mirror of
https://github.com/id-Software/DOOM-3-BFG.git
synced 2024-11-23 12:32:49 +00:00
590 lines
21 KiB
C++
590 lines
21 KiB
C++
/*
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===========================================================================
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Doom 3 BFG Edition GPL Source Code
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Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company.
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This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").
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Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Doom 3 BFG Edition Source Code. If not, see <http://www.gnu.org/licenses/>.
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In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below.
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If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
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===========================================================================
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*/
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#pragma hdrstop
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#include "../idLib/precompiled.h"
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idCVar net_maxRate( "net_maxRate", "50", CVAR_INTEGER, "max send rate in kilobytes per second" );
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idCVar net_showReliableCompression( "net_showReliableCompression", "0", CVAR_BOOL, "Show reliable compression ratio." );
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// we use an assert(0); return idiom in some places, which lint complains about
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//lint -e527 unreachable code at token 'return'
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/*
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================================================
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idPacketProcessor::QueueReliableAck
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================================================
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*/
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void idPacketProcessor::QueueReliableAck( int lastReliable ) {
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// NOTE - Even if it was the last known sequence, go ahead and ack it, in case our last ack for this sequence got dropped
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if ( lastReliable >= reliableSequenceRecv ) {
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queuedReliableAck = lastReliable;
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reliableSequenceRecv = lastReliable;
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}
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}
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/*
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================================================
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idPacketProcessor::FinalizeRead
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================================================
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*/
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int idPacketProcessor::FinalizeRead( idBitMsg & inMsg, idBitMsg & outMsg, int & userValue ) {
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userValue = 0;
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idInnerPacketHeader header;
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header.ReadFromMsg( inMsg );
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if ( !verify( header.Type() != PACKET_TYPE_FRAGMENTED ) ) { // We shouldn't be fragmented at this point
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idLib::Printf("Received invalid fragmented packet.\n" );
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return RETURN_TYPE_NONE;
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}
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if ( header.Type() == PACKET_TYPE_RELIABLE_ACK ) {
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// Handle reliable ack
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int reliableSequence = inMsg.ReadLong();
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reliable.RemoveOlderThan( reliableSequence + 1 );
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header.ReadFromMsg( inMsg ); // Read the new header, since the reliable ack sits on top the actual header of the message
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}
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if ( header.Type() == PACKET_TYPE_OOB ) {
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// out-of-band packet
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userValue = header.Value();
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} else {
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// At this point, this MUST be an in-band packet
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if ( !verify( header.Type() == PACKET_TYPE_INBAND ) ) {
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idLib::Printf("In-band packet expected, received type %i instead.\n", header.Type() );
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return RETURN_TYPE_NONE;
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}
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// Reset number of reliables received (NOTE - This means you MUST unload all reliables as they are received)
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numReliable = 0;
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// Handle reliable portion of in-band packets
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int numReliableRecv = header.Value();
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int bufferPos = 0;
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if ( numReliableRecv > 0 ) {
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// Byte align msg
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inMsg.ReadByteAlign();
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int compressedSize = inMsg.ReadShort();
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lzwCompressionData_t lzwData;
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idLZWCompressor lzwCompressor( &lzwData );
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lzwCompressor.Start( (uint8*)inMsg.GetReadData() + inMsg.GetReadCount(), compressedSize ); // Read from msg
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int reliableSequence = 0;
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lzwCompressor.ReadAgnostic< int >( reliableSequence );
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for ( int r = 0; r < numReliableRecv; r++ ) {
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uint8 uncompMem[ MAX_MSG_SIZE ];
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uint16 reliableDataLength = 0;
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lzwCompressor.ReadAgnostic< uint16 >( reliableDataLength );
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lzwCompressor.Read( uncompMem, reliableDataLength );
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if ( reliableSequence + r > reliableSequenceRecv ) { // Only accept newer reliable msg's than we've currently already received
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if ( !verify( bufferPos + reliableDataLength <= sizeof( reliableBuffer ) ) ) {
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idLib::Printf( "Reliable msg size overflow.\n" );
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return RETURN_TYPE_NONE;
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}
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if ( !verify( numReliable < MAX_RELIABLE_QUEUE ) ) {
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idLib::Printf( "Reliable msg count overflow.\n" );
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return RETURN_TYPE_NONE;
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}
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memcpy( reliableBuffer + bufferPos, uncompMem, reliableDataLength );
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reliableMsgSize[ numReliable ] = reliableDataLength;
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reliableMsgPtrs[ numReliable++ ] = &reliableBuffer[ bufferPos ];
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bufferPos += reliableDataLength;
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} else {
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extern idCVar net_verboseReliable;
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if ( net_verboseReliable.GetBool() ) {
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idLib::Printf( "Ignoring reliable msg %i because %i was already acked\n", ( reliableSequence + r ), reliableSequenceRecv );
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}
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}
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if ( !verify( lzwCompressor.IsOverflowed() == false ) ) {
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idLib::Printf( "lzwCompressor.IsOverflowed() == true.\n" );
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return RETURN_TYPE_NONE;
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}
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}
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inMsg.SetReadCount( inMsg.GetReadCount() + compressedSize );
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QueueReliableAck( reliableSequence + numReliableRecv - 1 );
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}
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}
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// Load actual msg
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outMsg.BeginWriting();
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outMsg.WriteData( inMsg.GetReadData() + inMsg.GetReadCount(), inMsg.GetRemainingData() );
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outMsg.SetSize( inMsg.GetRemainingData() );
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return ( header.Type() == PACKET_TYPE_OOB ) ? RETURN_TYPE_OOB : RETURN_TYPE_INBAND;
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}
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/*
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================================================
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idPacketProcessor::QueueReliableMessage
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================================================
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*/
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bool idPacketProcessor::QueueReliableMessage( byte type, const byte * data, int dataLen ) {
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return reliable.Append( reliableSequenceSend++, &type, 1, data, dataLen );
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}
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/*
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========================
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idPacketProcessor::CanSendMoreData
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========================
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*/
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bool idPacketProcessor::CanSendMoreData() const {
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if ( net_maxRate.GetInteger() == 0 ) {
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return true;
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}
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return ( outgoingRateBytes <= net_maxRate.GetInteger() * 1024 );
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}
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/*
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========================
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idPacketProcessor::UpdateOutgoingRate
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========================
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*/
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void idPacketProcessor::UpdateOutgoingRate( const int time, const int size ) {
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outgoingBytes += size;
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// update outgoing rate variables
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if ( time > outgoingRateTime ) {
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outgoingRateBytes -= outgoingRateBytes * (float)( time - outgoingRateTime ) / 1000.0f;
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if ( outgoingRateBytes < 0.0f ) {
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outgoingRateBytes = 0.0f;
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}
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}
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outgoingRateTime = time;
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outgoingRateBytes += size;
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// compute an average bandwidth at intervals
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if ( time - lastOutgoingRateTime > BANDWIDTH_AVERAGE_PERIOD ) {
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currentOutgoingRate = 1000 * ( outgoingBytes - lastOutgoingBytes ) / ( time - lastOutgoingRateTime );
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lastOutgoingBytes = outgoingBytes;
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lastOutgoingRateTime = time;
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}
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}
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/*
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=================
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idPacketProcessor::UpdateIncomingRate
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=================
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*/
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void idPacketProcessor::UpdateIncomingRate( const int time, const int size ) {
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incomingBytes += size;
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// update incoming rate variables
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if ( time > incomingRateTime ) {
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incomingRateBytes -= incomingRateBytes * (float)( time - incomingRateTime ) / 1000.0f;
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if ( incomingRateBytes < 0.0f ) {
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incomingRateBytes = 0.0f;
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}
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}
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incomingRateTime = time;
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incomingRateBytes += size;
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// compute an average bandwidth at intervals
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if ( time - lastIncomingRateTime > BANDWIDTH_AVERAGE_PERIOD ) {
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currentIncomingRate = 1000 * ( incomingBytes - lastIncomingBytes ) / ( time - lastIncomingRateTime );
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lastIncomingBytes = incomingBytes;
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lastIncomingRateTime = time;
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}
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}
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/*
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================================================
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idPacketProcessor::ProcessOutgoing
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NOTE - We only compress reliables because we assume everything else has already been compressed.
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================================================
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*/
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bool idPacketProcessor::ProcessOutgoing( const int time, const idBitMsg & msg, bool isOOB, int userData ) {
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// We can only do ONE ProcessOutgoing call, then we need to do GetSendFragment to
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// COMPLETELY empty unsentMsg before calling ProcessOutgoing again.
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if ( !verify( fragmentedSend == false ) ) {
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idLib::Warning( "ProcessOutgoing: fragmentedSend == true!");
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return false;
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}
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if ( !verify( unsentMsg.GetRemainingData() == 0 ) ) {
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idLib::Warning( "ProcessOutgoing: unsentMsg.GetRemainingData() > 0!");
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return false;
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}
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// Build the full msg to send, which could include reliable data
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unsentMsg.InitWrite( unsentBuffer, sizeof( unsentBuffer ) );
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unsentMsg.BeginWriting();
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// Ack reliables if we need to (NOTE - We will send this ack on both the in-band and out-of-band channels)
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if ( queuedReliableAck >= 0 ) {
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idInnerPacketHeader header( PACKET_TYPE_RELIABLE_ACK, 0 );
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header.WriteToMsg( unsentMsg );
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unsentMsg.WriteLong( queuedReliableAck );
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queuedReliableAck = -1;
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}
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if ( isOOB ) {
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if ( msg.GetSize() + unsentMsg.GetSize() > MAX_OOB_MSG_SIZE ) { // Fragmentation not allowed for out-of-band msg's
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idLib::Printf("Out-of-band packet too large %i\n", unsentMsg.GetSize() );
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assert( 0 );
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return false;
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}
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// We don't need to worry about reliable for out of band packets
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idInnerPacketHeader header( PACKET_TYPE_OOB, userData );
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header.WriteToMsg( unsentMsg );
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} else {
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// Add reliable msg's here if this is an in-band packet
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idInnerPacketHeader header( PACKET_TYPE_INBAND, reliable.Num() );
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header.WriteToMsg( unsentMsg );
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if ( reliable.Num() > 0 ) {
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// Byte align unsentMsg
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unsentMsg.WriteByteAlign();
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lzwCompressionData_t lzwData;
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idLZWCompressor lzwCompressor( &lzwData );
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lzwCompressor.Start( unsentMsg.GetWriteData() + unsentMsg.GetSize() + 2, unsentMsg.GetRemainingSpace() - 2 ); // Write to compressed mem, not exceeding MAX_MSG_SIZE (+2 to reserve space for compressed size)
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int uncompressedSize = 4;
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lzwCompressor.WriteAgnostic< int >( reliable.ItemSequence( 0 ) );
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for ( int i = 0; i < reliable.Num(); i++ ) {
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lzwCompressor.WriteAgnostic< uint16 >( reliable.ItemLength( i ) );
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lzwCompressor.Write( reliable.ItemData( i ), reliable.ItemLength( i ) );
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uncompressedSize += 2 + reliable.ItemLength( i );
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}
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lzwCompressor.End();
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if ( lzwCompressor.IsOverflowed() ) {
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idLib::Error( "reliable msg compressor overflow." );
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}
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unsentMsg.WriteShort( lzwCompressor.Length() );
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unsentMsg.SetSize( unsentMsg.GetSize() + lzwCompressor.Length() );
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if ( net_showReliableCompression.GetBool() ) {
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static int totalUncompressed = 0;
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static int totalCompressed = 0;
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totalUncompressed += uncompressedSize;
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totalCompressed += lzwCompressor.Length();
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float ratio1 = (float)lzwCompressor.Length() / (float)uncompressedSize;
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float ratio2 = (float)totalCompressed / (float)totalUncompressed;
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idLib::Printf( "Uncompressed: %i, Compressed: %i, TotalUncompressed: %i, TotalCompressed: %i, (%2.2f / %2.2f )\n", uncompressedSize, lzwCompressor.Length(), totalUncompressed, totalCompressed, ratio1, ratio2 );
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}
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}
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}
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// Fill up with actual msg
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unsentMsg.WriteData( msg.GetReadData(), msg.GetSize() );
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if ( unsentMsg.GetSize() > MAX_PACKET_SIZE ) {
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if ( isOOB ) {
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idLib::Error( "oob msg's cannot fragment" );
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}
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fragmentedSend = true;
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}
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return true;
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}
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/*
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================================================
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idPacketProcessor::GetSendFragment
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================================================
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*/
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bool idPacketProcessor::GetSendFragment( const int time, sessionId_t sessionID, idBitMsg & outMsg ) {
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lastSendTime = time;
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if ( unsentMsg.GetRemainingData() <= 0 ) {
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return false; // Nothing to send
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}
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outMsg.BeginWriting();
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idOuterPacketHeader outerHeader( sessionID );
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// Write outer packet header to the msg
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outerHeader.WriteToMsg( outMsg );
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if ( !fragmentedSend ) {
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// Simple case, no fragments to sent
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outMsg.WriteData( unsentMsg.GetReadData(), unsentMsg.GetSize() );
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unsentMsg.SetSize( 0 );
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} else {
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int currentSize = idMath::ClampInt( 0, MAX_PACKET_SIZE, unsentMsg.GetRemainingData() );
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assert( currentSize > 0 );
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assert( unsentMsg.GetRemainingData() - currentSize >= 0 );
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// See if we'll have more fragments once we subtract off how much we're about to write
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bool moreFragments = ( unsentMsg.GetRemainingData() - currentSize > 0 ) ? true : false;
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if ( !unsentMsg.GetReadCount() ) { // If this is the first read, then we know it's the first fragment
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assert( moreFragments ); // If we have a first, we must have more or something went wrong
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idInnerPacketHeader header( PACKET_TYPE_FRAGMENTED, FRAGMENT_START );
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header.WriteToMsg( outMsg );
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} else {
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idInnerPacketHeader header( PACKET_TYPE_FRAGMENTED, moreFragments ? FRAGMENT_MIDDLE : FRAGMENT_END );
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header.WriteToMsg( outMsg );
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}
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outMsg.WriteLong( fragmentSequence );
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outMsg.WriteData( unsentMsg.GetReadData() + unsentMsg.GetReadCount(), currentSize );
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unsentMsg.ReadData( NULL, currentSize );
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assert( moreFragments == unsentMsg.GetRemainingData() > 0 );
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fragmentedSend = moreFragments;
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fragmentSequence++; // Advance sequence
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fragmentAccumulator++; // update the counter for the net debug hud
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}
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// The caller needs to send this packet, so assume he did, and update rates
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UpdateOutgoingRate( time, outMsg.GetSize() );
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return true;
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}
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/*
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================================================
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idPacketProcessor::ProcessIncoming
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================================================
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*/
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int idPacketProcessor::ProcessIncoming( int time, sessionId_t expectedSessionID, idBitMsg & msg, idBitMsg & out, int & userData, const int peerNum ) {
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assert( msg.GetSize() <= MAX_FINAL_PACKET_SIZE );
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UpdateIncomingRate( time, msg.GetSize() );
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idOuterPacketHeader outerHeader;
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outerHeader.ReadFromMsg( msg );
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sessionId_t sessionID = outerHeader.GetSessionID();
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assert( sessionID == expectedSessionID );
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if ( !verify( sessionID != SESSION_ID_CONNECTIONLESS_PARTY && sessionID != SESSION_ID_CONNECTIONLESS_GAME && sessionID != SESSION_ID_CONNECTIONLESS_GAME_STATE ) ) {
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idLib::Printf( "Expected non connectionless ID, but got a connectionless one\n" );
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return RETURN_TYPE_NONE;
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}
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if ( sessionID != expectedSessionID ) {
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idLib::Printf( "Expected session id: %8x but got %8x instead\n", expectedSessionID, sessionID );
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return RETURN_TYPE_NONE;
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}
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int c,b;
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msg.SaveReadState( c, b );
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idInnerPacketHeader header;
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header.ReadFromMsg( msg );
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if ( header.Type() != PACKET_TYPE_FRAGMENTED ) {
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// Non fragmented
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msg.RestoreReadState( c, b ); // Reset since we took a byte to check the type
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return FinalizeRead( msg, out, userData );
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}
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// Decode fragmented packet
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int readSequence = msg.ReadLong(); // Read sequence of fragment
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if ( header.Value() == FRAGMENT_START ) {
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msgWritePos = 0; // Reset msg reconstruction write pos
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} else if ( fragmentSequence == -1 || readSequence != fragmentSequence + 1 ) {
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droppedFrags++;
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idLib::Printf( "Dropped Fragments - PeerNum: %i FragmentSeq: %i, ReadSeq: %i, Total: %i\n", peerNum, fragmentSequence, readSequence, droppedFrags );
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// If this is the middle or end, make sure we are reading in fragmentSequence
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fragmentSequence = -1;
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return RETURN_TYPE_NONE; // Out of sequence
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}
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fragmentSequence = readSequence;
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assert( msg.GetRemainingData() > 0 );
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if ( !verify( msgWritePos + msg.GetRemainingData() < sizeof( msgBuffer ) ) ) {
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idLib::Error( "ProcessIncoming: Fragmented msg buffer overflow." );
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}
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memcpy( msgBuffer + msgWritePos, msg.GetReadData() + msg.GetReadCount(), msg.GetRemainingData() );
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msgWritePos += msg.GetRemainingData();
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if ( header.Value() == FRAGMENT_END ) {
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// Done reconstructing the msg
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idBitMsg msg( msgBuffer, sizeof( msgBuffer ) );
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msg.SetSize( msgWritePos );
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return FinalizeRead( msg, out, userData );
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}
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if ( !verify( header.Value() == FRAGMENT_START || header.Value() == FRAGMENT_MIDDLE ) ) {
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idLib::Printf( "ProcessIncoming: Invalid packet.\n" );
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}
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// If we get here, this is part (either beginning or end) of a fragmented packet.
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// We return RETURN_TYPE_NONE to let the caller know they don't need to do anything yet.
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return RETURN_TYPE_NONE;
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}
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/*
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================================================
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idPacketProcessor::ProcessConnectionlessOutgoing
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================================================
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*/
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bool idPacketProcessor::ProcessConnectionlessOutgoing( idBitMsg & msg, idBitMsg & out, int lobbyType, int userData ) {
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sessionId_t sessionID = lobbyType + 1;
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// Write outer header
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idOuterPacketHeader outerHeader( sessionID );
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outerHeader.WriteToMsg( out );
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// Write inner header
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idInnerPacketHeader header( PACKET_TYPE_OOB, userData );
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header.WriteToMsg( out );
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// Write msg
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out.WriteData( msg.GetReadData(), msg.GetSize() );
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return true;
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}
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/*
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================================================
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idPacketProcessor::ProcessConnectionlessIncoming
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================================================
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*/
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bool idPacketProcessor::ProcessConnectionlessIncoming( idBitMsg & msg, idBitMsg & out, int & userData ) {
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idOuterPacketHeader outerHeader;
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outerHeader.ReadFromMsg( msg );
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sessionId_t sessionID = outerHeader.GetSessionID();
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if ( sessionID != SESSION_ID_CONNECTIONLESS_PARTY && sessionID != SESSION_ID_CONNECTIONLESS_GAME && sessionID != SESSION_ID_CONNECTIONLESS_GAME_STATE ) {
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// Not a connectionless msg (this can happen if a previously connected peer keeps sending data for whatever reason)
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idLib::Printf( "ProcessConnectionlessIncoming: Invalid session ID - %d\n", sessionID );
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return false;
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}
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idInnerPacketHeader header;
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header.ReadFromMsg( msg );
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if ( header.Type() != PACKET_TYPE_OOB ) {
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idLib::Printf( "ProcessConnectionlessIncoming: header.Type() != PACKET_TYPE_OOB\n" );
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return false; // Only out-of-band packets supported for connectionless
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}
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userData = header.Value();
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out.BeginWriting();
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out.WriteData( msg.GetReadData() + msg.GetReadCount(), msg.GetRemainingData() );
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out.SetSize( msg.GetRemainingData() );
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return true;
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}
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/*
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================================================
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idPacketProcessor::GetSessionID
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================================================
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*/
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idPacketProcessor::sessionId_t idPacketProcessor::GetSessionID( idBitMsg & msg ) {
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sessionId_t sessionID;
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int c,b;
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msg.SaveReadState( c, b );
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// Read outer header
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idOuterPacketHeader outerHeader;
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outerHeader.ReadFromMsg( msg );
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// Get session ID
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sessionID = outerHeader.GetSessionID();
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msg.RestoreReadState( c, b );
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return sessionID;
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}
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/*
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================================================
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idPacketProcessor::VerifyEmptyReliableQueue
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================================================
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*/
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idCVar net_verifyReliableQueue( "net_verifyReliableQueue", "2", CVAR_INTEGER, "0: warn only, 1: error, 2: fixup, 3: fixup and verbose, 4: force test" );
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#define RELIABLE_VERBOSE if ( net_verifyReliableQueue.GetInteger() >= 3 ) idLib::Printf
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void idPacketProcessor::VerifyEmptyReliableQueue( byte keepMsgBelowThis, byte replaceWithThisMsg ) {
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if ( net_verifyReliableQueue.GetInteger() == 4 ) {
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RELIABLE_VERBOSE( "pushing a fake game reliable\n" );
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const char * garbage = "garbage";
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QueueReliableMessage( keepMsgBelowThis + 4, (const byte *)garbage, 8 );
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QueueReliableMessage( replaceWithThisMsg, NULL, 0 );
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}
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if ( reliable.Num() == 0 ) {
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return;
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}
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if ( net_verifyReliableQueue.GetInteger() == 1 ) {
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idLib::Error( "reliable queue is not empty: %d messages", reliable.Num() );
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return;
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}
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idLib::Warning( "reliable queue is not empty: %d messages", reliable.Num() );
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if ( net_verifyReliableQueue.GetInteger() == 0 ) {
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return;
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}
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// drop some stuff that is potentially dangerous and should not transmit
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idDataQueue< MAX_RELIABLE_QUEUE, MAX_MSG_SIZE > clean;
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RELIABLE_VERBOSE( "rollback send sequence from %d to %d\n", reliableSequenceSend, reliable.ItemSequence( 0 ) );
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for ( int i = 0; i < reliable.Num(); i++ ) {
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byte peek = reliable.ItemData( i )[0];
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if ( peek < keepMsgBelowThis ) {
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RELIABLE_VERBOSE( "keeping %d\n", peek );
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clean.Append( reliable.ItemSequence( i ), reliable.ItemData( i ), reliable.ItemLength( i ) );
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} else {
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// Replace with fake msg, so we retain itemsequence ordering.
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// If we don't do this, it's possible we remove the last msg, then append a single msg before the next send,
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// and the client may think he already received the msg, since his last reliableSequenceRecv could be greater than our
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// reliableSequenceSend if he already received the group of reliables we are mucking with
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clean.Append( reliable.ItemSequence( i ), &replaceWithThisMsg, 1 );
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RELIABLE_VERBOSE( "dropping %d\n", peek );
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}
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}
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assert( reliable.Num() == clean.Num() );
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reliable = clean;
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}
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