/* $Id$ */ #include "stdafx.h" #include "openttd.h" #include "debug.h" #include "functions.h" #include "string.h" #include "strings.h" #include "map.h" #include "network_data.h" #include "command.h" #include "variables.h" #if defined(WITH_REV) extern const char _openttd_revision[]; #elif defined(WITH_REV_HACK) #define WITH_REV const char _openttd_revision[] = WITH_REV_HACK; #else const char _openttd_revision[] = NOREV_STRING; #endif #ifdef ENABLE_NETWORK #include "table/strings.h" #include "network_client.h" #include "network_server.h" #include "network_udp.h" #include "network_gamelist.h" #include "console.h" /* IConsoleCmdExec */ #include /* va_list */ #include "md5.h" #ifdef __MORPHOS__ // the library base is required here struct Library *SocketBase = NULL; #endif // The listen socket for the server static SOCKET _listensocket; // The amount of clients connected static byte _network_clients_connected = 0; // The index counter for new clients (is never decreased) static uint16 _network_client_index = NETWORK_SERVER_INDEX + 1; /* Some externs / forwards */ extern void ShowJoinStatusWindow(void); extern void StateGameLoop(void); // Function that looks up the CI for a given client-index NetworkClientInfo *NetworkFindClientInfoFromIndex(uint16 client_index) { NetworkClientInfo *ci; for (ci = _network_client_info; ci != &_network_client_info[MAX_CLIENT_INFO]; ci++) if (ci->client_index == client_index) return ci; return NULL; } /** Return the CI for a given IP * @param ip IP of the client we are looking for. This must be in string-format * @return return a pointer to the corresponding NetworkClientInfo struct or NULL on failure */ NetworkClientInfo *NetworkFindClientInfoFromIP(const char *ip) { NetworkClientInfo *ci; uint32 ip_number = inet_addr(ip); for (ci = _network_client_info; ci != &_network_client_info[MAX_CLIENT_INFO]; ci++) { if (ci->client_ip == ip_number) return ci; } return NULL; } // Function that looks up the CS for a given client-index NetworkClientState *NetworkFindClientStateFromIndex(uint16 client_index) { NetworkClientState *cs; for (cs = _clients; cs != &_clients[MAX_CLIENT_INFO]; cs++) if (cs->index == client_index) return cs; return NULL; } // NetworkGetClientName is a server-safe function to get the name of the client // if the user did not send it yet, Client # is used. void NetworkGetClientName(char *client_name, size_t size, const NetworkClientState *cs) { const NetworkClientInfo *ci = DEREF_CLIENT_INFO(cs); if (*ci->client_name == '\0') snprintf(client_name, size, "Client #%4d", cs->index); else ttd_strlcpy(client_name, ci->client_name, size); } byte NetworkSpectatorCount(void) { const NetworkClientState *cs; byte count = 0; FOR_ALL_CLIENTS(cs) { if (DEREF_CLIENT_INFO(cs)->client_playas == OWNER_SPECTATOR) count++; } return count; } // This puts a text-message to the console, or in the future, the chat-box, // (to keep it all a bit more general) // If 'self_send' is true, this is the client who is sending the message void CDECL NetworkTextMessage(NetworkAction action, uint16 color, bool self_send, const char *name, const char *str, ...) { char buf[1024]; va_list va; const int duration = 10; // Game days the messages stay visible char message[1024]; char temp[1024]; va_start(va, str); vsnprintf(buf, lengthof(buf), str, va); va_end(va); switch (action) { case NETWORK_ACTION_JOIN: GetString(temp, STR_NETWORK_CLIENT_JOINED); snprintf(message, sizeof(message), "*** %s %s", name, temp); break; case NETWORK_ACTION_LEAVE: GetString(temp, STR_NETWORK_ERR_LEFT); snprintf(message, sizeof(message), "*** %s %s (%s)", name, temp, buf); break; case NETWORK_ACTION_GIVE_MONEY: if (self_send) { SetDParamStr(0, name); SetDParam(1, atoi(buf)); GetString(temp, STR_NETWORK_GAVE_MONEY_AWAY); snprintf(message, sizeof(message), "*** %s", temp); } else { SetDParam(0, atoi(buf)); GetString(temp, STR_NETWORK_GIVE_MONEY); snprintf(message, sizeof(message), "*** %s %s", name, temp); } break; case NETWORK_ACTION_CHAT_PLAYER: if (self_send) { SetDParamStr(0, name); GetString(temp, STR_NETWORK_CHAT_TO_COMPANY); snprintf(message, sizeof(message), "%s %s", temp, buf); } else { SetDParamStr(0, name); GetString(temp, STR_NETWORK_CHAT_COMPANY); snprintf(message, sizeof(message), "%s %s", temp, buf); } break; case NETWORK_ACTION_CHAT_CLIENT: if (self_send) { SetDParamStr(0, name); GetString(temp, STR_NETWORK_CHAT_TO_CLIENT); snprintf(message, sizeof(message), "%s %s", temp, buf); } else { SetDParamStr(0, name); GetString(temp, STR_NETWORK_CHAT_CLIENT); snprintf(message, sizeof(message), "%s %s", temp, buf); } break; case NETWORK_ACTION_NAME_CHANGE: GetString(temp, STR_NETWORK_NAME_CHANGE); snprintf(message, sizeof(message), "*** %s %s %s", name, temp, buf); break; default: SetDParamStr(0, name); GetString(temp, STR_NETWORK_CHAT_ALL); snprintf(message, sizeof(message), "%s %s", temp, buf); break; } IConsolePrintF(color, "%s", message); AddTextMessage(color, duration, "%s", message); } // Calculate the frame-lag of a client uint NetworkCalculateLag(const NetworkClientState *cs) { int lag = cs->last_frame_server - cs->last_frame; // This client has missed his ACK packet after 1 DAY_TICKS.. // so we increase his lag for every frame that passes! // The packet can be out by a max of _net_frame_freq if (cs->last_frame_server + DAY_TICKS + _network_frame_freq < _frame_counter) lag += _frame_counter - (cs->last_frame_server + DAY_TICKS + _network_frame_freq); return lag; } // There was a non-recoverable error, drop back to the main menu with a nice // error static void NetworkError(StringID error_string) { _switch_mode = SM_MENU; _switch_mode_errorstr = error_string; } static void ClientStartError(const char *error) { DEBUG(net, 0)("[NET] Client could not start network: %s",error); NetworkError(STR_NETWORK_ERR_CLIENT_START); } static void ServerStartError(const char *error) { DEBUG(net, 0)("[NET] Server could not start network: %s",error); NetworkError(STR_NETWORK_ERR_SERVER_START); } static void NetworkClientError(byte res, NetworkClientState *cs) { // First, send a CLIENT_ERROR to the server, so he knows we are // disconnection (and why!) NetworkErrorCode errorno; // We just want to close the connection.. if (res == NETWORK_RECV_STATUS_CLOSE_QUERY) { cs->quited = true; NetworkCloseClient(cs); _networking = false; DeleteWindowById(WC_NETWORK_STATUS_WINDOW, 0); return; } switch (res) { case NETWORK_RECV_STATUS_DESYNC: errorno = NETWORK_ERROR_DESYNC; break; case NETWORK_RECV_STATUS_SAVEGAME: errorno = NETWORK_ERROR_SAVEGAME_FAILED; break; default: errorno = NETWORK_ERROR_GENERAL; } // This means we fucked up and the server closed the connection if (res != NETWORK_RECV_STATUS_SERVER_ERROR && res != NETWORK_RECV_STATUS_SERVER_FULL && res != NETWORK_RECV_STATUS_SERVER_BANNED) { SEND_COMMAND(PACKET_CLIENT_ERROR)(errorno); // Dequeue all commands before closing the socket NetworkSend_Packets(DEREF_CLIENT(0)); } _switch_mode = SM_MENU; NetworkCloseClient(cs); _networking = false; } /** Retrieve a string representation of an internal error number * @param buf buffer where the error message will be stored * @param err NetworkErrorCode (integer) * @return returns a pointer to the error message (buf) */ char *GetNetworkErrorMsg(char *buf, NetworkErrorCode err) { /* List of possible network errors, used by * PACKET_SERVER_ERROR and PACKET_CLIENT_ERROR */ static const StringID network_error_strings[] = { STR_NETWORK_ERR_CLIENT_GENERAL, STR_NETWORK_ERR_CLIENT_DESYNC, STR_NETWORK_ERR_CLIENT_SAVEGAME, STR_NETWORK_ERR_CLIENT_CONNECTION_LOST, STR_NETWORK_ERR_CLIENT_PROTOCOL_ERROR, STR_NETWORK_ERR_CLIENT_NOT_AUTHORIZED, STR_NETWORK_ERR_CLIENT_NOT_EXPECTED, STR_NETWORK_ERR_CLIENT_WRONG_REVISION, STR_NETWORK_ERR_CLIENT_NAME_IN_USE, STR_NETWORK_ERR_CLIENT_WRONG_PASSWORD, STR_NETWORK_ERR_CLIENT_PLAYER_MISMATCH, STR_NETWORK_ERR_CLIENT_KICKED, STR_NETWORK_ERR_CLIENT_CHEATER, STR_NETWORK_ERR_CLIENT_SERVER_FULL, }; if (err >= lengthof(network_error_strings)) err = 0; return GetString(buf, network_error_strings[err]); } // Find all IP-aliases for this host static void NetworkFindIPs(void) { int i; #if defined(BEOS_NET_SERVER) /* doesn't have neither getifaddrs or net/if.h */ /* Based on Andrew Bachmann's netstat+.c. Big thanks to him! */ int _netstat(int fd, char **output, int verbose); int seek_past_header(char **pos, const char *header) { char *new_pos = strstr(*pos, header); if (new_pos == 0) { return B_ERROR; } *pos += strlen(header) + new_pos - *pos + 1; return B_OK; } int output_length; char *output_pointer = NULL; char **output; int sock = socket(AF_INET, SOCK_DGRAM, 0); i = 0; // If something fails, make sure the list is empty _broadcast_list[0] = 0; if (sock < 0) { DEBUG(net, 0)("Error creating socket!"); return; } output_length = _netstat(sock, &output_pointer, 1); if (output_length < 0) { DEBUG(net, 0)("Error running _netstat!"); return; } output = &output_pointer; if (seek_past_header(output, "IP Interfaces:") == B_OK) { for (;;) { uint32 n, fields, read; uint8 i1, i2, i3, i4, j1, j2, j3, j4; struct in_addr inaddr; uint32 ip; uint32 netmask; fields = sscanf(*output, "%u: %hhu.%hhu.%hhu.%hhu, netmask %hhu.%hhu.%hhu.%hhu%n", &n, &i1,&i2,&i3,&i4, &j1,&j2,&j3,&j4, &read); read += 1; if (fields != 9) { break; } ip = (uint32)i1 << 24 | (uint32)i2 << 16 | (uint32)i3 << 8 | (uint32)i4; netmask = (uint32)j1 << 24 | (uint32)j2 << 16 | (uint32)j3 << 8 | (uint32)j4; if (ip != INADDR_LOOPBACK && ip != INADDR_ANY) { inaddr.s_addr = htonl(ip | ~netmask); _broadcast_list[i] = inaddr.s_addr; i++; } if (read < 0) { break; } *output += read; } /* XXX - Using either one of these crashes openttd heavily? - wber */ /*free(output_pointer);*/ /*free(output);*/ closesocket(sock); } #elif defined(HAVE_GETIFADDRS) struct ifaddrs *ifap, *ifa; // If something fails, make sure the list is empty _broadcast_list[0] = 0; if (getifaddrs(&ifap) != 0) return; i = 0; for (ifa = ifap; ifa != NULL; ifa = ifa->ifa_next) { if (!(ifa->ifa_flags & IFF_BROADCAST)) continue; if (ifa->ifa_broadaddr == NULL) continue; if (ifa->ifa_broadaddr->sa_family != AF_INET) continue; _broadcast_list[i] = ((struct sockaddr_in*)ifa->ifa_broadaddr)->sin_addr.s_addr; i++; } freeifaddrs(ifap); #else /* not HAVE_GETIFADDRS */ SOCKET sock; #ifdef WIN32 DWORD len = 0; INTERFACE_INFO ifo[MAX_INTERFACES]; uint j; #else char buf[4 * 1024]; // Arbitrary buffer size struct ifconf ifconf; const char* buf_end; const char* p; #endif // If something fails, make sure the list is empty _broadcast_list[0] = 0; sock = socket(AF_INET, SOCK_DGRAM, 0); if (sock == INVALID_SOCKET) return; #ifdef WIN32 memset(&ifo[0], 0, sizeof(ifo)); if ((WSAIoctl(sock, SIO_GET_INTERFACE_LIST, NULL, 0, &ifo[0], sizeof(ifo), &len, NULL, NULL)) != 0) { closesocket(sock); return; } i = 0; for (j = 0; j < len / sizeof(*ifo); j++) { if (ifo[j].iiFlags & IFF_LOOPBACK) continue; if (!(ifo[j].iiFlags & IFF_BROADCAST)) continue; /* iiBroadcast is unusable, because it always seems to be set to * 255.255.255.255. */ _broadcast_list[i++] = ifo[j].iiAddress.AddressIn.sin_addr.s_addr | ~ifo[j].iiNetmask.AddressIn.sin_addr.s_addr; } #else ifconf.ifc_len = sizeof(buf); ifconf.ifc_buf = buf; if (ioctl(sock, SIOCGIFCONF, &ifconf) == -1) { closesocket(sock); return; } i = 0; buf_end = buf + ifconf.ifc_len; for (p = buf; p < buf_end;) { const struct ifreq* req = (const struct ifreq*)p; if (req->ifr_addr.sa_family == AF_INET) { struct ifreq r; strncpy(r.ifr_name, req->ifr_name, lengthof(r.ifr_name)); if (ioctl(sock, SIOCGIFFLAGS, &r) != -1 && r.ifr_flags & IFF_BROADCAST && ioctl(sock, SIOCGIFBRDADDR, &r) != -1) { _broadcast_list[i++] = ((struct sockaddr_in*)&r.ifr_broadaddr)->sin_addr.s_addr; } } p += sizeof(struct ifreq); #ifdef AF_LINK p += req->ifr_addr.sa_len - sizeof(struct sockaddr); #endif } #endif closesocket(sock); #endif /* not HAVE_GETIFADDRS */ _broadcast_list[i] = 0; DEBUG(net, 3)("Detected broadcast addresses:"); // Now display to the debug all the detected ips for (i = 0; _broadcast_list[i] != 0; i++) { DEBUG(net, 3)(" %d) %s", i, inet_ntoa(*(struct in_addr *)&_broadcast_list[i]));//inet_ntoa(inaddr)); } } // Resolve a hostname to a inet_addr unsigned long NetworkResolveHost(const char *hostname) { in_addr_t ip; // First try: is it an ip address? ip = inet_addr(hostname); // If not try to resolve the name if (ip == INADDR_NONE) { struct hostent *he = gethostbyname(hostname); if (he == NULL) { DEBUG(net, 0) ("[NET] Cannot resolve %s", hostname); } else { struct in_addr addr = *(struct in_addr *)he->h_addr_list[0]; DEBUG(net, 1) ("[NET] Resolved %s to %s", hostname, inet_ntoa(addr)); ip = addr.s_addr; } } return ip; } // Converts a string to ip/port/player // Format: IP#player:port // // connection_string will be re-terminated to seperate out the hostname, and player and port will // be set to the player and port strings given by the user, inside the memory area originally // occupied by connection_string. void ParseConnectionString(const char **player, const char **port, char *connection_string) { char *p; for (p = connection_string; *p != '\0'; p++) { if (*p == '#') { *player = p + 1; *p = '\0'; } else if (*p == ':') { *port = p + 1; *p = '\0'; } } } // Creates a new client from a socket // Used both by the server and the client static NetworkClientState *NetworkAllocClient(SOCKET s) { NetworkClientState *cs; NetworkClientInfo *ci; byte client_no; client_no = 0; if (_network_server) { // Can we handle a new client? if (_network_clients_connected >= MAX_CLIENTS) return NULL; if (_network_game_info.clients_on >= _network_game_info.clients_max) return NULL; // Register the login client_no = _network_clients_connected++; } cs = &_clients[client_no]; memset(cs, 0, sizeof(*cs)); cs->socket = s; cs->last_frame = 0; cs->quited = false; cs->last_frame = _frame_counter; cs->last_frame_server = _frame_counter; if (_network_server) { ci = DEREF_CLIENT_INFO(cs); memset(ci, 0, sizeof(*ci)); cs->index = _network_client_index++; ci->client_index = cs->index; ci->join_date = _date; InvalidateWindow(WC_CLIENT_LIST, 0); } return cs; } // Close a connection void NetworkCloseClient(NetworkClientState *cs) { NetworkClientInfo *ci; // Socket is already dead if (cs->socket == INVALID_SOCKET) { cs->quited = true; return; } DEBUG(net, 1) ("[NET] Closed client connection"); if (!cs->quited && _network_server && cs->status > STATUS_INACTIVE) { // We did not receive a leave message from this client... NetworkErrorCode errorno = NETWORK_ERROR_CONNECTION_LOST; char str[100]; char client_name[NETWORK_CLIENT_NAME_LENGTH]; NetworkClientState *new_cs; NetworkGetClientName(client_name, sizeof(client_name), cs); GetNetworkErrorMsg(str, errorno); NetworkTextMessage(NETWORK_ACTION_LEAVE, 1, false, client_name, "%s", str); // Inform other clients of this... strange leaving ;) FOR_ALL_CLIENTS(new_cs) { if (new_cs->status > STATUS_AUTH && cs != new_cs) { SEND_COMMAND(PACKET_SERVER_ERROR_QUIT)(new_cs, cs->index, errorno); } } } /* When the client was PRE_ACTIVE, the server was in pause mode, so unpause */ if (cs->status == STATUS_PRE_ACTIVE && _network_pause_on_join) { DoCommandP(0, 0, 0, NULL, CMD_PAUSE); NetworkServer_HandleChat(NETWORK_ACTION_CHAT, DESTTYPE_BROADCAST, 0, "Game unpaused", NETWORK_SERVER_INDEX); } closesocket(cs->socket); cs->writable = false; cs->quited = true; // Free all pending and partially received packets while (cs->packet_queue != NULL) { Packet *p = cs->packet_queue->next; free(cs->packet_queue); cs->packet_queue = p; } free(cs->packet_recv); cs->packet_recv = NULL; while (cs->command_queue != NULL) { CommandPacket *p = cs->command_queue->next; free(cs->command_queue); cs->command_queue = p; } // Close the gap in the client-list ci = DEREF_CLIENT_INFO(cs); if (_network_server) { // We just lost one client :( if (cs->status > STATUS_INACTIVE) _network_game_info.clients_on--; _network_clients_connected--; while ((cs + 1) != DEREF_CLIENT(MAX_CLIENTS) && (cs + 1)->socket != INVALID_SOCKET) { *cs = *(cs + 1); *ci = *(ci + 1); cs++; ci++; } InvalidateWindow(WC_CLIENT_LIST, 0); } // Reset the status of the last socket cs->socket = INVALID_SOCKET; cs->status = STATUS_INACTIVE; cs->index = NETWORK_EMPTY_INDEX; ci->client_index = NETWORK_EMPTY_INDEX; } // A client wants to connect to a server static bool NetworkConnect(const char *hostname, int port) { SOCKET s; struct sockaddr_in sin; DEBUG(net, 1) ("[NET] Connecting to %s %d", hostname, port); s = socket(AF_INET, SOCK_STREAM, 0); if (s == INVALID_SOCKET) { ClientStartError("socket() failed"); return false; } if (!SetNoDelay(s)) DEBUG(net, 1)("[NET] Setting TCP_NODELAY failed"); sin.sin_family = AF_INET; sin.sin_addr.s_addr = NetworkResolveHost(hostname); sin.sin_port = htons(port); _network_last_host_ip = sin.sin_addr.s_addr; if (connect(s, (struct sockaddr*) &sin, sizeof(sin)) != 0) { // We failed to connect for which reason what so ever return false; } if (!SetNonBlocking(s)) DEBUG(net, 0)("[NET] Setting non-blocking failed"); // XXX should this be an error? // in client mode, only the first client field is used. it's pointing to the server. NetworkAllocClient(s); ShowJoinStatusWindow(); return true; } // For the server, to accept new clients static void NetworkAcceptClients(void) { struct sockaddr_in sin; SOCKET s; NetworkClientState *cs; uint i; bool banned; // Should never ever happen.. is it possible?? assert(_listensocket != INVALID_SOCKET); for (;;) { socklen_t sin_len; sin_len = sizeof(sin); s = accept(_listensocket, (struct sockaddr*)&sin, &sin_len); if (s == INVALID_SOCKET) return; SetNonBlocking(s); // XXX error handling? DEBUG(net, 1) ("[NET] Client connected from %s on frame %d", inet_ntoa(sin.sin_addr), _frame_counter); SetNoDelay(s); // XXX error handling? /* Check if the client is banned */ banned = false; for (i = 0; i < lengthof(_network_ban_list); i++) { if (_network_ban_list[i] == NULL) continue; if (sin.sin_addr.s_addr == inet_addr(_network_ban_list[i])) { Packet *p = NetworkSend_Init(PACKET_SERVER_BANNED); DEBUG(net, 1)("[NET] Banned ip tried to join (%s), refused", _network_ban_list[i]); p->buffer[0] = p->size & 0xFF; p->buffer[1] = p->size >> 8; send(s, p->buffer, p->size, 0); closesocket(s); free(p); banned = true; break; } } /* If this client is banned, continue with next client */ if (banned) continue; cs = NetworkAllocClient(s); if (cs == NULL) { // no more clients allowed? // Send to the client that we are full! Packet *p = NetworkSend_Init(PACKET_SERVER_FULL); p->buffer[0] = p->size & 0xFF; p->buffer[1] = p->size >> 8; send(s, p->buffer, p->size, 0); closesocket(s); free(p); continue; } // a new client has connected. We set him at inactive for now // maybe he is only requesting server-info. Till he has sent a PACKET_CLIENT_MAP_OK // the client stays inactive cs->status = STATUS_INACTIVE; { // Save the IP of the client NetworkClientInfo *ci; ci = DEREF_CLIENT_INFO(cs); ci->client_ip = sin.sin_addr.s_addr; } } } // Set up the listen socket for the server static bool NetworkListen(void) { SOCKET ls; struct sockaddr_in sin; int port; port = _network_server_port; DEBUG(net, 1) ("[NET] Listening on %s:%d", _network_server_bind_ip_host, port); ls = socket(AF_INET, SOCK_STREAM, 0); if (ls == INVALID_SOCKET) { ServerStartError("socket() on listen socket failed"); return false; } { // reuse the socket int reuse = 1; // The (const char*) cast is needed for windows!! if (setsockopt(ls, SOL_SOCKET, SO_REUSEADDR, (const char*)&reuse, sizeof(reuse)) == -1) { ServerStartError("setsockopt() on listen socket failed"); return false; } } if (!SetNonBlocking(ls)) DEBUG(net, 0)("[NET] Setting non-blocking failed"); // XXX should this be an error? sin.sin_family = AF_INET; sin.sin_addr.s_addr = _network_server_bind_ip; sin.sin_port = htons(port); if (bind(ls, (struct sockaddr*)&sin, sizeof(sin)) != 0) { ServerStartError("bind() failed"); return false; } if (listen(ls, 1) != 0) { ServerStartError("listen() failed"); return false; } _listensocket = ls; return true; } // Close all current connections static void NetworkClose(void) { NetworkClientState *cs; FOR_ALL_CLIENTS(cs) { if (!_network_server) { SEND_COMMAND(PACKET_CLIENT_QUIT)("leaving"); NetworkSend_Packets(cs); } NetworkCloseClient(cs); } if (_network_server) { // We are a server, also close the listensocket closesocket(_listensocket); _listensocket = INVALID_SOCKET; DEBUG(net, 1) ("[NET] Closed listener"); NetworkUDPClose(); } } // Inits the network (cleans sockets and stuff) static void NetworkInitialize(void) { NetworkClientState *cs; _local_command_queue = NULL; // Clean all client-sockets memset(_clients, 0, sizeof(_clients)); for (cs = _clients; cs != &_clients[MAX_CLIENTS]; cs++) { cs->socket = INVALID_SOCKET; cs->status = STATUS_INACTIVE; cs->command_queue = NULL; } // Clean the client_info memory memset(&_network_client_info, 0, sizeof(_network_client_info)); memset(&_network_player_info, 0, sizeof(_network_player_info)); _sync_frame = 0; _network_first_time = true; _network_reconnect = 0; NetworkUDPInitialize(); } // Query a server to fetch his game-info // If game_info is true, only the gameinfo is fetched, // else only the client_info is fetched NetworkGameList *NetworkQueryServer(const char* host, unsigned short port, bool game_info) { if (!_network_available) return NULL; NetworkDisconnect(); if (game_info) { return NetworkUDPQueryServer(host, port); } NetworkInitialize(); _network_server = false; // Try to connect _networking = NetworkConnect(host, port); // ttd_strlcpy(_network_last_host, host, sizeof(_network_last_host)); // _network_last_port = port; // We are connected if (_networking) { SEND_COMMAND(PACKET_CLIENT_COMPANY_INFO)(); return NULL; } // No networking, close everything down again NetworkDisconnect(); return NULL; } /* Validates an address entered as a string and adds the server to * the list. If you use this function, the games will be marked * as manually added. */ void NetworkAddServer(const char *b) { if (*b != '\0') { NetworkGameList *item; const char *port = NULL; const char *player = NULL; char host[NETWORK_HOSTNAME_LENGTH]; uint16 rport; ttd_strlcpy(host, b, lengthof(host)); ttd_strlcpy(_network_default_ip, b, lengthof(_network_default_ip)); rport = NETWORK_DEFAULT_PORT; ParseConnectionString(&player, &port, host); if (player != NULL) _network_playas = atoi(player); if (port != NULL) rport = atoi(port); item = NetworkQueryServer(host, rport, true); item->manually = true; } } /* Generates the list of manually added hosts from NetworkGameList and * dumps them into the array _network_host_list. This array is needed * by the function that generates the config file. */ void NetworkRebuildHostList(void) { uint i = 0; NetworkGameList *item = _network_game_list; while (item != NULL && i != lengthof(_network_host_list)) { if (item->manually) { free(_network_host_list[i]); _network_host_list[i++] = str_fmt("%s:%i", item->info.hostname, item->port); } item = item->next; } for (; i < lengthof(_network_host_list); i++) { free(_network_host_list[i]); _network_host_list[i] = NULL; } } // Used by clients, to connect to a server bool NetworkClientConnectGame(const char* host, unsigned short port) { if (!_network_available) return false; if (port == 0) return false; ttd_strlcpy(_network_last_host, host, sizeof(_network_last_host)); _network_last_port = port; NetworkDisconnect(); NetworkUDPClose(); NetworkInitialize(); // Try to connect _networking = NetworkConnect(host, port); // We are connected if (_networking) { IConsoleCmdExec("exec scripts/on_client.scr 0"); NetworkClient_Connected(); } else { // Connecting failed NetworkError(STR_NETWORK_ERR_NOCONNECTION); } return _networking; } static void NetworkInitGameInfo(void) { NetworkClientInfo *ci; ttd_strlcpy(_network_game_info.server_name, _network_server_name, sizeof(_network_game_info.server_name)); ttd_strlcpy(_network_game_info.server_password, _network_server_password, sizeof(_network_server_password)); ttd_strlcpy(_network_game_info.rcon_password, _network_rcon_password, sizeof(_network_rcon_password)); if (_network_game_info.server_name[0] == '\0') snprintf(_network_game_info.server_name, sizeof(_network_game_info.server_name), "Unnamed Server"); ttd_strlcpy(_network_game_info.server_revision, _openttd_revision, sizeof(_network_game_info.server_revision)); // The server is a client too ;) if (_network_dedicated) { _network_game_info.clients_on = 0; _network_game_info.companies_on = 0; _network_game_info.dedicated = true; } else { _network_game_info.clients_on = 1; _network_game_info.companies_on = 1; _network_game_info.dedicated = false; } _network_game_info.spectators_on = 0; _network_game_info.game_date = _date; _network_game_info.start_date = ConvertIntDate(_patches.starting_date); _network_game_info.map_width = MapSizeX(); _network_game_info.map_height = MapSizeY(); _network_game_info.map_set = _opt.landscape; _network_game_info.use_password = (_network_server_password[0] != '\0'); // We use _network_client_info[MAX_CLIENT_INFO - 1] to store the server-data in it // The index is NETWORK_SERVER_INDEX ( = 1) ci = &_network_client_info[MAX_CLIENT_INFO - 1]; memset(ci, 0, sizeof(*ci)); ci->client_index = NETWORK_SERVER_INDEX; if (_network_dedicated) ci->client_playas = OWNER_SPECTATOR; else ci->client_playas = _local_player + 1; ttd_strlcpy(ci->client_name, _network_player_name, sizeof(ci->client_name)); ttd_strlcpy(ci->unique_id, _network_unique_id, sizeof(ci->unique_id)); } bool NetworkServerStart(void) { if (!_network_available) return false; /* Call the pre-scripts */ IConsoleCmdExec("exec scripts/pre_server.scr 0"); if (_network_dedicated) IConsoleCmdExec("exec scripts/pre_dedicated.scr 0"); NetworkInitialize(); if (!NetworkListen()) return false; // Try to start UDP-server _network_udp_server = true; _network_udp_server = NetworkUDPListen(&_udp_server_socket, _network_server_bind_ip, _network_server_port, false); _network_server = true; _networking = true; _frame_counter = 0; _frame_counter_server = 0; _frame_counter_max = 0; _last_sync_frame = 0; _network_own_client_index = NETWORK_SERVER_INDEX; if (!_network_dedicated) _network_playas = 1; _network_clients_connected = 0; NetworkInitGameInfo(); // execute server initialization script IConsoleCmdExec("exec scripts/on_server.scr 0"); // if the server is dedicated ... add some other script if (_network_dedicated) IConsoleCmdExec("exec scripts/on_dedicated.scr 0"); /* Try to register us to the master server */ _network_last_advertise_frame = 0; _network_need_advertise = true; NetworkUDPAdvertise(); return true; } // The server is rebooting... // The only difference with NetworkDisconnect, is the packets that is sent void NetworkReboot(void) { if (_network_server) { NetworkClientState *cs; FOR_ALL_CLIENTS(cs) { SEND_COMMAND(PACKET_SERVER_NEWGAME)(cs); NetworkSend_Packets(cs); } } NetworkClose(); // Free all queued commands while (_local_command_queue != NULL) { CommandPacket *p = _local_command_queue; _local_command_queue = _local_command_queue->next; free(p); } _networking = false; _network_server = false; } // We want to disconnect from the host/clients void NetworkDisconnect(void) { if (_network_server) { NetworkClientState *cs; FOR_ALL_CLIENTS(cs) { SEND_COMMAND(PACKET_SERVER_SHUTDOWN)(cs); NetworkSend_Packets(cs); } } if (_network_advertise) NetworkUDPRemoveAdvertise(); DeleteWindowById(WC_NETWORK_STATUS_WINDOW, 0); NetworkClose(); // Free all queued commands while (_local_command_queue != NULL) { CommandPacket *p = _local_command_queue; _local_command_queue = _local_command_queue->next; free(p); } _networking = false; _network_server = false; } // Receives something from the network static bool NetworkReceive(void) { NetworkClientState *cs; int n; fd_set read_fd, write_fd; struct timeval tv; FD_ZERO(&read_fd); FD_ZERO(&write_fd); FOR_ALL_CLIENTS(cs) { FD_SET(cs->socket, &read_fd); FD_SET(cs->socket, &write_fd); } // take care of listener port if (_network_server) { FD_SET(_listensocket, &read_fd); } tv.tv_sec = tv.tv_usec = 0; // don't block at all. #if !defined(__MORPHOS__) && !defined(__AMIGA__) n = select(FD_SETSIZE, &read_fd, &write_fd, NULL, &tv); #else n = WaitSelect(FD_SETSIZE, &read_fd, &write_fd, NULL, &tv, NULL); #endif if (n == -1 && !_network_server) NetworkError(STR_NETWORK_ERR_LOSTCONNECTION); // accept clients.. if (_network_server && FD_ISSET(_listensocket, &read_fd)) NetworkAcceptClients(); // read stuff from clients FOR_ALL_CLIENTS(cs) { cs->writable = !!FD_ISSET(cs->socket, &write_fd); if (FD_ISSET(cs->socket, &read_fd)) { if (_network_server) NetworkServer_ReadPackets(cs); else { byte res; // The client already was quiting! if (cs->quited) return false; if ((res = NetworkClient_ReadPackets(cs)) != NETWORK_RECV_STATUS_OKAY) { // The client made an error of which we can not recover // close the client and drop back to main menu NetworkClientError(res, cs); return false; } } } } return true; } // This sends all buffered commands (if possible) static void NetworkSend(void) { NetworkClientState *cs; FOR_ALL_CLIENTS(cs) { if (cs->writable) { NetworkSend_Packets(cs); if (cs->status == STATUS_MAP) { // This client is in the middle of a map-send, call the function for that SEND_COMMAND(PACKET_SERVER_MAP)(cs); } } } } // Handle the local-command-queue static void NetworkHandleLocalQueue(void) { CommandPacket *cp, **cp_prev; cp_prev = &_local_command_queue; while ( (cp = *cp_prev) != NULL) { // The queue is always in order, which means // that the first element will be executed first. if (_frame_counter < cp->frame) break; if (_frame_counter > cp->frame) { // If we reach here, it means for whatever reason, we've already executed // past the command we need to execute. DEBUG(net, 0)("[NET] Trying to execute a packet in the past!"); assert(0); } // We can execute this command NetworkExecuteCommand(cp); *cp_prev = cp->next; free(cp); } // Just a safety check, to be removed in the future. // Make sure that no older command appears towards the end of the queue // In that case we missed executing it. This will never happen. for (cp = _local_command_queue; cp; cp = cp->next) { assert(_frame_counter < cp->frame); } } static bool NetworkDoClientLoop(void) { _frame_counter++; NetworkHandleLocalQueue(); StateGameLoop(); // Check if we are in sync! if (_sync_frame != 0) { if (_sync_frame == _frame_counter) { #ifdef NETWORK_SEND_DOUBLE_SEED if (_sync_seed_1 != _random_seeds[0][0] || _sync_seed_2 != _random_seeds[0][1]) { #else if (_sync_seed_1 != _random_seeds[0][0]) { #endif NetworkError(STR_NETWORK_ERR_DESYNC); DEBUG(net, 0)("[NET] Sync error detected!"); NetworkClientError(NETWORK_RECV_STATUS_DESYNC, DEREF_CLIENT(0)); return false; } // If this is the first time we have a sync-frame, we // need to let the server know that we are ready and at the same // frame as he is.. so we can start playing! if (_network_first_time) { _network_first_time = false; SEND_COMMAND(PACKET_CLIENT_ACK)(); } _sync_frame = 0; } else if (_sync_frame < _frame_counter) { DEBUG(net, 1)("[NET] Missed frame for sync-test (%d / %d)", _sync_frame, _frame_counter); _sync_frame = 0; } } return true; } // We have to do some UDP checking void NetworkUDPGameLoop(void) { if (_network_udp_server) { NetworkUDPReceive(_udp_server_socket); if (_udp_master_socket != INVALID_SOCKET) { NetworkUDPReceive(_udp_master_socket); } } else if (_udp_client_socket != INVALID_SOCKET) { NetworkUDPReceive(_udp_client_socket); if (_network_udp_broadcast > 0) _network_udp_broadcast--; } } // The main loop called from ttd.c // Here we also have to do StateGameLoop if needed! void NetworkGameLoop(void) { if (!_networking) return; if (!NetworkReceive()) return; if (_network_server) { bool send_frame = false; // We first increase the _frame_counter _frame_counter++; // Update max-frame-counter if (_frame_counter > _frame_counter_max) { _frame_counter_max = _frame_counter + _network_frame_freq; send_frame = true; } NetworkHandleLocalQueue(); // Then we make the frame StateGameLoop(); _sync_seed_1 = _random_seeds[0][0]; #ifdef NETWORK_SEND_DOUBLE_SEED _sync_seed_2 = _random_seeds[0][1]; #endif NetworkServer_Tick(send_frame); } else { // Client // Make sure we are at the frame were the server is (quick-frames) if (_frame_counter_server > _frame_counter) { while (_frame_counter_server > _frame_counter) { if (!NetworkDoClientLoop()) break; } } else { // Else, keep on going till _frame_counter_max if (_frame_counter_max > _frame_counter) { NetworkDoClientLoop(); } } } NetworkSend(); } static void NetworkGenerateUniqueId(void) { md5_state_t state; md5_byte_t digest[16]; char hex_output[16*2 + 1]; char coding_string[NETWORK_NAME_LENGTH]; int di; snprintf(coding_string, sizeof(coding_string), "%d%s", (uint)Random(), "OpenTTD Unique ID"); /* Generate the MD5 hash */ md5_init(&state); md5_append(&state, (const md5_byte_t*)coding_string, strlen(coding_string)); md5_finish(&state, digest); for (di = 0; di < 16; ++di) sprintf(hex_output + di * 2, "%02x", digest[di]); /* _network_unique_id is our id */ snprintf(_network_unique_id, sizeof(_network_unique_id), "%s", hex_output); } // This tries to launch the network for a given OS void NetworkStartUp(void) { DEBUG(net, 3) ("[NET][Core] Starting network..."); #if defined(__MORPHOS__) || defined(__AMIGA__) /* * IMPORTANT NOTE: SocketBase needs to be initialized before we use _any_ * network related function, else: crash. */ { DEBUG(misc,3) ("[NET][Core] Loading bsd socket library"); if (!(SocketBase = OpenLibrary("bsdsocket.library", 4))) { DEBUG(net, 0) ("[NET][Core] Error: couldn't open bsdsocket.library version 4. Network not available."); _network_available = false; return; } #if defined(__AMIGA__) // for usleep() implementation (only required for legacy AmigaOS builds) if ( (TimerPort = CreateMsgPort()) ) { if ( (TimerRequest = (struct timerequest *) CreateIORequest(TimerPort, sizeof(struct timerequest))) ) { if ( OpenDevice("timer.device", UNIT_MICROHZ, (struct IORequest *) TimerRequest, 0) == 0 ) { if ( !(TimerBase = TimerRequest->tr_node.io_Device) ) { // free ressources... DEBUG(net, 0) ("[NET][Core] Error: couldn't initialize timer. Network not available."); _network_available = false; return; } } } } #endif // __AMIGA__ } #endif // __MORPHOS__ / __AMIGA__ // Network is available _network_available = true; _network_dedicated = false; _network_last_advertise_frame = 0; _network_need_advertise = true; _network_advertise_retries = 0; /* Load the ip from the openttd.cfg */ _network_server_bind_ip = inet_addr(_network_server_bind_ip_host); /* And put the data back in it in case it was an invalid ip */ snprintf(_network_server_bind_ip_host, sizeof(_network_server_bind_ip_host), "%s", inet_ntoa(*(struct in_addr *)&_network_server_bind_ip)); /* Generate an unique id when there is none yet */ if (_network_unique_id[0] == '\0') NetworkGenerateUniqueId(); memset(&_network_game_info, 0, sizeof(_network_game_info)); _network_game_info.clients_max = 10; // XXX - hardcoded, string limiation -- TrueLight _network_game_info.companies_max = MAX_PLAYERS; // 8 _network_game_info.spectators_max = _network_game_info.clients_max; // Let's load the network in windows #if defined(WIN32) { WSADATA wsa; DEBUG(net, 3) ("[NET][Core] Loading windows socket library"); if (WSAStartup(MAKEWORD(2,0), &wsa) != 0) { DEBUG(net, 0) ("[NET][Core] Error: WSAStartup failed. Network not available."); _network_available = false; return; } } #endif // WIN32 NetworkInitialize(); DEBUG(net, 3) ("[NET][Core] Network online. Multiplayer available."); NetworkFindIPs(); } // This shuts the network down void NetworkShutDown(void) { DEBUG(net, 3) ("[NET][Core] Shutting down the network."); _network_available = false; #if defined(__MORPHOS__) || defined(__AMIGA__) { // free allocated ressources #if defined(__AMIGA__) if (TimerBase) { CloseDevice((struct IORequest *) TimerRequest); } if (TimerRequest) { DeleteIORequest(TimerRequest); } if (TimerPort) { DeleteMsgPort(TimerPort); } #endif if (SocketBase) { CloseLibrary(SocketBase); } } #endif #if defined(WIN32) { WSACleanup(); } #endif } #endif /* ENABLE_NETWORK */