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290 lines
9.5 KiB
290 lines
9.5 KiB
/* |
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netchan.h - net channel abstraction layer |
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Copyright (C) 2007 Uncle Mike |
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This program is free software: you can redistribute it and/or modify |
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it under the terms of the GNU General Public License as published by |
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the Free Software Foundation, either version 3 of the License, or |
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(at your option) any later version. |
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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. See the |
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GNU General Public License for more details. |
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*/ |
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#ifndef NET_MSG_H |
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#define NET_MSG_H |
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/* |
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========================================================== |
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ELEMENTS COMMUNICATED ACROSS THE NET |
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========================================================== |
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*/ |
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#include "crtlib.h" |
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#include "net_buffer.h" |
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// 0 == regular, 1 == file stream |
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#define MAX_STREAMS 2 |
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// flow control bytes per second limits |
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#define MAX_RATE 100000.0f |
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#define MIN_RATE 1000.0f |
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// default data rate |
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#define DEFAULT_RATE (9999.0f) |
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// NETWORKING INFO |
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// This is the packet payload without any header bytes (which are attached for actual sending) |
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#define NET_MAX_PAYLOAD MAX_INIT_MSG |
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// Theoretically maximum size of UDP-packet without header and hardware-specific data |
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#define NET_MAX_FRAGMENT 65536 |
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// because encoded as highpart of uint32 |
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#define NET_MAX_BUFFER_ID 32767 |
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// because encoded as lowpart of uint32 |
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#define NET_MAX_BUFFERS_COUNT 32767 |
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// This is the payload plus any header info (excluding UDP header) |
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// Packet header is: |
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// 4 bytes of outgoing seq |
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// 4 bytes of incoming seq |
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// and for each stream |
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// { |
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// byte (on/off) |
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// int (fragment id) |
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// int (startpos) |
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// int (length) |
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// } |
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#define HEADER_BYTES ( 8 + MAX_STREAMS * 13 ) |
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// Pad this to next higher 16 byte boundary |
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// This is the largest packet that can come in/out over the wire, before processing the header |
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// bytes will be stripped by the networking channel layer |
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#define NET_MAX_MESSAGE PAD_NUMBER(( NET_MAX_PAYLOAD + HEADER_BYTES ), 16 ) |
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#define MASTERSERVER_ADR "ms.xash.su:27010" |
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#define MASTERSERVER_ADR2 "ms2.xash.su:27010" |
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#define MS_SCAN_REQUEST "1\xFF" "0.0.0.0:0\0" |
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#define PORT_MASTER 27010 |
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#define PORT_CLIENT 27005 |
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#define PORT_SERVER 27015 |
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#define MULTIPLAYER_BACKUP 64 // how many data slots to use when in multiplayer (must be power of 2) |
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#define SINGLEPLAYER_BACKUP 16 // same for single player |
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#define CMD_BACKUP 64 // allow a lot of command backups for very fast systems |
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#define CMD_MASK (CMD_BACKUP - 1) |
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#define NUM_PACKET_ENTITIES 256 // 170 Mb for multiplayer with 32 players |
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#define MAX_CUSTOM_BASELINES 64 |
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#define NET_EXT_SPLIT (1U<<1) |
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#define NETSPLIT_BACKUP 8 |
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#define NETSPLIT_BACKUP_MASK (NETSPLIT_BACKUP - 1) |
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#define NETSPLIT_HEADER_SIZE 18 |
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typedef struct netsplit_chain_packet_s |
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{ |
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// bool vector |
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unsigned int recieved_v[8]; |
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// serial number |
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unsigned int id; |
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byte data[NET_MAX_PAYLOAD]; |
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byte received; |
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byte count; |
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} netsplit_chain_packet_t; |
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// raw packet format |
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typedef struct netsplit_packet_s |
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{ |
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unsigned int signature; // 0xFFFFFFFE |
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unsigned int length; |
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unsigned int part; |
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unsigned int id; |
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// max 256 parts |
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byte count; |
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byte index; |
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byte data[NET_MAX_PAYLOAD - NETSPLIT_HEADER_SIZE]; |
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} netsplit_packet_t; |
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typedef struct netsplit_s |
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{ |
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netsplit_chain_packet_t packets[NETSPLIT_BACKUP]; |
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integer64 total_received; |
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integer64 total_received_uncompressed; |
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} netsplit_t; |
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// packet splitting |
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qboolean NetSplit_GetLong( netsplit_t *ns, netadr_t *from, byte *data, size_t *length ); |
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/* |
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============================================================== |
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NET |
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============================================================== |
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*/ |
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#define MAX_FLOWS 2 |
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#define FLOW_OUTGOING 0 |
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#define FLOW_INCOMING 1 |
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#define MAX_LATENT 32 |
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#define MASK_LATENT ( MAX_LATENT - 1 ) |
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#define FRAG_NORMAL_STREAM 0 |
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#define FRAG_FILE_STREAM 1 |
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// message data |
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typedef struct |
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{ |
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int size; // size of message sent/received |
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double time; // time that message was sent/received |
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} flowstats_t; |
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typedef struct |
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{ |
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flowstats_t stats[MAX_LATENT]; // data for last MAX_LATENT messages |
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int current; // current message position |
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double nextcompute; // time when we should recompute k/sec data |
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float kbytespersec; // average data |
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float avgkbytespersec; |
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int totalbytes; |
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} flow_t; |
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// generic fragment structure |
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typedef struct fragbuf_s |
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{ |
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struct fragbuf_s *next; // next buffer in chain |
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int bufferid; // id of this buffer |
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sizebuf_t frag_message; // message buffer where raw data is stored |
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byte frag_message_buf[NET_MAX_FRAGMENT]; // the actual data sits here |
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qboolean isfile; // is this a file buffer? |
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qboolean isbuffer; // is this file buffer from memory ( custom decal, etc. ). |
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qboolean iscompressed; // is compressed file, we should using filename.ztmp |
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char filename[MAX_OSPATH]; // name of the file to save out on remote host |
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int foffset; // offset in file from which to read data |
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int size; // size of data to read at that offset |
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} fragbuf_t; |
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// Waiting list of fragbuf chains |
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typedef struct fbufqueue_s |
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{ |
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struct fbufqueue_s *next; // next chain in waiting list |
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int fragbufcount; // number of buffers in this chain |
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fragbuf_t *fragbufs; // the actual buffers |
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} fragbufwaiting_t; |
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typedef enum fragsize_e |
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{ |
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FRAGSIZE_FRAG, |
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FRAGSIZE_SPLIT, |
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FRAGSIZE_UNRELIABLE |
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} fragsize_t; |
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// Network Connection Channel |
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typedef struct netchan_s |
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{ |
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netsrc_t sock; // NS_SERVER or NS_CLIENT, depending on channel. |
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netadr_t remote_address; // address this channel is talking to. |
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int qport; // qport value to write when transmitting |
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double last_received; // for timeouts |
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double connect_time; // Usage: host.realtime - netchan.connect_time |
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double rate; // bandwidth choke. bytes per second |
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double cleartime; // if realtime > cleartime, free to send next packet |
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// Sequencing variables |
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int incoming_sequence; // increasing count of sequence numbers |
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int incoming_acknowledged; // # of last outgoing message that has been ack'd. |
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int incoming_reliable_acknowledged; // toggles T/F as reliable messages are received. |
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int incoming_reliable_sequence; // single bit, maintained local |
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int outgoing_sequence; // message we are sending to remote |
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int reliable_sequence; // whether the message contains reliable payload, single bit |
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int last_reliable_sequence; // outgoing sequence number of last send that had reliable data |
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// callback to get actual framgment size |
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void *client; |
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int (*pfnBlockSize)( void *cl, fragsize_t mode ); |
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// staging and holding areas |
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sizebuf_t message; |
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byte message_buf[NET_MAX_MESSAGE]; |
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// reliable message buffer. |
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// we keep adding to it until reliable is acknowledged. Then we clear it. |
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int reliable_length; |
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byte reliable_buf[NET_MAX_MESSAGE]; // unacked reliable message (max size for loopback connection) |
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// Waiting list of buffered fragments to go onto queue. |
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// Multiple outgoing buffers can be queued in succession |
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fragbufwaiting_t *waitlist[MAX_STREAMS]; |
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int reliable_fragment[MAX_STREAMS]; // is reliable waiting buf a fragment? |
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uint reliable_fragid[MAX_STREAMS]; // buffer id for each waiting fragment |
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fragbuf_t *fragbufs[MAX_STREAMS]; // the current fragment being set |
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int fragbufcount[MAX_STREAMS]; // the total number of fragments in this stream |
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int frag_startpos[MAX_STREAMS]; // position in outgoing buffer where frag data starts |
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int frag_length[MAX_STREAMS]; // length of frag data in the buffer |
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fragbuf_t *incomingbufs[MAX_STREAMS]; // incoming fragments are stored here |
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qboolean incomingready[MAX_STREAMS]; // set to true when incoming data is ready |
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// Only referenced by the FRAG_FILE_STREAM component |
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char incomingfilename[MAX_OSPATH]; // Name of file being downloaded |
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void *tempbuffer; // download file buffer |
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int tempbuffersize; // current size |
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// incoming and outgoing flow metrics |
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flow_t flow[MAX_FLOWS]; |
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// added for net_speeds |
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size_t total_sended; |
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size_t total_received; |
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qboolean split; |
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unsigned int maxpacket; |
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unsigned int splitid; |
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netsplit_t netsplit; |
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} netchan_t; |
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extern netadr_t net_from; |
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extern netadr_t net_local; |
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extern sizebuf_t net_message; |
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extern byte net_message_buffer[NET_MAX_MESSAGE]; |
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extern convar_t *net_speeds; |
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extern convar_t sv_lan; |
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extern convar_t sv_lan_rate; |
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extern int net_drop; |
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void Netchan_Init( void ); |
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void Netchan_Shutdown( void ); |
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void Netchan_Setup( netsrc_t sock, netchan_t *chan, netadr_t adr, int qport, void *client, int (*pfnBlockSize)(void * ) ); |
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void Netchan_CreateFileFragmentsFromBuffer( netchan_t *chan, const char *filename, byte *pbuf, int size ); |
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qboolean Netchan_CopyNormalFragments( netchan_t *chan, sizebuf_t *msg, size_t *length ); |
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qboolean Netchan_CopyFileFragments( netchan_t *chan, sizebuf_t *msg ); |
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void Netchan_CreateFragments( netchan_t *chan, sizebuf_t *msg ); |
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int Netchan_CreateFileFragments( netchan_t *chan, const char *filename ); |
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void Netchan_Transmit( netchan_t *chan, int lengthInBytes, byte *data ); |
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void Netchan_TransmitBits( netchan_t *chan, int lengthInBits, byte *data ); |
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void Netchan_OutOfBand( int net_socket, netadr_t adr, int length, byte *data ); |
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void Netchan_OutOfBandPrint( int net_socket, netadr_t adr, char *format, ... ) _format( 3 ); |
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qboolean Netchan_Process( netchan_t *chan, sizebuf_t *msg ); |
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void Netchan_UpdateProgress( netchan_t *chan ); |
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qboolean Netchan_IncomingReady( netchan_t *chan ); |
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qboolean Netchan_CanPacket( netchan_t *chan, qboolean choke ); |
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qboolean Netchan_IsLocal( netchan_t *chan ); |
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void Netchan_ReportFlow( netchan_t *chan ); |
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void Netchan_FragSend( netchan_t *chan ); |
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void Netchan_Clear( netchan_t *chan ); |
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#endif//NET_MSG_H
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