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engine/fteqtv/forward.c

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/*
Copyright (C) 1996-1997 Id Software, Inc.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the included (GNU.txt) GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
/*
This is the file responsible for handling incoming tcp connections.
This includes mvd recording.
Password checks and stuff are implemented here. This i server side stuff.
*/
#include "qtv.h"
#include "time.h"
#undef IN
#define IN(x) buffer[(x)&(MAX_PROXY_BUFFER-1)]
void CheckMVDConsistancy(unsigned char *buffer, int pos, int size)
{
/*
int length;
int msec, type;
while(pos < size)
{
msec = IN(pos++);
type = IN(pos++);
if (type == dem_set)
{
pos+=8;
continue;
}
if (type == dem_multiple)
pos+=4;
length = (IN(pos+0)<<0) + (IN(pos+1)<<8) + (IN(pos+2)<<16) + (IN(pos+3)<<24);
pos+=4;
if (length > MAX_MSGLEN)
printf("too big (%i)\n", length);
pos += length;
}
if (pos != size)
printf("pos != size\n");
*/
}
void SV_FindProxies(SOCKET sock, cluster_t *cluster, sv_t *defaultqtv)
{
unsigned long nonblocking = true;
oproxy_t *prox;
if (sock == INVALID_SOCKET)
return;
sock = accept(sock, NULL, NULL);
if (sock == INVALID_SOCKET)
return;
if (ioctlsocket (sock, FIONBIO, &nonblocking) == -1)
{
Sys_Printf(cluster, "failed to set client socket to nonblocking. dropping.\n");
closesocket(sock); //failed...
return;
}
if (cluster->maxproxies >= 0 && cluster->numproxies >= cluster->maxproxies)
{
const char buffer[] = {dem_all, 1, 'P','r','o','x','y',' ','i','s',' ','f','u','l','l','.'};
send(sock, buffer, sizeof(buffer), 0);
closesocket(sock);
return;
}
prox = malloc(sizeof(*prox));
if (!prox)
{//out of mem?
closesocket(sock);
return;
}
memset(prox, 0, sizeof(*prox));
prox->sock = sock;
prox->file = NULL;
cluster->numproxies++;
prox->droptime = cluster->curtime + 5*1000;
#if 1
prox->defaultstream = defaultqtv;
prox->next = cluster->pendingproxies;
cluster->pendingproxies = prox;
#else
prox->next = qtv->pendingproxies;
qtv->pendingproxies = prox;
Net_SendConnectionMVD(qtv, prox);
#endif
}
void Fwd_ParseCommands(cluster_t *cluster, oproxy_t *prox)
{
netmsg_t buf;
int packetlength;
int bytes;
bytes = NET_WebSocketRecv(prox->sock, &prox->websocket, prox->inbuffer+prox->inbuffersize, sizeof(prox->inbuffer)-prox->inbuffersize, NULL);
if (bytes < 0)
{
if (qerrno != NET_EWOULDBLOCK && qerrno != NET_EAGAIN) //not a problem, so long as we can flush it later.
{
Sys_Printf(cluster, "network error from client proxy\n");
prox->drop = true; //drop them if we get any errors
return;
}
bytes = 0;
}
else if (bytes == 0)
{
prox->drop = true;
return;
}
prox->inbuffersize += bytes;
for(;;)
{
if (prox->inbuffersize < 2) //we do need at least 3 bytes for anything useful
break;
packetlength = prox->inbuffer[0] + (prox->inbuffer[1]<<8);
packetlength -= 2; //qqshka's inconsistent-upstream-sizes stupidity.
if (packetlength+2 > prox->inbuffersize)
break;
InitNetMsg(&buf, prox->inbuffer+2, packetlength);
buf.cursize = packetlength;
while(buf.readpos < buf.cursize)
{
switch (ReadByte(&buf))
{
case qtv_clc_stringcmd:
{
char stringbuf[1024];
ReadString(&buf, stringbuf, sizeof(stringbuf));
QTV_Printf(prox->stream, "ds: %s\n", stringbuf);
}
break;
default:
Sys_Printf(cluster, "Received unrecognized packet type from downstream proxy.\n");
buf.readpos = buf.cursize;
break;
}
}
packetlength+=2;
memmove(prox->inbuffer, prox->inbuffer+packetlength, prox->inbuffersize - packetlength);
prox->inbuffersize -= packetlength;
}
}
void Net_TryFlushProxyBuffer(cluster_t *cluster, oproxy_t *prox)
{
unsigned char *buffer;
int length;
int bufpos;
// if (prox->drop)
// return;
while (prox->bufferpos >= MAX_PROXY_BUFFER)
{ //so we never get any issues with wrapping..
prox->bufferpos -= MAX_PROXY_BUFFER;
prox->buffersize -= MAX_PROXY_BUFFER;
}
bufpos = prox->bufferpos&(MAX_PROXY_BUFFER-1);
length = prox->buffersize - prox->bufferpos;
if (length > MAX_PROXY_BUFFER-bufpos) //cap the length correctly.
length = MAX_PROXY_BUFFER-bufpos;
if (!length)
return; //already flushed.
buffer = prox->buffer + bufpos;
// CheckMVDConsistancy(prox->buffer, prox->bufferpos, prox->buffersize);
if (bufpos+length > MAX_PROXY_BUFFER)
Sys_Printf(cluster, "oversize flush\n");
if (prox->file)
length = fwrite(buffer, 1, length, prox->file);
else
length = send(prox->sock, buffer, length, 0);
switch (length)
{
case 0: //eof / they disconnected
prox->drop = true;
prox->flushing = false;
break;
case -1:
if (qerrno != NET_EWOULDBLOCK && qerrno != NET_EAGAIN) //not a problem, so long as we can flush it later.
{
Sys_Printf(cluster, "network error from client proxy\n");
prox->drop = true; //drop them if we get any errors
prox->flushing = false;
}
break;
default:
prox->bufferpos += length;
}
}
void Net_ProxySendString(cluster_t *cluster, oproxy_t *prox, void *buffer)
{
Net_ProxySend(cluster, prox, buffer, strlen(buffer));
}
void Net_ProxySend(cluster_t *cluster, oproxy_t *prox, void *buffer, int length)
{
int wrap;
if (!length)
return;
if (prox->websocket.websocket)
{
unsigned int c;
int enclen = 0;
int datatype = 2; //1=utf-8, 2=binary
/*work out how much buffer space we'll need*/
if (datatype == 2)
enclen += length;
else
{
for (c = 0; c < length; c++)
{
if (((unsigned char*)buffer)[c] == 0 || ((unsigned char*)buffer)[c] >= 0x80)
enclen += 2;
else
enclen += 1;
}
}
if (prox->buffersize-prox->bufferpos + (enclen+4) > MAX_PROXY_BUFFER)
{
Net_TryFlushProxyBuffer(cluster, prox); //try flushing
if (prox->buffersize-prox->bufferpos + (enclen+4) > MAX_PROXY_BUFFER) //damn, still too big.
{ //they're too slow. hopefully it was just momentary lag
if (!prox->flushing)
{
printf("QTV client is too lagged\n");
prox->flushing = true;
}
return;
}
}
if (enclen >= 126)
{
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = 0x80|datatype;
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = 126;
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = enclen>>8;
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = enclen;
}
else
{
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = 0x80|datatype;
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = enclen;
}
if (datatype == 2)
{
for(; length-->0; buffer = (char*)buffer+1)
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = *(unsigned char*)buffer;
}
else
{ //utf-8 (or really just bytes with upper bits truncated. sue me.
while(length-->0)
{
c = *(unsigned char*)buffer;
buffer = (char*)buffer+1;
if (!c)
c |= 0x100; /*will get truncated at the other end*/
if (c >= 0x80)
{
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = 0xc0 | (c>>6);
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = 0x80 | (c & 0x3f);
}
else
prox->buffer[prox->buffersize++&(MAX_PROXY_BUFFER-1)] = c;
}
}
Net_TryFlushProxyBuffer(cluster, prox); //try flushing in a desperate attempt to reduce bugs in google chrome.
return;
}
if (prox->buffersize-prox->bufferpos + length > MAX_PROXY_BUFFER)
{
Net_TryFlushProxyBuffer(cluster, prox); //try flushing
if (prox->buffersize-prox->bufferpos + length > MAX_PROXY_BUFFER) //damn, still too big.
{ //they're too slow. hopefully it was just momentary lag
if (!prox->flushing)
{
printf("QTV client is too lagged\n");
prox->flushing = true;
}
return;
}
}
#if 1
//just simple
prox->buffersize+=length;
for (wrap = prox->buffersize-length; wrap < prox->buffersize; wrap++)
{
prox->buffer[wrap&(MAX_PROXY_BUFFER-1)] = *(unsigned char*)buffer;
buffer = (char*)buffer+1;
}
#else
//we don't do multiple wrappings, the above check cannot succeed if it were required.
//find the wrap point
wrap = prox->buffersize-(prox->buffersize&(MAX_PROXY_BUFFER-1)) + MAX_PROXY_BUFFER;
wrap = wrap - (prox->buffersize&(MAX_PROXY_BUFFER-1)); //the ammount of data we can fit before wrapping.
if (wrap > length)
{ //we don't wrap afterall
memcpy(prox->buffer+(prox->buffersize)&(MAX_PROXY_BUFFER-1), buffer, length);
prox->buffersize+=length;
return;
}
memcpy(prox->buffer+prox->buffersize&(MAX_PROXY_BUFFER-1), buffer, wrap);
buffer += wrap;
length -= wrap;
memcpy(prox->buffer, buffer, length);
prox->buffersize+=length;
#endif
}
void Prox_SendMessage(cluster_t *cluster, oproxy_t *prox, char *buf, int length, int dem_type, unsigned int playermask)
{
netmsg_t msg;
char tbuf[16];
InitNetMsg(&msg, tbuf, sizeof(tbuf));
WriteByte(&msg, 0);
WriteByte(&msg, dem_type);
WriteLong(&msg, length);
if (dem_type == dem_multiple)
WriteLong(&msg, playermask);
if (prox->buffersize-prox->bufferpos + length + msg.cursize > MAX_PROXY_BUFFER)
{
Net_TryFlushProxyBuffer(cluster, prox); //try flushing
if (prox->buffersize-prox->bufferpos + length + msg.cursize > MAX_PROXY_BUFFER) //damn, still too big.
{ //they're too slow. hopefully it was just momentary lag
prox->flushing = true;
return;
}
}
Net_ProxySend(cluster, prox, msg.data, msg.cursize);
Net_ProxySend(cluster, prox, buf, length);
}
void Fwd_SendDownstream(sv_t *qtv, void *buffer, int length)
{ //broadcasts data to all client proxies, with dont-buffer
oproxy_t *prox;
for (prox = qtv->proxies; prox; prox = prox->next)
{
Prox_SendMessage(qtv->cluster, prox, buffer, length, dem_qtvdata, (unsigned int)-1);
}
}
void Fwd_SayToDownstream(sv_t *qtv, char *message)
{
netmsg_t msg;
char buffer[1024];
InitNetMsg(&msg, buffer, sizeof(buffer));
WriteByte(&msg, svc_print);
WriteByte(&msg, PRINT_CHAT);
WriteString2(&msg, "[QTV]");
WriteString(&msg, message);
Fwd_SendDownstream(qtv, msg.data, msg.cursize);
}
void Prox_SendPlayerStats(sv_t *qtv, oproxy_t *prox)
{
char buffer[MAX_MSGLEN];
netmsg_t msg;
int player, snum;
InitNetMsg(&msg, buffer, sizeof(buffer));
for (player = 0; player < MAX_CLIENTS; player++)
{
for (snum = 0; snum < MAX_STATS; snum++)
{
if (qtv->map.players[player].stats[snum])
{
if ((unsigned)qtv->map.players[player].stats[snum] > 255)
{
WriteByte(&msg, svc_updatestatlong);
WriteByte(&msg, snum);
WriteLong(&msg, qtv->map.players[player].stats[snum]);
}
else
{
WriteByte(&msg, svc_updatestat);
WriteByte(&msg, snum);
WriteByte(&msg, qtv->map.players[player].stats[snum]);
}
}
}
if (msg.cursize)
{
// Prox_SendMessage(prox, msg.data, msg.cursize, dem_stats|(player<<3), (1<<player));
msg.cursize = 0;
}
}
}
void Prox_SendInitialPlayers(sv_t *qtv, oproxy_t *prox, netmsg_t *msg)
{
int i, j, flags;
char buffer[64];
for (i = 0; i < MAX_CLIENTS; i++)
{
if (!qtv->map.players[i].active) // interesting, is this set to false if player disconnect from server?
continue;
flags = (DF_ORIGIN << 0) | (DF_ORIGIN << 1) | (DF_ORIGIN << 2)
| (DF_ANGLES << 0) | (DF_ANGLES << 1) | (DF_ANGLES << 2) // angles is something what changed frequently, so may be not send it?
| DF_EFFECTS
| DF_SKINNUM // though it rare thingie, so better send it?
| (qtv->map.players[i].dead ? DF_DEAD : 0)
| (qtv->map.players[i].gibbed ? DF_GIB : 0)
| DF_WEAPONFRAME // do we so really need it?
| DF_MODEL; // generally, that why we wrote this function, so YES send this
if (*qtv->map.players[i].userinfo && atoi(Info_ValueForKey(qtv->map.players[i].userinfo, "*spectator", buffer, sizeof(buffer))))
flags = DF_MODEL; // oh, that spec, just sent his model, may be even better ignore him?
WriteByte (msg, svc_playerinfo);
WriteByte (msg, i);
WriteShort (msg, flags);
WriteByte (msg, qtv->map.players[i].current.frame); // always sent
for (j = 0 ; j < 3 ; j++)
if (flags & (DF_ORIGIN << j))
WriteCoord (msg, qtv->map.players[i].current.origin[j], qtv->pext1);
for (j = 0 ; j < 3 ; j++)
if (flags & (DF_ANGLES << j))
WriteShort (msg, qtv->map.players[i].current.angles[j]);
if (flags & DF_MODEL) // generally, that why we wrote this function, so YES send this
WriteByte (msg, qtv->map.players[i].current.modelindex);
if (flags & DF_SKINNUM)
WriteByte (msg, qtv->map.players[i].current.skinnum);
if (flags & DF_EFFECTS)
WriteByte (msg, qtv->map.players[i].current.effects);
if (flags & DF_WEAPONFRAME)
WriteByte (msg, qtv->map.players[i].current.weaponframe);
}
}
void Net_GreetingMessage(oproxy_t *prox)
{
char buffer[1024];
netmsg_t msg;
InitNetMsg(&msg, buffer, sizeof(buffer));
WriteByte(&msg, svc_print);
WriteByte(&msg, PRINT_HIGH);
WriteString2(&msg, "Welcome to ");
WriteString2(&msg, prox->stream->cluster->hostname);
WriteString(&msg, "\n");
Prox_SendMessage(prox->stream->cluster, prox, msg.data, msg.cursize, dem_qtvdata, (unsigned)-1);
}
void Net_SendConnectionMVD(sv_t *qtv, oproxy_t *prox)
{
char buffer[MAX_MSGLEN*8];
netmsg_t msg;
int prespawn;
//only send connection data if there's actual data to be sent
//if not, the other end will get the data when we receive it anyway.
if (!*qtv->map.mapname)
return;
InitNetMsg(&msg, buffer, sizeof(buffer));
prox->flushing = false;
BuildServerData(qtv, &msg, 0, NULL);
Prox_SendMessage(qtv->cluster, prox, msg.data, msg.cursize, dem_read, (unsigned)-1);
msg.cursize = 0;
for (prespawn = 0;prespawn >= 0;)
{
prespawn = SendList(qtv, prespawn, qtv->map.soundlist, svc_soundlist, &msg);
Prox_SendMessage(qtv->cluster, prox, msg.data, msg.cursize, dem_read, (unsigned)-1);
msg.cursize = 0;
}
for (prespawn = 0;prespawn >= 0;)
{
prespawn = SendList(qtv, prespawn, qtv->map.modellist, svc_modellist, &msg);
Prox_SendMessage(qtv->cluster, prox, msg.data, msg.cursize, dem_read, (unsigned)-1);
msg.cursize = 0;
}
Net_TryFlushProxyBuffer(qtv->cluster, prox); //that should be enough data to fill a packet.
for(prespawn = 0;prespawn>=0;)
{
prespawn = Prespawn(qtv, 0, &msg, prespawn, MAX_CLIENTS-1);
Prox_SendMessage(qtv->cluster, prox, msg.data, msg.cursize, dem_read, (unsigned)-1);
msg.cursize = 0;
}
//playerstates are delta-compressed, unfortunatly this isn't qwd (thanks to qqshka for showing my folly)
Prox_SendInitialPlayers(qtv, prox, &msg);
Prox_SendMessage(qtv->cluster, prox, msg.data, msg.cursize, dem_read, (unsigned)-1);
msg.cursize = 0;
//we do need to send entity states.
Prox_SendInitialEnts(qtv, prox, &msg);
Prox_SendMessage(qtv->cluster, prox, msg.data, msg.cursize, dem_read, (unsigned)-1);
msg.cursize = 0;
WriteByte(&msg, svc_stufftext);
WriteString(&msg, "skins\n");
Prox_SendMessage(qtv->cluster, prox, msg.data, msg.cursize, dem_read, (unsigned)-1);
msg.cursize = 0;
Net_TryFlushProxyBuffer(qtv->cluster, prox);
Prox_SendPlayerStats(qtv, prox);
Net_TryFlushProxyBuffer(qtv->cluster, prox);
if (!qtv->cluster->lateforward)
Net_ProxySend(qtv->cluster, prox, qtv->buffer, qtv->forwardpoint); //send all the info we've not yet processed (but have already forwarded).
if (prox->flushing)
{
Sys_Printf(qtv->cluster, "Connection data is too big, dropping proxy client\n");
prox->drop = true; //this is unfortunate...
}
else
Net_TryFlushProxyBuffer(qtv->cluster, prox);
}
oproxy_t *Net_FileProxy(sv_t *qtv, char *filename)
{
oproxy_t *prox;
FILE *f;
f = fopen(filename, "wb");
if (!f)
return NULL;
//no full proxy check, this is going to be used by proxy admins, who won't want to have to raise the limit to start recording.
prox = malloc(sizeof(*prox));
if (!prox)
return NULL;
memset(prox, 0, sizeof(*prox));
prox->sock = INVALID_SOCKET;
prox->file = f;
prox->next = qtv->proxies;
qtv->proxies = prox;
qtv->cluster->numproxies++;
Net_SendConnectionMVD(qtv, prox);
return prox;
}
qboolean Net_StopFileProxy(sv_t *qtv)
{
oproxy_t *prox;
for (prox = qtv->proxies; prox; prox = prox->next)
{
if (prox->file)
{
prox->drop = true;
return true;
}
}
return false;
}
void SV_ForwardStream(sv_t *qtv, void *buffer, int length)
{ //forward the stream on to connected clients
oproxy_t *prox, *next, *fre;
CheckMVDConsistancy(buffer, 0, length);
while (qtv->proxies && qtv->proxies->drop)
{
next = qtv->proxies->next;
fre = qtv->proxies;
if (fre->file)
fclose(fre->file);
else
closesocket(fre->sock);
free(fre);
qtv->cluster->numproxies--;
qtv->proxies = next;
}
for (prox = qtv->proxies; prox; prox = prox->next)
{
while (prox->next && prox->next->drop)
{
next = prox->next->next;
fre = prox->next;
if (fre->file)
fclose(fre->file);
else
closesocket(fre->sock);
if (fre->srcfile)
fclose(fre->srcfile);
free(fre);
qtv->cluster->numproxies--;
prox->next = next;
}
if (prox->flushing) //don't send it if we're trying to empty thier buffer.
{
if (prox->buffersize == prox->bufferpos)
{
if (!qtv->parsingconnectiondata)
Net_SendConnectionMVD(qtv, prox); //they're up to date, resend the connection info.
}
else
{
Net_TryFlushProxyBuffer(qtv->cluster, prox); //try and flush it.
continue;
}
}
if (prox->drop)
continue;
//add the new data
Net_ProxySend(qtv->cluster, prox, buffer, length);
Net_TryFlushProxyBuffer(qtv->cluster, prox);
// Net_TryFlushProxyBuffer(qtv->cluster, prox);
// Net_TryFlushProxyBuffer(qtv->cluster, prox);
#ifndef _MSC_VER
#warning This is not the place for this
#endif
if (prox->sock != INVALID_SOCKET)
{
Fwd_ParseCommands(qtv->cluster, prox);
}
}
}
/*wrapper around recv to handle websocket connections*/
int NET_WebSocketRecv(SOCKET sock, wsrbuf_t *ws, unsigned char *out, unsigned int outlen, int *clen)
{
unsigned int mask = 0;
unsigned int paylen;
int len, i;
if (clen)
*clen = -1;
if (!ws->websocket)
return recv(sock, out, outlen, 0);
if (!ws->wsbuflen)
{
len = recv(sock, ws->wsbuf, 2, 0);
if (len > 0)
ws->wsbuflen+=2;
else
return len;
}
if (ws->wsbuflen >= 2)
{
unsigned short ctrl = (ws->wsbuf[0]<<8) | ws->wsbuf[1];
len = 2;
if ((ctrl & 0x7f) == 127)
len += 8;
else if ((ctrl & 0x7f) == 126)
len += 2;
if (ctrl & 0x80)
len += 4;
if (ws->wsbuflen < len)
{
paylen = recv(sock, ws->wsbuf+ws->wsbuflen, len - ws->wsbuflen, 0);
if (paylen > 0)
ws->wsbuflen += paylen;
else
return paylen;
}
/*headers are complete*/
if (ws->wsbuflen >= len)
{
if ((ctrl & 0x7f) == 127)
{
// paylen = paylen = ((ws->wsbuf[2]<<56) | (ws->wsbuf[3]<<48) | (ws->wsbuf[4]<<40) | (ws->wsbuf[5]<<32) | (ws->wsbuf[6]<<24) | (ws->wsbuf[7]<<16) | (ws->wsbuf[8]<<8) | (ws->wsbuf[9]<<0);
// if (paylen < 65536)
return 0; //error
}
else if ((ctrl & 0x7f) == 126)
{
paylen = (ws->wsbuf[2]<<8) | ws->wsbuf[3];
if (paylen < 126)
return 0; //error
}
else
paylen = ctrl & 0x7f;
if (ctrl & 0x80)
{
((unsigned char*)&mask)[0] = ws->wsbuf[ws->wsbuflen-4];
((unsigned char*)&mask)[1] = ws->wsbuf[ws->wsbuflen-3];
((unsigned char*)&mask)[2] = ws->wsbuf[ws->wsbuflen-2];
((unsigned char*)&mask)[3] = ws->wsbuf[ws->wsbuflen-1];
}
if (!(ctrl & 0x8000))
return 0; //can't handle fragmented frames
switch((ctrl>>8) & 0xf)
{
case 1: /*text frame*/
len = 0;
while (outlen>len && ws->wspushed < paylen)
{
unsigned char n;
ctrl = recv(sock, &n, 1, 0); //FIXME: not my fastest code...
if (ctrl <= 0)
return len>0?len:ctrl;
n ^= ((unsigned char*)&mask)[(ws->wspushed++)&3];
if (ws->wsbits)
{
*out++ = ((ws->wsbits&0x1f)<<6) | (n & 0x3f);
len++;
ws->wsbits = 0;
}
else if ((n & 0xe0) == 0xc0)
{
ws->wsbits = n;
}
else if (n & 0x80)
return 0; //error
else
{
*out++ = n;
len++;
}
}
if (ws->wspushed == paylen)
{
if (ws->wsbits)
return 0; //error
if (clen)
*clen = ws->wspushed;
ws->wspushed = 0;
ws->wsbuflen = 0;
}
return len;
case 2: /*binary frame*/
if (outlen > paylen - ws->wspushed)
outlen = paylen - ws->wspushed;
len = recv(sock, out, outlen, 0);
if (len > 0)
{
for(i = 0; i < len; i++)
out[i] ^= ((unsigned char*)&mask)[(ws->wspushed+i)&3];
ws->wspushed += len;
}
if (paylen == ws->wspushed)
{
/*success! move on to the next*/
if (clen)
*clen = ws->wspushed;
ws->wspushed = 0;
ws->wsbuflen = 0;
}
return len;
case 8: /*close*/
case 9: /*ping*/
case 10: /*pong*/
default:
return 0; //unsupported
}
return 0;
}
return 0;
}
else
return 0;
}
//returns true if the pending proxy should be unlinked
//truth does not imply that it should be freed/released, just unlinked.
qboolean SV_ReadPendingProxy(cluster_t *cluster, oproxy_t *pend)
{
//drop: ignored if flushing is still set. clear flushing and set drop on errors.
char tempbuf[512];
unsigned char *s;
unsigned char *e;
char *colon;
float clientversion = 0;
int len;
qboolean eoh;
int headersize;
qboolean raw;
sv_t *qtv;
if (pend->drop && !pend->flushing)
{
printf("pending drop\n");
if (pend->srcfile)
fclose(pend->srcfile);
if (pend->sock != INVALID_SOCKET)
closesocket(pend->sock);
free(pend);
cluster->numproxies--;
return true;
}
#define QTVSVHEADER "QTVSV 1.1\n"
Net_TryFlushProxyBuffer(cluster, pend);
if (pend->flushing)
{
if (pend->srcfile)
{
#if 0
//bufferend = transmit point
//buffersize = write point
if (bufferend < buffersize)
space = (MAX_PROXY_BUFFER - pend->buffersize) + pend->bufferend;
else
space = pend->bufferend - pend->buffersize;
if (space < 256) /*don't bother reading if we're dribbling*/
return false;
if (space > 0) /*never fully saturate so as to not confuse the ring*/
space--;
if (space > MAX_PROXY_BUFFER -
fread(prox->buffer + pend->buffersize, 1, space, pend->srcfile);
#else
if (pend->bufferpos == pend->buffersize)
{
char buffer[MAX_PROXY_BUFFER/2];
pend->droptime = cluster->curtime + 5*1000;
len = fread(buffer, 1, sizeof(buffer), pend->srcfile);
if (!len)
{
fclose(pend->srcfile);
pend->srcfile = NULL;
}
Net_ProxySend(cluster, pend, buffer, len);
}
#endif
return false; //don't try reading anything yet
}
if (pend->bufferpos != pend->buffersize)
return false;
pend->flushing = false;
if (pend->drop)
return false;
}
if (pend->droptime < cluster->curtime)
{
printf("pending timeout\n");
pend->drop = true;
pend->flushing = false;
return false;
}
len = sizeof(pend->inbuffer) - pend->inbuffersize - 1;
len = NET_WebSocketRecv(pend->sock, &pend->websocket, pend->inbuffer+pend->inbuffersize, len, NULL);
if (len == 0)
{
pend->drop = true;
return false;
}
else if (len > 0)
pend->droptime = cluster->curtime + 5*1000;
if (len < 0)
{
return false;
}
pend->inbuffersize += len;
pend->inbuffer[pend->inbuffersize] = '\0';
if (pend->inbuffersize >= 4)
{
if (!strncmp(pend->inbuffer, "qizmo\n", 6))
{
wsrbuf_t ws = pend->websocket;
SOCKET sock;
//carries unreliable packets
printf("tcpconnect\n");
if (pend->srcfile)
fclose(pend->srcfile);
sock = pend->sock;
free(pend);
cluster->numproxies--;
send(sock, "qizmo\n", 6, 0);
QW_TCPConnection(cluster, sock, ws);
return true;
}
if (pend->websocket.websocket && !strncmp(pend->inbuffer, "\xff\xff\xff\xff", 4))
{
wsrbuf_t ws = pend->websocket;
SOCKET sock;
//carries unreliable packets
printf("wsconnect\n");
if (pend->srcfile)
fclose(pend->srcfile);
sock = pend->sock;
free(pend);
cluster->numproxies--;
QW_TCPConnection(cluster, sock, ws);
return true;
}
if (ustrncmp(pend->inbuffer, "QTV\r", 4) && ustrncmp(pend->inbuffer, "QTV\n", 4) && ustrncmp(pend->inbuffer, "GET ", 4) && ustrncmp(pend->inbuffer, "POST ", 5))
{ //I have no idea what the smeg you are.
pend->drop = true;
pend->inbuffer[16] = 0;
Sys_Printf(cluster, "pending proxy: Connect for unrecognized protocol %s\n", pend->inbuffer);
return false;
}
}
//make sure there's a double \n somewhere
eoh = false;
for (s = pend->inbuffer; s<=pend->inbuffer+pend->inbuffersize; s++)
{
if (s[0] == '\n' && s[1] == '\n')
{
s += 2;
eoh = true;
break;
}
if (s[0] == '\n' && s[1] == '\r' && s[2] == '\n')
{
s += 3;
eoh = true;
break;
}
}
if (!eoh)
return false; //don't have enough yet
headersize = s - pend->inbuffer;
if (!ustrncmp(pend->inbuffer, "POST ", 5))
{
HTTPSV_PostMethod(cluster, pend, (char*)s);
return false; //not keen on this..
}
else if (!ustrncmp(pend->inbuffer, "GET ", 4))
{
pend->drop = true;
HTTPSV_GetMethod(cluster, pend);
pend->flushing = true;
memmove(pend->inbuffer, pend->inbuffer+headersize, pend->inbuffersize-headersize);
pend->inbuffersize -= headersize;
return SV_ReadPendingProxy(cluster, pend);
}
raw = false;
qtv = pend->defaultstream;
e = pend->inbuffer;
s = e;
while(*e)
{
if (*e == '\n' || *e == '\r')
{
*e = '\0';
colon = strchr((char*)s, ':');
if (*s)
{
if (!colon)
{
if (!ustrcmp(s, "QTV"))
{
//just a qtv request (as in, not http or some other protocol)
}
else if (!ustrcmp(s, "SOURCELIST"))
{ //lists sources that are currently playing
Net_ProxySendString(cluster, pend, QTVSVHEADER);
if (!cluster->servers)
{
Net_ProxySendString(cluster, pend, "PERROR: No sources currently available\n");
}
else
{
for (qtv = cluster->servers; qtv; qtv = qtv->next)
{
if (clientversion > 1)
{
int plyrs = 0;
int i;
for (i = 0; i < MAX_CLIENTS; i++)
{
if (*qtv->map.players[i].userinfo)
plyrs++;
}
sprintf(tempbuf, "SRCSRV: %s\n", qtv->server);
Net_ProxySendString(cluster, pend, tempbuf);
sprintf(tempbuf, "SRCHOST: %s\n", qtv->map.hostname);
Net_ProxySendString(cluster, pend, tempbuf);
sprintf(tempbuf, "SRCPLYRS: %i\n", plyrs);
Net_ProxySendString(cluster, pend, tempbuf);
sprintf(tempbuf, "SRCVIEWS: %i\n", qtv->numviewers);
Net_ProxySendString(cluster, pend, tempbuf);
sprintf(tempbuf, "SRCID: %i\n", qtv->streamid); //final part of each source
Net_ProxySendString(cluster, pend, tempbuf);
}
else
{
sprintf(tempbuf, "ASOURCE: %i: %15s: %15s\n", qtv->streamid, qtv->server, qtv->map.hostname);
Net_ProxySendString(cluster, pend, tempbuf);
}
}
qtv = NULL;
}
Net_ProxySendString(cluster, pend, "\n");
pend->flushing = true;
}
else if (!ustrcmp(s, "REVERSE"))
{ //this is actually a server trying to connect to us
//start up a new stream
if (cluster->reverseallowed)
{
qtv = QTV_NewServerConnection(cluster, 0, "reverse"/*server*/, "", true, AD_REVERSECONNECT, false, 0);
Net_ProxySendString(cluster, pend, QTVSVHEADER);
Net_ProxySendString(cluster, pend, "VERSION: 1\n");
Net_ProxySendString(cluster, pend, "REVERSED\n");
Net_ProxySendString(cluster, pend, "\n");
//switch over the socket to the actual source connection rather than the pending
Net_TryFlushProxyBuffer(cluster, pend); //flush anything... this isn't ideal, but should be small enough
qtv->sourcesock = pend->sock;
pend->sock = INVALID_SOCKET;
memcpy(qtv->buffer, pend->inbuffer + headersize, pend->inbuffersize - headersize);
qtv->parsingqtvheader = true;
return false;
}
else
{
Net_ProxySendString(cluster, pend, QTVSVHEADER
"PERROR: Reverse connections are disabled on this proxy\n");
pend->flushing = true;
}
}
else if (!ustrcmp(s, "RECEIVE"))
{ //a client connection request without a source
if (cluster->numservers == 1)
{ //only one stream anyway
qtv = cluster->servers;
}
else
{ //try and hunt down an explicit stream (rather than a user-recorded one)
int numfound = 0;
sv_t *suitable = NULL; //shush noisy compilers
for (qtv = cluster->servers; qtv; qtv = qtv->next)
{
if (qtv->autodisconnect == AD_NO)
{
suitable = qtv;
numfound++;
}
}
if (numfound == 1)
qtv = suitable;
}
if (!qtv)
{
Net_ProxySendString(cluster, pend, QTVSVHEADER);
Net_ProxySendString(cluster, pend, "PERROR: Multiple streams are currently playing\n");
Net_ProxySendString(cluster, pend, "\n");
pend->flushing = true;
}
}
else if (!ustrcmp(s, "DEMOLIST"))
{ //lists sources that are currently playing
int i;
Cluster_BuildAvailableDemoList(cluster);
Net_ProxySendString(cluster, pend, QTVSVHEADER);
if (!cluster->availdemoscount)
{
Net_ProxySendString(cluster, pend, "PERROR: No demos currently available\n");
}
else
{
for (i = 0; i < cluster->availdemoscount; i++)
{
sprintf(tempbuf, "ADEMO: %i: %15s\n", cluster->availdemos[i].size, cluster->availdemos[i].name);
Net_ProxySendString(cluster, pend, tempbuf);
}
qtv = NULL;
}
Net_ProxySendString(cluster, pend, "\n");
pend->flushing = true;
}
else if (!ustrcmp(s, "AUTH"))
{ //lists the demos available on this proxy
//part of the connection process, can be ignored if there's no password
}
else
printf("Unrecognized token in QTV connection request (%s)\n", s);
}
else
{
*colon++ = '\0';
if (!ustrcmp(s, "VERSION"))
{
clientversion = atof(colon);
}
else if (!ustrcmp(s, "RAW"))
raw = atoi(colon);
/*else if (!ustrcmp(s, "ROUTE"))
{ //pure rewroute...
//is this safe? probably not.
s = QTVSVHEADER
"PERROR: ROUTE command not yet implemented\n"
"\n";
Net_ProxySend(cluster, pend, s, ustrlen(s));
pend->flushing = true;
}
*/
else if (!ustrcmp(s, "SOURCE"))
{ //connects, creating a new source
char *t;
while (*colon == ' ')
colon++;
for (t = colon; *t; t++)
if (*t < '0' || *t > '9')
break;
if (*t)
qtv = QTV_NewServerConnection(cluster, 0, colon, "", false, AD_WHENEMPTY, true, false);
else
{
//numerical source, use a stream id.
for (qtv = cluster->servers; qtv; qtv = qtv->next)
if (qtv->streamid == atoi(colon))
break;
}
}
else if (!ustrcmp(s, "DEMO"))
{ //starts a demo off the server... source does the same thing though...
char buf[256];
snprintf(buf, sizeof(buf), "demo:%s", colon);
qtv = QTV_NewServerConnection(cluster, 0, buf, "", false, AD_WHENEMPTY, true, false);
if (!qtv)
{
Net_ProxySendString(cluster, pend, QTVSVHEADER
"PERROR: couldn't open demo\n"
"\n");
pend->flushing = true;
}
}
else if (!ustrcmp(s, "AUTH"))
{ //lists the demos available on this proxy
//part of the connection process, can be ignored if there's no password
}
else
printf("Unrecognized token in QTV connection request (%s)\n", s);
}
}
s = e+1;
}
e++;
}
if (!pend->flushing)
{
if (clientversion < 1)
{
Net_ProxySendString(cluster, pend, QTVSVHEADER
"PERROR: Requested protocol version not supported\n"
"\n");
pend->flushing = true;
}
else if (!qtv)
{
Net_ProxySendString(cluster, pend, QTVSVHEADER
"PERROR: No stream selected\n"
"\n");
pend->flushing = true;
}
}
if (pend->flushing)
return false;
if (qtv->usequakeworldprotocols)
{
Net_ProxySendString(cluster, pend, QTVSVHEADER
"PERROR: This version of QTV is unable to convert QuakeWorld to QTV protocols\n"
"\n");
pend->flushing = true;
return false;
}
if (cluster->maxproxies>=0 && cluster->numproxies >= cluster->maxproxies)
{
Net_ProxySendString(cluster, pend, QTVSVHEADER
"TERROR: This QTV has reached it's connection limit\n"
"\n");
pend->flushing = true;
return false;
}
pend->next = qtv->proxies;
qtv->proxies = pend;
if (!raw)
{
Net_ProxySendString(cluster, pend, QTVSVHEADER);
Net_ProxySendString(cluster, pend, "BEGIN: ");
Net_ProxySendString(cluster, pend, qtv->server);
Net_ProxySendString(cluster, pend, "\n\n");
}
// else if (passwordprotected) //raw mode doesn't support passwords, so reject them
// {
// pend->flushing = true;
// return;
// }
pend->stream = qtv;
memmove(pend->inbuffer, pend->inbuffer+headersize, pend->inbuffersize-headersize);
pend->inbuffersize -= headersize;
Net_GreetingMessage(pend);
Net_SendConnectionMVD(qtv, pend);
return true;
}
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