/* * Netplay.c * * Alex Lee sep97-> june98 */ // //////////////////////////////////////////////////////////////////////// // includes #include // for stats #include #include #include #include "lib/framework/frame.h" #include "netplay.h" #include "netlog.h" char* master_server = "warzone2100.kicks-ass.org"; #define MASTER_SERVER_PORT 9998 #define WARZONE_NET_PORT 9999 #define MAX_CONNECTED_PLAYERS 8 #define MAX_TMP_SOCKETS 16 #define NET_READ_TIMEOUT 0 #define NET_BUFFER_SIZE 1024 #define MSG_JOIN 90 #define MSG_ACCEPTED 91 #define MSG_PLAYER_INFO 92 #define MSG_PLAYER_DATA 93 #define MSG_PLAYER_JOINED 94 #define MSG_PLAYER_LEFT 95 #define MSG_GAME_FLAGS 96 //#define NET_DEBUG static BOOL allow_joining = FALSE; void NETallowJoining(); BOOL MultiPlayerJoin(DPID dpid); BOOL MultiPlayerLeave(DPID dpid); // //////////////////////////////////////////////////////////////////////// // Variables NETPLAY NetPlay; static GAMESTRUCT game; void NETsetMessageSize(NETMSG* pMsg, unsigned int size) { unsigned int tmp = 8 - (size % 8); if (tmp == 8) { pMsg->size = size; pMsg->paddedBytes = 0; } else { pMsg->size = size + tmp; pMsg->paddedBytes = tmp; } } // *********** Socket with buffer that read NETMSGs ****************** typedef struct { TCPsocket socket; char* buffer; unsigned int buffer_start; unsigned int bytes; } NETBUFSOCKET; NETBUFSOCKET* NET_createBufferedSocket() { NETBUFSOCKET* bs = (NETBUFSOCKET*)malloc(sizeof(NETBUFSOCKET)); bs->socket = NULL; bs->buffer = NULL; bs->buffer_start = 0; bs->bytes = 0; return bs; } void NET_destroyBufferedSocket(NETBUFSOCKET* bs) { free(bs->buffer); free(bs); } void NET_initBufferedSocket(NETBUFSOCKET* bs, TCPsocket s) { bs->socket = s; if (bs->buffer == NULL) { bs->buffer = (char*)malloc(NET_BUFFER_SIZE); } bs->buffer_start = 0; bs->bytes = 0; } BOOL NET_fillBuffer(NETBUFSOCKET* bs, SDLNet_SocketSet socket_set) { int size; char* bufstart = bs->buffer + bs->buffer_start + bs->bytes; const int bufsize = NET_BUFFER_SIZE - bs->buffer_start - bs->bytes; if (bs->buffer_start != 0) { return FALSE; } if (SDLNet_SocketReady(bs->socket) <= 0) { return FALSE; } size = SDLNet_TCP_Recv(bs->socket, bufstart, bufsize); if (size > 0) { bs->bytes += size; return TRUE; } else { if (socket_set != NULL) { SDLNet_TCP_DelSocket(socket_set, bs->socket); } SDLNet_TCP_Close(bs->socket); bs->socket = NULL; } return FALSE; } BOOL NET_recvMessage(NETBUFSOCKET* bs, NETMSG* pMsg) { unsigned int size; const NETMSG* message = (NETMSG*)(bs->buffer + bs->buffer_start); const unsigned int headersize = sizeof(message->size) + sizeof(message->type) + sizeof(message->paddedBytes) + sizeof(message->destination); if (headersize > bs->bytes) { goto error; } size = message->size + headersize; if (size > bs->bytes) { goto error; } #ifdef NET_DEBUG printf("NETrecvMessage: received message of type %i and size %i.\n", message->type, message->size); #endif memcpy(pMsg, message, size); bs->buffer_start += size; bs->bytes -= size; return TRUE; error: if (bs->buffer_start != 0) { static char* tmp_buffer = NULL; char* buffer_start = bs->buffer + bs->buffer_start; char* tmp; //printf("Moving data in buffer\n"); // Create tmp buffer if necessary if (tmp_buffer == NULL) { //printf("Creating tmp buffer\n"); tmp_buffer = (char*)malloc(NET_BUFFER_SIZE); } // Move remaining contents into tmp buffer memcpy(tmp_buffer, buffer_start, bs->bytes); // swap tmp buffer with buffer tmp = bs->buffer; bs->buffer = tmp_buffer; tmp_buffer = tmp; // Now data is in the beginning of the buffer bs->buffer_start = 0; } return FALSE; } static TCPsocket tcp_socket = NULL; static NETBUFSOCKET* bsocket = NULL; static NETBUFSOCKET* connected_bsocket[MAX_CONNECTED_PLAYERS] = { NULL }; static SDLNet_SocketSet socket_set = NULL; static BOOL is_server = FALSE; static TCPsocket tmp_socket[MAX_TMP_SOCKETS] = { 0 }; static SDLNet_SocketSet tmp_socket_set = NULL; static NETMSG message; static char* hostname; // //////////////////////////////////////////////////////////////////////// typedef struct { // data regarding the last one second or so. UDWORD bytesRecvd; UDWORD bytesSent; // number of bytes sent in about 1 sec. UDWORD packetsSent; UDWORD packetsRecvd; } NETSTATS; static NETSTATS nStats = { 0 }; #define PLAYER_HOST 1 #define PLAYER_SPECTATOR 2 // //////////////////////////////////////////////////////////////////////// // Players stuff typedef struct { BOOL allocated; unsigned int id; char name[StringSize]; unsigned int flags; } NET_PLAYER; static NET_PLAYER players[MAX_CONNECTED_PLAYERS]; void NET_InitPlayers() { unsigned int i; for (i = 0; i < MAX_CONNECTED_PLAYERS; ++i) { players[i].allocated = FALSE; players[i].id = i; } } void NETBroadcastPlayerInfo(int dpid) { message.type = MSG_PLAYER_INFO; NETsetMessageSize(&message, sizeof(NET_PLAYER)); memcpy(message.body, &players[dpid], sizeof(NET_PLAYER)); NETbcast(&message, TRUE); } int NET_CreatePlayer(const char* name, unsigned int flags) { unsigned int i; for (i = 1; i < MAX_CONNECTED_PLAYERS; ++i) { if (players[i].allocated == FALSE) { players[i].allocated = TRUE; strcpy(players[i].name, name); players[i].flags = flags; NETBroadcastPlayerInfo(i); return i; } } return 0; } void NET_DestroyPlayer(unsigned int id) { players[id].allocated = FALSE; } // //////////////////////////////////////////////////////////////////////// // count players. call with null to enumerate the game already joined. UDWORD NETplayerInfo() { unsigned int i; NetPlay.playercount = 0; // reset player counter if(!NetPlay.bComms) { NetPlay.playercount = 1; NetPlay.players[0].bHost = TRUE; NetPlay.players[0].bSpectator = FALSE; NetPlay.players[0].dpid = 1; return 1; } memset(NetPlay.players, 0, (sizeof(PLAYER)*MaxNumberOfPlayers)); // reset player info for (i = 0; i < MAX_CONNECTED_PLAYERS; ++i) { if (players[i].allocated == TRUE) { NetPlay.players[NetPlay.playercount].dpid = i; strcpy(NetPlay.players[NetPlay.playercount].name, players[i].name); if (players[i].flags & PLAYER_HOST) { NetPlay.players[NetPlay.playercount].bHost = TRUE; } else { NetPlay.players[NetPlay.playercount].bHost = FALSE; } if (players[i].flags & PLAYER_SPECTATOR) { NetPlay.players[NetPlay.playercount].bSpectator = TRUE; } else { NetPlay.players[NetPlay.playercount].bSpectator = FALSE; } NetPlay.playercount++; } } return NetPlay.playercount; } // //////////////////////////////////////////////////////////////////////// // rename the local player // dont call this a lot, since it uses a guaranteed msg. BOOL NETchangePlayerName(UDWORD dpid, char *newName) { if(!NetPlay.bComms) { strcpy(NetPlay.players[0].name, newName); return TRUE; } strcpy(players[dpid].name, newName); NETBroadcastPlayerInfo(dpid); return TRUE; } typedef struct { unsigned int size; void* data; unsigned int buffer_size; } NET_PLAYER_DATA; static NET_PLAYER_DATA local_player_data[MAX_CONNECTED_PLAYERS] = { { 0 } }; static NET_PLAYER_DATA global_player_data[MAX_CONNECTED_PLAYERS] = { { 0 } }; void resize_local_player_data(unsigned int i, unsigned int size) { if (local_player_data[i].buffer_size < size) { if (local_player_data[i].data != NULL) { free(local_player_data[i].data); } local_player_data[i].data = malloc(size); local_player_data[i].buffer_size = size; } } void resize_global_player_data(unsigned int i, unsigned int size) { if (global_player_data[i].buffer_size < size) { if (global_player_data[i].data != NULL) { free(global_player_data[i].data); } global_player_data[i].data = malloc(size); global_player_data[i].buffer_size = size; } } // //////////////////////////////////////////////////////////////////////// BOOL NETgetLocalPlayerData(DPID dpid,VOID *pData, DWORD *pSize) { memcpy(pData, local_player_data[dpid].data, local_player_data[dpid].size); return TRUE; } // //////////////////////////////////////////////////////////////////////// BOOL NETgetGlobalPlayerData(DPID dpid,VOID *pData, DWORD *pSize) { if(!NetPlay.bComms) { memcpy(pData, local_player_data[dpid].data, local_player_data[dpid].size); return TRUE; } memcpy(pData, global_player_data[dpid].data, global_player_data[dpid].size); return TRUE; } // //////////////////////////////////////////////////////////////////////// BOOL NETsetLocalPlayerData(DPID dpid,VOID *pData, DWORD size) { local_player_data[dpid].size = size; resize_local_player_data(dpid, size); memcpy(local_player_data[dpid].data, pData, size); return TRUE; } // //////////////////////////////////////////////////////////////////////// BOOL NETsetGlobalPlayerData(DPID dpid, VOID *pData, DWORD size) { if(!NetPlay.bComms) { local_player_data[dpid].size = size; resize_local_player_data(dpid, size); memcpy(local_player_data[dpid].data, pData, size); return TRUE; } global_player_data[dpid].size = size; resize_global_player_data(dpid, size); memcpy(global_player_data[dpid].data, pData, size); { // broadcast player data unsigned int* p_dpid = (unsigned int*)(message.body); message.type = MSG_PLAYER_DATA; NETsetMessageSize(&message, sizeof(unsigned int)+size); *p_dpid = dpid; memcpy(message.body+sizeof(unsigned int), pData, size); } NETBroadcastPlayerInfo(dpid); return TRUE; } // /////////////////////////////////////////////////////////////////////// // Game flags stuff... DWORD NetGameFlags[4]; // //////////////////////////////////////////////////////////////////////// // return one of the four user flags in the current sessiondescription. DWORD NETgetGameFlags(UDWORD flag) { if (flag < 1 || flag > 4) { return 0; } else { return NetGameFlags[flag-1]; } } // //////////////////////////////////////////////////////////////////////// // Set a game flag BOOL NETsetGameFlags(UDWORD flag, DWORD value) { if(!NetPlay.bComms) { return TRUE; } if (flag < 1 || flag > 4) { return NetGameFlags[flag-1] = value; } message.type = MSG_GAME_FLAGS; NETsetMessageSize(&message, sizeof(NetGameFlags)); memcpy(message.body, NetGameFlags, sizeof(NetGameFlags)); NETbcast(&message, TRUE); return TRUE; } // //////////////////////////////////////////////////////////////////////// // setup stuff BOOL NETinit(BOOL bFirstCall) { UDWORD i; debug( LOG_NET, "NETinit" ); // NEThashFile("warzonedebug.exe"); if(bFirstCall) { DBPRINTF(("NETPLAY: Init called, MORNIN' \n ")); NetPlay.bLobbyLaunched = FALSE; // clean up NetPlay.dpidPlayer = 0; NetPlay.bHost = 0; NetPlay.bComms = TRUE; NetPlay.bEncryptAllPackets = FALSE; NETsetKey(0x2fe8f810, 0xb72a5, 0x114d0, 0x2a7); // j-random key to get us started NetPlay.bAllowCaptureRecord = FALSE; NetPlay.bAllowCapturePlay = FALSE; NetPlay.bCaptureInUse = FALSE; for(i=0;i (timy+CLOCKS_PER_SEC) ) { timy = clock(); lastsec = nStats.bytesSent; nStats.bytesSent = 0; } return lastsec; } UDWORD NETgetRecentBytesSent(VOID) { return nStats.bytesSent; } UDWORD NETgetBytesRecvd(VOID) { static UDWORD lastsec=0; static UDWORD timy=0; if( (UDWORD)clock() > (timy+CLOCKS_PER_SEC) ) { timy = clock(); lastsec = nStats.bytesRecvd; nStats.bytesRecvd = 0; } return lastsec; } UDWORD NETgetRecentBytesRecvd(VOID) { return nStats.bytesRecvd; } //return number of packets sent last sec. UDWORD NETgetPacketsSent(VOID) { static UDWORD lastsec=0; static UDWORD timy=0; if( (UDWORD)clock() > (timy+CLOCKS_PER_SEC) ) { timy = clock(); lastsec = nStats.packetsSent; nStats.packetsSent = 0; } return lastsec; } UDWORD NETgetRecentPacketsSent(VOID) { return nStats.packetsSent; } UDWORD NETgetPacketsRecvd(VOID) { static UDWORD lastsec=0; static UDWORD timy=0; if( (UDWORD)clock() > (timy+CLOCKS_PER_SEC) ) { timy = clock(); lastsec = nStats.packetsRecvd; nStats.packetsRecvd = 0; } return lastsec; } UDWORD NETgetRecentPacketsRecvd(VOID) { return nStats.packetsRecvd; } // //////////////////////////////////////////////////////////////////////// // Send a message to a player, option to guarantee message BOOL NETsend(NETMSG *msg, DPID player, BOOL guarantee) { #ifdef NET_DEBUG printf("NETsend\n"); #endif unsigned int size; if(!NetPlay.bComms) { return TRUE; } if (player >= MAX_CONNECTED_PLAYERS) return FALSE; //printf("Sending message %i to %i\n", msg->type, msg->destination); msg->destination = player; if ( NetPlay.bEncryptAllPackets && (msg->type!=AUDIOMSG) && (msg->type!=FILEMSG)) { NETmanglePacket(msg); } //printf("NETsend %i\n", msg->type); size = msg->size + sizeof(msg->size) + sizeof(msg->type) + sizeof(msg->paddedBytes) + sizeof(msg->destination); if (is_server) { if ( player < MAX_CONNECTED_PLAYERS && connected_bsocket[player] != NULL && connected_bsocket[player]->socket != NULL && SDLNet_TCP_Send(connected_bsocket[player]->socket, msg, size) == size) { nStats.bytesSent += size; nStats.packetsSent += 1; return TRUE; } } else { if ( tcp_socket && SDLNet_TCP_Send(tcp_socket, msg, size) == size) { return TRUE; } } return FALSE; } // //////////////////////////////////////////////////////////////////////// // broadcast a message to all players. BOOL NETbcast(NETMSG *msg, BOOL guarantee) { #ifdef NET_DEBUG printf("NETbcast\n"); #endif unsigned int size; if(!NetPlay.bComms) { return TRUE; } msg->destination = NET_ALL_PLAYERS; if ( NetPlay.bEncryptAllPackets && (msg->type!=AUDIOMSG) && (msg->type!=FILEMSG)) { NETmanglePacket(msg); } size = msg->size + sizeof(msg->size) + sizeof(msg->type) + sizeof(msg->paddedBytes) + sizeof(msg->destination); //printf("NETbcast %i\n", msg->type); if (is_server) { unsigned int i; for (i = 0; i < MAX_CONNECTED_PLAYERS; ++i) { if ( connected_bsocket[i] != NULL && connected_bsocket[i]->socket != NULL) { SDLNet_TCP_Send(connected_bsocket[i]->socket, msg, size); } } } else { if ( tcp_socket == NULL || SDLNet_TCP_Send(tcp_socket, msg, size) < size) { return FALSE; } } nStats.bytesSent += size; nStats.packetsSent += 1; return TRUE; } /////////////////////////////////////////////////////////////////////////// // Check if a message is a system message BOOL NETprocessSystemMessage(NETMSG * pMsg) { #ifdef NET_DEBUG printf("NETprocessSystemMessage\n"); #endif switch (pMsg->type) { case MSG_PLAYER_INFO: { NET_PLAYER* pi = (NET_PLAYER*)(pMsg->body); int dpid = pi->id; //printf("Receiving info for player %i\n", dpid); memcpy(&players[dpid], pi, sizeof(NET_PLAYER)); NETplayerInfo(); if (is_server) { NETBroadcastPlayerInfo(dpid); } //printf("Just received and processed MSG_PLAYER_INFO\n"); } break; case MSG_PLAYER_DATA: { unsigned int* pdpid = (unsigned int*)(pMsg->body); int dpid = *pdpid; unsigned int size = pMsg->size - sizeof(unsigned int); //printf("Receiving DATA for player %i\n", dpid); global_player_data[dpid].size = size; resize_global_player_data(dpid, size); memcpy(global_player_data[dpid].data, pMsg->body+sizeof(unsigned int), size); if (is_server) { NETbcast(pMsg, TRUE); } //printf("Just received and processed MSG_PLAYER_DATA\n"); } break; case MSG_PLAYER_JOINED: { unsigned int* pdpid = (unsigned int*)(pMsg->body); int dpid = *pdpid; MultiPlayerJoin(dpid); } break; case MSG_PLAYER_LEFT: { unsigned int* pdpid = (unsigned int*)(pMsg->body); int dpid = *pdpid; NET_DestroyPlayer(dpid); MultiPlayerLeave(dpid); } break; case MSG_GAME_FLAGS: { //printf("Receiving game flags\n"); memcpy(NetGameFlags, pMsg->body, sizeof(NetGameFlags)); if (is_server) { NETbcast(pMsg, TRUE); } //printf("Just received and processed MSG_GAME_FLAGS\n"); } break; default: return FALSE; } return TRUE; } // //////////////////////////////////////////////////////////////////////// // receive a message over the current connection BOOL NETrecv(NETMSG * pMsg) { static unsigned int current = 0; BOOL received; int size; if (!NetPlay.bComms) { return FALSE; } if (is_server) { NETallowJoining(); } do { receive_message: received = FALSE; //printf("Receiving something\n"); if (is_server) { if (connected_bsocket[current] == NULL) return FALSE; received = NET_recvMessage(connected_bsocket[current], pMsg); if (received == FALSE) { unsigned int i = current + 1; if ( socket_set == NULL || SDLNet_CheckSockets(socket_set, NET_READ_TIMEOUT) <= 0) { return FALSE; } for (;;) { if (connected_bsocket[i]->socket == NULL) { } else if (NET_fillBuffer(connected_bsocket[i], socket_set)) { received = NET_recvMessage(connected_bsocket[i], pMsg); current = i; break; } else if (connected_bsocket[i]->socket == NULL) { unsigned int* message_dpid = (unsigned int*)(message.body); game.desc.dwCurrentPlayers--; message.type = MSG_PLAYER_LEFT; NETsetMessageSize(&message, 4); *message_dpid = i; NETbcast(&message, TRUE); NET_DestroyPlayer(i); MultiPlayerLeave(i); } if (++i == MAX_CONNECTED_PLAYERS) { i = 0; } if (i == current+1) { return FALSE; } } } } else { if (bsocket == NULL) { return FALSE; } else { received = NET_recvMessage(bsocket, pMsg); if (received == FALSE) { if ( socket_set != NULL && SDLNet_CheckSockets(socket_set, NET_READ_TIMEOUT) > 0 && NET_fillBuffer(bsocket, socket_set)) { received = NET_recvMessage(bsocket, pMsg); } } } } if (received == FALSE) { return FALSE; } else { size = pMsg->size + sizeof(pMsg->size) + sizeof(pMsg->type) + sizeof(pMsg->paddedBytes) + sizeof(pMsg->destination); if (is_server == FALSE) { } else if (pMsg->destination == NET_ALL_PLAYERS) { unsigned int j; for (j = 0; j < MAX_CONNECTED_PLAYERS; ++j) { if ( j != current && connected_bsocket[j] != NULL && connected_bsocket[j]->socket != NULL) { SDLNet_TCP_Send(connected_bsocket[j]->socket, pMsg, size); } } } else if (pMsg->destination != NetPlay.dpidPlayer) { if ( pMsg->destination < MAX_CONNECTED_PLAYERS && connected_bsocket[pMsg->destination] != NULL && connected_bsocket[pMsg->destination]->socket != NULL) { //printf("Reflecting message to DPID %i\n", pMsg->destination); SDLNet_TCP_Send(connected_bsocket[pMsg->destination]->socket, pMsg, size); } else { //printf("Cannot reflect message %i to DPID %i\n", pMsg->type, pMsg->destination); } goto receive_message; } if ( (pMsg->type>=ENCRYPTFLAG) && (pMsg->type!=AUDIOMSG) && (pMsg->type!=FILEMSG)) { NETunmanglePacket(pMsg); } //printf("Received message : type = %i, size = %i, size = %i.\n", pMsg->type, pMsg->size, size); nStats.bytesRecvd += size; nStats.packetsRecvd += 1; } } while (NETprocessSystemMessage(pMsg) == TRUE); return TRUE; } // //////////////////////////////////////////////////////////////////////// // //////////////////////////////////////////////////////////////////////// // Protocol functions BOOL NETsetupTCPIP(LPVOID *addr, char * machine) { #ifdef NET_DEBUG printf("NETsetupTCPIP\n"); #endif if ( hostname != NULL && hostname != master_server) { free(hostname); } if ( machine != NULL && machine[0] != '\0') { hostname = strdup(machine); } else { hostname = master_server; } return TRUE; } // select a current protocol. Call with a connection returned by findprotocol. BOOL NETselectProtocol(LPVOID lpConnection) { return TRUE; } // //////////////////////////////////////////////////////////////////////// // call with true to enumerate available protocols. BOOL NETfindProtocol(BOOL Lob) { return TRUE; } // //////////////////////////////////////////////////////////////////////// // File Transfer programs. // uses guaranteed messages to send files between clients. // send file. it returns % of file sent. when 100 it's complete. call until it returns 100. UBYTE NETsendFile(BOOL newFile, CHAR *fileName, DPID player) { static PHYSFS_sint64 fileSize,currPos; static PHYSFS_file *pFileHandle; PHYSFS_sint64 bytesRead; UBYTE inBuff[2048]; NETMSG msg; if(newFile) //force it true for now -Q { // open the file. pFileHandle = PHYSFS_openRead(fileName); // check file exists if (pFileHandle == NULL) { debug( LOG_WZ, "NETsendFile: Failed\n" ); return 0; // failed } // get the file's size. fileSize = 0; currPos =0; do { bytesRead = PHYSFS_read( pFileHandle, &inBuff, 1, sizeof(inBuff) ); fileSize += bytesRead; } while(bytesRead != 0); PHYSFS_seek(pFileHandle, 0 ); } // read some bytes. bytesRead = PHYSFS_read(pFileHandle, &inBuff, sizeof(inBuff), 1 ); // form a message NetAdd(msg,0,fileSize); // total bytes in this file. NetAdd(msg,4,bytesRead); // bytes in this packet NetAdd(msg,8,currPos); // start byte msg.body[12]=strlen(fileName); msg.size = 13; NetAddSt(msg,msg.size,fileName); msg.size += strlen(fileName); memcpy(&(msg.body[msg.size]),&inBuff,bytesRead); msg.size += bytesRead; msg.type = FILEMSG; msg.paddedBytes = 0; if(player==0) { NETbcast(&msg,TRUE); // send it. } else { NETsend(&msg,player,TRUE); } currPos += bytesRead; // update position! if(currPos == fileSize) { PHYSFS_close(pFileHandle); } return (currPos*100)/fileSize; } // recv file. it returns % of the file so far recvd. UBYTE NETrecvFile(NETMSG *pMsg) { UDWORD pos, fileSize, currPos, bytesRead; char fileName[128]; unsigned int len; static PHYSFS_file *pFileHandle; //read incoming bytes. NetGet(pMsg,0,fileSize); NetGet(pMsg,4,bytesRead); NetGet(pMsg,8,currPos); // read filename len = (unsigned int)(pMsg->body[12]); memcpy(fileName,&(pMsg->body[13]),len); fileName[len] = '\0'; // terminate string. pos = 13+len; //printf("NETrecvFile: Creating new file %s\n", fileName); if(currPos == 0) // first packet! { //printf("NETrecvFile: Creating new file %s\n", fileName); pFileHandle = PHYSFS_openWrite(fileName); // create a new file. } //write packet to the file. PHYSFS_write( pFileHandle, &(pMsg->body[pos]), bytesRead, 1 ); if(currPos+bytesRead == fileSize) // last packet { PHYSFS_close(pFileHandle); } //return the percent count. return ((currPos+bytesRead)*100) / fileSize; } void NETregisterServer(int state) { static TCPsocket rs_socket = NULL; static int registered = 0; static int server_not_there = 0; IPaddress ip; if (server_not_there) { return; } if (state != registered) { switch(state) { case 1: { if(SDLNet_ResolveHost(&ip, master_server, MASTER_SERVER_PORT) == -1) { printf("NETregisterServer: couldn't resolve master server (%s): %s\n", master_server, SDLNet_GetError()); server_not_there = 1; return; } if(!rs_socket) rs_socket = SDLNet_TCP_Open(&ip); if(rs_socket == NULL) { printf("NETregisterServer: Cannot connect to master server (%s): %s\n", master_server, SDLNet_GetError()); server_not_there = 1; return; } SDLNet_TCP_Send(rs_socket, "addg", 5); SDLNet_TCP_Send(rs_socket, &game, sizeof(GAMESTRUCT)); } break; case 0: SDLNet_TCP_Close(rs_socket); rs_socket=NULL; break; } registered=state; } } // //////////////////////////////////////////////////////////////////////// // Host a game with a given name and player name. & 4 user game flags void NETallowJoining() { unsigned int i; UDWORD numgames=1; // always 1 on normal server char buffer[5]; if (allow_joining == FALSE) return; NETregisterServer(1); if (tmp_socket_set == NULL) { tmp_socket_set = SDLNet_AllocSocketSet(MAX_TMP_SOCKETS+1); if (tmp_socket_set == NULL) { printf("Couldn't create socket set: %s\n", SDLNet_GetError()); return; } SDLNet_TCP_AddSocket(tmp_socket_set, tcp_socket); } if (SDLNet_CheckSockets(tmp_socket_set, NET_READ_TIMEOUT) > 0) { if (SDLNet_SocketReady(tcp_socket)) { for (i = 0; i < MAX_TMP_SOCKETS; ++i) { if (tmp_socket[i] == NULL) { break; } } tmp_socket[i] = SDLNet_TCP_Accept(tcp_socket); SDLNet_TCP_AddSocket(tmp_socket_set, tmp_socket[i]); if (SDLNet_CheckSockets(tmp_socket_set, 1000) > 0 && SDLNet_SocketReady(tmp_socket) && SDLNet_TCP_Recv(tmp_socket[i], buffer, 5)) { if(strcmp(buffer, "list")==0) { SDLNet_TCP_Send(tmp_socket[i], &numgames, sizeof(UDWORD)); SDLNet_TCP_Send(tmp_socket[i], &game, sizeof(GAMESTRUCT)); } else if(strcmp(buffer, "join")==0) { SDLNet_TCP_Send(tmp_socket[i], &game, sizeof(GAMESTRUCT)); } } else { return; } } for(i = 0; i < MAX_TMP_SOCKETS; ++i) { if ( tmp_socket[i] != NULL && SDLNet_SocketReady(tmp_socket[i]) > 0) { int size = SDLNet_TCP_Recv(tmp_socket[i], &message, sizeof(NETMSG)); if (size <= 0) { // socket probably disconnected. SDLNet_TCP_DelSocket(tmp_socket_set, tmp_socket[i]); SDLNet_TCP_Close(tmp_socket[i]); tmp_socket[i] = NULL; } else if (message.type == MSG_JOIN) { int j; char* name = message.body; int dpid = NET_CreatePlayer(name, 0); unsigned int* message_dpid = (unsigned int*)(message.body); SDLNet_TCP_DelSocket(tmp_socket_set, tmp_socket[i]); NET_initBufferedSocket(connected_bsocket[dpid], tmp_socket[i]); SDLNet_TCP_AddSocket(socket_set, connected_bsocket[dpid]->socket); tmp_socket[i] = NULL; //printf("Creating player %i\n", dpid); game.desc.dwCurrentPlayers++; message.type = MSG_ACCEPTED; NETsetMessageSize(&message, 4); *message_dpid = dpid; NETsend(&message, dpid, TRUE); MultiPlayerJoin(dpid); message.type = MSG_PLAYER_JOINED; NETsetMessageSize(&message, 4); // Send info about players to newcomer. for (j = 0; j < MAX_CONNECTED_PLAYERS; ++j) { if ( players[j].allocated && dpid != players[j].id) { *message_dpid = players[j].id; NETsend(&message, dpid, TRUE); } } // Send info about newcomer to all players. *message_dpid = dpid; NETbcast(&message, TRUE); for (j = 0; j < MAX_CONNECTED_PLAYERS; ++j) { NETBroadcastPlayerInfo(j); } } } } } } BOOL NEThostGame(LPSTR SessionName, LPSTR PlayerName, DWORD one, DWORD two, DWORD three, DWORD four, UDWORD plyrs) // # of players. { #ifdef NET_DEBUG printf("NEThostGame\n"); #endif IPaddress ip; unsigned int i; if(!NetPlay.bComms) { NetPlay.dpidPlayer = 1; NetPlay.bHost = TRUE; return TRUE; } if(SDLNet_ResolveHost(&ip, NULL, WARZONE_NET_PORT) == -1) { printf("NEThostGame: couldn't resolve master self: %s\n", SDLNet_GetError()); return FALSE; } if(!tcp_socket) tcp_socket = SDLNet_TCP_Open(&ip); if(tcp_socket == NULL) { printf("SDLNet_TCP_Open: %s\n", SDLNet_GetError()); return FALSE; } if(!socket_set) socket_set = SDLNet_AllocSocketSet(MAX_CONNECTED_PLAYERS); if (socket_set == NULL) { printf("Couldn't create socket set: %s\n", SDLNet_GetError()); return FALSE; } for (i = 0; i < MAX_CONNECTED_PLAYERS; ++i) { connected_bsocket[i] = NET_createBufferedSocket(); } is_server = TRUE; strcpy(game.name, SessionName); memset(&game.desc, 0, sizeof(SESSIONDESC)); game.desc.dwSize = sizeof(SESSIONDESC); //game.desc.guidApplication = GAME_GUID; strcpy(game.desc.host, ""); game.desc.dwCurrentPlayers = 1; game.desc.dwMaxPlayers = plyrs; game.desc.dwFlags = 0; game.desc.dwUser1 = one; game.desc.dwUser2 = two; game.desc.dwUser3 = three; game.desc.dwUser4 = four; NET_InitPlayers(); NetPlay.dpidPlayer = NET_CreatePlayer(PlayerName, PLAYER_HOST); NetPlay.bHost = TRUE; NetPlay.bSpectator = FALSE; MultiPlayerJoin(NetPlay.dpidPlayer); allow_joining = TRUE; NETregisterServer(0); return TRUE; } // //////////////////////////////////////////////////////////////////////// // Stop the dplay interface from accepting more players. BOOL NEThaltJoining(VOID) { #ifdef NET_DEBUG printf("NEThaltJoining\n"); #endif allow_joining = FALSE; return TRUE; } // //////////////////////////////////////////////////////////////////////// // find games on open connection, option to do this asynchronously // since it can sometimes take a while. BOOL NETfindGame(BOOL async) /// may (not) want to use async here... { static UDWORD gamecount = 0, gamesavailable; #ifdef NET_DEBUG printf("NETfindGame\n"); #endif IPaddress ip; char buffer[sizeof(GAMESTRUCT)*2]; GAMESTRUCT* tmpgame = (GAMESTRUCT*)buffer; gamecount = 0; NetPlay.games[0].desc.dwSize = 0; NetPlay.games[0].desc.dwCurrentPlayers = 0; NetPlay.games[0].desc.dwMaxPlayers = 0; if(!NetPlay.bComms) { NetPlay.dpidPlayer = 1; NetPlay.bHost = TRUE; return TRUE; } if (SDLNet_ResolveHost(&ip, hostname, (hostname == master_server) ? MASTER_SERVER_PORT : WARZONE_NET_PORT) == -1) { printf("NETfindGame: couldn't resolve hostname (%s): %s\n", hostname, SDLNet_GetError()); return FALSE; } if (tcp_socket != NULL) { SDLNet_TCP_Close(tcp_socket); } tcp_socket = SDLNet_TCP_Open(&ip); if (tcp_socket == NULL) { printf("SDLNet_TCP_Open: %s\n", SDLNet_GetError()); return FALSE; } socket_set = SDLNet_AllocSocketSet(1); if (socket_set == NULL) { printf("Couldn't create socket set: %s\n", SDLNet_GetError()); return FALSE; } SDLNet_TCP_AddSocket(socket_set, tcp_socket); SDLNet_TCP_Send(tcp_socket, "list", 5); if ( SDLNet_CheckSockets(socket_set, 1000) > 0 && SDLNet_SocketReady(tcp_socket) && SDLNet_TCP_Recv(tcp_socket, buffer, sizeof(int))) { gamesavailable=(UDWORD)buffer[0]; } #ifdef NET_DEBUG printf("receiving info of %d game(s)\n", gamesavailable); #endif do { if ( SDLNet_CheckSockets(socket_set, 1000) > 0 && SDLNet_SocketReady(tcp_socket) && SDLNet_TCP_Recv(tcp_socket, buffer, sizeof(GAMESTRUCT)) == sizeof(GAMESTRUCT) && tmpgame->desc.dwSize == sizeof(SESSIONDESC)) { strcpy(NetPlay.games[gamecount].name, tmpgame->name); NetPlay.games[gamecount].desc.dwSize = tmpgame->desc.dwSize; NetPlay.games[gamecount].desc.dwCurrentPlayers = tmpgame->desc.dwCurrentPlayers; NetPlay.games[gamecount].desc.dwMaxPlayers = tmpgame->desc.dwMaxPlayers; if (tmpgame->desc.host[0] == '\0') { unsigned char* address = (unsigned char*)(&(ip.host)); sprintf(NetPlay.games[gamecount].desc.host, "%i.%i.%i.%i", (int)(address[0]), (int)(address[1]), (int)(address[2]), (int)(address[3])); } else { strcpy(NetPlay.games[gamecount].desc.host, tmpgame->desc.host); } //printf("Received info for host %s\n", NetPlay.games[gamecount].desc.host); gamecount++; } } while (gamecount 0 && SDLNet_SocketReady(tcp_socket) && SDLNet_TCP_Recv(tcp_socket, buffer, sizeof(GAMESTRUCT)*2) == sizeof(GAMESTRUCT) && tmpgame->desc.dwSize == sizeof(SESSIONDESC)) { strcpy(NetPlay.games[gameNumber].name, tmpgame->name); NetPlay.games[gameNumber].desc.dwSize = tmpgame->desc.dwSize; NetPlay.games[gameNumber].desc.dwCurrentPlayers = tmpgame->desc.dwCurrentPlayers; NetPlay.games[gameNumber].desc.dwMaxPlayers = tmpgame->desc.dwMaxPlayers; strcpy(NetPlay.games[gameNumber].desc.host, tmpgame->desc.host); if (tmpgame->desc.host[0] == '\0') { unsigned char* address = (unsigned char*)(&(ip.host)); sprintf(NetPlay.games[gameNumber].desc.host, "%i.%i.%i.%i", (int)(address[0]), (int)(address[1]), (int)(address[2]), (int)(address[3])); } else { strcpy(NetPlay.games[gameNumber].desc.host, tmpgame->desc.host); } //printf("JoinGame: Received info for host %s\n", NetPlay.games[gameNumber].desc.host); } bsocket = NET_createBufferedSocket(); NET_initBufferedSocket(bsocket, tcp_socket); message.type = MSG_JOIN; NETsetMessageSize(&message, 64); name = message.body; strcpy(name, playername); NETsend(&message, 1, TRUE); for (;;) { NETrecv(&message); if (message.type == MSG_ACCEPTED) { unsigned int* message_dpid = (unsigned int*)(message.body); NetPlay.dpidPlayer = *message_dpid; //printf("I'm player %i\n", NetPlay.dpidPlayer); NetPlay.bHost = FALSE; NetPlay.bSpectator = FALSE; players[NetPlay.dpidPlayer].allocated = TRUE; players[NetPlay.dpidPlayer].id = NetPlay.dpidPlayer; strcpy(players[NetPlay.dpidPlayer].name, playername); players[NetPlay.dpidPlayer].flags = 0; return TRUE; } } return FALSE; }