// SPDX-FileCopyrightText: Copyright 2017 Citra Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#include <algorithm>
#include <atomic>
#include <iomanip>
#include <mutex>
#include <random>
#include <regex>
#include <shared_mutex>
#include <sstream>
#include <thread>
#include "common/logging/log.h"
#include "enet/enet.h"
#include "network/packet.h"
#include "network/room.h"
#include "network/verify_user.h"
namespace Network {
class Room::RoomImpl {
public:
std::mt19937 random_gen; ///< Random number generator. Used for GenerateFakeIPAddress
ENetHost* server = nullptr; ///< Network interface.
std::atomic<State> state{State::Closed}; ///< Current state of the room.
RoomInformation room_information; ///< Information about this room.
std::string verify_uid; ///< A GUID which may be used for verfication.
mutable std::mutex verify_uid_mutex; ///< Mutex for verify_uid
std::string password; ///< The password required to connect to this room.
struct Member {
std::string nickname; ///< The nickname of the member.
GameInfo game_info; ///< The current game of the member
IPv4Address fake_ip; ///< The assigned fake ip address of the member.
/// Data of the user, often including authenticated forum username.
VerifyUser::UserData user_data;
ENetPeer* peer; ///< The remote peer.
};
using MemberList = std::vector<Member>;
MemberList members; ///< Information about the members of this room
mutable std::shared_mutex member_mutex; ///< Mutex for locking the members list
UsernameBanList username_ban_list; ///< List of banned usernames
IPBanList ip_ban_list; ///< List of banned IP addresses
mutable std::mutex ban_list_mutex; ///< Mutex for the ban lists
RoomImpl() : random_gen(std::random_device()()) {}
/// Thread that receives and dispatches network packets
std::unique_ptr<std::thread> room_thread;
/// Verification backend of the room
std::unique_ptr<VerifyUser::Backend> verify_backend;
/// Thread function that will receive and dispatch messages until the room is destroyed.
void ServerLoop();
void StartLoop();
/**
* Parses and answers a room join request from a client.
* Validates the uniqueness of the username and assigns the MAC address
* that the client will use for the remainder of the connection.
*/
void HandleJoinRequest(const ENetEvent* event);
/**
* Parses and answers a kick request from a client.
* Validates the permissions and that the given user exists and then kicks the member.
*/
void HandleModKickPacket(const ENetEvent* event);
/**
* Parses and answers a ban request from a client.
* Validates the permissions and bans the user (by forum username or IP).
*/
void HandleModBanPacket(const ENetEvent* event);
/**
* Parses and answers a unban request from a client.
* Validates the permissions and unbans the address.
*/
void HandleModUnbanPacket(const ENetEvent* event);
/**
* Parses and answers a get ban list request from a client.
* Validates the permissions and returns the ban list.
*/
void HandleModGetBanListPacket(const ENetEvent* event);
/**
* Returns whether the nickname is valid, ie. isn't already taken by someone else in the room.
*/
bool IsValidNickname(const std::string& nickname) const;
/**
* Returns whether the fake ip address is valid, ie. isn't already taken by someone else in the
* room.
*/
bool IsValidFakeIPAddress(const IPv4Address& address) const;
/**
* Returns whether a user has mod permissions.
*/
bool HasModPermission(const ENetPeer* client) const;
/**
* Sends a ID_ROOM_IS_FULL message telling the client that the room is full.
*/
void SendRoomIsFull(ENetPeer* client);
/**
* Sends a ID_ROOM_NAME_COLLISION message telling the client that the name is invalid.
*/
void SendNameCollision(ENetPeer* client);
/**
* Sends a ID_ROOM_IP_COLLISION message telling the client that the IP is invalid.
*/
void SendIPCollision(ENetPeer* client);
/**
* Sends a ID_ROOM_VERSION_MISMATCH message telling the client that the version is invalid.
*/
void SendVersionMismatch(ENetPeer* client);
/**
* Sends a ID_ROOM_WRONG_PASSWORD message telling the client that the password is wrong.
*/
void SendWrongPassword(ENetPeer* client);
/**
* Notifies the member that its connection attempt was successful,
* and it is now part of the room.
*/
void SendJoinSuccess(ENetPeer* client, IPv4Address fake_ip);
/**
* Notifies the member that its connection attempt was successful,
* and it is now part of the room, and it has been granted mod permissions.
*/
void SendJoinSuccessAsMod(ENetPeer* client, IPv4Address fake_ip);
/**
* Sends a IdHostKicked message telling the client that they have been kicked.
*/
void SendUserKicked(ENetPeer* client);
/**
* Sends a IdHostBanned message telling the client that they have been banned.
*/
void SendUserBanned(ENetPeer* client);
/**
* Sends a IdModPermissionDenied message telling the client that they do not have mod
* permission.
*/
void SendModPermissionDenied(ENetPeer* client);
/**
* Sends a IdModNoSuchUser message telling the client that the given user could not be found.
*/
void SendModNoSuchUser(ENetPeer* client);
/**
* Sends the ban list in response to a client's request for getting ban list.
*/
void SendModBanListResponse(ENetPeer* client);
/**
* Notifies the members that the room is closed,
*/
void SendCloseMessage();
/**
* Sends a system message to all the connected clients.
*/
void SendStatusMessage(StatusMessageTypes type, const std::string& nickname,
const std::string& username, const std::string& ip);
/**
* Sends the information about the room, along with the list of members
* to every connected client in the room.
* The packet has the structure:
* <MessageID>ID_ROOM_INFORMATION
* <String> room_name
* <String> room_description
* <u32> member_slots: The max number of clients allowed in this room
* <String> uid
* <u16> port
* <u32> num_members: the number of currently joined clients
* This is followed by the following three values for each member:
* <String> nickname of that member
* <IPv4Address> fake_ip of that member
* <String> game_name of that member
*/
void BroadcastRoomInformation();
/**
* Generates a free MAC address to assign to a new client.
* The first 3 bytes are the NintendoOUI 0x00, 0x1F, 0x32
*/
IPv4Address GenerateFakeIPAddress();
/**
* Broadcasts this packet to all members except the sender.
* @param event The ENet event containing the data
*/
void HandleProxyPacket(const ENetEvent* event);
/**
* Extracts a chat entry from a received ENet packet and adds it to the chat queue.
* @param event The ENet event that was received.
*/
void HandleChatPacket(const ENetEvent* event);
/**
* Extracts the game name from a received ENet packet and broadcasts it.
* @param event The ENet event that was received.
*/
void HandleGameNamePacket(const ENetEvent* event);
/**
* Removes the client from the members list if it was in it and announces the change
* to all other clients.
*/
void HandleClientDisconnection(ENetPeer* client);
};
// RoomImpl
void Room::RoomImpl::ServerLoop() {
while (state != State::Closed) {
ENetEvent event;
if (enet_host_service(server, &event, 50) > 0) {
switch (event.type) {
case ENET_EVENT_TYPE_RECEIVE:
switch (event.packet->data[0]) {
case IdJoinRequest:
HandleJoinRequest(&event);
break;
case IdSetGameInfo:
HandleGameNamePacket(&event);
break;
case IdProxyPacket:
HandleProxyPacket(&event);
break;
case IdChatMessage:
HandleChatPacket(&event);
break;
// Moderation
case IdModKick:
HandleModKickPacket(&event);
break;
case IdModBan:
HandleModBanPacket(&event);
break;
case IdModUnban:
HandleModUnbanPacket(&event);
break;
case IdModGetBanList:
HandleModGetBanListPacket(&event);
break;
}
enet_packet_destroy(event.packet);
break;
case ENET_EVENT_TYPE_DISCONNECT:
HandleClientDisconnection(event.peer);
break;
case ENET_EVENT_TYPE_NONE:
case ENET_EVENT_TYPE_CONNECT:
break;
}
}
}
// Close the connection to all members:
SendCloseMessage();
}
void Room::RoomImpl::StartLoop() {
room_thread = std::make_unique<std::thread>(&Room::RoomImpl::ServerLoop, this);
}
void Room::RoomImpl::HandleJoinRequest(const ENetEvent* event) {
{
std::lock_guard lock(member_mutex);
if (members.size() >= room_information.member_slots) {
SendRoomIsFull(event->peer);
return;
}
}
Packet packet;
packet.Append(event->packet->data, event->packet->dataLength);
packet.IgnoreBytes(sizeof(u8)); // Ignore the message type
std::string nickname;
packet.Read(nickname);
IPv4Address preferred_fake_ip;
packet.Read(preferred_fake_ip);
u32 client_version;
packet.Read(client_version);
std::string pass;
packet.Read(pass);
std::string token;
packet.Read(token);
if (pass != password) {
SendWrongPassword(event->peer);
return;
}
if (!IsValidNickname(nickname)) {
SendNameCollision(event->peer);
return;
}
if (preferred_fake_ip != NoPreferredIP) {
// Verify if the preferred fake ip is available
if (!IsValidFakeIPAddress(preferred_fake_ip)) {
SendIPCollision(event->peer);
return;
}
} else {
// Assign a fake ip address of this client automatically
preferred_fake_ip = GenerateFakeIPAddress();
}
if (client_version != network_version) {
SendVersionMismatch(event->peer);
return;
}
// At this point the client is ready to be added to the room.
Member member{};
member.fake_ip = preferred_fake_ip;
member.nickname = nickname;
member.peer = event->peer;
std::string uid;
{
std::lock_guard lock(verify_uid_mutex);
uid = verify_uid;
}
member.user_data = verify_backend->LoadUserData(uid, token);
std::string ip;
{
std::lock_guard lock(ban_list_mutex);
// Check username ban
if (!member.user_data.username.empty() &&
std::find(username_ban_list.begin(), username_ban_list.end(),
member.user_data.username) != username_ban_list.end()) {
SendUserBanned(event->peer);
return;
}
// Check IP ban
std::array<char, 256> ip_raw{};
enet_address_get_host_ip(&event->peer->address, ip_raw.data(), sizeof(ip_raw) - 1);
ip = ip_raw.data();
if (std::find(ip_ban_list.begin(), ip_ban_list.end(), ip) != ip_ban_list.end()) {
SendUserBanned(event->peer);
return;
}
}
// Notify everyone that the user has joined.
SendStatusMessage(IdMemberJoin, member.nickname, member.user_data.username, ip);
{
std::lock_guard lock(member_mutex);
members.push_back(std::move(member));
}
// Notify everyone that the room information has changed.
BroadcastRoomInformation();
if (HasModPermission(event->peer)) {
SendJoinSuccessAsMod(event->peer, preferred_fake_ip);
} else {
SendJoinSuccess(event->peer, preferred_fake_ip);
}
}
void Room::RoomImpl::HandleModKickPacket(const ENetEvent* event) {
if (!HasModPermission(event->peer)) {
SendModPermissionDenied(event->peer);
return;
}
Packet packet;
packet.Append(event->packet->data, event->packet->dataLength);
packet.IgnoreBytes(sizeof(u8)); // Ignore the message type
std::string nickname;
packet.Read(nickname);
std::string username, ip;
{
std::lock_guard lock(member_mutex);
const auto target_member =
std::find_if(members.begin(), members.end(),
[&nickname](const auto& member) { return member.nickname == nickname; });
if (target_member == members.end()) {
SendModNoSuchUser(event->peer);
return;
}
// Notify the kicked member
SendUserKicked(target_member->peer);
username = target_member->user_data.username;
std::array<char, 256> ip_raw{};
enet_address_get_host_ip(&target_member->peer->address, ip_raw.data(), sizeof(ip_raw) - 1);
ip = ip_raw.data();
enet_peer_disconnect(target_member->peer, 0);
members.erase(target_member);
}
// Announce the change to all clients.
SendStatusMessage(IdMemberKicked, nickname, username, ip);
BroadcastRoomInformation();
}
void Room::RoomImpl::HandleModBanPacket(const ENetEvent* event) {
if (!HasModPermission(event->peer)) {
SendModPermissionDenied(event->peer);
return;
}
Packet packet;
packet.Append(event->packet->data, event->packet->dataLength);
packet.IgnoreBytes(sizeof(u8)); // Ignore the message type
std::string nickname;
packet.Read(nickname);
std::string username, ip;
{
std::lock_guard lock(member_mutex);
const auto target_member =
std::find_if(members.begin(), members.end(),
[&nickname](const auto& member) { return member.nickname == nickname; });
if (target_member == members.end()) {
SendModNoSuchUser(event->peer);
return;
}
// Notify the banned member
SendUserBanned(target_member->peer);
nickname = target_member->nickname;
username = target_member->user_data.username;
std::array<char, 256> ip_raw{};
enet_address_get_host_ip(&target_member->peer->address, ip_raw.data(), sizeof(ip_raw) - 1);
ip = ip_raw.data();
enet_peer_disconnect(target_member->peer, 0);
members.erase(target_member);
}
{
std::lock_guard lock(ban_list_mutex);
if (!username.empty()) {
// Ban the forum username
if (std::find(username_ban_list.begin(), username_ban_list.end(), username) ==
username_ban_list.end()) {
username_ban_list.emplace_back(username);
}
}
// Ban the member's IP as well
if (std::find(ip_ban_list.begin(), ip_ban_list.end(), ip) == ip_ban_list.end()) {
ip_ban_list.emplace_back(ip);
}
}
// Announce the change to all clients.
SendStatusMessage(IdMemberBanned, nickname, username, ip);
BroadcastRoomInformation();
}
void Room::RoomImpl::HandleModUnbanPacket(const ENetEvent* event) {
if (!HasModPermission(event->peer)) {
SendModPermissionDenied(event->peer);
return;
}
Packet packet;
packet.Append(event->packet->data, event->packet->dataLength);
packet.IgnoreBytes(sizeof(u8)); // Ignore the message type
std::string address;
packet.Read(address);
bool unbanned = false;
{
std::lock_guard lock(ban_list_mutex);
auto it = std::find(username_ban_list.begin(), username_ban_list.end(), address);
if (it != username_ban_list.end()) {
unbanned = true;
username_ban_list.erase(it);
}
it = std::find(ip_ban_list.begin(), ip_ban_list.end(), address);
if (it != ip_ban_list.end()) {
unbanned = true;
ip_ban_list.erase(it);
}
}
if (unbanned) {
SendStatusMessage(IdAddressUnbanned, address, "", "");
} else {
SendModNoSuchUser(event->peer);
}
}
void Room::RoomImpl::HandleModGetBanListPacket(const ENetEvent* event) {
if (!HasModPermission(event->peer)) {
SendModPermissionDenied(event->peer);
return;
}
SendModBanListResponse(event->peer);
}
bool Room::RoomImpl::IsValidNickname(const std::string& nickname) const {
// A nickname is valid if it matches the regex and is not already taken by anybody else in the
// room.
const std::regex nickname_regex("^[ a-zA-Z0-9._-]{4,20}$");
if (!std::regex_match(nickname, nickname_regex))
return false;
std::lock_guard lock(member_mutex);
return std::all_of(members.begin(), members.end(),
[&nickname](const auto& member) { return member.nickname != nickname; });
}
bool Room::RoomImpl::IsValidFakeIPAddress(const IPv4Address& address) const {
// An IP address is valid if it is not already taken by anybody else in the room.
std::lock_guard lock(member_mutex);
return std::all_of(members.begin(), members.end(),
[&address](const auto& member) { return member.fake_ip != address; });
}
bool Room::RoomImpl::HasModPermission(const ENetPeer* client) const {
std::lock_guard lock(member_mutex);
const auto sending_member =
std::find_if(members.begin(), members.end(),
[client](const auto& member) { return member.peer == client; });
if (sending_member == members.end()) {
return false;
}
if (room_information.enable_yuzu_mods &&
sending_member->user_data.moderator) { // Community moderator
return true;
}
if (!room_information.host_username.empty() &&
sending_member->user_data.username == room_information.host_username) { // Room host
return true;
}
return false;
}
void Room::RoomImpl::SendNameCollision(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdNameCollision));
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendIPCollision(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdIpCollision));
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendWrongPassword(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdWrongPassword));
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendRoomIsFull(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdRoomIsFull));
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendVersionMismatch(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdVersionMismatch));
packet.Write(network_version);
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendJoinSuccess(ENetPeer* client, IPv4Address fake_ip) {
Packet packet;
packet.Write(static_cast<u8>(IdJoinSuccess));
packet.Write(fake_ip);
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendJoinSuccessAsMod(ENetPeer* client, IPv4Address fake_ip) {
Packet packet;
packet.Write(static_cast<u8>(IdJoinSuccessAsMod));
packet.Write(fake_ip);
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendUserKicked(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdHostKicked));
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendUserBanned(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdHostBanned));
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendModPermissionDenied(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdModPermissionDenied));
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendModNoSuchUser(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdModNoSuchUser));
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendModBanListResponse(ENetPeer* client) {
Packet packet;
packet.Write(static_cast<u8>(IdModBanListResponse));
{
std::lock_guard lock(ban_list_mutex);
packet.Write(username_ban_list);
packet.Write(ip_ban_list);
}
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_peer_send(client, 0, enet_packet);
enet_host_flush(server);
}
void Room::RoomImpl::SendCloseMessage() {
Packet packet;
packet.Write(static_cast<u8>(IdCloseRoom));
std::lock_guard lock(member_mutex);
if (!members.empty()) {
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
for (auto& member : members) {
enet_peer_send(member.peer, 0, enet_packet);
}
}
enet_host_flush(server);
for (auto& member : members) {
enet_peer_disconnect(member.peer, 0);
}
}
void Room::RoomImpl::SendStatusMessage(StatusMessageTypes type, const std::string& nickname,
const std::string& username, const std::string& ip) {
Packet packet;
packet.Write(static_cast<u8>(IdStatusMessage));
packet.Write(static_cast<u8>(type));
packet.Write(nickname);
packet.Write(username);
std::lock_guard lock(member_mutex);
if (!members.empty()) {
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
for (auto& member : members) {
enet_peer_send(member.peer, 0, enet_packet);
}
}
enet_host_flush(server);
const std::string display_name =
username.empty() ? nickname : fmt::format("{} ({})", nickname, username);
switch (type) {
case IdMemberJoin:
LOG_INFO(Network, "[{}] {} has joined.", ip, display_name);
break;
case IdMemberLeave:
LOG_INFO(Network, "[{}] {} has left.", ip, display_name);
break;
case IdMemberKicked:
LOG_INFO(Network, "[{}] {} has been kicked.", ip, display_name);
break;
case IdMemberBanned:
LOG_INFO(Network, "[{}] {} has been banned.", ip, display_name);
break;
case IdAddressUnbanned:
LOG_INFO(Network, "{} has been unbanned.", display_name);
break;
}
}
void Room::RoomImpl::BroadcastRoomInformation() {
Packet packet;
packet.Write(static_cast<u8>(IdRoomInformation));
packet.Write(room_information.name);
packet.Write(room_information.description);
packet.Write(room_information.member_slots);
packet.Write(room_information.port);
packet.Write(room_information.preferred_game.name);
packet.Write(room_information.host_username);
packet.Write(static_cast<u32>(members.size()));
{
std::lock_guard lock(member_mutex);
for (const auto& member : members) {
packet.Write(member.nickname);
packet.Write(member.fake_ip);
packet.Write(member.game_info.name);
packet.Write(member.game_info.id);
packet.Write(member.user_data.username);
packet.Write(member.user_data.display_name);
packet.Write(member.user_data.avatar_url);
}
}
ENetPacket* enet_packet =
enet_packet_create(packet.GetData(), packet.GetDataSize(), ENET_PACKET_FLAG_RELIABLE);
enet_host_broadcast(server, 0, enet_packet);
enet_host_flush(server);
}
IPv4Address Room::RoomImpl::GenerateFakeIPAddress() {
IPv4Address result_ip{192, 168, 0, 0};
std::uniform_int_distribution<> dis(0x01, 0xFE); // Random byte between 1 and 0xFE
do {
for (std::size_t i = 2; i < result_ip.size(); ++i) {
result_ip[i] = dis(random_gen);
}
} while (!IsValidFakeIPAddress(result_ip));
return result_ip;
}
void Room::RoomImpl::HandleProxyPacket(const ENetEvent* event) {
Packet in_packet;
in_packet.Append(event->packet->data, event->packet->dataLength);
in_packet.IgnoreBytes(sizeof(u8)); // Message type
in_packet.IgnoreBytes(sizeof(u8)); // Domain
in_packet.IgnoreBytes(sizeof(IPv4Address)); // IP
in_packet.IgnoreBytes(sizeof(u16)); // Port
in_packet.IgnoreBytes(sizeof(u8)); // Domain
IPv4Address remote_ip;
in_packet.Read(remote_ip); // IP
in_packet.IgnoreBytes(sizeof(u16)); // Port
in_packet.IgnoreBytes(sizeof(u8)); // Protocol
bool broadcast;
in_packet.Read(broadcast); // Broadcast
Packet out_packet;
out_packet.Append(event->packet->data, event->packet->dataLength);
ENetPacket* enet_packet = enet_packet_create(out_packet.GetData(), out_packet.GetDataSize(),
ENET_PACKET_FLAG_RELIABLE);
const auto& destination_address = remote_ip;
if (broadcast) { // Send the data to everyone except the sender
std::lock_guard lock(member_mutex);
bool sent_packet = false;
for (const auto& member : members) {
if (member.peer != event->peer) {
sent_packet = true;
enet_peer_send(member.peer, 0, enet_packet);
}
}
if (!sent_packet) {
enet_packet_destroy(enet_packet);
}
} else { // Send the data only to the destination client
std::lock_guard lock(member_mutex);
auto member = std::find_if(members.begin(), members.end(),
[destination_address](const Member& member_entry) -> bool {
return member_entry.fake_ip == destination_address;
});
if (member != members.end()) {
enet_peer_send(member->peer, 0, enet_packet);
} else {
LOG_ERROR(Network,
"Attempting to send to unknown IP address: "
"{}.{}.{}.{}",
destination_address[0], destination_address[1], destination_address[2],
destination_address[3]);
enet_packet_destroy(enet_packet);
}
}
enet_host_flush(server);
}
void Room::RoomImpl::HandleChatPacket(const ENetEvent* event) {
Packet in_packet;
in_packet.Append(event->packet->data, event->packet->dataLength);
in_packet.IgnoreBytes(sizeof(u8)); // Ignore the message type
std::string message;
in_packet.Read(message);
auto CompareNetworkAddress = [event](const Member member) -> bool {
return member.peer == event->peer;
};
std::lock_guard lock(member_mutex);
const auto sending_member = std::find_if(members.begin(), members.end(), CompareNetworkAddress);
if (sending_member == members.end()) {
return; // Received a chat message from a unknown sender
}
// Limit the size of chat messages to MaxMessageSize
message.resize(std::min(static_cast<u32>(message.size()), MaxMessageSize));
Packet out_packet;
out_packet.Write(static_cast<u8>(IdChatMessage));
out_packet.Write(sending_member->nickname);
out_packet.Write(sending_member->user_data.username);
out_packet.Write(message);
ENetPacket* enet_packet = enet_packet_create(out_packet.GetData(), out_packet.GetDataSize(),
ENET_PACKET_FLAG_RELIABLE);
bool sent_packet = false;
for (const auto& member : members) {
if (member.peer != event->peer) {
sent_packet = true;
enet_peer_send(member.peer, 0, enet_packet);
}
}
if (!sent_packet) {
enet_packet_destroy(enet_packet);
}
enet_host_flush(server);
if (sending_member->user_data.username.empty()) {
LOG_INFO(Network, "{}: {}", sending_member->nickname, message);
} else {
LOG_INFO(Network, "{} ({}): {}", sending_member->nickname,
sending_member->user_data.username, message);
}
}
void Room::RoomImpl::HandleGameNamePacket(const ENetEvent* event) {
Packet in_packet;
in_packet.Append(event->packet->data, event->packet->dataLength);
in_packet.IgnoreBytes(sizeof(u8)); // Ignore the message type
GameInfo game_info;
in_packet.Read(game_info.name);
in_packet.Read(game_info.id);
{
std::lock_guard lock(member_mutex);
auto member = std::find_if(members.begin(), members.end(),
[event](const Member& member_entry) -> bool {
return member_entry.peer == event->peer;
});
if (member != members.end()) {
member->game_info = game_info;
const std::string display_name =
member->user_data.username.empty()
? member->nickname
: fmt::format("{} ({})", member->nickname, member->user_data.username);
if (game_info.name.empty()) {
LOG_INFO(Network, "{} is not playing", display_name);
} else {
LOG_INFO(Network, "{} is playing {}", display_name, game_info.name);
}
}
}
BroadcastRoomInformation();
}
void Room::RoomImpl::HandleClientDisconnection(ENetPeer* client) {
// Remove the client from the members list.
std::string nickname, username, ip;
{
std::lock_guard lock(member_mutex);
auto member =
std::find_if(members.begin(), members.end(), [client](const Member& member_entry) {
return member_entry.peer == client;
});
if (member != members.end()) {
nickname = member->nickname;
username = member->user_data.username;
std::array<char, 256> ip_raw{};
enet_address_get_host_ip(&member->peer->address, ip_raw.data(), sizeof(ip_raw) - 1);
ip = ip_raw.data();
members.erase(member);
}
}
// Announce the change to all clients.
enet_peer_disconnect(client, 0);
if (!nickname.empty())
SendStatusMessage(IdMemberLeave, nickname, username, ip);
BroadcastRoomInformation();
}
// Room
Room::Room() : room_impl{std::make_unique<RoomImpl>()} {}
Room::~Room() = default;
bool Room::Create(const std::string& name, const std::string& description,
const std::string& server_address, u16 server_port, const std::string& password,
const u32 max_connections, const std::string& host_username,
const GameInfo preferred_game,
std::unique_ptr<VerifyUser::Backend> verify_backend,
const Room::BanList& ban_list, bool enable_yuzu_mods) {
ENetAddress address;
address.host = ENET_HOST_ANY;
if (!server_address.empty()) {
enet_address_set_host(&address, server_address.c_str());
}
address.port = server_port;
// In order to send the room is full message to the connecting client, we need to leave one
// slot open so enet won't reject the incoming connection without telling us
room_impl->server = enet_host_create(&address, max_connections + 1, NumChannels, 0, 0);
if (!room_impl->server) {
return false;
}
room_impl->state = State::Open;
room_impl->room_information.name = name;
room_impl->room_information.description = description;
room_impl->room_information.member_slots = max_connections;
room_impl->room_information.port = server_port;
room_impl->room_information.preferred_game = preferred_game;
room_impl->room_information.host_username = host_username;
room_impl->room_information.enable_yuzu_mods = enable_yuzu_mods;
room_impl->password = password;
room_impl->verify_backend = std::move(verify_backend);
room_impl->username_ban_list = ban_list.first;
room_impl->ip_ban_list = ban_list.second;
room_impl->StartLoop();
return true;
}
Room::State Room::GetState() const {
return room_impl->state;
}
const RoomInformation& Room::GetRoomInformation() const {
return room_impl->room_information;
}
std::string Room::GetVerifyUID() const {
std::lock_guard lock(room_impl->verify_uid_mutex);
return room_impl->verify_uid;
}
Room::BanList Room::GetBanList() const {
std::lock_guard lock(room_impl->ban_list_mutex);
return {room_impl->username_ban_list, room_impl->ip_ban_list};
}
std::vector<Member> Room::GetRoomMemberList() const {
std::vector<Member> member_list;
std::lock_guard lock(room_impl->member_mutex);
for (const auto& member_impl : room_impl->members) {
Member member;
member.nickname = member_impl.nickname;
member.username = member_impl.user_data.username;
member.display_name = member_impl.user_data.display_name;
member.avatar_url = member_impl.user_data.avatar_url;
member.fake_ip = member_impl.fake_ip;
member.game = member_impl.game_info;
member_list.push_back(member);
}
return member_list;
}
bool Room::HasPassword() const {
return !room_impl->password.empty();
}
void Room::SetVerifyUID(const std::string& uid) {
std::lock_guard lock(room_impl->verify_uid_mutex);
room_impl->verify_uid = uid;
}
void Room::Destroy() {
room_impl->state = State::Closed;
room_impl->room_thread->join();
room_impl->room_thread.reset();
if (room_impl->server) {
enet_host_destroy(room_impl->server);
}
room_impl->room_information = {};
room_impl->server = nullptr;
{
std::lock_guard lock(room_impl->member_mutex);
room_impl->members.clear();
}
room_impl->room_information.member_slots = 0;
room_impl->room_information.name.clear();
}
} // namespace Network