message {
Ok(m) => match m {
OwnedMessage::Binary(buf) => {
let mut buf: &[u8] = &buf;
trace!("websocket_server recv: {:02X?}.", buf);
while let Some(load) = {
let load = recver.recv(buf);
buf = &[];
load
} {
net::recv_handle(link_tmp.clone(), &load);
}
}
_ => {}
},
Err(e) => {
warn!("websocket_server recv error: {:?}", e);
let mut socket = driver_tmp.socket.lock().unwrap();
let _ = socket.send_message(&OwnedMessage::Close(None));
return;
}
};
}
});
}
});
}