sock_channel.hpp - openbmc/slpd-lite - Gitiles

 #pragma once

 #include <arpa/inet.h>
 #include <unistd.h>

 #include <string>
 #include <tuple>
 #include <vector>

 namespace udpsocket
 {

 using buffer = std::vector<uint8_t>;
 /** @class Channel
  *
  *  @brief Provides encapsulation for UDP socket operations like Read, Peek,
  *         Write, Remote peer's IP Address and Port.
  */
 class Channel
 {
   public:
     struct SockAddr_t
     {
         union
         {
             sockaddr sockAddr;
             sockaddr_in6 inAddr;
         };
         socklen_t addrSize;
     };

     /**
      * @brief Constructor
      *
      * Initialize the IPMI socket object with the socket descriptor
      *
      * @param [in] File Descriptor for the socket
      * @param [in] Timeout parameter for the select call
      *
      * @return None
      */
     Channel(int insockfd, timeval& inTimeout)
     {
         sockfd = insockfd;
         timeout = inTimeout;
     }

     /**
      * @brief Fetch the IP address of the remote peer
      *
      * Returns the IP address of the remote peer which is connected to this
      * socket
      *
      * @return IP address of the remote peer
      */
     std::string getRemoteAddress() const;

     /**
      * @brief Fetch the port number of the remote peer
      *
      * Returns the port number of the remote peer
      *
      * @return Port number
      *
      */
     auto getPort() const
     {
         return address.inAddr.sin6_port;
     }

     /**
      * @brief Read the incoming packet
      *
      * Reads the data available on the socket
      *
      * @return A tuple with return code and vector with the buffer
      *         In case of success, the vector is populated with the data
      *         available on the socket and return code is 0.
      *         In case of error, the return code is < 0 and vector is set
      *         to size 0.
      */
     std::tuple<int, buffer> read();

     /**
      *  @brief Write the outgoing packet
      *
      *  Writes the data in the vector to the socket
      *
      *  @param [in] inBuffer
      *      The vector would be the buffer of data to write to the socket.
      *
      *  @return In case of success the return code is 0 and return code is
      *          < 0 in case of failure.
      */
     int write(buffer& inBuffer);

     ~Channel() = default;
     Channel(const Channel& right) = delete;
     Channel& operator=(const Channel& right) = delete;
     Channel(Channel&&) = default;
     Channel& operator=(Channel&&) = default;

   private:
     /*
      * The socket descriptor is the UDP server socket for the IPMI port.
      * The same socket descriptor is used for multiple ipmi clients and the
      * life of the descriptor is lifetime of the net-ipmid server. So we
      * do not need to close the socket descriptor in the cleanup of the
      * udpsocket class.
      */
     int sockfd;
     SockAddr_t address;
     timeval timeout;
 };

 } // namespace udpsocket
	#pragma once

	#include <arpa/inet.h>
	#include <unistd.h>

	#include <string>
	#include <tuple>
	#include <vector>

	namespace udpsocket
	{

	using buffer = std::vector<uint8_t>;
	/** @class Channel
	*
	* @brief Provides encapsulation for UDP socket operations like Read, Peek,
	* Write, Remote peer's IP Address and Port.
	*/
	class Channel
	{
	public:
	struct SockAddr_t
	{
	union
	{
	sockaddr sockAddr;
	sockaddr_in6 inAddr;
	};
	socklen_t addrSize;
	};

	/**
	* @brief Constructor
	*
	* Initialize the IPMI socket object with the socket descriptor
	*
	* @param [in] File Descriptor for the socket
	* @param [in] Timeout parameter for the select call
	*
	* @return None
	*/
	Channel(int insockfd, timeval& inTimeout)
	{
	sockfd = insockfd;
	timeout = inTimeout;
	}

	/**
	* @brief Fetch the IP address of the remote peer
	*
	* Returns the IP address of the remote peer which is connected to this
	* socket
	*
	* @return IP address of the remote peer
	*/
	std::string getRemoteAddress() const;

	/**
	* @brief Fetch the port number of the remote peer
	*
	* Returns the port number of the remote peer
	*
	* @return Port number
	*
	*/
	auto getPort() const
	{
	return address.inAddr.sin6_port;
	}

	/**
	* @brief Read the incoming packet
	*
	* Reads the data available on the socket
	*
	* @return A tuple with return code and vector with the buffer
	* In case of success, the vector is populated with the data
	* available on the socket and return code is 0.
	* In case of error, the return code is < 0 and vector is set
	* to size 0.
	*/
	std::tuple<int, buffer> read();

	/**
	* @brief Write the outgoing packet
	*
	* Writes the data in the vector to the socket
	*
	* @param [in] inBuffer
	* The vector would be the buffer of data to write to the socket.
	*
	* @return In case of success the return code is 0 and return code is
	* < 0 in case of failure.
	*/
	int write(buffer& inBuffer);

	~Channel() = default;
	Channel(const Channel& right) = delete;
	Channel& operator=(const Channel& right) = delete;
	Channel(Channel&&) = default;
	Channel& operator=(Channel&&) = default;

	private:
	/*
	* The socket descriptor is the UDP server socket for the IPMI port.
	* The same socket descriptor is used for multiple ipmi clients and the
	* life of the descriptor is lifetime of the net-ipmid server. So we
	* do not need to close the socket descriptor in the cleanup of the
	* udpsocket class.
	*/
	int sockfd;
	SockAddr_t address;
	timeval timeout;
	};

	} // namespace udpsocket