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

 #pragma once

 #include <iostream>
 #include <numeric>
 #include "message.hpp"
 #include "message_parsers.hpp"
 #include "session.hpp"
 #include "sol/console_buffer.hpp"

 namespace message
 {

 class Handler
 {
     public:
         explicit Handler(std::shared_ptr<udpsocket::Channel> channel,
                          uint32_t sessionID =
                              message::Message::MESSAGE_INVALID_SESSION_ID):
             sessionID(sessionID),
             channel(channel) {}

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

         /**
          * @brief Receive the IPMI packet
          *
          * Read the data on the socket, get the parser based on the Session
          * header type and flatten the payload and generate the IPMI message
          *
          * @return IPMI Message on success and nullptr on failure
          *
          */
         std::unique_ptr<Message> receive();

         /**
          * @brief Process the incoming IPMI message
          *
          * The incoming message payload is handled and the command handler for
          * the Network function and Command is executed and the response message
          * is returned
          *
          * @param[in] inMessage - Incoming Message
          *
          * @return Outgoing message on success and nullptr on failure
          */
         std::unique_ptr<Message> executeCommand(Message& inMessage);

         /** @brief Send the outgoing message
          *
          *  The payload in the outgoing message is flattened and sent out on the
          *  socket
          *
          *  @param[in] outMessage - Outgoing Message
          */
         void send(Message& outMessage);

         /** @brief Set socket channel in session object */
         void setChannelInSession() const;

         /** @brief Send the SOL payload
          *
          *  The SOL payload is flattened and sent out on the socket
          *
          *  @param[in] input - SOL Payload
          */
         void sendSOLPayload(const std::vector<uint8_t>& input);

         /** @brief Send the unsolicited IPMI payload to the remote console.
          *
          *  This is used by commands like SOL activating, in which case the BMC
          *  has to notify the remote console that a SOL payload is activating
          *  on another channel.
          *
          *  @param[in] netfn - Net function.
          *  @param[in] cmd - Command.
          *  @param[in] input - Command request data.
          */
         void sendUnsolicitedIPMIPayload(uint8_t netfn,
                                         uint8_t cmd,
                                         const std::vector<uint8_t>& input);

         // BMC Session ID for the Channel
         session::SessionID sessionID;

     private:
         /** @brief Socket channel for communicating with the remote client.*/
         std::shared_ptr<udpsocket::Channel> channel;

         parser::SessionHeader sessionHeader  = parser::SessionHeader::IPMI20;

         /**
          * @brief Create the response IPMI message
          *
          * The IPMI outgoing message is constructed out of payload and the
          * corresponding fields are populated.For the payload type IPMI, the
          * LAN message header and trailer are added.
          *
          * @tparam[in] T - Outgoing message payload type
          * @param[in] output - Payload for outgoing message
          * @param[in] inMessage - Incoming IPMI message
          *
          * @return Outgoing message on success and nullptr on failure
          */
         template<PayloadType T>
         std::unique_ptr<Message> createResponse(std::vector<uint8_t>& output,
                                                 Message& inMessage)
         {
             auto outMessage = std::make_unique<Message>();
             outMessage->payloadType = T;
             outMessage->payload = output;
             return outMessage;
         }

         /**
          * @brief Extract the command from the IPMI payload
          *
          * @param[in] message - Incoming message
          *
          * @return Command ID in the incoming message
          */
         uint32_t getCommand(Message& message);

         /**
          * @brief Calculate 8 bit 2's complement checksum
          *
          * Initialize checksum to 0. For each byte, checksum = (checksum + byte)
          * modulo 256. Then checksum = - checksum. When the checksum and the
          * bytes are added together, modulo 256, the result should be 0.
          */
         uint8_t crc8bit(const uint8_t* ptr, const size_t len)
         {
             return (0x100 - std::accumulate(ptr,ptr+len,0));
         }

 };

 } //namespace message
	#pragma once

	#include <iostream>
	#include <numeric>
	#include "message.hpp"
	#include "message_parsers.hpp"
	#include "session.hpp"
	#include "sol/console_buffer.hpp"

	namespace message
	{

	class Handler
	{
	public:
	explicit Handler(std::shared_ptr<udpsocket::Channel> channel,
	uint32_t sessionID =
	message::Message::MESSAGE_INVALID_SESSION_ID):
	sessionID(sessionID),
	channel(channel) {}

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

	/**
	* @brief Receive the IPMI packet
	*
	* Read the data on the socket, get the parser based on the Session
	* header type and flatten the payload and generate the IPMI message
	*
	* @return IPMI Message on success and nullptr on failure
	*
	*/
	std::unique_ptr<Message> receive();

	/**
	* @brief Process the incoming IPMI message
	*
	* The incoming message payload is handled and the command handler for
	* the Network function and Command is executed and the response message
	* is returned
	*
	* @param[in] inMessage - Incoming Message
	*
	* @return Outgoing message on success and nullptr on failure
	*/
	std::unique_ptr<Message> executeCommand(Message& inMessage);

	/** @brief Send the outgoing message
	*
	* The payload in the outgoing message is flattened and sent out on the
	* socket
	*
	* @param[in] outMessage - Outgoing Message
	*/
	void send(Message& outMessage);

	/** @brief Set socket channel in session object */
	void setChannelInSession() const;

	/** @brief Send the SOL payload
	*
	* The SOL payload is flattened and sent out on the socket
	*
	* @param[in] input - SOL Payload
	*/
	void sendSOLPayload(const std::vector<uint8_t>& input);

	/** @brief Send the unsolicited IPMI payload to the remote console.
	*
	* This is used by commands like SOL activating, in which case the BMC
	* has to notify the remote console that a SOL payload is activating
	* on another channel.
	*
	* @param[in] netfn - Net function.
	* @param[in] cmd - Command.
	* @param[in] input - Command request data.
	*/
	void sendUnsolicitedIPMIPayload(uint8_t netfn,
	uint8_t cmd,
	const std::vector<uint8_t>& input);

	// BMC Session ID for the Channel
	session::SessionID sessionID;

	private:
	/** @brief Socket channel for communicating with the remote client.*/
	std::shared_ptr<udpsocket::Channel> channel;

	parser::SessionHeader sessionHeader = parser::SessionHeader::IPMI20;

	/**
	* @brief Create the response IPMI message
	*
	* The IPMI outgoing message is constructed out of payload and the
	* corresponding fields are populated.For the payload type IPMI, the
	* LAN message header and trailer are added.
	*
	* @tparam[in] T - Outgoing message payload type
	* @param[in] output - Payload for outgoing message
	* @param[in] inMessage - Incoming IPMI message
	*
	* @return Outgoing message on success and nullptr on failure
	*/
	template<PayloadType T>
	std::unique_ptr<Message> createResponse(std::vector<uint8_t>& output,
	Message& inMessage)
	{
	auto outMessage = std::make_unique<Message>();
	outMessage->payloadType = T;
	outMessage->payload = output;
	return outMessage;
	}

	/**
	* @brief Extract the command from the IPMI payload
	*
	* @param[in] message - Incoming message
	*
	* @return Command ID in the incoming message
	*/
	uint32_t getCommand(Message& message);

	/**
	* @brief Calculate 8 bit 2's complement checksum
	*
	* Initialize checksum to 0. For each byte, checksum = (checksum + byte)
	* modulo 256. Then checksum = - checksum. When the checksum and the
	* bytes are added together, modulo 256, the result should be 0.
	*/
	uint8_t crc8bit(const uint8_t* ptr, const size_t len)
	{
	return (0x100 - std::accumulate(ptr,ptr+len,0));
	}

	};

	} //namespace message