src/security/key-chain.cpp - ndn-cxx - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -*- */
 /**
  * Copyright (C) 2013 Regents of the University of California.
  * @author: Jeff Thompson <jefft0@remap.ucla.edu>
  * See COPYING for copyright and distribution information.
  */

 #include "../c/util/crypto.h"
 #include "../c/encoding/binary-xml-data.h"
 #include "../encoding/binary-xml-encoder.hpp"
 #include <ndn-cpp/sha256-with-rsa-signature.hpp>
 #include "../util/logging.hpp"
 #include <ndn-cpp/security/security-exception.hpp>
 #include <ndn-cpp/security/policy/policy-manager.hpp>
 #include "policy/validation-request.hpp"
 #include <ndn-cpp/security/key-chain.hpp>

 using namespace std;
 using namespace ndn::ptr_lib;
 using namespace ndn::func_lib;
 #if NDN_CPP_HAVE_STD_FUNCTION
 // In the std library, the placeholders are in a different namespace than boost.
 using namespace ndn::func_lib::placeholders;
 #endif

 namespace ndn {

 KeyChain::KeyChain(const shared_ptr<IdentityManager>& identityManager, const shared_ptr<PolicyManager>& policyManager)
 : identityManager_(identityManager), policyManager_(policyManager), face_(0), maxSteps_(100)
 {
 }

 void
 KeyChain::sign(Data& data, const Name& certificateName, WireFormat& wireFormat)
 {
   identityManager_->signByCertificate(data, certificateName, wireFormat);
 }

 shared_ptr<Signature>
 KeyChain::sign(const uint8_t* buffer, size_t bufferLength, const Name& certificateName)
 {
   return identityManager_->signByCertificate(buffer, bufferLength, certificateName);
 }

 void
 KeyChain::signByIdentity(Data& data, const Name& identityName, WireFormat& wireFormat)
 {
   Name signingCertificateName;

   if (identityName.getComponentCount() == 0) {
     Name inferredIdentity = policyManager_->inferSigningIdentity(data.getName());
     if (inferredIdentity.getComponentCount() == 0)
       signingCertificateName = identityManager_->getDefaultCertificateName();
     else
       signingCertificateName = identityManager_->getDefaultCertificateNameForIdentity(inferredIdentity);
   }
   else
     signingCertificateName = identityManager_->getDefaultCertificateNameForIdentity(identityName);

   if (signingCertificateName.getComponentCount() == 0)
     throw SecurityException("No qualified certificate name found!");

   if (!policyManager_->checkSigningPolicy(data.getName(), signingCertificateName))
     throw SecurityException("Signing Cert name does not comply with signing policy");

   identityManager_->signByCertificate(data, signingCertificateName, wireFormat);
 }

 shared_ptr<Signature>
 KeyChain::signByIdentity(const uint8_t* buffer, size_t bufferLength, const Name& identityName)
 {
   Name signingCertificateName = identityManager_->getDefaultCertificateNameForIdentity(identityName);

   if (signingCertificateName.size() == 0)
     throw SecurityException("No qualified certificate name found!");

   return identityManager_->signByCertificate(buffer, bufferLength, signingCertificateName);
 }

 void
 KeyChain::verifyData
   (const shared_ptr<Data>& data, const OnVerified& onVerified, const OnVerifyFailed& onVerifyFailed, int stepCount)
 {
   _LOG_TRACE("Enter Verify");

   if (policyManager_->requireVerify(*data)) {
     shared_ptr<ValidationRequest> nextStep = policyManager_->checkVerificationPolicy
       (data, stepCount, onVerified, onVerifyFailed);
     if (nextStep)
       face_->expressInterest
         (*nextStep->interest_,
          bind(&KeyChain::onCertificateData, this, _1, _2, nextStep),
          bind(&KeyChain::onCertificateInterestTimeout, this, _1, nextStep->retry_, onVerifyFailed, data, nextStep));
   }
   else if (policyManager_->skipVerifyAndTrust(*data))
     onVerified(data);
   else
     onVerifyFailed(data);
 }

 void
 KeyChain::onCertificateData(const shared_ptr<const Interest> &interest, const shared_ptr<Data> &data, shared_ptr<ValidationRequest> nextStep)
 {
   // Try to verify the certificate (data) according to the parameters in nextStep.
   verifyData(data, nextStep->onVerified_, nextStep->onVerifyFailed_, nextStep->stepCount_);
 }

 void
 KeyChain::onCertificateInterestTimeout
   (const shared_ptr<const Interest> &interest, int retry, const OnVerifyFailed& onVerifyFailed, const shared_ptr<Data> &data,
    shared_ptr<ValidationRequest> nextStep)
 {
   if (retry > 0)
     // Issue the same expressInterest as in verifyData except decrement retry.
     face_->expressInterest
       (*interest,
        bind(&KeyChain::onCertificateData, this, _1, _2, nextStep),
        bind(&KeyChain::onCertificateInterestTimeout, this, _1, retry - 1, onVerifyFailed, data, nextStep));
   else
     onVerifyFailed(data);
 }

 }
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -- */
	/**
	* Copyright (C) 2013 Regents of the University of California.
	* @author: Jeff Thompson <jefft0@remap.ucla.edu>
	* See COPYING for copyright and distribution information.
	*/

	#include "../c/util/crypto.h"
	#include "../c/encoding/binary-xml-data.h"
	#include "../encoding/binary-xml-encoder.hpp"
	#include <ndn-cpp/sha256-with-rsa-signature.hpp>
	#include "../util/logging.hpp"
	#include <ndn-cpp/security/security-exception.hpp>
	#include <ndn-cpp/security/policy/policy-manager.hpp>
	#include "policy/validation-request.hpp"
	#include <ndn-cpp/security/key-chain.hpp>

	using namespace std;
	using namespace ndn::ptr_lib;
	using namespace ndn::func_lib;
	#if NDN_CPP_HAVE_STD_FUNCTION
	// In the std library, the placeholders are in a different namespace than boost.
	using namespace ndn::func_lib::placeholders;
	#endif

	namespace ndn {

	KeyChain::KeyChain(const shared_ptr<IdentityManager>& identityManager, const shared_ptr<PolicyManager>& policyManager)
	: identityManager_(identityManager), policyManager_(policyManager), face_(0), maxSteps_(100)
	{
	}

	void
	KeyChain::sign(Data& data, const Name& certificateName, WireFormat& wireFormat)
	{
	identityManager_->signByCertificate(data, certificateName, wireFormat);
	}

	shared_ptr<Signature>
	KeyChain::sign(const uint8_t* buffer, size_t bufferLength, const Name& certificateName)
	{
	return identityManager_->signByCertificate(buffer, bufferLength, certificateName);
	}

	void
	KeyChain::signByIdentity(Data& data, const Name& identityName, WireFormat& wireFormat)
	{
	Name signingCertificateName;

	if (identityName.getComponentCount() == 0) {
	Name inferredIdentity = policyManager_->inferSigningIdentity(data.getName());
	if (inferredIdentity.getComponentCount() == 0)
	signingCertificateName = identityManager_->getDefaultCertificateName();
	else
	signingCertificateName = identityManager_->getDefaultCertificateNameForIdentity(inferredIdentity);
	}
	else
	signingCertificateName = identityManager_->getDefaultCertificateNameForIdentity(identityName);

	if (signingCertificateName.getComponentCount() == 0)
	throw SecurityException("No qualified certificate name found!");

	if (!policyManager_->checkSigningPolicy(data.getName(), signingCertificateName))
	throw SecurityException("Signing Cert name does not comply with signing policy");

	identityManager_->signByCertificate(data, signingCertificateName, wireFormat);
	}

	shared_ptr<Signature>
	KeyChain::signByIdentity(const uint8_t* buffer, size_t bufferLength, const Name& identityName)
	{
	Name signingCertificateName = identityManager_->getDefaultCertificateNameForIdentity(identityName);

	if (signingCertificateName.size() == 0)
	throw SecurityException("No qualified certificate name found!");

	return identityManager_->signByCertificate(buffer, bufferLength, signingCertificateName);
	}

	void
	KeyChain::verifyData
	(const shared_ptr<Data>& data, const OnVerified& onVerified, const OnVerifyFailed& onVerifyFailed, int stepCount)
	{
	_LOG_TRACE("Enter Verify");

	if (policyManager_->requireVerify(*data)) {
	shared_ptr<ValidationRequest> nextStep = policyManager_->checkVerificationPolicy
	(data, stepCount, onVerified, onVerifyFailed);
	if (nextStep)
	face_->expressInterest
	(*nextStep->interest_,
	bind(&KeyChain::onCertificateData, this, _1, _2, nextStep),
	bind(&KeyChain::onCertificateInterestTimeout, this, _1, nextStep->retry_, onVerifyFailed, data, nextStep));
	}
	else if (policyManager_->skipVerifyAndTrust(*data))
	onVerified(data);
	else
	onVerifyFailed(data);
	}

	void
	KeyChain::onCertificateData(const shared_ptr<const Interest> &interest, const shared_ptr<Data> &data, shared_ptr<ValidationRequest> nextStep)
	{
	// Try to verify the certificate (data) according to the parameters in nextStep.
	verifyData(data, nextStep->onVerified_, nextStep->onVerifyFailed_, nextStep->stepCount_);
	}

	void
	KeyChain::onCertificateInterestTimeout
	(const shared_ptr<const Interest> &interest, int retry, const OnVerifyFailed& onVerifyFailed, const shared_ptr<Data> &data,
	shared_ptr<ValidationRequest> nextStep)
	{
	if (retry > 0)
	// Issue the same expressInterest as in verifyData except decrement retry.
	face_->expressInterest
	(*interest,
	bind(&KeyChain::onCertificateData, this, _1, _2, nextStep),
	bind(&KeyChain::onCertificateInterestTimeout, this, _1, retry - 1, onVerifyFailed, data, nextStep));
	else
	onVerifyFailed(data);
	}

	}