src/app/util/attribute-storage.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /**
  *
  *    Copyright (c) 2024 Project CHIP Authors
  *
  *    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/AttributeAccessInterface.h>
 #include <app/util/af-types.h>
 #include <app/util/att-storage.h>
 #include <app/util/attribute-metadata.h>
 #include <app/util/config.h>
 #include <app/util/endpoint-config-defines.h>
 #include <lib/support/CodeUtils.h>

 #include <app-common/zap-generated/attribute-type.h>
 #include <app-common/zap-generated/cluster-objects.h>

 // NOTE: direct include here even though app/util/config.h is the public header,
 //       because MAX_ENDPOINT_COUNT needs FIXED_ENDPOINT_COUNT definitions.
 #include <zap-generated/endpoint_config.h>

 static constexpr uint16_t kEmberInvalidEndpointIndex = 0xFFFF;

 // If we have fixed number of endpoints, then max is the same.
 #ifdef FIXED_ENDPOINT_COUNT
 #define MAX_ENDPOINT_COUNT (FIXED_ENDPOINT_COUNT + CHIP_DEVICE_CONFIG_DYNAMIC_ENDPOINT_COUNT)
 #endif

 #define DECLARE_DYNAMIC_ENDPOINT(endpointName, clusterList)                                                                        \
     EmberAfEndpointType endpointName = { clusterList, ArraySize(clusterList), 0 }

 #define DECLARE_DYNAMIC_CLUSTER_LIST_BEGIN(clusterListName) EmberAfCluster clusterListName[] = {

 // The role argument should be used to determine whether cluster works as a server or a client.
 // It can be assigned with the ZAP_CLUSTER_MASK(SERVER) or ZAP_CLUSTER_MASK(CLUSTER) values.
 #define DECLARE_DYNAMIC_CLUSTER(clusterId, clusterAttrs, role, incomingCommands, outgoingCommands)                                 \
     {                                                                                                                              \
         clusterId, clusterAttrs, ArraySize(clusterAttrs), 0, role, NULL, incomingCommands, outgoingCommands                        \
     }

 #define DECLARE_DYNAMIC_CLUSTER_LIST_END }

 #define DECLARE_DYNAMIC_ATTRIBUTE_LIST_BEGIN(attrListName) EmberAfAttributeMetadata attrListName[] = {

 #define DECLARE_DYNAMIC_ATTRIBUTE_LIST_END()                                                                                       \
     {                                                                                                                              \
         ZAP_EMPTY_DEFAULT(), 0xFFFD, 2, ZAP_TYPE(INT16U), ZAP_ATTRIBUTE_MASK(EXTERNAL_STORAGE)                                     \
     } /* cluster revision */                                                                                                       \
     }

 #define DECLARE_DYNAMIC_ATTRIBUTE(attId, attType, attSizeBytes, attrMask)                                                          \
     {                                                                                                                              \
         ZAP_EMPTY_DEFAULT(), attId, attSizeBytes, ZAP_TYPE(attType), attrMask | ZAP_ATTRIBUTE_MASK(EXTERNAL_STORAGE)               \
     }

 /**
  * @brief locate attribute metadata
  *
  * Function returns pointer to the attribute metadata structure,
  * or NULL if attribute was not found.
  *
  * @param endpoint Zigbee endpoint number.
  * @param clusterId Cluster ID of the sought cluster.
  * @param attributeId Attribute ID of the sought attribute.
  *
  * @return Returns pointer to the attribute metadata location.
  */
 const EmberAfAttributeMetadata * emberAfLocateAttributeMetadata(chip::EndpointId endpoint, chip::ClusterId clusterId,
                                                                 chip::AttributeId attributeId);

 /**
  * @brief Returns true if endpoint contains the ZCL server with specified id.
  *
  * This function returns true if
  * the endpoint contains server of a given cluster.
  */
 bool emberAfContainsServer(chip::EndpointId endpoint, chip::ClusterId clusterId);

 /**
  * @brief Returns true if endpoint of given index contains the ZCL server with specified id.
  *
  * This function returns true if
  * the endpoint of given index contains server of a given cluster.
  * If this function is used with a manufacturer specific clusterId
  * then this will return the first cluster that it finds in the Cluster table.
  * and will not return any other clusters that share that id.
  */
 bool emberAfContainsServerFromIndex(uint16_t index, chip::ClusterId clusterId);

 /**
  * @brief Returns true if endpoint contains the ZCL client with specified id.
  *
  * This function returns true if
  * the endpoint contains client of a given cluster.
  */
 bool emberAfContainsClient(chip::EndpointId endpoint, chip::ClusterId clusterId);

 /**
  * @brief macro that returns size of attribute in bytes.
  *
  * @param metadata EmberAfAttributeMetadata* to consider.
  */
 #define emberAfAttributeSize(metadata) ((metadata)->size)

 /**
  * Returns the index of a given endpoint.  Will return 0xFFFF if this is not a
  * valid endpoint id or if the endpoint is disabled.
  */
 uint16_t emberAfIndexFromEndpoint(chip::EndpointId endpoint);

 /**
  * @brief Returns parent endpoint for a given endpoint index
  */
 chip::EndpointId emberAfParentEndpointFromIndex(uint16_t index);

 /**
  *  @brief Returns the index of the given endpoint in the list of all endpoints that might support the given cluster server.
  *
  * Returns kEmberInvalidEndpointIndex if the given endpoint does not support the
  * given cluster or if the given endpoint is disabled.
  *
  * This function always returns the same index for a given endpointId instance, fixed or dynamic.
  *
  * The return index for fixed endpoints will range from 0 to (fixedClusterServerEndpointCount - 1),
  * For dynamic endpoints the indexing assumes that any dynamic endpoint could start supporting
  * the given server cluster and their index will range from fixedClusterServerEndpointCount to
  * (fixedClusterServerEndpointCount + CHIP_DEVICE_CONFIG_DYNAMIC_ENDPOINT_COUNT - 1).
  *
  * For example, if a device has 4 fixed endpoints (ids 0-3) and 2 dynamic
  * endpoints, and cluster X is supported on endpoints 1 and 3, then
  * fixedClusterServerEndpointCount should be 2 and
  *
  * 1) emberAfGetClusterServerEndpointIndex(0, X) returns kEmberInvalidEndpointIndex
  * 2) emberAfGetClusterServerEndpointIndex(1, X) returns 0
  * 3) emberAfGetClusterServerEndpointIndex(2, X) returns kEmberInvalidEndpointIndex
  * 4) emberAfGetClusterServerEndpointIndex(3, X) returns 1

  * The Dynamic endpoints are placed after the fixed ones;
  * therefore their return index will always be >= to fixedClusterServerEndpointCount
  *
  * If a dynamic endpoint, supporting cluster X, is defined to dynamic index 1 with endpoint id 7,
  * (via emberAfSetDynamicEndpoint(1, 7, ...))
  * then emberAfGetClusterServerEndpointIndex(7, X) returns 3 (fixedClusterServerEndpointCount{2} + DynamicEndpointIndex {1}).
  *
  * If now a second dynamic endpoint, also supporting cluster X, is defined to dynamic index 0
  * with endpoint id 9  (via emberAfSetDynamicEndpoint(0, 9, ...)),
  * emberAfGetClusterServerEndpointIndex(9, X) returns 2. (fixedClusterServerEndpointCount{2} + DynamicEndpointIndex {0}).
  * and emberAfGetClusterServerEndpointIndex(7, X) still returns 3
  *
  * @param endpoint Endpoint number
  * @param cluster Id the of the Cluster server you are interrested on
  * @param fixedClusterServerEndpointCount The number of fixed endpoints containing this cluster server.  Typically one of the
  MATTER_DM_*_CLUSTER_SERVER_ENDPOINT_COUNT constants.
  */
 uint16_t emberAfGetClusterServerEndpointIndex(chip::EndpointId endpoint, chip::ClusterId cluster,
                                               uint16_t fixedClusterServerEndpointCount);

 /**
  * Returns the pointer to the data version storage for the given endpoint and
  * cluster.  Can return null in the following cases:
  *
  * 1) There is no such endpoint.
  * 2) There is no such server cluster on the given endpoint.
  * 3) No storage for a data version was provided for the endpoint.
  */
 chip::DataVersion * emberAfDataVersionStorage(const chip::app::ConcreteClusterPath & aConcreteClusterPath);

 /**
  * @brief Returns the number of pre-compiled endpoints.
  */
 uint16_t emberAfFixedEndpointCount();

 /**
  * Register an attribute access override.  It will remain registered until the
  * endpoint it's registered for is disabled (or until shutdown if it's
  * registered for all endpoints) or until it is explicitly unregistered.
  * Registration will fail if there is an already-registered override for the
  * same set of attributes.
  *
  * @return false if there is an existing override that the new one would
  *               conflict with.  In this case the override is not registered.
  * @return true if registration was successful.
  */
 bool registerAttributeAccessOverride(chip::app::AttributeAccessInterface * attrOverride);

 /**
  * Unregister an attribute access override (for example if the object
  * implementing AttributeAccessInterface is being destroyed).
  */
 void unregisterAttributeAccessOverride(chip::app::AttributeAccessInterface * attrOverride);

 /**
  * Get the semantic tags of the endpoint.
  * Fills in the provided SemanticTagStruct with tag at index `index` if there is one,
  * or returns CHIP_ERROR_NOT_FOUND if the index is out of range for the list of tag,
  * or returns CHIP_ERROR_NOT_FOUND if the endpoint is invalid.
  * @param endpoint The target endpoint.
  * @param index The index of the tag, with 0 representing the first tag.
  * @param tag  The SemanticTagStruct is filled.
  */
 CHIP_ERROR GetSemanticTagForEndpointAtIndex(chip::EndpointId endpoint, size_t index,
                                             chip::app::Clusters::Descriptor::Structs::SemanticTagStruct::Type & tag);

 //
 // Override the tag list current associated with an endpoint with a user-provided list. The buffers backing
 // that list have to live as long as the endpoint is enabled.
 //
 // NOTE: It is the application's responsibility to free the existing list that is being replaced if needed.
 //
 CHIP_ERROR SetTagList(chip::EndpointId endpoint,
                       chip::Span<const chip::app::Clusters::Descriptor::Structs::SemanticTagStruct::Type> tagList);

 // Returns number of clusters put into the passed cluster list
 // for the given endpoint and client/server polarity
 uint8_t emberAfGetClustersFromEndpoint(chip::EndpointId endpoint, chip::ClusterId * clusterList, uint8_t listLen, bool server);

 // Note the difference in for server filtering.
 // This method will return the cluster count for BOTH client and server
 // and those do NOT work with NthCluster/NthClusterId
 //  - Use emberAfGetClustersFromEndpoint()  with emberAfGetNthCluster() emberAfGetNthClusterId()
 //
 uint8_t emberAfGetClusterCountForEndpoint(chip::EndpointId endpoint);

 // Check if a cluster is implemented or not. If yes, the cluster is returned.
 //
 // mask = 0 -> find either client or server
 // mask = CLUSTER_MASK_CLIENT -> find client
 // mask = CLUSTER_MASK_SERVER -> find server
 //
 // If a pointer to an index is provided, it will be updated to point to the relative index of the cluster
 // within the set of clusters that match the mask criteria.
 //
 const EmberAfCluster * emberAfFindClusterInType(const EmberAfEndpointType * endpointType, chip::ClusterId clusterId,
                                                 EmberAfClusterMask mask, uint8_t * index = nullptr);

 // Initial configuration
 void emberAfEndpointConfigure();

 // Register a dynamic endpoint. This involves registering descriptors that describe
 // the composition of the endpoint (encapsulated in the 'ep' argument) as well as providing
 // storage for data versions.
 //
 // dataVersionStorage.size() needs to be at least as large as the number of
 // server clusters on this endpoint.  If it's not, the endpoint will not be able
 // to store data versions, which may break consumers.
 //
 // The memory backing dataVersionStorage needs to remain allocated until this dynamic
 // endpoint is cleared.
 //
 // An optional device type list can be passed in as well. If provided, the memory
 // backing the list needs to remain allocated until this dynamic endpoint is cleared.
 //
 // An optional parent endpoint id should be passed for child endpoints of composed device.
 //
 // Returns  CHIP_NO_ERROR                   No error.
 //          CHIP_ERROR_NO_MEMORY            MAX_ENDPOINT_COUNT is reached or when no storage is left for clusters
 //          CHIP_ERROR_INVALID_ARGUMENT     The EndpointId value passed is kInvalidEndpointId
 //          CHIP_ERROR_ENDPOINT_EXISTS      If the EndpointId value passed already exists
 //
 CHIP_ERROR emberAfSetDynamicEndpoint(uint16_t index, chip::EndpointId id, const EmberAfEndpointType * ep,
                                      const chip::Span<chip::DataVersion> & dataVersionStorage,
                                      chip::Span<const EmberAfDeviceType> deviceTypeList = {},
                                      chip::EndpointId parentEndpointId                  = chip::kInvalidEndpointId);
 chip::EndpointId emberAfClearDynamicEndpoint(uint16_t index);
 uint16_t emberAfGetDynamicIndexFromEndpoint(chip::EndpointId id);
 /**
  * @brief Loads attribute defaults and any non-volatile attributes stored
  *
  * @param endpoint EnpointId. Use chip::kInvalidEndpointId to initialize all endpoints
  */
 void emberAfInitializeAttributes(chip::EndpointId endpoint);

 // If server == true, returns the number of server clusters,
 // otherwise number of client clusters on this endpoint
 uint8_t emberAfClusterCount(chip::EndpointId endpoint, bool server);

 // Returns the cluster of Nth server or client cluster,
 // depending on server toggle.
 const EmberAfCluster * emberAfGetNthCluster(chip::EndpointId endpoint, uint8_t n, bool server);

 //
 // Retrieve the device type list associated with a specific endpoint.
 //
 chip::Span<const EmberAfDeviceType> emberAfDeviceTypeListFromEndpoint(chip::EndpointId endpoint, CHIP_ERROR & err);

 //
 // Override the device type list current associated with an endpoint with a user-provided list. The buffers backing
 // that list have to live as long as the endpoint is enabled.
 //
 // NOTE: It is the application's responsibility to free the existing list that is being replaced if needed.
 //
 CHIP_ERROR emberAfSetDeviceTypeList(chip::EndpointId endpoint, chip::Span<const EmberAfDeviceType> deviceTypeList);

 namespace chip {
 namespace app {

 class EnabledEndpointsWithServerCluster
 {
 public:
     EnabledEndpointsWithServerCluster(ClusterId clusterId);

     // Instead of having a separate Iterator class, optimize for codesize by
     // just reusing ourselves as our own iterator.  We could do a bit better
     // here with C++17 and using a different type for the end iterator, but this
     // is the best I've found with C++14 so far.
     //
     // This does mean that you can only iterate a given
     // EnabledEndpointsWithServerCluster once, but that's OK given how we use it
     // in practice.
     EnabledEndpointsWithServerCluster & begin() { return *this; }
     const EnabledEndpointsWithServerCluster & end() const { return *this; }

     bool operator!=(const EnabledEndpointsWithServerCluster & other) const { return mEndpointIndex != mEndpointCount; }

     EnabledEndpointsWithServerCluster & operator++();

     EndpointId operator*() const;

 private:
     void EnsureMatchingEndpoint();

     uint16_t mEndpointIndex = 0;
     uint16_t mEndpointCount = 0;
     ClusterId mClusterId;
 };

 /**
  * @brief Sets the parent endpoint for a given endpoint
  */
 CHIP_ERROR SetParentEndpointForEndpoint(EndpointId childEndpoint, EndpointId parentEndpoint);

 /**
  * @brief Sets an Endpoint to use Flat Composition
  */
 CHIP_ERROR SetFlatCompositionForEndpoint(EndpointId endpoint);

 /**
  * @brief Sets an Endpoint to use Tree Composition
  */
 CHIP_ERROR SetTreeCompositionForEndpoint(EndpointId endpoint);

 /**
  * @brief Returns true is an Endpoint has flat composition
  */
 bool IsFlatCompositionForEndpoint(EndpointId endpoint);

 /**
  * @brief Returns true is an Endpoint has tree composition
  */
 bool IsTreeCompositionForEndpoint(EndpointId endpoint);

 } // namespace app
 } // namespace chip
	/**
	*
	* Copyright (c) 2024 Project CHIP Authors
	*
	* 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/AttributeAccessInterface.h>
	#include <app/util/af-types.h>
	#include <app/util/att-storage.h>
	#include <app/util/attribute-metadata.h>
	#include <app/util/config.h>
	#include <app/util/endpoint-config-defines.h>
	#include <lib/support/CodeUtils.h>

	#include <app-common/zap-generated/attribute-type.h>
	#include <app-common/zap-generated/cluster-objects.h>

	// NOTE: direct include here even though app/util/config.h is the public header,
	// because MAX_ENDPOINT_COUNT needs FIXED_ENDPOINT_COUNT definitions.
	#include <zap-generated/endpoint_config.h>

	static constexpr uint16_t kEmberInvalidEndpointIndex = 0xFFFF;

	// If we have fixed number of endpoints, then max is the same.
	#ifdef FIXED_ENDPOINT_COUNT
	#define MAX_ENDPOINT_COUNT (FIXED_ENDPOINT_COUNT + CHIP_DEVICE_CONFIG_DYNAMIC_ENDPOINT_COUNT)
	#endif

	#define DECLARE_DYNAMIC_ENDPOINT(endpointName, clusterList) \
	EmberAfEndpointType endpointName = { clusterList, ArraySize(clusterList), 0 }

	#define DECLARE_DYNAMIC_CLUSTER_LIST_BEGIN(clusterListName) EmberAfCluster clusterListName[] = {

	// The role argument should be used to determine whether cluster works as a server or a client.
	// It can be assigned with the ZAP_CLUSTER_MASK(SERVER) or ZAP_CLUSTER_MASK(CLUSTER) values.
	#define DECLARE_DYNAMIC_CLUSTER(clusterId, clusterAttrs, role, incomingCommands, outgoingCommands) \
	{ \
	clusterId, clusterAttrs, ArraySize(clusterAttrs), 0, role, NULL, incomingCommands, outgoingCommands \
	}

	#define DECLARE_DYNAMIC_CLUSTER_LIST_END }

	#define DECLARE_DYNAMIC_ATTRIBUTE_LIST_BEGIN(attrListName) EmberAfAttributeMetadata attrListName[] = {

	#define DECLARE_DYNAMIC_ATTRIBUTE_LIST_END() \
	{ \
	ZAP_EMPTY_DEFAULT(), 0xFFFD, 2, ZAP_TYPE(INT16U), ZAP_ATTRIBUTE_MASK(EXTERNAL_STORAGE) \
	} /* cluster revision */ \
	}

	#define DECLARE_DYNAMIC_ATTRIBUTE(attId, attType, attSizeBytes, attrMask) \
	{ \
	ZAP_EMPTY_DEFAULT(), attId, attSizeBytes, ZAP_TYPE(attType), attrMask \| ZAP_ATTRIBUTE_MASK(EXTERNAL_STORAGE) \
	}

	/**
	* @brief locate attribute metadata
	*
	* Function returns pointer to the attribute metadata structure,
	* or NULL if attribute was not found.
	*
	* @param endpoint Zigbee endpoint number.
	* @param clusterId Cluster ID of the sought cluster.
	* @param attributeId Attribute ID of the sought attribute.
	*
	* @return Returns pointer to the attribute metadata location.
	*/
	const EmberAfAttributeMetadata * emberAfLocateAttributeMetadata(chip::EndpointId endpoint, chip::ClusterId clusterId,
	chip::AttributeId attributeId);

	/**
	* @brief Returns true if endpoint contains the ZCL server with specified id.
	*
	* This function returns true if
	* the endpoint contains server of a given cluster.
	*/
	bool emberAfContainsServer(chip::EndpointId endpoint, chip::ClusterId clusterId);

	/**
	* @brief Returns true if endpoint of given index contains the ZCL server with specified id.
	*
	* This function returns true if
	* the endpoint of given index contains server of a given cluster.
	* If this function is used with a manufacturer specific clusterId
	* then this will return the first cluster that it finds in the Cluster table.
	* and will not return any other clusters that share that id.
	*/
	bool emberAfContainsServerFromIndex(uint16_t index, chip::ClusterId clusterId);

	/**
	* @brief Returns true if endpoint contains the ZCL client with specified id.
	*
	* This function returns true if
	* the endpoint contains client of a given cluster.
	*/
	bool emberAfContainsClient(chip::EndpointId endpoint, chip::ClusterId clusterId);

	/**
	* @brief macro that returns size of attribute in bytes.
	*
	* @param metadata EmberAfAttributeMetadata* to consider.
	*/
	#define emberAfAttributeSize(metadata) ((metadata)->size)

	/**
	* Returns the index of a given endpoint. Will return 0xFFFF if this is not a
	* valid endpoint id or if the endpoint is disabled.
	*/
	uint16_t emberAfIndexFromEndpoint(chip::EndpointId endpoint);

	/**
	* @brief Returns parent endpoint for a given endpoint index
	*/
	chip::EndpointId emberAfParentEndpointFromIndex(uint16_t index);

	/**
	* @brief Returns the index of the given endpoint in the list of all endpoints that might support the given cluster server.
	*
	* Returns kEmberInvalidEndpointIndex if the given endpoint does not support the
	* given cluster or if the given endpoint is disabled.
	*
	* This function always returns the same index for a given endpointId instance, fixed or dynamic.
	*
	* The return index for fixed endpoints will range from 0 to (fixedClusterServerEndpointCount - 1),
	* For dynamic endpoints the indexing assumes that any dynamic endpoint could start supporting
	* the given server cluster and their index will range from fixedClusterServerEndpointCount to
	* (fixedClusterServerEndpointCount + CHIP_DEVICE_CONFIG_DYNAMIC_ENDPOINT_COUNT - 1).
	*
	* For example, if a device has 4 fixed endpoints (ids 0-3) and 2 dynamic
	* endpoints, and cluster X is supported on endpoints 1 and 3, then
	* fixedClusterServerEndpointCount should be 2 and
	*
	* 1) emberAfGetClusterServerEndpointIndex(0, X) returns kEmberInvalidEndpointIndex
	* 2) emberAfGetClusterServerEndpointIndex(1, X) returns 0
	* 3) emberAfGetClusterServerEndpointIndex(2, X) returns kEmberInvalidEndpointIndex
	* 4) emberAfGetClusterServerEndpointIndex(3, X) returns 1

	* The Dynamic endpoints are placed after the fixed ones;
	* therefore their return index will always be >= to fixedClusterServerEndpointCount
	*
	* If a dynamic endpoint, supporting cluster X, is defined to dynamic index 1 with endpoint id 7,
	* (via emberAfSetDynamicEndpoint(1, 7, ...))
	* then emberAfGetClusterServerEndpointIndex(7, X) returns 3 (fixedClusterServerEndpointCount{2} + DynamicEndpointIndex {1}).
	*
	* If now a second dynamic endpoint, also supporting cluster X, is defined to dynamic index 0
	* with endpoint id 9 (via emberAfSetDynamicEndpoint(0, 9, ...)),
	* emberAfGetClusterServerEndpointIndex(9, X) returns 2. (fixedClusterServerEndpointCount{2} + DynamicEndpointIndex {0}).
	* and emberAfGetClusterServerEndpointIndex(7, X) still returns 3
	*
	* @param endpoint Endpoint number
	* @param cluster Id the of the Cluster server you are interrested on
	* @param fixedClusterServerEndpointCount The number of fixed endpoints containing this cluster server. Typically one of the
	MATTER_DM_*_CLUSTER_SERVER_ENDPOINT_COUNT constants.
	*/
	uint16_t emberAfGetClusterServerEndpointIndex(chip::EndpointId endpoint, chip::ClusterId cluster,
	uint16_t fixedClusterServerEndpointCount);

	/**
	* Returns the pointer to the data version storage for the given endpoint and
	* cluster. Can return null in the following cases:
	*
	* 1) There is no such endpoint.
	* 2) There is no such server cluster on the given endpoint.
	* 3) No storage for a data version was provided for the endpoint.
	*/
	chip::DataVersion * emberAfDataVersionStorage(const chip::app::ConcreteClusterPath & aConcreteClusterPath);

	/**
	* @brief Returns the number of pre-compiled endpoints.
	*/
	uint16_t emberAfFixedEndpointCount();

	/**
	* Register an attribute access override. It will remain registered until the
	* endpoint it's registered for is disabled (or until shutdown if it's
	* registered for all endpoints) or until it is explicitly unregistered.
	* Registration will fail if there is an already-registered override for the
	* same set of attributes.
	*
	* @return false if there is an existing override that the new one would
	* conflict with. In this case the override is not registered.
	* @return true if registration was successful.
	*/
	bool registerAttributeAccessOverride(chip::app::AttributeAccessInterface * attrOverride);

	/**
	* Unregister an attribute access override (for example if the object
	* implementing AttributeAccessInterface is being destroyed).
	*/
	void unregisterAttributeAccessOverride(chip::app::AttributeAccessInterface * attrOverride);

	/**
	* Get the semantic tags of the endpoint.
	* Fills in the provided SemanticTagStruct with tag at index `index` if there is one,
	* or returns CHIP_ERROR_NOT_FOUND if the index is out of range for the list of tag,
	* or returns CHIP_ERROR_NOT_FOUND if the endpoint is invalid.
	* @param endpoint The target endpoint.
	* @param index The index of the tag, with 0 representing the first tag.
	* @param tag The SemanticTagStruct is filled.
	*/
	CHIP_ERROR GetSemanticTagForEndpointAtIndex(chip::EndpointId endpoint, size_t index,
	chip::app::Clusters::Descriptor::Structs::SemanticTagStruct::Type & tag);

	//
	// Override the tag list current associated with an endpoint with a user-provided list. The buffers backing
	// that list have to live as long as the endpoint is enabled.
	//
	// NOTE: It is the application's responsibility to free the existing list that is being replaced if needed.
	//
	CHIP_ERROR SetTagList(chip::EndpointId endpoint,
	chip::Span<const chip::app::Clusters::Descriptor::Structs::SemanticTagStruct::Type> tagList);

	// Returns number of clusters put into the passed cluster list
	// for the given endpoint and client/server polarity
	uint8_t emberAfGetClustersFromEndpoint(chip::EndpointId endpoint, chip::ClusterId * clusterList, uint8_t listLen, bool server);

	// Note the difference in for server filtering.
	// This method will return the cluster count for BOTH client and server
	// and those do NOT work with NthCluster/NthClusterId
	// - Use emberAfGetClustersFromEndpoint() with emberAfGetNthCluster() emberAfGetNthClusterId()
	//
	uint8_t emberAfGetClusterCountForEndpoint(chip::EndpointId endpoint);

	// Check if a cluster is implemented or not. If yes, the cluster is returned.
	//
	// mask = 0 -> find either client or server
	// mask = CLUSTER_MASK_CLIENT -> find client
	// mask = CLUSTER_MASK_SERVER -> find server
	//
	// If a pointer to an index is provided, it will be updated to point to the relative index of the cluster
	// within the set of clusters that match the mask criteria.
	//
	const EmberAfCluster * emberAfFindClusterInType(const EmberAfEndpointType * endpointType, chip::ClusterId clusterId,
	EmberAfClusterMask mask, uint8_t * index = nullptr);

	// Initial configuration
	void emberAfEndpointConfigure();

	// Register a dynamic endpoint. This involves registering descriptors that describe
	// the composition of the endpoint (encapsulated in the 'ep' argument) as well as providing
	// storage for data versions.
	//
	// dataVersionStorage.size() needs to be at least as large as the number of
	// server clusters on this endpoint. If it's not, the endpoint will not be able
	// to store data versions, which may break consumers.
	//
	// The memory backing dataVersionStorage needs to remain allocated until this dynamic
	// endpoint is cleared.
	//
	// An optional device type list can be passed in as well. If provided, the memory
	// backing the list needs to remain allocated until this dynamic endpoint is cleared.
	//
	// An optional parent endpoint id should be passed for child endpoints of composed device.
	//
	// Returns CHIP_NO_ERROR No error.
	// CHIP_ERROR_NO_MEMORY MAX_ENDPOINT_COUNT is reached or when no storage is left for clusters
	// CHIP_ERROR_INVALID_ARGUMENT The EndpointId value passed is kInvalidEndpointId
	// CHIP_ERROR_ENDPOINT_EXISTS If the EndpointId value passed already exists
	//
	CHIP_ERROR emberAfSetDynamicEndpoint(uint16_t index, chip::EndpointId id, const EmberAfEndpointType * ep,
	const chip::Span<chip::DataVersion> & dataVersionStorage,
	chip::Span<const EmberAfDeviceType> deviceTypeList = {},
	chip::EndpointId parentEndpointId = chip::kInvalidEndpointId);
	chip::EndpointId emberAfClearDynamicEndpoint(uint16_t index);
	uint16_t emberAfGetDynamicIndexFromEndpoint(chip::EndpointId id);
	/**
	* @brief Loads attribute defaults and any non-volatile attributes stored
	*
	* @param endpoint EnpointId. Use chip::kInvalidEndpointId to initialize all endpoints
	*/
	void emberAfInitializeAttributes(chip::EndpointId endpoint);

	// If server == true, returns the number of server clusters,
	// otherwise number of client clusters on this endpoint
	uint8_t emberAfClusterCount(chip::EndpointId endpoint, bool server);

	// Returns the cluster of Nth server or client cluster,
	// depending on server toggle.
	const EmberAfCluster * emberAfGetNthCluster(chip::EndpointId endpoint, uint8_t n, bool server);

	//
	// Retrieve the device type list associated with a specific endpoint.
	//
	chip::Span<const EmberAfDeviceType> emberAfDeviceTypeListFromEndpoint(chip::EndpointId endpoint, CHIP_ERROR & err);

	//
	// Override the device type list current associated with an endpoint with a user-provided list. The buffers backing
	// that list have to live as long as the endpoint is enabled.
	//
	// NOTE: It is the application's responsibility to free the existing list that is being replaced if needed.
	//
	CHIP_ERROR emberAfSetDeviceTypeList(chip::EndpointId endpoint, chip::Span<const EmberAfDeviceType> deviceTypeList);

	namespace chip {
	namespace app {

	class EnabledEndpointsWithServerCluster
	{
	public:
	EnabledEndpointsWithServerCluster(ClusterId clusterId);

	// Instead of having a separate Iterator class, optimize for codesize by
	// just reusing ourselves as our own iterator. We could do a bit better
	// here with C++17 and using a different type for the end iterator, but this
	// is the best I've found with C++14 so far.
	//
	// This does mean that you can only iterate a given
	// EnabledEndpointsWithServerCluster once, but that's OK given how we use it
	// in practice.
	EnabledEndpointsWithServerCluster & begin() { return *this; }
	const EnabledEndpointsWithServerCluster & end() const { return *this; }

	bool operator!=(const EnabledEndpointsWithServerCluster & other) const { return mEndpointIndex != mEndpointCount; }

	EnabledEndpointsWithServerCluster & operator++();

	EndpointId operator*() const;

	private:
	void EnsureMatchingEndpoint();

	uint16_t mEndpointIndex = 0;
	uint16_t mEndpointCount = 0;
	ClusterId mClusterId;
	};

	/**
	* @brief Sets the parent endpoint for a given endpoint
	*/
	CHIP_ERROR SetParentEndpointForEndpoint(EndpointId childEndpoint, EndpointId parentEndpoint);

	/**
	* @brief Sets an Endpoint to use Flat Composition
	*/
	CHIP_ERROR SetFlatCompositionForEndpoint(EndpointId endpoint);

	/**
	* @brief Sets an Endpoint to use Tree Composition
	*/
	CHIP_ERROR SetTreeCompositionForEndpoint(EndpointId endpoint);

	/**
	* @brief Returns true is an Endpoint has flat composition
	*/
	bool IsFlatCompositionForEndpoint(EndpointId endpoint);

	/**
	* @brief Returns true is an Endpoint has tree composition
	*/
	bool IsTreeCompositionForEndpoint(EndpointId endpoint);

	} // namespace app
	} // namespace chip