quakeforge/qw/source/sv_nchan.c

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/*
sv_nchan.c
user reliable data stream writes
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 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:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
static __attribute__ ((unused)) const char rcsid[] =
"$Id$";
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include "QF/msg.h"
#include "server.h"
static void
PushBackbuf (client_t *cl)
{
memset (&cl->backbuf, 0, sizeof (cl->backbuf));
cl->backbuf.allowoverflow = true;
cl->backbuf.data = cl->backbuf_data[cl->num_backbuf];
cl->backbuf.maxsize = sizeof (cl->backbuf_data[cl->num_backbuf]);
cl->backbuf_size[cl->num_backbuf] = 0;
cl->num_backbuf++;
}
int
ClientReliableCheckSize (client_t *cl, int maxsize, int minsize)
{
sizebuf_t *msg = &cl->netchan.message;
if (cl->num_backbuf)
msg = &cl->backbuf;
if (maxsize <= msg->maxsize - msg->cursize - 1)
return maxsize;
if (minsize <= msg->maxsize - msg->cursize - 1)
return msg->maxsize - msg->cursize - 1;
if (cl->num_backbuf == MAX_BACK_BUFFERS)
return 0;
return cl->backbuf.maxsize;
}
// check to see if client block will fit, if not, rotate buffers
void
ClientReliableCheckBlock (client_t *cl, int maxsize)
{
sizebuf_t *msg = &cl->netchan.message;
if (cl->num_backbuf || msg->cursize > msg->maxsize - maxsize - 1) {
// we would probably overflow the buffer, save it for next
if (!cl->num_backbuf) {
PushBackbuf (cl);
}
if (cl->backbuf.cursize > cl->backbuf.maxsize - maxsize - 1) {
if (cl->num_backbuf == MAX_BACK_BUFFERS) {
SV_Printf ("WARNING: MAX_BACK_BUFFERS for %s\n", cl->name);
cl->backbuf.cursize = 0; // don't overflow without
// allowoverflow set
msg->overflowed = true; // this will drop the client
return;
}
PushBackbuf (cl);
}
}
}
// begin a client block, estimated maximum size
void
ClientReliableWrite_Begin (client_t *cl, int c, int maxsize)
{
ClientReliableCheckBlock (cl, maxsize);
ClientReliableWrite_Byte (cl, c);
}
void
ClientReliable_FinishWrite (client_t *cl)
{
if (cl->num_backbuf) {
cl->backbuf_size[cl->num_backbuf - 1] = cl->backbuf.cursize;
if (cl->backbuf.overflowed) {
SV_Printf ("WARNING: backbuf [%d] reliable overflow for %s\n",
cl->num_backbuf, cl->name);
cl->netchan.message.overflowed = true; // this will drop the
// client
}
}
}
void
ClientReliableWrite_Angle (client_t *cl, float f)
{
if (cl->num_backbuf) {
MSG_WriteAngle (&cl->backbuf, f);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteAngle (&cl->netchan.message, f);
}
void
ClientReliableWrite_Angle16 (client_t *cl, float f)
{
if (cl->num_backbuf) {
MSG_WriteAngle16 (&cl->backbuf, f);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteAngle16 (&cl->netchan.message, f);
}
void
ClientReliableWrite_Byte (client_t *cl, int c)
{
if (cl->num_backbuf) {
MSG_WriteByte (&cl->backbuf, c);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteByte (&cl->netchan.message, c);
}
void
ClientReliableWrite_Char (client_t *cl, int c)
{
if (cl->num_backbuf) {
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MSG_WriteByte (&cl->backbuf, c);
ClientReliable_FinishWrite (cl);
} else
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MSG_WriteByte (&cl->netchan.message, c);
}
void
ClientReliableWrite_Float (client_t *cl, float f)
{
if (cl->num_backbuf) {
MSG_WriteFloat (&cl->backbuf, f);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteFloat (&cl->netchan.message, f);
}
void
ClientReliableWrite_Coord (client_t *cl, float f)
{
if (cl->num_backbuf) {
MSG_WriteCoord (&cl->backbuf, f);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteCoord (&cl->netchan.message, f);
}
void
ClientReliableWrite_Long (client_t *cl, int c)
{
if (cl->num_backbuf) {
MSG_WriteLong (&cl->backbuf, c);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteLong (&cl->netchan.message, c);
}
void
ClientReliableWrite_Short (client_t *cl, int c)
{
if (cl->num_backbuf) {
MSG_WriteShort (&cl->backbuf, c);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteShort (&cl->netchan.message, c);
}
void
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ClientReliableWrite_String (client_t *cl, const char *s)
{
if (cl->num_backbuf) {
MSG_WriteString (&cl->backbuf, s);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteString (&cl->netchan.message, s);
}
void
ClientReliableWrite_SZ (client_t *cl, const void *data, int len)
{
if (cl->num_backbuf) {
SZ_Write (&cl->backbuf, data, len);
ClientReliable_FinishWrite (cl);
} else
SZ_Write (&cl->netchan.message, data, len);
}
void
ClientReliableWrite_AngleV (client_t *cl, const vec3_t v)
{
if (cl->num_backbuf) {
MSG_WriteAngleV (&cl->backbuf, v);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteAngleV (&cl->netchan.message, v);
}
void
ClientReliableWrite_CoordV (client_t *cl, const vec3_t v)
{
if (cl->num_backbuf) {
MSG_WriteCoordV (&cl->backbuf, v);
ClientReliable_FinishWrite (cl);
} else
MSG_WriteCoordV (&cl->netchan.message, v);
}