/****************************************************************************** ** ** Copyright (C) 2018 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtKnx module. ** ** $QT_BEGIN_LICENSE:GPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 or (at your option) any later version ** approved by the KDE Free Qt Foundation. The licenses are as published by ** the Free Software Foundation and appearing in the file LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ******************************************************************************/ #include "qknxnetiptunnelingacknowledge.h" QT_BEGIN_NAMESPACE /*! \class QKnxNetIpTunnelingAcknowledgeProxy \inmodule QtKnx \ingroup qtknx-tunneling \ingroup qtknx-netip \brief The QKnxNetIpTunnelingAcknowledgeProxy class provides the means to read a tunneling acknowledgment from the generic \l QKnxNetIpFrame class and to create a KNXnet/IP frame based on the information. \e Tunneling means that Engineering Tool Software (ETS) sends a single KNX frame in a KNXnet/IP frame and waits until the response arrives or a time-out is reached. A tunneling request is sent by a KNXnet/IP client to establish a data connection to the endpoint of a KNXnet/IP server for sending a KNX frame. When a KNXnet/IP server receives a tunneling request, it immediately sends a tunneling acknowledgment to the KNXnet/IP client to confirm the reception of the request and then processes the received KNX frame. A tunneling acknowledgment frame contains the ID and status of the communication channel between a KNXnet/IP client and server, as well as the sequence number of a tunneling request frame. The server only processes frames with the expected sequence number or one less the expected sequence number. It discards frames with other sequence numbers and does not send a tunneling acknowledgment upon receiving them. In most programs, this class will not be used directly. Instead, the \l QKnxNetIpTunnel or \l QKnxNetIpDeviceManagement class is used to establish a functional connection to a KNXnet/IP server. \note When using QKnxNetIpTunnelingAcknowledgeProxy, care must be taken to ensure that the referenced KNXnet/IP frame outlives the proxy on all code paths, lest the proxy ends up referencing deleted data. The following code sample illustrates how to read the tunneling acknowledgment information sent by a KNXnet/IP client: \code auto netIpFrame = QKnxNetIpFrame::fromBytes(...); const QKnxNetIpTunnelingAcknowledgeProxy proxy(netIpFrame); if (!proxy.isValid()) return; auto chanId = proxy.channelId(); auto seqNum = proxy.sequenceNumber(); auto tunnelStatus = proxy.status(); \endcode \sa builder(), QKnxNetIpTunnelingRequestProxy, {Qt KNX Tunneling Classes}, {Qt KNXnet/IP Connection Classes} */ /*! \fn QKnxNetIpTunnelingAcknowledgeProxy::QKnxNetIpTunnelingAcknowledgeProxy() \internal */ /*! \fn QKnxNetIpTunnelingAcknowledgeProxy::~QKnxNetIpTunnelingAcknowledgeProxy() \internal */ /*! \fn QKnxNetIpTunnelingAcknowledgeProxy::QKnxNetIpTunnelingAcknowledgeProxy(const QKnxNetIpFrame &&) \internal */ /*! Constructs a proxy object to read the tunneling acknowledgment information carried by the specified KNXnet/IP frame \a frame. */ QKnxNetIpTunnelingAcknowledgeProxy::QKnxNetIpTunnelingAcknowledgeProxy(const QKnxNetIpFrame &frame) : m_frame(frame) {} /*! Returns \c true if the frame contains initialized values and is in itself valid, otherwise returns \c false. A valid KNXnet/IP frame consists of at least a valid header and a size in bytes corresponding to the total size of the KNXnet/IP frame header. \sa QKnxNetIpFrameHeader::totalSize() */ bool QKnxNetIpTunnelingAcknowledgeProxy::isValid() const { return m_frame.isValid() && m_frame.size() == 10 && m_frame.serviceType() == QKnxNetIp::ServiceType::TunnelingAcknowledge; } /*! Returns the ID of the communication channel between a KNXnet/IP client and server. */ quint8 QKnxNetIpTunnelingAcknowledgeProxy::channelId() const { return m_frame.channelId(); } /*! Returns the sequence number of a tunneling acknowledgment frame. */ quint8 QKnxNetIpTunnelingAcknowledgeProxy::sequenceNumber() const { return m_frame.sequenceNumber(); } /*! Returns the status of the communication channel between a KNXnet/IP client and server. */ QKnxNetIp::Error QKnxNetIpTunnelingAcknowledgeProxy::status() const { return QKnxNetIp::Error(m_frame.serviceTypeSpecificValue()); } /*! Returns a builder object to create a KNXnet/IP tunneling acknowledgment frame. */ QKnxNetIpTunnelingAcknowledgeProxy::Builder QKnxNetIpTunnelingAcknowledgeProxy::builder() { return QKnxNetIpTunnelingAcknowledgeProxy::Builder(); } /*! \class QKnxNetIpTunnelingAcknowledgeProxy::Builder \inmodule QtKnx \inheaderfile QKnxNetIpTunnelingAcknowledgeProxy \brief The QKnxNetIpTunnelingAcknowledgeProxy::Builder class provides the means to create a KNXnet/IP tunneling acknowledgment frame. A tunneling acknowledgment frame contains the ID and status of the communication channel between a KNXnet/IP client and server, as well as the sequence number of a tunneling request frame. The server only processes frames with the expected sequence number or one less the expected sequence number. It discards frames with other sequence numbers and does not send a tunneling acknowledgment upon receiving them. In most programs, this class will not be used directly. Instead, the \l QKnxNetIpTunnel or \l QKnxNetIpDeviceManagement class is used to establish a functional connection to a KNXnet/IP server. The common way to create a tunneling acknowledgment is: \code auto netIpFrame = QKnxNetIpTunnelingAcknowledgeProxy::builder() .setChannelId(4) .setSequenceNumber(3) .setStatus(QKnx::NetIp::Error::None) .create() \endcode If the KNXnet/IP client does not receive a tunneling acknowledgment within the timeout of one second or the status of a received acknowledgment frame indicates that errors occurred, the client repeats the tunneling request frame once with the same sequence number and then terminates the connection by sending a disconnection request, \l QKnxNetIpDisconnectRequestProxy, to the server's control endpoint. */ /*! Sets the ID of the communication channel between a KNXnet/IP client and server to \a channelId and returns a reference to the builder. */ QKnxNetIpTunnelingAcknowledgeProxy::Builder & QKnxNetIpTunnelingAcknowledgeProxy::Builder::setChannelId(quint8 channelId) { m_channelId = channelId; return *this; } /*! Sets the sequence number of a tunneling request frame to \a sequenceNumber and returns a reference to the builder. */ QKnxNetIpTunnelingAcknowledgeProxy::Builder & QKnxNetIpTunnelingAcknowledgeProxy::Builder::setSequenceNumber(quint8 sequenceNumber) { m_sequenceNumber = sequenceNumber; return *this; } /*! Sets the status of the communication channel between a KNXnet/IP client and server to \a status and returns a reference to the builder. */ QKnxNetIpTunnelingAcknowledgeProxy::Builder & QKnxNetIpTunnelingAcknowledgeProxy::Builder::setStatus(QKnxNetIp::Error status) { m_status = status; return *this; } /*! Creates and returns a KNXnet/IP tunneling request frame. \note The returned frame may be invalid depending on the values used during setup. \sa isValid() */ QKnxNetIpFrame QKnxNetIpTunnelingAcknowledgeProxy::Builder::create() const { return { QKnxNetIp::ServiceType::TunnelingAcknowledge, QKnxNetIpConnectionHeader { m_channelId, m_sequenceNumber, quint8(m_status) } }; } QT_END_NAMESPACE