#include #include #include #include #include #include #include #if defined(OS_WINDOWS) #include #include #include #elif defined(OS_LINUX) || defined(OS_WEB) #include #include #endif #if defined(OS_WEB) #include #else #include #endif #include #include #include #include namespace hex::fs { static AutoReset> s_fileBrowserErrorCallback; void setFileBrowserErrorCallback(const std::function &callback) { s_fileBrowserErrorCallback = callback; } // With help from https://github.com/owncloud/client/blob/cba22aa34b3677406e0499aadd126ce1d94637a2/src/gui/openfilemanager.cpp void openFileExternal(const std::fs::path &filePath) { // Make sure the file exists before trying to open it if (!wolv::io::fs::exists(filePath)) { return; } #if defined(OS_WINDOWS) hex::unused( ShellExecute(nullptr, "open", wolv::util::toUTF8String(filePath).c_str(), nullptr, nullptr, SW_SHOWNORMAL) ); #elif defined(OS_MACOS) hex::unused(system( hex::format("open {}", wolv::util::toUTF8String(filePath)).c_str() )); #elif defined(OS_LINUX) executeCmd({"xdg-open", wolv::util::toUTF8String(filePath)}); #endif } void openFolderExternal(const std::fs::path &dirPath) { // Make sure the folder exists before trying to open it if (!wolv::io::fs::exists(dirPath)) { return; } #if defined(OS_WINDOWS) hex::unused(system( hex::format("explorer.exe {}", wolv::util::toUTF8String(dirPath)).c_str() )); #elif defined(OS_MACOS) hex::unused(system( hex::format("open {}", wolv::util::toUTF8String(dirPath)).c_str() )); #elif defined(OS_LINUX) executeCmd({"xdg-open", wolv::util::toUTF8String(dirPath)}); #endif } void openFolderWithSelectionExternal(const std::fs::path &selectedFilePath) { // Make sure the file exists before trying to open it if (!wolv::io::fs::exists(selectedFilePath)) { return; } #if defined(OS_WINDOWS) hex::unused(system( hex::format(R"(explorer.exe /select,"{}")", wolv::util::toUTF8String(selectedFilePath)).c_str() )); #elif defined(OS_MACOS) hex::unused(system( hex::format( R"(osascript -e 'tell application "Finder" to reveal POSIX file "{}"')", wolv::util::toUTF8String(selectedFilePath) ).c_str() )); system(R"(osascript -e 'tell application "Finder" to activate')"); #elif defined(OS_LINUX) // Fallback to only opening the folder for now // TODO actually select the file executeCmd({"xdg-open", wolv::util::toUTF8String(selectedFilePath.parent_path())}); #endif } #if defined(OS_WEB) std::function currentCallback; EMSCRIPTEN_KEEPALIVE extern "C" void fileBrowserCallback(char* path) { currentCallback(path); } EM_JS(int, callJs_saveFile, (const char *rawFilename), { let filename = UTF8ToString(rawFilename) || "file.bin"; FS.createPath("/", "savedFiles"); if (FS.analyzePath(filename).exists) { FS.unlink(filename); } // Call callback that will write the file Module._fileBrowserCallback(stringToNewUTF8("/savedFiles/" + filename)); let data = FS.readFile("/savedFiles/" + filename); const reader = Object.assign(new FileReader(), { onload: () => { // Show popup to user to download let saver = document.createElement('a'); saver.href = reader.result; saver.download = filename; saver.style = "display: none"; saver.click(); }, onerror: () => { throw new Error(reader.error); }, }); reader.readAsDataURL(new File([data], "", { type: "application/octet-stream" })); }); EM_JS(int, callJs_openFile, (bool multiple), { let selector = document.createElement("input"); selector.type = "file"; selector.style = "display: none"; if (multiple) { selector.multiple = true; } selector.onchange = () => { if (selector.files.length == 0) return; FS.createPath("/", "openedFiles"); for (let file of selector.files) { const fr = new FileReader(); fr.onload = () => { let folder = "/openedFiles/"+Math.random().toString(36).substring(2)+"/"; FS.createPath("/", folder); if (FS.analyzePath(folder+file.name).exists) { console.log(`Error: ${folder+file.name} already exist`); } else { FS.createDataFile(folder, file.name, fr.result, true, true); Module._fileBrowserCallback(stringToNewUTF8(folder+file.name)); } }; fr.readAsBinaryString(file); } }; selector.click(); }); bool openFileBrowser(DialogMode mode, const std::vector &validExtensions, const std::function &callback, const std::string &defaultPath, bool multiple) { switch (mode) { case DialogMode::Open: { currentCallback = callback; callJs_openFile(multiple); break; } case DialogMode::Save: { currentCallback = callback; std::fs::path path; if (!defaultPath.empty()) path = std::fs::path(defaultPath).filename(); else if (!validExtensions.empty()) path = "file." + validExtensions[0].spec; callJs_saveFile(path.filename().string().c_str()); break; } case DialogMode::Folder: { throw std::logic_error("Selecting a folder is not implemented"); return false; } default: std::unreachable(); } return true; } #else bool openFileBrowser(DialogMode mode, const std::vector &validExtensions, const std::function &callback, const std::string &defaultPath, bool multiple) { // Turn the content of the ItemFilter objects into something NFD understands std::vector validExtensionsNfd; validExtensionsNfd.reserve(validExtensions.size()); for (const auto &extension : validExtensions) { validExtensionsNfd.emplace_back(nfdfilteritem_t{ extension.name.c_str(), extension.spec.c_str() }); } // Clear errors from previous runs NFD::ClearError(); // Try to initialize NFD if (NFD::Init() != NFD_OKAY) { // Handle errors if initialization failed log::error("NFD init returned an error: {}", NFD::GetError()); if (*s_fileBrowserErrorCallback != nullptr) { const auto error = NFD::GetError(); (*s_fileBrowserErrorCallback)(error != nullptr ? error : "No details"); } return false; } NFD::UniquePathU8 outPath; NFD::UniquePathSet outPaths; nfdresult_t result = NFD_ERROR; // Open the correct file dialog based on the mode switch (mode) { case DialogMode::Open: if (multiple) result = NFD::OpenDialogMultiple(outPaths, validExtensionsNfd.data(), validExtensionsNfd.size(), defaultPath.empty() ? nullptr : defaultPath.c_str()); else result = NFD::OpenDialog(outPath, validExtensionsNfd.data(), validExtensionsNfd.size(), defaultPath.empty() ? nullptr : defaultPath.c_str()); break; case DialogMode::Save: result = NFD::SaveDialog(outPath, validExtensionsNfd.data(), validExtensionsNfd.size(), defaultPath.empty() ? nullptr : defaultPath.c_str()); break; case DialogMode::Folder: result = NFD::PickFolder(outPath, defaultPath.empty() ? nullptr : defaultPath.c_str()); break; } if (result == NFD_OKAY){ // Handle the path if the dialog was opened in single mode if (outPath != nullptr) { // Call the provided callback with the path callback(outPath.get()); } // Handle multiple paths if the dialog was opened in multiple mode if (outPaths != nullptr) { nfdpathsetsize_t numPaths = 0; if (NFD::PathSet::Count(outPaths, numPaths) == NFD_OKAY) { // Loop over all returned paths and call the callback with each of them for (size_t i = 0; i < numPaths; i++) { NFD::UniquePathSetPath path; if (NFD::PathSet::GetPath(outPaths, i, path) == NFD_OKAY) callback(path.get()); } } } } else if (result == NFD_ERROR) { // Handle errors that occurred during the file dialog call log::error("Requested file dialog returned an error: {}", NFD::GetError()); if (*s_fileBrowserErrorCallback != nullptr) { const auto error = NFD::GetError(); (*s_fileBrowserErrorCallback)(error != nullptr ? error : "No details"); } } NFD::Quit(); return result == NFD_OKAY; } #endif std::vector getDataPaths() { std::vector paths; #if defined(OS_WINDOWS) // In the portable Windows version, we just use the executable directory // Prevent the use of the AppData folder here if (!ImHexApi::System::isPortableVersion()) { PWSTR wAppDataPath = nullptr; if (SUCCEEDED(SHGetKnownFolderPath(FOLDERID_LocalAppData, KF_FLAG_CREATE, nullptr, &wAppDataPath))) { paths.emplace_back(wAppDataPath); CoTaskMemFree(wAppDataPath); } } #elif defined(OS_MACOS) paths.push_back(wolv::io::fs::getApplicationSupportDirectoryPath()); #elif defined(OS_LINUX) || defined(OS_WEB) paths.push_back(xdg::DataHomeDir()); auto dataDirs = xdg::DataDirs(); std::copy(dataDirs.begin(), dataDirs.end(), std::back_inserter(paths)); #endif #if defined(OS_MACOS) if (auto executablePath = wolv::io::fs::getExecutablePath(); executablePath.has_value()) paths.push_back(*executablePath); #else for (auto &path : paths) path = path / "imhex"; if (auto executablePath = wolv::io::fs::getExecutablePath(); executablePath.has_value()) paths.push_back(executablePath->parent_path()); #endif // Add additional data directories to the path auto additionalDirs = ImHexApi::System::getAdditionalFolderPaths(); std::ranges::copy(additionalDirs, std::back_inserter(paths)); // Add the project file directory to the path, if one is loaded if (ProjectFile::hasPath()) { paths.push_back(ProjectFile::getPath().parent_path()); } return paths; } static std::vector getConfigPaths() { #if defined(OS_WINDOWS) return getDataPaths(); #elif defined(OS_MACOS) return getDataPaths(); #elif defined(OS_LINUX) || defined(OS_WEB) return {xdg::ConfigHomeDir() / "imhex"}; #endif } std::vector appendPath(std::vector paths, const std::fs::path &folder) { for (auto &path : paths) path = path / folder; return paths; } std::vector getPluginPaths() { std::vector paths = getDataPaths(); // Add the system plugin directory to the path if one was provided at compile time #if defined(OS_LINUX) && defined(SYSTEM_PLUGINS_LOCATION) paths.push_back(SYSTEM_PLUGINS_LOCATION); #endif return paths; } std::vector getDefaultPaths(ImHexPath path, bool listNonExisting) { std::vector result; // Return the correct path based on the ImHexPath enum switch (path) { case ImHexPath::END: return { }; case ImHexPath::Constants: result = appendPath(getDataPaths(), "constants"); break; case ImHexPath::Config: result = appendPath(getConfigPaths(), "config"); break; case ImHexPath::Backups: result = appendPath(getDataPaths(), "backups"); break; case ImHexPath::Encodings: result = appendPath(getDataPaths(), "encodings"); break; case ImHexPath::Logs: result = appendPath(getDataPaths(), "logs"); break; case ImHexPath::Plugins: result = appendPath(getPluginPaths(), "plugins"); break; case ImHexPath::Libraries: result = appendPath(getPluginPaths(), "lib"); break; case ImHexPath::Resources: result = appendPath(getDataPaths(), "resources"); break; case ImHexPath::Magic: result = appendPath(getDataPaths(), "magic"); break; case ImHexPath::Patterns: result = appendPath(getDataPaths(), "patterns"); break; case ImHexPath::PatternsInclude: result = appendPath(getDataPaths(), "includes"); break; case ImHexPath::Yara: result = appendPath(getDataPaths(), "yara"); break; case ImHexPath::YaraAdvancedAnalysis: result = appendPath(getDefaultPaths(ImHexPath::Yara), "advanced_analysis"); break; case ImHexPath::Recent: result = appendPath(getConfigPaths(), "recent"); break; case ImHexPath::Scripts: result = appendPath(getDataPaths(), "scripts"); break; case ImHexPath::Inspectors: result = appendPath(getDefaultPaths(ImHexPath::Scripts), "inspectors"); break; case ImHexPath::Nodes: result = appendPath(getDefaultPaths(ImHexPath::Scripts), "nodes"); break; case ImHexPath::Themes: result = appendPath(getDataPaths(), "themes"); break; case ImHexPath::Layouts: result = appendPath(getDataPaths(), "layouts"); break; case ImHexPath::Workspaces: result = appendPath(getDataPaths(), "workspaces"); break; } // Remove all paths that don't exist if requested if (!listNonExisting) { std::erase_if(result, [](const auto &entryPath) { return !wolv::io::fs::isDirectory(entryPath); }); } return result; } bool isPathWritable(const std::fs::path &path) { constexpr static auto TestFileName = "__imhex__tmp__"; // Try to open the __imhex__tmp__ file in the given path // If one does exist already, try to delete it { wolv::io::File file(path / TestFileName, wolv::io::File::Mode::Read); if (file.isValid()) { if (!file.remove()) return false; } } // Try to create a new file in the given path // If that fails, or the file cannot be deleted anymore afterward; the path is not writable wolv::io::File file(path / TestFileName, wolv::io::File::Mode::Create); const bool result = file.isValid(); if (!file.remove()) return false; return result; } std::fs::path toShortPath(const std::fs::path &path) { #if defined(OS_WINDOWS) // Get the size of the short path size_t size = GetShortPathNameW(path.c_str(), nullptr, 0); if (size == 0) return path; // Get the short path std::wstring newPath(size, 0x00); GetShortPathNameW(path.c_str(), newPath.data(), newPath.size()); newPath.pop_back(); return newPath; #else // Other supported platforms don't have short paths return path; #endif } }