#include #include #include #include #include #include #include #include #include #include namespace hex::plugin::builtin { std::string format(pl::Evaluator *ctx, const auto ¶ms) { auto format = pl::Token::literalToString(params[0], true); std::string message; fmt::dynamic_format_arg_store formatArgs; for (u32 i = 1; i < params.size(); i++) { auto ¶m = params[i]; std::visit(overloaded { [&](pl::Pattern *value) { formatArgs.push_back(value->toString(ctx->getProvider())); }, [&](auto &&value) { formatArgs.push_back(value); } }, param); } try { return fmt::vformat(format, formatArgs); } catch (fmt::format_error &error) { hex::pl::LogConsole::abortEvaluation(hex::format("format error: {}", error.what())); } } void registerPatternLanguageFunctions() { using namespace hex::pl; using ParameterCount = ContentRegistry::PatternLanguage::ParameterCount; ContentRegistry::PatternLanguage::addColorPalette("hex.builtin.palette.pastel", { 0x70B4771F, 0x700E7FFF, 0x702CA02C, 0x702827D6, 0x70BD6794, 0x704B568C, 0x70C277E3, 0x707F7F7F, 0x7022BDBC, 0x70CFBE17 }); ContentRegistry::PatternLanguage::Namespace nsStd = { "builtin", "std" }; { /* print(format, args...) */ ContentRegistry::PatternLanguage::addFunction(nsStd, "print", ParameterCount::moreThan(0), [](Evaluator *ctx, auto params) -> std::optional { ctx->getConsole().log(LogConsole::Level::Info, format(ctx, params)); return std::nullopt; }); /* format(format, args...) */ ContentRegistry::PatternLanguage::addFunction(nsStd, "format", ParameterCount::moreThan(0), [](Evaluator *ctx, auto params) -> std::optional { return format(ctx, params); }); /* env(name) */ ContentRegistry::PatternLanguage::addFunction(nsStd, "env", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { auto name = Token::literalToString(params[0], false); auto env = ctx->getEnvVariable(name); if (env) return env; else { ctx->getConsole().log(LogConsole::Level::Warning, hex::format("environment variable '{}' does not exist", name)); return ""; } }); /* pack_size(...) */ ContentRegistry::PatternLanguage::addFunction(nsStd, "sizeof_pack", ParameterCount::atLeast(0), [](Evaluator *ctx, auto params) -> std::optional { return u128(params.size()); }); /* error(message) */ ContentRegistry::PatternLanguage::addFunction(nsStd, "error", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { LogConsole::abortEvaluation(Token::literalToString(params[0], true)); return std::nullopt; }); /* warning(message) */ ContentRegistry::PatternLanguage::addFunction(nsStd, "warning", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { ctx->getConsole().log(LogConsole::Level::Warning, Token::literalToString(params[0], true)); return std::nullopt; }); } ContentRegistry::PatternLanguage::Namespace nsStdMem = { "builtin", "std", "mem" }; { /* base_address() */ ContentRegistry::PatternLanguage::addFunction(nsStdMem, "base_address", ParameterCount::none(), [](Evaluator *ctx, auto params) -> std::optional { return u128(ctx->getProvider()->getBaseAddress()); }); /* size() */ ContentRegistry::PatternLanguage::addFunction(nsStdMem, "size", ParameterCount::none(), [](Evaluator *ctx, auto params) -> std::optional { return u128(ctx->getProvider()->getActualSize()); }); /* find_sequence_in_range(occurrence_index, start_offset, end_offset, bytes...) */ ContentRegistry::PatternLanguage::addFunction(nsStdMem, "find_sequence_in_range", ParameterCount::moreThan(3), [](Evaluator *ctx, auto params) -> std::optional { auto occurrenceIndex = Token::literalToUnsigned(params[0]); auto offsetFrom = Token::literalToUnsigned(params[1]); auto offsetTo = Token::literalToUnsigned(params[2]); std::vector sequence; for (u32 i = 3; i < params.size(); i++) { auto byte = Token::literalToUnsigned(params[i]); if (byte > 0xFF) LogConsole::abortEvaluation(hex::format("byte #{} value out of range: {} > 0xFF", i, u64(byte))); sequence.push_back(u8(byte & 0xFF)); } std::vector bytes(sequence.size(), 0x00); u32 occurrences = 0; const u64 bufferSize = ctx->getProvider()->getSize(); const u64 endOffset = offsetTo <= offsetFrom ? bufferSize : std::min(bufferSize, u64(offsetTo)); for (u64 offset = offsetFrom; offset < endOffset - sequence.size(); offset++) { ctx->getProvider()->read(offset, bytes.data(), bytes.size()); if (bytes == sequence) { if (occurrences < occurrenceIndex) { occurrences++; continue; } return u128(offset); } } return i128(-1); }); /* read_unsigned(address, size) */ ContentRegistry::PatternLanguage::addFunction(nsStdMem, "read_unsigned", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { auto address = Token::literalToUnsigned(params[0]); auto size = Token::literalToUnsigned(params[1]); if (size > 16) LogConsole::abortEvaluation("read size out of range"); u128 result = 0; ctx->getProvider()->read(address, &result, size); return result; }); /* read_signed(address, size) */ ContentRegistry::PatternLanguage::addFunction(nsStdMem, "read_signed", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { auto address = Token::literalToUnsigned(params[0]); auto size = Token::literalToUnsigned(params[1]); if (size > 16) LogConsole::abortEvaluation("read size out of range"); i128 value; ctx->getProvider()->read(address, &value, size); return hex::signExtend(size * 8, value); }); /* read_string(address, size) */ ContentRegistry::PatternLanguage::addFunction(nsStdMem, "read_string", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { auto address = Token::literalToUnsigned(params[0]); auto size = Token::literalToUnsigned(params[1]); std::string result(size, '\x00'); ctx->getProvider()->read(address, result.data(), size); return result; }); } ContentRegistry::PatternLanguage::Namespace nsStdString = { "builtin", "std", "string" }; { /* length(string) */ ContentRegistry::PatternLanguage::addFunction(nsStdString, "length", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { auto string = Token::literalToString(params[0], false); return u128(string.length()); }); /* at(string, index) */ ContentRegistry::PatternLanguage::addFunction(nsStdString, "at", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { auto string = Token::literalToString(params[0], false); auto index = Token::literalToSigned(params[1]); #if defined(OS_MACOS) const auto signIndex = index >> (sizeof(index) * 8 - 1); const auto absIndex = (index ^ signIndex) - signIndex; #else const auto absIndex = std::abs(index); #endif if (absIndex > string.length()) LogConsole::abortEvaluation("character index out of range"); if (index >= 0) return char(string[index]); else return char(string[string.length() - -index]); }); /* substr(string, pos, count) */ ContentRegistry::PatternLanguage::addFunction(nsStdString, "substr", ParameterCount::exactly(3), [](Evaluator *ctx, auto params) -> std::optional { auto string = Token::literalToString(params[0], false); auto pos = Token::literalToUnsigned(params[1]); auto size = Token::literalToUnsigned(params[2]); if (pos > string.length()) LogConsole::abortEvaluation("character index out of range"); return string.substr(pos, size); }); /* parse_int(string, base) */ ContentRegistry::PatternLanguage::addFunction(nsStdString, "parse_int", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { auto string = Token::literalToString(params[0], false); auto base = Token::literalToUnsigned(params[1]); return i128(std::strtoll(string.c_str(), nullptr, base)); }); /* parse_float(string) */ ContentRegistry::PatternLanguage::addFunction(nsStdString, "parse_float", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { auto string = Token::literalToString(params[0], false); return double(std::strtod(string.c_str(), nullptr)); }); } ContentRegistry::PatternLanguage::Namespace nsStdHttp = { "builtin", "std", "http" }; { /* get(url) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdHttp, "get", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { const auto url = Token::literalToString(params[0], false); hex::Net net; return net.getString(url).get().body; }); } ContentRegistry::PatternLanguage::Namespace nsStdFile = { "builtin", "std", "file" }; { static u32 fileCounter = 0; static std::map openFiles; /* open(path, mode) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "open", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { const auto path = Token::literalToString(params[0], false); const auto modeEnum = Token::literalToUnsigned(params[1]); fs::File::Mode mode; switch (modeEnum) { case 1: mode = fs::File::Mode::Read; break; case 2: mode = fs::File::Mode::Write; break; case 3: mode = fs::File::Mode::Create; break; default: LogConsole::abortEvaluation("invalid file open mode"); } fs::File file(path, mode); if (!file.isValid()) LogConsole::abortEvaluation(hex::format("failed to open file {}", path)); fileCounter++; openFiles.emplace(std::pair { fileCounter, std::move(file) }); return u128(fileCounter); }); /* close(file) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "close", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { const auto file = Token::literalToUnsigned(params[0]); if (!openFiles.contains(file)) LogConsole::abortEvaluation("failed to access invalid file"); openFiles.erase(file); return std::nullopt; }); /* read(file, size) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "read", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { const auto file = Token::literalToUnsigned(params[0]); const auto size = Token::literalToUnsigned(params[1]); if (!openFiles.contains(file)) LogConsole::abortEvaluation("failed to access invalid file"); return openFiles[file].readString(size); }); /* write(file, data) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "write", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { const auto file = Token::literalToUnsigned(params[0]); const auto data = Token::literalToString(params[1], true); if (!openFiles.contains(file)) LogConsole::abortEvaluation("failed to access invalid file"); openFiles[file].write(data); return std::nullopt; }); /* seek(file, offset) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "seek", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { const auto file = Token::literalToUnsigned(params[0]); const auto offset = Token::literalToUnsigned(params[1]); if (!openFiles.contains(file)) LogConsole::abortEvaluation("failed to access invalid file"); openFiles[file].seek(offset); return std::nullopt; }); /* size(file) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "size", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { const auto file = Token::literalToUnsigned(params[0]); if (!openFiles.contains(file)) LogConsole::abortEvaluation("failed to access invalid file"); return u128(openFiles[file].getSize()); }); /* resize(file, size) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "resize", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { const auto file = Token::literalToUnsigned(params[0]); const auto size = Token::literalToUnsigned(params[1]); if (!openFiles.contains(file)) LogConsole::abortEvaluation("failed to access invalid file"); openFiles[file].setSize(size); return std::nullopt; }); /* flush(file) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "flush", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { const auto file = Token::literalToUnsigned(params[0]); if (!openFiles.contains(file)) LogConsole::abortEvaluation("failed to access invalid file"); openFiles[file].flush(); return std::nullopt; }); /* remove(file) */ ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "remove", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { const auto file = Token::literalToUnsigned(params[0]); if (!openFiles.contains(file)) LogConsole::abortEvaluation("failed to access invalid file"); openFiles[file].remove(); return std::nullopt; }); } ContentRegistry::PatternLanguage::Namespace nsStdMath = { "builtin", "std", "math" }; { /* floor(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "floor", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::floor(Token::literalToFloatingPoint(params[0])); }); /* ceil(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "ceil", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::ceil(Token::literalToFloatingPoint(params[0])); }); /* round(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "round", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::round(Token::literalToFloatingPoint(params[0])); }); /* trunc(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "trunc", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::trunc(Token::literalToFloatingPoint(params[0])); }); /* log10(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "log10", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::log10(Token::literalToFloatingPoint(params[0])); }); /* log2(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "log2", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::log2(Token::literalToFloatingPoint(params[0])); }); /* ln(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "ln", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::log(Token::literalToFloatingPoint(params[0])); }); /* fmod(x, y) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "fmod", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { return std::fmod(Token::literalToFloatingPoint(params[0]), Token::literalToFloatingPoint(params[1])); }); /* pow(base, exp) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "pow", ParameterCount::exactly(2), [](Evaluator *ctx, auto params) -> std::optional { return std::pow(Token::literalToFloatingPoint(params[0]), Token::literalToFloatingPoint(params[1])); }); /* sqrt(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "sqrt", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::sqrt(Token::literalToFloatingPoint(params[0])); }); /* cbrt(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "cbrt", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::cbrt(Token::literalToFloatingPoint(params[0])); }); /* sin(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "sin", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::sin(Token::literalToFloatingPoint(params[0])); }); /* cos(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "cos", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::cos(Token::literalToFloatingPoint(params[0])); }); /* tan(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "tan", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::tan(Token::literalToFloatingPoint(params[0])); }); /* asin(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "asin", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::asin(Token::literalToFloatingPoint(params[0])); }); /* acos(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "acos", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::acos(Token::literalToFloatingPoint(params[0])); }); /* atan(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "atan", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::atan(Token::literalToFloatingPoint(params[0])); }); /* atan2(y, x) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "atan", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::atan2(Token::literalToFloatingPoint(params[0]), Token::literalToFloatingPoint(params[1])); }); /* sinh(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "sinh", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::sinh(Token::literalToFloatingPoint(params[0])); }); /* cosh(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "cosh", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::cosh(Token::literalToFloatingPoint(params[0])); }); /* tanh(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "tanh", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::tanh(Token::literalToFloatingPoint(params[0])); }); /* asinh(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "asinh", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::asinh(Token::literalToFloatingPoint(params[0])); }); /* acosh(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "acosh", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::acosh(Token::literalToFloatingPoint(params[0])); }); /* atanh(value) */ ContentRegistry::PatternLanguage::addFunction(nsStdMath, "atanh", ParameterCount::exactly(1), [](Evaluator *ctx, auto params) -> std::optional { return std::atanh(Token::literalToFloatingPoint(params[0])); }); } } }