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ImHex/lib/libimhex/source/pattern_language/pattern_language.cpp

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#include <hex/pattern_language/pattern_language.hpp>
#include <hex/helpers/file.hpp>
#include <hex/providers/provider.hpp>
#include <hex/helpers/logger.hpp>
#include <hex/pattern_language/preprocessor.hpp>
#include <hex/pattern_language/lexer.hpp>
#include <hex/pattern_language/parser.hpp>
#include <hex/pattern_language/validator.hpp>
#include <hex/pattern_language/evaluator.hpp>
#include <unistd.h>
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;
});
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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) {
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auto baseAddress = strtoull(value.c_str(), nullptr, 0);
ImHexApi::Provider::get()->setBaseAddress(baseAddress);
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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<std::vector<ASTNode*>> 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 { };
}
auto tokens = this->m_lexer->lex(preprocessedCode.value());
if (!tokens.has_value()) {
this->m_currError = this->m_lexer->getError();
return { };
}
auto ast = this->m_parser->parse(tokens.value());
if (!ast.has_value()) {
this->m_currError = this->m_parser->getError();
return { };
}
return ast;
}
std::optional<std::vector<PatternData*>> PatternLanguage::executeString(prv::Provider *provider, const std::string &code, const std::map<std::string, Token::Literal> &envVars, const std::map<std::string, Token::Literal> &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 { };
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 { };
}
return patterns;
}
std::optional<std::vector<PatternData*>> PatternLanguage::executeFile(prv::Provider *provider, const fs::path &path, const std::map<std::string, Token::Literal> &envVars, const std::map<std::string, Token::Literal> &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<ASTNode*> &PatternLanguage::getCurrentAST() const {
return this->m_currAST;
}
[[nodiscard]]
std::map<std::string, Token::Literal> PatternLanguage::getOutVariables() const {
return this->m_evaluator->getOutVariables();
}
const std::vector<std::pair<LogConsole::Level, std::string>>& PatternLanguage::getConsoleLog() {
return this->m_evaluator->getConsole().getLog();
}
const std::optional<std::pair<u32, std::string>>& 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();
}
}