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

 /*
  *
  *    Copyright (c) 2021-2022 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/AttributeReportBuilder.h>
 #include <app/AttributeValueDecoder.h>
 #include <app/AttributeValueEncoder.h>
 #include <lib/core/CHIPError.h>

 /**
  * Callback class that clusters can implement in order to interpose custom
  * attribute-handling logic.  An AttributeAccessInterface instance is associated
  * with some specific cluster.  A single instance may be used for a specific
  * endpoint or for all endpoints.
  *
  * Instances of AttributeAccessInterface that are registered via
  * registerAttributeAccessOverride will be consulted before taking the normal
  * attribute access codepath and can use that codepath as a fallback if desired.
  */
 namespace chip {
 namespace app {

 class AttributeAccessInterface
 {
 public:
     /**
      * aEndpointId can be Missing to indicate that this object is meant to be
      * used with all endpoints.
      */
     AttributeAccessInterface(Optional<EndpointId> aEndpointId, ClusterId aClusterId) :
         mEndpointId(aEndpointId), mClusterId(aClusterId)
     {}
     virtual ~AttributeAccessInterface() {}

     /**
      * Callback for reading attributes.
      *
      * @param [in] aPath indicates which exact data is being read.
      * @param [in] aEncoder the AttributeValueEncoder to use for encoding the
      *             data.
      *
      * The implementation can do one of three things:
      *
      * 1) Return a failure.  This is treated as a failed read and the error is
      *    returned to the client, by converting it to a StatusIB.
      * 2) Return success and attempt to encode data using aEncoder.  The data is
      *    returned to the client.
      * 3) Return success and not attempt to encode any data using aEncoder.  In
      *    this case, Ember attribute access will happen for the read. This may
      *    involve reading from the attribute store or external attribute
      *    callbacks.
      */
     virtual CHIP_ERROR Read(const ConcreteReadAttributePath & aPath, AttributeValueEncoder & aEncoder) = 0;

     /**
      * Callback for writing attributes.
      *
      * @param [in] aPath indicates which exact data is being written.
      * @param [in] aDecoder the AttributeValueDecoder to use for decoding the
      *             data.
      *
      * The implementation can do one of three things:
      *
      * 1) Return a failure.  This is treated as a failed write and the error is
      *    sent to the client, by converting it to a StatusIB.
      * 2) Return success and attempt to decode from aDecoder.  This is
      *    treated as a successful write.
      * 3) Return success and not attempt to decode from aDecoder.  In
      *    this case, Ember attribute access will happen for the write. This may
      *    involve writing to the attribute store or external attribute
      *    callbacks.
      */
     virtual CHIP_ERROR Write(const ConcreteDataAttributePath & aPath, AttributeValueDecoder & aDecoder) { return CHIP_NO_ERROR; }

     /**
      * Indicates the start of a series of list operations. This function will be called before the first Write operation of a series
      * of consequence attribute data of the same attribute.
      *
      * 1) This function will be called if the client tries to set a nullable list attribute to null.
      * 2) This function will only be called once for a series of consequent attribute data (regardless the kind of list operation)
      * of the same attribute.
      *
      * @param [in] aPath indicates the path of the modified list.
      */
     virtual void OnListWriteBegin(const ConcreteAttributePath & aPath) {}

     /**
      * Indicates the end of a series of list operations. This function will be called after the last Write operation of a series
      * of consequence attribute data of the same attribute.
      *
      * 1) This function will be called if the client tries to set a nullable list attribute to null.
      * 2) This function will only be called once for a series of consequent attribute data (regardless the kind of list operation)
      * of the same attribute.
      * 3) When aWriteWasSuccessful is true, the data written must be consistent or the list is untouched.
      *
      * @param [in] aPath indicates the path of the modified list
      * @param [in] aWriteWasSuccessful indicates whether the delivered list is complete.
      *
      */
     virtual void OnListWriteEnd(const ConcreteAttributePath & aPath, bool aWriteWasSuccessful) {}

     /**
      * Mechanism for keeping track of a chain of AttributeAccessInterfaces.
      */
     void SetNext(AttributeAccessInterface * aNext) { mNext = aNext; }
     AttributeAccessInterface * GetNext() const { return mNext; }

     /**
      * Check whether a this AttributeAccessInterface is relevant for a
      * particular endpoint+cluster.  An AttributeAccessInterface will be used
      * for a read from a particular cluster only when this function returns
      * true.
      */
     bool Matches(EndpointId aEndpointId, ClusterId aClusterId) const
     {
         return (!mEndpointId.HasValue() || mEndpointId.Value() == aEndpointId) && mClusterId == aClusterId;
     }

     /**
      * Check whether an AttributeAccessInterface is relevant for a particular
      * specific endpoint.  This is used to clean up overrides registered for an
      * endpoint that becomes disabled.
      */
     bool MatchesEndpoint(EndpointId aEndpointId) const { return mEndpointId.HasValue() && mEndpointId.Value() == aEndpointId; }

     /**
      * Check whether another AttributeAccessInterface wants to handle the same set of
      * attributes as we do.
      */
     bool Matches(const AttributeAccessInterface & aOther) const
     {
         return mClusterId == aOther.mClusterId &&
             (!mEndpointId.HasValue() || !aOther.mEndpointId.HasValue() || mEndpointId.Value() == aOther.mEndpointId.Value());
     }

 private:
     Optional<EndpointId> mEndpointId;
     ClusterId mClusterId;
     AttributeAccessInterface * mNext = nullptr;
 };

 } // namespace app
 } // namespace chip
	/*
	*
	* Copyright (c) 2021-2022 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/AttributeReportBuilder.h>
	#include <app/AttributeValueDecoder.h>
	#include <app/AttributeValueEncoder.h>
	#include <lib/core/CHIPError.h>

	/**
	* Callback class that clusters can implement in order to interpose custom
	* attribute-handling logic. An AttributeAccessInterface instance is associated
	* with some specific cluster. A single instance may be used for a specific
	* endpoint or for all endpoints.
	*
	* Instances of AttributeAccessInterface that are registered via
	* registerAttributeAccessOverride will be consulted before taking the normal
	* attribute access codepath and can use that codepath as a fallback if desired.
	*/
	namespace chip {
	namespace app {

	class AttributeAccessInterface
	{
	public:
	/**
	* aEndpointId can be Missing to indicate that this object is meant to be
	* used with all endpoints.
	*/
	AttributeAccessInterface(Optional<EndpointId> aEndpointId, ClusterId aClusterId) :
	mEndpointId(aEndpointId), mClusterId(aClusterId)
	{}
	virtual ~AttributeAccessInterface() {}

	/**
	* Callback for reading attributes.
	*
	* @param [in] aPath indicates which exact data is being read.
	* @param [in] aEncoder the AttributeValueEncoder to use for encoding the
	* data.
	*
	* The implementation can do one of three things:
	*
	* 1) Return a failure. This is treated as a failed read and the error is
	* returned to the client, by converting it to a StatusIB.
	* 2) Return success and attempt to encode data using aEncoder. The data is
	* returned to the client.
	* 3) Return success and not attempt to encode any data using aEncoder. In
	* this case, Ember attribute access will happen for the read. This may
	* involve reading from the attribute store or external attribute
	* callbacks.
	*/
	virtual CHIP_ERROR Read(const ConcreteReadAttributePath & aPath, AttributeValueEncoder & aEncoder) = 0;

	/**
	* Callback for writing attributes.
	*
	* @param [in] aPath indicates which exact data is being written.
	* @param [in] aDecoder the AttributeValueDecoder to use for decoding the
	* data.
	*
	* The implementation can do one of three things:
	*
	* 1) Return a failure. This is treated as a failed write and the error is
	* sent to the client, by converting it to a StatusIB.
	* 2) Return success and attempt to decode from aDecoder. This is
	* treated as a successful write.
	* 3) Return success and not attempt to decode from aDecoder. In
	* this case, Ember attribute access will happen for the write. This may
	* involve writing to the attribute store or external attribute
	* callbacks.
	*/
	virtual CHIP_ERROR Write(const ConcreteDataAttributePath & aPath, AttributeValueDecoder & aDecoder) { return CHIP_NO_ERROR; }

	/**
	* Indicates the start of a series of list operations. This function will be called before the first Write operation of a series
	* of consequence attribute data of the same attribute.
	*
	* 1) This function will be called if the client tries to set a nullable list attribute to null.
	* 2) This function will only be called once for a series of consequent attribute data (regardless the kind of list operation)
	* of the same attribute.
	*
	* @param [in] aPath indicates the path of the modified list.
	*/
	virtual void OnListWriteBegin(const ConcreteAttributePath & aPath) {}

	/**
	* Indicates the end of a series of list operations. This function will be called after the last Write operation of a series
	* of consequence attribute data of the same attribute.
	*
	* 1) This function will be called if the client tries to set a nullable list attribute to null.
	* 2) This function will only be called once for a series of consequent attribute data (regardless the kind of list operation)
	* of the same attribute.
	* 3) When aWriteWasSuccessful is true, the data written must be consistent or the list is untouched.
	*
	* @param [in] aPath indicates the path of the modified list
	* @param [in] aWriteWasSuccessful indicates whether the delivered list is complete.
	*
	*/
	virtual void OnListWriteEnd(const ConcreteAttributePath & aPath, bool aWriteWasSuccessful) {}

	/**
	* Mechanism for keeping track of a chain of AttributeAccessInterfaces.
	*/
	void SetNext(AttributeAccessInterface * aNext) { mNext = aNext; }
	AttributeAccessInterface * GetNext() const { return mNext; }

	/**
	* Check whether a this AttributeAccessInterface is relevant for a
	* particular endpoint+cluster. An AttributeAccessInterface will be used
	* for a read from a particular cluster only when this function returns
	* true.
	*/
	bool Matches(EndpointId aEndpointId, ClusterId aClusterId) const
	{
	return (!mEndpointId.HasValue() \|\| mEndpointId.Value() == aEndpointId) && mClusterId == aClusterId;
	}

	/**
	* Check whether an AttributeAccessInterface is relevant for a particular
	* specific endpoint. This is used to clean up overrides registered for an
	* endpoint that becomes disabled.
	*/
	bool MatchesEndpoint(EndpointId aEndpointId) const { return mEndpointId.HasValue() && mEndpointId.Value() == aEndpointId; }

	/**
	* Check whether another AttributeAccessInterface wants to handle the same set of
	* attributes as we do.
	*/
	bool Matches(const AttributeAccessInterface & aOther) const
	{
	return mClusterId == aOther.mClusterId &&
	(!mEndpointId.HasValue() \|\| !aOther.mEndpointId.HasValue() \|\| mEndpointId.Value() == aOther.mEndpointId.Value());
	}

	private:
	Optional<EndpointId> mEndpointId;
	ClusterId mClusterId;
	AttributeAccessInterface * mNext = nullptr;
	};

	} // namespace app
	} // namespace chip