occ_dbus.cpp - openbmc/openpower-occ-control - Gitiles

 #include "occ_dbus.hpp"

 #include "utils.hpp"

 #include <fmt/core.h>

 #include <phosphor-logging/log.hpp>

 #include <iostream>

 namespace open_power
 {
 namespace occ
 {
 namespace dbus
 {

 using namespace phosphor::logging;
 using namespace std::string_literals;
 const auto defaultChassisPath =
     "/xyz/openbmc_project/inventory/system/chassis"s;
 const auto chassisInterface = "xyz.openbmc_project.Inventory.Item.Chassis"s;

 bool OccDBusSensors::setMaxValue(const std::string& path, double value)
 {
     if (path.empty())
     {
         return false;
     }

     if (!sensors.contains(path))
     {
         sensors.emplace(
             path, std::make_unique<SensorIntf>(utils::getBus(), path.c_str()));
     }

     sensors.at(path)->maxValue(value);
     return true;
 }

 double OccDBusSensors::getMaxValue(const std::string& path) const
 {
     if (sensors.find(path) != sensors.end())
     {
         return sensors.at(path)->maxValue();
     }

     throw std::invalid_argument("Failed to get MaxValue property.");
 }

 bool OccDBusSensors::setMinValue(const std::string& path, double value)
 {
     if (path.empty())
     {
         return false;
     }

     if (!sensors.contains(path))
     {
         sensors.emplace(
             path, std::make_unique<SensorIntf>(utils::getBus(), path.c_str()));
     }

     sensors.at(path)->minValue(value);
     return true;
 }

 double OccDBusSensors::getMinValue(const std::string& path) const
 {
     if (sensors.find(path) != sensors.end())
     {
         return sensors.at(path)->minValue();
     }

     throw std::invalid_argument("Failed to get MinValue property.");
 }

 bool OccDBusSensors::setValue(const std::string& path, double value)
 {
     if (path.empty())
     {
         return false;
     }

     if (!sensors.contains(path))
     {
         sensors.emplace(
             path, std::make_unique<SensorIntf>(utils::getBus(), path.c_str()));
     }

     sensors.at(path)->value(value);
     return true;
 }

 double OccDBusSensors::getValue(const std::string& path) const
 {
     if (sensors.find(path) != sensors.end())
     {
         return sensors.at(path)->value();
     }

     throw std::invalid_argument("Failed to get Value property.");
 }

 bool OccDBusSensors::setUnit(const std::string& path, const std::string& value)
 {
     if (path.empty())
     {
         return false;
     }

     if (!sensors.contains(path))
     {
         sensors.emplace(
             path, std::make_unique<SensorIntf>(utils::getBus(), path.c_str()));
     }

     try
     {
         sensors.at(path)->unit(SensorIntf::convertUnitFromString(value));
     }
     catch (const std::exception& e)
     {
         log<level::ERR>("set Unit propety failed", entry("ERROR=%s", e.what()));
         return false;
     }

     return true;
 }

 std::string OccDBusSensors::getUnit(const std::string& path) const
 {
     if (sensors.find(path) != sensors.end())
     {
         try
         {
             return SensorIntf::convertUnitToString(sensors.at(path)->unit());
         }
         catch (const std::exception& e)
         {
             log<level::ERR>("get Unit propety failed",
                             entry("ERROR=%s", e.what()));
         }
     }

     throw std::invalid_argument("Failed to get Unit property.");
 }

 bool OccDBusSensors::setOperationalStatus(const std::string& path, bool value)
 {
     if (path.empty())
     {
         return false;
     }

     if (!operationalStatus.contains(path))
     {
         operationalStatus.emplace(path, std::make_unique<OperationalStatusIntf>(
                                             utils::getBus(), path.c_str()));
     }

     operationalStatus.at(path)->functional(value);
     return true;
 }

 bool OccDBusSensors::getOperationalStatus(const std::string& path) const
 {
     if (operationalStatus.find(path) != operationalStatus.end())
     {
         return operationalStatus.at(path)->functional();
     }

     throw std::invalid_argument("Failed to get OperationalStatus property.");
 }

 void OccDBusSensors::setChassisAssociation(const std::string& path)
 {
     using AssociationsEntry = std::tuple<std::string, std::string, std::string>;
     using AssociationsProperty = std::vector<AssociationsEntry>;
     using PropVariant = sdbusplus::xyz::openbmc_project::Association::server::
         Definitions::PropertiesVariant;

     if (chassisPath.empty())
     {
         chassisPath = getChassisPath();
     }

     AssociationsProperty associations{
         AssociationsEntry{"chassis", "all_sensors", chassisPath}};
     PropVariant value{std::move(associations)};

     std::map<std::string, PropVariant> properties;
     properties.emplace("Associations", std::move(value));

     chassisAssociations.emplace(
         path, std::make_unique<AssociationIntf>(utils::getBus(), path.c_str(),
                                                 properties));
 }

 std::string OccDBusSensors::getChassisPath()
 {
     try
     {
         auto paths = utils::getSubtreePaths(std::vector{chassisInterface});

         // For now, support either 1 chassis, or multiple as long as one
         // of them has the standard name, which we will use.  If this ever
         // fails, then someone would have to figure out how to identify the
         // chassis the OCCs are on.
         if (paths.size() == 1)
         {
             return paths[0];
         }
         else if (std::find(paths.begin(), paths.end(), defaultChassisPath) ==
                  paths.end())
         {
             log<level::ERR>(
                 fmt::format(
                     "Could not find a chassis out of {} chassis objects",
                     paths.size())
                     .c_str());
             // Can't throw an exception here, the sdeventplus timer
             // just catches it.
             abort();
         }
     }
     catch (const std::exception& e)
     {
         log<level::ERR>(
             fmt::format("Error looking up chassis objects: {}", e.what())
                 .c_str());
         abort();
     }

     return defaultChassisPath;
 }

 bool OccDBusSensors::hasDvfsTemp(const std::string& path) const
 {
     return dvfsTemps.find(path) != dvfsTemps.end();
 }

 void OccDBusSensors::setDvfsTemp(const std::string& path, double value)
 {
     dvfsTemps[path] = std::make_unique<SensorIntf>(utils::getBus(),
                                                    path.c_str());
     dvfsTemps[path]->value(value);
 }

 } // namespace dbus
 } // namespace occ
 } // namespace open_power
	#include "occ_dbus.hpp"

	#include "utils.hpp"

	#include <fmt/core.h>

	#include <phosphor-logging/log.hpp>

	#include <iostream>

	namespace open_power
	{
	namespace occ
	{
	namespace dbus
	{

	using namespace phosphor::logging;
	using namespace std::string_literals;
	const auto defaultChassisPath =
	"/xyz/openbmc_project/inventory/system/chassis"s;
	const auto chassisInterface = "xyz.openbmc_project.Inventory.Item.Chassis"s;

	bool OccDBusSensors::setMaxValue(const std::string& path, double value)
	{
	if (path.empty())
	{
	return false;
	}

	if (!sensors.contains(path))
	{
	sensors.emplace(
	path, std::make_unique<SensorIntf>(utils::getBus(), path.c_str()));
	}

	sensors.at(path)->maxValue(value);
	return true;
	}

	double OccDBusSensors::getMaxValue(const std::string& path) const
	{
	if (sensors.find(path) != sensors.end())
	{
	return sensors.at(path)->maxValue();
	}

	throw std::invalid_argument("Failed to get MaxValue property.");
	}

	bool OccDBusSensors::setMinValue(const std::string& path, double value)
	{
	if (path.empty())
	{
	return false;
	}

	if (!sensors.contains(path))
	{
	sensors.emplace(
	path, std::make_unique<SensorIntf>(utils::getBus(), path.c_str()));
	}

	sensors.at(path)->minValue(value);
	return true;
	}

	double OccDBusSensors::getMinValue(const std::string& path) const
	{
	if (sensors.find(path) != sensors.end())
	{
	return sensors.at(path)->minValue();
	}

	throw std::invalid_argument("Failed to get MinValue property.");
	}

	bool OccDBusSensors::setValue(const std::string& path, double value)
	{
	if (path.empty())
	{
	return false;
	}

	if (!sensors.contains(path))
	{
	sensors.emplace(
	path, std::make_unique<SensorIntf>(utils::getBus(), path.c_str()));
	}

	sensors.at(path)->value(value);
	return true;
	}

	double OccDBusSensors::getValue(const std::string& path) const
	{
	if (sensors.find(path) != sensors.end())
	{
	return sensors.at(path)->value();
	}

	throw std::invalid_argument("Failed to get Value property.");
	}

	bool OccDBusSensors::setUnit(const std::string& path, const std::string& value)
	{
	if (path.empty())
	{
	return false;
	}

	if (!sensors.contains(path))
	{
	sensors.emplace(
	path, std::make_unique<SensorIntf>(utils::getBus(), path.c_str()));
	}

	try
	{
	sensors.at(path)->unit(SensorIntf::convertUnitFromString(value));
	}
	catch (const std::exception& e)
	{
	log<level::ERR>("set Unit propety failed", entry("ERROR=%s", e.what()));
	return false;
	}

	return true;
	}

	std::string OccDBusSensors::getUnit(const std::string& path) const
	{
	if (sensors.find(path) != sensors.end())
	{
	try
	{
	return SensorIntf::convertUnitToString(sensors.at(path)->unit());
	}
	catch (const std::exception& e)
	{
	log<level::ERR>("get Unit propety failed",
	entry("ERROR=%s", e.what()));
	}
	}

	throw std::invalid_argument("Failed to get Unit property.");
	}

	bool OccDBusSensors::setOperationalStatus(const std::string& path, bool value)
	{
	if (path.empty())
	{
	return false;
	}

	if (!operationalStatus.contains(path))
	{
	operationalStatus.emplace(path, std::make_unique<OperationalStatusIntf>(
	utils::getBus(), path.c_str()));
	}

	operationalStatus.at(path)->functional(value);
	return true;
	}

	bool OccDBusSensors::getOperationalStatus(const std::string& path) const
	{
	if (operationalStatus.find(path) != operationalStatus.end())
	{
	return operationalStatus.at(path)->functional();
	}

	throw std::invalid_argument("Failed to get OperationalStatus property.");
	}

	void OccDBusSensors::setChassisAssociation(const std::string& path)
	{
	using AssociationsEntry = std::tuple<std::string, std::string, std::string>;
	using AssociationsProperty = std::vector<AssociationsEntry>;
	using PropVariant = sdbusplus::xyz::openbmc_project::Association::server::
	Definitions::PropertiesVariant;

	if (chassisPath.empty())
	{
	chassisPath = getChassisPath();
	}

	AssociationsProperty associations{
	AssociationsEntry{"chassis", "all_sensors", chassisPath}};
	PropVariant value{std::move(associations)};

	std::map<std::string, PropVariant> properties;
	properties.emplace("Associations", std::move(value));

	chassisAssociations.emplace(
	path, std::make_unique<AssociationIntf>(utils::getBus(), path.c_str(),
	properties));
	}

	std::string OccDBusSensors::getChassisPath()
	{
	try
	{
	auto paths = utils::getSubtreePaths(std::vector{chassisInterface});

	// For now, support either 1 chassis, or multiple as long as one
	// of them has the standard name, which we will use. If this ever
	// fails, then someone would have to figure out how to identify the
	// chassis the OCCs are on.
	if (paths.size() == 1)
	{
	return paths[0];
	}
	else if (std::find(paths.begin(), paths.end(), defaultChassisPath) ==
	paths.end())
	{
	log<level::ERR>(
	fmt::format(
	"Could not find a chassis out of {} chassis objects",
	paths.size())
	.c_str());
	// Can't throw an exception here, the sdeventplus timer
	// just catches it.
	abort();
	}
	}
	catch (const std::exception& e)
	{
	log<level::ERR>(
	fmt::format("Error looking up chassis objects: {}", e.what())
	.c_str());
	abort();
	}

	return defaultChassisPath;
	}

	bool OccDBusSensors::hasDvfsTemp(const std::string& path) const
	{
	return dvfsTemps.find(path) != dvfsTemps.end();
	}

	void OccDBusSensors::setDvfsTemp(const std::string& path, double value)
	{
	dvfsTemps[path] = std::make_unique<SensorIntf>(utils::getBus(),
	path.c_str());
	dvfsTemps[path]->value(value);
	}

	} // namespace dbus
	} // namespace occ
	} // namespace open_power