#include #include #include #include #include #include #include #include #include "QEthereum.h" using namespace std; using namespace dev; using namespace dev::eth; dev::bytes toBytes(QString const& _s) { if (_s.startsWith("0x")) // Hex return dev::fromHex(_s.mid(2).toStdString()); else if (!_s.contains(QRegExp("[^0-9]"))) // Decimal return dev::toCompactBigEndian(dev::bigint(_s.toStdString())); else { // Binary cwarn << "THIS FUNCTIONALITY IS DEPRECATED. DO NOT ASSUME ASCII/BINARY-STRINGS WILL BE ACCEPTED. USE eth.fromAscii()."; return asBytes(_s); } } QString padded(QString const& _s, unsigned _l, unsigned _r) { dev::bytes b = toBytes(_s); while (b.size() < _l) b.insert(b.begin(), 0); while (b.size() < _r) b.push_back(0); return asQString(dev::asBytes(dev::asString(b).substr(b.size() - max(_l, _r)))); } //"0xff".bin().unbin() QString padded(QString const& _s, unsigned _l) { if (_s.startsWith("0x") || !_s.contains(QRegExp("[^0-9]"))) // Numeric: pad to right return padded(_s, _l, _l); else // Text: pad to the left return padded(_s, 0, _l); } QString unpadded(QString _s) { while (_s.size() && _s.endsWith(QChar(0))) _s.chop(1); return _s; } QEthereum::QEthereum(QObject* _p, eth::Interface* _c, QList _accounts): QObject(_p), m_client(_c), m_accounts(_accounts) { // required to prevent crash on osx when performing addto/evaluatejavascript calls moveToThread(_p->thread()); } QEthereum::~QEthereum() { clearWatches(); } void QEthereum::clientDieing() { clearWatches(); m_client = nullptr; } void QEthereum::clearWatches() { if (m_client) for (auto i: m_watches) m_client->uninstallWatch(i); m_watches.clear(); } QString QEthereum::secretToAddress(QString _s) const { return toQJS(KeyPair(toSecret(_s)).address()); } eth::Interface* QEthereum::client() const { return m_client; } QString QEthereum::lll(QString _s) const { return toQJS(dev::eth::compileLLL(_s.toStdString())); } QString QEthereum::sha3(QString _s) const { return toQJS(dev::eth::sha3(toBytes(_s))); } QString QEthereum::sha3(QString _s1, QString _s2) const { return toQJS(dev::eth::sha3(asBytes(padded(_s1, 32)) + asBytes(padded(_s2, 32)))); } QString QEthereum::sha3(QString _s1, QString _s2, QString _s3) const { return toQJS(dev::eth::sha3(asBytes(padded(_s1, 32)) + asBytes(padded(_s2, 32)) + asBytes(padded(_s3, 32)))); } QString QEthereum::sha3old(QString _s) const { return toQJS(dev::eth::sha3(asBytes(_s))); } QString QEthereum::offset(QString _s, int _i) const { return toQJS(toU256(_s) + _i); } QString QEthereum::coinbase() const { return m_client ? toQJS(client()->address()) : ""; } QString QEthereum::number() const { return m_client ? QString::number(client()->number() + 1) : ""; } QString QEthereum::account() const { if (m_accounts.empty()) return toQJS(Address()); return toQJS(m_accounts[0].address()); } QStringList QEthereum::accounts() const { QStringList ret; for (auto i: m_accounts) ret.push_back(toQJS(i.address())); return ret; } QString QEthereum::key() const { if (m_accounts.empty()) return toQJS(KeyPair().sec()); return toQJS(m_accounts[0].sec()); } QStringList QEthereum::keys() const { QStringList ret; for (auto i: m_accounts) ret.push_back(toQJS(i.sec())); return ret; } void QEthereum::setCoinbase(QString _a) { if (m_client && client()->address() != toAddress(_a)) { client()->setAddress(toAddress(_a)); coinbaseChanged(); } } void QEthereum::setDefault(int _block) { if (m_client) m_client->setDefault(_block); } int QEthereum::getDefault() const { return m_client ? m_client->getDefault() : 0; } QString QEthereum::balanceAt(QString _a) const { return m_client ? toQJS(client()->balanceAt(toAddress(_a))) : ""; } QString QEthereum::balanceAt(QString _a, int _block) const { return m_client ? toQJS(client()->balanceAt(toAddress(_a), _block)) : ""; } QString QEthereum::stateAt(QString _a, QString _p) const { return m_client ? toQJS(client()->stateAt(toAddress(_a), toU256(_p))) : ""; } QString QEthereum::stateAt(QString _a, QString _p, int _block) const { return m_client ? toQJS(client()->stateAt(toAddress(_a), toU256(_p), _block)) : ""; } QString QEthereum::codeAt(QString _a) const { return m_client ? ::fromBinary(client()->codeAt(toAddress(_a))) : ""; } QString QEthereum::codeAt(QString _a, int _block) const { return m_client ? ::fromBinary(client()->codeAt(toAddress(_a), _block)) : ""; } double QEthereum::countAt(QString _a) const { return m_client ? (double)(uint64_t)client()->countAt(toAddress(_a)) : 0; } double QEthereum::countAt(QString _a, int _block) const { return m_client ? (double)(uint64_t)client()->countAt(toAddress(_a), _block) : 0; } static dev::eth::MessageFilter toMessageFilter(QString _json) { dev::eth::MessageFilter filter; QJsonObject f = QJsonDocument::fromJson(_json.toUtf8()).object(); if (f.contains("earliest")) filter.withEarliest(f["earliest"].toInt()); if (f.contains("latest")) filter.withLatest(f["latest"].toInt()); if (f.contains("max")) filter.withMax(f["max"].toInt()); if (f.contains("skip")) filter.withSkip(f["skip"].toInt()); if (f.contains("from")) { if (f["from"].isArray()) for (auto i: f["from"].toArray()) filter.from(toAddress(i.toString())); else filter.from(toAddress(f["from"].toString())); } if (f.contains("to")) { if (f["to"].isArray()) for (auto i: f["to"].toArray()) filter.to(toAddress(i.toString())); else filter.to(toAddress(f["to"].toString())); } if (f.contains("altered")) { if (f["altered"].isArray()) for (auto i: f["altered"].toArray()) if (i.isObject()) filter.altered(toAddress(i.toObject()["id"].toString()), toU256(i.toObject()["at"].toString())); else filter.altered(toAddress(i.toString())); else if (f["altered"].isObject()) filter.altered(toAddress(f["altered"].toObject()["id"].toString()), toU256(f["altered"].toObject()["at"].toString())); else filter.altered(toAddress(f["altered"].toString())); } return filter; } struct TransactionSkeleton { Secret from; Address to; u256 value; bytes data; u256 gas; u256 gasPrice; }; static TransactionSkeleton toTransaction(QString _json) { TransactionSkeleton ret; QJsonObject f = QJsonDocument::fromJson(_json.toUtf8()).object(); if (f.contains("from")) ret.from = toSecret(f["from"].toString()); if (f.contains("to")) ret.to = toAddress(f["to"].toString()); if (f.contains("value")) ret.value = toU256(f["value"].toString()); if (f.contains("gas")) ret.gas = toU256(f["gas"].toString()); if (f.contains("gasPrice")) ret.gasPrice = toU256(f["gasPrice"].toString()); if (f.contains("data") || f.contains("code") || f.contains("dataclose")) { if (f["data"].isString()) ret.data = toBytes(f["data"].toString()); else if (f["code"].isString()) ret.data = toBytes(f["code"].toString()); else if (f["data"].isArray()) for (auto i: f["data"].toArray()) dev::operator +=(ret.data, asBytes(padded(i.toString(), 32))); else if (f["code"].isArray()) for (auto i: f["code"].toArray()) dev::operator +=(ret.data, asBytes(padded(i.toString(), 32))); else if (f["dataclose"].isArray()) for (auto i: f["dataclose"].toArray()) dev::operator +=(ret.data, toBytes(i.toString())); } return ret; } static QString toJson(dev::eth::PastMessages const& _pms) { QJsonArray jsonArray; for (dev::eth::PastMessage const& t: _pms) { QJsonObject v; v["input"] = ::fromBinary(t.input); v["output"] = ::fromBinary(t.output); v["to"] = toQJS(t.to); v["from"] = toQJS(t.from); v["origin"] = toQJS(t.origin); v["timestamp"] = (int)t.timestamp; v["coinbase"] = toQJS(t.coinbase); v["block"] = toQJS(t.block); QJsonArray path; for (int i: t.path) path.append(i); v["path"] = path; v["number"] = (int)t.number; jsonArray.append(v); } return QString::fromUtf8(QJsonDocument(jsonArray).toJson()); } QString QEthereum::getMessages(QString _json) const { return m_client ? toJson(m_client->messages(toMessageFilter(_json))) : ""; } bool QEthereum::isMining() const { return m_client ? client()->isMining() : false; } bool QEthereum::isListening() const { return /*m_client ? client()->haveNetwork() :*/ false; } void QEthereum::setMining(bool _l) { if (m_client) { if (_l) client()->startMining(); else client()->stopMining(); } } void QEthereum::setListening(bool) { if (!m_client) return; /* if (_l) client()->startNetwork(); else client()->stopNetwork();*/ } unsigned QEthereum::peerCount() const { return /*m_client ? (unsigned)client()->peerCount() :*/ 0; } QString QEthereum::doCreate(QString _secret, QString _amount, QString _init, QString _gas, QString _gasPrice) { if (!m_client) return ""; auto ret = toQJS(client()->transact(toSecret(_secret), toU256(_amount), toBytes(_init), toU256(_gas), toU256(_gasPrice))); client()->flushTransactions(); return ret; } void QEthereum::doTransact(QString _secret, QString _amount, QString _dest, QString _data, QString _gas, QString _gasPrice) { if (!m_client) return; client()->transact(toSecret(_secret), toU256(_amount), toAddress(_dest), toBytes(_data), toU256(_gas), toU256(_gasPrice)); client()->flushTransactions(); } QString QEthereum::doTransact(QString _json) { QString ret; if (!m_client) return ret; TransactionSkeleton t = toTransaction(_json); if (!t.from && m_accounts.size()) { auto b = m_accounts.first(); for (auto a: m_accounts) if (client()->balanceAt(KeyPair(a).address()) > client()->balanceAt(KeyPair(b).address())) b = a; t.from = b.secret(); } if (!t.gasPrice) t.gasPrice = 10 * dev::eth::szabo; if (!t.gas) t.gas = min(client()->gasLimitRemaining(), client()->balanceAt(KeyPair(t.from).address()) / t.gasPrice); if (t.to) client()->transact(t.from, t.value, t.to, t.data, t.gas, t.gasPrice); else ret = toQJS(client()->transact(t.from, t.value, t.data, t.gas, t.gasPrice)); client()->flushTransactions(); return ret; } QString QEthereum::doCall(QString _json) { if (!m_client) return QString(); TransactionSkeleton t = toTransaction(_json); if (!t.to) return QString(); if (!t.from && m_accounts.size()) t.from = m_accounts[0].secret(); if (!t.gasPrice) t.gasPrice = 10 * dev::eth::szabo; if (!t.gas) t.gas = client()->balanceAt(KeyPair(t.from).address()) / t.gasPrice; bytes out = client()->call(t.from, t.value, t.to, t.data, t.gas, t.gasPrice); return asQString(out); } unsigned QEthereum::newWatch(QString _json) { if (!m_client) return (unsigned)-1; unsigned ret; if (_json == "chain") ret = m_client->installWatch(dev::eth::ChainChangedFilter); else if (_json == "pending") ret = m_client->installWatch(dev::eth::PendingChangedFilter); else ret = m_client->installWatch(toMessageFilter(_json)); m_watches.push_back(ret); return ret; } QString QEthereum::watchMessages(unsigned _w) { if (!m_client) return ""; return toJson(m_client->messages(_w)); } void QEthereum::killWatch(unsigned _w) { if (!m_client) return; m_client->uninstallWatch(_w); std::remove(m_watches.begin(), m_watches.end(), _w); } void QEthereum::poll() { if (!m_client) return; for (auto w: m_watches) if (m_client->checkWatch(w)) emit watchChanged(w); } // TODO: repot and hook all these up. QWhisper::QWhisper(QObject* _p, std::shared_ptr const& _c): QObject(_p), m_face(_c) { } QWhisper::~QWhisper() { } // probably want a better way of doing this. somehow guarantee that the face() will always be available as long as this object is. struct NoInterface: public Exception {}; std::shared_ptr QWhisper::face() const { auto ret = m_face.lock(); if (!ret) throw NoInterface(); return ret; } void QWhisper::faceDieing() { } void QWhisper::send(QString /*dev::Address*/ _dest, QString /*ev::KeyPair*/ _from, QString /*dev::h256 const&*/ _topic, QString /*dev::bytes const&*/ _payload) { (void)_dest; (void)_from; (void)_topic; (void)_payload; } unsigned QWhisper::newWatch(QString _json) { (void)_json; return 0; } QString QWhisper::watchMessages(unsigned _w) { (void)_w; return ""; } void QWhisper::killWatch(unsigned _w) { (void)_w; } void QWhisper::clearWatches() { } void QWhisper::poll() { } // extra bits needed to link on VS #ifdef _MSC_VER // include moc file, ofuscated to hide from automoc #include\ "moc_QEthereum.cpp" #endif