mainloop.cpp - openbmc/phosphor-hwmon - Gitiles

 /**
  * Copyright © 2016 IBM Corporation
  *
  * 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 <iostream>
 #include <memory>
 #include <cstdlib>
 #include <chrono>
 #include <algorithm>
 #include "sensorset.hpp"
 #include "hwmon.hpp"
 #include "sysfs.hpp"
 #include "mainloop.hpp"
 #include "env.hpp"
 #include "thresholds.hpp"

 using namespace std::literals::chrono_literals;

 static constexpr auto typeAttrMap =
 {
     // 1 - hwmon class
     // 2 - unit
     // 3 - sysfs scaling factor
     std::make_tuple(
         hwmon::type::ctemp,
         ValueInterface::Unit::DegreesC,
         -3,
         "temperature"),
     std::make_tuple(
         hwmon::type::cfan,
         ValueInterface::Unit::RPMS,
         0,
         "fan_tach"),
     std::make_tuple(
         hwmon::type::cvolt,
         ValueInterface::Unit::Volts,
         -3,
         "voltage"),
     std::make_tuple(
         hwmon::type::ccurr,
         ValueInterface::Unit::Amperes,
         -3,
         "current"),
     std::make_tuple(
         hwmon::type::cenergy,
         ValueInterface::Unit::Joules,
         -6,
         "energy"),
     std::make_tuple(
         hwmon::type::cpower,
         ValueInterface::Unit::Watts,
         -6,
         "power"),
 };

 auto getHwmonType(decltype(typeAttrMap)::const_reference attrs)
 {
     return std::get<0>(attrs);
 }

 auto getUnit(decltype(typeAttrMap)::const_reference attrs)
 {
     return std::get<1>(attrs);
 }

 auto getScale(decltype(typeAttrMap)::const_reference attrs)
 {
     return std::get<2>(attrs);
 }

 auto getNamespace(decltype(typeAttrMap)::const_reference attrs)
 {
     return std::get<3>(attrs);
 }

 using AttributeIterator = decltype(*typeAttrMap.begin());
 using Attributes
     = std::remove_cv<std::remove_reference<AttributeIterator>::type>::type;

 auto getAttributes(const std::string& type, Attributes& attributes)
 {
     // *INDENT-OFF*
     auto a = std::find_if(
                 typeAttrMap.begin(),
                 typeAttrMap.end(),
                 [&](const auto & e)
                 {
                    return type == getHwmonType(e);
                 });
     // *INDENT-ON*

     if (a == typeAttrMap.end())
     {
         return false;
     }

     attributes = *a;
     return true;
 }

 auto addValue(const SensorSet::key_type& sensor,
               const std::string& hwmonRoot,
               const std::string& instance,
               ObjectInfo& info)
 {
     static constexpr bool deferSignals = true;

     // Get the initial value for the value interface.
     auto& bus = *std::get<sdbusplus::bus::bus*>(info);
     auto& obj = std::get<Object>(info);
     auto& objPath = std::get<std::string>(info);

     int val = readSysfsWithCallout(hwmonRoot,
                                    instance,
                                    sensor.first,
                                    sensor.second,
                                    hwmon::entry::input);
     auto iface = std::make_shared<ValueObject>(bus, objPath.c_str(), deferSignals);
     iface->value(val);

     Attributes attrs;
     if (getAttributes(sensor.first, attrs))
     {
         iface->unit(getUnit(attrs));
         iface->scale(getScale(attrs));
     }

     obj[InterfaceType::VALUE] = iface;
     return iface;
 }

 MainLoop::MainLoop(
     sdbusplus::bus::bus&& bus,
     const std::string& path,
     const char* prefix,
     const char* root)
     : _bus(std::move(bus)),
       _manager(sdbusplus::server::manager::manager(_bus, root)),
       _shutdown(false),
       _hwmonRoot(),
       _instance(),
       _prefix(prefix),
       _root(root),
       state()
 {
     std::string p = path;
     while (!p.empty() && p.back() == '/')
     {
         p.pop_back();
     }

     auto n = p.rfind('/');
     if (n != std::string::npos)
     {
         _instance.assign(p.substr(n + 1));
         _hwmonRoot.assign(p.substr(0, n));
     }

     assert(!_instance.empty());
     assert(!_hwmonRoot.empty());
 }

 void MainLoop::shutdown() noexcept
 {
     _shutdown = true;
 }

 void MainLoop::run()
 {
     // Check sysfs for available sensors.
     auto sensors = std::make_unique<SensorSet>(_hwmonRoot + '/' + _instance);

     for (auto& i : *sensors)
     {
         // Get sensor configuration from the environment.

         // Ignore inputs without a label.
         auto label = getEnv("LABEL", i.first);
         if (label.empty())
         {
             continue;
         }

         Attributes attrs;
         if (!getAttributes(i.first.first, attrs))
         {
             continue;
         }

         std::string objectPath{_root};
         objectPath.append(1, '/');
         objectPath.append(getNamespace(attrs));
         objectPath.append(1, '/');
         objectPath.append(label);

         ObjectInfo info(&_bus, std::move(objectPath), Object());
         auto valueInterface = addValue(i.first, _hwmonRoot, _instance, info);
         auto sensorValue = valueInterface->value();
         addThreshold<WarningObject>(i.first, sensorValue, info);
         addThreshold<CriticalObject>(i.first, sensorValue, info);

         // All the interfaces have been created.  Go ahead
         // and emit InterfacesAdded.
         valueInterface->emit_object_added();

         auto value = std::make_tuple(
                          std::move(i.second),
                          std::move(label),
                          std::move(info));

         state[std::move(i.first)] = std::move(value);
     }

     {
         std::string busname{_prefix};
         busname.append(1, '.');
         busname.append(_instance);
         _bus.request_name(busname.c_str());
     }

     // TODO: Issue#3 - Need to make calls to the dbus sensor cache here to
     //       ensure the objects all exist?

     // Polling loop.
     while (!_shutdown)
     {
         // Iterate through all the sensors.
         for (auto& i : state)
         {
             auto& attrs = std::get<0>(i.second);
             if (attrs.find(hwmon::entry::input) != attrs.end())
             {
                 // Read value from sensor.
                 int value = readSysfsWithCallout(_hwmonRoot,
                                                  _instance,
                                                  i.first.first,
                                                  i.first.second,
                                                  hwmon::entry::input);
                 auto& objInfo = std::get<ObjectInfo>(i.second);
                 auto& obj = std::get<Object>(objInfo);

                 for (auto& iface : obj)
                 {
                     auto valueIface = std::shared_ptr<ValueObject>();
                     auto warnIface = std::shared_ptr<WarningObject>();
                     auto critIface = std::shared_ptr<CriticalObject>();

                     switch (iface.first)
                     {
                         case InterfaceType::VALUE:
                             valueIface = std::experimental::any_cast<std::shared_ptr<ValueObject>>
                                          (iface.second);
                             valueIface->value(value);
                             break;
                         case InterfaceType::WARN:
                             checkThresholds<WarningObject>(iface.second, value);
                             break;
                         case InterfaceType::CRIT:
                             checkThresholds<CriticalObject>(iface.second, value);
                             break;
                         default:
                             break;
                     }
                 }
             }
         }

         // Respond to DBus
         _bus.process_discard();

         // Sleep until next interval.
         // TODO: Issue#5 - Make this configurable.
         // TODO: Issue#6 - Optionally look at polling interval sysfs entry.
         _bus.wait((1000000us).count());

         // TODO: Issue#7 - Should probably periodically check the SensorSet
         //       for new entries.
     }
 }

 // vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4
	/**
	* Copyright © 2016 IBM Corporation
	*
	* 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 <iostream>
	#include <memory>
	#include <cstdlib>
	#include <chrono>
	#include <algorithm>
	#include "sensorset.hpp"
	#include "hwmon.hpp"
	#include "sysfs.hpp"
	#include "mainloop.hpp"
	#include "env.hpp"
	#include "thresholds.hpp"

	using namespace std::literals::chrono_literals;

	static constexpr auto typeAttrMap =
	{
	// 1 - hwmon class
	// 2 - unit
	// 3 - sysfs scaling factor
	std::make_tuple(
	hwmon::type::ctemp,
	ValueInterface::Unit::DegreesC,
	-3,
	"temperature"),
	std::make_tuple(
	hwmon::type::cfan,
	ValueInterface::Unit::RPMS,
	0,
	"fan_tach"),
	std::make_tuple(
	hwmon::type::cvolt,
	ValueInterface::Unit::Volts,
	-3,
	"voltage"),
	std::make_tuple(
	hwmon::type::ccurr,
	ValueInterface::Unit::Amperes,
	-3,
	"current"),
	std::make_tuple(
	hwmon::type::cenergy,
	ValueInterface::Unit::Joules,
	-6,
	"energy"),
	std::make_tuple(
	hwmon::type::cpower,
	ValueInterface::Unit::Watts,
	-6,
	"power"),
	};

	auto getHwmonType(decltype(typeAttrMap)::const_reference attrs)
	{
	return std::get<0>(attrs);
	}

	auto getUnit(decltype(typeAttrMap)::const_reference attrs)
	{
	return std::get<1>(attrs);
	}

	auto getScale(decltype(typeAttrMap)::const_reference attrs)
	{
	return std::get<2>(attrs);
	}

	auto getNamespace(decltype(typeAttrMap)::const_reference attrs)
	{
	return std::get<3>(attrs);
	}

	using AttributeIterator = decltype(*typeAttrMap.begin());
	using Attributes
	= std::remove_cv<std::remove_reference<AttributeIterator>::type>::type;

	auto getAttributes(const std::string& type, Attributes& attributes)
	{
	// INDENT-OFF
	auto a = std::find_if(
	typeAttrMap.begin(),
	typeAttrMap.end(),
	[&](const auto & e)
	{
	return type == getHwmonType(e);
	});
	// INDENT-ON

	if (a == typeAttrMap.end())
	{
	return false;
	}

	attributes = *a;
	return true;
	}

	auto addValue(const SensorSet::key_type& sensor,
	const std::string& hwmonRoot,
	const std::string& instance,
	ObjectInfo& info)
	{
	static constexpr bool deferSignals = true;

	// Get the initial value for the value interface.
	auto& bus = std::get<sdbusplus::bus::bus>(info);
	auto& obj = std::get<Object>(info);
	auto& objPath = std::get<std::string>(info);

	int val = readSysfsWithCallout(hwmonRoot,
	instance,
	sensor.first,
	sensor.second,
	hwmon::entry::input);
	auto iface = std::make_shared<ValueObject>(bus, objPath.c_str(), deferSignals);
	iface->value(val);

	Attributes attrs;
	if (getAttributes(sensor.first, attrs))
	{
	iface->unit(getUnit(attrs));
	iface->scale(getScale(attrs));
	}

	obj[InterfaceType::VALUE] = iface;
	return iface;
	}

	MainLoop::MainLoop(
	sdbusplus::bus::bus&& bus,
	const std::string& path,
	const char* prefix,
	const char* root)
	: _bus(std::move(bus)),
	_manager(sdbusplus::server::manager::manager(_bus, root)),
	_shutdown(false),
	_hwmonRoot(),
	_instance(),
	_prefix(prefix),
	_root(root),
	state()
	{
	std::string p = path;
	while (!p.empty() && p.back() == '/')
	{
	p.pop_back();
	}

	auto n = p.rfind('/');
	if (n != std::string::npos)
	{
	_instance.assign(p.substr(n + 1));
	_hwmonRoot.assign(p.substr(0, n));
	}

	assert(!_instance.empty());
	assert(!_hwmonRoot.empty());
	}

	void MainLoop::shutdown() noexcept
	{
	_shutdown = true;
	}

	void MainLoop::run()
	{
	// Check sysfs for available sensors.
	auto sensors = std::make_unique<SensorSet>(_hwmonRoot + '/' + _instance);

	for (auto& i : *sensors)
	{
	// Get sensor configuration from the environment.

	// Ignore inputs without a label.
	auto label = getEnv("LABEL", i.first);
	if (label.empty())
	{
	continue;
	}

	Attributes attrs;
	if (!getAttributes(i.first.first, attrs))
	{
	continue;
	}

	std::string objectPath{_root};
	objectPath.append(1, '/');
	objectPath.append(getNamespace(attrs));
	objectPath.append(1, '/');
	objectPath.append(label);

	ObjectInfo info(&_bus, std::move(objectPath), Object());
	auto valueInterface = addValue(i.first, _hwmonRoot, _instance, info);
	auto sensorValue = valueInterface->value();
	addThreshold<WarningObject>(i.first, sensorValue, info);
	addThreshold<CriticalObject>(i.first, sensorValue, info);

	// All the interfaces have been created. Go ahead
	// and emit InterfacesAdded.
	valueInterface->emit_object_added();

	auto value = std::make_tuple(
	std::move(i.second),
	std::move(label),
	std::move(info));

	state[std::move(i.first)] = std::move(value);
	}

	{
	std::string busname{_prefix};
	busname.append(1, '.');
	busname.append(_instance);
	_bus.request_name(busname.c_str());
	}

	// TODO: Issue#3 - Need to make calls to the dbus sensor cache here to
	// ensure the objects all exist?

	// Polling loop.
	while (!_shutdown)
	{
	// Iterate through all the sensors.
	for (auto& i : state)
	{
	auto& attrs = std::get<0>(i.second);
	if (attrs.find(hwmon::entry::input) != attrs.end())
	{
	// Read value from sensor.
	int value = readSysfsWithCallout(_hwmonRoot,
	_instance,
	i.first.first,
	i.first.second,
	hwmon::entry::input);
	auto& objInfo = std::get<ObjectInfo>(i.second);
	auto& obj = std::get<Object>(objInfo);

	for (auto& iface : obj)
	{
	auto valueIface = std::shared_ptr<ValueObject>();
	auto warnIface = std::shared_ptr<WarningObject>();
	auto critIface = std::shared_ptr<CriticalObject>();

	switch (iface.first)
	{
	case InterfaceType::VALUE:
	valueIface = std::experimental::any_cast<std::shared_ptr<ValueObject>>
	(iface.second);
	valueIface->value(value);
	break;
	case InterfaceType::WARN:
	checkThresholds<WarningObject>(iface.second, value);
	break;
	case InterfaceType::CRIT:
	checkThresholds<CriticalObject>(iface.second, value);
	break;
	default:
	break;
	}
	}
	}
	}

	// Respond to DBus
	_bus.process_discard();

	// Sleep until next interval.
	// TODO: Issue#5 - Make this configurable.
	// TODO: Issue#6 - Optionally look at polling interval sysfs entry.
	_bus.wait((1000000us).count());

	// TODO: Issue#7 - Should probably periodically check the SensorSet
	// for new entries.
	}
	}

	// vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4