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

 /**
  *
  *    Copyright (c) 2020 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 "barrier-control-server.h"
 #include <app-common/zap-generated/af-structs.h>
 #include <app-common/zap-generated/attributes/Accessors.h>
 #include <app-common/zap-generated/cluster-objects.h>
 #include <app-common/zap-generated/ids/Clusters.h>
 #include <app/CommandHandler.h>
 #include <app/ConcreteCommandPath.h>
 #include <app/util/af.h>

 #include <assert.h>

 // We need this for initializating default reporting configurations.
 #include <app/reporting/reporting.h>

 using namespace chip;
 using namespace chip::app::Clusters;
 using namespace chip::app::Clusters::BarrierControl;

 typedef struct
 {
     uint8_t currentPosition;
     uint8_t targetPosition;
     bool increasing;
     uint32_t delayMs;
 } State;
 static State state;

 #ifdef EMBER_SCRIPTED_TEST
 #define ZCL_USING_BARRIER_CONTROL_CLUSTER_OPEN_PERIOD_ATTRIBUTE
 #define ZCL_USING_BARRIER_CONTROL_CLUSTER_CLOSE_PERIOD_ATTRIBUTE
 #define ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_OPEN_EVENTS_ATTRIBUTE
 #define ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_CLOSE_EVENTS_ATTRIBUTE
 #define ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_OPEN_EVENTS_ATTRIBUTE
 #define ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_CLOSE_EVENTS_ATTRIBUTE
 #endif

 // -----------------------------------------------------------------------------
 // Accessing attributes

 uint8_t emAfPluginBarrierControlServerGetBarrierPosition(EndpointId endpoint)
 {
     uint8_t position;
     EmberAfStatus status = Attributes::BarrierPosition::Get(endpoint, &position);
     assert(status == EMBER_ZCL_STATUS_SUCCESS);
     return position;
 }

 void emAfPluginBarrierControlServerSetBarrierPosition(EndpointId endpoint, uint8_t position)
 {
     EmberAfStatus status = Attributes::BarrierPosition::Set(endpoint, position);
     assert(status == EMBER_ZCL_STATUS_SUCCESS);
 }

 bool emAfPluginBarrierControlServerIsPartialBarrierSupported(EndpointId endpoint)
 {
     uint8_t bitmap;
     EmberAfStatus status = Attributes::BarrierCapabilities::Get(endpoint, &bitmap);
     assert(status == EMBER_ZCL_STATUS_SUCCESS);
     return READBITS(bitmap, EMBER_AF_BARRIER_CONTROL_CAPABILITIES_PARTIAL_BARRIER);
 }

 static uint16_t getOpenOrClosePeriod(EndpointId endpoint, bool open)
 {
     uint16_t period      = 0;
     EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS;
 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_OPEN_PERIOD_ATTRIBUTE)
     if (open)
     {
         status = Attributes::BarrierOpenPeriod::Get(endpoint, &period);
     }
 #endif
 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_CLOSE_PERIOD_ATTRIBUTE)
     if (!open)
     {
         status = Attributes::BarrierClosePeriod::Get(endpoint, &period);
     }
 #endif
     assert(status == EMBER_ZCL_STATUS_SUCCESS);
     return period;
 }

 static void setMovingState(EndpointId endpoint, uint8_t newState)
 {
     EmberAfStatus status = Attributes::BarrierMovingState::Set(endpoint, newState);
     assert(status == EMBER_ZCL_STATUS_SUCCESS);
 }

 uint16_t emAfPluginBarrierControlServerGetSafetyStatus(EndpointId endpoint)
 {
     uint16_t safetyStatus;
     EmberAfStatus status = Attributes::BarrierSafetyStatus::Get(endpoint, &safetyStatus);
     assert(status == EMBER_ZCL_STATUS_SUCCESS);
     return safetyStatus;
 }

 static bool isRemoteLockoutOn(EndpointId endpoint)
 {
     uint16_t safetyStatus = emAfPluginBarrierControlServerGetSafetyStatus(endpoint);
     return READBITS(safetyStatus, EMBER_AF_BARRIER_CONTROL_SAFETY_STATUS_REMOTE_LOCKOUT);
 }

 void emAfPluginBarrierControlServerIncrementEvents(EndpointId endpoint, bool open, bool command)
 {
     EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS;
     uint16_t events      = 0;

 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_OPEN_EVENTS_ATTRIBUTE)
     if (open && !command)
     {
         status = Attributes::BarrierOpenEvents::Get(endpoint, &events);
     }
 #endif
 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_CLOSE_EVENTS_ATTRIBUTE)
     if (!open && !command)
     {
         status = Attributes::BarrierCloseEvents::Get(endpoint, &events);
     }
 #endif
 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_OPEN_EVENTS_ATTRIBUTE)
     if (open && command)
     {
         status = Attributes::BarrierCommandOpenEvents::Get(endpoint, &events);
     }
 #endif
 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_CLOSE_EVENTS_ATTRIBUTE)
     if (!open && command)
     {
         status = Attributes::BarrierCommandCloseEvents::Get(endpoint, &events);
     }
 #endif
     assert(status == EMBER_ZCL_STATUS_SUCCESS);

     // Section 7.1.2.1.5-8 says that this events counter SHALL NOT roll over.
     // The maximum 16-bit unsigned integer in Zigbee is 0xFFFE, so we have this
     // check here.
     if (events == UINT16_MAX - 1)
     {
         return;
     }
     events++;

 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_OPEN_EVENTS_ATTRIBUTE)
     if (open && !command)
     {
         status = Attributes::BarrierOpenEvents::Set(endpoint, events);
     }
 #endif
 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_CLOSE_EVENTS_ATTRIBUTE)
     if (!open && !command)
     {
         status = Attributes::BarrierCloseEvents::Set(endpoint, events);
     }
 #endif
 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_OPEN_EVENTS_ATTRIBUTE)
     if (open && command)
     {
         status = Attributes::BarrierCommandOpenEvents::Set(endpoint, events);
     }
 #endif
 #if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_CLOSE_EVENTS_ATTRIBUTE)
     if (!open && command)
     {
         status = Attributes::BarrierCommandCloseEvents::Set(endpoint, events);
     }
 #endif
     assert(status == EMBER_ZCL_STATUS_SUCCESS);
 }

 // -----------------------------------------------------------------------------
 // Opening/closing barrier

 static uint8_t getCurrentPosition(EndpointId endpoint)
 {
     // If the BarrierPosition attribute does not store the exact position of the
     // barrier, then it will be set to 0xFF. If this is the case, then we have no
     // way of knowing the position of the barrier. Let's guess that the barrier is
     // open so that we don't leave the barrier open when it should be closed.
     uint8_t currentPositionFromAttribute = emAfPluginBarrierControlServerGetBarrierPosition(endpoint);
     return ((currentPositionFromAttribute == EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_UNKNOWN)
                 ? static_cast<uint8_t>(EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_OPEN)
                 : currentPositionFromAttribute);
 }

 static uint32_t calculateDelayMs(EndpointId endpoint, uint8_t targetPosition, bool * opening)
 {
     uint8_t currentPosition = emAfPluginBarrierControlServerGetBarrierPosition(endpoint);
     *opening                = targetPosition > currentPosition;
     uint8_t positionDelta   = static_cast<uint8_t>(*opening ? targetPosition - currentPosition : currentPosition - targetPosition);
     uint16_t openOrClosePeriodDs = getOpenOrClosePeriod(endpoint, *opening);
     uint32_t openOrClosePeriodMs = openOrClosePeriodDs * MILLISECOND_TICKS_PER_DECISECOND;

     // We use a minimum delay so that our barrier changes position in a realistic
     // amount of time.
     if (openOrClosePeriodDs == 0 || positionDelta == 0)
     {
         return MIN_POSITION_CHANGE_DELAY_MS;
     }

     uint32_t delayMs = openOrClosePeriodMs / positionDelta;
     return (delayMs < MIN_POSITION_CHANGE_DELAY_MS ? MIN_POSITION_CHANGE_DELAY_MS : delayMs);
 }

 void emberAfBarrierControlClusterServerTickCallback(EndpointId endpoint)
 {
     if (state.currentPosition == state.targetPosition)
     {
         emAfPluginBarrierControlServerSetBarrierPosition(endpoint, state.currentPosition);
         setMovingState(endpoint, EMBER_ZCL_BARRIER_CONTROL_MOVING_STATE_STOPPED);
         emberAfDeactivateServerTick(endpoint, BarrierControl::Id);
     }
     else
     {
         if (state.increasing)
         {
             if (++state.currentPosition == 1)
             {
                 // Zero -> nonzero: open event
                 emAfPluginBarrierControlServerIncrementEvents(endpoint, true, false);
             }
         }
         else
         {
             if (--state.currentPosition == 0)
             {
                 // Nonzero -> zero: close event
                 emAfPluginBarrierControlServerIncrementEvents(endpoint, false, false);
             }
         }
         emAfPluginBarrierControlServerSetBarrierPosition(
             endpoint,
             (emAfPluginBarrierControlServerIsPartialBarrierSupported(endpoint)
                  ? state.currentPosition
                  : static_cast<uint8_t>(EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_UNKNOWN)));
         setMovingState(
             endpoint,
             (state.increasing ? EMBER_ZCL_BARRIER_CONTROL_MOVING_STATE_OPENING : EMBER_ZCL_BARRIER_CONTROL_MOVING_STATE_CLOSING));
         emberAfScheduleServerTick(endpoint, BarrierControl::Id, state.delayMs);
     }
 }

 // -----------------------------------------------------------------------------
 // Handling commands

 static void sendDefaultResponse(EmberAfStatus status)
 {
     if (emberAfSendImmediateDefaultResponse(status) != EMBER_SUCCESS)
     {
         emberAfBarrierControlClusterPrintln("Failed to send default response");
     }
 }

 bool emberAfBarrierControlClusterBarrierControlGoToPercentCallback(
     app::CommandHandler * commandObj, const app::ConcreteCommandPath & commandPath,
     const Commands::BarrierControlGoToPercent::DecodableType & commandData)
 {
     auto & percentOpen = commandData.percentOpen;

     EndpointId endpoint  = commandPath.mEndpointId;
     EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS;

     emberAfBarrierControlClusterPrintln("RX: GoToPercentCallback p=%d", percentOpen);

     if (isRemoteLockoutOn(endpoint))
     {
         status = EMBER_ZCL_STATUS_FAILURE;
     }
     else if (percentOpen > 100 // "100" means "100%", so greater than that is invalid
              || (!emAfPluginBarrierControlServerIsPartialBarrierSupported(endpoint) &&
                  percentOpen != EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_CLOSED &&
                  percentOpen != EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_OPEN))
     {
         status = EMBER_ZCL_STATUS_CONSTRAINT_ERROR;
     }
     else
     {
         state.currentPosition = getCurrentPosition(endpoint);
         state.targetPosition  = percentOpen;
         state.delayMs         = calculateDelayMs(endpoint, state.targetPosition, &state.increasing);
         emberAfBarrierControlClusterPrintln("Scheduling barrier move from %d to %d with %" PRIu32 "ms delay", state.currentPosition,
                                             state.targetPosition, state.delayMs);
         emberAfScheduleServerTick(endpoint, BarrierControl::Id, state.delayMs);

         if (state.currentPosition < state.targetPosition)
         {
             emAfPluginBarrierControlServerIncrementEvents(endpoint, true, true);
         }
         else if (state.currentPosition > state.targetPosition)
         {
             emAfPluginBarrierControlServerIncrementEvents(endpoint, false, true);
         }
     }

     sendDefaultResponse(status);

     return true;
 }

 bool emberAfBarrierControlClusterBarrierControlStopCallback(app::CommandHandler * commandObj,
                                                             const app::ConcreteCommandPath & commandPath,
                                                             const Commands::BarrierControlStop::DecodableType & commandData)
 {
     EndpointId endpoint = commandPath.mEndpointId;
     emberAfDeactivateServerTick(endpoint, BarrierControl::Id);
     setMovingState(endpoint, EMBER_ZCL_BARRIER_CONTROL_MOVING_STATE_STOPPED);
     sendDefaultResponse(EMBER_ZCL_STATUS_SUCCESS);
     return true;
 }

 void MatterBarrierControlPluginServerInitCallback() {}
	/**
	*
	* Copyright (c) 2020 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 "barrier-control-server.h"
	#include <app-common/zap-generated/af-structs.h>
	#include <app-common/zap-generated/attributes/Accessors.h>
	#include <app-common/zap-generated/cluster-objects.h>
	#include <app-common/zap-generated/ids/Clusters.h>
	#include <app/CommandHandler.h>
	#include <app/ConcreteCommandPath.h>
	#include <app/util/af.h>

	#include <assert.h>

	// We need this for initializating default reporting configurations.
	#include <app/reporting/reporting.h>

	using namespace chip;
	using namespace chip::app::Clusters;
	using namespace chip::app::Clusters::BarrierControl;

	typedef struct
	{
	uint8_t currentPosition;
	uint8_t targetPosition;
	bool increasing;
	uint32_t delayMs;
	} State;
	static State state;

	#ifdef EMBER_SCRIPTED_TEST
	#define ZCL_USING_BARRIER_CONTROL_CLUSTER_OPEN_PERIOD_ATTRIBUTE
	#define ZCL_USING_BARRIER_CONTROL_CLUSTER_CLOSE_PERIOD_ATTRIBUTE
	#define ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_OPEN_EVENTS_ATTRIBUTE
	#define ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_CLOSE_EVENTS_ATTRIBUTE
	#define ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_OPEN_EVENTS_ATTRIBUTE
	#define ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_CLOSE_EVENTS_ATTRIBUTE
	#endif

	// -----------------------------------------------------------------------------
	// Accessing attributes

	uint8_t emAfPluginBarrierControlServerGetBarrierPosition(EndpointId endpoint)
	{
	uint8_t position;
	EmberAfStatus status = Attributes::BarrierPosition::Get(endpoint, &position);
	assert(status == EMBER_ZCL_STATUS_SUCCESS);
	return position;
	}

	void emAfPluginBarrierControlServerSetBarrierPosition(EndpointId endpoint, uint8_t position)
	{
	EmberAfStatus status = Attributes::BarrierPosition::Set(endpoint, position);
	assert(status == EMBER_ZCL_STATUS_SUCCESS);
	}

	bool emAfPluginBarrierControlServerIsPartialBarrierSupported(EndpointId endpoint)
	{
	uint8_t bitmap;
	EmberAfStatus status = Attributes::BarrierCapabilities::Get(endpoint, &bitmap);
	assert(status == EMBER_ZCL_STATUS_SUCCESS);
	return READBITS(bitmap, EMBER_AF_BARRIER_CONTROL_CAPABILITIES_PARTIAL_BARRIER);
	}

	static uint16_t getOpenOrClosePeriod(EndpointId endpoint, bool open)
	{
	uint16_t period = 0;
	EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS;
	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_OPEN_PERIOD_ATTRIBUTE)
	if (open)
	{
	status = Attributes::BarrierOpenPeriod::Get(endpoint, &period);
	}
	#endif
	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_CLOSE_PERIOD_ATTRIBUTE)
	if (!open)
	{
	status = Attributes::BarrierClosePeriod::Get(endpoint, &period);
	}
	#endif
	assert(status == EMBER_ZCL_STATUS_SUCCESS);
	return period;
	}

	static void setMovingState(EndpointId endpoint, uint8_t newState)
	{
	EmberAfStatus status = Attributes::BarrierMovingState::Set(endpoint, newState);
	assert(status == EMBER_ZCL_STATUS_SUCCESS);
	}

	uint16_t emAfPluginBarrierControlServerGetSafetyStatus(EndpointId endpoint)
	{
	uint16_t safetyStatus;
	EmberAfStatus status = Attributes::BarrierSafetyStatus::Get(endpoint, &safetyStatus);
	assert(status == EMBER_ZCL_STATUS_SUCCESS);
	return safetyStatus;
	}

	static bool isRemoteLockoutOn(EndpointId endpoint)
	{
	uint16_t safetyStatus = emAfPluginBarrierControlServerGetSafetyStatus(endpoint);
	return READBITS(safetyStatus, EMBER_AF_BARRIER_CONTROL_SAFETY_STATUS_REMOTE_LOCKOUT);
	}

	void emAfPluginBarrierControlServerIncrementEvents(EndpointId endpoint, bool open, bool command)
	{
	EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS;
	uint16_t events = 0;

	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_OPEN_EVENTS_ATTRIBUTE)
	if (open && !command)
	{
	status = Attributes::BarrierOpenEvents::Get(endpoint, &events);
	}
	#endif
	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_CLOSE_EVENTS_ATTRIBUTE)
	if (!open && !command)
	{
	status = Attributes::BarrierCloseEvents::Get(endpoint, &events);
	}
	#endif
	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_OPEN_EVENTS_ATTRIBUTE)
	if (open && command)
	{
	status = Attributes::BarrierCommandOpenEvents::Get(endpoint, &events);
	}
	#endif
	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_CLOSE_EVENTS_ATTRIBUTE)
	if (!open && command)
	{
	status = Attributes::BarrierCommandCloseEvents::Get(endpoint, &events);
	}
	#endif
	assert(status == EMBER_ZCL_STATUS_SUCCESS);

	// Section 7.1.2.1.5-8 says that this events counter SHALL NOT roll over.
	// The maximum 16-bit unsigned integer in Zigbee is 0xFFFE, so we have this
	// check here.
	if (events == UINT16_MAX - 1)
	{
	return;
	}
	events++;

	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_OPEN_EVENTS_ATTRIBUTE)
	if (open && !command)
	{
	status = Attributes::BarrierOpenEvents::Set(endpoint, events);
	}
	#endif
	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_CLOSE_EVENTS_ATTRIBUTE)
	if (!open && !command)
	{
	status = Attributes::BarrierCloseEvents::Set(endpoint, events);
	}
	#endif
	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_OPEN_EVENTS_ATTRIBUTE)
	if (open && command)
	{
	status = Attributes::BarrierCommandOpenEvents::Set(endpoint, events);
	}
	#endif
	#if defined(ZCL_USING_BARRIER_CONTROL_CLUSTER_BARRIER_COMMAND_CLOSE_EVENTS_ATTRIBUTE)
	if (!open && command)
	{
	status = Attributes::BarrierCommandCloseEvents::Set(endpoint, events);
	}
	#endif
	assert(status == EMBER_ZCL_STATUS_SUCCESS);
	}

	// -----------------------------------------------------------------------------
	// Opening/closing barrier

	static uint8_t getCurrentPosition(EndpointId endpoint)
	{
	// If the BarrierPosition attribute does not store the exact position of the
	// barrier, then it will be set to 0xFF. If this is the case, then we have no
	// way of knowing the position of the barrier. Let's guess that the barrier is
	// open so that we don't leave the barrier open when it should be closed.
	uint8_t currentPositionFromAttribute = emAfPluginBarrierControlServerGetBarrierPosition(endpoint);
	return ((currentPositionFromAttribute == EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_UNKNOWN)
	? static_cast<uint8_t>(EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_OPEN)
	: currentPositionFromAttribute);
	}

	static uint32_t calculateDelayMs(EndpointId endpoint, uint8_t targetPosition, bool * opening)
	{
	uint8_t currentPosition = emAfPluginBarrierControlServerGetBarrierPosition(endpoint);
	*opening = targetPosition > currentPosition;
	uint8_t positionDelta = static_cast<uint8_t>(*opening ? targetPosition - currentPosition : currentPosition - targetPosition);
	uint16_t openOrClosePeriodDs = getOpenOrClosePeriod(endpoint, *opening);
	uint32_t openOrClosePeriodMs = openOrClosePeriodDs * MILLISECOND_TICKS_PER_DECISECOND;

	// We use a minimum delay so that our barrier changes position in a realistic
	// amount of time.
	if (openOrClosePeriodDs == 0 \|\| positionDelta == 0)
	{
	return MIN_POSITION_CHANGE_DELAY_MS;
	}

	uint32_t delayMs = openOrClosePeriodMs / positionDelta;
	return (delayMs < MIN_POSITION_CHANGE_DELAY_MS ? MIN_POSITION_CHANGE_DELAY_MS : delayMs);
	}

	void emberAfBarrierControlClusterServerTickCallback(EndpointId endpoint)
	{
	if (state.currentPosition == state.targetPosition)
	{
	emAfPluginBarrierControlServerSetBarrierPosition(endpoint, state.currentPosition);
	setMovingState(endpoint, EMBER_ZCL_BARRIER_CONTROL_MOVING_STATE_STOPPED);
	emberAfDeactivateServerTick(endpoint, BarrierControl::Id);
	}
	else
	{
	if (state.increasing)
	{
	if (++state.currentPosition == 1)
	{
	// Zero -> nonzero: open event
	emAfPluginBarrierControlServerIncrementEvents(endpoint, true, false);
	}
	}
	else
	{
	if (--state.currentPosition == 0)
	{
	// Nonzero -> zero: close event
	emAfPluginBarrierControlServerIncrementEvents(endpoint, false, false);
	}
	}
	emAfPluginBarrierControlServerSetBarrierPosition(
	endpoint,
	(emAfPluginBarrierControlServerIsPartialBarrierSupported(endpoint)
	? state.currentPosition
	: static_cast<uint8_t>(EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_UNKNOWN)));
	setMovingState(
	endpoint,
	(state.increasing ? EMBER_ZCL_BARRIER_CONTROL_MOVING_STATE_OPENING : EMBER_ZCL_BARRIER_CONTROL_MOVING_STATE_CLOSING));
	emberAfScheduleServerTick(endpoint, BarrierControl::Id, state.delayMs);
	}
	}

	// -----------------------------------------------------------------------------
	// Handling commands

	static void sendDefaultResponse(EmberAfStatus status)
	{
	if (emberAfSendImmediateDefaultResponse(status) != EMBER_SUCCESS)
	{
	emberAfBarrierControlClusterPrintln("Failed to send default response");
	}
	}

	bool emberAfBarrierControlClusterBarrierControlGoToPercentCallback(
	app::CommandHandler * commandObj, const app::ConcreteCommandPath & commandPath,
	const Commands::BarrierControlGoToPercent::DecodableType & commandData)
	{
	auto & percentOpen = commandData.percentOpen;

	EndpointId endpoint = commandPath.mEndpointId;
	EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS;

	emberAfBarrierControlClusterPrintln("RX: GoToPercentCallback p=%d", percentOpen);

	if (isRemoteLockoutOn(endpoint))
	{
	status = EMBER_ZCL_STATUS_FAILURE;
	}
	else if (percentOpen > 100 // "100" means "100%", so greater than that is invalid
	\|\| (!emAfPluginBarrierControlServerIsPartialBarrierSupported(endpoint) &&
	percentOpen != EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_CLOSED &&
	percentOpen != EMBER_ZCL_BARRIER_CONTROL_BARRIER_POSITION_OPEN))
	{
	status = EMBER_ZCL_STATUS_CONSTRAINT_ERROR;
	}
	else
	{
	state.currentPosition = getCurrentPosition(endpoint);
	state.targetPosition = percentOpen;
	state.delayMs = calculateDelayMs(endpoint, state.targetPosition, &state.increasing);
	emberAfBarrierControlClusterPrintln("Scheduling barrier move from %d to %d with %" PRIu32 "ms delay", state.currentPosition,
	state.targetPosition, state.delayMs);
	emberAfScheduleServerTick(endpoint, BarrierControl::Id, state.delayMs);

	if (state.currentPosition < state.targetPosition)
	{
	emAfPluginBarrierControlServerIncrementEvents(endpoint, true, true);
	}
	else if (state.currentPosition > state.targetPosition)
	{
	emAfPluginBarrierControlServerIncrementEvents(endpoint, false, true);
	}
	}

	sendDefaultResponse(status);

	return true;
	}

	bool emberAfBarrierControlClusterBarrierControlStopCallback(app::CommandHandler * commandObj,
	const app::ConcreteCommandPath & commandPath,
	const Commands::BarrierControlStop::DecodableType & commandData)
	{
	EndpointId endpoint = commandPath.mEndpointId;
	emberAfDeactivateServerTick(endpoint, BarrierControl::Id);
	setMovingState(endpoint, EMBER_ZCL_BARRIER_CONTROL_MOVING_STATE_STOPPED);
	sendDefaultResponse(EMBER_ZCL_STATUS_SUCCESS);
	return true;
	}

	void MatterBarrierControlPluginServerInitCallback() {}