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/*
*
* 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.
*/
/**
* @file
* A handler for incoming Invoke interactions.
*
* Allows adding responses to be sent in an InvokeResponse: see the various
* "Add*" methods.
*
* Allows adding the responses asynchronously. See the documentation
* for the CommandHandler::Handle class below.
*
*/
#pragma once
#include "CommandPathRegistry.h"
#include "CommandResponseSender.h"
#include <app/ConcreteCommandPath.h>
#include <app/data-model/Encode.h>
#include <lib/core/CHIPCore.h>
#include <lib/core/TLV.h>
#include <lib/core/TLVDebug.h>
#include <lib/support/BitFlags.h>
#include <lib/support/CodeUtils.h>
#include <lib/support/DLLUtil.h>
#include <lib/support/Scoped.h>
#include <lib/support/logging/CHIPLogging.h>
#include <messaging/ExchangeHolder.h>
#include <messaging/Flags.h>
#include <protocols/Protocols.h>
#include <protocols/interaction_model/Constants.h>
#include <system/SystemPacketBuffer.h>
#include <system/TLVPacketBufferBackingStore.h>
#include <app/MessageDef/InvokeRequestMessage.h>
#include <app/MessageDef/InvokeResponseMessage.h>
namespace chip {
namespace app {
class CommandHandler
{
public:
class Callback
{
public:
virtual ~Callback() = default;
/*
* Method that signals to a registered callback that this object
* has completed doing useful work and is now safe for release/destruction.
*/
virtual void OnDone(CommandHandler & apCommandObj) = 0;
/*
* Upon processing of a CommandDataIB, this method is invoked to dispatch the command
* to the right server-side handler provided by the application.
*/
virtual void DispatchCommand(CommandHandler & apCommandObj, const ConcreteCommandPath & aCommandPath,
TLV::TLVReader & apPayload) = 0;
/*
* Check to see if a command implementation exists for a specific
* concrete command path. If it does, Success will be returned. If
* not, one of UnsupportedEndpoint, UnsupportedCluster, or
* UnsupportedCommand will be returned, depending on how the command
* fails to exist.
*/
virtual Protocols::InteractionModel::Status CommandExists(const ConcreteCommandPath & aCommandPath) = 0;
};
/**
* Class that allows asynchronous command processing before sending a
* response. When such processing is desired:
*
* 1) Create a Handle initialized with the CommandHandler that delivered the
* incoming command.
* 2) Ensure the Handle, or some Handle it's moved into via the move
* constructor or move assignment operator, remains alive during the
* course of the asynchronous processing.
* 3) Ensure that the ConcreteCommandPath involved will be known when
* sending the response.
* 4) When ready to send the response:
* * Ensure that no other Matter tasks are running in parallel (e.g. by
* running on the Matter event loop or holding the Matter stack lock).
* * Call Get() to get the CommandHandler.
* * Check that Get() did not return null.
* * Add the response to the CommandHandler via one of the Add* methods.
* * Let the Handle get destroyed, or manually call Handle::Release() if
* destruction of the Handle is not desirable for some reason.
*
* The Invoke Response will not be sent until all outstanding Handles have
* been destroyed or have had Release called.
*/
class Handle
{
public:
Handle() {}
Handle(const Handle & handle) = delete;
Handle(Handle && handle)
{
mpHandler = handle.mpHandler;
mMagic = handle.mMagic;
handle.mpHandler = nullptr;
handle.mMagic = 0;
}
Handle(decltype(nullptr)) {}
Handle(CommandHandler * handle);
~Handle() { Release(); }
Handle & operator=(Handle && handle)
{
Release();
mpHandler = handle.mpHandler;
mMagic = handle.mMagic;
handle.mpHandler = nullptr;
handle.mMagic = 0;
return *this;
}
Handle & operator=(decltype(nullptr))
{
Release();
return *this;
}
/**
* Get the CommandHandler object it holds. Get() may return a nullptr if the CommandHandler object is holds is no longer
* valid.
*/
CommandHandler * Get();
void Release();
private:
CommandHandler * mpHandler = nullptr;
uint32_t mMagic = 0;
};
// Previously we kept adding arguments with default values individually as parameters. This is because there
// is legacy code outside of the SDK that would call PrepareCommand. With the new PrepareInvokeResponseCommand
// replacing PrepareCommand, we took this opportunity to create a new parameter structure to make it easier to
// add new parameters without there needing to be an ever increasing parameter list with defaults.
struct InvokeResponseParameters
{
InvokeResponseParameters(ConcreteCommandPath aRequestCommandPath) : mRequestCommandPath(aRequestCommandPath) {}
InvokeResponseParameters & SetStartOrEndDataStruct(bool aStartOrEndDataStruct)
{
mStartOrEndDataStruct = aStartOrEndDataStruct;
return *this;
}
ConcreteCommandPath mRequestCommandPath;
/**
* Whether the method this is being provided to should start/end the TLV container for the CommandFields element
* within CommandDataIB.
*/
bool mStartOrEndDataStruct = true;
};
class TestOnlyMarker
{
};
/*
* Constructor.
*
* The callback passed in has to outlive this CommandHandler object.
*/
CommandHandler(Callback * apCallback);
/*
* Constructor to override number of supported paths per invoke.
*
* The callback and command path registry passed in has to outlive this CommandHandler object.
* For testing purposes.
*/
CommandHandler(TestOnlyMarker aTestMarker, Callback * apCallback, CommandPathRegistry * apCommandPathRegistry);
/*
* Main entrypoint for this class to handle an invoke request.
*
* This function will always call the OnDone function above on the registered callback
* before returning.
*
* isTimedInvoke is true if and only if this is part of a Timed Invoke
* transaction (i.e. was preceded by a Timed Request). If we reach here,
* the timer verification has already been done.
*/
void OnInvokeCommandRequest(Messaging::ExchangeContext * ec, const PayloadHeader & payloadHeader,
System::PacketBufferHandle && payload, bool isTimedInvoke);
/**
* Checks that all CommandDataIB within InvokeRequests satisfy the spec's general
* constraints for CommandDataIB. Additionally checks that InvokeRequestMessage is
* properly formatted.
*
* This also builds a registry that to ensure that all commands can be responded
* to with the data required as per spec.
*/
CHIP_ERROR ValidateInvokeRequestMessageAndBuildRegistry(InvokeRequestMessage::Parser & invokeRequestMessage);
/**
* Adds the given command status and returns any failures in adding statuses (e.g. out
* of buffer space) to the caller
*/
CHIP_ERROR FallibleAddStatus(const ConcreteCommandPath & aCommandPath, const Protocols::InteractionModel::Status aStatus,
const char * context = nullptr);
/**
* Adds a status when the caller is unable to handle any failures. Logging is performed
* and failure to register the status is checked with VerifyOrDie.
*/
void AddStatus(const ConcreteCommandPath & aCommandPath, const Protocols::InteractionModel::Status aStatus,
const char * context = nullptr);
CHIP_ERROR AddClusterSpecificSuccess(const ConcreteCommandPath & aCommandPath, ClusterStatus aClusterStatus);
CHIP_ERROR AddClusterSpecificFailure(const ConcreteCommandPath & aCommandPath, ClusterStatus aClusterStatus);
Protocols::InteractionModel::Status ProcessInvokeRequest(System::PacketBufferHandle && payload, bool isTimedInvoke);
/**
* This adds a new CommandDataIB element into InvokeResponses for the associated
* aRequestCommandPath. This adds up until the `CommandFields` element within
* `CommandDataIB`.
*
* This call will fail if CommandHandler is already in the middle of building a
* CommandStatusIB or CommandDataIB (i.e. something has called Prepare*, without
* calling Finish*), or is already sending InvokeResponseMessage.
*
* Upon success, the caller is expected to call `FinishCommand` once they have added
* all the fields into the CommandFields element of CommandDataIB.
*
* @param [in] aResponseCommandPath the concrete response path that we are sending to Requester.
* @param [in] aPrepareParameters struct containing paramters needs for preparing a command. Data
* such as request path, and whether this method should start the CommandFields element within
* CommandDataIB.
*/
CHIP_ERROR PrepareInvokeResponseCommand(const ConcreteCommandPath & aResponseCommandPath,
const InvokeResponseParameters & aPrepareParameters);
[[deprecated("PrepareCommand now needs the requested command path. Please use PrepareInvokeResponseCommand")]] CHIP_ERROR
PrepareCommand(const ConcreteCommandPath & aCommandPath, bool aStartDataStruct = true);
/**
* Finishes the CommandDataIB element within the InvokeResponses.
*
* Caller must have first successfully called `PrepareInvokeResponseCommand`.
*
* @param [in] aEndDataStruct end the TLV container for the CommandFields element within
* CommandDataIB. This should match the boolean passed into Prepare*.
*
* @return CHIP_ERROR_INCORRECT_STATE
* If device has not previously successfully called
* `PrepareInvokeResponseCommand`.
* @return CHIP_ERROR_BUFFER_TOO_SMALL
* If writing the values needed to finish the InvokeReponseIB
* with the current contents of the InvokeResponseMessage
* would exceed the limit. When this error occurs, it is possible
* we have already closed some of the IB Builders that were
* previously started in `PrepareInvokeResponseCommand`.
* @return CHIP_ERROR_NO_MEMORY
* If TLVWriter attempted to allocate an output buffer failed due to
* lack of memory.
* @return other Other TLVWriter related errors. Typically occurs if
* `GetCommandDataIBTLVWriter()` was called and used incorrectly.
*/
// TODO(#30453): We should be able to eliminate the chances of OOM issues with reserve.
// This will be completed in a follow up PR.
CHIP_ERROR FinishCommand(bool aEndDataStruct = true);
TLV::TLVWriter * GetCommandDataIBTLVWriter();
/**
* GetAccessingFabricIndex() may only be called during synchronous command
* processing. Anything that runs async (while holding a
* CommandHandler::Handle or equivalent) must not call this method, because
* it will not work right if the session we're using was evicted.
*/
FabricIndex GetAccessingFabricIndex() const;
/**
* @brief Best effort to add InvokeResponse to InvokeResponseMessage.
*
* Tries to add response using lambda. Upon failure to add response, attempts
* to rollback the InvokeResponseMessage to a known good state. If failure is due
* to insufficient space in the current InvokeResponseMessage:
* - Finalizes the current InvokeResponseMessage.
* - Allocates a new InvokeResponseMessage.
* - Reattempts to add the InvokeResponse to the new InvokeResponseMessage.
*
* @param [in] addResponseFunction A lambda function responsible for adding the
* response to the current InvokeResponseMessage.
*/
template <typename Function>
CHIP_ERROR TryAddingResponse(Function && addResponseFunction)
{
// Invalidate any existing rollback backups. The addResponseFunction is
// expected to create a new backup during either PrepareInvokeResponseCommand
// or PrepareStatus execution. Direct invocation of
// CreateBackupForResponseRollback is avoided since the buffer used by
// InvokeResponseMessage might not be allocated until a Prepare* function
// is called.
mRollbackBackupValid = false;
CHIP_ERROR err = addResponseFunction();
if (err == CHIP_NO_ERROR)
{
return CHIP_NO_ERROR;
}
ReturnErrorOnFailure(RollbackResponse());
// If we failed to add a command due to lack of space in the
// packet, we will make another attempt to add the response using
// an additional InvokeResponseMessage.
if (mState != State::AddedCommand || err != CHIP_ERROR_NO_MEMORY)
{
return err;
}
ReturnErrorOnFailure(FinalizeInvokeResponseMessageAndPrepareNext());
err = addResponseFunction();
if (err != CHIP_NO_ERROR)
{
// The return value of RollbackResponse is ignored, as we prioritize
// conveying the error generated by addResponseFunction to the
// caller.
RollbackResponse();
}
return err;
}
/**
* API for adding a data response. The template parameter T is generally
* expected to be a ClusterName::Commands::CommandName::Type struct, but any
* object that can be encoded using the DataModel::Encode machinery and
* exposes the right command id will work.
*
* @param [in] aRequestCommandPath the concrete path of the command we are
* responding to.
* @param [in] aData the data for the response.
*/
template <typename CommandData>
CHIP_ERROR AddResponseData(const ConcreteCommandPath & aRequestCommandPath, const CommandData & aData)
{
return TryAddingResponse([&]() -> CHIP_ERROR { return TryAddResponseData(aRequestCommandPath, aData); });
}
/**
* API for adding a response. This will try to encode a data response (response command), and if that fails will encode a a
* Protocols::InteractionModel::Status::Failure status response instead.
*
* The template parameter T is generally expected to be a ClusterName::Commands::CommandName::Type struct, but any object that
* can be encoded using the DataModel::Encode machinery and exposes the right command id will work.
*
* Since the function will call AddStatus when it fails to encode the data, it cannot send any response when it fails to encode
* a status code since another AddStatus call will also fail. The error from AddStatus will just be logged.
*
* @param [in] aRequestCommandPath the concrete path of the command we are
* responding to.
* @param [in] aData the data for the response.
*/
template <typename CommandData>
void AddResponse(const ConcreteCommandPath & aRequestCommandPath, const CommandData & aData)
{
if (AddResponseData(aRequestCommandPath, aData) != CHIP_NO_ERROR)
{
AddStatus(aRequestCommandPath, Protocols::InteractionModel::Status::Failure);
}
}
/**
* Check whether the InvokeRequest we are handling is a timed invoke.
*/
bool IsTimedInvoke() const { return mTimedRequest; }
/**
* Gets the inner exchange context object, without ownership.
*
* WARNING: This is dangerous, since it is directly interacting with the
* exchange being managed automatically by mResponseSender and
* if not done carefully, may end up with use-after-free errors.
*
* @return The inner exchange context, might be nullptr if no
* exchange context has been assigned or the context
* has been released.
*/
Messaging::ExchangeContext * GetExchangeContext() const { return mResponseSender.GetExchangeContext(); }
/**
* @brief Flush acks right away for a slow command
*
* Some commands that do heavy lifting of storage/crypto should
* ack right away to improve reliability and reduce needless retries. This
* method can be manually called in commands that are especially slow to
* immediately schedule an acknowledgement (if needed) since the delayed
* stand-alone ack timer may actually not hit soon enough due to blocking command
* execution.
*
*/
void FlushAcksRightAwayOnSlowCommand() { mResponseSender.FlushAcksRightNow(); }
/**
* GetSubjectDescriptor() may only be called during synchronous command
* processing. Anything that runs async (while holding a
* CommandHandler::Handle or equivalent) must not call this method, because
* it might not work right if the session we're using was evicted.
*/
Access::SubjectDescriptor GetSubjectDescriptor() const
{
VerifyOrDie(!mGoneAsync);
return mResponseSender.GetSubjectDescriptor();
}
#if CHIP_WITH_NLFAULTINJECTION
enum class NlFaultInjectionType : uint8_t
{
SeparateResponseMessages,
SeparateResponseMessagesAndInvertedResponseOrder,
SkipSecondResponse
};
/**
* @brief Sends InvokeResponseMessages with injected faults for certification testing.
*
* The Test Harness (TH) uses this to simulate various server response behaviors,
* ensuring the Device Under Test (DUT) handles responses per specification.
*
* This function strictly validates the DUT's InvokeRequestMessage against the test plan.
* If deviations occur, the TH terminates with a detailed error message.
*
* @param ec Exchange context for sending InvokeResponseMessages to the client.
* @param payload Payload of the incoming InvokeRequestMessage from the client.
* @param isTimedInvoke Indicates whether the interaction is timed.
* @param faultType The specific type of fault to inject into the response.
*/
// TODO(#30453): After refactoring CommandHandler for better unit testability, create a
// unit test specifically for the fault injection behavior.
void TestOnlyInvokeCommandRequestWithFaultsInjected(Messaging::ExchangeContext * ec, System::PacketBufferHandle && payload,
bool isTimedInvoke, NlFaultInjectionType faultType);
#endif // CHIP_WITH_NLFAULTINJECTION
private:
friend class TestCommandInteraction;
friend class CommandHandler::Handle;
enum class State : uint8_t
{
Idle, ///< Default state that the object starts out in, where no work has commenced
NewResponseMessage, ///< mInvokeResponseBuilder is ready, with no responses added.
Preparing, ///< We are prepaing the command or status header.
AddingCommand, ///< In the process of adding a command.
AddedCommand, ///< A command has been completely encoded and is awaiting transmission.
DispatchResponses, ///< The command response(s) are being dispatched.
AwaitingDestruction, ///< The object has completed its work and is awaiting destruction by the application.
};
void MoveToState(const State aTargetState);
const char * GetStateStr() const;
/**
* Create a backup to enable rolling back to the state prior to ResponseData encoding in the event of failure.
*/
void CreateBackupForResponseRollback();
/**
* Rollback the state to before encoding the current ResponseData (before calling PrepareInvokeResponseCommand / PrepareStatus)
*
* Requires CreateBackupForResponseRollback to be called at the start of PrepareInvokeResponseCommand / PrepareStatus
*/
CHIP_ERROR RollbackResponse();
/*
* This forcibly closes the exchange context if a valid one is pointed to. Such a situation does
* not arise during normal message processing flows that all normally call Close() above. This can only
* arise due to application-initiated destruction of the object when this object is handling receiving/sending
* message payloads.
*/
void Abort();
/**
* IncrementHoldOff will increase the inner refcount of the CommandHandler.
*
* Users should use CommandHandler::Handle for management the lifespan of the CommandHandler.
* DefRef should be released in reasonable time, and Close() should only be called when the refcount reached 0.
*/
void IncrementHoldOff();
/**
* DecrementHoldOff is used by CommandHandler::Handle for decreasing the refcount of the CommandHandler.
* When refcount reached 0, CommandHandler will send the response to the peer and shutdown.
*/
void DecrementHoldOff();
/*
* Allocates a packet buffer used for encoding an invoke response payload.
*
* This can be called multiple times safely, as it will only allocate the buffer once for the lifetime
* of this object.
*/
CHIP_ERROR AllocateBuffer();
/**
* This will add a new CommandStatusIB element into InvokeResponses. It will put the
* aCommandPath into the CommandPath element within CommandStatusIB.
*
* This call will fail if CommandHandler is already in the middle of building a
* CommandStatusIB or CommandDataIB (i.e. something has called Prepare*, without
* calling Finish*), or is already sending InvokeResponseMessage.
*
* Upon success, the caller is expected to call `FinishStatus` once they have encoded
* StatusIB.
*
* @param [in] aCommandPath the concrete path of the command we are responding to.
*/
CHIP_ERROR PrepareStatus(const ConcreteCommandPath & aCommandPath);
/**
* Finishes the CommandStatusIB element within the InvokeResponses.
*
* Caller must have first successfully called `PrepareStatus`.
*/
CHIP_ERROR FinishStatus();
CHIP_ERROR PrepareInvokeResponseCommand(const CommandPathRegistryEntry & apCommandPathRegistryEntry,
const ConcreteCommandPath & aCommandPath, bool aStartDataStruct);
CHIP_ERROR FinalizeLastInvokeResponseMessage() { return FinalizeInvokeResponseMessage(/* aHasMoreChunks = */ false); }
CHIP_ERROR FinalizeInvokeResponseMessageAndPrepareNext();
CHIP_ERROR FinalizeInvokeResponseMessage(bool aHasMoreChunks);
/**
* Called internally to signal the completion of all work on this object, gracefully close the
* exchange (by calling into the base class) and finally, signal to a registerd callback that it's
* safe to release this object.
*/
void Close();
/**
* @brief Callback method invoked when CommandResponseSender has finished sending all messages.
*/
static void HandleOnResponseSenderDone(void * context);
/**
* ProcessCommandDataIB is only called when a unicast invoke command request is received
* It requires the endpointId in its command path to be able to dispatch the command
*/
Protocols::InteractionModel::Status ProcessCommandDataIB(CommandDataIB::Parser & aCommandElement);
/**
* ProcessGroupCommandDataIB is only called when a group invoke command request is received
* It doesn't need the endpointId in it's command path since it uses the GroupId in message metadata to find it
*/
Protocols::InteractionModel::Status ProcessGroupCommandDataIB(CommandDataIB::Parser & aCommandElement);
CHIP_ERROR StartSendingCommandResponses();
CHIP_ERROR TryAddStatusInternal(const ConcreteCommandPath & aCommandPath, const StatusIB & aStatus);
CHIP_ERROR AddStatusInternal(const ConcreteCommandPath & aCommandPath, const StatusIB & aStatus);
/**
* Non-templated function called before DataModel::Encode when attempting to add a response,
* which does all the work needed before encoding the actual type-dependent data into the buffer.
*
* **Important:** If this function fails, the TLV buffer may be left in an inconsistent state.
* Callers should create snapshots as necessary before invoking this function and implement
* rollback mechanisms if needed.
*
* **Usage:** This function is intended to be called exclusively by TryAddResponseData. It was
* factored out to optimize code size.
*
* @param aRequestCommandPath The concrete path of the command being responded to.
* @param aResponseCommandPath The concrete path of the command response.
*/
CHIP_ERROR TryAddResponseDataPreEncode(const ConcreteCommandPath & aRequestCommandPath,
const ConcreteCommandPath & aResponseCommandPath)
{
// Return early in case of requests targeted to a group, since they should not add a response.
VerifyOrReturnValue(!IsGroupRequest(), CHIP_NO_ERROR);
InvokeResponseParameters prepareParams(aRequestCommandPath);
prepareParams.SetStartOrEndDataStruct(false);
ScopedChange<bool> internalCallToAddResponse(mInternalCallToAddResponseData, true);
return PrepareInvokeResponseCommand(aResponseCommandPath, prepareParams);
}
// TODO(#31627): It would be awesome if we could remove this template all together.
/**
* If this function fails, it may leave our TLV buffer in an inconsistent state.
* Callers should snapshot as needed before calling this function, and roll back
* as needed afterward.
*
* @param [in] aRequestCommandPath the concrete path of the command we are
* responding to.
* @param [in] aData the data for the response.
*/
template <typename CommandData>
CHIP_ERROR TryAddResponseData(const ConcreteCommandPath & aRequestCommandPath, const CommandData & aData)
{
// This method, templated with CommandData, captures all the components needs
// from CommandData with as little code as possible.
//
// Previously, non-essential code was unnecessarily templated, leading to
// compilation and duplication N times. By isolating only the code segments
// that genuinely require templating, minimizes duplicate compiled code.
ConcreteCommandPath responseCommandPath = { aRequestCommandPath.mEndpointId, aRequestCommandPath.mClusterId,
CommandData::GetCommandId() };
ReturnErrorOnFailure(TryAddResponseDataPreEncode(aRequestCommandPath, responseCommandPath));
TLV::TLVWriter * writer = GetCommandDataIBTLVWriter();
VerifyOrReturnError(writer != nullptr, CHIP_ERROR_INCORRECT_STATE);
ReturnErrorOnFailure(DataModel::Encode(*writer, TLV::ContextTag(CommandDataIB::Tag::kFields), aData));
// FinishCommand technically should be refactored out as it is not a command that needs templating.
// But, because there is only a single function call, keeping it here takes less code. If there is
// ever more code between DataModel::Encode and the end of this function, it should be broken out into
// TryAddResponseDataPostEncode.
return FinishCommand(/* aEndDataStruct = */ false);
}
/**
* Check whether the InvokeRequest we are handling is targeted to a group.
*/
bool IsGroupRequest() { return mGroupRequest; }
/**
* Sets the state flag to keep the information that request we are handling is targeted to a group.
*/
void SetGroupRequest(bool isGroupRequest) { mGroupRequest = isGroupRequest; }
CommandPathRegistry & GetCommandPathRegistry() const { return *mCommandPathRegistry; }
size_t MaxPathsPerInvoke() const { return mMaxPathsPerInvoke; }
Callback * mpCallback = nullptr;
InvokeResponseMessage::Builder mInvokeResponseBuilder;
TLV::TLVType mDataElementContainerType = TLV::kTLVType_NotSpecified;
size_t mPendingWork = 0;
chip::System::PacketBufferTLVWriter mCommandMessageWriter;
TLV::TLVWriter mBackupWriter;
size_t mMaxPathsPerInvoke = CHIP_CONFIG_MAX_PATHS_PER_INVOKE;
// TODO(#30453): See if we can reduce this size for the default cases
// TODO Allow flexibility in registration.
BasicCommandPathRegistry<CHIP_CONFIG_MAX_PATHS_PER_INVOKE> mBasicCommandPathRegistry;
CommandPathRegistry * mCommandPathRegistry = &mBasicCommandPathRegistry;
Optional<uint16_t> mRefForResponse;
chip::Callback::Callback<OnResponseSenderDone> mResponseSenderDone;
CommandResponseSender mResponseSender;
State mState = State::Idle;
State mBackupState;
ScopedChangeOnly<bool> mInternalCallToAddResponseData{ false };
bool mSuppressResponse = false;
bool mTimedRequest = false;
bool mSentStatusResponse = false;
bool mGroupRequest = false;
bool mBufferAllocated = false;
bool mReserveSpaceForMoreChunkMessages = false;
// TODO(#30453): We should introduce breaking change where calls to add CommandData
// need to use AddResponse, and not CommandHandler primitives directly using
// GetCommandDataIBTLVWriter.
bool mRollbackBackupValid = false;
// If mGoneAsync is true, we have finished out initial processing of the
// incoming invoke. After this point, our session could go away at any
// time.
bool mGoneAsync = false;
};
} // namespace app
} // namespace chip