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base: bob:a3648c2116825c66159b69308fdec07214704ece
Branches Tags
bob:master bob:bigfix bob:address_fetch_fix bob:download_progress bob:nat_transversal bob:tmp
...
compare: bob:cb2e89b1e9b8418c4a1b8e42d18e23c8e7fc295d
Branches Tags
bob:master bob:bigfix bob:address_fetch_fix bob:download_progress bob:nat_transversal bob:tmp

9 Commits
a3648c2116 ... cb2e89b1e9

Author SHA1 Message Date
Tiago Batista Cardoso
cb2e89b1e9 working 2026-01-24 19:47:15 +01:00
Tiago Batista Cardoso
524eaec76d decent progress 2026-01-22 01:05:02 +01:00
TIBERGHIEN corentin
34a9db047d ping deadlock 2026-01-22 00:40:29 +01:00
Tiago Batista Cardoso
fe04c8ed27 tried 2026-01-22 00:40:21 +01:00
Tiago Batista Cardoso
1f41ba5261 give up 2026-01-22 00:30:17 +01:00
Tiago Batista Cardoso
7eb1ab119d wip 2026-01-22 00:14:26 +01:00
Tiago Batista Cardoso
0799841cf2 splash 2026-01-21 23:58:15 +01:00
Tiago Batista Cardoso
424c11c5aa work 2026-01-21 22:48:05 +01:00
Tiago Batista Cardoso
271fdbbb4c temp 2026-01-21 17:40:21 +01:00
8 changed files with 417 additions and 99 deletions
Expand all files Collapse all files

49
client-gui/src/gui_app.rs
View File

@@ -4,8 +4,9 @@ use client_network::{
}; };
use crossbeam_channel::{Receiver, Sender}; use crossbeam_channel::{Receiver, Sender};
use egui::{ use egui::{
Align, Align2, Button, CentralPanel, CollapsingHeader, Context, Id, LayerId, Layout, Order, Align, Align2, Button, CentralPanel, CollapsingHeader, Color32, Context, CornerRadius, Frame,
Popup, ScrollArea, SidePanel, TextStyle, TopBottomPanel, Ui, ViewportCommand, Id, LayerId, Layout, Order, Popup, Response, ScrollArea, SidePanel, Stroke, TextStyle,
TopBottomPanel, Ui, ViewportCommand,
}; };
use std::{collections::HashMap, fmt::format}; use std::{collections::HashMap, fmt::format};
@@ -43,6 +44,7 @@ pub struct P2PClientApp {
show_network_popup: bool, // gérer selon besoin show_network_popup: bool, // gérer selon besoin
error_message: Option<String>, // Some(message) -> afficher, None -> rien error_message: Option<String>, // Some(message) -> afficher, None -> rien
success_message: Option<String>, // Some(message) -> afficher, None -> rien
// //
active_server: String, active_server: String,
} }
@@ -62,7 +64,7 @@ impl P2PClientApp {
network_cmd_tx: cmd_tx, network_cmd_tx: cmd_tx,
network_event_rx: event_rx, network_event_rx: event_rx,
status_message: "Client Initialized. Awaiting network status...".to_string(), status_message: "Client Initialized. Awaiting network status...".to_string(),
known_peers: vec![("bob".to_string(), true)], known_peers: Vec::new(),
connect_address_input: "https://jch.irif.fr:8443".to_string(), connect_address_input: "https://jch.irif.fr:8443".to_string(),
connected_address: "".to_string(), connected_address: "".to_string(),
loaded_fs, loaded_fs,
@@ -70,6 +72,7 @@ impl P2PClientApp {
server_status: ServerStatus::NotConnected, server_status: ServerStatus::NotConnected,
show_network_popup: false, show_network_popup: false,
error_message: None, error_message: None,
success_message: None,
connect_name_input: "bob".to_string(), connect_name_input: "bob".to_string(),
active_server: "".to_string(), active_server: "".to_string(),
} }
@@ -77,9 +80,15 @@ impl P2PClientApp {
pub fn show_error(&mut self, msg: impl Into<String>) { pub fn show_error(&mut self, msg: impl Into<String>) {
self.error_message = Some(msg.into()); self.error_message = Some(msg.into());
} }
pub fn show_success(&mut self, msg: impl Into<String>) {
self.success_message = Some(msg.into());
}
pub fn clear_error(&mut self) { pub fn clear_error(&mut self) {
self.error_message = None; self.error_message = None;
} }
pub fn clear_success(&mut self) {
self.success_message = None;
}
} }
// --- eframe::App Trait Implementation --- // --- eframe::App Trait Implementation ---
@@ -175,6 +184,9 @@ impl eframe::App for P2PClientApp {
NetworkEvent::Error(err) => { NetworkEvent::Error(err) => {
self.show_error(err); self.show_error(err);
} }
NetworkEvent::Success(msg) => {
self.show_success(msg);
}
NetworkEvent::DataReceived(_, merkle_node) => todo!(), NetworkEvent::DataReceived(_, merkle_node) => todo!(),
NetworkEvent::HandshakeFailed() => {} NetworkEvent::HandshakeFailed() => {}
NetworkEvent::ServerHandshakeFailed(err) => { NetworkEvent::ServerHandshakeFailed(err) => {
@@ -360,13 +372,24 @@ impl eframe::App for P2PClientApp {
let is_active = let is_active =
self.active_peer.as_ref().map_or(false, |id| id == &peer.0); // if peer.id == self.active_peer_id self.active_peer.as_ref().map_or(false, |id| id == &peer.0); // if peer.id == self.active_peer_id
let selectable; let selectable: Response;
if &self.active_server == &peer.0 { if &self.active_server == &peer.0 {
selectable = // Create a frame with green background and render the selectable inside it.
ui.selectable_label(is_active, format!("{} 📡 🌀", peer.0)) // Adjust rounding, padding and stroke as desired.
let frame = Frame {
fill: Color32::DARK_BLUE,
stroke: Stroke::default(),
corner_radius: CornerRadius::from(0.5),
..Default::default()
};
let internal = frame.show(ui, |ui| {
ui.selectable_label(is_active, format!("{}", peer.0))
});
selectable = internal.response;
} else { } else {
selectable = ui.selectable_label(is_active, format!("{}", peer.0)); selectable = ui.selectable_label(is_active, format!("{}", peer.0));
} }
if selectable.clicked() { if selectable.clicked() {
// switch to displaying this peer's tree // switch to displaying this peer's tree
self.active_peer = Some(peer.0.clone()); self.active_peer = Some(peer.0.clone());
@@ -476,6 +499,20 @@ impl eframe::App for P2PClientApp {
}); });
ctx.request_repaint(); ctx.request_repaint();
} }
if let Some(msg) = &self.success_message {
let msg = msg.clone();
egui::Window::new("Success")
.collapsible(false)
.resizable(false)
.anchor(egui::Align2::CENTER_CENTER, [0.0, 0.0])
.show(ctx, |ui| {
ui.label(&msg);
if ui.button("OK").clicked() {
self.clear_success();
}
});
ctx.request_repaint();
}
ctx.request_repaint_after(std::time::Duration::from_millis(10)); ctx.request_repaint_after(std::time::Duration::from_millis(10));
} }

26
client-network/src/fetchsocketaddresserror.rs Normal file
View File

@@ -0,0 +1,26 @@
use std::fmt;
#[derive(Debug)]
pub enum FetchSocketAddressError {
NoIPV4Address,
NoRegisteredAddresses,
NoResponseFromUser,
ClientError(String),
}
impl fmt::Display for FetchSocketAddressError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
FetchSocketAddressError::NoIPV4Address => write!(f, "No IPv4 Address registered."),
FetchSocketAddressError::NoRegisteredAddresses => {
write!(f, "No Registered Addresses found.")
}
FetchSocketAddressError::NoResponseFromUser => {
write!(f, "No Response from user after contact.")
}
FetchSocketAddressError::ClientError(error) => {
write!(f, "Client error : {}", error)
}
}
}
}

254
client-network/src/lib.rs
View File

@@ -2,6 +2,7 @@ mod cryptographic_signature;
mod data; mod data;
mod datum_generation; mod datum_generation;
mod datum_parsing; mod datum_parsing;
mod fetchsocketaddresserror;
mod message_handling; mod message_handling;
mod messages_channels; mod messages_channels;
mod messages_structure; mod messages_structure;
@@ -9,22 +10,22 @@ mod peers_refresh;
mod registration; mod registration;
mod server_communication; mod server_communication;
mod threads_handling; mod threads_handling;
mod timestamp;
use crate::fetchsocketaddresserror::FetchSocketAddressError;
use crate::peers_refresh::*; use crate::peers_refresh::*;
use crate::timestamp::Timestamp;
use crate::{ use crate::{
cryptographic_signature::CryptographicSignature, cryptographic_signature::CryptographicSignature,
message_handling::EventType, message_handling::EventType,
messages_channels::{MultipleSenders, start_receving_thread, start_retry_thread}, messages_channels::{MultipleSenders, start_receving_thread, start_retry_thread},
messages_structure::{ messages_structure::{NATTRAVERSALREQUEST, PING, ROOTREQUEST, construct_message},
NATTRAVERSALREQUEST, NATTRAVERSALREQUEST2, PING, ROOTREQUEST, construct_message,
},
peers_refresh::HandshakeHistory, peers_refresh::HandshakeHistory,
registration::{parse_addresses, perform_handshake, register_with_the_server}, registration::{parse_addresses, perform_handshake, register_with_the_server},
server_communication::{generate_id, get_peer_list}, server_communication::{generate_id, get_peer_list},
threads_handling::Worker, threads_handling::Worker,
}; };
use std::{ use std::{
clone,
io::Error, io::Error,
net::{IpAddr, Ipv4Addr, UdpSocket}, net::{IpAddr, Ipv4Addr, UdpSocket},
time::Duration, time::Duration,
@@ -38,15 +39,17 @@ pub struct P2PSharedData {
shared_socket: Arc<UdpSocket>, shared_socket: Arc<UdpSocket>,
shared_cryptopair: Arc<CryptographicSignature>, shared_cryptopair: Arc<CryptographicSignature>,
shared_messageslist: Arc<Mutex<HashMap<i32, EventType>>>, shared_messageslist: Arc<Mutex<HashMap<i32, EventType>>>,
shared_messagesreceived: Arc<Mutex<HashMap<String, (EventType, Timestamp)>>>,
shared_senders: Arc<MultipleSenders>, shared_senders: Arc<MultipleSenders>,
server_name: Arc<Mutex<String>>, server_name: Arc<Mutex<String>>,
server_address: Arc<Mutex<String>>,
handshake_peers: Arc<HandshakeHistory>, handshake_peers: Arc<HandshakeHistory>,
threads: Vec<Worker>, threads: Vec<Worker>,
} }
use bytes::Bytes; use bytes::Bytes;
use p256::pkcs8::der::pem::Base64Encoder;
use reqwest::Client; use reqwest::Client;
use tokio::time::sleep;
impl P2PSharedData { impl P2PSharedData {
pub fn new( pub fn new(
@@ -54,26 +57,31 @@ impl P2PSharedData {
cmd_tx: crossbeam_channel::Sender<NetworkEvent>, cmd_tx: crossbeam_channel::Sender<NetworkEvent>,
) -> Result<P2PSharedData, Error> { ) -> Result<P2PSharedData, Error> {
let messages_list = HashMap::<i32, EventType>::new(); let messages_list = HashMap::<i32, EventType>::new();
let messagesrecv_list = HashMap::<String, (EventType, Timestamp)>::new();
let username = String::from(username); let username = String::from(username);
let crypto_pair = CryptographicSignature::new(username); let crypto_pair = CryptographicSignature::new(username);
let socket = UdpSocket::bind("0.0.0.0:0")?; let socket = UdpSocket::bind("0.0.0.0:0")?;
let shared_socket = Arc::new(socket); let shared_socket = Arc::new(socket);
let shared_cryptopair = Arc::new(crypto_pair); let shared_cryptopair = Arc::new(crypto_pair);
let shared_messageslist = Arc::new(Mutex::new(messages_list)); let shared_messageslist = Arc::new(Mutex::new(messages_list));
let shared_messagesreceived = Arc::new(Mutex::new(messagesrecv_list));
let mut threads = Vec::new(); let mut threads = Vec::new();
let senders = MultipleSenders::new(1, &shared_socket, cmd_tx, &mut threads); let senders = MultipleSenders::new(1, &shared_socket, cmd_tx, &mut threads);
let shared_senders = Arc::new(senders); let shared_senders = Arc::new(senders);
let server_name = Arc::new(Mutex::new("".to_string())); let server_name = Arc::new(Mutex::new("".to_string()));
let server_address = Arc::new(Mutex::new("".to_string()));
let handhsake_peers = Arc::new(HandshakeHistory::new()); let handhsake_peers = Arc::new(HandshakeHistory::new());
Ok(P2PSharedData { Ok(P2PSharedData {
shared_socket: shared_socket, shared_socket: shared_socket,
shared_cryptopair: shared_cryptopair, shared_cryptopair: shared_cryptopair,
shared_messageslist: shared_messageslist, shared_messageslist: shared_messageslist,
shared_messagesreceived: shared_messagesreceived,
shared_senders: shared_senders, shared_senders: shared_senders,
server_name: server_name, server_name: server_name,
server_address: server_address,
handshake_peers: handhsake_peers, handshake_peers: handhsake_peers,
threads, threads,
}) })
@@ -88,14 +96,31 @@ impl P2PSharedData {
pub fn messages_list(&self) -> Arc<Mutex<HashMap<i32, EventType>>> { pub fn messages_list(&self) -> Arc<Mutex<HashMap<i32, EventType>>> {
self.shared_messageslist.clone() self.shared_messageslist.clone()
} }
pub fn messages_received(&self) -> Arc<Mutex<HashMap<String, (EventType, Timestamp)>>> {
self.shared_messagesreceived.clone()
}
pub fn servername(&self) -> String { pub fn servername(&self) -> String {
let guard = self.server_name.lock().unwrap(); let guard = {
let maybe_sn = self.server_name.lock().unwrap();
maybe_sn.clone()
};
guard.to_string()
}
pub fn serveraddress(&self) -> String {
let guard = {
let maybe_sn = self.server_address.lock().unwrap();
maybe_sn.clone()
};
guard.to_string() guard.to_string()
} }
pub fn set_servername(&self, new: String) { pub fn set_servername(&self, new: String) {
let mut guard = self.server_name.lock().unwrap(); let mut guard = self.server_name.lock().unwrap();
*guard = new *guard = new
} }
pub fn set_serveraddress(&self, new: String) {
let mut guard = self.server_address.lock().unwrap();
*guard = new
}
pub fn senders(&self) -> Arc<MultipleSenders> { pub fn senders(&self) -> Arc<MultipleSenders> {
self.shared_senders.clone() self.shared_senders.clone()
} }
@@ -113,6 +138,10 @@ impl P2PSharedData {
&*self.shared_messageslist &*self.shared_messageslist
} }
pub fn messages_received_ref(&self) -> &Mutex<HashMap<String, (EventType, Timestamp)>> {
&*self.shared_messagesreceived
}
pub fn senders_ref(&self) -> &MultipleSenders { pub fn senders_ref(&self) -> &MultipleSenders {
&*self.shared_senders &*self.shared_senders
} }
@@ -157,6 +186,7 @@ pub enum NetworkEvent {
ConnectedHandshake(), ConnectedHandshake(),
Disconnected(), Disconnected(),
Error(String), Error(String),
Success(String),
PeerConnected(String), PeerConnected(String),
PeerListUpdated(Vec<(String, bool)>), PeerListUpdated(Vec<(String, bool)>),
FileTreeReceived([u8; 32], MerkleNode), // peer_id, content FileTreeReceived([u8; 32], MerkleNode), // peer_id, content
@@ -218,7 +248,7 @@ pub fn start_p2p_executor(
sd.senders(), sd.senders(),
sd.cryptopair(), sd.cryptopair(),
sd.messages_list(), sd.messages_list(),
sd.handshake_peers.username_k_peerinfo_v.clone(), sd.handshake_peers.get_username_peerinfo_map(),
); );
let res = let res =
@@ -338,6 +368,7 @@ pub fn start_p2p_executor(
}*/ }*/
} }
NetworkCommand::FetchPeerList(ip) => { NetworkCommand::FetchPeerList(ip) => {
println!("[Network] FetchPeerList() called");
if ip == "" { if ip == "" {
let res = event_tx.send(NetworkEvent::Error( let res = event_tx.send(NetworkEvent::Error(
"Not registered to any server".to_string(), "Not registered to any server".to_string(),
@@ -367,48 +398,65 @@ pub fn start_p2p_executor(
Err(e) => println!("error"), Err(e) => println!("error"),
} }
} }
println!("[Network] FetchPeerList() called");
} }
NetworkCommand::RegisterAsPeer(_) => { NetworkCommand::RegisterAsPeer(_) => {
println!("[Network] RegisterAsPeer() called"); println!("[Network] RegisterAsPeer() called");
} }
NetworkCommand::Ping(str, ip) => { NetworkCommand::Ping(str, ip) => {
println!("[Network] Ping({}) called", str);
if let Some(sd) = shared_data.as_ref() { if let Some(sd) = shared_data.as_ref() {
let id = generate_id(); let id = generate_id();
sd.add_message(id, EventType::Ping); sd.add_message(id, EventType::Ping);
let pingrequest = let pingrequest =
construct_message(PING, Vec::new(), id, sd.cryptopair_ref()); construct_message(PING, Vec::new(), id, sd.cryptopair_ref());
let peer_address = get_socket_address(str, ip).await; let peer_address =
get_socket_address(str, ip, shared_data.as_ref()).await;
match peer_address { match peer_address {
Some(addr) => { Ok(addr) => {
if let Some(ping) = pingrequest { //if let Some(ping) = pingrequest {
sd.senders_ref().add_message_to_retry_queue( // sd.senders_ref().add_message_to_retry_queue(
ping.clone(), // ping.clone(),
addr.to_string(), // addr.to_string(),
false, // false,
); // );
sd.senders_ref().send_dispatch( // sd.senders_ref().send_dispatch(
ping, // ping,
addr.to_string(), // addr.to_string(),
false, // false,
sd.messages_list(), // sd.messages_list(),
); // );
//}
match event_tx.send(NetworkEvent::Success(format!(
"Successfully sent ping message to {}.",
addr.to_string()
))) {
Ok(_) => {}
Err(e) => {
eprintln!("NetworkEvent error : {}", e);
}
};
}
Err(err_msg) => {
match event_tx.send(NetworkEvent::Error(err_msg.to_string())) {
Ok(_) => {}
Err(e) => {
eprintln!("NetworkEvent error : {}", e);
} }
} }
None => {
let err_msg =
format!("failed to retreive socket address:").to_string();
let res = event_tx.send(NetworkEvent::Error(err_msg));
} }
} }
} }
println!("[Network] Ping() called");
} }
NetworkCommand::Disconnect() => { NetworkCommand::Disconnect() => {
if let Some(sd) = shared_data.as_ref() { if let Some(sd) = shared_data.as_ref() {
println!("Disconnecting: {}", &sd.cryptopair().username); println!("Disconnecting: {}", &sd.cryptopair().username);
shared_data = None; shared_data = None;
let res = event_tx.send(NetworkEvent::Disconnected()); match event_tx.send(NetworkEvent::Disconnected()) {
Ok(_) => {}
Err(e) => {
eprintln!("NetworkEvent error : {}", e);
}
}
} else { } else {
println!("no p2p data"); println!("no p2p data");
} }
@@ -424,14 +472,16 @@ pub fn start_p2p_executor(
if let Some(sd) = shared_data.as_ref() { if let Some(sd) = shared_data.as_ref() {
println!("username:{}, ip:{}", username, ip); println!("username:{}, ip:{}", username, ip);
// user server to send nattraversal request // user server to send nattraversal request
let server_addr_query = let server_addr = sd.serveraddress();
get_socket_address(sd.servername().clone(), ip.clone()); let peer_addr_query = get_socket_address(
let peer_addr_query = get_socket_address(username.clone(), ip.clone()); username.clone(),
ip.clone(),
shared_data.as_ref(),
);
match server_addr_query.await { match peer_addr_query.await {
Some(server_addr) => match peer_addr_query.await { Ok(peer_addr) => {
Some(peer_addr) => { let payload = socket_addr_to_vec(peer_addr);
let payload = socket_addr_to_vec(server_addr);
print!("{:?}", payload.clone()); print!("{:?}", payload.clone());
@@ -453,16 +503,13 @@ pub fn start_p2p_executor(
sd.messages_list(), sd.messages_list(),
); );
} }
None => { Err(err_msg) => {
let err_msg = format!("failed to retreive socket address") match event_tx.send(NetworkEvent::Error(err_msg.to_string())) {
.to_string(); Ok(_) => {}
let res = event_tx.send(NetworkEvent::Error(err_msg)); Err(e) => {
eprintln!("NetworkEvent error : {}", e);
}
} }
},
None => {
let err_msg =
format!("failed to retreive socket address").to_string();
let res = event_tx.send(NetworkEvent::Error(err_msg));
} }
} }
} }
@@ -476,7 +523,7 @@ pub fn start_p2p_executor(
// event_tx.send(NetworkEvent::PeerConnected("NewPeerID".to_string())).unwrap(); // event_tx.send(NetworkEvent::PeerConnected("NewPeerID".to_string())).unwrap();
// Avoid spinning too fast // Avoid spinning too fast
tokio::time::sleep(std::time::Duration::from_millis(50)).await; sleep(std::time::Duration::from_millis(50)).await;
} }
}) })
} }
@@ -506,11 +553,126 @@ fn parse_pack(s: &str) -> Option<[u8; 6]> {
]) ])
} }
async fn quick_ping(addr: &SocketAddr, timeout_ms: u64, sd: &P2PSharedData) -> bool {
let id = generate_id();
let pingreq = construct_message(PING, Vec::new(), id, &sd.shared_cryptopair);
if let Some(ping) = pingreq {
sd.add_message(id, EventType::Ping);
sd.senders_ref()
.send_dispatch(ping, addr.to_string(), false, sd.messages_list());
}
sleep(Duration::from_millis(timeout_ms)).await;
let msg_list = sd.messages_list_ref().lock().expect("yooo");
let res = !msg_list.contains_key(&id);
for (id, evt) in msg_list.iter() {
println!("id : {}, evt : {}", id, evt.to_string());
}
println!("message list doesnt contain key? {}", res);
res
}
/// ///
/// sends a get request to the server to get the socket address of the given peer /// sends a get request to the server to get the socket address of the given peer
/// ///
pub async fn get_socket_address(username: String, ip: String) -> Option<SocketAddr> { pub async fn get_socket_address(
username: String,
ip: String,
shared_data: Option<&P2PSharedData>,
) -> Result<SocketAddr, FetchSocketAddressError> {
let sd = shared_data.expect("No shared data");
let client = match Client::builder().timeout(Duration::from_secs(5)).build() {
Ok(c) => c,
Err(e) => {
return Err(FetchSocketAddressError::ClientError(e.to_string()));
}
};
let uri = format!("{}/peers/{}/addresses", ip, username);
let res = match client.get(&uri).send().await {
Ok(r) => r,
Err(e) => return Err(FetchSocketAddressError::ClientError(e.to_string())),
};
if res.status().is_success() {
println!("Successfully retrieved the addresses. {}", res.status());
} else {
eprintln!(
"Failed to get the peers addresses from the server. Status: {}",
res.status()
);
}
let body = match res.bytes().await {
Ok(b) => b,
Err(e) => {
return Err(FetchSocketAddressError::ClientError(e.to_string()));
}
};
let s = match String::from_utf8(body.to_vec()) {
Ok(st) => st,
Err(e) => {
return Err(FetchSocketAddressError::ClientError(e.to_string()));
}
};
let addresses = parse_addresses(&s); // assumes parse_addresses: &str -> Vec<SocketAddr>
if addresses.is_empty() {
return Err(FetchSocketAddressError::NoRegisteredAddresses);
} else if !addresses.iter().any(|a| matches!(a, SocketAddr::V4(_))) {
return Err(FetchSocketAddressError::NoIPV4Address);
}
for addr in addresses {
println!("trying address : {}", addr);
if quick_ping(&addr, 5000, sd).await {
return Ok(addr);
}
let payload = socket_addr_to_vec(addr);
let id = generate_id();
let natreq = construct_message(NATTRAVERSALREQUEST, payload.clone(), id, &sd.cryptopair());
sd.add_message(id, EventType::NatTraversal);
sd.senders_ref().send_dispatch(
natreq.expect("couldnt construct message nattraversalrequest2"),
sd.serveraddress().to_string(),
false,
sd.messages_list(),
);
sleep(Duration::from_millis(5000)).await;
let maybe_entry = {
let guard = sd.messages_received_ref().lock().unwrap();
guard.clone()
}; // guard dropped
for (id, (evt, time)) in maybe_entry.iter() {
println!("{} : {} at {}", id, evt.to_string(), time.to_string());
if id.eq(&addr.to_string()) && Timestamp::now().diff(time) < 10 {
println!("received message from address, returning said address..");
return Ok(addr);
}
}
if quick_ping(&addr, 15000, sd).await {
return Ok(addr);
}
}
Err(FetchSocketAddressError::NoResponseFromUser)
}
pub async fn get_server_address(username: String, ip: String) -> Option<SocketAddr> {
let client = Client::builder() let client = Client::builder()
.timeout(Duration::from_secs(5)) .timeout(Duration::from_secs(5))
.build() .build()

58
client-network/src/message_handling.rs
View File

@@ -1,5 +1,7 @@
use tokio::sync::oneshot;
use crate::{ use crate::{
NetworkEvent, NodeHash, NetworkEvent, NodeHash, P2PSharedData,
cryptographic_signature::{ cryptographic_signature::{
CryptographicSignature, get_peer_key, sign_message, verify_signature, CryptographicSignature, get_peer_key, sign_message, verify_signature,
}, },
@@ -9,9 +11,11 @@ use crate::{
peers_refresh::HandshakeHistory, peers_refresh::HandshakeHistory,
registration, registration,
server_communication::generate_id, server_communication::generate_id,
timestamp::Timestamp,
}; };
use std::{ use std::{
collections::HashMap, collections::HashMap,
default,
net::{Ipv4Addr, SocketAddr}, net::{Ipv4Addr, SocketAddr},
}; };
use std::{ use std::{
@@ -20,7 +24,7 @@ use std::{
}; };
// Types of messages that await for a response // Types of messages that await for a response
#[derive(Debug)] #[derive(Debug, Clone)]
pub enum EventType { pub enum EventType {
HelloThenRootRequest, HelloThenRootRequest,
Hello, Hello,
@@ -28,6 +32,32 @@ pub enum EventType {
Ping, Ping,
NatTraversal, NatTraversal,
DatumRequest, DatumRequest,
Unknown,
}
impl EventType {
pub fn to_string(&self) -> String {
match self {
EventType::HelloThenRootRequest => "HelloThenRootRequest".to_owned(),
EventType::Hello => "Hello".to_owned(),
EventType::RootRequest => "RootRequest".to_owned(),
EventType::Ping => "Ping".to_owned(),
EventType::NatTraversal => "NatTraversal".to_owned(),
EventType::DatumRequest => "DatumRequest".to_owned(),
EventType::Unknown => "Unknown".to_owned(),
}
}
pub fn from_msgtype(msgtype: u8) -> EventType {
match msgtype {
PING => EventType::Ping,
HELLO => EventType::Hello,
ROOTREQUEST => EventType::RootRequest,
NATTRAVERSALREQUEST => EventType::NatTraversal,
DATUMREQUEST => EventType::DatumRequest,
_ => EventType::Unknown,
}
}
} }
const ID: usize = 4; const ID: usize = 4;
@@ -51,6 +81,7 @@ const NATTRAVERSALREQUEST2: u8 = 5;
pub fn handle_recevied_message( pub fn handle_recevied_message(
messages_list: &Arc<Mutex<HashMap<i32, EventType>>>, messages_list: &Arc<Mutex<HashMap<i32, EventType>>>,
messages_received: &Arc<Mutex<HashMap<String, (EventType, Timestamp)>>>,
recevied_message: &Vec<u8>, recevied_message: &Vec<u8>,
crypto_pair: &CryptographicSignature, crypto_pair: &CryptographicSignature,
//socket_addr: &SocketAddr, //socket_addr: &SocketAddr,
@@ -89,6 +120,7 @@ pub fn handle_recevied_message(
cmd_tx, cmd_tx,
ip, ip,
messages_list, messages_list,
messages_received,
handhsake_history, handhsake_history,
senders, senders,
); );
@@ -114,6 +146,7 @@ pub fn parse_message(
cmd_tx: crossbeam_channel::Sender<NetworkEvent>, cmd_tx: crossbeam_channel::Sender<NetworkEvent>,
ip: SocketAddr, ip: SocketAddr,
messages_list: &Arc<Mutex<HashMap<i32, EventType>>>, messages_list: &Arc<Mutex<HashMap<i32, EventType>>>,
messages_received: &Arc<Mutex<HashMap<String, (EventType, Timestamp)>>>,
handhsake_history: Arc<HandshakeHistory>, handhsake_history: Arc<HandshakeHistory>,
senders: &MultipleSenders, senders: &MultipleSenders,
) -> Option<Vec<u8>> { ) -> Option<Vec<u8>> {
@@ -125,6 +158,14 @@ pub fn parse_message(
let msgtype = received_message[ID]; let msgtype = received_message[ID];
messages_received
.lock()
.expect("couldnt lock received map")
.insert(
ip.to_string(),
(EventType::from_msgtype(msgtype), Timestamp::now()),
);
let length_bytes: [u8; 2] = received_message[TYPE..LENGTH] let length_bytes: [u8; 2] = received_message[TYPE..LENGTH]
.try_into() .try_into()
.expect("Taille incorrecte"); .expect("Taille incorrecte");
@@ -134,6 +175,7 @@ pub fn parse_message(
match msgtype { match msgtype {
HELLO | HELLOREPLY => { HELLO | HELLOREPLY => {
let ilength = u16::from_be_bytes(length_bytes); let ilength = u16::from_be_bytes(length_bytes);
println!("hello");
println!("name received length: {}", ilength); println!("name received length: {}", ilength);
let received_name = &received_message[LENGTH + EXTENSIONS..LENGTH + ilength as usize]; let received_name = &received_message[LENGTH + EXTENSIONS..LENGTH + ilength as usize];
let received_username = String::from_utf8(received_name.to_vec()); let received_username = String::from_utf8(received_name.to_vec());
@@ -147,12 +189,14 @@ pub fn parse_message(
.block_on(get_peer_key(&username)) .block_on(get_peer_key(&username))
.expect("failed to retrieve public key"), .expect("failed to retrieve public key"),
}; };
println!("handshake JULIUS added"); match msgtype {
HELLOREPLY => {
handhsake_history.add_new_handshake(peer_pubkey, "".to_string(), ip); handhsake_history.add_new_handshake(peer_pubkey, "".to_string(), ip);
let signature: [u8; SIGNATURE] = received_message }
[LENGTH + msg_length..LENGTH + msg_length + SIGNATURE] _ => {
.try_into() println!("no handshake added");
.expect("Taille incorrecte"); }
}
if !verify_signature(peer_pubkey, &received_message) { if !verify_signature(peer_pubkey, &received_message) {
println!( println!(
"incorrect signature from given peer: {}, ignoring message of type {} with id {}", "incorrect signature from given peer: {}, ignoring message of type {} with id {}",

5
client-network/src/messages_channels.rs
View File

@@ -1,8 +1,8 @@
use crossbeam_channel::Receiver; use crossbeam_channel::Receiver;
use tokio::sync::oneshot;
use tokio::time::sleep; use tokio::time::sleep;
use crate::P2PSharedData; use crate::P2PSharedData;
use crate::cryptographic_signature::CryptographicSignature;
use crate::message_handling::EventType; use crate::message_handling::EventType;
use crate::message_handling::handle_recevied_message; use crate::message_handling::handle_recevied_message;
use crate::peers_refresh::HandshakeHistory; use crate::peers_refresh::HandshakeHistory;
@@ -193,6 +193,7 @@ pub fn start_retry_thread(
// on verifie si le message a recu une reponse // on verifie si le message a recu une reponse
let message_id: [u8; 4] = front.msg.payload[0..4].try_into().expect("size error"); let message_id: [u8; 4] = front.msg.payload[0..4].try_into().expect("size error");
let id = i32::from_be_bytes(message_id); let id = i32::from_be_bytes(message_id);
let message_type = front.msg.payload[4]; let message_type = front.msg.payload[4];
let guard = messages_list.lock().unwrap(); let guard = messages_list.lock().unwrap();
@@ -268,6 +269,7 @@ pub fn start_receving_thread(
let cryptopair_clone = shared_data.cryptopair(); let cryptopair_clone = shared_data.cryptopair();
let senders_clone = shared_data.senders(); let senders_clone = shared_data.senders();
let messages_clone = shared_data.messages_list(); let messages_clone = shared_data.messages_list();
let messages_received_clone = shared_data.messages_received();
let servername_clone = shared_data.servername(); let servername_clone = shared_data.servername();
let thread = thread::spawn(move || { let thread = thread::spawn(move || {
let mut buf = [0u8; 1024]; let mut buf = [0u8; 1024];
@@ -279,6 +281,7 @@ pub fn start_receving_thread(
println!("Reçu {} octets de {}: {:?}", amt, src, received_data); println!("Reçu {} octets de {}: {:?}", amt, src, received_data);
handle_recevied_message( handle_recevied_message(
&messages_clone, &messages_clone,
&messages_received_clone,
&received_data, &received_data,
&cryptopair_clone, &cryptopair_clone,
&senders_clone, &senders_clone,

11
client-network/src/peers_refresh.rs
View File

@@ -90,6 +90,10 @@ impl HandshakeHistory {
} }
} }
pub fn get_username_peerinfo_map(&self) -> Arc<Mutex<HashMap<String, PeerInfo>>> {
self.username_k_peerinfo_v.clone()
}
pub fn add_new_handshake(&self, hash: VerifyingKey, username: String, ip: SocketAddr) { pub fn add_new_handshake(&self, hash: VerifyingKey, username: String, ip: SocketAddr) {
let peerinfo = PeerInfo { let peerinfo = PeerInfo {
username: username.clone(), username: username.clone(),
@@ -112,14 +116,11 @@ pub fn update_handshake(
let map_for_thread = username_k_peerinfo_v.clone(); let map_for_thread = username_k_peerinfo_v.clone();
let handle = thread::spawn(move || { let handle = thread::spawn(move || {
loop { loop {
println!("loop boucle");
let guard = map_for_thread.lock().unwrap(); let guard = map_for_thread.lock().unwrap();
println!("len:{}", guard.len());
for (peer, peerinfo) in guard.iter() { for (peer, peerinfo) in guard.iter() {
let id = generate_id(); let id = generate_id();
let mut map = messages_list.lock().unwrap(); let mut map = messages_list.lock().unwrap();
map.insert(id, EventType::Ping); map.insert(id, EventType::Ping);
drop(map);
let pingrequest = construct_message(PING, Vec::new(), id, &crypto_pair); let pingrequest = construct_message(PING, Vec::new(), id, &crypto_pair);
if let Some(ping) = pingrequest { if let Some(ping) = pingrequest {
senders.add_message_to_retry_queue( senders.add_message_to_retry_queue(
@@ -133,10 +134,10 @@ pub fn update_handshake(
false, false,
messages_list.clone(), messages_list.clone(),
); );
println!("ping envoye a {}", peer);
} }
} }
thread::sleep(Duration::from_secs(2)); drop(guard);
thread::sleep(Duration::from_secs(240));
} }
}); });
Worker::spawn(handle, crate::threads_handling::WorkerType::PING) Worker::spawn(handle, crate::threads_handling::WorkerType::PING)

23
client-network/src/registration.rs
View File

@@ -1,19 +1,14 @@
use bytes::Bytes;
use crate::NetworkEvent; use crate::NetworkEvent;
use crate::P2PSharedData; use crate::P2PSharedData;
use crate::cryptographic_signature::{CryptographicSignature, formatPubKey, sign_message}; use crate::cryptographic_signature::CryptographicSignature;
use crate::get_socket_address; use crate::get_server_address;
use crate::message_handling::EventType; use crate::message_handling::EventType;
use crate::messages_channels::MultipleSenders;
use crate::messages_structure::construct_message; use crate::messages_structure::construct_message;
use crate::server_communication::generate_id; use crate::server_communication::generate_id;
use crossbeam_channel::{Receiver, Sender}; use crossbeam_channel::Sender;
use std::collections::HashMap;
use std::net::SocketAddr; use std::net::SocketAddr;
use std::net::UdpSocket;
use std::str::FromStr; use std::str::FromStr;
use std::sync::{Arc, Mutex}; use std::sync::Arc;
/// ///
/// sends the cryptographic signature to the server using a PUT request over the HTTP API. /// sends the cryptographic signature to the server using a PUT request over the HTTP API.
@@ -29,9 +24,14 @@ pub async fn register_with_the_server(
let pubkey_bytes_minus = pubkey_bytes[1..].to_vec(); let pubkey_bytes_minus = pubkey_bytes[1..].to_vec();
let res = client.put(uri).body(pubkey_bytes_minus).send().await?; let res = client.put(uri).body(pubkey_bytes_minus).send().await?;
let res = res.error_for_status()?; let res = res.error_for_status()?;
match res.error_for_status() {
Ok(_) => {
println!("register ip adresses"); println!("register ip adresses");
Ok(()) Ok(())
} }
Err(e) => Err(e),
}
}
pub fn parse_addresses(input: &String) -> Vec<SocketAddr> { pub fn parse_addresses(input: &String) -> Vec<SocketAddr> {
let mut addrs = Vec::new(); let mut addrs = Vec::new();
@@ -62,10 +62,11 @@ pub async fn perform_handshake(
let senders = sd.senders_ref(); let senders = sd.senders_ref();
let id = generate_id(); let id = generate_id();
let server_addr_query = get_socket_address(username.clone(), ip.clone()); let server_addr_query = get_server_address(username.clone(), ip.clone());
match server_addr_query.await { match server_addr_query.await {
Some(sockaddr_bytes) => { Some(sockaddr_bytes) => {
sd.set_servername(username); sd.set_servername(username);
sd.set_serveraddress(sockaddr_bytes.to_string());
// first: &SocketAddr // first: &SocketAddr
let mut payload = Vec::new(); let mut payload = Vec::new();
payload.extend_from_slice(&0u32.to_be_bytes()); payload.extend_from_slice(&0u32.to_be_bytes());
@@ -115,8 +116,6 @@ pub async fn perform_handshake(
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
// Note this useful idiom: importing names from outer (for mod tests) scope.
use super::*;
/*/// /*///
/// does the procedure to register with the server /// does the procedure to register with the server

46
client-network/src/timestamp.rs Normal file
View File

@@ -0,0 +1,46 @@
use std::time::{SystemTime, UNIX_EPOCH};
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub struct Timestamp {
secs: u64, // seconds since UNIX epoch
}
unsafe impl Send for Timestamp {}
impl Timestamp {
// Create a Timestamp from current system time
pub fn now() -> Self {
let dur = SystemTime::now()
.duration_since(UNIX_EPOCH)
.expect("system time before UNIX_EPOCH");
Self {
secs: dur.as_secs(),
}
}
// Create from explicit fields (optional helper)
pub fn from_secs(secs: u64) -> Self {
Self { secs }
}
// Return underlying seconds
pub fn as_secs(&self) -> u64 {
self.secs
}
// Return elapsed seconds between `self` and `other`.
// Panics if `other` is in the future relative to `self`.
// If you call `Timestamp::now().diff(past)`, it returns seconds since `past`.
pub fn diff(&self, earlier: &Timestamp) -> u64 {
assert!(earlier.secs <= self.secs, "given time is in the future");
self.secs - earlier.secs
}
pub fn to_string(&self) -> String {
let secs_of_day = self.secs % 86_400;
let hh = secs_of_day / 3600;
let mm = (secs_of_day % 3600) / 60;
let ss = secs_of_day % 60;
format!("{:02}:{:02}:{:02}", hh, mm, ss)
}
}