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

 #pragma once

 #include <map>
 #include <memory>
 #include "console_buffer.hpp"
 #include "session.hpp"
 #include "sol_context.hpp"

 namespace sol
 {

 constexpr size_t MAX_PAYLOAD_INSTANCES = 16;
 constexpr size_t MAX_PAYLOAD_SIZE = 255;
 constexpr uint8_t MAJOR_VERSION = 0x01;
 constexpr uint8_t MINOR_VERSION = 0x00;

 constexpr char CONSOLE_SOCKET_PATH[] = "\0obmc-console";
 constexpr size_t CONSOLE_SOCKET_PATH_LEN = sizeof(CONSOLE_SOCKET_PATH) - 1;

 using Instance = uint8_t;

 /** @struct CustomFD
  *
  *  RAII wrapper for file descriptor.
  */
 struct CustomFD
 {
     CustomFD(const CustomFD&) = delete;
     CustomFD& operator=(const CustomFD&) = delete;
     CustomFD(CustomFD&&) = delete;
     CustomFD& operator=(CustomFD&&) = delete;

     CustomFD(int fd) :
         fd(fd) {}

     ~CustomFD();

     int operator()() const
     {
         return fd;
     }

     private:
         int fd = -1;
 };


 /** @class Manager
  *
  *  Manager class acts a manager for the SOL payload instances and provides
  *  interfaces to start a payload instance, stop a payload instance and get
  *  reference to the context object.
  */
 class Manager
 {
     public:

         /** @brief SOL Payload Instance is the key for the map, the value is the
          *         SOL context.
          */
         using SOLPayloadMap = std::map<Instance, std::unique_ptr<Context>>;

         Manager() = default;
         ~Manager() = default;
         Manager(const Manager&) = delete;
         Manager& operator=(const Manager&) = delete;
         Manager(Manager&&) = default;
         Manager& operator=(Manager&&) = default;

         /** @brief Host Console Buffer. */
         ConsoleData dataBuffer;


         /** @brief Character Accumulate Interval
          *
          *  Character Accumulate Interval in 5 ms increments, 1-based. This sets
          *  the typical amount of time that the BMC will wait before
          *  transmitting a partial SOL character data packet. (Where a partial
          *  packet is defined as a packet that has fewer characters to transmit
          *  than the number of characters specified by the character send
          *  threshold. This parameter can be modified by the set SOL
          *  configuration parameters command.
          */
         uint8_t accumulateInterval = 20;

         /** @brief Character Send Threshold
          *
          *  The BMC will automatically send an SOL character data packet
          *  containing this number of characters as soon as this number of
          *  characters (or greater) has been accepted from the baseboard serial
          *  controller into the BMC. This provides a mechanism to tune the
          *  buffer to reduce latency to when the first characters are received
          *  after an idle interval. In the degenerate case, setting this value
          *  to a ‘1’ would cause the BMC to send a packet as soon as the first
          *  character was received. This parameter can be modified by the set
          *  SOL configuration parameters command.
          */
         uint8_t sendThreshold = 1;

         /** @brief Retry Count
          *
          *  1-based. 0 = no retries after packet is transmitted. Packet will be
          *  dropped if no ACK/NACK received by time retries expire. The maximum
          *  value for retry count is 7. This parameter can be modified by the
          *  set SOL configuration parameters command.
          */
         uint8_t retryCount = 7;

         /** @brief Retry Interval
          *
          *  Retry Interval, 1-based. Retry Interval in 10 ms increments. Sets
          *  the time that the BMC will wait before the first retry and the time
          *  between retries when sending SOL packets to the remote console. 00h
          *  indicates retries sent back-to-back. This parameter can be modified
          *  by the set SOL configuration parameters command.
          */
         uint8_t retryThreshold = 10;

         /** @brief Start a SOL payload instance.
          *
          *  Starting a payload instance involves creating the context object,
          *  add the accumulate interval timer and retry interval timer to the
          *  event loop.
          *
          *  @param[in] payloadInstance - SOL payload instance.
          *  @param[in] sessionID - BMC session ID.
          */
         void startPayloadInstance(uint8_t payloadInstance,
                                   session::SessionID sessionID);

         /** @brief Stop SOL payload instance.
          *
          *  Stopping a payload instance involves stopping and removing the
          *  accumulate interval timer and retry interval timer from the event
          *  loop, delete the context object.
          *
          *  @param[in] payloadInstance - SOL payload instance
          */
         void stopPayloadInstance(uint8_t payloadInstance);

         /** @brief Get SOL Context by Payload Instance.
          *
          *  @param[in] payloadInstance - SOL payload instance.
          *
          *  @return reference to the SOL payload context.
          */
         Context& getContext(uint8_t payloadInstance)
         {
             auto iter = payloadMap.find(payloadInstance);

             if (iter != payloadMap.end())
             {
                 return *(iter->second);
             }

             std::string msg = "Invalid SOL payload instance " + payloadInstance;
             throw std::runtime_error(msg.c_str());
          }

         /** @brief Get SOL Context by Session ID.
          *
          *  @param[in] sessionID - IPMI Session ID.
          *
          *  @return reference to the SOL payload context.
          */
         Context& getContext(session::SessionID sessionID)
         {
             for (const auto& kv : payloadMap)
             {
                 if (kv.second->sessionID == sessionID)
                 {
                     return *kv.second;
                 }
             }

             std::string msg = "Invalid SOL SessionID " + sessionID;
             throw std::runtime_error(msg.c_str());
         }

         /** @brief Check if SOL payload is active.
          *
          *  @param[in] payloadInstance - SOL payload instance.
          *
          *  @return true if the instance is active and false it is not active.
          */
         auto isPayloadActive(uint8_t payloadInstance) const
         {
             return (0 != payloadMap.count(payloadInstance));
         }

         /** @brief Write data to the host console unix socket.
          *
          *  @param[in] input - Data from the remote console.
          *
          *  @return 0 on success and errno on failure.
          */
         int writeConsoleSocket(const Buffer& input) const;

     private:
         SOLPayloadMap payloadMap;

         /** @brief File descriptor for the host console. */
         std::unique_ptr<CustomFD> consoleFD = nullptr;

         /** @brief Initialize the host console file descriptor. */
         void initHostConsoleFd();
 };

 } //namespace sol
	#pragma once

	#include <map>
	#include <memory>
	#include "console_buffer.hpp"
	#include "session.hpp"
	#include "sol_context.hpp"

	namespace sol
	{

	constexpr size_t MAX_PAYLOAD_INSTANCES = 16;
	constexpr size_t MAX_PAYLOAD_SIZE = 255;
	constexpr uint8_t MAJOR_VERSION = 0x01;
	constexpr uint8_t MINOR_VERSION = 0x00;

	constexpr char CONSOLE_SOCKET_PATH[] = "\0obmc-console";
	constexpr size_t CONSOLE_SOCKET_PATH_LEN = sizeof(CONSOLE_SOCKET_PATH) - 1;

	using Instance = uint8_t;

	/** @struct CustomFD
	*
	* RAII wrapper for file descriptor.
	*/
	struct CustomFD
	{
	CustomFD(const CustomFD&) = delete;
	CustomFD& operator=(const CustomFD&) = delete;
	CustomFD(CustomFD&&) = delete;
	CustomFD& operator=(CustomFD&&) = delete;

	CustomFD(int fd) :
	fd(fd) {}

	~CustomFD();

	int operator()() const
	{
	return fd;
	}

	private:
	int fd = -1;
	};


	/** @class Manager
	*
	* Manager class acts a manager for the SOL payload instances and provides
	* interfaces to start a payload instance, stop a payload instance and get
	* reference to the context object.
	*/
	class Manager
	{
	public:

	/** @brief SOL Payload Instance is the key for the map, the value is the
	* SOL context.
	*/
	using SOLPayloadMap = std::map<Instance, std::unique_ptr<Context>>;

	Manager() = default;
	~Manager() = default;
	Manager(const Manager&) = delete;
	Manager& operator=(const Manager&) = delete;
	Manager(Manager&&) = default;
	Manager& operator=(Manager&&) = default;

	/** @brief Host Console Buffer. */
	ConsoleData dataBuffer;


	/** @brief Character Accumulate Interval
	*
	* Character Accumulate Interval in 5 ms increments, 1-based. This sets
	* the typical amount of time that the BMC will wait before
	* transmitting a partial SOL character data packet. (Where a partial
	* packet is defined as a packet that has fewer characters to transmit
	* than the number of characters specified by the character send
	* threshold. This parameter can be modified by the set SOL
	* configuration parameters command.
	*/
	uint8_t accumulateInterval = 20;

	/** @brief Character Send Threshold
	*
	* The BMC will automatically send an SOL character data packet
	* containing this number of characters as soon as this number of
	* characters (or greater) has been accepted from the baseboard serial
	* controller into the BMC. This provides a mechanism to tune the
	* buffer to reduce latency to when the first characters are received
	* after an idle interval. In the degenerate case, setting this value
	* to a ‘1’ would cause the BMC to send a packet as soon as the first
	* character was received. This parameter can be modified by the set
	* SOL configuration parameters command.
	*/
	uint8_t sendThreshold = 1;

	/** @brief Retry Count
	*
	* 1-based. 0 = no retries after packet is transmitted. Packet will be
	* dropped if no ACK/NACK received by time retries expire. The maximum
	* value for retry count is 7. This parameter can be modified by the
	* set SOL configuration parameters command.
	*/
	uint8_t retryCount = 7;

	/** @brief Retry Interval
	*
	* Retry Interval, 1-based. Retry Interval in 10 ms increments. Sets
	* the time that the BMC will wait before the first retry and the time
	* between retries when sending SOL packets to the remote console. 00h
	* indicates retries sent back-to-back. This parameter can be modified
	* by the set SOL configuration parameters command.
	*/
	uint8_t retryThreshold = 10;

	/** @brief Start a SOL payload instance.
	*
	* Starting a payload instance involves creating the context object,
	* add the accumulate interval timer and retry interval timer to the
	* event loop.
	*
	* @param[in] payloadInstance - SOL payload instance.
	* @param[in] sessionID - BMC session ID.
	*/
	void startPayloadInstance(uint8_t payloadInstance,
	session::SessionID sessionID);

	/** @brief Stop SOL payload instance.
	*
	* Stopping a payload instance involves stopping and removing the
	* accumulate interval timer and retry interval timer from the event
	* loop, delete the context object.
	*
	* @param[in] payloadInstance - SOL payload instance
	*/
	void stopPayloadInstance(uint8_t payloadInstance);

	/** @brief Get SOL Context by Payload Instance.
	*
	* @param[in] payloadInstance - SOL payload instance.
	*
	* @return reference to the SOL payload context.
	*/
	Context& getContext(uint8_t payloadInstance)
	{
	auto iter = payloadMap.find(payloadInstance);

	if (iter != payloadMap.end())
	{
	return *(iter->second);
	}

	std::string msg = "Invalid SOL payload instance " + payloadInstance;
	throw std::runtime_error(msg.c_str());
	}

	/** @brief Get SOL Context by Session ID.
	*
	* @param[in] sessionID - IPMI Session ID.
	*
	* @return reference to the SOL payload context.
	*/
	Context& getContext(session::SessionID sessionID)
	{
	for (const auto& kv : payloadMap)
	{
	if (kv.second->sessionID == sessionID)
	{
	return *kv.second;
	}
	}

	std::string msg = "Invalid SOL SessionID " + sessionID;
	throw std::runtime_error(msg.c_str());
	}

	/** @brief Check if SOL payload is active.
	*
	* @param[in] payloadInstance - SOL payload instance.
	*
	* @return true if the instance is active and false it is not active.
	*/
	auto isPayloadActive(uint8_t payloadInstance) const
	{
	return (0 != payloadMap.count(payloadInstance));
	}

	/** @brief Write data to the host console unix socket.
	*
	* @param[in] input - Data from the remote console.
	*
	* @return 0 on success and errno on failure.
	*/
	int writeConsoleSocket(const Buffer& input) const;

	private:
	SOLPayloadMap payloadMap;

	/** @brief File descriptor for the host console. */
	std::unique_ptr<CustomFD> consoleFD = nullptr;

	/** @brief Initialize the host console file descriptor. */
	void initHostConsoleFd();
	};

	} //namespace sol