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light_node.cpp
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light_node.cpp
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/*
* Copyright (c) 2016-2020 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 "de_web_plugin_private.h"
/*! Constructor.
*/
LightNode::LightNode() :
Resource(RLights),
m_state(StateNormal),
m_resetRetryCount(0),
m_zdpResetSeq(0),
m_groupCapacity(0),
m_manufacturerCode(0),
m_otauClusterId(0), // unknown
m_colorLoopActive(false),
m_colorLoopSpeed(0),
m_groupCount(0),
m_sceneCapacity(16)
{
// add common items
addItem(DataTypeBool, RStateOn);
addItem(DataTypeString, RStateAlert);
addItem(DataTypeBool, RStateReachable);
addItem(DataTypeString, RAttrName);
addItem(DataTypeString, RAttrManufacturerName);
addItem(DataTypeString, RAttrModelId);
addItem(DataTypeString, RAttrType);
addItem(DataTypeString, RAttrSwVersion);
setManufacturerName(QLatin1String("Unknown"));
}
/*! Returns the LightNode state.
*/
LightNode::State LightNode::state() const
{
return m_state;
}
/*! Sets the LightNode state.
\param state the LightNode state
*/
void LightNode::setState(State state)
{
m_state = state;
}
/*! Returns true if the light is reachable.
*/
bool LightNode::isAvailable() const
{
return item(RStateReachable)->toBool();
}
/*! Returns the ZigBee Alliance manufacturer code.
*/
uint16_t LightNode::manufacturerCode() const
{
return m_manufacturerCode;
}
/*! Sets the ZigBee Alliance manufacturer code.
\param code the vendor specific manufacturer code
*/
void LightNode::setManufacturerCode(uint16_t code)
{
if (m_manufacturerCode != code)
{
m_manufacturerCode = code;
if (!manufacturer().isEmpty() && (manufacturer() != QLatin1String("Unknown")))
{
return;
}
QString name;
switch (code)
{
case VENDOR_ATMEL: // fall through
case VENDOR_DDEL: name = QLatin1String("dresden elektronik"); break;
case VENDOR_BEGA: name = QLatin1String("BEGA"); break;
case VENDOR_IKEA: name = QLatin1String("IKEA of Sweden"); break;
case VENDOR_INNR: name = QLatin1String("innr"); break;
case VENDOR_LDS: name = QLatin1String("LDS"); break;
case VENDOR_INSTA: name = QLatin1String("Insta"); break;
case VENDOR_PHILIPS: name = QLatin1String("Philips"); break;
case VENDOR_LEDVANCE: name = QLatin1String("LEDVANCE"); break;
case VENDOR_OSRAM_STACK: // fall through
case VENDOR_OSRAM: name = QLatin1String("OSRAM"); break;
case VENDOR_UBISYS: name = QLatin1String("ubisys"); break;
case VENDOR_BUSCH_JAEGER: name = QLatin1String("Busch-Jaeger"); break;
case VENDOR_EMBER: // fall through
case VENDOR_HEIMAN: name = QLatin1String("Heiman"); break;
case VENDOR_KEEN_HOME: name = QLatin1String("Keen Home Inc"); break;
case VENDOR_DEVELCO: name = QLatin1String("Develco Products A/S"); break;
case VENDOR_NETVOX: name = QLatin1String("netvox"); break;
default:
name = QLatin1String("Unknown");
break;
}
setManufacturerName(name);
}
}
/*! Returns the manufacturer name. */
const QString &LightNode::manufacturer() const
{
return item(RAttrManufacturerName)->toString();
}
/*! Sets the manufacturer name.
\param name the manufacturer name
*/
void LightNode::setManufacturerName(const QString &name)
{
item(RAttrManufacturerName)->setValue(name.trimmed());
}
/*! Returns the model indentifier.
*/
const QString &LightNode::modelId() const
{
return item(RAttrModelId)->toString();
}
/*! Sets the model identifier.
\param modelId the model identifier
*/
void LightNode::setModelId(const QString &modelId)
{
item(RAttrModelId)->setValue(modelId.trimmed());
}
/*! Returns the software build identifier.
*/
const QString &LightNode::swBuildId() const
{
return item(RAttrSwVersion)->toString();
}
/*! Sets the software build identifier.
\param swBuildId the software build identifier
*/
void LightNode::setSwBuildId(const QString &swBuildId)
{
item(RAttrSwVersion)->setValue(swBuildId.trimmed());
}
/*! Returns the name of the light node.
*/
const QString &LightNode::name() const
{
return item(RAttrName)->toString();
}
/*! Sets the name of the light node.
\param name the name
*/
void LightNode::setName(const QString &name)
{
item(RAttrName)->setValue(name);
}
/*! Returns the device type as string for example: 'Extended color light'.
*/
const QString &LightNode::type() const
{
return item(RAttrType)->toString();
}
/*! Returns the modifiable list of groups in which the light is a member.
*/
std::vector<GroupInfo> &LightNode::groups()
{
return m_groups;
}
/*! Returns the const list of groups in which the light is a member.
*/
const std::vector<GroupInfo> &LightNode::groups() const
{
return m_groups;
}
/*! Returns the otau cluster id.
*/
uint16_t LightNode::otauClusterId() const
{
return m_otauClusterId;
}
/*! Sets the otau cluster id.
\param clusterId the cluster id
*/
void LightNode::setOtauClusterId(uint16_t clusterId)
{
m_otauClusterId = clusterId;
}
/*! Returns true if the light supports the color cluster.
*/
bool LightNode::hasColor() const
{
return item(RStateColorMode) != nullptr;
}
/*! Sets the lights CIE color coordinates.
\param x the x coordinate (0..65279)
\param y the y coordinate (0..65279)
*/
void LightNode::setColorXY(uint16_t x, uint16_t y)
{
DBG_Assert(x <= 65279);
DBG_Assert(y <= 65279);
if (x > 65279)
{
x = 65279;
}
if (y > 65279)
{
y = 65279;
}
ResourceItem *i = item(RStateX);
if (i)
{
i->setValue(x);
}
i = item(RStateY);
if (i)
{
i->setValue(y);
}
}
/*! Returns the current colormode.
*/
const QString &LightNode::colorMode() const
{
static QString foo;
const ResourceItem *i = item(RStateColorMode);
DBG_Assert(i != nullptr);
if (i)
{
return i->toString();
}
return foo;
}
/*! Sets the current colormode.
\param colorMode the colormode ("hs", "xy", "ct")
*/
void LightNode::setColorMode(const QString &colorMode)
{
DBG_Assert((colorMode == QLatin1String("hs")) || (colorMode == QLatin1String("xy")) || (colorMode == QLatin1String("ct")));
ResourceItem *i = item(RStateColorMode);
if (i && i->toString() != colorMode)
{
i->setValue(colorMode);
}
}
/*! Sets the nodes color loop active state.
\param colorLoopActive whereever the color loop is active
*/
void LightNode::setColorLoopActive(bool colorLoopActive)
{
m_colorLoopActive = colorLoopActive;
}
/*! Returns true if the color loop is active. */
bool LightNode::isColorLoopActive() const
{
return m_colorLoopActive;
}
/*! Sets the nodes color loop speed state.
\param colorLoopActive whereever the color loop is active
*/
void LightNode::setColorLoopSpeed(uint8_t speed)
{
m_colorLoopSpeed = speed;
}
/*! Returns the nodes color loop speed state. */
uint8_t LightNode::colorLoopSpeed() const
{
return m_colorLoopSpeed;
}
/*! Returns the lights HA endpoint descriptor.
*/
const deCONZ::SimpleDescriptor &LightNode::haEndpoint() const
{
return m_haEndpoint;
}
/*! Sets the lights HA endpoint descriptor.
\param endpoint the HA endpoint descriptor
*/
void LightNode::setHaEndpoint(const deCONZ::SimpleDescriptor &endpoint)
{
bool isWindowCovering = false;
bool isInitialized = m_haEndpoint.isValid();
m_haEndpoint = endpoint;
// check if std otau cluster present in endpoint
if (otauClusterId() == 0)
{
QList<deCONZ::ZclCluster>::const_iterator it = endpoint.outClusters().constBegin();
QList<deCONZ::ZclCluster>::const_iterator end = endpoint.outClusters().constEnd();
for (; it != end; ++it)
{
if (it->id() == OTAU_CLUSTER_ID)
{
setOtauClusterId(OTAU_CLUSTER_ID);
break;
}
}
}
if (manufacturerCode() == VENDOR_XIAOMI && endpoint.deviceId() == DEV_ID_HA_COLOR_DIMMABLE_LIGHT)
{
// https://github.com/dresden-elektronik/deconz-rest-plugin/issues/1057
// The Xiaomi Aqara TW (ZNLDP12LM) light is, has wrong device type in simple descriptor
// we will treat it as color temperature light once the modelid is known
if (modelId().isEmpty())
{
return; // wait until known: Xiaomi lumi.light.aqcn02
}
isInitialized = item(RStateColorMode) != nullptr;
}
// initial setup
if (!isInitialized)
{
quint16 deviceId = haEndpoint().deviceId();
QString ltype = QLatin1String("Unknown");
{
QList<deCONZ::ZclCluster>::const_iterator i = endpoint.inClusters().constBegin();
QList<deCONZ::ZclCluster>::const_iterator end = endpoint.inClusters().constEnd();
for (; i != end; ++i)
{
if (i->id() == LEVEL_CLUSTER_ID)
{
if ((manufacturerCode() == VENDOR_IKEA && endpoint.deviceId() == DEV_ID_Z30_ONOFF_PLUGIN_UNIT) || // IKEA Tradfri control outlet
(manufacturerCode() == VENDOR_INNR && endpoint.deviceId() == DEV_ID_ZLL_ONOFF_PLUGIN_UNIT) || // innr SP120 smart plug
(manufacturerCode() == VENDOR_INNR && endpoint.deviceId() == DEV_ID_Z30_ONOFF_PLUGIN_UNIT) || // innr ZigBee 3.0 smart plugs (SP2xx)
(manufacturerCode() == VENDOR_3A_SMART_HOME && endpoint.deviceId() == DEV_ID_ZLL_ONOFF_LIGHT) || // 3A in-wall switch
(manufacturerCode() == VENDOR_PHILIPS && endpoint.deviceId() == DEV_ID_HA_ONOFF_LIGHT && endpoint.profileId() == HA_PROFILE_ID)) // iCasa in-wall switch
{ } // skip state.bri not supported
else
{
addItem(DataTypeUInt8, RStateBri);
}
}
else if (i->id() == COLOR_CLUSTER_ID)
{
if ((manufacturerCode() == VENDOR_NONE && deviceId == DEV_ID_ZLL_DIMMABLE_LIGHT) ||
(manufacturerCode() == VENDOR_NONE && deviceId == DEV_ID_LEVEL_CONTROL_SWITCH))
{
// GLEDOPTO GL-C-009 advertises non-functional color cluster
// ORVIBO T10D1ZW in-wall dimmer does the same
}
else
{
addItem(DataTypeString, RStateColorMode)->setValue(QVariant("hs"));
}
if (modelId() == QLatin1String("lumi.light.aqcn02"))
{
// correct wrong device id
deviceId = DEV_ID_ZLL_COLOR_TEMPERATURE_LIGHT;
}
switch (deviceId)
{
case DEV_ID_ZLL_EXTENDED_COLOR_LIGHT:
case DEV_ID_Z30_EXTENDED_COLOR_LIGHT:
case DEV_ID_Z30_COLOR_TEMPERATURE_LIGHT:
case DEV_ID_ZLL_COLOR_TEMPERATURE_LIGHT: // fall through
{
addItem(DataTypeUInt16, RConfigColorCapabilities);
addItem(DataTypeUInt16, RConfigCtMin);
addItem(DataTypeUInt16, RConfigCtMax)->setValue(65535);
addItem(DataTypeUInt16, RStateCt);
if (deviceId == DEV_ID_Z30_COLOR_TEMPERATURE_LIGHT ||
deviceId == DEV_ID_ZLL_COLOR_TEMPERATURE_LIGHT)
{
item(RStateColorMode)->setValue(QVariant("ct")); // note due addItem() calls, pointer is different here
}
}
[[clang::fallthrough]];
default:
break;
}
switch (deviceId)
{
case DEV_ID_ZLL_COLOR_LIGHT:
case DEV_ID_ZLL_EXTENDED_COLOR_LIGHT:
case DEV_ID_HA_COLOR_DIMMABLE_LIGHT:
case DEV_ID_Z30_EXTENDED_COLOR_LIGHT: // fall through
{
addItem(DataTypeUInt16, RStateX);
addItem(DataTypeUInt16, RStateY);
addItem(DataTypeUInt16, RStateHue);
addItem(DataTypeUInt8, RStateSat);
}
break;
default:
break;
}
}
else if (i->id() == WINDOW_COVERING_CLUSTER_ID /*FIXME ubisys J1*/)
{
QList<deCONZ::ZclCluster>::const_iterator ic = haEndpoint().inClusters().constBegin();
std::vector<deCONZ::ZclAttribute>::const_iterator ia = ic->attributes().begin();
std::vector<deCONZ::ZclAttribute>::const_iterator enda = ic->attributes().end();
isWindowCovering = true;
bool hasLift = true; // set default to lift
bool hasTilt = false;
for (;ia != enda; ++ia)
{
if (ia->id() == 0x0000) // WindowCoveringType
{
/*
* Value Type Capabilities
* 0 Roller Shade = Lift only
* 1 Roller Shade two motors = Lift only
* 2 Roller Shade exterior = Lift only
* 3 Roller Shade two motors ext = Lift only
* 4 Drapery = Lift only
* 5 Awning = Lift only
* 6 Shutter = Tilt only
* 7 Tilt Blind Lift only = Tilt only
* 8 Tilt Blind lift & tilt = Lift & Tilt
* 9 Projector Screen = Lift only
*/
uint8_t coveringType = ia->numericValue().u8;
if (coveringType == 8 ) {
hasTilt = true;
}
else if (coveringType == 6 || coveringType == 7)
{
hasTilt = true;
hasLift = false;
}
}
}
addItem(DataTypeBool, RStateOpen);
// FIXME: removeItem(RStateOn);
if (hasLift)
{
addItem(DataTypeUInt8, RStateLift);
addItem(DataTypeUInt8, RStateBri); // FIXME: deprecate
}
if (hasTilt)
{
addItem(DataTypeUInt8, RStateTilt);
addItem(DataTypeUInt8, RStateSat); // FIXME: deprecate
}
}
else if (i->id() == FAN_CONTROL_CLUSTER_ID) {
addItem(DataTypeUInt8, RStateSpeed);
}
else if (i->id() == IAS_WD_CLUSTER_ID)
{
if (modelId() == QLatin1String("902010/24") || // Bitron Smoke Detector with siren
modelId() == QLatin1String("SMSZB-120") || // Develco Smoke Alarm with siren
modelId() == QLatin1String("HESZB-120") || // Develco heat sensor with siren
modelId() == QLatin1String("FLSZB-110")) // Develco water leak sensor with siren
{
removeItem(RStateOn);
ltype = QLatin1String("Warning device");
}
}
else if (i->id() == IDENTIFY_CLUSTER_ID)
{
if (manufacturerCode() == VENDOR_IKEA && deviceId == DEV_ID_RANGE_EXTENDER)
{
// the repeater has no on/off cluster but an led which supports identify
removeItem(RStateOn);
ltype = QLatin1String("Range extender");
}
}
}
}
if (haEndpoint().profileId() == HA_PROFILE_ID)
{
if ((manufacturerCode() == VENDOR_LEGRAND) && isWindowCovering)
{
// correct wrong device id for legrand, the window suhtter command is see as plug
// DEV_ID_Z30_ONOFF_PLUGIN_UNIT
deviceId = DEV_ID_HA_WINDOW_COVERING_DEVICE;
}
switch (deviceId)
{
//case DEV_ID_ZLL_DIMMABLE_LIGHT: break; // clash with on/off light
case DEV_ID_HA_ONOFF_LIGHT:
{
if (item(RStateBri) == nullptr) { ltype = QLatin1String("On/Off light"); }
else { ltype = QLatin1String("Dimmable light"); }
}
break;
case DEV_ID_LEVEL_CONTROL_SWITCH: ltype = QLatin1String("Level control switch"); break;
case DEV_ID_ONOFF_OUTPUT: ltype = QLatin1String("On/Off output"); break;
case DEV_ID_LEVEL_CONTROLLABLE_OUTPUT: ltype = QLatin1String("Level controllable output"); break;
case DEV_ID_MAINS_POWER_OUTLET: ltype = QLatin1String("On/Off plug-in unit"); break;
case DEV_ID_Z30_ONOFF_PLUGIN_UNIT: ltype = QLatin1String("On/Off plug-in unit"); break;
case DEV_ID_ZLL_ONOFF_PLUGIN_UNIT: ltype = QLatin1String("On/Off plug-in unit"); break;
case DEV_ID_ZLL_DIMMABLE_PLUGIN_UNIT: ltype = QLatin1String("Dimmable plug-in unit"); break;
case DEV_ID_Z30_DIMMABLE_PLUGIN_UNIT: ltype = QLatin1String("Dimmable plug-in unit"); break;
case DEV_ID_HA_DIMMABLE_LIGHT: ltype = QLatin1String("Dimmable light"); break;
case DEV_ID_HA_COLOR_DIMMABLE_LIGHT: ltype = QLatin1String("Color dimmable light"); break;
case DEV_ID_HA_ONOFF_LIGHT_SWITCH: ltype = QLatin1String("On/Off light switch"); break;
case DEV_ID_HA_DIMMER_SWITCH: ltype = QLatin1String("Dimmer switch"); break;
case DEV_ID_ZLL_ONOFF_LIGHT: ltype = QLatin1String("On/Off light"); break;
case DEV_ID_SMART_PLUG: ltype = QLatin1String("Smart plug"); break;
case DEV_ID_ZLL_COLOR_LIGHT: ltype = QLatin1String("Color light"); break;
case DEV_ID_Z30_EXTENDED_COLOR_LIGHT: ltype = QLatin1String("Extended color light"); break;
case DEV_ID_ZLL_EXTENDED_COLOR_LIGHT: ltype = QLatin1String("Extended color light"); break;
case DEV_ID_Z30_COLOR_TEMPERATURE_LIGHT: ltype = QLatin1String("Color temperature light"); break;
case DEV_ID_ZLL_COLOR_TEMPERATURE_LIGHT: ltype = QLatin1String("Color temperature light"); break;
case DEV_ID_XIAOMI_SMART_PLUG: ltype = QLatin1String("Smart plug"); break;
case DEV_ID_CONSUMPTION_AWARENESS_DEVICE: ltype = QLatin1String("Consumption awareness device");
removeItem(RStateOn); break;
case DEV_ID_IAS_ZONE: removeItem(RStateOn);
ltype = QLatin1String("Warning device"); break;
case DEV_ID_IAS_WARNING_DEVICE: removeItem(RStateOn);
ltype = QLatin1String("Warning device"); break;
case DEV_ID_HA_WINDOW_COVERING_CONTROLLER: ltype = QLatin1String("Window covering controller"); break;
case DEV_ID_HA_WINDOW_COVERING_DEVICE: ltype = QLatin1String("Window covering device"); break;
case DEV_ID_FAN: ltype = QLatin1String("Fan"); break;
case DEV_ID_CONFIGURATION_TOOL: removeItem(RStateOn);
removeItem(RStateAlert);
ltype = QLatin1String("Configuration tool"); break;
default:
break;
}
}
else if (haEndpoint().profileId() == ZLL_PROFILE_ID)
{
switch (deviceId)
{
case DEV_ID_ZLL_ONOFF_LIGHT: ltype = QLatin1String("On/Off light"); break;
case DEV_ID_ZLL_ONOFF_PLUGIN_UNIT: ltype = QLatin1String("On/Off plug-in unit"); break;
case DEV_ID_Z30_ONOFF_PLUGIN_UNIT: ltype = QLatin1String("On/Off plug-in unit"); break;
case DEV_ID_ZLL_DIMMABLE_PLUGIN_UNIT: ltype = QLatin1String("Dimmable plug-in unit"); break;
case DEV_ID_Z30_DIMMABLE_PLUGIN_UNIT: ltype = QLatin1String("Dimmable plug-in unit"); break;
case DEV_ID_ZLL_DIMMABLE_LIGHT: ltype = QLatin1String("Dimmable light"); break;
case DEV_ID_ZLL_COLOR_LIGHT: ltype = QLatin1String("Color light"); break;
case DEV_ID_ZLL_EXTENDED_COLOR_LIGHT: ltype = QLatin1String("Extended color light"); break;
case DEV_ID_Z30_EXTENDED_COLOR_LIGHT: ltype = QLatin1String("Extended color light"); break;
case DEV_ID_Z30_COLOR_TEMPERATURE_LIGHT: ltype = QLatin1String("Color temperature light"); break;
case DEV_ID_ZLL_COLOR_TEMPERATURE_LIGHT: ltype = QLatin1String("Color temperature light"); break;
default:
break;
}
}
else if (haEndpoint().profileId() == DIN_PROFILE_ID)
{
switch (deviceId)
{
case DEV_ID_DIN_XBEE: removeItem(RStateOn);
removeItem(RStateAlert);
ltype = QLatin1String("Range extender"); break;
default:
break;
}
}
item(RAttrType)->setValue(ltype);
}
}
/*! Returns the group capacity.
*/
uint8_t LightNode::groupCapacity() const
{
return m_groupCapacity;
}
/*! Sets the group capacity.
\param capacity the group capacity
*/
void LightNode::setGroupCapacity(uint8_t capacity)
{
m_groupCapacity = capacity;
}
/*! Returns the resetRetryCount.
*/
uint8_t LightNode::resetRetryCount() const
{
return m_resetRetryCount;
}
/*! Sets the resetRetryCount.
\param resetRetryCount the resetRetryCount
*/
void LightNode::setResetRetryCount(uint8_t resetRetryCount)
{
m_resetRetryCount = resetRetryCount;
}
/*! Returns the zdpResetSeq number.
*/
uint8_t LightNode::zdpResetSeq() const
{
return m_zdpResetSeq;
}
/*! Sets the zdpResetSeq number.
\param resetRetryCount the resetRetryCount
*/
void LightNode::setZdpResetSeq(uint8_t zdpResetSeq)
{
m_zdpResetSeq = zdpResetSeq;
}
/*! Returns the group Count.
*/
uint8_t LightNode::groupCount() const
{
return m_groupCount;
}
/*! Sets the groupCount.
\param groupCount the groupCount
*/
void LightNode::setGroupCount(uint8_t groupCount)
{
m_groupCount = groupCount;
}
/*! Returns the scene Capacity.
*/
uint8_t LightNode::sceneCapacity() const
{
return m_sceneCapacity;
}
/*! Sets the scene Capacity.
\param sceneCapacity the scene Capacity
*/
void LightNode::setSceneCapacity(uint8_t sceneCapacity)
{
m_sceneCapacity = sceneCapacity;
}
/*! Parse the light resource items from a JSON string. */
void LightNode::jsonToResourceItems(const QString &json)
{
bool ok;
QVariant var = Json::parse(json, ok);
if (!ok)
{
return;
}
QVariantMap map = var.toMap();
QDateTime dt = QDateTime::currentDateTime().addSecs(-120);
for (int i = 0; i < itemCount(); i++)
{
ResourceItem *item = itemForIndex(i);
const char *key = item->descriptor().suffix;
if (map.contains(QLatin1String(key)))
{
item->setValue(map[key]);
item->setTimeStamps(dt);
}
}
}
/*! Transfers resource items into JSON string. */
QString LightNode::resourceItemsToJson()
{
QVariantMap map;
for (int i = 0; i < itemCount(); i++)
{
ResourceItem *item = itemForIndex(i);
const char *key = item->descriptor().suffix;
map[key] = item->toVariant();
}
return Json::serialize(map);
}