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poll_manager.cpp
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poll_manager.cpp
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/*
* Copyright (c) 2017-2018 dresden elektronik ingenieurtechnik gmbh.
* All rights reserved.
*
* The software in this package is published under the terms of the BSD
* style license a copy of which has been included with this distribution in
* the LICENSE.txt file.
*
*/
#include "poll_manager.h"
#include "de_web_plugin_private.h"
/*! Constructor.
*/
PollManager::PollManager(QObject *parent) :
QObject(parent)
{
pollState = StateIdle;
timer = new QTimer(this);
timer->setSingleShot(true);
connect(timer, SIGNAL(timeout()), this, SLOT(pollTimerFired()));
plugin = qobject_cast<DeRestPluginPrivate*>(parent);
}
/*! Queues polling of the node.
\param restNode - the node to poll
*/
void PollManager::poll(RestNodeBase *restNode, const QDateTime &tStart)
{
Resource *r = dynamic_cast<Resource*>(restNode);
DBG_Assert(r);
if (!r || !restNode->node())
{
return;
}
DBG_Assert(!hasItems());
PollItem pitem;
if (!restNode->node()->nodeDescriptor().receiverOnWhenIdle())
{
return;
}
LightNode *lightNode = nullptr;
Sensor *sensor = nullptr;
if (r->prefix() == RLights)
{
lightNode = dynamic_cast<LightNode*>(restNode);
DBG_Assert(lightNode);
if (!lightNode || lightNode->state() != LightNode::StateNormal)
{
return;
}
pitem.endpoint = lightNode->haEndpoint().endpoint();
DBG_Printf(DBG_INFO_L2, "Poll light node %s\n", qPrintable(lightNode->name()));
}
else if (r->prefix() == RSensors)
{
sensor = dynamic_cast<Sensor*>(restNode);
DBG_Assert(sensor);
if (!sensor || sensor->deletedState() != Sensor::StateNormal)
{
return;
}
pitem.endpoint = sensor->fingerPrint().endpoint;
DBG_Printf(DBG_INFO_L2, "Poll %s sensor node %s\n", qPrintable(sensor->type()), qPrintable(sensor->name()));
}
else
{
return;
}
pitem.id = restNode->id();
pitem.prefix = r->prefix();
pitem.address = restNode->address();
pitem.tStart = tStart;
for (int i = 0; i < r->itemCount(); i++)
{
const ResourceItem *item = r->itemForIndex(i);
const char *suffix = item ? item->descriptor().suffix : nullptr;
if (suffix == RStateOn ||
suffix == RStateBri ||
suffix == RStateColorMode ||
(suffix == RStateConsumption && sensor && sensor->type() == QLatin1String("ZHAConsumption")) ||
(suffix == RStatePower && sensor && sensor->type() == QLatin1String("ZHAPower")) ||
(suffix == RStatePresence && sensor && sensor->type() == QLatin1String("ZHAPresence")) ||
(suffix == RStateLightLevel && sensor && sensor->type() == QLatin1String("ZHALightLevel")) ||
suffix == RAttrModelId ||
suffix == RAttrSwVersion)
{
// DBG_Printf(DBG_INFO_L2, " attribute %s\n", suffix);
pitem.items.push_back(suffix);
}
}
for (PollItem &i : items)
{
if (i.prefix == r->prefix() && i.id == restNode->id())
{
i.items = pitem.items; // update
if (tStart.isValid())
{
i.tStart = tStart;
}
return;
}
}
items.push_back(pitem);
if (!timer->isActive())
{
timer->start(1);
}
}
/*! Delays polling for \p ms milliseconds.
*/
void PollManager::delay(int ms)
{
timer->stop();
timer->start(ms);
}
/*! Handle APS confirm if related to polling.
*/
void PollManager::apsdeDataConfirm(const deCONZ::ApsDataConfirm &conf)
{
if (pollState != StateWait)
{
return;
}
if (apsReqId != conf.id())
{
return;
}
if (dstAddr.hasExt() && conf.dstAddress().hasExt()
&& dstAddr.ext() != conf.dstAddress().ext())
{
}
else if (dstAddr.hasNwk() && conf.dstAddress().hasNwk()
&& dstAddr.nwk() != conf.dstAddress().nwk())
{
}
DBG_Printf(DBG_INFO_L2, "Poll APS confirm %u status: 0x%02X\n", conf.id(), conf.status());
pollState = StateIdle;
timer->stop();
timer->start(1);
}
/*! Timer callback to proceed polling.
*/
void PollManager::pollTimerFired()
{
if (pollState == StateWait)
{
DBG_Printf(DBG_INFO, "timeout on poll APS confirm\n");
pollState = StateIdle;
}
DBG_Assert(pollState == StateIdle);
if (items.empty())
{
emit done();
return;
}
QDateTime now = QDateTime::currentDateTime();
PollItem &pitem = items.front();
Resource *r = plugin->getResource(pitem.prefix, pitem.id);
ResourceItem *item = nullptr;
RestNodeBase *restNode = nullptr;
const LightNode *lightNode = nullptr;
if (r && r->prefix() == RLights)
{
restNode = plugin->getLightNodeForId(pitem.id);
lightNode = dynamic_cast<LightNode*>(restNode);
item = r->item(RStateReachable);
}
else if (r && r->prefix() == RSensors)
{
restNode = plugin->getSensorNodeForId(pitem.id);
item = r->item(RConfigReachable);
}
if (pitem.tStart.isValid() && pitem.tStart > now)
{
if (items.size() > 1)
{
PollItem tmp = pitem;
items.front() = items.back();
items.back() = tmp;
}
timer->start(1);
return;
}
if (!r || pitem.items.empty() ||
!restNode ||
//!restNode->lastRx().isValid() ||
!item || !item->toBool()) // not reachable
{
items.front() = items.back();
items.pop_back();
timer->start(1);
return;
}
const auto dtReachable = item->lastSet().secsTo(now);
quint16 clusterId = 0xffff; // invalid
std::vector<quint16> attributes;
item = r->item(RStateOn);
bool isOn = item ? item->toBool() : false;
const char *&suffix = pitem.items[0];
for (size_t i = 0; pitem.items[0] == nullptr && i < pitem.items.size(); i++)
{
if (pitem.items[i] != nullptr)
{
pitem.items[0] = pitem.items[i]; // move to front
pitem.items[i] = nullptr; // clear
break;
}
}
if (!suffix)
{
pitem.items.clear(); // all done
}
if (suffix == RStateOn)
{
if (lightNode && lightNode->manufacturerCode() != VENDOR_115F) // reports
{
clusterId = ONOFF_CLUSTER_ID;
attributes.push_back(0x0000); // onOff
}
}
else if (suffix == RStateBri && isOn)
{
NodeValue &val = restNode->getZclValue(LEVEL_CLUSTER_ID, 0x0000);
if (isOn || !val.timestamp.isValid())
{
clusterId = LEVEL_CLUSTER_ID;
attributes.push_back(0x0000); // current level
}
}
else if (suffix == RStateColorMode && lightNode)
{
clusterId = COLOR_CLUSTER_ID;
item = r->item(RConfigColorCapabilities);
if ((!item || item->toNumber() <= 0) && (lightNode->haEndpoint().profileId() != HA_PROFILE_ID || lightNode->manufacturerCode() == VENDOR_115F))
{
if (item && lightNode->modelId() == QLatin1String("lumi.light.aqcn02"))
{
item->setValue(0x0010); // color capabilities are not supported, set here
}
attributes.push_back(0x0008); // color mode
attributes.push_back(0x4001); // enhanced color mode
attributes.push_back(0x400a); // color capabilities
attributes.push_back(0x400b); // color temperature min
attributes.push_back(0x400c); // color temperature max
}
else
{
quint16 cap = item ? static_cast<quint16>(item->toNumber()) : 0;
std::vector<quint16> toCheck;
if (cap == 0 && lightNode->haEndpoint().profileId() == HA_PROFILE_ID)
{
// e.g. OSRAM US version
// DEV_ID_HA_COLOR_DIMMABLE_LIGHT
cap = (0x0001 | 0x0008); // hue, saturation, color mode, xy
}
toCheck.push_back(0x0008); // color mode
toCheck.push_back(0x4001); // enhanced color mode
// if reading 0x400x attributes fail with response 0x86 they will be marked
// as not available and will be ignored in further poll cycles
if (cap & 0x0002) // enhanced hue supported
{
toCheck.push_back(0x4000); // enhanced hue
toCheck.push_back(0x0001); // saturation
}
else if (cap & 0x0001)
{
toCheck.push_back(0x0000); // hue
toCheck.push_back(0x0001); // saturation
}
if (cap & 0x0004)
{
toCheck.push_back(0x4002); // Color loop active
}
if (cap & 0x0008)
{
toCheck.push_back(0x0003); // currentX
toCheck.push_back(0x0004); // currentY
}
if (cap & 0x0010)
{
toCheck.push_back(0x0007); // color temperature
}
for (const deCONZ::ZclCluster &cl : lightNode->haEndpoint().inClusters())
{
if (cl.id() != COLOR_CLUSTER_ID)
{
continue;
}
for (const deCONZ::ZclAttribute &attr : cl.attributes())
{
for (quint16 attrId : toCheck)
{
// discard attributes which are not be available
if (attrId == attr.id() && attr.isAvailable())
{
NodeValue &val = restNode->getZclValue(clusterId, attrId);
if (isOn || !val.timestamp.isValid())
{
attributes.push_back(attrId);
}
}
}
}
break;
}
}
}
else if (suffix == RStatePresence)
{
clusterId = OCCUPANCY_SENSING_CLUSTER_ID;
attributes.push_back(0x0000); // Occupancy
attributes.push_back(0x0010); // PIR Occupied To Unoccupied Delay
}
else if (suffix == RStateLightLevel)
{
clusterId = ILLUMINANCE_MEASUREMENT_CLUSTER_ID;
attributes.push_back(0x0000); // Measured Value
}
else if (suffix == RStateConsumption)
{
clusterId = METERING_CLUSTER_ID;
attributes.push_back(0x0000); // Curent Summation Delivered
attributes.push_back(0x0400); // Instantaneous Demand
}
else if (suffix == RStatePower)
{
clusterId = ELECTRICAL_MEASUREMENT_CLUSTER_ID;
attributes.push_back(0x050b); // Active Power
item = r->item(RAttrModelId);
if (! item->toString().startsWith(QLatin1String("Plug"))) // OSRAM plug
{
attributes.push_back(0x0505); // RMS Voltage
attributes.push_back(0x0508); // RMS Current
}
}
else if (suffix == RAttrModelId)
{
item = r->item(RAttrModelId);
if (item && (item->toString().isEmpty() || item->toString() == QLatin1String("unknown") ||
(item->lastSet().secsTo(now) > READ_MODEL_ID_INTERVAL && item->toString().startsWith("FLS-A")) // dynamic model ids
))
{
clusterId = BASIC_CLUSTER_ID;
//attributes.push_back(0x0004); // manufacturer
attributes.push_back(0x0005); // model id
}
}
else if (suffix == RAttrSwVersion && lightNode)
{
item = r->item(RAttrSwVersion);
if (item && (item->toString().isEmpty() ||
(item->lastSet().secsTo(now) > READ_SWBUILD_ID_INTERVAL))) // dynamic
{
if (lightNode->manufacturerCode() == VENDOR_UBISYS ||
lightNode->manufacturerCode() == VENDOR_EMBER ||
lightNode->manufacturerCode() == VENDOR_120B ||
lightNode->manufacturerCode() == VENDOR_115F ||
lightNode->manufacturer().startsWith(QLatin1String("Climax")))
{
if (item->toString().isEmpty())
{
attributes.push_back(0x0006); // date code
clusterId = BASIC_CLUSTER_ID;
}
}
else
{
if (item->toString().isEmpty() ||
lightNode->manufacturerCode() == VENDOR_XAL ||
lightNode->manufacturerCode() == VENDOR_DDEL)
{
attributes.push_back(0x4000); // sw build id
clusterId = BASIC_CLUSTER_ID;
}
}
}
}
size_t fresh = 0;
const int reportWaitTime = 360;
for (quint16 attrId : attributes)
{
// force polling after node becomes reachable, since reporting might not be active
if (dtReachable < reportWaitTime)
{
break;
}
NodeValue &val = restNode->getZclValue(clusterId, attrId);
if (val.timestampLastReport.isValid() && val.timestampLastReport.secsTo(now) < reportWaitTime)
{
fresh++;
}
}
// check that cluster exists on endpoint
if (clusterId != 0xffff)
{
bool found = false;
deCONZ::SimpleDescriptor sd;
if (restNode->node()->copySimpleDescriptor(pitem.endpoint, &sd) == 0)
{
for (const auto &cl : sd.inClusters())
{
if (cl.id() == clusterId)
{
found = true;
break;
}
}
}
if (!found)
{
DBG_Printf(DBG_INFO_L2, "Poll APS request to 0x%016llX cluster: 0x%04X dropped, cluster doesn't exist\n", pitem.address.ext(), clusterId);
clusterId = 0xffff;
}
}
if (clusterId != 0xffff && fresh > 0 && fresh == attributes.size())
{
DBG_Printf(DBG_INFO_L2, "Poll APS request to 0x%016llX cluster: 0x%04X dropped, values are fresh enough\n", pitem.address.ext(), clusterId);
suffix = nullptr; // clear
timer->start(100);
}
else if (!attributes.empty() && clusterId != 0xffff &&
plugin->readAttributes(restNode, pitem.endpoint, clusterId, attributes))
{
pollState = StateWait;
// TODO this hack to get aps request id
DBG_Assert(plugin->tasks.back().taskType == TaskReadAttributes);
apsReqId = plugin->tasks.back().req.id();
dstAddr = pitem.address;
timer->start(60 * 1000); // wait for confirm
suffix = nullptr; // clear
DBG_Printf(DBG_INFO_L2, "Poll APS request %u to 0x%016llX cluster: 0x%04X\n", apsReqId, dstAddr.ext(), clusterId);
}
else if (suffix)
{
suffix = nullptr; // clear
timer->start(100);
}
else
{
if (clusterId != 0xffff)
{
DBG_Printf(DBG_INFO_L2, "Poll APS request to 0x%016llX cluster: 0x%04X dropped\n", pitem.address.ext(), clusterId);
}
timer->start(100);
items.front() = items.back();
items.pop_back();
}
}