/* Copyright 2016-2020 Arisotura This file is part of melonDS. melonDS is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. melonDS is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with melonDS. If not, see http://www.gnu.org/licenses/. */ #include #include #include #include #include "Platform.h" #include "PlatformConfig.h" //#include "LAN_Socket.h" //#include "LAN_PCap.h" #include #ifdef __WIN32__ #define NTDDI_VERSION 0x06000000 // GROSS FUCKING HACK #include //#include // FUCK THAT SHIT extern "C" const GUID DECLSPEC_SELECTANY FOLDERID_RoamingAppData = {0x3eb685db, 0x65f9, 0x4cf6, {0xa0, 0x3a, 0xe3, 0xef, 0x65, 0x72, 0x9f, 0x3d}}; #include #include #include #define socket_t SOCKET #define sockaddr_t SOCKADDR #else #include #include #include #include #include #include #define socket_t int #define sockaddr_t struct sockaddr #define closesocket close #endif #ifndef INVALID_SOCKET #define INVALID_SOCKET (socket_t)-1 #endif char* EmuDirectory; void emuStop(); void* oglGetProcAddress(const char* proc); namespace Platform { typedef struct { SDL_Thread* ID; void (*Func)(); } ThreadData; int ThreadEntry(void* data) { ThreadData* thread = (ThreadData*)data; thread->Func(); return 0; } socket_t MPSocket; sockaddr_t MPSendAddr; u8 PacketBuffer[2048]; #define NIFI_VER 1 void Init(int argc, char** argv) { #if defined(__WIN32__) || defined(UNIX_PORTABLE) if (argc > 0 && strlen(argv[0]) > 0) { int len = strlen(argv[0]); while (len > 0) { if (argv[0][len] == '/') break; if (argv[0][len] == '\\') break; len--; } if (len > 0) { EmuDirectory = new char[len+1]; strncpy(EmuDirectory, argv[0], len); EmuDirectory[len] = '\0'; } else { EmuDirectory = new char[2]; strcpy(EmuDirectory, "."); } } else { EmuDirectory = new char[2]; strcpy(EmuDirectory, "."); } #else const char* confdir = g_get_user_config_dir(); const char* confname = "/melonDS"; int cdlen = strlen(confdir); int cnlen = strlen(confname); EmuDirectory = new char[cdlen + cnlen + 1]; strncpy(&EmuDirectory[0], confdir, cdlen); strncpy(&EmuDirectory[cdlen], confname, cnlen); EmuDirectory[cdlen+cnlen] = '\0'; #endif } void DeInit() { delete[] EmuDirectory; } void StopEmu() { emuStop(); } FILE* OpenFile(const char* path, const char* mode, bool mustexist) { FILE* ret; #ifdef __WIN32__ int len = MultiByteToWideChar(CP_UTF8, 0, path, -1, NULL, 0); if (len < 1) return NULL; WCHAR* fatpath = new WCHAR[len]; int res = MultiByteToWideChar(CP_UTF8, 0, path, -1, fatpath, len); if (res != len) { delete[] fatpath; return NULL; } // checkme? // this will be more than enough WCHAR fatmode[4]; fatmode[0] = mode[0]; fatmode[1] = mode[1]; fatmode[2] = mode[2]; fatmode[3] = 0; if (mustexist) { ret = _wfopen(fatpath, L"rb"); if (ret) ret = _wfreopen(fatpath, fatmode, ret); } else ret = _wfopen(fatpath, fatmode); delete[] fatpath; #else if (mustexist) { ret = fopen(path, "rb"); if (ret) ret = freopen(path, mode, ret); } else ret = fopen(path, mode); #endif return ret; } #if !defined(UNIX_PORTABLE) && !defined(__WIN32__) FILE* OpenLocalFile(const char* path, const char* mode) { std::string fullpath; if (path[0] == '/') { // If it's an absolute path, just open that. fullpath = std::string(path); } else { // Check user configuration directory std::string confpath = std::string(g_get_user_config_dir()) + "/melonDS/"; g_mkdir_with_parents(confpath.c_str(), 0755); fullpath = confpath + path; } return OpenFile(fullpath.c_str(), mode, mode[0] != 'w'); } FILE* OpenDataFile(const char* path) { const char* melondir = "melonDS"; const char* const* sys_dirs = g_get_system_data_dirs(); const char* user_dir = g_get_user_data_dir(); // First check the user's data directory char* fullpath = g_build_path("/", user_dir, melondir, path, NULL); if (access(fullpath, R_OK) == 0) { FILE* f = fopen(fullpath, "r"); g_free(fullpath); return f; } free(fullpath); // Then check the system data directories for (size_t i = 0; sys_dirs[i] != NULL; i++) { const char* dir = sys_dirs[i]; char* fullpath = g_build_path("/", dir, melondir, path, NULL); if (access(fullpath, R_OK) == 0) { FILE* f = fopen(fullpath, "r"); g_free(fullpath); return f; } free(fullpath); } FILE* f = fopen(path, "rb"); if (f) return f; return NULL; } #else FILE* OpenLocalFile(const char* path, const char* mode) { bool relpath = false; int pathlen = strlen(path); #ifdef __WIN32__ if (pathlen > 3) { if (path[1] == ':' && (path[2] == '\\' || path[2] == '/')) return OpenFile(path, mode); } #else if (pathlen > 1) { if (path[0] == '/') return OpenFile(path, mode); } #endif if (pathlen >= 3) { if (path[0] == '.' && path[1] == '.' && (path[2] == '/' || path[2] == '\\')) relpath = true; } int emudirlen = strlen(EmuDirectory); char* emudirpath; if (emudirlen) { int len = emudirlen + 1 + pathlen + 1; emudirpath = new char[len]; strncpy(&emudirpath[0], EmuDirectory, emudirlen); emudirpath[emudirlen] = '/'; strncpy(&emudirpath[emudirlen+1], path, pathlen); emudirpath[emudirlen+1+pathlen] = '\0'; } else { emudirpath = new char[pathlen+1]; strncpy(&emudirpath[0], path, pathlen); emudirpath[pathlen] = '\0'; } // Locations are application directory, and AppData/melonDS on Windows or XDG_CONFIG_HOME/melonDS on Linux FILE* f; // First check current working directory f = OpenFile(path, mode, true); if (f) { delete[] emudirpath; return f; } // then emu directory f = OpenFile(emudirpath, mode, true); if (f) { delete[] emudirpath; return f; } #ifdef __WIN32__ // a path relative to AppData wouldn't make much sense if (!relpath) { // Now check AppData PWSTR appDataPath = NULL; SHGetKnownFolderPath(FOLDERID_RoamingAppData, 0, NULL, &appDataPath); if (!appDataPath) { delete[] emudirpath; return NULL; } // this will be more than enough WCHAR fatperm[4]; fatperm[0] = mode[0]; fatperm[1] = mode[1]; fatperm[2] = mode[2]; fatperm[3] = 0; int fnlen = MultiByteToWideChar(CP_UTF8, 0, path, -1, NULL, 0); if (fnlen < 1) { delete[] emudirpath; return NULL; } WCHAR* wfileName = new WCHAR[fnlen]; int res = MultiByteToWideChar(CP_UTF8, 0, path, -1, wfileName, fnlen); if (res != fnlen) { delete[] wfileName; delete[] emudirpath; return NULL; } // checkme? const WCHAR* appdir = L"\\melonDS\\"; int pos = wcslen(appDataPath); void* ptr = CoTaskMemRealloc(appDataPath, (pos+wcslen(appdir)+fnlen+1)*sizeof(WCHAR)); if (!ptr) { delete[] wfileName; delete[] emudirpath; return NULL; } // oh well appDataPath = (PWSTR)ptr; wcscpy(&appDataPath[pos], appdir); pos += wcslen(appdir); wcscpy(&appDataPath[pos], wfileName); f = _wfopen(appDataPath, L"rb"); if (f) f = _wfreopen(appDataPath, fatperm, f); CoTaskMemFree(appDataPath); delete[] wfileName; if (f) { delete[] emudirpath; return f; } } #else if (!relpath) { // Now check XDG_CONFIG_HOME // TODO: check for memory leak there std::string fullpath = std::string(g_get_user_config_dir()) + "/melonDS/" + path; f = OpenFile(fullpath.c_str(), mode, true); if (f) { delete[] emudirpath; return f; } } #endif if (mode[0] != 'r') { f = OpenFile(emudirpath, mode); if (f) { delete[] emudirpath; return f; } } delete[] emudirpath; return NULL; } FILE* OpenDataFile(const char* path) { return OpenLocalFile(path, "rb"); } #endif void* Thread_Create(void (*func)()) { ThreadData* data = new ThreadData; data->Func = func; data->ID = SDL_CreateThread(ThreadEntry, "melonDS core thread", data); return data; } void Thread_Free(void* thread) { delete (ThreadData*)thread; } void Thread_Wait(void* thread) { SDL_WaitThread((SDL_Thread*)((ThreadData*)thread)->ID, NULL); } void* Semaphore_Create() { return SDL_CreateSemaphore(0); } void Semaphore_Free(void* sema) { SDL_DestroySemaphore((SDL_sem*)sema); } void Semaphore_Reset(void* sema) { while (SDL_SemTryWait((SDL_sem*)sema) == 0); } void Semaphore_Wait(void* sema) { SDL_SemWait((SDL_sem*)sema); } void Semaphore_Post(void* sema) { SDL_SemPost((SDL_sem*)sema); } void* GL_GetProcAddress(const char* proc) { return oglGetProcAddress(proc); } bool MP_Init() { int opt_true = 1; int res; #ifdef __WIN32__ WSADATA wsadata; if (WSAStartup(MAKEWORD(2, 2), &wsadata) != 0) { return false; } #endif // __WIN32__ MPSocket = socket(AF_INET, SOCK_DGRAM, 0); if (MPSocket < 0) { return false; } res = setsockopt(MPSocket, SOL_SOCKET, SO_REUSEADDR, (const char*)&opt_true, sizeof(int)); if (res < 0) { closesocket(MPSocket); MPSocket = INVALID_SOCKET; return false; } sockaddr_t saddr; saddr.sa_family = AF_INET; *(u32*)&saddr.sa_data[2] = htonl(Config::SocketBindAnyAddr ? INADDR_ANY : INADDR_LOOPBACK); *(u16*)&saddr.sa_data[0] = htons(7064); res = bind(MPSocket, &saddr, sizeof(sockaddr_t)); if (res < 0) { closesocket(MPSocket); MPSocket = INVALID_SOCKET; return false; } res = setsockopt(MPSocket, SOL_SOCKET, SO_BROADCAST, (const char*)&opt_true, sizeof(int)); if (res < 0) { closesocket(MPSocket); MPSocket = INVALID_SOCKET; return false; } MPSendAddr.sa_family = AF_INET; *(u32*)&MPSendAddr.sa_data[2] = htonl(INADDR_BROADCAST); *(u16*)&MPSendAddr.sa_data[0] = htons(7064); return true; } void MP_DeInit() { if (MPSocket >= 0) closesocket(MPSocket); #ifdef __WIN32__ WSACleanup(); #endif // __WIN32__ } int MP_SendPacket(u8* data, int len) { if (MPSocket < 0) return 0; if (len > 2048-8) { printf("MP_SendPacket: error: packet too long (%d)\n", len); return 0; } *(u32*)&PacketBuffer[0] = htonl(0x4946494E); // NIFI PacketBuffer[4] = NIFI_VER; PacketBuffer[5] = 0; *(u16*)&PacketBuffer[6] = htons(len); memcpy(&PacketBuffer[8], data, len); int slen = sendto(MPSocket, (const char*)PacketBuffer, len+8, 0, &MPSendAddr, sizeof(sockaddr_t)); if (slen < 8) return 0; return slen - 8; } int MP_RecvPacket(u8* data, bool block) { if (MPSocket < 0) return 0; fd_set fd; struct timeval tv; FD_ZERO(&fd); FD_SET(MPSocket, &fd); tv.tv_sec = 0; tv.tv_usec = block ? 5000 : 0; if (!select(MPSocket+1, &fd, 0, 0, &tv)) { return 0; } sockaddr_t fromAddr; socklen_t fromLen = sizeof(sockaddr_t); int rlen = recvfrom(MPSocket, (char*)PacketBuffer, 2048, 0, &fromAddr, &fromLen); if (rlen < 8+24) { return 0; } rlen -= 8; if (ntohl(*(u32*)&PacketBuffer[0]) != 0x4946494E) { return 0; } if (PacketBuffer[4] != NIFI_VER) { return 0; } if (ntohs(*(u16*)&PacketBuffer[6]) != rlen) { return 0; } memcpy(data, &PacketBuffer[8], rlen); return rlen; } bool LAN_Init() { /*if (Config::DirectLAN) { if (!LAN_PCap::Init(true)) return false; } else { if (!LAN_Socket::Init()) return false; }*/ return true; } void LAN_DeInit() { // checkme. blarg //if (Config::DirectLAN) // LAN_PCap::DeInit(); //else // LAN_Socket::DeInit(); /*LAN_PCap::DeInit(); LAN_Socket::DeInit();*/ } int LAN_SendPacket(u8* data, int len) { /*if (Config::DirectLAN) return LAN_PCap::SendPacket(data, len); else return LAN_Socket::SendPacket(data, len);*/ return 0; } int LAN_RecvPacket(u8* data) { /*if (Config::DirectLAN) return LAN_PCap::RecvPacket(data); else return LAN_Socket::RecvPacket(data);*/ return 0; } }