src/security/validator.hpp - 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.
  */

 #ifndef NDN_SECURITY_VALIDATOR_HPP
 #define NDN_SECURITY_VALIDATOR_HPP

 #include "../common.hpp"

 #include "../data.hpp"
 #include "../face.hpp"
 #include "public-key.hpp"
 #include "signature-sha256-with-rsa.hpp"
 #include "signature-sha256.hpp"
 #include "validation-request.hpp"

 namespace ndn {
 /**
  * @brief Validator is one of the main classes of the security library.
  *
  * The Validator class provides the interfaces for packet validation.
  */
 class Validator {
 public:
   class Error : public std::runtime_error
   {
   public:
     explicit
     Error(const std::string& what)
       : std::runtime_error(what)
     {
     }
   };

   static const shared_ptr<Face> DEFAULT_FACE;

   explicit
   Validator(shared_ptr<Face> face = DEFAULT_FACE);

   /**
    * @brief Validate Data and call either onValidated or onValidationFailed.
    *
    * @param data The Data with the signature to check.
    * @param onValidated If the Data is validated, this calls onValidated(data).
    * @param onValidationFailed If validation fails, this calls onValidationFailed(data).
    */
   void
   validate(const Data& data,
            const OnDataValidated& onValidated,
            const OnDataValidationFailed& onValidationFailed)
   {
     validate(data, onValidated, onValidationFailed, 0);
   }

   /**
    * @brief Validate Interest and call either onValidated or onValidationFailed.
    *
    * @param interest The Interest with the signature to check.
    * @param onValidated If the Interest is validated, this calls onValidated(interest).
    * @param onValidationFailed If validation fails, this calls onValidationFailed(interest).
    */
   void
   validate(const Interest& interest,
            const OnInterestValidated& onValidated,
            const OnInterestValidationFailed& onValidationFailed)
   {
     validate(interest, onValidated, onValidationFailed, 0);
   }

   /*****************************************
    *      verifySignature method set       *
    *****************************************/

   /// @brief Verify the data using the publicKey.
   static bool
   verifySignature(const Data& data, const PublicKey& publicKey);

   /**
    * @brief Verify the signed Interest using the publicKey.
    *
    * (Note the signature covers the first n-2 name components).
    */
   static bool
   verifySignature(const Interest& interest, const PublicKey& publicKey);

   /// @brief Verify the blob using the publicKey against the signature.
   static bool
   verifySignature(const Buffer& blob, const Signature& sig, const PublicKey& publicKey);

   /// @brief Verify the data using the publicKey against the SHA256-RSA signature.
   static bool
   verifySignature(const Data& data,
                   const SignatureSha256WithRsa& sig,
                   const PublicKey& publicKey)
   {
     return verifySignature(data.wireEncode().value(),
                            data.wireEncode().value_size() - data.getSignature().getValue().size(),
                            sig, publicKey);
   }

   /** @brief Verify the interest using the publicKey against the SHA256-RSA signature.
    *
    * (Note the signature covers the first n-2 name components).
    */
   static bool
   verifySignature(const Interest& interest,
                   const SignatureSha256WithRsa& sig,
                   const PublicKey& publicKey)
   {
     if (interest.getName().size() < 2)
       return false;

     const Name& name = interest.getName();

     return verifySignature(name.wireEncode().value(),
                            name.wireEncode().value_size() - name[-1].size(),
                            sig, publicKey);
   }

   /// @brief Verify the blob using the publicKey against the SHA256-RSA signature.
   static bool
   verifySignature(const Buffer& blob,
                   const SignatureSha256WithRsa& sig,
                   const PublicKey& publicKey)
   {
     return verifySignature(blob.buf(), blob.size(), sig, publicKey);
   }

   /// @brief Verify the blob using the publicKey against the SHA256-RSA signature.
   static bool
   verifySignature(const uint8_t* buf,
                   const size_t size,
                   const SignatureSha256WithRsa& sig,
                   const PublicKey& publicKey);


   /// @brief Verify the data against the SHA256 signature.
   static bool
   verifySignature(const Data& data, const SignatureSha256& sig)
   {
     return verifySignature(data.wireEncode().value(),
                            data.wireEncode().value_size() -
                            data.getSignature().getValue().size(),
                            sig);
   }

   /** @brief Verify the interest against the SHA256 signature.
    *
    * (Note the signature covers the first n-2 name components).
    */
   static bool
   verifySignature(const Interest& interest, const SignatureSha256& sig)
   {
     if (interest.getName().size() < 2)
       return false;

     Name signedName = interest.getName().getPrefix(-2);

     return verifySignature(signedName.wireEncode().value(),
                            signedName.wireEncode().value_size(),
                            sig);
   }

   /// @brief Verify the blob against the SHA256 signature.
   static bool
   verifySignature(const Buffer& blob, const SignatureSha256& sig)
   {
     return verifySignature (blob.buf(), blob.size(), sig);
   }

   /// @brief Verify the blob against the SHA256 signature.
   static bool
   verifySignature(const uint8_t* buf, const size_t size, const SignatureSha256& sig);


 protected:
   /**
    * @brief Check the Data against policy and return the next validation step if necessary.
    *
    * If there is no next validation step, that validation MUST have been done.
    * i.e., either onValidated or onValidationFailed callback is invoked.
    *
    * @param data The Data to check.
    * @param nSteps The number of validation steps that have been done.
    * @param onDataValidated If the Data is validated, this calls onValidated(data).
    * @param onDataValidationFailed If validation fails, this calls onValidationFailed(data).
    * @param nextSteps On return, contains the next validation step.
    */
   virtual void
   checkPolicy(const Data& data,
               int nSteps,
               const OnDataValidated& onValidated,
               const OnDataValidationFailed& onValidationFailed,
               std::vector<shared_ptr<ValidationRequest> >& nextSteps) = 0;

   /**
    * @brief Check the Interest against validation policy and return the next validation step
    *        if necessary.
    *
    * If there is no next validation step, that validation MUST have been done.
    * i.e., either onValidated or onValidationFailed callback is invoked.
    *
    * @param data The Interest to check.
    * @param nSteps The number of validation steps that have been done.
    * @param OnInterestValidated If the Interest is validated, this calls onValidated(data).
    * @param OnInterestValidationFailed If validation fails, this calls onValidationFailed(data).
    * @return the indication of next validation step, null if there is no further step.
    */
   virtual void
   checkPolicy(const Interest& interest,
               int nSteps,
               const OnInterestValidated& onValidated,
               const OnInterestValidationFailed& onValidationFailed,
               std::vector<shared_ptr<ValidationRequest> >& nextSteps) = 0;

 private:
   typedef function<void(const std::string&)> OnFailure;

   /// @brief Process the received certificate.
   void
   onData(const Interest& interest,
          const Data& data,
          const shared_ptr<ValidationRequest>& nextStep);

   /// @brief Re-express the interest if it times out.
   void
   onTimeout(const Interest& interest,
             int retry,
             const OnFailure& onFailure,
             const shared_ptr<ValidationRequest>& nextStep);

   void
   validate(const Data& data,
            const OnDataValidated& onValidated,
            const OnDataValidationFailed& onValidationFailed,
            int nSteps);

   void
   validate(const Interest& interest,
            const OnInterestValidated& onValidated,
            const OnInterestValidationFailed& onValidationFailed,
            int nSteps);

 protected:
   shared_ptr<Face> m_face;
 };

 } // namespace ndn

 #endif //NDN_SECURITY_VALIDATOR_HPP
	/* -- 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.
	*/

	#ifndef NDN_SECURITY_VALIDATOR_HPP
	#define NDN_SECURITY_VALIDATOR_HPP

	#include "../common.hpp"

	#include "../data.hpp"
	#include "../face.hpp"
	#include "public-key.hpp"
	#include "signature-sha256-with-rsa.hpp"
	#include "signature-sha256.hpp"
	#include "validation-request.hpp"

	namespace ndn {
	/**
	* @brief Validator is one of the main classes of the security library.
	*
	* The Validator class provides the interfaces for packet validation.
	*/
	class Validator {
	public:
	class Error : public std::runtime_error
	{
	public:
	explicit
	Error(const std::string& what)
	: std::runtime_error(what)
	{
	}
	};

	static const shared_ptr<Face> DEFAULT_FACE;

	explicit
	Validator(shared_ptr<Face> face = DEFAULT_FACE);

	/**
	* @brief Validate Data and call either onValidated or onValidationFailed.
	*
	* @param data The Data with the signature to check.
	* @param onValidated If the Data is validated, this calls onValidated(data).
	* @param onValidationFailed If validation fails, this calls onValidationFailed(data).
	*/
	void
	validate(const Data& data,
	const OnDataValidated& onValidated,
	const OnDataValidationFailed& onValidationFailed)
	{
	validate(data, onValidated, onValidationFailed, 0);
	}

	/**
	* @brief Validate Interest and call either onValidated or onValidationFailed.
	*
	* @param interest The Interest with the signature to check.
	* @param onValidated If the Interest is validated, this calls onValidated(interest).
	* @param onValidationFailed If validation fails, this calls onValidationFailed(interest).
	*/
	void
	validate(const Interest& interest,
	const OnInterestValidated& onValidated,
	const OnInterestValidationFailed& onValidationFailed)
	{
	validate(interest, onValidated, onValidationFailed, 0);
	}

	/*****************************************
	* verifySignature method set *
	*****************************************/

	/// @brief Verify the data using the publicKey.
	static bool
	verifySignature(const Data& data, const PublicKey& publicKey);

	/**
	* @brief Verify the signed Interest using the publicKey.
	*
	* (Note the signature covers the first n-2 name components).
	*/
	static bool
	verifySignature(const Interest& interest, const PublicKey& publicKey);

	/// @brief Verify the blob using the publicKey against the signature.
	static bool
	verifySignature(const Buffer& blob, const Signature& sig, const PublicKey& publicKey);

	/// @brief Verify the data using the publicKey against the SHA256-RSA signature.
	static bool
	verifySignature(const Data& data,
	const SignatureSha256WithRsa& sig,
	const PublicKey& publicKey)
	{
	return verifySignature(data.wireEncode().value(),
	data.wireEncode().value_size() - data.getSignature().getValue().size(),
	sig, publicKey);
	}

	/** @brief Verify the interest using the publicKey against the SHA256-RSA signature.
	*
	* (Note the signature covers the first n-2 name components).
	*/
	static bool
	verifySignature(const Interest& interest,
	const SignatureSha256WithRsa& sig,
	const PublicKey& publicKey)
	{
	if (interest.getName().size() < 2)
	return false;

	const Name& name = interest.getName();

	return verifySignature(name.wireEncode().value(),
	name.wireEncode().value_size() - name[-1].size(),
	sig, publicKey);
	}

	/// @brief Verify the blob using the publicKey against the SHA256-RSA signature.
	static bool
	verifySignature(const Buffer& blob,
	const SignatureSha256WithRsa& sig,
	const PublicKey& publicKey)
	{
	return verifySignature(blob.buf(), blob.size(), sig, publicKey);
	}

	/// @brief Verify the blob using the publicKey against the SHA256-RSA signature.
	static bool
	verifySignature(const uint8_t* buf,
	const size_t size,
	const SignatureSha256WithRsa& sig,
	const PublicKey& publicKey);


	/// @brief Verify the data against the SHA256 signature.
	static bool
	verifySignature(const Data& data, const SignatureSha256& sig)
	{
	return verifySignature(data.wireEncode().value(),
	data.wireEncode().value_size() -
	data.getSignature().getValue().size(),
	sig);
	}

	/** @brief Verify the interest against the SHA256 signature.
	*
	* (Note the signature covers the first n-2 name components).
	*/
	static bool
	verifySignature(const Interest& interest, const SignatureSha256& sig)
	{
	if (interest.getName().size() < 2)
	return false;

	Name signedName = interest.getName().getPrefix(-2);

	return verifySignature(signedName.wireEncode().value(),
	signedName.wireEncode().value_size(),
	sig);
	}

	/// @brief Verify the blob against the SHA256 signature.
	static bool
	verifySignature(const Buffer& blob, const SignatureSha256& sig)
	{
	return verifySignature (blob.buf(), blob.size(), sig);
	}

	/// @brief Verify the blob against the SHA256 signature.
	static bool
	verifySignature(const uint8_t* buf, const size_t size, const SignatureSha256& sig);


	protected:
	/**
	* @brief Check the Data against policy and return the next validation step if necessary.
	*
	* If there is no next validation step, that validation MUST have been done.
	* i.e., either onValidated or onValidationFailed callback is invoked.
	*
	* @param data The Data to check.
	* @param nSteps The number of validation steps that have been done.
	* @param onDataValidated If the Data is validated, this calls onValidated(data).
	* @param onDataValidationFailed If validation fails, this calls onValidationFailed(data).
	* @param nextSteps On return, contains the next validation step.
	*/
	virtual void
	checkPolicy(const Data& data,
	int nSteps,
	const OnDataValidated& onValidated,
	const OnDataValidationFailed& onValidationFailed,
	std::vector<shared_ptr<ValidationRequest> >& nextSteps) = 0;

	/**
	* @brief Check the Interest against validation policy and return the next validation step
	* if necessary.
	*
	* If there is no next validation step, that validation MUST have been done.
	* i.e., either onValidated or onValidationFailed callback is invoked.
	*
	* @param data The Interest to check.
	* @param nSteps The number of validation steps that have been done.
	* @param OnInterestValidated If the Interest is validated, this calls onValidated(data).
	* @param OnInterestValidationFailed If validation fails, this calls onValidationFailed(data).
	* @return the indication of next validation step, null if there is no further step.
	*/
	virtual void
	checkPolicy(const Interest& interest,
	int nSteps,
	const OnInterestValidated& onValidated,
	const OnInterestValidationFailed& onValidationFailed,
	std::vector<shared_ptr<ValidationRequest> >& nextSteps) = 0;

	private:
	typedef function<void(const std::string&)> OnFailure;

	/// @brief Process the received certificate.
	void
	onData(const Interest& interest,
	const Data& data,
	const shared_ptr<ValidationRequest>& nextStep);

	/// @brief Re-express the interest if it times out.
	void
	onTimeout(const Interest& interest,
	int retry,
	const OnFailure& onFailure,
	const shared_ptr<ValidationRequest>& nextStep);

	void
	validate(const Data& data,
	const OnDataValidated& onValidated,
	const OnDataValidationFailed& onValidationFailed,
	int nSteps);

	void
	validate(const Interest& interest,
	const OnInterestValidated& onValidated,
	const OnInterestValidationFailed& onValidationFailed,
	int nSteps);

	protected:
	shared_ptr<Face> m_face;
	};

	} // namespace ndn

	#endif //NDN_SECURITY_VALIDATOR_HPP