ndn-cpp/node.cpp - ndn-cxx - Gitiles

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

 #include <sys/time.h>
 #include "encoding/binary-xml-decoder.hpp"
 #include "c/encoding/binary-xml.h"
 #include "data.hpp"
 #include "node.hpp"

 using namespace std;
 using namespace ndn::ptr_lib;

 namespace ndn {

 // Use gettimeofday to return the current time in milliseconds.
 static inline double getNowMilliseconds()
 {
   timeval t;
   gettimeofday(&t, NULL);
   return t.tv_sec * 1000.0 + t.tv_usec / 1000.0;
 }

 Node::PitEntry::PitEntry(const ptr_lib::shared_ptr<const Interest> &interest, Closure *closure)
 : interest_(interest), closure_(closure)
 {
   // Set up timeoutTime_.
   if (interest_->getInterestLifetimeMilliseconds() >= 0.0)
     timeoutTimeMilliseconds_ = getNowMilliseconds() + interest_->getInterestLifetimeMilliseconds();
   else
     // No timeout.
     timeoutTimeMilliseconds_ = -1.0;

   // Set up interestStruct_.
   // TODO: Doesn't this belong in the Interest class?
   nameComponents_.reserve(interest_->getName().getComponentCount());
   excludeEntries_.reserve(interest_->getExclude().getEntryCount());
   ndn_Interest_init
     (&interestStruct_, &nameComponents_[0], nameComponents_.capacity(), &excludeEntries_[0], excludeEntries_.capacity());
   interest_->get(interestStruct_);
 }

 bool Node::PitEntry::checkTimeout(Node *parent, double nowMilliseconds)
 {
   if (timeoutTimeMilliseconds_ >= 0.0 && nowMilliseconds >= timeoutTimeMilliseconds_) {
     shared_ptr<Data> dummyData;
     UpcallInfo upcallInfo(parent, interest_, 0, dummyData);

     // Ignore all exceptions.
     try {
       closure_->upcall(UPCALL_INTEREST_TIMED_OUT, upcallInfo);
     }
     catch (...) { }

     return true;
   }
   else
     return false;
 }

 void Node::expressInterest(const Name &name, Closure *closure, const Interest *interestTemplate)
 {
   shared_ptr<const Interest> interest;
   if (interestTemplate)
     interest.reset(new Interest
       (name, interestTemplate->getMinSuffixComponents(), interestTemplate->getMaxSuffixComponents(),
        interestTemplate->getPublisherPublicKeyDigest(), interestTemplate->getExclude(),
        interestTemplate->getChildSelector(), interestTemplate->getAnswerOriginKind(),
        interestTemplate->getScope(), interestTemplate->getInterestLifetimeMilliseconds()));
   else
     interest.reset(new Interest(name, 4000.0));

   shared_ptr<PitEntry> pitEntry(new PitEntry(interest, closure));
   pit_.push_back(pitEntry);

   shared_ptr<vector<unsigned char> > encoding = pitEntry->getInterest()->wireEncode();

   // TODO: Properly check if we are already connected to the expected host.
   if (!transport_->getIsConnected())
     transport_->connect(*connectionInfo_, *this);

   transport_->send(*encoding);
 }

 void Node::processEvents()
 {
   transport_->processEvents();

   // Check for PIT entry timeouts.  Go backwards through the list so we can erase entries.
   double nowMilliseconds = getNowMilliseconds();
   for (int i = (int)pit_.size() - 1; i >= 0; --i) {
     if (pit_[i]->checkTimeout(this, nowMilliseconds)) {
       pit_.erase(pit_.begin() + i);

       // Refresh now since the timeout callback might have delayed.
       nowMilliseconds = getNowMilliseconds();
     }
   }
 }

 void Node::onReceivedElement(const unsigned char *element, unsigned int elementLength)
 {
   BinaryXmlDecoder decoder(element, elementLength);

   if (decoder.peekDTag(ndn_BinaryXml_DTag_ContentObject)) {
     shared_ptr<Data> data(new Data());
     data->wireDecode(element, elementLength);

     int iPitEntry = getEntryIndexForExpressedInterest(data->getName());
     if (iPitEntry >= 0) {
       UpcallInfo upcallInfo(this, pit_[iPitEntry]->getInterest(), 0, data);

       // Remove the PIT entry before the calling the callback.
       Closure *closure = pit_[iPitEntry]->getClosure();
       pit_.erase(pit_.begin() + iPitEntry);
       closure->upcall(UPCALL_DATA, upcallInfo);
     }
   }
 }

 void Node::shutdown()
 {
   transport_->close();
 }

 int Node::getEntryIndexForExpressedInterest(const Name &name)
 {
   // TODO: Doesn't this belong in the Name class?
   vector<struct ndn_NameComponent> nameComponents;
   nameComponents.reserve(name.getComponentCount());
   struct ndn_Name nameStruct;
   ndn_Name_init(&nameStruct, &nameComponents[0], nameComponents.capacity());
   name.get(nameStruct);

   int iResult = -1;

 	for (unsigned int i = 0; i < pit_.size(); ++i) {
 		if (ndn_Interest_matchesName((struct ndn_Interest *)&pit_[i]->getInterestStruct(), &nameStruct)) {
       if (iResult < 0 ||
           pit_[i]->getInterestStruct().name.nComponents > pit_[iResult]->getInterestStruct().name.nComponents)
         // Update to the longer match.
         iResult = i;
     }
 	}

 	return iResult;
 }

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

	#include <sys/time.h>
	#include "encoding/binary-xml-decoder.hpp"
	#include "c/encoding/binary-xml.h"
	#include "data.hpp"
	#include "node.hpp"

	using namespace std;
	using namespace ndn::ptr_lib;

	namespace ndn {

	// Use gettimeofday to return the current time in milliseconds.
	static inline double getNowMilliseconds()
	{
	timeval t;
	gettimeofday(&t, NULL);
	return t.tv_sec * 1000.0 + t.tv_usec / 1000.0;
	}

	Node::PitEntry::PitEntry(const ptr_lib::shared_ptr<const Interest> &interest, Closure *closure)
	: interest_(interest), closure_(closure)
	{
	// Set up timeoutTime_.
	if (interest_->getInterestLifetimeMilliseconds() >= 0.0)
	timeoutTimeMilliseconds_ = getNowMilliseconds() + interest_->getInterestLifetimeMilliseconds();
	else
	// No timeout.
	timeoutTimeMilliseconds_ = -1.0;

	// Set up interestStruct_.
	// TODO: Doesn't this belong in the Interest class?
	nameComponents_.reserve(interest_->getName().getComponentCount());
	excludeEntries_.reserve(interest_->getExclude().getEntryCount());
	ndn_Interest_init
	(&interestStruct_, &nameComponents_[0], nameComponents_.capacity(), &excludeEntries_[0], excludeEntries_.capacity());
	interest_->get(interestStruct_);
	}

	bool Node::PitEntry::checkTimeout(Node *parent, double nowMilliseconds)
	{
	if (timeoutTimeMilliseconds_ >= 0.0 && nowMilliseconds >= timeoutTimeMilliseconds_) {
	shared_ptr<Data> dummyData;
	UpcallInfo upcallInfo(parent, interest_, 0, dummyData);

	// Ignore all exceptions.
	try {
	closure_->upcall(UPCALL_INTEREST_TIMED_OUT, upcallInfo);
	}
	catch (...) { }

	return true;
	}
	else
	return false;
	}

	void Node::expressInterest(const Name &name, Closure closure, const Interest interestTemplate)
	{
	shared_ptr<const Interest> interest;
	if (interestTemplate)
	interest.reset(new Interest
	(name, interestTemplate->getMinSuffixComponents(), interestTemplate->getMaxSuffixComponents(),
	interestTemplate->getPublisherPublicKeyDigest(), interestTemplate->getExclude(),
	interestTemplate->getChildSelector(), interestTemplate->getAnswerOriginKind(),
	interestTemplate->getScope(), interestTemplate->getInterestLifetimeMilliseconds()));
	else
	interest.reset(new Interest(name, 4000.0));

	shared_ptr<PitEntry> pitEntry(new PitEntry(interest, closure));
	pit_.push_back(pitEntry);

	shared_ptr<vector<unsigned char> > encoding = pitEntry->getInterest()->wireEncode();

	// TODO: Properly check if we are already connected to the expected host.
	if (!transport_->getIsConnected())
	transport_->connect(connectionInfo_, this);

	transport_->send(*encoding);
	}

	void Node::processEvents()
	{
	transport_->processEvents();

	// Check for PIT entry timeouts. Go backwards through the list so we can erase entries.
	double nowMilliseconds = getNowMilliseconds();
	for (int i = (int)pit_.size() - 1; i >= 0; --i) {
	if (pit_[i]->checkTimeout(this, nowMilliseconds)) {
	pit_.erase(pit_.begin() + i);

	// Refresh now since the timeout callback might have delayed.
	nowMilliseconds = getNowMilliseconds();
	}
	}
	}

	void Node::onReceivedElement(const unsigned char *element, unsigned int elementLength)
	{
	BinaryXmlDecoder decoder(element, elementLength);

	if (decoder.peekDTag(ndn_BinaryXml_DTag_ContentObject)) {
	shared_ptr<Data> data(new Data());
	data->wireDecode(element, elementLength);

	int iPitEntry = getEntryIndexForExpressedInterest(data->getName());
	if (iPitEntry >= 0) {
	UpcallInfo upcallInfo(this, pit_[iPitEntry]->getInterest(), 0, data);

	// Remove the PIT entry before the calling the callback.
	Closure *closure = pit_[iPitEntry]->getClosure();
	pit_.erase(pit_.begin() + iPitEntry);
	closure->upcall(UPCALL_DATA, upcallInfo);
	}
	}
	}

	void Node::shutdown()
	{
	transport_->close();
	}

	int Node::getEntryIndexForExpressedInterest(const Name &name)
	{
	// TODO: Doesn't this belong in the Name class?
	vector<struct ndn_NameComponent> nameComponents;
	nameComponents.reserve(name.getComponentCount());
	struct ndn_Name nameStruct;
	ndn_Name_init(&nameStruct, &nameComponents[0], nameComponents.capacity());
	name.get(nameStruct);

	int iResult = -1;

	for (unsigned int i = 0; i < pit_.size(); ++i) {
	if (ndn_Interest_matchesName((struct ndn_Interest *)&pit_[i]->getInterestStruct(), &nameStruct)) {
	if (iResult < 0 \|\|
	pit_[i]->getInterestStruct().name.nComponents > pit_[iResult]->getInterestStruct().name.nComponents)
	// Update to the longer match.
	iResult = i;
	}
	}

	return iResult;
	}

	}