control/actions.hpp - openbmc/phosphor-fan-presence - Gitiles

 #pragma once

 #include <algorithm>
 #include <numeric>
 #include "types.hpp"
 #include "zone.hpp"

 namespace phosphor
 {
 namespace fan
 {
 namespace control
 {
 namespace action
 {

 /**
  * @brief An action that wraps a list of actions with a timer
  * @details Sets up a list of actions to be invoked when the defined timer
  * expires (or for each expiration of a repeating timer).
  *
  * @param[in] tConf - Timer configuration parameters
  * @param[in] action - List of actions to be called when the timer expires
  *
  * @return Action lambda function
  *     An Action function that creates a timer
  */
 Action call_actions_based_on_timer(
         TimerConf&& tConf,
         std::vector<Action>&& actions);

 /**
  * @brief An action that sets the floor to the default fan floor speed
  * @details Sets the fan floor to the defined default fan floor speed when a
  * service associated to the given group has terminated. Once all services
  * are functional and providing the sensors again, the fan floor is allowed
  * to be set normally.
  *
  * @param[in] zone - Zone containing fans
  * @param[in] group - Group of sensors to determine services' states
  */
 void default_floor_on_missing_owner(Zone& zone, const Group& group);

 /**
  * @brief An action to set a speed when a service owner is missing
  * @details Sets the fans to the given speed when any service owner associated
  * to the group is missing. Once all services are functional and providing
  * the event data again, active fan speed changes are allowed.
  *
  * @param[in] speed - Speed to set the zone to
  *
  * @return Action lambda function
  *     An Action function that sets the zone to the given speed if any service
  *     owners are missing.
  */
 Action set_speed_on_missing_owner(uint64_t speed);

 /**
  * @brief An action to set the request speed base
  * @details A new target speed is determined using a speed delta being added
  * or subtracted, for increases or decrease respectively, from a base speed.
  * This base speed defaults to be the current target speed or is set to a
  * different base speed(i.e. the fans' tach feedback speed) to request a new
  * target from.
  *
  * @param[in] zone - Zone containing fans
  * @param[in] group - Group of sensors to determine base from
  */
 void set_request_speed_base_with_max(Zone& zone, const Group& group);

 /**
  * @brief An action to set the speed on a zone
  * @details The zone is held at the given speed when a defined number of
  * properties in the group are set to the given state
  *
  * @param[in] count - Number of properties
  * @param[in] state - Value the property(s) needed to be set at
  * @param[in] speed - Speed to set the zone to
  *
  * @return Lambda function
  *     A lambda function to set the zone speed when the number of properties
  *     within the group are at a certain value
  */
 template <typename T>
 auto count_state_before_speed(size_t count, T&& state, uint64_t speed)
 {
     return [count,
             speed,
             state = std::forward<T>(state)](auto& zone, auto& group)
     {
         size_t numAtState = 0;
         for (auto& entry : group)
         {
             try
             {
                 if (zone.template getPropertyValue<T>(
                         std::get<pathPos>(entry),
                         std::get<intfPos>(entry),
                         std::get<propPos>(entry)) == state)
                 {
                     numAtState++;
                 }
             }
             catch (const std::out_of_range& oore)
             {
                 // Default to property not equal when not found
             }
             if (numAtState >= count)
             {
                 zone.setSpeed(speed);
                 break;
             }
         }
         // Update group's fan control active allowed based on action results
         zone.setActiveAllow(&group, !(numAtState >= count));
     };
 }

 /**
  * @brief An action to set the floor speed on a zone
  * @details Based on the average of the defined sensor group values, the floor
  * speed is selected from the first map key entry that the average sensor value
  * is less than.
  *
  * @param[in] val_to_speed - Ordered map of sensor value-to-speed
  *
  * @return Action lambda function
  *     An Action function to set the zone's floor speed when the average of
  *     property values within the group is below the lowest sensor value given
  */
 Action set_floor_from_average_sensor_value(
         std::map<int64_t, uint64_t>&& val_to_speed);

 /**
  * @brief An action to set the ceiling speed on a zone
  * @details Based on the average of the defined sensor group values, the
  * ceiling speed is selected from the map key transition point that the average
  * sensor value falls within depending on the key values direction from what
  * was previously read.
  *
  * @param[in] val_to_speed - Ordered map of sensor value-to-speed transitions
  *
  * @return Action lambda function
  *     An Action function to set the zone's ceiling speed when the average of
  *     property values within the group is above(increasing) or
  *     below(decreasing) the key transition point
  */
 Action set_ceiling_from_average_sensor_value(
         std::map<int64_t, uint64_t>&& val_to_speed);

 /**
  * @brief An action to set the speed increase delta and request speed change
  * @details Provides the ability to determine what the net increase delta the
  * zone's fan speeds should be updated by from their current target speed and
  * request that new target speed.
  *
  * @param[in] state - State to compare the group's property value to
  * @param[in] factor - Factor to apply to the calculated net delta
  * @param[in] speedDelta - Speed delta of the group
  *
  * @return Lambda function
  *     A lambda function that determines the net increase delta and requests
  * a new target speed with that increase for the zone.
  */
 template <typename T>
 auto set_net_increase_speed(T&& state, T&& factor, uint64_t speedDelta)
 {
     return [speedDelta,
             factor = std::forward<T>(factor),
             state = std::forward<T>(state)](auto& zone, auto& group)
     {
         auto netDelta = zone.getIncSpeedDelta();
         std::for_each(
             group.begin(),
             group.end(),
             [&zone, &state, &factor, &speedDelta, &netDelta](
                 auto const& entry)
             {
                 try
                 {
                     T value = zone.template getPropertyValue<T>(
                             std::get<pathPos>(entry),
                             std::get<intfPos>(entry),
                             std::get<propPos>(entry));
                     // TODO openbmc/phosphor-fan-presence#7 - Support possible
                     // state types for comparison
                     if (value >= state)
                     {
                         // Increase by at least a single delta(factor)
                         // to attempt bringing under 'state'
                         auto delta = std::max(
                             (value - state),
                             factor);
                         // Increase is the factor applied to the
                         // difference times the given speed delta
                         netDelta = std::max(
                             netDelta,
                             (delta/factor) * speedDelta);
                     }
                 }
                 catch (const std::out_of_range& oore)
                 {
                     // Property value not found, netDelta unchanged
                 }
             }
         );
         // Request speed change for target speed update
         zone.requestSpeedIncrease(netDelta);
     };
 }

 /**
  * @brief An action to set the speed decrease delta and request speed change
  * @details Provides the ability to determine what the net decrease delta each
  * zone's fan speeds should be updated by from their current target speed, and
  * request that speed change occur on the next decrease interval.
  *
  * @param[in] state - State to compare the group's property value to
  * @param[in] factor - Factor to apply to the calculated net delta
  * @param[in] speedDelta - Speed delta of the group
  *
  * @return Lambda function
  *     A lambda function that determines the net decrease delta and requests
  * a new target speed with that decrease for the zone.
  */
 template <typename T>
 auto set_net_decrease_speed(T&& state, T&& factor, uint64_t speedDelta)
 {
     return [speedDelta,
             factor = std::forward<T>(factor),
             state = std::forward<T>(state)](auto& zone, auto& group)
     {
         auto netDelta = zone.getDecSpeedDelta();
         for (auto& entry : group)
         {
             try
             {
                 T value = zone.template getPropertyValue<T>(
                         std::get<pathPos>(entry),
                         std::get<intfPos>(entry),
                         std::get<propPos>(entry));
                 // TODO openbmc/phosphor-fan-presence#7 - Support possible
                 // state types for comparison
                 if (value < state)
                 {
                     if (netDelta == 0)
                     {
                         netDelta = ((state - value)/factor) * speedDelta;
                     }
                     else
                     {
                         // Decrease is the factor applied to the
                         // difference times the given speed delta
                         netDelta = std::min(
                             netDelta,
                             ((state - value)/factor) * speedDelta);
                     }
                 }
                 else
                 {
                     // No decrease allowed for this group
                     netDelta = 0;
                     break;
                 }
             }
             catch (const std::out_of_range& oore)
             {
                 // Property value not found, netDelta unchanged
             }
         }
         // Update group's decrease allowed state
         zone.setDecreaseAllow(&group, !(netDelta == 0));
         // Request speed decrease to occur on decrease interval
         zone.requestSpeedDecrease(netDelta);
     };
 }

 /**
  * @brief An action to use an alternate set of events
  * @details Provides the ability to replace a default set of events with an
  * alternate set of events based on all members of a group being at a specified
  * state. When any member of the group no longer matches the provided state,
  * the alternate set of events are replaced with the defaults.
  *
  * @param[in] state - State to compare the group's property value to
  * @param[in] defEvents - The default set of events
  * @param[in] altEvents - The alternate set of events
  *
  * @return Lambda function
  *     A lambda function that checks all group members are at a specified state
  * and replacing the default set of events with an alternate set of events.
  */
 template <typename T>
 auto use_alternate_events_on_state(T&& state,
                                    std::vector<SetSpeedEvent>&& defEvents,
                                    std::vector<SetSpeedEvent>&& altEvents)
 {
     return [state = std::forward<T>(state),
             defEvents = std::move(defEvents),
             altEvents = std::move(altEvents)](auto& zone, auto& group)
     {
         // Compare all group entries to the state
         auto useAlt = std::all_of(
             group.begin(),
             group.end(),
             [&zone, &state](auto const& entry)
             {
                 try
                 {
                     return zone.template getPropertyValue<T>(
                             std::get<pathPos>(entry),
                             std::get<intfPos>(entry),
                             std::get<propPos>(entry)) == state;
                 }
                 catch (const std::out_of_range& oore)
                 {
                     // Default to property not equal when not found
                     return false;
                 }
             });

         const std::vector<SetSpeedEvent> *rmEvents = &altEvents;
         const std::vector<SetSpeedEvent> *initEvents = &defEvents;

         if (useAlt)
         {
             rmEvents = &defEvents;
             initEvents = &altEvents;
         }

         // Remove events
         std::for_each(
             rmEvents->begin(),
             rmEvents->end(),
             [&zone](auto const& entry)
             {
                 zone.removeEvent(entry);
             });
         // Init events
         std::for_each(
             initEvents->begin(),
             initEvents->end(),
             [&zone](auto const& entry)
             {
                 zone.initEvent(entry);
             });
     };
 }

 /**
  * @brief An action to set the floor speed on a zone
  * @details Using sensor group values that are within a defined range, the
  * floor speed is selected from the first map key entry that the median
  * sensor value is less than where 3 or more sensor group values are valid.
  * In the case where less than 3 sensor values are valid, use the highest
  * sensor group value and default the floor speed when 0 sensor group values
  * are valid.
  *
  * @param[in] lowerBound - Lowest allowed sensor value to be valid
  * @param[in] upperBound - Highest allowed sensor value to be valid
  * @param[in] valueToSpeed - Ordered map of sensor value-to-speed
  *
  * @return Action lambda function
  *     An Action function to set the zone's floor speed from a resulting group
  * of valid sensor values based on their highest value or median.
  */
 Action set_floor_from_median_sensor_value(
         int64_t lowerBound,
         int64_t upperBound,
         std::map<int64_t, uint64_t>&& valueToSpeed);

 } // namespace action
 } // namespace control
 } // namespace fan
 } // namespace phosphor
	#pragma once

	#include <algorithm>
	#include <numeric>
	#include "types.hpp"
	#include "zone.hpp"

	namespace phosphor
	{
	namespace fan
	{
	namespace control
	{
	namespace action
	{

	/**
	* @brief An action that wraps a list of actions with a timer
	* @details Sets up a list of actions to be invoked when the defined timer
	* expires (or for each expiration of a repeating timer).
	*
	* @param[in] tConf - Timer configuration parameters
	* @param[in] action - List of actions to be called when the timer expires
	*
	* @return Action lambda function
	* An Action function that creates a timer
	*/
	Action call_actions_based_on_timer(
	TimerConf&& tConf,
	std::vector<Action>&& actions);

	/**
	* @brief An action that sets the floor to the default fan floor speed
	* @details Sets the fan floor to the defined default fan floor speed when a
	* service associated to the given group has terminated. Once all services
	* are functional and providing the sensors again, the fan floor is allowed
	* to be set normally.
	*
	* @param[in] zone - Zone containing fans
	* @param[in] group - Group of sensors to determine services' states
	*/
	void default_floor_on_missing_owner(Zone& zone, const Group& group);

	/**
	* @brief An action to set a speed when a service owner is missing
	* @details Sets the fans to the given speed when any service owner associated
	* to the group is missing. Once all services are functional and providing
	* the event data again, active fan speed changes are allowed.
	*
	* @param[in] speed - Speed to set the zone to
	*
	* @return Action lambda function
	* An Action function that sets the zone to the given speed if any service
	* owners are missing.
	*/
	Action set_speed_on_missing_owner(uint64_t speed);

	/**
	* @brief An action to set the request speed base
	* @details A new target speed is determined using a speed delta being added
	* or subtracted, for increases or decrease respectively, from a base speed.
	* This base speed defaults to be the current target speed or is set to a
	* different base speed(i.e. the fans' tach feedback speed) to request a new
	* target from.
	*
	* @param[in] zone - Zone containing fans
	* @param[in] group - Group of sensors to determine base from
	*/
	void set_request_speed_base_with_max(Zone& zone, const Group& group);

	/**
	* @brief An action to set the speed on a zone
	* @details The zone is held at the given speed when a defined number of
	* properties in the group are set to the given state
	*
	* @param[in] count - Number of properties
	* @param[in] state - Value the property(s) needed to be set at
	* @param[in] speed - Speed to set the zone to
	*
	* @return Lambda function
	* A lambda function to set the zone speed when the number of properties
	* within the group are at a certain value
	*/
	template <typename T>
	auto count_state_before_speed(size_t count, T&& state, uint64_t speed)
	{
	return [count,
	speed,
	state = std::forward<T>(state)](auto& zone, auto& group)
	{
	size_t numAtState = 0;
	for (auto& entry : group)
	{
	try
	{
	if (zone.template getPropertyValue<T>(
	std::get<pathPos>(entry),
	std::get<intfPos>(entry),
	std::get<propPos>(entry)) == state)
	{
	numAtState++;
	}
	}
	catch (const std::out_of_range& oore)
	{
	// Default to property not equal when not found
	}
	if (numAtState >= count)
	{
	zone.setSpeed(speed);
	break;
	}
	}
	// Update group's fan control active allowed based on action results
	zone.setActiveAllow(&group, !(numAtState >= count));
	};
	}

	/**
	* @brief An action to set the floor speed on a zone
	* @details Based on the average of the defined sensor group values, the floor
	* speed is selected from the first map key entry that the average sensor value
	* is less than.
	*
	* @param[in] val_to_speed - Ordered map of sensor value-to-speed
	*
	* @return Action lambda function
	* An Action function to set the zone's floor speed when the average of
	* property values within the group is below the lowest sensor value given
	*/
	Action set_floor_from_average_sensor_value(
	std::map<int64_t, uint64_t>&& val_to_speed);

	/**
	* @brief An action to set the ceiling speed on a zone
	* @details Based on the average of the defined sensor group values, the
	* ceiling speed is selected from the map key transition point that the average
	* sensor value falls within depending on the key values direction from what
	* was previously read.
	*
	* @param[in] val_to_speed - Ordered map of sensor value-to-speed transitions
	*
	* @return Action lambda function
	* An Action function to set the zone's ceiling speed when the average of
	* property values within the group is above(increasing) or
	* below(decreasing) the key transition point
	*/
	Action set_ceiling_from_average_sensor_value(
	std::map<int64_t, uint64_t>&& val_to_speed);

	/**
	* @brief An action to set the speed increase delta and request speed change
	* @details Provides the ability to determine what the net increase delta the
	* zone's fan speeds should be updated by from their current target speed and
	* request that new target speed.
	*
	* @param[in] state - State to compare the group's property value to
	* @param[in] factor - Factor to apply to the calculated net delta
	* @param[in] speedDelta - Speed delta of the group
	*
	* @return Lambda function
	* A lambda function that determines the net increase delta and requests
	* a new target speed with that increase for the zone.
	*/
	template <typename T>
	auto set_net_increase_speed(T&& state, T&& factor, uint64_t speedDelta)
	{
	return [speedDelta,
	factor = std::forward<T>(factor),
	state = std::forward<T>(state)](auto& zone, auto& group)
	{
	auto netDelta = zone.getIncSpeedDelta();
	std::for_each(
	group.begin(),
	group.end(),
	[&zone, &state, &factor, &speedDelta, &netDelta](
	auto const& entry)
	{
	try
	{
	T value = zone.template getPropertyValue<T>(
	std::get<pathPos>(entry),
	std::get<intfPos>(entry),
	std::get<propPos>(entry));
	// TODO openbmc/phosphor-fan-presence#7 - Support possible
	// state types for comparison
	if (value >= state)
	{
	// Increase by at least a single delta(factor)
	// to attempt bringing under 'state'
	auto delta = std::max(
	(value - state),
	factor);
	// Increase is the factor applied to the
	// difference times the given speed delta
	netDelta = std::max(
	netDelta,
	(delta/factor) * speedDelta);
	}
	}
	catch (const std::out_of_range& oore)
	{
	// Property value not found, netDelta unchanged
	}
	}
	);
	// Request speed change for target speed update
	zone.requestSpeedIncrease(netDelta);
	};
	}

	/**
	* @brief An action to set the speed decrease delta and request speed change
	* @details Provides the ability to determine what the net decrease delta each
	* zone's fan speeds should be updated by from their current target speed, and
	* request that speed change occur on the next decrease interval.
	*
	* @param[in] state - State to compare the group's property value to
	* @param[in] factor - Factor to apply to the calculated net delta
	* @param[in] speedDelta - Speed delta of the group
	*
	* @return Lambda function
	* A lambda function that determines the net decrease delta and requests
	* a new target speed with that decrease for the zone.
	*/
	template <typename T>
	auto set_net_decrease_speed(T&& state, T&& factor, uint64_t speedDelta)
	{
	return [speedDelta,
	factor = std::forward<T>(factor),
	state = std::forward<T>(state)](auto& zone, auto& group)
	{
	auto netDelta = zone.getDecSpeedDelta();
	for (auto& entry : group)
	{
	try
	{
	T value = zone.template getPropertyValue<T>(
	std::get<pathPos>(entry),
	std::get<intfPos>(entry),
	std::get<propPos>(entry));
	// TODO openbmc/phosphor-fan-presence#7 - Support possible
	// state types for comparison
	if (value < state)
	{
	if (netDelta == 0)
	{
	netDelta = ((state - value)/factor) * speedDelta;
	}
	else
	{
	// Decrease is the factor applied to the
	// difference times the given speed delta
	netDelta = std::min(
	netDelta,
	((state - value)/factor) * speedDelta);
	}
	}
	else
	{
	// No decrease allowed for this group
	netDelta = 0;
	break;
	}
	}
	catch (const std::out_of_range& oore)
	{
	// Property value not found, netDelta unchanged
	}
	}
	// Update group's decrease allowed state
	zone.setDecreaseAllow(&group, !(netDelta == 0));
	// Request speed decrease to occur on decrease interval
	zone.requestSpeedDecrease(netDelta);
	};
	}

	/**
	* @brief An action to use an alternate set of events
	* @details Provides the ability to replace a default set of events with an
	* alternate set of events based on all members of a group being at a specified
	* state. When any member of the group no longer matches the provided state,
	* the alternate set of events are replaced with the defaults.
	*
	* @param[in] state - State to compare the group's property value to
	* @param[in] defEvents - The default set of events
	* @param[in] altEvents - The alternate set of events
	*
	* @return Lambda function
	* A lambda function that checks all group members are at a specified state
	* and replacing the default set of events with an alternate set of events.
	*/
	template <typename T>
	auto use_alternate_events_on_state(T&& state,
	std::vector<SetSpeedEvent>&& defEvents,
	std::vector<SetSpeedEvent>&& altEvents)
	{
	return [state = std::forward<T>(state),
	defEvents = std::move(defEvents),
	altEvents = std::move(altEvents)](auto& zone, auto& group)
	{
	// Compare all group entries to the state
	auto useAlt = std::all_of(
	group.begin(),
	group.end(),
	[&zone, &state](auto const& entry)
	{
	try
	{
	return zone.template getPropertyValue<T>(
	std::get<pathPos>(entry),
	std::get<intfPos>(entry),
	std::get<propPos>(entry)) == state;
	}
	catch (const std::out_of_range& oore)
	{
	// Default to property not equal when not found
	return false;
	}
	});

	const std::vector<SetSpeedEvent> *rmEvents = &altEvents;
	const std::vector<SetSpeedEvent> *initEvents = &defEvents;

	if (useAlt)
	{
	rmEvents = &defEvents;
	initEvents = &altEvents;
	}

	// Remove events
	std::for_each(
	rmEvents->begin(),
	rmEvents->end(),
	[&zone](auto const& entry)
	{
	zone.removeEvent(entry);
	});
	// Init events
	std::for_each(
	initEvents->begin(),
	initEvents->end(),
	[&zone](auto const& entry)
	{
	zone.initEvent(entry);
	});
	};
	}

	/**
	* @brief An action to set the floor speed on a zone
	* @details Using sensor group values that are within a defined range, the
	* floor speed is selected from the first map key entry that the median
	* sensor value is less than where 3 or more sensor group values are valid.
	* In the case where less than 3 sensor values are valid, use the highest
	* sensor group value and default the floor speed when 0 sensor group values
	* are valid.
	*
	* @param[in] lowerBound - Lowest allowed sensor value to be valid
	* @param[in] upperBound - Highest allowed sensor value to be valid
	* @param[in] valueToSpeed - Ordered map of sensor value-to-speed
	*
	* @return Action lambda function
	* An Action function to set the zone's floor speed from a resulting group
	* of valid sensor values based on their highest value or median.
	*/
	Action set_floor_from_median_sensor_value(
	int64_t lowerBound,
	int64_t upperBound,
	std::map<int64_t, uint64_t>&& valueToSpeed);

	} // namespace action
	} // namespace control
	} // namespace fan
	} // namespace phosphor