/** Replicates properties to the Bunch. Returns true if it wrote anything */
bool FObjectReplicator::ReplicateProperties( FOutBunch & Bunch, FReplicationFlags RepFlags )
{
UObject * Object = GetObject();
check( Object );
check( OwningChannel );
check( RepLayout.IsValid() );
check( RepState )
check( RepState->StaticBuffer.Num() );
UNetConnection * OwningChannelConnection = OwningChannel->Connection;
const int32 StartingBitNum = Bunch.GetNumBits();
bool bContentBlockWritten = false;
int32 LastIndex = 0;
// Replicate all the custom delta properties (fast arrays, etc)
ReplicateCustomDeltaProperties( Bunch, LastIndex, bContentBlockWritten );
// Replicate properties in the layout
RepLayout->ReplicateProperties( RepState, (uint8*)Object, ObjectClass, OwningChannel, Bunch, RepFlags, LastIndex, bContentBlockWritten );
// LastUpdateEmpty - this is done before dequeing the multicasted unreliable functions on purpose as they should not prevent
// an actor channel from going dormant.
bLastUpdateEmpty = ( Bunch.GetNumBits() == StartingBitNum );
// Replicate Queued (unreliable functions)
if ( RemoteFunctions != NULL && RemoteFunctions->GetNumBits() > 0 )
{
static const auto * CVar = IConsoleManager::Get().FindTConsoleVariableDataInt( TEXT( "net.RPC.Debug" ) );
if ( CVar && CVar->GetValueOnGameThread() == 1 )
{
UE_LOG( LogNetTraffic, Warning, TEXT(" Sending queued RPCs: %s. Channel[%d] [%.1f bytes]"), *Object->GetName(), OwningChannel->ChIndex, RemoteFunctions->GetNumBits() / 8.f );
}
if ( !bContentBlockWritten )
{
OwningChannel->BeginContentBlock( Object, Bunch );
bContentBlockWritten = true;
}
Bunch.SerializeBits( RemoteFunctions->GetData(), RemoteFunctions->GetNumBits() );
RemoteFunctions->Reset();
RemoteFuncInfo.Empty();
}
// See if we wrote something important (anything but the 'end' int below).
// Note that queued unreliable functions are considered important (WroteImportantData) but not for bLastUpdateEmpty. LastUpdateEmpty
// is used for dormancy purposes. WroteImportantData is for determining if we should not include a component in replication.
const bool WroteImportantData = ( Bunch.GetNumBits() != StartingBitNum );
if ( WroteImportantData )
{
OwningChannel->EndContentBlock( Object, Bunch, OwningChannelConnection->PackageMap->GetClassNetCache( ObjectClass ) );
}
return WroteImportantData;
}
void FObjectReplicator::ReplicateCustomDeltaProperties( FOutBunch & Bunch, int32 & LastIndex, bool & bContentBlockWritten )
{
if ( LifetimeCustomDeltaProperties.Num() == 0 )
{
// No custom properties
return;
}
UObject * Object = GetObject();
check( Object );
check( OwningChannel );
UNetConnection * OwningChannelConnection = OwningChannel->Connection;
// Replicate those properties.
for ( int32 i = 0; i < LifetimeCustomDeltaProperties.Num(); i++ )
{
// Get info.
const int32 RetireIndex = LifetimeCustomDeltaProperties[i];
FPropertyRetirement & Retire = Retirement[RetireIndex];
FRepRecord * Rep = &ObjectClass->ClassReps[RetireIndex];
UProperty * It = Rep->Property;
int32 Index = Rep->Index;
const int32 BitsWrittenBeforeThis = Bunch.GetNumBits();
// If this is a dynamic array, we do the delta here
TSharedPtr<INetDeltaBaseState> & OldState = RecentCustomDeltaState.FindOrAdd( RetireIndex );
TSharedPtr<INetDeltaBaseState> NewState;
// Update Retirement records with this new state so we can handle packet drops.
FPropertyRetirement ** Rec = UpdateAckedRetirements( Retire, OwningChannelConnection->OutAckPacketId );
ValidateRetirementHistory( Retire );
// Our temp writer should always be in a reset state here
check( TempBitWriter->GetNumBits() == 0 );
//-----------------------------------------
// Do delta serialization on dynamic properties
//-----------------------------------------
const bool WroteSomething = SerializeCustomDeltaProperty( OwningChannelConnection, (void*)Object, It, Index, *TempBitWriter, NewState, OldState );
if ( !WroteSomething )
{
continue;
}
check( TempBitWriter->GetNumBits() > 0 );
*Rec = new FPropertyRetirement();
// Remember what the old state was at this point in time. If we get a nak, we will need to revert back to this.
(*Rec)->DynamicState = OldState;
// Save NewState into the RecentCustomDeltaState array (old state is a reference into our RecentCustomDeltaState map)
OldState = NewState;
// Write header, and data to send to the actual bunch
RepLayout->WritePropertyHeader( Object, ObjectClass, OwningChannel, It, Bunch, Index, LastIndex, bContentBlockWritten );
// Send property.
Bunch.SerializeBits( TempBitWriter->GetData(), TempBitWriter->GetNumBits() );
// Reset our temp bit writer
TempBitWriter->Reset();
}
}
void FObjectReplicator::ReplicateCustomDeltaProperties( FOutBunch & Bunch, FReplicationFlags RepFlags, bool & bContentBlockWritten )
{
if ( LifetimeCustomDeltaProperties.Num() == 0 )
{
// No custom properties
return;
}
UObject* Object = GetObject();
check( Object );
check( OwningChannel );
UNetConnection * OwningChannelConnection = OwningChannel->Connection;
// Initialize a map of which conditions are valid
bool ConditionMap[COND_Max];
const bool bIsInitial = RepFlags.bNetInitial ? true : false;
const bool bIsOwner = RepFlags.bNetOwner ? true : false;
const bool bIsSimulated = RepFlags.bNetSimulated ? true : false;
const bool bIsPhysics = RepFlags.bRepPhysics ? true : false;
ConditionMap[COND_None] = true;
ConditionMap[COND_InitialOnly] = bIsInitial;
ConditionMap[COND_OwnerOnly] = bIsOwner;
ConditionMap[COND_SkipOwner] = !bIsOwner;
ConditionMap[COND_SimulatedOnly] = bIsSimulated;
ConditionMap[COND_AutonomousOnly] = !bIsSimulated;
ConditionMap[COND_SimulatedOrPhysics] = bIsSimulated || bIsPhysics;
ConditionMap[COND_InitialOrOwner] = bIsInitial || bIsOwner;
ConditionMap[COND_Custom] = true;
// Replicate those properties.
for ( int32 i = 0; i < LifetimeCustomDeltaProperties.Num(); i++ )
{
// Get info.
const int32 RetireIndex = LifetimeCustomDeltaProperties[i];
FPropertyRetirement & Retire = Retirement[RetireIndex];
FRepRecord * Rep = &ObjectClass->ClassReps[RetireIndex];
UProperty * It = Rep->Property;
int32 Index = Rep->Index;
if (LifetimeCustomDeltaPropertyConditions.IsValidIndex(i))
{
// Check the replication condition here
ELifetimeCondition RepCondition = LifetimeCustomDeltaPropertyConditions[i];
check(RepCondition >= 0 && RepCondition < COND_Max);
if (!ConditionMap[RepCondition])
{
// We didn't pass the condition so don't replicate us
continue;
}
}
const int32 BitsWrittenBeforeThis = Bunch.GetNumBits();
// If this is a dynamic array, we do the delta here
TSharedPtr<INetDeltaBaseState> & OldState = RecentCustomDeltaState.FindOrAdd( RetireIndex );
TSharedPtr<INetDeltaBaseState> NewState;
// Update Retirement records with this new state so we can handle packet drops.
// LastNext will be pointer to the last "Next" pointer in the list (so pointer to a pointer)
FPropertyRetirement ** LastNext = UpdateAckedRetirements( Retire, OwningChannelConnection->OutAckPacketId );
check( LastNext != NULL );
check( *LastNext == NULL );
ValidateRetirementHistory( Retire );
FNetBitWriter TempBitWriter( OwningChannel->Connection->PackageMap, 0 );
//-----------------------------------------
// Do delta serialization on dynamic properties
//-----------------------------------------
const bool WroteSomething = SerializeCustomDeltaProperty( OwningChannelConnection, (void*)Object, It, Index, TempBitWriter, NewState, OldState );
if ( !WroteSomething )
{
continue;
}
*LastNext = new FPropertyRetirement();
// Remember what the old state was at this point in time. If we get a nak, we will need to revert back to this.
(*LastNext)->DynamicState = OldState;
// Save NewState into the RecentCustomDeltaState array (old state is a reference into our RecentCustomDeltaState map)
OldState = NewState;
// Write header, and data to send to the actual bunch
RepLayout->WritePropertyHeader( Object, ObjectClass, OwningChannel, It, Bunch, Index, bContentBlockWritten );
const int NumStartingBits = Bunch.GetNumBits();
// Send property.
Bunch.SerializeBits( TempBitWriter.GetData(), TempBitWriter.GetNumBits() );
NETWORK_PROFILER(GNetworkProfiler.TrackReplicateProperty(It, Bunch.GetNumBits() - NumStartingBits));
}
}