blob: b72ba9c7c307b934f97322a5e56956240daaf8ec [file] [log] [blame]
/**
* @author: Jeff Thompson
* See COPYING for copyright and distribution information.
*/
#ifndef NDN_NODE_HPP
#define NDN_NODE_HPP
#include "interest.hpp"
#include "closure.hpp"
#include "transport/udp-transport.hpp"
#include "encoding/binary-xml-element-reader.hpp"
namespace ndn {
class Face;
class Node : public ElementListener {
public:
/**
* Create a new Node for communication with an NDN hub with the given Transport object and connectionInfo.
* @param transport A shared_ptr to a Transport object used for communication.
* @param transport A shared_ptr to a Transport::ConnectionInfo to be used to connect to the transport.
*/
Node(const ptr_lib::shared_ptr<Transport> &transport, const ptr_lib::shared_ptr<const Transport::ConnectionInfo> &connectionInfo)
: transport_(transport), connectionInfo_(connectionInfo)
{
}
/**
* Create a new Node 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.
*/
Node(const char *host, unsigned short port)
: transport_(new UdpTransport()), connectionInfo_(new UdpTransport::ConnectionInfo(host, port))
{
}
/**
* Create a new Node 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.
*/
Node(const char *host)
: transport_(new UdpTransport()), connectionInfo_(new UdpTransport::ConnectionInfo(host, 9695))
{
}
/**
* 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);
void expressInterest(const Name &name, Closure *closure)
{
expressInterest(name, closure, 0);
}
/**
* Process any data to receive. For each element received, call onReceivedElement.
* 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();
const ptr_lib::shared_ptr<Transport> &getTransport() { return transport_; }
const ptr_lib::shared_ptr<const Transport::ConnectionInfo> &getConnectionInfo() { return connectionInfo_; }
void onReceivedElement(const unsigned char *element, unsigned int elementLength);
void shutdown();
private:
class PitEntry {
public:
/**
* Create a new PitEntry and set the timeoutTime_ based on the current time and the interest lifetime.
* @param interest A shared_ptr for the interest.
* @param closure A pointer to the closure with the callbacks to call on match.
* The caller must manage the memory for the Closure. This will not try to delete it.
*/
PitEntry(const ptr_lib::shared_ptr<const Interest> &interest, Closure *closure);
const ptr_lib::shared_ptr<const Interest> &getInterest() { return interest_; }
Closure *getClosure() { return closure_; }
/**
* Get the struct ndn_Interest for the interest_.
* WARNING: Assume that this PitEntry was created with new, so that no copy constructor is invoked between calls.
* This class is private to Node and only used by its methods, so this should be OK.
* TODO: Doesn't this functionality belong in the Interest class?
* @return A reference to the ndn_Interest struct.
* WARNING: The resulting pointers in are invalid uses getInterest() to manipulate the object which could reallocate memory.
*/
const struct ndn_Interest &getInterestStruct()
{
return interestStruct_;
}
/**
* If this interest is timed out, call the timeout callback and return true.
* @param parent The parent Node for the UpcallInfo.
* @param nowMilliseconds The current time in milliseconds from gettimeofday.
* @return true if this interest timed out and the timeout callback was called, otherwise false.
*/
bool checkTimeout(Node *parent, double nowMilliseconds);
private:
ptr_lib::shared_ptr<const Interest> interest_;
std::vector<struct ndn_NameComponent> nameComponents_;
std::vector<struct ndn_ExcludeEntry> excludeEntries_;
struct ndn_Interest interestStruct_;
Closure *closure_;
double timeoutTimeMilliseconds_; /**< The time when the interest times out in milliseconds according to gettimeofday, or -1 for no timeout. */
};
/**
* Find the entry from the pit_ where the name conforms to the entry's interest selectors, and
* the entry interest name is the longest that matches name.
* @param name The name to find the interest for (from the incoming data packet).
* @return The index in pit_ of the pit entry, or -1 if not found.
*/
int getEntryIndexForExpressedInterest(const Name &name);
ptr_lib::shared_ptr<Transport> transport_;
ptr_lib::shared_ptr<const Transport::ConnectionInfo> connectionInfo_;
std::vector<ptr_lib::shared_ptr<PitEntry> > pit_;
};
}
#endif