/* (c) Magnus Auvinen. See licence.txt in the root of the distribution for more information. */
/* If you are missing that file, acquire a complete release at teeworlds.com. */
#ifndef ENGINE_SHARED_NETWORK_H
#define ENGINE_SHARED_NETWORK_H
#include "ringbuffer.h"
#include "huffman.h"
#include
#include
/*
CURRENT:
packet header: 3 bytes
unsigned char flags_ack; // 6bit flags, 2bit ack
0.6: ORNCaaAA
0.6.5: ORNCTUAA
0.7: --NORCAA
unsigned char ack; // 8 bit ack
unsigned char num_chunks; // 8 bit chunks
(unsigned char padding[3]) // 24 bit extra in case it's a connection less packet
// this is to make sure that it's compatible with the
// old protocol
chunk header: 2-3 bytes
unsigned char flags_size; // 2bit flags, 6 bit size
unsigned char size_seq; // 4bit size, 4bit seq
(unsigned char seq;) // 8bit seq, if vital flag is set
*/
enum
{
NETFLAG_ALLOWSTATELESS=1,
NETSENDFLAG_VITAL=1,
NETSENDFLAG_CONNLESS=2,
NETSENDFLAG_FLUSH=4,
NETSENDFLAG_EXTENDED=8,
NETSTATE_OFFLINE=0,
NETSTATE_CONNECTING,
NETSTATE_ONLINE,
NETBANTYPE_SOFT=1,
NETBANTYPE_DROP=2
};
enum
{
NET_VERSION = 2,
NET_MAX_PACKETSIZE = 1400,
NET_MAX_PAYLOAD = NET_MAX_PACKETSIZE-6,
NET_MAX_CHUNKHEADERSIZE = 5,
NET_PACKETHEADERSIZE = 3,
NET_MAX_CLIENTS = 64,
NET_MAX_CONSOLE_CLIENTS = 4,
NET_MAX_SEQUENCE = 1<<10,
NET_SEQUENCE_MASK = NET_MAX_SEQUENCE-1,
NET_CONNSTATE_OFFLINE=0,
NET_CONNSTATE_CONNECT=1,
NET_CONNSTATE_PENDING=2,
NET_CONNSTATE_ONLINE=3,
NET_CONNSTATE_ERROR=4,
NET_PACKETFLAG_UNUSED=1<<0,
NET_PACKETFLAG_TOKEN=1<<1,
NET_PACKETFLAG_CONTROL=1<<2,
NET_PACKETFLAG_CONNLESS=1<<3,
NET_PACKETFLAG_RESEND=1<<4,
NET_PACKETFLAG_COMPRESSION=1<<5,
// NOT SENT VIA THE NETWORK DIRECTLY:
NET_PACKETFLAG_EXTENDED=1<<6,
NET_CHUNKFLAG_VITAL=1,
NET_CHUNKFLAG_RESEND=2,
NET_CTRLMSG_KEEPALIVE=0,
NET_CTRLMSG_CONNECT=1,
NET_CTRLMSG_CONNECTACCEPT=2,
NET_CTRLMSG_ACCEPT=3,
NET_CTRLMSG_CLOSE=4,
NET_CONN_BUFFERSIZE=1024*32,
NET_CONNLIMIT_IPS=16,
NET_ENUM_TERMINATOR
};
typedef int SECURITY_TOKEN;
SECURITY_TOKEN ToSecurityToken(unsigned char *pData);
static const unsigned char SECURITY_TOKEN_MAGIC[] = {'T', 'K', 'E', 'N'};
enum
{
NET_SECURITY_TOKEN_UNKNOWN = -1,
NET_SECURITY_TOKEN_UNSUPPORTED = 0,
};
typedef int (*NETFUNC_DELCLIENT)(int ClientID, const char *pReason, void *pUser);
typedef int (*NETFUNC_NEWCLIENT)(int ClientID, void *pUser);
typedef int (*NETFUNC_NEWCLIENT_NOAUTH)(int ClientID, void *pUser);
typedef int (*NETFUNC_CLIENTREJOIN)(int ClientID, void *pUser);
struct CNetChunk
{
// -1 means that it's a stateless packet
// 0 on the client means the server
int m_ClientID;
NETADDR m_Address; // only used when client_id == -1
int m_Flags;
int m_DataSize;
const void *m_pData;
// only used if the flags contain NETSENDFLAG_EXTENDED and NETSENDFLAG_CONNLESS
unsigned char m_aExtraData[4];
};
class CNetChunkHeader
{
public:
int m_Flags;
int m_Size;
int m_Sequence;
unsigned char *Pack(unsigned char *pData);
unsigned char *Unpack(unsigned char *pData);
};
class CNetChunkResend
{
public:
int m_Flags;
int m_DataSize;
unsigned char *m_pData;
int m_Sequence;
int64 m_LastSendTime;
int64 m_FirstSendTime;
};
class CNetPacketConstruct
{
public:
int m_Flags;
int m_Ack;
int m_NumChunks;
int m_DataSize;
unsigned char m_aChunkData[NET_MAX_PAYLOAD];
unsigned char m_aExtraData[4];
};
class CNetConnection
{
// TODO: is this needed because this needs to be aware of
// the ack sequencing number and is also responible for updating
// that. this should be fixed.
friend class CNetRecvUnpacker;
private:
unsigned short m_Sequence;
unsigned short m_Ack;
unsigned short m_PeerAck;
unsigned m_State;
int m_Token;
SECURITY_TOKEN m_SecurityToken;
int m_RemoteClosed;
bool m_BlockCloseMsg;
bool m_UnknownSeq;
TStaticRingBuffer m_Buffer;
int64 m_LastUpdateTime;
int64 m_LastRecvTime;
int64 m_LastSendTime;
char m_ErrorString[256];
CNetPacketConstruct m_Construct;
NETADDR m_PeerAddr;
NETSOCKET m_Socket;
NETSTATS m_Stats;
//
void ResetStats();
void SetError(const char *pString);
void AckChunks(int Ack);
int QueueChunkEx(int Flags, int DataSize, const void *pData, int Sequence);
void SendControl(int ControlMsg, const void *pExtra, int ExtraSize);
void ResendChunk(CNetChunkResend *pResend);
void Resend();
bool HasSecurityToken;
public:
bool m_TimeoutProtected;
bool m_TimeoutSituation;
void Reset(bool Rejoin=false);
void Init(NETSOCKET Socket, bool BlockCloseMsg);
int Connect(NETADDR *pAddr);
void Disconnect(const char *pReason);
int Update();
int Flush();
int Feed(CNetPacketConstruct *pPacket, NETADDR *pAddr, SECURITY_TOKEN SecurityToken = NET_SECURITY_TOKEN_UNSUPPORTED);
int QueueChunk(int Flags, int DataSize, const void *pData);
const char *ErrorString();
void SignalResend();
int State() const { return m_State; }
const NETADDR *PeerAddress() const { return &m_PeerAddr; }
void ResetErrorString() { m_ErrorString[0] = 0; }
const char *ErrorString() const { return m_ErrorString; }
// Needed for GotProblems in NetClient
int64 LastRecvTime() const { return m_LastRecvTime; }
int64 ConnectTime() const { return m_LastUpdateTime; }
int AckSequence() const { return m_Ack; }
int SeqSequence() const { return m_Sequence; }
int SecurityToken() const { return m_SecurityToken; }
TStaticRingBuffer *ResendBuffer() { return &m_Buffer; };
void SetTimedOut(const NETADDR *pAddr, int Sequence, int Ack, SECURITY_TOKEN SecurityToken, TStaticRingBuffer *pResendBuffer);
// anti spoof
void DirectInit(NETADDR &Addr, SECURITY_TOKEN SecurityToken);
void SetUnknownSeq() { m_UnknownSeq = true; }
void SetSequence(int Sequence) { m_Sequence = Sequence; }
};
class CConsoleNetConnection
{
private:
int m_State;
NETADDR m_PeerAddr;
NETSOCKET m_Socket;
char m_aBuffer[NET_MAX_PACKETSIZE];
int m_BufferOffset;
char m_aErrorString[256];
bool m_LineEndingDetected;
char m_aLineEnding[3];
public:
void Init(NETSOCKET Socket, const NETADDR *pAddr);
void Disconnect(const char *pReason);
int State() const { return m_State; }
const NETADDR *PeerAddress() const { return &m_PeerAddr; }
const char *ErrorString() const { return m_aErrorString; }
void Reset();
int Update();
int Send(const char *pLine);
int Recv(char *pLine, int MaxLength);
};
class CNetRecvUnpacker
{
public:
bool m_Valid;
NETADDR m_Addr;
CNetConnection *m_pConnection;
int m_CurrentChunk;
int m_ClientID;
CNetPacketConstruct m_Data;
unsigned char m_aBuffer[NET_MAX_PACKETSIZE];
CNetRecvUnpacker() { Clear(); }
void Clear();
void Start(const NETADDR *pAddr, CNetConnection *pConnection, int ClientID);
int FetchChunk(CNetChunk *pChunk);
};
// server side
class CNetServer
{
struct CSlot
{
public:
CNetConnection m_Connection;
};
struct CSpamConn
{
NETADDR m_Addr;
int64 m_Time;
int m_Conns;
};
NETSOCKET m_Socket;
MMSGS m_MMSGS;
class CNetBan *m_pNetBan;
CSlot m_aSlots[NET_MAX_CLIENTS];
int m_MaxClients;
int m_MaxClientsPerIP;
NETFUNC_NEWCLIENT m_pfnNewClient;
NETFUNC_NEWCLIENT_NOAUTH m_pfnNewClientNoAuth;
NETFUNC_DELCLIENT m_pfnDelClient;
NETFUNC_CLIENTREJOIN m_pfnClientRejoin;
void *m_UserPtr;
int m_NumConAttempts; // log flooding attacks
int64 m_TimeNumConAttempts;
unsigned char m_SecurityTokenSeed[16];
// vanilla connect flood detection
int64 m_VConnFirst;
int m_VConnNum;
CSpamConn m_aSpamConns[NET_CONNLIMIT_IPS];
CNetRecvUnpacker m_RecvUnpacker;
void OnTokenCtrlMsg(NETADDR &Addr, int ControlMsg, const CNetPacketConstruct &Packet);
void OnPreConnMsg(NETADDR &Addr, CNetPacketConstruct &Packet);
void OnConnCtrlMsg(NETADDR &Addr, int ClientID, int ControlMsg, const CNetPacketConstruct &Packet);
bool ClientExists(const NETADDR &Addr) { return GetClientSlot(Addr) != -1; };
int GetClientSlot(const NETADDR &Addr);
void SendControl(NETADDR &Addr, int ControlMsg, const void *pExtra, int ExtraSize, SECURITY_TOKEN SecurityToken);
int TryAcceptClient(NETADDR &Addr, SECURITY_TOKEN SecurityToken, bool VanillaAuth=false);
int NumClientsWithAddr(NETADDR Addr);
bool Connlimit(NETADDR Addr);
void SendMsgs(NETADDR &Addr, const CMsgPacker *Msgs[], int num);
public:
int SetCallbacks(NETFUNC_NEWCLIENT pfnNewClient, NETFUNC_DELCLIENT pfnDelClient, void *pUser);
int SetCallbacks(NETFUNC_NEWCLIENT pfnNewClient, NETFUNC_NEWCLIENT_NOAUTH pfnNewClientNoAuth, NETFUNC_CLIENTREJOIN pfnClientRejoin, NETFUNC_DELCLIENT pfnDelClient, void *pUser);
//
bool Open(NETADDR BindAddr, class CNetBan *pNetBan, int MaxClients, int MaxClientsPerIP, int Flags);
int Close();
//
int Recv(CNetChunk *pChunk);
int Send(CNetChunk *pChunk);
int Update();
//
int Drop(int ClientID, const char *pReason);
// status requests
const NETADDR *ClientAddr(int ClientID) const { return m_aSlots[ClientID].m_Connection.PeerAddress(); }
bool HasSecurityToken(int ClientID) const { return m_aSlots[ClientID].m_Connection.SecurityToken() != NET_SECURITY_TOKEN_UNSUPPORTED; }
NETSOCKET Socket() const { return m_Socket; }
class CNetBan *NetBan() const { return m_pNetBan; }
int NetType() const { return m_Socket.type; }
int MaxClients() const { return m_MaxClients; }
//
void SetMaxClientsPerIP(int Max);
bool SetTimedOut(int ClientID, int OrigID);
void SetTimeoutProtected(int ClientID);
int ResetErrorString(int ClientID);
const char *ErrorString(int ClientID);
// anti spoof
SECURITY_TOKEN GetToken(const NETADDR &Addr);
// vanilla token/gametick shouldn't be negative
SECURITY_TOKEN GetVanillaToken(const NETADDR &Addr) { return absolute(GetToken(Addr)); }
};
class CNetConsole
{
struct CSlot
{
CConsoleNetConnection m_Connection;
};
NETSOCKET m_Socket;
class CNetBan *m_pNetBan;
CSlot m_aSlots[NET_MAX_CONSOLE_CLIENTS];
NETFUNC_NEWCLIENT m_pfnNewClient;
NETFUNC_DELCLIENT m_pfnDelClient;
void *m_UserPtr;
CNetRecvUnpacker m_RecvUnpacker;
public:
void SetCallbacks(NETFUNC_NEWCLIENT pfnNewClient, NETFUNC_DELCLIENT pfnDelClient, void *pUser);
//
bool Open(NETADDR BindAddr, class CNetBan *pNetBan, int Flags);
int Close();
//
int Recv(char *pLine, int MaxLength, int *pClientID = 0);
int Send(int ClientID, const char *pLine);
int Update();
//
int AcceptClient(NETSOCKET Socket, const NETADDR *pAddr);
int Drop(int ClientID, const char *pReason);
// status requests
const NETADDR *ClientAddr(int ClientID) const { return m_aSlots[ClientID].m_Connection.PeerAddress(); }
class CNetBan *NetBan() const { return m_pNetBan; }
};
// client side
class CNetClient
{
CNetConnection m_Connection;
CNetRecvUnpacker m_RecvUnpacker;
public:
NETSOCKET m_Socket;
MMSGS m_MMSGS;
// openness
bool Open(NETADDR BindAddr, int Flags);
int Close();
// connection state
int Disconnect(const char *Reason);
int Connect(NETADDR *Addr);
// communication
int Recv(CNetChunk *Chunk);
int Send(CNetChunk *Chunk);
// pumping
int Update();
int Flush();
int ResetErrorString();
// error and state
int NetType() const { return m_Socket.type; }
int State();
int GotProblems();
const char *ErrorString();
bool SecurityTokenUnknown() { return m_Connection.SecurityToken() == NET_SECURITY_TOKEN_UNKNOWN; }
};
// TODO: both, fix these. This feels like a junk class for stuff that doesn't fit anywere
class CNetBase
{
static IOHANDLE ms_DataLogSent;
static IOHANDLE ms_DataLogRecv;
static CHuffman ms_Huffman;
public:
static void OpenLog(IOHANDLE DataLogSent, IOHANDLE DataLogRecv);
static void CloseLog();
static void Init();
static int Compress(const void *pData, int DataSize, void *pOutput, int OutputSize);
static int Decompress(const void *pData, int DataSize, void *pOutput, int OutputSize);
static void SendControlMsg(NETSOCKET Socket, NETADDR *pAddr, int Ack, int ControlMsg, const void *pExtra, int ExtraSize, SECURITY_TOKEN SecurityToken);
static void SendPacketConnless(NETSOCKET Socket, NETADDR *pAddr, const void *pData, int DataSize, bool Extended, unsigned char aExtra[4]);
static void SendPacket(NETSOCKET Socket, NETADDR *pAddr, CNetPacketConstruct *pPacket, SECURITY_TOKEN SecurityToken);
static int UnpackPacket(unsigned char *pBuffer, int Size, CNetPacketConstruct *pPacket);
// The backroom is ack-NET_MAX_SEQUENCE/2. Used for knowing if we acked a packet or not
static int IsSeqInBackroom(int Seq, int Ack);
};
#endif