timer.hpp - openbmc/witherspoon-pfault-analysis - Gitiles

 #pragma once

 #include <chrono>
 #include <functional>
 #include <memory>
 #include "event.hpp"

 namespace witherspoon
 {
 namespace power
 {


 /**
  * @class Timer
  *
  * This class implements a simple timer that runs an arbitrary
  * function on expiration.  The timeout value is set in microseconds.
  * It can be stopped while it is running, and queried to see if it is
  * running.
  *
  * If started with the 'repeating' argument, it will keep calling the
  * callback function every <timeout> microseconds.  If started with the
  * 'oneshot' argument, it will just call the callback function one time.
  *
  * It needs an sd_event loop to function.
  */
 class Timer
 {
     public:

         enum class TimerType
         {
             oneshot,
             repeating
         };

         Timer() = delete;
         Timer(const Timer&) = delete;
         Timer& operator=(const Timer&) = delete;
         Timer(Timer&&) = default;
         Timer& operator=(Timer&&) = default;

         /**
          * @brief Constructs timer object
          *
          * @param[in] events - sd_event pointer, previously created
          * @param[in] callbackFunc - The function to call on timer expiration
          */
         Timer(event::Event& events,
               std::function<void()> callbackFunc);

         /**
          * @brief Destructor
          */
         ~Timer();

         /**
          * @brief Starts the timer
          *
          * The input is an offset from the current steady clock.
          *
          * @param[in] usec - the timeout value in microseconds
          * @param[in] type - either a oneshot, or repeating
          */
         void start(std::chrono::microseconds usec,
                    TimerType type = TimerType::oneshot);

         /**
          * @brief Stop the timer
          */
         void stop();

         /**
          * @brief Returns true if the timer is running
          */
         bool running();

         /**
          * @brief Returns the timeout value
          *
          * @return - the last value sent in via start().
          */
          inline auto getTimeout() const
          {
             return timeout;
          }

         /**
          * @brief Returns the timer type
          */
         inline auto getType() const
         {
             return type;
         }

     private:

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

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

         /**
          * @brief Wrapper around sd_event_source_set_enabled
          *
          * @param[in] action - either SD_EVENT_OFF, SD_EVENT_ON,
          *                     or SD_EVENT_ONESHOT
          */
         void setTimer(int action);


         /**
          * @brief Sets the expiration time for the timer
          *
          * Sets it to timeout microseconds in the future
          */
         void setTimeout();

         /**
          * @brief The sd_event structure
          */
         event::Event& timeEvent;

         /**
          * @brief Source of events
          */
         event::EventSource eventSource;

         /**
          * @brief Either 'repeating' or 'oneshot'
          */
         TimerType type = TimerType::oneshot;

         /**
          * @brief The function to call when the timer expires
          */
         std::function<void()> callback;

         /**
          * @brief What the timer was set to run for
          *
          * Not cleared on timer expiration
          */
         std::chrono::microseconds timeout;
 };

 }
 }
	#pragma once

	#include <chrono>
	#include <functional>
	#include <memory>
	#include "event.hpp"

	namespace witherspoon
	{
	namespace power
	{


	/**
	* @class Timer
	*
	* This class implements a simple timer that runs an arbitrary
	* function on expiration. The timeout value is set in microseconds.
	* It can be stopped while it is running, and queried to see if it is
	* running.
	*
	* If started with the 'repeating' argument, it will keep calling the
	* callback function every <timeout> microseconds. If started with the
	* 'oneshot' argument, it will just call the callback function one time.
	*
	* It needs an sd_event loop to function.
	*/
	class Timer
	{
	public:

	enum class TimerType
	{
	oneshot,
	repeating
	};

	Timer() = delete;
	Timer(const Timer&) = delete;
	Timer& operator=(const Timer&) = delete;
	Timer(Timer&&) = default;
	Timer& operator=(Timer&&) = default;

	/**
	* @brief Constructs timer object
	*
	* @param[in] events - sd_event pointer, previously created
	* @param[in] callbackFunc - The function to call on timer expiration
	*/
	Timer(event::Event& events,
	std::function<void()> callbackFunc);

	/**
	* @brief Destructor
	*/
	~Timer();

	/**
	* @brief Starts the timer
	*
	* The input is an offset from the current steady clock.
	*
	* @param[in] usec - the timeout value in microseconds
	* @param[in] type - either a oneshot, or repeating
	*/
	void start(std::chrono::microseconds usec,
	TimerType type = TimerType::oneshot);

	/**
	* @brief Stop the timer
	*/
	void stop();

	/**
	* @brief Returns true if the timer is running
	*/
	bool running();

	/**
	* @brief Returns the timeout value
	*
	* @return - the last value sent in via start().
	*/
	inline auto getTimeout() const
	{
	return timeout;
	}

	/**
	* @brief Returns the timer type
	*/
	inline auto getType() const
	{
	return type;
	}

	private:

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

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

	/**
	* @brief Wrapper around sd_event_source_set_enabled
	*
	* @param[in] action - either SD_EVENT_OFF, SD_EVENT_ON,
	* or SD_EVENT_ONESHOT
	*/
	void setTimer(int action);


	/**
	* @brief Sets the expiration time for the timer
	*
	* Sets it to timeout microseconds in the future
	*/
	void setTimeout();

	/**
	* @brief The sd_event structure
	*/
	event::Event& timeEvent;

	/**
	* @brief Source of events
	*/
	event::EventSource eventSource;

	/**
	* @brief Either 'repeating' or 'oneshot'
	*/
	TimerType type = TimerType::oneshot;

	/**
	* @brief The function to call when the timer expires
	*/
	std::function<void()> callback;

	/**
	* @brief What the timer was set to run for
	*
	* Not cleared on timer expiration
	*/
	std::chrono::microseconds timeout;
	};

	}
	}