/** * Copyright © 2022 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. */ #pragma once #include "config_base.hpp" #include "dbus_zone.hpp" #include "fan.hpp" #include #include #include #include #include #include #include #include #include namespace phosphor::fan::control::json { class Manager; using json = nlohmann::json; /* Dbus event timer */ using Timer = sdeventplus::utility::Timer; /** * @class Zone - Represents a configured fan control zone * * A zone object contains the configured attributes for a zone that groups * a number of fans together to be under the same target control. These * configuration attributes include, but are not limited to, the default ceiling * of the fans within the zone, a default floor, the delay between increases, a * decrease interval, and any profiles(OPTIONAL) the zone should be included in. * * (When no profile for a zone is given, the zone defaults to always exist) * */ class Zone : public ConfigBase { public: /* JSON file name for zones */ static constexpr auto confFileName = "zones.json"; Zone() = delete; Zone(const Zone&) = delete; Zone(Zone&&) = delete; Zone& operator=(const Zone&) = delete; Zone& operator=(Zone&&) = delete; ~Zone() = default; /** * Constructor * Parses and populates a zone from JSON object data * * @param[in] jsonObj - JSON object * @param[in] event - sdeventplus event loop * @param[in] mgr - Manager of this zone */ Zone(const json& jsonObj, const sdeventplus::Event& event, Manager* mgr); /** * @brief Get the poweron target * * Poweron target is the target the fans within this zone should be set to * when the system is powered on. * * @return Poweron target of this zone */ inline const auto& getPoweronTarget() const { return _poweronTarget; } /** * @brief Get the default ceiling * * Default ceiling is the highest target the fans within this zone is * allowed to increase to. The zone's ceiling defaults to this unless * changed by some configured event. * * @return Default ceiling of this zone */ inline const auto& getDefaultCeiling() const { return _defaultCeiling; } /** * @brief Get the default floor * * The default floor is the lowest target the fans within this zone * are allowed to decrease to. The zone's floor defaults to this * unless changed by some configured event. * * @return Default floor */ inline const auto& getDefaultFloor() const { return _defaultFloor; } /** * @brief Get the increase delay(OPTIONAL) * * The increase delay is the amount of time(in seconds) increases * to a target are delayed before being made. The default is 0, which * results in immediate increase requests when any events result in * a change to the target. * * It is recommend a value other than 0 is configured, but that inherently * depends on the fan controller and configured increases. * * @return Increase delay(in seconds) */ inline const auto& getIncDelay() const { return _incDelay; } /** * @brief Get the decrease interval * * Decreases happen on a set interval when no requests for an increase * in fan targets exists. This is the interval(in seconds) at which the fans * within the zone are decreased if events exist that result in a target * decrease. * * @return Decrease interval(in seconds) */ inline const auto& getDecInterval() const { return _decInterval; } /** * @brief Get the current target of the zone * * @return - The current target of the zone */ inline const auto& getTarget() const { return _target; } /** * @brief Get the target increase delta * * @return - The current target increase delta */ inline auto& getIncDelta() const { return _incDelta; }; /** * @brief Get the target decrease delta * * @return - The current target decrease delta */ inline auto& getDecDelta() const { return _decDelta; }; /** * @brief Get the manager of the zone * * @return - The manager of the zone */ inline auto* getManager() const { return _manager; } /** * @brief Enable the zone * * Performs the necessary tasks to enable the zone such as restoring any * dbus property states(if persisted), starting the decrement timer, etc... */ void enable(); /** * @brief Add a fan object to the zone * * @param[in] fan - Unique pointer to a fan object that will be moved into * the zone * * Adds a fan object to the list of fans that make up the zone by moving the * fan object into the list. */ void addFan(std::unique_ptr fan); /** * Sets all fans in the zone to the target given when the zone is active * * @param[in] target - Target for fans */ void setTarget(uint64_t target); /** * Add a target lock for the specified fan. * * @param[in] fname - Fan to request/add the target lock * @param[in] target - Target to register */ void lockFanTarget(const std::string& fname, uint64_t target); /** * Remove target lock for specific fan. * * @param[in] fname - Fan to remove lock from * @param[in] target- Target to de-register */ void unlockFanTarget(const std::string& fname, uint64_t target); /** * Sets and holds all fans in the zone to the target given or releases a * target hold resulting in the fans being held at the highest remaining * hold target if other hold targets had been requested. When no hold * targets exist, the zone returns to being active. * * @param[in] ident - Unique identifier for a target hold * @param[in] target - Target to hold fans at * @param[in] hold - Whether to hold(true) or release(false) a target hold */ void setTargetHold(const std::string& ident, uint64_t target, bool hold); /** * @brief Set the floor to the given target and increase target to the floor * when the target is below the floor value when floor changes are allowed. * * @param[in] target - Target to set the floor to */ void setFloor(uint64_t target); /** * Sets and holds the floor of the zone to the target given or releases a * floor hold resulting in the fans being held at the highest remaining * hold target if other floor hold targets had been requested. When no hold * targets exist, the floor gets set to the default floor value. * * @param[in] ident - Unique identifier for a floor hold * @param[in] target - Floor value * @param[in] hold - Whether to hold(true) or release(false) a hold */ void setFloorHold(const std::string& ident, uint64_t target, bool hold); /** * @brief Set the default floor to the given value * * @param[in] value - Value to set the default floor to */ inline void setDefaultFloor(uint64_t value) { _defaultFloor = value; } /** * @brief Sets the floor change allowed state * * @param[in] ident - An identifier that affects floor changes * @param[in] isAllow - Allow state according to the identifier */ inline void setFloorChangeAllow(const std::string& ident, bool isAllow) { _floorChange[ident] = isAllow; } /** * @brief Sets the decrease allowed state of a group * * @param[in] ident - An identifier that affects speed decreases * @param[in] isAllow - Allow state according to the identifier */ inline void setDecreaseAllow(const std::string& ident, bool isAllow) { _decAllowed[ident] = isAllow; } /** * @brief Calculate the requested target from the given delta and increases * the fans, not going above the ceiling. * * @param[in] targetDelta - The delta to increase the target by */ void requestIncrease(uint64_t targetDelta); /** * @brief Callback function for the increase timer that delays * processing of requested target increases while fans are increasing */ void incTimerExpired(); /** * @brief Calculate the lowest requested decrease target from the given * delta within a decrease interval. * * @param[in] targetDelta - The delta to decrease the target by */ void requestDecrease(uint64_t targetDelta); /** * @brief Callback function for the decrease timer that processes any * requested target decreases if allowed */ void decTimerExpired(); /** * @brief Set the requested target base to be used as the target to base a * new requested target from * * @param[in] targetBase - Base target value to use */ inline void setRequestTargetBase(uint64_t targetBase) { _requestTargetBase = targetBase; }; /** * @brief Set a property to be persisted * * @param[in] intf - Interface containing property * @param[in] prop - Property to be persisted */ void setPersisted(const std::string& intf, const std::string& prop); /** * @brief Is the property persisted * * @param[in] intf - Interface containing property * @param[in] prop - Property to check if persisted * * @return - True if property is to be persisted, false otherwise */ bool isPersisted(const std::string& intf, const std::string& prop) const; /** * @brief A handler function to set/update a property on a zone * @details Sets or updates a zone's dbus property to the given value using * the provided base dbus object's set property function * * @param[in] intf - Interface on zone object * @param[in] prop - Property on interface * @param[in] func - Zone dbus object's set property function pointer * @param[in] value - Value to set property to * @param[in] persist - Persist property value or not * * @return Lambda function * A lambda function to set/update the zone dbus object's property */ template static auto setProperty(const char* intf, const char* prop, T (DBusZone::*func)(T), T&& value, bool persist) { return [=, value = std::forward(value)](DBusZone& dbusZone, Zone& zone) { (dbusZone.*func)(value); if (persist) { zone.setPersisted(intf, prop); } }; } /** * @brief A handler function to set/update a zone's dbus property's persist * state * @details Sets or updates a zone's dbus property's persist state where the * value of the property is to be left unchanged * * @param[in] intf - Interface on zone object * @param[in] prop - Property on interface * @param[in] persist - Persist property value or not * * @return Lambda function * A lambda function to set/update the zone's dbus object's property's * persist state */ static auto setPropertyPersist(const char* intf, const char* prop, bool persist) { return [=](DBusZone&, Zone& zone) { if (persist) { zone.setPersisted(intf, prop); } }; } /** * @brief Dump the attributes into JSON * * @return json - JSON object with the attributes */ json dump() const; private: /* The zone's associated dbus object */ std::unique_ptr _dbusZone; /* The zone's manager */ Manager* _manager; /* The zone's poweron target value for fans */ uint64_t _poweronTarget; /* The zone's default ceiling value for fans */ uint64_t _defaultCeiling; /* The zone's default floor value for fans */ uint64_t _defaultFloor; /* Zone's increase delay(in seconds) (OPTIONAL) */ std::chrono::seconds _incDelay; /* Zone's decrease interval(in seconds) (OPTIONAL) */ std::chrono::seconds _decInterval; /* The floor target to not go below */ uint64_t _floor; /* Target for this zone */ uint64_t _target; /* Zone increase delta */ uint64_t _incDelta; /* Zone decrease delta */ uint64_t _decDelta; /* The ceiling target to not go above */ uint64_t _ceiling; /* Requested target base */ uint64_t _requestTargetBase; /* Map of whether floor changes are allowed by a string identifier */ std::map _floorChange; /* Map of controlling decreases allowed by a string identifer */ std::map _decAllowed; /* Map of interfaces to persisted properties the zone hosts*/ std::map> _propsPersisted; /* Automatic fan control active state */ bool _isActive; /* The target increase timer object */ Timer _incTimer; /* The target decrease timer object */ Timer _decTimer; /* Map of target holds by a string identifier */ std::unordered_map _targetHolds; /* Map of floor holds by a string identifier */ std::unordered_map _floorHolds; /* Interface to property mapping of their associated set property handler * function */ static const std::map< std::string, std::map(const json&, bool)>>> _intfPropHandlers; /* List of fans included in this zone */ std::vector> _fans; /* List of configured interface set property functions */ std::vector> _propInitFunctions; /** * @brief Parse and set the zone's poweron target value * * @param[in] jsonObj - JSON object for the zone * * Sets the poweron target value for the zone from the JSON configuration * object */ void setPowerOnTarget(const json& jsonObj); /** * @brief Parse and set the interfaces served by the zone(OPTIONAL) * * @param[in] jsonObj - JSON object for the zone * * Constructs any zone interface handler functions for interfaces that the * zone serves which contains the interface's property's value and * persistency state (OPTIONAL). A property's "persist" state is defaulted * to not be persisted when not given. */ void setInterfaces(const json& jsonObj); /** * @brief Get the request target base if defined, otherwise the the current * target is returned * * @return - The request target base or current target */ inline auto getRequestTargetBase() const { return (_requestTargetBase != 0) ? _requestTargetBase : _target; }; }; /** * Properties of interfaces supported by the zone configuration */ namespace zone::property { /** * @brief "Supported" property on the "xyz.openbmc_project.Control.ThermalMode" * interface parser. Also creates the handler function for the Zone dbus object * to initialize the property according to what's parsed from the configuration. * * @param[in] jsonObj - JSON object for the "Supported" property * @param[in] persist - Whether to persist the value or not * * @return Zone dbus object's set property function for the "Supported" property */ std::function supported(const json& jsonObj, bool persist); /** * @brief "Current" property on the "xyz.openbmc_project.Control.ThermalMode" * interface parser. Also creates the handler function for the Zone dbus object * to initialize the property according to what's parsed from the configuration. * * @param[in] jsonObj - JSON object for the "Current" property * @param[in] persist - Whether to persist the value or not * * @return Zone dbus object's set property function for the "Current" property */ std::function current(const json& jsonObj, bool persist); } // namespace zone::property } // namespace phosphor::fan::control::json