src/security/v2/key-chain.hpp - ndn-cxx - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /*
  * Copyright (c) 2013-2018 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.
  */

 #ifndef NDN_SECURITY_V2_KEY_CHAIN_HPP
 #define NDN_SECURITY_V2_KEY_CHAIN_HPP

 #include "../security-common.hpp"
 #include "certificate.hpp"
 #include "../key-params.hpp"
 #include "../pib/pib.hpp"
 #include "../safe-bag.hpp"
 #include "../signing-info.hpp"
 #include "../tpm/tpm.hpp"
 #include "../../interest.hpp"

 namespace ndn {
 namespace security {
 namespace v2 {

 /**
  * @brief The interface of signing key management.
  *
  * The KeyChain class provides an interface to manage entities related to packet signing,
  * such as Identity, Key, and Certificates.  It consists of two parts: a private key module
  * (TPM) and a public key information base (PIB).  Managing signing key and its related
  * entities through KeyChain interface guarantees the consistency between TPM and PIB.
  */
 class KeyChain : noncopyable
 {
 public:
   class Error : public std::runtime_error
   {
   public:
     using std::runtime_error::runtime_error;
   };

   /**
    * @brief Error indicating that the supplied TPM locator does not match the locator stored in PIB.
    */
   class LocatorMismatchError : public Error
   {
   public:
     using Error::Error;
   };

   /**
    * @brief Error indicating that the supplied SigningInfo is invalid.
    */
   class InvalidSigningInfoError : public Error
   {
   public:
     using Error::Error;
   };

   /**
    * @brief Constructor to create KeyChain with default PIB and TPM.
    *
    * Default PIB and TPM are platform-dependent and can be overriden system-wide or
    * individually for the user.
    *
    * @sa manpage ndn-client.conf
    *
    * @todo Add detailed description about config file behavior here
    */
   KeyChain();

   /**
    * @brief KeyChain constructor
    *
    * @sa manpage ndn-client.conf
    *
    * @param pibLocator PIB locator, e.g., `pib-sqlite3:/example/dir`
    * @param tpmLocator TPM locator, e.g., `tpm-memory:`
    * @param allowReset if true, the PIB will be reset when the supplied @p tpmLocator
    *                   does not match the one in the PIB
    */
   KeyChain(const std::string& pibLocator, const std::string& tpmLocator, bool allowReset = false);

   ~KeyChain();

   const Pib&
   getPib() const
   {
     return *m_pib;
   }

   const Tpm&
   getTpm() const
   {
     return *m_tpm;
   }

 public: // Identity management
   /**
    * @brief Create an identity @p identityName.
    *
    * This method will check if the identity exists in PIB and whether the identity has a
    * default key and default certificate.  If the identity does not exist, this method will
    * create the identity in PIB.  If the identity's default key does not exist, this method
    * will create a key pair and set it as the identity's default key.  If the key's default
    * certificate is missing, this method will create a self-signed certificate for the key.
    *
    * If @p identityName did not exist and no default identity was selected before, the created
    * identity will be set as the default identity
    *
    * @param identityName The name of the identity.
    * @param params The key parameters if a key needs to be created for the identity (default:
    *               EC key with random key id)
    * @return The created Identity instance.
    */
   Identity
   createIdentity(const Name& identityName, const KeyParams& params = getDefaultKeyParams());

   /**
    * @brief delete @p identity.
    *
    * @pre @p identity must be valid.
    * @post @p identity becomes invalid.
    */
   void
   deleteIdentity(const Identity& identity);

   /**
    * @brief Set @p identity as the default identity.
    * @pre @p identity must be valid.
    */
   void
   setDefaultIdentity(const Identity& identity);

 public: // Key management
   /**
    * @brief Create a key for @p identity according to @p params.
    *
    * @param identity reference to a valid Identity object
    * @param params The key parameters if a key needs to be created for the identity (default:
    *               EC key with random key id)
    *
    * If @p identity had no default key selected, the created key will be set as the default for
    * this identity.
    *
    * This method will also create a self-signed certificate for the created key.
    * @pre @p identity must be valid.
    */
   Key
   createKey(const Identity& identity, const KeyParams& params = getDefaultKeyParams());

   /**
    * @brief Delete a key @p key of @p identity.
    *
    * @pre @p identity must be valid.
    * @pre @p key must be valid.
    * @post @p key becomes invalid.
    * @throw std::invalid_argument @p key does not belong to @p identity
    */
   void
   deleteKey(const Identity& identity, const Key& key);

   /**
    * @brief Set @p key as the default key of @p identity.
    *
    * @pre @p identity must be valid.
    * @pre @p key must be valid.
    * @throw std::invalid_argument @p key does not belong to @p identity
    */
   void
   setDefaultKey(const Identity& identity, const Key& key);

 public: // Certificate management
   /**
    * @brief Add a certificate @p certificate for @p key
    *
    * If @p key had no default certificate selected, the added certificate will be set as the
    * default certificate for this key.
    *
    * @note This method overwrites certificate with the same name, without considering the
    *       implicit digest.
    *
    * @pre @p key must be valid.
    * @throw std::invalid_argument @p key does not match @p certificate
    */
   void
   addCertificate(const Key& key, const Certificate& certificate);

   /**
    * @brief delete a certificate with name @p certificateName of @p key.
    *
    * If the certificate @p certificateName does not exist, this method has no effect.
    *
    * @pre @p key must be valid.
    * @throw std::invalid_argument @p certificateName does not follow certificate naming convention.
    */
   void
   deleteCertificate(const Key& key, const Name& certificateName);

   /**
    * @brief Set @p cert as the default certificate of @p key.
    *
    * The certificate @p cert will be added to the @p key, potentially overriding existing
    * certificate if it has the same name (without considering implicit digest).
    *
    * @pre @p key must be valid.
    * @throw std::invalid_argument @p key does not match @p certificate
    */
   void
   setDefaultCertificate(const Key& key, const Certificate& certificate);

 public: // signing
   /**
    * @brief Sign data according to the supplied signing information.
    *
    * This method uses the supplied signing information @p params to create the SignatureInfo block:
    * - it selects a private key and its certificate to sign the packet
    * - sets the KeyLocator field with the certificate name, and
    * - adds other requested information to the SignatureInfo block.
    *
    * After that, the method assigns the created SignatureInfo to the data packets, generate a
    * signature and sets as part of the SignatureValue block.
    *
    * @note The exception throwing semantics has changed from v1::KeyChain.
    *       If the requested identity/key/certificate does not exist, it will **not** be created
    *       and exception will be thrown.
    *
    * @param data The data to sign
    * @param params The signing parameters.
    * @throw Error signing fails
    * @throw InvalidSigningInfoError invalid @p params is specified or specified identity, key,
    *                                or certificate does not exist
    * @see SigningInfo
    */
   void
   sign(Data& data, const SigningInfo& params = getDefaultSigningInfo());

   /**
    * @brief Sign interest according to the supplied signing information
    *
    * This method uses the supplied signing information @p params to create the SignatureInfo block:
    * - it selects a private key and its certificate to sign the packet
    * - sets the KeyLocator field with the certificate name, and
    * - adds other requested information to the SignatureInfo block.
    *
    * After that, the method appends the created SignatureInfo to the interest name, generate a
    * signature and appends it as part of the SignatureValue block to the interest name.
    *
    * @note The exception throwing semantics has changed from v1::KeyChain.  If the requested
    *       identity/key/certificate does not exist, it will **not** be created and exception
    *       will be thrown.
    *
    * @param interest The interest to sign
    * @param params The signing parameters.
    * @throw Error signing fails
    * @throw InvalidSigningInfoError invalid @p params is specified or specified identity, key,
    *                                or certificate does not exist
    * @see SigningInfo
    * @see docs/specs/signed-interest.rst
    */
   void
   sign(Interest& interest, const SigningInfo& params = getDefaultSigningInfo());

   /**
    * @brief Sign buffer according to the supplied signing information @p params
    *
    * If @p params refers to an identity, the method selects the default key of the identity.
    * If @p params refers to a key or certificate, the method select the corresponding key.
    *
    * @param buffer The buffer to sign
    * @param bufferLength The buffer size
    * @param params The signing parameters.
    * @return a SignatureValue TLV block
    * @throw Error signing fails
    * @see SigningInfo
    */
   Block
   sign(const uint8_t* buffer, size_t bufferLength, const SigningInfo& params = getDefaultSigningInfo());

 public: // export & import
   /**
    * @brief Export a certificate and its corresponding private key.
    *
    * @param certificate The certificate to export.
    * @param pw The password to secure the private key.
    * @param pwLen The length of password.
    * @return A SafeBag carrying the certificate and encrypted private key.
    * @throw Error the certificate or private key does not exist
    */
   shared_ptr<SafeBag>
   exportSafeBag(const Certificate& certificate, const char* pw, size_t pwLen);

   /**
    * @brief Import a pair of certificate and its corresponding private key encapsulated in a SafeBag.
    *
    * If the certificate and key are imported properly, the default setting will be updated as if
    * a new key and certificate is added into KeyChain.
    *
    * @param safeBag The encoded data to import.
    * @param pw The password to secure the private key.
    * @param pwLen The length of password.
    * @throw Error any of following conditions:
    *              - the safebag cannot be decoded or its content does not match;
    *              - private key cannot be imported;
    *              - a private/public key of the same name already exists;
    *              - a certificate of the same name already exists.
    */
   void
   importSafeBag(const SafeBag& safeBag, const char* pw, size_t pwLen);

 NDN_CXX_PUBLIC_WITH_TESTS_ELSE_PRIVATE:
   /**
    * @brief Derive SignatureTypeValue according to key type and digest algorithm.
    */
   static tlv::SignatureTypeValue
   getSignatureType(KeyType keyType, DigestAlgorithm digestAlgorithm);

 public: // PIB & TPM backend registry
   /**
    * @brief Register a new PIB backend
    * @param scheme Name for the registered PIB backend scheme
    *
    * @note This interface is implementation detail and may change without notice.
    */
   template<class PibBackendType>
   static void
   registerPibBackend(const std::string& scheme);

   /**
    * @brief Register a new TPM backend
    * @param scheme Name for the registered TPM backend scheme
    *
    * @note This interface is implementation detail and may change without notice.
    */
   template<class TpmBackendType>
   static void
   registerTpmBackend(const std::string& scheme);

 private:
   typedef std::map<std::string, function<unique_ptr<pib::PibImpl>(const std::string& location)>> PibFactories;
   typedef std::map<std::string, function<unique_ptr<tpm::BackEnd>(const std::string& location)>> TpmFactories;

   static PibFactories&
   getPibFactories();

   static TpmFactories&
   getTpmFactories();

   static std::tuple<std::string/*type*/, std::string/*location*/>
   parseAndCheckPibLocator(const std::string& pibLocator);

   static std::tuple<std::string/*type*/, std::string/*location*/>
   parseAndCheckTpmLocator(const std::string& tpmLocator);

   static const std::string&
   getDefaultPibScheme();

   static const std::string&
   getDefaultTpmScheme();

   /**
     * @brief Create a PIB according to @p pibLocator
     */
   static unique_ptr<Pib>
   createPib(const std::string& pibLocator);

   /**
    * @brief Create a TPM according to @p tpmLocator
    */
   static unique_ptr<Tpm>
   createTpm(const std::string& tpmLocator);

 NDN_CXX_PUBLIC_WITH_TESTS_ELSE_PRIVATE:
   static const std::string&
   getDefaultPibLocator();

   static const std::string&
   getDefaultTpmLocator();

 private: // signing
   /**
    * @brief Generate a self-signed certificate for a public key.
    *
    * The self-signed certificate will also be added into PIB
    *
    * @param keyName The name of the public key
    * @return The generated certificate
    */
   Certificate
   selfSign(Key& key);

   /**
    * @brief Prepare a SignatureInfo TLV according to signing information and return the signing
    *        key name
    *
    * @param sigInfo The SignatureInfo to prepare.
    * @param params The signing parameters.
    * @return The signing key name and prepared SignatureInfo.
    * @throw InvalidSigningInfoError when the requested signing method cannot be satisfied.
    */
   std::tuple<Name, SignatureInfo>
   prepareSignatureInfo(const SigningInfo& params);

   /**
    * @brief Generate a SignatureValue block for a buffer @p buf with size @p size using
    *        a key with name @p keyName and digest algorithm @p digestAlgorithm.
    */
   Block
   sign(const uint8_t* buf, size_t size, const Name& keyName, DigestAlgorithm digestAlgorithm) const;

 public:
   static const SigningInfo&
   getDefaultSigningInfo();

   static const KeyParams&
   getDefaultKeyParams();

 private:
   std::unique_ptr<Pib> m_pib;
   std::unique_ptr<Tpm> m_tpm;

   static std::string s_defaultPibLocator;
   static std::string s_defaultTpmLocator;
 };

 template<class PibType>
 inline void
 KeyChain::registerPibBackend(const std::string& scheme)
 {
   getPibFactories().emplace(scheme, [] (const std::string& locator) {
       return unique_ptr<pib::PibImpl>(new PibType(locator));
     });
 }

 template<class TpmType>
 inline void
 KeyChain::registerTpmBackend(const std::string& scheme)
 {
   getTpmFactories().emplace(scheme, [] (const std::string& locator) {
       return unique_ptr<tpm::BackEnd>(new TpmType(locator));
     });
 }

 /**
  * @brief Register Pib backend class in KeyChain
  *
  * This macro should be placed once in the implementation file of the
  * Pib backend class within the namespace where the type is declared.
  *
  * @note This interface is implementation detail and may change without notice.
  */
 #define NDN_CXX_V2_KEYCHAIN_REGISTER_PIB_BACKEND(PibType)     \
 static class NdnCxxAuto ## PibType ## PibRegistrationClass    \
 {                                                             \
 public:                                                       \
   NdnCxxAuto ## PibType ## PibRegistrationClass()             \
   {                                                           \
     ::ndn::security::v2::KeyChain::registerPibBackend<PibType>(PibType::getScheme()); \
   }                                                           \
 } ndnCxxAuto ## PibType ## PibRegistrationVariable

 /**
  * @brief Register Tpm backend class in KeyChain
  *
  * This macro should be placed once in the implementation file of the
  * Tpm backend class within the namespace where the type is declared.
  *
  * @note This interface is implementation detail and may change without notice.
  */
 #define NDN_CXX_V2_KEYCHAIN_REGISTER_TPM_BACKEND(TpmType)     \
 static class NdnCxxAuto ## TpmType ## TpmRegistrationClass    \
 {                                                             \
 public:                                                       \
   NdnCxxAuto ## TpmType ## TpmRegistrationClass()             \
   {                                                           \
     ::ndn::security::v2::KeyChain::registerTpmBackend<TpmType>(TpmType::getScheme()); \
   }                                                           \
 } ndnCxxAuto ## TpmType ## TpmRegistrationVariable

 } // namespace v2

 using v2::KeyChain;

 } // namespace security

 using security::v2::KeyChain;

 } // namespace ndn

 #endif // NDN_SECURITY_V2_KEY_CHAIN_HPP
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/*
	* Copyright (c) 2013-2018 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.
	*/

	#ifndef NDN_SECURITY_V2_KEY_CHAIN_HPP
	#define NDN_SECURITY_V2_KEY_CHAIN_HPP

	#include "../security-common.hpp"
	#include "certificate.hpp"
	#include "../key-params.hpp"
	#include "../pib/pib.hpp"
	#include "../safe-bag.hpp"
	#include "../signing-info.hpp"
	#include "../tpm/tpm.hpp"
	#include "../../interest.hpp"

	namespace ndn {
	namespace security {
	namespace v2 {

	/**
	* @brief The interface of signing key management.
	*
	* The KeyChain class provides an interface to manage entities related to packet signing,
	* such as Identity, Key, and Certificates. It consists of two parts: a private key module
	* (TPM) and a public key information base (PIB). Managing signing key and its related
	* entities through KeyChain interface guarantees the consistency between TPM and PIB.
	*/
	class KeyChain : noncopyable
	{
	public:
	class Error : public std::runtime_error
	{
	public:
	using std::runtime_error::runtime_error;
	};

	/**
	* @brief Error indicating that the supplied TPM locator does not match the locator stored in PIB.
	*/
	class LocatorMismatchError : public Error
	{
	public:
	using Error::Error;
	};

	/**
	* @brief Error indicating that the supplied SigningInfo is invalid.
	*/
	class InvalidSigningInfoError : public Error
	{
	public:
	using Error::Error;
	};

	/**
	* @brief Constructor to create KeyChain with default PIB and TPM.
	*
	* Default PIB and TPM are platform-dependent and can be overriden system-wide or
	* individually for the user.
	*
	* @sa manpage ndn-client.conf
	*
	* @todo Add detailed description about config file behavior here
	*/
	KeyChain();

	/**
	* @brief KeyChain constructor
	*
	* @sa manpage ndn-client.conf
	*
	* @param pibLocator PIB locator, e.g., `pib-sqlite3:/example/dir`
	* @param tpmLocator TPM locator, e.g., `tpm-memory:`
	* @param allowReset if true, the PIB will be reset when the supplied @p tpmLocator
	* does not match the one in the PIB
	*/
	KeyChain(const std::string& pibLocator, const std::string& tpmLocator, bool allowReset = false);

	~KeyChain();

	const Pib&
	getPib() const
	{
	return *m_pib;
	}

	const Tpm&
	getTpm() const
	{
	return *m_tpm;
	}

	public: // Identity management
	/**
	* @brief Create an identity @p identityName.
	*
	* This method will check if the identity exists in PIB and whether the identity has a
	* default key and default certificate. If the identity does not exist, this method will
	* create the identity in PIB. If the identity's default key does not exist, this method
	* will create a key pair and set it as the identity's default key. If the key's default
	* certificate is missing, this method will create a self-signed certificate for the key.
	*
	* If @p identityName did not exist and no default identity was selected before, the created
	* identity will be set as the default identity
	*
	* @param identityName The name of the identity.
	* @param params The key parameters if a key needs to be created for the identity (default:
	* EC key with random key id)
	* @return The created Identity instance.
	*/
	Identity
	createIdentity(const Name& identityName, const KeyParams& params = getDefaultKeyParams());

	/**
	* @brief delete @p identity.
	*
	* @pre @p identity must be valid.
	* @post @p identity becomes invalid.
	*/
	void
	deleteIdentity(const Identity& identity);

	/**
	* @brief Set @p identity as the default identity.
	* @pre @p identity must be valid.
	*/
	void
	setDefaultIdentity(const Identity& identity);

	public: // Key management
	/**
	* @brief Create a key for @p identity according to @p params.
	*
	* @param identity reference to a valid Identity object
	* @param params The key parameters if a key needs to be created for the identity (default:
	* EC key with random key id)
	*
	* If @p identity had no default key selected, the created key will be set as the default for
	* this identity.
	*
	* This method will also create a self-signed certificate for the created key.
	* @pre @p identity must be valid.
	*/
	Key
	createKey(const Identity& identity, const KeyParams& params = getDefaultKeyParams());

	/**
	* @brief Delete a key @p key of @p identity.
	*
	* @pre @p identity must be valid.
	* @pre @p key must be valid.
	* @post @p key becomes invalid.
	* @throw std::invalid_argument @p key does not belong to @p identity
	*/
	void
	deleteKey(const Identity& identity, const Key& key);

	/**
	* @brief Set @p key as the default key of @p identity.
	*
	* @pre @p identity must be valid.
	* @pre @p key must be valid.
	* @throw std::invalid_argument @p key does not belong to @p identity
	*/
	void
	setDefaultKey(const Identity& identity, const Key& key);

	public: // Certificate management
	/**
	* @brief Add a certificate @p certificate for @p key
	*
	* If @p key had no default certificate selected, the added certificate will be set as the
	* default certificate for this key.
	*
	* @note This method overwrites certificate with the same name, without considering the
	* implicit digest.
	*
	* @pre @p key must be valid.
	* @throw std::invalid_argument @p key does not match @p certificate
	*/
	void
	addCertificate(const Key& key, const Certificate& certificate);

	/**
	* @brief delete a certificate with name @p certificateName of @p key.
	*
	* If the certificate @p certificateName does not exist, this method has no effect.
	*
	* @pre @p key must be valid.
	* @throw std::invalid_argument @p certificateName does not follow certificate naming convention.
	*/
	void
	deleteCertificate(const Key& key, const Name& certificateName);

	/**
	* @brief Set @p cert as the default certificate of @p key.
	*
	* The certificate @p cert will be added to the @p key, potentially overriding existing
	* certificate if it has the same name (without considering implicit digest).
	*
	* @pre @p key must be valid.
	* @throw std::invalid_argument @p key does not match @p certificate
	*/
	void
	setDefaultCertificate(const Key& key, const Certificate& certificate);

	public: // signing
	/**
	* @brief Sign data according to the supplied signing information.
	*
	* This method uses the supplied signing information @p params to create the SignatureInfo block:
	* - it selects a private key and its certificate to sign the packet
	* - sets the KeyLocator field with the certificate name, and
	* - adds other requested information to the SignatureInfo block.
	*
	* After that, the method assigns the created SignatureInfo to the data packets, generate a
	* signature and sets as part of the SignatureValue block.
	*
	* @note The exception throwing semantics has changed from v1::KeyChain.
	* If the requested identity/key/certificate does not exist, it will not be created
	* and exception will be thrown.
	*
	* @param data The data to sign
	* @param params The signing parameters.
	* @throw Error signing fails
	* @throw InvalidSigningInfoError invalid @p params is specified or specified identity, key,
	* or certificate does not exist
	* @see SigningInfo
	*/
	void
	sign(Data& data, const SigningInfo& params = getDefaultSigningInfo());

	/**
	* @brief Sign interest according to the supplied signing information
	*
	* This method uses the supplied signing information @p params to create the SignatureInfo block:
	* - it selects a private key and its certificate to sign the packet
	* - sets the KeyLocator field with the certificate name, and
	* - adds other requested information to the SignatureInfo block.
	*
	* After that, the method appends the created SignatureInfo to the interest name, generate a
	* signature and appends it as part of the SignatureValue block to the interest name.
	*
	* @note The exception throwing semantics has changed from v1::KeyChain. If the requested
	* identity/key/certificate does not exist, it will not be created and exception
	* will be thrown.
	*
	* @param interest The interest to sign
	* @param params The signing parameters.
	* @throw Error signing fails
	* @throw InvalidSigningInfoError invalid @p params is specified or specified identity, key,
	* or certificate does not exist
	* @see SigningInfo
	* @see docs/specs/signed-interest.rst
	*/
	void
	sign(Interest& interest, const SigningInfo& params = getDefaultSigningInfo());

	/**
	* @brief Sign buffer according to the supplied signing information @p params
	*
	* If @p params refers to an identity, the method selects the default key of the identity.
	* If @p params refers to a key or certificate, the method select the corresponding key.
	*
	* @param buffer The buffer to sign
	* @param bufferLength The buffer size
	* @param params The signing parameters.
	* @return a SignatureValue TLV block
	* @throw Error signing fails
	* @see SigningInfo
	*/
	Block
	sign(const uint8_t* buffer, size_t bufferLength, const SigningInfo& params = getDefaultSigningInfo());

	public: // export & import
	/**
	* @brief Export a certificate and its corresponding private key.
	*
	* @param certificate The certificate to export.
	* @param pw The password to secure the private key.
	* @param pwLen The length of password.
	* @return A SafeBag carrying the certificate and encrypted private key.
	* @throw Error the certificate or private key does not exist
	*/
	shared_ptr<SafeBag>
	exportSafeBag(const Certificate& certificate, const char* pw, size_t pwLen);

	/**
	* @brief Import a pair of certificate and its corresponding private key encapsulated in a SafeBag.
	*
	* If the certificate and key are imported properly, the default setting will be updated as if
	* a new key and certificate is added into KeyChain.
	*
	* @param safeBag The encoded data to import.
	* @param pw The password to secure the private key.
	* @param pwLen The length of password.
	* @throw Error any of following conditions:
	* - the safebag cannot be decoded or its content does not match;
	* - private key cannot be imported;
	* - a private/public key of the same name already exists;
	* - a certificate of the same name already exists.
	*/
	void
	importSafeBag(const SafeBag& safeBag, const char* pw, size_t pwLen);

	NDN_CXX_PUBLIC_WITH_TESTS_ELSE_PRIVATE:
	/**
	* @brief Derive SignatureTypeValue according to key type and digest algorithm.
	*/
	static tlv::SignatureTypeValue
	getSignatureType(KeyType keyType, DigestAlgorithm digestAlgorithm);

	public: // PIB & TPM backend registry
	/**
	* @brief Register a new PIB backend
	* @param scheme Name for the registered PIB backend scheme
	*
	* @note This interface is implementation detail and may change without notice.
	*/
	template<class PibBackendType>
	static void
	registerPibBackend(const std::string& scheme);

	/**
	* @brief Register a new TPM backend
	* @param scheme Name for the registered TPM backend scheme
	*
	* @note This interface is implementation detail and may change without notice.
	*/
	template<class TpmBackendType>
	static void
	registerTpmBackend(const std::string& scheme);

	private:
	typedef std::map<std::string, function<unique_ptr<pib::PibImpl>(const std::string& location)>> PibFactories;
	typedef std::map<std::string, function<unique_ptr<tpm::BackEnd>(const std::string& location)>> TpmFactories;

	static PibFactories&
	getPibFactories();

	static TpmFactories&
	getTpmFactories();

	static std::tuple<std::string/type/, std::string/location/>
	parseAndCheckPibLocator(const std::string& pibLocator);

	static std::tuple<std::string/type/, std::string/location/>
	parseAndCheckTpmLocator(const std::string& tpmLocator);

	static const std::string&
	getDefaultPibScheme();

	static const std::string&
	getDefaultTpmScheme();

	/**
	* @brief Create a PIB according to @p pibLocator
	*/
	static unique_ptr<Pib>
	createPib(const std::string& pibLocator);

	/**
	* @brief Create a TPM according to @p tpmLocator
	*/
	static unique_ptr<Tpm>
	createTpm(const std::string& tpmLocator);

	NDN_CXX_PUBLIC_WITH_TESTS_ELSE_PRIVATE:
	static const std::string&
	getDefaultPibLocator();

	static const std::string&
	getDefaultTpmLocator();

	private: // signing
	/**
	* @brief Generate a self-signed certificate for a public key.
	*
	* The self-signed certificate will also be added into PIB
	*
	* @param keyName The name of the public key
	* @return The generated certificate
	*/
	Certificate
	selfSign(Key& key);

	/**
	* @brief Prepare a SignatureInfo TLV according to signing information and return the signing
	* key name
	*
	* @param sigInfo The SignatureInfo to prepare.
	* @param params The signing parameters.
	* @return The signing key name and prepared SignatureInfo.
	* @throw InvalidSigningInfoError when the requested signing method cannot be satisfied.
	*/
	std::tuple<Name, SignatureInfo>
	prepareSignatureInfo(const SigningInfo& params);

	/**
	* @brief Generate a SignatureValue block for a buffer @p buf with size @p size using
	* a key with name @p keyName and digest algorithm @p digestAlgorithm.
	*/
	Block
	sign(const uint8_t* buf, size_t size, const Name& keyName, DigestAlgorithm digestAlgorithm) const;

	public:
	static const SigningInfo&
	getDefaultSigningInfo();

	static const KeyParams&
	getDefaultKeyParams();

	private:
	std::unique_ptr<Pib> m_pib;
	std::unique_ptr<Tpm> m_tpm;

	static std::string s_defaultPibLocator;
	static std::string s_defaultTpmLocator;
	};

	template<class PibType>
	inline void
	KeyChain::registerPibBackend(const std::string& scheme)
	{
	getPibFactories().emplace(scheme, [] (const std::string& locator) {
	return unique_ptr<pib::PibImpl>(new PibType(locator));
	});
	}

	template<class TpmType>
	inline void
	KeyChain::registerTpmBackend(const std::string& scheme)
	{
	getTpmFactories().emplace(scheme, [] (const std::string& locator) {
	return unique_ptr<tpm::BackEnd>(new TpmType(locator));
	});
	}

	/**
	* @brief Register Pib backend class in KeyChain
	*
	* This macro should be placed once in the implementation file of the
	* Pib backend class within the namespace where the type is declared.
	*
	* @note This interface is implementation detail and may change without notice.
	*/
	#define NDN_CXX_V2_KEYCHAIN_REGISTER_PIB_BACKEND(PibType) \
	static class NdnCxxAuto ## PibType ## PibRegistrationClass \
	{ \
	public: \
	NdnCxxAuto ## PibType ## PibRegistrationClass() \
	{ \
	::ndn::security::v2::KeyChain::registerPibBackend<PibType>(PibType::getScheme()); \
	} \
	} ndnCxxAuto ## PibType ## PibRegistrationVariable

	/**
	* @brief Register Tpm backend class in KeyChain
	*
	* This macro should be placed once in the implementation file of the
	* Tpm backend class within the namespace where the type is declared.
	*
	* @note This interface is implementation detail and may change without notice.
	*/
	#define NDN_CXX_V2_KEYCHAIN_REGISTER_TPM_BACKEND(TpmType) \
	static class NdnCxxAuto ## TpmType ## TpmRegistrationClass \
	{ \
	public: \
	NdnCxxAuto ## TpmType ## TpmRegistrationClass() \
	{ \
	::ndn::security::v2::KeyChain::registerTpmBackend<TpmType>(TpmType::getScheme()); \
	} \
	} ndnCxxAuto ## TpmType ## TpmRegistrationVariable

	} // namespace v2

	using v2::KeyChain;

	} // namespace security

	using security::v2::KeyChain;

	} // namespace ndn

	#endif // NDN_SECURITY_V2_KEY_CHAIN_HPP