bool StatisticsHistory::GetHistorySorted(uint64_t objectId, SHSortOperation sortType, DataStructures::List<StatisticsHistory::TimeAndValueQueue *> &values) const
{
unsigned int idx = GetObjectIndex(objectId);
if (idx == (unsigned int) -1)
return false;
TrackedObject *to = objects[idx];
DataStructures::List<TimeAndValueQueue*> itemList;
DataStructures::List<RakString> keyList;
to->dataQueues.GetAsList(itemList,keyList,_FILE_AND_LINE_);
Time curTime = GetTime();
DataStructures::OrderedList<TimeAndValueQueue*, TimeAndValueQueue*,TimeAndValueQueueCompAsc> sortedQueues;
for (unsigned int i=0; i < itemList.Size(); i++)
{
TimeAndValueQueue *tavq = itemList[i];
tavq->CullExpiredValues(curTime);
if (sortType == SH_SORT_BY_RECENT_SUM_ASCENDING || sortType == SH_SORT_BY_RECENT_SUM_DESCENDING)
tavq->sortValue = tavq->GetRecentSum();
else if (sortType == SH_SORT_BY_LONG_TERM_SUM_ASCENDING || sortType == SH_SORT_BY_LONG_TERM_SUM_DESCENDING)
tavq->sortValue = tavq->GetLongTermSum();
else if (sortType == SH_SORT_BY_RECENT_SUM_OF_SQUARES_ASCENDING || sortType == SH_SORT_BY_RECENT_SUM_OF_SQUARES_DESCENDING)
tavq->sortValue = tavq->GetRecentSumOfSquares();
else if (sortType == SH_SORT_BY_RECENT_AVERAGE_ASCENDING || sortType == SH_SORT_BY_RECENT_AVERAGE_DESCENDING)
tavq->sortValue = tavq->GetRecentAverage();
else if (sortType == SH_SORT_BY_LONG_TERM_AVERAGE_ASCENDING || sortType == SH_SORT_BY_LONG_TERM_AVERAGE_DESCENDING)
tavq->sortValue = tavq->GetLongTermAverage();
else if (sortType == SH_SORT_BY_RECENT_HIGHEST_ASCENDING || sortType == SH_SORT_BY_RECENT_HIGHEST_DESCENDING)
tavq->sortValue = tavq->GetRecentHighest();
else if (sortType == SH_SORT_BY_RECENT_LOWEST_ASCENDING || sortType == SH_SORT_BY_RECENT_LOWEST_DESCENDING)
tavq->sortValue = tavq->GetRecentLowest();
else if (sortType == SH_SORT_BY_LONG_TERM_HIGHEST_ASCENDING || sortType == SH_SORT_BY_LONG_TERM_HIGHEST_DESCENDING)
tavq->sortValue = tavq->GetLongTermHighest();
else
tavq->sortValue = tavq->GetLongTermLowest();
if (
sortType == SH_SORT_BY_RECENT_SUM_ASCENDING ||
sortType == SH_SORT_BY_LONG_TERM_SUM_ASCENDING ||
sortType == SH_SORT_BY_RECENT_SUM_OF_SQUARES_ASCENDING ||
sortType == SH_SORT_BY_RECENT_AVERAGE_ASCENDING ||
sortType == SH_SORT_BY_LONG_TERM_AVERAGE_ASCENDING ||
sortType == SH_SORT_BY_RECENT_HIGHEST_ASCENDING ||
sortType == SH_SORT_BY_RECENT_LOWEST_ASCENDING ||
sortType == SH_SORT_BY_LONG_TERM_HIGHEST_ASCENDING ||
sortType == SH_SORT_BY_LONG_TERM_LOWEST_ASCENDING)
sortedQueues.Insert(tavq, tavq, false, _FILE_AND_LINE_, TimeAndValueQueueCompAsc);
else
sortedQueues.Insert(tavq, tavq, false, _FILE_AND_LINE_, TimeAndValueQueueCompDesc);
}
for (unsigned int i=0; i < sortedQueues.Size(); i++)
values.Push(sortedQueues[i], _FILE_AND_LINE_);
return true;
}
void ConnectionGraph::SerializeIgnoreListAndBroadcast(RakNet::BitStream *outBitstream, DataStructures::OrderedList<SystemAddress,SystemAddress> &ignoreList, RakPeerInterface *peer)
{
DataStructures::List<SystemAddress> sendList;
unsigned i;
for (i=0; i < participantList.Size(); i++)
{
if (ignoreList.HasData(participantList[i])==false)
sendList.Insert(participantList[i], __FILE__, __LINE__);
}
if (sendList.Size()==0)
return;
SystemAddress self = peer->GetExternalID(sendList[0]);
ignoreList.Insert(self,self, false, __FILE__, __LINE__);
outBitstream->Write((unsigned short) (ignoreList.Size()+sendList.Size()));
for (i=0; i < ignoreList.Size(); i++)
outBitstream->Write(ignoreList[i]);
for (i=0; i < sendList.Size(); i++)
outBitstream->Write(sendList[i]);
for (i=0; i < sendList.Size(); i++)
{
peer->Send(outBitstream, LOW_PRIORITY, RELIABLE_ORDERED, connectionGraphChannel, sendList[i], false);
}
}
void UDPProxyCoordinator::ForwardingRequest::OrderRemainingServersToTry(void)
{
//DataStructures::Multilist<ML_ORDERED_LIST,UDPProxyCoordinator::ServerWithPing,unsigned short> swpList;
DataStructures::OrderedList<unsigned short, UDPProxyCoordinator::ServerWithPing, ServerWithPingComp> swpList;
// swpList.SetSortOrder(true);
if (sourceServerPings.Size()==0 && targetServerPings.Size()==0)
return;
unsigned int idx;
UDPProxyCoordinator::ServerWithPing swp;
for (idx=0; idx < remainingServersToTry.Size(); idx++)
{
swp.serverAddress=remainingServersToTry[idx];
swp.ping=0;
if (sourceServerPings.Size())
swp.ping+=(unsigned short) (sourceServerPings[idx].ping);
else
swp.ping+=(unsigned short) (DEFAULT_CLIENT_UNRESPONSIVE_PING_TIME);
if (targetServerPings.Size())
swp.ping+=(unsigned short) (targetServerPings[idx].ping);
else
swp.ping+=(unsigned short) (DEFAULT_CLIENT_UNRESPONSIVE_PING_TIME);
swpList.Insert(swp.ping, swp, false, _FILE_AND_LINE_);
}
remainingServersToTry.Clear(_FILE_AND_LINE_ );
for (idx=0; idx < swpList.Size(); idx++)
{
remainingServersToTry.Push(swpList[idx].serverAddress, _FILE_AND_LINE_ );
}
}
void ConnectionGraph::AddAndRelayConnection(DataStructures::OrderedList<SystemAddress,SystemAddress> &ignoreList, const SystemAddressAndGroupId &conn1, const SystemAddressAndGroupId &conn2, unsigned short ping, RakPeerInterface *peer)
{
if (graph.HasConnection(conn1,conn2))
return;
if (ping==65535)
ping=0;
RakAssert(conn1.systemAddress!=UNASSIGNED_SYSTEM_ADDRESS);
RakAssert(conn2.systemAddress!=UNASSIGNED_SYSTEM_ADDRESS);
if (IsNewRemoteConnection(conn1,conn2,peer))
{
NotifyUserOfRemoteConnection(conn1,conn2,ping,peer);
// What was this return here for?
// return;
}
graph.AddConnection(conn1,conn2,ping);
RakNet::BitStream outBitstream;
outBitstream.Write((MessageID)ID_CONNECTION_GRAPH_NEW_CONNECTION);
outBitstream.Write(conn1.systemAddress);
outBitstream.Write(conn1.groupId);
outBitstream.Write(conn1.guid);
outBitstream.Write(conn2.systemAddress);
outBitstream.Write(conn2.groupId);
outBitstream.Write(conn2.guid);
outBitstream.Write(ping);
ignoreList.Insert(conn2.systemAddress,conn2.systemAddress, false, __FILE__, __LINE__);
ignoreList.Insert(conn1.systemAddress,conn1.systemAddress, false, __FILE__, __LINE__);
SerializeIgnoreListAndBroadcast(&outBitstream, ignoreList, peer);
}
void Lobby2Client_Steam_Impl::GetRoomMembers(DataStructures::OrderedList<uint64_t, uint64_t> &_roomMembers)
{
_roomMembers.Clear(true,_FILE_AND_LINE_);
int cLobbyMembers = SteamMatchmaking()->GetNumLobbyMembers( roomId );
for ( int i = 0; i < cLobbyMembers; i++ )
{
CSteamID steamIDLobbyMember = SteamMatchmaking()->GetLobbyMemberByIndex( roomId, i ) ;
uint64_t memberid=steamIDLobbyMember.ConvertToUint64();
_roomMembers.Insert(memberid,memberid,true,_FILE_AND_LINE_);
}
}
void Table::SortTable(Table::SortQuery *sortQueries, unsigned numSortQueries, Table::Row** out)
{
unsigned i;
unsigned outLength;
DataStructures::List<unsigned> columnIndices;
_sortQueries=sortQueries;
_numSortQueries=numSortQueries;
_columnIndices=&columnIndices;
_columns=&columns;
bool anyValid=false;
for (i=0; i < numSortQueries; i++)
{
if (sortQueries[i].columnIndex<columns.Size() && columns[sortQueries[i].columnIndex].columnType!=BINARY)
{
columnIndices.Insert(sortQueries[i].columnIndex, _FILE_AND_LINE_);
anyValid=true;
}
else
columnIndices.Insert((unsigned)-1, _FILE_AND_LINE_); // Means don't check this column
}
DataStructures::Page<unsigned, Row*, _TABLE_BPLUS_TREE_ORDER> *cur;
cur = rows.GetListHead();
if (anyValid==false)
{
outLength=0;
while (cur)
{
for (i=0; i < (unsigned)cur->size; i++)
{
out[(outLength)++]=cur->data[i];
}
cur=cur->next;
}
return;
}
// Start adding to ordered list.
DataStructures::OrderedList<Row*, Row*, RowSort> orderedList;
while (cur)
{
for (i=0; i < (unsigned)cur->size; i++)
{
RakAssert(cur->data[i]);
orderedList.Insert(cur->data[i],cur->data[i], true, _FILE_AND_LINE_);
}
cur=cur->next;
}
outLength=0;
for (i=0; i < orderedList.Size(); i++)
out[(outLength)++]=orderedList[i];
}
void FullyConnectedMesh2::GetHostOrder(DataStructures::List<RakNetGUID> &hostList)
{
hostList.Clear(true, _FILE_AND_LINE_);
if (ourFCMGuid==0 || fcm2ParticipantList.Size()==0)
{
hostList.Push(rakPeerInterface->GetMyGUID(), _FILE_AND_LINE_);
return;
}
FCM2Participant fcm2;
fcm2.fcm2Guid=ourFCMGuid;
fcm2.rakNetGuid=rakPeerInterface->GetMyGUID();
DataStructures::OrderedList<FCM2Participant, FCM2Participant, FCM2ParticipantComp> olist;
olist.Insert(fcm2, fcm2, true, _FILE_AND_LINE_);
for (unsigned int i=0; i < fcm2ParticipantList.Size(); i++)
olist.Insert(fcm2ParticipantList[i], fcm2ParticipantList[i], true, _FILE_AND_LINE_);
for (unsigned int i=0; i < olist.Size(); i++)
{
hostList.Push(olist[i].rakNetGuid, _FILE_AND_LINE_);
}
}
bool ConnectionGraph::DeserializeIgnoreList(DataStructures::OrderedList<SystemAddress,SystemAddress> &ignoreList, RakNet::BitStream *inBitstream )
{
unsigned short count;
SystemAddress temp;
unsigned i;
inBitstream->Read(count);
for (i=0; i < count; i++)
{
if (inBitstream->Read(temp)==false)
{
RakAssert(0);
return false;
}
ignoreList.Insert(temp,temp, false, __FILE__, __LINE__);
}
return true;
}
bool ConnectionGraph::OnConnectionLostInternal(Packet *packet, unsigned char packetId)
{
// Only accept from participants
if (participantList.HasData(packet->systemAddress)==false)
return false;
SystemAddress node1, node2;
RakNet::BitStream inBitstream(packet->data, packet->length, false);
inBitstream.IgnoreBits(8);
// This is correct - group IDs are not written for removal, only addition.
inBitstream.Read(node1);
if (inBitstream.Read(node2)==false)
return false;
DataStructures::OrderedList<SystemAddress,SystemAddress> ignoreList;
DeserializeIgnoreList(ignoreList, &inBitstream);
ignoreList.Insert(packet->systemAddress, packet->systemAddress, false, __FILE__, __LINE__);
return RemoveAndRelayConnection(ignoreList, packetId, node1, node2, rakPeerInterface);
}
void ConnectionGraph::OnConnectionGraphUpdate(Packet *packet)
{
// Only accept from participants
if (participantList.HasData(packet->systemAddress)==false)
return;
RakNet::BitStream inBitstream(packet->data, packet->length, false);
inBitstream.IgnoreBits(8);
if (DeserializeWeightedGraph(&inBitstream, rakPeerInterface)==false)
return;
DataStructures::OrderedList<SystemAddress,SystemAddress> ignoreList;
DeserializeIgnoreList(ignoreList, &inBitstream);
// Forward the updated graph to all participants.
ignoreList.Insert(packet->systemAddress,packet->systemAddress, false, __FILE__, __LINE__);
BroadcastGraphUpdate(ignoreList, rakPeerInterface);
}
// connectionRequestsMutex should already be locked
void Router2::RequestForwarding(ConnnectRequest* connectionRequest)
{
RakAssert(connectionRequest->requestState==R2RS_REQUEST_STATE_QUERY_FORWARDING);
connectionRequest->requestState=REQUEST_STATE_REQUEST_FORWARDING;
if (connectionRequest->GetGuidIndex(connectionRequest->lastRequestedForwardingSystem)!=(unsigned int)-1)
{
char buff[512];
if (debugInterface) debugInterface->ShowFailure(FormatStringTS(buff,"Router2 failed at %s:%i\n", _FILE_AND_LINE_));
return;
}
// Prioritize systems to request forwarding
DataStructures::OrderedList<ConnectionRequestSystem, ConnectionRequestSystem, ConnectionRequestSystemComp> commandList;
unsigned int connectionRequestGuidIndex;
connectionRequest->connectionRequestSystemsMutex.Lock();
for (connectionRequestGuidIndex=0; connectionRequestGuidIndex < connectionRequest->connectionRequestSystems.Size(); connectionRequestGuidIndex++)
{
RakAssert(connectionRequest->connectionRequestSystems[connectionRequestGuidIndex].pingToEndpoint>=0);
commandList.Insert(connectionRequest->connectionRequestSystems[connectionRequestGuidIndex],
connectionRequest->connectionRequestSystems[connectionRequestGuidIndex],
true,
_FILE_AND_LINE_);
}
connectionRequest->connectionRequestSystemsMutex.Unlock();
connectionRequest->lastRequestedForwardingSystem=commandList[0].guid;
RakNet::BitStream bsOut;
bsOut.Write((MessageID)ID_ROUTER_2_INTERNAL);
bsOut.Write((unsigned char) ID_ROUTER_2_REQUEST_FORWARDING);
bsOut.Write(connectionRequest->endpointGuid);
rakPeerInterface->Send(&bsOut,MEDIUM_PRIORITY,RELIABLE_ORDERED,0,connectionRequest->lastRequestedForwardingSystem,false);
if (debugInterface)
{
char buff[512];
debugInterface->ShowDiagnostic(FormatStringTS(buff,"Sending ID_ROUTER_2_REQUEST_FORWARDING "
"(connectionRequest->lastRequestedForwardingSystem = %I64d, connectionRequest->endpointGuid = %I64d) at %s:%i\n",
connectionRequest->lastRequestedForwardingSystem.g,connectionRequest->endpointGuid.g, __FILE__, __LINE__));
}
}
void ConnectionGraph::OnConnectionGraphReply(Packet *packet)
{
unsigned char password[256];
RakNet::BitStream inBitstream(packet->data, packet->length, false);
inBitstream.IgnoreBits(8);
stringCompressor->DecodeString((char*)password,256,&inBitstream);
if (pw && pw[0] && strcmp(pw, (const char*)password)!=0)
return;
// Serialize the weighted graph and send it to them
RakNet::BitStream outBitstream;
outBitstream.Write((MessageID)ID_CONNECTION_GRAPH_UPDATE);
#ifdef _CONNECTION_GRAPH_DEBUG_PRINT
RAKNET_DEBUG_PRINTF("ID_CONNECTION_GRAPH_UPDATE ");
#endif
// Send our current graph to the sender
SerializeWeightedGraph(&outBitstream, graph);
// Write the systems that have processed this graph so we don't resend to these systems
outBitstream.Write((unsigned short) 1);
outBitstream.Write(rakPeerInterface->GetExternalID(packet->systemAddress));
#ifdef _CONNECTION_GRAPH_DEBUG_PRINT
RAKNET_DEBUG_PRINTF("from %i to %i\n", peer->GetInternalID().port, packet->systemAddress.port);
#endif
SendUnified(&outBitstream, LOW_PRIORITY, RELIABLE_ORDERED, connectionGraphChannel, packet->systemAddress, false);
// Add packet->systemAddress to the participant list if it is not already there
AddParticipant(packet->systemAddress);
if (DeserializeWeightedGraph(&inBitstream, rakPeerInterface)==false)
return;
// Forward the updated graph to all current participants
DataStructures::OrderedList<SystemAddress,SystemAddress> ignoreList;
ignoreList.Insert(packet->systemAddress,packet->systemAddress, true, __FILE__, __LINE__);
BroadcastGraphUpdate(ignoreList, rakPeerInterface);
}
bool ConnectionGraph::RemoveAndRelayConnection(DataStructures::OrderedList<SystemAddress,SystemAddress> &ignoreList, unsigned char packetId, const SystemAddress node1, const SystemAddress node2, RakPeerInterface *peer)
{
SystemAddressAndGroupId n1, n2;
n1.systemAddress=node1;
n2.systemAddress=node2;
if (graph.HasConnection(n1,n2)==false)
return false;
graph.RemoveConnection(n1,n2);
// TODO - clear islands
RakNet::BitStream outBitstream;
outBitstream.Write(packetId);
outBitstream.Write(node1);
outBitstream.Write(node2);
ignoreList.Insert(node1,node1, false, __FILE__, __LINE__);
ignoreList.Insert(node2,node2, false, __FILE__, __LINE__);
SerializeIgnoreListAndBroadcast(&outBitstream, ignoreList, peer);
return true;
}
void ConnectionGraph::OnNewConnectionInternal(Packet *packet)
{
// Only accept from participants
if (participantList.HasData(packet->systemAddress)==false)
return;
SystemAddressAndGroupId node1, node2;
unsigned short ping;
RakNet::BitStream inBitstream(packet->data, packet->length, false);
inBitstream.IgnoreBits(8);
inBitstream.Read(node1.systemAddress);
inBitstream.Read(node1.groupId);
inBitstream.Read(node1.guid);
inBitstream.Read(node2.systemAddress);
inBitstream.Read(node2.groupId);
inBitstream.Read(node2.guid);
if (inBitstream.Read(ping)==false)
return;
DataStructures::OrderedList<SystemAddress,SystemAddress> ignoreList;
DeserializeIgnoreList(ignoreList, &inBitstream);
ignoreList.Insert(packet->systemAddress,packet->systemAddress, false, __FILE__, __LINE__);
AddAndRelayConnection(ignoreList, node1, node2, ping, rakPeerInterface);
}
void Lobby2Client_Steam_Impl::CallRoomCallbacks()
{
DataStructures::OrderedList<uint64_t,uint64_t> currentMembers;
GetRoomMembers(currentMembers);
DataStructures::OrderedList<uint64_t, RoomMember, SteamIDAndRoomMemberComp> updatedRoomMembers;
bool anyChanges=false;
unsigned int currentMemberIndex=0, oldMemberIndex=0;
while (currentMemberIndex < currentMembers.Size() && oldMemberIndex < roomMembersById.Size())
{
if (currentMembers[currentMemberIndex]<roomMembersById[oldMemberIndex].steamIDRemote)
{
RoomMember roomMember;
roomMember.steamIDRemote=currentMembers[currentMemberIndex];
roomMember.systemAddress.address.addr4.sin_addr.s_addr=nextFreeSystemAddress++;
roomMember.systemAddress.SetPortHostOrder(STEAM_UNUSED_PORT);
updatedRoomMembers.Insert(roomMember.steamIDRemote,roomMember,true,_FILE_AND_LINE_);
anyChanges=true;
// new member
NotifyNewMember(currentMembers[currentMemberIndex], roomMember.systemAddress);
currentMemberIndex++;
}
else if (currentMembers[currentMemberIndex]>roomMembersById[oldMemberIndex].steamIDRemote)
{
anyChanges=true;
// dropped member
NotifyDroppedMember(roomMembersById[oldMemberIndex].steamIDRemote, roomMembersById[oldMemberIndex].systemAddress);
oldMemberIndex++;
}
else
{
updatedRoomMembers.Insert(roomMembersById[oldMemberIndex].steamIDRemote,roomMembersById[oldMemberIndex],true,_FILE_AND_LINE_);
currentMemberIndex++;
oldMemberIndex++;
}
}
while (oldMemberIndex < roomMembersById.Size())
{
anyChanges=true;
// dropped member
NotifyDroppedMember(roomMembersById[oldMemberIndex].steamIDRemote, roomMembersById[oldMemberIndex].systemAddress);
oldMemberIndex++;
}
while (currentMemberIndex < currentMembers.Size())
{
RoomMember roomMember;
roomMember.steamIDRemote=currentMembers[currentMemberIndex];
roomMember.systemAddress.address.addr4.sin_addr.s_addr=nextFreeSystemAddress++;
roomMember.systemAddress.SetPortHostOrder(STEAM_UNUSED_PORT);
updatedRoomMembers.Insert(roomMember.steamIDRemote,roomMember,true,_FILE_AND_LINE_);
anyChanges=true;
// new member
NotifyNewMember(currentMembers[currentMemberIndex], roomMember.systemAddress);
currentMemberIndex++;
}
if (anyChanges)
{
roomMembersById=updatedRoomMembers;
roomMembersByAddr.Clear(true, _FILE_AND_LINE_);
for (currentMemberIndex=0; currentMemberIndex < roomMembersById.Size(); currentMemberIndex++)
{
roomMembersByAddr.Insert(roomMembersById[currentMemberIndex].systemAddress, roomMembersById[currentMemberIndex], true, _FILE_AND_LINE_);
}
}
}
