#define _LARGEFILE64_SOURCE #include "GpFileSystem_X.h" #include "GpIOStream.h" #include "IGpDirectoryCursor.h" #include "IGpSystemServices.h" #include "IGpMutex.h" #include "IGpThreadRelay.h" #include "VirtualDirectory.h" #include "PLDrivers.h" #ifdef __MACOS__ #include #include #else #include "SDL2/SDL.h" #include "SDL2/SDL_rwops.h" #endif #include #include #include #include #include #include #include #include "UTF8.h" #if defined(__CYGWIN__) || defined(__MACOS__) typedef off_t off64_t; #define fstat64 fstat #define fseek64 fseek #define ftruncate64 ftruncate #define stat64 stat #endif class GpFileStream_X_File final : public GpIOStream { public: GpFileStream_X_File(FILE *f, bool readOnly, bool writeOnly); ~GpFileStream_X_File(); size_t Read(void *bytesOut, size_t size) override; size_t Write(const void *bytes, size_t size) override; bool IsSeekable() const override; bool IsReadOnly() const override; bool IsWriteOnly() const override; bool SeekStart(GpUFilePos_t loc) override; bool SeekCurrent(GpFilePos_t loc) override; bool SeekEnd(GpUFilePos_t loc) override; GpUFilePos_t Size() const override; GpUFilePos_t Tell() const override; void Close() override; void Flush() override; private: FILE *m_f; bool m_seekable; bool m_isReadOnly; bool m_isWriteOnly; }; GpFileStream_X_File::GpFileStream_X_File(FILE *f, bool readOnly, bool writeOnly) : m_f(f) , m_isReadOnly(readOnly) , m_isWriteOnly(writeOnly) { m_seekable = (fseek(m_f, 0, SEEK_CUR) == 0); } GpFileStream_X_File::~GpFileStream_X_File() { fclose(m_f); } size_t GpFileStream_X_File::Read(void *bytesOut, size_t size) { if (m_isWriteOnly) return 0; return fread(bytesOut, 1, size, m_f); } size_t GpFileStream_X_File::Write(const void *bytes, size_t size) { if (m_isReadOnly) return 0; return fwrite(bytes, 1, size, m_f); } bool GpFileStream_X_File::IsSeekable() const { return m_seekable; } bool GpFileStream_X_File::IsReadOnly() const { return m_isReadOnly; } bool GpFileStream_X_File::IsWriteOnly() const { return m_isWriteOnly; } bool GpFileStream_X_File::SeekStart(GpUFilePos_t loc) { if (!m_seekable) return false; fflush(m_f); return fseek64(m_f, static_cast(loc), SEEK_SET) >= 0; } bool GpFileStream_X_File::SeekCurrent(GpFilePos_t loc) { if (!m_seekable) return false; fflush(m_f); return fseek64(m_f, static_cast(loc), SEEK_CUR) >= 0; } bool GpFileStream_X_File::SeekEnd(GpUFilePos_t loc) { if (!m_seekable) return false; fflush(m_f); return fseek64(m_f, -static_cast(loc), SEEK_END) >= 0; } GpUFilePos_t GpFileStream_X_File::Size() const { fflush(m_f); struct stat64 s; if (fstat64(fileno(m_f), &s) < 0) return 0; return static_cast(s.st_size); } GpUFilePos_t GpFileStream_X_File::Tell() const { return static_cast(ftell(m_f)); } void GpFileStream_X_File::Close() { this->~GpFileStream_X_File(); free(this); } void GpFileStream_X_File::Flush() { fflush(m_f); } bool GpFileSystem_X::ResolvePath(PortabilityLayer::VirtualDirectory_t virtualDirectory, char const* const* paths, size_t numPaths, std::string &resolution) { const char *prefsAppend = nullptr; switch (virtualDirectory) { case PortabilityLayer::VirtualDirectories::kApplicationData: resolution = std::string("Packaged"); break; case PortabilityLayer::VirtualDirectories::kGameData: resolution = std::string("Packaged/Houses"); break; case PortabilityLayer::VirtualDirectories::kFonts: resolution = std::string("Resources"); break; case PortabilityLayer::VirtualDirectories::kHighScores: prefsAppend = "HighScores"; break; case PortabilityLayer::VirtualDirectories::kUserData: prefsAppend = "Houses"; break; case PortabilityLayer::VirtualDirectories::kUserSaves: prefsAppend = "SavedGames"; break; case PortabilityLayer::VirtualDirectories::kPrefs: prefsAppend = "Prefs"; break; case PortabilityLayer::VirtualDirectories::kFontCache: prefsAppend = "FontCache"; break; case PortabilityLayer::VirtualDirectories::kLogs: prefsAppend = ".."; break; default: return false; }; if (prefsAppend) resolution = m_prefsPath + prefsAppend; else resolution = m_basePath + resolution; for (size_t i = 0; i < numPaths; i++) { resolution += "/"; resolution += paths[i]; } return true; } GpFileSystem_X::GpFileSystem_X() : m_delayCallback(nullptr) { } GpFileSystem_X::~GpFileSystem_X() { } void GpFileSystem_X::Init() { char *prefsDir = SDL_GetPrefPath("aerofoil", "aerofoil"); m_prefsPath = prefsDir; char *baseDir = SDL_GetBasePath(); m_basePath = baseDir; SDL_free(baseDir); char baseDirSeparator = m_basePath[m_basePath.size() - 1]; if (m_basePath.size() >= 4 && m_basePath.substr(m_basePath.size() - 4, 3) == "bin") m_basePath = m_basePath.substr(0, m_basePath.size() - 4) + "lib" + baseDirSeparator + "aerofoil" + baseDirSeparator; const char *extensions[] = { "HighScores", "Houses", "SavedGames", "Prefs", "FontCache" }; for (size_t i = 0; i < sizeof(extensions) / sizeof(extensions[0]); i++) { std::string prefsPath = std::string(prefsDir) + extensions[i]; int created = mkdir(prefsPath.c_str(), S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH); } SDL_free(prefsDir); printf("Base path %s \n", m_basePath.c_str()); } bool GpFileSystem_X::FileExists(PortabilityLayer::VirtualDirectory_t virtualDirectory, const char *path) { std::string resolvedPath; if (!ResolvePath(virtualDirectory, &path, 1, resolvedPath)) return false; struct stat s; return stat(resolvedPath.c_str(), &s) == 0; } bool GpFileSystem_X::FileLocked(PortabilityLayer::VirtualDirectory_t virtualDirectory, const char *path, bool &exists) { std::string resolvedPath; if (!ResolvePath(virtualDirectory, &path, 1, resolvedPath)) { if (exists) exists = false; return false; } int permissions = access(resolvedPath.c_str(), W_OK | F_OK); exists = ((permissions & F_OK) != 0); return ((permissions & W_OK) != 0); } GpIOStream *GpFileSystem_X::OpenFileNested(PortabilityLayer::VirtualDirectory_t virtualDirectory, char const* const* subPaths, size_t numSubPaths, bool writeAccess, GpFileCreationDisposition_t createDisposition) { const char *mode = nullptr; bool canWrite = false; bool needResetPosition = false; switch (createDisposition) { case GpFileCreationDispositions::kCreateOrOverwrite: mode = "wb"; break; case GpFileCreationDispositions::kCreateNew: mode = "x+b"; break; case GpFileCreationDispositions::kCreateOrOpen: mode = "a+b"; needResetPosition = true; break; case GpFileCreationDispositions::kOpenExisting: mode = writeAccess ? "r+b" : "rb"; break; case GpFileCreationDispositions::kOverwriteExisting: mode = "r+b"; break; default: return nullptr; }; if (virtualDirectory == PortabilityLayer::VirtualDirectories::kSourceExport) return nullptr; std::string resolvedPath; if (!ResolvePath(virtualDirectory, subPaths, numSubPaths, resolvedPath)) return nullptr; void *objStorage = malloc(sizeof(GpFileStream_X_File)); if (!objStorage) return nullptr; FILE *f = fopen(resolvedPath.c_str(), mode); if (!f) { free(objStorage); return nullptr; } if (needResetPosition) fseek(f, 0, SEEK_SET); if (createDisposition == GpFileCreationDispositions::kOverwriteExisting) { if (ftruncate64(fileno(f), 0) < 0) { free(objStorage); fclose(f); return nullptr; } } return new (objStorage) GpFileStream_X_File(f, !writeAccess, false); } bool GpFileSystem_X::DeleteFile(PortabilityLayer::VirtualDirectory_t virtualDirectory, const char *path, bool &existed) { std::string resolvedPath; if (!ResolvePath(virtualDirectory, &path, 1, resolvedPath)) { existed = false; return false; } if (unlink(resolvedPath.c_str()) < 0) { existed = (errno != ENOENT); return false; } existed = true; return true; } bool GpFileSystem_X::ValidateFilePath(const char *path, size_t length) const { for (size_t i = 0; i < length; i++) { const char c = path[i]; if (c >= '0' && c <= '9') continue; if (c == '_' || c == '.' || c == '\'' || c == '!') continue; if (c == ' ' && i != 0 && i != length - 1) continue; if (c >= 'a' && c <= 'z') continue; if (c >= 'A' && c <= 'Z') continue; return false; } return true; } bool GpFileSystem_X::ValidateFilePathUnicodeChar(uint32_t c) const { if (c >= '0' && c <= '9') return true; if (c == '_' || c == '\'') return true; if (c == ' ') return true; if (c >= 'a' && c <= 'z') return true; if (c >= 'A' && c <= 'Z') return true; return false; } void GpFileSystem_X::SetDelayCallback(DelayCallback_t delayCallback) { m_delayCallback = delayCallback; } GpFileSystem_X *GpFileSystem_X::GetInstance() { return &ms_instance; } class GpDirectoryCursor_StringList final : public IGpDirectoryCursor { public: explicit GpDirectoryCursor_StringList(std::vector &paths); ~GpDirectoryCursor_StringList(); bool GetNext(const char *&outFileName) override; void Destroy() override; private: std::vector m_paths; size_t m_index; }; GpDirectoryCursor_StringList::GpDirectoryCursor_StringList(std::vector &paths) : m_index(0) { std::swap(paths, m_paths); } GpDirectoryCursor_StringList::~GpDirectoryCursor_StringList() { } bool GpDirectoryCursor_StringList::GetNext(const char *&outFileName) { if (m_index == m_paths.size()) return false; outFileName = m_paths[m_index].c_str(); m_index++; return true; } void GpDirectoryCursor_StringList::Destroy() { delete this; } class GpDirectoryCursor_POSIX final : public IGpDirectoryCursor { public: explicit GpDirectoryCursor_POSIX(DIR *dir); ~GpDirectoryCursor_POSIX(); bool GetNext(const char *&outFileName) override; void Destroy() override; private: DIR *m_dir; }; GpDirectoryCursor_POSIX::GpDirectoryCursor_POSIX(DIR *dir) : m_dir(dir) { } GpDirectoryCursor_POSIX::~GpDirectoryCursor_POSIX() { closedir(m_dir); } bool GpDirectoryCursor_POSIX::GetNext(const char *&outFileName) { struct dirent *dir = readdir(m_dir); if (!dir) return false; outFileName = dir->d_name; return true; } void GpDirectoryCursor_POSIX::Destroy() { delete this; } IGpDirectoryCursor *GpFileSystem_X::ScanDirectoryNested(PortabilityLayer::VirtualDirectory_t virtualDirectory, char const* const* paths, size_t numPaths) { std::string resolvedPath; std::vector subPaths; if (!ResolvePath(virtualDirectory, paths, numPaths, resolvedPath)) return nullptr; DIR *d = opendir(resolvedPath.c_str()); if (!d) return nullptr; return new GpDirectoryCursor_POSIX(d); } GpFileSystem_X GpFileSystem_X::ms_instance;