#include #include #include #include #include #include #include #include #include #include namespace hex::pl { class PatternData; PatternLanguage::PatternLanguage() { this->m_preprocessor = new Preprocessor(); this->m_lexer = new Lexer(); this->m_parser = new Parser(); this->m_validator = new Validator(); this->m_evaluator = new Evaluator(); this->m_preprocessor->addPragmaHandler("endian", [this](std::string value) { if (value == "big") { this->m_evaluator->setDefaultEndian(std::endian::big); return true; } else if (value == "little") { this->m_evaluator->setDefaultEndian(std::endian::little); return true; } else if (value == "native") { this->m_evaluator->setDefaultEndian(std::endian::native); return true; } else return false; }); this->m_preprocessor->addPragmaHandler("eval_depth", [this](std::string value) { auto limit = strtol(value.c_str(), nullptr, 0); if (limit <= 0) return false; this->m_evaluator->setEvaluationDepth(limit); return true; }); this->m_preprocessor->addPragmaHandler("array_limit", [this](const std::string &value) { auto limit = strtol(value.c_str(), nullptr, 0); if (limit <= 0) return false; this->m_evaluator->setArrayLimit(limit); return true; }); this->m_preprocessor->addPragmaHandler("pattern_limit", [this](const std::string &value) { auto limit = strtol(value.c_str(), nullptr, 0); if (limit <= 0) return false; this->m_evaluator->setPatternLimit(limit); return true; }); this->m_preprocessor->addPragmaHandler("loop_limit", [this](const std::string &value) { auto limit = strtol(value.c_str(), nullptr, 0); if (limit <= 0) return false; this->m_evaluator->setLoopLimit(limit); return true; }); this->m_preprocessor->addPragmaHandler("base_address", [](const std::string &value) { auto baseAddress = strtoull(value.c_str(), nullptr, 0); ImHexApi::Provider::get()->setBaseAddress(baseAddress); return true; }); this->m_preprocessor->addDefaultPragmaHandlers(); } PatternLanguage::~PatternLanguage() { delete this->m_preprocessor; delete this->m_lexer; delete this->m_parser; delete this->m_validator; } std::optional> PatternLanguage::parseString(const std::string &code) { auto preprocessedCode = this->m_preprocessor->preprocess(code); if (!preprocessedCode.has_value()) { this->m_currError = this->m_preprocessor->getError(); return std::nullopt; } auto tokens = this->m_lexer->lex(preprocessedCode.value()); if (!tokens.has_value()) { this->m_currError = this->m_lexer->getError(); return std::nullopt; } auto ast = this->m_parser->parse(tokens.value()); if (!ast.has_value()) { this->m_currError = this->m_parser->getError(); return std::nullopt; } return ast; } std::optional> PatternLanguage::executeString(prv::Provider *provider, const std::string &code, const std::map &envVars, const std::map &inVariables) { this->m_currError.reset(); this->m_evaluator->getConsole().clear(); this->m_evaluator->setProvider(provider); this->m_evaluator->setDefaultEndian(std::endian::native); this->m_evaluator->setEvaluationDepth(32); this->m_evaluator->setArrayLimit(0x1000); this->m_evaluator->setPatternLimit(0x2000); this->m_evaluator->setLoopLimit(0x1000); this->m_evaluator->setInVariables(inVariables); for (const auto &[name, value] : envVars) this->m_evaluator->setEnvVariable(name, value); for (auto &node : this->m_currAST) delete node; this->m_currAST.clear(); auto ast = this->parseString(code); if (!ast) return std::nullopt; this->m_currAST = ast.value(); auto patterns = this->m_evaluator->evaluate(ast.value()); if (!patterns.has_value()) { this->m_currError = this->m_evaluator->getConsole().getLastHardError(); return std::nullopt; } return patterns; } std::optional> PatternLanguage::executeFile(prv::Provider *provider, const fs::path &path, const std::map &envVars, const std::map &inVariables) { File file(path, File::Mode::Read); return this->executeString(provider, file.readString(), envVars, inVariables); } void PatternLanguage::abort() { this->m_evaluator->abort(); } const std::vector &PatternLanguage::getCurrentAST() const { return this->m_currAST; } [[nodiscard]] std::map PatternLanguage::getOutVariables() const { return this->m_evaluator->getOutVariables(); } const std::vector> &PatternLanguage::getConsoleLog() { return this->m_evaluator->getConsole().getLog(); } const std::optional> &PatternLanguage::getError() { return this->m_currError; } u32 PatternLanguage::getCreatedPatternCount() { return this->m_evaluator->getPatternCount(); } u32 PatternLanguage::getMaximumPatternCount() { return this->m_evaluator->getPatternLimit(); } void PatternLanguage::allowDangerousFunctions(bool allow) { this->m_evaluator->allowDangerousFunctions(allow); } bool PatternLanguage::hasDangerousFunctionBeenCalled() const { return this->m_evaluator->hasDangerousFunctionBeenCalled(); } }