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nymea-zigbee/libnymea-zigbee/zcl/general/zigbeeclusteridentify.cpp

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/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
* Copyright 2013 - 2020, nymea GmbH
* Contact: contact@nymea.io
*
* This file is part of nymea-zigbee.
* This project including source code and documentation is protected by copyright law, and
* remains the property of nymea GmbH. All rights, including reproduction, publication,
* editing and translation, are reserved. The use of this project is subject to the terms of a
* license agreement to be concluded with nymea GmbH in accordance with the terms
* of use of nymea GmbH, available under https://nymea.io/license
*
* GNU Lesser General Public License Usage
* Alternatively, this project may be redistributed and/or modified under the terms of the GNU
* Lesser General Public License as published by the Free Software Foundation; version 3.
* this project is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License along with this project.
* If not, see <https://www.gnu.org/licenses/>.
*
* For any further details and any questions please contact us under contact@nymea.io
* or see our FAQ/Licensing Information on https://nymea.io/license/faq
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
#include "zigbeeclusteridentify.h"
#include "zigbeenetworkreply.h"
#include "loggingcategory.h"
#include "zigbeenetwork.h"
#include <QDataStream>
ZigbeeClusterIdentify::ZigbeeClusterIdentify(ZigbeeNetwork *network, ZigbeeNode *node, ZigbeeNodeEndpoint *endpoint, ZigbeeCluster::Direction direction, QObject *parent) :
ZigbeeCluster(network, node, endpoint, Zigbee::ClusterIdIdentify, direction, parent)
{
}
ZigbeeClusterReply *ZigbeeClusterIdentify::identify(quint16 seconds)
{
ZigbeeNetworkRequest request = createGeneralRequest();
// Build ZCL frame
ZigbeeClusterLibrary::FrameControl frameControl;
frameControl.frameType = ZigbeeClusterLibrary::FrameTypeClusterSpecific;
frameControl.manufacturerSpecific = false;
frameControl.direction = ZigbeeClusterLibrary::DirectionClientToServer;
frameControl.disableDefaultResponse = false;
// ZCL header
ZigbeeClusterLibrary::Header header;
header.frameControl = frameControl;
header.command = ZigbeeClusterIdentify::CommandIdentify;
header.transactionSequenceNumber = m_transactionSequenceNumber++;
// Note: the identify time unit is 0.5 seconds
QByteArray payload = ZigbeeDataType(seconds * 2).data();
// Put them together
ZigbeeClusterLibrary::Frame frame;
frame.header = header;
frame.payload = payload;
request.setTxOptions(Zigbee::ZigbeeTxOptions(Zigbee::ZigbeeTxOptionAckTransmission));
request.setAsdu(ZigbeeClusterLibrary::buildFrame(frame));
ZigbeeClusterReply *zclReply = createClusterReply(request, frame);
ZigbeeNetworkReply *networkReply = m_network->sendRequest(request);
connect(networkReply, &ZigbeeNetworkReply::finished, this, [this, networkReply, zclReply](){
if (!verifyNetworkError(zclReply, networkReply)) {
qCWarning(dcZigbeeClusterLibrary()) << "Failed to send request"
<< m_node << networkReply->error()
<< networkReply->zigbeeApsStatus();
finishZclReply(zclReply);
return;
}
// The request was successfully sent to the device
// Now check if the expected indication response received already
if (zclReply->isComplete()) {
finishZclReply(zclReply);
return;
}
});
return zclReply;
}
ZigbeeClusterReply *ZigbeeClusterIdentify::identifyQuery()
{
ZigbeeNetworkRequest request = createGeneralRequest();
// Build ZCL frame
ZigbeeClusterLibrary::FrameControl frameControl;
frameControl.frameType = ZigbeeClusterLibrary::FrameTypeClusterSpecific;
frameControl.manufacturerSpecific = false;
frameControl.direction = ZigbeeClusterLibrary::DirectionClientToServer;
frameControl.disableDefaultResponse = false;
// ZCL header
ZigbeeClusterLibrary::Header header;
header.frameControl = frameControl;
header.command = ZigbeeClusterIdentify::CommandIdentifyQuery;
header.transactionSequenceNumber = m_transactionSequenceNumber++;
// No payload
// Put them together
ZigbeeClusterLibrary::Frame frame;
frame.header = header;
request.setTxOptions(Zigbee::ZigbeeTxOptions(Zigbee::ZigbeeTxOptionAckTransmission));
request.setAsdu(ZigbeeClusterLibrary::buildFrame(frame));
ZigbeeClusterReply *zclReply = createClusterReply(request, frame);
ZigbeeNetworkReply *networkReply = m_network->sendRequest(request);
connect(networkReply, &ZigbeeNetworkReply::finished, this, [this, networkReply, zclReply](){
if (!verifyNetworkError(zclReply, networkReply)) {
qCWarning(dcZigbeeClusterLibrary()) << "Failed to send request"
<< m_node << networkReply->error()
<< networkReply->zigbeeApsStatus();
finishZclReply(zclReply);
return;
}
// The request was successfully sent to the device
// Now check if the expected indication response received already
if (zclReply->isComplete()) {
finishZclReply(zclReply);
return;
}
});
return zclReply;
}
ZigbeeClusterReply *ZigbeeClusterIdentify::triggerEffect(ZigbeeClusterIdentify::Effect effect, quint8 effectVariant)
{
ZigbeeNetworkRequest request = createGeneralRequest();
// Build ZCL frame
ZigbeeClusterLibrary::FrameControl frameControl;
frameControl.frameType = ZigbeeClusterLibrary::FrameTypeClusterSpecific;
frameControl.manufacturerSpecific = false;
frameControl.direction = ZigbeeClusterLibrary::DirectionClientToServer;
frameControl.disableDefaultResponse = false;
// ZCL header
ZigbeeClusterLibrary::Header header;
header.frameControl = frameControl;
header.command = ZigbeeClusterIdentify::CommandTriggerEffect;
header.transactionSequenceNumber = m_transactionSequenceNumber++;
QByteArray payload;
QDataStream stream(&payload, QIODevice::WriteOnly);
stream.setByteOrder(QDataStream::LittleEndian);
stream << static_cast<quint8>(effect);
stream << static_cast<quint8>(effectVariant);
// Put them together
ZigbeeClusterLibrary::Frame frame;
frame.header = header;
frame.payload = payload;
request.setTxOptions(Zigbee::ZigbeeTxOptions(Zigbee::ZigbeeTxOptionAckTransmission));
request.setAsdu(ZigbeeClusterLibrary::buildFrame(frame));
ZigbeeClusterReply *zclReply = createClusterReply(request, frame);
ZigbeeNetworkReply *networkReply = m_network->sendRequest(request);
connect(networkReply, &ZigbeeNetworkReply::finished, this, [this, networkReply, zclReply](){
if (!verifyNetworkError(zclReply, networkReply)) {
qCWarning(dcZigbeeClusterLibrary()) << "Failed to send request"
<< m_node << networkReply->error()
<< networkReply->zigbeeApsStatus();
finishZclReply(zclReply);
return;
}
// The request was successfully sent to the device
// Now check if the expected indication response received already
if (zclReply->isComplete()) {
finishZclReply(zclReply);
return;
}
});
return zclReply;
}
void ZigbeeClusterIdentify::setAttribute(const ZigbeeClusterAttribute &attribute)
{
qCDebug(dcZigbeeCluster()) << "Update attribute" << m_node << m_endpoint << this << static_cast<Attribute>(attribute.id()) << attribute.dataType();
if (hasAttribute(attribute.id())) {
m_attributes[attribute.id()] = attribute;
emit attributeChanged(attribute);
} else {
m_attributes.insert(attribute.id(), attribute);
emit attributeChanged(attribute);
}
}
void ZigbeeClusterIdentify::processDataIndication(ZigbeeClusterLibrary::Frame frame)
{
qCDebug(dcZigbeeCluster()) << "Processing cluster frame" << m_node << m_endpoint << this << frame;
// TODO: implement identify query response
// Increase the tsn for continuouse id increasing on both sides
m_transactionSequenceNumber = frame.header.transactionSequenceNumber;
qCWarning(dcZigbeeCluster()) << "Unhandled ZCL indication in" << m_node << m_endpoint << this << frame;
}
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