examples/chip-tool/commands/clusters/ReportCommand.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *   Copyright (c) 2020 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/tests/suites/commands/interaction_model/InteractionModel.h>

 #include "DataModelLogger.h"
 #include "ModelCommand.h"

 class ReportCommand : public InteractionModelReports, public ModelCommand, public chip::app::ReadClient::Callback
 {
 public:
     ReportCommand(const char * commandName, CredentialIssuerCommands * credsIssuerConfig) :
         InteractionModelReports(this), ModelCommand(commandName, credsIssuerConfig, /* supportsMultipleEndpoints = */ true)
     {}

     /////////// ReadClient Callback Interface /////////
     void OnAttributeData(const chip::app::ConcreteDataAttributePath & path, chip::TLV::TLVReader * data,
                          const chip::app::StatusIB & status) override
     {
         CHIP_ERROR error = status.ToChipError();
         if (CHIP_NO_ERROR != error)
         {
             ReturnOnFailure(RemoteDataModelLogger::LogErrorAsJSON(path, status));

             ChipLogError(chipTool, "Response Failure: %s", chip::ErrorStr(error));
             mError = error;
             return;
         }

         if (data == nullptr)
         {
             ChipLogError(chipTool, "Response Failure: No Data");
             mError = CHIP_ERROR_INTERNAL;
             return;
         }

         ReturnOnFailure(RemoteDataModelLogger::LogAttributeAsJSON(path, data));

         error = DataModelLogger::LogAttribute(path, data);
         if (CHIP_NO_ERROR != error)
         {
             ChipLogError(chipTool, "Response Failure: Can not decode Data");
             mError = error;
             return;
         }
     }

     void OnEventData(const chip::app::EventHeader & eventHeader, chip::TLV::TLVReader * data,
                      const chip::app::StatusIB * status) override
     {
         if (status != nullptr)
         {
             CHIP_ERROR error = status->ToChipError();
             if (CHIP_NO_ERROR != error)
             {
                 ReturnOnFailure(RemoteDataModelLogger::LogErrorAsJSON(eventHeader, *status));

                 ChipLogError(chipTool, "Response Failure: %s", chip::ErrorStr(error));
                 mError = error;
                 return;
             }
         }

         if (data == nullptr)
         {
             ChipLogError(chipTool, "Response Failure: No Data");
             mError = CHIP_ERROR_INTERNAL;
             return;
         }

         CHIP_ERROR error = DataModelLogger::LogEvent(eventHeader, data);
         if (CHIP_NO_ERROR != error)
         {
             ChipLogError(chipTool, "Response Failure: Can not decode Data");
             mError = error;
             return;
         }
     }

     void OnError(CHIP_ERROR error) override
     {
         ChipLogProgress(chipTool, "Error: %s", chip::ErrorStr(error));
         mError = error;
     }

     void OnDeallocatePaths(chip::app::ReadPrepareParams && aReadPrepareParams) override
     {
         InteractionModelReports::OnDeallocatePaths(std::move(aReadPrepareParams));
     }

     void Shutdown() override
     {
         // We don't shut down InteractionModelReports here; we leave it for
         // Cleanup to handle.
         mError = CHIP_NO_ERROR;
         ModelCommand::Shutdown();
     }

     void Cleanup() override { InteractionModelReports::Shutdown(); }

 protected:
     // Use a 3x-longer-than-default timeout because wildcard reads can take a
     // while.
     chip::System::Clock::Timeout GetWaitDuration() const override
     {
         return mTimeout.HasValue() ? chip::System::Clock::Seconds16(mTimeout.Value()) : (ModelCommand::GetWaitDuration() * 3);
     }

     CHIP_ERROR mError = CHIP_NO_ERROR;
 };

 class ReadCommand : public ReportCommand
 {
 protected:
     ReadCommand(const char * commandName, CredentialIssuerCommands * credsIssuerConfig) :
         ReportCommand(commandName, credsIssuerConfig)
     {}

     void OnDone(chip::app::ReadClient * aReadClient) override
     {
         InteractionModelReports::CleanupReadClient(aReadClient);
         SetCommandExitStatus(mError);
     }
 };

 class SubscribeCommand : public ReportCommand
 {
 protected:
     SubscribeCommand(const char * commandName, CredentialIssuerCommands * credsIssuerConfig) :
         ReportCommand(commandName, credsIssuerConfig)
     {}

     void OnSubscriptionEstablished(chip::SubscriptionId subscriptionId) override
     {
         mSubscriptionEstablished = true;
         SetCommandExitStatus(CHIP_NO_ERROR);
     }

     void OnDone(chip::app::ReadClient * aReadClient) override
     {
         InteractionModelReports::CleanupReadClient(aReadClient);

         if (!mSubscriptionEstablished)
         {
             SetCommandExitStatus(mError);
         }
         // else we must be getting here from Cleanup(), which means we have
         // already done our exit status thing.
     }

     void Shutdown() override
     {
         mSubscriptionEstablished = false;
         ReportCommand::Shutdown();
     }

     // For subscriptions we always defer interactive cleanup.  Either our
     // ReadClients will terminate themselves (in which case they will be removed
     // from our list anyway), or they should hang around until shutdown.
     bool DeferInteractiveCleanup() override { return true; }

 private:
     bool mSubscriptionEstablished = false;
 };

 class ReadAttribute : public ReadCommand
 {
 public:
     ReadAttribute(CredentialIssuerCommands * credsIssuerConfig) : ReadCommand("read-by-id", credsIssuerConfig)
     {
         AddArgument("cluster-ids", 0, UINT32_MAX, &mClusterIds,
                     "Comma-separated list of cluster ids to read from (e.g. \"6\" or \"8,0x201\").\n  Allowed to be 0xFFFFFFFF to "
                     "indicate a wildcard cluster.");
         AddAttributeIdArgument();
         AddCommonArguments();
         ReadCommand::AddArguments();
     }

     ReadAttribute(chip::ClusterId clusterId, CredentialIssuerCommands * credsIssuerConfig) :
         ReadCommand("read-by-id", credsIssuerConfig), mClusterIds(1, clusterId)
     {
         AddAttributeIdArgument();
         AddCommonArguments();
         ReadCommand::AddArguments();
     }

     ReadAttribute(chip::ClusterId clusterId, const char * attributeName, chip::AttributeId attributeId,
                   CredentialIssuerCommands * credsIssuerConfig) :
         ReadCommand("read", credsIssuerConfig),
         mClusterIds(1, clusterId), mAttributeIds(1, attributeId)
     {
         AddArgument("attr-name", attributeName);
         AddCommonArguments();
         ReadCommand::AddArguments();
     }

     ~ReadAttribute() {}

     CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
     {
         return ReadCommand::ReadAttribute(device, endpointIds, mClusterIds, mAttributeIds);
     }

 private:
     void AddAttributeIdArgument()
     {
         AddArgument("attribute-ids", 0, UINT32_MAX, &mAttributeIds,
                     "Comma-separated list of attribute ids to read (e.g. \"0\" or \"1,0xFFFC,0xFFFD\").\n  Allowed to be "
                     "0xFFFFFFFF to indicate a wildcard attribute.");
     }

     void AddCommonArguments()
     {
         AddArgument("fabric-filtered", 0, 1, &mFabricFiltered,
                     "Boolean indicating whether to do a fabric-filtered read. Defaults to true.");
         AddArgument("data-version", 0, UINT32_MAX, &mDataVersions,
                     "Comma-separated list of data versions for the clusters being read.");
     }

     std::vector<chip::ClusterId> mClusterIds;
     std::vector<chip::AttributeId> mAttributeIds;
 };

 class SubscribeAttribute : public SubscribeCommand
 {
 public:
     SubscribeAttribute(CredentialIssuerCommands * credsIssuerConfig) : SubscribeCommand("subscribe-by-id", credsIssuerConfig)
     {
         AddArgument("cluster-ids", 0, UINT32_MAX, &mClusterIds,
                     "Comma-separated list of cluster ids to subscribe to (e.g. \"6\" or \"8,0x201\").\n  Allowed to be 0xFFFFFFFF "
                     "to indicate a wildcard cluster.");
         AddAttributeIdArgument();
         AddCommonArguments();
         SubscribeCommand::AddArguments();
     }

     SubscribeAttribute(chip::ClusterId clusterId, CredentialIssuerCommands * credsIssuerConfig) :
         SubscribeCommand("subscribe-by-id", credsIssuerConfig), mClusterIds(1, clusterId)
     {
         AddAttributeIdArgument();
         AddCommonArguments();
         SubscribeCommand::AddArguments();
     }

     SubscribeAttribute(chip::ClusterId clusterId, const char * attributeName, chip::AttributeId attributeId,
                        CredentialIssuerCommands * credsIssuerConfig) :
         SubscribeCommand("subscribe", credsIssuerConfig),
         mClusterIds(1, clusterId), mAttributeIds(1, attributeId)
     {
         AddArgument("attr-name", attributeName);
         AddCommonArguments();
         SubscribeCommand::AddArguments();
     }

     ~SubscribeAttribute() {}

     CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
     {
         return SubscribeCommand::SubscribeAttribute(device, endpointIds, mClusterIds, mAttributeIds);
     }

 private:
     void AddAttributeIdArgument()
     {
         AddArgument("attribute-ids", 0, UINT32_MAX, &mAttributeIds,
                     "Comma-separated list of attribute ids to subscribe to (e.g. \"0\" or \"1,0xFFFC,0xFFFD\").\n  Allowed to be "
                     "0xFFFFFFFF to indicate a wildcard attribute.");
     }

     void AddCommonArguments()
     {
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval,
                     "Server should not send a new report if less than this number of seconds has elapsed since the last report.");
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval,
                     "Server must send a report if this number of seconds has elapsed since the last report.");
         AddArgument("fabric-filtered", 0, 1, &mFabricFiltered,
                     "Boolean indicating whether to do a fabric-filtered subscription. Defaults to true.");
         AddArgument("data-version", 0, UINT32_MAX, &mDataVersions,
                     "Comma-separated list of data versions for the clusters being subscribed to.");
         AddArgument("keepSubscriptions", 0, 1, &mKeepSubscriptions,
                     "Boolean indicating whether to keep existing subscriptions when creating the new one. Defaults to false.");
         AddArgument("auto-resubscribe", 0, 1, &mAutoResubscribe,
                     "Boolean indicating whether the subscription should auto-resubscribe.  Defaults to false.");
     }

     std::vector<chip::ClusterId> mClusterIds;
     std::vector<chip::AttributeId> mAttributeIds;
 };

 class ReadEvent : public ReadCommand
 {
 public:
     ReadEvent(CredentialIssuerCommands * credsIssuerConfig) : ReadCommand("read-event-by-id", credsIssuerConfig)
     {
         AddArgument("cluster-id", 0, UINT32_MAX, &mClusterIds);
         AddArgument("event-id", 0, UINT32_MAX, &mEventIds);
         AddArgument("fabric-filtered", 0, 1, &mFabricFiltered);
         AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
         ReadCommand::AddArguments();
     }

     ReadEvent(chip::ClusterId clusterId, CredentialIssuerCommands * credsIssuerConfig) :
         ReadCommand("read-event-by-id", credsIssuerConfig), mClusterIds(1, clusterId)
     {
         AddArgument("event-id", 0, UINT32_MAX, &mEventIds);
         AddArgument("fabric-filtered", 0, 1, &mFabricFiltered);
         AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
         ReadCommand::AddArguments();
     }

     ReadEvent(chip::ClusterId clusterId, const char * eventName, chip::EventId eventId,
               CredentialIssuerCommands * credsIssuerConfig) :
         ReadCommand("read-event", credsIssuerConfig),
         mClusterIds(1, clusterId), mEventIds(1, eventId)
     {
         AddArgument("event-name", eventName);
         AddArgument("fabric-filtered", 0, 1, &mFabricFiltered);
         AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
         ReadCommand::AddArguments();
     }

     ~ReadEvent() {}

     CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
     {
         return ReadCommand::ReadEvent(device, endpointIds, mClusterIds, mEventIds);
     }

 private:
     std::vector<chip::ClusterId> mClusterIds;
     std::vector<chip::EventId> mEventIds;
 };

 class SubscribeEvent : public SubscribeCommand
 {
 public:
     SubscribeEvent(CredentialIssuerCommands * credsIssuerConfig) : SubscribeCommand("subscribe-event-by-id", credsIssuerConfig)
     {
         AddArgument("cluster-id", 0, UINT32_MAX, &mClusterIds);
         AddArgument("event-id", 0, UINT32_MAX, &mEventIds);
         AddCommonArguments();
         SubscribeCommand::AddArguments();
     }

     SubscribeEvent(chip::ClusterId clusterId, CredentialIssuerCommands * credsIssuerConfig) :
         SubscribeCommand("subscribe-event-by-id", credsIssuerConfig), mClusterIds(1, clusterId)
     {
         AddArgument("event-id", 0, UINT32_MAX, &mEventIds);
         AddCommonArguments();
         SubscribeCommand::AddArguments();
     }

     SubscribeEvent(chip::ClusterId clusterId, const char * eventName, chip::EventId eventId,
                    CredentialIssuerCommands * credsIssuerConfig) :
         SubscribeCommand("subscribe-event", credsIssuerConfig),
         mClusterIds(1, clusterId), mEventIds(1, eventId)
     {
         AddArgument("event-name", eventName, "Event name.");
         AddCommonArguments();
         SubscribeCommand::AddArguments();
     }

     void AddCommonArguments()
     {
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval,
                     "The requested minimum interval between reports. Sets MinIntervalFloor in the Subscribe Request.");
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval,
                     "The requested maximum interval between reports. Sets MaxIntervalCeiling in the Subscribe Request.");
         AddArgument("fabric-filtered", 0, 1, &mFabricFiltered);
         AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
         AddArgument("keepSubscriptions", 0, 1, &mKeepSubscriptions,
                     "false - Terminate existing subscriptions from initiator.\n  true - Leave existing subscriptions in place.");
         AddArgument(
             "is-urgent", 0, 1, &mIsUrgents,
             "Sets isUrgent in the Subscribe Request.\n"
             "  The queueing of any urgent event SHALL force an immediate generation of reports containing all events queued "
             "leading up to (and including) the urgent event in question.\n"
             "  This argument takes a comma separated list of true/false values.\n"
             "  If the number of paths exceeds the number of entries provided to is-urgent, then isUrgent will be false for the "
             "extra paths.");
         AddArgument("auto-resubscribe", 0, 1, &mAutoResubscribe,
                     "Boolean indicating whether the subscription should auto-resubscribe.  Defaults to false.");
     }

     ~SubscribeEvent() {}

     CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
     {
         return SubscribeCommand::SubscribeEvent(device, endpointIds, mClusterIds, mEventIds);
     }

 private:
     std::vector<chip::ClusterId> mClusterIds;
     std::vector<chip::EventId> mEventIds;
 };

 class ReadAll : public ReadCommand
 {
 public:
     ReadAll(CredentialIssuerCommands * credsIssuerConfig) : ReadCommand("read-all", credsIssuerConfig)
     {
         AddArgument("cluster-ids", 0, UINT32_MAX, &mClusterIds,
                     "Comma-separated list of cluster ids to read from (e.g. \"6\" or \"8,0x201\").\n  Allowed to be 0xFFFFFFFF to "
                     "indicate a wildcard cluster.");
         AddArgument("attribute-ids", 0, UINT32_MAX, &mAttributeIds,
                     "Comma-separated list of attribute ids to read (e.g. \"0\" or \"1,0xFFFC,0xFFFD\").\n  Allowed to be "
                     "0xFFFFFFFF to indicate a wildcard attribute.");
         AddArgument("event-ids", 0, UINT32_MAX, &mEventIds,
                     "Comma-separated list of event ids to read (e.g. \"0\" or \"1,2,3\").\n  Allowed to be "
                     "0xFFFFFFFF to indicate a wildcard event.");
         AddArgument("fabric-filtered", 0, 1, &mFabricFiltered,
                     "Boolean indicating whether to do a fabric-filtered read. Defaults to true.");
         AddArgument("data-versions", 0, UINT32_MAX, &mDataVersions,
                     "Comma-separated list of data versions for the clusters being read.");
         AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
         ReadCommand::AddArguments();
     }

     ~ReadAll() {}

     void OnDone(chip::app::ReadClient * aReadClient) override
     {
         InteractionModelReports::CleanupReadClient(aReadClient);
         SetCommandExitStatus(mError);
     }

     CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
     {
         return ReadCommand::ReadAll(device, endpointIds, mClusterIds, mAttributeIds, mEventIds);
     }

 private:
     std::vector<chip::ClusterId> mClusterIds;
     std::vector<chip::AttributeId> mAttributeIds;
     std::vector<chip::EventId> mEventIds;
 };

 class SubscribeAll : public SubscribeCommand
 {
 public:
     SubscribeAll(CredentialIssuerCommands * credsIssuerConfig) : SubscribeCommand("subscribe-all", credsIssuerConfig)
     {
         AddArgument("cluster-ids", 0, UINT32_MAX, &mClusterIds,
                     "Comma-separated list of cluster ids to read from (e.g. \"6\" or \"8,0x201\").\n  Allowed to be 0xFFFFFFFF to "
                     "indicate a wildcard cluster.");
         AddArgument("attribute-ids", 0, UINT32_MAX, &mAttributeIds,
                     "Comma-separated list of attribute ids to read (e.g. \"0\" or \"1,0xFFFC,0xFFFD\").\n  Allowed to be "
                     "0xFFFFFFFF to indicate a wildcard attribute.");
         AddArgument("event-ids", 0, UINT32_MAX, &mEventIds,
                     "Comma-separated list of event ids to read (e.g. \"0\" or \"1,2,3\").\n  Allowed to be "
                     "0xFFFFFFFF to indicate a wildcard event.");
         AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval,
                     "The requested minimum interval between reports. Sets MinIntervalFloor in the Subscribe Request.");
         AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval,
                     "The requested maximum interval between reports. Sets MaxIntervalCeiling in the Subscribe Request.");
         AddArgument("fabric-filtered", 0, 1, &mFabricFiltered,
                     "Boolean indicating whether to do a fabric-filtered read. Defaults to true.");
         AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
         AddArgument("keepSubscriptions", 0, 1, &mKeepSubscriptions,
                     "false - Terminate existing subscriptions from initiator.\n  true - Leave existing subscriptions in place.");
         SubscribeCommand::AddArguments();
     }

     ~SubscribeAll() {}

     CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
     {
         return SubscribeCommand::SubscribeAll(device, endpointIds, mClusterIds, mAttributeIds, mEventIds);
     }

 private:
     std::vector<chip::ClusterId> mClusterIds;
     std::vector<chip::AttributeId> mAttributeIds;
     std::vector<chip::EventId> mEventIds;
 };
	/*
	* Copyright (c) 2020 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/tests/suites/commands/interaction_model/InteractionModel.h>

	#include "DataModelLogger.h"
	#include "ModelCommand.h"

	class ReportCommand : public InteractionModelReports, public ModelCommand, public chip::app::ReadClient::Callback
	{
	public:
	ReportCommand(const char * commandName, CredentialIssuerCommands * credsIssuerConfig) :
	InteractionModelReports(this), ModelCommand(commandName, credsIssuerConfig, /* supportsMultipleEndpoints = */ true)
	{}

	/////////// ReadClient Callback Interface /////////
	void OnAttributeData(const chip::app::ConcreteDataAttributePath & path, chip::TLV::TLVReader * data,
	const chip::app::StatusIB & status) override
	{
	CHIP_ERROR error = status.ToChipError();
	if (CHIP_NO_ERROR != error)
	{
	ReturnOnFailure(RemoteDataModelLogger::LogErrorAsJSON(path, status));

	ChipLogError(chipTool, "Response Failure: %s", chip::ErrorStr(error));
	mError = error;
	return;
	}

	if (data == nullptr)
	{
	ChipLogError(chipTool, "Response Failure: No Data");
	mError = CHIP_ERROR_INTERNAL;
	return;
	}

	ReturnOnFailure(RemoteDataModelLogger::LogAttributeAsJSON(path, data));

	error = DataModelLogger::LogAttribute(path, data);
	if (CHIP_NO_ERROR != error)
	{
	ChipLogError(chipTool, "Response Failure: Can not decode Data");
	mError = error;
	return;
	}
	}

	void OnEventData(const chip::app::EventHeader & eventHeader, chip::TLV::TLVReader * data,
	const chip::app::StatusIB * status) override
	{
	if (status != nullptr)
	{
	CHIP_ERROR error = status->ToChipError();
	if (CHIP_NO_ERROR != error)
	{
	ReturnOnFailure(RemoteDataModelLogger::LogErrorAsJSON(eventHeader, *status));

	ChipLogError(chipTool, "Response Failure: %s", chip::ErrorStr(error));
	mError = error;
	return;
	}
	}

	if (data == nullptr)
	{
	ChipLogError(chipTool, "Response Failure: No Data");
	mError = CHIP_ERROR_INTERNAL;
	return;
	}

	CHIP_ERROR error = DataModelLogger::LogEvent(eventHeader, data);
	if (CHIP_NO_ERROR != error)
	{
	ChipLogError(chipTool, "Response Failure: Can not decode Data");
	mError = error;
	return;
	}
	}

	void OnError(CHIP_ERROR error) override
	{
	ChipLogProgress(chipTool, "Error: %s", chip::ErrorStr(error));
	mError = error;
	}

	void OnDeallocatePaths(chip::app::ReadPrepareParams && aReadPrepareParams) override
	{
	InteractionModelReports::OnDeallocatePaths(std::move(aReadPrepareParams));
	}

	void Shutdown() override
	{
	// We don't shut down InteractionModelReports here; we leave it for
	// Cleanup to handle.
	mError = CHIP_NO_ERROR;
	ModelCommand::Shutdown();
	}

	void Cleanup() override { InteractionModelReports::Shutdown(); }

	protected:
	// Use a 3x-longer-than-default timeout because wildcard reads can take a
	// while.
	chip::System::Clock::Timeout GetWaitDuration() const override
	{
	return mTimeout.HasValue() ? chip::System::Clock::Seconds16(mTimeout.Value()) : (ModelCommand::GetWaitDuration() * 3);
	}

	CHIP_ERROR mError = CHIP_NO_ERROR;
	};

	class ReadCommand : public ReportCommand
	{
	protected:
	ReadCommand(const char * commandName, CredentialIssuerCommands * credsIssuerConfig) :
	ReportCommand(commandName, credsIssuerConfig)
	{}

	void OnDone(chip::app::ReadClient * aReadClient) override
	{
	InteractionModelReports::CleanupReadClient(aReadClient);
	SetCommandExitStatus(mError);
	}
	};

	class SubscribeCommand : public ReportCommand
	{
	protected:
	SubscribeCommand(const char * commandName, CredentialIssuerCommands * credsIssuerConfig) :
	ReportCommand(commandName, credsIssuerConfig)
	{}

	void OnSubscriptionEstablished(chip::SubscriptionId subscriptionId) override
	{
	mSubscriptionEstablished = true;
	SetCommandExitStatus(CHIP_NO_ERROR);
	}

	void OnDone(chip::app::ReadClient * aReadClient) override
	{
	InteractionModelReports::CleanupReadClient(aReadClient);

	if (!mSubscriptionEstablished)
	{
	SetCommandExitStatus(mError);
	}
	// else we must be getting here from Cleanup(), which means we have
	// already done our exit status thing.
	}

	void Shutdown() override
	{
	mSubscriptionEstablished = false;
	ReportCommand::Shutdown();
	}

	// For subscriptions we always defer interactive cleanup. Either our
	// ReadClients will terminate themselves (in which case they will be removed
	// from our list anyway), or they should hang around until shutdown.
	bool DeferInteractiveCleanup() override { return true; }

	private:
	bool mSubscriptionEstablished = false;
	};

	class ReadAttribute : public ReadCommand
	{
	public:
	ReadAttribute(CredentialIssuerCommands * credsIssuerConfig) : ReadCommand("read-by-id", credsIssuerConfig)
	{
	AddArgument("cluster-ids", 0, UINT32_MAX, &mClusterIds,
	"Comma-separated list of cluster ids to read from (e.g. \"6\" or \"8,0x201\").\n Allowed to be 0xFFFFFFFF to "
	"indicate a wildcard cluster.");
	AddAttributeIdArgument();
	AddCommonArguments();
	ReadCommand::AddArguments();
	}

	ReadAttribute(chip::ClusterId clusterId, CredentialIssuerCommands * credsIssuerConfig) :
	ReadCommand("read-by-id", credsIssuerConfig), mClusterIds(1, clusterId)
	{
	AddAttributeIdArgument();
	AddCommonArguments();
	ReadCommand::AddArguments();
	}

	ReadAttribute(chip::ClusterId clusterId, const char * attributeName, chip::AttributeId attributeId,
	CredentialIssuerCommands * credsIssuerConfig) :
	ReadCommand("read", credsIssuerConfig),
	mClusterIds(1, clusterId), mAttributeIds(1, attributeId)
	{
	AddArgument("attr-name", attributeName);
	AddCommonArguments();
	ReadCommand::AddArguments();
	}

	~ReadAttribute() {}

	CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
	{
	return ReadCommand::ReadAttribute(device, endpointIds, mClusterIds, mAttributeIds);
	}

	private:
	void AddAttributeIdArgument()
	{
	AddArgument("attribute-ids", 0, UINT32_MAX, &mAttributeIds,
	"Comma-separated list of attribute ids to read (e.g. \"0\" or \"1,0xFFFC,0xFFFD\").\n Allowed to be "
	"0xFFFFFFFF to indicate a wildcard attribute.");
	}

	void AddCommonArguments()
	{
	AddArgument("fabric-filtered", 0, 1, &mFabricFiltered,
	"Boolean indicating whether to do a fabric-filtered read. Defaults to true.");
	AddArgument("data-version", 0, UINT32_MAX, &mDataVersions,
	"Comma-separated list of data versions for the clusters being read.");
	}

	std::vector<chip::ClusterId> mClusterIds;
	std::vector<chip::AttributeId> mAttributeIds;
	};

	class SubscribeAttribute : public SubscribeCommand
	{
	public:
	SubscribeAttribute(CredentialIssuerCommands * credsIssuerConfig) : SubscribeCommand("subscribe-by-id", credsIssuerConfig)
	{
	AddArgument("cluster-ids", 0, UINT32_MAX, &mClusterIds,
	"Comma-separated list of cluster ids to subscribe to (e.g. \"6\" or \"8,0x201\").\n Allowed to be 0xFFFFFFFF "
	"to indicate a wildcard cluster.");
	AddAttributeIdArgument();
	AddCommonArguments();
	SubscribeCommand::AddArguments();
	}

	SubscribeAttribute(chip::ClusterId clusterId, CredentialIssuerCommands * credsIssuerConfig) :
	SubscribeCommand("subscribe-by-id", credsIssuerConfig), mClusterIds(1, clusterId)
	{
	AddAttributeIdArgument();
	AddCommonArguments();
	SubscribeCommand::AddArguments();
	}

	SubscribeAttribute(chip::ClusterId clusterId, const char * attributeName, chip::AttributeId attributeId,
	CredentialIssuerCommands * credsIssuerConfig) :
	SubscribeCommand("subscribe", credsIssuerConfig),
	mClusterIds(1, clusterId), mAttributeIds(1, attributeId)
	{
	AddArgument("attr-name", attributeName);
	AddCommonArguments();
	SubscribeCommand::AddArguments();
	}

	~SubscribeAttribute() {}

	CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
	{
	return SubscribeCommand::SubscribeAttribute(device, endpointIds, mClusterIds, mAttributeIds);
	}

	private:
	void AddAttributeIdArgument()
	{
	AddArgument("attribute-ids", 0, UINT32_MAX, &mAttributeIds,
	"Comma-separated list of attribute ids to subscribe to (e.g. \"0\" or \"1,0xFFFC,0xFFFD\").\n Allowed to be "
	"0xFFFFFFFF to indicate a wildcard attribute.");
	}

	void AddCommonArguments()
	{
	AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval,
	"Server should not send a new report if less than this number of seconds has elapsed since the last report.");
	AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval,
	"Server must send a report if this number of seconds has elapsed since the last report.");
	AddArgument("fabric-filtered", 0, 1, &mFabricFiltered,
	"Boolean indicating whether to do a fabric-filtered subscription. Defaults to true.");
	AddArgument("data-version", 0, UINT32_MAX, &mDataVersions,
	"Comma-separated list of data versions for the clusters being subscribed to.");
	AddArgument("keepSubscriptions", 0, 1, &mKeepSubscriptions,
	"Boolean indicating whether to keep existing subscriptions when creating the new one. Defaults to false.");
	AddArgument("auto-resubscribe", 0, 1, &mAutoResubscribe,
	"Boolean indicating whether the subscription should auto-resubscribe. Defaults to false.");
	}

	std::vector<chip::ClusterId> mClusterIds;
	std::vector<chip::AttributeId> mAttributeIds;
	};

	class ReadEvent : public ReadCommand
	{
	public:
	ReadEvent(CredentialIssuerCommands * credsIssuerConfig) : ReadCommand("read-event-by-id", credsIssuerConfig)
	{
	AddArgument("cluster-id", 0, UINT32_MAX, &mClusterIds);
	AddArgument("event-id", 0, UINT32_MAX, &mEventIds);
	AddArgument("fabric-filtered", 0, 1, &mFabricFiltered);
	AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
	ReadCommand::AddArguments();
	}

	ReadEvent(chip::ClusterId clusterId, CredentialIssuerCommands * credsIssuerConfig) :
	ReadCommand("read-event-by-id", credsIssuerConfig), mClusterIds(1, clusterId)
	{
	AddArgument("event-id", 0, UINT32_MAX, &mEventIds);
	AddArgument("fabric-filtered", 0, 1, &mFabricFiltered);
	AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
	ReadCommand::AddArguments();
	}

	ReadEvent(chip::ClusterId clusterId, const char * eventName, chip::EventId eventId,
	CredentialIssuerCommands * credsIssuerConfig) :
	ReadCommand("read-event", credsIssuerConfig),
	mClusterIds(1, clusterId), mEventIds(1, eventId)
	{
	AddArgument("event-name", eventName);
	AddArgument("fabric-filtered", 0, 1, &mFabricFiltered);
	AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
	ReadCommand::AddArguments();
	}

	~ReadEvent() {}

	CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
	{
	return ReadCommand::ReadEvent(device, endpointIds, mClusterIds, mEventIds);
	}

	private:
	std::vector<chip::ClusterId> mClusterIds;
	std::vector<chip::EventId> mEventIds;
	};

	class SubscribeEvent : public SubscribeCommand
	{
	public:
	SubscribeEvent(CredentialIssuerCommands * credsIssuerConfig) : SubscribeCommand("subscribe-event-by-id", credsIssuerConfig)
	{
	AddArgument("cluster-id", 0, UINT32_MAX, &mClusterIds);
	AddArgument("event-id", 0, UINT32_MAX, &mEventIds);
	AddCommonArguments();
	SubscribeCommand::AddArguments();
	}

	SubscribeEvent(chip::ClusterId clusterId, CredentialIssuerCommands * credsIssuerConfig) :
	SubscribeCommand("subscribe-event-by-id", credsIssuerConfig), mClusterIds(1, clusterId)
	{
	AddArgument("event-id", 0, UINT32_MAX, &mEventIds);
	AddCommonArguments();
	SubscribeCommand::AddArguments();
	}

	SubscribeEvent(chip::ClusterId clusterId, const char * eventName, chip::EventId eventId,
	CredentialIssuerCommands * credsIssuerConfig) :
	SubscribeCommand("subscribe-event", credsIssuerConfig),
	mClusterIds(1, clusterId), mEventIds(1, eventId)
	{
	AddArgument("event-name", eventName, "Event name.");
	AddCommonArguments();
	SubscribeCommand::AddArguments();
	}

	void AddCommonArguments()
	{
	AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval,
	"The requested minimum interval between reports. Sets MinIntervalFloor in the Subscribe Request.");
	AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval,
	"The requested maximum interval between reports. Sets MaxIntervalCeiling in the Subscribe Request.");
	AddArgument("fabric-filtered", 0, 1, &mFabricFiltered);
	AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
	AddArgument("keepSubscriptions", 0, 1, &mKeepSubscriptions,
	"false - Terminate existing subscriptions from initiator.\n true - Leave existing subscriptions in place.");
	AddArgument(
	"is-urgent", 0, 1, &mIsUrgents,
	"Sets isUrgent in the Subscribe Request.\n"
	" The queueing of any urgent event SHALL force an immediate generation of reports containing all events queued "
	"leading up to (and including) the urgent event in question.\n"
	" This argument takes a comma separated list of true/false values.\n"
	" If the number of paths exceeds the number of entries provided to is-urgent, then isUrgent will be false for the "
	"extra paths.");
	AddArgument("auto-resubscribe", 0, 1, &mAutoResubscribe,
	"Boolean indicating whether the subscription should auto-resubscribe. Defaults to false.");
	}

	~SubscribeEvent() {}

	CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
	{
	return SubscribeCommand::SubscribeEvent(device, endpointIds, mClusterIds, mEventIds);
	}

	private:
	std::vector<chip::ClusterId> mClusterIds;
	std::vector<chip::EventId> mEventIds;
	};

	class ReadAll : public ReadCommand
	{
	public:
	ReadAll(CredentialIssuerCommands * credsIssuerConfig) : ReadCommand("read-all", credsIssuerConfig)
	{
	AddArgument("cluster-ids", 0, UINT32_MAX, &mClusterIds,
	"Comma-separated list of cluster ids to read from (e.g. \"6\" or \"8,0x201\").\n Allowed to be 0xFFFFFFFF to "
	"indicate a wildcard cluster.");
	AddArgument("attribute-ids", 0, UINT32_MAX, &mAttributeIds,
	"Comma-separated list of attribute ids to read (e.g. \"0\" or \"1,0xFFFC,0xFFFD\").\n Allowed to be "
	"0xFFFFFFFF to indicate a wildcard attribute.");
	AddArgument("event-ids", 0, UINT32_MAX, &mEventIds,
	"Comma-separated list of event ids to read (e.g. \"0\" or \"1,2,3\").\n Allowed to be "
	"0xFFFFFFFF to indicate a wildcard event.");
	AddArgument("fabric-filtered", 0, 1, &mFabricFiltered,
	"Boolean indicating whether to do a fabric-filtered read. Defaults to true.");
	AddArgument("data-versions", 0, UINT32_MAX, &mDataVersions,
	"Comma-separated list of data versions for the clusters being read.");
	AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
	ReadCommand::AddArguments();
	}

	~ReadAll() {}

	void OnDone(chip::app::ReadClient * aReadClient) override
	{
	InteractionModelReports::CleanupReadClient(aReadClient);
	SetCommandExitStatus(mError);
	}

	CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
	{
	return ReadCommand::ReadAll(device, endpointIds, mClusterIds, mAttributeIds, mEventIds);
	}

	private:
	std::vector<chip::ClusterId> mClusterIds;
	std::vector<chip::AttributeId> mAttributeIds;
	std::vector<chip::EventId> mEventIds;
	};

	class SubscribeAll : public SubscribeCommand
	{
	public:
	SubscribeAll(CredentialIssuerCommands * credsIssuerConfig) : SubscribeCommand("subscribe-all", credsIssuerConfig)
	{
	AddArgument("cluster-ids", 0, UINT32_MAX, &mClusterIds,
	"Comma-separated list of cluster ids to read from (e.g. \"6\" or \"8,0x201\").\n Allowed to be 0xFFFFFFFF to "
	"indicate a wildcard cluster.");
	AddArgument("attribute-ids", 0, UINT32_MAX, &mAttributeIds,
	"Comma-separated list of attribute ids to read (e.g. \"0\" or \"1,0xFFFC,0xFFFD\").\n Allowed to be "
	"0xFFFFFFFF to indicate a wildcard attribute.");
	AddArgument("event-ids", 0, UINT32_MAX, &mEventIds,
	"Comma-separated list of event ids to read (e.g. \"0\" or \"1,2,3\").\n Allowed to be "
	"0xFFFFFFFF to indicate a wildcard event.");
	AddArgument("min-interval", 0, UINT16_MAX, &mMinInterval,
	"The requested minimum interval between reports. Sets MinIntervalFloor in the Subscribe Request.");
	AddArgument("max-interval", 0, UINT16_MAX, &mMaxInterval,
	"The requested maximum interval between reports. Sets MaxIntervalCeiling in the Subscribe Request.");
	AddArgument("fabric-filtered", 0, 1, &mFabricFiltered,
	"Boolean indicating whether to do a fabric-filtered read. Defaults to true.");
	AddArgument("event-min", 0, UINT64_MAX, &mEventNumber);
	AddArgument("keepSubscriptions", 0, 1, &mKeepSubscriptions,
	"false - Terminate existing subscriptions from initiator.\n true - Leave existing subscriptions in place.");
	SubscribeCommand::AddArguments();
	}

	~SubscribeAll() {}

	CHIP_ERROR SendCommand(chip::DeviceProxy * device, std::vector<chip::EndpointId> endpointIds) override
	{
	return SubscribeCommand::SubscribeAll(device, endpointIds, mClusterIds, mAttributeIds, mEventIds);
	}

	private:
	std::vector<chip::ClusterId> mClusterIds;
	std::vector<chip::AttributeId> mAttributeIds;
	std::vector<chip::EventId> mEventIds;
	};