src/management/nfd-forwarder-status.hpp - ndn-cxx - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -*- */
 /**
  * Copyright (c) 2013-2014,  Regents of the University of California.
  * All rights reserved.
  *
  * This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
  * See AUTHORS.md for complete list of ndn-cxx authors and contributors.
  *
  * This file licensed under New BSD License.  See COPYING for detailed information about
  * ndn-cxx library copyright, permissions, and redistribution restrictions.
  */

 #ifndef NDN_MANAGEMENT_NFD_FORWARDER_STATUS_HPP
 #define NDN_MANAGEMENT_NFD_FORWARDER_STATUS_HPP

 #include "../encoding/tlv-nfd.hpp"
 #include "../encoding/encoding-buffer.hpp"

 namespace ndn {
 namespace nfd {

 /** \brief represents NFD Forwarder Status
  *  \sa http://redmine.named-data.net/projects/nfd/wiki/ForwarderStatus
  */
 class ForwarderStatus
 {
 public:
   class Error : public Tlv::Error
   {
   public:
     explicit
     Error(const std::string& what)
       : Tlv::Error(what)
     {
     }
   };

   ForwarderStatus();

   explicit
   ForwarderStatus(const Block& payload)
   {
     this->wireDecode(payload);
   }

   /** \brief prepend ForwarderStatus as a Content block to the encoder
    *
    *  The outermost Content element isn't part of ForwardStatus structure.
    */
   template<bool T>
   size_t
   wireEncode(EncodingImpl<T>& encoder) const;

   /** \brief encode ForwarderStatus as a Content block
    *
    *  The outermost Content element isn't part of ForwardStatus structure.
    */
   const Block&
   wireEncode() const;

   /** \brief decode ForwarderStatus from a Content block
    *
    *  The outermost Content element isn't part of ForwardStatus structure.
    */
   void
   wireDecode(const Block& wire);

 public: // getters & setters
   int
   getNfdVersion() const
   {
     return m_nfdVersion;
   }

   ForwarderStatus&
   setNfdVersion(int nfdVersion)
   {
     m_wire.reset();
     m_nfdVersion = nfdVersion;
     return *this;
   }

   const time::system_clock::TimePoint&
   getStartTimestamp() const
   {
     return m_startTimestamp;
   }

   ForwarderStatus&
   setStartTimestamp(const time::system_clock::TimePoint& startTimestamp)
   {
     m_wire.reset();
     m_startTimestamp = startTimestamp;
     return *this;
   }

   const time::system_clock::TimePoint&
   getCurrentTimestamp() const
   {
     return m_currentTimestamp;
   }

   ForwarderStatus&
   setCurrentTimestamp(const time::system_clock::TimePoint& currentTimestamp)
   {
     m_wire.reset();
     m_currentTimestamp = currentTimestamp;
     return *this;
   }

   size_t
   getNNameTreeEntries() const
   {
     return m_nNameTreeEntries;
   }

   ForwarderStatus&
   setNNameTreeEntries(size_t nNameTreeEntries)
   {
     m_wire.reset();
     m_nNameTreeEntries = nNameTreeEntries;
     return *this;
   }

   size_t
   getNFibEntries() const
   {
     return m_nFibEntries;
   }

   ForwarderStatus&
   setNFibEntries(size_t nFibEntries)
   {
     m_wire.reset();
     m_nFibEntries = nFibEntries;
     return *this;
   }

   size_t
   getNPitEntries() const
   {
     return m_nPitEntries;
   }

   ForwarderStatus&
   setNPitEntries(size_t nPitEntries)
   {
     m_wire.reset();
     m_nPitEntries = nPitEntries;
     return *this;
   }

   size_t
   getNMeasurementsEntries() const
   {
     return m_nMeasurementsEntries;
   }

   ForwarderStatus&
   setNMeasurementsEntries(size_t nMeasurementsEntries)
   {
     m_wire.reset();
     m_nMeasurementsEntries = nMeasurementsEntries;
     return *this;
   }

   size_t
   getNCsEntries() const
   {
     return m_nCsEntries;
   }

   ForwarderStatus&
   setNCsEntries(size_t nCsEntries)
   {
     m_wire.reset();
     m_nCsEntries = nCsEntries;
     return *this;
   }

   uint64_t
   getNInInterests() const
   {
     return m_nInInterests;
   }

   ForwarderStatus&
   setNInInterests(uint64_t nInInterests)
   {
     m_wire.reset();
     m_nInInterests = nInInterests;
     return *this;
   }

   uint64_t
   getNInDatas() const
   {
     return m_nInDatas;
   }

   ForwarderStatus&
   setNInDatas(uint64_t nInDatas)
   {
     m_wire.reset();
     m_nInDatas = nInDatas;
     return *this;
   }

   uint64_t
   getNOutInterests() const
   {
     return m_nOutInterests;
   }

   ForwarderStatus&
   setNOutInterests(uint64_t nOutInterests)
   {
     m_wire.reset();
     m_nOutInterests = nOutInterests;
     return *this;
   }

   uint64_t
   getNOutDatas() const
   {
     return m_nOutDatas;
   }

   ForwarderStatus&
   setNOutDatas(uint64_t nOutDatas)
   {
     m_wire.reset();
     m_nOutDatas = nOutDatas;
     return *this;
   }

 private:
   int m_nfdVersion;
   time::system_clock::TimePoint m_startTimestamp;
   time::system_clock::TimePoint m_currentTimestamp;
   size_t m_nNameTreeEntries;
   size_t m_nFibEntries;
   size_t m_nPitEntries;
   size_t m_nMeasurementsEntries;
   size_t m_nCsEntries;
   uint64_t m_nInInterests;
   uint64_t m_nInDatas;
   uint64_t m_nOutInterests;
   uint64_t m_nOutDatas;

   mutable Block m_wire;
 };

 inline
 ForwarderStatus::ForwarderStatus()
   : m_nfdVersion(0)
   , m_startTimestamp(time::system_clock::TimePoint::min())
   , m_currentTimestamp(time::system_clock::TimePoint::min())
   , m_nNameTreeEntries(0)
   , m_nFibEntries(0)
   , m_nPitEntries(0)
   , m_nMeasurementsEntries(0)
   , m_nCsEntries(0)
   , m_nInInterests(0)
   , m_nInDatas(0)
   , m_nOutInterests(0)
   , m_nOutDatas(0)
 {
 }

 template<bool T>
 inline size_t
 ForwarderStatus::wireEncode(EncodingImpl<T>& encoder) const
 {
   size_t totalLength = 0;

   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NOutDatas,
                                                 m_nOutDatas);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NOutInterests,
                                                 m_nOutInterests);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NInDatas,
                                                 m_nInDatas);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NInInterests,
                                                 m_nInInterests);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NCsEntries,
                                                 m_nCsEntries);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NMeasurementsEntries,
                                                 m_nMeasurementsEntries);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NPitEntries,
                                                 m_nPitEntries);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NFibEntries,
                                                 m_nFibEntries);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NNameTreeEntries,
                                                 m_nNameTreeEntries);
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::CurrentTimestamp,
                                                 time::toUnixTimestamp(m_currentTimestamp).count());
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::StartTimestamp,
                                                 time::toUnixTimestamp(m_startTimestamp).count());
   totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NfdVersion,
                                                 m_nfdVersion);

   totalLength += encoder.prependVarNumber(totalLength);
   totalLength += encoder.prependVarNumber(Tlv::Content);
   return totalLength;
 }

 inline const Block&
 ForwarderStatus::wireEncode() const
 {
   if (m_wire.hasWire())
     return m_wire;

   EncodingEstimator estimator;
   size_t estimatedSize = wireEncode(estimator);

   EncodingBuffer buffer(estimatedSize, 0);
   wireEncode(buffer);

   m_wire = buffer.block();
   return m_wire;
 }

 inline void
 ForwarderStatus::wireDecode(const Block& block)
 {
   if (block.type() != Tlv::Content) {
     throw Error("expecting Content block for Status payload");
   }
   m_wire = block;
   m_wire.parse();
   Block::element_const_iterator val = m_wire.elements_begin();

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NfdVersion) {
     m_nfdVersion = static_cast<int>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NfdVersion field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::StartTimestamp) {
     m_startTimestamp = time::fromUnixTimestamp(time::milliseconds(readNonNegativeInteger(*val)));
     ++val;
   }
   else {
     throw Error("missing required StartTimestamp field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::CurrentTimestamp) {
     m_currentTimestamp = time::fromUnixTimestamp(time::milliseconds(readNonNegativeInteger(*val)));
     ++val;
   }
   else {
     throw Error("missing required CurrentTimestamp field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NNameTreeEntries) {
     m_nNameTreeEntries = static_cast<size_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NNameTreeEntries field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NFibEntries) {
     m_nFibEntries = static_cast<size_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NFibEntries field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NPitEntries) {
     m_nPitEntries = static_cast<size_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NPitEntries field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NMeasurementsEntries) {
     m_nMeasurementsEntries = static_cast<size_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NMeasurementsEntries field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NCsEntries) {
     m_nCsEntries = static_cast<size_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NCsEntries field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NInInterests) {
     m_nInInterests = static_cast<uint64_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NInInterests field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NInDatas) {
     m_nInDatas = static_cast<uint64_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NInDatas field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NOutInterests) {
     m_nOutInterests = static_cast<uint64_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NOutInterests field");
   }

   if (val != m_wire.elements_end() && val->type() == tlv::nfd::NOutDatas) {
     m_nOutDatas = static_cast<uint64_t>(readNonNegativeInteger(*val));
     ++val;
   }
   else {
     throw Error("missing required NOutDatas field");
   }
 }

 } // namespace nfd
 } // namespace ndn

 #endif // NDN_MANAGEMENT_NFD_FORWARDER_STATUS_HPP
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -- */
	/**
	* Copyright (c) 2013-2014, Regents of the University of California.
	* All rights reserved.
	*
	* This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
	* See AUTHORS.md for complete list of ndn-cxx authors and contributors.
	*
	* This file licensed under New BSD License. See COPYING for detailed information about
	* ndn-cxx library copyright, permissions, and redistribution restrictions.
	*/

	#ifndef NDN_MANAGEMENT_NFD_FORWARDER_STATUS_HPP
	#define NDN_MANAGEMENT_NFD_FORWARDER_STATUS_HPP

	#include "../encoding/tlv-nfd.hpp"
	#include "../encoding/encoding-buffer.hpp"

	namespace ndn {
	namespace nfd {

	/** \brief represents NFD Forwarder Status
	* \sa http://redmine.named-data.net/projects/nfd/wiki/ForwarderStatus
	*/
	class ForwarderStatus
	{
	public:
	class Error : public Tlv::Error
	{
	public:
	explicit
	Error(const std::string& what)
	: Tlv::Error(what)
	{
	}
	};

	ForwarderStatus();

	explicit
	ForwarderStatus(const Block& payload)
	{
	this->wireDecode(payload);
	}

	/** \brief prepend ForwarderStatus as a Content block to the encoder
	*
	* The outermost Content element isn't part of ForwardStatus structure.
	*/
	template<bool T>
	size_t
	wireEncode(EncodingImpl<T>& encoder) const;

	/** \brief encode ForwarderStatus as a Content block
	*
	* The outermost Content element isn't part of ForwardStatus structure.
	*/
	const Block&
	wireEncode() const;

	/** \brief decode ForwarderStatus from a Content block
	*
	* The outermost Content element isn't part of ForwardStatus structure.
	*/
	void
	wireDecode(const Block& wire);

	public: // getters & setters
	int
	getNfdVersion() const
	{
	return m_nfdVersion;
	}

	ForwarderStatus&
	setNfdVersion(int nfdVersion)
	{
	m_wire.reset();
	m_nfdVersion = nfdVersion;
	return *this;
	}

	const time::system_clock::TimePoint&
	getStartTimestamp() const
	{
	return m_startTimestamp;
	}

	ForwarderStatus&
	setStartTimestamp(const time::system_clock::TimePoint& startTimestamp)
	{
	m_wire.reset();
	m_startTimestamp = startTimestamp;
	return *this;
	}

	const time::system_clock::TimePoint&
	getCurrentTimestamp() const
	{
	return m_currentTimestamp;
	}

	ForwarderStatus&
	setCurrentTimestamp(const time::system_clock::TimePoint& currentTimestamp)
	{
	m_wire.reset();
	m_currentTimestamp = currentTimestamp;
	return *this;
	}

	size_t
	getNNameTreeEntries() const
	{
	return m_nNameTreeEntries;
	}

	ForwarderStatus&
	setNNameTreeEntries(size_t nNameTreeEntries)
	{
	m_wire.reset();
	m_nNameTreeEntries = nNameTreeEntries;
	return *this;
	}

	size_t
	getNFibEntries() const
	{
	return m_nFibEntries;
	}

	ForwarderStatus&
	setNFibEntries(size_t nFibEntries)
	{
	m_wire.reset();
	m_nFibEntries = nFibEntries;
	return *this;
	}

	size_t
	getNPitEntries() const
	{
	return m_nPitEntries;
	}

	ForwarderStatus&
	setNPitEntries(size_t nPitEntries)
	{
	m_wire.reset();
	m_nPitEntries = nPitEntries;
	return *this;
	}

	size_t
	getNMeasurementsEntries() const
	{
	return m_nMeasurementsEntries;
	}

	ForwarderStatus&
	setNMeasurementsEntries(size_t nMeasurementsEntries)
	{
	m_wire.reset();
	m_nMeasurementsEntries = nMeasurementsEntries;
	return *this;
	}

	size_t
	getNCsEntries() const
	{
	return m_nCsEntries;
	}

	ForwarderStatus&
	setNCsEntries(size_t nCsEntries)
	{
	m_wire.reset();
	m_nCsEntries = nCsEntries;
	return *this;
	}

	uint64_t
	getNInInterests() const
	{
	return m_nInInterests;
	}

	ForwarderStatus&
	setNInInterests(uint64_t nInInterests)
	{
	m_wire.reset();
	m_nInInterests = nInInterests;
	return *this;
	}

	uint64_t
	getNInDatas() const
	{
	return m_nInDatas;
	}

	ForwarderStatus&
	setNInDatas(uint64_t nInDatas)
	{
	m_wire.reset();
	m_nInDatas = nInDatas;
	return *this;
	}

	uint64_t
	getNOutInterests() const
	{
	return m_nOutInterests;
	}

	ForwarderStatus&
	setNOutInterests(uint64_t nOutInterests)
	{
	m_wire.reset();
	m_nOutInterests = nOutInterests;
	return *this;
	}

	uint64_t
	getNOutDatas() const
	{
	return m_nOutDatas;
	}

	ForwarderStatus&
	setNOutDatas(uint64_t nOutDatas)
	{
	m_wire.reset();
	m_nOutDatas = nOutDatas;
	return *this;
	}

	private:
	int m_nfdVersion;
	time::system_clock::TimePoint m_startTimestamp;
	time::system_clock::TimePoint m_currentTimestamp;
	size_t m_nNameTreeEntries;
	size_t m_nFibEntries;
	size_t m_nPitEntries;
	size_t m_nMeasurementsEntries;
	size_t m_nCsEntries;
	uint64_t m_nInInterests;
	uint64_t m_nInDatas;
	uint64_t m_nOutInterests;
	uint64_t m_nOutDatas;

	mutable Block m_wire;
	};

	inline
	ForwarderStatus::ForwarderStatus()
	: m_nfdVersion(0)
	, m_startTimestamp(time::system_clock::TimePoint::min())
	, m_currentTimestamp(time::system_clock::TimePoint::min())
	, m_nNameTreeEntries(0)
	, m_nFibEntries(0)
	, m_nPitEntries(0)
	, m_nMeasurementsEntries(0)
	, m_nCsEntries(0)
	, m_nInInterests(0)
	, m_nInDatas(0)
	, m_nOutInterests(0)
	, m_nOutDatas(0)
	{
	}

	template<bool T>
	inline size_t
	ForwarderStatus::wireEncode(EncodingImpl<T>& encoder) const
	{
	size_t totalLength = 0;

	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NOutDatas,
	m_nOutDatas);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NOutInterests,
	m_nOutInterests);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NInDatas,
	m_nInDatas);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NInInterests,
	m_nInInterests);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NCsEntries,
	m_nCsEntries);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NMeasurementsEntries,
	m_nMeasurementsEntries);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NPitEntries,
	m_nPitEntries);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NFibEntries,
	m_nFibEntries);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NNameTreeEntries,
	m_nNameTreeEntries);
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::CurrentTimestamp,
	time::toUnixTimestamp(m_currentTimestamp).count());
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::StartTimestamp,
	time::toUnixTimestamp(m_startTimestamp).count());
	totalLength += prependNonNegativeIntegerBlock(encoder, tlv::nfd::NfdVersion,
	m_nfdVersion);

	totalLength += encoder.prependVarNumber(totalLength);
	totalLength += encoder.prependVarNumber(Tlv::Content);
	return totalLength;
	}

	inline const Block&
	ForwarderStatus::wireEncode() const
	{
	if (m_wire.hasWire())
	return m_wire;

	EncodingEstimator estimator;
	size_t estimatedSize = wireEncode(estimator);

	EncodingBuffer buffer(estimatedSize, 0);
	wireEncode(buffer);

	m_wire = buffer.block();
	return m_wire;
	}

	inline void
	ForwarderStatus::wireDecode(const Block& block)
	{
	if (block.type() != Tlv::Content) {
	throw Error("expecting Content block for Status payload");
	}
	m_wire = block;
	m_wire.parse();
	Block::element_const_iterator val = m_wire.elements_begin();

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NfdVersion) {
	m_nfdVersion = static_cast<int>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NfdVersion field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::StartTimestamp) {
	m_startTimestamp = time::fromUnixTimestamp(time::milliseconds(readNonNegativeInteger(*val)));
	++val;
	}
	else {
	throw Error("missing required StartTimestamp field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::CurrentTimestamp) {
	m_currentTimestamp = time::fromUnixTimestamp(time::milliseconds(readNonNegativeInteger(*val)));
	++val;
	}
	else {
	throw Error("missing required CurrentTimestamp field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NNameTreeEntries) {
	m_nNameTreeEntries = static_cast<size_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NNameTreeEntries field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NFibEntries) {
	m_nFibEntries = static_cast<size_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NFibEntries field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NPitEntries) {
	m_nPitEntries = static_cast<size_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NPitEntries field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NMeasurementsEntries) {
	m_nMeasurementsEntries = static_cast<size_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NMeasurementsEntries field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NCsEntries) {
	m_nCsEntries = static_cast<size_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NCsEntries field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NInInterests) {
	m_nInInterests = static_cast<uint64_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NInInterests field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NInDatas) {
	m_nInDatas = static_cast<uint64_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NInDatas field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NOutInterests) {
	m_nOutInterests = static_cast<uint64_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NOutInterests field");
	}

	if (val != m_wire.elements_end() && val->type() == tlv::nfd::NOutDatas) {
	m_nOutDatas = static_cast<uint64_t>(readNonNegativeInteger(*val));
	++val;
	}
	else {
	throw Error("missing required NOutDatas field");
	}
	}

	} // namespace nfd
	} // namespace ndn

	#endif // NDN_MANAGEMENT_NFD_FORWARDER_STATUS_HPP