Quick CoAP Multicast Discovery

采用 Qt Quick 用户界面将 CoAP 客户端用于多点播送资源探索。

The Quick CoAP Multicast Discovery example demonstrates how to register QCoapClient as a QML type and use it in a Qt Quick application for CoAP multicast resource discovery.

注意： Qt CoAP does not provide a QML API in its current version. However, you can make the C++ classes of the module available to QML as shown in this example.

运行范例

要运行范例从 Qt Creator ，打开 Welcome 模式，然后选择范例从 Examples 。更多信息，拜访构建和运行范例 .

设置 CoAP 服务器

To run the example application, you first need to set up and start at least one CoAP server supporting multicast resource discovery. You have the following options:

Manually build and run CoAP servers using libcoap , Californium , or any other CoAP server implementation, which supports multicast and resource discovery features.
Use the ready Docker image available at Docker Hub, which builds and starts CoAP server based on Californium's multicast server example .

使用基于 Docker 的测试服务器

The following command pulls the docker container for the CoAP server from the Docker Hub and starts it:

docker run --name coap-multicast-server -d --rm --net=host tqtc/coap-multicast-test-server:californium-2.0.0

注意： You can run more than one multicast CoAP servers (on the same host or other hosts in the network) by passing a different --name to the command above.

To terminate the docker container after usage, first obtain the container's ID by executing the docker ps command. The output will look like this:

$ docker ps
CONTAINER ID   IMAGE
8b991fae7789   tqtc/coap-multicast-test-server:californium-2.0.0

After that, use this ID to stop the container:

docker stop <container_id>

Exposign C++ Classes to QML

In this example, you need to expose the QCoapResource and QCoapClient classes, as well as the QtCoap namespace, to QML. To achieve this, create custom wrapper classes and use the special registration macros .

创建 QmlCoapResource class as a wrapper around QCoapResource 。使用 Q_PROPERTY macro to make several properties accessible from QML. The class does not need to be directly instantiable from QML, so use the QML_ANONYMOUS macro to register it.

class QmlCoapResource : public QCoapResource
{
    Q_GADGET
    Q_PROPERTY(QString title READ title)
    Q_PROPERTY(QString host READ hostStr)
    Q_PROPERTY(QString path READ path)
    QML_ANONYMOUS
public:
    QmlCoapResource() : QCoapResource() {}
    QmlCoapResource(const QCoapResource &resource)
        : QCoapResource(resource) {}
    QString hostStr() const { return host().toString(); }
};

After that, create the QmlCoapMulticastClient 类采用 QCoapClient class as a base class. Use the Q_PROPERTY macro to expose a custom property, and also create several Q_INVOKABLE methods. Both the property and the invokable methods can be accessed from QML. Unlike QmlCoapResource , you want to be able to create this class from QML, so use the QML_NAMED_ELEMENT macro to register the class in QML.

class QmlCoapMulticastClient : public QCoapClient
{
    Q_OBJECT
    Q_PROPERTY(bool isDiscovering READ isDiscovering NOTIFY isDiscoveringChanged)
    QML_NAMED_ELEMENT(CoapMulticastClient)
public:
    QmlCoapMulticastClient(QObject *parent = nullptr);
    Q_INVOKABLE void discover(const QString &host, int port, const QString &discoveryPath);
    Q_INVOKABLE void discover(QtCoap::MulticastGroup group, int port, const QString &discoveryPath);
    Q_INVOKABLE void stopDiscovery();
    bool isDiscovering() const;
Q_SIGNALS:
    void discovered(const QmlCoapResource &resource);
    void finished(int error);
    // The bool parameter is not provided, because the signal is only used by
    // the QML property system, and it does not use the passed value anyway.
    void isDiscoveringChanged();
public slots:
    void onDiscovered(QCoapResourceDiscoveryReply *reply, const QList<QCoapResource> &resources);
private:
    QCoapResourceDiscoveryReply *m_reply = nullptr;
};

Finally, register the QtCoap namespace, so that you can use the enums provided there:

namespace QCoapForeignNamespace
{
    Q_NAMESPACE
    QML_FOREIGN_NAMESPACE(QtCoap)
    QML_NAMED_ELEMENT(QtCoap)
}

Adjusting Build Files

To make the custom types available from QML, update the build system files accordingly.

CMake Build

For a CMake-based build, add the following to the CMakeLists.txt :

qt_add_qml_module(quickmulticastclient
    URI CoapClientModule
    VERSION 1.0
    SOURCES
        qmlcoapmulticastclient.cpp qmlcoapmulticastclient.h
    QML_FILES
        Main.qml
)

qmake Build

For a qmake build, modify the quickmulticastclient.pro file in the following way:

CONFIG += qmltypes
QML_IMPORT_NAME = CoapClientModule
QML_IMPORT_MAJOR_VERSION = 1
    ...
qml_resources.files = \
    qmldir \
    Main.qml
qml_resources.prefix = /qt/qml/CoapClientModule
RESOURCES += qml_resources

Using New QML Types

Now, when the C++ classes are properly exposed to QML, you can use the new types:

CoapMulticastClient {
    id: client
    onDiscovered: (resource) => { root.addResource(resource) }
    onFinished: (error) => {
        statusLabel.text = (error === QtCoap.Error.Ok)
                ? qsTr("Finished resource discovery.")
                : qsTr("Resource discovery failed with error code: %1").arg(error)
    }
}

The QmlCoapMulticastClient::finished() 信号触发 onFinished signal handler, to show the request's status in the UI. Note that the example does not use QCoapClient 's signals directly, because both error () 和 finished () signals take a QCoapReply as a parameter (which is not exposed to QML), and the example only requires the error code.

The QmlCoapMulticastClient 's constructor forwards the QCoapClient 's signals to QmlCoapMulticastClient::finished() signal:

QmlCoapMulticastClient::QmlCoapMulticastClient(QObject *parent)
    : QCoapClient(QtCoap::SecurityMode::NoSecurity, parent)
{
    connect(this, &QCoapClient::finished, this,
            [this](QCoapReply *reply) {
                if (reply) {
                    emit finished(static_cast<int>(reply->errorReceived()));
                    reply->deleteLater();
                    if (m_reply == reply) {
                        m_reply = nullptr;
                        emit isDiscoveringChanged();
                    }
                } else {
                    qCWarning(lcCoapClient, "Something went wrong, received a null reply");
                }
            });
    connect(this, &QCoapClient::error, this,
            [this](QCoapReply *, QtCoap::Error err) {
                emit finished(static_cast<int>(err));
            });
}

当 Discover button is pressed, one of the overloaded discover() methods is invoked, based on the selected multicast group:

Button {
    id: discoverButton
    text: client.isDiscovering ? qsTr("Stop Discovery") : qsTr("Discover")
    Layout.preferredWidth: 100
    onClicked: {
        if (client.isDiscovering) {
            client.stopDiscovery()
        } else {
            var currentGroup = groupComboBox.model.get(groupComboBox.currentIndex).value;
            var path = "";
            if (currentGroup !== - 1) {
                client.discover(currentGroup, parseInt(portField.text),
                                discoveryPathField.text);
                path = groupComboBox.currentText;
            } else {
                client.discover(customGroupField.text, parseInt(portField.text),
                                discoveryPathField.text);
                path = customGroupField.text + discoveryPathField.text;
            }
            statusLabel.text = qsTr("Discovering resources at %1...").arg(path);
        }
    }
}

This overload is called when a custom multicast group or a host address is selected:

void QmlCoapMulticastClient::discover(const QString &host, int port, const QString &discoveryPath)
{
    QUrl url;
    url.setHost(host);
    url.setPort(port);
    m_reply = QCoapClient::discover(url, discoveryPath);
    if (m_reply) {
        connect(m_reply, &QCoapResourceDiscoveryReply::discovered,
                this, &QmlCoapMulticastClient::onDiscovered);
        emit isDiscoveringChanged();
    } else {
        qCWarning(lcCoapClient, "Discovery request failed.");
    }
}

And this overload is called when one of the suggested multicast groups is selected in the UI:

void QmlCoapMulticastClient::discover(QtCoap::MulticastGroup group, int port,
                                      const QString &discoveryPath)
{
    m_reply = QCoapClient::discover(group, port, discoveryPath);
    if (m_reply) {
        connect(m_reply, &QCoapResourceDiscoveryReply::discovered,
                this, &QmlCoapMulticastClient::onDiscovered);
        emit isDiscoveringChanged();
    } else {
        qCWarning(lcCoapClient, "Discovery request failed.");
    }
}

The QCoapResourceDiscoveryReply::discovered () signal delivers a list of QCoapResource s, which is not a QML type. To make the resources available in QML, forward each resource in the list to the QmlCoapMulticastClient::discovered() signal, which takes a QmlCoapResource instead:

void QmlCoapMulticastClient::onDiscovered(QCoapResourceDiscoveryReply *reply,
                                          const QList<QCoapResource> &resources)
{
    Q_UNUSED(reply)
    for (const auto &resource : resources)
        emit discovered(resource);
}

The discovered resources are added to the resourceModel of the list view in the UI:

function addResource(resource) {
    resourceModel.insert(0, {"host" : resource.host,
                             "path" : resource.path,
                             "title" : resource.title})
}

While the discovery is in progress, press the Stop Discovery button to stop the discovery. Internally it is done by aborting the current request:

void QmlCoapMulticastClient::stopDiscovery()
{
    if (m_reply)
        m_reply->abortRequest();
}

文件：