/********************************************************************************** Snes9x - Portable Super Nintendo Entertainment System (TM) emulator. (c) Copyright 1996 - 2002 Gary Henderson (gary.henderson@ntlworld.com) and Jerremy Koot (jkoot@snes9x.com) (c) Copyright 2002 - 2004 Matthew Kendora (c) Copyright 2002 - 2005 Peter Bortas (peter@bortas.org) (c) Copyright 2004 - 2005 Joel Yliluoma (http://iki.fi/bisqwit/) (c) Copyright 2001 - 2006 John Weidman (jweidman@slip.net) (c) Copyright 2002 - 2006 Brad Jorsch (anomie@users.sourceforge.net), funkyass (funkyass@spam.shaw.ca), Kris Bleakley (codeviolation@hotmail.com), Nach (n-a-c-h@users.sourceforge.net), and zones (kasumitokoduck@yahoo.com) BS-X C emulator code (c) Copyright 2005 - 2006 Dreamer Nom, zones C4 x86 assembler and some C emulation code (c) Copyright 2000 - 2003 _Demo_ (_demo_@zsnes.com), Nach, zsKnight (zsknight@zsnes.com) C4 C++ code (c) Copyright 2003 - 2006 Brad Jorsch, Nach DSP-1 emulator code (c) Copyright 1998 - 2006 _Demo_, Andreas Naive (andreasnaive@gmail.com) Gary Henderson, Ivar (ivar@snes9x.com), John Weidman, Kris Bleakley, Matthew Kendora, Nach, neviksti (neviksti@hotmail.com) DSP-2 emulator code (c) Copyright 2003 John Weidman, Kris Bleakley, Lord Nightmare (lord_nightmare@users.sourceforge.net), Matthew Kendora, neviksti DSP-3 emulator code (c) Copyright 2003 - 2006 John Weidman, Kris Bleakley, Lancer, z80 gaiden DSP-4 emulator code (c) Copyright 2004 - 2006 Dreamer Nom, John Weidman, Kris Bleakley, Nach, z80 gaiden OBC1 emulator code (c) Copyright 2001 - 2004 zsKnight, pagefault (pagefault@zsnes.com), Kris Bleakley, Ported from x86 assembler to C by sanmaiwashi SPC7110 and RTC C++ emulator code (c) Copyright 2002 Matthew Kendora with research by zsKnight, John Weidman, Dark Force S-DD1 C emulator code (c) Copyright 2003 Brad Jorsch with research by Andreas Naive, John Weidman S-RTC C emulator code (c) Copyright 2001-2006 byuu, John Weidman ST010 C++ emulator code (c) Copyright 2003 Feather, John Weidman, Kris Bleakley, Matthew Kendora Super FX x86 assembler emulator code (c) Copyright 1998 - 2003 _Demo_, pagefault, zsKnight, Super FX C emulator code (c) Copyright 1997 - 1999 Ivar, Gary Henderson, John Weidman Sound DSP emulator code is derived from SNEeSe and OpenSPC: (c) Copyright 1998 - 2003 Brad Martin (c) Copyright 1998 - 2006 Charles Bilyue' SH assembler code partly based on x86 assembler code (c) Copyright 2002 - 2004 Marcus Comstedt (marcus@mc.pp.se) 2xSaI filter (c) Copyright 1999 - 2001 Derek Liauw Kie Fa HQ2x filter (c) Copyright 2003 Maxim Stepin (maxim@hiend3d.com) Specific ports contains the works of other authors. See headers in individual files. Snes9x homepage: http://www.snes9x.com Permission to use, copy, modify and/or distribute Snes9x in both binary and source form, for non-commercial purposes, is hereby granted without fee, providing that this license information and copyright notice appear with all copies and any derived work. This software is provided 'as-is', without any express or implied warranty. In no event shall the authors be held liable for any damages arising from the use of this software or it's derivatives. Snes9x is freeware for PERSONAL USE only. Commercial users should seek permission of the copyright holders first. Commercial use includes, but is not limited to, charging money for Snes9x or software derived from Snes9x, including Snes9x or derivatives in commercial game bundles, and/or using Snes9x as a promotion for your commercial product. The copyright holders request that bug fixes and improvements to the code should be forwarded to them so everyone can benefit from the modifications in future versions. Super NES and Super Nintendo Entertainment System are trademarks of Nintendo Co., Limited and its subsidiary companies. **********************************************************************************/ #ifdef NETPLAY_SUPPORT #include #include #include #include #include #ifdef HAVE_STRINGS_H #include #endif #ifndef __WIN32__ #include #include #endif #ifdef __WIN32__ #include #include #define ioctl ioctlsocket #define close closesocket #define read(a,b,c) recv(a, b, c, 0) #define write(a,b,c) send(a, b, c, 0) #define gettimeofday(a,b) S9xGetTimeOfDay (a) #define exit(a) _endthread() void S9xGetTimeOfDay (struct timeval *n); #else #include #include #include #include #include #include #ifdef __SVR4 #include #endif #endif // !__WIN32__ #include "snes9x.h" #include "netplay.h" #include "memmap.h" #include "snapshot.h" #define NP_ONE_CLIENT 1 struct SNPServer NPServer; extern unsigned long START; void S9xNPSendToAllClients (uint8 *data, int len); bool8 S9xNPLoadFreezeFile (const char *fname, uint8 *&data, uint32 &len); void S9xNPSendFreezeFile (int c, uint8 *data, uint32 len); void S9xNPNoClientReady (int start_index = NP_ONE_CLIENT); void S9xNPRecomputePause (); void S9xNPWaitForEmulationToComplete (); void S9xNPSendROMImageToAllClients (); bool8 S9xNPSendROMImageToClient (int client); void S9xNPSendSRAMToClient (int c); void S9xNPSendSRAMToAllClients (); void S9xNPSyncClient (int); void S9xNPSendROMLoadRequest (const char *filename); void S9xNPSendFreezeFileToAllClients (const char *filename); void S9xNPStopServer (); void S9xNPShutdownClient (int c, bool8 report_error = FALSE) { if (NPServer.Clients [c].Connected) { NPServer.Clients [c].Connected = FALSE; NPServer.Clients [c].SaidHello = FALSE; close (NPServer.Clients [c].Socket); #ifdef NP_DEBUG printf ("SERVER: Player %d disconnecting @%ld\n", c + 1, S9xGetMilliTime () - START); #endif if (report_error) { sprintf (NetPlay.ErrorMsg, "Player %d on '%s' has disconnected.", c + 1, NPServer.Clients [c].HostName); S9xNPSetError (NetPlay.ErrorMsg); } if (NPServer.Clients [c].HostName) { free ((char *) NPServer.Clients [c].HostName); NPServer.Clients [c].HostName = NULL; } if (NPServer.Clients [c].ROMName) { free ((char *) NPServer.Clients [c].ROMName); NPServer.Clients [c].ROMName = NULL; } if (NPServer.Clients [c].Who) { free ((char *) NPServer.Clients [c].Who); NPServer.Clients [c].Who = NULL; } NPServer.Joypads [c] = 0; NPServer.NumClients--; S9xNPRecomputePause (); } } static bool8 S9xNPSGetData (int socket, uint8 *data, int length) { int len = length; uint8 *ptr = data; do { int num_bytes = len; // Read the data in small chunks, allowing this thread to spot an // abort request from another thread. if (num_bytes > 512) num_bytes = 512; int got = read (socket, (char *) ptr, num_bytes); if (got < 0) { if (errno == EINTR #ifdef EAGAIN || errno == EAGAIN #endif #ifdef EWOULDBLOCK || errno == EWOULDBLOCK #endif #ifdef WSAEWOULDBLOCK || errno == WSAEWOULDBLOCK #endif ) continue; #ifdef WSAEMSGSIZE if (errno != WSAEMSGSIZE) return (FALSE); else { got = num_bytes; #ifdef NP_DEBUG printf ("SERVER: WSAEMSGSIZE, actual bytes %d while receiving data @%d\n", got, S9xGetMilliTime () - START); #endif } #else return (FALSE); #endif } else if (got == 0) return (FALSE); len -= got; ptr += got; } while (len > 0); return (TRUE); } static bool8 S9xNPSSendData (int fd, const uint8 *data, int length) { int Percent = 0; int len = length; int chunk = length / 50; if (chunk < 1024) chunk = 1024; do { int num_bytes = len; // Write the data in small chunks, allowing this thread to spot an // abort request from another thread. if (num_bytes > chunk) num_bytes = chunk; int sent; sent = write (fd, (char *) data, len); if (sent < 0) { if (errno == EINTR #ifdef EAGAIN || errno == EAGAIN #endif #ifdef EWOULDBLOCK || errno == EWOULDBLOCK #endif ) { #ifdef NP_DEBUG printf ("SERVER: EINTR, EAGAIN or EWOULDBLOCK while sending data @%ld\n", S9xGetMilliTime () - START); #endif continue; } return (FALSE); } else if (sent == 0) return (FALSE); len -= sent; data += sent; if (length > 1024) { Percent = (uint8) (((length - len) * 100) / length); #ifdef __WIN32__ PostMessage (GUI.hWnd, WM_USER, Percent, Percent); Sleep (0); #endif } } while (len > 0); return (TRUE); } void S9xNPSendHeartBeat () { int len = 3; uint8 data [3 + 4 * 5]; uint8 *ptr = data; int n; for (n = NP_MAX_CLIENTS - 1; n >= 0; n--) { if (NPServer.Clients [n].SaidHello) break; } if (n >= 0) { bool8 Paused = NPServer.Paused != 0; NPServer.FrameCount++; *ptr++ = NP_SERV_MAGIC; *ptr++ = 0; // Individual client sequence number will get placed here *ptr++ = NP_SERV_JOYPAD | (n << 6) | ((Paused != 0) << 5); WRITE_LONG (ptr, NPServer.FrameCount); len += 4; ptr += 4; int i; for (i = 0; i <= n; i++) { WRITE_LONG (ptr, NPServer.Joypads [i]); len += 4; ptr += 4; } S9xNPSendToAllClients (data, len); } } void S9xNPSendToAllClients (uint8 *data, int len) { int i; for (i = 0; i < NP_MAX_CLIENTS; i++) { if (NPServer.Clients [i].SaidHello) { data [1] = NPServer.Clients [i].SendSequenceNum++; if (!S9xNPSSendData (NPServer.Clients [i].Socket, data, len)) S9xNPShutdownClient (i, TRUE); } } } void S9xNPProcessClient (int c) { uint8 header [7]; uint8 *data; uint32 len; uint8 *ptr; if (!S9xNPSGetData (NPServer.Clients [c].Socket, header, 7)) { S9xNPSetWarning ("SERVER: Failed to get message header from client.\n"); S9xNPShutdownClient (c, TRUE); return; } if (header [0] != NP_CLNT_MAGIC) { S9xNPSetWarning ("SERVER: Bad header magic value received from client.\n"); S9xNPShutdownClient (c, TRUE); return; } if (header [1] != NPServer.Clients [c].ReceiveSequenceNum) { #ifdef NP_DEBUG printf ("SERVER: Messages lost from '%s', expected %d, got %d\n", NPServer.Clients [c].HostName ? NPServer.Clients [c].HostName : "Unknown", NPServer.Clients [c].ReceiveSequenceNum, header [1]); #endif sprintf (NetPlay.WarningMsg, "SERVER: Messages lost from '%s', expected %d, got %d\n", NPServer.Clients [c].HostName ? NPServer.Clients [c].HostName : "Unknown", NPServer.Clients [c].ReceiveSequenceNum, header [1]); NPServer.Clients [c].ReceiveSequenceNum = header [1] + 1; S9xNPSetWarning (NetPlay.WarningMsg); } else NPServer.Clients [c].ReceiveSequenceNum++; len = READ_LONG (&header [3]); switch (header [2] & 0x3f) { case NP_CLNT_HELLO: #ifdef NP_DEBUG printf ("SERVER: Got HELLO from client @%ld\n", S9xGetMilliTime () - START); #endif S9xNPSetAction ("Got HELLO from client...", TRUE); if (len > 0x10000) { S9xNPSetWarning ("SERVER: Client HELLO message length error."); S9xNPShutdownClient (c, TRUE); return; } data = new uint8 [len - 7]; if (!S9xNPSGetData (NPServer.Clients [c].Socket, data, len - 7)) { S9xNPSetWarning ("SERVER: Failed to get HELLO message content from client."); S9xNPShutdownClient (c, TRUE); return; } if (NPServer.NumClients <= NP_ONE_CLIENT) { NPServer.FrameTime = READ_LONG (data); strncpy (NPServer.ROMName, (char *) &data [4], 29); NPServer.ROMName [29] = 0; } NPServer.Clients [c].ROMName = strdup ((char *) &data [4]); #ifdef NP_DEBUG printf ("SERVER: Client is playing: %s, Frame Time: %d @%ld\n", data + 4, READ_LONG (data), S9xGetMilliTime () - START); #endif NPServer.Clients [c].SendSequenceNum = 0; len = 7 + 1 + 1 + 4 + strlen (NPServer.ROMName) + 1; delete data; ptr = data = new uint8 [len]; *ptr++ = NP_SERV_MAGIC; *ptr++ = NPServer.Clients [c].SendSequenceNum++; if (NPServer.SendROMImageOnConnect && NPServer.NumClients > NP_ONE_CLIENT) *ptr++ = NP_SERV_HELLO | 0x80; else *ptr++ = NP_SERV_HELLO; WRITE_LONG (ptr, len); ptr += 4; *ptr++ = NP_VERSION; *ptr++ = c + 1; WRITE_LONG (ptr, NPServer.FrameCount); ptr += 4; strcpy ((char *) ptr, NPServer.ROMName); #ifdef NP_DEBUG printf ("SERVER: Sending welcome information to client @%ld...\n", S9xGetMilliTime () - START); #endif S9xNPSetAction ("SERVER: Sending welcome information to new client...", TRUE); if (!S9xNPSSendData (NPServer.Clients [c].Socket, data, len)) { S9xNPSetWarning ("SERVER: Failed to send welcome message to client."); S9xNPShutdownClient (c, TRUE); return; } delete data; #ifdef NP_DEBUG printf ("SERVER: Waiting for a response from the client @%ld...\n", S9xGetMilliTime () - START); #endif S9xNPSetAction ("SERVER: Waiting for a response from the client...", TRUE); break; case NP_CLNT_LOADED_ROM: #ifdef NP_DEBUG printf ("SERVER: Client %d loaded requested ROM @%ld...\n", c, S9xGetMilliTime () - START); #endif NPServer.Clients [c].SaidHello = TRUE; NPServer.Clients [c].Ready = FALSE; NPServer.Clients [c].Paused = FALSE; S9xNPRecomputePause (); S9xNPWaitForEmulationToComplete (); if (NPServer.SyncByReset) { S9xNPServerAddTask (NP_SERVER_SEND_SRAM, (void *) c); S9xNPServerAddTask (NP_SERVER_RESET_ALL, 0); } else S9xNPServerAddTask (NP_SERVER_SYNC_CLIENT, (void *) c); break; case NP_CLNT_RECEIVED_ROM_IMAGE: #ifdef NP_DEBUG printf ("SERVER: Client %d received ROM image @%ld...\n", c, S9xGetMilliTime () - START); #endif NPServer.Clients [c].SaidHello = TRUE; NPServer.Clients [c].Ready = FALSE; NPServer.Clients [c].Paused = FALSE; S9xNPRecomputePause (); S9xNPWaitForEmulationToComplete (); if (NPServer.SyncByReset) { S9xNPServerAddTask (NP_SERVER_SEND_SRAM, (void *) c); S9xNPServerAddTask (NP_SERVER_RESET_ALL, 0); } else S9xNPServerAddTask (NP_SERVER_SYNC_CLIENT, (void *) c); break; case NP_CLNT_WAITING_FOR_ROM_IMAGE: #ifdef NP_DEBUG printf ("SERVER: Client %d waiting for ROM image @%ld...\n", c, S9xGetMilliTime () - START); #endif NPServer.Clients [c].SaidHello = TRUE; NPServer.Clients [c].Ready = FALSE; NPServer.Clients [c].Paused = FALSE; S9xNPRecomputePause (); S9xNPSendROMImageToClient (c); break; case NP_CLNT_READY: #ifdef NP_DEBUG printf ("SERVER: Client %d ready @%ld...\n", c, S9xGetMilliTime () - START); #endif if (NPServer.Clients [c].SaidHello) { NPServer.Clients [c].Paused = FALSE; NPServer.Clients [c].Ready = TRUE; S9xNPRecomputePause (); break; } NPServer.Clients [c].SaidHello = TRUE; NPServer.Clients [c].Ready = TRUE; NPServer.Clients [c].Paused = FALSE; S9xNPRecomputePause (); //printf ("SERVER: SaidHello = TRUE, SeqNum = %d @%d\n", NPServer.Clients [c].SendSequenceNum, S9xGetMilliTime () - START); if (NPServer.NumClients > NP_ONE_CLIENT) { if (!NPServer.SendROMImageOnConnect) { S9xNPWaitForEmulationToComplete (); if (NPServer.SyncByReset) { S9xNPServerAddTask (NP_SERVER_SEND_SRAM, (void *) c); S9xNPServerAddTask (NP_SERVER_RESET_ALL, 0); } else S9xNPServerAddTask (NP_SERVER_SYNC_CLIENT, (void *) c); } } else { NPServer.Clients [c].Ready = TRUE; S9xNPRecomputePause (); } break; case NP_CLNT_JOYPAD: NPServer.Joypads [c] = len; break; case NP_CLNT_PAUSE: #ifdef NP_DEBUG printf ("SERVER: Client %d Paused: %s @%ld\n", c, (header [2] & 0x80) ? "YES" : "NO", S9xGetMilliTime () - START); #endif NPServer.Clients [c].Paused = (header [2] & 0x80) != 0; if (NPServer.Clients [c].Paused) sprintf (NetPlay.WarningMsg, "SERVER: Client %d has paused.", c + 1); else sprintf (NetPlay.WarningMsg, "SERVER: Client %d has resumed.", c + 1); S9xNPSetWarning (NetPlay.WarningMsg); S9xNPRecomputePause (); break; } } void S9xNPAcceptClient (int Listen, bool8 block) { struct sockaddr_in remote_address; struct linger val2; struct hostent *host; int new_fd; int i; #ifdef NP_DEBUG printf ("SERVER: attempting to accept new client connection @%ld\n", S9xGetMilliTime () - START); #endif S9xNPSetAction ("SERVER: Attempting to accept client connection...", TRUE); memset (&remote_address, 0, sizeof (remote_address)); ACCEPT_SIZE_T len = sizeof (remote_address); new_fd = accept (Listen, (struct sockaddr *)&remote_address, &len); S9xNPSetAction ("Setting socket options...", TRUE); val2.l_onoff = 1; val2.l_linger = 0; if (setsockopt (new_fd, SOL_SOCKET, SO_LINGER, (char *) &val2, sizeof (val2)) < 0) { S9xNPSetError ("Setting socket options failed."); close (new_fd); return; } for (i = 0; i < NP_MAX_CLIENTS; i++) { if (!NPServer.Clients [i].Connected) { NPServer.NumClients++; NPServer.Clients [i].Socket = new_fd; NPServer.Clients [i].SendSequenceNum = 0; NPServer.Clients [i].ReceiveSequenceNum = 0; NPServer.Clients [i].Connected = TRUE; NPServer.Clients [i].SaidHello = FALSE; NPServer.Clients [i].Paused = FALSE; NPServer.Clients [i].Ready = FALSE; NPServer.Clients [i].ROMName = NULL; NPServer.Clients [i].HostName = NULL; NPServer.Clients [i].Who = NULL; break; } } if (i >= NP_MAX_CLIENTS) { S9xNPSetError ("SERVER: Maximum number of NetPlay Clients have already connected."); close (new_fd); return; } if (remote_address.sin_family == AF_INET) { #ifdef NP_DEBUG printf ("SERVER: Looking up new client's hostname @%ld\n", S9xGetMilliTime () - START); #endif S9xNPSetAction ("SERVER: Looking up new client's hostname...", TRUE); host = gethostbyaddr ((char *) &remote_address.sin_addr, sizeof (remote_address.sin_addr), AF_INET); if (host) { #ifdef NP_DEBUG printf ("SERVER: resolved new client's hostname (%s) @%ld\n", host->h_name, S9xGetMilliTime () - START); #endif sprintf (NetPlay.WarningMsg, "SERVER: Player %d on %s has connected.", i + 1, host->h_name); NPServer.Clients [i].HostName = strdup (host->h_name); } else { char *ip = inet_ntoa (remote_address.sin_addr); if (ip) NPServer.Clients [i].HostName = strdup (ip); #ifdef NP_DEBUG printf ("SERVER: couldn't resolve new client's hostname (%s) @%ld\n", ip ? ip : "Unknown", S9xGetMilliTime () - START); #endif sprintf (NetPlay.WarningMsg, "SERVER: Player %d on %s has connected.", i + 1, ip ? ip : "Unknown"); } S9xNPSetWarning (NetPlay.WarningMsg); } #ifdef NP_DEBUG printf ("SERVER: waiting for HELLO message from new client @%ld\n", S9xGetMilliTime () - START); #endif S9xNPSetAction ("SERVER: Waiting for HELLO message from new client..."); } static bool8 server_continue = TRUE; static bool8 S9xNPServerInit (int port) { struct sockaddr_in address; int i; int val; if (!S9xNPInitialise ()) return (FALSE); for (i = 0; i < NP_MAX_CLIENTS; i++) { NPServer.Clients [i].SendSequenceNum = 0; NPServer.Clients [i].ReceiveSequenceNum = 0; NPServer.Clients [i].Connected = FALSE; NPServer.Clients [i].SaidHello = FALSE; NPServer.Clients [i].Paused = FALSE; NPServer.Clients [i].Ready = FALSE; NPServer.Clients [i].Socket = 0; NPServer.Clients [i].ROMName = NULL; NPServer.Clients [i].HostName = NULL; NPServer.Clients [i].Who = NULL; NPServer.Joypads [i] = 0; } NPServer.NumClients = 0; NPServer.FrameCount = 0; #ifdef NP_DEBUG printf ("SERVER: Creating socket @%ld\n", S9xGetMilliTime () - START); #endif if ((NPServer.Socket = socket (AF_INET, SOCK_STREAM, 0)) < 0) { S9xNPSetError ("NetPlay Server: Can't create listening socket."); return (FALSE); } val = 1; setsockopt (NPServer.Socket, SOL_SOCKET, SO_REUSEADDR, (char *)&val, sizeof (val)); memset (&address, 0, sizeof (address)); address.sin_family = AF_INET; address.sin_addr.s_addr = htonl (INADDR_ANY); address.sin_port = htons (port); #ifdef NP_DEBUG printf ("SERVER: Binding socket to address and port @%ld\n", S9xGetMilliTime () - START); #endif if (bind (NPServer.Socket, (struct sockaddr *) &address, sizeof (address)) < 0) { S9xNPSetError ("NetPlay Server: Can't bind socket to port number.\nPort already in use?"); return (FALSE); } #ifdef NP_DEBUG printf ("SERVER: Getting socket to listen @%ld\n", S9xGetMilliTime () - START); #endif if (listen (NPServer.Socket, NP_MAX_CLIENTS) < 0) { S9xNPSetError ("NetPlay Server: Can't get new socket to listen."); return (FALSE); } #ifdef NP_DEBUG printf ("SERVER: Init complete @%ld\n", S9xGetMilliTime () - START); #endif return (TRUE); } void S9xNPServerLoop (void *) { #ifdef __WIN32__ BOOL success = FALSE; #else bool8 success = FALSE; #endif while (server_continue) { fd_set read_fds; struct timeval timeout; int res; int i; int max_fd = NPServer.Socket; #ifdef __WIN32__ Sleep (0); #endif if (success && !Settings.Paused && !Settings.StopEmulation && !Settings.ForcedPause && !NPServer.Paused) { S9xNPSendHeartBeat (); } do { FD_ZERO (&read_fds); FD_SET (NPServer.Socket, &read_fds); for (i = 0; i < NP_MAX_CLIENTS; i++) { if (NPServer.Clients [i].Connected) { FD_SET (NPServer.Clients [i].Socket, &read_fds); if (NPServer.Clients [i].Socket > max_fd) max_fd = NPServer.Clients [i].Socket; } } timeout.tv_sec = 0; timeout.tv_usec = 1000; res = select (max_fd + 1, &read_fds, NULL, NULL, &timeout); if (res > 0) { if (FD_ISSET (NPServer.Socket, &read_fds)) S9xNPAcceptClient (NPServer.Socket, FALSE); for (i = 0; i < NP_MAX_CLIENTS; i++) { if (NPServer.Clients [i].Connected && FD_ISSET (NPServer.Clients [i].Socket, &read_fds)) { S9xNPProcessClient (i); } } } } while (res > 0); #ifdef __WIN32__ success = WaitForSingleObject (GUI.ServerTimerSemaphore, 200) == WAIT_OBJECT_0; #endif while (NPServer.TaskHead != NPServer.TaskTail) { void *task_data = NPServer.TaskQueue [NPServer.TaskHead].Data; #if defined(NP_DEBUG) && NP_DEBUG == 2 printf ("SERVER: task %d @%ld\n", NPServer.TaskQueue [NPServer.TaskHead].Task, S9xGetMilliTime () - START); #endif switch (NPServer.TaskQueue [NPServer.TaskHead].Task) { case NP_SERVER_SEND_ROM_IMAGE: S9xNPSendROMImageToAllClients (); break; case NP_SERVER_SYNC_CLIENT: NPServer.Clients [(pint) task_data].Ready = FALSE; S9xNPRecomputePause (); S9xNPSyncClient ((pint) task_data); break; case NP_SERVER_SYNC_ALL: S9xNPSyncClients (); break; case NP_SERVER_SEND_FREEZE_FILE_ALL: S9xNPSendFreezeFileToAllClients ((char *) task_data); free ((char *) task_data); break; case NP_SERVER_SEND_ROM_LOAD_REQUEST_ALL: S9xNPSendROMLoadRequest ((char *) task_data); free ((char *) task_data); break; case NP_SERVER_RESET_ALL: S9xNPNoClientReady (0); S9xNPWaitForEmulationToComplete (); S9xNPSetAction ("SERVER: Sending RESET to all clients...", TRUE); #ifdef NP_DEBUG printf ("SERVER: Sending RESET to all clients @%ld\n", S9xGetMilliTime () - START); #endif { uint8 reset [7]; uint8 *ptr; ptr = reset; *ptr++ = NP_SERV_MAGIC; *ptr++ = 0; *ptr++ = NP_SERV_RESET; WRITE_LONG (ptr, NPServer.FrameCount); S9xNPSendToAllClients (reset, 7); } break; case NP_SERVER_SEND_SRAM: NPServer.Clients [(pint) task_data].Ready = FALSE; S9xNPRecomputePause (); S9xNPWaitForEmulationToComplete (); S9xNPSendSRAMToClient ((pint) task_data); break; case NP_SERVER_SEND_SRAM_ALL: S9xNPNoClientReady (); S9xNPWaitForEmulationToComplete (); S9xNPSendSRAMToAllClients (); break; default: S9xNPSetError ("SERVER: *** Unknown task ***\n"); break; } NPServer.TaskHead = (NPServer.TaskHead + 1) % NP_MAX_TASKS; } } #ifdef NP_DEBUG printf ("SERVER: Server thread exiting @%ld\n", S9xGetMilliTime () - START); #endif S9xNPStopServer (); } bool8 S9xNPStartServer (int port) { static int p; #ifdef NP_DEBUG printf ("SERVER: Starting server on port %d @%ld\n", port, S9xGetMilliTime () - START); #endif p = port; server_continue = TRUE; if (S9xNPServerInit (port)) #ifdef __WIN32__ return (_beginthread (S9xNPServerLoop, 0, &p) != ~0); #else return (TRUE); #endif return (FALSE); } void S9xNPStopServer () { #ifdef NP_DEBUG printf ("SERVER: Stopping server @%ld\n", S9xGetMilliTime () - START); #endif server_continue = FALSE; close (NPServer.Socket); for (int i = 0; i < NP_MAX_CLIENTS; i++) { if (NPServer.Clients [i].Connected) { close (NPServer.Clients [i].Socket); NPServer.Clients [i].Connected = FALSE; NPServer.Clients [i].SaidHello = FALSE; } } } #ifdef __WIN32__ void S9xGetTimeOfDay (struct timeval *n) { unsigned long t = S9xGetMilliTime (); n->tv_sec = t / 1000; n->tv_usec = (t % 1000) * 1000; } #endif void S9xNPSendROMImageToAllClients () { S9xNPNoClientReady (); S9xNPWaitForEmulationToComplete (); int c; for (c = NP_ONE_CLIENT; c < NP_MAX_CLIENTS; c++) { if (NPServer.Clients [c].SaidHello) S9xNPSendROMImageToClient (c); } if (NPServer.SyncByReset) { S9xNPServerAddTask (NP_SERVER_SEND_SRAM_ALL, 0); S9xNPServerAddTask (NP_SERVER_RESET_ALL, 0); } else S9xNPSyncClient (-1); } bool8 S9xNPSendROMImageToClient (int c) { #ifdef NP_DEBUG printf ("SERVER: Sending ROM image to player %d @%ld\n", c + 1, S9xGetMilliTime () - START); #endif sprintf (NetPlay.ActionMsg, "Sending ROM image to player %d...", c + 1); S9xNPSetAction (NetPlay.ActionMsg, TRUE); uint8 header [7 + 1 + 4]; uint8 *ptr = header; int len = sizeof (header) + Memory.CalculatedSize + strlen (Memory.ROMFilename) + 1; *ptr++ = NP_SERV_MAGIC; *ptr++ = NPServer.Clients [c].SendSequenceNum++; *ptr++ = NP_SERV_ROM_IMAGE; WRITE_LONG (ptr, len); ptr += 4; *ptr++ = Memory.HiROM; WRITE_LONG (ptr, Memory.CalculatedSize); if (!S9xNPSSendData (NPServer.Clients [c].Socket, header, sizeof (header)) || !S9xNPSSendData (NPServer.Clients [c].Socket, Memory.ROM, Memory.CalculatedSize) || !S9xNPSSendData (NPServer.Clients [c].Socket, (uint8 *) Memory.ROMFilename, strlen (Memory.ROMFilename) + 1)) { S9xNPShutdownClient (c, TRUE); return (FALSE); } return (TRUE); } void S9xNPSyncClients () { S9xNPNoClientReady (); S9xNPSyncClient (-1); } void S9xNPSyncClient (int client) { #ifdef HAVE_MKSTEMP char fname[] = "/tmp/snes9x_fztmpXXXXXX"; #else char fname [L_tmpnam]; #endif S9xNPWaitForEmulationToComplete (); S9xNPSetAction ("SERVER: Freezing game...", TRUE); #ifdef HAVE_MKSTEMP if ( (mkstemp(fname) < 0) && S9xFreezeGame(fname) ) #else if ( tmpnam(fname) && S9xFreezeGame(fname) ) #endif { uint8 *data; uint32 len; S9xNPSetAction ("SERVER: Loading freeze file...", TRUE); if (S9xNPLoadFreezeFile (fname, data, len)) { int c; if (client < 0) { for (c = NP_ONE_CLIENT; c < NP_MAX_CLIENTS; c++) { if (NPServer.Clients [c].SaidHello) { NPServer.Clients [client].Ready = FALSE; S9xNPRecomputePause (); S9xNPSendFreezeFile (c, data, len); } } } else { NPServer.Clients [client].Ready = FALSE; S9xNPRecomputePause (); S9xNPSendFreezeFile (client, data, len); } delete data; } remove (fname); } } bool8 S9xNPLoadFreezeFile (const char *fname, uint8 *&data, uint32 &len) { FILE *ff; if ((ff = fopen (fname, "rb"))) { fseek (ff, 0, SEEK_END); len = ftell (ff); fseek (ff, 0, SEEK_SET); data = new uint8 [len]; bool8 ok = (fread (data, 1, len, ff) == len); fclose (ff); return (ok); } return (FALSE); } void S9xNPSendFreezeFile (int c, uint8 *data, uint32 len) { #ifdef NP_DEBUG printf ("SERVER: Sending freeze file to player %d @%ld\n", c + 1, S9xGetMilliTime () - START); #endif sprintf (NetPlay.ActionMsg, "SERVER: Sending freeze-file to player %d...", c + 1); S9xNPSetAction (NetPlay.ActionMsg, TRUE); uint8 header [7 + 4]; uint8 *ptr = header; *ptr++ = NP_SERV_MAGIC; *ptr++ = NPServer.Clients [c].SendSequenceNum++; *ptr++ = NP_SERV_FREEZE_FILE; WRITE_LONG (ptr, len + 7 + 4); ptr += 4; WRITE_LONG (ptr, NPServer.FrameCount); if (!S9xNPSSendData (NPServer.Clients [c].Socket, header, 7 + 4) || !S9xNPSSendData (NPServer.Clients [c].Socket, data, len)) { S9xNPShutdownClient (c, TRUE); } } void S9xNPRecomputePause () { int c; for (c = 0; c < NP_MAX_CLIENTS; c++) { if (NPServer.Clients [c].SaidHello && (!NPServer.Clients [c].Ready || NPServer.Clients [c].Paused)) { #if defined(NP_DEBUG) && NP_DEBUG == 2 printf ("SERVER: Paused because of client %d (%d,%d) @%ld\n", c, NPServer.Clients [c].Ready, NPServer.Clients [c].Paused, S9xGetMilliTime () - START); #endif NPServer.Paused = TRUE; return; } } #if defined(NP_DEBUG) && NP_DEBUG == 2 printf ("SERVER: not paused @%ld\n", S9xGetMilliTime () - START); #endif NPServer.Paused = FALSE; } void S9xNPNoClientReady (int start_index) { int c; for (c = start_index; c < NP_MAX_CLIENTS; c++) NPServer.Clients [c].Ready = FALSE; S9xNPRecomputePause (); } void S9xNPSendROMLoadRequest (const char *filename) { S9xNPNoClientReady (); int len = 7 + strlen (filename) + 1; uint8 *data = new uint8 [len]; uint8 *ptr = data; *ptr++ = NP_SERV_MAGIC; *ptr++ = 0; *ptr++ = NP_SERV_LOAD_ROM; WRITE_LONG (ptr, len); ptr += 4; strcpy ((char *) ptr, filename); for (int i = NP_ONE_CLIENT; i < NP_MAX_CLIENTS; i++) { if (NPServer.Clients [i].SaidHello) { #ifdef NP_DEBUG printf ("SERVER: Sending load ROM requesting to player %d @%ld\n", i + 1, S9xGetMilliTime () - START); #endif sprintf (NetPlay.WarningMsg, "SERVER: sending ROM load request to player %d...", i + 1); S9xNPSetAction (NetPlay.WarningMsg, TRUE); data [1] = NPServer.Clients [i].SendSequenceNum++; if (!S9xNPSSendData (NPServer.Clients [i].Socket, data, len)) { S9xNPShutdownClient (i, TRUE); } } } delete data; } void S9xNPSendSRAMToAllClients () { int i; for (i = NP_ONE_CLIENT; i < NP_MAX_CLIENTS; i++) { if (NPServer.Clients [i].SaidHello) S9xNPSendSRAMToClient (i); } } void S9xNPSendSRAMToClient (int c) { #ifdef NP_DEBUG printf ("SERVER: Sending S-RAM data to player %d @%ld\n", c + 1, S9xGetMilliTime () - START); #endif uint8 sram [7]; int SRAMSize = Memory.SRAMSize ? (1 << (Memory.SRAMSize + 3)) * 128 : 0; if (SRAMSize > 0x10000) SRAMSize = 0x10000; int len = 7 + SRAMSize; sprintf (NetPlay.ActionMsg, "SERVER: Sending S-RAM to player %d...", c + 1); S9xNPSetAction (NetPlay.ActionMsg, TRUE); uint8 *ptr = sram; *ptr++ = NP_SERV_MAGIC; *ptr++ = NPServer.Clients [c].SendSequenceNum++; *ptr++ = NP_SERV_SRAM_DATA; WRITE_LONG (ptr, len); if (!S9xNPSSendData (NPServer.Clients [c].Socket, sram, sizeof (sram)) || (len > 7 && !S9xNPSSendData (NPServer.Clients [c].Socket, ::SRAM, len - 7))) { S9xNPShutdownClient (c, TRUE); } } void S9xNPSendFreezeFileToAllClients (const char *filename) { uint8 *data; uint32 len; if (NPServer.NumClients > NP_ONE_CLIENT && S9xNPLoadFreezeFile (filename, data, len)) { S9xNPNoClientReady (); for (int c = NP_ONE_CLIENT; c < NP_MAX_CLIENTS; c++) { if (NPServer.Clients [c].SaidHello) S9xNPSendFreezeFile (c, data, len); } delete data; } } void S9xNPServerAddTask (uint32 task, void *data) { NPServer.TaskQueue [NPServer.TaskTail].Task = task; NPServer.TaskQueue [NPServer.TaskTail].Data = data; NPServer.TaskTail = (NPServer.TaskTail + 1) % NP_MAX_TASKS; } void S9xNPReset () { S9xNPNoClientReady (0); S9xNPServerAddTask (NP_SERVER_RESET_ALL, 0); } void S9xNPWaitForEmulationToComplete () { #ifdef NP_DEBUG printf ("SERVER: WaitForEmulationToComplete start @%ld\n", S9xGetMilliTime () - START); #endif while (!NetPlay.PendingWait4Sync && NetPlay.Connected && !Settings.ForcedPause && !Settings.StopEmulation && !Settings.Paused) { #ifdef __WIN32__ Sleep (40); #endif } #ifdef NP_DEBUG printf ("SERVER: WaitForEmulationToComplete end @%ld\n", S9xGetMilliTime () - START); #endif } void S9xNPServerQueueSyncAll () { if (Settings.NetPlay && Settings.NetPlayServer && NPServer.NumClients > NP_ONE_CLIENT) { S9xNPNoClientReady (); S9xNPDiscardHeartbeats (); S9xNPServerAddTask (NP_SERVER_SYNC_ALL, 0); } } void S9xNPServerQueueSendingROMImage () { if (Settings.NetPlay && Settings.NetPlayServer && NPServer.NumClients > NP_ONE_CLIENT) { S9xNPNoClientReady (); S9xNPDiscardHeartbeats (); S9xNPServerAddTask (NP_SERVER_SEND_ROM_IMAGE, 0); } } void S9xNPServerQueueSendingFreezeFile (const char *filename) { if (Settings.NetPlay && Settings.NetPlayServer && NPServer.NumClients > NP_ONE_CLIENT) { S9xNPNoClientReady (); S9xNPDiscardHeartbeats (); S9xNPServerAddTask (NP_SERVER_SEND_FREEZE_FILE_ALL, (void *) strdup (filename)); } } void S9xNPServerQueueSendingLoadROMRequest (const char *filename) { if (Settings.NetPlay && Settings.NetPlayServer && NPServer.NumClients > NP_ONE_CLIENT) { S9xNPNoClientReady (); S9xNPDiscardHeartbeats (); S9xNPServerAddTask (NP_SERVER_SEND_ROM_LOAD_REQUEST_ALL, (void *) strdup (filename)); } } #ifndef __WIN32__ uint32 S9xGetMilliTime () { static bool8 first = TRUE; static long start_sec; struct timeval tv; gettimeofday (&tv, NULL); if (first) { start_sec = tv.tv_sec; first = FALSE; } return ((uint32) ((tv.tv_sec - start_sec) * 1000 + tv.tv_usec / 1000)); } #endif #endif