/* This file is part of cpp-ethereum. cpp-ethereum 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. cpp-ethereum 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 cpp-ethereum. If not, see . */ /** @file CodeModel.cpp * @author Arkadiy Paronyan arkadiy@ethdev.com * @date 2014 * Ethereum IDE client. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "QContractDefinition.h" #include "QFunctionDefinition.h" #include "QVariableDeclaration.h" #include "CodeHighlighter.h" #include "FileIo.h" #include "CodeModel.h" using namespace dev::mix; const std::set c_predefinedContracts = { "Config", "Coin", "CoinReg", "coin", "service", "owned", "mortal", "NameReg", "named", "std", "configUser" }; namespace { using namespace dev::solidity; class CollectDeclarationsVisitor: public ASTConstVisitor { public: CollectDeclarationsVisitor(QHash* _functions, QHash* _locals): m_functions(_functions), m_locals(_locals), m_functionScope(false) {} private: LocationPair nodeLocation(ASTNode const& _node) { return LocationPair(_node.getLocation().start, _node.getLocation().end); } virtual bool visit(FunctionDefinition const& _node) { m_functions->insert(nodeLocation(_node), QString::fromStdString(_node.getName())); m_functionScope = true; return true; } virtual void endVisit(FunctionDefinition const&) { m_functionScope = false; } virtual bool visit(VariableDeclaration const& _node) { SolidityDeclaration decl; decl.type = CodeModel::nodeType(_node.getType().get()); decl.name = QString::fromStdString(_node.getName()); decl.slot = 0; decl.offset = 0; if (m_functionScope) m_locals->insert(nodeLocation(_node), decl); return true; } private: QHash* m_functions; QHash* m_locals; bool m_functionScope; }; QHash collectStorage(dev::solidity::ContractDefinition const& _contract) { QHash result; dev::solidity::ContractType contractType(_contract); for (auto v : contractType.getStateVariables()) { dev::solidity::VariableDeclaration const* declaration = std::get<0>(v); dev::u256 slot = std::get<1>(v); unsigned offset = std::get<2>(v); result[static_cast(slot)].push_back(SolidityDeclaration { QString::fromStdString(declaration->getName()), CodeModel::nodeType(declaration->getType().get()), slot, offset }); } return result; } } //namespace void BackgroundWorker::queueCodeChange(int _jobId) { m_model->runCompilationJob(_jobId); } CompiledContract::CompiledContract(const dev::solidity::CompilerStack& _compiler, QString const& _contractName, QString const& _source): QObject(nullptr), m_sourceHash(qHash(_source)) { std::string name = _contractName.toStdString(); ContractDefinition const& contractDefinition = _compiler.getContractDefinition(name); m_contract.reset(new QContractDefinition(nullptr, &contractDefinition)); QQmlEngine::setObjectOwnership(m_contract.get(), QQmlEngine::CppOwnership); m_contract->moveToThread(QApplication::instance()->thread()); m_bytes = _compiler.getBytecode(_contractName.toStdString()); dev::solidity::InterfaceHandler interfaceHandler; m_contractInterface = QString::fromStdString(*interfaceHandler.getABIInterface(contractDefinition)); if (m_contractInterface.isEmpty()) m_contractInterface = "[]"; if (contractDefinition.getLocation().sourceName.get()) m_documentId = QString::fromStdString(*contractDefinition.getLocation().sourceName); CollectDeclarationsVisitor visitor(&m_functions, &m_locals); m_storage = collectStorage(contractDefinition); contractDefinition.accept(visitor); m_assemblyItems = _compiler.getRuntimeAssemblyItems(name); m_constructorAssemblyItems = _compiler.getAssemblyItems(name); } QString CompiledContract::codeHex() const { return QString::fromStdString(toJS(m_bytes)); } CodeModel::CodeModel(): m_compiling(false), m_codeHighlighterSettings(new CodeHighlighterSettings()), m_backgroundWorker(this), m_backgroundJobId(0) { m_backgroundThread.start(); m_backgroundWorker.moveToThread(&m_backgroundThread); connect(this, &CodeModel::scheduleCompilationJob, &m_backgroundWorker, &BackgroundWorker::queueCodeChange, Qt::QueuedConnection); qRegisterMetaType("CompiledContract*"); qRegisterMetaType("QContractDefinition*"); qRegisterMetaType("QFunctionDefinition*"); qRegisterMetaType("QVariableDeclaration*"); qmlRegisterType("org.ethereum.qml", 1, 0, "QFunctionDefinition"); qmlRegisterType("org.ethereum.qml", 1, 0, "QVariableDeclaration"); } CodeModel::~CodeModel() { stop(); disconnect(this); releaseContracts(); } void CodeModel::stop() { ///@todo: cancel bg job m_backgroundThread.exit(); m_backgroundThread.wait(); } void CodeModel::reset(QVariantMap const& _documents) { ///@todo: cancel bg job Guard l(x_contractMap); releaseContracts(); Guard pl(x_pendingContracts); m_pendingContracts.clear(); for (QVariantMap::const_iterator d = _documents.cbegin(); d != _documents.cend(); ++d) m_pendingContracts[d.key()] = d.value().toString(); // launch the background thread m_compiling = true; emit stateChanged(); emit scheduleCompilationJob(++m_backgroundJobId); } void CodeModel::registerCodeChange(QString const& _documentId, QString const& _code) { { Guard pl(x_pendingContracts); m_pendingContracts[_documentId] = _code; } // launch the background thread m_compiling = true; emit stateChanged(); emit scheduleCompilationJob(++m_backgroundJobId); } QVariantMap CodeModel::contracts() const { QVariantMap result; Guard l(x_contractMap); for (ContractMap::const_iterator c = m_contractMap.cbegin(); c != m_contractMap.cend(); ++c) result.insert(c.key(), QVariant::fromValue(c.value())); return result; } CompiledContract* CodeModel::contractByDocumentId(QString const& _documentId) const { Guard l(x_contractMap); for (ContractMap::const_iterator c = m_contractMap.cbegin(); c != m_contractMap.cend(); ++c) if (c.value()->m_documentId == _documentId) return c.value(); return nullptr; } CompiledContract const& CodeModel::contract(QString const& _name) const { Guard l(x_contractMap); CompiledContract* res = m_contractMap.value(_name); if (res == nullptr) BOOST_THROW_EXCEPTION(dev::Exception() << dev::errinfo_comment("Contract not found: " + _name.toStdString())); return *res; } CompiledContract const* CodeModel::tryGetContract(QString const& _name) const { Guard l(x_contractMap); CompiledContract* res = m_contractMap.value(_name); return res; } void CodeModel::releaseContracts() { for (ContractMap::iterator c = m_contractMap.begin(); c != m_contractMap.end(); ++c) c.value()->deleteLater(); m_contractMap.clear(); } void CodeModel::runCompilationJob(int _jobId) { if (_jobId != m_backgroundJobId) return; //obsolete job ContractMap result; solidity::CompilerStack cs(true); try { cs.addSource("configUser", R"(contract configUser{function configAddr()constant returns(address a){ return 0xf025d81196b72fba60a1d4dddad12eeb8360d828;}})"); { Guard l(x_pendingContracts); for (auto const& c: m_pendingContracts) cs.addSource(c.first.toStdString(), c.second.toStdString()); } cs.compile(false); { Guard pl(x_pendingContracts); Guard l(x_contractMap); for (std::string n: cs.getContractNames()) { if (c_predefinedContracts.count(n) != 0) continue; QString name = QString::fromStdString(n); QString sourceName = QString::fromStdString(*cs.getContractDefinition(n).getLocation().sourceName); auto sourceIter = m_pendingContracts.find(sourceName); QString source = sourceIter != m_pendingContracts.end() ? sourceIter->second : QString(); CompiledContract* contract = new CompiledContract(cs, name, source); QQmlEngine::setObjectOwnership(contract, QQmlEngine::CppOwnership); result[name] = contract; CompiledContract* prevContract = nullptr; for (ContractMap::const_iterator c = m_contractMap.cbegin(); c != m_contractMap.cend(); ++c) if (c.value()->documentId() == contract->documentId()) prevContract = c.value(); if (prevContract != nullptr && prevContract->contractInterface() != result[name]->contractInterface()) emit contractInterfaceChanged(name); if (prevContract == nullptr) emit newContractCompiled(name); else if (prevContract->contract()->name() != name) emit contractRenamed(contract->documentId(), prevContract->contract()->name(), name); } releaseContracts(); m_contractMap.swap(result); emit codeChanged(); emit compilationComplete(); } } catch (dev::Exception const& _exception) { std::ostringstream error; solidity::SourceReferenceFormatter::printExceptionInformation(error, _exception, "Error", cs); SourceLocation const* location = boost::get_error_info(_exception); QString message = QString::fromStdString(error.str()); CompiledContract* contract = nullptr; if (location && location->sourceName.get() && (contract = contractByDocumentId(QString::fromStdString(*location->sourceName)))) message = message.replace(QString::fromStdString(*location->sourceName), contract->contract()->name()); //substitute the location to match our contract names compilationError(message, QString::fromStdString(*location->sourceName)); } m_compiling = false; emit stateChanged(); } bool CodeModel::hasContract() const { Guard l(x_contractMap); return m_contractMap.size() != 0; } dev::bytes const& CodeModel::getStdContractCode(const QString& _contractName, const QString& _url) { auto cached = m_compiledContracts.find(_contractName); if (cached != m_compiledContracts.end()) return cached->second; FileIo fileIo; std::string source = fileIo.readFile(_url).toStdString(); solidity::CompilerStack cs(false); cs.setSource(source); cs.compile(false); for (std::string const& name: cs.getContractNames()) { dev::bytes code = cs.getBytecode(name); m_compiledContracts.insert(std::make_pair(QString::fromStdString(name), std::move(code))); } return m_compiledContracts.at(_contractName); } SolidityType CodeModel::nodeType(dev::solidity::Type const* _type) { SolidityType r { SolidityType::Type::UnsignedInteger, 32, 1, false, false, QString::fromStdString(_type->toString()), std::vector(), std::vector() }; if (!_type) return r; switch (_type->getCategory()) { case Type::Category::Integer: { IntegerType const* it = dynamic_cast(_type); r.size = it->getNumBits() / 8; r.type = it->isAddress() ? SolidityType::Type::Address : it->isSigned() ? SolidityType::Type::SignedInteger : SolidityType::Type::UnsignedInteger; } break; case Type::Category::Bool: r.type = SolidityType::Type::Bool; break; case Type::Category::FixedBytes: { FixedBytesType const* b = dynamic_cast(_type); r.type = SolidityType::Type::Bytes; r.size = static_cast(b->getNumBytes()); } break; case Type::Category::Contract: r.type = SolidityType::Type::Address; break; case Type::Category::Array: { ArrayType const* array = dynamic_cast(_type); if (array->isByteArray()) r.type = SolidityType::Type::Bytes; else { SolidityType elementType = nodeType(array->getBaseType().get()); elementType.name = r.name; r = elementType; } r.count = static_cast(array->getLength()); r.dynamicSize = _type->isDynamicallySized(); r.array = true; } break; case Type::Category::Enum: { r.type = SolidityType::Type::Enum; EnumType const* e = dynamic_cast(_type); for(auto const& enumValue: e->getEnumDefinition().getMembers()) r.enumNames.push_back(QString::fromStdString(enumValue->getName())); } break; case Type::Category::Struct: { r.type = SolidityType::Type::Struct; StructType const* s = dynamic_cast(_type); for(auto const& structMember: s->getMembers()) { auto slotAndOffset = s->getStorageOffsetsOfMember(structMember.first); r.members.push_back(SolidityDeclaration { QString::fromStdString(structMember.first), nodeType(structMember.second.get()), slotAndOffset.first, slotAndOffset.second }); } } break; case Type::Category::Function: case Type::Category::IntegerConstant: case Type::Category::Magic: case Type::Category::Mapping: case Type::Category::Modifier: case Type::Category::Real: case Type::Category::TypeType: case Type::Category::Void: default: break; } return r; }