c/src/enc/XSECCryptoKeyRSA.hpp - santuario-java - Git at Google

 /*
  * Copyright 2002-2005 The Apache Software Foundation.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 /*
  * XSEC
  *
  * XSECCryptoKeyRSA := RSA Keys
  *
  * Author(s): Berin Lautenbach
  *
  * $Id$
  *
  */

 #ifndef XSECCRYPTOKEYRSA_INCLUDE
 #define XSECCRYPTOKEYRSA_INCLUDE

 #include <xsec/enc/XSECCryptoKey.hpp>

 /**
  * \ingroup crypto
  */

 /**
  * \brief Interface class for RSA keys.
  *
  * The library uses classes derived from this to process RSA keys.
  */


 class DSIG_EXPORT XSECCryptoKeyRSA : public XSECCryptoKey {

 public :

 	/**
 	 * \brief Padding type
 	 *
 	 * Type of padding to be used for RSA encrypt/decrypt operations
 	 */

 	enum PaddingType {

 		PAD_NONE		= 0,		/** No padding (Illegal for all enc ops) */
 		PAD_PKCS_1_5	= 1,		/** PKCS 1.5 padding */
 		PAD_OAEP_MGFP1	= 2			/** OAEP using MGFP1 as mask function */

 	};

 	/** @name Constructors and Destructors */
 	//@{

 	XSECCryptoKeyRSA() {};
 	virtual ~XSECCryptoKeyRSA() {};

 	//@}

 	/** @name Key Interface methods */
 	//@{

 	/**
 	 * \brief Return the type of this key.
 	 *
 	 * For RSA keys, this allows people to determine whether this is a
 	 * public key, private key or a key pair
 	 */

 	virtual XSECCryptoKey::KeyType getKeyType() {return KEY_NONE;}

 	/**
 	 * \brief Replicate key
 	 */

 	virtual XSECCryptoKey * clone() = 0;

 	//@}

 	/** @name Mandatory RSA interface methods
 	 *
 	 * These classes are required by the library.
 	 */
 	//@{

 	/**
 	 * \brief Set the OAEPparams string
 	 *
 	 * By default, the library expects crypto implementations to perform
 	 * OAEP padding with no params.  This call allows the library (or user)
 	 * to set a params value prior to an encrypt/decrypt operation.
 	 *
 	 * @param params buffer containing the params data.  Pass in NULL to clear any
 	 * old paramters.
 	 * @param paramsLen number of bytes in buffer to use.  Pass in 0 to clear any
 	 * old parameters.
 	 */

 	virtual void setOAEPparams(unsigned char * params, unsigned int paramsLen) = 0;

 	/**
 	 * \brief Get OAEPparams Length
 	 *
 	 * @returns the number of bytes of the OAEPparams buffer (assuming it has been set)
 	 */

 	virtual unsigned int getOAEPparamsLen(void) = 0;

 	/**
 	 * \brief Get the OAEPparams
 	 *
 	 * @returns a pointer to the (crypto object owned) buffer holding the OAEPparams
 	 * or NULL if no params are held
 	 */

 	virtual const unsigned char * getOAEPparams(void) = 0;

 	/**
 	 * \brief Verify a SHA1 PKCS1 encoded signature
 	 *
 	 * The library will call this function to validate an RSA signature
 	 * The standard by default uses SHA1 in a PKCS1 encoding.
 	 *
 	 * @param hashBuf Buffer containing the pre-calculated (binary) digest
 	 * @param hashLen Length of the data in the digest buffer
 	 * @param base64Signature Buffer containing the Base64 encoded signature
 	 * @param sigLen Length of the data in the signature buffer
 	 * @param hm The type of hash that the signature is accross - must be a SHA variant
 	 * @returns true if the signature was valid, false otherwise
 	 */

 	virtual bool verifySHA1PKCS1Base64Signature(const unsigned char * hashBuf,
 								 unsigned int hashLen,
 								 const char * base64Signature,
 								 unsigned int sigLen,
 								 hashMethod hm) = 0;

 	/**
 	 * \brief Create a signature
 	 *
 	 * The library will call this function to create a signature from
 	 * a pre-calculated digest.  The output signature is required to
 	 * be Base64 encoded such that it can be placed directly into the
 	 * XML document
 	 *
 	 * This call needs to do a PKCS1 encode for a SHA-1 signature.
 	 *
 	 * @param hashBuf Buffer containing the pre-calculated (binary) digest
 	 * @param hashLen Number of bytes of hash in the hashBuf
 	 * @param base64SignatureBuf Buffer to place the base64 encoded result
 	 * in.
 	 * @param base64SignatureBufLen Implementations need to ensure they do
 	 * not write more bytes than this into the buffer
 	 * @param hm Hash method used to calculate the Hash - needs to be passed
 	 * in order to calculate correct OID to be embedded in signature
 	 */


 	virtual unsigned int signSHA1PKCS1Base64Signature(unsigned char * hashBuf,
 		unsigned int hashLen,
 		char * base64SignatureBuf,
 		unsigned int base64SignatureBufLen,
 		hashMethod hm) = 0;

 	/**
 	 * \brief Decrypt using private key
 	 *
 	 * The library will call this function to decrypt a piece of cipher
 	 * text using the private component of this key.
 	 *
 	 * @param inBuf cipher text to decrypt
 	 * @param plainBuf output buffer for decrypted bytes
 	 * @param inLength bytes of cipher text to decrypt
 	 * @param maxOutLength size of outputBuffer
 	 * @param padding Type of padding (PKCS 1.5 or OAEP)
 	 * @param hm Hash Method for OAEP encryption (OAEPParams should be
 	 * set using setOAEPparams()
 	 */

 	virtual unsigned int privateDecrypt(const unsigned char * inBuf,
 								 unsigned char * plainBuf,
 								 unsigned int inLength,
 								 unsigned int maxOutLength,
 								 PaddingType padding,
 								 hashMethod hm) = 0;

 	/**
 	 * \brief Encrypt using a public key
 	 *
 	 * The library will call this function to encrypt a plain text buffer
 	 * using the public component of this key.
 	 *
 	 * @param inBuf plain text to decrypt
 	 * @param cipherBuf output buffer for decrypted bytes
 	 * @param inLength bytes of plain text to encrypt
 	 * @param maxOutLength size of outputBuffer
 	 * @param padding Type of padding (PKCS 1.5 or OAEP)
 	 * @param hm Hash Method for OAEP encryption
 	 * @param hm Hash Method for OAEP encryption (OAEPParams should be
 	 * set using setOAEPparams()
 	 */

 	virtual unsigned int publicEncrypt(const unsigned char * inBuf,
 								 unsigned char * cipherBuf,
 								 unsigned int inLength,
 								 unsigned int maxOutLength,
 								 PaddingType padding,
 								 hashMethod hm) = 0;

 	/**
 	 * \brief Obtain the length of an RSA key
 	 *
 	 * @returns The length of the rsa key (in bytes)
 	 */

 	virtual unsigned int getLength(void) = 0;

 	//@}

 	/** @name Optional Interface methods
 	 *
 	 * These functions do not necessarily have to be implmented.  They
 	 * are used by XSECKeyInfoResolverDefault to try to create a key from
 	 * KeyInfo elements without knowing anything else.
 	 *
 	 * If an interface class does not implement these functions, a simple
 	 * stub that does nothing should be used.
 	 */

 	//@{

 	/**
 	 * \brief Load the modulus
 	 *
 	 * Load the modulus from a Base64 encoded string
 	 *
 	 * param b64 A buffer containing the encoded string
 	 * param len The length of the data in the buffer
 	 */

 	virtual void loadPublicModulusBase64BigNums(const char * b64, unsigned int len) = 0;

 	/**
 	 * \brief Load the exponent
 	 *
 	 * Load the exponent from a Base64 encoded string
 	 *
 	 * param b64 A buffer containing the encoded string
 	 * param len The length of the data in the buffer
 	 */

 	virtual void loadPublicExponentBase64BigNums(const char * b64, unsigned int len) = 0;

 	//@}

 };


 #endif /* XSECCRYPTOKEYRSA_INCLUDE */
	/*
	* Copyright 2002-2005 The Apache Software Foundation.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	/*
	* XSEC
	*
	* XSECCryptoKeyRSA := RSA Keys
	*
	* Author(s): Berin Lautenbach
	*
	* $Id$
	*
	*/

	#ifndef XSECCRYPTOKEYRSA_INCLUDE
	#define XSECCRYPTOKEYRSA_INCLUDE

	#include <xsec/enc/XSECCryptoKey.hpp>

	/**
	* \ingroup crypto
	*/

	/**
	* \brief Interface class for RSA keys.
	*
	* The library uses classes derived from this to process RSA keys.
	*/


	class DSIG_EXPORT XSECCryptoKeyRSA : public XSECCryptoKey {

	public :

	/**
	* \brief Padding type
	*
	* Type of padding to be used for RSA encrypt/decrypt operations
	*/

	enum PaddingType {

	PAD_NONE = 0, /** No padding (Illegal for all enc ops) */
	PAD_PKCS_1_5 = 1, /** PKCS 1.5 padding */
	PAD_OAEP_MGFP1 = 2 /** OAEP using MGFP1 as mask function */

	};

	/** @name Constructors and Destructors */
	//@{

	XSECCryptoKeyRSA() {};
	virtual ~XSECCryptoKeyRSA() {};

	//@}

	/** @name Key Interface methods */
	//@{

	/**
	* \brief Return the type of this key.
	*
	* For RSA keys, this allows people to determine whether this is a
	* public key, private key or a key pair
	*/

	virtual XSECCryptoKey::KeyType getKeyType() {return KEY_NONE;}

	/**
	* \brief Replicate key
	*/

	virtual XSECCryptoKey * clone() = 0;

	//@}

	/** @name Mandatory RSA interface methods
	*
	* These classes are required by the library.
	*/
	//@{

	/**
	* \brief Set the OAEPparams string
	*
	* By default, the library expects crypto implementations to perform
	* OAEP padding with no params. This call allows the library (or user)
	* to set a params value prior to an encrypt/decrypt operation.
	*
	* @param params buffer containing the params data. Pass in NULL to clear any
	* old paramters.
	* @param paramsLen number of bytes in buffer to use. Pass in 0 to clear any
	* old parameters.
	*/

	virtual void setOAEPparams(unsigned char * params, unsigned int paramsLen) = 0;

	/**
	* \brief Get OAEPparams Length
	*
	* @returns the number of bytes of the OAEPparams buffer (assuming it has been set)
	*/

	virtual unsigned int getOAEPparamsLen(void) = 0;

	/**
	* \brief Get the OAEPparams
	*
	* @returns a pointer to the (crypto object owned) buffer holding the OAEPparams
	* or NULL if no params are held
	*/

	virtual const unsigned char * getOAEPparams(void) = 0;

	/**
	* \brief Verify a SHA1 PKCS1 encoded signature
	*
	* The library will call this function to validate an RSA signature
	* The standard by default uses SHA1 in a PKCS1 encoding.
	*
	* @param hashBuf Buffer containing the pre-calculated (binary) digest
	* @param hashLen Length of the data in the digest buffer
	* @param base64Signature Buffer containing the Base64 encoded signature
	* @param sigLen Length of the data in the signature buffer
	* @param hm The type of hash that the signature is accross - must be a SHA variant
	* @returns true if the signature was valid, false otherwise
	*/

	virtual bool verifySHA1PKCS1Base64Signature(const unsigned char * hashBuf,
	unsigned int hashLen,
	const char * base64Signature,
	unsigned int sigLen,
	hashMethod hm) = 0;

	/**
	* \brief Create a signature
	*
	* The library will call this function to create a signature from
	* a pre-calculated digest. The output signature is required to
	* be Base64 encoded such that it can be placed directly into the
	* XML document
	*
	* This call needs to do a PKCS1 encode for a SHA-1 signature.
	*
	* @param hashBuf Buffer containing the pre-calculated (binary) digest
	* @param hashLen Number of bytes of hash in the hashBuf
	* @param base64SignatureBuf Buffer to place the base64 encoded result
	* in.
	* @param base64SignatureBufLen Implementations need to ensure they do
	* not write more bytes than this into the buffer
	* @param hm Hash method used to calculate the Hash - needs to be passed
	* in order to calculate correct OID to be embedded in signature
	*/


	virtual unsigned int signSHA1PKCS1Base64Signature(unsigned char * hashBuf,
	unsigned int hashLen,
	char * base64SignatureBuf,
	unsigned int base64SignatureBufLen,
	hashMethod hm) = 0;

	/**
	* \brief Decrypt using private key
	*
	* The library will call this function to decrypt a piece of cipher
	* text using the private component of this key.
	*
	* @param inBuf cipher text to decrypt
	* @param plainBuf output buffer for decrypted bytes
	* @param inLength bytes of cipher text to decrypt
	* @param maxOutLength size of outputBuffer
	* @param padding Type of padding (PKCS 1.5 or OAEP)
	* @param hm Hash Method for OAEP encryption (OAEPParams should be
	* set using setOAEPparams()
	*/

	virtual unsigned int privateDecrypt(const unsigned char * inBuf,
	unsigned char * plainBuf,
	unsigned int inLength,
	unsigned int maxOutLength,
	PaddingType padding,
	hashMethod hm) = 0;

	/**
	* \brief Encrypt using a public key
	*
	* The library will call this function to encrypt a plain text buffer
	* using the public component of this key.
	*
	* @param inBuf plain text to decrypt
	* @param cipherBuf output buffer for decrypted bytes
	* @param inLength bytes of plain text to encrypt
	* @param maxOutLength size of outputBuffer
	* @param padding Type of padding (PKCS 1.5 or OAEP)
	* @param hm Hash Method for OAEP encryption
	* @param hm Hash Method for OAEP encryption (OAEPParams should be
	* set using setOAEPparams()
	*/

	virtual unsigned int publicEncrypt(const unsigned char * inBuf,
	unsigned char * cipherBuf,
	unsigned int inLength,
	unsigned int maxOutLength,
	PaddingType padding,
	hashMethod hm) = 0;

	/**
	* \brief Obtain the length of an RSA key
	*
	* @returns The length of the rsa key (in bytes)
	*/

	virtual unsigned int getLength(void) = 0;

	//@}

	/** @name Optional Interface methods
	*
	* These functions do not necessarily have to be implmented. They
	* are used by XSECKeyInfoResolverDefault to try to create a key from
	* KeyInfo elements without knowing anything else.
	*
	* If an interface class does not implement these functions, a simple
	* stub that does nothing should be used.
	*/

	//@{

	/**
	* \brief Load the modulus
	*
	* Load the modulus from a Base64 encoded string
	*
	* param b64 A buffer containing the encoded string
	* param len The length of the data in the buffer
	*/

	virtual void loadPublicModulusBase64BigNums(const char * b64, unsigned int len) = 0;

	/**
	* \brief Load the exponent
	*
	* Load the exponent from a Base64 encoded string
	*
	* param b64 A buffer containing the encoded string
	* param len The length of the data in the buffer
	*/

	virtual void loadPublicExponentBase64BigNums(const char * b64, unsigned int len) = 0;

	//@}

	};



	#endif /* XSECCRYPTOKEYRSA_INCLUDE */