sol/sol_context.hpp - openbmc/phosphor-net-ipmid - Gitiles

 #pragma once

 #include "console_buffer.hpp"
 #include "session.hpp"

 #include <boost/asio/io_context.hpp>
 #include <boost/asio/steady_timer.hpp>
 #include <cstddef>

 namespace sol
 {

 /** @struct Outbound
  *
  *  Operation/Status in an outbound SOL payload format(BMC to Remote Console).
  */
 struct Outbound
 {
 #if BYTE_ORDER == LITTLE_ENDIAN
     uint8_t testMode : 2;        //!< Not supported.
     uint8_t breakDetected : 1;   //!< Not supported.
     uint8_t transmitOverrun : 1; //!< Not supported.
     uint8_t SOLDeactivating : 1; //!< 0 : SOL is active, 1 : SOL deactivated.
     uint8_t charUnavailable : 1; //!< 0 : Available, 1 : Unavailable.
     uint8_t ack : 1;             //!< 0 : ACK, 1 : NACK.
     uint8_t reserved : 1;        //!< Reserved.
 #endif

 #if BYTE_ORDER == BIG_ENDIAN
     uint8_t reserved : 1;        //!< Reserved.
     uint8_t ack : 1;             //!< 0 : ACK, 1 : NACK.
     uint8_t charUnavailable : 1; //!< 0 : Available, 1 : Unavailable.
     uint8_t SOLDeactivating : 1; //!< 0 : SOL is active, 1 : SOL deactivated.
     uint8_t transmitOverrun : 1; //!< Not supported.
     uint8_t breakDetected : 1;   //!< Not supported.
     uint8_t testMode : 2;        //!< Not supported.
 #endif
 } __attribute__((packed));

 /** @struct Inbound
  *
  *  Operation/Status in an Inbound SOL Payload format(Remote Console to BMC).
  */
 struct Inbound
 {
 #if BYTE_ORDER == LITTLE_ENDIAN
     uint8_t flushOut : 1;      //!< Not supported.
     uint8_t flushIn : 1;       //!< Not supported.
     uint8_t dcd : 1;           //!< Not supported.
     uint8_t cts : 1;           //!< Not supported.
     uint8_t generateBreak : 1; //!< Not supported.
     uint8_t ring : 1;          //!< Not supported.
     uint8_t ack : 1;           //!< 0 : ACK, 1 : NACK.
     uint8_t reserved : 1;      //!< Reserved.
 #endif

 #if BYTE_ORDER == BIG_ENDIAN
     uint8_t reserved : 1;      //!< Reserved.
     uint8_t ack : 1;           //!< 0 : ACK, 1 : NACK.
     uint8_t ring : 1;          //!< Not supported.
     uint8_t generateBreak : 1; //!< Not supported.
     uint8_t cts : 1;           //!< Not supported.
     uint8_t dcd : 1;           //!< Not supported.
     uint8_t flushIn : 1;       //!< Not supported.
     uint8_t flushOut : 1;      //!< Not supported.
 #endif
 } __attribute__((packed));

 /** @struct Payload
  *
  *  SOL Payload Data Format.The following fields make up the SOL payload in an
  *  RMCP+ packet, followed by the console character data.
  */
 struct Payload
 {
     uint8_t packetSeqNum;      //!< Packet sequence number
     uint8_t packetAckSeqNum;   //!< Packet ACK/NACK sequence number
     uint8_t acceptedCharCount; //!< Accepted character count
     union
     {
         uint8_t operation;            //!< Operation/Status
         struct Outbound outOperation; //!< BMC to Remote Console
         struct Inbound inOperation;   //!< Remote Console to BMC
     };
 } __attribute__((packed));

 namespace internal
 {

 /** @struct SequenceNumbers
  *
  *  SOL sequence numbers. At the session level, SOL Payloads share the session
  *  sequence numbers for authenticated and unauthenticated packets with other
  *  packets under the IPMI session. At the payload level, SOL packets include
  *  their own message sequence numbers that are used for tracking missing and
  *  retried SOL messages. The sequence numbers must be non-zero. Retried
  *  packets use the same sequence number as the first packet.
  */
 struct SequenceNumbers
 {
     static constexpr uint8_t MAX_SOL_SEQUENCE_NUMBER = 0x10;

     /** @brief Get the SOL sequence number.
      *
      *  @param[in] inbound - true for inbound sequence number and false for
      *                       outbound sequence number
      *
      *  @return sequence number
      */
     auto get(bool inbound = true) const
     {
         return inbound ? in : out;
     }

     /** @brief Increment the inbound SOL sequence number. */
     void incInboundSeqNum()
     {
         if ((++in) == MAX_SOL_SEQUENCE_NUMBER)
         {
             in = 1;
         }
     }

     /** @brief Increment the outbound SOL sequence number.
      *
      *  @return outbound sequence number to populate the SOL payload.
      */
     auto incOutboundSeqNum()
     {
         if ((++out) == MAX_SOL_SEQUENCE_NUMBER)
         {
             out = 1;
         }

         return out;
     }

   private:
     uint8_t in = 1;  //!< Inbound sequence number.
     uint8_t out = 0; //!< Outbound sequence number, since the first
                      //!< operation is increment, it is initialised to 0
 };

 } // namespace internal

 /** @class Context
  *
  *  Context keeps the state of the SOL session. The information needed to
  *  maintain the state of the SOL is part of this class. This class provides
  *  interfaces to handle incoming SOL payload, send response and send outbound
  *  SOL payload.
  */
 class Context : public std::enable_shared_from_this<Context>
 {
   public:
     Context() = delete;
     ~Context() = default;
     Context(const Context&) = delete;
     Context& operator=(const Context&) = delete;
     Context(Context&&) = delete;
     Context& operator=(Context&&) = delete;

     /** @brief Context Factory
      *
      *  This is called by the SOL Manager when a SOL payload instance is
      *  started for the activate payload command. Its purpose is to be able
      *  to perform post-creation tasks on the object without changing the
      *  code flow
      *
      *  @param[in] io  - boost::asio io context for event scheduling.
      *  @param[in] maxRetryCount  - Retry count max value.
      *  @param[in] sendThreshold - Character send threshold.
      *  @param[in] instance - SOL payload instance.
      *  @param[in] sessionID - BMC session ID.
      */
     static std::shared_ptr<Context>
         makeContext(std::shared_ptr<boost::asio::io_context> io,
                     uint8_t maxRetryCount, uint8_t sendThreshold,
                     uint8_t instance, session::SessionID sessionID);

     /** @brief Context Constructor.
      *
      *  This should only be used by the Context factory makeContext
      *  or the accumulate timer will not be initialized properly
      *
      *  @param[in] io  - boost::asio io context for event scheduling.
      *  @param[in] maxRetryCount  - Retry count max value.
      *  @param[in] sendThreshold - Character send threshold.
      *  @param[in] instance - SOL payload instance.
      *  @param[in] sessionID - BMC session ID.
      */
     Context(std::shared_ptr<boost::asio::io_context> io, uint8_t maxRetryCount,
             uint8_t sendThreshold, uint8_t instance,
             session::SessionID sessionID);

     static constexpr auto clear = true;
     static constexpr auto noClear = false;

     /** @brief accumulate timer */
     boost::asio::steady_timer accumulateTimer;

     /** @brief retry timer */
     boost::asio::steady_timer retryTimer;

     /** @brief Retry count max value. */
     const uint8_t maxRetryCount = 0;

     /** @brief Retry counter. */
     uint8_t retryCounter = 0;

     /** @brief Character send threshold. */
     const uint8_t sendThreshold = 0;

     /** @brief SOL payload instance. */
     const uint8_t payloadInstance = 0;

     /** @brief Session ID. */
     const session::SessionID sessionID = 0;

     /** @brief session pointer
      */
     std::shared_ptr<session::Session> session;

     /** @brief enable/disable accumulate timer
      *
      *  The timeout interval is managed by the SOL Manager;
      *  this function only enables or disable the timer
      *
      *  @param[in] enable - enable(true) or disable(false) accumulation timer
      */
     void enableAccumulateTimer(bool enable);

     /** @brief enable/disable retry timer
      *
      *  The timeout interval is managed by the SOL Manager;
      *  this function only enables or disable the timer
      *
      *  @param[in] enable - enable(true) or disable(false) retry timer
      */
     void enableRetryTimer(bool enable);

     /** @brief Process the Inbound SOL payload.
      *
      *  The SOL payload from the remote console is processed and the
      *  acknowledgment handling is done.
      *
      *  @param[in] seqNum - Packet sequence number.
      *  @param[in] ackSeqNum - Packet ACK/NACK sequence number.
      *  @param[in] count - Accepted character count.
      *  @param[in] operation - ACK is false, NACK is true
      *  @param[in] input - Incoming SOL character data.
      */
     void processInboundPayload(uint8_t seqNum, uint8_t ackSeqNum, uint8_t count,
                                bool status, const std::vector<uint8_t>& input);

     /** @brief Send the outbound SOL payload.
      *
      *  @return zero on success and negative value if condition for sending
      *          the payload fails.
      */
     int sendOutboundPayload();

     /** @brief Resend the SOL payload.
      *
      *  @param[in] clear - if true then send the payload and clear the
      *                     cached payload, if false only send the payload.
      */
     void resendPayload(bool clear);

     /** @brief accumlate timer handler called by timer */
     void charAccTimerHandler();

     /** @brief retry timer handler called by timer */
     void retryTimerHandler();

   private:
     /** @brief Expected character count.
      *
      *  Expected Sequence number and expected character count is set before
      *  sending the SOL payload. The check is done against these values when
      *  an incoming SOL payload is received.
      */
     size_t expectedCharCount = 0;

     /** @brief Inbound and Outbound sequence numbers. */
     internal::SequenceNumbers seqNums;

     /** @brief Copy of the last sent SOL payload.
      *
      *  A copy of the SOL payload is kept here, so that when a retry needs
      *  to be attempted the payload is sent again.
      */
     std::vector<uint8_t> payloadCache;

     /**
      * @brief Send Response for Incoming SOL payload.
      *
      * @param[in] ackSeqNum - Packet ACK/NACK Sequence Number.
      * @param[in] count - Accepted Character Count.
      * @param[in] ack - Set ACK/NACK in the Operation.
      */
     void prepareResponse(uint8_t ackSeqNum, uint8_t count, bool ack);

     /** @brief Send the outgoing SOL payload.
      *
      *  @param[in] out - buffer containing the SOL payload.
      */
     void sendPayload(const std::vector<uint8_t>& out) const;
 };

 } // namespace sol
	#pragma once

	#include "console_buffer.hpp"
	#include "session.hpp"

	#include <boost/asio/io_context.hpp>
	#include <boost/asio/steady_timer.hpp>
	#include <cstddef>

	namespace sol
	{

	/** @struct Outbound
	*
	* Operation/Status in an outbound SOL payload format(BMC to Remote Console).
	*/
	struct Outbound
	{
	#if BYTE_ORDER == LITTLE_ENDIAN
	uint8_t testMode : 2; //!< Not supported.
	uint8_t breakDetected : 1; //!< Not supported.
	uint8_t transmitOverrun : 1; //!< Not supported.
	uint8_t SOLDeactivating : 1; //!< 0 : SOL is active, 1 : SOL deactivated.
	uint8_t charUnavailable : 1; //!< 0 : Available, 1 : Unavailable.
	uint8_t ack : 1; //!< 0 : ACK, 1 : NACK.
	uint8_t reserved : 1; //!< Reserved.
	#endif

	#if BYTE_ORDER == BIG_ENDIAN
	uint8_t reserved : 1; //!< Reserved.
	uint8_t ack : 1; //!< 0 : ACK, 1 : NACK.
	uint8_t charUnavailable : 1; //!< 0 : Available, 1 : Unavailable.
	uint8_t SOLDeactivating : 1; //!< 0 : SOL is active, 1 : SOL deactivated.
	uint8_t transmitOverrun : 1; //!< Not supported.
	uint8_t breakDetected : 1; //!< Not supported.
	uint8_t testMode : 2; //!< Not supported.
	#endif
	} __attribute__((packed));

	/** @struct Inbound
	*
	* Operation/Status in an Inbound SOL Payload format(Remote Console to BMC).
	*/
	struct Inbound
	{
	#if BYTE_ORDER == LITTLE_ENDIAN
	uint8_t flushOut : 1; //!< Not supported.
	uint8_t flushIn : 1; //!< Not supported.
	uint8_t dcd : 1; //!< Not supported.
	uint8_t cts : 1; //!< Not supported.
	uint8_t generateBreak : 1; //!< Not supported.
	uint8_t ring : 1; //!< Not supported.
	uint8_t ack : 1; //!< 0 : ACK, 1 : NACK.
	uint8_t reserved : 1; //!< Reserved.
	#endif

	#if BYTE_ORDER == BIG_ENDIAN
	uint8_t reserved : 1; //!< Reserved.
	uint8_t ack : 1; //!< 0 : ACK, 1 : NACK.
	uint8_t ring : 1; //!< Not supported.
	uint8_t generateBreak : 1; //!< Not supported.
	uint8_t cts : 1; //!< Not supported.
	uint8_t dcd : 1; //!< Not supported.
	uint8_t flushIn : 1; //!< Not supported.
	uint8_t flushOut : 1; //!< Not supported.
	#endif
	} __attribute__((packed));

	/** @struct Payload
	*
	* SOL Payload Data Format.The following fields make up the SOL payload in an
	* RMCP+ packet, followed by the console character data.
	*/
	struct Payload
	{
	uint8_t packetSeqNum; //!< Packet sequence number
	uint8_t packetAckSeqNum; //!< Packet ACK/NACK sequence number
	uint8_t acceptedCharCount; //!< Accepted character count
	union
	{
	uint8_t operation; //!< Operation/Status
	struct Outbound outOperation; //!< BMC to Remote Console
	struct Inbound inOperation; //!< Remote Console to BMC
	};
	} __attribute__((packed));

	namespace internal
	{

	/** @struct SequenceNumbers
	*
	* SOL sequence numbers. At the session level, SOL Payloads share the session
	* sequence numbers for authenticated and unauthenticated packets with other
	* packets under the IPMI session. At the payload level, SOL packets include
	* their own message sequence numbers that are used for tracking missing and
	* retried SOL messages. The sequence numbers must be non-zero. Retried
	* packets use the same sequence number as the first packet.
	*/
	struct SequenceNumbers
	{
	static constexpr uint8_t MAX_SOL_SEQUENCE_NUMBER = 0x10;

	/** @brief Get the SOL sequence number.
	*
	* @param[in] inbound - true for inbound sequence number and false for
	* outbound sequence number
	*
	* @return sequence number
	*/
	auto get(bool inbound = true) const
	{
	return inbound ? in : out;
	}

	/** @brief Increment the inbound SOL sequence number. */
	void incInboundSeqNum()
	{
	if ((++in) == MAX_SOL_SEQUENCE_NUMBER)
	{
	in = 1;
	}
	}

	/** @brief Increment the outbound SOL sequence number.
	*
	* @return outbound sequence number to populate the SOL payload.
	*/
	auto incOutboundSeqNum()
	{
	if ((++out) == MAX_SOL_SEQUENCE_NUMBER)
	{
	out = 1;
	}

	return out;
	}

	private:
	uint8_t in = 1; //!< Inbound sequence number.
	uint8_t out = 0; //!< Outbound sequence number, since the first
	//!< operation is increment, it is initialised to 0
	};

	} // namespace internal

	/** @class Context
	*
	* Context keeps the state of the SOL session. The information needed to
	* maintain the state of the SOL is part of this class. This class provides
	* interfaces to handle incoming SOL payload, send response and send outbound
	* SOL payload.
	*/
	class Context : public std::enable_shared_from_this<Context>
	{
	public:
	Context() = delete;
	~Context() = default;
	Context(const Context&) = delete;
	Context& operator=(const Context&) = delete;
	Context(Context&&) = delete;
	Context& operator=(Context&&) = delete;

	/** @brief Context Factory
	*
	* This is called by the SOL Manager when a SOL payload instance is
	* started for the activate payload command. Its purpose is to be able
	* to perform post-creation tasks on the object without changing the
	* code flow
	*
	* @param[in] io - boost::asio io context for event scheduling.
	* @param[in] maxRetryCount - Retry count max value.
	* @param[in] sendThreshold - Character send threshold.
	* @param[in] instance - SOL payload instance.
	* @param[in] sessionID - BMC session ID.
	*/
	static std::shared_ptr<Context>
	makeContext(std::shared_ptr<boost::asio::io_context> io,
	uint8_t maxRetryCount, uint8_t sendThreshold,
	uint8_t instance, session::SessionID sessionID);

	/** @brief Context Constructor.
	*
	* This should only be used by the Context factory makeContext
	* or the accumulate timer will not be initialized properly
	*
	* @param[in] io - boost::asio io context for event scheduling.
	* @param[in] maxRetryCount - Retry count max value.
	* @param[in] sendThreshold - Character send threshold.
	* @param[in] instance - SOL payload instance.
	* @param[in] sessionID - BMC session ID.
	*/
	Context(std::shared_ptr<boost::asio::io_context> io, uint8_t maxRetryCount,
	uint8_t sendThreshold, uint8_t instance,
	session::SessionID sessionID);

	static constexpr auto clear = true;
	static constexpr auto noClear = false;

	/** @brief accumulate timer */
	boost::asio::steady_timer accumulateTimer;

	/** @brief retry timer */
	boost::asio::steady_timer retryTimer;

	/** @brief Retry count max value. */
	const uint8_t maxRetryCount = 0;

	/** @brief Retry counter. */
	uint8_t retryCounter = 0;

	/** @brief Character send threshold. */
	const uint8_t sendThreshold = 0;

	/** @brief SOL payload instance. */
	const uint8_t payloadInstance = 0;

	/** @brief Session ID. */
	const session::SessionID sessionID = 0;

	/** @brief session pointer
	*/
	std::shared_ptr<session::Session> session;

	/** @brief enable/disable accumulate timer
	*
	* The timeout interval is managed by the SOL Manager;
	* this function only enables or disable the timer
	*
	* @param[in] enable - enable(true) or disable(false) accumulation timer
	*/
	void enableAccumulateTimer(bool enable);

	/** @brief enable/disable retry timer
	*
	* The timeout interval is managed by the SOL Manager;
	* this function only enables or disable the timer
	*
	* @param[in] enable - enable(true) or disable(false) retry timer
	*/
	void enableRetryTimer(bool enable);

	/** @brief Process the Inbound SOL payload.
	*
	* The SOL payload from the remote console is processed and the
	* acknowledgment handling is done.
	*
	* @param[in] seqNum - Packet sequence number.
	* @param[in] ackSeqNum - Packet ACK/NACK sequence number.
	* @param[in] count - Accepted character count.
	* @param[in] operation - ACK is false, NACK is true
	* @param[in] input - Incoming SOL character data.
	*/
	void processInboundPayload(uint8_t seqNum, uint8_t ackSeqNum, uint8_t count,
	bool status, const std::vector<uint8_t>& input);

	/** @brief Send the outbound SOL payload.
	*
	* @return zero on success and negative value if condition for sending
	* the payload fails.
	*/
	int sendOutboundPayload();

	/** @brief Resend the SOL payload.
	*
	* @param[in] clear - if true then send the payload and clear the
	* cached payload, if false only send the payload.
	*/
	void resendPayload(bool clear);

	/** @brief accumlate timer handler called by timer */
	void charAccTimerHandler();

	/** @brief retry timer handler called by timer */
	void retryTimerHandler();

	private:
	/** @brief Expected character count.
	*
	* Expected Sequence number and expected character count is set before
	* sending the SOL payload. The check is done against these values when
	* an incoming SOL payload is received.
	*/
	size_t expectedCharCount = 0;

	/** @brief Inbound and Outbound sequence numbers. */
	internal::SequenceNumbers seqNums;

	/** @brief Copy of the last sent SOL payload.
	*
	* A copy of the SOL payload is kept here, so that when a retry needs
	* to be attempted the payload is sent again.
	*/
	std::vector<uint8_t> payloadCache;

	/**
	* @brief Send Response for Incoming SOL payload.
	*
	* @param[in] ackSeqNum - Packet ACK/NACK Sequence Number.
	* @param[in] count - Accepted Character Count.
	* @param[in] ack - Set ACK/NACK in the Operation.
	*/
	void prepareResponse(uint8_t ackSeqNum, uint8_t count, bool ack);

	/** @brief Send the outgoing SOL payload.
	*
	* @param[in] out - buffer containing the SOL payload.
	*/
	void sendPayload(const std::vector<uint8_t>& out) const;
	};

	} // namespace sol