src/report_factory.cpp - openbmc/telemetry - Gitiles

 #include "report_factory.hpp"

 #include "metric.hpp"
 #include "report.hpp"
 #include "sensor.hpp"
 #include "utils/clock.hpp"
 #include "utils/conversion.hpp"
 #include "utils/dbus_mapper.hpp"
 #include "utils/transform.hpp"

 ReportFactory::ReportFactory(
     std::shared_ptr<sdbusplus::asio::connection> bus,
     const std::shared_ptr<sdbusplus::asio::object_server>& objServer,
     SensorCache& sensorCache) :
     bus(std::move(bus)),
     objServer(objServer), sensorCache(sensorCache)
 {}

 std::unique_ptr<interfaces::Report> ReportFactory::make(
     const std::string& id, const std::string& name,
     const ReportingType reportingType,
     const std::vector<ReportAction>& reportActions, Milliseconds period,
     uint64_t appendLimit, const ReportUpdates reportUpdates,
     interfaces::ReportManager& reportManager,
     interfaces::JsonStorage& reportStorage,
     std::vector<LabeledMetricParameters> labeledMetricParams, bool enabled,
     Readings readings) const
 {
     auto metrics = utils::transform(
         labeledMetricParams,
         [this](const LabeledMetricParameters& param)
             -> std::shared_ptr<interfaces::Metric> {
             namespace ts = utils::tstring;

             return std::make_shared<Metric>(
                 getSensors(param.at_label<ts::SensorPath>()),
                 param.at_label<ts::OperationType>(), param.at_label<ts::Id>(),
                 param.at_label<ts::CollectionTimeScope>(),
                 param.at_label<ts::CollectionDuration>(),
                 std::make_unique<Clock>());
         });

     return std::make_unique<Report>(
         bus->get_io_context(), objServer, id, name, reportingType,
         reportActions, period, appendLimit, reportUpdates, reportManager,
         reportStorage, std::move(metrics), *this, enabled,
         std::make_unique<Clock>(), std::move(readings));
 }

 void ReportFactory::updateMetrics(
     std::vector<std::shared_ptr<interfaces::Metric>>& metrics, bool enabled,
     const ReadingParameters& metricParams) const
 {
     auto labeledMetricParams = convertMetricParams(metricParams);
     std::vector<std::shared_ptr<interfaces::Metric>> oldMetrics = metrics;
     std::vector<std::shared_ptr<interfaces::Metric>> newMetrics;

     for (const auto& labeledMetricParam : labeledMetricParams)
     {
         auto existing = std::find_if(oldMetrics.begin(), oldMetrics.end(),
                                      [labeledMetricParam](auto metric) {
                                          return labeledMetricParam ==
                                                 metric->dumpConfiguration();
                                      });

         if (existing != oldMetrics.end())
         {
             newMetrics.emplace_back(*existing);
             oldMetrics.erase(existing);
             continue;
         }

         namespace ts = utils::tstring;
         newMetrics.emplace_back(std::make_shared<Metric>(
             getSensors(labeledMetricParam.at_label<ts::SensorPath>()),
             labeledMetricParam.at_label<ts::OperationType>(),
             labeledMetricParam.at_label<ts::Id>(),
             labeledMetricParam.at_label<ts::CollectionTimeScope>(),
             labeledMetricParam.at_label<ts::CollectionDuration>(),
             std::make_unique<Clock>()));

         if (enabled)
         {
             newMetrics.back()->initialize();
         }
     }

     if (enabled)
     {
         for (auto& metric : oldMetrics)
         {
             metric->deinitialize();
         }
     }

     metrics = std::move(newMetrics);
 }

 Sensors ReportFactory::getSensors(
     const std::vector<LabeledSensorInfo>& sensorPaths) const
 {
     using namespace utils::tstring;

     return utils::transform(
         sensorPaths,
         [this](const LabeledSensorInfo& sensorPath)
             -> std::shared_ptr<interfaces::Sensor> {
             return sensorCache.makeSensor<Sensor>(
                 sensorPath.at_label<Service>(), sensorPath.at_label<Path>(),
                 sensorPath.at_label<Metadata>(), bus->get_io_context(), bus);
         });
 }

 std::vector<LabeledMetricParameters> ReportFactory::convertMetricParams(
     boost::asio::yield_context& yield,
     const ReadingParameters& metricParams) const
 {
     if (metricParams.empty())
     {
         return {};
     }
     auto tree = utils::getSubTreeSensors(yield, bus);
     return getMetricParamsFromSensorTree(metricParams, tree);
 }

 std::vector<LabeledMetricParameters> ReportFactory::convertMetricParams(
     const ReadingParameters& metricParams) const
 {
     if (metricParams.empty())
     {
         return {};
     }
     auto tree = utils::getSubTreeSensors(bus);
     return getMetricParamsFromSensorTree(metricParams, tree);
 }

 std::vector<LabeledMetricParameters>
     ReportFactory::getMetricParamsFromSensorTree(
         const ReadingParameters& metricParams,
         const std::vector<utils::SensorTree>& tree) const
 {
     return utils::transform(metricParams, [&tree](const auto& item) {
         auto [sensorPaths, operationType, id, collectionTimeScope,
               collectionDuration] = item;

         std::vector<LabeledSensorInfo> sensorParameters;

         for (const auto& [sensorPath, metadata] : sensorPaths)
         {
             auto it = std::find_if(
                 tree.begin(), tree.end(),
                 [path = sensorPath](const auto& v) { return v.first == path; });

             if (it != tree.end() && it->second.size() == 1)
             {
                 const auto& [service, ifaces] = it->second.front();
                 sensorParameters.emplace_back(service, sensorPath, metadata);
             }
         }

         if (sensorParameters.size() != sensorPaths.size())
         {
             throw sdbusplus::exception::SdBusError(
                 static_cast<int>(std::errc::invalid_argument),
                 "Could not find service for provided sensors");
         }

         if (operationType.empty())
         {
             operationType = utils::enumToString(OperationType::avg);
         }
         else if (operationType == "SINGLE")
         {
             operationType = utils::enumToString(OperationType::avg);
             collectionTimeScope =
                 utils::enumToString(CollectionTimeScope::point);
         }

         if (collectionTimeScope.empty())
         {
             collectionTimeScope =
                 utils::enumToString(CollectionTimeScope::point);
         }

         return LabeledMetricParameters(
             std::move(sensorParameters), utils::toOperationType(operationType),
             id, utils::toCollectionTimeScope(collectionTimeScope),
             CollectionDuration(Milliseconds(collectionDuration)));
     });
 }
	#include "report_factory.hpp"

	#include "metric.hpp"
	#include "report.hpp"
	#include "sensor.hpp"
	#include "utils/clock.hpp"
	#include "utils/conversion.hpp"
	#include "utils/dbus_mapper.hpp"
	#include "utils/transform.hpp"

	ReportFactory::ReportFactory(
	std::shared_ptr<sdbusplus::asio::connection> bus,
	const std::shared_ptr<sdbusplus::asio::object_server>& objServer,
	SensorCache& sensorCache) :
	bus(std::move(bus)),
	objServer(objServer), sensorCache(sensorCache)
	{}

	std::unique_ptr<interfaces::Report> ReportFactory::make(
	const std::string& id, const std::string& name,
	const ReportingType reportingType,
	const std::vector<ReportAction>& reportActions, Milliseconds period,
	uint64_t appendLimit, const ReportUpdates reportUpdates,
	interfaces::ReportManager& reportManager,
	interfaces::JsonStorage& reportStorage,
	std::vector<LabeledMetricParameters> labeledMetricParams, bool enabled,
	Readings readings) const
	{
	auto metrics = utils::transform(
	labeledMetricParams,
	[this](const LabeledMetricParameters& param)
	-> std::shared_ptr<interfaces::Metric> {
	namespace ts = utils::tstring;

	return std::make_shared<Metric>(
	getSensors(param.at_label<ts::SensorPath>()),
	param.at_label<ts::OperationType>(), param.at_label<ts::Id>(),
	param.at_label<ts::CollectionTimeScope>(),
	param.at_label<ts::CollectionDuration>(),
	std::make_unique<Clock>());
	});

	return std::make_unique<Report>(
	bus->get_io_context(), objServer, id, name, reportingType,
	reportActions, period, appendLimit, reportUpdates, reportManager,
	reportStorage, std::move(metrics), *this, enabled,
	std::make_unique<Clock>(), std::move(readings));
	}

	void ReportFactory::updateMetrics(
	std::vector<std::shared_ptr<interfaces::Metric>>& metrics, bool enabled,
	const ReadingParameters& metricParams) const
	{
	auto labeledMetricParams = convertMetricParams(metricParams);
	std::vector<std::shared_ptr<interfaces::Metric>> oldMetrics = metrics;
	std::vector<std::shared_ptr<interfaces::Metric>> newMetrics;

	for (const auto& labeledMetricParam : labeledMetricParams)
	{
	auto existing = std::find_if(oldMetrics.begin(), oldMetrics.end(),
	[labeledMetricParam](auto metric) {
	return labeledMetricParam ==
	metric->dumpConfiguration();
	});

	if (existing != oldMetrics.end())
	{
	newMetrics.emplace_back(*existing);
	oldMetrics.erase(existing);
	continue;
	}

	namespace ts = utils::tstring;
	newMetrics.emplace_back(std::make_shared<Metric>(
	getSensors(labeledMetricParam.at_label<ts::SensorPath>()),
	labeledMetricParam.at_label<ts::OperationType>(),
	labeledMetricParam.at_label<ts::Id>(),
	labeledMetricParam.at_label<ts::CollectionTimeScope>(),
	labeledMetricParam.at_label<ts::CollectionDuration>(),
	std::make_unique<Clock>()));

	if (enabled)
	{
	newMetrics.back()->initialize();
	}
	}

	if (enabled)
	{
	for (auto& metric : oldMetrics)
	{
	metric->deinitialize();
	}
	}

	metrics = std::move(newMetrics);
	}

	Sensors ReportFactory::getSensors(
	const std::vector<LabeledSensorInfo>& sensorPaths) const
	{
	using namespace utils::tstring;

	return utils::transform(
	sensorPaths,
	[this](const LabeledSensorInfo& sensorPath)
	-> std::shared_ptr<interfaces::Sensor> {
	return sensorCache.makeSensor<Sensor>(
	sensorPath.at_label<Service>(), sensorPath.at_label<Path>(),
	sensorPath.at_label<Metadata>(), bus->get_io_context(), bus);
	});
	}

	std::vector<LabeledMetricParameters> ReportFactory::convertMetricParams(
	boost::asio::yield_context& yield,
	const ReadingParameters& metricParams) const
	{
	if (metricParams.empty())
	{
	return {};
	}
	auto tree = utils::getSubTreeSensors(yield, bus);
	return getMetricParamsFromSensorTree(metricParams, tree);
	}

	std::vector<LabeledMetricParameters> ReportFactory::convertMetricParams(
	const ReadingParameters& metricParams) const
	{
	if (metricParams.empty())
	{
	return {};
	}
	auto tree = utils::getSubTreeSensors(bus);
	return getMetricParamsFromSensorTree(metricParams, tree);
	}

	std::vector<LabeledMetricParameters>
	ReportFactory::getMetricParamsFromSensorTree(
	const ReadingParameters& metricParams,
	const std::vector<utils::SensorTree>& tree) const
	{
	return utils::transform(metricParams, [&tree](const auto& item) {
	auto [sensorPaths, operationType, id, collectionTimeScope,
	collectionDuration] = item;

	std::vector<LabeledSensorInfo> sensorParameters;

	for (const auto& [sensorPath, metadata] : sensorPaths)
	{
	auto it = std::find_if(
	tree.begin(), tree.end(),
	[path = sensorPath](const auto& v) { return v.first == path; });

	if (it != tree.end() && it->second.size() == 1)
	{
	const auto& [service, ifaces] = it->second.front();
	sensorParameters.emplace_back(service, sensorPath, metadata);
	}
	}

	if (sensorParameters.size() != sensorPaths.size())
	{
	throw sdbusplus::exception::SdBusError(
	static_cast<int>(std::errc::invalid_argument),
	"Could not find service for provided sensors");
	}

	if (operationType.empty())
	{
	operationType = utils::enumToString(OperationType::avg);
	}
	else if (operationType == "SINGLE")
	{
	operationType = utils::enumToString(OperationType::avg);
	collectionTimeScope =
	utils::enumToString(CollectionTimeScope::point);
	}

	if (collectionTimeScope.empty())
	{
	collectionTimeScope =
	utils::enumToString(CollectionTimeScope::point);
	}

	return LabeledMetricParameters(
	std::move(sensorParameters), utils::toOperationType(operationType),
	id, utils::toCollectionTimeScope(collectionTimeScope),
	CollectionDuration(Milliseconds(collectionDuration)));
	});
	}