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device_descriptions.h
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device_descriptions.h
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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.
*
*/
#ifndef DEVICE_DESCRIPTIONS_H
#define DEVICE_DESCRIPTIONS_H
#include <QObject>
#include <QVariantMap>
#include "resource.h"
#include "sensor.h"
#define SUBDEVICE_DEFAULT_ORDER 200
class Event;
class DDF_ZclReport
{
public:
quint32 reportableChange = 0;
quint16 attributeId = 0;
quint16 minInterval = 0;
quint16 maxInterval = 0;
quint16 manufacturerCode = 0;
quint8 direction = 0;
quint8 dataType = 0;
bool valid = false;
};
inline bool operator==(const DDF_ZclReport &a, const DDF_ZclReport &b)
{
return memcmp(&a, &b, sizeof(a)) == 0;
}
inline bool operator!=(const DDF_ZclReport &a, const DDF_ZclReport &b) { return !(a == b); }
inline bool isValid(const DDF_ZclReport &rep) { return rep.valid; }
class DDF_Binding
{
public:
union
{
quint16 dstGroup;
quint64 dstExtAddress;
};
quint16 clusterId;
quint8 srcEndpoint;
quint8 dstEndpoint;
quint8 configGroup;
struct
{
unsigned int isGroupBinding : 1;
unsigned int isUnicastBinding : 1;
unsigned int pad : 6 + 24;
};
std::vector<DDF_ZclReport> reporting;
};
inline bool isValid(const DDF_Binding &bnd) { return (bnd.isUnicastBinding || bnd.isGroupBinding) && bnd.srcEndpoint != 0; }
inline bool operator==(const DDF_Binding &a, const DDF_Binding &b)
{
if (a.clusterId == b.clusterId &&
a.srcEndpoint == b.srcEndpoint &&
a.reporting == b.reporting)
{
if (a.isUnicastBinding && b.isUnicastBinding &&
a.dstExtAddress == b.dstExtAddress &&
a.dstEndpoint == b.dstEndpoint)
{
return true;
}
if (a.isGroupBinding && b.isGroupBinding && a.dstGroup == b.dstGroup)
{
return true;
}
}
return false;
}
inline bool operator!=(const DDF_Binding &a, const DDF_Binding &b) { return !(a == b); }
class DeviceDescription
{
public:
bool isValid() const { return !manufacturerNames.isEmpty() && !modelIds.empty() && !subDevices.empty(); }
QStringList modelIds;
QStringList manufacturerNames; // as reported in Basic cluster
QString vendor; // optional: friendly name of manufacturer
QString product;
QString status;
int handle = -1; // index in container
int sleeper = -1;
class Item
{
public:
using Handle = quint32;
enum Constants {
NoRefreshInterval = -1,
InvalidItemHandle = 0
};
Item()
{
flags = 0;
}
bool isValid() const { return !name.empty() && descriptor.isValid(); }
bool operator==(const Item &other) const
{
return flags == other.flags &&
handle == other.handle &&
refreshInterval == other.refreshInterval &&
name == other.name &&
descriptor.suffix == other.descriptor.suffix &&
parseParameters == other.parseParameters &&
readParameters == other.readParameters &&
writeParameters == other.writeParameters &&
defaultValue == other.defaultValue &&
description == other.description;
}
bool operator!=(const Item &other) const { return !(*this == other); }
Handle handle = InvalidItemHandle;
union
{
struct // 16 bits flags
{
unsigned short isGenericRead : 1;
unsigned short isGenericWrite : 1;
unsigned short isGenericParse : 1;
unsigned short isPublic : 1;
unsigned short isStatic : 1;
unsigned short isImplicit : 1;
unsigned short isManaged : 1; // managed internally
unsigned short awake : 1;
unsigned short pad : 8;
};
unsigned short flags;
};
int refreshInterval = NoRefreshInterval;
BufString<64> name; // todo global cache
ResourceItemDescriptor descriptor;
QVariant parseParameters;
QVariant readParameters;
QVariant writeParameters;
QVariant defaultValue;
QString description;
};
class SubDevice
{
public:
bool isValid() const { return !type.isEmpty() && !restApi.isEmpty() && !uniqueId.isEmpty() && !items.empty(); }
QString type;
QString restApi;
QStringList uniqueId; // [ "$address.ext", "01", "0405"],
std::vector<Item> items;
SensorFingerprint fingerPrint;
};
QString path;
std::vector<SubDevice> subDevices;
std::vector<DDF_Binding> bindings;
};
class DDF_SubDeviceDescriptor
{
public:
QString type;
QString name;
QString restApi;
QStringList uniqueId;
std::vector<const char*> items; // RAttrName, etc.
int order;
};
inline bool isValid(const DDF_SubDeviceDescriptor &sub)
{
return !sub.type.isEmpty() && !sub.name.isEmpty() && !sub.restApi.isEmpty() && !sub.uniqueId.isEmpty();
}
struct DDF_FunctionDescriptor
{
struct Parameter
{
struct // 16 bits flags
{
unsigned int isOptional : 1;
unsigned int supportsArray : 1;
unsigned int isHexString : 1;
unsigned int pad : 5;
};
QString name;
QString key;
QString description;
ApiDataType dataType = DataTypeUnknown;
QVariant defaultValue = 0;
};
QString name;
QString description;
std::vector<Parameter> parameters;
};
class DeviceDescriptionsPrivate;
using DDF_Items = std::vector<DeviceDescription::Item>;
class DeviceDescriptions : public QObject
{
Q_OBJECT
public:
explicit DeviceDescriptions(QObject *parent = nullptr);
~DeviceDescriptions();
void setEnabledStatusFilter(const QStringList &filter);
const QStringList &enabledStatusFilter() const;
const DeviceDescription &get(const Resource *resource) const;
void put(const DeviceDescription &ddf);
const DeviceDescription &load(const QString &path);
QString constantToString(const QString &constant) const;
QString stringToConstant(const QString &str) const;
QStringList constants(const QString &prefix = QString()) const;
const DDF_Items &genericItems() const;
const DeviceDescription::Item &getItem(const ResourceItem *item) const;
const DeviceDescription::Item &getGenericItem(const char *suffix) const;
const std::vector<DDF_FunctionDescriptor> &getParseFunctions() const;
const std::vector<DDF_FunctionDescriptor> &getReadFunctions() const;
const std::vector<DDF_SubDeviceDescriptor> &getSubDevices() const;
static DeviceDescriptions *instance();
public Q_SLOTS:
void handleEvent(const Event &event);
void readAll();
Q_SIGNALS:
void eventNotify(const Event&); //! Emitted \p Event needs to be enqueued in a higher layer.
void loaded();
private:
void handleDDFInitRequest(const Event &event);
Q_DECLARE_PRIVATE_D(d_ptr2, DeviceDescriptions)
DeviceDescriptionsPrivate *d_ptr2 = nullptr;
};
#define DDF_AnnoteZclParse(resource, item, ep, cl, at, eval) \
DDF_AnnoteZclParse1(__LINE__, __FILE__, resource, item, ep, cl, at, eval)
void DDF_AnnoteZclParse1(int line, const char* file, const Resource *resource, ResourceItem *item, quint8 ep, quint16 clusterId, quint16 attributeId, const char *eval);
const DeviceDescription::Item &DDF_GetItem(const ResourceItem *item);
Resource::Handle R_CreateResourceHandle(const Resource *r, size_t containerIndex);
#endif // DEVICEDESCRIPTIONS_H