void SendToForwarder::AddConnection(UserID userID, const NetworkConnectionPtr& primaryConnection, const NetworkConnectionPtr& secondaryConnection)
{
primaryConnection->AddListener(MessageID::SendTo, this);
secondaryConnection->AddListener(MessageID::SendTo, this);
ConnectionInfo newConnection;
newConnection.m_primaryConnection = primaryConnection;
newConnection.m_secondaryConnection = secondaryConnection;
m_connections[userID] = newConnection;
}
void SyncManagerImpl::OnIdentityInfoReceived(const NetworkConnectionPtr& connection, NetworkInMessage& msg)
{
size_t connectionIndex;
if (GetIndexOfConnection(connection, connectionIndex))
{
#if defined(SYNC_DEBUG)
LogInfo("Sync: Received Handshake");
#endif
RemoteSyncPeer& remotePeer = m_remoteHosts[connectionIndex];
remotePeer.m_authorityLevel = static_cast<AuthorityLevel>(msg.ReadByte());
remotePeer.m_systemID = msg.ReadInt32();
remotePeer.m_userName = msg.ReadStdString();
remotePeer.m_userID = msg.ReadInt32();
// Verify that this systemID is not already in use by another machine. If so, force a disconnection
// rather than risk data corruption, because GUIDS are based on SystemIDs
bool duplicateSystemIDFound = (m_syncContext->GetLocalSystemID() == remotePeer.m_systemID);
if (!duplicateSystemIDFound)
{
for (size_t i = 0; i < m_remoteHosts.size(); ++i)
{
if (i == connectionIndex) continue;
if (m_remoteHosts[i].m_systemID == remotePeer.m_systemID)
{
duplicateSystemIDFound = true;
break;
}
}
}
// The sync system will break down if two machines of equal authority level connect.
// So verify that they are different levels, or else disconnect
bool authLevelsMatch = (remotePeer.m_authorityLevel == m_syncContext->GetAuthorityLevel());
if (duplicateSystemIDFound || authLevelsMatch)
{
// We're registered to receive disconnect callbacks, so we know that SyncManagerImpl::OnDisconnected()
// will be called as a result of calling this.
if (authLevelsMatch)
{
LogError("Two machines with equal authority levels have connected: breaking the connection to avoid sync data corruption");
}
else
{
LogError("Duplicate system ID detected: breaking the connection to avoid sync data corruption");
}
XTASSERT(!duplicateSystemIDFound);
connection->Disconnect();
}
// We should not be receiving a handshake message more than once
XTASSERT(remotePeer.m_bHandshakeComplete == false);
remotePeer.m_bHandshakeComplete = true;
}
}
void SessionImpl::OnConnected(const NetworkConnectionPtr& connection)
{
// We have successfully connected to this session.
// Now send it information about us so it lets us in all the way
XTASSERT(m_curState == MachineSessionState::JOINING);
JoinSessionRequest request(
m_context->GetLocalUser()->GetName()->GetString(),
m_context->GetLocalUser()->GetID(),
m_context->GetLocalUser()->GetMuteState()
);
NetworkOutMessagePtr msg = connection->CreateMessage(MessageID::SessionControl);
msg->Write(new XString(request.ToJSONString()));
connection->Send(msg);
}
void SessionServer::OnListSessionsRequest(const ListSessionsRequest&, const NetworkConnectionPtr& connection)
{
// Fill in a message with a list of all the sessions and send it
ListSessionsReply reply;
reply.SetSessionCount(static_cast<int32>(m_sessions.size()));
for (size_t i = 0; i < m_sessions.size(); ++i)
{
XSessionImplPtr currentSession = m_sessions[i];
reply.SetSessionDescriptor((int32)i, currentSession->GetSessionDescription(connection->GetSocket()));
}
NetworkOutMessagePtr msg = connection->CreateMessage(MessageID::SessionControl);
msg->Write(reply.ToJSONString());
connection->Send(msg);
}
void SendToForwarder::OnMessageReceived(const NetworkConnectionPtr& connection, NetworkInMessage& message)
{
const byte* inMsg = message.GetData();
const uint32 inMsgSize = message.GetSize();
// Get the sendto header
const SendToNetworkHeader* sendToHeader = reinterpret_cast<const SendToNetworkHeader*>(inMsg);
// Extract the payload from the sendto message and put in a new outgoing message
const byte* payload = inMsg + sizeof(SendToNetworkHeader);
const uint32 payloadSize = inMsgSize - sizeof(SendToNetworkHeader);
if (payloadSize > 0)
{
NetworkOutMessagePtr outMsg = connection->CreateMessage(*payload);
outMsg->WriteArray(payload + 1, payloadSize - 1);
// Send the payload to the correct remote peer
auto userConnectionItr = m_connections.find(sendToHeader->m_userID);
if (userConnectionItr != m_connections.end())
{
ClientRole role = sendToHeader->m_deviceRole;
if (role == ClientRole::Primary ||
role == ClientRole::Unspecified)
{
// Forward the message on with the same settings that it was sent here with
userConnectionItr->second.m_primaryConnection ->Send(outMsg, sendToHeader->m_priority, sendToHeader->m_reliability, sendToHeader->m_channel, false);
}
if (role == ClientRole::Secondary ||
role == ClientRole::Unspecified)
{
// Forward the message on with the same settings that it was sent here with
userConnectionItr->second.m_secondaryConnection->Send(outMsg, sendToHeader->m_priority, sendToHeader->m_reliability, sendToHeader->m_channel, false);
}
}
connection->ReturnMessage(outMsg);
}
}
void SyncManagerImpl::AddConnection(const NetworkConnectionPtr& newConnection)
{
#if defined(SYNC_DEBUG)
LogInfo("%s Adding Connection", m_syncContext->GetLocalUser()->GetName().GetString().c_str());
#endif
newConnection->AddListener(m_messageID, this);
m_remoteHosts.resize(m_remoteHosts.size() + 1, RemoteSyncPeer());
RemoteSyncPeer& newPeer = m_remoteHosts.back();
newPeer.m_connection = newConnection;
// Automatically remove this object as a listener when newPeer is destroyed
newPeer.m_listenerReceipt = CreateRegistrationReceipt(newConnection, &NetworkConnection::RemoveListener, m_messageID, this);
if (newConnection->IsConnected())
{
SendHandshakeMessage(newPeer);
}
}
void SessionServer::OnMessageReceived(const NetworkConnectionPtr& connection, NetworkInMessage& message)
{
XStringPtr command = message.ReadString();
JSONMessagePtr jMsg = JSONMessage::CreateFromMessage(command->GetString());
// Route the incoming message to the appropriate function to handle it
if (!m_messageRouter.CallHandler(jMsg, connection))
{
// We got a bad or unexpected message; break the connection
connection->Disconnect();
}
}
void XSessionImpl::OnMessageReceived(const NetworkConnectionPtr& connection, NetworkInMessage& message)
{
XStringPtr command = message.ReadString();
JSONMessagePtr jMsg = JSONMessage::CreateFromMessage(command->GetString());
// Route the incoming message to the appropriate function to handle it
if (!m_messageRouter.CallHandler(jMsg, connection))
{
// There was a problem with the message that was sent. Boot the connection
connection->Disconnect();
}
}
void SessionServer::OnNewSessionRequest(const NewSessionRequest& request, const NetworkConnectionPtr& connection)
{
std::string name = request.GetSessionName();
XSessionImplPtr session;
std::string failureReason;
// Cannot create a session with a name that is too short
if (name.length() < kMinSessionNameLength)
{
failureReason = "Session name must have at least " + std::to_string(kMinSessionNameLength) + " letters";
}
// Cannot create a session with a name that is too long
else if (name.length() > kMaxSessionNameLength)
{
failureReason = "Session name cannot be more than " + std::to_string(kMaxSessionNameLength) + " letters";
}
else
{
// Check to make sure that the requested session name is not already taken
for (size_t i = 0; i < m_sessions.size(); ++i)
{
if (m_sessions[i]->GetName() == name)
{
failureReason = "A session with that name already exists";
break;
}
}
}
if (failureReason.empty())
{
session = CreateNewSession(name, request.GetSessionType());
}
// If the session was successfully created...
if (session)
{
// Report success.
std::string address = m_socketMgr->GetLocalAddressForRemoteClient(connection->GetSocket());
uint16 port = session->GetPort();
NewSessionReply reply(
session->GetId(),
session->GetType(),
name,
address,
port);
NetworkOutMessagePtr response = connection->CreateMessage(MessageID::SessionControl);
response->Write(reply.ToJSONString());
connection->Send(response);
}
else
{
// Report failure
NewSessionReply reply(failureReason);
NetworkOutMessagePtr response = connection->CreateMessage(MessageID::SessionControl);
response->Write(reply.ToJSONString());
connection->Send(response);
}
}
void XSessionImpl::OnJoinSessionRequest(const JoinSessionRequest& request, const NetworkConnectionPtr& connection)
{
// Note: this call will remove the remote client from the list of pending connections
RemoteClientPtr remoteClient = GetPendingClientForConnection(connection);
if (remoteClient)
{
// Fill in the rest of the info about the user
remoteClient->m_userName = request.GetUserName();
remoteClient->m_userID = request.GetUserID();
remoteClient->m_userMuteState = request.GetMuteState();
// Check to see if this userID is already in use by someone in the session
bool bDuplicateUserID = false;
for (size_t clientIndex = 0; clientIndex < m_clients.size(); ++clientIndex)
{
if (m_clients[clientIndex]->m_userID == remoteClient->m_userID)
{
bDuplicateUserID = true;
LogError("UserID %i in session join request is a duplicate of a user already in this session. ", remoteClient->m_userID);
break;
}
}
// Check to see if the userID is valid
bool bIsInvalidUserID = false;
if (remoteClient->m_userID == User::kInvalidUserID)
{
LogError("Received invalid userID");
bIsInvalidUserID = true;
}
// If the connecting user is invalid, then send a failure response and shut down the connection
if (bIsInvalidUserID || bDuplicateUserID)
{
// Reply to the user that they have failed to join the session
{
JoinSessionReply reply(false);
NetworkOutMessagePtr msg = connection->CreateMessage(MessageID::SessionControl);
msg->Write(reply.ToJSONString());
connection->Send(msg);
}
// Disconnect
connection->Disconnect();
}
else
{
LogInfo("User %s at address %s joined session %s", remoteClient->m_userName.c_str(), remoteClient->m_primaryConnection->GetRemoteAddress()->GetString().c_str(), GetName().c_str());
// Add the user to the real list of clients in the session
m_clients.push_back(remoteClient);
// Reply to the user that they have now joined the session successfully
{
JoinSessionReply reply(true);
NetworkOutMessagePtr msg = connection->CreateMessage(MessageID::SessionControl);
msg->Write(reply.ToJSONString());
connection->Send(msg);
}
// Add the remoteClient to the list that can send and receive broadcasts
m_broadcaster->AddConnection(remoteClient->m_primaryConnection);
m_broadcaster->AddConnection(remoteClient->m_secondaryConnection);
// Add the remoteClient to the sendto forwarder
m_sendToForwarder->AddConnection(remoteClient->m_userID, remoteClient->m_primaryConnection, remoteClient->m_secondaryConnection);
// Add the remoteClient to the audio packet processor
m_audioSessionProcessor->AddConnection(remoteClient->m_primaryConnection);
m_audioSessionProcessor->AddConnection(remoteClient->m_secondaryConnection);
// Add the connections to the room manager
m_roomMgr->AddConnection(remoteClient->m_primaryConnection);
m_roomMgr->AddConnection(remoteClient->m_secondaryConnection);
// Add the remoteClient to the list that can share the session's sync data
m_syncMgr->AddConnection(remoteClient->m_primaryConnection);
m_internalSyncMgr->AddConnection(remoteClient->m_primaryConnection);
// Notify the session server to tell all the clients that the new user has joined this session
m_callback->OnUserJoinedSession(m_id, remoteClient->m_userName, remoteClient->m_userID, remoteClient->m_userMuteState);
}
}
}
