mirror of
https://github.com/ptitSeb/Serious-Engine
synced 2024-11-25 03:40:26 +01:00
687 lines
18 KiB
C++
687 lines
18 KiB
C++
/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */
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#include "stdh.h"
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#include <Engine/Base/Console.h>
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#include <Engine/Base/ErrorReporting.h>
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#include <Engine/Math/Functions.h>
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#include <Engine/Base/Lists.h>
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#include <Engine/Base/Memory.h>
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#include <Engine/Network/CPacket.h>
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#include <Engine/Base/Listiterator.inl>
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// should the packet transfers in/out of the buffer be reported to the console
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extern INDEX net_bReportPackets;
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extern INDEX net_iMaxSendRetries;
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extern FLOAT net_fSendRetryWait;
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#define MAX_RETRIES 10
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#define RETRY_INTERVAL 3.0f
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// make the address broadcast
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void CAddress::MakeBroadcast(void)
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{
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adr_ulAddress = INADDR_BROADCAST;
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extern INDEX net_iPort;
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adr_uwPort = net_iPort;
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adr_uwID = 0;
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}
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/*
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*
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* CPacket class implementation
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*
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*/
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// copy constructor
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CPacket::CPacket(CPacket &paOriginal)
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{
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ASSERT(paOriginal.pa_pubPacketData != NULL && paOriginal.pa_slSize > 0);
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pa_slSize = paOriginal.pa_slSize;
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pa_slTransferSize = paOriginal.pa_slTransferSize;
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pa_ulSequence = paOriginal.pa_ulSequence;
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pa_ubReliable = paOriginal.pa_ubReliable;
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pa_tvSendWhen = paOriginal.pa_tvSendWhen;
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pa_ubRetryNumber = paOriginal.pa_ubRetryNumber;
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pa_adrAddress.adr_ulAddress = paOriginal.pa_adrAddress.adr_ulAddress;
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pa_adrAddress.adr_uwPort = paOriginal.pa_adrAddress.adr_uwPort;
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pa_adrAddress.adr_uwID = paOriginal.pa_adrAddress.adr_uwID;
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memcpy(pa_pubPacketData,paOriginal.pa_pubPacketData,pa_slSize);
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};
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// initialization of the packet - clear all data and remove the packet from any list (buffer) it is in
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void CPacket::Clear()
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{
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pa_slSize = 0;
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pa_slTransferSize = 0;
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pa_ubReliable = UDP_PACKET_UNRELIABLE;
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pa_ubRetryNumber = 0;
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pa_tvSendWhen = CTimerValue(0.0f);
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if(pa_lnListNode.IsLinked()) pa_lnListNode.Remove();
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};
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void CPacket::operator=(const CPacket &paOriginal)
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{
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ASSERT(paOriginal.pa_pubPacketData != NULL && paOriginal.pa_slSize > 0);
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pa_slSize = paOriginal.pa_slSize;
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pa_slTransferSize = paOriginal.pa_slTransferSize;
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pa_ulSequence = paOriginal.pa_ulSequence;
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pa_ubReliable = paOriginal.pa_ubReliable;
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pa_tvSendWhen = paOriginal.pa_tvSendWhen;
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pa_ubRetryNumber = paOriginal.pa_ubRetryNumber;
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pa_adrAddress.adr_ulAddress = paOriginal.pa_adrAddress.adr_ulAddress;
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pa_adrAddress.adr_uwPort = paOriginal.pa_adrAddress.adr_uwPort;
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pa_adrAddress.adr_uwID = paOriginal.pa_adrAddress.adr_uwID;
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memcpy(pa_pubPacketData,paOriginal.pa_pubPacketData,pa_slSize);
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};
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// Takes data from a pointer, adds the packet header and copies the data to the packet
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BOOL CPacket::WriteToPacket(void* pv,SLONG slSize,UBYTE ubReliable,ULONG ulSequence,UWORD uwClientID,SLONG slTransferSize)
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{
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UBYTE* pubData;
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ASSERT(slSize <= MAX_UDP_BLOCK_SIZE && slSize > 0);
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ASSERT(pv != NULL);
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ASSERT(slTransferSize >= slSize);
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// set packet properties to values received as parameters
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pa_ubReliable = ubReliable;
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pa_adrAddress.adr_uwID = uwClientID;
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pa_ulSequence = ulSequence;
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pa_slSize = slSize + MAX_HEADER_SIZE;
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pa_slTransferSize = slTransferSize;
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// insert packet header to the beginning of the packet data
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pubData = pa_pubPacketData;
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*pubData = pa_ubReliable;
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pubData++;
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*(ULONG*)pubData = pa_ulSequence;
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pubData+=sizeof(pa_ulSequence);
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*(UWORD*)pubData = pa_adrAddress.adr_uwID;
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pubData+=sizeof(pa_adrAddress.adr_uwID);
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*(SLONG*)pubData = pa_slTransferSize;
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pubData+=sizeof(pa_slTransferSize);
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// copy the data the packet is to contain
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memcpy(pubData,pv,slSize);
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return TRUE;
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};
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// Takes data from a pointer, reads the packet header and copies the data to the packet
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BOOL CPacket::WriteToPacketRaw(void* pv,SLONG slSize)
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{
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UBYTE* pubData;
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ASSERT(slSize <= MAX_PACKET_SIZE && slSize > 0);
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ASSERT(pv != NULL);
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// get the packet properties from the pointer, and set the values
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pubData = (UBYTE*)pv;
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pa_ubReliable = *pubData;
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pubData++;
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pa_ulSequence = *(ULONG*)pubData;
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pubData+=sizeof(pa_ulSequence);
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pa_adrAddress.adr_uwID = *(UWORD*)pubData;
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pubData+=sizeof(pa_adrAddress.adr_uwID);
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pa_slTransferSize = *(SLONG*)pubData;
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pubData+=sizeof(pa_slTransferSize);
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pa_slSize = slSize;
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// transfer the data to the packet
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memcpy(pa_pubPacketData,pv,pa_slSize);
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return TRUE;
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};
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// Copies the data from the packet to the location specified by the *pv.
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// packet header data is skipped
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BOOL CPacket::ReadFromPacket(void* pv,SLONG &slExpectedSize)
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{
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UBYTE* pubData;
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ASSERT(slExpectedSize > 0);
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ASSERT(pv != NULL);
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ASSERT(pa_pubPacketData != NULL);
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if (slExpectedSize < (pa_slSize - MAX_HEADER_SIZE)) {
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return FALSE;
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}
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// how much data is actually returned
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slExpectedSize = pa_slSize - MAX_HEADER_SIZE;
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// skip the header data
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pubData = pa_pubPacketData + sizeof(pa_ubReliable) + sizeof(pa_ulSequence) + sizeof(pa_adrAddress.adr_uwID) + sizeof(pa_slTransferSize);
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memcpy(pv,pubData,slExpectedSize);
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return TRUE;
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};
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// is the packet reliable?
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BOOL CPacket::IsReliable()
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{
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return pa_ubReliable;
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};
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// is the packet a head of a reliable stream
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BOOL CPacket::IsReliableHead()
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{
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return pa_ubReliable & UDP_PACKET_RELIABLE_HEAD;
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};
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// is the packet a tail of a reliable stream
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BOOL CPacket::IsReliableTail()
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{
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return pa_ubReliable & UDP_PACKET_RELIABLE_TAIL;
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};
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// return the sequence of a packet
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ULONG CPacket::GetSequence()
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{
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ASSERT(pa_ubReliable);
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return pa_ulSequence;
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};
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// return the retry status of a packet - can retry now, later or not at all
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UBYTE CPacket::CanRetry()
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{
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if (pa_ubRetryNumber >= net_iMaxSendRetries) {
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return RS_NOTATALL;
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}
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CTimerValue tvNow = _pTimer->GetHighPrecisionTimer();
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if (tvNow < (pa_tvSendWhen + CTimerValue(net_fSendRetryWait * (pa_ubRetryNumber + 1)))) {
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return RS_NOTNOW;
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}
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return RS_NOW;
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};
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//drop the packet from a list (buffer)
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void CPacket::Drop()
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{
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if (pa_lnListNode.IsLinked()) {
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pa_lnListNode.Remove();
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}
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};
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SLONG CPacket::GetTransferSize()
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{
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return pa_slTransferSize;
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};
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BOOL CPacket::IsBroadcast()
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{
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if (pa_adrAddress.adr_uwID == '//' || pa_adrAddress.adr_uwID == 0) {
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return TRUE;
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}
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return FALSE;
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};
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/*
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*
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*
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* CPacketBufferStats Class implementation
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*
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*
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*/
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// this class is used for MaxBPS limitation (prevets flooding the client) and for bandwidth limit and latency emulation
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void CPacketBufferStats::Clear(void)
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{
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pbs_fBandwidthLimit = 0;
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pbs_fLatencyLimit = 0.0f;
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pbs_fLatencyVariation = 0.0f;
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pbs_tvTimeNextPacketStart = _pTimer->GetHighPrecisionTimer();
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};
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// when can a certian ammount of data be sent?
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CTimerValue CPacketBufferStats::GetPacketSendTime(SLONG slSize)
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{
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CTimerValue tvNow = _pTimer->GetHighPrecisionTimer();
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// calculate how much should the packet be delayed due to latency and due to bandwidth
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CTimerValue tvBandwidth;
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if (pbs_fBandwidthLimit<=0.0f) {
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tvBandwidth = CTimerValue(0.0);
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} else {
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tvBandwidth = CTimerValue(DOUBLE((slSize*8)/pbs_fBandwidthLimit));
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}
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CTimerValue tvLatency;
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if (pbs_fLatencyLimit<=0.0f && pbs_fLatencyVariation<=0.0f) {
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tvLatency = CTimerValue(0.0);
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} else {
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tvLatency = CTimerValue(DOUBLE(pbs_fLatencyLimit+(pbs_fLatencyVariation*rand())/RAND_MAX));
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}
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// time when the packet should be sent is max of
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CTimerValue tvStart(
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Max(
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// current time plus latency and
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(tvNow+tvLatency).tv_llValue,
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// next free point in time
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pbs_tvTimeNextPacketStart.tv_llValue));
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// remember next free time and return it
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pbs_tvTimeNextPacketStart = tvStart+tvBandwidth;
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return pbs_tvTimeNextPacketStart;
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};
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/*
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*
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* CPacketBuffer Class implementation
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*
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*/
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// Empty the packet buffer
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void CPacketBuffer::Clear()
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{
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pb_lhPacketStorage.Clear();
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pb_ulNumOfPackets = 0;
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pb_ulNumOfReliablePackets = 0;
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pb_ulTotalSize = 0;
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pb_ulLastSequenceOut = 0;
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pb_pbsLimits.Clear();
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};
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// Is the packet buffer empty?
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BOOL CPacketBuffer::IsEmpty()
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{
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if (pb_ulNumOfPackets>0) {
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return FALSE;
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}
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return TRUE;
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};
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// Calculate when the packet can be output from the buffer
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CTimerValue CPacketBuffer::GetPacketSendTime(SLONG slSize) {
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CTimerValue tvSendTime;
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// if traffic emulation is in use, use the time with the lower bandwidth limit
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if (pb_ppbsStats != NULL) {
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if (pb_ppbsStats->pbs_fBandwidthLimit > 0.0f && pb_ppbsStats->pbs_fBandwidthLimit < pb_pbsLimits.pbs_fBandwidthLimit) {
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tvSendTime = pb_ppbsStats->GetPacketSendTime(slSize);
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pb_pbsLimits.pbs_tvTimeNextPacketStart = tvSendTime;
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} else {
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tvSendTime = pb_pbsLimits.GetPacketSendTime(slSize);
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pb_ppbsStats->pbs_tvTimeNextPacketStart = tvSendTime;
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}
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// else just use the MaxBPS control
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} else {
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tvSendTime = pb_pbsLimits.GetPacketSendTime(slSize);
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}
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return tvSendTime;
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};
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// Adds the packet to the end of the list
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BOOL CPacketBuffer::AppendPacket(CPacket &paPacket,BOOL bDelay)
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{
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// bDelay regulates if the packet should be delayed because of the bandwidth limits or not
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// internal buffers (reliable, waitack and master buffers) do not pay attention to bandwidth limits
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if (bDelay) {
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paPacket.pa_tvSendWhen = GetPacketSendTime(paPacket.pa_slSize);
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} else {
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paPacket.pa_tvSendWhen = _pTimer->GetHighPrecisionTimer();
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}
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// Add the packet to the end of the list
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pb_lhPacketStorage.AddTail(paPacket.pa_lnListNode);
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pb_ulNumOfPackets++;
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// if the packet is reliable, bump up the number of reliable packets
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if (paPacket.pa_ubReliable & UDP_PACKET_RELIABLE) {
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pb_ulNumOfReliablePackets++;
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}
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// update the total size of data stored in the buffer
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pb_ulTotalSize += paPacket.pa_slSize - MAX_HEADER_SIZE;
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return TRUE;
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};
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// Inserts the packet in the buffer, according to it's sequence number
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BOOL CPacketBuffer::InsertPacket(CPacket &paPacket,BOOL bDelay)
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{
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// find the right place to insert this packet (this is if this packet is out of sequence)
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FOREACHINLIST(CPacket,pa_lnListNode,pb_lhPacketStorage,litPacketIter) {
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// if there is a packet in the buffer with greater sequence number, insert this one before it
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if (paPacket.pa_ulSequence < litPacketIter->pa_ulSequence) {
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// bDelay regulates if the packet should be delayed because of the bandwidth limits or not
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// internal buffers (reliable, waitack and master buffers) do not pay attention to bandwidth limits
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if (bDelay) {
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paPacket.pa_tvSendWhen = GetPacketSendTime(paPacket.pa_slSize);
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} else {
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paPacket.pa_tvSendWhen = _pTimer->GetHighPrecisionTimer();
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}
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litPacketIter.InsertBeforeCurrent(paPacket.pa_lnListNode);
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pb_ulNumOfPackets++;
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// if the packet is reliable, bump up the number of reliable packets
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if (paPacket.pa_ubReliable & UDP_PACKET_RELIABLE) {
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pb_ulNumOfReliablePackets++;
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}
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// update the total size of data stored in the buffer
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pb_ulTotalSize += paPacket.pa_slSize - MAX_HEADER_SIZE;
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return TRUE;
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// if there already is a packet in the buffer with the same sequence, do nothing
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} else if (paPacket.pa_ulSequence == litPacketIter->pa_ulSequence) {
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return FALSE;
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}
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}
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// if this packet has the greatest sequence number so far, add it to the end of the list
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pb_lhPacketStorage.AddTail(paPacket.pa_lnListNode);
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pb_ulNumOfPackets++;
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// if the packet is reliable, bump up the number of reliable packets
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if (paPacket.pa_ubReliable & UDP_PACKET_RELIABLE) {
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pb_ulNumOfReliablePackets++;
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}
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pb_ulTotalSize += paPacket.pa_slSize - MAX_HEADER_SIZE;
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return TRUE;
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};
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// Bumps up the retry count and time, and appends the packet to the buffer
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BOOL CPacketBuffer::Retry(CPacket &paPacket)
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{
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paPacket.pa_ubRetryNumber++;
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if (net_bReportPackets == TRUE) {
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CPrintF("Retrying sequence: %d, reliable flag: %d\n",paPacket.pa_ulSequence,paPacket.pa_ubReliable);
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}
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return AppendPacket(paPacket,TRUE);
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};
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// Reads the data from the first packet in the bufffer, but does not remove it
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CPacket* CPacketBuffer::PeekFirstPacket()
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{
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ASSERT(pb_ulNumOfPackets != 0);
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return LIST_HEAD(pb_lhPacketStorage,CPacket,pa_lnListNode);
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};
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// Reads the first packet in the bufffer, and removes it from the buffer
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CPacket* CPacketBuffer::GetFirstPacket()
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{
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ASSERT(pb_ulNumOfPackets != 0);
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CPacket* ppaHead = LIST_HEAD(pb_lhPacketStorage,CPacket,pa_lnListNode);
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// remove the first packet from the start of the list
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pb_lhPacketStorage.RemHead();
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pb_ulNumOfPackets--;
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if (ppaHead->pa_ubReliable & UDP_PACKET_RELIABLE) {
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pb_ulNumOfReliablePackets--;
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}
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// update the total size of data stored in the buffer
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pb_ulTotalSize -= (ppaHead->pa_slSize - MAX_HEADER_SIZE);
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// mark the last packet sequence that was output from the buffer - helps to prevent problems wit duplicated packets
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if (pb_ulLastSequenceOut < ppaHead->pa_ulSequence) {
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pb_ulLastSequenceOut = ppaHead->pa_ulSequence;
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}
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return ppaHead;
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};
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// Reads the data from the packet with the requested sequence, but does not remove it
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CPacket* CPacketBuffer::PeekPacket(ULONG ulSequence)
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{
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FOREACHINLIST(CPacket,pa_lnListNode,pb_lhPacketStorage,litPacketIter) {
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if (litPacketIter->pa_ulSequence == ulSequence) {
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return litPacketIter;
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}
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}
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return NULL;
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};
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// Returns te packet with the matching sequence from the buffer
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CPacket* CPacketBuffer::GetPacket(ULONG ulSequence)
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{
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FOREACHINLIST(CPacket,pa_lnListNode,pb_lhPacketStorage,litPacketIter) {
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if (litPacketIter->pa_ulSequence == ulSequence) {
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litPacketIter->pa_lnListNode.Remove();
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pb_ulNumOfPackets--;
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if (litPacketIter->pa_ubReliable & UDP_PACKET_RELIABLE) {
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pb_ulNumOfReliablePackets--;
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}
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// update the total size of data stored in the buffer
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pb_ulTotalSize -= (litPacketIter->pa_slSize - MAX_HEADER_SIZE);
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return litPacketIter;
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}
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}
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return NULL;
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};
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// Reads the first connection request packet from the buffer
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CPacket* CPacketBuffer::GetConnectRequestPacket() {
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FOREACHINLIST(CPacket,pa_lnListNode,pb_lhPacketStorage,litPacketIter) {
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if (litPacketIter->pa_ubReliable & UDP_PACKET_CONNECT_REQUEST) {
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litPacketIter->pa_lnListNode.Remove();
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pb_ulNumOfPackets--;
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// connect request packets are allways reliable
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pb_ulNumOfReliablePackets--;
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// update the total size of data stored in the buffer
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pb_ulTotalSize -= (litPacketIter->pa_slSize - MAX_HEADER_SIZE);
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|
|
|
return litPacketIter;
|
|
}
|
|
}
|
|
return NULL;
|
|
};
|
|
|
|
// Removes the first packet from the buffer
|
|
BOOL CPacketBuffer::RemoveFirstPacket(BOOL bDelete) {
|
|
ASSERT(pb_ulNumOfPackets > 0);
|
|
CPacket *lnHead = LIST_HEAD(pb_lhPacketStorage,CPacket,pa_lnListNode);
|
|
|
|
pb_ulNumOfPackets--;
|
|
if (lnHead->pa_ubReliable & UDP_PACKET_RELIABLE) {
|
|
pb_ulNumOfReliablePackets--;
|
|
}
|
|
|
|
// update the total size of data stored in the buffer
|
|
pb_ulTotalSize -= (lnHead->pa_slSize - MAX_HEADER_SIZE);
|
|
|
|
if (pb_ulLastSequenceOut < lnHead->pa_ulSequence) {
|
|
pb_ulLastSequenceOut = lnHead->pa_ulSequence;
|
|
}
|
|
|
|
pb_lhPacketStorage.RemHead();
|
|
if (bDelete) {
|
|
delete lnHead;
|
|
}
|
|
return TRUE;
|
|
};
|
|
|
|
// Removes the packet with the requested sequence from the buffer
|
|
BOOL CPacketBuffer::RemovePacket(ULONG ulSequence,BOOL bDelete)
|
|
{
|
|
// ASSERT(pb_ulNumOfPackets > 0);
|
|
FORDELETELIST(CPacket,pa_lnListNode,pb_lhPacketStorage,litPacketIter) {
|
|
if (litPacketIter->pa_ulSequence == ulSequence) {
|
|
litPacketIter->pa_lnListNode.Remove();
|
|
|
|
pb_ulNumOfPackets--;
|
|
if (litPacketIter->pa_ubReliable & UDP_PACKET_RELIABLE) {
|
|
pb_ulNumOfReliablePackets--;
|
|
}
|
|
|
|
// update the total size of data stored in the buffer
|
|
pb_ulTotalSize -= (litPacketIter->pa_slSize - MAX_HEADER_SIZE);
|
|
|
|
if (bDelete) {
|
|
delete litPacketIter;
|
|
}
|
|
}
|
|
}
|
|
return FALSE;
|
|
};
|
|
|
|
// Remove connect response packets from the buffer
|
|
BOOL CPacketBuffer::RemoveConnectResponsePackets() {
|
|
FORDELETELIST(CPacket,pa_lnListNode,pb_lhPacketStorage,litPacketIter) {
|
|
if (litPacketIter->pa_ubReliable & UDP_PACKET_CONNECT_RESPONSE) {
|
|
litPacketIter->pa_lnListNode.Remove();
|
|
|
|
pb_ulNumOfPackets--;
|
|
|
|
// connect request packets are allways reliable
|
|
pb_ulNumOfReliablePackets--;
|
|
|
|
// update the total size of data stored in the buffer
|
|
pb_ulTotalSize -= (litPacketIter->pa_slSize - MAX_HEADER_SIZE);
|
|
|
|
delete litPacketIter;
|
|
}
|
|
}
|
|
return NULL;
|
|
};
|
|
|
|
|
|
// Gets the sequence number of the first packet in the buffer
|
|
ULONG CPacketBuffer::GetFirstSequence()
|
|
{
|
|
ASSERT(pb_ulNumOfPackets > 0);
|
|
|
|
return LIST_HEAD(pb_lhPacketStorage,CPacket,pa_lnListNode)->pa_ulSequence;
|
|
|
|
};
|
|
|
|
// Gets the sequence number of the last packet in the buffer
|
|
ULONG CPacketBuffer::GetLastSequence()
|
|
{
|
|
ASSERT(pb_ulNumOfPackets > 0);
|
|
|
|
return LIST_TAIL(pb_lhPacketStorage,CPacket,pa_lnListNode)->pa_ulSequence;
|
|
|
|
};
|
|
|
|
// Removes the packet with the requested sequence from the buffer
|
|
BOOL CPacketBuffer::IsSequenceInBuffer(ULONG ulSequence)
|
|
{
|
|
FOREACHINLIST(CPacket,pa_lnListNode,pb_lhPacketStorage,litPacketIter) {
|
|
if (litPacketIter->pa_ulSequence == ulSequence) {
|
|
return TRUE;
|
|
}
|
|
}
|
|
return FALSE;
|
|
};
|
|
|
|
|
|
// Check if the buffer contains a complete sequence of reliable packets at the start of the buffer
|
|
BOOL CPacketBuffer::CheckSequence(SLONG &slSize)
|
|
{
|
|
|
|
CPacket* paPacket;
|
|
ULONG ulSequence;
|
|
|
|
slSize=0;
|
|
|
|
if (pb_ulNumOfPackets == 0) {
|
|
return FALSE;
|
|
}
|
|
|
|
paPacket = LIST_HEAD(pb_lhPacketStorage,CPacket,pa_lnListNode);
|
|
|
|
// if the first packet is not the head of the reliable packet transfer
|
|
if (!(paPacket->pa_ubReliable & UDP_PACKET_RELIABLE_HEAD)) {
|
|
return FALSE;
|
|
}
|
|
|
|
ulSequence = paPacket->pa_ulSequence;
|
|
|
|
// for each packet in the buffer
|
|
FOREACHINLIST(CPacket,pa_lnListNode,pb_lhPacketStorage,litPacketIter) {
|
|
// if it's out of order (there is a gap in the reliable sequence), the message is not complete
|
|
if (litPacketIter->pa_ulSequence != ulSequence) {
|
|
return FALSE;
|
|
}
|
|
// if it's a tail of the reliable sequence the message is complete (all packets so far
|
|
// have been in order)
|
|
if (litPacketIter->pa_ubReliable & UDP_PACKET_RELIABLE_TAIL) {
|
|
return TRUE;
|
|
}
|
|
slSize += litPacketIter->pa_slSize - MAX_HEADER_SIZE;
|
|
ulSequence++;
|
|
}
|
|
|
|
// if the function hasn't exited while in the loop, the message is not complete
|
|
// (all the packets are in sequence, but there is no tail)
|
|
return FALSE;
|
|
};
|
|
|
|
|
|
|