chat-reseau-p8/Rust/src/server.rs

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extern crate chrono;
use std::io::*;
use std::net::{SocketAddr, TcpListener, TcpStream};
use std::thread;
use std::sync::{Arc, Mutex, MutexGuard};
use std::collections::HashMap;
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use self::chrono::Local;
// TODO: implement requests 1.x from protocol
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// TODO: forbid usernames already in use
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///////////////////////////////////////////////////////////////////////////////
// Evolution implementation protocole //
///////////////////////////////////////////////////////////////////////////////
/*
1.1 [ ]
1.2 [ ]
1.3 [ ]
1.4 [ ]
1.5 [ ]
1.6 [ ]
1.7 [X]
1.8 [X]
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1.9 [ ]
2.1 [X]
2.2 [X]
3.1 [ ] // pas utile avec Rust
3.2 [X]
4.1.1 [X]
4.1.2 [X]
4.2.1 [X]
4.2.2 [-]
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*/
///////////////////////////////////////////////////////////////////////////////
// TYPES //
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///////////////////////////////////////////////////////////////////////////////
// Map for all connected clients containing their name and stream
type UserMapValue = (String, TcpStream);
type UserMap = HashMap<SocketAddr, UserMapValue>;
///////////////////////////////////////////////////////////////////////////////
// CODE //
///////////////////////////////////////////////////////////////////////////////
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pub fn get_time() -> String {
let date = Local::now();
date.format("[%H:%M:%S]").to_string()
}
fn distribute_message(
msg: &str,
not_to: &SocketAddr,
lock: &mut MutexGuard<UserMap>,
everyone: bool,
) {
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let mut name = String::new();
for (client, entry) in (*lock).iter() {
if client == not_to {
name = entry.0.clone();
break;
}
}
for (other_client, entry) in (*lock).iter() {
let other_name = &entry.0;
let other_stream = &entry.1;
if everyone == false && other_client == not_to {
continue;
}
match (|| -> Result<()> {
let mut writer = BufWriter::new(other_stream);
// test if message begins with "MSG " /////////////////////////
if &msg[..4] == "MSG " {
try!(writeln!(writer, "FROM {} {}", name, msg));
} else {
try!(writeln!(writer, "{}", msg));
}
///////////////////////////////////////////////////////////////
try!(writer.flush());
return Ok(());
})()
{
Ok(_) => {}
Err(e) => {
println!(
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"{} Client {} <{}> disappeared during message distribution: {}",
get_time(),
other_client,
other_name,
e
);
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}
}
}
}
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fn send_clients_name(to: &SocketAddr, lock: &mut MutexGuard<UserMap>) {
let mut clients = String::new();
for (client, entry) in (*lock).iter() {
clients.push_str(&format!(
"{}{} ",
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&entry.0.trim(),
if client == to { "(you)" } else { "" }
));
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}
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let clients = clients.trim();
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for (client, entry) in (*lock).iter() {
if client == to {
let stream = &entry.1;
let mut writer = BufWriter::new(stream);
writeln!(writer, "LIST CLIENTS {}", clients).unwrap();
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writer.flush().unwrap();
return;
}
}
}
fn disconnect_user(name: &str, client: &SocketAddr, lock: &mut MutexGuard<UserMap>) {
(*lock).remove(&client);
distribute_message(&format!("LOGOUT {}", name), client, lock, true);
}
fn handle_client(stream: TcpStream, clients: Arc<Mutex<UserMap>>) {
// Get client IP and port
let client = stream.peer_addr().unwrap();
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println!("{} New connection from {}", get_time(), client);
// Buffered reading and writing
let mut reader = BufReader::new(&stream);
let mut writer = BufWriter::new(&stream);
// Write an entire line to the client
// Can fail on IO errors, du to try! macro
macro_rules! send {
($line:expr) => ({
try!(writeln!(writer, "{}", $line));
try!(writer.flush());
})
}
// Read an entire line from the client
// Can fail on IO errors or when EOF is reached
macro_rules! receive {
() => ({
let mut line = String::new();
match reader.read_line(&mut line) {
Ok(len) => {
if len == 0 {
// Reader is at EOF.
return Err(Error::new(ErrorKind::Other, "unexpected EOF"));
}
line.pop();
}
Err(e) => {
return Err(e);
}
};
line
})
}
// Initialization: Ask user for his name
let name = match (|| {
send!("Welcome!");
send!("Please enter your name:");
let name = receive!();
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println!("{} Client {} identified as {}", get_time(), client, name);
Ok(name)
})()
{
Ok(name) => name,
Err(e) => {
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println!(
"{} Client {} disappeared during initialization: {}",
get_time(),
client,
e
);
return ();
}
};
// Add user to global map. Lock will be released at the end of the scope
{
let mut lock = clients.lock().unwrap();
(*lock).insert(client, (name.clone(), stream.try_clone().unwrap()));
distribute_message(&format!("JOIN {}", name), &client, &mut lock, false);
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}
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writeln!(writer, "WELCOME").unwrap();
writer.flush().unwrap();
// Chat loop: Receive messages from users
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match (|| loop {
match receive!().as_str() {
"BYE" => {
send!("BYE");
return Ok(());
}
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"PING" => {
send!("PONG");
}
"REQ CLIENTS" => {
let mut lock = clients.lock().unwrap();
send_clients_name(&client, &mut lock);
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}
input => {
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println!("{} {} <{}>: {}", get_time(), client, name, input);
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{
let mut lock = clients.lock().unwrap();
distribute_message(&format!("{}", input), &client, &mut lock, true);
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}
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}
}
})()
{
Ok(_) => {
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println!("{} Client {} <{}> left", get_time(), client, name);
}
Err(e) => {
println!(
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"{} Client {} <{}> disappeared during chat: {}",
get_time(),
client,
name,
e
);
}
}
// Remove user from global map
{
let mut lock = clients.lock().unwrap();
disconnect_user(&name, &client, &mut lock);
}
}
pub fn serveur(addr: String) {
// Manage UserMap in a mutex
let clients = Arc::new(Mutex::new(HashMap::new()));
let serv_addr = addr.clone();
// Start a TCP Listener
let listener = match TcpListener::bind(serv_addr.as_str()) {
Ok(listener) => listener,
Err(e) => panic!("Could not read start TCP listener: {}", e),
};
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println!(
"{} Successfully started the server on {}",
get_time(),
serv_addr
);
for stream in listener.incoming() {
match stream {
Ok(stream) => {
let clients = clients.clone();
thread::spawn(move || {
//connection succeeded
handle_client(stream, clients)
});
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}
Err(e) => {
writeln!(stderr(), "Connection failed: {}", e).unwrap();
}
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}
}
// close the socket server
drop(listener);
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}