#pragma once #include #include #include #include namespace eth { class Client; class State; } class QQmlEngine; class QJSEngine; class QWebFrame; class QEthereum; class QmlAccount; class QmlEthereum; extern eth::Client* g_qmlClient; extern QObject* g_qmlMain; Q_DECLARE_METATYPE(eth::u256) Q_DECLARE_METATYPE(eth::Address) Q_DECLARE_METATYPE(eth::Secret) Q_DECLARE_METATYPE(eth::KeyPair) Q_DECLARE_METATYPE(QEthereum*) Q_DECLARE_METATYPE(QmlAccount*) Q_DECLARE_METATYPE(QmlEthereum*) class QmlU256Helper: public QObject { Q_OBJECT public: QmlU256Helper(QObject* _p = nullptr): QObject(_p) {} Q_INVOKABLE eth::u256 add(eth::u256 _a, eth::u256 _b) const { return _a + _b; } Q_INVOKABLE eth::u256 sub(eth::u256 _a, eth::u256 _b) const { return _a - _b; } Q_INVOKABLE eth::u256 mul(eth::u256 _a, int _b) const { return _a * _b; } Q_INVOKABLE eth::u256 mul(int _a, eth::u256 _b) const { return _a * _b; } Q_INVOKABLE eth::u256 div(eth::u256 _a, int _b) const { return _a / _b; } Q_INVOKABLE eth::u256 wei(double _s) const { return (eth::u256)_s; } Q_INVOKABLE eth::u256 szabo(double _s) const { return (eth::u256)(_s * (double)eth::szabo); } Q_INVOKABLE eth::u256 finney(double _s) const { return (eth::u256)(_s * (double)eth::finney); } Q_INVOKABLE eth::u256 ether(double _s) const { return (eth::u256)(_s * (double)eth::ether); } Q_INVOKABLE eth::u256 wei(unsigned _s) const { return (eth::u256)_s; } Q_INVOKABLE eth::u256 szabo(unsigned _s) const { return (eth::u256)(_s * eth::szabo); } Q_INVOKABLE eth::u256 finney(unsigned _s) const { return (eth::u256)(_s * eth::finney); } Q_INVOKABLE eth::u256 ether(unsigned _s) const { return (eth::u256)(_s * eth::ether); } Q_INVOKABLE double toWei(eth::u256 _t) const { return (double)_t; } Q_INVOKABLE double toSzabo(eth::u256 _t) const { return toWei(_t) / (double)eth::szabo; } Q_INVOKABLE double toFinney(eth::u256 _t) const { return toWei(_t) / (double)eth::finney; } Q_INVOKABLE double toEther(eth::u256 _t) const { return toWei(_t) / (double)eth::ether; } Q_INVOKABLE double value(eth::u256 _t) const { return (double)_t; } Q_INVOKABLE QString stringOf(eth::u256 _t) const { return QString::fromStdString(eth::formatBalance(_t)); } }; class QmlKeyHelper: public QObject { Q_OBJECT public: QmlKeyHelper(QObject* _p = nullptr): QObject(_p) {} Q_INVOKABLE eth::KeyPair create() const { return eth::KeyPair::create(); } Q_INVOKABLE eth::Address address(eth::KeyPair _p) const { return _p.address(); } Q_INVOKABLE eth::Secret secret(eth::KeyPair _p) const { return _p.secret(); } Q_INVOKABLE eth::KeyPair keypair(eth::Secret _k) const { return eth::KeyPair(_k); } Q_INVOKABLE bool isNull(eth::Address _a) const { return !_a; } Q_INVOKABLE eth::Address addressOf(QString _s) const { return eth::Address(_s.toStdString()); } Q_INVOKABLE QString stringOf(eth::Address _a) const { return QString::fromStdString(eth::toHex(_a.asArray())); } Q_INVOKABLE QString toAbridged(eth::Address _a) const { return QString::fromStdString(_a.abridged()); } }; class QmlAccount: public QObject { Q_OBJECT public: QmlAccount(QObject* _p = nullptr); virtual ~QmlAccount(); Q_INVOKABLE QmlEthereum* ethereum() const { return m_eth; } Q_INVOKABLE eth::u256 balance() const; Q_INVOKABLE double txCount() const; Q_INVOKABLE bool isContract() const; Q_INVOKABLE eth::Address address() const { return m_address; } // TODO: past transactions models. public slots: void setEthereum(QmlEthereum* _eth); void setAddress(eth::Address _a) { m_address = _a; } signals: void changed(); void ethChanged(); private: QmlEthereum* m_eth = nullptr; eth::Address m_address; Q_PROPERTY(eth::u256 balance READ balance NOTIFY changed STORED false) Q_PROPERTY(double txCount READ txCount NOTIFY changed STORED false) Q_PROPERTY(bool isContract READ isContract NOTIFY changed STORED false) Q_PROPERTY(eth::Address address READ address WRITE setAddress NOTIFY changed) Q_PROPERTY(QmlEthereum* ethereum READ ethereum WRITE setEthereum NOTIFY ethChanged) }; class QmlEthereum: public QObject { Q_OBJECT public: QmlEthereum(QObject* _p = nullptr); virtual ~QmlEthereum(); eth::Client* client() const; static QObject* constructU256Helper(QQmlEngine*, QJSEngine*) { return new QmlU256Helper; } static QObject* constructKeyHelper(QQmlEngine*, QJSEngine*) { return new QmlKeyHelper; } Q_INVOKABLE eth::Address coinbase() const; Q_INVOKABLE bool isListening() const; Q_INVOKABLE bool isMining() const; Q_INVOKABLE eth::u256 balanceAt(eth::Address _a) const; Q_INVOKABLE double txCountAt(eth::Address _a) const; Q_INVOKABLE bool isContractAt(eth::Address _a) const; Q_INVOKABLE unsigned peerCount() const; Q_INVOKABLE QmlEthereum* self() { return this; } public slots: void transact(eth::Secret _secret, eth::Address _dest, eth::u256 _amount, eth::u256 _gasPrice, eth::u256 _gas, QByteArray _data); void transact(eth::Secret _secret, eth::u256 _amount, eth::u256 _gasPrice, eth::u256 _gas, QByteArray _init); void setCoinbase(eth::Address); void setMining(bool _l); void setListening(bool _l); signals: void changed(); // void netChanged(); // void miningChanged(); private: Q_PROPERTY(eth::Address coinbase READ coinbase WRITE setCoinbase NOTIFY changed) Q_PROPERTY(bool listening READ isListening WRITE setListening) Q_PROPERTY(bool mining READ isMining WRITE setMining) }; #if 0 template T to(QVariant const& _s) { if (_s.type() != QVariant::String) return T(); auto s = _s.toString().toLatin1(); assert(s.size() == sizeof(T)); return *(T*)s.data(); } template QVariant toQJS(T const& _s) { QLatin1String ret((char*)&_s, sizeof(T)); assert(QVariant(QString(ret)).toString().toLatin1().size() == sizeof(T)); assert(*(T*)(QVariant(QString(ret)).toString().toLatin1().data()) == _s); return QVariant(QString(ret)); } class U256Helper: public QObject { Q_OBJECT public: U256Helper(QObject* _p = nullptr): QObject(_p) {} static eth::u256 in(QVariant const& _s) { return to(_s); } static QVariant out(eth::u256 const& _s) { return toQJS(_s); } Q_INVOKABLE QVariant add(QVariant _a, QVariant _b) const { return out(in(_a) + in(_b)); } Q_INVOKABLE QVariant sub(QVariant _a, QVariant _b) const { return out(in(_a) - in(_b)); } Q_INVOKABLE QVariant mul(QVariant _a, int _b) const { return out(in(_a) * in(_b)); } Q_INVOKABLE QVariant mul(int _a, QVariant _b) const { return out(in(_a) * in(_b)); } Q_INVOKABLE QVariant div(QVariant _a, int _b) const { return out(in(_a) / in(_b)); } Q_INVOKABLE QVariant wei(double _s) const { return out(eth::u256(_s)); } Q_INVOKABLE QVariant szabo(double _s) const { return out(eth::u256(_s * (double)eth::szabo)); } Q_INVOKABLE QVariant finney(double _s) const { return out(eth::u256(_s * (double)eth::finney)); } Q_INVOKABLE QVariant ether(double _s) const { return out(eth::u256(_s * (double)eth::ether)); } Q_INVOKABLE QVariant wei(unsigned _s) const { return value(_s); } Q_INVOKABLE QVariant szabo(unsigned _s) const { return out(eth::u256(_s) * eth::szabo); } Q_INVOKABLE QVariant finney(unsigned _s) const { return out(eth::u256(_s) * eth::finney); } Q_INVOKABLE QVariant ether(unsigned _s) const { return out(eth::u256(_s) * eth::ether); } Q_INVOKABLE double toWei(QVariant _t) const { return toValue(_t); } Q_INVOKABLE double toSzabo(QVariant _t) const { return toWei(_t) / (double)eth::szabo; } Q_INVOKABLE double toFinney(QVariant _t) const { return toWei(_t) / (double)eth::finney; } Q_INVOKABLE double toEther(QVariant _t) const { return toWei(_t) / (double)eth::ether; } Q_INVOKABLE QVariant value(unsigned _s) const { return out(eth::u256(_s)); } Q_INVOKABLE double toValue(QVariant _t) const { return (double)in(_t); } Q_INVOKABLE QString ethOf(QVariant _t) const { return QString::fromStdString(eth::formatBalance(in(_t))); } Q_INVOKABLE QString stringOf(QVariant _t) const { return QString::fromStdString(eth::toString(in(_t))); } Q_INVOKABLE QByteArray bytesOf(QVariant _t) const { eth::h256 b = in(_t); return QByteArray((char const*)&b, sizeof(eth::h256)); } Q_INVOKABLE QVariant fromHex(QString _s) const { return out((eth::u256)eth::h256(_s.toStdString())); } Q_INVOKABLE QVariant fromAddress(QVariant/*eth::Address*/ _a) const { return out((eth::u160)to(_a)); } Q_INVOKABLE QVariant toAddress(QVariant/*eth::Address*/ _a) const { return toQJS((eth::u160)in(_a)); } Q_INVOKABLE bool isNull(QVariant/*eth::Address*/ _a) const { return !in(_a); } }; class KeyHelper: public QObject { Q_OBJECT public: KeyHelper(QObject* _p = nullptr): QObject(_p) {} static eth::Address in(QVariant const& _s) { return to(_s); } static QVariant out(eth::Address const& _s) { return toQJS(_s); } Q_INVOKABLE QVariant/*eth::KeyPair*/ create() const { return toQJS(eth::KeyPair::create()); } Q_INVOKABLE QVariant/*eth::Address*/ address(QVariant/*eth::KeyPair*/ _p) const { return out(to(_p).address()); } Q_INVOKABLE QVariant/*eth::Secret*/ secret(QVariant/*eth::KeyPair*/ _p) const { return toQJS(to(_p).secret()); } Q_INVOKABLE QVariant/*eth::KeyPair*/ keypair(QVariant/*eth::Secret*/ _k) const { return toQJS(eth::KeyPair(to(_k))); } Q_INVOKABLE bool isNull(QVariant/*eth::Address*/ _a) const { return !in(_a); } Q_INVOKABLE QVariant/*eth::Address*/ addressOf(QString _s) const { return out(eth::Address(_s.toStdString())); } Q_INVOKABLE QString stringOf(QVariant/*eth::Address*/ _a) const { return QString::fromStdString(eth::toHex(in(_a).asArray())); } Q_INVOKABLE QString toAbridged(QVariant/*eth::Address*/ _a) const { return QString::fromStdString(in(_a).abridged()); } }; class BytesHelper: public QObject { Q_OBJECT public: BytesHelper(QObject* _p = nullptr): QObject(_p) {} Q_INVOKABLE QByteArray concat(QVariant _v, QVariant _w) const { QByteArray ba; if (_v.type() == QVariant::ByteArray) ba = _v.toByteArray(); else ba = _v.toString().toLatin1(); QByteArray ba2; if (_w.type() == QVariant::ByteArray) ba2 = _w.toByteArray(); else ba2 = _w.toString().toLatin1(); ba.append(ba2); return QByteArray(ba); } Q_INVOKABLE QByteArray concat(QByteArray _v, QByteArray _w) const { _v.append(_w); return _v; } Q_INVOKABLE QByteArray fromString(QString _s) const { return _s.toLatin1(); } Q_INVOKABLE QByteArray fromString(QString _s, unsigned _padding) const { QByteArray b = _s.toLatin1(); for (unsigned i = b.size(); i < _padding; ++i) b.append((char)0); b.resize(_padding); return b; } Q_INVOKABLE QString toString(QByteArray _b) const { while (_b.size() && !_b[_b.size() - 1]) _b.resize(_b.size() - 1); return QString::fromLatin1(_b); } Q_INVOKABLE QVariant u256of(QByteArray _s) const { while (_s.size() < 32) _s.append((char)0); eth::h256 ret((uint8_t const*)_s.data(), eth::h256::ConstructFromPointer); return toQJS(ret); } }; #endif inline eth::bytes asBytes(QString const& _s) { eth::bytes ret; ret.reserve(_s.size()); for (QChar c: _s) ret.push_back(c.cell()); return ret; } inline QString asQString(eth::bytes const& _s) { QString ret; ret.reserve(_s.size()); for (auto c: _s) ret.push_back(QChar(c, 0)); return ret; } eth::bytes toBytes(QString const& _s); QString padded(QString const& _s, unsigned _l, unsigned _r); QString padded(QString const& _s, unsigned _l); QString unpadded(QString _s); template eth::FixedHash toFixed(QString const& _s) { if (_s.startsWith("0x")) // Hex return eth::FixedHash(_s.mid(2).toStdString()); else if (!_s.contains(QRegExp("[^0-9]"))) // Decimal return (typename eth::FixedHash::Arith)(_s.toStdString()); else // Binary return eth::FixedHash(asBytes(padded(_s, N))); } template boost::multiprecision::number> toInt(QString const& _s) { if (_s.startsWith("0x")) return eth::fromBigEndian>>(eth::fromHex(_s.toStdString().substr(2))); else if (!_s.contains(QRegExp("[^0-9]"))) // Hex or Decimal return boost::multiprecision::number>(_s.toStdString()); else // Binary return eth::fromBigEndian>>(asBytes(padded(_s, N))); } inline eth::Address toAddress(QString const& _s) { return toFixed<20>(_s); } inline eth::Secret toSecret(QString const& _s) { return toFixed<32>(_s); } inline eth::u256 toU256(QString const& _s) { return toInt<32>(_s); } template QString toQJS(eth::FixedHash const& _h) { return QString::fromStdString("0x" + toHex(_h.ref())); } template QString toQJS(boost::multiprecision::number> const& _n) { return QString::fromStdString("0x" + eth::toHex(eth::toCompactBigEndian(_n))); } inline QString toBinary(QString const& _s) { return asQString(toBytes(_s)); } inline QString toDecimal(QString const& _s) { return QString::fromStdString(eth::toString(toU256(_s))); } inline QString fromBinary(QString const& _s) { return QString::fromStdString("0x" + eth::toHex(asBytes(_s))); } class QEthereum: public QObject { Q_OBJECT public: QEthereum(QObject* _p, eth::Client* _c, QList _accounts); virtual ~QEthereum(); eth::Client* client() const; void setup(QWebFrame* _e); void teardown(QWebFrame* _e); Q_INVOKABLE QString ethTest() const { return "Hello world!"; } Q_INVOKABLE QEthereum* self() { return this; } Q_INVOKABLE QString secretToAddress(QString _s) const; Q_INVOKABLE QString lll(QString _s) const; Q_INVOKABLE QString sha3(QString _s) const; Q_INVOKABLE QString pad(QString _s, unsigned _l) const { return padded(_s, _l); } Q_INVOKABLE QString pad(QString _s, unsigned _l, unsigned _r) const { return padded(_s, _l, _r); } Q_INVOKABLE QString unpad(QString _s) const { return unpadded(_s); } Q_INVOKABLE QString toBinary(QString _s) const { return ::toBinary(_s); } Q_INVOKABLE QString fromBinary(QString _s) const { return ::fromBinary(_s); } Q_INVOKABLE QString toDecimal(QString _s) const { return ::toDecimal(_s); } Q_INVOKABLE QString/*eth::u256*/ balanceAt(QString/*eth::Address*/ _a) const; Q_INVOKABLE QString/*eth::u256*/ storageAt(QString/*eth::Address*/ _a, QString/*eth::u256*/ _p) const; Q_INVOKABLE double txCountAt(QString/*eth::Address*/ _a) const; Q_INVOKABLE bool isContractAt(QString/*eth::Address*/ _a) const; Q_INVOKABLE QString doCreate(QString _secret, QString _amount, QString _init, QString _gas, QString _gasPrice); Q_INVOKABLE void doTransact(QString _secret, QString _amount, QString _dest, QString _data, QString _gas, QString _gasPrice); bool isListening() const; bool isMining() const; QString/*eth::Address*/ coinbase() const; QString/*eth::u256*/ gasPrice() const { return toQJS(10 * eth::szabo); } QString number() const; eth::u256 balanceAt(eth::Address _a) const; double txCountAt(eth::Address _a) const; bool isContractAt(eth::Address _a) const; QString/*eth::KeyPair*/ key() const; QStringList/*list of eth::KeyPair*/ keys() const; QString/*eth::Address*/ account() const; QStringList/*list of eth::Address*/ accounts() const; unsigned peerCount() const; public slots: void setCoinbase(QString/*eth::Address*/); void setMining(bool _l); void setListening(bool _l); signals: void changed(); // void netChanged(); // void miningChanged(); private: Q_PROPERTY(QString number READ number NOTIFY changed) Q_PROPERTY(QString coinbase READ coinbase WRITE setCoinbase NOTIFY changed) Q_PROPERTY(bool listening READ isListening WRITE setListening) Q_PROPERTY(bool mining READ isMining WRITE setMining) Q_PROPERTY(QString gasPrice READ gasPrice NOTIFY changed) Q_PROPERTY(QString key READ key NOTIFY changed) Q_PROPERTY(QStringList keys READ keys NOTIFY changed) Q_PROPERTY(unsigned peerCount READ peerCount) eth::Client* m_client; QList m_accounts; };