timer.hpp - openbmc/phosphor-watchdog - Gitiles

 #pragma once

 #include <memory>
 #include <chrono>
 #include <systemd/sd-event.h>
 namespace phosphor
 {
 namespace watchdog
 {

 /* Need a custom deleter for freeing up sd_event */
 struct EventDeleter
 {
     void operator()(sd_event* event) const
     {
         event = sd_event_unref(event);
     }
 };
 using EventPtr = std::unique_ptr<sd_event, EventDeleter>;

 /* Need a custom deleter for freeing up sd_event_source */
 struct EventSourceDeleter
 {
     void operator()(sd_event_source* eventSource) const
     {
         eventSource = sd_event_source_unref(eventSource);
     }
 };
 using EventSourcePtr = std::unique_ptr<sd_event_source, EventSourceDeleter>;

 /** @class Timer
  *  @brief Manages starting timers and handling timeouts
  */
 class Timer
 {
     public:
         Timer() = delete;
         ~Timer() = default;
         Timer(const Timer&) = delete;
         Timer& operator=(const Timer&) = delete;
         Timer(Timer&&) = delete;
         Timer& operator=(Timer&&) = delete;

         /** @brief Constructs timer object
          *
          *  @param[in] event        - sd_event unique pointer
          *  @param[in] userCallBack - Optional function callback
          *                            for timer expiration
          */
         Timer(EventPtr& event,
               std::function<void()> userCallBack = nullptr)
             : event(event),
               userCallBack(userCallBack)
         {
             // Initialize the timer
             initialize();
         }

         /** @brief Tells whether the timer is expired or not */
         inline auto expired() const
         {
             return expire;
         }

         /** @brief Returns the current Timer enablement type */
         int getEnabled() const;

         /** @brief Enables / disables the timer.
          *         <T> is an integral constant boolean
          */
         template <typename T> void setEnabled()
         {
             constexpr auto type = T::value ? SD_EVENT_ONESHOT : SD_EVENT_OFF;
             return setEnabled(type);
         }

         /** @brief Returns time remaining in usec before expiration
          *         which is an offset to current steady clock
          */
         std::chrono::microseconds getRemaining() const;

         /** @brief Starts the timer with specified expiration value.
          *         std::steady_clock is used for base time.
          *
          *  @param[in] usec - Microseconds from the current time
          *                    before expiration.
          *
          *  @return None.
          *
          *  @error Throws exception
          */
         void start(std::chrono::microseconds usec);

         /** @brief Gets the current time from steady clock */
         static std::chrono::microseconds getCurrentTime();

     private:
         /** @brief Reference to sd_event unique pointer */
         EventPtr& event;

         /** @brief event source */
         EventSourcePtr eventSource;

         /** @brief Set to true when the timeoutHandler is called into */
         bool expire = false;

         /** @brief Optional function to call on timer expiration
          *         This is called from timeout handler.
          */
         std::function<void()> userCallBack;

         /** @brief Initializes the timer object with infinite
          *         expiration time and sets up the callback handler
          *
          *  @return None.
          *
          *  @error Throws exception
          */
         void initialize();

         /** @brief Callback function when timer goes off
          *
          *  @param[in] eventSource - Source of the event
          *  @param[in] usec        - time in microseconds
          *  @param[in] userData    - User data pointer
          *
          */
         static int timeoutHandler(sd_event_source* eventSource,
                                   uint64_t usec, void* userData);

         /** @brief Enables / disables the timer
          *
          *  @param[in] type - Timer type.
          *                    This implementation uses only SD_EVENT_OFF
          *                    and SD_EVENT_ONESHOT
          */
         void setEnabled(int type);
 };

 } // namespace watchdog
 } // namespace phosphor
	#pragma once

	#include <memory>
	#include <chrono>
	#include <systemd/sd-event.h>
	namespace phosphor
	{
	namespace watchdog
	{

	/* Need a custom deleter for freeing up sd_event */
	struct EventDeleter
	{
	void operator()(sd_event* event) const
	{
	event = sd_event_unref(event);
	}
	};
	using EventPtr = std::unique_ptr<sd_event, EventDeleter>;

	/* Need a custom deleter for freeing up sd_event_source */
	struct EventSourceDeleter
	{
	void operator()(sd_event_source* eventSource) const
	{
	eventSource = sd_event_source_unref(eventSource);
	}
	};
	using EventSourcePtr = std::unique_ptr<sd_event_source, EventSourceDeleter>;

	/** @class Timer
	* @brief Manages starting timers and handling timeouts
	*/
	class Timer
	{
	public:
	Timer() = delete;
	~Timer() = default;
	Timer(const Timer&) = delete;
	Timer& operator=(const Timer&) = delete;
	Timer(Timer&&) = delete;
	Timer& operator=(Timer&&) = delete;

	/** @brief Constructs timer object
	*
	* @param[in] event - sd_event unique pointer
	* @param[in] userCallBack - Optional function callback
	* for timer expiration
	*/
	Timer(EventPtr& event,
	std::function<void()> userCallBack = nullptr)
	: event(event),
	userCallBack(userCallBack)
	{
	// Initialize the timer
	initialize();
	}

	/** @brief Tells whether the timer is expired or not */
	inline auto expired() const
	{
	return expire;
	}

	/** @brief Returns the current Timer enablement type */
	int getEnabled() const;

	/** @brief Enables / disables the timer.
	* <T> is an integral constant boolean
	*/
	template <typename T> void setEnabled()
	{
	constexpr auto type = T::value ? SD_EVENT_ONESHOT : SD_EVENT_OFF;
	return setEnabled(type);
	}

	/** @brief Returns time remaining in usec before expiration
	* which is an offset to current steady clock
	*/
	std::chrono::microseconds getRemaining() const;

	/** @brief Starts the timer with specified expiration value.
	* std::steady_clock is used for base time.
	*
	* @param[in] usec - Microseconds from the current time
	* before expiration.
	*
	* @return None.
	*
	* @error Throws exception
	*/
	void start(std::chrono::microseconds usec);

	/** @brief Gets the current time from steady clock */
	static std::chrono::microseconds getCurrentTime();

	private:
	/** @brief Reference to sd_event unique pointer */
	EventPtr& event;

	/** @brief event source */
	EventSourcePtr eventSource;

	/** @brief Set to true when the timeoutHandler is called into */
	bool expire = false;

	/** @brief Optional function to call on timer expiration
	* This is called from timeout handler.
	*/
	std::function<void()> userCallBack;

	/** @brief Initializes the timer object with infinite
	* expiration time and sets up the callback handler
	*
	* @return None.
	*
	* @error Throws exception
	*/
	void initialize();

	/** @brief Callback function when timer goes off
	*
	* @param[in] eventSource - Source of the event
	* @param[in] usec - time in microseconds
	* @param[in] userData - User data pointer
	*
	*/
	static int timeoutHandler(sd_event_source* eventSource,
	uint64_t usec, void* userData);

	/** @brief Enables / disables the timer
	*
	* @param[in] type - Timer type.
	* This implementation uses only SD_EVENT_OFF
	* and SD_EVENT_ONESHOT
	*/
	void setEnabled(int type);
	};

	} // namespace watchdog
	} // namespace phosphor