sessions_manager.hpp - openbmc/phosphor-net-ipmid - Gitiles

 #pragma once

 #include "main.hpp"
 #include "session.hpp"

 #include <boost/asio/steady_timer.hpp>
 #include <ipmid/api.hpp>
 #include <ipmid/sessiondef.hpp>

 #include <chrono>
 #include <map>
 #include <memory>
 #include <mutex>
 #include <string>

 namespace session
 {

 enum class RetrieveOption
 {
     BMC_SESSION_ID,
     RC_SESSION_ID,
 };

 static constexpr size_t maxSessionHandles = multiIntfaceSessionHandleMask;

 /**
  * @class Manager
  *
  * Manager class acts a manager for the IPMI sessions and provides interfaces
  * to start a session, stop a session and get reference to the session objects.
  *
  */

 class Manager
 {
   private:
     struct Private
     {};

   public:
     // BMC Session ID is the key for the map
     using SessionMap = std::map<SessionID, std::shared_ptr<Session>>;

     Manager() = delete;
     Manager(std::shared_ptr<boost::asio::io_context>& io, const Private&) :
         io(io), timer(*io){};
     ~Manager() = default;
     Manager(const Manager&) = delete;
     Manager& operator=(const Manager&) = delete;
     Manager(Manager&&) = default;
     Manager& operator=(Manager&&) = default;

     /**
      * @brief Get a reference to the singleton Manager
      *
      * @return Manager reference
      */
     static Manager& get()
     {
         static std::shared_ptr<Manager> ptr = nullptr;
         if (!ptr)
         {
             std::shared_ptr<boost::asio::io_context> io = getIo();
             ptr = std::make_shared<Manager>(io, Private());
             if (!ptr)
             {
                 throw std::runtime_error("failed to create session manager");
             }
         }
         return *ptr;
     }

     /**
      * @brief Start an IPMI session
      *
      * @param[in] remoteConsoleSessID - Remote Console Session ID mentioned
      *            in the Open SessionRequest Command
      * @param[in] priv - Privilege level requested
      * @param[in] authAlgo - Authentication Algorithm
      * @param[in] intAlgo - Integrity Algorithm
      * @param[in] cryptAlgo - Confidentiality Algorithm
      *
      * @return session handle on success and nullptr on failure
      *
      */
     std::shared_ptr<Session>
         startSession(SessionID remoteConsoleSessID, Privilege priv,
                      cipher::rakp_auth::Algorithms authAlgo,
                      cipher::integrity::Algorithms intAlgo,
                      cipher::crypt::Algorithms cryptAlgo);

     /**
      * @brief Stop IPMI Session
      *
      * @param[in] bmcSessionID - BMC Session ID
      *
      * @return true on success and failure if session ID is invalid
      *
      */
     bool stopSession(SessionID bmcSessionID);

     /**
      * @brief Get Session Handle
      *
      * @param[in] sessionID - Session ID
      * @param[in] option - Select between BMC Session ID and Remote Console
      *            Session ID, Default option is BMC Session ID
      *
      * @return session handle on success and nullptr on failure
      *
      */
     std::shared_ptr<Session>
         getSession(SessionID sessionID,
                    RetrieveOption option = RetrieveOption::BMC_SESSION_ID);
     uint8_t getActiveSessionCount() const;
     uint8_t getSessionHandle(SessionID bmcSessionID) const;
     uint8_t storeSessionHandle(SessionID bmcSessionID);
     uint32_t getSessionIDbyHandle(uint8_t sessionHandle) const;

     void managerInit(const std::string& channel);

     uint8_t getNetworkInstance(void);

     /**
      * @brief Clean Session Stale Entries
      *
      *  Schedules cleaning the inactive sessions entries from the Session Map
      */
     void scheduleSessionCleaner(const std::chrono::microseconds& grace);

   private:
     /**
      * @brief reclaim system resources by limiting idle sessions
      *
      * Limits on active, authenticated sessions are calculated independently
      * from in-setup sessions, which are not required to be authenticated. This
      * will prevent would-be DoS attacks by calling a bunch of Open Session
      * requests to fill up all available sessions. Too many active sessions will
      * trigger a shorter timeout, but is unaffected by setup session counts.
      *
      * For active sessions, grace time is inversely proportional to (the number
      * of active sessions beyond max sessions per channel)^3
      *
      * For sessions in setup, grace time is inversely proportional to (the
      * number of total sessions beyond max sessions per channel)^3, with a max
      * of 3 seconds
      */
     void cleanStaleEntries();

     std::shared_ptr<boost::asio::io_context> io;
     boost::asio::steady_timer timer;

     std::array<uint32_t, session::maxSessionHandles> sessionHandleMap = {0};

     /**
      * @brief Session Manager keeps the session objects as a sorted
      *        associative container with Session ID as the unique key
      */
     SessionMap sessionsMap;
     std::unique_ptr<sdbusplus::server::manager_t> objManager = nullptr;
     std::string chName{}; // Channel Name
     uint8_t ipmiNetworkInstance = 0;
     void setNetworkInstance(void);
 };

 } // namespace session
	#pragma once

	#include "main.hpp"
	#include "session.hpp"

	#include <boost/asio/steady_timer.hpp>
	#include <ipmid/api.hpp>
	#include <ipmid/sessiondef.hpp>

	#include <chrono>
	#include <map>
	#include <memory>
	#include <mutex>
	#include <string>

	namespace session
	{

	enum class RetrieveOption
	{
	BMC_SESSION_ID,
	RC_SESSION_ID,
	};

	static constexpr size_t maxSessionHandles = multiIntfaceSessionHandleMask;

	/**
	* @class Manager
	*
	* Manager class acts a manager for the IPMI sessions and provides interfaces
	* to start a session, stop a session and get reference to the session objects.
	*
	*/

	class Manager
	{
	private:
	struct Private
	{};

	public:
	// BMC Session ID is the key for the map
	using SessionMap = std::map<SessionID, std::shared_ptr<Session>>;

	Manager() = delete;
	Manager(std::shared_ptr<boost::asio::io_context>& io, const Private&) :
	io(io), timer(*io){};
	~Manager() = default;
	Manager(const Manager&) = delete;
	Manager& operator=(const Manager&) = delete;
	Manager(Manager&&) = default;
	Manager& operator=(Manager&&) = default;

	/**
	* @brief Get a reference to the singleton Manager
	*
	* @return Manager reference
	*/
	static Manager& get()
	{
	static std::shared_ptr<Manager> ptr = nullptr;
	if (!ptr)
	{
	std::shared_ptr<boost::asio::io_context> io = getIo();
	ptr = std::make_shared<Manager>(io, Private());
	if (!ptr)
	{
	throw std::runtime_error("failed to create session manager");
	}
	}
	return *ptr;
	}

	/**
	* @brief Start an IPMI session
	*
	* @param[in] remoteConsoleSessID - Remote Console Session ID mentioned
	* in the Open SessionRequest Command
	* @param[in] priv - Privilege level requested
	* @param[in] authAlgo - Authentication Algorithm
	* @param[in] intAlgo - Integrity Algorithm
	* @param[in] cryptAlgo - Confidentiality Algorithm
	*
	* @return session handle on success and nullptr on failure
	*
	*/
	std::shared_ptr<Session>
	startSession(SessionID remoteConsoleSessID, Privilege priv,
	cipher::rakp_auth::Algorithms authAlgo,
	cipher::integrity::Algorithms intAlgo,
	cipher::crypt::Algorithms cryptAlgo);

	/**
	* @brief Stop IPMI Session
	*
	* @param[in] bmcSessionID - BMC Session ID
	*
	* @return true on success and failure if session ID is invalid
	*
	*/
	bool stopSession(SessionID bmcSessionID);

	/**
	* @brief Get Session Handle
	*
	* @param[in] sessionID - Session ID
	* @param[in] option - Select between BMC Session ID and Remote Console
	* Session ID, Default option is BMC Session ID
	*
	* @return session handle on success and nullptr on failure
	*
	*/
	std::shared_ptr<Session>
	getSession(SessionID sessionID,
	RetrieveOption option = RetrieveOption::BMC_SESSION_ID);
	uint8_t getActiveSessionCount() const;
	uint8_t getSessionHandle(SessionID bmcSessionID) const;
	uint8_t storeSessionHandle(SessionID bmcSessionID);
	uint32_t getSessionIDbyHandle(uint8_t sessionHandle) const;

	void managerInit(const std::string& channel);

	uint8_t getNetworkInstance(void);

	/**
	* @brief Clean Session Stale Entries
	*
	* Schedules cleaning the inactive sessions entries from the Session Map
	*/
	void scheduleSessionCleaner(const std::chrono::microseconds& grace);

	private:
	/**
	* @brief reclaim system resources by limiting idle sessions
	*
	* Limits on active, authenticated sessions are calculated independently
	* from in-setup sessions, which are not required to be authenticated. This
	* will prevent would-be DoS attacks by calling a bunch of Open Session
	* requests to fill up all available sessions. Too many active sessions will
	* trigger a shorter timeout, but is unaffected by setup session counts.
	*
	* For active sessions, grace time is inversely proportional to (the number
	* of active sessions beyond max sessions per channel)^3
	*
	* For sessions in setup, grace time is inversely proportional to (the
	* number of total sessions beyond max sessions per channel)^3, with a max
	* of 3 seconds
	*/
	void cleanStaleEntries();

	std::shared_ptr<boost::asio::io_context> io;
	boost::asio::steady_timer timer;

	std::array<uint32_t, session::maxSessionHandles> sessionHandleMap = {0};

	/**
	* @brief Session Manager keeps the session objects as a sorted
	* associative container with Session ID as the unique key
	*/
	SessionMap sessionsMap;
	std::unique_ptr<sdbusplus::server::manager_t> objManager = nullptr;
	std::string chName{}; // Channel Name
	uint8_t ipmiNetworkInstance = 0;
	void setNetworkInstance(void);
	};

	} // namespace session