manager.cpp - openbmc/phosphor-led-manager - Gitiles

 #include "config.h"

 #include "manager.hpp"

 #include <phosphor-logging/log.hpp>
 #include <sdbusplus/exception.hpp>
 #include <xyz/openbmc_project/Led/Physical/server.hpp>

 #include <algorithm>
 #include <iostream>
 #include <string>
 namespace phosphor
 {
 namespace led
 {

 using namespace phosphor::logging;

 // Assert -or- De-assert
 bool Manager::setGroupState(const std::string& path, bool assert,
                             group& ledsAssert, group& ledsDeAssert)
 {
     if (assert)
     {
         assertedGroups.insert(&ledMap.at(path));
     }
     else
     {
         auto search = assertedGroups.find(&ledMap.at(path));
         if (search != assertedGroups.end())
         {
             assertedGroups.erase(&ledMap.at(path));
         }
     }

     // This will contain the union of what's already in the asserted group
     group desiredState{};
     for (const auto& grp : assertedGroups)
     {
         desiredState.insert(grp->cbegin(), grp->cend());
     }

     // Find difference between Combined and Desired to identify
     // which LEDs are getting altered
     group transient{};
     std::set_difference(combinedState.begin(), combinedState.end(),
                         desiredState.begin(), desiredState.end(),
                         std::inserter(transient, transient.begin()), ledComp);
     if (transient.size())
     {
         // Find common LEDs between transient and Desired to know if some LEDs
         // are changing state and not really getting DeAsserted
         group ledsTransient{};
         std::set_intersection(
             transient.begin(), transient.end(), desiredState.begin(),
             desiredState.end(),
             std::inserter(ledsTransient, ledsTransient.begin()), ledLess);

         // Find difference between above 2 to identify those LEDs which are
         // really getting DeAsserted
         std::set_difference(transient.begin(), transient.end(),
                             ledsTransient.begin(), ledsTransient.end(),
                             std::inserter(ledsDeAssert, ledsDeAssert.begin()),
                             ledLess);

         // Remove the elements from Current that are being DeAsserted.
         if (ledsDeAssert.size())
         {
             // Power off LEDs that are to be really DeAsserted
             for (auto& it : ledsDeAssert)
             {
                 // Update LEDs in "physically asserted" set by removing those
                 // LEDs which are De-Asserted
                 auto found = currentState.find(it);
                 if (found != currentState.end())
                 {
                     currentState.erase(found);
                 }
             }
         }
     }

     // Now LEDs that are to be Asserted. These could either be fresh asserts
     // -or- change between [On]<-->[Blink]
     group temp{};
     std::unique_copy(desiredState.begin(), desiredState.end(),
                      std::inserter(temp, temp.begin()), ledEqual);
     if (temp.size())
     {
         // Find difference between [desired to be Asserted] and those LEDs
         // that are physically asserted currently.
         std::set_difference(
             temp.begin(), temp.end(), currentState.begin(), currentState.end(),
             std::inserter(ledsAssert, ledsAssert.begin()), ledComp);
     }

     // Update the current actual and desired(the virtual actual)
     currentState = std::move(temp);
     combinedState = std::move(desiredState);

     // If we survive, then set the state accordingly.
     return assert;
 }

 void Manager::setLampTestCallBack(
     std::function<bool(group& ledsAssert, group& ledsDeAssert)> callBack)
 {
     lampTestCallBack = callBack;
 }

 /** @brief Run through the map and apply action on the LEDs */
 void Manager::driveLEDs(group& ledsAssert, group& ledsDeAssert)
 {
 #ifdef USE_LAMP_TEST
     // Use the lampTestCallBack method and trigger the callback method in the
     // lamp test(processLEDUpdates), in this way, all lamp test operations
     // are performed in the lamp test class.
     if (lampTestCallBack(ledsAssert, ledsDeAssert))
     {
         return;
     }
 #endif
     // This order of LED operation is important.
     if (ledsDeAssert.size())
     {
         for (const auto& it : ledsDeAssert)
         {
             std::string objPath = std::string(PHY_LED_PATH) + it.name;
             log<level::DEBUG>("De-Asserting LED",
                               entry("NAME=%s", it.name.c_str()));
             drivePhysicalLED(objPath, Layout::Action::Off, it.dutyOn,
                              it.period);
         }
     }

     if (ledsAssert.size())
     {
         for (const auto& it : ledsAssert)
         {
             std::string objPath = std::string(PHY_LED_PATH) + it.name;
             log<level::DEBUG>("Asserting LED",
                               entry("NAME=%s", it.name.c_str()));
             drivePhysicalLED(objPath, it.action, it.dutyOn, it.period);
         }
     }
     return;
 }

 // Calls into driving physical LED post choosing the action
 void Manager::drivePhysicalLED(const std::string& objPath,
                                Layout::Action action, uint8_t dutyOn,
                                const uint16_t period)
 {
     try
     {
         // If Blink, set its property
         if (action == Layout::Action::Blink)
         {
             PropertyValue dutyOnValue{dutyOn};
             PropertyValue periodValue{period};

             dBusHandler.setProperty(objPath, PHY_LED_IFACE, "DutyOn",
                                     dutyOnValue);
             dBusHandler.setProperty(objPath, PHY_LED_IFACE, "Period",
                                     periodValue);
         }

         PropertyValue actionValue{getPhysicalAction(action)};
         dBusHandler.setProperty(objPath, PHY_LED_IFACE, "State", actionValue);
     }
     catch (const std::exception& e)
     {
         log<level::ERR>("Error setting property for physical LED",
                         entry("ERROR=%s", e.what()),
                         entry("OBJECT_PATH=%s", objPath.c_str()));
     }

     return;
 }

 /** @brief Returns action string based on enum */
 std::string Manager::getPhysicalAction(Layout::Action action)
 {
     namespace server = sdbusplus::xyz::openbmc_project::Led::server;

     // TODO: openbmc/phosphor-led-manager#5
     //    Somehow need to use the generated Action enum than giving one
     //    in ledlayout.
     if (action == Layout::Action::On)
     {
         return server::convertForMessage(server::Physical::Action::On);
     }
     else if (action == Layout::Action::Blink)
     {
         return server::convertForMessage(server::Physical::Action::Blink);
     }
     else
     {
         return server::convertForMessage(server::Physical::Action::Off);
     }
 }

 } // namespace led
 } // namespace phosphor
	#include "config.h"

	#include "manager.hpp"

	#include <phosphor-logging/log.hpp>
	#include <sdbusplus/exception.hpp>
	#include <xyz/openbmc_project/Led/Physical/server.hpp>

	#include <algorithm>
	#include <iostream>
	#include <string>
	namespace phosphor
	{
	namespace led
	{

	using namespace phosphor::logging;

	// Assert -or- De-assert
	bool Manager::setGroupState(const std::string& path, bool assert,
	group& ledsAssert, group& ledsDeAssert)
	{
	if (assert)
	{
	assertedGroups.insert(&ledMap.at(path));
	}
	else
	{
	auto search = assertedGroups.find(&ledMap.at(path));
	if (search != assertedGroups.end())
	{
	assertedGroups.erase(&ledMap.at(path));
	}
	}

	// This will contain the union of what's already in the asserted group
	group desiredState{};
	for (const auto& grp : assertedGroups)
	{
	desiredState.insert(grp->cbegin(), grp->cend());
	}

	// Find difference between Combined and Desired to identify
	// which LEDs are getting altered
	group transient{};
	std::set_difference(combinedState.begin(), combinedState.end(),
	desiredState.begin(), desiredState.end(),
	std::inserter(transient, transient.begin()), ledComp);
	if (transient.size())
	{
	// Find common LEDs between transient and Desired to know if some LEDs
	// are changing state and not really getting DeAsserted
	group ledsTransient{};
	std::set_intersection(
	transient.begin(), transient.end(), desiredState.begin(),
	desiredState.end(),
	std::inserter(ledsTransient, ledsTransient.begin()), ledLess);

	// Find difference between above 2 to identify those LEDs which are
	// really getting DeAsserted
	std::set_difference(transient.begin(), transient.end(),
	ledsTransient.begin(), ledsTransient.end(),
	std::inserter(ledsDeAssert, ledsDeAssert.begin()),
	ledLess);

	// Remove the elements from Current that are being DeAsserted.
	if (ledsDeAssert.size())
	{
	// Power off LEDs that are to be really DeAsserted
	for (auto& it : ledsDeAssert)
	{
	// Update LEDs in "physically asserted" set by removing those
	// LEDs which are De-Asserted
	auto found = currentState.find(it);
	if (found != currentState.end())
	{
	currentState.erase(found);
	}
	}
	}
	}

	// Now LEDs that are to be Asserted. These could either be fresh asserts
	// -or- change between [On]<-->[Blink]
	group temp{};
	std::unique_copy(desiredState.begin(), desiredState.end(),
	std::inserter(temp, temp.begin()), ledEqual);
	if (temp.size())
	{
	// Find difference between [desired to be Asserted] and those LEDs
	// that are physically asserted currently.
	std::set_difference(
	temp.begin(), temp.end(), currentState.begin(), currentState.end(),
	std::inserter(ledsAssert, ledsAssert.begin()), ledComp);
	}

	// Update the current actual and desired(the virtual actual)
	currentState = std::move(temp);
	combinedState = std::move(desiredState);

	// If we survive, then set the state accordingly.
	return assert;
	}

	void Manager::setLampTestCallBack(
	std::function<bool(group& ledsAssert, group& ledsDeAssert)> callBack)
	{
	lampTestCallBack = callBack;
	}

	/** @brief Run through the map and apply action on the LEDs */
	void Manager::driveLEDs(group& ledsAssert, group& ledsDeAssert)
	{
	#ifdef USE_LAMP_TEST
	// Use the lampTestCallBack method and trigger the callback method in the
	// lamp test(processLEDUpdates), in this way, all lamp test operations
	// are performed in the lamp test class.
	if (lampTestCallBack(ledsAssert, ledsDeAssert))
	{
	return;
	}
	#endif
	// This order of LED operation is important.
	if (ledsDeAssert.size())
	{
	for (const auto& it : ledsDeAssert)
	{
	std::string objPath = std::string(PHY_LED_PATH) + it.name;
	log<level::DEBUG>("De-Asserting LED",
	entry("NAME=%s", it.name.c_str()));
	drivePhysicalLED(objPath, Layout::Action::Off, it.dutyOn,
	it.period);
	}
	}

	if (ledsAssert.size())
	{
	for (const auto& it : ledsAssert)
	{
	std::string objPath = std::string(PHY_LED_PATH) + it.name;
	log<level::DEBUG>("Asserting LED",
	entry("NAME=%s", it.name.c_str()));
	drivePhysicalLED(objPath, it.action, it.dutyOn, it.period);
	}
	}
	return;
	}

	// Calls into driving physical LED post choosing the action
	void Manager::drivePhysicalLED(const std::string& objPath,
	Layout::Action action, uint8_t dutyOn,
	const uint16_t period)
	{
	try
	{
	// If Blink, set its property
	if (action == Layout::Action::Blink)
	{
	PropertyValue dutyOnValue{dutyOn};
	PropertyValue periodValue{period};

	dBusHandler.setProperty(objPath, PHY_LED_IFACE, "DutyOn",
	dutyOnValue);
	dBusHandler.setProperty(objPath, PHY_LED_IFACE, "Period",
	periodValue);
	}

	PropertyValue actionValue{getPhysicalAction(action)};
	dBusHandler.setProperty(objPath, PHY_LED_IFACE, "State", actionValue);
	}
	catch (const std::exception& e)
	{
	log<level::ERR>("Error setting property for physical LED",
	entry("ERROR=%s", e.what()),
	entry("OBJECT_PATH=%s", objPath.c_str()));
	}

	return;
	}

	/** @brief Returns action string based on enum */
	std::string Manager::getPhysicalAction(Layout::Action action)
	{
	namespace server = sdbusplus::xyz::openbmc_project::Led::server;

	// TODO: openbmc/phosphor-led-manager#5
	// Somehow need to use the generated Action enum than giving one
	// in ledlayout.
	if (action == Layout::Action::On)
	{
	return server::convertForMessage(server::Physical::Action::On);
	}
	else if (action == Layout::Action::Blink)
	{
	return server::convertForMessage(server::Physical::Action::Blink);
	}
	else
	{
	return server::convertForMessage(server::Physical::Action::Off);
	}
	}

	} // namespace led
	} // namespace phosphor