#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef QT_NO_OPENSSL class PythonQtWrapper_QSslKey : public QObject { Q_OBJECT public: public slots: QSslKey* new_QSslKey(); QSslKey* new_QSslKey(QIODevice* device, QSsl::KeyAlgorithm algorithm, QSsl::EncodingFormat format = QSsl::Pem, QSsl::KeyType type = QSsl::PrivateKey, const QByteArray& passPhrase = QByteArray()); QSslKey* new_QSslKey(Qt::HANDLE handle, QSsl::KeyType type = QSsl::PrivateKey); QSslKey* new_QSslKey(const QByteArray& encoded, QSsl::KeyAlgorithm algorithm, QSsl::EncodingFormat format = QSsl::Pem, QSsl::KeyType type = QSsl::PrivateKey, const QByteArray& passPhrase = QByteArray()); QSslKey* new_QSslKey(const QSslKey& other); void delete_QSslKey(QSslKey* obj) { delete obj; } QSsl::KeyAlgorithm algorithm(QSslKey* theWrappedObject) const; void clear(QSslKey* theWrappedObject); Qt::HANDLE handle(QSslKey* theWrappedObject) const; bool isNull(QSslKey* theWrappedObject) const; int length(QSslKey* theWrappedObject) const; bool __ne__(QSslKey* theWrappedObject, const QSslKey& key) const; QSslKey* operator_assign(QSslKey* theWrappedObject, const QSslKey& other); bool __eq__(QSslKey* theWrappedObject, const QSslKey& key) const; void swap(QSslKey* theWrappedObject, QSslKey& other); QByteArray toDer(QSslKey* theWrappedObject, const QByteArray& passPhrase = QByteArray()) const; QByteArray toPem(QSslKey* theWrappedObject, const QByteArray& passPhrase = QByteArray()) const; QSsl::KeyType type(QSslKey* theWrappedObject) const; QString py_toString(QSslKey*); bool __nonzero__(QSslKey* obj) { return !obj->isNull(); } }; #endif #ifndef QT_NO_OPENSSL class PythonQtShell_QSslSocket : public QSslSocket { public: PythonQtShell_QSslSocket(QObject* parent = 0):QSslSocket(parent),_wrapper(NULL) {}; ~PythonQtShell_QSslSocket(); virtual bool atEnd() const; virtual qint64 bytesAvailable() const; virtual qint64 bytesToWrite() const; virtual bool canReadLine() const; virtual void childEvent(QChildEvent* arg__1); virtual void close(); virtual void connectToHost(const QString& hostName, unsigned short port, QIODevice::OpenMode openMode = QIODevice::ReadWrite, QAbstractSocket::NetworkLayerProtocol protocol = QAbstractSocket::AnyIPProtocol); virtual void customEvent(QEvent* arg__1); virtual void disconnectFromHost(); virtual bool event(QEvent* arg__1); virtual bool eventFilter(QObject* arg__1, QEvent* arg__2); virtual bool isSequential() const; virtual bool open(QIODevice::OpenMode mode); virtual qint64 pos() const; virtual qint64 readData(char* data, qint64 maxlen); virtual qint64 readLineData(char* data, qint64 maxlen); virtual bool reset(); virtual void resume(); virtual bool seek(qint64 pos); virtual void setReadBufferSize(qint64 size); virtual void setSocketOption(QAbstractSocket::SocketOption option, const QVariant& value); virtual qint64 size() const; virtual QVariant socketOption(QAbstractSocket::SocketOption option); virtual void timerEvent(QTimerEvent* arg__1); virtual bool waitForBytesWritten(int msecs = 30000); virtual bool waitForConnected(int msecs = 30000); virtual bool waitForDisconnected(int msecs = 30000); virtual bool waitForReadyRead(int msecs = 30000); virtual qint64 writeData(const char* data, qint64 len); PythonQtInstanceWrapper* _wrapper; }; class PythonQtPublicPromoter_QSslSocket : public QSslSocket { public: inline bool promoted_atEnd() const { return QSslSocket::atEnd(); } inline qint64 promoted_bytesAvailable() const { return QSslSocket::bytesAvailable(); } inline qint64 promoted_bytesToWrite() const { return QSslSocket::bytesToWrite(); } inline bool promoted_canReadLine() const { return QSslSocket::canReadLine(); } inline void promoted_close() { QSslSocket::close(); } inline void promoted_connectToHost(const QString& hostName, unsigned short port, QIODevice::OpenMode openMode = QIODevice::ReadWrite, QAbstractSocket::NetworkLayerProtocol protocol = QAbstractSocket::AnyIPProtocol) { QSslSocket::connectToHost(hostName, port, openMode, protocol); } inline void promoted_disconnectFromHost() { QSslSocket::disconnectFromHost(); } inline qint64 promoted_readData(char* data, qint64 maxlen) { return QSslSocket::readData(data, maxlen); } inline void promoted_resume() { QSslSocket::resume(); } inline void promoted_setReadBufferSize(qint64 size) { QSslSocket::setReadBufferSize(size); } inline void promoted_setSocketOption(QAbstractSocket::SocketOption option, const QVariant& value) { QSslSocket::setSocketOption(option, value); } inline QVariant promoted_socketOption(QAbstractSocket::SocketOption option) { return QSslSocket::socketOption(option); } inline bool promoted_waitForBytesWritten(int msecs = 30000) { return QSslSocket::waitForBytesWritten(msecs); } inline bool promoted_waitForConnected(int msecs = 30000) { return QSslSocket::waitForConnected(msecs); } inline bool promoted_waitForDisconnected(int msecs = 30000) { return QSslSocket::waitForDisconnected(msecs); } inline bool promoted_waitForReadyRead(int msecs = 30000) { return QSslSocket::waitForReadyRead(msecs); } inline qint64 promoted_writeData(const char* data, qint64 len) { return QSslSocket::writeData(data, len); } }; class PythonQtWrapper_QSslSocket : public QObject { Q_OBJECT public: Q_ENUMS(PeerVerifyMode SslMode ) enum PeerVerifyMode{ VerifyNone = QSslSocket::VerifyNone, QueryPeer = QSslSocket::QueryPeer, VerifyPeer = QSslSocket::VerifyPeer, AutoVerifyPeer = QSslSocket::AutoVerifyPeer}; enum SslMode{ UnencryptedMode = QSslSocket::UnencryptedMode, SslClientMode = QSslSocket::SslClientMode, SslServerMode = QSslSocket::SslServerMode}; public slots: QSslSocket* new_QSslSocket(QObject* parent = 0); void delete_QSslSocket(QSslSocket* obj) { delete obj; } void abort(QSslSocket* theWrappedObject); void addCaCertificate(QSslSocket* theWrappedObject, const QSslCertificate& certificate); void addCaCertificates(QSslSocket* theWrappedObject, const QList& certificates); bool addCaCertificates(QSslSocket* theWrappedObject, const QString& path, QSsl::EncodingFormat format = QSsl::Pem, QRegExp::PatternSyntax syntax = QRegExp::FixedString); void static_QSslSocket_addDefaultCaCertificate(const QSslCertificate& certificate); void static_QSslSocket_addDefaultCaCertificates(const QList& certificates); bool static_QSslSocket_addDefaultCaCertificates(const QString& path, QSsl::EncodingFormat format = QSsl::Pem, QRegExp::PatternSyntax syntax = QRegExp::FixedString); bool atEnd(QSslSocket* theWrappedObject) const; qint64 bytesAvailable(QSslSocket* theWrappedObject) const; qint64 bytesToWrite(QSslSocket* theWrappedObject) const; QList caCertificates(QSslSocket* theWrappedObject) const; bool canReadLine(QSslSocket* theWrappedObject) const; QList ciphers(QSslSocket* theWrappedObject) const; void close(QSslSocket* theWrappedObject); void connectToHost(QSslSocket* theWrappedObject, const QString& hostName, unsigned short port, QIODevice::OpenMode openMode = QIODevice::ReadWrite, QAbstractSocket::NetworkLayerProtocol protocol = QAbstractSocket::AnyIPProtocol); void connectToHostEncrypted(QSslSocket* theWrappedObject, const QString& hostName, unsigned short port, QIODevice::OpenMode mode = QIODevice::ReadWrite, QAbstractSocket::NetworkLayerProtocol protocol = QAbstractSocket::AnyIPProtocol); void connectToHostEncrypted(QSslSocket* theWrappedObject, const QString& hostName, unsigned short port, const QString& sslPeerName, QIODevice::OpenMode mode = QIODevice::ReadWrite, QAbstractSocket::NetworkLayerProtocol protocol = QAbstractSocket::AnyIPProtocol); QList static_QSslSocket_defaultCaCertificates(); QList static_QSslSocket_defaultCiphers(); void disconnectFromHost(QSslSocket* theWrappedObject); qint64 encryptedBytesAvailable(QSslSocket* theWrappedObject) const; qint64 encryptedBytesToWrite(QSslSocket* theWrappedObject) const; bool flush(QSslSocket* theWrappedObject); void ignoreSslErrors(QSslSocket* theWrappedObject, const QList& errors); bool isEncrypted(QSslSocket* theWrappedObject) const; QSslCertificate localCertificate(QSslSocket* theWrappedObject) const; QList localCertificateChain(QSslSocket* theWrappedObject) const; QSslSocket::SslMode mode(QSslSocket* theWrappedObject) const; QSslCertificate peerCertificate(QSslSocket* theWrappedObject) const; QList peerCertificateChain(QSslSocket* theWrappedObject) const; int peerVerifyDepth(QSslSocket* theWrappedObject) const; QSslSocket::PeerVerifyMode peerVerifyMode(QSslSocket* theWrappedObject) const; QString peerVerifyName(QSslSocket* theWrappedObject) const; QSslKey privateKey(QSslSocket* theWrappedObject) const; QSsl::SslProtocol protocol(QSslSocket* theWrappedObject) const; qint64 readData(QSslSocket* theWrappedObject, char* data, qint64 maxlen); void resume(QSslSocket* theWrappedObject); QSslCipher sessionCipher(QSslSocket* theWrappedObject) const; void setCaCertificates(QSslSocket* theWrappedObject, const QList& certificates); void setCiphers(QSslSocket* theWrappedObject, const QList& ciphers); void setCiphers(QSslSocket* theWrappedObject, const QString& ciphers); void static_QSslSocket_setDefaultCaCertificates(const QList& certificates); void static_QSslSocket_setDefaultCiphers(const QList& ciphers); void setLocalCertificate(QSslSocket* theWrappedObject, const QSslCertificate& certificate); void setLocalCertificate(QSslSocket* theWrappedObject, const QString& fileName, QSsl::EncodingFormat format = QSsl::Pem); void setLocalCertificateChain(QSslSocket* theWrappedObject, const QList& localChain); void setPeerVerifyDepth(QSslSocket* theWrappedObject, int depth); void setPeerVerifyMode(QSslSocket* theWrappedObject, QSslSocket::PeerVerifyMode mode); void setPeerVerifyName(QSslSocket* theWrappedObject, const QString& hostName); void setPrivateKey(QSslSocket* theWrappedObject, const QSslKey& key); void setPrivateKey(QSslSocket* theWrappedObject, const QString& fileName, QSsl::KeyAlgorithm algorithm = QSsl::Rsa, QSsl::EncodingFormat format = QSsl::Pem, const QByteArray& passPhrase = QByteArray()); void setProtocol(QSslSocket* theWrappedObject, QSsl::SslProtocol protocol); void setReadBufferSize(QSslSocket* theWrappedObject, qint64 size); void setSocketOption(QSslSocket* theWrappedObject, QAbstractSocket::SocketOption option, const QVariant& value); void setSslConfiguration(QSslSocket* theWrappedObject, const QSslConfiguration& config); QVariant socketOption(QSslSocket* theWrappedObject, QAbstractSocket::SocketOption option); QSslConfiguration sslConfiguration(QSslSocket* theWrappedObject) const; QList sslErrors(QSslSocket* theWrappedObject) const; long static_QSslSocket_sslLibraryVersionNumber(); QString static_QSslSocket_sslLibraryVersionString(); QList static_QSslSocket_supportedCiphers(); bool static_QSslSocket_supportsSsl(); QList static_QSslSocket_systemCaCertificates(); bool waitForBytesWritten(QSslSocket* theWrappedObject, int msecs = 30000); bool waitForConnected(QSslSocket* theWrappedObject, int msecs = 30000); bool waitForDisconnected(QSslSocket* theWrappedObject, int msecs = 30000); bool waitForEncrypted(QSslSocket* theWrappedObject, int msecs = 30000); bool waitForReadyRead(QSslSocket* theWrappedObject, int msecs = 30000); qint64 writeData(QSslSocket* theWrappedObject, const char* data, qint64 len); }; #endif class PythonQtShell_QTcpServer : public QTcpServer { public: PythonQtShell_QTcpServer(QObject* parent = 0):QTcpServer(parent),_wrapper(NULL) {}; ~PythonQtShell_QTcpServer(); virtual void childEvent(QChildEvent* arg__1); virtual void customEvent(QEvent* arg__1); virtual bool event(QEvent* arg__1); virtual bool eventFilter(QObject* arg__1, QEvent* arg__2); virtual bool hasPendingConnections() const; virtual QTcpSocket* nextPendingConnection(); virtual void timerEvent(QTimerEvent* arg__1); PythonQtInstanceWrapper* _wrapper; }; class PythonQtPublicPromoter_QTcpServer : public QTcpServer { public: inline void promoted_addPendingConnection(QTcpSocket* socket) { QTcpServer::addPendingConnection(socket); } inline bool promoted_hasPendingConnections() const { return QTcpServer::hasPendingConnections(); } inline QTcpSocket* promoted_nextPendingConnection() { return QTcpServer::nextPendingConnection(); } }; class PythonQtWrapper_QTcpServer : public QObject { Q_OBJECT public: public slots: QTcpServer* new_QTcpServer(QObject* parent = 0); void delete_QTcpServer(QTcpServer* obj) { delete obj; } void addPendingConnection(QTcpServer* theWrappedObject, QTcpSocket* socket); void close(QTcpServer* theWrappedObject); QString errorString(QTcpServer* theWrappedObject) const; bool hasPendingConnections(QTcpServer* theWrappedObject) const; bool isListening(QTcpServer* theWrappedObject) const; bool listen(QTcpServer* theWrappedObject, const QHostAddress& address = QHostAddress::Any, unsigned short port = 0); int maxPendingConnections(QTcpServer* theWrappedObject) const; QTcpSocket* nextPendingConnection(QTcpServer* theWrappedObject); void pauseAccepting(QTcpServer* theWrappedObject); QNetworkProxy proxy(QTcpServer* theWrappedObject) const; void resumeAccepting(QTcpServer* theWrappedObject); QHostAddress serverAddress(QTcpServer* theWrappedObject) const; QAbstractSocket::SocketError serverError(QTcpServer* theWrappedObject) const; unsigned short serverPort(QTcpServer* theWrappedObject) const; void setMaxPendingConnections(QTcpServer* theWrappedObject, int numConnections); void setProxy(QTcpServer* theWrappedObject, const QNetworkProxy& networkProxy); bool waitForNewConnection(QTcpServer* theWrappedObject, int msec = 0, bool* timedOut = 0); }; class PythonQtShell_QTcpSocket : public QTcpSocket { public: PythonQtShell_QTcpSocket(QObject* parent = 0):QTcpSocket(parent),_wrapper(NULL) {}; ~PythonQtShell_QTcpSocket(); virtual bool atEnd() const; virtual qint64 bytesAvailable() const; virtual qint64 bytesToWrite() const; virtual bool canReadLine() const; virtual void childEvent(QChildEvent* arg__1); virtual void close(); virtual void connectToHost(const QHostAddress& address, unsigned short port, QIODevice::OpenMode mode = QIODevice::ReadWrite); virtual void connectToHost(const QString& hostName, unsigned short port, QIODevice::OpenMode mode = QIODevice::ReadWrite, QAbstractSocket::NetworkLayerProtocol protocol = QAbstractSocket::AnyIPProtocol); virtual void customEvent(QEvent* arg__1); virtual void disconnectFromHost(); virtual bool event(QEvent* arg__1); virtual bool eventFilter(QObject* arg__1, QEvent* arg__2); virtual bool isSequential() const; virtual bool open(QIODevice::OpenMode mode); virtual qint64 pos() const; virtual qint64 readData(char* data, qint64 maxlen); virtual qint64 readLineData(char* data, qint64 maxlen); virtual bool reset(); virtual void resume(); virtual bool seek(qint64 pos); virtual void setReadBufferSize(qint64 size); virtual void setSocketOption(QAbstractSocket::SocketOption option, const QVariant& value); virtual qint64 size() const; virtual QVariant socketOption(QAbstractSocket::SocketOption option); virtual void timerEvent(QTimerEvent* arg__1); virtual bool waitForBytesWritten(int msecs = 30000); virtual bool waitForConnected(int msecs = 30000); virtual bool waitForDisconnected(int msecs = 30000); virtual bool waitForReadyRead(int msecs = 30000); virtual qint64 writeData(const char* data, qint64 len); PythonQtInstanceWrapper* _wrapper; }; class PythonQtWrapper_QTcpSocket : public QObject { Q_OBJECT public: public slots: QTcpSocket* new_QTcpSocket(QObject* parent = 0); void delete_QTcpSocket(QTcpSocket* obj) { delete obj; } }; class PythonQtShell_QUdpSocket : public QUdpSocket { public: PythonQtShell_QUdpSocket(QObject* parent = 0):QUdpSocket(parent),_wrapper(NULL) {}; ~PythonQtShell_QUdpSocket(); virtual bool atEnd() const; virtual qint64 bytesAvailable() const; virtual qint64 bytesToWrite() const; virtual bool canReadLine() const; virtual void childEvent(QChildEvent* arg__1); virtual void close(); virtual void connectToHost(const QHostAddress& address, unsigned short port, QIODevice::OpenMode mode = QIODevice::ReadWrite); virtual void connectToHost(const QString& hostName, unsigned short port, QIODevice::OpenMode mode = QIODevice::ReadWrite, QAbstractSocket::NetworkLayerProtocol protocol = QAbstractSocket::AnyIPProtocol); virtual void customEvent(QEvent* arg__1); virtual void disconnectFromHost(); virtual bool event(QEvent* arg__1); virtual bool eventFilter(QObject* arg__1, QEvent* arg__2); virtual bool isSequential() const; virtual bool open(QIODevice::OpenMode mode); virtual qint64 pos() const; virtual qint64 readData(char* data, qint64 maxlen); virtual qint64 readLineData(char* data, qint64 maxlen); virtual bool reset(); virtual void resume(); virtual bool seek(qint64 pos); virtual void setReadBufferSize(qint64 size); virtual void setSocketOption(QAbstractSocket::SocketOption option, const QVariant& value); virtual qint64 size() const; virtual QVariant socketOption(QAbstractSocket::SocketOption option); virtual void timerEvent(QTimerEvent* arg__1); virtual bool waitForBytesWritten(int msecs = 30000); virtual bool waitForConnected(int msecs = 30000); virtual bool waitForDisconnected(int msecs = 30000); virtual bool waitForReadyRead(int msecs = 30000); virtual qint64 writeData(const char* data, qint64 len); PythonQtInstanceWrapper* _wrapper; }; class PythonQtWrapper_QUdpSocket : public QObject { Q_OBJECT public: public slots: QUdpSocket* new_QUdpSocket(QObject* parent = 0); void delete_QUdpSocket(QUdpSocket* obj) { delete obj; } bool hasPendingDatagrams(QUdpSocket* theWrappedObject) const; bool joinMulticastGroup(QUdpSocket* theWrappedObject, const QHostAddress& groupAddress); bool joinMulticastGroup(QUdpSocket* theWrappedObject, const QHostAddress& groupAddress, const QNetworkInterface& iface); bool leaveMulticastGroup(QUdpSocket* theWrappedObject, const QHostAddress& groupAddress); bool leaveMulticastGroup(QUdpSocket* theWrappedObject, const QHostAddress& groupAddress, const QNetworkInterface& iface); QNetworkInterface multicastInterface(QUdpSocket* theWrappedObject) const; qint64 pendingDatagramSize(QUdpSocket* theWrappedObject) const; qint64 readDatagram(QUdpSocket* theWrappedObject, char* data, qint64 maxlen, QHostAddress* host = 0, unsigned short* port = 0); void setMulticastInterface(QUdpSocket* theWrappedObject, const QNetworkInterface& iface); qint64 writeDatagram(QUdpSocket* theWrappedObject, const QByteArray& datagram, const QHostAddress& host, unsigned short port); };