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/*
*
* Copyright (c) 2023 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.
*/
/****************************************************************************'
* @file
* @brief Implementation for the Operational State Server Cluster
***************************************************************************/
#include "operational-state-server.h"
#include <app-common/zap-generated/attributes/Accessors.h>
#include <app-common/zap-generated/callback.h>
#include <app/EventLogging.h>
#include <app/InteractionModelEngine.h>
#include <app/reporting/reporting.h>
#include <app/util/attribute-storage.h>
using namespace chip;
using namespace chip::app;
using namespace chip::app::Clusters;
using namespace chip::app::Clusters::OperationalState;
using namespace chip::app::Clusters::OperationalState::Attributes;
using Status = Protocols::InteractionModel::Status;
Instance::Instance(Delegate * aDelegate, EndpointId aEndpointId, ClusterId aClusterId) :
CommandHandlerInterface(MakeOptional(aEndpointId), aClusterId), AttributeAccessInterface(MakeOptional(aEndpointId), aClusterId),
mDelegate(aDelegate), mEndpointId(aEndpointId), mClusterId(aClusterId)
{
mDelegate->SetInstance(this);
}
Instance::Instance(Delegate * aDelegate, EndpointId aEndpointId) : Instance(aDelegate, aEndpointId, OperationalState::Id) {}
Instance::~Instance()
{
InteractionModelEngine::GetInstance()->UnregisterCommandHandler(this);
unregisterAttributeAccessOverride(this);
}
CHIP_ERROR Instance::Init()
{
// Check if the cluster has been selected in zap
if (!emberAfContainsServer(mEndpointId, mClusterId))
{
ChipLogError(Zcl, "Operational State: The cluster with ID %lu was not enabled in zap.", long(mClusterId));
return CHIP_ERROR_INVALID_ARGUMENT;
}
ReturnErrorOnFailure(InteractionModelEngine::GetInstance()->RegisterCommandHandler(this));
VerifyOrReturnError(registerAttributeAccessOverride(this), CHIP_ERROR_INCORRECT_STATE);
return CHIP_NO_ERROR;
}
CHIP_ERROR Instance::SetCurrentPhase(const DataModel::Nullable<uint8_t> & aPhase)
{
if (!aPhase.IsNull())
{
if (!IsSupportedPhase(aPhase.Value()))
{
return CHIP_ERROR_INVALID_ARGUMENT;
}
}
DataModel::Nullable<uint8_t> oldPhase = mCurrentPhase;
mCurrentPhase = aPhase;
if (mCurrentPhase != oldPhase)
{
MatterReportingAttributeChangeCallback(mEndpointId, mClusterId, Attributes::CurrentPhase::Id);
}
return CHIP_NO_ERROR;
}
CHIP_ERROR Instance::SetOperationalState(uint8_t aOpState)
{
// Error is only allowed to be set by OnOperationalErrorDetected.
if (aOpState == to_underlying(OperationalStateEnum::kError) || !IsSupportedOperationalState(aOpState))
{
return CHIP_ERROR_INVALID_ARGUMENT;
}
if (mOperationalError.errorStateID != to_underlying(ErrorStateEnum::kNoError))
{
mOperationalError.Set(to_underlying(ErrorStateEnum::kNoError));
MatterReportingAttributeChangeCallback(mEndpointId, mClusterId, Attributes::OperationalError::Id);
}
uint8_t oldState = mOperationalState;
mOperationalState = aOpState;
if (mOperationalState != oldState)
{
MatterReportingAttributeChangeCallback(mEndpointId, mClusterId, Attributes::OperationalState::Id);
}
return CHIP_NO_ERROR;
}
DataModel::Nullable<uint8_t> Instance::GetCurrentPhase() const
{
return mCurrentPhase;
}
uint8_t Instance::GetCurrentOperationalState() const
{
return mOperationalState;
}
void Instance::GetCurrentOperationalError(GenericOperationalError & error) const
{
error.Set(mOperationalError.errorStateID, mOperationalError.errorStateLabel, mOperationalError.errorStateDetails);
}
void Instance::OnOperationalErrorDetected(const Structs::ErrorStateStruct::Type & aError)
{
ChipLogDetail(Zcl, "OperationalStateServer: OnOperationalErrorDetected");
// Set the OperationalState attribute to Error
if (mOperationalState != to_underlying(OperationalStateEnum::kError))
{
mOperationalState = to_underlying(OperationalStateEnum::kError);
MatterReportingAttributeChangeCallback(mEndpointId, mClusterId, Attributes::OperationalState::Id);
}
// Set the OperationalError attribute
if (!mOperationalError.IsEqual(aError))
{
mOperationalError.Set(aError.errorStateID, aError.errorStateLabel, aError.errorStateDetails);
MatterReportingAttributeChangeCallback(mEndpointId, mClusterId, Attributes::OperationalError::Id);
}
// Generate an ErrorDetected event
GenericErrorEvent event(mClusterId, aError);
EventNumber eventNumber;
CHIP_ERROR error = LogEvent(event, mEndpointId, eventNumber);
if (error != CHIP_NO_ERROR)
{
ChipLogError(Zcl, "OperationalStateServer: Failed to record OperationalError event: %" CHIP_ERROR_FORMAT, error.Format());
}
}
void Instance::OnOperationCompletionDetected(uint8_t aCompletionErrorCode,
const Optional<DataModel::Nullable<uint32_t>> & aTotalOperationalTime,
const Optional<DataModel::Nullable<uint32_t>> & aPausedTime) const
{
ChipLogDetail(Zcl, "OperationalStateServer: OnOperationCompletionDetected");
GenericOperationCompletionEvent event(mClusterId, aCompletionErrorCode, aTotalOperationalTime, aPausedTime);
EventNumber eventNumber;
CHIP_ERROR error = LogEvent(event, mEndpointId, eventNumber);
if (error != CHIP_NO_ERROR)
{
ChipLogError(Zcl, "OperationalStateServer: Failed to record OperationCompletion event: %" CHIP_ERROR_FORMAT,
error.Format());
}
}
void Instance::ReportOperationalStateListChange()
{
MatterReportingAttributeChangeCallback(ConcreteAttributePath(mEndpointId, mClusterId, Attributes::OperationalStateList::Id));
}
void Instance::ReportPhaseListChange()
{
MatterReportingAttributeChangeCallback(ConcreteAttributePath(mEndpointId, mClusterId, Attributes::PhaseList::Id));
}
bool Instance::IsSupportedPhase(uint8_t aPhase)
{
char buffer[kMaxPhaseNameLength];
MutableCharSpan phase(buffer);
if (mDelegate->GetOperationalPhaseAtIndex(aPhase, phase) != CHIP_ERROR_NOT_FOUND)
{
return true;
}
return false;
}
bool Instance::IsSupportedOperationalState(uint8_t aState)
{
GenericOperationalState opState;
for (uint8_t i = 0; mDelegate->GetOperationalStateAtIndex(i, opState) != CHIP_ERROR_NOT_FOUND; i++)
{
if (opState.operationalStateID == aState)
{
return true;
}
}
ChipLogDetail(Zcl, "Cannot find an operational state with value %u", aState);
return false;
}
// private
template <typename RequestT, typename FuncT>
void Instance::HandleCommand(HandlerContext & handlerContext, FuncT func)
{
if (!handlerContext.mCommandHandled && (handlerContext.mRequestPath.mCommandId == RequestT::GetCommandId()))
{
RequestT requestPayload;
// If the command matches what the caller is looking for, let's mark this as being handled
// even if errors happen after this. This ensures that we don't execute any fall-back strategies
// to handle this command since at this point, the caller is taking responsibility for handling
// the command in its entirety, warts and all.
//
handlerContext.SetCommandHandled();
if (DataModel::Decode(handlerContext.mPayload, requestPayload) != CHIP_NO_ERROR)
{
handlerContext.mCommandHandler.AddStatus(handlerContext.mRequestPath,
Protocols::InteractionModel::Status::InvalidCommand);
return;
}
func(handlerContext, requestPayload);
}
}
// This function is called by the interaction model engine when a command destined for this instance is received.
void Instance::InvokeCommand(HandlerContext & handlerContext)
{
ChipLogDetail(Zcl, "OperationalState: InvokeCommand");
switch (handlerContext.mRequestPath.mCommandId)
{
case Commands::Pause::Id:
ChipLogDetail(Zcl, "OperationalState: Entering handling Pause state");
HandleCommand<Commands::Pause::DecodableType>(
handlerContext, [this](HandlerContext & ctx, const auto & req) { HandlePauseState(ctx, req); });
break;
case Commands::Resume::Id:
ChipLogDetail(Zcl, "OperationalState: Entering handling Resume state");
HandleCommand<Commands::Resume::DecodableType>(
handlerContext, [this](HandlerContext & ctx, const auto & req) { HandleResumeState(ctx, req); });
break;
case Commands::Start::Id:
ChipLogDetail(Zcl, "OperationalState: Entering handling Start state");
HandleCommand<Commands::Start::DecodableType>(
handlerContext, [this](HandlerContext & ctx, const auto & req) { HandleStartState(ctx, req); });
break;
case Commands::Stop::Id:
ChipLogDetail(Zcl, "OperationalState: Entering handling Stop state");
HandleCommand<Commands::Stop::DecodableType>(handlerContext,
[this](HandlerContext & ctx, const auto & req) { HandleStopState(ctx, req); });
break;
default:
ChipLogDetail(Zcl, "OperationalState: Entering handling derived cluster commands");
InvokeDerivedClusterCommand(handlerContext);
}
}
CHIP_ERROR Instance::Read(const ConcreteReadAttributePath & aPath, AttributeValueEncoder & aEncoder)
{
ChipLogError(Zcl, "OperationalState: Reading");
switch (aPath.mAttributeId)
{
case OperationalState::Attributes::OperationalStateList::Id: {
return aEncoder.EncodeList([delegate = mDelegate](const auto & encoder) -> CHIP_ERROR {
GenericOperationalState opState;
size_t index = 0;
CHIP_ERROR err = CHIP_NO_ERROR;
while ((err = delegate->GetOperationalStateAtIndex(index, opState)) == CHIP_NO_ERROR)
{
ReturnErrorOnFailure(encoder.Encode(opState));
index++;
}
if (err == CHIP_ERROR_NOT_FOUND)
{
return CHIP_NO_ERROR;
}
return err;
});
}
break;
case OperationalState::Attributes::OperationalState::Id: {
ReturnErrorOnFailure(aEncoder.Encode(GetCurrentOperationalState()));
}
break;
case OperationalState::Attributes::OperationalError::Id: {
ReturnErrorOnFailure(aEncoder.Encode(mOperationalError));
}
break;
case OperationalState::Attributes::PhaseList::Id: {
char buffer[kMaxPhaseNameLength];
MutableCharSpan phase(buffer);
size_t index = 0;
if (mDelegate->GetOperationalPhaseAtIndex(index, phase) == CHIP_ERROR_NOT_FOUND)
{
return aEncoder.EncodeNull();
}
return aEncoder.EncodeList([delegate = mDelegate](const auto & encoder) -> CHIP_ERROR {
for (uint8_t i = 0; true; i++)
{
char buffer2[kMaxPhaseNameLength];
MutableCharSpan phase2(buffer2);
auto err = delegate->GetOperationalPhaseAtIndex(i, phase2);
if (err == CHIP_ERROR_NOT_FOUND)
{
return CHIP_NO_ERROR;
}
ReturnErrorOnFailure(err);
ReturnErrorOnFailure(encoder.Encode(phase2));
}
});
}
break;
case OperationalState::Attributes::CurrentPhase::Id: {
ReturnErrorOnFailure(aEncoder.Encode(GetCurrentPhase()));
}
break;
case OperationalState::Attributes::CountdownTime::Id: {
ReturnErrorOnFailure(aEncoder.Encode(mDelegate->GetCountdownTime()));
}
break;
}
return CHIP_NO_ERROR;
}
void Instance::HandlePauseState(HandlerContext & ctx, const Commands::Pause::DecodableType & req)
{
ChipLogDetail(Zcl, "OperationalState: HandlePauseState");
GenericOperationalError err(to_underlying(ErrorStateEnum::kNoError));
uint8_t opState = GetCurrentOperationalState();
// Handle Operational State Pause-incompatible states.
if (opState == to_underlying(OperationalStateEnum::kStopped) || opState == to_underlying(OperationalStateEnum::kError))
{
err.Set(to_underlying(ErrorStateEnum::kCommandInvalidInState));
}
// Handle Pause-incompatible states for derived clusters.
if (opState >= DerivedClusterNumberSpaceStart && opState < VendorNumberSpaceStart)
{
if (!IsDerivedClusterStatePauseCompatible(opState))
{
err.Set(to_underlying(ErrorStateEnum::kCommandInvalidInState));
}
}
// If the error is still NoError, we can call the delegate's handle function.
// If the current state is Paused we can skip this call.
if (err.errorStateID == 0 && opState != to_underlying(OperationalStateEnum::kPaused))
{
mDelegate->HandlePauseStateCallback(err);
}
Commands::OperationalCommandResponse::Type response;
response.commandResponseState = err;
ctx.mCommandHandler.AddResponse(ctx.mRequestPath, response);
}
void Instance::HandleStopState(HandlerContext & ctx, const Commands::Stop::DecodableType & req)
{
ChipLogDetail(Zcl, "OperationalState: HandleStopState");
GenericOperationalError err(to_underlying(ErrorStateEnum::kNoError));
uint8_t opState = GetCurrentOperationalState();
if (opState != to_underlying(OperationalStateEnum::kStopped))
{
mDelegate->HandleStopStateCallback(err);
}
Commands::OperationalCommandResponse::Type response;
response.commandResponseState = err;
ctx.mCommandHandler.AddResponse(ctx.mRequestPath, response);
}
void Instance::HandleStartState(HandlerContext & ctx, const Commands::Start::DecodableType & req)
{
ChipLogDetail(Zcl, "OperationalState: HandleStartState");
GenericOperationalError err(to_underlying(ErrorStateEnum::kNoError));
uint8_t opState = GetCurrentOperationalState();
if (opState != to_underlying(OperationalStateEnum::kRunning))
{
mDelegate->HandleStartStateCallback(err);
}
Commands::OperationalCommandResponse::Type response;
response.commandResponseState = err;
ctx.mCommandHandler.AddResponse(ctx.mRequestPath, response);
}
void Instance::HandleResumeState(HandlerContext & ctx, const Commands::Resume::DecodableType & req)
{
ChipLogDetail(Zcl, "OperationalState: HandleResumeState");
GenericOperationalError err(to_underlying(ErrorStateEnum::kNoError));
uint8_t opState = GetCurrentOperationalState();
// Handle Operational State Resume-incompatible states.
if (opState == to_underlying(OperationalStateEnum::kStopped) || opState == to_underlying(OperationalStateEnum::kError))
{
err.Set(to_underlying(ErrorStateEnum::kCommandInvalidInState));
}
// Handle Resume-incompatible states for derived clusters.
if (opState >= DerivedClusterNumberSpaceStart && opState < VendorNumberSpaceStart)
{
if (!IsDerivedClusterStateResumeCompatible(opState))
{
err.Set(to_underlying(ErrorStateEnum::kCommandInvalidInState));
}
}
// If the error is still NoError, we can call the delegate's handle function.
// If the current state is Running we can skip this call.
if (err.errorStateID == 0 && opState != to_underlying(OperationalStateEnum::kRunning))
{
mDelegate->HandleResumeStateCallback(err);
}
Commands::OperationalCommandResponse::Type response;
response.commandResponseState = err;
ctx.mCommandHandler.AddResponse(ctx.mRequestPath, response);
}
// RvcOperationalState
bool RvcOperationalState::Instance::IsDerivedClusterStatePauseCompatible(uint8_t aState)
{
return aState == to_underlying(RvcOperationalState::OperationalStateEnum::kSeekingCharger);
}
bool RvcOperationalState::Instance::IsDerivedClusterStateResumeCompatible(uint8_t aState)
{
return (aState == to_underlying(RvcOperationalState::OperationalStateEnum::kCharging) ||
aState == to_underlying(RvcOperationalState::OperationalStateEnum::kDocked));
}
// This function is called by the base operational state cluster when a command in the derived cluster number-space is received.
void RvcOperationalState::Instance::InvokeDerivedClusterCommand(chip::app::CommandHandlerInterface::HandlerContext & handlerContext)
{
ChipLogDetail(Zcl, "RvcOperationalState: InvokeDerivedClusterCommand");
switch (handlerContext.mRequestPath.mCommandId)
{
case RvcOperationalState::Commands::GoHome::Id:
ChipLogDetail(Zcl, "RvcOperationalState: Entering handling GoHome command");
CommandHandlerInterface::HandleCommand<Commands::GoHome::DecodableType>(
handlerContext, [this](HandlerContext & ctx, const auto & req) { HandleGoHomeCommand(ctx, req); });
break;
}
}
void RvcOperationalState::Instance::HandleGoHomeCommand(HandlerContext & ctx, const Commands::GoHome::DecodableType & req)
{
ChipLogDetail(Zcl, "RvcOperationalState: HandleGoHomeCommand");
GenericOperationalError err(to_underlying(OperationalState::ErrorStateEnum::kNoError));
uint8_t opState = GetCurrentOperationalState();
// Handle the case of the device being in an invalid state
if (opState == to_underlying(OperationalStateEnum::kCharging) || opState == to_underlying(OperationalStateEnum::kDocked))
{
err.Set(to_underlying(OperationalState::ErrorStateEnum::kCommandInvalidInState));
}
if (err.errorStateID == 0 && opState != to_underlying(OperationalStateEnum::kSeekingCharger))
{
mDelegate->HandleGoHomeCommandCallback(err);
}
Commands::OperationalCommandResponse::Type response;
response.commandResponseState = err;
ctx.mCommandHandler.AddResponse(ctx.mRequestPath, response);
}