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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2013-2014 Regents of the University of California.
*
* This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
*
* ndn-cxx library is free software: you can redistribute it and/or modify it under the
* terms of the GNU Lesser General Public License as published by the Free Software
* Foundation, either version 3 of the License, or (at your option) any later version.
*
* ndn-cxx library 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 Lesser General Public License for more details.
*
* You should have received copies of the GNU General Public License and GNU Lesser
* General Public License along with ndn-cxx, e.g., in COPYING.md file. If not, see
* <http://www.gnu.org/licenses/>.
*
* See AUTHORS.md for complete list of ndn-cxx authors and contributors.
*
* @author Yingdi Yu <http://irl.cs.ucla.edu/~yingdi/>
*/
#ifndef NDN_SECURITY_VALIDATOR_CONFIG_HPP
#define NDN_SECURITY_VALIDATOR_CONFIG_HPP
#include "validator.hpp"
#include "certificate-cache.hpp"
#include "conf/rule.hpp"
#include "conf/common.hpp"
namespace ndn {
class ValidatorConfig : public Validator
{
public:
class Error : public Validator::Error
{
public:
explicit
Error(const std::string& what)
: Validator::Error(what)
{
}
};
static const shared_ptr<CertificateCache> DEFAULT_CERTIFICATE_CACHE;
explicit
ValidatorConfig(Face& face,
const shared_ptr<CertificateCache>& certificateCache = DEFAULT_CERTIFICATE_CACHE,
const int stepLimit = 10);
virtual
~ValidatorConfig()
{
}
void
load(const std::string& filename);
void
load(const std::string& input, const std::string& filename);
void
load(std::istream& input, const std::string& filename);
void
load(const security::conf::ConfigSection& configSection,
const std::string& filename);
inline void
reset();
inline bool
isEmpty();
protected:
virtual void
checkPolicy(const Data& data,
int nSteps,
const OnDataValidated& onValidated,
const OnDataValidationFailed& onValidationFailed,
std::vector<shared_ptr<ValidationRequest> >& nextSteps);
virtual void
checkPolicy(const Interest& interest,
int nSteps,
const OnInterestValidated& onValidated,
const OnInterestValidationFailed& onValidationFailed,
std::vector<shared_ptr<ValidationRequest> >& nextSteps);
private:
template<class Packet, class OnValidated, class OnFailed>
void
checkSignature(const Packet& packet,
const Signature& signature,
int nSteps,
const OnValidated& onValidated,
const OnFailed& onValidationFailed,
std::vector<shared_ptr<ValidationRequest> >& nextSteps);
template<class Packet, class OnValidated, class OnFailed>
void
onCertValidated(const shared_ptr<const Data>& signCertificate,
const shared_ptr<const Packet>& packet,
const OnValidated& onValidated,
const OnFailed& onValidationFailed);
template<class Packet, class OnFailed>
void
onCertFailed(const shared_ptr<const Data>& signCertificate,
const std::string& failureInfo,
const shared_ptr<const Packet>& packet,
const OnFailed& onValidationFailed);
void
onConfigRule(const security::conf::ConfigSection& section,
const std::string& filename);
void
onConfigTrustAnchor(const security::conf::ConfigSection& section,
const std::string& filename);
private:
typedef security::conf::Rule<Interest> InterestRule;
typedef security::conf::Rule<Data> DataRule;
typedef std::vector<shared_ptr<InterestRule> > InterestRuleList;
typedef std::vector<shared_ptr<DataRule> > DataRuleList;
typedef std::map<Name, shared_ptr<IdentityCertificate> > AnchorList;
/**
* @brief gives whether validation should be preformed
*
* If false, no validation occurs, and any packet is considered validated immediately.
*/
bool m_shouldValidate;
int m_stepLimit;
shared_ptr<CertificateCache> m_certificateCache;
InterestRuleList m_interestRules;
DataRuleList m_dataRules;
AnchorList m_anchors;
};
inline void
ValidatorConfig::reset()
{
m_certificateCache->reset();
m_interestRules.clear();
m_dataRules.clear();
m_anchors.clear();
}
inline bool
ValidatorConfig::isEmpty()
{
if (m_certificateCache->isEmpty() &&
m_interestRules.empty() &&
m_dataRules.empty() &&
m_anchors.empty())
return true;
return false;
}
template<class Packet, class OnValidated, class OnFailed>
void
ValidatorConfig::checkSignature(const Packet& packet,
const Signature& signature,
int nSteps,
const OnValidated& onValidated,
const OnFailed& onValidationFailed,
std::vector<shared_ptr<ValidationRequest> >& nextSteps)
{
if (signature.getType() == Signature::Sha256)
{
SignatureSha256 sigSha256(signature);
if (verifySignature(packet, sigSha256))
return onValidated(packet.shared_from_this());
else
return onValidationFailed(packet.shared_from_this(),
"Sha256 Signature cannot be verified!");
}
if (signature.getType() == Signature::Sha256WithRsa)
{
SignatureSha256WithRsa sigSha256Rsa(signature);
Name keyLocatorName = sigSha256Rsa.getKeyLocator().getName();
shared_ptr<const Certificate> trustedCert;
AnchorList::const_iterator it = m_anchors.find(keyLocatorName);
if (m_anchors.end() == it)
trustedCert = m_certificateCache->getCertificate(keyLocatorName);
else
trustedCert = it->second;
if (static_cast<bool>(trustedCert))
{
if (verifySignature(packet, sigSha256Rsa, trustedCert->getPublicKeyInfo()))
return onValidated(packet.shared_from_this());
else
return onValidationFailed(packet.shared_from_this(),
"Cannot verify signature");
}
else
{
OnDataValidated onCertValidated =
bind(&ValidatorConfig::onCertValidated<Packet, OnValidated, OnFailed>,
this, _1, packet.shared_from_this(), onValidated, onValidationFailed);
OnDataValidationFailed onCertValidationFailed =
bind(&ValidatorConfig::onCertFailed<Packet, OnFailed>,
this, _1, _2, packet.shared_from_this(), onValidationFailed);
Interest certInterest(keyLocatorName);
shared_ptr<ValidationRequest> nextStep =
make_shared<ValidationRequest>(certInterest,
onCertValidated,
onCertValidationFailed,
1, nSteps + 1);
nextSteps.push_back(nextStep);
return;
}
}
return onValidationFailed(packet.shared_from_this(), "Unsupported Signature Type!");
}
template<class Packet, class OnValidated, class OnFailed>
void
ValidatorConfig::onCertValidated(const shared_ptr<const Data>& signCertificate,
const shared_ptr<const Packet>& packet,
const OnValidated& onValidated,
const OnFailed& onValidationFailed)
{
shared_ptr<IdentityCertificate> certificate =
make_shared<IdentityCertificate>(*signCertificate);
if (!certificate->isTooLate() && !certificate->isTooEarly())
{
m_certificateCache->insertCertificate(certificate);
if (verifySignature(*packet, certificate->getPublicKeyInfo()))
return onValidated(packet);
else
return onValidationFailed(packet,
"Cannot verify signature: " +
packet->getName().toUri());
}
else
{
return onValidationFailed(packet,
"Signing certificate " +
signCertificate->getName().toUri() +
" is no longer valid.");
}
}
template<class Packet, class OnFailed>
void
ValidatorConfig::onCertFailed(const shared_ptr<const Data>& signCertificate,
const std::string& failureInfo,
const shared_ptr<const Packet>& packet,
const OnFailed& onValidationFailed)
{
onValidationFailed(packet, failureInfo);
}
} // namespace ndn
#endif // NDN_SECURITY_VALIDATOR_CONFIG_HPP