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gerrit.named-data.net / NLSR / e14bc49752dd1c4c5c573deae8ebf5550a62ddc9 / . / src / communication / nlsr_dm.cpp
blob: ffb85e37912a0f9d6b7bf211849727d254e7ed70 [file] [log] [blame]
#include<iostream>
#include<cstdlib>
#include <ndn-cpp-dev/security/signature-sha256-with-rsa.hpp>
#include <ndn-cpp-dev/security/identity-certificate.hpp>
#include <ndn-cpp-dev/util/io.hpp>
#include "nlsr.hpp"
#include "nlsr_dm.hpp"
#include "utility/nlsr_tokenizer.hpp"
#include "nlsr_lsdb.hpp"
#include "security/nlsr_km.hpp"
namespace nlsr
{
using namespace std;
using namespace ndn;
void
DataManager::processContent(Nlsr& pnlsr, const ndn::Interest &interest,
const ndn::Data & data, interestManager& im)
{
cout << "I: " << interest.toUri() << endl;
string dataName(data.getName().toUri());
nlsrTokenizer nt(dataName,"/");
std::string chkString("keys");
if( nt.doesTokenExist(chkString) )
{
processContentKeys(pnlsr, data);
}
else
{
if ( pnlsr.getKeyManager().verify(data))
{
std::cout<<"Verified Data Content"<<std::endl;
chkString="info";
if( nt.doesTokenExist(chkString) )
{
string dataContent((char *)data.getContent().value());
processContentInfo(pnlsr,dataName,dataContent);
}
chkString="LSA";
if( nt.doesTokenExist(chkString) )
{
string dataContent((char *)data.getContent().value());
processContentLsa(pnlsr, dataName, dataContent);
}
}
else
{
std::cout<<"Unverified Data Content. Discarded"<<std::endl;
}
}
}
void
DataManager::processContentInfo(Nlsr& pnlsr, string& dataName,
string& dataContent)
{
nlsrTokenizer nt(dataName,"/");
string chkString("info");
string neighbor=nt.getTokenString(0,nt.getTokenPosition(chkString)-1);
int oldStatus=pnlsr.getAdl().getStatusOfNeighbor(neighbor);
int infoIntTimedOutCount=pnlsr.getAdl().getTimedOutInterestCount(neighbor);
//debugging purpose start
cout <<"Before Updates: " <<endl;
cout <<"Neighbor : "<<neighbor<<endl;
cout<<"Status: "<< oldStatus << endl;
cout<<"Info Interest Timed out: "<< infoIntTimedOutCount <<endl;
//debugging purpose end
pnlsr.getAdl().setStatusOfNeighbor(neighbor,1);
pnlsr.getAdl().setTimedOutInterestCount(neighbor,0);
int newStatus=pnlsr.getAdl().getStatusOfNeighbor(neighbor);
infoIntTimedOutCount=pnlsr.getAdl().getTimedOutInterestCount(neighbor);
//debugging purpose
cout <<"After Updates: " <<endl;
cout <<"Neighbor : "<<neighbor<<endl;
cout<<"Status: "<< newStatus << endl;
cout<<"Info Interest Timed out: "<< infoIntTimedOutCount <<endl;
//debugging purpose end
if ( ( oldStatus-newStatus)!= 0 ) // change in Adjacency list
{
pnlsr.incrementAdjBuildCount();
/* Need to schedule event for Adjacency LSA building */
if ( pnlsr.getIsBuildAdjLsaSheduled() == 0 )
{
pnlsr.setIsBuildAdjLsaSheduled(1);
// event here
pnlsr.getScheduler().scheduleEvent(ndn::time::seconds(5),
ndn::bind(&Lsdb::scheduledAdjLsaBuild, pnlsr.getLsdb(),
boost::ref(pnlsr)));
}
}
}
void
DataManager::processContentLsa(Nlsr& pnlsr, string& dataName,
string& dataContent)
{
nlsrTokenizer nt(dataName,"/");
string chkString("LSA");
string origRouter=nt.getTokenString(nt.getTokenPosition(chkString)+1,
nt.getTokenNumber()-4);
string lsTypeString=nt.getToken(nt.getTokenNumber()-3);
string lsSeNoString=nt.getToken(nt.getTokenNumber()-2);
uint32_t interestedLsSeqNo;
try
{
interestedLsSeqNo=boost::lexical_cast<uint32_t>(lsSeNoString);
}
catch(std::exception &e)
{
return;
}
if( lsTypeString == "1" ) //Name Lsa
{
processContentNameLsa(pnlsr, origRouter+"/"+lsTypeString,
interestedLsSeqNo, dataContent);
}
else if( lsTypeString == "2" ) //Adj Lsa
{
processContentAdjLsa(pnlsr, origRouter+"/"+lsTypeString,
interestedLsSeqNo, dataContent);
}
else if( lsTypeString == "3" ) //Cor Lsa
{
processContentCorLsa(pnlsr, origRouter+"/"+lsTypeString,
interestedLsSeqNo, dataContent);
}
else
{
cout<<"Unrecognized LSA Type :("<<endl;
}
}
void
DataManager::processContentNameLsa(Nlsr& pnlsr, string lsaKey,
uint32_t lsSeqNo, string& dataContent)
{
if ( pnlsr.getLsdb().isNameLsaNew(lsaKey,lsSeqNo))
{
NameLsa nameLsa;
if( nameLsa.initNameLsaFromContent(dataContent) )
{
pnlsr.getLsdb().installNameLsa(pnlsr, nameLsa);
}
else
{
cout<<"LSA data decoding error :("<<endl;
}
}
}
void
DataManager::processContentAdjLsa(Nlsr& pnlsr, string lsaKey,
uint32_t lsSeqNo, string& dataContent)
{
if ( pnlsr.getLsdb().isAdjLsaNew(lsaKey,lsSeqNo))
{
AdjLsa adjLsa;
if( adjLsa.initAdjLsaFromContent(dataContent) )
{
pnlsr.getLsdb().installAdjLsa(pnlsr, adjLsa);
}
else
{
cout<<"LSA data decoding error :("<<endl;
}
}
}
void
DataManager::processContentCorLsa(Nlsr& pnlsr, string lsaKey,
uint32_t lsSeqNo, string& dataContent)
{
if ( pnlsr.getLsdb().isCorLsaNew(lsaKey,lsSeqNo))
{
CorLsa corLsa;
if( corLsa.initCorLsaFromContent(dataContent) )
{
pnlsr.getLsdb().installCorLsa(pnlsr, corLsa);
}
else
{
cout<<"LSA data decoding error :("<<endl;
}
}
}
void
DataManager::processContentKeys(Nlsr& pnlsr, const ndn::Data& data)
{
std::cout<<" processContentKeys called "<<endl;
ndn::shared_ptr<ndn::IdentityCertificate> cert=
ndn::make_shared<ndn::IdentityCertificate>();
cert->wireDecode(data.getContent().blockFromValue());
std::cout<<*(cert)<<endl;
std::string dataName=data.getName().toUri();
nlsrTokenizer nt(dataName,"/");
std::string certName=nt.getTokenString(0,nt.getTokenNumber()-3);
uint32_t seqNum=boost::lexical_cast<uint32_t>(nt.getToken(
nt.getTokenNumber()-2));
cout<<"Cert Name: "<<certName<<" Seq Num: "<<seqNum<<std::endl;
if ( pnlsr.getKeyManager().verify(pnlsr, *(cert)))
{
pnlsr.getKeyManager().addCertificate(cert, seqNum, true);
}
else
{
pnlsr.getKeyManager().addCertificate(cert, seqNum, false);
}
pnlsr.getKeyManager().printCertStore();
}
}//namespace nlsr