src/app/ConcreteAttributePath.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2021 Project CHIP Authors
  *    All rights reserved.
  *
  *    Licensed under the Apache License, Version 2.0 (the "License");
  *    you may not use this file except in compliance with the License.
  *    You may obtain a copy of the License at
  *
  *        http://www.apache.org/licenses/LICENSE-2.0
  *
  *    Unless required by applicable law or agreed to in writing, software
  *    distributed under the License is distributed on an "AS IS" BASIS,
  *    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  *    See the License for the specific language governing permissions and
  *    limitations under the License.
  */

 #pragma once

 #include <app/ConcreteClusterPath.h>
 #include <app/util/basic-types.h>
 #include <lib/core/Optional.h>

 namespace chip {
 namespace app {

 /**
  * A representation of a concrete attribute path. This does not convey any list index specifiers.
  *
  * The expanded flag can be set to indicate that a concrete path was expanded from a wildcard
  * or group path.
  */
 struct ConcreteAttributePath : public ConcreteClusterPath
 {
     ConcreteAttributePath()
     {
         // Note: mExpanded is in the superclass, so we can't use a field
         // initializer.
         mExpanded = false;
     }

     ConcreteAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId) :
         ConcreteClusterPath(aEndpointId, aClusterId), mAttributeId(aAttributeId)
     {
         // Note: mExpanded is in the supercclass, so we can't use a field
         // initializer.
         mExpanded = false;
     }

     bool IsValid() const { return ConcreteClusterPath::HasValidIds() && IsValidAttributeId(mAttributeId); }

     bool operator==(const ConcreteAttributePath & aOther) const
     {
         return ConcreteClusterPath::operator==(aOther) && (mAttributeId == aOther.mAttributeId);
     }

     bool operator!=(const ConcreteAttributePath & aOther) const { return !(*this == aOther); }

     bool operator<(const ConcreteAttributePath & path) const
     {
         return (mEndpointId < path.mEndpointId) || ((mEndpointId == path.mEndpointId) && (mClusterId < path.mClusterId)) ||
             ((mEndpointId == path.mEndpointId) && (mClusterId == path.mClusterId) && (mAttributeId < path.mAttributeId));
     }

     AttributeId mAttributeId = 0;
 };

 /**
  * A representation of a concrete path as it appears in a Read or Subscribe
  * request after path expansion. This contains support for expressing an
  * optional list index.
  */
 struct ConcreteReadAttributePath : public ConcreteAttributePath
 {
     ConcreteReadAttributePath() {}

     ConcreteReadAttributePath(const ConcreteAttributePath & path) : ConcreteAttributePath(path) {}

     ConcreteReadAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId) :
         ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId)
     {}

     ConcreteReadAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId, uint16_t aListIndex) :
         ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId)
     {
         mListIndex.SetValue(aListIndex);
     }

     bool operator==(const ConcreteReadAttributePath & aOther) const = delete;
     bool operator!=(const ConcreteReadAttributePath & aOther) const = delete;
     bool operator<(const ConcreteReadAttributePath & aOther) const  = delete;

     Optional<uint16_t> mListIndex;
 };

 /**
  * A representation of a concrete path as it appears in a Report or Write
  * request after path expansion. This contains support for expressing list and list item-specific operations
  * like replace, update, delete and append.
  */
 struct ConcreteDataAttributePath : public ConcreteAttributePath
 {
     enum class ListOperation : uint8_t
     {
         NotList,     // Path points to an attribute that isn't a list.
         ReplaceAll,  // Path points to an attribute that is a list, indicating that the contents of the list should be replaced in
                      // its entirety.
         ReplaceItem, // Path points to a specific item in a list, indicating that that item should be replaced in its entirety.
         DeleteItem,  // Path points to a specific item in a list, indicating that that item should be deleted from the list.
         AppendItem   // Path points to an attribute that is a list, indicating that an item should be appended into the list.
     };

     ConcreteDataAttributePath() {}

     ConcreteDataAttributePath(const ConcreteAttributePath & path) : ConcreteAttributePath(path) {}

     ConcreteDataAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId) :
         ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId)
     {}

     ConcreteDataAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId,
                               const Optional<DataVersion> & aDataVersion) :
         ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId),
         mDataVersion(aDataVersion)
     {}

     ConcreteDataAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId, ListOperation aListOp,
                               uint16_t aListIndex) :
         ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId)
     {
         mListOp    = aListOp;
         mListIndex = aListIndex;
     }

     bool IsListOperation() const { return mListOp != ListOperation::NotList; }
     bool IsListItemOperation() const { return ((mListOp != ListOperation::NotList) && (mListOp != ListOperation::ReplaceAll)); }

     void LogPath() const
     {
         ChipLogProgress(DataManagement, "Concrete Attribute Path: (%d, " ChipLogFormatMEI ", " ChipLogFormatMEI ") ", mEndpointId,
                         ChipLogValueMEI(mClusterId), ChipLogValueMEI(mAttributeId));
     }

     bool MatchesConcreteAttributePath(const ConcreteAttributePath & aOther) const
     {
         return ConcreteAttributePath::operator==(aOther);
     }

     bool operator==(const ConcreteDataAttributePath & aOther) const
     {
         return ConcreteAttributePath::operator==(aOther) && (mListIndex == aOther.mListIndex) && (mListOp == aOther.mListOp) &&
             (mDataVersion == aOther.mDataVersion);
     }

     bool operator!=(const ConcreteDataAttributePath & aOther) const { return !(*this == aOther); }

     bool operator<(const ConcreteDataAttributePath & aOther) const = delete;

     //
     // This index is only valid if `mListOp` is set to a list item operation, i.e
     // ReplaceItem, DeleteItem or AppendItem. Otherwise, it is to be ignored.
     //
     uint16_t mListIndex                = 0;
     ListOperation mListOp              = ListOperation::NotList;
     Optional<DataVersion> mDataVersion = NullOptional;
 };

 } // namespace app
 } // namespace chip
	/*
	*
	* Copyright (c) 2021 Project CHIP Authors
	* All rights reserved.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#pragma once

	#include <app/ConcreteClusterPath.h>
	#include <app/util/basic-types.h>
	#include <lib/core/Optional.h>

	namespace chip {
	namespace app {

	/**
	* A representation of a concrete attribute path. This does not convey any list index specifiers.
	*
	* The expanded flag can be set to indicate that a concrete path was expanded from a wildcard
	* or group path.
	*/
	struct ConcreteAttributePath : public ConcreteClusterPath
	{
	ConcreteAttributePath()
	{
	// Note: mExpanded is in the superclass, so we can't use a field
	// initializer.
	mExpanded = false;
	}

	ConcreteAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId) :
	ConcreteClusterPath(aEndpointId, aClusterId), mAttributeId(aAttributeId)
	{
	// Note: mExpanded is in the supercclass, so we can't use a field
	// initializer.
	mExpanded = false;
	}

	bool IsValid() const { return ConcreteClusterPath::HasValidIds() && IsValidAttributeId(mAttributeId); }

	bool operator==(const ConcreteAttributePath & aOther) const
	{
	return ConcreteClusterPath::operator==(aOther) && (mAttributeId == aOther.mAttributeId);
	}

	bool operator!=(const ConcreteAttributePath & aOther) const { return !(*this == aOther); }

	bool operator<(const ConcreteAttributePath & path) const
	{
	return (mEndpointId < path.mEndpointId) \|\| ((mEndpointId == path.mEndpointId) && (mClusterId < path.mClusterId)) \|\|
	((mEndpointId == path.mEndpointId) && (mClusterId == path.mClusterId) && (mAttributeId < path.mAttributeId));
	}

	AttributeId mAttributeId = 0;
	};

	/**
	* A representation of a concrete path as it appears in a Read or Subscribe
	* request after path expansion. This contains support for expressing an
	* optional list index.
	*/
	struct ConcreteReadAttributePath : public ConcreteAttributePath
	{
	ConcreteReadAttributePath() {}

	ConcreteReadAttributePath(const ConcreteAttributePath & path) : ConcreteAttributePath(path) {}

	ConcreteReadAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId) :
	ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId)
	{}

	ConcreteReadAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId, uint16_t aListIndex) :
	ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId)
	{
	mListIndex.SetValue(aListIndex);
	}

	bool operator==(const ConcreteReadAttributePath & aOther) const = delete;
	bool operator!=(const ConcreteReadAttributePath & aOther) const = delete;
	bool operator<(const ConcreteReadAttributePath & aOther) const = delete;

	Optional<uint16_t> mListIndex;
	};

	/**
	* A representation of a concrete path as it appears in a Report or Write
	* request after path expansion. This contains support for expressing list and list item-specific operations
	* like replace, update, delete and append.
	*/
	struct ConcreteDataAttributePath : public ConcreteAttributePath
	{
	enum class ListOperation : uint8_t
	{
	NotList, // Path points to an attribute that isn't a list.
	ReplaceAll, // Path points to an attribute that is a list, indicating that the contents of the list should be replaced in
	// its entirety.
	ReplaceItem, // Path points to a specific item in a list, indicating that that item should be replaced in its entirety.
	DeleteItem, // Path points to a specific item in a list, indicating that that item should be deleted from the list.
	AppendItem // Path points to an attribute that is a list, indicating that an item should be appended into the list.
	};

	ConcreteDataAttributePath() {}

	ConcreteDataAttributePath(const ConcreteAttributePath & path) : ConcreteAttributePath(path) {}

	ConcreteDataAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId) :
	ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId)
	{}

	ConcreteDataAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId,
	const Optional<DataVersion> & aDataVersion) :
	ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId),
	mDataVersion(aDataVersion)
	{}

	ConcreteDataAttributePath(EndpointId aEndpointId, ClusterId aClusterId, AttributeId aAttributeId, ListOperation aListOp,
	uint16_t aListIndex) :
	ConcreteAttributePath(aEndpointId, aClusterId, aAttributeId)
	{
	mListOp = aListOp;
	mListIndex = aListIndex;
	}

	bool IsListOperation() const { return mListOp != ListOperation::NotList; }
	bool IsListItemOperation() const { return ((mListOp != ListOperation::NotList) && (mListOp != ListOperation::ReplaceAll)); }

	void LogPath() const
	{
	ChipLogProgress(DataManagement, "Concrete Attribute Path: (%d, " ChipLogFormatMEI ", " ChipLogFormatMEI ") ", mEndpointId,
	ChipLogValueMEI(mClusterId), ChipLogValueMEI(mAttributeId));
	}

	bool MatchesConcreteAttributePath(const ConcreteAttributePath & aOther) const
	{
	return ConcreteAttributePath::operator==(aOther);
	}

	bool operator==(const ConcreteDataAttributePath & aOther) const
	{
	return ConcreteAttributePath::operator==(aOther) && (mListIndex == aOther.mListIndex) && (mListOp == aOther.mListOp) &&
	(mDataVersion == aOther.mDataVersion);
	}

	bool operator!=(const ConcreteDataAttributePath & aOther) const { return !(*this == aOther); }

	bool operator<(const ConcreteDataAttributePath & aOther) const = delete;

	//
	// This index is only valid if `mListOp` is set to a list item operation, i.e
	// ReplaceItem, DeleteItem or AppendItem. Otherwise, it is to be ignored.
	//
	uint16_t mListIndex = 0;
	ListOperation mListOp = ListOperation::NotList;
	Optional<DataVersion> mDataVersion = NullOptional;
	};

	} // namespace app
	} // namespace chip