/* 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 ClientModel.cpp * @author Yann yann@ethdev.com * @author Arkadiy Paronyan arkadiy@ethdev.com * @date 2015 * Ethereum IDE client. */ // Make sure boost/asio.hpp is included before windows.h. #include #include "ClientModel.h" #include #include #include #include #include #include #include #include #include #include "DebuggingStateWrapper.h" #include "Exceptions.h" #include "QContractDefinition.h" #include "QVariableDeclaration.h" #include "QVariableDefinition.h" #include "ContractCallDataEncoder.h" #include "CodeModel.h" #include "QEther.h" #include "Web3Server.h" #include "MixClient.h" using namespace dev; using namespace dev::eth; using namespace std; namespace dev { namespace mix { class RpcConnector: public jsonrpc::AbstractServerConnector { public: virtual bool StartListening() override { return true; } virtual bool StopListening() override { return true; } virtual bool SendResponse(string const& _response, void*) override { m_response = QString::fromStdString(_response); return true; } QString response() const { return m_response; } private: QString m_response; }; ClientModel::ClientModel(): m_running(false), m_rpcConnector(new RpcConnector()) { qRegisterMetaType("QBigInt*"); qRegisterMetaType("QVariableDefinition*"); qRegisterMetaType>("QList"); qRegisterMetaType>("QList"); qRegisterMetaType("QVariableDeclaration*"); qRegisterMetaType("QSolidityType*"); qRegisterMetaType("QMachineState"); qRegisterMetaType("QInstruction"); qRegisterMetaType("QCode"); qRegisterMetaType("QCallData"); qRegisterMetaType("RecordLogEntry*"); } ClientModel::~ClientModel() { m_runFuture.waitForFinished(); } void ClientModel::init(QString _dbpath) { m_dbpath = _dbpath; if (m_dbpath.isEmpty()) m_client.reset(new MixClient(QStandardPaths::writableLocation(QStandardPaths::TempLocation).toStdString())); else m_client.reset(new MixClient(m_dbpath.toStdString())); m_ethAccounts = make_shared([=](){return m_client.get();}, std::vector()); m_web3Server.reset(new Web3Server(*m_rpcConnector.get(), m_ethAccounts, std::vector(), m_client.get())); connect(m_web3Server.get(), &Web3Server::newTransaction, this, &ClientModel::onNewTransaction, Qt::DirectConnection); } QString ClientModel::apiCall(QString const& _message) { try { m_rpcConnector->OnRequest(_message.toStdString(), nullptr); return m_rpcConnector->response(); } catch (...) { cerr << boost::current_exception_diagnostic_information(); return QString(); } } void ClientModel::mine() { if (m_mining) BOOST_THROW_EXCEPTION(ExecutionStateException()); m_mining = true; emit miningStarted(); emit miningStateChanged(); m_runFuture = QtConcurrent::run([=]() { try { m_client->mine(); newBlock(); m_mining = false; emit miningComplete(); } catch (...) { m_mining = false; cerr << boost::current_exception_diagnostic_information(); emit runFailed(QString::fromStdString(boost::current_exception_diagnostic_information())); } emit miningStateChanged(); }); } QString ClientModel::newSecret() { KeyPair a = KeyPair::create(); return QString::fromStdString(dev::toHex(a.secret().ref())); } QString ClientModel::address(QString const& _secret) { return QString::fromStdString(dev::toHex(KeyPair(Secret(_secret.toStdString())).address().ref())); } QString ClientModel::toHex(QString const& _int) { return QString::fromStdString(dev::toHex(dev::u256(_int.toStdString()))); } QString ClientModel::encodeAbiString(QString _string) { ContractCallDataEncoder encoder; return QString::fromStdString(dev::toHex(encoder.encodeBytes(_string))); } QString ClientModel::encodeStringParam(QString const& _param) { ContractCallDataEncoder encoder; return QString::fromStdString(dev::toHex(encoder.encodeStringParam(_param, 32))); } QStringList ClientModel::encodeParams(QVariant const& _param, QString const& _contract, QString const& _function) { QStringList ret; CompiledContract const& compilerRes = m_codeModel->contract(_contract); QList paramsList; shared_ptr contractDef = compilerRes.sharedContract(); if (_contract == _function) paramsList = contractDef->constructor()->parametersList(); else for (QFunctionDefinition* tf: contractDef->functionsList()) if (tf->name() == _function) { paramsList = tf->parametersList(); break; } if (paramsList.length() > 0) for (QVariableDeclaration* var: paramsList) { ContractCallDataEncoder encoder; QSolidityType const* type = var->type(); QVariant value = _param.toMap().value(var->name()); encoder.encode(value, type->type()); ret.push_back(QString::fromStdString(dev::toHex(encoder.encodedData()))); } return ret; } QVariantMap ClientModel::contractAddresses() const { QVariantMap res; for (auto const& c: m_contractAddresses) res.insert(c.first.first, QString::fromStdString(toJS(c.second))); return res; } QVariantList ClientModel::gasCosts() const { QVariantList res; for (auto const& c: m_gasCosts) res.append(QVariant::fromValue(static_cast(c))); return res; } void ClientModel::addAccount(QString const& _secret) { KeyPair key(Secret(_secret.toStdString())); m_accountsSecret.push_back(key); Address address = key.address(); m_accounts[address] = Account(u256(0), Account::NormalCreation); m_ethAccounts->setAccounts(m_accountsSecret); } QString ClientModel::resolveAddress(QString const& _secret) { KeyPair key(Secret(_secret.toStdString())); return "0x" + QString::fromStdString(key.address().hex()); } void ClientModel::setupScenario(QVariantMap _scenario) { onStateReset(); WriteGuard(x_queueTransactions); m_running = true; QVariantList blocks = _scenario.value("blocks").toList(); QVariantList stateAccounts = _scenario.value("accounts").toList(); m_accounts.clear(); m_accountsSecret.clear(); for (auto const& b: stateAccounts) { QVariantMap account = b.toMap(); Address address = {}; if (account.contains("secret")) { KeyPair key(Secret(account.value("secret").toString().toStdString())); m_accountsSecret.push_back(key); address = key.address(); } else if (account.contains("address")) address = Address(fromHex(account.value("address").toString().toStdString())); if (!address) continue; m_accounts[address] = Account(qvariant_cast(account.value("balance"))->toU256Wei(), Account::NormalCreation); } m_ethAccounts->setAccounts(m_accountsSecret); bool trToExecute = false; for (auto const& b: blocks) { QVariantList transactions = b.toMap().value("transactions").toList(); m_queueTransactions.push_back(transactions); trToExecute = transactions.size() > 0; } m_client->resetState(m_accounts, Secret(_scenario.value("miner").toMap().value("secret").toString().toStdString())); if (m_queueTransactions.count() > 0 && trToExecute) { setupExecutionChain(); processNextTransactions(); } else m_running = false; } void ClientModel::setupExecutionChain() { connect(this, &ClientModel::newBlock, this, &ClientModel::processNextTransactions, Qt::QueuedConnection); connect(this, &ClientModel::runFailed, this, &ClientModel::stopExecution, Qt::QueuedConnection); connect(this, &ClientModel::runStateChanged, this, &ClientModel::finalizeBlock, Qt::QueuedConnection); } void ClientModel::stopExecution() { disconnect(this, &ClientModel::newBlock, this, &ClientModel::processNextTransactions); disconnect(this, &ClientModel::runStateChanged, this, &ClientModel::finalizeBlock); disconnect(this, &ClientModel::runFailed, this, &ClientModel::stopExecution); m_running = false; } void ClientModel::finalizeBlock() { m_queueTransactions.pop_front();// pop last execution group. The last block is never mined (pending block) if (m_queueTransactions.size() > 0) mine(); else { stopExecution(); emit runComplete(); } } TransactionSettings ClientModel::transaction(QVariant const& _tr) const { QVariantMap transaction = _tr.toMap(); QString contractId = transaction.value("contractId").toString(); QString functionId = transaction.value("functionId").toString(); bool gasAuto = transaction.value("gasAuto").toBool(); u256 gas = 0; if (transaction.value("gas").data()) gas = boost::get(qvariant_cast(transaction.value("gas"))->internalValue()); else gasAuto = true; u256 value = (qvariant_cast(transaction.value("value")))->toU256Wei(); u256 gasPrice = (qvariant_cast(transaction.value("gasPrice")))->toU256Wei(); QString sender = transaction.value("sender").toString(); bool isContractCreation = transaction.value("isContractCreation").toBool(); bool isFunctionCall = transaction.value("isFunctionCall").toBool(); if (contractId.isEmpty() && m_codeModel->hasContract()) //TODO: This is to support old project files, remove later contractId = m_codeModel->contracts().keys()[0]; Secret f = Secret(sender.toStdString()); TransactionSettings transactionSettings(contractId, functionId, value, gas, gasAuto, gasPrice, f, isContractCreation, isFunctionCall); transactionSettings.parameterValues = transaction.value("parameters").toMap(); if (contractId == functionId || functionId == "Constructor") transactionSettings.functionId.clear(); return transactionSettings; } void ClientModel::processNextTransactions() { WriteGuard(x_queueTransactions); vector transactionSequence; for (auto const& t: m_queueTransactions.front()) { TransactionSettings transactionSettings = transaction(t); transactionSequence.push_back(transactionSettings); } executeSequence(transactionSequence); } void ClientModel::executeSequence(vector const& _sequence) { if (m_running) { qWarning() << "Waiting for current execution to complete"; m_runFuture.waitForFinished(); } emit runStarted(); //run sequence m_runFuture = QtConcurrent::run([=]() { try { m_gasCosts.clear(); for (TransactionSettings const& transaction: _sequence) { std::pair ctrInstance = resolvePair(transaction.contractId); QString address = resolveToken(ctrInstance); if (!transaction.isFunctionCall) { callAddress(Address(address.toStdString()), bytes(), transaction); onNewTransaction(); continue; } ContractCallDataEncoder encoder; //encode data CompiledContract const& compilerRes = m_codeModel->contract(ctrInstance.first); QFunctionDefinition const* f = nullptr; bytes contractCode = compilerRes.bytes(); shared_ptr contractDef = compilerRes.sharedContract(); if (transaction.functionId.isEmpty()) f = contractDef->constructor(); else for (QFunctionDefinition const* tf: contractDef->functionsList()) if (tf->name() == transaction.functionId) { f = tf; break; } if (!f) emit runFailed("Function '" + transaction.functionId + tr("' not found. Please check transactions or the contract code.")); if (!transaction.functionId.isEmpty()) encoder.encode(f); for (QVariableDeclaration const* p: f->parametersList()) { QSolidityType const* type = p->type(); QVariant value = transaction.parameterValues.value(p->name()); if (type->type().type == SolidityType::Type::Address && value.toString().startsWith("<")) { std::pair ctrParamInstance = resolvePair(value.toString()); value = QVariant(resolveToken(ctrParamInstance)); } encoder.encode(value, type->type()); } if (transaction.functionId.isEmpty() || transaction.functionId == ctrInstance.first) { bytes param = encoder.encodedData(); contractCode.insert(contractCode.end(), param.begin(), param.end()); Address newAddress = deployContract(contractCode, transaction); std::pair contractToken = retrieveToken(transaction.contractId); m_contractAddresses[contractToken] = newAddress; m_contractNames[newAddress] = contractToken.first; contractAddressesChanged(); gasCostsChanged(); } else { auto contractAddressIter = m_contractAddresses.find(ctrInstance); if (contractAddressIter == m_contractAddresses.end()) emit runFailed("Contract '" + transaction.contractId + tr(" not deployed.") + "' " + tr(" Cannot call ") + transaction.functionId); callAddress(contractAddressIter->second, encoder.encodedData(), transaction); } m_gasCosts.append(m_client->lastExecution().gasUsed); onNewTransaction(); } emit runComplete(); } catch(boost::exception const&) { cerr << boost::current_exception_diagnostic_information(); emit runFailed(QString::fromStdString(boost::current_exception_diagnostic_information())); } catch(exception const& e) { cerr << boost::current_exception_diagnostic_information(); emit runFailed(e.what()); } emit runStateChanged(); }); } void ClientModel::executeTr(QVariantMap _tr) { WriteGuard(x_queueTransactions); QVariantList trs; trs.push_back(_tr); m_queueTransactions.push_back(trs); if (!m_running) { m_running = true; setupExecutionChain(); processNextTransactions(); } } std::pair ClientModel::resolvePair(QString const& _contractId) { std::pair ret = std::make_pair(_contractId, 0); if (_contractId.startsWith("<") && _contractId.endsWith(">")) { QStringList values = ret.first.remove("<").remove(">").split(" - "); ret = std::make_pair(values[0], values[1].toUInt()); } if (_contractId.startsWith("0x")) ret = std::make_pair(_contractId, -2); return ret; } QString ClientModel::resolveToken(std::pair const& _value) { if (_value.second == -2) //-2: first contains a real address return _value.first; else if (m_contractAddresses.size() > 0) return QString::fromStdString("0x" + dev::toHex(m_contractAddresses[_value].ref())); else return _value.first; } std::pair ClientModel::retrieveToken(QString const& _value) { std::pair ret; ret.first = _value; ret.second = m_contractAddresses.size(); return ret; } void ClientModel::showDebugger() { ExecutionResult last = m_client->lastExecution(); showDebuggerForTransaction(last); } void ClientModel::showDebuggerForTransaction(ExecutionResult const& _t) { //we need to wrap states in a QObject before sending to QML. QDebugData* debugData = new QDebugData(); QQmlEngine::setObjectOwnership(debugData, QQmlEngine::JavaScriptOwnership); QList codes; QList> codeMaps; QList codeItems; QList contracts; for (MachineCode const& code: _t.executionCode) { QHash codeMap; codes.push_back(QMachineState::getHumanReadableCode(debugData, code.address, code.code, codeMap)); codeMaps.push_back(move(codeMap)); //try to resolve contract for source level debugging auto nameIter = m_contractNames.find(code.address); CompiledContract const* compilerRes = nullptr; if (nameIter != m_contractNames.end() && (compilerRes = m_codeModel->tryGetContract(nameIter->second))) //returned object is guaranteed to live till the end of event handler in main thread { eth::AssemblyItems assemblyItems = !_t.isConstructor() ? compilerRes->assemblyItems() : compilerRes->constructorAssemblyItems(); codes.back()->setDocument(compilerRes->documentId()); codeItems.push_back(move(assemblyItems)); contracts.push_back(compilerRes); } else { codeItems.push_back(AssemblyItems()); contracts.push_back(nullptr); } } QList data; for (bytes const& d: _t.transactionData) data.push_back(QMachineState::getDebugCallData(debugData, d)); QVariantList states; QVariantList solCallStack; map solLocals; // map storageDeclarations; // unsigned prevInstructionIndex = 0; for (MachineState const& s: _t.machineStates) { int instructionIndex = codeMaps[s.codeIndex][static_cast(s.curPC)]; QSolState* solState = nullptr; if (!codeItems[s.codeIndex].empty() && contracts[s.codeIndex]) { CompiledContract const* contract = contracts[s.codeIndex]; AssemblyItem const& instruction = codeItems[s.codeIndex][instructionIndex]; if (instruction.type() == eth::Push && !instruction.data()) { //register new local variable initialization auto localIter = contract->locals().find(LocationPair(instruction.getLocation().start, instruction.getLocation().end)); if (localIter != contract->locals().end()) solLocals[s.stack.size()] = new QVariableDeclaration(debugData, localIter.value().name.toStdString(), localIter.value().type); } if (instruction.type() == eth::Tag) { //track calls into functions AssemblyItem const& prevInstruction = codeItems[s.codeIndex][prevInstructionIndex]; QString functionName = m_codeModel->resolveFunctionName(instruction.getLocation()); if (!functionName.isEmpty() && ((prevInstruction.getJumpType() == AssemblyItem::JumpType::IntoFunction) || solCallStack.empty())) solCallStack.push_front(QVariant::fromValue(functionName)); else if (prevInstruction.getJumpType() == AssemblyItem::JumpType::OutOfFunction && !solCallStack.empty()) { solCallStack.pop_front(); solLocals.clear(); } } //format solidity context values QVariantMap locals; QVariantList localDeclarations; QVariantMap localValues; for (auto l: solLocals) if (l.first < (int)s.stack.size()) { if (l.second->type()->name().startsWith("mapping")) break; //mapping type not yet managed localDeclarations.push_back(QVariant::fromValue(l.second)); localValues[l.second->name()] = formatValue(l.second->type()->type(), s.stack[l.first]); } locals["variables"] = localDeclarations; locals["values"] = localValues; QVariantMap storage; QVariantList storageDeclarationList; QVariantMap storageValues; for (auto st: s.storage) if (st.first < numeric_limits::max()) { auto storageIter = contract->storage().find(static_cast(st.first)); if (storageIter != contract->storage().end()) { QVariableDeclaration* storageDec = nullptr; for (SolidityDeclaration const& codeDec : storageIter.value()) { if (codeDec.type.name.startsWith("mapping")) continue; //mapping type not yet managed auto decIter = storageDeclarations.find(codeDec.name); if (decIter != storageDeclarations.end()) storageDec = decIter->second; else { storageDec = new QVariableDeclaration(debugData, codeDec.name.toStdString(), codeDec.type); storageDeclarations[storageDec->name()] = storageDec; } storageDeclarationList.push_back(QVariant::fromValue(storageDec)); storageValues[storageDec->name()] = formatStorageValue(storageDec->type()->type(), s.storage, codeDec.offset, codeDec.slot); } } } storage["variables"] = storageDeclarationList; storage["values"] = storageValues; prevInstructionIndex = instructionIndex; // filter out locations that match whole function or contract SourceLocation location = instruction.getLocation(); QString source; if (location.sourceName) source = QString::fromUtf8(location.sourceName->c_str()); if (m_codeModel->isContractOrFunctionLocation(location)) location = dev::SourceLocation(-1, -1, location.sourceName); solState = new QSolState(debugData, move(storage), move(solCallStack), move(locals), location.start, location.end, source); } states.append(QVariant::fromValue(new QMachineState(debugData, instructionIndex, s, codes[s.codeIndex], data[s.dataIndex], solState))); } debugData->setStates(move(states)); debugDataReady(debugData); } QVariant ClientModel::formatValue(SolidityType const& _type, u256 const& _value) { ContractCallDataEncoder decoder; bytes val = toBigEndian(_value); QVariant res = decoder.decode(_type, val); return res; } QVariant ClientModel::formatStorageValue(SolidityType const& _type, unordered_map const& _storage, unsigned _offset, u256 const& _slot) { u256 slot = _slot; QVariantList values; ContractCallDataEncoder decoder; u256 count = 1; if (_type.dynamicSize) { count = _storage.at(slot); slot = fromBigEndian(sha3(toBigEndian(slot)).asBytes()); } else if (_type.array) count = _type.count; unsigned offset = _offset; while (count--) { auto slotIter = _storage.find(slot); u256 slotValue = slotIter != _storage.end() ? slotIter->second : u256(); bytes slotBytes = toBigEndian(slotValue); auto start = slotBytes.end() - _type.size - offset; bytes val(32 - _type.size); //prepend with zeroes if (_type.type == SolidityType::SignedInteger && (*start & 0x80)) //extend sign std::fill(val.begin(), val.end(), 0xff); val.insert(val.end(), start, start + _type.size); values.append(decoder.decode(_type, val)); offset += _type.size; if ((offset + _type.size) > 32) { slot++; offset = 0; } } if (!_type.array) return values[0]; return QVariant::fromValue(values); } void ClientModel::emptyRecord() { debugDataReady(new QDebugData()); } void ClientModel::debugRecord(unsigned _index) { ExecutionResult e = m_client->execution(_index); showDebuggerForTransaction(e); } Address ClientModel::deployContract(bytes const& _code, TransactionSettings const& _ctrTransaction) { eth::TransactionSkeleton ts; ts.creation = true; ts.value = _ctrTransaction.value; ts.data = _code; ts.gas = _ctrTransaction.gas; ts.gasPrice = _ctrTransaction.gasPrice; ts.from = toAddress(_ctrTransaction.sender); return m_client->submitTransaction(ts, _ctrTransaction.sender, _ctrTransaction.gasAuto).second; } void ClientModel::callAddress(Address const& _contract, bytes const& _data, TransactionSettings const& _tr) { eth::TransactionSkeleton ts; ts.creation = false; ts.value = _tr.value; ts.to = _contract; ts.data = _data; ts.gas = _tr.gas; ts.gasPrice = _tr.gasPrice; ts.from = toAddress(_tr.sender); m_client->submitTransaction(ts, _tr.sender, _tr.gasAuto); } RecordLogEntry* ClientModel::lastBlock() const { eth::BlockInfo blockInfo = m_client->blockInfo(); stringstream strGas; strGas << blockInfo.gasUsed(); stringstream strNumber; strNumber << blockInfo.number(); RecordLogEntry* record = new RecordLogEntry(0, QString::fromStdString(strNumber.str()), tr(" - Block - "), tr("Hash: ") + QString(QString::fromStdString(dev::toHex(blockInfo.hash().ref()))), QString(), QString(), QString(), false, RecordLogEntry::RecordType::Block, QString::fromStdString(strGas.str()), QString(), tr("Block"), QVariantMap(), QVariantMap(), QVariantList()); QQmlEngine::setObjectOwnership(record, QQmlEngine::JavaScriptOwnership); return record; } void ClientModel::onStateReset() { m_contractAddresses.clear(); m_contractNames.clear(); m_stdContractAddresses.clear(); m_stdContractNames.clear(); m_queueTransactions.clear(); emit stateCleared(); } void ClientModel::onNewTransaction() { ExecutionResult const& tr = m_client->lastExecution(); unsigned block = m_client->number() + 1; unsigned recordIndex = tr.executonIndex; QString transactionIndex = tr.isCall() ? QObject::tr("Call") : QString("%1:%2").arg(block).arg(tr.transactionIndex); QString address = QString::fromStdString(toJS(tr.address)); QString value = QString::fromStdString(toString(tr.value)); QString contract = address; QString function; QString returned; QString gasUsed; bool creation = (bool)tr.contractAddress; if (!tr.isCall()) gasUsed = QString::fromStdString(toString(tr.gasUsed)); //TODO: handle value transfer FixedHash<4> functionHash; bool abi = false; if (creation) { //contract creation function = QObject::tr("Constructor"); address = QObject::tr("(Create contract)"); } else { //transaction/call if (tr.transactionData.size() > 0 && tr.transactionData.front().size() >= 4) { functionHash = FixedHash<4>(tr.transactionData.front().data(), FixedHash<4>::ConstructFromPointer); function = QString::fromStdString(toJS(functionHash)); abi = true; } else function = QObject::tr(""); } if (creation) returned = QString::fromStdString(toJS(tr.contractAddress)); Address contractAddress = (bool)tr.address ? tr.address : tr.contractAddress; auto contractAddressIter = m_contractNames.find(contractAddress); QVariantMap inputParameters; QVariantMap returnParameters; QVariantList logs; if (contractAddressIter != m_contractNames.end()) { ContractCallDataEncoder encoder; CompiledContract const& compilerRes = m_codeModel->contract(contractAddressIter->second); const QContractDefinition* def = compilerRes.contract(); contract = def->name(); if (creation) function = contract; if (abi) { QFunctionDefinition const* funcDef = def->getFunction(functionHash); if (funcDef) { function = funcDef->name(); QStringList returnValues = encoder.decode(funcDef->returnParameters(), tr.result.output); returned += "("; returned += returnValues.join(", "); returned += ")"; QStringList returnParams = encoder.decode(funcDef->returnParameters(), tr.result.output); for (int k = 0; k < returnParams.length(); ++k) returnParameters.insert(funcDef->returnParameters().at(k)->name(), returnParams.at(k)); bytes data = tr.inputParameters; data.erase(data.begin(), data.begin() + 4); QStringList parameters = encoder.decode(funcDef->parametersList(), data); for (int k = 0; k < parameters.length(); ++k) inputParameters.insert(funcDef->parametersList().at(k)->name(), parameters.at(k)); } } // Fill generated logs and decode parameters for (auto const& log: tr.logs) { QVariantMap l; l.insert("address", QString::fromStdString(log.address.hex())); std::ostringstream s; s << log.data; l.insert("data", QString::fromStdString(s.str())); std::ostringstream streamTopic; streamTopic << log.topics; l.insert("topic", QString::fromStdString(streamTopic.str())); auto const& sign = log.topics.front(); // first hash supposed to be the event signature. To check auto dataIterator = log.data.begin(); int topicDataIndex = 1; for (auto const& event: def->eventsList()) { if (sign == event->fullHash()) { QVariantList paramsList; l.insert("name", event->name()); for (auto const& e: event->parametersList()) { bytes data; QString param; if (!e->isIndexed()) { data = bytes(dataIterator, dataIterator + 32); dataIterator = dataIterator + 32; } else { data = log.topics.at(topicDataIndex).asBytes(); topicDataIndex++; } param = encoder.decode(e, data); QVariantMap p; p.insert("indexed", e->isIndexed()); p.insert("value", param); p.insert("name", e->name()); paramsList.push_back(p); } l.insert("param", paramsList); break; } } logs.push_back(l); } } QString sender; for (auto const& secret: m_accountsSecret) { if (secret.address() == tr.sender) { sender = QString::fromStdString(dev::toHex(secret.secret().ref())); break; } } QString label; if (function != QObject::tr("")) label = contract + "." + function + "()"; else label = contract; if (!creation) for (auto const& ctr: m_contractAddresses) { if (ctr.second == tr.address) { contract = "<" + ctr.first.first + " - " + QString::number(ctr.first.second) + ">"; break; } } RecordLogEntry* log = new RecordLogEntry(recordIndex, transactionIndex, contract, function, value, address, returned, tr.isCall(), RecordLogEntry::RecordType::Transaction, gasUsed, sender, label, inputParameters, returnParameters, logs); QQmlEngine::setObjectOwnership(log, QQmlEngine::JavaScriptOwnership); emit newRecord(log); // retrieving all accounts balance QVariantMap state; QVariantMap accountBalances; for (auto const& ctr : m_contractAddresses) { u256 wei = m_client->balanceAt(ctr.second, PendingBlock); accountBalances.insert("0x" + QString::fromStdString(ctr.second.hex()), QEther(wei, QEther::Wei).format()); } for (auto const& account : m_accounts) { u256 wei = m_client->balanceAt(account.first, PendingBlock); accountBalances.insert("0x" + QString::fromStdString(account.first.hex()), QEther(wei, QEther::Wei).format()); } state.insert("accounts", accountBalances); emit newState(recordIndex, state); } } }