physical.hpp - openbmc/phosphor-led-sysfs - Gitiles

 #pragma once

 #include <string>
 #include <fstream>
 #include <sdbusplus/bus.hpp>
 #include <sdbusplus/server/object.hpp>
 #include <xyz/openbmc_project/Led/Physical/server.hpp>
 namespace phosphor
 {
 namespace led
 {
 /** @brief Acts as input and output file for the current LED power state.
  *   Write "0" to trigger a LED OFF operation.
  *   Write "255" to trigger a LED ON operation.
  *   To know the current power state of the LED, a read on this
  *   would give either 0 or 255 indicating if the LED is currently
  *   Off / On AT THAT moment.
  *   Example: /sys/class/leds/myled/brightness
  */
 constexpr auto BRIGHTNESS = "/brightness";

 /** @brief Assert LED by writing 255 */
 constexpr auto ASSERT = "255";

 /** @brief De-assert by writing "0" */
 constexpr auto DEASSERT = "0";

 /** @brief Write "timer" to this file telling the driver that
  *   the intended operation is BLINK. When the value "timer" is written to
  *   the file, 2 more files get auto generated and are named "delay_on" and
  *   "delay_off"
  *   To move away from blinking, write "none"
  *   Example:  /sys/class/leds/myled/trigger
  */
 constexpr auto BLINKCTRL = "/trigger";

 /** @brief write number of milliseconds that the LED needs to be ON
  *   while blinking. Default is 500 by the driver.
  *   Example:  /sys/class/leds/myled/delay_on
  */
 constexpr auto DELAYON = "/delay_on";

 /** @brief Write number of milliseconds that the LED needs to be OFF
  *   while blinking. Default is 500 by the driver.
  *   Example:  /sys/class/leds/myled/delay_off
  */
 constexpr auto DELAYOFF = "/delay_off";

 /** @class Physical
  *  @brief Responsible for applying actions on a particular physical LED
  */
 class Physical : public sdbusplus::server::object::object<
     sdbusplus::xyz::openbmc_project::Led::server::Physical>
 {
     public:
         Physical() = delete;
         ~Physical() = default;
         Physical(const Physical&) = delete;
         Physical& operator=(const Physical&) = delete;
         Physical(Physical&&) = delete;
         Physical& operator=(Physical&&) = delete;

         /** @brief Constructs LED object. Argument 'true' says that we hold off
          *   from sending the signals since we need to do some house keeping and
          *   only when we finish that, we are considered active and can then
          *   broadcast the signal.
          *
          * @param[in] bus       - system dbus handler
          * @param[in] objPath   - The Dbus path that hosts physical LED
          * @param[in] ledPath   - sysfs path where this LED is exported
          */
         Physical(sdbusplus::bus::bus& bus,
                 const std::string& objPath,
                 const std::string& ledPath) :

             sdbusplus::server::object::object<
                 sdbusplus::xyz::openbmc_project::Led::server::Physical>(
                         bus, objPath.c_str(), true),
             path(ledPath)
         {
             // Suppose this is getting launched as part of BMC reboot, then we
             // need to save what the micro-controller currently has.
             setInitialState();

             // We are now ready.
             emit_object_added();
         }

         /** @brief Overloaded State Property Setter function
          *
          *  @param[in] value   -  One of OFF / ON / BLINK
          *  @return            -  Success or exception thrown
          */
         Action state(Action value) override;

     private:
         /** @brief File system location where this LED is exposed
          *   Typically /sys/class/leds/<Led-Name>
          */
         std::string path;

         /** @brief Frequency range that the LED can operate on.
          *  Will be removed when frequency is put into interface
          */
         uint32_t frequency;

         /** @brief Brightness described above */
         std::string brightCtrl;

         /** @brief BlinkCtrl described above */
         std::string blinkCtrl;

         /** @brief delay_on described above */
         std::string delayOnCtrl;

         /** @brief delay_ff described above */
         std::string delayOffCtrl;

         /** @brief reads sysfs and then setsup the parameteres accordingly
          *
          *  @return None
          */
         void setInitialState();

         /** @brief Applies the user triggered action on the LED
          *   by writing to sysfs
          *
          *  @param [in] current - Current state of LED
          *  @param [in] request - Requested state
          *
          *  @return None
          */
         void driveLED(Action current, Action request);

         /** @brief Sets the LED to either ON or OFF state
          *
          *  @param [in] action - Requested action. Could be OFF or ON
          *  @return None
          */
         void stableStateOperation(Action action);

         /** @brief Sets the LED to BLINKING
          *
          *  @return None
          */
         void blinkOperation();

         /** @brief Generic file writer.
          *   There are files like "brightness", "trigger" , "delay_on" and
          *   "delay_off" that will tell what the LED driver needs to do.
          *
          *  @param[in] filename - Name of file to be written
          *  @param[in] data     - Data to be written to
          *  @return             - None
          */
         template <typename T>
         auto write(const std::string& fileName, T&& data)
         {
             if(std::ifstream(fileName))
             {
                 std::ofstream file(fileName, std::ios::out);
                 file << data;
                 file.close();
             }
             return;
         }

         /** @brief Generic file reader.
          *   There are files like "brightness", "trigger" , "delay_on" and
          *   "delay_off" that will tell what the LED driver needs to do.
          *
          *  @param[in] filename - Name of file to be read
          *  @return             - File content
          */
         template <typename T>
         T read(const std::string& fileName)
         {
             T data = T();
             if(std::ifstream(fileName))
             {
                 std::ifstream file(fileName, std::ios::in);
                 file >> data;
                 file.close();
             }
             return data;
         }
 };

 } // namespace led
 }
	#pragma once

	#include <string>
	#include <fstream>
	#include <sdbusplus/bus.hpp>
	#include <sdbusplus/server/object.hpp>
	#include <xyz/openbmc_project/Led/Physical/server.hpp>
	namespace phosphor
	{
	namespace led
	{
	/** @brief Acts as input and output file for the current LED power state.
	* Write "0" to trigger a LED OFF operation.
	* Write "255" to trigger a LED ON operation.
	* To know the current power state of the LED, a read on this
	* would give either 0 or 255 indicating if the LED is currently
	* Off / On AT THAT moment.
	* Example: /sys/class/leds/myled/brightness
	*/
	constexpr auto BRIGHTNESS = "/brightness";

	/** @brief Assert LED by writing 255 */
	constexpr auto ASSERT = "255";

	/** @brief De-assert by writing "0" */
	constexpr auto DEASSERT = "0";

	/** @brief Write "timer" to this file telling the driver that
	* the intended operation is BLINK. When the value "timer" is written to
	* the file, 2 more files get auto generated and are named "delay_on" and
	* "delay_off"
	* To move away from blinking, write "none"
	* Example: /sys/class/leds/myled/trigger
	*/
	constexpr auto BLINKCTRL = "/trigger";

	/** @brief write number of milliseconds that the LED needs to be ON
	* while blinking. Default is 500 by the driver.
	* Example: /sys/class/leds/myled/delay_on
	*/
	constexpr auto DELAYON = "/delay_on";

	/** @brief Write number of milliseconds that the LED needs to be OFF
	* while blinking. Default is 500 by the driver.
	* Example: /sys/class/leds/myled/delay_off
	*/
	constexpr auto DELAYOFF = "/delay_off";

	/** @class Physical
	* @brief Responsible for applying actions on a particular physical LED
	*/
	class Physical : public sdbusplus::server::object::object<
	sdbusplus::xyz::openbmc_project::Led::server::Physical>
	{
	public:
	Physical() = delete;
	~Physical() = default;
	Physical(const Physical&) = delete;
	Physical& operator=(const Physical&) = delete;
	Physical(Physical&&) = delete;
	Physical& operator=(Physical&&) = delete;

	/** @brief Constructs LED object. Argument 'true' says that we hold off
	* from sending the signals since we need to do some house keeping and
	* only when we finish that, we are considered active and can then
	* broadcast the signal.
	*
	* @param[in] bus - system dbus handler
	* @param[in] objPath - The Dbus path that hosts physical LED
	* @param[in] ledPath - sysfs path where this LED is exported
	*/
	Physical(sdbusplus::bus::bus& bus,
	const std::string& objPath,
	const std::string& ledPath) :

	sdbusplus::server::object::object<
	sdbusplus::xyz::openbmc_project::Led::server::Physical>(
	bus, objPath.c_str(), true),
	path(ledPath)
	{
	// Suppose this is getting launched as part of BMC reboot, then we
	// need to save what the micro-controller currently has.
	setInitialState();

	// We are now ready.
	emit_object_added();
	}

	/** @brief Overloaded State Property Setter function
	*
	* @param[in] value - One of OFF / ON / BLINK
	* @return - Success or exception thrown
	*/
	Action state(Action value) override;

	private:
	/** @brief File system location where this LED is exposed
	* Typically /sys/class/leds/<Led-Name>
	*/
	std::string path;

	/** @brief Frequency range that the LED can operate on.
	* Will be removed when frequency is put into interface
	*/
	uint32_t frequency;

	/** @brief Brightness described above */
	std::string brightCtrl;

	/** @brief BlinkCtrl described above */
	std::string blinkCtrl;

	/** @brief delay_on described above */
	std::string delayOnCtrl;

	/** @brief delay_ff described above */
	std::string delayOffCtrl;

	/** @brief reads sysfs and then setsup the parameteres accordingly
	*
	* @return None
	*/
	void setInitialState();

	/** @brief Applies the user triggered action on the LED
	* by writing to sysfs
	*
	* @param [in] current - Current state of LED
	* @param [in] request - Requested state
	*
	* @return None
	*/
	void driveLED(Action current, Action request);

	/** @brief Sets the LED to either ON or OFF state
	*
	* @param [in] action - Requested action. Could be OFF or ON
	* @return None
	*/
	void stableStateOperation(Action action);

	/** @brief Sets the LED to BLINKING
	*
	* @return None
	*/
	void blinkOperation();

	/** @brief Generic file writer.
	* There are files like "brightness", "trigger" , "delay_on" and
	* "delay_off" that will tell what the LED driver needs to do.
	*
	* @param[in] filename - Name of file to be written
	* @param[in] data - Data to be written to
	* @return - None
	*/
	template <typename T>
	auto write(const std::string& fileName, T&& data)
	{
	if(std::ifstream(fileName))
	{
	std::ofstream file(fileName, std::ios::out);
	file << data;
	file.close();
	}
	return;
	}

	/** @brief Generic file reader.
	* There are files like "brightness", "trigger" , "delay_on" and
	* "delay_off" that will tell what the LED driver needs to do.
	*
	* @param[in] filename - Name of file to be read
	* @return - File content
	*/
	template <typename T>
	T read(const std::string& fileName)
	{
	T data = T();
	if(std::ifstream(fileName))
	{
	std::ifstream file(fileName, std::ios::in);
	file >> data;
	file.close();
	}
	return data;
	}
	};

	} // namespace led
	}