src/report.cpp - openbmc/telemetry - Gitiles

 #include "report.hpp"

 #include "messages/collect_trigger_id.hpp"
 #include "messages/trigger_presence_changed_ind.hpp"
 #include "messages/update_report_ind.hpp"
 #include "report_manager.hpp"
 #include "utils/clock.hpp"
 #include "utils/contains.hpp"
 #include "utils/ensure.hpp"
 #include "utils/transform.hpp"

 #include <phosphor-logging/log.hpp>
 #include <sdbusplus/vtable.hpp>

 #include <limits>
 #include <numeric>
 #include <optional>

 Report::Report(boost::asio::io_context& ioc,
                const std::shared_ptr<sdbusplus::asio::object_server>& objServer,
                const std::string& reportId, const std::string& reportName,
                const ReportingType reportingTypeIn,
                std::vector<ReportAction> reportActionsIn,
                const Milliseconds intervalIn, const uint64_t appendLimitIn,
                const ReportUpdates reportUpdatesIn,
                interfaces::ReportManager& reportManager,
                interfaces::JsonStorage& reportStorageIn,
                std::vector<std::shared_ptr<interfaces::Metric>> metricsIn,
                const interfaces::ReportFactory& reportFactory,
                const bool enabledIn, std::unique_ptr<interfaces::Clock> clock,
                Readings readingsIn) :
     id(reportId),
     name(reportName), reportingType(reportingTypeIn), interval(intervalIn),
     reportActions(reportActionsIn.begin(), reportActionsIn.end()),
     sensorCount(getSensorCount(metricsIn)),
     appendLimit(deduceAppendLimit(appendLimitIn)),
     reportUpdates(reportUpdatesIn), readings(std::move(readingsIn)),
     readingsBuffer(std::get<1>(readings),
                    deduceBufferSize(reportUpdates, reportingType)),
     objServer(objServer), metrics(std::move(metricsIn)), timer(ioc),
     triggerIds(collectTriggerIds(ioc)), reportStorage(reportStorageIn),
     clock(std::move(clock)), messanger(ioc)
 {
     readingParameters =
         toReadingParameters(utils::transform(metrics, [](const auto& metric) {
             return metric->dumpConfiguration();
         }));

     readingParametersPastVersion =
         utils::transform(readingParameters, [](const auto& item) {
             const auto& [sensorData, operationType, id, collectionTimeScope,
                          collectionDuration] = item;

             return ReadingParametersPastVersion::value_type(
                 std::get<0>(sensorData.front()), operationType, id,
                 std::get<1>(sensorData.front()));
         });

     reportActions.insert(ReportAction::logToMetricReportsCollection);

     deleteIface = objServer->add_unique_interface(
         getPath(), deleteIfaceName,
         [this, &ioc, &reportManager](auto& dbusIface) {
             dbusIface.register_method("Delete", [this, &ioc, &reportManager] {
                 if (persistency)
                 {
                     persistency = false;

                     reportIface->signal_property("Persistency");
                 }

                 boost::asio::post(ioc, [this, &reportManager] {
                     reportManager.removeReport(this);
                 });
             });
         });

     errorMessages = verify();
     state.set<ReportFlags::enabled, ReportFlags::valid>(enabledIn,
                                                         errorMessages.empty());

     reportIface = makeReportInterface(reportFactory);
     persistency = storeConfiguration();

     messanger.on_receive<messages::TriggerPresenceChangedInd>(
         [this](const auto& msg) {
             const auto oldSize = triggerIds.size();

             if (msg.presence == messages::Presence::Exist)
             {
                 if (utils::contains(msg.reportIds, id))
                 {
                     triggerIds.insert(msg.triggerId);
                 }
                 else if (!utils::contains(msg.reportIds, id))
                 {
                     triggerIds.erase(msg.triggerId);
                 }
             }
             else if (msg.presence == messages::Presence::Removed)
             {
                 triggerIds.erase(msg.triggerId);
             }

             if (triggerIds.size() != oldSize)
             {
                 reportIface->signal_property("TriggerIds");
             }
         });

     messanger.on_receive<messages::UpdateReportInd>([this](const auto& msg) {
         if (utils::contains(msg.reportIds, id))
         {
             updateReadings();
         }
     });
 }

 Report::~Report()
 {
     if (persistency)
     {
         if (shouldStoreMetricValues())
         {
             storeConfiguration();
         }
     }
     else
     {
         reportStorage.remove(reportFileName());
     }
 }

 void Report::activate()
 {
     for (auto& metric : this->metrics)
     {
         metric->initialize();
     }

     scheduleTimer();

     if (reportIface)
     {
         reportIface->signal_property("errors");
     }
 }

 void Report::deactivate()
 {
     for (auto& metric : metrics)
     {
         metric->deinitialize();
     }

     unregisterFromMetrics = nullptr;
     timer.cancel();

     if (reportIface)
     {
         reportIface->signal_property("Errors");
     }
 }

 uint64_t Report::getSensorCount(
     const std::vector<std::shared_ptr<interfaces::Metric>>& metrics)
 {
     uint64_t sensorCount = 0;
     for (auto& metric : metrics)
     {
         sensorCount += metric->sensorCount();
     }
     return sensorCount;
 }

 std::optional<uint64_t>
     Report::deduceAppendLimit(const uint64_t appendLimitIn) const
 {
     if (appendLimitIn == std::numeric_limits<uint64_t>::max())
     {
         return std::nullopt;
     }
     else
     {
         return appendLimitIn;
     }
 }

 uint64_t Report::deduceBufferSize(const ReportUpdates reportUpdatesIn,
                                   const ReportingType reportingTypeIn) const
 {
     if (reportUpdatesIn == ReportUpdates::overwrite ||
         reportingTypeIn == ReportingType::onRequest)
     {
         return sensorCount;
     }
     else
     {
         return appendLimit.value_or(sensorCount);
     }
 }

 void Report::setReadingBuffer(const ReportUpdates newReportUpdates)
 {
     if (reportingType != ReportingType::onRequest &&
         (reportUpdates == ReportUpdates::overwrite ||
          newReportUpdates == ReportUpdates::overwrite))
     {
         readingsBuffer.clearAndResize(
             deduceBufferSize(newReportUpdates, reportingType));
     }
 }

 void Report::setReportUpdates(const ReportUpdates newReportUpdates)
 {
     if (reportUpdates != newReportUpdates)
     {
         setReadingBuffer(newReportUpdates);
         reportUpdates = newReportUpdates;
     }
 }

 std::unique_ptr<sdbusplus::asio::dbus_interface>
     Report::makeReportInterface(const interfaces::ReportFactory& reportFactory)
 {
     auto dbusIface =
         objServer->add_unique_interface(getPath(), reportIfaceName);
     dbusIface->register_property_rw<bool>(
         "Enabled", sdbusplus::vtable::property_::emits_change,
         [this](bool newVal, auto& oldValue) {
             if (newVal != state.get<ReportFlags::enabled>())
             {
                 state.set<ReportFlags::enabled>(oldValue = newVal);

                 persistency = storeConfiguration();
             }
             return 1;
         },
         [this](const auto&) { return state.get<ReportFlags::enabled>(); });
     dbusIface->register_property_r<
         std::vector<std::tuple<std::string, std::string>>>(
         "ErrorMessages", sdbusplus::vtable::property_::emits_change,
         [this](const auto&) {
             return utils::transform(errorMessages, [](const auto& em) {
                 return std::tuple<std::string, std::string>(
                     utils::enumToString(em.error), em.arg0);
             });
         });
     dbusIface->register_property_rw<uint64_t>(
         "Interval", sdbusplus::vtable::property_::emits_change,
         [this](uint64_t newVal, auto& oldVal) {
             const Milliseconds newValT{newVal};
             if (newValT < ReportManager::minInterval &&
                 newValT != Milliseconds{0})
             {
                 throw sdbusplus::exception::SdBusError(
                     static_cast<int>(std::errc::invalid_argument),
                     "Invalid interval");
             }

             if (newValT != interval)
             {
                 oldVal = newVal;
                 interval = newValT;

                 errorMessages = verify();
                 if (state.set<ReportFlags::valid>(errorMessages.empty()) ==
                     StateEvent::active)
                 {
                     scheduleTimer();
                 }

                 persistency = storeConfiguration();
             }
             return 1;
         },
         [this](const auto&) { return interval.count(); });
     dbusIface->register_property_rw<bool>(
         "Persistency", sdbusplus::vtable::property_::emits_change,
         [this](bool newVal, auto& oldVal) {
             if (newVal == persistency)
             {
                 return 1;
             }
             if (newVal)
             {
                 persistency = oldVal = storeConfiguration();
             }
             else
             {
                 reportStorage.remove(reportFileName());
                 persistency = oldVal = false;
             }
             return 1;
         },
         [this](const auto&) { return persistency; });

     dbusIface->register_property_r("Readings", readings,
                                    sdbusplus::vtable::property_::emits_change,
                                    [this](const auto&) { return readings; });
     dbusIface->register_property_rw<std::string>(
         "ReportingType", sdbusplus::vtable::property_::emits_change,
         [this](auto newVal, auto& oldVal) {
             ReportingType tmp = utils::toReportingType(newVal);
             if (tmp != reportingType)
             {
                 reportingType = tmp;
                 oldVal = std::move(newVal);

                 errorMessages = verify();
                 if (state.set<ReportFlags::valid>(errorMessages.empty()) ==
                     StateEvent::active)
                 {
                     scheduleTimer();
                 }

                 persistency = storeConfiguration();

                 setReadingBuffer(reportUpdates);
             }
             return 1;
         },
         [this](const auto&) { return utils::enumToString(reportingType); });
     dbusIface->register_property_r(
         "ReadingParameters", readingParametersPastVersion,
         sdbusplus::vtable::property_::const_,
         [this](const auto&) { return readingParametersPastVersion; });
     dbusIface->register_property_rw(
         "ReadingParametersFutureVersion", readingParameters,
         sdbusplus::vtable::property_::emits_change,
         [this, &reportFactory](auto newVal, auto& oldVal) {
             reportFactory.updateMetrics(
                 metrics, state.get<ReportFlags::enabled>(), newVal);
             readingParameters = toReadingParameters(
                 utils::transform(metrics, [](const auto& metric) {
                     return metric->dumpConfiguration();
                 }));
             persistency = storeConfiguration();
             oldVal = std::move(newVal);
             return 1;
         },
         [this](const auto&) { return readingParameters; });
     dbusIface->register_property_r<bool>(
         "EmitsReadingsUpdate", sdbusplus::vtable::property_::none,
         [this](const auto&) {
             return reportActions.contains(ReportAction::emitsReadingsUpdate);
         });
     dbusIface->register_property_r<std::string>(
         "Name", sdbusplus::vtable::property_::const_,
         [this](const auto&) { return name; });
     dbusIface->register_property_r<bool>(
         "LogToMetricReportsCollection", sdbusplus::vtable::property_::const_,
         [this](const auto&) {
             return reportActions.contains(
                 ReportAction::logToMetricReportsCollection);
         });
     dbusIface->register_property_rw<std::vector<std::string>>(
         "ReportActions", sdbusplus::vtable::property_::emits_change,
         [this](auto newVal, auto& oldVal) {
             auto tmp = utils::transform<std::unordered_set>(
                 newVal, [](const auto& reportAction) {
                     return utils::toReportAction(reportAction);
                 });
             tmp.insert(ReportAction::logToMetricReportsCollection);

             if (tmp != reportActions)
             {
                 reportActions = tmp;
                 persistency = storeConfiguration();
                 oldVal = std::move(newVal);
             }
             return 1;
         },
         [this](const auto&) {
             return utils::transform<std::vector>(
                 reportActions, [](const auto reportAction) {
                     return utils::enumToString(reportAction);
                 });
         });
     dbusIface->register_property_r(
         "AppendLimit", appendLimit.value_or(sensorCount),
         sdbusplus::vtable::property_::emits_change,
         [this](const auto&) { return appendLimit.value_or(sensorCount); });
     dbusIface->register_property_rw(
         "ReportUpdates", std::string(),
         sdbusplus::vtable::property_::emits_change,
         [this](auto newVal, auto& oldVal) {
             setReportUpdates(utils::toReportUpdates(newVal));
             oldVal = newVal;
             return 1;
         },
         [this](const auto&) { return utils::enumToString(reportUpdates); });
     dbusIface->register_property_r(
         "TriggerIds", std::vector<std::string>{},
         sdbusplus::vtable::property_::emits_change, [this](const auto&) {
             return std::vector<std::string>(triggerIds.begin(),
                                             triggerIds.end());
         });
     dbusIface->register_method("Update", [this] {
         if (reportingType == ReportingType::onRequest)
         {
             updateReadings();
         }
     });
     constexpr bool skipPropertiesChangedSignal = true;
     dbusIface->initialize(skipPropertiesChangedSignal);
     return dbusIface;
 }

 void Report::timerProcForPeriodicReport(boost::system::error_code ec,
                                         Report& self)
 {
     if (ec)
     {
         return;
     }

     self.updateReadings();
     self.scheduleTimerForPeriodicReport(self.interval);
 }

 void Report::timerProcForOnChangeReport(boost::system::error_code ec,
                                         Report& self)
 {
     if (ec)
     {
         return;
     }

     const auto ensure =
         utils::Ensure{[&self] { self.onChangeContext = std::nullopt; }};

     self.onChangeContext.emplace(self);

     const auto steadyTimestamp = self.clock->steadyTimestamp();

     for (auto& metric : self.metrics)
     {
         metric->updateReadings(steadyTimestamp);
     }

     self.scheduleTimerForOnChangeReport();
 }

 void Report::scheduleTimerForPeriodicReport(Milliseconds timerInterval)
 {
     timer.expires_after(timerInterval);
     timer.async_wait([this](boost::system::error_code ec) {
         timerProcForPeriodicReport(ec, *this);
     });
 }

 void Report::scheduleTimerForOnChangeReport()
 {
     constexpr Milliseconds timerInterval{100};

     timer.expires_after(timerInterval);
     timer.async_wait([this](boost::system::error_code ec) {
         timerProcForOnChangeReport(ec, *this);
     });
 }

 void Report::updateReadings()
 {
     if (!state.isActive())
     {
         return;
     }

     if (reportUpdates == ReportUpdates::overwrite ||
         reportingType == ReportingType::onRequest)
     {
         readingsBuffer.clear();
     }

     for (const auto& metric : metrics)
     {
         if (!state.isActive())
         {
             break;
         }

         for (const auto& [id, metadata, value, timestamp] :
              metric->getUpdatedReadings())
         {
             if (reportUpdates == ReportUpdates::appendStopsWhenFull &&
                 readingsBuffer.isFull())
             {
                 state.set<ReportFlags::enabled>(false);
                 reportIface->signal_property("Enabled");
                 break;
             }
             readingsBuffer.emplace(id, metadata, value, timestamp);
         }
     }

     std::get<0>(readings) =
         std::chrono::duration_cast<Milliseconds>(clock->systemTimestamp())
             .count();

     if (utils::contains(reportActions, ReportAction::emitsReadingsUpdate))
     {
         reportIface->signal_property("Readings");
     }
 }

 bool Report::shouldStoreMetricValues() const
 {
     return reportingType != ReportingType::onRequest &&
            reportUpdates == ReportUpdates::appendStopsWhenFull;
 }

 bool Report::storeConfiguration() const
 {
     try
     {
         nlohmann::json data;

         data["Enabled"] = state.get<ReportFlags::enabled>();
         data["Version"] = reportVersion;
         data["Id"] = id;
         data["Name"] = name;
         data["ReportingType"] = utils::toUnderlying(reportingType);
         data["ReportActions"] =
             utils::transform(reportActions, [](const auto reportAction) {
                 return utils::toUnderlying(reportAction);
             });
         data["Interval"] = interval.count();
         data["AppendLimit"] =
             appendLimit.value_or(std::numeric_limits<uint64_t>::max());
         data["ReportUpdates"] = utils::toUnderlying(reportUpdates);
         data["ReadingParameters"] =
             utils::transform(metrics, [](const auto& metric) {
                 return metric->dumpConfiguration();
             });

         if (shouldStoreMetricValues())
         {
             data["MetricValues"] = utils::toLabeledReadings(readings);
         }

         reportStorage.store(reportFileName(), data);
     }
     catch (const std::exception& e)
     {
         phosphor::logging::log<phosphor::logging::level::ERR>(
             "Failed to store a report in storage",
             phosphor::logging::entry("EXCEPTION_MSG=%s", e.what()));
         return false;
     }

     return true;
 }

 interfaces::JsonStorage::FilePath Report::reportFileName() const
 {
     return interfaces::JsonStorage::FilePath{
         std::to_string(std::hash<std::string>{}(id))};
 }

 std::unordered_set<std::string>
     Report::collectTriggerIds(boost::asio::io_context& ioc) const
 {
     utils::Messanger tmp(ioc);

     auto result = std::unordered_set<std::string>();

     tmp.on_receive<messages::CollectTriggerIdResp>(
         [&result](const auto& msg) { result.insert(msg.triggerId); });

     tmp.send(messages::CollectTriggerIdReq{id});

     return result;
 }

 void Report::metricUpdated()
 {
     if (onChangeContext)
     {
         onChangeContext->metricUpdated();
         return;
     }

     updateReadings();
 }

 void Report::scheduleTimer()
 {
     switch (reportingType)
     {
         case ReportingType::periodic:
         {
             unregisterFromMetrics = nullptr;
             scheduleTimerForPeriodicReport(interval);
             break;
         }
         case ReportingType::onChange:
         {
             if (!unregisterFromMetrics)
             {
                 unregisterFromMetrics = [this] {
                     for (auto& metric : metrics)
                     {
                         metric->unregisterFromUpdates(*this);
                     }
                 };

                 for (auto& metric : metrics)
                 {
                     metric->registerForUpdates(*this);
                 }
             }

             bool isTimerRequired = false;

             for (auto& metric : metrics)
             {
                 if (metric->isTimerRequired())
                 {
                     isTimerRequired = true;
                 }
             }

             if (isTimerRequired)
             {
                 scheduleTimerForOnChangeReport();
             }
             else
             {
                 timer.cancel();
             }
             break;
         }
         default:
             unregisterFromMetrics = nullptr;
             timer.cancel();
             break;
     }
 }

 std::vector<ErrorMessage> Report::verify() const
 {
     std::vector<ErrorMessage> result;

     if ((reportingType == ReportingType::periodic &&
          interval == Milliseconds{0}) ||
         (reportingType != ReportingType::periodic &&
          interval != Milliseconds{0}))
     {
         result.emplace_back(ErrorType::propertyConflict, "Interval");
         result.emplace_back(ErrorType::propertyConflict, "ReportingType");
     }

     return result;
 }
	#include "report.hpp"

	#include "messages/collect_trigger_id.hpp"
	#include "messages/trigger_presence_changed_ind.hpp"
	#include "messages/update_report_ind.hpp"
	#include "report_manager.hpp"
	#include "utils/clock.hpp"
	#include "utils/contains.hpp"
	#include "utils/ensure.hpp"
	#include "utils/transform.hpp"

	#include <phosphor-logging/log.hpp>
	#include <sdbusplus/vtable.hpp>

	#include <limits>
	#include <numeric>
	#include <optional>

	Report::Report(boost::asio::io_context& ioc,
	const std::shared_ptr<sdbusplus::asio::object_server>& objServer,
	const std::string& reportId, const std::string& reportName,
	const ReportingType reportingTypeIn,
	std::vector<ReportAction> reportActionsIn,
	const Milliseconds intervalIn, const uint64_t appendLimitIn,
	const ReportUpdates reportUpdatesIn,
	interfaces::ReportManager& reportManager,
	interfaces::JsonStorage& reportStorageIn,
	std::vector<std::shared_ptr<interfaces::Metric>> metricsIn,
	const interfaces::ReportFactory& reportFactory,
	const bool enabledIn, std::unique_ptr<interfaces::Clock> clock,
	Readings readingsIn) :
	id(reportId),
	name(reportName), reportingType(reportingTypeIn), interval(intervalIn),
	reportActions(reportActionsIn.begin(), reportActionsIn.end()),
	sensorCount(getSensorCount(metricsIn)),
	appendLimit(deduceAppendLimit(appendLimitIn)),
	reportUpdates(reportUpdatesIn), readings(std::move(readingsIn)),
	readingsBuffer(std::get<1>(readings),
	deduceBufferSize(reportUpdates, reportingType)),
	objServer(objServer), metrics(std::move(metricsIn)), timer(ioc),
	triggerIds(collectTriggerIds(ioc)), reportStorage(reportStorageIn),
	clock(std::move(clock)), messanger(ioc)
	{
	readingParameters =
	toReadingParameters(utils::transform(metrics, [](const auto& metric) {
	return metric->dumpConfiguration();
	}));

	readingParametersPastVersion =
	utils::transform(readingParameters, [](const auto& item) {
	const auto& [sensorData, operationType, id, collectionTimeScope,
	collectionDuration] = item;

	return ReadingParametersPastVersion::value_type(
	std::get<0>(sensorData.front()), operationType, id,
	std::get<1>(sensorData.front()));
	});

	reportActions.insert(ReportAction::logToMetricReportsCollection);

	deleteIface = objServer->add_unique_interface(
	getPath(), deleteIfaceName,
	[this, &ioc, &reportManager](auto& dbusIface) {
	dbusIface.register_method("Delete", [this, &ioc, &reportManager] {
	if (persistency)
	{
	persistency = false;

	reportIface->signal_property("Persistency");
	}

	boost::asio::post(ioc, [this, &reportManager] {
	reportManager.removeReport(this);
	});
	});
	});

	errorMessages = verify();
	state.set<ReportFlags::enabled, ReportFlags::valid>(enabledIn,
	errorMessages.empty());

	reportIface = makeReportInterface(reportFactory);
	persistency = storeConfiguration();

	messanger.on_receive<messages::TriggerPresenceChangedInd>(
	[this](const auto& msg) {
	const auto oldSize = triggerIds.size();

	if (msg.presence == messages::Presence::Exist)
	{
	if (utils::contains(msg.reportIds, id))
	{
	triggerIds.insert(msg.triggerId);
	}
	else if (!utils::contains(msg.reportIds, id))
	{
	triggerIds.erase(msg.triggerId);
	}
	}
	else if (msg.presence == messages::Presence::Removed)
	{
	triggerIds.erase(msg.triggerId);
	}

	if (triggerIds.size() != oldSize)
	{
	reportIface->signal_property("TriggerIds");
	}
	});

	messanger.on_receive<messages::UpdateReportInd>([this](const auto& msg) {
	if (utils::contains(msg.reportIds, id))
	{
	updateReadings();
	}
	});
	}

	Report::~Report()
	{
	if (persistency)
	{
	if (shouldStoreMetricValues())
	{
	storeConfiguration();
	}
	}
	else
	{
	reportStorage.remove(reportFileName());
	}
	}

	void Report::activate()
	{
	for (auto& metric : this->metrics)
	{
	metric->initialize();
	}

	scheduleTimer();

	if (reportIface)
	{
	reportIface->signal_property("errors");
	}
	}

	void Report::deactivate()
	{
	for (auto& metric : metrics)
	{
	metric->deinitialize();
	}

	unregisterFromMetrics = nullptr;
	timer.cancel();

	if (reportIface)
	{
	reportIface->signal_property("Errors");
	}
	}

	uint64_t Report::getSensorCount(
	const std::vector<std::shared_ptr<interfaces::Metric>>& metrics)
	{
	uint64_t sensorCount = 0;
	for (auto& metric : metrics)
	{
	sensorCount += metric->sensorCount();
	}
	return sensorCount;
	}

	std::optional<uint64_t>
	Report::deduceAppendLimit(const uint64_t appendLimitIn) const
	{
	if (appendLimitIn == std::numeric_limits<uint64_t>::max())
	{
	return std::nullopt;
	}
	else
	{
	return appendLimitIn;
	}
	}

	uint64_t Report::deduceBufferSize(const ReportUpdates reportUpdatesIn,
	const ReportingType reportingTypeIn) const
	{
	if (reportUpdatesIn == ReportUpdates::overwrite \|\|
	reportingTypeIn == ReportingType::onRequest)
	{
	return sensorCount;
	}
	else
	{
	return appendLimit.value_or(sensorCount);
	}
	}

	void Report::setReadingBuffer(const ReportUpdates newReportUpdates)
	{
	if (reportingType != ReportingType::onRequest &&
	(reportUpdates == ReportUpdates::overwrite \|\|
	newReportUpdates == ReportUpdates::overwrite))
	{
	readingsBuffer.clearAndResize(
	deduceBufferSize(newReportUpdates, reportingType));
	}
	}

	void Report::setReportUpdates(const ReportUpdates newReportUpdates)
	{
	if (reportUpdates != newReportUpdates)
	{
	setReadingBuffer(newReportUpdates);
	reportUpdates = newReportUpdates;
	}
	}

	std::unique_ptr<sdbusplus::asio::dbus_interface>
	Report::makeReportInterface(const interfaces::ReportFactory& reportFactory)
	{
	auto dbusIface =
	objServer->add_unique_interface(getPath(), reportIfaceName);
	dbusIface->register_property_rw<bool>(
	"Enabled", sdbusplus::vtable::property_::emits_change,
	[this](bool newVal, auto& oldValue) {
	if (newVal != state.get<ReportFlags::enabled>())
	{
	state.set<ReportFlags::enabled>(oldValue = newVal);

	persistency = storeConfiguration();
	}
	return 1;
	},
	[this](const auto&) { return state.get<ReportFlags::enabled>(); });
	dbusIface->register_property_r<
	std::vector<std::tuple<std::string, std::string>>>(
	"ErrorMessages", sdbusplus::vtable::property_::emits_change,
	[this](const auto&) {
	return utils::transform(errorMessages, [](const auto& em) {
	return std::tuple<std::string, std::string>(
	utils::enumToString(em.error), em.arg0);
	});
	});
	dbusIface->register_property_rw<uint64_t>(
	"Interval", sdbusplus::vtable::property_::emits_change,
	[this](uint64_t newVal, auto& oldVal) {
	const Milliseconds newValT{newVal};
	if (newValT < ReportManager::minInterval &&
	newValT != Milliseconds{0})
	{
	throw sdbusplus::exception::SdBusError(
	static_cast<int>(std::errc::invalid_argument),
	"Invalid interval");
	}

	if (newValT != interval)
	{
	oldVal = newVal;
	interval = newValT;

	errorMessages = verify();
	if (state.set<ReportFlags::valid>(errorMessages.empty()) ==
	StateEvent::active)
	{
	scheduleTimer();
	}

	persistency = storeConfiguration();
	}
	return 1;
	},
	[this](const auto&) { return interval.count(); });
	dbusIface->register_property_rw<bool>(
	"Persistency", sdbusplus::vtable::property_::emits_change,
	[this](bool newVal, auto& oldVal) {
	if (newVal == persistency)
	{
	return 1;
	}
	if (newVal)
	{
	persistency = oldVal = storeConfiguration();
	}
	else
	{
	reportStorage.remove(reportFileName());
	persistency = oldVal = false;
	}
	return 1;
	},
	[this](const auto&) { return persistency; });

	dbusIface->register_property_r("Readings", readings,
	sdbusplus::vtable::property_::emits_change,
	[this](const auto&) { return readings; });
	dbusIface->register_property_rw<std::string>(
	"ReportingType", sdbusplus::vtable::property_::emits_change,
	[this](auto newVal, auto& oldVal) {
	ReportingType tmp = utils::toReportingType(newVal);
	if (tmp != reportingType)
	{
	reportingType = tmp;
	oldVal = std::move(newVal);

	errorMessages = verify();
	if (state.set<ReportFlags::valid>(errorMessages.empty()) ==
	StateEvent::active)
	{
	scheduleTimer();
	}

	persistency = storeConfiguration();

	setReadingBuffer(reportUpdates);
	}
	return 1;
	},
	[this](const auto&) { return utils::enumToString(reportingType); });
	dbusIface->register_property_r(
	"ReadingParameters", readingParametersPastVersion,
	sdbusplus::vtable::property_::const_,
	[this](const auto&) { return readingParametersPastVersion; });
	dbusIface->register_property_rw(
	"ReadingParametersFutureVersion", readingParameters,
	sdbusplus::vtable::property_::emits_change,
	[this, &reportFactory](auto newVal, auto& oldVal) {
	reportFactory.updateMetrics(
	metrics, state.get<ReportFlags::enabled>(), newVal);
	readingParameters = toReadingParameters(
	utils::transform(metrics, [](const auto& metric) {
	return metric->dumpConfiguration();
	}));
	persistency = storeConfiguration();
	oldVal = std::move(newVal);
	return 1;
	},
	[this](const auto&) { return readingParameters; });
	dbusIface->register_property_r<bool>(
	"EmitsReadingsUpdate", sdbusplus::vtable::property_::none,
	[this](const auto&) {
	return reportActions.contains(ReportAction::emitsReadingsUpdate);
	});
	dbusIface->register_property_r<std::string>(
	"Name", sdbusplus::vtable::property_::const_,
	[this](const auto&) { return name; });
	dbusIface->register_property_r<bool>(
	"LogToMetricReportsCollection", sdbusplus::vtable::property_::const_,
	[this](const auto&) {
	return reportActions.contains(
	ReportAction::logToMetricReportsCollection);
	});
	dbusIface->register_property_rw<std::vector<std::string>>(
	"ReportActions", sdbusplus::vtable::property_::emits_change,
	[this](auto newVal, auto& oldVal) {
	auto tmp = utils::transform<std::unordered_set>(
	newVal, [](const auto& reportAction) {
	return utils::toReportAction(reportAction);
	});
	tmp.insert(ReportAction::logToMetricReportsCollection);

	if (tmp != reportActions)
	{
	reportActions = tmp;
	persistency = storeConfiguration();
	oldVal = std::move(newVal);
	}
	return 1;
	},
	[this](const auto&) {
	return utils::transform<std::vector>(
	reportActions, [](const auto reportAction) {
	return utils::enumToString(reportAction);
	});
	});
	dbusIface->register_property_r(
	"AppendLimit", appendLimit.value_or(sensorCount),
	sdbusplus::vtable::property_::emits_change,
	[this](const auto&) { return appendLimit.value_or(sensorCount); });
	dbusIface->register_property_rw(
	"ReportUpdates", std::string(),
	sdbusplus::vtable::property_::emits_change,
	[this](auto newVal, auto& oldVal) {
	setReportUpdates(utils::toReportUpdates(newVal));
	oldVal = newVal;
	return 1;
	},
	[this](const auto&) { return utils::enumToString(reportUpdates); });
	dbusIface->register_property_r(
	"TriggerIds", std::vector<std::string>{},
	sdbusplus::vtable::property_::emits_change, [this](const auto&) {
	return std::vector<std::string>(triggerIds.begin(),
	triggerIds.end());
	});
	dbusIface->register_method("Update", [this] {
	if (reportingType == ReportingType::onRequest)
	{
	updateReadings();
	}
	});
	constexpr bool skipPropertiesChangedSignal = true;
	dbusIface->initialize(skipPropertiesChangedSignal);
	return dbusIface;
	}

	void Report::timerProcForPeriodicReport(boost::system::error_code ec,
	Report& self)
	{
	if (ec)
	{
	return;
	}

	self.updateReadings();
	self.scheduleTimerForPeriodicReport(self.interval);
	}

	void Report::timerProcForOnChangeReport(boost::system::error_code ec,
	Report& self)
	{
	if (ec)
	{
	return;
	}

	const auto ensure =
	utils::Ensure{[&self] { self.onChangeContext = std::nullopt; }};

	self.onChangeContext.emplace(self);

	const auto steadyTimestamp = self.clock->steadyTimestamp();

	for (auto& metric : self.metrics)
	{
	metric->updateReadings(steadyTimestamp);
	}

	self.scheduleTimerForOnChangeReport();
	}

	void Report::scheduleTimerForPeriodicReport(Milliseconds timerInterval)
	{
	timer.expires_after(timerInterval);
	timer.async_wait([this](boost::system::error_code ec) {
	timerProcForPeriodicReport(ec, *this);
	});
	}

	void Report::scheduleTimerForOnChangeReport()
	{
	constexpr Milliseconds timerInterval{100};

	timer.expires_after(timerInterval);
	timer.async_wait([this](boost::system::error_code ec) {
	timerProcForOnChangeReport(ec, *this);
	});
	}

	void Report::updateReadings()
	{
	if (!state.isActive())
	{
	return;
	}

	if (reportUpdates == ReportUpdates::overwrite \|\|
	reportingType == ReportingType::onRequest)
	{
	readingsBuffer.clear();
	}

	for (const auto& metric : metrics)
	{
	if (!state.isActive())
	{
	break;
	}

	for (const auto& [id, metadata, value, timestamp] :
	metric->getUpdatedReadings())
	{
	if (reportUpdates == ReportUpdates::appendStopsWhenFull &&
	readingsBuffer.isFull())
	{
	state.set<ReportFlags::enabled>(false);
	reportIface->signal_property("Enabled");
	break;
	}
	readingsBuffer.emplace(id, metadata, value, timestamp);
	}
	}

	std::get<0>(readings) =
	std::chrono::duration_cast<Milliseconds>(clock->systemTimestamp())
	.count();

	if (utils::contains(reportActions, ReportAction::emitsReadingsUpdate))
	{
	reportIface->signal_property("Readings");
	}
	}

	bool Report::shouldStoreMetricValues() const
	{
	return reportingType != ReportingType::onRequest &&
	reportUpdates == ReportUpdates::appendStopsWhenFull;
	}

	bool Report::storeConfiguration() const
	{
	try
	{
	nlohmann::json data;

	data["Enabled"] = state.get<ReportFlags::enabled>();
	data["Version"] = reportVersion;
	data["Id"] = id;
	data["Name"] = name;
	data["ReportingType"] = utils::toUnderlying(reportingType);
	data["ReportActions"] =
	utils::transform(reportActions, [](const auto reportAction) {
	return utils::toUnderlying(reportAction);
	});
	data["Interval"] = interval.count();
	data["AppendLimit"] =
	appendLimit.value_or(std::numeric_limits<uint64_t>::max());
	data["ReportUpdates"] = utils::toUnderlying(reportUpdates);
	data["ReadingParameters"] =
	utils::transform(metrics, [](const auto& metric) {
	return metric->dumpConfiguration();
	});

	if (shouldStoreMetricValues())
	{
	data["MetricValues"] = utils::toLabeledReadings(readings);
	}

	reportStorage.store(reportFileName(), data);
	}
	catch (const std::exception& e)
	{
	phosphor::logging::log<phosphor::logging::level::ERR>(
	"Failed to store a report in storage",
	phosphor::logging::entry("EXCEPTION_MSG=%s", e.what()));
	return false;
	}

	return true;
	}

	interfaces::JsonStorage::FilePath Report::reportFileName() const
	{
	return interfaces::JsonStorage::FilePath{
	std::to_string(std::hash<std::string>{}(id))};
	}

	std::unordered_set<std::string>
	Report::collectTriggerIds(boost::asio::io_context& ioc) const
	{
	utils::Messanger tmp(ioc);

	auto result = std::unordered_set<std::string>();

	tmp.on_receive<messages::CollectTriggerIdResp>(
	[&result](const auto& msg) { result.insert(msg.triggerId); });

	tmp.send(messages::CollectTriggerIdReq{id});

	return result;
	}

	void Report::metricUpdated()
	{
	if (onChangeContext)
	{
	onChangeContext->metricUpdated();
	return;
	}

	updateReadings();
	}

	void Report::scheduleTimer()
	{
	switch (reportingType)
	{
	case ReportingType::periodic:
	{
	unregisterFromMetrics = nullptr;
	scheduleTimerForPeriodicReport(interval);
	break;
	}
	case ReportingType::onChange:
	{
	if (!unregisterFromMetrics)
	{
	unregisterFromMetrics = [this] {
	for (auto& metric : metrics)
	{
	metric->unregisterFromUpdates(*this);
	}
	};

	for (auto& metric : metrics)
	{
	metric->registerForUpdates(*this);
	}
	}

	bool isTimerRequired = false;

	for (auto& metric : metrics)
	{
	if (metric->isTimerRequired())
	{
	isTimerRequired = true;
	}
	}

	if (isTimerRequired)
	{
	scheduleTimerForOnChangeReport();
	}
	else
	{
	timer.cancel();
	}
	break;
	}
	default:
	unregisterFromMetrics = nullptr;
	timer.cancel();
	break;
	}
	}

	std::vector<ErrorMessage> Report::verify() const
	{
	std::vector<ErrorMessage> result;

	if ((reportingType == ReportingType::periodic &&
	interval == Milliseconds{0}) \|\|
	(reportingType != ReportingType::periodic &&
	interval != Milliseconds{0}))
	{
	result.emplace_back(ErrorType::propertyConflict, "Interval");
	result.emplace_back(ErrorType::propertyConflict, "ReportingType");
	}

	return result;
	}