source-engine/engine/servermsghandler.cpp

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2020-04-22 16:56:21 +00:00
//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
//=============================================================================//
#ifndef SWDS
#include "screen.h"
#include "cl_main.h"
#include "iprediction.h"
#include "proto_oob.h"
#include "demo.h"
#include "tier0/icommandline.h"
#include "ispatialpartitioninternal.h"
#include "GameEventManager.h"
#include "cdll_engine_int.h"
#include "voice.h"
#include "host_cmd.h"
#include "server.h"
#include "convar.h"
#include "dt_recv_eng.h"
#include "dt_common_eng.h"
#include "LocalNetworkBackdoor.h"
#include "vox.h"
#include "sound.h"
#include "r_efx.h"
#include "r_local.h"
#include "decal_private.h"
#include "vgui_baseui_interface.h"
#include "host_state.h"
#include "cl_ents_parse.h"
#include "eiface.h"
#include "server.h"
#include "cl_demoactionmanager.h"
#include "decal.h"
#include "r_decal.h"
#include "materialsystem/imaterial.h"
#include "EngineSoundInternal.h"
#include "ivideomode.h"
#include "download.h"
#include "GameUI/IGameUI.h"
#include "cl_demo.h"
#include "cdll_engine_int.h"
#if defined( REPLAY_ENABLED )
#include "replay/ienginereplay.h"
#include "replay_internal.h"
#endif
#include "audio_pch.h"
#if defined ( _X360 )
#include "matchmaking.h"
#endif
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
extern IVEngineClient *engineClient;
extern CNetworkStringTableContainer *networkStringTableContainerClient;
extern CNetworkStringTableContainer *networkStringTableContainerServer;
static ConVar cl_allowupload ( "cl_allowupload", "1", FCVAR_ARCHIVE, "Client uploads customization files" );
static ConVar cl_voice_filter( "cl_voice_filter", "", 0, "Filter voice by name substring" ); // filter incoming voice data
static ConVar *replay_voice_during_playback = NULL;
extern ConCommand quit;
void CClientState::ConnectionClosing( const char * reason )
{
// if connected, shut down host
if ( m_nSignonState > SIGNONSTATE_NONE )
{
ConMsg( "Disconnect: %s.\n", reason );
if ( !Q_stricmp( reason, INVALID_STEAM_TICKET )
|| !Q_stricmp( reason, INVALID_STEAM_LOGON_TICKET_CANCELED ) )
{
g_eSteamLoginFailure = STEAMLOGINFAILURE_BADTICKET;
}
else if ( !Q_stricmp( reason, INVALID_STEAM_LOGON_NOT_CONNECTED ) )
{
g_eSteamLoginFailure = STEAMLOGINFAILURE_NOSTEAMLOGIN;
}
else if ( !Q_stricmp( reason, INVALID_STEAM_LOGGED_IN_ELSEWHERE ) )
{
g_eSteamLoginFailure = STEAMLOGINFAILURE_LOGGED_IN_ELSEWHERE;
}
else if ( !Q_stricmp( reason, INVALID_STEAM_VACBANSTATE ) )
{
g_eSteamLoginFailure = STEAMLOGINFAILURE_VACBANNED;
}
else
{
g_eSteamLoginFailure = STEAMLOGINFAILURE_NONE;
}
if ( reason && reason[0] == '#' )
{
COM_ExplainDisconnection( true, reason );
}
else
{
COM_ExplainDisconnection( true, "Disconnect: %s.\n", reason );
}
SCR_EndLoadingPlaque();
Host_Disconnect( true, reason );
}
}
void CClientState::ConnectionCrashed( const char * reason )
{
// if connected, shut down host
if ( m_nSignonState > SIGNONSTATE_NONE )
{
DebuggerBreakIfDebugging_StagingOnly();
COM_ExplainDisconnection( true, "Disconnect: %s.\n", reason );
SCR_EndLoadingPlaque();
Host_EndGame ( true, "%s", reason );
}
}
void CClientState::FileRequested(const char *fileName, unsigned int transferID)
{
ConMsg( "File '%s' requested from server %s.\n", fileName, m_NetChannel->GetAddress() );
if ( !cl_allowupload.GetBool() )
{
ConMsg( "File uploading disabled.\n" );
m_NetChannel->DenyFile( fileName, transferID );
return;
}
// TODO check if file valid for uploading
m_NetChannel->SendFile( fileName, transferID );
}
void CClientState::FileReceived( const char * fileName, unsigned int transferID )
{
#ifndef _XBOX
// check if the client donwload manager requested this file
CL_FileReceived( fileName, transferID );
// notify client dll
if ( g_ClientDLL )
{
g_ClientDLL->FileReceived( fileName, transferID );
}
#endif
}
void CClientState::FileDenied(const char *fileName, unsigned int transferID )
{
#ifndef _XBOX
// check if the file download manager requested that file
CL_FileDenied( fileName, transferID );
#endif
}
void CClientState::FileSent( const char *fileName, unsigned int transferID )
{
}
void CClientState::PacketStart( int incoming_sequence, int outgoing_acknowledged )
{
// Ack'd incoming messages.
m_nCurrentSequence = incoming_sequence;
command_ack = outgoing_acknowledged;
}
void CClientState::PacketEnd()
{
//
// we don't know if it is ok to save a demo message until
// after we have parsed the frame
//
// Play any sounds we received this packet
CL_DispatchSounds();
// Did we get any messages this tick (i.e., did we call PreEntityPacketReceived)?
if ( GetServerTickCount() != m_nDeltaTick )
return;
// How many commands total did we run this frame
int commands_acknowledged = command_ack - last_command_ack;
// COM_Log( "cl.log", "Server ack'd %i commands this frame\n", commands_acknowledged );
//Msg( "%i/%i CL_PostReadMessages: last ack %i most recent %i acked %i commands\n",
// host_framecount, cl.tickcount,
// cl.last_command_ack,
// cl.netchan->outgoing_sequence - 1,
// commands_acknowledged );
// Highest command parsed from messages
last_command_ack = command_ack;
// Let prediction copy off pristine data and report any errors, etc.
g_pClientSidePrediction->PostNetworkDataReceived( commands_acknowledged );
#ifndef _XBOX
demoaction->DispatchEvents();
#endif
}
#undef CreateEvent
void CClientState::Disconnect( const char *pszReason, bool bShowMainMenu )
{
#if defined( REPLAY_ENABLED )
if ( g_pClientReplayContext && IsConnected() )
{
g_pClientReplayContext->OnClientSideDisconnect();
}
#endif
CBaseClientState::Disconnect( pszReason, bShowMainMenu );
#ifndef _X360
IGameEvent *event = g_GameEventManager.CreateEvent( "client_disconnect" );
if ( event )
{
if ( !pszReason )
pszReason = "";
event->SetString( "message", pszReason );
g_GameEventManager.FireEventClientSide( event );
}
#endif
// stop any demo activities
#ifndef _XBOX
demoplayer->StopPlayback();
demorecorder->StopRecording();
#endif
S_StopAllSounds( true );
R_DecalTermAll();
if ( m_nMaxClients > 1 )
{
if ( EngineVGui()->IsConsoleVisible() == false )
{
// start progress bar immediately for multiplayer level transitions
EngineVGui()->EnabledProgressBarForNextLoad();
}
}
CL_ClearState();
#ifndef _XBOX
// End any in-progress downloads
CL_HTTPStop_f();
#endif
// stop loading progress bar
if (bShowMainMenu)
{
SCR_EndLoadingPlaque();
}
// notify game ui dll of out-of-in-game status
EngineVGui()->NotifyOfServerDisconnect();
if (bShowMainMenu && !engineClient->IsDrawingLoadingImage() && (cl.demonum == -1))
{
// we're not in the middle of loading something, so show the UI
if ( EngineVGui() )
{
EngineVGui()->ActivateGameUI();
}
}
HostState_OnClientDisconnected();
// if we played a demo from the startdemos list, play next one
if (cl.demonum != -1)
{
CL_NextDemo();
}
}
bool CClientState::ProcessTick( NET_Tick *msg )
{
int tick = msg->m_nTick;
m_NetChannel->SetRemoteFramerate( msg->m_flHostFrameTime, msg->m_flHostFrameTimeStdDeviation );
m_ClockDriftMgr.SetServerTick( tick );
// Remember this for GetLastTimeStamp().
m_flLastServerTickTime = tick * host_state.interval_per_tick;
// Use the server tick while reading network data (used for interpolation samples, etc).
g_ClientGlobalVariables.tickcount = tick;
g_ClientGlobalVariables.curtime = tick * host_state.interval_per_tick;
g_ClientGlobalVariables.frametime = (tick - oldtickcount) * host_state.interval_per_tick; // We used to call GetFrameTime() here, but 'insimulation' is always
// true so we have this code right in here to keep it simple.
return true;
}
bool CClientState::ProcessStringCmd( NET_StringCmd *msg )
{
return CBaseClientState::ProcessStringCmd( msg );
}
bool CClientState::ProcessServerInfo( SVC_ServerInfo *msg )
{
// Reset client state
CL_ClearState();
if ( !CBaseClientState::ProcessServerInfo( msg ) )
{
Disconnect( "CBaseClientState::ProcessServerInfo failed", true );
return false;
}
#ifndef _XBOX
if ( demoplayer->IsPlayingBack() )
{
// Because a server doesn't run during
// demoplayback, but the decal system relies on this...
m_nServerCount = gHostSpawnCount;
}
else
{
// tell demo recorder that new map is loaded and we are receiving
// it's signon data (will be written into extra demo header file)
demorecorder->SetSignonState( SIGNONSTATE_NEW );
}
#endif
// is server a HLTV proxy ?
ishltv = msg->m_bIsHLTV;
#if defined( REPLAY_ENABLED )
// is server a replay proxy ?
isreplay = msg->m_bIsReplay;
#endif
// The MD5 of the server map must match the MD5 of the client map. or else
// the client is probably cheating.
V_memcpy( serverMD5.bits, msg->m_nMapMD5.bits, MD5_DIGEST_LENGTH );
// Multiplayer game?
if ( m_nMaxClients > 1 )
{
if ( mp_decals.GetInt() < r_decals.GetInt() )
{
r_decals.SetValue( mp_decals.GetInt() );
}
}
g_ClientGlobalVariables.maxClients = m_nMaxClients;
g_ClientGlobalVariables.network_protocol = msg->m_nProtocol;
#ifdef SHARED_NET_STRING_TABLES
// use same instance of StringTableContainer as the server does
m_StringTableContainer = networkStringTableContainerServer;
CL_HookClientStringTables();
#else
// use own instance of StringTableContainer
m_StringTableContainer = networkStringTableContainerClient;
#endif
CL_ReallocateDynamicData( m_nMaxClients );
if ( sv.IsPaused() )
{
if ( msg->m_fTickInterval != host_state.interval_per_tick )
{
Host_Error( "Expecting interval_per_tick %f, got %f\n",
host_state.interval_per_tick, msg->m_fTickInterval );
return false;
}
}
else
{
host_state.interval_per_tick = msg->m_fTickInterval;
}
// Re-init hud video, especially if we changed game directories
ClientDLL_HudVidInit();
// Don't verify the map and player .mdl crc's until after any missing resources have
// been downloaded. This will still occur before requesting the rest of the signon.
gHostSpawnCount = m_nServerCount;
videomode->MarkClientViewRectDirty(); // leave intermission full screen
return true;
}
bool CClientState::ProcessClassInfo( SVC_ClassInfo *msg )
{
if ( msg->m_bCreateOnClient )
{
#ifndef _XBOX
if ( !demoplayer->IsPlayingBack() )
#endif
{
// Create all of the send tables locally
DataTable_CreateClientTablesFromServerTables();
// Now create all of the server classes locally, too
DataTable_CreateClientClassInfosFromServerClasses( this );
// store the current data tables in demo file to make sure
// they are the same during playback
#ifndef _XBOX
demorecorder->RecordServerClasses( serverGameDLL->GetAllServerClasses() );
#endif
}
LinkClasses(); // link server and client classes
}
else
{
CBaseClientState::ProcessClassInfo( msg );
}
#ifdef DEDICATED
bool bAllowMismatches = false;
#else
bool bAllowMismatches = ( demoplayer && demoplayer->IsPlayingBack() );
#endif // DEDICATED
if ( !RecvTable_CreateDecoders( serverGameDLL->GetStandardSendProxies(), bAllowMismatches ) ) // create receive table decoders
{
Host_EndGame( true, "CL_ParseClassInfo_EndClasses: CreateDecoders failed.\n" );
return false;
}
#ifndef _XBOX
if ( !demoplayer->IsPlayingBack() )
#endif
{
CLocalNetworkBackdoor::InitFastCopy();
}
return true;
}
bool CClientState::ProcessSetPause( SVC_SetPause *msg )
{
CBaseClientState::ProcessSetPause( msg );
return true;
}
bool CClientState::ProcessSetPauseTimed( SVC_SetPauseTimed *msg )
{
CBaseClientState::ProcessSetPauseTimed( msg );
return true;
}
bool CClientState::ProcessVoiceInit( SVC_VoiceInit *msg )
{
#if !defined( NO_VOICE )//#ifndef _XBOX
if ( msg->m_szVoiceCodec[0] == 0 )
{
Voice_Deinit();
}
else
{
Voice_Init( msg->m_szVoiceCodec, msg->m_nSampleRate );
}
#endif
return true;
}
ConVar voice_debugfeedback( "voice_debugfeedback", "0" );
bool CClientState::ProcessVoiceData( SVC_VoiceData *msg )
{
char chReceived[4096];
int bitsRead = msg->m_DataIn.ReadBitsClamped( chReceived, msg->m_nLength );
#if defined ( _X360 )
DWORD dwLength = msg->m_nLength;
XUID xuid = msg->m_xuid;
Audio_GetXVoice()->PlayIncomingVoiceData( xuid, (byte*)chReceived, dwLength );
if ( voice_debugfeedback.GetBool() )
{
Msg( "Received voice from: %d\n", msg->m_nFromClient + 1 );
}
return true;
#endif
#if !defined( NO_VOICE )//#ifndef _XBOX
int iEntity = msg->m_nFromClient + 1;
if ( iEntity == (m_nPlayerSlot + 1) )
{
Voice_LocalPlayerTalkingAck();
}
player_info_t playerinfo;
engineClient->GetPlayerInfo( iEntity, &playerinfo );
if ( Q_strlen( cl_voice_filter.GetString() ) > 0 && Q_strstr( playerinfo.name, cl_voice_filter.GetString() ) == NULL )
return true;
#if defined( REPLAY_ENABLED )
extern IEngineClientReplay *g_pEngineClientReplay;
bool bInReplay = engineClient->IsPlayingDemo() && g_pEngineClientReplay && g_pEngineClientReplay->IsPlayingReplayDemo();
if ( replay_voice_during_playback == NULL )
{
replay_voice_during_playback = g_pCVar->FindVar( "replay_voice_during_playback" );
Assert( replay_voice_during_playback != NULL );
}
// Don't play back voice data during replay unless the client specified it to.
if ( bInReplay && replay_voice_during_playback && !replay_voice_during_playback->GetBool() )
return true;
#endif
// Data length can be zero when the server is just acking a client's voice data.
if ( bitsRead == 0 )
return true;
if ( !Voice_Enabled() )
{
return true;
}
// Have we already initialized the channels for this guy?
int nChannel = Voice_GetChannel( iEntity );
if ( nChannel == VOICE_CHANNEL_ERROR )
{
// Create a channel in the voice engine and a channel in the sound engine for this guy.
nChannel = Voice_AssignChannel( iEntity, msg->m_bProximity );
if ( nChannel == VOICE_CHANNEL_ERROR )
{
// If they used -nosound, then it's not a problem.
if ( S_IsInitted() )
ConDMsg("ProcessVoiceData: Voice_AssignChannel failed for client %d!\n", iEntity-1);
return true;
}
}
// Give the voice engine the data (it in turn gives it to the mixer for the sound engine).
Voice_AddIncomingData( nChannel, chReceived, Bits2Bytes( bitsRead ), m_nCurrentSequence );
#endif
return true;
};
bool CClientState::ProcessPrefetch( SVC_Prefetch *msg )
{
char const *soundname = cl.GetSoundName( msg->m_nSoundIndex );
if ( soundname && soundname [ 0 ] )
{
EngineSoundClient()->PrefetchSound( soundname );
}
return true;
}
void CClientState::ProcessSoundsWithProtoVersion( SVC_Sounds *msg, CUtlVector< SoundInfo_t > &sounds, int nProtoVersion )
{
SoundInfo_t defaultSound; defaultSound.SetDefault();
SoundInfo_t *pDeltaSound = &defaultSound;
// Max is 32 in multiplayer and 255 in singleplayer
// Reserve this memory up front so it doesn't realloc under pDeltaSound pointing at it
sounds.EnsureCapacity( 256 );
for ( int i = 0; i < msg->m_nNumSounds; i++ )
{
int nSound = sounds.AddToTail();
SoundInfo_t *pSound = &(sounds[ nSound ]);
pSound->ReadDelta( pDeltaSound, msg->m_DataIn, nProtoVersion );
pDeltaSound = pSound; // copy delta values
if ( msg->m_bReliableSound )
{
// client is incrementing the reliable sequence numbers itself
m_nSoundSequence = ( m_nSoundSequence + 1 ) & SOUND_SEQNUMBER_MASK;
Assert ( pSound->nSequenceNumber == 0 );
pSound->nSequenceNumber = m_nSoundSequence;
}
}
}
bool CClientState::ProcessSounds( SVC_Sounds *msg )
{
if ( msg->m_DataIn.IsOverflowed() )
{
// Overflowed before we even started! There's nothing we can do with this buffer.
return false;
}
CUtlVector< SoundInfo_t > sounds;
int startbit = msg->m_DataIn.GetNumBitsRead();
// Process with the reported proto version
ProcessSoundsWithProtoVersion( msg, sounds, g_ClientGlobalVariables.network_protocol );
int nRelativeBitsRead = msg->m_DataIn.GetNumBitsRead() - startbit;
if ( msg->m_nLength != nRelativeBitsRead || msg->m_DataIn.IsOverflowed() )
{
// The number of bits read is not what we expect!
sounds.RemoveAll();
int nFallbackProtocol = 0;
// If the demo file thinks it's version 18 or 19, it might actually be the other.
// This is a work around for when we broke compatibility Halloween 2011.
// -Jeep
if ( g_ClientGlobalVariables.network_protocol == PROTOCOL_VERSION_18 )
{
nFallbackProtocol = PROTOCOL_VERSION_19;
}
else if ( g_ClientGlobalVariables.network_protocol == PROTOCOL_VERSION_19 )
{
nFallbackProtocol = PROTOCOL_VERSION_18;
}
if ( nFallbackProtocol != 0 )
{
// Roll back our buffer to before we read those bits and wipe the overflow flag
msg->m_DataIn.Reset();
msg->m_DataIn.Seek( startbit );
// Try again with the fallback version
ProcessSoundsWithProtoVersion( msg, sounds, nFallbackProtocol );
nRelativeBitsRead = msg->m_DataIn.GetNumBitsRead() - startbit;
}
}
if ( msg->m_nLength == nRelativeBitsRead )
{
// Now that we know the bits were read correctly, add all the sounds
for ( int i = 0; i < sounds.Count(); ++i )
{
// Add all received sounds to sorted queue (sounds may arrive in multiple messages),
// will be processed after all packets have been completely parsed
CL_AddSound( sounds[ i ] );
}
// read the correct number of bits
return true;
}
// Wipe the overflow flag and set the buffer to how much we expected to read
msg->m_DataIn.Reset();
msg->m_DataIn.Seek( startbit + msg->m_nLength );
// didn't read the correct number of bits with either proto version attempt
return false;
}
bool CClientState::ProcessFixAngle( SVC_FixAngle *msg )
{
for (int i=0 ; i<3 ; i++)
{
// Clamp between -180 and 180
if (msg->m_Angle[i]>180)
{
msg->m_Angle[i] -= 360;
}
}
if ( msg->m_bRelative )
{
// Update running counter
addangletotal += msg->m_Angle[YAW];
AddAngle a;
a.total = addangletotal;
a.starttime = m_flLastServerTickTime;
addangle.AddToTail( a );
}
else
{
viewangles = msg->m_Angle;
}
return true;
}
bool CClientState::ProcessCrosshairAngle( SVC_CrosshairAngle *msg )
{
g_ClientDLL->SetCrosshairAngle( msg->m_Angle );
return true;
}
bool CClientState::ProcessBSPDecal( SVC_BSPDecal *msg )
{
model_t * model;
if ( msg->m_nEntityIndex )
{
model = GetModel( msg->m_nModelIndex );
}
else
{
model = host_state.worldmodel;
if ( !model )
{
Warning( "ProcessBSPDecal: Trying to project on world before host_state.worldmodel is set!!!\n" );
}
}
if ( model == NULL )
{
IMaterial *mat = Draw_DecalMaterial( msg->m_nDecalTextureIndex );
char const *matname = "???";
if ( mat )
{
matname = mat->GetName();
}
Warning( "Warning! Static BSP decal (%s), on NULL model index %i for entity index %i.\n",
matname,
msg->m_nModelIndex,
msg->m_nEntityIndex );
return true;
}
if (r_decals.GetInt())
{
g_pEfx->DecalShoot(
msg->m_nDecalTextureIndex,
msg->m_nEntityIndex,
model,
vec3_origin,
vec3_angle,
msg->m_Pos,
NULL,
msg->m_bLowPriority ? 0 : FDECAL_PERMANENT );
}
return true;
}
bool CClientState::ProcessGameEvent(SVC_GameEvent *msg)
{
tmZoneFiltered( TELEMETRY_LEVEL0, 50, TMZF_NONE, "%s", __FUNCTION__ );
int startbit = msg->m_DataIn.GetNumBitsRead();
IGameEvent *event = g_GameEventManager.UnserializeEvent( &msg->m_DataIn );
int length = msg->m_DataIn.GetNumBitsRead() - startbit;
if ( length != msg->m_nLength )
{
DevMsg("CClientState::ProcessGameEvent: KeyValue length mismatch.\n" );
return true;
}
if ( !event )
{
DevMsg("CClientState::ProcessGameEvent: UnserializeKeyValue failed.\n" );
return true;
}
g_GameEventManager.FireEventClientSide( event );
return true;
}
bool CClientState::ProcessUserMessage(SVC_UserMessage *msg)
{
// buffer for incoming user message
ALIGN4 byte userdata[ MAX_USER_MSG_DATA ] ALIGN4_POST = { 0 };
bf_read userMsg( "UserMessage(read)", userdata, sizeof( userdata ) );
int bitsRead = msg->m_DataIn.ReadBitsClamped( userdata, msg->m_nLength );
userMsg.StartReading( userdata, Bits2Bytes( bitsRead ) );
// dispatch message to client.dll
if ( !g_ClientDLL->DispatchUserMessage( msg->m_nMsgType, userMsg ) )
{
ConMsg( "Couldn't dispatch user message (%i)\n", msg->m_nMsgType );
return false;
}
return true;
}
bool CClientState::ProcessEntityMessage(SVC_EntityMessage *msg)
{
// Look up entity
IClientNetworkable *entity = entitylist->GetClientNetworkable( msg->m_nEntityIndex );
if ( !entity )
{
// message was send to use, even we don't have this entity TODO change that on server side
return true;
}
// route to entity
MDLCACHE_CRITICAL_SECTION_( g_pMDLCache );
// buffer for incoming user message
ALIGN4 byte entityData[ MAX_ENTITY_MSG_DATA ] ALIGN4_POST = { 0 };
bf_read entMsg( "EntityMessage(read)", entityData, sizeof( entityData ) );
int bitsRead = msg->m_DataIn.ReadBitsClamped( entityData, msg->m_nLength );
entMsg.StartReading( entityData, Bits2Bytes( bitsRead ) );
entity->ReceiveMessage( msg->m_nClassID, entMsg );
return true;
}
bool CClientState::ProcessPacketEntities( SVC_PacketEntities *msg )
{
if ( !msg->m_bIsDelta )
{
// Delta too old or is initial message
#ifndef _XBOX
// we can start recording now that we've received an uncompressed packet
demorecorder->SetSignonState( SIGNONSTATE_FULL );
#endif
// Tell prediction that we're recreating entities due to an uncompressed packet arriving
if ( g_pClientSidePrediction )
{
g_pClientSidePrediction->OnReceivedUncompressedPacket();
}
}
else
{
if ( m_nDeltaTick == -1 )
{
// we requested a full update but still got a delta compressed packet. ignore it.
return true;
}
// Preprocessing primarily does client prediction. So if we're processing deltas--do it
// otherwise, we're about to be told exactly what the state of everything is--so skip it.
CL_PreprocessEntities(); // setup client prediction
}
TRACE_PACKET(( "CL Receive (%d <-%d)\n", m_nCurrentSequence, msg->m_nDeltaFrom ));
TRACE_PACKET(( "CL Num Ents (%d)\n", msg->m_nUpdatedEntries ));
if ( g_pLocalNetworkBackdoor )
{
if ( m_nSignonState == SIGNONSTATE_SPAWN )
{
// We are done with signon sequence.
SetSignonState( SIGNONSTATE_FULL, m_nServerCount );
}
// ignore message, all entities are transmitted using fast local memcopy routines
m_nDeltaTick = GetServerTickCount();
return true;
}
if ( !CL_ProcessPacketEntities ( msg ) )
return false;
return CBaseClientState::ProcessPacketEntities( msg );
}
bool CClientState::ProcessTempEntities( SVC_TempEntities *msg )
{
bool bReliable = false;
float fire_time = cl.GetTime();
#ifndef _XBOX
// delay firing temp ents by cl_interp in multiplayer or demoplayback
if ( cl.m_nMaxClients > 1 || demoplayer->IsPlayingBack() )
{
float flInterpAmount = GetClientInterpAmount();
fire_time += flInterpAmount;
}
#endif
if ( msg->m_nNumEntries == 0 )
{
bReliable = true;
msg->m_nNumEntries = 1;
}
int flags = bReliable ? FEV_RELIABLE : 0;
// Don't actually queue unreliable events if playing a demo and skipping ahead
#ifndef _XBOX
if ( !bReliable && demoplayer->IsSkipping() )
{
return true;
}
#endif
bf_read &buffer = msg->m_DataIn; // shortcut
int classID = -1;
void *from = NULL;
C_ServerClassInfo *pServerClass = NULL;
ClientClass *pClientClass = NULL;
ALIGN4 unsigned char data[CEventInfo::MAX_EVENT_DATA] ALIGN4_POST;
bf_write toBuf( data, sizeof(data) );
CEventInfo *ei = NULL;
for (int i = 0; i < msg->m_nNumEntries; i++ )
{
float delay = 0.0f;
if ( buffer.ReadOneBit() )
{
delay = (float)buffer.ReadSBitLong( 8 ) / 100.0f;
}
toBuf.Reset();
if ( buffer.ReadOneBit() )
{
from = NULL; // full update
classID = buffer.ReadUBitLong( m_nServerClassBits ); // classID
// Look up the client class, etc.
// Match the server classes to the client classes.
pServerClass = m_pServerClasses ? &m_pServerClasses[ classID - 1 ] : NULL;
if ( !pServerClass )
{
DevMsg("CL_QueueEvent: missing server class info for %i.\n", classID - 1 );
return false;
}
// See if the client .dll has a handler for this class
pClientClass = FindClientClass( pServerClass->m_ClassName );
if ( !pClientClass || !pClientClass->m_pRecvTable )
{
DevMsg("CL_QueueEvent: missing client receive table for %s.\n", pServerClass->m_ClassName );
return false;
}
RecvTable_MergeDeltas( pClientClass->m_pRecvTable, NULL, &buffer, &toBuf );
}
else
{
Assert( ei );
unsigned int buffer_size = PAD_NUMBER( Bits2Bytes( ei->bits ), 4 );
bf_read fromBuf( ei->pData, buffer_size );
RecvTable_MergeDeltas( pClientClass->m_pRecvTable, &fromBuf, &buffer, &toBuf );
}
// Add a slot
ei = &cl.events[ cl.events.AddToTail() ];
Assert( ei );
int size = Bits2Bytes(toBuf.GetNumBitsWritten() );
ei->classID = classID;
ei->fire_delay = fire_time + delay;
ei->flags = flags;
ei->pClientClass = pClientClass;
ei->bits = toBuf.GetNumBitsWritten();
// deltaBitsReader.ReadNextPropIndex reads uint32s, so make sure we alloc in 4-byte chunks.
ei->pData = new byte[ ALIGN_VALUE( size, 4 ) ]; // copy raw data
Q_memcpy( ei->pData, data, size );
}
return true;
}
#endif // swds