ndn-cpp/face.hpp - ndn-cxx - Gitiles

 /**
  * @author: Jeff Thompson
  * See COPYING for copyright and distribution information.
  */

 #ifndef NDN_FACE_HPP
 #define NDN_FACE_HPP

 #include "node.hpp"

 namespace ndn {

 /**
  * The Face class provides the main methods for NDN communication.
  */
 class Face {
 public:
   /**
    * Create a new Face for communication with an NDN hub at host:port with the given Transport object.
    * @param host The host of the NDN hub.
    * @param port The port of the NDN hub.
    * @param transport A pointer to a Transport object used for communication.
    */
   Face(const char *host, unsigned short port, const ptr_lib::shared_ptr<Transport> &transport)
   : node_(host, port, transport)
   {
   }

   /**
    * Create a new Face for communication with an NDN hub at host:port using the default UdpTransport.
    * @param host The host of the NDN hub.
    * @param port The port of the NDN hub.
    */
   Face(const char *host, unsigned short port)
   : node_(host, port)
   {
   }

   /**
    * Create a new Face for communication with an NDN hub at host with the default port 9695 and using the default UdpTransport.
    * @param host The host of the NDN hub.
    */
   Face(const char *host)
   : node_(host)
   {
   }

   /**
    * Encode name as an Interest. If interestTemplate is not 0, use its interest selectors.
    * Send the interest through the transport, read the entire response and call
    * closure->upcall(UPCALL_DATA (or UPCALL_DATA_UNVERIFIED),
    *                 UpcallInfo(this, interest, 0, data)).
    * @param name reference to a Name for the interest.  This does not keep a pointer to the Name object.
    * @param closure a pointer for the Closure.  The caller must manage the memory for the Closure.  This will not try to delete it.
    * @param interestTemplate if not 0, copy interest selectors from the template.   This does not keep a pointer to the Interest object.
    */
   void expressInterest(const Name &name, Closure *closure, const Interest *interestTemplate)
   {
     node_.expressInterest(name, closure, interestTemplate);
   }

   void expressInterest(const Name &name, Closure *closure)
   {
     node_.expressInterest(name, closure);
   }

   /**
    * Process any data to receive or call timeout callbacks.
    * This is non-blocking and will return immediately if there is no data to receive.
    * You should repeatedly call this from an event loop, with calls to sleep as needed so that the loop doesn't use 100% of the CPU.
    * @throw This may throw an exception for reading data or in the callback for processing the data.  If you
    * call this from an main event loop, you may want to catch and log/disregard all exceptions.
    */
   void processEvents()
   {
     // Just call Node's processEvents.
     node_.processEvents();
   }

   /**
    * Shut down and disconnect this Face.
    */
   void shutdown();

 private:
   Node node_;
 };

 }

 #endif
	/**
	* @author: Jeff Thompson
	* See COPYING for copyright and distribution information.
	*/

	#ifndef NDN_FACE_HPP
	#define NDN_FACE_HPP

	#include "node.hpp"

	namespace ndn {

	/**
	* The Face class provides the main methods for NDN communication.
	*/
	class Face {
	public:
	/**
	* Create a new Face for communication with an NDN hub at host:port with the given Transport object.
	* @param host The host of the NDN hub.
	* @param port The port of the NDN hub.
	* @param transport A pointer to a Transport object used for communication.
	*/
	Face(const char *host, unsigned short port, const ptr_lib::shared_ptr<Transport> &transport)
	: node_(host, port, transport)
	{
	}

	/**
	* Create a new Face for communication with an NDN hub at host:port using the default UdpTransport.
	* @param host The host of the NDN hub.
	* @param port The port of the NDN hub.
	*/
	Face(const char *host, unsigned short port)
	: node_(host, port)
	{
	}

	/**
	* Create a new Face for communication with an NDN hub at host with the default port 9695 and using the default UdpTransport.
	* @param host The host of the NDN hub.
	*/
	Face(const char *host)
	: node_(host)
	{
	}

	/**
	* Encode name as an Interest. If interestTemplate is not 0, use its interest selectors.
	* Send the interest through the transport, read the entire response and call
	* closure->upcall(UPCALL_DATA (or UPCALL_DATA_UNVERIFIED),
	* UpcallInfo(this, interest, 0, data)).
	* @param name reference to a Name for the interest. This does not keep a pointer to the Name object.
	* @param closure a pointer for the Closure. The caller must manage the memory for the Closure. This will not try to delete it.
	* @param interestTemplate if not 0, copy interest selectors from the template. This does not keep a pointer to the Interest object.
	*/
	void expressInterest(const Name &name, Closure closure, const Interest interestTemplate)
	{
	node_.expressInterest(name, closure, interestTemplate);
	}

	void expressInterest(const Name &name, Closure *closure)
	{
	node_.expressInterest(name, closure);
	}

	/**
	* Process any data to receive or call timeout callbacks.
	* This is non-blocking and will return immediately if there is no data to receive.
	* You should repeatedly call this from an event loop, with calls to sleep as needed so that the loop doesn't use 100% of the CPU.
	* @throw This may throw an exception for reading data or in the callback for processing the data. If you
	* call this from an main event loop, you may want to catch and log/disregard all exceptions.
	*/
	void processEvents()
	{
	// Just call Node's processEvents.
	node_.processEvents();
	}

	/**
	* Shut down and disconnect this Face.
	*/
	void shutdown();

	private:
	Node node_;
	};

	}

	#endif