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device_access_fn.cpp
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device_access_fn.cpp
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/*
* Copyright (c) 2021 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 <QTimeZone>
#include "device_access_fn.h"
#include "device_descriptions.h"
#include "device_js/device_js.h"
#include "ias_zone.h"
#include "resource.h"
#include "zcl/zcl.h"
#define TIME_CLUSTER_ID 0x000A
#define TIME_ATTRID_TIME 0x0000
#define TIME_ATTRID_LOCAL_TIME 0x0007
#define TIME_ATTRID_LAST_SET_TIME 0x0008
/*
Documentation for manufacturer specific Tuya cluster (0xEF00)
https://developer.tuya.com/en/docs/iot-device-dev/tuya-zigbee-universal-docking-access-standard?id=K9ik6zvofpzql
Tuya ZCL insights
https://github.com/TuyaInc/tuya_zigbee_sdk/blob/master/silicon_labs_zigbee/include/zigbee_attr.h
Basic cluster (0x0000)
-------------
0x0001 Application version:: 0b 01 00 0001 = 1.0.1 ie 0x41 for 1.0.1
0x0004 Manufacturer name: XXX…XXX (16 bytes in length, consisting of an 8-byte prefix and an 8-byte PID)
0-7 bytes: _ TZE600_
8-16 bytes: PID (created and provided by the product manager in the platform or self-service)
Tuya cluster (0xEF00)
---------------------
https://developer.tuya.com/en/docs/iot-device-dev/tuya-zigbee-universal-docking-access-standard?id=K9ik6zvofpzql
Zigbee generic docking is suitable for scenarios where the Zigbee standard protocol is not supported or not very suitable.
ZDP Simple Descriptor Device Id (0x0051)
Frame control for outgoing commands:
deCONZ::ZclFCClusterCommand
deCONZ::ZclFCDirectionClientToServer
deCONZ::ZclFCDisableDefaultResponse
DP data format
--------------
DPID U8 Datapoint serial number
Type U8 Datatype in value
Name Id Length
------------------------------
raw 0x00
bool 0x01
value 0x02
string 0x03
enum 0x04
bitmap 0x05
Length U16 Length of Value
Value 1/2/4/N The value as big endian
ZCL Payload of comamnds
-----------------------
Example MoesGo switch TY_DATA_REPORT
00 4c sequence number
02 DPID
02 Type: Value
00 04 Length: 4
00 00 00 15
*/
#define TUYA_CLUSTER_ID 0xEF00
enum TuyaCommandId : unsigned char
{
TY_DATA_REQUEST = 0x00,
TY_DATA_RESPONSE = 0x01,
TY_DATA_REPORT = 0x02,
TY_DATA_QUERY = 0x03,
TUYA_MCU_VERSION_REQ = 0x10,
TUYA_MCU_VERSION_RSP = 0x11,
TUYA_MCU_OTA_NOTIFY = 0x12,
TUYA_MCU_OTA_BLOCK_DATA_REQ = 0x13,
TUYA_MCU_OTA_BLOCK_DATA_RSP = 0x14,
TUYA_MCU_OTA_RESULT = 0x15,
TUYA_MCU_SYNC_TIME = 0x24
};
enum TuyaDataType : unsigned char
{
TuyaDataTypeRaw = 0x00,
TuyaDataTypeBool = 0x01,
TuyaDataTypeValue = 0x02,
TuyaDataTypeString = 0x03,
TuyaDataTypeEnum = 0x04,
TuyaDataTypeBitmap = 0x05
};
enum DA_Constants
{
BroadcastEndpoint = 255, //! Accept incoming commands from any endpoint.
AutoEndpoint = 0 //! Use src/dst endpoint of the related Resource (uniqueid).
};
struct ParseFunction
{
ParseFunction(const QString &_name, const int _arity, ParseFunction_t _fn) :
name(_name),
arity(_arity),
fn(_fn)
{ }
QString name;
int arity = 0; // number of parameters given by the device description file
ParseFunction_t fn = nullptr;
};
struct ReadFunction
{
ReadFunction(const QString &_name, const int _arity, ReadFunction_t _fn) :
name(_name),
arity(_arity),
fn(_fn)
{ }
QString name;
int arity = 0; // number of parameters given by the device description file
ReadFunction_t fn = nullptr;
};
struct WriteFunction
{
WriteFunction(const QString &_name, const int _arity, WriteFunction_t _fn) :
name(_name),
arity(_arity),
fn(_fn)
{ }
QString name;
int arity = 0; // number of parameters given by the device description file
WriteFunction_t fn = nullptr;
};
quint8 zclNextSequenceNumber(); // todo defined in de_web_plugin_private.h
/*! Helper to get an unsigned int from \p var which might be a number or string value.
\param var - Holds the string or number.
\param max – Upper bound of the allowed value.
\param ok – true if var holds and uint which is <= \p max.
*/
uint variantToUint(const QVariant &var, size_t max, bool *ok)
{
Q_ASSERT(ok);
*ok = false;
if (var.isNull())
{
return 0;
}
const auto val = var.toString().toUInt(ok, 0);
*ok = *ok && val <= max;
return *ok ? val : 0;
}
/*! Extracts common ZCL parameters from an object.
*/
static ZCL_Param getZclParam(const QVariantMap ¶m)
{
ZCL_Param result{};
if (!param.contains(QLatin1String("cl")))
{
return result;
}
bool ok = true;
result.endpoint = param.contains("ep") ? variantToUint(param["ep"], UINT8_MAX, &ok) : quint8(AutoEndpoint);
result.clusterId = ok ? variantToUint(param["cl"], UINT16_MAX, &ok) : 0;
result.manufacturerCode = ok && param.contains("mf") ? variantToUint(param["mf"], UINT16_MAX, &ok) : 0;
if (param.contains(QLatin1String("cmd"))) // optional
{
result.commandId = variantToUint(param["cmd"], UINT8_MAX, &ok);
result.hasCommandId = ok ? 1 : 0;
}
else
{
result.hasCommandId = 0;
}
const auto ignoreSeqno = QLatin1String("noseq");
if (param.contains(ignoreSeqno))
{
result.ignoreResponseSeq = param.value(ignoreSeqno).toBool() ? 1 : 0;
}
else
{
result.ignoreResponseSeq = 0;
}
result.attributeCount = 0;
const auto attr = param[QLatin1String("at")]; // optional
if (!ok)
{ }
else if (attr.type() == QVariant::String)
{
result.attributes[result.attributeCount] = variantToUint(attr, UINT16_MAX, &ok);
result.attributeCount = 1;
}
else if (attr.type() == QVariant::List)
{
const auto arr = attr.toList();
for (const auto &at : arr)
{
if (result.attributeCount == ZCL_Param::MaxAttributes)
{
break;
}
if (ok && at.type() == QVariant::String)
{
result.attributes[result.attributeCount] = variantToUint(at, UINT16_MAX, &ok);
result.attributeCount++;
}
}
ok = result.attributeCount == size_t(arr.size());
}
else if (param["eval"].toString().contains("Attr")) // guard against missing "at"
{
ok = false;
}
result.valid = ok;
return result;
}
quint8 resolveAutoEndpoint(const Resource *r)
{
quint8 result = AutoEndpoint;
// hack to get endpoint. todo find better solution
const auto ls = r->item(RAttrUniqueId)->toString().split('-', SKIP_EMPTY_PARTS);
if (ls.size() >= 2)
{
bool ok = false;
uint ep = ls[1].toUInt(&ok, 16);
if (ok && ep < BroadcastEndpoint)
{
result = ep;
}
}
return result;
}
/*! Evaluates an items Javascript expression for a received attribute.
*/
bool evalZclAttribute(Resource *r, ResourceItem *item, const deCONZ::ApsDataIndication &ind, const deCONZ::ZclFrame &zclFrame, const deCONZ::ZclAttribute &attr, const QVariant &parseParameters)
{
bool ok = false;
const auto &zclParam = item->zclParam();
for (size_t i = 0; i < zclParam.attributeCount; i++)
{
if (zclParam.attributes[i] == attr.id())
{
ok = true;
break;
}
}
if (!ok)
{
return false;
}
const auto expr = parseParameters.toMap()["eval"].toString();
if (!expr.isEmpty())
{
DeviceJs &engine = *DeviceJs::instance();
engine.reset();
engine.setResource(r);
engine.setItem(item);
engine.setZclAttribute(attr);
engine.setZclFrame(zclFrame);
engine.setApsIndication(ind);
if (engine.evaluate(expr) == JsEvalResult::Ok)
{
const auto res = engine.result();
if (res.isValid())
{
DBG_Printf(DBG_DDF, "%s/%s expression: %s --> %s\n", r->item(RAttrUniqueId)->toCString(), item->descriptor().suffix, qPrintable(expr), qPrintable(res.toString()));
// item->setValue(res, ResourceItem::SourceDevice);
return true;
}
}
else
{
DBG_Printf(DBG_DDF, "failed to evaluate expression for %s/%s: %s, err: %s\n", r->item(RAttrUniqueId)->toCString(), item->descriptor().suffix, qPrintable(expr), qPrintable(engine.errorString()));
}
}
return false;
}
/*! Evaluates an items Javascript expression for a received ZCL frame.
*/
bool evalZclFrame(Resource *r, ResourceItem *item, const deCONZ::ApsDataIndication &ind, const deCONZ::ZclFrame &zclFrame, const QVariant &parseParameters)
{
const auto expr = parseParameters.toMap()["eval"].toString();
if (!expr.isEmpty())
{
DeviceJs &engine = *DeviceJs::instance();
engine.reset();
engine.setResource(r);
engine.setItem(item);
engine.setZclFrame(zclFrame);
engine.setApsIndication(ind);
if (engine.evaluate(expr) == JsEvalResult::Ok)
{
const auto res = engine.result();
if (res.isValid())
{
if (DBG_IsEnabled(DBG_DDF))
{
DBG_Printf(DBG_DDF, "expression: %s --> %s\n", qPrintable(expr), qPrintable(res.toString()));
}
return true;
}
}
else
{
DBG_Printf(DBG_DDF, "failed to evaluate expression for %s/%s: %s, err: %s\n", qPrintable(r->item(RAttrUniqueId)->toString()), item->descriptor().suffix, qPrintable(expr), qPrintable(engine.errorString()));
}
}
return false;
}
/*! A general purpose function to map number values of a source item to a string which is stored in \p item .
The item->parseParameters() is expected to be an object (given in the device description file).
{"fn": "numtostring", "srcitem": suffix, "op": operator, "to": array}
- srcitem: the suffix of the source item which holds the numeric value
- op: (lt | le | eq | gt | ge) the operator used to match the 'to' array
- to: [number, string, [number, string], ...] an sorted array to map 'number -> string' with the given operator
Example: { "parse": {"fn": "numtostr", "srcitem": "state/airqualityppb", "op": "le", "to": [65, "good", 65535, "bad"] }
*/
bool parseNumericToString(Resource *r, ResourceItem *item, const deCONZ::ApsDataIndication &ind, const deCONZ::ZclFrame &zclFrame, const QVariant &parseParameters)
{
Q_UNUSED(ind)
Q_UNUSED(zclFrame)
bool result = false;
ResourceItem *srcItem = nullptr;
const auto map = parseParameters.toMap();
enum Op { OpNone, OpLessThan, OpLessEqual, OpEqual, OpGreaterThan, OpGreaterEqual };
Op op = OpNone;
if (!item->parseFunction()) // init on first call
{
if (item->descriptor().type != DataTypeString)
{
return result;
}
if (!map.contains(QLatin1String("to")) || !map.contains(QLatin1String("op")) || !map.contains(QLatin1String("srcitem")))
{
return result;
}
item->setParseFunction(parseNumericToString);
}
ResourceItemDescriptor rid;
if (!getResourceItemDescriptor(map["srcitem"].toString(), rid))
{
return result;
}
srcItem = r->item(rid.suffix);
if (!srcItem)
{
return result;
}
if (!(srcItem->needPushChange() || srcItem->needPushSet()))
{
return result; // only update if needed
}
{
const auto opString = map[QLatin1String("op")].toString();
if (opString == QLatin1String("le")) { op = OpLessEqual; }
else if (opString == QLatin1String("lt")) { op = OpLessThan; }
else if (opString == QLatin1String("eq")) { op = OpEqual; }
else if (opString == QLatin1String("ge")) { op = OpGreaterEqual; }
else if (opString == QLatin1String("gt")) { op = OpGreaterThan; }
else
{
return result;
}
}
const qint64 num = srcItem->toNumber();
const auto to = map["to"].toList();
if (to.size() & 1)
{
return result; // array size must be even
}
auto i = std::find_if(to.cbegin(), to.cend(), [num, op](const QVariant &var)
{
if (var.type() == QVariant::Double)
{
if (op == OpLessEqual) { return num <= var.toInt(); }
if (op == OpLessThan) { return num < var.toInt(); }
if (op == OpEqual) { return num == var.toInt(); }
if (op == OpGreaterEqual) { return num >= var.toInt(); }
if (op == OpGreaterThan) { return num > var.toInt(); }
}
return false;
});
if (i != to.cend())
{
i++; // point next element (string)
if (i != to.cend() && i->type() == QVariant::String)
{
const QString str = i->toString();
if (!str.isEmpty())
{
item->setValue(str);
item->setLastZclReport(srcItem->lastZclReport()); // Treat as report
result = true;
}
}
}
if (result)
{
DeviceJS_ResourceItemValueChanged(item);
}
return result;
}
/*! A generic function to parse ZCL values from read/report commands.
The item->parseParameters() is expected to be an object (given in the device description file).
{"fn": "zcl", "ep": endpoint, "cl": clusterId, "at": attributeId, "mf": manufacturerCode, "eval": expression}
- endpoint: (optional) 255 means any endpoint, 0 means auto selected from the related resource, defaults to 0
- clusterId: string hex value
- attributeId: string hex value or array of string hex values
- manufacturerCode: (optional) string hex value, defaults to "0x0000" for non manufacturer specific commands
- expression: Javascript expression to transform the raw value
Example: { "parse": {"fn": "zcl", "ep:" 1, "cl": "0x0402", "at": "0x0000", "eval": "Attr.val + R.item('config/offset').val" } }
*/
bool parseZclAttribute(Resource *r, ResourceItem *item, const deCONZ::ApsDataIndication &ind, const deCONZ::ZclFrame &zclFrame, const QVariant &parseParameters)
{
bool result = false;
if (!item->parseFunction()) // init on first call
{
Q_ASSERT(!parseParameters.isNull());
if (parseParameters.isNull())
{
return result;
}
ZCL_Param param = getZclParam(parseParameters.toMap());
Q_ASSERT(param.valid);
if (!param.valid)
{
return result;
}
if (param.hasCommandId && param.commandId != zclFrame.commandId())
{
return result;
}
else if (!param.hasCommandId && param.attributeCount == 0)
{
// catch all handler
}
else if (!param.hasCommandId && zclFrame.commandId() != deCONZ::ZclReadAttributesResponseId && zclFrame.commandId() != deCONZ::ZclReportAttributesId)
{
return result;
}
if (param.manufacturerCode != zclFrame.manufacturerCode())
{
return result;
}
if (param.endpoint == AutoEndpoint)
{
param.endpoint = resolveAutoEndpoint(r);
if (param.endpoint == AutoEndpoint)
{
return result;
}
}
item->setParseFunction(parseZclAttribute);
item->setZclProperties(param);
}
const auto &zclParam = item->zclParam();
if (ind.clusterId() != zclParam.clusterId)
{
return result;
}
if (!zclParam.hasCommandId && zclFrame.commandId() != deCONZ::ZclReadAttributesResponseId && zclFrame.commandId() != deCONZ::ZclReportAttributesId)
{
return result;
}
if (zclParam.manufacturerCode != zclFrame.manufacturerCode())
{
return result;
}
if (zclParam.endpoint < BroadcastEndpoint && zclParam.endpoint != ind.srcEndpoint())
{
return result;
}
if (zclParam.attributeCount == 0) // attributes are optional
{
if (zclParam.hasCommandId && zclParam.commandId != zclFrame.commandId())
{
return result;
}
if (evalZclFrame(r, item, ind, zclFrame, parseParameters))
{
result = true;
}
return result;
}
if (zclFrame.payload().isEmpty() && zclParam.attributeCount > 0)
{
return result;
}
QDataStream stream(zclFrame.payload());
stream.setByteOrder(QDataStream::LittleEndian);
while (!stream.atEnd())
{
quint16 attrId;
quint8 status;
quint8 dataType;
stream >> attrId;
if (zclFrame.commandId() == deCONZ::ZclReadAttributesResponseId)
{
stream >> status;
if (status != deCONZ::ZclSuccessStatus)
{
continue;
}
}
stream >> dataType;
deCONZ::ZclAttribute attr(attrId, dataType, QLatin1String(""), deCONZ::ZclReadWrite, true);
if (!attr.readFromStream(stream))
{
break;
}
if (evalZclAttribute(r, item, ind, zclFrame, attr, parseParameters))
{
if (zclFrame.commandId() == deCONZ::ZclReportAttributesId)
{
item->setLastZclReport(deCONZ::steadyTimeRef().ref);
}
result = true;
}
}
return result;
}
/*! A generic function to parse Tuya private cluster values from response/report commands.
The item->parseParameters() is expected to be an object (given in the device description file).
{"fn": "tuya", "dpid": datapointId, "eval": expression}
- datapointId: 1-255 the datapoint identifier (DPID) to extract
- expression: Javascript expression to transform the raw value
Example: { "parse": {"fn": "tuya", "dpid:" 1, "eval": "Attr.val + R.item('config/offset').val" } }
*/
bool parseTuyaData(Resource *r, ResourceItem *item, const deCONZ::ApsDataIndication &ind, const deCONZ::ZclFrame &zclFrame, const QVariant &parseParameters)
{
bool result = false;
if (ind.clusterId() != TUYA_CLUSTER_ID || !(zclFrame.commandId() == TY_DATA_REPORT || zclFrame.commandId() == TY_DATA_RESPONSE))
{
return result;
}
if (!item->parseFunction()) // init on first call
{
const auto map = parseParameters.toMap();
if (map.isEmpty())
{
return result;
}
if (!map.contains(QLatin1String("dpid")) || !map.contains(QLatin1String("eval")))
{
return result;
}
bool ok = false;
ZCL_Param param{};
param.attributes[0] = variantToUint(map.value(QLatin1String("dpid")), 255, &ok);
if (!ok)
{
return result;
}
param.valid = 1;
param.endpoint = ind.srcEndpoint();
param.clusterId = ind.clusterId();
param.attributeCount = 1;
item->setParseFunction(parseTuyaData);
item->setZclProperties(param);
}
quint16 seq;
quint8 dpid;
quint8 dataType;
quint16 dataLength;
quint8 zclDataType = 0;
const auto &zclParam = item->zclParam();
QDataStream stream(zclFrame.payload());
stream.setByteOrder(QDataStream::BigEndian); // tuya is big endian!
stream >> seq;
while (!stream.atEnd()) // a message can contain multiple datapoints
{
stream >> dpid;
stream >> dataType;
stream >> dataLength;
if (stream.status() != QDataStream::Ok)
{
return result;
}
deCONZ::NumericUnion num;
num.u64 = 0;
switch (dataType)
{
case TuyaDataTypeRaw:
case TuyaDataTypeString:
return result; // TODO implement?
case TuyaDataTypeBool:
{ stream >> num.u8; zclDataType = deCONZ::ZclBoolean; }
break;
case TuyaDataTypeEnum:
{ stream >> num.u8; zclDataType = deCONZ::Zcl8BitUint; }
break;
case TuyaDataTypeValue: // docs aren't clear, assume signed
{ stream >> num.s32; zclDataType = deCONZ::Zcl32BitInt; }
break;
case TuyaDataTypeBitmap:
{
switch (dataLength)
{
case 1: { stream >> num.u8; zclDataType = deCONZ::Zcl8BitUint; } break;
case 2: { stream >> num.u16; zclDataType = deCONZ::Zcl16BitUint; } break;
case 4: { stream >> num.u32; zclDataType = deCONZ::Zcl32BitUint; } break;
}
}
break;
default:
return result; // unkown datatype
}
if (dpid == zclParam.attributes[0])
{
// map datapoint into ZCL attribute
deCONZ::ZclAttribute attr(dpid, zclDataType, QLatin1String(""), deCONZ::ZclReadWrite, true);
if (zclDataType == deCONZ::Zcl32BitInt)
{
attr.setValue(qint64(num.s32));
}
else
{
attr.setValue(quint64(num.u32));
}
if (evalZclAttribute(r, item, ind, zclFrame, attr, parseParameters))
{
item->setLastZclReport(deCONZ::steadyTimeRef().ref);
result = true;
}
}
const char *rt = zclFrame.commandId() == TY_DATA_REPORT ? "REPORT" : "RESPONSE";
DBG_Printf(DBG_INFO, "TY_DATA_%s: seq %u, dpid: 0x%02X, type: 0x%02X, length: %u, val: %d\n",
rt, seq, dpid, dataType, dataLength, num.s32);
}
return result;
}
/*! A generic function to trigger Tuya device reporting all datapoints.
Important: This function should be attached to only one item!
The item->readParameters() is expected to be an object (given in the device description file).
{ "fn": "tuya"}
Example: { "read": {"fn": "tuya"} }
*/
static DA_ReadResult readTuyaAllData(const Resource *r, const ResourceItem *item, deCONZ::ApsController *apsCtrl, const QVariant &readParameters)
{
Q_UNUSED(item)
Q_UNUSED(readParameters);
DA_ReadResult result{};
// Workaround: dont't query too quickly, reports will only be send a few seconds after receiving the query command.
// The device report timer resets on each received query.
// Not the ideal solution since this is global across all devices but should do the trick for now.
static deCONZ::SteadyTimeRef lastReadGlobal{};
auto now = deCONZ::steadyTimeRef();
if (now - lastReadGlobal < deCONZ::TimeSeconds{15})
{
return result;
}
lastReadGlobal = now;
auto *rTop = r->parentResource() ? r->parentResource() : r;
const auto *extAddr = rTop->item(RAttrExtAddress);
const auto *nwkAddr = rTop->item(RAttrNwkAddress);
if (!extAddr || !nwkAddr)
{
return result;
}
deCONZ::ApsDataRequest req;
deCONZ::ZclFrame zclFrame;
req.setDstEndpoint(1); // TODO is this always 1? if not search simple descriptor for Tuya cluster
req.setTxOptions(deCONZ::ApsTxAcknowledgedTransmission);
req.setDstAddressMode(deCONZ::ApsNwkAddress);
req.dstAddress().setNwk(nwkAddr->toNumber());
req.dstAddress().setExt(extAddr->toNumber());
req.setClusterId(TUYA_CLUSTER_ID);
req.setProfileId(HA_PROFILE_ID);
req.setSrcEndpoint(1); // TODO
zclFrame.setSequenceNumber(zclNextSequenceNumber());
zclFrame.setCommandId(TY_DATA_QUERY);
zclFrame.setFrameControl(deCONZ::ZclFCClusterCommand |
deCONZ::ZclFCDirectionClientToServer |
deCONZ::ZclFCDisableDefaultResponse);
// no payload
{ // ZCL frame
QDataStream stream(&req.asdu(), QIODevice::WriteOnly);
stream.setByteOrder(QDataStream::LittleEndian);
zclFrame.writeToStream(stream);
}
result.isEnqueued = apsCtrl->apsdeDataRequest(req) == deCONZ::Success;
result.apsReqId = req.id();
result.sequenceNumber = zclFrame.sequenceNumber();
result.clusterId = req.clusterId();
return result;
}
/*! A generic function to write Tuya data.
The \p writeParameters is expected to contain one object (given in the device description file).
{ "fn": "tuya", "dpid": datapointId, "dt": dataType, "eval": expression }
- datapointId: number
- dataType: string hex value
bool 0x10
s32 value 0x2b
enum 0x30
8-bit bitmap 0x18
16-bit bitmap 0x19
32-bit bitmap 0x1b
- expression: to transform the item value
Example: "write": {"fn":"tuya", "dpid": 1, "dt": "0x10", "eval": "Item.val == 1"}
*/
bool writeTuyaData(const Resource *r, const ResourceItem *item, deCONZ::ApsController *apsCtrl, const QVariant &writeParameters)
{
Q_ASSERT(r);
Q_ASSERT(item);
Q_ASSERT(apsCtrl);
bool result = false;
const auto rParent = r->parentResource() ? r->parentResource() : r;
const auto *extAddr = rParent->item(RAttrExtAddress);
const auto *nwkAddr = rParent->item(RAttrNwkAddress);
if (!extAddr || !nwkAddr)
{
return result;
}
const auto map = writeParameters.toMap();
if (!map.contains(QLatin1String("dpid")) || !map.contains(QLatin1String("dt")) || !map.contains(QLatin1String("eval")))
{
return result;
}
bool ok = false;
const auto dpid = variantToUint(map.value(QLatin1String("dpid")), 255, &ok);
if (!ok)
{
return result;
}
const auto dataType = variantToUint(map.value("dt"), UINT8_MAX, &ok);
switch (dataType)
{
case deCONZ::ZclBoolean:
case deCONZ::Zcl32BitInt:
case deCONZ::Zcl8BitEnum:
case deCONZ::Zcl8BitBitMap:
case deCONZ::Zcl16BitBitMap:
case deCONZ::Zcl32BitBitMap:
break;
default:
return result; // unsupported datatype
}
const auto expr = map.value("eval").toString();
if (!ok || expr.isEmpty())
{
return result;
}
DBG_Printf(DBG_INFO, "writeTuyaData, dpid: 0x%02X, type: 0x%02X, expr: %s\n",
dpid & 0xFF, dataType & 0xFF, qPrintable(expr));
deCONZ::ApsDataRequest req;
deCONZ::ZclFrame zclFrame;
req.setDstEndpoint(1); // TODO is this always 1? if not search simple descriptor for Tuya cluster
req.setTxOptions(deCONZ::ApsTxAcknowledgedTransmission);
req.setDstAddressMode(deCONZ::ApsNwkAddress);
req.dstAddress().setNwk(nwkAddr->toNumber());
req.dstAddress().setExt(extAddr->toNumber());
req.setClusterId(TUYA_CLUSTER_ID);
req.setProfileId(HA_PROFILE_ID);
req.setSrcEndpoint(1); // TODO
zclFrame.setSequenceNumber(zclNextSequenceNumber());
zclFrame.setCommandId(TY_DATA_REQUEST);
zclFrame.setFrameControl(deCONZ::ZclFCClusterCommand |
deCONZ::ZclFCDirectionClientToServer |
deCONZ::ZclFCDisableDefaultResponse);
{ // payload
QVariant value;
DeviceJs &engine = *DeviceJs::instance();
engine.reset();
engine.setResource(r);
engine.setItem(item);
if (engine.evaluate(expr) == JsEvalResult::Ok)
{
value = engine.result();
DBG_Printf(DBG_INFO, "Tuya write expression: %s --> %s\n", qPrintable(expr), qPrintable(value.toString()));
}
else
{
DBG_Printf(DBG_INFO, "failed to evaluate Tuya write expression for %s/%s: %s, err: %s\n", qPrintable(r->item(RAttrUniqueId)->toString()), item->descriptor().suffix, qPrintable(expr), qPrintable(engine.errorString()));
return result;
}
if (!value.isValid())
{
return result;
}
QDataStream stream(&zclFrame.payload(), QIODevice::WriteOnly);
stream.setByteOrder(QDataStream::BigEndian); // Tuya is big endian
stream << quint16(req.id()); // use as sequence number
stream << quint8(dpid);
switch (dataType)
{
case deCONZ::ZclBoolean:
{
stream << quint8(TuyaDataTypeBool);
stream << quint16(1); // length
stream << quint8(value.toUInt());
}
break;
case deCONZ::Zcl32BitInt:
{
stream << quint8(TuyaDataTypeValue);
stream << quint16(4); // length
stream << qint32(value.toInt());
}
break;
case deCONZ::Zcl8BitEnum:
{
stream << quint8(TuyaDataTypeEnum);
stream << quint16(1); // length
stream << quint8(value.toUInt());
}
break;
case deCONZ::Zcl8BitBitMap:
{
stream << quint8(TuyaDataTypeBitmap);
stream << quint16(1); // length
stream << quint8(value.toUInt());
}
break;
case deCONZ::Zcl16BitBitMap:
{
stream << quint8(TuyaDataTypeBitmap);
stream << quint16(2); // length
stream << quint16(value.toUInt());
}
break;
case deCONZ::Zcl32BitBitMap:
{