disabled/ndn-encoding-helper.cc - ndnSIM - Gitiles

 /* -*- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil -*- */
 /*
  * Copyright (c) 2011 University of California, Los Angeles
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 as
  * published by the Free Software Foundation;
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  *
  * Author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
  */

 #include "ndn-encoding-helper.h"

 #include "ns3/ndn-name-components.h"
 #include "ns3/ndn-interest-header.h"
 #include "ns3/ndn-content-object-header.h"

 #include <sstream>
 #include <boost/foreach.hpp>

 namespace ns3 {
 namespace ndn {

 size_t
 EncodingHelper::Serialize (Buffer::Iterator start, const InterestHeader &interest)
 {
   size_t written = 0;
   written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Interest, CcnbParser::CCN_DTAG); // <Interest>

   written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Name, CcnbParser::CCN_DTAG); // <Name>
   written += AppendNameComponents (start, interest.GetName());                // <Component>...</Component>...
   written += AppendCloser (start);                               // </Name>

   if (interest.GetMinSuffixComponents() >= 0)
     {
       written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_MinSuffixComponents, CcnbParser::CCN_DTAG);
       written += AppendNumber (start, interest.GetMinSuffixComponents ());
       written += AppendCloser (start);
     }
   if (interest.GetMaxSuffixComponents() >= 0)
     {
       written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_MaxSuffixComponents, CcnbParser::CCN_DTAG);
       written += AppendNumber (start, interest.GetMaxSuffixComponents ());
       written += AppendCloser (start);
     }
   if (interest.IsEnabledExclude() && interest.GetExclude().size() > 0)
     {
       written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Exclude, CcnbParser::CCN_DTAG); // <Exclude>
       written += AppendNameComponents (start, interest.GetExclude());                // <Component>...</Component>...
       written += AppendCloser (start);                                  // </Exclude>
     }
   if (interest.IsEnabledChildSelector())
     {
       written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_ChildSelector, CcnbParser::CCN_DTAG);
       written += AppendNumber (start, 1);
       written += AppendCloser (start);
     }
   if (interest.IsEnabledAnswerOriginKind())
     {
       written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_AnswerOriginKind, CcnbParser::CCN_DTAG);
       written += AppendNumber (start, 1);
       written += AppendCloser (start);
     }
   if (interest.GetScope() >= 0)
     {
       written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Scope, CcnbParser::CCN_DTAG);
       written += AppendNumber (start, interest.GetScope ());
       written += AppendCloser (start);
     }
   if (!interest.GetInterestLifetime().IsZero())
     {
       written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_InterestLifetime, CcnbParser::CCN_DTAG);
       written += AppendTimestampBlob (start, interest.GetInterestLifetime ());
       written += AppendCloser (start);
     }
   if (interest.GetNonce()>0)
     {
       uint32_t nonce = interest.GetNonce();
       written += AppendTaggedBlob (start, CcnbParser::CCN_DTAG_Nonce, nonce);
     }

   if (interest.GetNack ()>0)
     {
       written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Nack, CcnbParser::CCN_DTAG);
       written += AppendNumber (start, interest.GetNack ());
       written += AppendCloser (start);
     }
   written += AppendCloser (start); // </Interest>

   return written;
 }

 size_t
 EncodingHelper::GetSerializedSize (const InterestHeader &interest)
 {
   size_t written = 0;
   written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Interest); // <Interest>

   written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Name); // <Name>
   written += EstimateNameComponents (interest.GetName()); // <Component>...</Component>...
   written += 1; // </Name>

   if (interest.GetMinSuffixComponents() >= 0)
     {
       written += EstimateBlockHeader (CcnbParser::CCN_DTAG_MinSuffixComponents);
       written += EstimateNumber (interest.GetMinSuffixComponents ());
       written += 1;
     }
   if (interest.GetMaxSuffixComponents() >= 0)
     {
       written += EstimateBlockHeader (CcnbParser::CCN_DTAG_MaxSuffixComponents);
       written += EstimateNumber (interest.GetMaxSuffixComponents ());
       written += 1;
     }
   if (interest.IsEnabledExclude() && interest.GetExclude().size() > 0)
     {
       written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Exclude);
       written += EstimateNameComponents (interest.GetExclude());                // <Component>...</Component>...
       written += 1;                                  // </Exclude>
     }
   if (interest.IsEnabledChildSelector())
     {
       written += EstimateBlockHeader (CcnbParser::CCN_DTAG_ChildSelector);
       written += EstimateNumber (1);
       written += 1;
     }
   if (interest.IsEnabledAnswerOriginKind())
     {
       written += EstimateBlockHeader (CcnbParser::CCN_DTAG_AnswerOriginKind);
       written += EstimateNumber (1);
       written += 1;
     }
   if (interest.GetScope() >= 0)
     {
       written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Scope);
       written += EstimateNumber (interest.GetScope ());
       written += 1;
     }
   if (!interest.GetInterestLifetime().IsZero())
     {
       written += EstimateBlockHeader (CcnbParser::CCN_DTAG_InterestLifetime);
       written += EstimateTimestampBlob (interest.GetInterestLifetime());
       written += 1;
     }
   if (interest.GetNonce()>0)
     {
       written += EstimateTaggedBlob (CcnbParser::CCN_DTAG_Nonce, sizeof(uint32_t));
     }
   if (interest.GetNack ()>0)
     {
         written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Nack);
         written += EstimateNumber (interest.GetNack ());
         written += 1;
     }

   written += 1; // </Interest>

   return written;
 }

 //////////////////////////////////////////////////////////////////////
 //////////////////////////////////////////////////////////////////////
 //////////////////////////////////////////////////////////////////////

 #define CCN_TT_BITS 3
 #define CCN_TT_MASK ((1 << CCN_TT_BITS) - 1)
 #define CCN_MAX_TINY ((1 << (7-CCN_TT_BITS)) - 1)
 #define CCN_TT_HBIT ((unsigned char)(1 << 7))

 size_t
 EncodingHelper::AppendBlockHeader (Buffer::Iterator &start, size_t val, CcnbParser::ccn_tt tt)
 {
   unsigned char buf[1+8*((sizeof(val)+6)/7)];
   unsigned char *p = &(buf[sizeof(buf)-1]);
   size_t n = 1;
   p[0] = (CCN_TT_HBIT & ~CcnbParser::CCN_CLOSE) |
   ((val & CCN_MAX_TINY) << CCN_TT_BITS) |
   (CCN_TT_MASK & tt);
   val >>= (7-CCN_TT_BITS);
   while (val != 0) {
     (--p)[0] = (((unsigned char)val) & ~CCN_TT_HBIT) | CcnbParser::CCN_CLOSE;
     n++;
     val >>= 7;
   }
   start.Write (p,n);
   return n;
 }

 size_t
 EncodingHelper::EstimateBlockHeader (size_t value)
 {
   value >>= (7-CCN_TT_BITS);
   size_t n = 1;
   while (value>0)
     {
       value >>= 7;
       n++;
     }
   return n;
 }

 size_t
 EncodingHelper::AppendNumber (Buffer::Iterator &start, uint32_t number)
 {
   std::ostringstream os;
   os << number;

   size_t written = 0;
   written += AppendBlockHeader (start, os.str().size(), CcnbParser::CCN_UDATA);
   written += os.str().size();
   start.Write (reinterpret_cast<const unsigned char*>(os.str().c_str()), os.str().size());

   return written;
 }

 size_t
 EncodingHelper::EstimateNumber (uint32_t number)
 {
   std::ostringstream os;
   os << number;
   return EstimateBlockHeader (os.str ().size ()) + os.str ().size ();
 }

 size_t
 EncodingHelper::AppendCloser (Buffer::Iterator &start)
 {
   start.WriteU8 (CcnbParser::CCN_CLOSE);
   return 1;
 }

 size_t
 EncodingHelper::AppendNameComponents (Buffer::Iterator &start, const NameComponents &name)
 {
   size_t written = 0;
   BOOST_FOREACH (const std::string &component, name.GetComponents())
     {
       written += AppendTaggedBlob (start, CcnbParser::CCN_DTAG_Component,
                                    reinterpret_cast<const uint8_t*>(component.c_str()), component.size());
     }
   return written;
 }

 size_t
 EncodingHelper::EstimateNameComponents (const NameComponents &name)
 {
   size_t written = 0;
   BOOST_FOREACH (const std::string &component, name.GetComponents())
     {
       written += EstimateTaggedBlob (CcnbParser::CCN_DTAG_Component, component.size());
     }
   return written;
 }

 size_t
 EncodingHelper::AppendTimestampBlob (Buffer::Iterator &start, const Time &time)
 {
   // the original function implements Markers... thought not sure what are these markers for...

   // Determine miminal number of bytes required to store the timestamp
   int required_bytes = 2; // 12 bits for fractions of a second, 4 bits left for seconds. Sometimes it is enough
   intmax_t ts = time.ToInteger (Time::S) >> 4;
   for (;  required_bytes < 7 && ts != 0; ts >>= 8) // not more than 6 bytes?
      required_bytes++;

   size_t len = AppendBlockHeader(start, required_bytes, CcnbParser::CCN_BLOB);

   // write part with seconds
   ts = time.ToInteger (Time::S) >> 4;
   for (int i = 0; i < required_bytes - 2; i++)
     start.WriteU8 ( ts >> (8 * (required_bytes - 3 - i)) );

   /* arithmetic contortions are to avoid overflowing 31 bits */
   ts = ((time.ToInteger (Time::S) & 15) << 12) +
        (((time.ToInteger (Time::NS) % 1000000000) / 5 * 8 + 195312) / 390625);
   for (int i = required_bytes - 2; i < required_bytes; i++)
     start.WriteU8 ( ts >> (8 * (required_bytes - 1 - i)) );

   return len + required_bytes;
 }

 size_t
 EncodingHelper::EstimateTimestampBlob (const Time &time)
 {
   int required_bytes = 2; // 12 bits for fractions of a second, 4 bits left for seconds. Sometimes it is enough
   intmax_t ts = time.ToInteger (Time::S) >> 4;
   for (;  required_bytes < 7 && ts != 0; ts >>= 8) // not more than 6 bytes?
      required_bytes++;

   return EstimateBlockHeader (required_bytes) + required_bytes;
 }

 size_t
 EncodingHelper::AppendTaggedBlob (Buffer::Iterator &start, CcnbParser::ccn_dtag dtag,
                   const uint8_t *data, size_t size)
 {
   size_t written = AppendBlockHeader (start, dtag, CcnbParser::CCN_DTAG);
   /* 2 */
   if (size>0)
     {
       written += AppendBlockHeader (start, size, CcnbParser::CCN_BLOB);
       start.Write (data, size);
       written += size;
       /* size */
     }
   written += AppendCloser (start);
   /* 1 */

   return written;
 }

 size_t
 EncodingHelper::EstimateTaggedBlob (CcnbParser::ccn_dtag dtag, size_t size)
 {
   if (size>0)
     return EstimateBlockHeader (dtag) + EstimateBlockHeader (size) + size + 1;
   else
     return EstimateBlockHeader (dtag) + 1;
 }

 size_t
 EncodingHelper::AppendString (Buffer::Iterator &start, CcnbParser::ccn_dtag dtag,
                                   const std::string &string)
 {
   size_t written = AppendBlockHeader (start, dtag, CcnbParser::CCN_DTAG);
   {
     written += AppendBlockHeader (start, string.size (), CcnbParser::CCN_UDATA);
     start.Write (reinterpret_cast<const uint8_t*> (string.c_str ()), string.size ());
     written += string.size ();
   }
   written += AppendCloser (start);

   return written;
 }

 size_t
 EncodingHelper::EstimateString (CcnbParser::ccn_dtag dtag, const std::string &string)
 {
   return EstimateBlockHeader (dtag) + EstimateBlockHeader (string.size ()) + string.size () + 1;
 }


 } // namespace ndn
 } // namespace ns3
	/* -- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil -- */
	/*
	* Copyright (c) 2011 University of California, Los Angeles
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 as
	* published by the Free Software Foundation;
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	*
	* Author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
	*/

	#include "ndn-encoding-helper.h"

	#include "ns3/ndn-name-components.h"
	#include "ns3/ndn-interest-header.h"
	#include "ns3/ndn-content-object-header.h"

	#include <sstream>
	#include <boost/foreach.hpp>

	namespace ns3 {
	namespace ndn {

	size_t
	EncodingHelper::Serialize (Buffer::Iterator start, const InterestHeader &interest)
	{
	size_t written = 0;
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Interest, CcnbParser::CCN_DTAG); // <Interest>

	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Name, CcnbParser::CCN_DTAG); // <Name>
	written += AppendNameComponents (start, interest.GetName()); // <Component>...</Component>...
	written += AppendCloser (start); // </Name>

	if (interest.GetMinSuffixComponents() >= 0)
	{
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_MinSuffixComponents, CcnbParser::CCN_DTAG);
	written += AppendNumber (start, interest.GetMinSuffixComponents ());
	written += AppendCloser (start);
	}
	if (interest.GetMaxSuffixComponents() >= 0)
	{
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_MaxSuffixComponents, CcnbParser::CCN_DTAG);
	written += AppendNumber (start, interest.GetMaxSuffixComponents ());
	written += AppendCloser (start);
	}
	if (interest.IsEnabledExclude() && interest.GetExclude().size() > 0)
	{
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Exclude, CcnbParser::CCN_DTAG); // <Exclude>
	written += AppendNameComponents (start, interest.GetExclude()); // <Component>...</Component>...
	written += AppendCloser (start); // </Exclude>
	}
	if (interest.IsEnabledChildSelector())
	{
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_ChildSelector, CcnbParser::CCN_DTAG);
	written += AppendNumber (start, 1);
	written += AppendCloser (start);
	}
	if (interest.IsEnabledAnswerOriginKind())
	{
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_AnswerOriginKind, CcnbParser::CCN_DTAG);
	written += AppendNumber (start, 1);
	written += AppendCloser (start);
	}
	if (interest.GetScope() >= 0)
	{
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Scope, CcnbParser::CCN_DTAG);
	written += AppendNumber (start, interest.GetScope ());
	written += AppendCloser (start);
	}
	if (!interest.GetInterestLifetime().IsZero())
	{
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_InterestLifetime, CcnbParser::CCN_DTAG);
	written += AppendTimestampBlob (start, interest.GetInterestLifetime ());
	written += AppendCloser (start);
	}
	if (interest.GetNonce()>0)
	{
	uint32_t nonce = interest.GetNonce();
	written += AppendTaggedBlob (start, CcnbParser::CCN_DTAG_Nonce, nonce);
	}

	if (interest.GetNack ()>0)
	{
	written += AppendBlockHeader (start, CcnbParser::CCN_DTAG_Nack, CcnbParser::CCN_DTAG);
	written += AppendNumber (start, interest.GetNack ());
	written += AppendCloser (start);
	}
	written += AppendCloser (start); // </Interest>

	return written;
	}

	size_t
	EncodingHelper::GetSerializedSize (const InterestHeader &interest)
	{
	size_t written = 0;
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Interest); // <Interest>

	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Name); // <Name>
	written += EstimateNameComponents (interest.GetName()); // <Component>...</Component>...
	written += 1; // </Name>

	if (interest.GetMinSuffixComponents() >= 0)
	{
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_MinSuffixComponents);
	written += EstimateNumber (interest.GetMinSuffixComponents ());
	written += 1;
	}
	if (interest.GetMaxSuffixComponents() >= 0)
	{
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_MaxSuffixComponents);
	written += EstimateNumber (interest.GetMaxSuffixComponents ());
	written += 1;
	}
	if (interest.IsEnabledExclude() && interest.GetExclude().size() > 0)
	{
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Exclude);
	written += EstimateNameComponents (interest.GetExclude()); // <Component>...</Component>...
	written += 1; // </Exclude>
	}
	if (interest.IsEnabledChildSelector())
	{
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_ChildSelector);
	written += EstimateNumber (1);
	written += 1;
	}
	if (interest.IsEnabledAnswerOriginKind())
	{
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_AnswerOriginKind);
	written += EstimateNumber (1);
	written += 1;
	}
	if (interest.GetScope() >= 0)
	{
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Scope);
	written += EstimateNumber (interest.GetScope ());
	written += 1;
	}
	if (!interest.GetInterestLifetime().IsZero())
	{
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_InterestLifetime);
	written += EstimateTimestampBlob (interest.GetInterestLifetime());
	written += 1;
	}
	if (interest.GetNonce()>0)
	{
	written += EstimateTaggedBlob (CcnbParser::CCN_DTAG_Nonce, sizeof(uint32_t));
	}
	if (interest.GetNack ()>0)
	{
	written += EstimateBlockHeader (CcnbParser::CCN_DTAG_Nack);
	written += EstimateNumber (interest.GetNack ());
	written += 1;
	}

	written += 1; // </Interest>

	return written;
	}

	//////////////////////////////////////////////////////////////////////
	//////////////////////////////////////////////////////////////////////
	//////////////////////////////////////////////////////////////////////

	#define CCN_TT_BITS 3
	#define CCN_TT_MASK ((1 << CCN_TT_BITS) - 1)
	#define CCN_MAX_TINY ((1 << (7-CCN_TT_BITS)) - 1)
	#define CCN_TT_HBIT ((unsigned char)(1 << 7))

	size_t
	EncodingHelper::AppendBlockHeader (Buffer::Iterator &start, size_t val, CcnbParser::ccn_tt tt)
	{
	unsigned char buf[1+8*((sizeof(val)+6)/7)];
	unsigned char *p = &(buf[sizeof(buf)-1]);
	size_t n = 1;
	p[0] = (CCN_TT_HBIT & ~CcnbParser::CCN_CLOSE) \|
	((val & CCN_MAX_TINY) << CCN_TT_BITS) \|
	(CCN_TT_MASK & tt);
	val >>= (7-CCN_TT_BITS);
	while (val != 0) {
	(--p)[0] = (((unsigned char)val) & ~CCN_TT_HBIT) \| CcnbParser::CCN_CLOSE;
	n++;
	val >>= 7;
	}
	start.Write (p,n);
	return n;
	}

	size_t
	EncodingHelper::EstimateBlockHeader (size_t value)
	{
	value >>= (7-CCN_TT_BITS);
	size_t n = 1;
	while (value>0)
	{
	value >>= 7;
	n++;
	}
	return n;
	}

	size_t
	EncodingHelper::AppendNumber (Buffer::Iterator &start, uint32_t number)
	{
	std::ostringstream os;
	os << number;

	size_t written = 0;
	written += AppendBlockHeader (start, os.str().size(), CcnbParser::CCN_UDATA);
	written += os.str().size();
	start.Write (reinterpret_cast<const unsigned char*>(os.str().c_str()), os.str().size());

	return written;
	}

	size_t
	EncodingHelper::EstimateNumber (uint32_t number)
	{
	std::ostringstream os;
	os << number;
	return EstimateBlockHeader (os.str ().size ()) + os.str ().size ();
	}

	size_t
	EncodingHelper::AppendCloser (Buffer::Iterator &start)
	{
	start.WriteU8 (CcnbParser::CCN_CLOSE);
	return 1;
	}

	size_t
	EncodingHelper::AppendNameComponents (Buffer::Iterator &start, const NameComponents &name)
	{
	size_t written = 0;
	BOOST_FOREACH (const std::string &component, name.GetComponents())
	{
	written += AppendTaggedBlob (start, CcnbParser::CCN_DTAG_Component,
	reinterpret_cast<const uint8_t*>(component.c_str()), component.size());
	}
	return written;
	}

	size_t
	EncodingHelper::EstimateNameComponents (const NameComponents &name)
	{
	size_t written = 0;
	BOOST_FOREACH (const std::string &component, name.GetComponents())
	{
	written += EstimateTaggedBlob (CcnbParser::CCN_DTAG_Component, component.size());
	}
	return written;
	}

	size_t
	EncodingHelper::AppendTimestampBlob (Buffer::Iterator &start, const Time &time)
	{
	// the original function implements Markers... thought not sure what are these markers for...

	// Determine miminal number of bytes required to store the timestamp
	int required_bytes = 2; // 12 bits for fractions of a second, 4 bits left for seconds. Sometimes it is enough
	intmax_t ts = time.ToInteger (Time::S) >> 4;
	for (; required_bytes < 7 && ts != 0; ts >>= 8) // not more than 6 bytes?
	required_bytes++;

	size_t len = AppendBlockHeader(start, required_bytes, CcnbParser::CCN_BLOB);

	// write part with seconds
	ts = time.ToInteger (Time::S) >> 4;
	for (int i = 0; i < required_bytes - 2; i++)
	start.WriteU8 ( ts >> (8 * (required_bytes - 3 - i)) );

	/* arithmetic contortions are to avoid overflowing 31 bits */
	ts = ((time.ToInteger (Time::S) & 15) << 12) +
	(((time.ToInteger (Time::NS) % 1000000000) / 5 * 8 + 195312) / 390625);
	for (int i = required_bytes - 2; i < required_bytes; i++)
	start.WriteU8 ( ts >> (8 * (required_bytes - 1 - i)) );

	return len + required_bytes;
	}

	size_t
	EncodingHelper::EstimateTimestampBlob (const Time &time)
	{
	int required_bytes = 2; // 12 bits for fractions of a second, 4 bits left for seconds. Sometimes it is enough
	intmax_t ts = time.ToInteger (Time::S) >> 4;
	for (; required_bytes < 7 && ts != 0; ts >>= 8) // not more than 6 bytes?
	required_bytes++;

	return EstimateBlockHeader (required_bytes) + required_bytes;
	}

	size_t
	EncodingHelper::AppendTaggedBlob (Buffer::Iterator &start, CcnbParser::ccn_dtag dtag,
	const uint8_t *data, size_t size)
	{
	size_t written = AppendBlockHeader (start, dtag, CcnbParser::CCN_DTAG);
	/* 2 */
	if (size>0)
	{
	written += AppendBlockHeader (start, size, CcnbParser::CCN_BLOB);
	start.Write (data, size);
	written += size;
	/* size */
	}
	written += AppendCloser (start);
	/* 1 */

	return written;
	}

	size_t
	EncodingHelper::EstimateTaggedBlob (CcnbParser::ccn_dtag dtag, size_t size)
	{
	if (size>0)
	return EstimateBlockHeader (dtag) + EstimateBlockHeader (size) + size + 1;
	else
	return EstimateBlockHeader (dtag) + 1;
	}

	size_t
	EncodingHelper::AppendString (Buffer::Iterator &start, CcnbParser::ccn_dtag dtag,
	const std::string &string)
	{
	size_t written = AppendBlockHeader (start, dtag, CcnbParser::CCN_DTAG);
	{
	written += AppendBlockHeader (start, string.size (), CcnbParser::CCN_UDATA);
	start.Write (reinterpret_cast<const uint8_t*> (string.c_str ()), string.size ());
	written += string.size ();
	}
	written += AppendCloser (start);

	return written;
	}

	size_t
	EncodingHelper::EstimateString (CcnbParser::ccn_dtag dtag, const std::string &string)
	{
	return EstimateBlockHeader (dtag) + EstimateBlockHeader (string.size ()) + string.size () + 1;
	}


	} // namespace ndn
	} // namespace ns3