void GetArgsFromBuffer(
bf_read &buf,
CUtlVector<char*> &newArgv,
bool *bShowAppWindow )
{
int nArgs = buf.ReadWord();
bool bSpewArgs = false;
for ( int iArg=0; iArg < nArgs; iArg++ )
{
char argStr[512];
buf.ReadString( argStr, sizeof( argStr ) );
AppendArg( newArgv, argStr );
if ( stricmp( argStr, "-mpi_verbose" ) == 0 )
bSpewArgs = true;
if ( stricmp( argStr, "-mpi_ShowAppWindow" ) == 0 )
*bShowAppWindow = true;
}
if ( bSpewArgs )
{
Msg( "nArgs: %d\n", newArgv.Count() );
for ( int i=0; i < newArgv.Count(); i++ )
Msg( "Arg %d: %s\n", i, newArgv[i] );
}
}
//-----------------------------------------------------------------------------
// Purpose: Message handler for ShowMenu message
// takes four values:
// short: a bitfield of keys that are valid input
// char : the duration, in seconds, the menu should stay up. -1 means is stays until something is chosen.
// byte : a boolean, TRUE if there is more string yet to be received before displaying the menu, false if it's the last string
// string: menu string to display
// if this message is never received, then scores will simply be the combined totals of the players.
//-----------------------------------------------------------------------------
void CHudMenu::MsgFunc_ShowMenu( bf_read &msg)
{
m_bitsValidSlots = (short)msg.ReadWord();
int DisplayTime = msg.ReadChar();
int NeedMore = msg.ReadByte();
if ( DisplayTime > 0 )
{
m_flShutoffTime = m_flOpenCloseTime + DisplayTime + gpGlobals->realtime;
}
else
{
m_flShutoffTime = -1;
}
if ( m_bitsValidSlots )
{
char szString[2048];
msg.ReadString( szString, sizeof(szString) );
if ( !m_fWaitingForMore ) // this is the start of a new menu
{
Q_strncpy( g_szPrelocalisedMenuString, szString, sizeof( g_szPrelocalisedMenuString ) );
}
else
{ // append to the current menu string
Q_strncat( g_szPrelocalisedMenuString, szString, sizeof( g_szPrelocalisedMenuString ), COPY_ALL_CHARACTERS );
}
if ( !NeedMore )
{
GetClientMode()->GetViewportAnimationController()->StartAnimationSequence("MenuOpen");
m_nSelectedItem = -1;
// we have the whole string, so we can localise it now
char szMenuString[MAX_MENU_STRING];
Q_strncpy( szMenuString, ConvertCRtoNL( hudtextmessage->BufferedLocaliseTextString( g_szPrelocalisedMenuString ) ), sizeof( szMenuString ) );
g_pVGuiLocalize->ConvertANSIToUnicode( szMenuString, g_szMenuString, sizeof( g_szMenuString ) );
ProcessText();
}
m_bMenuDisplayed = true;
m_bMenuTakesInput = true;
m_flSelectionTime = gpGlobals->curtime;
}
else
{
HideMenu();
}
m_fWaitingForMore = NeedMore;
}
// Message handler for PyNetworkCls
void __MsgFunc_PyNetworkCls( bf_read &msg )
{
int iClassID;
char networkName[PYNETCLS_BUFSIZE];
iClassID = msg.ReadWord();
msg.ReadString( networkName, PYNETCLS_BUFSIZE );
DbgStrPyMsg( "__MsgFunc_PyNetworkCls: Registering Python network class message %d %s\n", iClassID, networkName );
// Get module path
const char *pch = V_strrchr( networkName, '.' );
if( !pch )
{
Warning( "Invalid python class name %s\n", networkName );
return;
}
int n = pch - networkName + 1;
char modulePath[PYNETCLS_BUFSIZE];
V_strncpy( modulePath, networkName, n );
// Make sure the client class is imported
SrcPySystem()->Import( modulePath );
// Read which client class we are modifying
PyClientClassBase *p = FindPyClientClassByID( iClassID );
if( !p )
{
Warning( "__MsgFunc_PyNetworkCls: Invalid networked class %d\n", iClassID );
return;
}
// Read network class name
V_strncpy( p->m_strPyNetworkedClassName, networkName, sizeof( p->m_strPyNetworkedClassName ) );
// Attach if a network class exists
unsigned short lookup = m_NetworkClassDatabase.Find( networkName );
if ( lookup != m_NetworkClassDatabase.InvalidIndex() )
{
m_NetworkClassDatabase.Element(lookup)->AttachClientClass( p );
}
else
{
Warning( "__MsgFunc_PyNetworkCls: Invalid networked class %s\n", networkName );
}
}
bool HandleMessage(bf_read &msg, int type)
{
if (type == 0) // nop
{
// printf("NOP\n");
return true;
}
if (type == 1) // disconnect
{
char dcreason[1024];
msg.ReadString(dcreason, sizeof(dcreason));
printf("Disconnected: %s\n", dcreason);
printf("Reconnecting in 5000 ms ...");
_sleep(5000);
NET_Reconnect();
return true;
}
if (type == 2)//net_File
{
long transferid = msg.ReadUBitLong(32);
char filename[255];
msg.ReadString(filename, sizeof(filename));
bool requested = (bool)(msg.ReadOneBit()==1);
if (requested)
printf("net_File: Server requested file: %s::%i\n", filename, transferid);
else
printf("net_File: Server is not sending file: %s::%i\n", filename, transferid);
return true;
}
if (type == 3)//net_Tick
{
net_tick = msg.ReadLong();
net_hostframetime = msg.ReadUBitLong(16);
net_hostframedeviation = msg.ReadUBitLong(16);
//printf("Tick: %i - hostframetime: %i ( deviation: %i )\n", net_tick, net_hostframedeviation, net_hostframedeviation);
return true;
}
if (type == 4)//net_StringCmd
{
char cmd[1024];
msg.ReadString(cmd, sizeof(cmd));
printf("net_StringCmd: %s\n", cmd);
return true;
}
if (type == 5)//net_SetConVar
{
int count = msg.ReadByte();
char cmdname[255];
char cmdval[255];
printf("net_SetConVar: %i\n", count);
for (int i = 0; i < count; i++)
{
msg.ReadString(cmdname, sizeof(cmdname));
msg.ReadString(cmdval, sizeof(cmdval));
printf("%s to: %s\n", cmdname, cmdval);
}
printf("net_SetConVar_end, left: %i\n", msg.GetNumBytesLeft());
return true;
}
if (type == 6)// net_SignonState
{
int state = msg.ReadByte();
long aservercount = msg.ReadLong();
printf("Received net_SignOnState: %i, count: %i\n", state, bconnectstep);
if (netchan->m_iSignOnState == state)
{
printf("Ignored signonstate!\n");
return true;
}
netchan->m_iServerCount = aservercount;
netchan->m_iSignOnState = state;
printf("KK __ %i\n", state);
if (state == 3)
{
senddata.WriteUBitLong(8, 6);
senddata.WriteLong(netchan->m_iServerCount);
senddata.WriteLong(518790445);//clc_ClientInfo crc
senddata.WriteOneBit(1);//ishltv
senddata.WriteLong(1337);
static int shit = 20;
shit++;
printf("LOL: %i\n", shit);
senddata.WriteUBitLong(0, shit);
NET_SendDatagram(0);
senddata.WriteUBitLong(0, 6);
senddata.WriteUBitLong(6, 6);
senddata.WriteByte(state);
senddata.WriteLong(aservercount);
NET_SendDatagram(0);
return true;
}
if (bconnectstep)
{
if (state == 4 && false)
{
senddata.WriteUBitLong(12, 6);
for (int i = 0; i < 32; i++)
{
senddata.WriteUBitLong(1, 32);
}
}
senddata.WriteUBitLong(6, 6);
senddata.WriteByte(state);
senddata.WriteLong(aservercount);
NET_SendDatagram(false);
return true;
}
senddata.WriteUBitLong(6, 6);
senddata.WriteByte(state);
senddata.WriteLong(aservercount);
return true;
}
if (type == 7) // svc_Print
{
char print[2048];
msg.ReadString(print, sizeof(print));
// printf("svc_Print: %s", print);
printf("%s", print);
return true;
}
if (type == 8)//svc_ServerInfo
{
unsigned short protoversion = msg.ReadShort();
long servercount = msg.ReadLong();
bool srctv = (bool)(msg.ReadOneBit() == 1);
bool dedicated = (bool)(msg.ReadOneBit() == 1);
long crc = msg.ReadLong();
short maxclasses = msg.ReadWord();
char mapmd5[16];
msg.ReadBytes(mapmd5, 16);
char players = msg.ReadByte();
char maxplayers = msg.ReadByte();
float tickinterval = msg.ReadFloat();
char platform = msg.ReadChar();
char gamedir[255];
char levelname[255];
char skyname[255];
char hostname[255];
char loadingurl[255];
char gamemode[255];
msg.ReadString(gamedir, sizeof(gamedir));
msg.ReadString(levelname, sizeof(levelname));
msg.ReadString(skyname, sizeof(skyname));
msg.ReadString(hostname, sizeof(hostname));
msg.ReadString(loadingurl, sizeof(loadingurl));
msg.ReadString(gamemode, sizeof(gamemode));
printf("ServerInfo, players: %lu/%lu | map: %s | name: %s | gm: %s | count: %i | left: %i | step: %i\n", players, maxplayers, levelname, hostname, gamemode, servercount, msg.GetNumBitsLeft(), bconnectstep);
netchan->m_iServerCount = servercount;
bconnectstep = 4;
return true;
}
if (type == 10)//svc_ClassInfo
{
int classes = msg.ReadShort();
int useclientclasses = msg.ReadOneBit();
unsigned int size = (int)(log2(classes) + 1);
if (useclientclasses == 0)
{
printf("Received svc_ClassInfo | classes: %i: \n", classes);
for (int i = 0; i < classes; i++)
{
int classid = msg.ReadUBitLong(size);
char classname[255];
char dtname[255];
msg.ReadString(classname, sizeof(classname));
msg.ReadString(dtname, sizeof(dtname));
printf("Classname: %s | DTname: %s | ClassID: %i\n", classname, dtname, classid);
}
printf("svc_ClassInfo end\n");
}
else {
printf("Received svc_ClassInfo, classes: %i\n", classes);
}
return true;
}
if (type == 11)//svc_SetPause
{
int state = msg.ReadOneBit();
printf("Received svc_SetPause, state: %i\n", state);
return true;
}
if (type == 12)//svc_CreateStringTable
{
char name[500];
msg.ReadString(name, sizeof(name));
short maxentries = msg.ReadWord();
unsigned int size = (int)(log2(maxentries) + 1);
int entries = msg.ReadUBitLong(size);
int bits = msg.ReadVarInt32();
int userdata = msg.ReadOneBit();
//if (m_bUserDataFixedSize)
//{
// buffer.WriteUBitLong(m_nUserDataSize, 12);
// buffer.WriteUBitLong(m_nUserDataSizeBits, 4);
//}
if (userdata == 1)
{
int userdatasize = msg.ReadUBitLong(12);
int userdatabits = msg.ReadUBitLong(4);
}
int compressed = msg.ReadOneBit();
if (bits < 1) return true;
unsigned int sz = (bits / 8) + 2;
unsigned char* data = new unsigned char[sz*8]; //TODO: why is 8x the space required. (heap corruption otherwise)
msg.ReadBits(data, bits);
bool really_compressed = false;
unsigned int actual_size;
CLZSS s;
printf("\n");
{
unsigned int remaining = sz;
unsigned char* ptr = data;
ptr += + 8; // unknown data
remaining -= 8;
really_compressed = s.IsCompressed(ptr);
actual_size = really_compressed?s.GetActualSize(ptr):0;
if (really_compressed) {
unsigned char* data_dec = new unsigned char[actual_size];
s.Uncompress(ptr, data_dec);
// probably reuses the substring system used by old stringtable implementation. Shift the data by a bit or two to see the first entry of modelprecache for example.
hexdump(data_dec, actual_size);
delete[] data_dec;
printf("\n");
}
}
hexdump(data, bits / 8);
delete[] data;
printf("Received svc_CreateStringTable, name: %s | maxentries: %i | size: %d | entries: %i | compressed: %i,%s,%i | " "bits: %i (%i bytes)\n",
name, maxentries, size, entries, compressed, really_compressed?"y":"n", actual_size, bits,bits/8);
return true;
}
if (type == 13)//svc_UpdateStringTable
{
int tableid = msg.ReadUBitLong((int)MAX_TABLES_BITS);
int changed = 1;
if (msg.ReadOneBit() != 0)
{
changed = msg.ReadWord();
}
int bits = msg.ReadUBitLong(20);
if (bits < 1)
return true;
char *data = new char[bits];
msg.ReadBits(data, bits);
delete[] data;
printf("Received svc_UpdateStringTable, id: %i | changed: %i | bits: %i\n", tableid, changed, bits);
return true;
}
if (type == 14)//svc_VoiceInit
{
char codec[255];
msg.ReadString(codec, sizeof(codec));
int quality = msg.ReadByte();
printf("Received svc_VoiceInit, codec: %s | quality: %i\n", codec, quality);
return true;
}
if (type == 15)//svc_VoiceData
{
//FIX ME PLEASE
int client = msg.ReadByte();
int proximity = msg.ReadByte();
int bits = msg.ReadWord();
if (msg.GetNumBitsLeft() < bits)
bits = msg.GetNumBitsLeft();
//if (!bits)//its just us talking
// return true;
printf("Received svc_VoiceData, client: %i | proximity: %i | bits: %i\n", client, proximity, bits);
char* voicedata = new char[(bits+8)/8];
msg.ReadBits(voicedata, bits);
if(voicetoggle)
{
char*uncompressed = new char[0xFFFF];
unsigned int uncompressed_size = 0;
EVoiceResult worked = clientaudio->DecompressVoice(voicedata, bits / 8, uncompressed, 0xFFFF, &uncompressed_size, clientaudio->GetVoiceOptimalSampleRate());
if (worked == k_EVoiceResultOK)
{
HWAVEOUT hWaveOut = 0;
WAVEHDR header = { uncompressed, uncompressed_size, 0, 0, 0, 0, 0, 0 };
WAVEFORMATEX wfx = { WAVE_FORMAT_PCM, 1, clientaudio->GetVoiceOptimalSampleRate(), clientaudio->GetVoiceOptimalSampleRate()*2, 2, 16, sizeof(WAVEFORMATEX) };
waveOutOpen(&hWaveOut, WAVE_MAPPER, &wfx, 0, 0, CALLBACK_NULL);
waveOutPrepareHeader(hWaveOut, &header, sizeof(WAVEHDR));
waveOutWrite(hWaveOut, &header, sizeof(WAVEHDR));
waveOutUnprepareHeader(hWaveOut, &header, sizeof(WAVEHDR));
waveOutClose(hWaveOut);
}else{
printf("RIP AUDIO: %i\n", worked);
delete[] uncompressed;
}
delete[] voicedata;
}
if (voicemimic)
{
senddata.WriteUBitLong(10, 6);
senddata.WriteWord(bits);
senddata.WriteBits(voicedata, bits);
}
delete[] voicedata;
return true;
}
if (type == 17)//svc_Sounds
{
int reliable = msg.ReadOneBit();
int num = 1;
int bits = 0;
if (reliable == 0)
{
num = msg.ReadUBitLong(8);
bits = msg.ReadUBitLong(16);
}
else {
bits = msg.ReadUBitLong(8);
}
if (bits < 1)
return true;
char*data = new char[bits];
msg.ReadBits(data, bits);
delete[] data;
//printf("Received svc_Sounds, reliable: %i, bits: %i, num: %i\n", reliable, bits, num);
return true;
}
if (type == 18)//svc_SetView
{
int ent = msg.ReadUBitLong(MAX_EDICT_BITS);
printf("Received svc_SetView, ent: %i\n", ent);
return true;
}
if (type == 19)//svc_FixAngle
{
int relative = msg.ReadOneBit();
float x = msg.ReadBitAngle(16);
float y = msg.ReadBitAngle(16);
float z = msg.ReadBitAngle(16);
printf("Received svc_FixAngle, x:%f y: %f z: %f | relative: %i\n", x, y, z, relative);
return true;
}
if (type == 20)//svc_CrosshairAngle
{
int p = msg.ReadUBitLong(16);
int y = msg.ReadUBitLong(16);
int r = msg.ReadUBitLong(16);
printf("Received svc_CrosshairAngle p: %d y: %d r: %d\n", p, y, r);
}
if (type == 21)//svc_BSPDecal
{
Vector vec;
msg.ReadBitVec3Coord(vec);
int texture = msg.ReadUBitLong(9);
int useentity = msg.ReadOneBit();
int ent = 0;
int modulation = 0;
if (useentity == 1)
{
ent = msg.ReadUBitLong(MAX_EDICT_BITS);
modulation = msg.ReadUBitLong(12);//fix me
}
int lowpriority = msg.ReadOneBit();
printf("Received svc_BSPDecal: pos: %f:%f:%f | tex: %i | useent: %i\n", vec.x, vec.y, vec.z, texture, useentity);
return true;
}
if (type == 23)//svc_UserMessage
{
int msgtype = msg.ReadByte();
int bits = msg.ReadUBitLong(MAX_USERMESSAGE_BITS);
if (bits < 1)
return true;
char* data = new char[bits];
msg.ReadBits(data, bits);
bf_read userMsg(data, bits);
if (msgtype == 3)
{
int client = userMsg.ReadByte();
//int bWantsChat = userMsg.ReadByte();
char readstr[MAX_USER_MSG_DATA];
userMsg.ReadString(readstr, sizeof(readstr));
int something3 = userMsg.ReadByte(); //idk, sometimes 1, might be bchat
int something4 = userMsg.ReadByte(); //seems to be 1 when teamchatting
int something5 = userMsg.ReadByte(); //idk, sometimes 1
printf("Chat message: %i:%s __ %i\n", client, readstr, userMsg.GetNumBytesLeft());
delete[] data;
return true;
}
if (msgtype == 5)
{
userMsg.ReadByte();
char readstr[MAX_USER_MSG_DATA];
userMsg.ReadString(readstr, sizeof(readstr));
printf("umsg print: %s\n", readstr);
}
if (msgtype == 44)//nwvar
{
int c**k = userMsg.ReadUBitLong(32);
int cock2 = userMsg.ReadByte();
char str[255];
userMsg.ReadString(str, sizeof(str));
char str2[255];
userMsg.ReadString(str2, sizeof(str2));
//printf("cock1:%i cock2: %i name: %s str2: %s | left: %i\n", c**k, cock2, str, str2, userMsg.GetNumBytesLeft());
delete[] data;
return true;
}
delete[] data;
printf("Received svc_UserMessage, type: %i | bits: %i\n", msgtype, bits);
return true;
}
if (type == 24)//svc_EntityMessage
{
int ent = msg.ReadUBitLong(MAX_EDICT_BITS);
int entclass = msg.ReadUBitLong(MAX_SERVER_CLASS_BITS);
int bits = msg.ReadUBitLong(MAX_ENTITYMESSAGE_BITS);
if (bits < 1)
return true;
char *data = new char[bits];
msg.ReadBits(data, bits);
delete[] data;
printf("Received svc_EntityMessage, ent: %i | class: %i | bits: %i\n", ent, entclass, bits);
return true;
}
if (type == 25)//svc_GameEvent
{
int bits = msg.ReadUBitLong(11);
if (bits < 1)
return true;
char *data = new char[bits];
msg.ReadBits(data, bits);
delete[] data;
printf("Received svc_GameEvent, bits: %i\n", bits);
return true;
}
if (type == 26)//svc_PacketEntities
{
int max = msg.ReadUBitLong(MAX_EDICT_BITS);
int isdelta = msg.ReadOneBit();
int delta = -1;
if (isdelta)
{
delta = msg.ReadLong();
}
int baseline = msg.ReadUBitLong(1);
int changed = msg.ReadUBitLong(MAX_EDICT_BITS);
int bits = msg.ReadUBitLong(20);
int updatebaseline = msg.ReadOneBit();
int bytes = bits / 8;
if (bits < 1)
return true;
char *data = new char[bits];
msg.ReadBits(data, bits);
delete[] data;
//printf("Received svc_PacketEntities, max: %i | isdelta: %i | line: %i | changed: %i | bits: %i | update: %i\n", max, isdelta, baseline, changed, bits, updatebaseline);
return true;
}
if (type == 27)//svc_TempEntities
{
int num = msg.ReadUBitLong(8);
int bits = msg.ReadVarInt32();
if (bits < 1)
return true;
char *data = new char[bits];
msg.ReadBits(data, bits);
delete[] data;
printf("Received svc_TempEntities, num: %i | bits: %i\n", num, bits);
if (bconnectstep)
{
/*
leynet_tcp tcp;
printf("TCP TIME2\n");
tcp.OpenConnection(serverip, serverport);//is that really the tcp port
printf("CONNECTED: %s __ %i\n", serverip, serverport);
senddata.Reset();
memset(netsendbuffer, 0xFF, NETBUFFER_SIZE);
tcp.Send("\x09", 1);
Sleep(100);
senddata.WriteUBitLong(10, 6);
senddata.WriteWord(0xFFFF);
for (int i = 0; i < 1000; i++)
{
senddata.WriteOneBit(i%2==0);
}
tcp.Send((const char*)senddata.GetData(), senddata.GetNumBytesWritten());
*/
senddata.WriteUBitLong(6, 6);
senddata.WriteByte(6);
senddata.WriteLong(netchan->m_iServerCount);
senddata.WriteUBitLong(11, 6);
senddata.WriteLong(net_tick);
senddata.WriteUBitLong(1, 1);
Sleep(2000);
bconnectstep = 0;
}
return true;
}
if (type == 28)//svc_Prefetch
{
int index = msg.ReadUBitLong(4);
printf("Received svc_Prefetch, index: %i\n", index);
return true;
}
if (type == 30)//svc_GameEventList
{
int num = msg.ReadUBitLong(9);
int bits = msg.ReadUBitLong(20);
if (bits < 1)
return true;
char *data = new char[bits];
msg.ReadBits(data, bits);
printf("Received svc_GameEventList, num: %i | bits: %i\n", num, bits);
delete[] data;
return true;
}
if (type == 31)//svc_GetCvarValue
{
int cookie = msg.ReadUBitLong(32);
char cvarname[255];
msg.ReadString(cvarname, sizeof(cvarname));
printf("Received svc_GetCvarValue, cookie: %i | name: %s\n", cookie, cvarname);
return true;
}
if (type == 33)//svc_GMod_ServerToClient
{
int bits = msg.ReadUBitLong(20);
int type = msg.ReadByte(); // 4= probably server telling about files
if (bits < 1)
return true;
if (bits < 0)
{
printf("Received svc_Gmod_ServerToClient || Invalid!\n");
return true;
}
if (type == 4)
{
char* data = new char[bits];
int id = msg.ReadWord();
int toread = bits - 8 - 16;
if (toread > 0)
{
msg.ReadBits(data, toread);
}
printf("Received svc_GMod_ServerToClient, type: %i | bits: %i | id: %i \n", type, bits, id);
delete[] data;
return true;
}
if(type==3)
{
printf("Received svc_GMod_ServerToClient, type: %i | bits: %i\n", type, bits);
return true;
}
if (type == 0)
{
int id = msg.ReadWord();
char* data = new char[bits];
int toread = bits - 8 - 16;
if (toread > 0)
{
msg.ReadBits(data, toread);
}
delete[] data;
printf("Received svc_GMod_ServerToClient, type: %i | bits: %i\n", type, bits);
return true;
}
printf("Received svc_GMod_ServerToClient, type: %i | bits: %i\n", type, bits);
return true;
}
return false;
}