Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: baseclient.cpp: implementation of the CBaseClient class.
//
//===========================================================================//
#include "client_pch.h"
#include "tier0/etwprof.h"
#include "eiface.h"
#include "baseclient.h"
#include "server.h"
#include "host.h"
#include "networkstringtable.h"
#include "framesnapshot.h"
#include "GameEventManager.h"
#include "LocalNetworkBackdoor.h"
#include "dt_send_eng.h"
#ifndef SWDS
#include "vgui_baseui_interface.h"
#endif
#include "sv_remoteaccess.h" // NotifyDedicatedServerUI()
#include "MapReslistGenerator.h"
#include "sv_steamauth.h"
#include "matchmaking.h"
#include "iregistry.h"
#include "sv_main.h"
#include "hltvserver.h"
#include <ctype.h>
#if defined( REPLAY_ENABLED )
#include "replay_internal.h"
#endif
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
extern IServerGameDLL *serverGameDLL;
extern ConVar tv_enable;
ConVar sv_namechange_cooldown_seconds( "sv_namechange_cooldown_seconds", "30.0", FCVAR_NONE, "When a client name change is received, wait N seconds before allowing another name change" );
ConVar sv_netspike_on_reliable_snapshot_overflow( "sv_netspike_on_reliable_snapshot_overflow", "0", FCVAR_NONE, "If nonzero, the server will dump a netspike trace if a client is dropped due to reliable snapshot overflow" );
ConVar sv_netspike_sendtime_ms( "sv_netspike_sendtime_ms", "0", FCVAR_NONE, "If nonzero, the server will dump a netspike trace if it takes more than N ms to prepare a snapshot to a single client. This feature does take some CPU cycles, so it should be left off when not in use." );
ConVar sv_netspike_output( "sv_netspike_output", "1", FCVAR_NONE, "Where the netspike data be written? Sum of the following values: 1=netspike.txt, 2=ordinary server log" );
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
CBaseClient::CBaseClient()
{
// init all pointers
m_NetChannel = NULL;
m_ConVars = NULL;
m_Server = NULL;
m_pBaseline = NULL;
m_bIsHLTV = false;
#if defined( REPLAY_ENABLED )
m_bIsReplay = false;
#endif
m_bConVarsChanged = false;
m_bInitialConVarsSet = false;
m_bSendServerInfo = false;
m_bFullyAuthenticated = false;
m_fTimeLastNameChange = 0.0;
m_szPendingNameChange[0] = '\0';
m_bReportFakeClient = true;
m_iTracing = 0;
m_bPlayerNameLocked = false;
}
CBaseClient::~CBaseClient()
{
}
void CBaseClient::SetRate(int nRate, bool bForce )
{
if ( m_NetChannel )
m_NetChannel->SetDataRate( nRate );
}
int CBaseClient::GetRate( void ) const
{
if ( m_NetChannel )
{
return m_NetChannel->GetDataRate();
}
else
{
return 0;
}
}
bool CBaseClient::FillUserInfo( player_info_s &userInfo )
{
Q_memset( &userInfo, 0, sizeof(userInfo) );
if ( !m_Name[0] || !IsConnected() )
return false; // inactive user, no more data available
Q_strncpy( userInfo.name, GetClientName(), MAX_PLAYER_NAME_LENGTH );
V_strcpy_safe( userInfo.guid, GetNetworkIDString() );
userInfo.friendsID = m_nFriendsID;
Q_strncpy( userInfo.friendsName, m_FriendsName, sizeof(m_FriendsName) );
userInfo.userID = GetUserID();
userInfo.fakeplayer = IsFakeClient();
userInfo.ishltv = IsHLTV();
#if defined( REPLAY_ENABLED )
userInfo.isreplay = IsReplay();
#endif
for( int i=0; i< MAX_CUSTOM_FILES; i++ )
userInfo.customFiles[i] = m_nCustomFiles[i].crc;
userInfo.filesDownloaded = m_nFilesDownloaded;
return true;
}
//-----------------------------------------------------------------------------
// Purpose: Send text to client
// Input : *fmt -
// ... -
//-----------------------------------------------------------------------------
void CBaseClient::ClientPrintf (const char *fmt, ...)
{
if ( !m_NetChannel )
{
return;
}
va_list argptr;
char string[1024];
va_start (argptr,fmt);
Q_vsnprintf (string, sizeof( string ), fmt,argptr);
va_end (argptr);
SVC_Print print(string);
m_NetChannel->SendNetMsg( print );
}
//-----------------------------------------------------------------------------
// Purpose: Send text to client
// Input : *fmt -
// ... -
//-----------------------------------------------------------------------------
bool CBaseClient::SendNetMsg(INetMessage &msg, bool bForceReliable)
{
if ( !m_NetChannel )
{
return true;
}
int nStartBit = m_NetChannel->GetNumBitsWritten( msg.IsReliable() || bForceReliable );
bool bret = m_NetChannel->SendNetMsg( msg, bForceReliable );
if ( IsTracing() )
{
int nBits = m_NetChannel->GetNumBitsWritten( msg.IsReliable() || bForceReliable ) - nStartBit;
TraceNetworkMsg( nBits, "NetMessage %s", msg.GetName() );
}
return bret;
}
char const *CBaseClient::GetUserSetting(char const *pchCvar) const
{
if ( !m_ConVars || !pchCvar || !pchCvar[0] )
{
return "";
}
const char * value = m_ConVars->GetString( pchCvar, "" );
if ( value[0]==0 )
{
// check if this var even existed
if ( m_ConVars->GetDataType( pchCvar ) == KeyValues::TYPE_NONE )
{
DevMsg( "GetUserSetting: cvar '%s' unknown.\n", pchCvar );
}
}
return value;
}
void CBaseClient::SetUserCVar( const char *pchCvar, const char *value)
{
if ( !pchCvar || !value )
return;
// Name is handled differently
if ( !Q_stricmp( pchCvar, "name") )
{
//Msg("CBaseClient::SetUserCVar[index=%d]('name', '%s')\n", m_nClientSlot, value );
ClientRequestNameChange( value );
return;
}
m_ConVars->SetString( pchCvar, value );
}
void CBaseClient::SetUpdateRate(int udpaterate, bool bForce)
{
udpaterate = clamp( udpaterate, 1, 100 );
m_fSnapshotInterval = 1.0f / udpaterate;
}
int CBaseClient::GetUpdateRate(void) const
{
if ( m_fSnapshotInterval > 0 )
return (int)(1.0f/m_fSnapshotInterval);
else
return 0;
}
void CBaseClient::FreeBaselines()
{
if ( m_pBaseline )
{
m_pBaseline->ReleaseReference();
m_pBaseline = NULL;
}
m_nBaselineUpdateTick = -1;
m_nBaselineUsed = 0;
m_BaselinesSent.ClearAll();
}
void CBaseClient::Clear()
{
// Throw away any residual garbage in the channel.
if ( m_NetChannel )
{
m_NetChannel->Shutdown("Disconnect by server.\n");
m_NetChannel = NULL;
}
if ( m_ConVars )
{
m_ConVars->deleteThis();
m_ConVars = NULL;
}
FreeBaselines();
// This used to be a memset, but memset will screw up any embedded classes
// and we want to preserve some things like index.
m_nSignonState = SIGNONSTATE_NONE;
m_nDeltaTick = -1;
m_nSignonTick = 0;
m_nStringTableAckTick = 0;
m_pLastSnapshot = NULL;
m_nForceWaitForTick = -1;
m_bFakePlayer = false;
m_bIsHLTV = false;
#if defined( REPLAY_ENABLED )
m_bIsReplay = false;
#endif
m_fNextMessageTime = 0;
m_fSnapshotInterval = 0;
m_bReceivedPacket = false;
m_UserID = 0;
m_Name[0] = 0;
m_nFriendsID = 0;
m_FriendsName[0] = 0;
m_nSendtableCRC = 0;
m_nBaselineUpdateTick = -1;
m_nBaselineUsed = 0;
m_nFilesDownloaded = 0;
m_bConVarsChanged = false;
m_bSendServerInfo = false;
m_bFullyAuthenticated = false;
m_fTimeLastNameChange = 0.0;
m_szPendingNameChange[0] = '\0';
Q_memset( m_nCustomFiles, 0, sizeof(m_nCustomFiles) );
}
bool CBaseClient::SetSignonState(int state, int spawncount)
{
MDLCACHE_COARSE_LOCK_(g_pMDLCache);
switch( m_nSignonState )
{
case SIGNONSTATE_CONNECTED : // client is connected, leave client in this state and let SendPendingSignonData do the rest
m_bSendServerInfo = true;
break;
case SIGNONSTATE_NEW : // client got server info, send prespawn datam_Client->SendServerInfo()
if ( !SendSignonData() )
return false;
break;
case SIGNONSTATE_PRESPAWN : SpawnPlayer();
break;
case SIGNONSTATE_SPAWN : ActivatePlayer();
break;
case SIGNONSTATE_FULL : OnSignonStateFull();
break;
case SIGNONSTATE_CHANGELEVEL: break;
}
return true;
}
void CBaseClient::Reconnect( void )
{
ConMsg("Forcing client reconnect (%i)\n", m_nSignonState );
m_NetChannel->Clear();
m_nSignonState = SIGNONSTATE_CONNECTED;
NET_SignonState signon( m_nSignonState, -1 );
m_NetChannel->SendNetMsg( signon );
}
void CBaseClient::Inactivate( void )
{
FreeBaselines();
m_nDeltaTick = -1;
m_nSignonTick = 0;
m_nStringTableAckTick = 0;
m_pLastSnapshot = NULL;
m_nForceWaitForTick = -1;
m_nSignonState = SIGNONSTATE_CHANGELEVEL;
if ( m_NetChannel )
{
// don't do that for fakeclients
m_NetChannel->Clear();
if ( NET_IsMultiplayer() )
{
NET_SignonState signon( m_nSignonState, m_Server->GetSpawnCount() );
SendNetMsg( signon );
// force sending message now
m_NetChannel->Transmit();
}
}
// don't receive event messages anymore
g_GameEventManager.RemoveListener( this );
}
//---------------------------------------------------------------------------
// Purpose: Determine whether or not a character should be ignored in a player's name.
//---------------------------------------------------------------------------
inline bool BIgnoreCharInName ( unsigned char cChar, bool bIsFirstCharacter )
{
// Don't copy '%' or '~' chars across
// Don't copy '#' chars across if they would go into the first position in the name
// Don't allow color codes ( less than COLOR_MAX )
return cChar == '%' || cChar == '~' || cChar < 0x09 || ( bIsFirstCharacter && cChar == '#' );
}
void ValidateName( char *pszName, int nBuffSize )
{
if ( !pszName )
return;
// did we get an empty string for the name?
if ( Q_strlen( pszName ) <= 0 )
{
Q_snprintf( pszName, nBuffSize, "unnamed" );
}
else
{
Q_RemoveAllEvilCharacters( pszName );
const unsigned char *pChar = (unsigned char *)pszName;
// also skip characters we're going to ignore
while ( *pChar && ( isspace(*pChar) || BIgnoreCharInName( *pChar, true ) ) )
{
++pChar;
}
// did we get all the way to the end of the name without a non-whitespace character?
if ( *pChar == '\0' )
{
Q_snprintf( pszName, nBuffSize, "unnamed" );
}
}
}
void CBaseClient::SetName(const char * playerName)
{
char name[MAX_PLAYER_NAME_LENGTH];
Q_strncpy( name, playerName, sizeof(name) );
// Clear any pending name change
m_szPendingNameChange[0] = '\0';
// quick check to make sure the name isn't empty or full of whitespace
ValidateName( name, sizeof(name) );
if ( Q_strncmp( name, m_Name, sizeof(m_Name) ) == 0 )
return; // didn't change
int i;
int dupc = 1;
char *p, *val;
char newname[MAX_PLAYER_NAME_LENGTH];
// remove evil char '%'
char *pFrom = (char *)name;
char *pTo = m_Name;
char *pLimit = &m_Name[sizeof(m_Name)-1];
while ( *pFrom && pTo < pLimit )
{
// Don't copy '%' or '~' chars across
// Don't copy '#' chars across if they would go into the first position in the name
// Don't allow color codes ( less than COLOR_MAX )
if ( !BIgnoreCharInName( *pFrom, pTo == &m_Name[0] ) )
{
*pTo++ = *pFrom;
}
pFrom++;
}
*pTo = 0;
Assert( m_Name[ 0 ] != '\0' ); // this should've been caught by ValidateName
if ( m_Name[ 0 ] == '\0' )
{
V_strncpy( m_Name, "unnamed", sizeof(m_Name) );
}
val = m_Name;
// Don't care about duplicate names on the xbox. It can only occur when a player
// is reconnecting after crashing, and we don't want to ever show the (X) then.
if ( !IsX360() )
{
// Check to see if another user by the same name exists
while ( true )
{
for ( i = 0; i < m_Server->GetClientCount(); i++ )
{
IClient *client = m_Server->GetClient( i );
if( !client->IsConnected() || client == this )
continue;
// If it's 2 bots they're allowed to have matching names, otherwise there's a conflict
if( !Q_stricmp( client->GetClientName(), val ) && !( IsFakeClient() && client->IsFakeClient() ) )
{
CBaseClient *pClient = dynamic_cast< CBaseClient* >( client );
if ( IsFakeClient() && pClient )
{
// We're a bot so we get to keep the name... change the other guy
pClient->m_Name[ 0 ] = '\0';
pClient->SetName( val );
}
else
{
break;
}
}
}
if (i >= m_Server->GetClientCount())
break;
p = val;
if (val[0] == '(')
{
if (val[2] == ')')
{
p = val + 3;
}
else if (val[3] == ')') //assumes max players is < 100
{
p = val + 4;
}
}
Q_snprintf(newname, sizeof(newname), "(%d)%-.*s", dupc++, MAX_PLAYER_NAME_LENGTH - 4, p );
Q_strncpy(m_Name, newname, sizeof(m_Name));
val = m_Name;
}
}
m_ConVars->SetString( "name", m_Name );
m_bConVarsChanged = true;
m_Server->UserInfoChanged( m_nClientSlot );
}
void CBaseClient::ActivatePlayer()
{
COM_TimestampedLog( "CBaseClient::ActivatePlayer" );
// tell server to update the user info table (if not already done)
m_Server->UserInfoChanged( m_nClientSlot );
m_nSignonState = SIGNONSTATE_FULL;
MapReslistGenerator().OnPlayerSpawn();
#ifndef _XBOX
// update the UI
NotifyDedicatedServerUI("UpdatePlayers");
#endif
}
void CBaseClient::SpawnPlayer( void )
{
COM_TimestampedLog( "CBaseClient::SpawnPlayer" );
if ( !IsFakeClient() )
{
// free old baseline snapshot
FreeBaselines();
// create baseline snapshot for real clients
m_pBaseline = framesnapshotmanager->CreateEmptySnapshot( 0, MAX_EDICTS );
}
// Set client clock to match server's
NET_Tick tick( m_Server->GetTick(), host_frametime_unbounded, host_frametime_stddeviation );
SendNetMsg( tick, true );
// Spawned into server, not fully active, though
m_nSignonState = SIGNONSTATE_SPAWN;
NET_SignonState signonState (m_nSignonState, m_Server->GetSpawnCount() );
SendNetMsg( signonState );
}
bool CBaseClient::SendSignonData( void )
{
COM_TimestampedLog( " CBaseClient::SendSignonData" );
#ifndef SWDS
EngineVGui()->UpdateProgressBar(PROGRESS_SENDSIGNONDATA);
#endif
if ( m_Server->m_Signon.IsOverflowed() )
{
Host_Error( "Signon buffer overflowed %i bytes!!!\n", m_Server->m_Signon.GetNumBytesWritten() );
return false;
}
m_NetChannel->SendData( m_Server->m_Signon );
m_nSignonState = SIGNONSTATE_PRESPAWN;
NET_SignonState signonState( m_nSignonState, m_Server->GetSpawnCount() );
return m_NetChannel->SendNetMsg( signonState );
}
void CBaseClient::Connect( const char * szName, int nUserID, INetChannel *pNetChannel, bool bFakePlayer, int clientChallenge )
{
COM_TimestampedLog( "CBaseClient::Connect" );
#ifndef SWDS
EngineVGui()->UpdateProgressBar(PROGRESS_SIGNONCONNECT);
#endif
Clear();
m_ConVars = new KeyValues("userinfo");
m_bInitialConVarsSet = false;
m_UserID = nUserID;
SetName( szName );
m_fTimeLastNameChange = 0.0;
m_bFakePlayer = bFakePlayer;
m_NetChannel = pNetChannel;
if ( m_NetChannel && m_Server && m_Server->IsMultiplayer() )
{
m_NetChannel->SetCompressionMode( true );
}
m_clientChallenge = clientChallenge;
m_nSignonState = SIGNONSTATE_CONNECTED;
if ( bFakePlayer )
{
// Hidden fake players and the HLTV/Replay bot will get removed by CSteam3Server::SendUpdatedServerDetails.
Steam3Server().NotifyLocalClientConnect( this );
}
}
//-----------------------------------------------------------------------------
// Purpose: Drops client from server, with explanation
// Input : *cl -
// crash -
// *fmt -
// ... -
//-----------------------------------------------------------------------------
void CBaseClient::Disconnect( const char *fmt, ... )
{
va_list argptr;
char string[1024];
if ( m_nSignonState == SIGNONSTATE_NONE )
return; // no recursion
#if !defined( SWDS ) && defined( ENABLE_RPT )
SV_NotifyRPTOfDisconnect( m_nClientSlot );
#endif
#ifndef _XBOX
Steam3Server().NotifyClientDisconnect( this );
#endif
m_nSignonState = SIGNONSTATE_NONE;
// clear user info
m_Server->UserInfoChanged( m_nClientSlot );
va_start (argptr,fmt);
Q_vsnprintf (string, sizeof( string ), fmt,argptr);
va_end (argptr);
ConMsg("Dropped %s from server (%s)\n", GetClientName(), string );
// remove the client as listener
g_GameEventManager.RemoveListener( this );
// Send the remaining reliable buffer so the client finds out the server is shutting down.
if ( m_NetChannel )
{
m_NetChannel->Shutdown( string ) ;
m_NetChannel = NULL;
}
Clear(); // clear state
#ifndef _XBOX
NotifyDedicatedServerUI("UpdatePlayers");
#endif
Steam3Server().SendUpdatedServerDetails(); // Update the master server.
}
void CBaseClient::FireGameEvent( IGameEvent *event )
{
tmZoneFiltered( TELEMETRY_LEVEL0, 50, TMZF_NONE, "%s", __FUNCTION__ );
char buffer_data[MAX_EVENT_BYTES];
SVC_GameEvent eventMsg;
eventMsg.m_DataOut.StartWriting( buffer_data, sizeof(buffer_data) );
// create bitstream from KeyValues
if ( g_GameEventManager.SerializeEvent( event, &eventMsg.m_DataOut ) )
{
if ( m_NetChannel )
{
bool bSent = m_NetChannel->SendNetMsg( eventMsg );
if ( !bSent )
DevMsg("GameEventManager: failed to send event '%s'.\n", event->GetName() );
}
}
else
{
DevMsg("GameEventManager: failed to serialize event '%s'.\n", event->GetName() );
}
}
bool CBaseClient::SendServerInfo( void )
{
COM_TimestampedLog( " CBaseClient::SendServerInfo" );
// supporting smaller stack
byte *buffer = (byte *)MemAllocScratch( NET_MAX_PAYLOAD );
bf_write msg( "SV_SendServerinfo->msg", buffer, NET_MAX_PAYLOAD );
// Only send this message to developer console, or multiplayer clients.
if ( developer.GetBool() || m_Server->IsMultiplayer() )
{
char devtext[ 2048 ];
int curplayers = m_Server->GetNumClients();
Q_snprintf( devtext, sizeof( devtext ),
"\n%s\nMap: %s\nPlayers: %i / %i\nBuild: %d\nServer Number: %i\n\n",
serverGameDLL->GetGameDescription(),
m_Server->GetMapName(),
curplayers, m_Server->GetMaxClients(),
build_number(),
m_Server->GetSpawnCount() );
SVC_Print printMsg( devtext );
printMsg.WriteToBuffer( msg );
}
SVC_ServerInfo serverinfo; // create serverinfo message
serverinfo.m_nPlayerSlot = m_nClientSlot; // own slot number
m_Server->FillServerInfo( serverinfo ); // fill rest of info message
serverinfo.WriteToBuffer( msg );
if ( IsX360() && serverinfo.m_nMaxClients > 1 )
{
Msg( "Telling clients to connect" );
g_pMatchmaking->TellClientsToConnect();
}
// send first tick
m_nSignonTick = m_Server->m_nTickCount;
NET_Tick signonTick( m_nSignonTick, 0, 0 );
signonTick.WriteToBuffer( msg );
// write stringtable baselines
#ifndef SHARED_NET_STRING_TABLES
m_Server->m_StringTables->WriteBaselines( msg );
#endif
// Write replicated ConVars to non-listen server clients only
if ( !m_NetChannel->IsLoopback() )
{
NET_SetConVar convars;
Host_BuildConVarUpdateMessage( &convars, FCVAR_REPLICATED, true );
convars.WriteToBuffer( msg );
}
m_bSendServerInfo = false;
// send signon state
m_nSignonState = SIGNONSTATE_NEW;
NET_SignonState signonMsg( m_nSignonState, m_Server->GetSpawnCount() );
signonMsg.WriteToBuffer( msg );
// send server info as one data block
if ( !m_NetChannel->SendData( msg ) )
{
MemFreeScratch();
Disconnect("Server info data overflow");
return false;
}
COM_TimestampedLog( " CBaseClient::SendServerInfo(finished)" );
MemFreeScratch();
return true;
}
CClientFrame *CBaseClient::GetDeltaFrame( int nTick )
{
Assert( 0 ); // derive moe
return NULL; // CBaseClient has no delta frames
}
void CBaseClient::WriteGameSounds(bf_write &buf)
{
// CBaseClient has no events
}
void CBaseClient::ConnectionStart(INetChannel *chan)
{
REGISTER_NET_MSG( Tick );
REGISTER_NET_MSG( StringCmd );
REGISTER_NET_MSG( SetConVar );
REGISTER_NET_MSG( SignonState );
REGISTER_CLC_MSG( ClientInfo );
REGISTER_CLC_MSG( Move );
REGISTER_CLC_MSG( VoiceData );
REGISTER_CLC_MSG( BaselineAck );
REGISTER_CLC_MSG( ListenEvents );
REGISTER_CLC_MSG( RespondCvarValue );
REGISTER_CLC_MSG( FileCRCCheck );
REGISTER_CLC_MSG( FileMD5Check );
#if defined( REPLAY_ENABLED )
REGISTER_CLC_MSG( SaveReplay );
#endif
REGISTER_CLC_MSG( CmdKeyValues );
}
bool CBaseClient::ProcessTick( NET_Tick *msg )
{
m_NetChannel->SetRemoteFramerate( msg->m_flHostFrameTime, msg->m_flHostFrameTimeStdDeviation );
return UpdateAcknowledgedFramecount( msg->m_nTick );
}
bool CBaseClient::ProcessStringCmd( NET_StringCmd *msg )
{
ExecuteStringCommand( msg->m_szCommand );
return true;
}
bool CBaseClient::ProcessSetConVar( NET_SetConVar *msg )
{
for ( int i=0; i<msg->m_ConVars.Count(); i++ )
{
const char *name = msg->m_ConVars[i].name;
const char *value = msg->m_ConVars[i].value;
// Discard any convar change request if contains funky characters
bool bFunky = false;
for (const char *s = name ; *s != '\0' ; ++s )
{
if ( !V_isalnum(*s) && *s != '_' )
{
bFunky = true;
break;
}
}
if ( bFunky )
{
Msg( "Ignoring convar change request for variable '%s' from client %s; invalid characters in the variable name\n", name, GetClientName() );
continue;
}
// "name" convar is handled differently
if ( V_stricmp( name, "name" ) == 0 )
{
ClientRequestNameChange( value );
continue;
}
// The initial set of convars must contain all client convars that are flagged userinfo. This is a simple fix to
// exploits that send bogus data later, and catches bugs (why are new userinfo convars appearing later?)
if ( m_bInitialConVarsSet && !m_ConVars->FindKey( name ) )
{
#ifndef _DEBUG // warn all the time in debug build
static double s_dblLastWarned = 0.0;
double dblTimeNow = Plat_FloatTime();
if ( dblTimeNow - s_dblLastWarned > 10 )
#endif
{
#ifndef _DEBUG
s_dblLastWarned = dblTimeNow;
#endif
Warning( "Client \"%s\" userinfo ignored: \"%s\" = \"%s\"\n",
this->GetClientName(), name, value );
}
continue;
}
m_ConVars->SetString( name, value );
// DevMsg( 1, " UserInfo update %s: %s = %s\n", m_Client->m_Name, name, value );
}
m_bConVarsChanged = true;
m_bInitialConVarsSet = true;
return true;
}
bool CBaseClient::ProcessSignonState( NET_SignonState *msg)
{
if ( msg->m_nSignonState == SIGNONSTATE_CHANGELEVEL )
{
return true; // ignore this message
}
if ( msg->m_nSignonState > SIGNONSTATE_CONNECTED )
{
if ( msg->m_nSpawnCount != m_Server->GetSpawnCount() )
{
Reconnect();
return true;
}
}
// client must acknowledge our current state, otherwise start again
if ( msg->m_nSignonState != m_nSignonState )
{
Reconnect();
return true;
}
return SetSignonState( msg->m_nSignonState, msg->m_nSpawnCount );
}
bool CBaseClient::ProcessClientInfo( CLC_ClientInfo *msg )
{
if ( m_nSignonState != SIGNONSTATE_NEW )
{
Warning( "Dropping ClientInfo packet from client not in appropriate state\n" );
return false;
}
m_nSendtableCRC = msg->m_nSendTableCRC;
// Protect against spoofed packets claiming to be HLTV clients
if ( ( hltv && hltv->IsTVRelay() ) || tv_enable.GetBool() )
{
m_bIsHLTV = msg->m_bIsHLTV;
}
else
{
m_bIsHLTV = false;
}
#if defined( REPLAY_ENABLED )
m_bIsReplay = msg->m_bIsReplay;
#endif
m_nFilesDownloaded = 0;
m_nFriendsID = msg->m_nFriendsID;
Q_strncpy( m_FriendsName, msg->m_FriendsName, sizeof(m_FriendsName) );
for ( int i=0; i<MAX_CUSTOM_FILES; i++ )
{
m_nCustomFiles[i].crc = msg->m_nCustomFiles[i];
m_nCustomFiles[i].reqID = 0;
}
if ( msg->m_nServerCount != m_Server->GetSpawnCount() )
{
Reconnect(); // client still in old game, reconnect
}
return true;
}
bool CBaseClient::ProcessBaselineAck( CLC_BaselineAck *msg )
{
if ( msg->m_nBaselineTick != m_nBaselineUpdateTick )
{
// This occurs when there are multiple ack's queued up for processing from a client.
return true;
}
if ( msg->m_nBaselineNr != m_nBaselineUsed )
{
DevMsg("CBaseClient::ProcessBaselineAck: wrong baseline nr received (%i)\n", msg->m_nBaselineTick );
return true;
}
Assert( m_pBaseline );
// copy ents send as full updates this frame into baseline stuff
CClientFrame *frame = GetDeltaFrame( m_nBaselineUpdateTick );
if ( frame == NULL )
{
// Will get here if we have a lot of packet loss and finally receive a stale ack from
// remote client. Our "window" could be well beyond what it's acking, so just ignore the ack.
return true;
}
CFrameSnapshot *pSnapshot = frame->GetSnapshot();
if ( pSnapshot == NULL )
{
// TODO if client lags for a couple of seconds the snapshot is lost
// fix: don't remove snapshots that are labled a possible basline candidates
// or: send full update
DevMsg("CBaseClient::ProcessBaselineAck: invalid frame snapshot (%i)\n", m_nBaselineUpdateTick );
return false;
}
int index = m_BaselinesSent.FindNextSetBit( 0 );
while ( index >= 0 )
{
// get new entity
PackedEntityHandle_t hNewEntity = pSnapshot->m_pEntities[index].m_pPackedData;
if ( hNewEntity == INVALID_PACKED_ENTITY_HANDLE )
{
DevMsg("CBaseClient::ProcessBaselineAck: invalid packet handle (%i)\n", index );
return false;
}
PackedEntityHandle_t hOldEntity = m_pBaseline->m_pEntities[index].m_pPackedData;
if ( hOldEntity != INVALID_PACKED_ENTITY_HANDLE )
{
// remove reference before overwriting packed entity
framesnapshotmanager->RemoveEntityReference( hOldEntity );
}
// increase reference
framesnapshotmanager->AddEntityReference( hNewEntity );
// copy entity handle, class & serial number to
m_pBaseline->m_pEntities[index] = pSnapshot->m_pEntities[index];
// go to next entity
index = m_BaselinesSent.FindNextSetBit( index + 1 );
}
m_pBaseline->m_nTickCount = m_nBaselineUpdateTick;
// flip used baseline flag
m_nBaselineUsed = (m_nBaselineUsed==1)?0:1;
m_nBaselineUpdateTick = -1; // ready to update baselines again
return true;
}
bool CBaseClient::ProcessListenEvents( CLC_ListenEvents *msg )
{
// first remove the client as listener
g_GameEventManager.RemoveListener( this );
for ( int i=0; i < MAX_EVENT_NUMBER; i++ )
{
if ( msg->m_EventArray.Get(i) )
{
CGameEventDescriptor *descriptor = g_GameEventManager.GetEventDescriptor( i );
if ( descriptor )
{
g_GameEventManager.AddListener( this, descriptor, CGameEventManager::CLIENTSTUB );
}
else
{
DevMsg("ProcessListenEvents: game event %i not found.\n", i );
return false;
}
}
}
return true;
}
extern int GetNetSpikeValue();
void CBaseClient::StartTrace( bf_write &msg )
{
// Should we be tracing?
m_Trace.m_nMinWarningBytes = 0;
if ( !IsHLTV() && !IsReplay() && !IsFakeClient() )
m_Trace.m_nMinWarningBytes = GetNetSpikeValue();
if ( m_iTracing < 2 )
{
if ( m_Trace.m_nMinWarningBytes <= 0 && sv_netspike_sendtime_ms.GetFloat() <= 0.0f )
{
m_iTracing = 0;
return;
}
m_iTracing = 1;
}
m_Trace.m_nStartBit = msg.GetNumBitsWritten();
m_Trace.m_nCurBit = m_Trace.m_nStartBit;
m_Trace.m_StartSendTime = Plat_FloatTime();
}
#define SERVER_PACKETS_LOG "netspike.txt"
void CBaseClient::EndTrace( bf_write &msg )
{
if ( m_iTracing == 0 )
return;
VPROF_BUDGET( "CBaseClient::EndTrace", VPROF_BUDGETGROUP_OTHER_NETWORKING );
int bits = m_Trace.m_nCurBit - m_Trace.m_nStartBit;
float flElapsedMs = ( Plat_FloatTime() - m_Trace.m_StartSendTime ) * 1000.0;
int nBitThreshold = m_Trace.m_nMinWarningBytes << 3;
if ( m_iTracing < 2 // not forced
&& ( nBitThreshold <= 0 || bits < nBitThreshold ) // didn't exceed data threshold
&& ( sv_netspike_sendtime_ms.GetFloat() <= 0.0f || flElapsedMs < sv_netspike_sendtime_ms.GetFloat() ) ) // didn't exceed time threshold
{
m_Trace.m_Records.RemoveAll();
m_iTracing = 0;
return;
}
CUtlBuffer logData( 0, 0, CUtlBuffer::TEXT_BUFFER );
logData.Printf( "%f/%d Player [%s][%d][adr:%s] was sent a datagram %d bits (%8.3f bytes), took %.2fms\n",
realtime,
host_tickcount,
GetClientName(),
GetPlayerSlot(),
GetNetChannel()->GetAddress(),
bits, (float)bits / 8.0f,
flElapsedMs
);
// Write header line to the log if we aren't writing the whole thing
if ( ( sv_netspike_output.GetInt() & 2 ) == 0 )
Log("netspike: %s", logData.String() );
for ( int i = 0 ; i < m_Trace.m_Records.Count() ; ++i )
{
Spike_t &sp = m_Trace.m_Records[ i ];
logData.Printf( "%64.64s : %8d bits (%8.3f bytes)\n", sp.m_szDesc, sp.m_nBits, (float)sp.m_nBits / 8.0f );
}
if ( sv_netspike_output.GetInt() & 1 )
COM_LogString( SERVER_PACKETS_LOG, logData.String() );
if ( sv_netspike_output.GetInt() & 2 )
Log( "%s", logData.String() );
ETWMark1S( "netspike", logData.String() );
m_Trace.m_Records.RemoveAll();
m_iTracing = 0;
}
void CBaseClient::TraceNetworkData( bf_write &msg, char const *fmt, ... )
{
if ( !IsTracing() )
return;
VPROF_BUDGET( "CBaseClient::TraceNetworkData", VPROF_BUDGETGROUP_OTHER_NETWORKING );
char buf[ 64 ];
va_list argptr;
va_start( argptr, fmt );
Q_vsnprintf( buf, sizeof( buf ), fmt, argptr );
va_end( argptr );
Spike_t t;
Q_strncpy( t.m_szDesc, buf, sizeof( t.m_szDesc ) );
t.m_nBits = msg.GetNumBitsWritten() - m_Trace.m_nCurBit;
m_Trace.m_Records.AddToTail( t );
m_Trace.m_nCurBit = msg.GetNumBitsWritten();
}
void CBaseClient::TraceNetworkMsg( int nBits, char const *fmt, ... )
{
if ( !IsTracing() )
return;
VPROF_BUDGET( "CBaseClient::TraceNetworkMsg", VPROF_BUDGETGROUP_OTHER_NETWORKING );
char buf[ 64 ];
va_list argptr;
va_start( argptr, fmt );
Q_vsnprintf( buf, sizeof( buf ), fmt, argptr );
va_end( argptr );
Spike_t t;
Q_strncpy( t.m_szDesc, buf, sizeof( t.m_szDesc ) );
t.m_nBits = nBits;
m_Trace.m_Records.AddToTail( t );
}
void CBaseClient::SendSnapshot( CClientFrame *pFrame )
{
// never send the same snapshot twice
if ( m_pLastSnapshot == pFrame->GetSnapshot() )
{
m_NetChannel->Transmit();
return;
}
// if we send a full snapshot (no delta-compression) before, wait until client
// received and acknowledge that update. don't spam client with full updates
if ( m_nForceWaitForTick > 0 )
{
// just continue transmitting reliable data
m_NetChannel->Transmit();
return;
}
VPROF_BUDGET( "SendSnapshot", VPROF_BUDGETGROUP_OTHER_NETWORKING );
tmZoneFiltered( TELEMETRY_LEVEL0, 50, TMZF_NONE, "%s", __FUNCTION__ );
bool bFailedOnce = false;
write_again:
bf_write msg( "CBaseClient::SendSnapshot", m_SnapshotScratchBuffer, sizeof( m_SnapshotScratchBuffer ) );
TRACE_PACKET( ( "SendSnapshot(%d)\n", pFrame->tick_count ) );
// now create client snapshot packet
CClientFrame *deltaFrame = GetDeltaFrame( m_nDeltaTick ); // NULL if delta_tick is not found
if ( !deltaFrame )
{
// We need to send a full update and reset the instanced baselines
OnRequestFullUpdate();
}
// send tick time
NET_Tick tickmsg( pFrame->tick_count, host_frametime_unbounded, host_frametime_stddeviation );
StartTrace( msg );
tickmsg.WriteToBuffer( msg );
if ( IsTracing() )
{
TraceNetworkData( msg, "NET_Tick" );
}
#ifndef SHARED_NET_STRING_TABLES
// in LocalNetworkBackdoor mode we updated the stringtables already in SV_ComputeClientPacks()
if ( !g_pLocalNetworkBackdoor )
{
// Update shared client/server string tables. Must be done before sending entities
m_Server->m_StringTables->WriteUpdateMessage( this, GetMaxAckTickCount(), msg );
}
#endif
int nDeltaStartBit = 0;
if ( IsTracing() )
{
nDeltaStartBit = msg.GetNumBitsWritten();
}
// send entity update, delta compressed if deltaFrame != NULL
m_Server->WriteDeltaEntities( this, pFrame, deltaFrame, msg );
if ( IsTracing() )
{
int nBits = msg.GetNumBitsWritten() - nDeltaStartBit;
TraceNetworkMsg( nBits, "Total Delta" );
}
// send all unreliable temp entities between last and current frame
// send max 64 events in multi player, 255 in SP
int nMaxTempEnts = m_Server->IsMultiplayer() ? 64 : 255;
m_Server->WriteTempEntities( this, pFrame->GetSnapshot(), m_pLastSnapshot.GetObject(), msg, nMaxTempEnts );
if ( IsTracing() )
{
TraceNetworkData( msg, "Temp Entities" );
}
WriteGameSounds( msg );
// write message to packet and check for overflow
if ( msg.IsOverflowed() )
{
bool bWasTracing = IsTracing();
if ( bWasTracing )
{
TraceNetworkMsg( 0, "Finished [delta %s]", deltaFrame ? "yes" : "no" );
EndTrace( msg );
}
if ( !deltaFrame )
{
if ( !bWasTracing )
{
// Check for debugging by dumping a snapshot
if ( sv_netspike_on_reliable_snapshot_overflow.GetBool() )
{
if ( !bFailedOnce ) // shouldn't be necessary, but just in case
{
Warning(" RELIABLE SNAPSHOT OVERFLOW! Triggering trace to see what is so large\n" );
bFailedOnce = true;
m_iTracing = 2;
goto write_again;
}
m_iTracing = 0;
}
}
// if this is a reliable snapshot, drop the client
Disconnect( "ERROR! Reliable snapshot overflow." );
return;
}
else
{
// unreliable snapshots may be dropped
ConMsg ("WARNING: msg overflowed for %s\n", m_Name);
msg.Reset();
}
}
// remember this snapshot
m_pLastSnapshot = pFrame->GetSnapshot();
// Don't send the datagram to fakeplayers unless sv_stressbots is on (which will make m_NetChannel non-null).
if ( m_bFakePlayer && !m_NetChannel )
{
m_nDeltaTick = pFrame->tick_count;
m_nStringTableAckTick = m_nDeltaTick;
return;
}
bool bSendOK;
// is this is a full entity update (no delta) ?
if ( !deltaFrame )
{
VPROF_BUDGET( "SendSnapshot Transmit Full", VPROF_BUDGETGROUP_OTHER_NETWORKING );
// transmit snapshot as reliable data chunk
bSendOK = m_NetChannel->SendData( msg );
bSendOK = bSendOK && m_NetChannel->Transmit();
// remember this tickcount we send the reliable snapshot
// so we can continue sending other updates if this has been acknowledged
m_nForceWaitForTick = pFrame->tick_count;
}
else
{
VPROF_BUDGET( "SendSnapshot Transmit Delta", VPROF_BUDGETGROUP_OTHER_NETWORKING );
// just send it as unreliable snapshot
bSendOK = m_NetChannel->SendDatagram( &msg ) > 0;
}
if ( bSendOK )
{
if ( IsTracing() )
{
TraceNetworkMsg( 0, "Finished [delta %s]", deltaFrame ? "yes" : "no" );
EndTrace( msg );
}
}
else
{
Disconnect( "ERROR! Couldn't send snapshot." );
}
}
bool CBaseClient::ExecuteStringCommand( const char *pCommand )
{
if ( !pCommand || !pCommand[0] )
return false;
if ( !Q_stricmp( pCommand, "demorestart" ) )
{
DemoRestart();
// trick, dont return true, so serverGameClients gets this command too
return false;
}
return false;
}
void CBaseClient::DemoRestart()
{
}
bool CBaseClient::ShouldSendMessages( void )
{
if ( !IsConnected() )
return false;
// if the reliable message overflowed, drop the client
if ( m_NetChannel && m_NetChannel->IsOverflowed() )
{
m_NetChannel->Reset();
Disconnect ("%s overflowed reliable buffer\n", m_Name );
return false;
}
// check, if it's time to send the next packet
bool bSendMessage = m_fNextMessageTime <= net_time ;
if ( !bSendMessage && !IsActive() )
{
// if we are in signon modem instantly reply if
// we got a answer and have reliable data waiting
if ( m_bReceivedPacket && m_NetChannel && m_NetChannel->HasPendingReliableData() )
{
bSendMessage = true;
}
}
if ( bSendMessage && m_NetChannel && !m_NetChannel->CanPacket() )
{
// we would like to send a message, but bandwidth isn't available yet
// tell netchannel that we are choking a packet
m_NetChannel->SetChoked();
// Record an ETW event to indicate that we are throttling.
ETWThrottled();
bSendMessage = false;
}
return bSendMessage;
}
void CBaseClient::UpdateSendState( void )
{
// wait for next incoming packet
m_bReceivedPacket = false;
// in single player mode always send messages
if ( !m_Server->IsMultiplayer() && !host_limitlocal.GetFloat() )
{
m_fNextMessageTime = net_time; // send ASAP and
m_bReceivedPacket = true; // don't wait for incoming packets
}
else if ( IsActive() ) // multiplayer mode
{
// snapshot mode: send snapshots frequently
float maxDelta = min ( m_Server->GetTickInterval(), m_fSnapshotInterval );
float delta = clamp( (float)( net_time - m_fNextMessageTime ), 0.0f, maxDelta );
m_fNextMessageTime = net_time + m_fSnapshotInterval - delta;
}
else // multiplayer signon mode
{
if ( m_NetChannel && m_NetChannel->HasPendingReliableData() &&
m_NetChannel->GetTimeSinceLastReceived() < 1.0f )
{
// if we have pending reliable data send as fast as possible
m_fNextMessageTime = net_time;
}
else
{
// signon mode: only respond on request or after 1 second
m_fNextMessageTime = net_time + 1.0f;
}
}
}
void CBaseClient::UpdateUserSettings()
{
int rate = m_ConVars->GetInt( "rate", DEFAULT_RATE );
if ( sv.IsActive() )
{
// If we're running a local listen server then set the rate very high
// in order to avoid delays due to network throttling. This allows for
// easier profiling of other issues (it removes most of the frame-render
// time which can otherwise dominate profiles) and saves developer time
// by making maps and models load much faster.
if ( rate == DEFAULT_RATE )
{
// Only override the rate if the user hasn't customized it.
// The max rate should be a million or so in order to truly
// eliminate networking delays.
rate = MAX_RATE;
}
}
// set server to client network rate
SetRate( rate, false );
// set server to client update rate
SetUpdateRate( m_ConVars->GetInt( "cl_updaterate", 20), false );
SetMaxRoutablePayloadSize( m_ConVars->GetInt( "net_maxroutable", MAX_ROUTABLE_PAYLOAD ) );
m_Server->UserInfoChanged( m_nClientSlot );
m_bConVarsChanged = false;
}
void CBaseClient::ClientRequestNameChange( const char *pszNewName )
{
// This is called several times. Only show a status message the first time.
bool bShowStatusMessage = ( m_szPendingNameChange[0] == '\0' );
V_strcpy_safe( m_szPendingNameChange, pszNewName );
CheckFlushNameChange( bShowStatusMessage );
}
void CBaseClient::CheckFlushNameChange( bool bShowStatusMessage /*= false*/ )
{
if ( !IsConnected() )
return;
if ( m_szPendingNameChange[0] == '\0' )
return;
if ( m_bPlayerNameLocked )
return;
// Did they change it back to the original?
if ( !Q_strcmp( m_szPendingNameChange, m_Name ) )
{
// Nothing really pending, they already changed it back
// we had a chance to apply the other one!
m_szPendingNameChange[0] = '\0';
return;
}
// Check for throttling name changes
// Don't do it on bots
if ( !IsFakeClient() && IsNameChangeOnCooldown( bShowStatusMessage ) )
{
return;
}
// Set the new name
m_fTimeLastNameChange = Plat_FloatTime();
SetName( m_szPendingNameChange );
}
bool CBaseClient::IsNameChangeOnCooldown( bool bShowStatusMessage /*= false*/ )
{
// Check cooldown. The first name change is free
if ( m_fTimeLastNameChange > 0.0 )
{
// Too recent?
double timeNow = Plat_FloatTime();
double dNextChangeTime = m_fTimeLastNameChange + sv_namechange_cooldown_seconds.GetFloat();
if ( timeNow < dNextChangeTime )
{
// Cooldown period still active; throttle the name change
if ( bShowStatusMessage )
{
ClientPrintf( "You have changed your name recently, and must wait %i seconds.\n", (int)abs( timeNow - dNextChangeTime ) );
}
return true;
}
}
return false;
}
void CBaseClient::OnRequestFullUpdate()
{
VPROF_BUDGET( "CBaseClient::OnRequestFullUpdate", VPROF_BUDGETGROUP_OTHER_NETWORKING );
// client requests a full update
m_pLastSnapshot = NULL;
// free old baseline snapshot
FreeBaselines();
// and create new baseline snapshot
m_pBaseline = framesnapshotmanager->CreateEmptySnapshot( 0, MAX_EDICTS );
DevMsg("Sending full update to Client %s\n", GetClientName() );
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : *cl -
//-----------------------------------------------------------------------------
bool CBaseClient::UpdateAcknowledgedFramecount(int tick)
{
if ( IsFakeClient() )
{
// fake clients are always fine
m_nDeltaTick = tick;
m_nStringTableAckTick = tick;
return true;
}
// are we waiting for full reliable update acknowledge
if ( m_nForceWaitForTick > 0 )
{
if ( tick > m_nForceWaitForTick )
{
// we should never get here since full updates are transmitted as reliable data now
// Disconnect("Acknowledging reliable snapshot failed.\n");
return true;
}
else if ( tick == -1 )
{
if( !m_NetChannel->HasPendingReliableData() )
{
// that's strange: we sent the client a full update, and it was fully received ( no reliable data in waiting buffers )
// but the client is requesting another full update.
//
// This can happen if they request full updates in succession really quickly (using cl_fullupdate or "record X;stop" quickly).
// There was a bug here where if we just return out, the client will have nuked its entities and we'd send it
// a supposedly uncompressed update but m_nDeltaTick was not -1, so it was delta'd and it'd miss lots of stuff.
// Led to clients getting full spectator mode radar while their player was not a spectator.
ConDMsg("Client forced immediate full update.\n");
m_nForceWaitForTick = m_nDeltaTick = -1;
OnRequestFullUpdate();
return true;
}
}
else if ( tick < m_nForceWaitForTick )
{
// keep on waiting, do nothing
return true;
}
else // ( tick == m_nForceWaitForTick )
{
// great, the client acknowledge the tick we send the full update
m_nForceWaitForTick = -1;
// continue sending snapshots...
}
}
else
{
if ( m_nDeltaTick == -1 )
{
// we still want to send a full update, don't change delta_tick from -1
return true;
}
if ( tick == -1 )
{
OnRequestFullUpdate();
}
else
{
if ( m_nDeltaTick > tick )
{
// client already acknowledged new tick and now switch back to older
// thats not allowed since we always delete older frames
Disconnect("Client delta ticks out of order.\n");
return false;
}
}
}
// get acknowledged client frame
m_nDeltaTick = tick;
if ( m_nDeltaTick > -1 )
{
m_nStringTableAckTick = m_nDeltaTick;
}
if ( (m_nBaselineUpdateTick > -1) && (m_nDeltaTick > m_nBaselineUpdateTick) )
{
// server sent a baseline update, but it wasn't acknowledged yet so it was probably lost.
m_nBaselineUpdateTick = -1;
}
return true;
}
//-----------------------------------------------------------------------------
// Purpose: return a string version of the userid
//-----------------------------------------------------------------------------
const char *GetUserIDString( const USERID_t& id )
{
static char idstr[ MAX_NETWORKID_LENGTH ];
idstr[ 0 ] = 0;
switch ( id.idtype )
{
case IDTYPE_STEAM:
{
CSteamID nullID;
if ( Steam3Server().BLanOnly() && nullID == id.steamid )
{
V_strcpy_safe( idstr, "STEAM_ID_LAN" );
}
else if ( nullID == id.steamid )
{
V_strcpy_safe( idstr, "STEAM_ID_PENDING" );
}
else
{
V_sprintf_safe( idstr, "%s", id.steamid.Render() );
}
}
break;
case IDTYPE_HLTV:
{
V_strcpy_safe( idstr, "HLTV" );
}
break;
case IDTYPE_REPLAY:
{
V_strcpy_safe( idstr, "REPLAY" );
}
break;
default:
{
V_strcpy_safe( idstr, "UNKNOWN" );
}
break;
}
return idstr;
}
//-----------------------------------------------------------------------------
// Purpose: return a string version of the userid
//-----------------------------------------------------------------------------
const char *CBaseClient::GetNetworkIDString() const
{
if ( IsFakeClient() )
{
return "BOT";
}
return ( GetUserIDString( GetNetworkID() ) );
}
bool CBaseClient::IgnoreTempEntity( CEventInfo *event )
{
int iPlayerIndex = GetPlayerSlot()+1;
return !event->filter.IncludesPlayer( iPlayerIndex );
}
const USERID_t CBaseClient::GetNetworkID() const
{
USERID_t userID;
userID.steamid = m_SteamID;
userID.idtype = IDTYPE_STEAM;
return userID;
}
void CBaseClient::SetSteamID( const CSteamID &steamID )
{
m_SteamID = steamID;
}
void CBaseClient::SetMaxRoutablePayloadSize( int nMaxRoutablePayloadSize )
{
if ( m_NetChannel )
{
m_NetChannel->SetMaxRoutablePayloadSize( nMaxRoutablePayloadSize );
}
}
int CBaseClient::GetMaxAckTickCount() const
{
int nMaxTick = m_nSignonTick;
if ( m_nDeltaTick > nMaxTick )
{
nMaxTick = m_nDeltaTick;
}
if ( m_nStringTableAckTick > nMaxTick )
{
nMaxTick = m_nStringTableAckTick;
}
return nMaxTick;
}
bool CBaseClient::ProcessCmdKeyValues( CLC_CmdKeyValues *msg )
{
return true;
}
void CBaseClient::OnSignonStateFull()
{
#if defined( REPLAY_ENABLED )
if ( g_pReplay && g_pServerReplayContext )
{
g_pServerReplayContext->CreateSessionOnClient( m_nClientSlot );
}
#endif
}