requester/request.hpp - openbmc/pldm - Gitiles

 #pragma once

 #include "common/flight_recorder.hpp"
 #include "common/transport.hpp"
 #include "common/types.hpp"
 #include "common/utils.hpp"

 #include <libpldm/base.h>
 #include <sys/socket.h>

 #include <phosphor-logging/lg2.hpp>
 #include <sdbusplus/timer.hpp>
 #include <sdeventplus/event.hpp>

 #include <chrono>
 #include <functional>
 #include <iostream>

 PHOSPHOR_LOG2_USING;

 namespace pldm
 {
 namespace requester
 {
 /** @class RequestRetryTimer
  *
  *  The abstract base class for implementing the PLDM request retry logic. This
  *  class handles number of times the PLDM request needs to be retried if the
  *  response is not received and the time to wait between each retry. It
  *  provides APIs to start and stop the request flow.
  */
 class RequestRetryTimer
 {
   public:
     RequestRetryTimer() = delete;
     RequestRetryTimer(const RequestRetryTimer&) = delete;
     RequestRetryTimer(RequestRetryTimer&&) = delete;
     RequestRetryTimer& operator=(const RequestRetryTimer&) = delete;
     RequestRetryTimer& operator=(RequestRetryTimer&&) = delete;
     virtual ~RequestRetryTimer() = default;

     /** @brief Constructor
      *
      *  @param[in] event - reference to PLDM daemon's main event loop
      *  @param[in] numRetries - number of request retries
      *  @param[in] timeout - time to wait between each retry in milliseconds
      */
     explicit RequestRetryTimer(sdeventplus::Event& event, uint8_t numRetries,
                                std::chrono::milliseconds timeout) :

         event(event),
         numRetries(numRetries), timeout(timeout),
         timer(event.get(), std::bind_front(&RequestRetryTimer::callback, this))
     {}

     /** @brief Starts the request flow and arms the timer for request retries
      *
      *  @return return PLDM_SUCCESS on success and PLDM_ERROR otherwise
      */
     int start()
     {
         auto rc = send();
         if (rc)
         {
             return rc;
         }

         try
         {
             if (numRetries)
             {
                 timer.start(duration_cast<std::chrono::microseconds>(timeout),
                             true);
             }
         }
         catch (const std::runtime_error& e)
         {
             error("Failed to start the request timer. RC = {ERR_EXCEP}",
                   "ERR_EXCEP", e.what());
             return PLDM_ERROR;
         }

         return PLDM_SUCCESS;
     }

     /** @brief Stops the timer and no further request retries happen */
     void stop()
     {
         auto rc = timer.stop();
         if (rc)
         {
             error("Failed to stop the request timer. RC = {RC}", "RC",
                   static_cast<int>(rc));
         }
     }

   protected:
     sdeventplus::Event& event; //!< reference to PLDM daemon's main event loop
     uint8_t numRetries;        //!< number of request retries
     std::chrono::milliseconds
         timeout;           //!< time to wait between each retry in milliseconds
     phosphor::Timer timer; //!< manages starting timers and handling timeouts

     /** @brief Sends the PLDM request message
      *
      *  @return return PLDM_SUCCESS on success and PLDM_ERROR otherwise
      */
     virtual int send() const = 0;

     /** @brief Callback function invoked when the timeout happens */
     void callback()
     {
         if (numRetries--)
         {
             send();
         }
         else
         {
             stop();
         }
     }
 };

 /** @class Request
  *
  *  The concrete implementation of RequestIntf. This class implements the send()
  *  to send the PLDM request message over MCTP socket.
  *  This class encapsulates the PLDM request message, the number of times the
  *  request needs to retried if the response is not received and the amount of
  *  time to wait between each retry. It provides APIs to start and stop the
  *  request flow.
  */
 class Request final : public RequestRetryTimer
 {
   public:
     Request() = delete;
     Request(const Request&) = delete;
     Request(Request&&) = delete;
     Request& operator=(const Request&) = delete;
     Request& operator=(Request&&) = delete;
     ~Request() = default;

     /** @brief Constructor
      *
      *  @param[in] pldm_transport - PLDM transport object
      *  @param[in] eid - endpoint ID of the remote MCTP endpoint
      *  @param[in] currrentSendbuffSize - the current send buffer size
      *  @param[in] event - reference to PLDM daemon's main event loop
      *  @param[in] requestMsg - PLDM request message
      *  @param[in] numRetries - number of request retries
      *  @param[in] timeout - time to wait between each retry in milliseconds
      *  @param[in] verbose - verbose tracing flag
      */
     explicit Request(PldmTransport* pldmTransport, mctp_eid_t eid,
                      sdeventplus::Event& event, pldm::Request&& requestMsg,
                      uint8_t numRetries, std::chrono::milliseconds timeout,
                      bool verbose) :
         RequestRetryTimer(event, numRetries, timeout),
         pldmTransport(pldmTransport), eid(eid),
         requestMsg(std::move(requestMsg)), verbose(verbose)
     {}

   private:
     PldmTransport* pldmTransport; //!< PLDM transport
     mctp_eid_t eid;               //!< endpoint ID of the remote MCTP endpoint
     pldm::Request requestMsg;     //!< PLDM request message
     bool verbose;                 //!< verbose tracing flag

     /** @brief Sends the PLDM request message on the socket
      *
      *  @return return PLDM_SUCCESS on success and PLDM_ERROR otherwise
      */
     int send() const
     {
         if (verbose)
         {
             pldm::utils::printBuffer(pldm::utils::Tx, requestMsg);
         }
         pldm::flightrecorder::FlightRecorder::GetInstance().saveRecord(
             requestMsg, true);
         const struct pldm_msg_hdr* hdr =
             (struct pldm_msg_hdr*)(requestMsg.data());
         if (!hdr->request)
         {
             return PLDM_REQUESTER_NOT_REQ_MSG;
         }

         if (pldmTransport == nullptr)
         {
             error("Invalid transport: Unable to send PLDM request");
             return PLDM_ERROR;
         }

         auto rc = pldmTransport->sendMsg(static_cast<pldm_tid_t>(eid),
                                          requestMsg.data(), requestMsg.size());
         if (rc < 0)
         {
             error("Failed to send PLDM message. RC = {RC}, errno = {ERR}", "RC",
                   static_cast<int>(rc), "ERR", errno);
             return PLDM_ERROR;
         }
         return PLDM_SUCCESS;
     }
 };

 } // namespace requester

 } // namespace pldm
	#pragma once

	#include "common/flight_recorder.hpp"
	#include "common/transport.hpp"
	#include "common/types.hpp"
	#include "common/utils.hpp"

	#include <libpldm/base.h>
	#include <sys/socket.h>

	#include <phosphor-logging/lg2.hpp>
	#include <sdbusplus/timer.hpp>
	#include <sdeventplus/event.hpp>

	#include <chrono>
	#include <functional>
	#include <iostream>

	PHOSPHOR_LOG2_USING;

	namespace pldm
	{
	namespace requester
	{
	/** @class RequestRetryTimer
	*
	* The abstract base class for implementing the PLDM request retry logic. This
	* class handles number of times the PLDM request needs to be retried if the
	* response is not received and the time to wait between each retry. It
	* provides APIs to start and stop the request flow.
	*/
	class RequestRetryTimer
	{
	public:
	RequestRetryTimer() = delete;
	RequestRetryTimer(const RequestRetryTimer&) = delete;
	RequestRetryTimer(RequestRetryTimer&&) = delete;
	RequestRetryTimer& operator=(const RequestRetryTimer&) = delete;
	RequestRetryTimer& operator=(RequestRetryTimer&&) = delete;
	virtual ~RequestRetryTimer() = default;

	/** @brief Constructor
	*
	* @param[in] event - reference to PLDM daemon's main event loop
	* @param[in] numRetries - number of request retries
	* @param[in] timeout - time to wait between each retry in milliseconds
	*/
	explicit RequestRetryTimer(sdeventplus::Event& event, uint8_t numRetries,
	std::chrono::milliseconds timeout) :

	event(event),
	numRetries(numRetries), timeout(timeout),
	timer(event.get(), std::bind_front(&RequestRetryTimer::callback, this))
	{}

	/** @brief Starts the request flow and arms the timer for request retries
	*
	* @return return PLDM_SUCCESS on success and PLDM_ERROR otherwise
	*/
	int start()
	{
	auto rc = send();
	if (rc)
	{
	return rc;
	}

	try
	{
	if (numRetries)
	{
	timer.start(duration_cast<std::chrono::microseconds>(timeout),
	true);
	}
	}
	catch (const std::runtime_error& e)
	{
	error("Failed to start the request timer. RC = {ERR_EXCEP}",
	"ERR_EXCEP", e.what());
	return PLDM_ERROR;
	}

	return PLDM_SUCCESS;
	}

	/** @brief Stops the timer and no further request retries happen */
	void stop()
	{
	auto rc = timer.stop();
	if (rc)
	{
	error("Failed to stop the request timer. RC = {RC}", "RC",
	static_cast<int>(rc));
	}
	}

	protected:
	sdeventplus::Event& event; //!< reference to PLDM daemon's main event loop
	uint8_t numRetries; //!< number of request retries
	std::chrono::milliseconds
	timeout; //!< time to wait between each retry in milliseconds
	phosphor::Timer timer; //!< manages starting timers and handling timeouts

	/** @brief Sends the PLDM request message
	*
	* @return return PLDM_SUCCESS on success and PLDM_ERROR otherwise
	*/
	virtual int send() const = 0;

	/** @brief Callback function invoked when the timeout happens */
	void callback()
	{
	if (numRetries--)
	{
	send();
	}
	else
	{
	stop();
	}
	}
	};

	/** @class Request
	*
	* The concrete implementation of RequestIntf. This class implements the send()
	* to send the PLDM request message over MCTP socket.
	* This class encapsulates the PLDM request message, the number of times the
	* request needs to retried if the response is not received and the amount of
	* time to wait between each retry. It provides APIs to start and stop the
	* request flow.
	*/
	class Request final : public RequestRetryTimer
	{
	public:
	Request() = delete;
	Request(const Request&) = delete;
	Request(Request&&) = delete;
	Request& operator=(const Request&) = delete;
	Request& operator=(Request&&) = delete;
	~Request() = default;

	/** @brief Constructor
	*
	* @param[in] pldm_transport - PLDM transport object
	* @param[in] eid - endpoint ID of the remote MCTP endpoint
	* @param[in] currrentSendbuffSize - the current send buffer size
	* @param[in] event - reference to PLDM daemon's main event loop
	* @param[in] requestMsg - PLDM request message
	* @param[in] numRetries - number of request retries
	* @param[in] timeout - time to wait between each retry in milliseconds
	* @param[in] verbose - verbose tracing flag
	*/
	explicit Request(PldmTransport* pldmTransport, mctp_eid_t eid,
	sdeventplus::Event& event, pldm::Request&& requestMsg,
	uint8_t numRetries, std::chrono::milliseconds timeout,
	bool verbose) :
	RequestRetryTimer(event, numRetries, timeout),
	pldmTransport(pldmTransport), eid(eid),
	requestMsg(std::move(requestMsg)), verbose(verbose)
	{}

	private:
	PldmTransport* pldmTransport; //!< PLDM transport
	mctp_eid_t eid; //!< endpoint ID of the remote MCTP endpoint
	pldm::Request requestMsg; //!< PLDM request message
	bool verbose; //!< verbose tracing flag

	/** @brief Sends the PLDM request message on the socket
	*
	* @return return PLDM_SUCCESS on success and PLDM_ERROR otherwise
	*/
	int send() const
	{
	if (verbose)
	{
	pldm::utils::printBuffer(pldm::utils::Tx, requestMsg);
	}
	pldm::flightrecorder::FlightRecorder::GetInstance().saveRecord(
	requestMsg, true);
	const struct pldm_msg_hdr* hdr =
	(struct pldm_msg_hdr*)(requestMsg.data());
	if (!hdr->request)
	{
	return PLDM_REQUESTER_NOT_REQ_MSG;
	}

	if (pldmTransport == nullptr)
	{
	error("Invalid transport: Unable to send PLDM request");
	return PLDM_ERROR;
	}

	auto rc = pldmTransport->sendMsg(static_cast<pldm_tid_t>(eid),
	requestMsg.data(), requestMsg.size());
	if (rc < 0)
	{
	error("Failed to send PLDM message. RC = {RC}, errno = {ERR}", "RC",
	static_cast<int>(rc), "ERR", errno);
	return PLDM_ERROR;
	}
	return PLDM_SUCCESS;
	}
	};

	} // namespace requester

	} // namespace pldm