src/app/clusters/diagnostic-logs-server/diagnostic-logs-server.cpp - third_party/github/project-chip/connectedhomeip - Git at Google

 /**
  *
  *    Copyright (c) 2021 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.
  */

 #include <app/clusters/diagnostic-logs-server/diagnostic-logs-server.h>

 #include <app/util/attribute-storage.h>
 #include <app/util/config.h>
 #include <lib/support/ScopedBuffer.h>
 #include <protocols/bdx/DiagnosticLogs.h>

 #include "BDXDiagnosticLogsProvider.h"

 #ifdef MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT
 static constexpr size_t kDiagnosticLogsDiagnosticLogsProviderDelegateTableSize =
     MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT + CHIP_DEVICE_CONFIG_DYNAMIC_ENDPOINT_COUNT;
 static_assert(kDiagnosticLogsDiagnosticLogsProviderDelegateTableSize < kEmberInvalidEndpointIndex,
               "DiagnosticLogs: log provider delegate table size error");

 using namespace chip::app::Clusters::DiagnosticLogs;
 using chip::Protocols::InteractionModel::Status;

 using chip::bdx::DiagnosticLogs::kMaxFileDesignatorLen;
 using chip::bdx::DiagnosticLogs::kMaxLogContentSize;

 namespace chip {
 namespace app {
 namespace Clusters {
 namespace DiagnosticLogs {

 namespace {

 DiagnosticLogsProviderDelegate * gDiagnosticLogsProviderDelegateTable[kDiagnosticLogsDiagnosticLogsProviderDelegateTableSize] = {
     nullptr
 };

 DiagnosticLogsProviderDelegate * GetDiagnosticLogsProviderDelegate(EndpointId endpoint)
 {
     uint16_t ep   = emberAfGetClusterServerEndpointIndex(endpoint, Id, MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT);
     auto delegate = (ep >= ArraySize(gDiagnosticLogsProviderDelegateTable) ? nullptr : gDiagnosticLogsProviderDelegateTable[ep]);

     if (delegate == nullptr)
     {
         ChipLogProgress(Zcl, "Diagnosticlogs: no log provider delegate set for endpoint:%u", endpoint);
     }

     return delegate;
 }

 void AddResponse(CommandHandler * commandObj, const ConcreteCommandPath & path, StatusEnum status)
 {
     Commands::RetrieveLogsResponse::Type response;
     response.status = status;
     commandObj->AddResponse(path, response);
 }

 void AddResponse(CommandHandler * commandObj, const ConcreteCommandPath & path, StatusEnum status, MutableByteSpan & logContent,
                  const Optional<uint64_t> & timeStamp, const Optional<uint64_t> & timeSinceBoot)
 {
     Commands::RetrieveLogsResponse::Type response;
     response.status        = status;
     response.logContent    = ByteSpan(logContent);
     response.UTCTimeStamp  = timeStamp;
     response.timeSinceBoot = timeSinceBoot;

     commandObj->AddResponse(path, response);
 }

 #if CHIP_CONFIG_ENABLE_BDX_LOG_TRANSFER
 BDXDiagnosticLogsProvider gBDXDiagnosticLogsProvider;
 #endif // CHIP_CONFIG_ENABLE_BDX_LOG_TRANSFER

 } // anonymous namespace

 DiagnosticLogsServer DiagnosticLogsServer::sInstance;

 void DiagnosticLogsServer::SetDiagnosticLogsProviderDelegate(EndpointId endpoint, DiagnosticLogsProviderDelegate * delegate)
 {
     uint16_t ep = emberAfGetClusterServerEndpointIndex(endpoint, Id, MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT);
     if (ep < kDiagnosticLogsDiagnosticLogsProviderDelegateTableSize)
     {
         gDiagnosticLogsProviderDelegateTable[ep] = delegate;
     }
 }

 DiagnosticLogsServer & DiagnosticLogsServer::Instance()
 {
     return sInstance;
 }

 void DiagnosticLogsServer::HandleLogRequestForResponsePayload(CommandHandler * commandObj, const ConcreteCommandPath & path,
                                                               IntentEnum intent, StatusEnum status)
 {
     // If there is no delegate, there is no mechanism to read the logs. Assume those are empty and return NoLogs
     auto * delegate = GetDiagnosticLogsProviderDelegate(path.mEndpointId);
     VerifyOrReturn(nullptr != delegate, AddResponse(commandObj, path, StatusEnum::kNoLogs));

     Platform::ScopedMemoryBuffer<uint8_t> buffer;
     VerifyOrReturn(buffer.Alloc(kMaxLogContentSize), AddResponse(commandObj, path, StatusEnum::kDenied));

     auto logContent = MutableByteSpan(buffer.Get(), kMaxLogContentSize);
     Optional<uint64_t> timeStamp;
     Optional<uint64_t> timeSinceBoot;

     auto size = delegate->GetSizeForIntent(intent);
     VerifyOrReturn(size != 0, AddResponse(commandObj, path, StatusEnum::kNoLogs));

     auto err = delegate->GetLogForIntent(intent, logContent, timeStamp, timeSinceBoot);
     VerifyOrReturn(CHIP_ERROR_NOT_FOUND != err, AddResponse(commandObj, path, StatusEnum::kNoLogs));
     VerifyOrReturn(CHIP_NO_ERROR == err, AddResponse(commandObj, path, StatusEnum::kDenied));

     AddResponse(commandObj, path, status, logContent, timeStamp, timeSinceBoot);
 }

 void DiagnosticLogsServer::HandleLogRequestForBdx(CommandHandler * commandObj, const ConcreteCommandPath & path, IntentEnum intent,
                                                   Optional<CharSpan> transferFileDesignator)
 {
     // If the RequestedProtocol is set to BDX and there is no TransferFileDesignator the command SHALL fail with a Status Code of
     // INVALID_COMMAND.
     VerifyOrReturn(transferFileDesignator.HasValue(), commandObj->AddStatus(path, Status::InvalidCommand));

     VerifyOrReturn(transferFileDesignator.Value().size() <= kMaxFileDesignatorLen,
                    commandObj->AddStatus(path, Status::ConstraintError));

     // If there is no delegate, there is no mechanism to read the logs. Assume those are empty and return NoLogs
     auto * delegate = GetDiagnosticLogsProviderDelegate(path.mEndpointId);
     VerifyOrReturn(nullptr != delegate, AddResponse(commandObj, path, StatusEnum::kNoLogs));

     auto size = delegate->GetSizeForIntent(intent);
     // In the case where the size is 0 sets the Status field of the RetrieveLogsResponse to NoLogs and do not start a BDX session.
     VerifyOrReturn(size != 0, HandleLogRequestForResponsePayload(commandObj, path, intent, StatusEnum::kNoLogs));

     // In the case where the Node is able to fit the entirety of the requested logs within the LogContent field, the Status field of
     // the RetrieveLogsResponse SHALL be set to Exhausted and a BDX session SHALL NOT be initiated.
     VerifyOrReturn(size > kMaxLogContentSize, HandleLogRequestForResponsePayload(commandObj, path, intent, StatusEnum::kExhausted));

     // If the RequestedProtocol is set to BDX and either the Node does not support BDX or it is not possible for the Node
     // to establish a BDX session, then the Node SHALL utilize the LogContent field of the RetrieveLogsResponse command
     // to transfer as much of the current logs as it can fit within the response, and the Status field of the
     // RetrieveLogsResponse SHALL be set to Exhausted.
 #if CHIP_CONFIG_ENABLE_BDX_LOG_TRANSFER
     VerifyOrReturn(!gBDXDiagnosticLogsProvider.IsBusy(), AddResponse(commandObj, path, StatusEnum::kBusy));
     auto err = gBDXDiagnosticLogsProvider.InitializeTransfer(commandObj, path, delegate, intent, transferFileDesignator.Value());
     VerifyOrReturn(CHIP_NO_ERROR == err, AddResponse(commandObj, path, StatusEnum::kDenied));
 #else
     HandleLogRequestForResponsePayload(commandObj, path, intent, StatusEnum::kExhausted);
 #endif // CHIP_CONFIG_ENABLE_BDX_LOG_TRANSFER
 }

 } // namespace DiagnosticLogs
 } // namespace Clusters
 } // namespace app
 } // namespace chip

 bool emberAfDiagnosticLogsClusterRetrieveLogsRequestCallback(chip::app::CommandHandler * commandObj,
                                                              const chip::app::ConcreteCommandPath & commandPath,
                                                              const Commands::RetrieveLogsRequest::DecodableType & commandData)
 {
     // If the Intent and/or the RequestedProtocol arguments contain invalid (out of range) values the command SHALL fail with a
     // Status Code of INVALID_COMMAND.
     auto intent   = commandData.intent;
     auto protocol = commandData.requestedProtocol;
     if (intent == IntentEnum::kUnknownEnumValue || protocol == TransferProtocolEnum::kUnknownEnumValue)
     {
         commandObj->AddStatus(commandPath, Status::InvalidCommand);
         return true;
     }

     auto instance = DiagnosticLogsServer::Instance();
     if (protocol == TransferProtocolEnum::kResponsePayload)
     {
         instance.HandleLogRequestForResponsePayload(commandObj, commandPath, intent);
     }
     else
     {
         instance.HandleLogRequestForBdx(commandObj, commandPath, intent, commandData.transferFileDesignator);
     }

     return true;
 }

 void MatterDiagnosticLogsPluginServerInitCallback() {}
 #endif // #ifdef MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT
	/**
	*
	* Copyright (c) 2021 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.
	*/

	#include <app/clusters/diagnostic-logs-server/diagnostic-logs-server.h>

	#include <app/util/attribute-storage.h>
	#include <app/util/config.h>
	#include <lib/support/ScopedBuffer.h>
	#include <protocols/bdx/DiagnosticLogs.h>

	#include "BDXDiagnosticLogsProvider.h"

	#ifdef MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT
	static constexpr size_t kDiagnosticLogsDiagnosticLogsProviderDelegateTableSize =
	MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT + CHIP_DEVICE_CONFIG_DYNAMIC_ENDPOINT_COUNT;
	static_assert(kDiagnosticLogsDiagnosticLogsProviderDelegateTableSize < kEmberInvalidEndpointIndex,
	"DiagnosticLogs: log provider delegate table size error");

	using namespace chip::app::Clusters::DiagnosticLogs;
	using chip::Protocols::InteractionModel::Status;

	using chip::bdx::DiagnosticLogs::kMaxFileDesignatorLen;
	using chip::bdx::DiagnosticLogs::kMaxLogContentSize;

	namespace chip {
	namespace app {
	namespace Clusters {
	namespace DiagnosticLogs {

	namespace {

	DiagnosticLogsProviderDelegate * gDiagnosticLogsProviderDelegateTable[kDiagnosticLogsDiagnosticLogsProviderDelegateTableSize] = {
	nullptr
	};

	DiagnosticLogsProviderDelegate * GetDiagnosticLogsProviderDelegate(EndpointId endpoint)
	{
	uint16_t ep = emberAfGetClusterServerEndpointIndex(endpoint, Id, MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT);
	auto delegate = (ep >= ArraySize(gDiagnosticLogsProviderDelegateTable) ? nullptr : gDiagnosticLogsProviderDelegateTable[ep]);

	if (delegate == nullptr)
	{
	ChipLogProgress(Zcl, "Diagnosticlogs: no log provider delegate set for endpoint:%u", endpoint);
	}

	return delegate;
	}

	void AddResponse(CommandHandler * commandObj, const ConcreteCommandPath & path, StatusEnum status)
	{
	Commands::RetrieveLogsResponse::Type response;
	response.status = status;
	commandObj->AddResponse(path, response);
	}

	void AddResponse(CommandHandler * commandObj, const ConcreteCommandPath & path, StatusEnum status, MutableByteSpan & logContent,
	const Optional<uint64_t> & timeStamp, const Optional<uint64_t> & timeSinceBoot)
	{
	Commands::RetrieveLogsResponse::Type response;
	response.status = status;
	response.logContent = ByteSpan(logContent);
	response.UTCTimeStamp = timeStamp;
	response.timeSinceBoot = timeSinceBoot;

	commandObj->AddResponse(path, response);
	}

	#if CHIP_CONFIG_ENABLE_BDX_LOG_TRANSFER
	BDXDiagnosticLogsProvider gBDXDiagnosticLogsProvider;
	#endif // CHIP_CONFIG_ENABLE_BDX_LOG_TRANSFER

	} // anonymous namespace

	DiagnosticLogsServer DiagnosticLogsServer::sInstance;

	void DiagnosticLogsServer::SetDiagnosticLogsProviderDelegate(EndpointId endpoint, DiagnosticLogsProviderDelegate * delegate)
	{
	uint16_t ep = emberAfGetClusterServerEndpointIndex(endpoint, Id, MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT);
	if (ep < kDiagnosticLogsDiagnosticLogsProviderDelegateTableSize)
	{
	gDiagnosticLogsProviderDelegateTable[ep] = delegate;
	}
	}

	DiagnosticLogsServer & DiagnosticLogsServer::Instance()
	{
	return sInstance;
	}

	void DiagnosticLogsServer::HandleLogRequestForResponsePayload(CommandHandler * commandObj, const ConcreteCommandPath & path,
	IntentEnum intent, StatusEnum status)
	{
	// If there is no delegate, there is no mechanism to read the logs. Assume those are empty and return NoLogs
	auto * delegate = GetDiagnosticLogsProviderDelegate(path.mEndpointId);
	VerifyOrReturn(nullptr != delegate, AddResponse(commandObj, path, StatusEnum::kNoLogs));

	Platform::ScopedMemoryBuffer<uint8_t> buffer;
	VerifyOrReturn(buffer.Alloc(kMaxLogContentSize), AddResponse(commandObj, path, StatusEnum::kDenied));

	auto logContent = MutableByteSpan(buffer.Get(), kMaxLogContentSize);
	Optional<uint64_t> timeStamp;
	Optional<uint64_t> timeSinceBoot;

	auto size = delegate->GetSizeForIntent(intent);
	VerifyOrReturn(size != 0, AddResponse(commandObj, path, StatusEnum::kNoLogs));

	auto err = delegate->GetLogForIntent(intent, logContent, timeStamp, timeSinceBoot);
	VerifyOrReturn(CHIP_ERROR_NOT_FOUND != err, AddResponse(commandObj, path, StatusEnum::kNoLogs));
	VerifyOrReturn(CHIP_NO_ERROR == err, AddResponse(commandObj, path, StatusEnum::kDenied));

	AddResponse(commandObj, path, status, logContent, timeStamp, timeSinceBoot);
	}

	void DiagnosticLogsServer::HandleLogRequestForBdx(CommandHandler * commandObj, const ConcreteCommandPath & path, IntentEnum intent,
	Optional<CharSpan> transferFileDesignator)
	{
	// If the RequestedProtocol is set to BDX and there is no TransferFileDesignator the command SHALL fail with a Status Code of
	// INVALID_COMMAND.
	VerifyOrReturn(transferFileDesignator.HasValue(), commandObj->AddStatus(path, Status::InvalidCommand));

	VerifyOrReturn(transferFileDesignator.Value().size() <= kMaxFileDesignatorLen,
	commandObj->AddStatus(path, Status::ConstraintError));

	// If there is no delegate, there is no mechanism to read the logs. Assume those are empty and return NoLogs
	auto * delegate = GetDiagnosticLogsProviderDelegate(path.mEndpointId);
	VerifyOrReturn(nullptr != delegate, AddResponse(commandObj, path, StatusEnum::kNoLogs));

	auto size = delegate->GetSizeForIntent(intent);
	// In the case where the size is 0 sets the Status field of the RetrieveLogsResponse to NoLogs and do not start a BDX session.
	VerifyOrReturn(size != 0, HandleLogRequestForResponsePayload(commandObj, path, intent, StatusEnum::kNoLogs));

	// In the case where the Node is able to fit the entirety of the requested logs within the LogContent field, the Status field of
	// the RetrieveLogsResponse SHALL be set to Exhausted and a BDX session SHALL NOT be initiated.
	VerifyOrReturn(size > kMaxLogContentSize, HandleLogRequestForResponsePayload(commandObj, path, intent, StatusEnum::kExhausted));

	// If the RequestedProtocol is set to BDX and either the Node does not support BDX or it is not possible for the Node
	// to establish a BDX session, then the Node SHALL utilize the LogContent field of the RetrieveLogsResponse command
	// to transfer as much of the current logs as it can fit within the response, and the Status field of the
	// RetrieveLogsResponse SHALL be set to Exhausted.
	#if CHIP_CONFIG_ENABLE_BDX_LOG_TRANSFER
	VerifyOrReturn(!gBDXDiagnosticLogsProvider.IsBusy(), AddResponse(commandObj, path, StatusEnum::kBusy));
	auto err = gBDXDiagnosticLogsProvider.InitializeTransfer(commandObj, path, delegate, intent, transferFileDesignator.Value());
	VerifyOrReturn(CHIP_NO_ERROR == err, AddResponse(commandObj, path, StatusEnum::kDenied));
	#else
	HandleLogRequestForResponsePayload(commandObj, path, intent, StatusEnum::kExhausted);
	#endif // CHIP_CONFIG_ENABLE_BDX_LOG_TRANSFER
	}

	} // namespace DiagnosticLogs
	} // namespace Clusters
	} // namespace app
	} // namespace chip

	bool emberAfDiagnosticLogsClusterRetrieveLogsRequestCallback(chip::app::CommandHandler * commandObj,
	const chip::app::ConcreteCommandPath & commandPath,
	const Commands::RetrieveLogsRequest::DecodableType & commandData)
	{
	// If the Intent and/or the RequestedProtocol arguments contain invalid (out of range) values the command SHALL fail with a
	// Status Code of INVALID_COMMAND.
	auto intent = commandData.intent;
	auto protocol = commandData.requestedProtocol;
	if (intent == IntentEnum::kUnknownEnumValue \|\| protocol == TransferProtocolEnum::kUnknownEnumValue)
	{
	commandObj->AddStatus(commandPath, Status::InvalidCommand);
	return true;
	}

	auto instance = DiagnosticLogsServer::Instance();
	if (protocol == TransferProtocolEnum::kResponsePayload)
	{
	instance.HandleLogRequestForResponsePayload(commandObj, commandPath, intent);
	}
	else
	{
	instance.HandleLogRequestForBdx(commandObj, commandPath, intent, commandData.transferFileDesignator);
	}

	return true;
	}

	void MatterDiagnosticLogsPluginServerInitCallback() {}
	#endif // #ifdef MATTER_DM_DIAGNOSTIC_LOGS_CLUSTER_SERVER_ENDPOINT_COUNT