void Bot::sendChecking()
{
string tmp=mybuddylist.head->buddyJID;
JID buddyjid(tmp);
Message checkmsg(Message::Chat,buddyjid,"C");
client->send(checkmsg);
BuddyNode* p=mybuddylist.head;
while (p->next)
{
p=p->next;
tmp=p->buddyJID;
JID buddyjid(tmp);
Message checkmsg(Message::Chat,buddyjid,"C");
client->send(checkmsg);
}
}
void update(void)
{ checkmsg();
vd_update();
// checkmsg();
// if (audioworks) audio_update();
framesdrawn++;
}
bool initnetwork(word port)
{ if (netinitialized)
{ msg("Networking Error","An attempt was made to initialize the networking module more than once");
}
int fromlen=sizeof(testfrom);
#ifdef PLATFORM_win32
if (WSAStartup(0x202,&wsaData))
{ reportNetError();
WSACleanup();
return false;
}
#endif
netinitialized = true;
serverok = inittestserver(port);
clientok = inittestclient(port);
if (!clientok) serverok = false;
if (clientok && serverok)
{ // Receive initial test packet
char buf[10];
long retval = WSAEWOULDBLOCK;
dword timeouttime = globalTimer + currentTimerHz * 2;
while (retval==WSAEWOULDBLOCK && globalTimer<timeouttime)
{ checkmsg();
retval = recvfrom(testserversocket,buf,10,0,(struct sockaddr *)&testfrom,&fromlen);
if (retval == SOCKET_ERROR || retval == 0 || txtcmp(buf,"test")!=0)
{ serverok = false;
closesocket(testserversocket);
}
}
if (globalTimer>=timeouttime)
{ serverok = false;
closesocket(testserversocket);
}
}
if (serverok) closesocket(testserversocket);
if (clientok) closesocket(testclientsocket);
return true;
}
netclient::netclient(bool reliable,char *requeststring,char *host,word port,dword bandwidth,void (*_receiver)(netclient *client,byte packettype,byte *data,long size))
{ reliable = false;
if (!clientok)
{ connectionerror = net_tcpipna;
return;
}
receiver = _receiver;
netclientoem *oem = (netclientoem *)fcalloc(sizeof(netclientoem),"Network Client Connection");
oemdata = oem;
if (reliable) oem->socket_type = SOCK_STREAM; // TCP
else oem->socket_type = SOCK_DGRAM; // UDP
// Attempt to detect if we should call gethostbyname() or gethostbyaddr()
if (isalpha(host[0]))
{ // server address is a name
oem->host = gethostbyname(host);
} else
{ // Convert nnn.nnn address to a usable one
dword addr = inet_addr(host);
oem->host = gethostbyaddr((char *)&addr,4,AF_INET);
}
if (oem->host == NULL )
{ //con->add("Client: Cannot resolve address [%s]: Error %d\n",host,WSAGetLastError());
connectionerror = net_cantresolveaddr;
return;
}
oem->conn_socket = socket(AF_INET,oem->socket_type,0); // Open a socket
if (oem->conn_socket <0 )
{ //con->add("Client: Error Opening socket: Error %d\n",WSAGetLastError());
connectionerror = net_opensocketerror;
return;
}
u_long argp = 1;
if (ioctlsocket(oem->conn_socket,FIONBIO,&argp))
{ connectionerror = net_ioctlfailed;
closesocket(oem->conn_socket);
return;
}
//
// Notice that nothing in this code is specific to whether we
// are using UDP or TCP.
// We achieve this by using a simple trick.
// When connect() is called on a datagram socket, it does not
// actually establish the connection as a stream (TCP) socket
// would. Instead, TCP/IP establishes the remote half of the
// ( LocalIPAddress, LocalPort, RemoteIP, RemotePort) mapping.
// This enables us to use send() and recv() on datagram sockets,
// instead of recvfrom() and sendto()
//
// Copy the resolved information into the sockaddr_in structure
//
sockaddr_in server;
memfill(&server,0,sizeof(server));
memcpy(&server.sin_addr,oem->host->h_addr,oem->host->h_length);
server.sin_family = oem->host->h_addrtype;
server.sin_port = htons(port); // Port Number
//dword ip = *(dword *)oem->host->h_addr;
//con->add("server IP = %i.%i.%i.%i, Port %i",(ip)&0xff,(ip>>8)&0xff,(ip>>16)&0xff,(ip>>24)&0xff,port);
long retval = WSAEWOULDBLOCK;
while (retval==WSAEWOULDBLOCK)
{ checkmsg();
retval = connect(oem->conn_socket,(struct sockaddr*)&server,sizeof(server));
if (retval == SOCKET_ERROR)
{ connectionerror = net_connectfailed;
closesocket(oem->conn_socket);
return;
}
}
// Send initial request for a connection
char *constring = buildstr("%s%8x",requeststring,bandwidth);
retval = WSAEWOULDBLOCK;
while (retval==WSAEWOULDBLOCK)
{ checkmsg();
//con->add("Send '%s' on Socket %i",requeststring,oem->conn_socket);
// retval = send(oem->conn_socket,requeststring,txtlen(requeststring)+1,0);
retval = send(oem->conn_socket,constring,txtlen(constring)+1,0);
if (retval == SOCKET_ERROR)
{ connectionerror = net_hostlogin;
closesocket(oem->conn_socket);
return;
}
}
retval = WSAEWOULDBLOCK;
dword timeouttime = globalTimer + currentTimerHz * 2;
while ((globalTimer<timeouttime) && (retval == WSAEWOULDBLOCK))
{ checkmsg();
retval = recv(oem->conn_socket,(char *)&oem->Buffer[0],sizeof(oem->Buffer),0 );
if (retval == SOCKET_ERROR)
{ retval = WSAEWOULDBLOCK;
//connectionerror = net_hostresponse;
//closesocket(oem->conn_socket);
//return;
}
if (retval == 0)
{ retval = WSAEWOULDBLOCK;
}
}
if (globalTimer>=timeouttime)
{ connectionerror = net_timeout;
closesocket(oem->conn_socket);
return;
}
//con->add("Server says: %s\n",Buffer);
long ofs = 0;
char sep;
char *token;
token = gettoken((char *)oem->Buffer,&ofs,&sep);
connectionerror = net_invalidresponse;
if (txtcmp(token,"ServerFull")==0) connectionerror = net_serverfull;
if (txtcmp(token,"ConnectionFailed")==0) connectionerror = net_servererror;
if (txtcmp(token,"ConnectionGranted")==0)
{ port = (word)getuinttoken((char *)oem->Buffer,&ofs,&sep);
oem->refnum = port;
connectionerror = 0;
return;
}
// con->add("%s",oem->Buffer);
// con->add("Token = '%s', buffer = %s, length = %i",""/*token*/,oem->Buffer,retval);
// con->add("Expected ConnectionGranted");
closesocket(oem->conn_socket); // ERROR ONLY! This line is not executed during normal execution
}
