examples/lock-app/lock-common/src/LockEndpoint.cpp - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2022-2023 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.
  */
 #include "LockEndpoint.h"
 #include <app-common/zap-generated/attributes/Accessors.h>
 #include <cstring>

 using chip::to_underlying;
 using chip::app::DataModel::MakeNullable;

 bool LockEndpoint::Lock(const Optional<chip::ByteSpan> & pin, OperationErrorEnum & err, OperationSourceEnum opSource)
 {
     return setLockState(DlLockState::kLocked, pin, err, opSource);
 }

 bool LockEndpoint::Unlock(const Optional<chip::ByteSpan> & pin, OperationErrorEnum & err, OperationSourceEnum opSource)
 {
     return setLockState(DlLockState::kUnlocked, pin, err, opSource);
 }

 bool LockEndpoint::GetUser(uint16_t userIndex, EmberAfPluginDoorLockUserInfo & user) const
 {
     ChipLogProgress(Zcl, "Lock App: LockEndpoint::GetUser [endpoint=%d,userIndex=%hu]", mEndpointId, userIndex);

     auto adjustedUserIndex = static_cast<uint16_t>(userIndex - 1);
     if (adjustedUserIndex > mLockUsers.size())
     {
         ChipLogError(Zcl, "Cannot get user - index out of range [endpoint=%d,index=%hu,adjustedIndex=%d]", mEndpointId, userIndex,
                      adjustedUserIndex);
         return false;
     }

     const auto & userInDb = mLockUsers[adjustedUserIndex];
     user.userStatus       = userInDb.userStatus;
     if (UserStatusEnum::kAvailable == user.userStatus)
     {
         ChipLogDetail(Zcl, "Found unoccupied user [endpoint=%d,adjustedIndex=%hu]", mEndpointId, adjustedUserIndex);
         return true;
     }

     user.userName       = chip::CharSpan(userInDb.userName, strlen(userInDb.userName));
     user.credentials    = chip::Span<const CredentialStruct>(userInDb.credentials.data(), userInDb.credentials.size());
     user.userUniqueId   = userInDb.userUniqueId;
     user.userType       = userInDb.userType;
     user.credentialRule = userInDb.credentialRule;
     // So far there's no way to actually create the credential outside the matter, so here we always set the creation/modification
     // source to Matter
     user.creationSource     = DlAssetSource::kMatterIM;
     user.createdBy          = userInDb.createdBy;
     user.modificationSource = DlAssetSource::kMatterIM;
     user.lastModifiedBy     = userInDb.lastModifiedBy;

     ChipLogDetail(Zcl,
                   "Found occupied user "
                   "[endpoint=%d,adjustedIndex=%hu,name=\"%.*s\",credentialsCount=%u,uniqueId=%x,type=%u,credentialRule=%u,"
                   "createdBy=%d,lastModifiedBy=%d]",
                   mEndpointId, adjustedUserIndex, static_cast<int>(user.userName.size()), user.userName.data(),
                   static_cast<unsigned int>(user.credentials.size()), user.userUniqueId, to_underlying(user.userType),
                   to_underlying(user.credentialRule), user.createdBy, user.lastModifiedBy);

     return true;
 }

 bool LockEndpoint::SetUser(uint16_t userIndex, chip::FabricIndex creator, chip::FabricIndex modifier,
                            const chip::CharSpan & userName, uint32_t uniqueId, UserStatusEnum userStatus, UserTypeEnum usertype,
                            CredentialRuleEnum credentialRule, const CredentialStruct * credentials, size_t totalCredentials)
 {
     ChipLogProgress(Zcl,
                     "Lock App: LockEndpoint::SetUser "
                     "[endpoint=%d,userIndex=%u,creator=%d,modifier=%d,userName=\"%.*s\",uniqueId=%" PRIx32
                     ",userStatus=%u,userType=%u,"
                     "credentialRule=%u,credentials=%p,totalCredentials=%u]",
                     mEndpointId, userIndex, creator, modifier, static_cast<int>(userName.size()), userName.data(), uniqueId,
                     to_underlying(userStatus), to_underlying(usertype), to_underlying(credentialRule), credentials,
                     static_cast<unsigned int>(totalCredentials));

     auto adjustedUserIndex = static_cast<uint16_t>(userIndex - 1);
     if (adjustedUserIndex > mLockUsers.size())
     {
         ChipLogError(Zcl, "Cannot set user - index out of range [endpoint=%d,index=%d,adjustedUserIndex=%u]", mEndpointId,
                      userIndex, adjustedUserIndex);
         return false;
     }

     auto & userInStorage = mLockUsers[adjustedUserIndex];
     if (userName.size() > DOOR_LOCK_MAX_USER_NAME_SIZE)
     {
         ChipLogError(Zcl, "Cannot set user - user name is too long [endpoint=%d,index=%d,adjustedUserIndex=%u]", mEndpointId,
                      userIndex, adjustedUserIndex);
         return false;
     }

     if (totalCredentials > userInStorage.credentials.capacity())
     {
         ChipLogError(Zcl,
                      "Cannot set user - total number of credentials is too big [endpoint=%d,index=%d,adjustedUserIndex=%u"
                      ",totalCredentials=%u,maxNumberOfCredentials=%u]",
                      mEndpointId, userIndex, adjustedUserIndex, static_cast<unsigned int>(totalCredentials),
                      static_cast<unsigned int>(userInStorage.credentials.capacity()));
         return false;
     }

     chip::Platform::CopyString(userInStorage.userName, userName);
     userInStorage.userName[userName.size()] = 0;
     userInStorage.userUniqueId              = uniqueId;
     userInStorage.userStatus                = userStatus;
     userInStorage.userType                  = usertype;
     userInStorage.credentialRule            = credentialRule;
     userInStorage.lastModifiedBy            = modifier;
     userInStorage.createdBy                 = creator;

     userInStorage.credentials.clear();
     for (size_t i = 0; i < totalCredentials; ++i)
     {
         userInStorage.credentials.push_back(credentials[i]);
     }

     ChipLogProgress(Zcl, "Successfully set the user [mEndpointId=%d,index=%d,adjustedIndex=%d]", mEndpointId, userIndex,
                     adjustedUserIndex);

     return true;
 }

 DoorStateEnum LockEndpoint::GetDoorState() const
 {
     return mDoorState;
 }

 bool LockEndpoint::SetDoorState(DoorStateEnum newState)
 {
     if (mDoorState != newState)
     {
         ChipLogProgress(Zcl, "Changing the door state to: %d [endpointId=%d,previousState=%d]", to_underlying(newState),
                         mEndpointId, to_underlying(mDoorState));

         mDoorState = newState;
         return DoorLockServer::Instance().SetDoorState(mEndpointId, mDoorState);
     }
     return true;
 }

 bool LockEndpoint::SendLockAlarm(AlarmCodeEnum alarmCode) const
 {
     ChipLogProgress(Zcl, "Sending the LockAlarm event [endpointId=%d,alarmCode=%u]", mEndpointId, to_underlying(alarmCode));
     return DoorLockServer::Instance().SendLockAlarmEvent(mEndpointId, alarmCode);
 }

 bool LockEndpoint::GetCredential(uint16_t credentialIndex, CredentialTypeEnum credentialType,
                                  EmberAfPluginDoorLockCredentialInfo & credential) const
 {
     ChipLogProgress(Zcl, "Lock App: LockEndpoint::GetCredential [endpoint=%d,credentialIndex=%u,credentialType=%u]", mEndpointId,
                     credentialIndex, to_underlying(credentialType));

     if (to_underlying(credentialType) >= mLockCredentials.size())
     {
         ChipLogError(Zcl, "Cannot get the credential - index out of range [endpoint=%d,index=%d]", mEndpointId, credentialIndex);
         return false;
     }

     if (credentialIndex >= mLockCredentials.at(to_underlying(credentialType)).size() ||
         (0 == credentialIndex && CredentialTypeEnum::kProgrammingPIN != credentialType))
     {
         ChipLogError(Zcl, "Cannot get the credential - index out of range [endpoint=%d,index=%d]", mEndpointId, credentialIndex);
         return false;
     }

     const auto & credentialInStorage = mLockCredentials[to_underlying(credentialType)][credentialIndex];

     credential.status = credentialInStorage.status;
     if (DlCredentialStatus::kAvailable == credential.status)
     {
         ChipLogDetail(Zcl, "Found unoccupied credential [endpoint=%d,index=%u]", mEndpointId, credentialIndex);
         return true;
     }
     credential.credentialType = credentialInStorage.credentialType;
     credential.credentialData = chip::ByteSpan(credentialInStorage.credentialData, credentialInStorage.credentialDataSize);
     // So far there's no way to actually create the credential outside the matter, so here we always set the creation/modification
     // source to Matter
     credential.creationSource     = DlAssetSource::kMatterIM;
     credential.createdBy          = credentialInStorage.createdBy;
     credential.modificationSource = DlAssetSource::kMatterIM;
     credential.lastModifiedBy     = credentialInStorage.modifiedBy;

     ChipLogDetail(Zcl, "Found occupied credential [endpoint=%d,index=%u,type=%u,dataSize=%u,createdBy=%u,modifiedBy=%u]",
                   mEndpointId, credentialIndex, to_underlying(credential.credentialType),
                   static_cast<unsigned int>(credential.credentialData.size()), credential.createdBy, credential.lastModifiedBy);

     return true;
 }

 bool LockEndpoint::SetCredential(uint16_t credentialIndex, chip::FabricIndex creator, chip::FabricIndex modifier,
                                  DlCredentialStatus credentialStatus, CredentialTypeEnum credentialType,
                                  const chip::ByteSpan & credentialData)
 {
     ChipLogProgress(
         Zcl,
         "Lock App: LockEndpoint::SetCredential "
         "[endpoint=%d,credentialIndex=%u,credentialStatus=%u,credentialType=%u,credentialDataSize=%u,creator=%u,modifier=%u]",
         mEndpointId, credentialIndex, to_underlying(credentialStatus), to_underlying(credentialType),
         static_cast<unsigned int>(credentialData.size()), creator, modifier);

     if (to_underlying(credentialType) >= mLockCredentials.capacity())
     {
         ChipLogError(Zcl, "Cannot set the credential - type out of range [endpoint=%d,type=%d]", mEndpointId,
                      to_underlying(credentialType));
         return false;
     }

     if (credentialIndex >= mLockCredentials.at(to_underlying(credentialType)).size() ||
         (0 == credentialIndex && CredentialTypeEnum::kProgrammingPIN != credentialType))
     {
         ChipLogError(Zcl, "Cannot set the credential - index out of range [endpoint=%d,index=%d]", mEndpointId, credentialIndex);
         return false;
     }

     auto & credentialInStorage = mLockCredentials[to_underlying(credentialType)][credentialIndex];
     if (credentialData.size() > DOOR_LOCK_CREDENTIAL_INFO_MAX_DATA_SIZE)
     {
         ChipLogError(Zcl,
                      "Cannot get the credential - data size exceeds limit "
                      "[endpoint=%d,index=%d,dataSize=%u,maxDataSize=%u]",
                      mEndpointId, credentialIndex, static_cast<unsigned int>(credentialData.size()),
                      static_cast<unsigned int>(DOOR_LOCK_CREDENTIAL_INFO_MAX_DATA_SIZE));
         return false;
     }
     credentialInStorage.status         = credentialStatus;
     credentialInStorage.credentialType = credentialType;
     credentialInStorage.createdBy      = creator;
     credentialInStorage.modifiedBy     = modifier;
     std::memcpy(credentialInStorage.credentialData, credentialData.data(), credentialData.size());
     credentialInStorage.credentialDataSize = credentialData.size();

     ChipLogProgress(Zcl, "Successfully set the credential [mEndpointId=%d,index=%d,credentialType=%u,creator=%u,modifier=%u]",
                     mEndpointId, credentialIndex, to_underlying(credentialType), credentialInStorage.createdBy,
                     credentialInStorage.modifiedBy);

     return true;
 }

 DlStatus LockEndpoint::GetSchedule(uint8_t weekDayIndex, uint16_t userIndex, EmberAfPluginDoorLockWeekDaySchedule & schedule)
 {
     if (0 == userIndex || userIndex > mWeekDaySchedules.size())
     {
         return DlStatus::kFailure;
     }

     if (0 == weekDayIndex || weekDayIndex > mWeekDaySchedules.at(userIndex - 1).size())
     {
         return DlStatus::kFailure;
     }

     const auto & scheduleInStorage = mWeekDaySchedules.at(userIndex - 1).at(weekDayIndex - 1);
     if (DlScheduleStatus::kAvailable == scheduleInStorage.status)
     {
         return DlStatus::kNotFound;
     }

     schedule = scheduleInStorage.schedule;

     return DlStatus::kSuccess;
 }

 DlStatus LockEndpoint::SetSchedule(uint8_t weekDayIndex, uint16_t userIndex, DlScheduleStatus status, DaysMaskMap daysMask,
                                    uint8_t startHour, uint8_t startMinute, uint8_t endHour, uint8_t endMinute)
 {
     if (0 == userIndex || userIndex > mWeekDaySchedules.size())
     {
         return DlStatus::kFailure;
     }

     if (0 == weekDayIndex || weekDayIndex > mWeekDaySchedules.at(userIndex - 1).size())
     {
         return DlStatus::kFailure;
     }

     auto & scheduleInStorage = mWeekDaySchedules.at(userIndex - 1).at(weekDayIndex - 1);

     scheduleInStorage.schedule.daysMask    = daysMask;
     scheduleInStorage.schedule.startHour   = startHour;
     scheduleInStorage.schedule.startMinute = startMinute;
     scheduleInStorage.schedule.endHour     = endHour;
     scheduleInStorage.schedule.endMinute   = endMinute;
     scheduleInStorage.status               = status;

     return DlStatus::kSuccess;
 }

 DlStatus LockEndpoint::GetSchedule(uint8_t yearDayIndex, uint16_t userIndex, EmberAfPluginDoorLockYearDaySchedule & schedule)
 {
     if (0 == userIndex || userIndex > mYearDaySchedules.size())
     {
         return DlStatus::kFailure;
     }

     if (0 == yearDayIndex || yearDayIndex > mYearDaySchedules.at(userIndex - 1).size())
     {
         return DlStatus::kFailure;
     }

     const auto & scheduleInStorage = mYearDaySchedules.at(userIndex - 1).at(yearDayIndex - 1);
     if (DlScheduleStatus::kAvailable == scheduleInStorage.status)
     {
         return DlStatus::kNotFound;
     }

     schedule = scheduleInStorage.schedule;

     return DlStatus::kSuccess;
 }

 DlStatus LockEndpoint::SetSchedule(uint8_t yearDayIndex, uint16_t userIndex, DlScheduleStatus status, uint32_t localStartTime,
                                    uint32_t localEndTime)
 {
     if (0 == userIndex || userIndex > mYearDaySchedules.size())
     {
         return DlStatus::kFailure;
     }

     if (0 == yearDayIndex || yearDayIndex > mYearDaySchedules.at(userIndex - 1).size())
     {
         return DlStatus::kFailure;
     }

     auto & scheduleInStorage                  = mYearDaySchedules.at(userIndex - 1).at(yearDayIndex - 1);
     scheduleInStorage.schedule.localStartTime = localStartTime;
     scheduleInStorage.schedule.localEndTime   = localEndTime;
     scheduleInStorage.status                  = status;

     return DlStatus::kSuccess;
 }

 DlStatus LockEndpoint::GetSchedule(uint8_t holidayIndex, EmberAfPluginDoorLockHolidaySchedule & schedule)
 {
     if (0 == holidayIndex || holidayIndex > mHolidaySchedules.size())
     {
         return DlStatus::kFailure;
     }

     const auto & scheduleInStorage = mHolidaySchedules[holidayIndex - 1];
     if (DlScheduleStatus::kAvailable == scheduleInStorage.status)
     {
         return DlStatus::kNotFound;
     }

     schedule = scheduleInStorage.schedule;
     return DlStatus::kSuccess;
 }

 DlStatus LockEndpoint::SetSchedule(uint8_t holidayIndex, DlScheduleStatus status, uint32_t localStartTime, uint32_t localEndTime,
                                    OperatingModeEnum operatingMode)
 {
     if (0 == holidayIndex || holidayIndex > mHolidaySchedules.size())
     {
         return DlStatus::kFailure;
     }

     auto & scheduleInStorage                  = mHolidaySchedules[holidayIndex - 1];
     scheduleInStorage.schedule.localStartTime = localStartTime;
     scheduleInStorage.schedule.localEndTime   = localEndTime;
     scheduleInStorage.schedule.operatingMode  = operatingMode;
     scheduleInStorage.status                  = status;

     return DlStatus::kSuccess;
 }

 bool LockEndpoint::setLockState(DlLockState lockState, const Optional<chip::ByteSpan> & pin, OperationErrorEnum & err,
                                 OperationSourceEnum opSource)
 {
     // Assume pin is required until told otherwise
     bool requirePin = true;
     chip::app::Clusters::DoorLock::Attributes::RequirePINforRemoteOperation::Get(mEndpointId, &requirePin);

     // If a pin code is not given
     if (!pin.HasValue())
     {
         ChipLogDetail(Zcl, "Door Lock App: PIN code is not specified [endpointId=%d]", mEndpointId);

         // If a pin code is not required
         if (!requirePin)
         {
             ChipLogProgress(Zcl, "Door Lock App: setting door lock state to \"%s\" [endpointId=%d]", lockStateToString(lockState),
                             mEndpointId);

             DoorLockServer::Instance().SetLockState(mEndpointId, lockState);

             return true;
         }

         ChipLogError(Zcl, "Door Lock App: PIN code is not specified, but it is required [endpointId=%d]", mEndpointId);

         return false;
     }

     // Find the credential so we can make sure it is not absent right away
     auto & pinCredentials = mLockCredentials[to_underlying(CredentialTypeEnum::kPin)];
     auto credential       = std::find_if(pinCredentials.begin(), pinCredentials.end(), [&pin](const LockCredentialInfo & c) {
         return (c.status != DlCredentialStatus::kAvailable) &&
             chip::ByteSpan{ c.credentialData, c.credentialDataSize }.data_equal(pin.Value());
     });
     if (credential == pinCredentials.end())
     {
         ChipLogDetail(Zcl,
                       "Lock App: specified PIN code was not found in the database, ignoring command to set lock state to \"%s\" "
                       "[endpointId=%d]",
                       lockStateToString(lockState), mEndpointId);

         err = OperationErrorEnum::kInvalidCredential;
         return false;
     }

     // Find a user that correspond to this credential
     auto credentialIndex = static_cast<unsigned>(credential - pinCredentials.begin());
     auto user = std::find_if(mLockUsers.begin(), mLockUsers.end(), [credential, credentialIndex](const LockUserInfo & u) {
         return std::any_of(u.credentials.begin(), u.credentials.end(), [&credential, credentialIndex](const CredentialStruct & c) {
             return c.credentialIndex == credentialIndex && c.credentialType == credential->credentialType;
         });
     });
     if (user == mLockUsers.end())
     {
         ChipLogDetail(Zcl,
                       "Lock App: specified PIN code was found in the database, but the lock user is not associated with it "
                       "[endpointId=%d,credentialIndex=%u]",
                       mEndpointId, credentialIndex);
     }

     auto userIndex = static_cast<uint8_t>(user - mLockUsers.begin());

     // Check if schedules affect the user
     if ((user->userType == UserTypeEnum::kScheduleRestrictedUser || user->userType == UserTypeEnum::kWeekDayScheduleUser) &&
         !weekDayScheduleInAction(userIndex))
     {
         if ((user->userType == UserTypeEnum::kScheduleRestrictedUser || user->userType == UserTypeEnum::kYearDayScheduleUser) &&
             !yearDayScheduleInAction(userIndex))
         {
             ChipLogDetail(Zcl,
                           "Lock App: associated user is not allowed to operate the lock due to schedules"
                           "[endpointId=%d,userIndex=%u]",
                           mEndpointId, userIndex);
             err = OperationErrorEnum::kRestricted;
             return false;
         }
     }
     ChipLogProgress(
         Zcl,
         "Lock App: specified PIN code was found in the database, setting door lock state to \"%s\" [endpointId=%d,userIndex=%u]",
         lockStateToString(lockState), mEndpointId, userIndex);

     mLockState                         = lockState;
     LockOpCredentials userCredential[] = { { CredentialTypeEnum::kPin, uint16_t(credentialIndex) } };
     auto userCredentials               = MakeNullable<List<const LockOpCredentials>>(userCredential);
     DoorLockServer::Instance().SetLockState(mEndpointId, mLockState, opSource, MakeNullable(static_cast<uint16_t>(userIndex + 1)),
                                             userCredentials);

     return true;
 }

 bool LockEndpoint::weekDayScheduleInAction(uint16_t userIndex) const
 {
     const auto & user = mLockUsers[userIndex];
     if (user.userType != UserTypeEnum::kScheduleRestrictedUser && user.userType != UserTypeEnum::kWeekDayScheduleUser)
     {
         return true;
     }

     chip::System::Clock::Milliseconds64 cTMs;
     auto chipError = chip::System::SystemClock().GetClock_RealTimeMS(cTMs);
     if (chipError != CHIP_NO_ERROR)
     {
         ChipLogError(Zcl, "Lock App: unable to get current time to check user schedules [endpointId=%d,error=%d (%s)]", mEndpointId,
                      chipError.AsInteger(), chipError.AsString());
         return false;
     }
     time_t unixEpoch = std::chrono::duration_cast<chip::System::Clock::Seconds32>(cTMs).count();

     tm calendarTime{};
     localtime_r(&unixEpoch, &calendarTime);

     auto currentTime =
         calendarTime.tm_hour * chip::kSecondsPerHour + calendarTime.tm_min * chip::kSecondsPerMinute + calendarTime.tm_sec;

     // Second, check the week day schedules.
     return std::any_of(
         mWeekDaySchedules[userIndex].begin(), mWeekDaySchedules[userIndex].end(),
         [currentTime, calendarTime](const WeekDaysScheduleInfo & s) {
             auto startTime = s.schedule.startHour * chip::kSecondsPerHour + s.schedule.startMinute * chip::kSecondsPerMinute;
             auto endTime   = s.schedule.endHour * chip::kSecondsPerHour + s.schedule.endMinute * chip::kSecondsPerMinute;
             return s.status == DlScheduleStatus::kOccupied && (to_underlying(s.schedule.daysMask) & (1 << calendarTime.tm_wday)) &&
                 startTime <= currentTime && currentTime <= endTime;
         });
 }

 bool LockEndpoint::yearDayScheduleInAction(uint16_t userIndex) const
 {
     const auto & user = mLockUsers[userIndex];
     if (user.userType != UserTypeEnum::kScheduleRestrictedUser && user.userType != UserTypeEnum::kYearDayScheduleUser)
     {
         return true;
     }

     chip::System::Clock::Milliseconds64 cTMs;
     auto chipError = chip::System::SystemClock().GetClock_RealTimeMS(cTMs);
     if (chipError != CHIP_NO_ERROR)
     {
         ChipLogError(Zcl, "Lock App: unable to get current time to check user schedules [endpointId=%d,error=%d (%s)]", mEndpointId,
                      chipError.AsInteger(), chipError.AsString());
         return false;
     }
     auto unixEpoch     = std::chrono::duration_cast<chip::System::Clock::Seconds32>(cTMs).count();
     uint32_t chipEpoch = 0;
     if (!chip::UnixEpochToChipEpochTime(unixEpoch, chipEpoch))
     {
         ChipLogError(Zcl,
                      "Lock App: unable to convert Unix Epoch time to Matter Epoch Time to check user schedules "
                      "[endpointId=%d,userIndex=%d]",
                      mEndpointId, userIndex);
         return false;
     }

     return std::any_of(mYearDaySchedules[userIndex].begin(), mYearDaySchedules[userIndex].end(),
                        [chipEpoch](const YearDayScheduleInfo & sch) {
                            return sch.status == DlScheduleStatus::kOccupied && sch.schedule.localStartTime <= chipEpoch &&
                                chipEpoch <= sch.schedule.localEndTime;
                        });
 }

 const char * LockEndpoint::lockStateToString(DlLockState lockState) const
 {
     switch (lockState)
     {
     case DlLockState::kNotFullyLocked:
         return "Not Fully Locked";
     case DlLockState::kLocked:
         return "Locked";
     case DlLockState::kUnlocked:
         return "Unlocked";
     case DlLockState::kUnlatched:
         return "Unlatched";
     case DlLockState::kUnknownEnumValue:
         break;
     }

     return "Unknown";
 }
	/*
	*
	* Copyright (c) 2022-2023 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.
	*/
	#include "LockEndpoint.h"
	#include <app-common/zap-generated/attributes/Accessors.h>
	#include <cstring>

	using chip::to_underlying;
	using chip::app::DataModel::MakeNullable;

	bool LockEndpoint::Lock(const Optional<chip::ByteSpan> & pin, OperationErrorEnum & err, OperationSourceEnum opSource)
	{
	return setLockState(DlLockState::kLocked, pin, err, opSource);
	}

	bool LockEndpoint::Unlock(const Optional<chip::ByteSpan> & pin, OperationErrorEnum & err, OperationSourceEnum opSource)
	{
	return setLockState(DlLockState::kUnlocked, pin, err, opSource);
	}

	bool LockEndpoint::GetUser(uint16_t userIndex, EmberAfPluginDoorLockUserInfo & user) const
	{
	ChipLogProgress(Zcl, "Lock App: LockEndpoint::GetUser [endpoint=%d,userIndex=%hu]", mEndpointId, userIndex);

	auto adjustedUserIndex = static_cast<uint16_t>(userIndex - 1);
	if (adjustedUserIndex > mLockUsers.size())
	{
	ChipLogError(Zcl, "Cannot get user - index out of range [endpoint=%d,index=%hu,adjustedIndex=%d]", mEndpointId, userIndex,
	adjustedUserIndex);
	return false;
	}

	const auto & userInDb = mLockUsers[adjustedUserIndex];
	user.userStatus = userInDb.userStatus;
	if (UserStatusEnum::kAvailable == user.userStatus)
	{
	ChipLogDetail(Zcl, "Found unoccupied user [endpoint=%d,adjustedIndex=%hu]", mEndpointId, adjustedUserIndex);
	return true;
	}

	user.userName = chip::CharSpan(userInDb.userName, strlen(userInDb.userName));
	user.credentials = chip::Span<const CredentialStruct>(userInDb.credentials.data(), userInDb.credentials.size());
	user.userUniqueId = userInDb.userUniqueId;
	user.userType = userInDb.userType;
	user.credentialRule = userInDb.credentialRule;
	// So far there's no way to actually create the credential outside the matter, so here we always set the creation/modification
	// source to Matter
	user.creationSource = DlAssetSource::kMatterIM;
	user.createdBy = userInDb.createdBy;
	user.modificationSource = DlAssetSource::kMatterIM;
	user.lastModifiedBy = userInDb.lastModifiedBy;

	ChipLogDetail(Zcl,
	"Found occupied user "
	"[endpoint=%d,adjustedIndex=%hu,name=\"%.*s\",credentialsCount=%u,uniqueId=%x,type=%u,credentialRule=%u,"
	"createdBy=%d,lastModifiedBy=%d]",
	mEndpointId, adjustedUserIndex, static_cast<int>(user.userName.size()), user.userName.data(),
	static_cast<unsigned int>(user.credentials.size()), user.userUniqueId, to_underlying(user.userType),
	to_underlying(user.credentialRule), user.createdBy, user.lastModifiedBy);

	return true;
	}

	bool LockEndpoint::SetUser(uint16_t userIndex, chip::FabricIndex creator, chip::FabricIndex modifier,
	const chip::CharSpan & userName, uint32_t uniqueId, UserStatusEnum userStatus, UserTypeEnum usertype,
	CredentialRuleEnum credentialRule, const CredentialStruct * credentials, size_t totalCredentials)
	{
	ChipLogProgress(Zcl,
	"Lock App: LockEndpoint::SetUser "
	"[endpoint=%d,userIndex=%u,creator=%d,modifier=%d,userName=\"%.*s\",uniqueId=%" PRIx32
	",userStatus=%u,userType=%u,"
	"credentialRule=%u,credentials=%p,totalCredentials=%u]",
	mEndpointId, userIndex, creator, modifier, static_cast<int>(userName.size()), userName.data(), uniqueId,
	to_underlying(userStatus), to_underlying(usertype), to_underlying(credentialRule), credentials,
	static_cast<unsigned int>(totalCredentials));

	auto adjustedUserIndex = static_cast<uint16_t>(userIndex - 1);
	if (adjustedUserIndex > mLockUsers.size())
	{
	ChipLogError(Zcl, "Cannot set user - index out of range [endpoint=%d,index=%d,adjustedUserIndex=%u]", mEndpointId,
	userIndex, adjustedUserIndex);
	return false;
	}

	auto & userInStorage = mLockUsers[adjustedUserIndex];
	if (userName.size() > DOOR_LOCK_MAX_USER_NAME_SIZE)
	{
	ChipLogError(Zcl, "Cannot set user - user name is too long [endpoint=%d,index=%d,adjustedUserIndex=%u]", mEndpointId,
	userIndex, adjustedUserIndex);
	return false;
	}

	if (totalCredentials > userInStorage.credentials.capacity())
	{
	ChipLogError(Zcl,
	"Cannot set user - total number of credentials is too big [endpoint=%d,index=%d,adjustedUserIndex=%u"
	",totalCredentials=%u,maxNumberOfCredentials=%u]",
	mEndpointId, userIndex, adjustedUserIndex, static_cast<unsigned int>(totalCredentials),
	static_cast<unsigned int>(userInStorage.credentials.capacity()));
	return false;
	}

	chip::Platform::CopyString(userInStorage.userName, userName);
	userInStorage.userName[userName.size()] = 0;
	userInStorage.userUniqueId = uniqueId;
	userInStorage.userStatus = userStatus;
	userInStorage.userType = usertype;
	userInStorage.credentialRule = credentialRule;
	userInStorage.lastModifiedBy = modifier;
	userInStorage.createdBy = creator;

	userInStorage.credentials.clear();
	for (size_t i = 0; i < totalCredentials; ++i)
	{
	userInStorage.credentials.push_back(credentials[i]);
	}

	ChipLogProgress(Zcl, "Successfully set the user [mEndpointId=%d,index=%d,adjustedIndex=%d]", mEndpointId, userIndex,
	adjustedUserIndex);

	return true;
	}

	DoorStateEnum LockEndpoint::GetDoorState() const
	{
	return mDoorState;
	}

	bool LockEndpoint::SetDoorState(DoorStateEnum newState)
	{
	if (mDoorState != newState)
	{
	ChipLogProgress(Zcl, "Changing the door state to: %d [endpointId=%d,previousState=%d]", to_underlying(newState),
	mEndpointId, to_underlying(mDoorState));

	mDoorState = newState;
	return DoorLockServer::Instance().SetDoorState(mEndpointId, mDoorState);
	}
	return true;
	}

	bool LockEndpoint::SendLockAlarm(AlarmCodeEnum alarmCode) const
	{
	ChipLogProgress(Zcl, "Sending the LockAlarm event [endpointId=%d,alarmCode=%u]", mEndpointId, to_underlying(alarmCode));
	return DoorLockServer::Instance().SendLockAlarmEvent(mEndpointId, alarmCode);
	}

	bool LockEndpoint::GetCredential(uint16_t credentialIndex, CredentialTypeEnum credentialType,
	EmberAfPluginDoorLockCredentialInfo & credential) const
	{
	ChipLogProgress(Zcl, "Lock App: LockEndpoint::GetCredential [endpoint=%d,credentialIndex=%u,credentialType=%u]", mEndpointId,
	credentialIndex, to_underlying(credentialType));

	if (to_underlying(credentialType) >= mLockCredentials.size())
	{
	ChipLogError(Zcl, "Cannot get the credential - index out of range [endpoint=%d,index=%d]", mEndpointId, credentialIndex);
	return false;
	}

	if (credentialIndex >= mLockCredentials.at(to_underlying(credentialType)).size() \|\|
	(0 == credentialIndex && CredentialTypeEnum::kProgrammingPIN != credentialType))
	{
	ChipLogError(Zcl, "Cannot get the credential - index out of range [endpoint=%d,index=%d]", mEndpointId, credentialIndex);
	return false;
	}

	const auto & credentialInStorage = mLockCredentials[to_underlying(credentialType)][credentialIndex];

	credential.status = credentialInStorage.status;
	if (DlCredentialStatus::kAvailable == credential.status)
	{
	ChipLogDetail(Zcl, "Found unoccupied credential [endpoint=%d,index=%u]", mEndpointId, credentialIndex);
	return true;
	}
	credential.credentialType = credentialInStorage.credentialType;
	credential.credentialData = chip::ByteSpan(credentialInStorage.credentialData, credentialInStorage.credentialDataSize);
	// So far there's no way to actually create the credential outside the matter, so here we always set the creation/modification
	// source to Matter
	credential.creationSource = DlAssetSource::kMatterIM;
	credential.createdBy = credentialInStorage.createdBy;
	credential.modificationSource = DlAssetSource::kMatterIM;
	credential.lastModifiedBy = credentialInStorage.modifiedBy;

	ChipLogDetail(Zcl, "Found occupied credential [endpoint=%d,index=%u,type=%u,dataSize=%u,createdBy=%u,modifiedBy=%u]",
	mEndpointId, credentialIndex, to_underlying(credential.credentialType),
	static_cast<unsigned int>(credential.credentialData.size()), credential.createdBy, credential.lastModifiedBy);

	return true;
	}

	bool LockEndpoint::SetCredential(uint16_t credentialIndex, chip::FabricIndex creator, chip::FabricIndex modifier,
	DlCredentialStatus credentialStatus, CredentialTypeEnum credentialType,
	const chip::ByteSpan & credentialData)
	{
	ChipLogProgress(
	Zcl,
	"Lock App: LockEndpoint::SetCredential "
	"[endpoint=%d,credentialIndex=%u,credentialStatus=%u,credentialType=%u,credentialDataSize=%u,creator=%u,modifier=%u]",
	mEndpointId, credentialIndex, to_underlying(credentialStatus), to_underlying(credentialType),
	static_cast<unsigned int>(credentialData.size()), creator, modifier);

	if (to_underlying(credentialType) >= mLockCredentials.capacity())
	{
	ChipLogError(Zcl, "Cannot set the credential - type out of range [endpoint=%d,type=%d]", mEndpointId,
	to_underlying(credentialType));
	return false;
	}

	if (credentialIndex >= mLockCredentials.at(to_underlying(credentialType)).size() \|\|
	(0 == credentialIndex && CredentialTypeEnum::kProgrammingPIN != credentialType))
	{
	ChipLogError(Zcl, "Cannot set the credential - index out of range [endpoint=%d,index=%d]", mEndpointId, credentialIndex);
	return false;
	}

	auto & credentialInStorage = mLockCredentials[to_underlying(credentialType)][credentialIndex];
	if (credentialData.size() > DOOR_LOCK_CREDENTIAL_INFO_MAX_DATA_SIZE)
	{
	ChipLogError(Zcl,
	"Cannot get the credential - data size exceeds limit "
	"[endpoint=%d,index=%d,dataSize=%u,maxDataSize=%u]",
	mEndpointId, credentialIndex, static_cast<unsigned int>(credentialData.size()),
	static_cast<unsigned int>(DOOR_LOCK_CREDENTIAL_INFO_MAX_DATA_SIZE));
	return false;
	}
	credentialInStorage.status = credentialStatus;
	credentialInStorage.credentialType = credentialType;
	credentialInStorage.createdBy = creator;
	credentialInStorage.modifiedBy = modifier;
	std::memcpy(credentialInStorage.credentialData, credentialData.data(), credentialData.size());
	credentialInStorage.credentialDataSize = credentialData.size();

	ChipLogProgress(Zcl, "Successfully set the credential [mEndpointId=%d,index=%d,credentialType=%u,creator=%u,modifier=%u]",
	mEndpointId, credentialIndex, to_underlying(credentialType), credentialInStorage.createdBy,
	credentialInStorage.modifiedBy);

	return true;
	}

	DlStatus LockEndpoint::GetSchedule(uint8_t weekDayIndex, uint16_t userIndex, EmberAfPluginDoorLockWeekDaySchedule & schedule)
	{
	if (0 == userIndex \|\| userIndex > mWeekDaySchedules.size())
	{
	return DlStatus::kFailure;
	}

	if (0 == weekDayIndex \|\| weekDayIndex > mWeekDaySchedules.at(userIndex - 1).size())
	{
	return DlStatus::kFailure;
	}

	const auto & scheduleInStorage = mWeekDaySchedules.at(userIndex - 1).at(weekDayIndex - 1);
	if (DlScheduleStatus::kAvailable == scheduleInStorage.status)
	{
	return DlStatus::kNotFound;
	}

	schedule = scheduleInStorage.schedule;

	return DlStatus::kSuccess;
	}

	DlStatus LockEndpoint::SetSchedule(uint8_t weekDayIndex, uint16_t userIndex, DlScheduleStatus status, DaysMaskMap daysMask,
	uint8_t startHour, uint8_t startMinute, uint8_t endHour, uint8_t endMinute)
	{
	if (0 == userIndex \|\| userIndex > mWeekDaySchedules.size())
	{
	return DlStatus::kFailure;
	}

	if (0 == weekDayIndex \|\| weekDayIndex > mWeekDaySchedules.at(userIndex - 1).size())
	{
	return DlStatus::kFailure;
	}

	auto & scheduleInStorage = mWeekDaySchedules.at(userIndex - 1).at(weekDayIndex - 1);

	scheduleInStorage.schedule.daysMask = daysMask;
	scheduleInStorage.schedule.startHour = startHour;
	scheduleInStorage.schedule.startMinute = startMinute;
	scheduleInStorage.schedule.endHour = endHour;
	scheduleInStorage.schedule.endMinute = endMinute;
	scheduleInStorage.status = status;

	return DlStatus::kSuccess;
	}

	DlStatus LockEndpoint::GetSchedule(uint8_t yearDayIndex, uint16_t userIndex, EmberAfPluginDoorLockYearDaySchedule & schedule)
	{
	if (0 == userIndex \|\| userIndex > mYearDaySchedules.size())
	{
	return DlStatus::kFailure;
	}

	if (0 == yearDayIndex \|\| yearDayIndex > mYearDaySchedules.at(userIndex - 1).size())
	{
	return DlStatus::kFailure;
	}

	const auto & scheduleInStorage = mYearDaySchedules.at(userIndex - 1).at(yearDayIndex - 1);
	if (DlScheduleStatus::kAvailable == scheduleInStorage.status)
	{
	return DlStatus::kNotFound;
	}

	schedule = scheduleInStorage.schedule;

	return DlStatus::kSuccess;
	}

	DlStatus LockEndpoint::SetSchedule(uint8_t yearDayIndex, uint16_t userIndex, DlScheduleStatus status, uint32_t localStartTime,
	uint32_t localEndTime)
	{
	if (0 == userIndex \|\| userIndex > mYearDaySchedules.size())
	{
	return DlStatus::kFailure;
	}

	if (0 == yearDayIndex \|\| yearDayIndex > mYearDaySchedules.at(userIndex - 1).size())
	{
	return DlStatus::kFailure;
	}

	auto & scheduleInStorage = mYearDaySchedules.at(userIndex - 1).at(yearDayIndex - 1);
	scheduleInStorage.schedule.localStartTime = localStartTime;
	scheduleInStorage.schedule.localEndTime = localEndTime;
	scheduleInStorage.status = status;

	return DlStatus::kSuccess;
	}

	DlStatus LockEndpoint::GetSchedule(uint8_t holidayIndex, EmberAfPluginDoorLockHolidaySchedule & schedule)
	{
	if (0 == holidayIndex \|\| holidayIndex > mHolidaySchedules.size())
	{
	return DlStatus::kFailure;
	}

	const auto & scheduleInStorage = mHolidaySchedules[holidayIndex - 1];
	if (DlScheduleStatus::kAvailable == scheduleInStorage.status)
	{
	return DlStatus::kNotFound;
	}

	schedule = scheduleInStorage.schedule;
	return DlStatus::kSuccess;
	}

	DlStatus LockEndpoint::SetSchedule(uint8_t holidayIndex, DlScheduleStatus status, uint32_t localStartTime, uint32_t localEndTime,
	OperatingModeEnum operatingMode)
	{
	if (0 == holidayIndex \|\| holidayIndex > mHolidaySchedules.size())
	{
	return DlStatus::kFailure;
	}

	auto & scheduleInStorage = mHolidaySchedules[holidayIndex - 1];
	scheduleInStorage.schedule.localStartTime = localStartTime;
	scheduleInStorage.schedule.localEndTime = localEndTime;
	scheduleInStorage.schedule.operatingMode = operatingMode;
	scheduleInStorage.status = status;

	return DlStatus::kSuccess;
	}

	bool LockEndpoint::setLockState(DlLockState lockState, const Optional<chip::ByteSpan> & pin, OperationErrorEnum & err,
	OperationSourceEnum opSource)
	{
	// Assume pin is required until told otherwise
	bool requirePin = true;
	chip::app::Clusters::DoorLock::Attributes::RequirePINforRemoteOperation::Get(mEndpointId, &requirePin);

	// If a pin code is not given
	if (!pin.HasValue())
	{
	ChipLogDetail(Zcl, "Door Lock App: PIN code is not specified [endpointId=%d]", mEndpointId);

	// If a pin code is not required
	if (!requirePin)
	{
	ChipLogProgress(Zcl, "Door Lock App: setting door lock state to \"%s\" [endpointId=%d]", lockStateToString(lockState),
	mEndpointId);

	DoorLockServer::Instance().SetLockState(mEndpointId, lockState);

	return true;
	}

	ChipLogError(Zcl, "Door Lock App: PIN code is not specified, but it is required [endpointId=%d]", mEndpointId);

	return false;
	}

	// Find the credential so we can make sure it is not absent right away
	auto & pinCredentials = mLockCredentials[to_underlying(CredentialTypeEnum::kPin)];
	auto credential = std::find_if(pinCredentials.begin(), pinCredentials.end(), [&pin](const LockCredentialInfo & c) {
	return (c.status != DlCredentialStatus::kAvailable) &&
	chip::ByteSpan{ c.credentialData, c.credentialDataSize }.data_equal(pin.Value());
	});
	if (credential == pinCredentials.end())
	{
	ChipLogDetail(Zcl,
	"Lock App: specified PIN code was not found in the database, ignoring command to set lock state to \"%s\" "
	"[endpointId=%d]",
	lockStateToString(lockState), mEndpointId);

	err = OperationErrorEnum::kInvalidCredential;
	return false;
	}

	// Find a user that correspond to this credential
	auto credentialIndex = static_cast<unsigned>(credential - pinCredentials.begin());
	auto user = std::find_if(mLockUsers.begin(), mLockUsers.end(), [credential, credentialIndex](const LockUserInfo & u) {
	return std::any_of(u.credentials.begin(), u.credentials.end(), [&credential, credentialIndex](const CredentialStruct & c) {
	return c.credentialIndex == credentialIndex && c.credentialType == credential->credentialType;
	});
	});
	if (user == mLockUsers.end())
	{
	ChipLogDetail(Zcl,
	"Lock App: specified PIN code was found in the database, but the lock user is not associated with it "
	"[endpointId=%d,credentialIndex=%u]",
	mEndpointId, credentialIndex);
	}

	auto userIndex = static_cast<uint8_t>(user - mLockUsers.begin());

	// Check if schedules affect the user
	if ((user->userType == UserTypeEnum::kScheduleRestrictedUser \|\| user->userType == UserTypeEnum::kWeekDayScheduleUser) &&
	!weekDayScheduleInAction(userIndex))
	{
	if ((user->userType == UserTypeEnum::kScheduleRestrictedUser \|\| user->userType == UserTypeEnum::kYearDayScheduleUser) &&
	!yearDayScheduleInAction(userIndex))
	{
	ChipLogDetail(Zcl,
	"Lock App: associated user is not allowed to operate the lock due to schedules"
	"[endpointId=%d,userIndex=%u]",
	mEndpointId, userIndex);
	err = OperationErrorEnum::kRestricted;
	return false;
	}
	}
	ChipLogProgress(
	Zcl,
	"Lock App: specified PIN code was found in the database, setting door lock state to \"%s\" [endpointId=%d,userIndex=%u]",
	lockStateToString(lockState), mEndpointId, userIndex);

	mLockState = lockState;
	LockOpCredentials userCredential[] = { { CredentialTypeEnum::kPin, uint16_t(credentialIndex) } };
	auto userCredentials = MakeNullable<List<const LockOpCredentials>>(userCredential);
	DoorLockServer::Instance().SetLockState(mEndpointId, mLockState, opSource, MakeNullable(static_cast<uint16_t>(userIndex + 1)),
	userCredentials);

	return true;
	}

	bool LockEndpoint::weekDayScheduleInAction(uint16_t userIndex) const
	{
	const auto & user = mLockUsers[userIndex];
	if (user.userType != UserTypeEnum::kScheduleRestrictedUser && user.userType != UserTypeEnum::kWeekDayScheduleUser)
	{
	return true;
	}

	chip::System::Clock::Milliseconds64 cTMs;
	auto chipError = chip::System::SystemClock().GetClock_RealTimeMS(cTMs);
	if (chipError != CHIP_NO_ERROR)
	{
	ChipLogError(Zcl, "Lock App: unable to get current time to check user schedules [endpointId=%d,error=%d (%s)]", mEndpointId,
	chipError.AsInteger(), chipError.AsString());
	return false;
	}
	time_t unixEpoch = std::chrono::duration_cast<chip::System::Clock::Seconds32>(cTMs).count();

	tm calendarTime{};
	localtime_r(&unixEpoch, &calendarTime);

	auto currentTime =
	calendarTime.tm_hour * chip::kSecondsPerHour + calendarTime.tm_min * chip::kSecondsPerMinute + calendarTime.tm_sec;

	// Second, check the week day schedules.
	return std::any_of(
	mWeekDaySchedules[userIndex].begin(), mWeekDaySchedules[userIndex].end(),
	[currentTime, calendarTime](const WeekDaysScheduleInfo & s) {
	auto startTime = s.schedule.startHour * chip::kSecondsPerHour + s.schedule.startMinute * chip::kSecondsPerMinute;
	auto endTime = s.schedule.endHour * chip::kSecondsPerHour + s.schedule.endMinute * chip::kSecondsPerMinute;
	return s.status == DlScheduleStatus::kOccupied && (to_underlying(s.schedule.daysMask) & (1 << calendarTime.tm_wday)) &&
	startTime <= currentTime && currentTime <= endTime;
	});
	}

	bool LockEndpoint::yearDayScheduleInAction(uint16_t userIndex) const
	{
	const auto & user = mLockUsers[userIndex];
	if (user.userType != UserTypeEnum::kScheduleRestrictedUser && user.userType != UserTypeEnum::kYearDayScheduleUser)
	{
	return true;
	}

	chip::System::Clock::Milliseconds64 cTMs;
	auto chipError = chip::System::SystemClock().GetClock_RealTimeMS(cTMs);
	if (chipError != CHIP_NO_ERROR)
	{
	ChipLogError(Zcl, "Lock App: unable to get current time to check user schedules [endpointId=%d,error=%d (%s)]", mEndpointId,
	chipError.AsInteger(), chipError.AsString());
	return false;
	}
	auto unixEpoch = std::chrono::duration_cast<chip::System::Clock::Seconds32>(cTMs).count();
	uint32_t chipEpoch = 0;
	if (!chip::UnixEpochToChipEpochTime(unixEpoch, chipEpoch))
	{
	ChipLogError(Zcl,
	"Lock App: unable to convert Unix Epoch time to Matter Epoch Time to check user schedules "
	"[endpointId=%d,userIndex=%d]",
	mEndpointId, userIndex);
	return false;
	}

	return std::any_of(mYearDaySchedules[userIndex].begin(), mYearDaySchedules[userIndex].end(),
	[chipEpoch](const YearDayScheduleInfo & sch) {
	return sch.status == DlScheduleStatus::kOccupied && sch.schedule.localStartTime <= chipEpoch &&
	chipEpoch <= sch.schedule.localEndTime;
	});
	}

	const char * LockEndpoint::lockStateToString(DlLockState lockState) const
	{
	switch (lockState)
	{
	case DlLockState::kNotFullyLocked:
	return "Not Fully Locked";
	case DlLockState::kLocked:
	return "Locked";
	case DlLockState::kUnlocked:
	return "Unlocked";
	case DlLockState::kUnlatched:
	return "Unlatched";
	case DlLockState::kUnknownEnumValue:
	break;
	}

	return "Unknown";
	}