Qt Remote Objects supports several communications channels out-of-the-box, such as the QTcpServer and QTcpSocket pair. Given the desired QUrl for tcp, or the desired name (for the QLocalServer and QLocalSocket pair), the code needed to listen and connect are boilerplate and handled internally by Qt. Qt Remote Objects supports other types of QIODevice as well, and the QRemoteObjectNode classes provide additional methods to support cases where custom code is needed.
A contrived example with TCP/IP is shown below. A more realistic example would use an SSL connection, which would require configuration of certificates, etc.
// Create the server and listen outside of QtRO QTcpServer tcpServer; tcpServer.listen(QHostAddress(127.0.0.1), 65213); // Create the host node. We don't need a hostUrl unless we want to take // advantage of external schemas (see next example). QRemoteObjectHost srcNode(); // Make sure any connections are handed to QtRO QObject::connect(&tcpServer, &QTcpServer::newConnection, &srcNode, [&srcNode, &tcpServer]() { srcNode.addHostSideConnection(tcpServer.nextPendingConnection()); });
The Replica side code needs to manually connect to the Host
QRemoteObjectNode repNode(); QTcpSocket *socket = new QTcpSocket(&repNode); connect(socket, &QTcpSocket::connected, &repNode, [socket, &repNode]() { repNode.addClientSideConnection(socket); }); socket->connectToHost(QHostAddress(127.0.0.1), 65213); };
It is possible to create each side of the QIODevice 和调用 QRemoteObjectNode::addClientSideConnection (QIODevice *ioDevice) and QRemoteObjectHostBase::addHostSideConnection (QIODevice *ioDevice) as shown above. This is fully supported, but requires the client know how to establish the connection or have a way to discover that information. This is exactly the problem the registry was designed to solve.
Qt Remote Objects also allows "External Schemas" to be used with the registry, which helps with connection setup. On the QRemoteObjectHost side, the user must set the hostUrl with the desired schema.
// Use standard tcp url for the registry const QUrl registryUrl = QUrl(QStringLiteral("tcp://127.0.0.1:65212")); // Use "exttcp" for the "external" interface const QUrl extUrl = QUrl(QStringLiteral("exttcp://127.0.0.1:65213")); // Create the server and listen outside of QtRO QTcpServer tcpServer; tcpServer.listen(QHostAddress(extUrl.host()), extUrl.port()); // We need a registry for everyone to connect to QRemoteObjectRegistryHost registry(registryUrl); // Finally, we create our host node and register "exttcp" as our schema. // We need the AllowExternalRegistration parameter to prevent the node from // setting a hostUrlInvalid error. QRemoteObjectHost srcNode(extUrl, registryUrl, QRemoteObjectHost::AllowExternalRegistration); // From now on, when we call enableRemoting() from this node, the registry // will be updated to show the Source object at extUrl.
On the 复本 side, the QRemoteObjectNode needs to register a callback to be used when the external schema is detected. The callback must be a RemoteObjectSchemaHandler .
// Use standard tcp url for the registry const QUrl registryUrl = QUrl(QStringLiteral("tcp://127.0.0.1:65212")); // This time create the node connected to the registry QRemoteObjectNode repNode(registryUrl); // Create the RemoteObjectSchemaHandler callback QRemoteObjectNode::RemoteObjectSchemaHandler setupTcp = [&repNode](QUrl url) { QTcpSocket *socket = new QTcpSocket(&repNode); connect(socket, &QTcpSocket::connected, [socket, &repNode]() { repNode.addClientSideConnection(socket); }); connect(socket, QOverload<QAbstractSocket::SocketError>::of(&QSslSocket::error), [socket](QAbstractSocket::SocketError error) { delete socket; }); socket->connectToHost(url.host(), url.port()); }; // Once we call registerExternalSchema, the above method will be called // whenever the registry sees an object we are interested in on "exttcp" repNode.registerExternalSchema(QStringLiteral("exttcp"), setupTcp);