#include #include #include #include #include #if defined(OS_WINDOWS) #include #elif defined(OS_MACOS) #include #elif defined(OS_LINUX) #include #endif namespace hex { std::string to_string(u128 value) { char data[45] = { 0 }; u8 index = sizeof(data) - 2; while (value != 0 && index != 0) { data[index] = '0' + value % 10; value /= 10; index--; } return std::string(data + index + 1); } std::string to_string(s128 value) { char data[45] = { 0 }; u128 unsignedValue = value < 0 ? -value : value; u8 index = sizeof(data) - 2; while (unsignedValue != 0 && index != 0) { data[index] = '0' + unsignedValue % 10; unsignedValue /= 10; index--; } if (value < 0) { data[index] = '-'; return std::string(data + index); } else return std::string(data + index + 1); } std::string toByteString(u64 bytes) { double value = bytes; u8 unitIndex = 0; while (value > 1024) { value /= 1024; unitIndex++; if (unitIndex == 6) break; } std::string result = hex::format("%.2f", value); switch (unitIndex) { case 0: result += " Bytes"; break; case 1: result += " kB"; break; case 2: result += " MB"; break; case 3: result += " GB"; break; case 4: result += " TB"; break; case 5: result += " PB"; break; case 6: result += " EB"; break; default: result = "A lot!"; } return result; } std::string makePrintable(char c) { switch (c) { case 0: return "NUL"; case 1: return "SOH"; case 2: return "STX"; case 3: return "ETX"; case 4: return "EOT"; case 5: return "ENQ"; case 6: return "ACK"; case 7: return "BEL"; case 8: return "BS"; case 9: return "TAB"; case 10: return "LF"; case 11: return "VT"; case 12: return "FF"; case 13: return "CR"; case 14: return "SO"; case 15: return "SI"; case 16: return "DLE"; case 17: return "DC1"; case 18: return "DC2"; case 19: return "DC3"; case 20: return "DC4"; case 21: return "NAK"; case 22: return "SYN"; case 23: return "ETB"; case 24: return "CAN"; case 25: return "EM"; case 26: return "SUB"; case 27: return "ESC"; case 28: return "FS"; case 29: return "GS"; case 30: return "RS"; case 31: return "US"; case 32: return "Space"; case 127: return "DEL"; default: return std::string() + c; } } std::vector splitString(std::string_view string, std::string_view delimiter) { size_t start = 0, end; std::string token; std::vector res; while ((end = string.find (delimiter, start)) != std::string::npos) { token = string.substr(start, end - start); start = end + delimiter.length(); res.push_back(token); } res.push_back(std::string(string.substr(start))); return res; } std::string toEngineeringString(double value) { constexpr std::array Suffixes = { "a", "f", "p", "n", "u", "m", "", "k", "M", "G", "T", "P", "E" }; int8_t suffixIndex = 6; while (suffixIndex != 0 && suffixIndex != 12 && (value >= 1000 || value < 1) && value != 0) { if (value >= 1000) { value /= 1000; suffixIndex++; } else if (value < 1) { value *= 1000; suffixIndex--; } } return std::to_string(value).substr(0, 5) + Suffixes[suffixIndex]; } std::vector readFile(std::string_view path) { FILE *file = fopen(path.data(), "rb"); if (file == nullptr) return { }; std::vector result; fseek(file, 0, SEEK_END); result.resize(ftell(file)); rewind(file); fread(result.data(), 1, result.size(), file); return result; } void openWebpage(std::string_view url) { #if defined(OS_WINDOWS) system(hex::format("start %s", url.data()).c_str()); #elif defined(OS_MACOS) system(hex::format("open %s", url.data()).c_str()); #elif defined(OS_LINUX) system(hex::format("xdg-open %s", url.data()).c_str()); #else #warning "Unknown OS, can't open webpages" #endif } std::vector getPath(ImHexPath path) { #if defined(OS_WINDOWS) std::string exePath(MAX_PATH, '\0'); GetModuleFileName(nullptr, exePath.data(), exePath.length()); auto parentDir = std::filesystem::path(exePath).parent_path(); switch (path) { case ImHexPath::Patterns: return { (parentDir / "patterns").string() }; case ImHexPath::PatternsInclude: return { (parentDir / "includes").string() }; case ImHexPath::Magic: return { (parentDir / "magic").string() }; case ImHexPath::Python: return { parentDir.string() }; case ImHexPath::Plugins: return { (parentDir / "plugins").string() }; case ImHexPath::Yara: return { (parentDir / "yara").string() }; case ImHexPath::Config: return { (parentDir / "config").string() }; case ImHexPath::Resources: return { (parentDir / "resources").string() }; default: __builtin_unreachable(); } #elif defined(OS_MACOS) return { getPathForMac(path) }; #else std::vector configDirs = xdg::ConfigDirs(); std::vector dataDirs = xdg::DataDirs(); configDirs.insert(configDirs.begin(), xdg::ConfigHomeDir()); dataDirs.insert(dataDirs.begin(), xdg::DataHomeDir()); std::vector result; switch (path) { case ImHexPath::Patterns: std::transform(dataDirs.begin(), dataDirs.end(), std::back_inserter(result), [](auto p) { return (p / "imhex" / "patterns").string(); }); return result; case ImHexPath::PatternsInclude: std::transform(dataDirs.begin(), dataDirs.end(), std::back_inserter(result), [](auto p) { return (p / "imhex" / "includes").string(); }); return result; case ImHexPath::Magic: std::transform(dataDirs.begin(), dataDirs.end(), std::back_inserter(result), [](auto p) { return (p / "imhex" / "magic").string(); }); return result; case ImHexPath::Python: std::transform(dataDirs.begin(), dataDirs.end(), std::back_inserter(result), [](auto p) { return (p / "imhex").string(); }); return result; case ImHexPath::Plugins: std::transform(dataDirs.begin(), dataDirs.end(), std::back_inserter(result), [](auto p) { return (p / "imhex" / "plugins").string(); }); return result; case ImHexPath::Yara: std::transform(dataDirs.begin(), dataDirs.end(), std::back_inserter(result), [](auto p) { return (p / "imhex" / "yara").string(); }); return result; case ImHexPath::Config: std::transform(configDirs.begin(), configDirs.end(), std::back_inserter(result), [](auto p) { return (p / "imhex").string(); }); return result; case ImHexPath::Resources: std::transform(dataDirs.begin(), dataDirs.end(), std::back_inserter(result), [](auto p) { return (p / "imhex" / "resources").string(); }); return result; default: __builtin_unreachable(); } #endif } }