Serious-Engine/Sources/Engine/Network/NetworkMessage.h
Ryan C. Gordon 1a2ccb8f50 Merge github.com:Croteam-Official/Serious-Engine
Conflicts:
	Sources/Ecc/Parser.cpp
	Sources/Ecc/Scanner.cpp
	Sources/Engine/Base/Scanner.cpp
	Sources/Engine/GameAgent/GameAgent.cpp
	Sources/Engine/Graphics/Gfx_wrapper.h
	Sources/Engine/Network/Network.cpp
	Sources/Engine/Sound/SoundDecoder.h
	Sources/Engine/Templates/HashTableTemplate.cpp
	Sources/Engine/Terrain/Terrain.h
	Sources/EntitiesMP/ParticleCloudsHolder.es
	Sources/EntitiesMP/ParticleCloudsMarker.es
	Sources/SeriousSam/CDCheck.h
	Sources/SeriousSam/Menu.cpp
	Sources/SeriousSam/MenuGadgets.cpp
	Sources/SeriousSam/SeriousSam.cpp
	Sources/SeriousSam/SplashScreen.cpp
	Sources/SeriousSam/StdH.cpp
	Sources/SeriousSam/StdH.h
	Sources/Shaders/StdH.cpp
2016-04-02 23:56:12 -04:00

328 lines
12 KiB
C++

/* Copyright (c) 2002-2012 Croteam Ltd.
This program is free software; you can redistribute it and/or modify
it under the terms of version 2 of the GNU General Public License as published by
the Free Software Foundation
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 the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */
#ifndef SE_INCL_NETWORKMESSAGE_H
#define SE_INCL_NETWORKMESSAGE_H
#ifdef PRAGMA_ONCE
#pragma once
#endif
#include <Engine/Base/Lists.h>
#include <Engine/Math/Vector.h>
// message type
// transmitted as 6-bit value
// up to 64 values allowed
// upper 2 bits are used to indicate compression used
// ADD NEW MESSAGE TYPES TO THE END!!!
typedef enum NetworkMessageType {
// broadcast requesting server infos
MSG_REQ_ENUMSERVERS,
MSG_SERVERINFO,
MSG_KEEPALIVE, // sent when there's nothing else to send - just to keep connections valid
// disconnection explanation from server
MSG_INF_DISCONNECTED,
// info message with pings of all players
MSG_INF_PINGS,
// main session state connecting to server
MSG_REQ_CONNECTLOCALSESSIONSTATE,
MSG_REP_CONNECTLOCALSESSIONSTATE,
// remote session state connecting to server
MSG_REQ_CONNECTREMOTESESSIONSTATE,
MSG_REP_CONNECTREMOTESESSIONSTATE,
// remote session requesting current state delta from original
MSG_REQ_STATEDELTA,
MSG_REP_STATEDELTA,
// client initialing CRC check
MSG_REQ_CRCLIST,
MSG_REQ_CRCCHECK,
MSG_REP_CRCCHECK,
// player connecting to server
MSG_REQ_CONNECTPLAYER,
MSG_REP_CONNECTPLAYER,
MSG_REQ_PAUSE, // request pause/unpause game
// request character change for a player
MSG_REQ_CHARACTERCHANGE,
// action packet from client to server
MSG_ACTION,
// data to check for lost synchronization (client to server)
MSG_SYNCCHECK,
// a copy of action stored for prediction
MSG_ACTIONPREDICT,
// sequenced packets from server to session states
MSG_SEQ_ALLACTIONS, // packed actions of all players from server to clients
MSG_SEQ_ADDPLAYER, // instructions for adding a new player to session states
MSG_SEQ_REMPLAYER, // instructions for removing a new player from session states
MSG_SEQ_PAUSE, // game was paused/unpaused
MSG_SEQ_CHARACTERCHANGE, // a player has changed character
MSG_GAMESTREAMBLOCKS, // packet with one or more game stream messages
MSG_REQUESTGAMESTREAMRESEND, // request for resend of a game stream message
// chat messages
MSG_CHAT_IN, // chat request from client to server
MSG_CHAT_OUT, // chat message routed to certain clients
// parameter setting messages
MSG_SET_CLIENTSETTINGS, // adjust server side settings of a client
// remote administration
MSG_ADMIN_COMMAND, // c2s incoming console command request
MSG_ADMIN_RESPONSE, // s2c results of the console command
MSG_EXTRA = '/', // used for special communications like rcon and similar
// added to the end so that it would not mess up old numbering - that would corrupt demo playing
// disconnection confirmation from the client
MSG_REP_DISCONNECTED,
} MESSAGETYPE;
extern struct ErrorTable MessageTypes;
/*
* Holder for network message, can be read/written like a stream.
*/
class ENGINE_API CNetworkMessage {
public:
MESSAGETYPE nm_mtType; // type of this message
#define MAX_NETWORKMESSAGE_SIZE 2048 // max. length of message buffer
UBYTE *nm_pubMessage; // the message data itself
SLONG nm_slMaxSize; // size of message buffer
UBYTE *nm_pubPointer; // pointer for reading/writing message
SLONG nm_slSize; // size of message
INDEX nm_iBit; // next bit index to read/write (0 if not reading/writing bits)
public:
/* Constructor for empty message (for receiving). */
CNetworkMessage(void);
/* Constructor for initializing message that is to be sent. */
CNetworkMessage(MESSAGETYPE mtType);
/* Copying. */
CNetworkMessage(const CNetworkMessage &nmOriginal);
void operator=(const CNetworkMessage &nmOriginal);
/* Destructor. */
~CNetworkMessage(void);
// reinit a message that is to be sent (to write different contents)
void Reinit(void);
/* Ignore the contents of this message. */
void IgnoreContents(void);
// dump message to console
void Dump(void);
/* Get the type of this message. */
inline MESSAGETYPE GetType(void) const { ASSERT(this!=NULL); return MESSAGETYPE(nm_mtType&0x3F); };
/* Check if end of message. */
BOOL EndOfMessage(void);
// rewind message to start, so that written message can be read again
void Rewind(void);
/* Pack a message to another message (message type is left untouched). */
void Pack(CNetworkMessage &nmPacked, CCompressor &comp);
void PackDefault(CNetworkMessage &nmPacked);
/* Unpack a message to another message (message type is left untouched). */
void Unpack(CNetworkMessage &nmUnpacked, CCompressor &comp);
void UnpackDefault(CNetworkMessage &nmUnpacked);
// read/write functions
void Read(void *pvBuffer, SLONG slSize);
void Write(const void *pvBuffer, SLONG slSize);
void ReadBits(void *pvBuffer, INDEX ctBits);
void WriteBits(const void *pvBuffer, INDEX ctBits);
/* Read an object from message. */
inline CNetworkMessage &operator>>(float &f) { Read( &f, sizeof( f)); return *this; }
inline CNetworkMessage &operator>>(ULONG &ul) { Read(&ul, sizeof(ul)); return *this; }
inline CNetworkMessage &operator>>(UWORD &uw) { Read(&uw, sizeof(uw)); return *this; }
inline CNetworkMessage &operator>>(UBYTE &ub) { Read(&ub, sizeof(ub)); return *this; }
inline CNetworkMessage &operator>>(SLONG &sl) { Read(&sl, sizeof(sl)); return *this; }
inline CNetworkMessage &operator>>(SWORD &sw) { Read(&sw, sizeof(sw)); return *this; }
inline CNetworkMessage &operator>>(SBYTE &sb) { Read(&sb, sizeof(sb)); return *this; }
inline CNetworkMessage &operator>>(MESSAGETYPE &mt) { Read(&mt, sizeof(mt)); return *this; }
CNetworkMessage &operator>>(CTString &str);
/* Write an object into message. */
inline CNetworkMessage &operator<<(const float &f) { Write( &f, sizeof( f)); return *this; }
inline CNetworkMessage &operator<<(const double &d) { Write( &d, sizeof( d)); return *this; }
inline CNetworkMessage &operator<<(const ULONG &ul) { Write(&ul, sizeof(ul)); return *this; }
inline CNetworkMessage &operator<<(const UWORD &uw) { Write(&uw, sizeof(uw)); return *this; }
inline CNetworkMessage &operator<<(const UBYTE &ub) { Write(&ub, sizeof(ub)); return *this; }
inline CNetworkMessage &operator<<(const SLONG &sl) { Write(&sl, sizeof(sl)); return *this; }
inline CNetworkMessage &operator<<(const SWORD &sw) { Write(&sw, sizeof(sw)); return *this; }
inline CNetworkMessage &operator<<(const SBYTE &sb) { Write(&sb, sizeof(sb)); return *this; }
inline CNetworkMessage &operator<<(const MESSAGETYPE &mt) { Write(&mt, sizeof(mt)); return *this; }
CNetworkMessage &operator<<(const CTString &str);
/* Insert a sub-message into this message. */
void InsertSubMessage(const CNetworkMessage &nmSubMessage);
/* Extract a sub-message from this message. */
void ExtractSubMessage(CNetworkMessage &nmSubMessage);
// shrink message buffer to exactly fit contents
void Shrink(void);
};
/*
* A message block used for streaming data across network.
*
* These can be received duplicated or misordered. They
* are resequenced at the receive side as needed. Can be sent more than one
* together as submessages in a message and duplicated across messages as a
* compensation for eventual packet loss.
*/
class CNetworkStreamBlock : public CNetworkMessage {
public:
CListNode nsb_lnInStream; // node in list of blocks in stream
public:
INDEX nsb_iSequenceNumber; // index for sorting in list
public:
/* Constructor for receiving -- uninitialized block. */
CNetworkStreamBlock(void);
/* Constructor for sending -- empty packet with given type and sequence. */
CNetworkStreamBlock(MESSAGETYPE mtType, INDEX iSequenceNumber);
/* Read a block from a received message. */
void ReadFromMessage(CNetworkMessage &nmToRead);
/* Add a block to a message to send. */
void WriteToMessage(CNetworkMessage &nmToWrite);
/* Remove the block from stream. */
void RemoveFromStream(void);
/* Read/write the block from file stream. */
void Read_t(CTStream &strm); // throw char *
void Write_t(CTStream &strm); // throw char *
};
/*
* !!! FIXME: R_OK is used with the unix access() API...
* !!! FIXME: we're lucky...on Linux, it's a macro, but it could be an
* !!! FIXME: enum just as easily. --ryan.
*/
#ifdef R_OK
#undef R_OK
#endif
/*
* Stream of message blocks that can be sent across network.
*/
class CNetworkStream {
public:
enum Result {
R_OK = 1,
R_BLOCKMISSING, // block is missing in the stream
R_BLOCKNOTRECEIVEDYET, // block is not yet received
};
public:
CListHead ns_lhBlocks; // list of blocks of this stream (higher sequences first)
/* Add a block that is already allocated to the stream. */
void AddAllocatedBlock(CNetworkStreamBlock *pnsbBlock);
public:
/* Constructor. */
CNetworkStream(void);
/* Destructor. */
~CNetworkStream(void);
/* Clear the object (remove all blocks). */
void Clear(void);
/* Copy from another network stream. */
void Copy(CNetworkStream &nsOther);
// get number of blocks used by this object
INDEX GetUsedBlocks(void);
// get amount of memory used by this object
SLONG GetUsedMemory(void);
// get index of newest sequence stored
INDEX GetNewestSequence(void);
/* Add a block to the stream (makes a copy of block). */
void AddBlock(CNetworkStreamBlock &nsbBlock);
/* Read a block as a submessage from a message and add it to the stream. */
void ReadBlock(CNetworkMessage &nmMessage);
/* Get a block from stream by its sequence number. */
CNetworkStream::Result GetBlockBySequence(
INDEX iSequenceNumber, CNetworkStreamBlock *&pnsbBlock);
// find oldest block after given one (for batching missing sequences)
INDEX GetOldestSequenceAfter(INDEX iSequenceNumber);
/* Write given number of newest blocks to a message. */
INDEX WriteBlocksToMessage(CNetworkMessage &nmMessage, INDEX ctBlocks);
/* Remove all blocks but the given number of newest ones. */
void RemoveOlderBlocks(INDEX ctBlocksToKeep);
/* Remove all blocks with sequence older than given. */
void RemoveOlderBlocksBySequence(INDEX iLastSequenceToKeep);
};
#ifdef NETSTRUCTS_PACKED
#pragma pack(1)
#endif
class ENGINE_API CPlayerAction {
public:
// order is important for compression and normalization - do not reorder!
FLOAT3D pa_vTranslation;
ANGLE3D pa_aRotation;
ANGLE3D pa_aViewRotation;
ULONG pa_ulButtons; // 32 bits for action buttons (application defined)
// keep flags that are likely to be changed/set more often at lower bits,
// so that better compression can be achieved for network transmission
__int64 pa_llCreated; // when was created (for ping calc.) in ms
public:
CPlayerAction(void);
/* Clear the object (this sets up no actions). */
void Clear(void);
// normalize action (remove invalid floats like -0)
void Normalize(void);
// create a checksum value for sync-check
void ChecksumForSync(ULONG &ulCRC);
// dump sync data to text file
void DumpSync_t(CTStream &strm); // throw char *
void Lerp(const CPlayerAction &pa0, const CPlayerAction &pa1, FLOAT fFactor);
/* Write an object into message. */
friend CNetworkMessage &operator<<(CNetworkMessage &nm, const CPlayerAction &pa);
/* Read an object from message. */
friend CNetworkMessage &operator>>(CNetworkMessage &nm, CPlayerAction &pa);
/* Write an object into stream. */
friend CTStream &operator<<(CTStream &strm, const CPlayerAction &pa);
/* Read an object from stream. */
friend CTStream &operator>>(CTStream &strm, CPlayerAction &pa);
};
#ifdef NETSTRUCTS_PACKED
#pragma pack()
#endif
#endif /* include-once check. */