ndn-cpp/security/identity/identity-manager.cpp - ndn-cxx - Gitiles

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

 #if 1
 #include <stdexcept>
 #endif
 #include <ctime>
 #include <fstream>
 #include <ndn-cpp/key.hpp>
 #include <ndn-cpp/sha256-with-rsa-signature.hpp>
 #include <ndn-cpp/security/security-exception.hpp>
 #include "../../util/logging.hpp"
 #include <ndn-cpp/security/identity/identity-manager.hpp>

 INIT_LOGGER("ndn.security.IdentityManager")

 using namespace std;
 using namespace ndn::ptr_lib;

 namespace ndn {

 Name
 IdentityManager::createIdentity(const Name& identityName)
 {
   if (!identityStorage_->doesIdentityExist(identityName)) {
   _LOG_DEBUG("Create Identity");
   identityStorage_->addIdentity(identityName);

   _LOG_DEBUG("Create Default RSA key pair");
   Name keyName = generateRSAKeyPairAsDefault(identityName, true);

   _LOG_DEBUG("Create self-signed certificate");
   shared_ptr<IdentityCertificate> selfCert = selfSign(keyName);

   _LOG_DEBUG("Add self-signed certificate as default");

   addCertificateAsDefault(*selfCert);

   return keyName;
   }
   else
     throw SecurityException("Identity has already been created!");
 }

 Name
 IdentityManager::generateKeyPair(const Name& identityName, bool isKsk, KeyType keyType, int keySize)
 {
   _LOG_DEBUG("Get new key ID");
   Name keyName = identityStorage_->getNewKeyName(identityName, isKsk);

   _LOG_DEBUG("Generate key pair in private storage");
   privateKeyStorage_->generateKeyPair(keyName.toUri(), keyType, keySize);

   _LOG_DEBUG("Create a key record in public storage");
   shared_ptr<PublicKey> pubKey = privateKeyStorage_->getPublicKey(keyName.toUri());
   identityStorage_->addKey(keyName, keyType, pubKey->getKeyDer());
   _LOG_DEBUG("OK");
   return keyName;
 }

 Name
 IdentityManager::generateRSAKeyPair(const Name& identityName, bool isKsk, int keySize)
 {
   Name keyName = generateKeyPair(identityName, isKsk, KEY_TYPE_RSA, keySize);
   _LOG_DEBUG("OK2");
   return keyName;
 }

 Name
 IdentityManager::generateRSAKeyPairAsDefault(const Name& identityName, bool isKsk, int keySize)
 {
   Name keyName = generateKeyPair(identityName, isKsk, KEY_TYPE_RSA, keySize);

   identityStorage_->setDefaultKeyNameForIdentity(keyName, identityName);

   return keyName;
 }

 Name
 IdentityManager::createIdentityCertificate(const Name& keyName, const Name& signerCertificateName, const Time& notBefore, const Time& notAfter)
 {
   Blob keyBlob = identityStorage_->getKey(keyName);
   shared_ptr<PublicKey> publicKey = PublicKey::fromDer(keyBlob);

   shared_ptr<IdentityCertificate> certificate = createIdentityCertificate
     (keyName, *publicKey,  signerCertificateName, notBefore, notAfter);

   identityStorage_->addCertificate(*certificate);

   return certificate->getName();
 }

 ptr_lib::shared_ptr<IdentityCertificate>
 IdentityManager::createIdentityCertificate
   (const Name& keyName, const PublicKey& publicKey, const Name& signerCertificateName, const Time& notBefore, const Time& notAfter)
 {
 #if 0
   shared_ptr<IdentityCertificate> certificate(new IdentityCertificate());

   Name certificateName;
   TimeInterval ti = time::NowUnixTimestamp();
   ostringstream oss;
   oss << ti.total_seconds();

   certificateName.append(keyName).append("ID-CERT").append(oss.str());
   certificate->setName(certificateName);

   certificate->setNotBefore(notBefore);
   certificate->setNotAfter(notAfter);
   certificate->setPublicKeyInfo(publicKey);
   certificate->addSubjectDescription(CertificateSubDescrypt("2.5.4.41", keyName.toUri()));
   certificate->encode();

   shared_ptr<Sha256WithRsaSignature> sha256Sig(new Sha256WithRsaSignature());

   KeyLocator keyLocator;
   keyLocator.setType(KeyLocator::KEYNAME);
   keyLocator.setKeyName(signerCertificateName);

   sha256Sig->setKeyLocator(keyLocator);
   sha256Sig->setPublisherKeyDigest(*publicKey.getDigest());

   certificate->setSignature(sha256Sig);

   SignedBlob unsignedData = certificate->encodeToUnsignedWire();

   Blob sigBits = privateKeyStorage_->sign(*unsignedData, keyName);

   sha256Sig->setSignatureBits(*sigBits);

   return certificate;
 #else
   throw std::runtime_error("not implemented");
 #endif
 }

 void
 IdentityManager::addCertificateAsDefault(const IdentityCertificate& certificate)
 {
   identityStorage_->addCertificate(certificate);

   Name keyName = identityStorage_->getKeyNameForCertificate(certificate.getName());

   setDefaultKeyForIdentity(keyName);

   setDefaultCertificateForKey(certificate.getName());
 }

 void
 IdentityManager::setDefaultCertificateForKey(const Name& certificateName)
 {
   Name keyName = identityStorage_->getKeyNameForCertificate(certificateName);

   if(!identityStorage_->doesKeyExist(keyName))
     throw SecurityException("No corresponding Key record for certificaite!");

   identityStorage_->setDefaultCertificateNameForKey(keyName, certificateName);
 }

 ptr_lib::shared_ptr<Signature>
 IdentityManager::signByCertificate(const uint8_t* data, size_t dataLength, const Name& certificateName)
 {
 #if 0
   Name keyName = identityStorage_->getKeyNameForCertificate(certName);

   shared_ptr<PublicKey> publicKey = privateKeyStorage_->getPublicKey(keyName.toUri());

   Blob sigBits = privateKeyStorage_->sign(blob, keyName.toUri());

   //For temporary usage, we support RSA + SHA256 only, but will support more.
   shared_ptr<signature::Sha256WithRsa> sha256Sig = shared_ptr<signature::Sha256WithRsa>::Create();

   KeyLocator keyLocator;
   keyLocator.setType(KeyLocator::KEYNAME);
   keyLocator.setKeyName(certName);

   sha256Sig->setKeyLocator(keyLocator);
   sha256Sig->setPublisherKeyDigest(*publicKey->getDigest());
   sha256Sig->setSignatureBits(*sigBits);

   return sha256Sig;
 #else
   throw std::runtime_error("not implemented");
 #endif
 }

 void
 IdentityManager::signByCertificate(Data &data, const Name &certificateName, WireFormat& wireFormat)
 {
   Name keyName = identityStorage_->getKeyNameForCertificate(certificateName);

   shared_ptr<PublicKey> publicKey = privateKeyStorage_->getPublicKey(keyName);

   // For temporary usage, we support RSA + SHA256 only, but will support more.
   data.setSignature(Sha256WithRsaSignature());
   // Get a pointer to the clone which Data made.
   Sha256WithRsaSignature *signature = dynamic_cast<Sha256WithRsaSignature*>(data.getSignature());
   DigestAlgorithm digestAlgorithm = DIGEST_ALGORITHM_SHA256;

   signature->getKeyLocator().setType(ndn_KeyLocatorType_KEYNAME);
   signature->getKeyLocator().setKeyName(certificateName);
   // Omit the certificate digest.
   signature->getKeyLocator().setKeyNameType((ndn_KeyNameType)-1);
   // Ignore witness and leave the digestAlgorithm as the default.
   signature->getPublisherPublicKeyDigest().setPublisherPublicKeyDigest(publicKey->getDigest());

   // Encode once to get the signed portion.
   SignedBlob encoding = data.wireEncode(wireFormat);

   signature->setSignature
     (privateKeyStorage_->sign(encoding.signedBuf(), encoding.signedSize(), keyName, digestAlgorithm));

   // Encode again to include the signature.
   data.wireEncode(wireFormat);
 }

 shared_ptr<IdentityCertificate>
 IdentityManager::selfSign(const Name& keyName)
 {
 #if 0
   shared_ptr<IdentityCertificate> certificate = Create<IdentityCertificate>();

   Name certificateName;
   certificateName.append(keyName).append("ID-CERT").append("0");
   certificate->setName(certificateName);

   Blob keyBlob = identityStorage_->getKey(keyName);
   shared_ptr<PublicKey> publicKey = PublicKey::fromDer(keyBlob);

   tm current = boost::posix_time::to_tm(time::Now());
   current.tm_hour = 0;
   current.tm_min  = 0;
   current.tm_sec  = 0;
   Time notBefore = boost::posix_time::ptime_from_tm(current);
   current.tm_year = current.tm_year + 20;
   Time notAfter = boost::posix_time::ptime_from_tm(current);

   certificate->setNotBefore(notBefore);
   certificate->setNotAfter(notAfter);
   certificate->setPublicKeyInfo(*publicKey);
   certificate->addSubjectDescription(CertificateSubDescrypt("2.5.4.41", keyName.toUri()));
   certificate->encode();

   shared_ptr<signature::Sha256WithRsa> sha256Sig = shared_ptr<signature::Sha256WithRsa>::Create();

   KeyLocator keyLocator;
   keyLocator.setType(KeyLocator::KEYNAME);
   keyLocator.setKeyName(certificateName);

   sha256Sig->setKeyLocator(keyLocator);
   sha256Sig->setPublisherKeyDigest(*publicKey->getDigest());

   certificate->setSignature(sha256Sig);

   Blob unsignedData = certificate->encodeToUnsignedWire();

   Blob sigBits = privateKeyStorage_->sign(*unsignedData, keyName.toUri());

   sha256Sig->setSignatureBits(*sigBits);

   return certificate;
 #else
   throw std::runtime_error("not implemented");
 #endif
 }

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

	#if 1
	#include <stdexcept>
	#endif
	#include <ctime>
	#include <fstream>
	#include <ndn-cpp/key.hpp>
	#include <ndn-cpp/sha256-with-rsa-signature.hpp>
	#include <ndn-cpp/security/security-exception.hpp>
	#include "../../util/logging.hpp"
	#include <ndn-cpp/security/identity/identity-manager.hpp>

	INIT_LOGGER("ndn.security.IdentityManager")

	using namespace std;
	using namespace ndn::ptr_lib;

	namespace ndn {

	Name
	IdentityManager::createIdentity(const Name& identityName)
	{
	if (!identityStorage_->doesIdentityExist(identityName)) {
	_LOG_DEBUG("Create Identity");
	identityStorage_->addIdentity(identityName);

	_LOG_DEBUG("Create Default RSA key pair");
	Name keyName = generateRSAKeyPairAsDefault(identityName, true);

	_LOG_DEBUG("Create self-signed certificate");
	shared_ptr<IdentityCertificate> selfCert = selfSign(keyName);

	_LOG_DEBUG("Add self-signed certificate as default");

	addCertificateAsDefault(*selfCert);

	return keyName;
	}
	else
	throw SecurityException("Identity has already been created!");
	}

	Name
	IdentityManager::generateKeyPair(const Name& identityName, bool isKsk, KeyType keyType, int keySize)
	{
	_LOG_DEBUG("Get new key ID");
	Name keyName = identityStorage_->getNewKeyName(identityName, isKsk);

	_LOG_DEBUG("Generate key pair in private storage");
	privateKeyStorage_->generateKeyPair(keyName.toUri(), keyType, keySize);

	_LOG_DEBUG("Create a key record in public storage");
	shared_ptr<PublicKey> pubKey = privateKeyStorage_->getPublicKey(keyName.toUri());
	identityStorage_->addKey(keyName, keyType, pubKey->getKeyDer());
	_LOG_DEBUG("OK");
	return keyName;
	}

	Name
	IdentityManager::generateRSAKeyPair(const Name& identityName, bool isKsk, int keySize)
	{
	Name keyName = generateKeyPair(identityName, isKsk, KEY_TYPE_RSA, keySize);
	_LOG_DEBUG("OK2");
	return keyName;
	}

	Name
	IdentityManager::generateRSAKeyPairAsDefault(const Name& identityName, bool isKsk, int keySize)
	{
	Name keyName = generateKeyPair(identityName, isKsk, KEY_TYPE_RSA, keySize);

	identityStorage_->setDefaultKeyNameForIdentity(keyName, identityName);

	return keyName;
	}

	Name
	IdentityManager::createIdentityCertificate(const Name& keyName, const Name& signerCertificateName, const Time& notBefore, const Time& notAfter)
	{
	Blob keyBlob = identityStorage_->getKey(keyName);
	shared_ptr<PublicKey> publicKey = PublicKey::fromDer(keyBlob);

	shared_ptr<IdentityCertificate> certificate = createIdentityCertificate
	(keyName, *publicKey, signerCertificateName, notBefore, notAfter);

	identityStorage_->addCertificate(*certificate);

	return certificate->getName();
	}

	ptr_lib::shared_ptr<IdentityCertificate>
	IdentityManager::createIdentityCertificate
	(const Name& keyName, const PublicKey& publicKey, const Name& signerCertificateName, const Time& notBefore, const Time& notAfter)
	{
	#if 0
	shared_ptr<IdentityCertificate> certificate(new IdentityCertificate());

	Name certificateName;
	TimeInterval ti = time::NowUnixTimestamp();
	ostringstream oss;
	oss << ti.total_seconds();

	certificateName.append(keyName).append("ID-CERT").append(oss.str());
	certificate->setName(certificateName);

	certificate->setNotBefore(notBefore);
	certificate->setNotAfter(notAfter);
	certificate->setPublicKeyInfo(publicKey);
	certificate->addSubjectDescription(CertificateSubDescrypt("2.5.4.41", keyName.toUri()));
	certificate->encode();

	shared_ptr<Sha256WithRsaSignature> sha256Sig(new Sha256WithRsaSignature());

	KeyLocator keyLocator;
	keyLocator.setType(KeyLocator::KEYNAME);
	keyLocator.setKeyName(signerCertificateName);

	sha256Sig->setKeyLocator(keyLocator);
	sha256Sig->setPublisherKeyDigest(*publicKey.getDigest());

	certificate->setSignature(sha256Sig);

	SignedBlob unsignedData = certificate->encodeToUnsignedWire();

	Blob sigBits = privateKeyStorage_->sign(*unsignedData, keyName);

	sha256Sig->setSignatureBits(*sigBits);

	return certificate;
	#else
	throw std::runtime_error("not implemented");
	#endif
	}

	void
	IdentityManager::addCertificateAsDefault(const IdentityCertificate& certificate)
	{
	identityStorage_->addCertificate(certificate);

	Name keyName = identityStorage_->getKeyNameForCertificate(certificate.getName());

	setDefaultKeyForIdentity(keyName);

	setDefaultCertificateForKey(certificate.getName());
	}

	void
	IdentityManager::setDefaultCertificateForKey(const Name& certificateName)
	{
	Name keyName = identityStorage_->getKeyNameForCertificate(certificateName);

	if(!identityStorage_->doesKeyExist(keyName))
	throw SecurityException("No corresponding Key record for certificaite!");

	identityStorage_->setDefaultCertificateNameForKey(keyName, certificateName);
	}

	ptr_lib::shared_ptr<Signature>
	IdentityManager::signByCertificate(const uint8_t* data, size_t dataLength, const Name& certificateName)
	{
	#if 0
	Name keyName = identityStorage_->getKeyNameForCertificate(certName);

	shared_ptr<PublicKey> publicKey = privateKeyStorage_->getPublicKey(keyName.toUri());

	Blob sigBits = privateKeyStorage_->sign(blob, keyName.toUri());

	//For temporary usage, we support RSA + SHA256 only, but will support more.
	shared_ptr<signature::Sha256WithRsa> sha256Sig = shared_ptr<signature::Sha256WithRsa>::Create();

	KeyLocator keyLocator;
	keyLocator.setType(KeyLocator::KEYNAME);
	keyLocator.setKeyName(certName);

	sha256Sig->setKeyLocator(keyLocator);
	sha256Sig->setPublisherKeyDigest(*publicKey->getDigest());
	sha256Sig->setSignatureBits(*sigBits);

	return sha256Sig;
	#else
	throw std::runtime_error("not implemented");
	#endif
	}

	void
	IdentityManager::signByCertificate(Data &data, const Name &certificateName, WireFormat& wireFormat)
	{
	Name keyName = identityStorage_->getKeyNameForCertificate(certificateName);

	shared_ptr<PublicKey> publicKey = privateKeyStorage_->getPublicKey(keyName);

	// For temporary usage, we support RSA + SHA256 only, but will support more.
	data.setSignature(Sha256WithRsaSignature());
	// Get a pointer to the clone which Data made.
	Sha256WithRsaSignature signature = dynamic_cast<Sha256WithRsaSignature>(data.getSignature());
	DigestAlgorithm digestAlgorithm = DIGEST_ALGORITHM_SHA256;

	signature->getKeyLocator().setType(ndn_KeyLocatorType_KEYNAME);
	signature->getKeyLocator().setKeyName(certificateName);
	// Omit the certificate digest.
	signature->getKeyLocator().setKeyNameType((ndn_KeyNameType)-1);
	// Ignore witness and leave the digestAlgorithm as the default.
	signature->getPublisherPublicKeyDigest().setPublisherPublicKeyDigest(publicKey->getDigest());

	// Encode once to get the signed portion.
	SignedBlob encoding = data.wireEncode(wireFormat);

	signature->setSignature
	(privateKeyStorage_->sign(encoding.signedBuf(), encoding.signedSize(), keyName, digestAlgorithm));

	// Encode again to include the signature.
	data.wireEncode(wireFormat);
	}

	shared_ptr<IdentityCertificate>
	IdentityManager::selfSign(const Name& keyName)
	{
	#if 0
	shared_ptr<IdentityCertificate> certificate = Create<IdentityCertificate>();

	Name certificateName;
	certificateName.append(keyName).append("ID-CERT").append("0");
	certificate->setName(certificateName);

	Blob keyBlob = identityStorage_->getKey(keyName);
	shared_ptr<PublicKey> publicKey = PublicKey::fromDer(keyBlob);

	tm current = boost::posix_time::to_tm(time::Now());
	current.tm_hour = 0;
	current.tm_min = 0;
	current.tm_sec = 0;
	Time notBefore = boost::posix_time::ptime_from_tm(current);
	current.tm_year = current.tm_year + 20;
	Time notAfter = boost::posix_time::ptime_from_tm(current);

	certificate->setNotBefore(notBefore);
	certificate->setNotAfter(notAfter);
	certificate->setPublicKeyInfo(*publicKey);
	certificate->addSubjectDescription(CertificateSubDescrypt("2.5.4.41", keyName.toUri()));
	certificate->encode();

	shared_ptr<signature::Sha256WithRsa> sha256Sig = shared_ptr<signature::Sha256WithRsa>::Create();

	KeyLocator keyLocator;
	keyLocator.setType(KeyLocator::KEYNAME);
	keyLocator.setKeyName(certificateName);

	sha256Sig->setKeyLocator(keyLocator);
	sha256Sig->setPublisherKeyDigest(*publicKey->getDigest());

	certificate->setSignature(sha256Sig);

	Blob unsignedData = certificate->encodeToUnsignedWire();

	Blob sigBits = privateKeyStorage_->sign(*unsignedData, keyName.toUri());

	sha256Sig->setSignatureBits(*sigBits);

	return certificate;
	#else
	throw std::runtime_error("not implemented");
	#endif
	}

	}