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gerrit.named-data.net / ndnSIM / refs/tags/v0.2.2 / . / disabled / ndn-content-object-header-ccnb.cc
blob: c2611d842dd0cd58099c6bfae48fdc109684594e [file] [log] [blame]
/* -*- 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: Ilya Moiseenko <iliamo@cs.ucla.edu>
* Alexander Afanasyev <alexander.afanasyev@ucla.edu>
*/
#include "ndn-content-object-header-ccnb.h"
#include "ns3/log.h"
#include "../helper/ndn-encoding-helper.h"
#include "../helper/ndn-decoding-helper.h"
#include "../helper/ccnb-parser/common.h"
#include "../helper/ccnb-parser/visitors/void-depth-first-visitor.h"
#include "../helper/ccnb-parser/visitors/name-components-visitor.h"
#include "../helper/ccnb-parser/visitors/non-negative-integer-visitor.h"
#include "../helper/ccnb-parser/visitors/timestamp-visitor.h"
#include "../helper/ccnb-parser/visitors/string-visitor.h"
#include "../helper/ccnb-parser/visitors/uint32t-blob-visitor.h"
#include "../helper/ccnb-parser/visitors/content-type-visitor.h"
#include "../helper/ccnb-parser/syntax-tree/block.h"
#include "../helper/ccnb-parser/syntax-tree/dtag.h"
#include <boost/foreach.hpp>
NS_LOG_COMPONENT_DEFINE ("ndn.ContentObjectHeader");
namespace ns3 {
namespace ndn {
using namespace CcnbParser;
const std::string ContentObjectHeader::Signature::DefaultDigestAlgorithm = "2.16.840.1.101.3.4.2.1";
NS_OBJECT_ENSURE_REGISTERED (ContentObjectHeader);
NS_OBJECT_ENSURE_REGISTERED (ContentObjectTail);
TypeId
ContentObjectHeader::GetTypeId (void)
{
static TypeId tid = TypeId ("ns3::ndn::ContentObjectHeader")
.SetGroupName ("Ndn")
.SetParent<Header> ()
.AddConstructor<ContentObjectHeader> ()
;
return tid;
}
ContentObjectHeader::ContentObjectHeader ()
{
}
void
ContentObjectHeader::SetName (const Ptr<NameComponents> &name)
{
m_name = name;
}
const NameComponents&
ContentObjectHeader::GetName () const
{
if (m_name==0) throw ContentObjectHeaderException();
return *m_name;
}
Ptr<const NameComponents>
ContentObjectHeader::GetNamePtr () const
{
return m_name;
}
#define CCNB EncodingHelper // just to simplify writing
void
ContentObjectHeader::Serialize (Buffer::Iterator start) const
{
size_t written = 0;
written += CCNB::AppendBlockHeader (start, CCN_DTAG_ContentObject, CCN_DTAG); // <ContentObject>
// fake signature
written += CCNB::AppendBlockHeader (start, CCN_DTAG_Signature, CCN_DTAG); // <Signature>
// Signature ::= √DigestAlgorithm?
// Witness?
// √SignatureBits
if (GetSignature ().GetDigestAlgorithm () != Signature::DefaultDigestAlgorithm)
{
written += CCNB::AppendString (start, CCN_DTAG_DigestAlgorithm, GetSignature ().GetDigestAlgorithm ());
}
written += CCNB::AppendTaggedBlob (start, CCN_DTAG_SignatureBits, GetSignature ().GetSignatureBits ()); // <SignatureBits />
written += CCNB::AppendCloser (start); // </Signature>
written += CCNB::AppendBlockHeader (start, CCN_DTAG_Name, CCN_DTAG); // <Name>
written += CCNB::AppendNameComponents (start, GetName()); // <Component>...</Component>...
written += CCNB::AppendCloser (start); // </Name>
// fake signature
written += CCNB::AppendBlockHeader (start, CCN_DTAG_SignedInfo, CCN_DTAG); // <SignedInfo>
// SignedInfo ::= √PublisherPublicKeyDigest
// √Timestamp
// √Type?
// √FreshnessSeconds?
// FinalBlockID?
// KeyLocator?
written += CCNB::AppendTaggedBlob (start, CCN_DTAG_PublisherPublicKeyDigest, // <PublisherPublicKeyDigest>...
GetSignedInfo ().GetPublisherPublicKeyDigest ());
written += CCNB::AppendBlockHeader (start, CCN_DTAG_Timestamp, CCN_DTAG); // <Timestamp>...
written += CCNB::AppendTimestampBlob (start, GetSignedInfo ().GetTimestamp ());
written += CCNB::AppendCloser (start);
if (GetSignedInfo ().GetContentType () != DATA)
{
uint8_t type[3];
type[0] = (GetSignedInfo ().GetContentType () >> 16) & 0xFF;
type[1] = (GetSignedInfo ().GetContentType () >> 8 ) & 0xFF;
type[2] = (GetSignedInfo ().GetContentType () ) & 0xFF;
written += CCNB::AppendTaggedBlob (start, CCN_DTAG_Type, type, 3);
}
if (GetSignedInfo ().GetFreshness () > Seconds(0))
{
written += CCNB::AppendBlockHeader (start, CCN_DTAG_FreshnessSeconds, CCN_DTAG);
written += CCNB::AppendNumber (start, GetSignedInfo ().GetFreshness ().ToInteger (Time::S));
written += CCNB::AppendCloser (start);
}
if (GetSignedInfo ().GetKeyLocator () != 0)
{
written += CCNB::AppendBlockHeader (start, CCN_DTAG_KeyLocator, CCN_DTAG); // <KeyLocator>
{
written += CCNB::AppendBlockHeader (start, CCN_DTAG_KeyName, CCN_DTAG); // <KeyName>
{
written += CCNB::AppendBlockHeader (start, CCN_DTAG_Name, CCN_DTAG); // <Name>
written += CCNB::AppendNameComponents (start, GetName()); // <Component>...</Component>...
written += CCNB::AppendCloser (start); // </Name>
}
written += CCNB::AppendCloser (start); // </KeyName>
}
written += CCNB::AppendCloser (start); // </KeyLocator>
}
written += CCNB::AppendCloser (start); // </SignedInfo>
written += CCNB::AppendBlockHeader (start, CCN_DTAG_Content, CCN_DTAG); // <Content>
// there are no closing tags !!!
// The closing tag is handled by ContentObjectTail
}
uint32_t
ContentObjectHeader::GetSerializedSize () const
{
size_t written = 0;
written += CCNB::EstimateBlockHeader (CCN_DTAG_ContentObject); // <ContentObject>
// fake signature
written += CCNB::EstimateBlockHeader (CCN_DTAG_Signature); // <Signature>
// Signature ::= DigestAlgorithm?
// Witness?
// SignatureBits
if (GetSignature ().GetDigestAlgorithm () != Signature::DefaultDigestAlgorithm)
{
written += CCNB::EstimateString (CCN_DTAG_DigestAlgorithm, GetSignature ().GetDigestAlgorithm ());
}
written += CCNB::EstimateTaggedBlob (CCN_DTAG_SignatureBits,
sizeof (GetSignature ().GetSignatureBits ())); // <SignatureBits />
written += 1; // </Signature>
written += CCNB::EstimateBlockHeader (CCN_DTAG_Name); // <Name>
written += CCNB::EstimateNameComponents (GetName()); // <Component>...</Component>...
written += 1; // </Name>
// fake signature
written += CCNB::EstimateBlockHeader (CCN_DTAG_SignedInfo); // <SignedInfo>
// SignedInfo ::= √PublisherPublicKeyDigest
// √Timestamp
// √Type?
// √FreshnessSeconds?
// FinalBlockID?
// KeyLocator?
written += CCNB::EstimateTaggedBlob (CCN_DTAG_PublisherPublicKeyDigest, // <PublisherPublicKeyDigest>...
sizeof (GetSignedInfo ().GetPublisherPublicKeyDigest ()));
written += CCNB::EstimateBlockHeader (CCN_DTAG_Timestamp); // <Timestamp>...
written += CCNB::EstimateTimestampBlob (GetSignedInfo ().GetTimestamp ());
written += 1;
if (GetSignedInfo ().GetContentType () != DATA)
{
written += CCNB::EstimateTaggedBlob (CCN_DTAG_Type, 3);
}
if (GetSignedInfo ().GetFreshness () > Seconds(0))
{
written += CCNB::EstimateBlockHeader (CCN_DTAG_FreshnessSeconds);
written += CCNB::EstimateNumber (GetSignedInfo ().GetFreshness ().ToInteger (Time::S));
written += 1;
}
if (GetSignedInfo ().GetKeyLocator () != 0)
{
written += CCNB::EstimateBlockHeader (CCN_DTAG_KeyLocator); // <KeyLocator>
{
written += CCNB::EstimateBlockHeader (CCN_DTAG_KeyName); // <KeyName>
{
written += CCNB::EstimateBlockHeader (CCN_DTAG_Name); // <Name>
written += CCNB::EstimateNameComponents (GetName()); // <Component>...</Component>...
written += 1; // </Name>
}
written += 1; // </KeyName>
}
written += 1; // </KeyLocator>
}
written += 1; // </SignedInfo>
written += CCNB::EstimateBlockHeader (CCN_DTAG_Content); // <Content>
// there are no closing tags !!!
// The closing tag is handled by ContentObjectTail
return written;
}
#undef CCNB
class ContentObjectVisitor : public VoidDepthFirstVisitor
{
public:
virtual void visit (Dtag &n, boost::any param/*should be ContentObjectHeader* */)
{
// uint32_t n.m_dtag;
// std::list<Ptr<Block> > n.m_nestedBlocks;
static NameComponentsVisitor nameComponentsVisitor;
static NonNegativeIntegerVisitor nonNegativeIntegerVisitor;
static TimestampVisitor timestampVisitor;
static StringVisitor stringVisitor;
static Uint32tBlobVisitor uint32tBlobVisitor;
static ContentTypeVisitor contentTypeVisitor;
ContentObjectHeader &contentObject = *(boost::any_cast<ContentObjectHeader*> (param));
switch (n.m_dtag)
{
case CCN_DTAG_ContentObject:
// process nested blocks
BOOST_FOREACH (Ptr<Block> block, n.m_nestedTags)
{
block->accept (*this, param);
}
break;
case CCN_DTAG_Name:
{
// process name components
Ptr<NameComponents> name = Create<NameComponents> ();
BOOST_FOREACH (Ptr<Block> block, n.m_nestedTags)
{
block->accept (nameComponentsVisitor, &(*name));
}
contentObject.SetName (name);
break;
}
case CCN_DTAG_Signature:
// process nested blocks
BOOST_FOREACH (Ptr<Block> block, n.m_nestedTags)
{
block->accept (*this, param);
}
break;
case CCN_DTAG_DigestAlgorithm:
NS_LOG_DEBUG ("DigestAlgorithm");
if (n.m_nestedTags.size ()!=1) // should be exactly one UDATA inside this tag
throw CcnbDecodingException ();
contentObject.GetSignature ().SetDigestAlgorithm
(boost::any_cast<std::string> ((*n.m_nestedTags.begin())->accept
(stringVisitor)));
break;
case CCN_DTAG_SignatureBits:
NS_LOG_DEBUG ("SignatureBits");
if (n.m_nestedTags.size ()!=1) // should be only one nested tag
throw CcnbDecodingException ();
contentObject.GetSignature ().SetSignatureBits
(boost::any_cast<uint32_t> ((*n.m_nestedTags.begin())->accept
(uint32tBlobVisitor)));
break;
case CCN_DTAG_SignedInfo:
// process nested blocks
BOOST_FOREACH (Ptr<Block> block, n.m_nestedTags)
{
block->accept (*this, param);
}
break;
case CCN_DTAG_PublisherPublicKeyDigest:
NS_LOG_DEBUG ("PublisherPublicKeyDigest");
if (n.m_nestedTags.size ()!=1) // should be only one nested tag
throw CcnbDecodingException ();
contentObject.GetSignedInfo ().SetPublisherPublicKeyDigest
(boost::any_cast<uint32_t> ((*n.m_nestedTags.begin())->accept
(uint32tBlobVisitor)));
break;
case CCN_DTAG_Timestamp:
NS_LOG_DEBUG ("Timestamp");
if (n.m_nestedTags.size()!=1) // should be exactly one nested tag
throw CcnbDecodingException ();
contentObject.GetSignedInfo ().SetTimestamp
(boost::any_cast<Time> ((*n.m_nestedTags.begin())->accept
(timestampVisitor)));
break;
case CCN_DTAG_Type:
NS_LOG_DEBUG ("Type");
if (n.m_nestedTags.size ()!=1) // should be only one nested tag
throw CcnbDecodingException ();
contentObject.GetSignedInfo ().SetContentType
(static_cast<ContentObjectHeader::ContentType>
(boost::any_cast<uint32_t> ((*n.m_nestedTags.begin())->accept
(contentTypeVisitor))));
break;
case CCN_DTAG_FreshnessSeconds:
NS_LOG_DEBUG ("FreshnessSeconds");
if (n.m_nestedTags.size()!=1) // should be exactly one nested tag
throw CcnbDecodingException ();
contentObject.GetSignedInfo ().SetFreshness
(Seconds
(boost::any_cast<uint32_t> ((*n.m_nestedTags.begin())->accept
(nonNegativeIntegerVisitor))));
break;
case CCN_DTAG_KeyLocator:
// process nested blocks
BOOST_FOREACH (Ptr<Block> block, n.m_nestedTags)
{
block->accept (*this, param);
}
break;
case CCN_DTAG_KeyName:
{
if (n.m_nestedTags.size ()!=1) // should be exactly one nested tag
throw CcnbDecodingException ();
Ptr<BaseTag> nameTag = DynamicCast<BaseTag>(n.m_nestedTags.front ());
if (nameTag == 0)
throw CcnbDecodingException ();
// process name components
Ptr<NameComponents> name = Create<NameComponents> ();
BOOST_FOREACH (Ptr<Block> block, nameTag->m_nestedTags)
{
block->accept (nameComponentsVisitor, &(*name));
}
contentObject.GetSignedInfo ().SetKeyLocator (name);
break;
}
case CCN_DTAG_Content: // !!! HACK
// This hack was necessary for memory optimizations (i.e., content is virtual payload)
NS_ASSERT_MSG (n.m_nestedTags.size() == 0, "Parser should have stopped just after processing <Content> tag");
break;
default: // ignore all other stuff
break;
}
}
};
uint32_t
ContentObjectHeader::Deserialize (Buffer::Iterator start)
{
static ContentObjectVisitor contentObjectVisitor;
Buffer::Iterator i = start;
Ptr<Block> root = Block::ParseBlock (i);
root->accept (contentObjectVisitor, this);
return i.GetDistanceFrom (start);
}
TypeId
ContentObjectHeader::GetInstanceTypeId (void) const
{
return GetTypeId ();
}
void
ContentObjectHeader::Print (std::ostream &os) const
{
os << "D: " << GetName ();
// os << "<ContentObject><Name>" << GetName () << "</Name><Content>";
}
////////////////////////////////////////////////////////////////////////////////////////////////////
ContentObjectTail::ContentObjectTail ()
{
}
TypeId
ContentObjectTail::GetTypeId (void)
{
static TypeId tid = TypeId ("ns3::ndn::ContentObjectTail")
.SetParent<Trailer> ()
.AddConstructor<ContentObjectTail> ()
;
return tid;
}
TypeId
ContentObjectTail::GetInstanceTypeId (void) const
{
return GetTypeId ();
}
void
ContentObjectTail::Print (std::ostream &os) const
{
os << "</Content></ContentObject>";
}
uint32_t
ContentObjectTail::GetSerializedSize (void) const
{
return 2;
}
void
ContentObjectTail::Serialize (Buffer::Iterator start) const
{
Buffer::Iterator i = start;
i.Prev (2); // Trailer interface requires us to go backwards
i.WriteU8 (0x00); // </Content>
i.WriteU8 (0x00); // </ContentObject>
}
uint32_t
ContentObjectTail::Deserialize (Buffer::Iterator start)
{
Buffer::Iterator i = start;
i.Prev (2); // Trailer interface requires us to go backwards
uint8_t closing_tag_content = i.ReadU8 ();
NS_ASSERT_MSG (closing_tag_content==0, "Should be a closing tag </Content> (0x00)");
uint8_t closing_tag_content_object = i.ReadU8 ();
NS_ASSERT_MSG (closing_tag_content_object==0, "Should be a closing tag </ContentObject> (0x00)");
return 2;
}
///////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////
ContentObjectHeader::SignedInfo::SignedInfo ()
: m_publisherPublicKeyDigest (0)
// , m_timestamp
, m_type (DATA)
// , m_freshness
// , FinalBlockID
// , KeyLocator
{
}
void
ContentObjectHeader::SignedInfo::SetPublisherPublicKeyDigest (uint32_t digest)
{
m_publisherPublicKeyDigest = digest;
}
uint32_t
ContentObjectHeader::SignedInfo::GetPublisherPublicKeyDigest () const
{
return m_publisherPublicKeyDigest;
}
void
ContentObjectHeader::SignedInfo::SetTimestamp (const Time &timestamp)
{
m_timestamp = timestamp;
}
Time
ContentObjectHeader::SignedInfo::GetTimestamp () const
{
return m_timestamp;
}
void
ContentObjectHeader::SignedInfo::SetContentType (ContentObjectHeader::ContentType type)
{
m_type = type;
}
ContentObjectHeader::ContentType
ContentObjectHeader::SignedInfo::GetContentType () const
{
return m_type;
}
void
ContentObjectHeader::SignedInfo::SetFreshness (const Time &freshness)
{
m_freshness = freshness;
}
Time
ContentObjectHeader::SignedInfo::GetFreshness () const
{
return m_freshness;
}
void
ContentObjectHeader::SignedInfo::SetKeyLocator (Ptr<const NameComponents> keyLocator)
{
m_keyLocator = keyLocator;
}
Ptr<const NameComponents>
ContentObjectHeader::SignedInfo::GetKeyLocator () const
{
return m_keyLocator;
}
} // namespace ndn
} // namespace ns3