/* This file is part of solidity. solidity is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. solidity is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with solidity. If not, see . */ /** * Full assembly stack that can support EVM-assembly and Yul as input and EVM, EVM1.5 and * eWasm as output. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace langutil; using namespace yul; namespace { Dialect const& languageToDialect(AssemblyStack::Language _language, EVMVersion _version) { switch (_language) { case AssemblyStack::Language::Assembly: return EVMDialect::looseAssemblyForEVM(_version); case AssemblyStack::Language::StrictAssembly: return EVMDialect::strictAssemblyForEVMObjects(_version); case AssemblyStack::Language::Yul: return Dialect::yul(); case AssemblyStack::Language::EWasm: return WasmDialect::instance(); } solAssert(false, ""); return Dialect::yul(); } } Scanner const& AssemblyStack::scanner() const { solAssert(m_scanner, ""); return *m_scanner; } bool AssemblyStack::parseAndAnalyze(std::string const& _sourceName, std::string const& _source) { m_errors.clear(); m_analysisSuccessful = false; m_scanner = make_shared(CharStream(_source, _sourceName)); m_parserResult = ObjectParser(m_errorReporter, languageToDialect(m_language, m_evmVersion)).parse(m_scanner, false); if (!m_errorReporter.errors().empty()) return false; solAssert(m_parserResult, ""); solAssert(m_parserResult->code, ""); return analyzeParsed(); } void AssemblyStack::optimize() { if (!m_optimiserSettings.runYulOptimiser) return; solAssert(m_analysisSuccessful, "Analysis was not successful."); m_analysisSuccessful = false; solAssert(m_parserResult, ""); optimize(*m_parserResult, true); solAssert(analyzeParsed(), "Invalid source code after optimization."); } bool AssemblyStack::analyzeParsed() { solAssert(m_parserResult, ""); m_analysisSuccessful = analyzeParsed(*m_parserResult); return m_analysisSuccessful; } bool AssemblyStack::analyzeParsed(Object& _object) { solAssert(_object.code, ""); _object.analysisInfo = make_shared(); AsmAnalyzer analyzer(*_object.analysisInfo, m_errorReporter, boost::none, languageToDialect(m_language, m_evmVersion)); bool success = analyzer.analyze(*_object.code); for (auto& subNode: _object.subObjects) if (auto subObject = dynamic_cast(subNode.get())) if (!analyzeParsed(*subObject)) success = false; return success; } void AssemblyStack::compileEVM(AbstractAssembly& _assembly, bool _evm15, bool _optimize) const { EVMDialect const* dialect = nullptr; if (m_language == Language::Assembly) dialect = &EVMDialect::looseAssemblyForEVM(m_evmVersion); else if (m_language == AssemblyStack::Language::StrictAssembly) dialect = &EVMDialect::strictAssemblyForEVMObjects(m_evmVersion); else if (m_language == AssemblyStack::Language::Yul) dialect = &EVMDialect::yulForEVM(m_evmVersion); else solAssert(false, "Invalid language."); EVMObjectCompiler::compile(*m_parserResult, _assembly, *dialect, _evm15, _optimize); } void AssemblyStack::optimize(Object& _object, bool _isCreation) { solAssert(_object.code, ""); solAssert(_object.analysisInfo, ""); for (auto& subNode: _object.subObjects) if (auto subObject = dynamic_cast(subNode.get())) optimize(*subObject, false); Dialect const& dialect = languageToDialect(m_language, m_evmVersion); unique_ptr meter; if (EVMDialect const* evmDialect = dynamic_cast(&dialect)) meter = make_unique(*evmDialect, _isCreation, m_optimiserSettings.expectedExecutionsPerDeployment); OptimiserSuite::run( dialect, meter.get(), *_object.code, *_object.analysisInfo, m_optimiserSettings.optimizeStackAllocation ); } MachineAssemblyObject AssemblyStack::assemble(Machine _machine) const { solAssert(m_analysisSuccessful, ""); solAssert(m_parserResult, ""); solAssert(m_parserResult->code, ""); solAssert(m_parserResult->analysisInfo, ""); switch (_machine) { case Machine::EVM: { MachineAssemblyObject object; dev::eth::Assembly assembly; EthAssemblyAdapter adapter(assembly); compileEVM(adapter, false, m_optimiserSettings.optimizeStackAllocation); object.bytecode = make_shared(assembly.assemble()); object.assembly = assembly.assemblyString(); return object; } case Machine::EVM15: { MachineAssemblyObject object; EVMAssembly assembly(true); compileEVM(assembly, true, m_optimiserSettings.optimizeStackAllocation); object.bytecode = make_shared(assembly.finalize()); /// TODO: fill out text representation return object; } case Machine::eWasm: { solAssert(m_language == Language::EWasm, ""); Dialect const& dialect = languageToDialect(m_language, EVMVersion{}); MachineAssemblyObject object; object.assembly = EWasmObjectCompiler::compile(*m_parserResult, dialect); return object; } } // unreachable return MachineAssemblyObject(); } string AssemblyStack::print() const { solAssert(m_parserResult, ""); solAssert(m_parserResult->code, ""); return m_parserResult->toString(m_language == Language::Yul) + "\n"; } shared_ptr AssemblyStack::parserResult() const { solAssert(m_analysisSuccessful, "Analysis was not successful."); solAssert(m_parserResult, ""); solAssert(m_parserResult->code, ""); return m_parserResult; }