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https://github.com/nzp-team/fteqw.git
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1534fee1ae
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@1055 fc73d0e0-1445-4013-8a0c-d673dee63da5
653 lines
16 KiB
C
653 lines
16 KiB
C
/*
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Copyright (C) 1996-1997 Id Software, Inc.
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program 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.
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See the 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 this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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*/
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#include "quakedef.h"
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#ifdef _WIN32
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#include "winquake.h"
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#else
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#include "unistd.h"
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#endif
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#define PACKET_HEADER 8
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/*
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packet header
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-------------
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31 sequence
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1 does this message contain a reliable payload
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31 acknowledge sequence
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1 acknowledge receipt of even/odd message
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16 qport
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The remote connection never knows if it missed a reliable message, the
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local side detects that it has been dropped by seeing a sequence acknowledge
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higher thatn the last reliable sequence, but without the correct evon/odd
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bit for the reliable set.
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If the sender notices that a reliable message has been dropped, it will be
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retransmitted. It will not be retransmitted again until a message after
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the retransmit has been acknowledged and the reliable still failed to get there.
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if the sequence number is -1, the packet should be handled without a netcon
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The reliable message can be added to at any time by doing
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MSG_Write* (&netchan->message, <data>).
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If the message buffer is overflowed, either by a single message, or by
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multiple frames worth piling up while the last reliable transmit goes
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unacknowledged, the netchan signals a fatal error.
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Reliable messages are allways placed first in a packet, then the unreliable
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message is included if there is sufficient room.
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To the receiver, there is no distinction between the reliable and unreliable
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parts of the message, they are just processed out as a single larger message.
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Illogical packet sequence numbers cause the packet to be dropped, but do
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not kill the connection. This, combined with the tight window of valid
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reliable acknowledgement numbers provides protection against malicious
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address spoofing.
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The qport field is a workaround for bad address translating routers that
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sometimes remap the client's source port on a packet during gameplay.
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If the base part of the net address matches and the qport matches, then the
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channel matches even if the IP port differs. The IP port should be updated
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to the new value before sending out any replies.
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*/
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int net_drop;
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cvar_t showpackets = {"showpackets", "0"};
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cvar_t showdrop = {"showdrop", "0"};
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cvar_t qport = {"qport", "0"};
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/*
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===============
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Netchan_Init
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===============
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*/
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void Netchan_Init (void)
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{
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int port;
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// pick a port value that should be nice and random
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#ifdef _WIN32
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port = (time(NULL)) & 0xffff;
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#else
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port = ((int)(getpid()+getuid()*1000) * time(NULL)) & 0xffff;
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#endif
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Cvar_Register (&showpackets, "Networking");
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Cvar_Register (&showdrop, "Networking");
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Cvar_Register (&qport, "Networking");
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Cvar_SetValue(&qport, port);
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}
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/*
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===============
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Netchan_OutOfBand
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Sends an out-of-band datagram
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================
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*/
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void Netchan_OutOfBand (netsrc_t sock, netadr_t adr, int length, qbyte *data)
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{
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sizebuf_t send;
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qbyte send_buf[MAX_QWMSGLEN + PACKET_HEADER];
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// write the packet header
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send.data = send_buf;
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send.maxsize = sizeof(send_buf);
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send.cursize = 0;
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MSG_WriteLong (&send, -1); // -1 sequence means out of band
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SZ_Write (&send, data, length);
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// send the datagram
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//zoid, no input in demo playback mode
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#ifndef SERVERONLY
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if (!cls.demoplayback)
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#endif
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NET_SendPacket (sock, send.cursize, send.data, adr);
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}
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/*
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===============
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Netchan_OutOfBandPrint
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Sends a text message in an out-of-band datagram
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================
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*/
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void VARGS Netchan_OutOfBandPrint (netsrc_t sock, netadr_t adr, char *format, ...)
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{
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va_list argptr;
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static char string[8192]; // ??? why static?
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va_start (argptr, format);
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_vsnprintf (string,sizeof(string)-1, format,argptr);
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va_end (argptr);
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Netchan_OutOfBand (sock, adr, strlen(string), (qbyte *)string);
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}
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#ifndef CLIENTONLY
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void VARGS Netchan_OutOfBandTPrintf (netsrc_t sock, netadr_t adr, int language, translation_t text, ...)
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{
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va_list argptr;
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static char string[8192]; // ??? why static?
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char *format = langtext(text, language);
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string[0] = A2C_PRINT;
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va_start (argptr, text);
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_vsnprintf (string+1,sizeof(string)-2, format,argptr);
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va_end (argptr);
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Netchan_OutOfBand (sock, adr, strlen(string), (qbyte *)string);
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}
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#endif
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/*
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==============
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Netchan_Setup
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called to open a channel to a remote system
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==============
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*/
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void Netchan_Setup (netsrc_t sock, netchan_t *chan, netadr_t adr, int qport)
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{
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memset (chan, 0, sizeof(*chan));
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#ifdef NQPROT
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chan->qsocket = NULL;
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#endif
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chan->sock = sock;
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chan->remote_address = adr;
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chan->last_received = realtime;
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chan->message.data = chan->message_buf;
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chan->message.allowoverflow = true;
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chan->message.maxsize = MAX_QWMSGLEN;//sizeof(chan->message_buf);
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chan->qport = qport;
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}
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/*
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===============
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Netchan_CanPacket
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Returns true if the bandwidth choke isn't active
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================
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*/
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#define MAX_BACKUP 200
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qboolean Netchan_CanPacket (netchan_t *chan, int rate)
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{
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if (chan->remote_address.type == NA_LOOPBACK)
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return true; //don't ever drop packets due to possible routing problems when there is no routing.
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if (chan->cleartime < realtime + MAX_BACKUP/(float)rate)
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return true;
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return false;
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}
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/*
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===============
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Netchan_CanReliable
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Returns true if the bandwidth choke isn't
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================
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*/
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qboolean Netchan_CanReliable (netchan_t *chan, int rate)
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{
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if (chan->reliable_length)
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return false; // waiting for ack
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return Netchan_CanPacket (chan, rate);
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}
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#ifdef SERVERONLY
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qboolean ServerPaused(void);
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#endif
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#ifdef NQPROT
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qboolean NQNetChan_Process(netchan_t *chan)
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{
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int header;
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int sequence;
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int drop;
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MSG_BeginReading ();
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header = BigLong(MSG_ReadLong());
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if (net_message.cursize != (header & NETFLAG_LENGTH_MASK))
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return false; //size was wrong, couldn't have been ours.
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if (header & NETFLAG_CTL)
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return false; //huh?
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sequence = BigLong(MSG_ReadLong());
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if (header & NETFLAG_ACK)
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{
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if (sequence == chan->reliable_sequence)
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{
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chan->reliable_start += MAX_NQDATAGRAM;
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if (chan->reliable_start >= chan->reliable_length)
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{
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chan->reliable_length = 0; //they got the entire message
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chan->reliable_start = 0;
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}
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chan->incoming_reliable_acknowledged = chan->reliable_sequence;
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chan->reliable_sequence++;
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chan->last_received = realtime;
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}
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else if (sequence < chan->reliable_sequence)
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Con_DPrintf("Stale ack recieved\n");
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else if (sequence > chan->reliable_sequence)
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Con_Printf("Future ack recieved\n");
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return false; //don't try execing the 'payload'. I hate ack packets.
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}
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if (header & NETFLAG_UNRELIABLE)
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{
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if (sequence < chan->incoming_unreliable)
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{
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Con_DPrintf("Stale datagram recieved\n");
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return false;
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}
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drop = sequence - chan->incoming_unreliable - 1;
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if (drop > 0)
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Con_DPrintf("Dropped %i datagrams\n", drop);
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chan->incoming_unreliable = sequence;
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chan->last_received = realtime;
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chan->incoming_acknowledged++;
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return 1;
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}
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if (header & NETFLAG_DATA)
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{
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int runt[2];
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//always reply. a stale sequence probably means our ack got lost.
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runt[0] = BigLong(NETFLAG_ACK | 8);
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runt[1] = BigLong(sequence);
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NET_SendPacket (chan->sock, 8, runt, net_from);
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chan->last_received = realtime;
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if (sequence == chan->incoming_reliable_sequence)
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{
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chan->incoming_reliable_sequence++;
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if (chan->in_reliable_length + net_message.cursize-8 >= sizeof(chan->in_reliable_buf))
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{
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chan->fatal_error = true;
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return false;
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}
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memcpy(chan->in_reliable_buf + chan->in_reliable_length, net_message.data+8, net_message.cursize-8);
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chan->in_reliable_length += net_message.cursize-8;
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if (header & NETFLAG_EOM)
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{
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SZ_Clear(&net_message);
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SZ_Write(&net_message, chan->in_reliable_buf, chan->in_reliable_length);
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chan->in_reliable_length = 0;
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MSG_BeginReading();
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return 2; //we can read it now
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}
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}
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else
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Con_DPrintf("Stale reliable (%i)\n", sequence);
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return false;
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}
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return false; //not supported.
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}
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#endif
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/*
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===============
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Netchan_Transmit
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tries to send an unreliable message to a connection, and handles the
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transmition / retransmition of the reliable messages.
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A 0 length will still generate a packet and deal with the reliable messages.
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================
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*/
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void Netchan_Transmit (netchan_t *chan, int length, qbyte *data, int rate)
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{
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sizebuf_t send;
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qbyte send_buf[MAX_OVERALLMSGLEN + PACKET_HEADER];
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qboolean send_reliable;
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unsigned w1, w2;
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int i;
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#ifdef NQPROT
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if (chan->isnqprotocol)
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{
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send.data = send_buf;
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send.maxsize = MAX_NQMSGLEN + PACKET_HEADER;
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send.cursize = 0;
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//send out the unreliable
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if (length)
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{
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MSG_WriteLong(&send, 0);
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MSG_WriteLong(&send, BigLong(chan->outgoing_unreliable));
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chan->outgoing_unreliable++;
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SZ_Write (&send, data, length);
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*(int*)send_buf = BigLong(NETFLAG_UNRELIABLE | send.cursize);
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NET_SendPacket (chan->sock, send.cursize, send.data, chan->remote_address);
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if (chan->cleartime < realtime)
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chan->cleartime = realtime + send.cursize/(float)rate;
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else
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chan->cleartime += send.cursize/(float)rate;
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send.cursize = 0;
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}
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if (!chan->reliable_length && chan->message.cursize)
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{
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memcpy (chan->reliable_buf, chan->message_buf, chan->message.cursize);
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chan->reliable_length = chan->message.cursize;
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chan->reliable_start = 0;
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chan->message.cursize = 0;
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}
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i = chan->reliable_length - chan->reliable_start;
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if (i>0)
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{
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MSG_WriteLong(&send, 0);
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MSG_WriteLong(&send, BigLong(chan->reliable_sequence));
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if (i > MAX_NQDATAGRAM)
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i = MAX_NQDATAGRAM;
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SZ_Write (&send, chan->reliable_buf+chan->reliable_start, i);
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if (chan->reliable_start+i == chan->reliable_length)
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*(int*)send_buf = BigLong(NETFLAG_DATA | NETFLAG_EOM | send.cursize);
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else
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*(int*)send_buf = BigLong(NETFLAG_DATA | send.cursize);
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NET_SendPacket (chan->sock, send.cursize, send.data, chan->remote_address);
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if (chan->cleartime < realtime)
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chan->cleartime = realtime + send.cursize/(float)rate;
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else
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chan->cleartime += send.cursize/(float)rate;
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}
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return;
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}
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#endif
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// check for message overflow
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if (chan->message.overflowed)
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{
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chan->fatal_error = true;
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Con_TPrintf (TL_OUTMESSAGEOVERFLOW
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, NET_AdrToString (chan->remote_address));
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return;
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}
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// if the remote side dropped the last reliable message, resend it
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send_reliable = false;
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if (chan->incoming_acknowledged > chan->last_reliable_sequence
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&& chan->incoming_reliable_acknowledged != chan->reliable_sequence)
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send_reliable = true;
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// if the reliable transmit buffer is empty, copy the current message out
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if (!chan->reliable_length && chan->message.cursize)
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{
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memcpy (chan->reliable_buf, chan->message_buf, chan->message.cursize);
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chan->reliable_length = chan->message.cursize;
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chan->message.cursize = 0;
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chan->reliable_sequence ^= 1;
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send_reliable = true;
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}
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// write the packet header
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send.data = send_buf;
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send.maxsize = MAX_QWMSGLEN + PACKET_HEADER; //dmw: wasn't quite true.
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send.cursize = 0;
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w1 = chan->outgoing_sequence | (send_reliable<<31);
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w2 = chan->incoming_sequence | (chan->incoming_reliable_sequence<<31);
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chan->outgoing_sequence++;
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MSG_WriteLong (&send, w1);
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MSG_WriteLong (&send, w2);
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// send the qport if we are a client
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#ifndef SERVERONLY
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if (chan->sock == NS_CLIENT)
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MSG_WriteShort (&send, cls.qport);
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#endif
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// copy the reliable message to the packet first
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if (send_reliable)
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{
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SZ_Write (&send, chan->reliable_buf, chan->reliable_length);
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chan->last_reliable_sequence = chan->outgoing_sequence;
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}
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// add the unreliable part if space is available
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if (send.maxsize - send.cursize >= length)
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SZ_Write (&send, data, length);
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// send the datagram
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i = chan->outgoing_sequence & (MAX_LATENT-1);
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chan->outgoing_size[i] = send.cursize;
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chan->outgoing_time[i] = realtime;
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#ifdef HUFFNETWORK
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if (chan->compress)
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{
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int oldsize = send.cursize;
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Huff_CompressPacket(&send, (chan->sock == NS_CLIENT)?10:8);
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// Con_Printf("%i becomes %i\n", oldsize, send.cursize);
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// Huff_DecompressPacket(&send, (chan->sock == NS_CLIENT)?10:8);
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}
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#endif
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//zoid, no input in demo playback mode
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#ifndef SERVERONLY
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if (!cls.demoplayback)
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#endif
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{
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NET_SendPacket (chan->sock, send.cursize, send.data, chan->remote_address);
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}
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if (chan->cleartime < realtime)
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chan->cleartime = realtime + send.cursize/(float)rate;
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else
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chan->cleartime += send.cursize/(float)rate;
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#ifdef SERVERONLY
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if (ServerPaused())
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chan->cleartime = realtime;
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#endif
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if (showpackets.value)
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Con_Printf ("--> s=%i(%i) a=%i(%i) %i\n"
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, chan->outgoing_sequence
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, send_reliable
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, chan->incoming_sequence
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, chan->incoming_reliable_sequence
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, send.cursize);
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}
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/*
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=================
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Netchan_Process
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called when the current net_message is from remote_address
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modifies net_message so that it points to the packet payload
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=================
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*/
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qboolean Netchan_Process (netchan_t *chan)
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{
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unsigned sequence, sequence_ack;
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unsigned reliable_ack, reliable_message;
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#ifndef CLIENTONLY
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int qport;
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#endif
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if (
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#ifndef SERVERONLY
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!cls.demoplayback &&
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#endif
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!NET_CompareAdr (net_from, chan->remote_address))
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return false;
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// get sequence numbers
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MSG_BeginReading ();
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sequence = MSG_ReadLong ();
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sequence_ack = MSG_ReadLong ();
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// read the qport if we are a server
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#ifndef CLIENTONLY
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if (chan->sock == NS_SERVER)
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qport = MSG_ReadShort ();
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#endif
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reliable_message = sequence >> 31;
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reliable_ack = sequence_ack >> 31;
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sequence &= ~(1<<31);
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sequence_ack &= ~(1<<31);
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if (showpackets.value)
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Con_Printf ("<-- s=%i(%i) a=%i(%i) %i\n"
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, sequence
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, reliable_message
|
|
, sequence_ack
|
|
, reliable_ack
|
|
, net_message.cursize);
|
|
|
|
// get a rate estimation
|
|
#if 0
|
|
if (chan->outgoing_sequence - sequence_ack < MAX_LATENT)
|
|
{
|
|
int i;
|
|
double time, rate;
|
|
|
|
i = sequence_ack & (MAX_LATENT - 1);
|
|
time = realtime - chan->outgoing_time[i];
|
|
time -= 0.1; // subtract 100 ms
|
|
if (time <= 0)
|
|
{ // gotta be a digital link for <100 ms ping
|
|
if (chan->rate > 1.0/5000)
|
|
chan->rate = 1.0/5000;
|
|
}
|
|
else
|
|
{
|
|
if (chan->outgoing_size[i] < 512)
|
|
{ // only deal with small messages
|
|
rate = chan->outgoing_size[i]/time;
|
|
if (rate > 5000)
|
|
rate = 5000;
|
|
rate = 1.0/rate;
|
|
if (chan->rate > rate)
|
|
chan->rate = rate;
|
|
}
|
|
}
|
|
}
|
|
#endif
|
|
|
|
//
|
|
// discard stale or duplicated packets
|
|
//
|
|
if (sequence <= (unsigned)chan->incoming_sequence)
|
|
{
|
|
if (showdrop.value)
|
|
Con_TPrintf (TL_OUTOFORDERPACKET
|
|
, NET_AdrToString (chan->remote_address)
|
|
, sequence
|
|
, chan->incoming_sequence);
|
|
return false;
|
|
}
|
|
|
|
//
|
|
// dropped packets don't keep the message from being used
|
|
//
|
|
net_drop = sequence - (chan->incoming_sequence+1);
|
|
if (net_drop > 0)
|
|
{
|
|
chan->drop_count += 1;
|
|
|
|
if (showdrop.value)
|
|
Con_TPrintf (TL_DROPPEDPACKETCOUNT
|
|
, NET_AdrToString (chan->remote_address)
|
|
, sequence-(chan->incoming_sequence+1)
|
|
, sequence);
|
|
}
|
|
|
|
//
|
|
// if the current outgoing reliable message has been acknowledged
|
|
// clear the buffer to make way for the next
|
|
//
|
|
if (reliable_ack == (unsigned)chan->reliable_sequence)
|
|
chan->reliable_length = 0; // it has been received
|
|
|
|
//
|
|
// if this message contains a reliable message, bump incoming_reliable_sequence
|
|
//
|
|
chan->incoming_sequence = sequence;
|
|
chan->incoming_acknowledged = sequence_ack;
|
|
chan->incoming_reliable_acknowledged = reliable_ack;
|
|
if (reliable_message)
|
|
chan->incoming_reliable_sequence ^= 1;
|
|
|
|
//
|
|
// the message can now be read from the current message pointer
|
|
// update statistics counters
|
|
//
|
|
chan->frame_latency = chan->frame_latency*OLD_AVG
|
|
+ (chan->outgoing_sequence-sequence_ack)*(1.0-OLD_AVG);
|
|
chan->frame_rate = chan->frame_rate*OLD_AVG
|
|
+ (realtime-chan->last_received)*(1.0-OLD_AVG);
|
|
chan->good_count += 1;
|
|
|
|
chan->last_received = realtime;
|
|
|
|
#ifdef HUFFNETWORK
|
|
if (chan->compress)
|
|
{
|
|
// Huff_CompressPacket(&net_message, (chan->sock == NS_SERVER)?10:8);
|
|
Huff_DecompressPacket(&net_message, (chan->sock == NS_SERVER)?10:8);
|
|
}
|
|
#endif
|
|
|
|
return true;
|
|
}
|
|
|