examples/common/pigweed/rpc_services/Attributes.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/util/attribute-storage.h"
 #include "attributes_service/attributes_service.rpc.pb.h"
 #include "pigweed/rpc_services/internal/StatusUtils.h"
 #include <app-common/zap-generated/attribute-id.h>
 #include <app-common/zap-generated/attribute-type.h>
 #include <app/InteractionModelEngine.h>
 #include <app/MessageDef/AttributeReportIBs.h>
 #include <lib/core/CHIPTLV.h>
 #include <lib/core/CHIPTLVTags.h>
 #include <lib/core/CHIPTLVTypes.h>
 #include <platform/PlatformManager.h>

 namespace chip {
 namespace rpc {

 // Implementation class for chip.rpc.Attributes.
 class Attributes : public pw_rpc::nanopb::Attributes::Service<Attributes>
 {
 public:
     ::pw::Status Write(const chip_rpc_AttributeWrite & request, pw_protobuf_Empty & response)
     {
         const void * data;
         DeviceLayer::StackLock lock;

         switch (request.data.which_data)
         {
         case chip_rpc_AttributeData_data_bool_tag:
             data = &request.data.data.data_bool;
             break;
         case chip_rpc_AttributeData_data_uint8_tag:
             data = &request.data.data.data_uint8;
             break;
         case chip_rpc_AttributeData_data_uint16_tag:
             data = &request.data.data.data_uint16;
             break;
         case chip_rpc_AttributeData_data_uint32_tag:
             data = &request.data.data.data_uint32;
             break;
         case chip_rpc_AttributeData_data_int8_tag:
             data = &request.data.data.data_int8;
             break;
         case chip_rpc_AttributeData_data_int16_tag:
             data = &request.data.data.data_int16;
             break;
         case chip_rpc_AttributeData_data_int32_tag:
             data = &request.data.data.data_int32;
             break;
         case chip_rpc_AttributeData_data_bytes_tag:
             data = &request.data.data.data_bytes;
             break;
         default:
             return pw::Status::InvalidArgument();
         }
         RETURN_STATUS_IF_NOT_OK(
             emberAfWriteAttribute(request.metadata.endpoint, request.metadata.cluster, request.metadata.attribute_id,
                                   const_cast<uint8_t *>(static_cast<const uint8_t *>(data)), request.metadata.type));
         return pw::OkStatus();
     }

     ::pw::Status Read(const chip_rpc_AttributeMetadata & request, chip_rpc_AttributeData & response)
     {
         app::ConcreteAttributePath path(request.endpoint, request.cluster, request.attribute_id);
         MutableByteSpan tlvBuffer(response.tlv_data.bytes);
         PW_TRY(ReadAttributeIntoTlvBuffer(path, tlvBuffer));
         response.tlv_data.size = tlvBuffer.size();
         response.has_tlv_data  = true;

         switch (request.type)
         {
         case chip_rpc_AttributeType_ZCL_BOOLEAN_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_Boolean, response.data.data_bool));
             response.which_data = chip_rpc_AttributeData_data_bool_tag;
             break;
         case chip_rpc_AttributeType_ZCL_ENUM8_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint8));
             response.which_data = chip_rpc_AttributeData_data_uint8_tag;
             break;
         case chip_rpc_AttributeType_ZCL_ENUM16_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint16));
             response.which_data = chip_rpc_AttributeData_data_uint16_tag;
             break;
         case chip_rpc_AttributeType_ZCL_INT8U_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint8));
             response.which_data = chip_rpc_AttributeData_data_uint8_tag;
             break;
         case chip_rpc_AttributeType_ZCL_INT16U_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint16));
             response.which_data = chip_rpc_AttributeData_data_uint16_tag;
             break;
         case chip_rpc_AttributeType_ZCL_INT32U_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint32));
             response.which_data = chip_rpc_AttributeData_data_uint32_tag;
             break;
         case chip_rpc_AttributeType_ZCL_INT8S_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_SignedInteger, response.data.data_int8));
             response.which_data = chip_rpc_AttributeData_data_int8_tag;
             break;
         case chip_rpc_AttributeType_ZCL_INT16S_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_SignedInteger, response.data.data_int16));
             response.which_data = chip_rpc_AttributeData_data_int16_tag;
             break;
         case chip_rpc_AttributeType_ZCL_INT32S_ATTRIBUTE_TYPE:
             PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_SignedInteger, response.data.data_int32));
             response.which_data = chip_rpc_AttributeData_data_int32_tag;
             break;
         case chip_rpc_AttributeType_ZCL_BITMAP8_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_BITMAP16_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_BITMAP32_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_ARRAY_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_BITMAP64_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT24U_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT40U_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT48U_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT56U_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT64U_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT24S_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT40S_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT48S_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT56S_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_INT64S_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_SINGLE_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_DOUBLE_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_OCTET_STRING_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_CHAR_STRING_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_LONG_OCTET_STRING_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_LONG_CHAR_STRING_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_STRUCT_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_TOD_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_DATE_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_UTC_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_EPOCH_US_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_EPOCH_S_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_SYSTIME_US_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_PERCENT_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_PERCENT100THS_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_CLUSTER_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_ATTRIB_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_FIELD_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_EVENT_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_COMMAND_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_ACTION_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_TRANS_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_NODE_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_VENDOR_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_DEVTYPE_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_FABRIC_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_GROUP_ID_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_STATUS_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_DATA_VER_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_EVENT_NO_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_ENDPOINT_NO_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_FABRIC_IDX_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_IPADR_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_IPV4ADR_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_IPV6ADR_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_IPV6PRE_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_HWADR_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_NO_DATA_ATTRIBUTE_TYPE:
         case chip_rpc_AttributeType_ZCL_UNKNOWN_ATTRIBUTE_TYPE:
         default:
             break;
             // These are currently not returned as decoded data, but can be
             // decoded from the returned TLV data.
         }

         return pw::OkStatus();
     }

 private:
     static constexpr uint8_t kReportContextTag = 0x01;

     ::pw::Status ReadAttributeIntoTlvBuffer(const app::ConcreteAttributePath & path, MutableByteSpan & tlvBuffer)
     {
         Access::SubjectDescriptor subjectDescriptor{ .authMode = chip::Access::AuthMode::kPase };
         app::AttributeReportIBs::Builder attributeReports;
         TLV::TLVWriter writer;
         TLV::TLVType outer;
         DeviceLayer::StackLock lock;

         writer.Init(tlvBuffer);
         PW_TRY(ChipErrorToPwStatus(writer.StartContainer(TLV::AnonymousTag(), TLV::kTLVType_Structure, outer)));
         PW_TRY(ChipErrorToPwStatus(attributeReports.Init(&writer, kReportContextTag)));
         PW_TRY(ChipErrorToPwStatus(app::ReadSingleClusterData(subjectDescriptor, false, path, attributeReports, nullptr)));
         attributeReports.EndOfContainer();
         PW_TRY(ChipErrorToPwStatus(writer.EndContainer(outer)));
         PW_TRY(ChipErrorToPwStatus(writer.Finalize()));
         tlvBuffer.reduce_size(writer.GetLengthWritten());

         return ::pw::OkStatus();
     }

     template <typename T>
     ::pw::Status TlvBufferGetData(ByteSpan tlvBuffer, TLV::TLVType expectedDataType, T & responseData)
     {
         TLV::TLVReader reader;
         reader.Init(tlvBuffer);
         // Open outer container
         PW_TRY(ChipErrorToPwStatus(reader.Next(TLV::TLVType::kTLVType_Structure, TLV::AnonymousTag())));
         TLV::TLVType readerRoot;
         PW_TRY(ChipErrorToPwStatus(reader.EnterContainer(readerRoot)));

         // Open report container
         PW_TRY(ChipErrorToPwStatus(reader.Next(TLV::TLVType::kTLVType_Array, TLV::ContextTag(kReportContextTag))));
         TLV::TLVType readerArray;
         PW_TRY(ChipErrorToPwStatus(reader.EnterContainer(readerArray)));

         // Skip first array element which is the empty array from spec 10.5.4.3
         PW_TRY(ChipErrorToPwStatus(reader.Next(TLV::TLVType::kTLVType_Structure, TLV::AnonymousTag())));

         // Parse the AttributeDataIB to pull out data
         app::AttributeReportIB::Parser reportParser;
         PW_TRY(ChipErrorToPwStatus(reportParser.Init(reader)));
         app::AttributeDataIB::Parser dataParser;
         PW_TRY(ChipErrorToPwStatus(reportParser.GetAttributeData(&dataParser)));
         TLV::TLVReader dataReader;
         PW_TRY(ChipErrorToPwStatus(dataParser.GetData(&dataReader)));
         PW_TRY(CheckTlvTagAndType(&dataReader, TLV::ContextTag(0x2), expectedDataType));
         PW_TRY(ChipErrorToPwStatus(dataReader.Get(responseData)));

         return ::pw::OkStatus();
     }

     static ::pw::Status ChipErrorToPwStatus(CHIP_ERROR err)
     {
         if (err == CHIP_NO_ERROR)
         {
             return ::pw::OkStatus();
         }
         else if (err == CHIP_ERROR_BUFFER_TOO_SMALL)
         {
             return ::pw::Status::ResourceExhausted();
         }
         return ::pw::Status::Internal();
     }

     static ::pw::Status CheckTlvTagAndType(TLV::TLVReader * reader, TLV::Tag expectedTag, TLV::TLVType expectedType)
     {
         if (reader->GetTag() != expectedTag || reader->GetType() != expectedType)
         {
             return ::pw::Status::NotFound();
         }
         return ::pw::OkStatus();
     }
 };

 } // namespace rpc
 } // 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/util/attribute-storage.h"
	#include "attributes_service/attributes_service.rpc.pb.h"
	#include "pigweed/rpc_services/internal/StatusUtils.h"
	#include <app-common/zap-generated/attribute-id.h>
	#include <app-common/zap-generated/attribute-type.h>
	#include <app/InteractionModelEngine.h>
	#include <app/MessageDef/AttributeReportIBs.h>
	#include <lib/core/CHIPTLV.h>
	#include <lib/core/CHIPTLVTags.h>
	#include <lib/core/CHIPTLVTypes.h>
	#include <platform/PlatformManager.h>

	namespace chip {
	namespace rpc {

	// Implementation class for chip.rpc.Attributes.
	class Attributes : public pw_rpc::nanopb::Attributes::Service<Attributes>
	{
	public:
	::pw::Status Write(const chip_rpc_AttributeWrite & request, pw_protobuf_Empty & response)
	{
	const void * data;
	DeviceLayer::StackLock lock;

	switch (request.data.which_data)
	{
	case chip_rpc_AttributeData_data_bool_tag:
	data = &request.data.data.data_bool;
	break;
	case chip_rpc_AttributeData_data_uint8_tag:
	data = &request.data.data.data_uint8;
	break;
	case chip_rpc_AttributeData_data_uint16_tag:
	data = &request.data.data.data_uint16;
	break;
	case chip_rpc_AttributeData_data_uint32_tag:
	data = &request.data.data.data_uint32;
	break;
	case chip_rpc_AttributeData_data_int8_tag:
	data = &request.data.data.data_int8;
	break;
	case chip_rpc_AttributeData_data_int16_tag:
	data = &request.data.data.data_int16;
	break;
	case chip_rpc_AttributeData_data_int32_tag:
	data = &request.data.data.data_int32;
	break;
	case chip_rpc_AttributeData_data_bytes_tag:
	data = &request.data.data.data_bytes;
	break;
	default:
	return pw::Status::InvalidArgument();
	}
	RETURN_STATUS_IF_NOT_OK(
	emberAfWriteAttribute(request.metadata.endpoint, request.metadata.cluster, request.metadata.attribute_id,
	const_cast<uint8_t >(static_cast<const uint8_t >(data)), request.metadata.type));
	return pw::OkStatus();
	}

	::pw::Status Read(const chip_rpc_AttributeMetadata & request, chip_rpc_AttributeData & response)
	{
	app::ConcreteAttributePath path(request.endpoint, request.cluster, request.attribute_id);
	MutableByteSpan tlvBuffer(response.tlv_data.bytes);
	PW_TRY(ReadAttributeIntoTlvBuffer(path, tlvBuffer));
	response.tlv_data.size = tlvBuffer.size();
	response.has_tlv_data = true;

	switch (request.type)
	{
	case chip_rpc_AttributeType_ZCL_BOOLEAN_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_Boolean, response.data.data_bool));
	response.which_data = chip_rpc_AttributeData_data_bool_tag;
	break;
	case chip_rpc_AttributeType_ZCL_ENUM8_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint8));
	response.which_data = chip_rpc_AttributeData_data_uint8_tag;
	break;
	case chip_rpc_AttributeType_ZCL_ENUM16_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint16));
	response.which_data = chip_rpc_AttributeData_data_uint16_tag;
	break;
	case chip_rpc_AttributeType_ZCL_INT8U_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint8));
	response.which_data = chip_rpc_AttributeData_data_uint8_tag;
	break;
	case chip_rpc_AttributeType_ZCL_INT16U_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint16));
	response.which_data = chip_rpc_AttributeData_data_uint16_tag;
	break;
	case chip_rpc_AttributeType_ZCL_INT32U_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_UnsignedInteger, response.data.data_uint32));
	response.which_data = chip_rpc_AttributeData_data_uint32_tag;
	break;
	case chip_rpc_AttributeType_ZCL_INT8S_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_SignedInteger, response.data.data_int8));
	response.which_data = chip_rpc_AttributeData_data_int8_tag;
	break;
	case chip_rpc_AttributeType_ZCL_INT16S_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_SignedInteger, response.data.data_int16));
	response.which_data = chip_rpc_AttributeData_data_int16_tag;
	break;
	case chip_rpc_AttributeType_ZCL_INT32S_ATTRIBUTE_TYPE:
	PW_TRY(TlvBufferGetData(tlvBuffer, TLV::kTLVType_SignedInteger, response.data.data_int32));
	response.which_data = chip_rpc_AttributeData_data_int32_tag;
	break;
	case chip_rpc_AttributeType_ZCL_BITMAP8_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_BITMAP16_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_BITMAP32_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_ARRAY_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_BITMAP64_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT24U_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT40U_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT48U_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT56U_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT64U_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT24S_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT40S_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT48S_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT56S_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_INT64S_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_SINGLE_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_DOUBLE_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_OCTET_STRING_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_CHAR_STRING_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_LONG_OCTET_STRING_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_LONG_CHAR_STRING_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_STRUCT_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_TOD_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_DATE_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_UTC_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_EPOCH_US_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_EPOCH_S_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_SYSTIME_US_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_PERCENT_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_PERCENT100THS_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_CLUSTER_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_ATTRIB_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_FIELD_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_EVENT_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_COMMAND_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_ACTION_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_TRANS_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_NODE_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_VENDOR_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_DEVTYPE_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_FABRIC_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_GROUP_ID_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_STATUS_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_DATA_VER_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_EVENT_NO_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_ENDPOINT_NO_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_FABRIC_IDX_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_IPADR_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_IPV4ADR_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_IPV6ADR_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_IPV6PRE_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_HWADR_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_NO_DATA_ATTRIBUTE_TYPE:
	case chip_rpc_AttributeType_ZCL_UNKNOWN_ATTRIBUTE_TYPE:
	default:
	break;
	// These are currently not returned as decoded data, but can be
	// decoded from the returned TLV data.
	}

	return pw::OkStatus();
	}

	private:
	static constexpr uint8_t kReportContextTag = 0x01;

	::pw::Status ReadAttributeIntoTlvBuffer(const app::ConcreteAttributePath & path, MutableByteSpan & tlvBuffer)
	{
	Access::SubjectDescriptor subjectDescriptor{ .authMode = chip::Access::AuthMode::kPase };
	app::AttributeReportIBs::Builder attributeReports;
	TLV::TLVWriter writer;
	TLV::TLVType outer;
	DeviceLayer::StackLock lock;

	writer.Init(tlvBuffer);
	PW_TRY(ChipErrorToPwStatus(writer.StartContainer(TLV::AnonymousTag(), TLV::kTLVType_Structure, outer)));
	PW_TRY(ChipErrorToPwStatus(attributeReports.Init(&writer, kReportContextTag)));
	PW_TRY(ChipErrorToPwStatus(app::ReadSingleClusterData(subjectDescriptor, false, path, attributeReports, nullptr)));
	attributeReports.EndOfContainer();
	PW_TRY(ChipErrorToPwStatus(writer.EndContainer(outer)));
	PW_TRY(ChipErrorToPwStatus(writer.Finalize()));
	tlvBuffer.reduce_size(writer.GetLengthWritten());

	return ::pw::OkStatus();
	}

	template <typename T>
	::pw::Status TlvBufferGetData(ByteSpan tlvBuffer, TLV::TLVType expectedDataType, T & responseData)
	{
	TLV::TLVReader reader;
	reader.Init(tlvBuffer);
	// Open outer container
	PW_TRY(ChipErrorToPwStatus(reader.Next(TLV::TLVType::kTLVType_Structure, TLV::AnonymousTag())));
	TLV::TLVType readerRoot;
	PW_TRY(ChipErrorToPwStatus(reader.EnterContainer(readerRoot)));

	// Open report container
	PW_TRY(ChipErrorToPwStatus(reader.Next(TLV::TLVType::kTLVType_Array, TLV::ContextTag(kReportContextTag))));
	TLV::TLVType readerArray;
	PW_TRY(ChipErrorToPwStatus(reader.EnterContainer(readerArray)));

	// Skip first array element which is the empty array from spec 10.5.4.3
	PW_TRY(ChipErrorToPwStatus(reader.Next(TLV::TLVType::kTLVType_Structure, TLV::AnonymousTag())));

	// Parse the AttributeDataIB to pull out data
	app::AttributeReportIB::Parser reportParser;
	PW_TRY(ChipErrorToPwStatus(reportParser.Init(reader)));
	app::AttributeDataIB::Parser dataParser;
	PW_TRY(ChipErrorToPwStatus(reportParser.GetAttributeData(&dataParser)));
	TLV::TLVReader dataReader;
	PW_TRY(ChipErrorToPwStatus(dataParser.GetData(&dataReader)));
	PW_TRY(CheckTlvTagAndType(&dataReader, TLV::ContextTag(0x2), expectedDataType));
	PW_TRY(ChipErrorToPwStatus(dataReader.Get(responseData)));

	return ::pw::OkStatus();
	}

	static ::pw::Status ChipErrorToPwStatus(CHIP_ERROR err)
	{
	if (err == CHIP_NO_ERROR)
	{
	return ::pw::OkStatus();
	}
	else if (err == CHIP_ERROR_BUFFER_TOO_SMALL)
	{
	return ::pw::Status::ResourceExhausted();
	}
	return ::pw::Status::Internal();
	}

	static ::pw::Status CheckTlvTagAndType(TLV::TLVReader * reader, TLV::Tag expectedTag, TLV::TLVType expectedType)
	{
	if (reader->GetTag() != expectedTag \|\| reader->GetType() != expectedType)
	{
	return ::pw::Status::NotFound();
	}
	return ::pw::OkStatus();
	}
	};

	} // namespace rpc
	} // namespace chip