Пример #1
0
void
Node::expressInterestHelper
  (uint64_t pendingInterestId,
   const ptr_lib::shared_ptr<const Interest>& interestCopy,
   const OnData& onData, const OnTimeout& onTimeout, WireFormat* wireFormat,
   Face* face)
{
  ptr_lib::shared_ptr<PendingInterest> pendingInterest(new PendingInterest
    (pendingInterestId, interestCopy, onData, onTimeout));
  pendingInterestTable_.push_back(pendingInterest);
  if (interestCopy->getInterestLifetimeMilliseconds() >= 0.0)
    // Set up the timeout.
    face->callLater
      (interestCopy->getInterestLifetimeMilliseconds(),
       bind(&Node::processInterestTimeout, this, pendingInterest));

  // Special case: For timeoutPrefix_ we don't actually send the interest.
  if (!timeoutPrefix_.match(interestCopy->getName())) {
    Blob encoding = interestCopy->wireEncode(*wireFormat);
    if (encoding.size() > getMaxNdnPacketSize())
      throw runtime_error
        ("The encoded interest size exceeds the maximum limit getMaxNdnPacketSize()");
    transport_->send(*encoding);
  }
}
Пример #2
0
void
Chat::onData
  (const ptr_lib::shared_ptr<const Interest>& interest,
   const ptr_lib::shared_ptr<Data>& data)
{
  SyncDemo::ChatMessage content;
  content.ParseFromArray(data->getContent().buf(), data->getContent().size());
  if (getNowMilliseconds() - content.timestamp() * 1000.0 < 120000.0) {
    string name = content.from();
    string prefix = data->getName().getPrefix(-2).toUri();
    int sessionNo = ::atoi(data->getName().get(-2).toEscapedString().c_str());
    int sequenceNo = ::atoi(data->getName().get(-1).toEscapedString().c_str());
    ostringstream tempStream;
    tempStream << name << sessionNo;
    string nameAndSession = tempStream.str();

    size_t l = 0;
    //update roster
    while (l < roster_.size()) {
      string tempName2 = roster_[l].substr(0, roster_[l].size() - 10);
      int tempSessionNo = ::atoi(roster_[l].substr(roster_[l].size() - 10, 10).c_str());
      if (name != tempName2 && content.type() != SyncDemo::ChatMessage_ChatMessageType_LEAVE)
        ++l;
      else {
        if (name == tempName2 && sessionNo > tempSessionNo)
          roster_[l] = nameAndSession;
        break;
      }
    }

    if (l == roster_.size()) {
      roster_.push_back(nameAndSession);
      cout << name << ": Join" << endl;
    }

    // Set the alive timeout using the Interest timeout mechanism.
    // TODO: Are we sure using a "/local/timeout" interest is the best future call approach?
    Interest timeout("/local/timeout");
    timeout.setInterestLifetimeMilliseconds(120000);
    face_.expressInterest
      (timeout, dummyOnData,
       bind(&Chat::alive, shared_from_this(), _1, sequenceNo, name, sessionNo, prefix));

    // isRecoverySyncState_ was set by sendInterest.
    // TODO: If isRecoverySyncState_ changed, this assumes that we won't get
    //   data from an interest sent before it changed.
    if (content.type() == SyncDemo::ChatMessage_ChatMessageType_CHAT &&
        !isRecoverySyncState_ && content.from() != screenName_)
      cout << content.from() << ": " << content.data() << endl;
    else if (content.type() == SyncDemo::ChatMessage_ChatMessageType_LEAVE) {
      // leave message
      int n = rosterFind(nameAndSession);
      if (n >= 0 && name != screenName_) {
        roster_.erase(roster_.begin() + n);
        cout << name << ": Leave" << endl;
      }
    }
  }
}
Пример #3
0
 void onData(const ptr_lib::shared_ptr<const Interest>& interest, const ptr_lib::shared_ptr<Data>& data)
 {
   ++callbackCount_;
   cout << "Got data packet with name " << data->getName().toUri() << endl;
   for (size_t i = 0; i < data->getContent().size(); ++i)
     cout << (*data->getContent())[i];
   cout << endl;
 }
Пример #4
0
void 
NdndIdFetcher::operator()(const ptr_lib::shared_ptr<const Interest>& interest, const ptr_lib::shared_ptr<Data>& ndndIdData)
{
  if (ndndIdData->getSignature().getType() == Signature::Sha256WithRsa)
    {
      ndndId_.resize(32);
      ndn_digestSha256(ndndIdData->getContent().value(), ndndIdData->getContent().value_size(), ndndId_.buf());
      onSuccess_();
    }
  else
    onFailure_();
}
ptr_lib::shared_ptr<ValidationRequest>
SelfVerifyPolicyManager::checkVerificationPolicy
  (const ptr_lib::shared_ptr<Data>& data, int stepCount, const OnVerified& onVerified, const OnVerifyFailed& onVerifyFailed)
{
  // wireEncode returns the cached encoding if available.
  if (verify(data->getSignature(), data->wireEncode()))
    onVerified(data);
  else
    onVerifyFailed(data);

  // No more steps, so return a null ValidationRequest.
  return ptr_lib::shared_ptr<ValidationRequest>();
}
/**
 * This is called when the face create command responds to decode the
 * encodedControlResonse as a TLV ControlResponse message containing one
 * ControlParameters. Get the face ID and call registerRoute().
 * @param expressedInterest The interest given to expressInterest.
 * @param responseData The response Data packet whose content is the
 * TLV-encoded ControlResponse.
 * @param prefix The prefix name to register.
 * @param face The Face which is used to sign the command interest and call
 * expressInterest.
 * @param enabled On success or error, set *enabled = false.
 */
static void
processCreateFaceResponse
  (const ptr_lib::shared_ptr<const Interest>& expressedInterest,
   const ptr_lib::shared_ptr<Data>& responseData, const Name& prefix, Face* face,
   bool* enabled)
{
  ndn_message::ControlParametersTypes_ControlParametersResponseMessage
    controlResponseMessage;
  ProtobufTlv::decode(controlResponseMessage, responseData->getContent());
  const ndn_message::ControlParametersTypes_ControlParametersResponse&
    controlResponse = controlResponseMessage.control_response();

  const int lowestErrorCode = 400;
  if (controlResponse.status_code() >= lowestErrorCode) {
    cout << "Face create command got error, code " <<
      controlResponse.status_code() << ": " + controlResponse.status_text() <<
      endl;
    *enabled = false;
    return;
  }
  if (controlResponse.control_parameters_size() != 1) {
    cout << "Face create command response does not have one ControlParameters" <<
      endl;
    *enabled = false;
    return;
  }

  boost::uint64_t faceId = controlResponse.control_parameters(0).face_id();

  cout << "Created face ID " << faceId << endl;
  registerRoute(prefix, faceId, face, enabled);
}
Пример #7
0
void
PrivateKeyStorage::decodeEcPrivateKey
  (const ptr_lib::shared_ptr<DerNode>& algorithmParameters,
   const Blob& privateKeyDer, EcPrivateKeyLite& privateKey)
{
  // Find the curveId in EC_KEY_INFO.
  int curveId = -1;
  string oidString = algorithmParameters->toVal().toRawStr();
  for (size_t i = 0 ; i < ndn_getEcKeyInfoCount(); ++i) {
    const struct ndn_EcKeyInfo *info = ndn_getEcKeyInfo(i);
    OID curveOid(info->oidIntegerList, info->oidIntegerListLength);
    if (curveOid.toString() == oidString) {
      curveId = info->curveId;
      break;
    }
  }
  if (curveId == -1)
    throw SecurityException
      ("FilePrivateKeyStorage::decodeEcPrivateKey: Unrecognized EC algorithm parameters");

  // Get the value in the octet string.
  ptr_lib::shared_ptr<DerNode> parsedNode = DerNode::parse(privateKeyDer.buf(), 0);
  DerNode::DerOctetString* octetString = dynamic_cast<DerNode::DerOctetString*>
    (parsedNode->getChildren()[1].get());
  if (!octetString)
    throw SecurityException
      ("FilePrivateKeyStorage::decodeEcPrivateKey: Can't get the private key octet string");
  Blob octetStringValue = octetString->toVal();

  ndn_Error error;
  if ((error = privateKey.setByCurve(curveId, octetStringValue)))
    throw SecurityException
      (string("PrivateKeyStorage::decodeEcPrivateKey ") + ndn_getErrorString(error));
}
Пример #8
0
/**
 * This is called when a new prefix list (or the first list) is reported by the
 * local NFD.
 * @param prefix The new prefix list.
 */
static void
onPrefixes(const ptr_lib::shared_ptr<vector<Name> >& prefixes)
{
  cout << "Got prefix(es):";
  for (size_t i = 0; i < prefixes->size(); ++i)
    cout << " " << (*prefixes)[i].toUri();
  cout << endl;
}
Пример #9
0
 /**
  * Create a new Entry with the given values.
  * @param interestFilterId The ID from Node::getNextEntryId().
  * @param filter A shared_ptr for the InterestFilter for this entry.
  * @param onInterest A function object to call when a matching data packet
  * is received.
  * @param face The face on which was called registerPrefix or
  * setInterestFilter which is passed to the onInterest callback.
  */
 Entry
   (uint64_t interestFilterId,
    const ptr_lib::shared_ptr<const InterestFilter>& filter,
    const OnInterestCallback& onInterest, Face* face)
 : interestFilterId_(interestFilterId), filter_(filter),
   prefix_(new Name(filter->getPrefix())), onInterest_(onInterest), face_(face)
 {
 }
Пример #10
0
void
Chat::messageCacheAppend(int messageType, const string& message)
{
  messageCache_.push_back(ptr_lib::make_shared<CachedMessage>
    (sync_->getSequenceNo(), messageType, message, getNowMilliseconds()));
  while (messageCache_.size() > maxMessageCacheLength_)
    messageCache_.erase(messageCache_.begin());
}
Пример #11
0
void
SecPublicInfo::refreshDefaultCertificate()
{
  Name certName = getDefaultCertificateNameForIdentity(getDefaultIdentity());
  if(certName.empty())
    defaultCertificate_.reset();
  else
    defaultCertificate_ = getCertificate(certName);
}
Пример #12
0
void
Chat::onInterest
  (const ptr_lib::shared_ptr<const Name>& prefix,
   const ptr_lib::shared_ptr<const Interest>& interest, Face& face,
   uint64_t interestFilterId,
   const ptr_lib::shared_ptr<const InterestFilter>& filter)
{
  SyncDemo::ChatMessage content;
  int sequenceNo = ::atoi(interest->getName().get(chatPrefix_.size() + 1).toEscapedString().c_str());
  for (int i = messageCache_.size() - 1; i >= 0; --i) {
    if (messageCache_[i]->getSequenceNo() == sequenceNo) {
      if (messageCache_[i]->getMessageType() != SyncDemo::ChatMessage_ChatMessageType_CHAT) {
        content.set_from(screenName_);
        content.set_to(chatRoom_);
        content.set_type((SyncDemo::ChatMessage_ChatMessageType)messageCache_[i]->getMessageType());
        content.set_timestamp(::round(messageCache_[i]->getTime() / 1000.0));
      }
      else {
        content.set_from(screenName_);
        content.set_to(chatRoom_);
        content.set_type((SyncDemo::ChatMessage_ChatMessageType)messageCache_[i]->getMessageType());
        content.set_data(messageCache_[i]->getMessage());
        content.set_timestamp(::round(messageCache_[i]->getTime() / 1000.0));
      }
      break;
    }
  }

  if (content.from().size() != 0) {
    ptr_lib::shared_ptr<vector<uint8_t> > array(new vector<uint8_t>(content.ByteSize()));
    content.SerializeToArray(&array->front(), array->size());
    Data data(interest->getName());
    data.setContent(Blob(array, false));
    keyChain_.sign(data, certificateName_);
    try {
      face.putData(data);
    }
    catch (std::exception& e) {
      cout << "Error sending the chat data " << e.what() << endl;
    }
  }
}
Пример #13
0
Name
SecPublicInfo::getDefaultCertificateName()
{
  if(!static_cast<bool>(defaultCertificate_))
    refreshDefaultCertificate();

  if(!static_cast<bool>(defaultCertificate_))
    return Name();

  return defaultCertificate_->getName();
}
Пример #14
0
void
Node::RegisterResponse::operator()(const ptr_lib::shared_ptr<const Interest>& interest, const ptr_lib::shared_ptr<Data>& responseData)
{
  // Decode responseData->getContent() and check for a success code.
  // TODO: Move this into the TLV code.
  struct ndn_TlvDecoder decoder;
  ndn_TlvDecoder_initialize
    (&decoder, responseData->getContent().buf(),
     responseData->getContent().size());
  ndn_Error error;
  size_t endOffset;
  if ((error = ndn_TlvDecoder_readNestedTlvsStart
      (&decoder, ndn_Tlv_NfdCommand_ControlResponse, &endOffset))) {
    _LOG_DEBUG
      ("Register prefix failed: Error decoding the NFD response: " <<
       ndn_getErrorString(error));
    info_->onRegisterFailed_(info_->prefix_);
    return;
  }
  uint64_t statusCode;
  if ((error = ndn_TlvDecoder_readNonNegativeIntegerTlv
       (&decoder, ndn_Tlv_NfdCommand_StatusCode, &statusCode))) {
    _LOG_DEBUG
      ("Register prefix failed: Error decoding the NFD response: " <<
       ndn_getErrorString(error));
    info_->onRegisterFailed_(info_->prefix_);
    return;
  }

  // Status code 200 is "OK".
  if (statusCode != 200) {
    _LOG_DEBUG
      ("Register prefix failed: Expected NFD status code 200, got: " <<
       statusCode);
    info_->onRegisterFailed_(info_->prefix_);
    return;
  }

  _LOG_DEBUG("Register prefix succeeded with the NFD forwarder for prefix " <<
             info_->prefix_->toUri());
}
Пример #15
0
void
Node::processInterestTimeout(ptr_lib::shared_ptr<PendingInterest> pendingInterest)
{
  if (pendingInterest->getIsRemoved())
    // extractEntriesForExpressedInterest or removePendingInterest has removed 
    // pendingInterest from pendingInterestTable_, so we don't need to look for
    // it. Do nothing.
    return;

  // Find the entry.
  for (vector<ptr_lib::shared_ptr<PendingInterest> >::iterator entry =
         pendingInterestTable_.begin();
       entry != pendingInterestTable_.end();
       ++entry) {
    if (entry->get() == pendingInterest.get()) {
      pendingInterestTable_.erase(entry);
      pendingInterest->callTimeout();
      return;
    }
  }

  // The pending interest has been removed. Do nothing.
}
ptr_lib::shared_ptr<ValidationRequest>
SelfVerifyPolicyManager::checkVerificationPolicy
  (const ptr_lib::shared_ptr<Interest>& interest, int stepCount,
   const OnVerifiedInterest& onVerified,
   const OnVerifyInterestFailed& onVerifyFailed, WireFormat& wireFormat)
{
  // Decode the last two name components of the signed interest
  ptr_lib::shared_ptr<Signature> signature =
    wireFormat.decodeSignatureInfoAndValue
      (interest->getName().get(-2).getValue().buf(),
       interest->getName().get(-2).getValue().size(),
       interest->getName().get(-1).getValue().buf(),
       interest->getName().get(-1).getValue().size());

  // wireEncode returns the cached encoding if available.
  if (verify(signature.get(), interest->wireEncode()))
    onVerified(interest);
  else
    onVerifyFailed(interest);
  
  // No more steps, so return a null ValidationRequest.
  return ptr_lib::shared_ptr<ValidationRequest>();
}
Пример #17
0
void
Chat::sendMessage(const string& chatMessage)
{
  if (messageCache_.size() == 0)
    messageCacheAppend(SyncDemo::ChatMessage_ChatMessageType_JOIN, "xxx");

  // Ignore an empty message.
  // forming Sync Data Packet.
  if (chatMessage != "") {
    sync_->publishNextSequenceNo();
    messageCacheAppend(SyncDemo::ChatMessage_ChatMessageType_CHAT, chatMessage);
    cout << screenName_ << ": " << chatMessage << endl;
  }
}
Пример #18
0
  void
  onInterest(const ptr_lib::shared_ptr<const Name> &name, const ptr_lib::shared_ptr<const Interest> &interest)
  {
    std::cout << "<< I: " << *interest << std::endl;
    
    ndn::Data data(ndn::Name(interest->getName()).append("testApp").appendVersion());
    data.setFreshnessPeriod(1000); // 10 sec

    data.setContent((const uint8_t*)"HELLO KITTY", sizeof("HELLO KITTY"));

    keyChain_.sign(data);

    std::cout << ">> D: " << data << std::endl;
    face_.put(data);
  }
Пример #19
0
void
Chat::heartbeat(const ptr_lib::shared_ptr<const Interest> &interest)
{
  if (messageCache_.size() == 0)
    messageCacheAppend(SyncDemo::ChatMessage_ChatMessageType_JOIN, "xxx");

  sync_->publishNextSequenceNo();
  messageCacheAppend(SyncDemo::ChatMessage_ChatMessageType_HELLO, "xxx");

  // Call again.
  // TODO: Are we sure using a "/local/timeout" interest is the best future call approach?
  Interest timeout("/local/timeout");
  timeout.setInterestLifetimeMilliseconds(60000);
  face_.expressInterest(timeout, dummyOnData, bind(&Chat::heartbeat, shared_from_this(), _1));
}
Пример #20
0
  void
  checkEncryptionKeys
    (const vector<ptr_lib::shared_ptr<Data> >& result, 
     MillisecondsSince1970 testTime, const Name::Component roundedTime,
     int expectedExpressInterestCallCount, const int* expressInterestCallCount,
     Blob* contentKey, Name cKeyName, ptr_lib::shared_ptr<ProducerDb> testDb)
  {
    ASSERT_EQ(expectedExpressInterestCallCount, *expressInterestCallCount);

    ASSERT_EQ(true, testDb->hasContentKey(testTime));
    (*contentKey) = testDb->getContentKey(testTime);

    EncryptParams params(ndn_EncryptAlgorithmType_RsaOaep);
    for (size_t i = 0; i < result.size(); ++i) {
      const Data& key = *result[i];
      const Name& keyName = key.getName();
      ASSERT_EQ(cKeyName, keyName.getSubName(0, 6));
      ASSERT_EQ(keyName.get(6), roundedTime);
      ASSERT_EQ(keyName.get(7), Encryptor::getNAME_COMPONENT_FOR());
      ASSERT_EQ(true, decryptionKeys.find(keyName.getSubName(8)) != decryptionKeys.end());

      Blob decryptionKey = decryptionKeys[keyName.getSubName(8)];
      ASSERT_EQ(true, decryptionKey.size() != 0);
      const Blob& encryptedKeyEncoding = key.getContent();

      EncryptedContent content;
      content.wireDecode(encryptedKeyEncoding);
      Blob encryptedKey = content.getPayload();
      Blob retrievedKey = RsaAlgorithm::decrypt
        (decryptionKey, encryptedKey, params);

      ASSERT_TRUE(contentKey->equals(retrievedKey));
    }

    ASSERT_EQ(3, result.size());
  }
Пример #21
0
void
BoostInfoTree::addSubtree
  (const string& treeName, ptr_lib::shared_ptr<BoostInfoTree> newTree)
{
  vector<ptr_lib::shared_ptr<BoostInfoTree> >* subtreeList = find(treeName);
  if (subtreeList)
    subtreeList->push_back(newTree);
  else {
    subtrees_.push_back(make_pair
      (treeName, vector<ptr_lib::shared_ptr<BoostInfoTree> >()));
    subtrees_.back().second.push_back(newTree);
  }

  newTree->parent_ = this;
  lastChild_ = newTree.get();
}
Пример #22
0
void
Chat::alive
  (const ptr_lib::shared_ptr<const Interest> &interest, int tempSequenceNo,
   const string& name, int sessionNo, const string& prefix)
{
  int sequenceNo = sync_->getProducerSequenceNo(prefix, sessionNo);
  ostringstream tempStream;
  tempStream << name << sessionNo;
  string nameAndSession = tempStream.str();
  int n = rosterFind(nameAndSession);
  if (sequenceNo != -1 && n >= 0) {
    if (tempSequenceNo == sequenceNo){
      roster_.erase(roster_.begin() + n);
      cout << name << ": Leave" << endl;
    }
  }
}
/**
 * This is called when the register route command responds to decode the
 * encodedControlResponse as a TLV ControlParametersResponse message
 * containing one ControlParameters. On success, print the ControlParameters
 * values which should be the same as requested.
 * @param expressedInterest The interest given to expressInterest.
 * @param responseData The response Data packet whose content is the TLV-encoded
 * ControlParametersResponse.
 * @param enabled On success or error, set *enabled = false.
 */
static void
processRegisterResponse
  (const ptr_lib::shared_ptr<const Interest>& expressedInterest,
   const ptr_lib::shared_ptr<Data>& responseData, bool* enabled)
{
  // We are finished in all cases.
  *enabled = false;

  ndn_message::ControlParametersTypes_ControlParametersResponseMessage
    decodedControlResponse;
  ProtobufTlv::decode(decodedControlResponse, responseData->getContent());
  const ndn_message::ControlParametersTypes_ControlParametersResponse&
    controlResponse = decodedControlResponse.control_response();

  const boost::uint64_t lowestErrorCode = 400;
  if (controlResponse.status_code() >= lowestErrorCode) {
    cout << "Face create command got error, code " <<
      controlResponse.status_code() <<": " + controlResponse.status_text();
    return;
  }
  if (controlResponse.control_parameters_size() != 1) {
    cout << "Face create command response does not have one ControlParameters";
    return;
  }

  // Success. Print the ControlParameters response.
  const ndn_message::ControlParametersTypes_ControlParameters& controlParameters =
    controlResponse.control_parameters(0);
  string name = "";
  for (size_t i = 0; i < controlParameters.name().component_size(); ++i)
    name += "/" + controlParameters.name().component(i);

  cout << "Successful in name registration: ControlParameters(Name: " << name <<
     ", FaceId: " << controlParameters.face_id() <<
     ", Origin: " << controlParameters.origin() <<
     ", Cost: " << controlParameters.cost() <<
     ", Flags: " << controlParameters.flags() << ")" << endl;
}
Пример #24
0
static void
onRegisterFailed(const ptr_lib::shared_ptr<const Name>& prefix)
{
  cout << "Register failed for prefix " << prefix->toUri() << endl;
}
Пример #25
0
void
Chat::leave()
{
  sync_->publishNextSequenceNo();
  messageCacheAppend(SyncDemo::ChatMessage_ChatMessageType_LEAVE, "xxx");
}
Пример #26
0
void
MemoryContentCache::operator()
  (const ptr_lib::shared_ptr<const Name>& prefix,
   const ptr_lib::shared_ptr<const Interest>& interest, Face& face,
   boost::uint64_t interestFilterId,
   const ptr_lib::shared_ptr<const InterestFilter>& filter)
{
  doCleanup();

  const Name::Component* selectedComponent = 0;
  Blob selectedEncoding;
  // We need to iterate over both arrays.
  size_t totalSize = staleTimeCache_.size() + noStaleTimeCache_.size();
  for (size_t i = 0; i < totalSize; ++i) {
    const Content* content;
    if (i < staleTimeCache_.size())
      content = staleTimeCache_[i].get();
    else
      // We have iterated over the first array. Get from the second.
      content = noStaleTimeCache_[i - staleTimeCache_.size()].get();

    if (interest->matchesName(content->getName())) {
      if (interest->getChildSelector() < 0) {
        // No child selector, so send the first match that we have found.
        face.send(*content->getDataEncoding());
        return;
      }
      else {
        // Update selectedEncoding based on the child selector.
        const Name::Component* component;
        if (content->getName().size() > interest->getName().size())
          component = &content->getName().get(interest->getName().size());
        else
          component = &emptyComponent_;

        bool gotBetterMatch = false;
        if (!selectedEncoding)
          // Save the first match.
          gotBetterMatch = true;
        else {
          if (interest->getChildSelector() == 0) {
            // Leftmost child.
            if (*component < *selectedComponent)
              gotBetterMatch = true;
          }
          else {
            // Rightmost child.
            if (*component > *selectedComponent)
              gotBetterMatch = true;
          }
        }

        if (gotBetterMatch) {
          selectedComponent = component;
          selectedEncoding = content->getDataEncoding();
        }
      }
    }
  }

  if (selectedEncoding)
    // We found the leftmost or rightmost child.
    face.send(*selectedEncoding);
  else {
    // Call the onDataNotFound callback (if defined).
    map<string, OnInterestCallback>::iterator onDataNotFound =
      onDataNotFoundForPrefix_.find(prefix->toUri());
    if (onDataNotFound != onDataNotFoundForPrefix_.end() &&
        onDataNotFound->second)
      onDataNotFound->second(prefix, interest, face, interestFilterId, filter);
  }
}
Пример #27
0
 void onTimeout(const ptr_lib::shared_ptr<const Interest>& interest)
 {
   ++callbackCount_;
   cout << "Time out for interest " << interest->getName().toUri() << endl;
 }