/usr/include/xsec/enc/OpenSSL/OpenSSLCryptoProvider.hpp is in libxml-security-c-dev 1.7.3-1.
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* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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
*
* OpenSSLCryptoProvider := Base class to define an OpenSSL module
*
* Author(s): Berin Lautenbach
*
* $Id: OpenSSLCryptoProvider.hpp 1125514 2011-05-20 19:08:33Z scantor $
*
*/
#ifndef OPENSSLCRYPTOPROVIDER_INCLUDE
#define OPENSSLCRYPTOPROVIDER_INCLUDE
#include <xsec/framework/XSECDefs.hpp>
#include <xsec/enc/XSECCryptoProvider.hpp>
#include <map>
#include <string>
#if defined (XSEC_HAVE_OPENSSL)
/**
* @defgroup opensslcrypto OpenSSL Interface
* @ingroup crypto
* The OpenSSL/OpenSSL* classes provide an implementation of the
* XSECCrypto interface layer for OpenSSL. The layer is very thin -
* it only provides the functionality necessary to provide cryptographic
* services to the library.
*
* Calling applications need to do the work to initialise OpenSSL, load
* keys from disk etc.
*
*/
/*\@{*/
class DSIG_EXPORT OpenSSLCryptoProvider : public XSECCryptoProvider {
#ifdef XSEC_OPENSSL_HAVE_EC
std::map<std::string,int> m_namedCurveMap;
#endif
public :
/** @name Constructors and Destructors */
//@{
OpenSSLCryptoProvider();
virtual ~OpenSSLCryptoProvider();
//@}
/** @name Hashing (Digest) Functions */
//@{
/**
* \brief Return a SHA1 implementation.
*
* Call used by the library to obtain a SHA1 object from the
* provider.
*
* @returns A pointer to an OpenSSL Hash object that implements SHA1
* @see XSECCryptoHash
*/
virtual XSECCryptoHash * hashSHA1() const;
/**
* \brief Return a SHA implementation.
*
* Call used by the library to obtain a SHA object from the
* provider. Size of hash determined by length argument (160 = SHA1)
*
* @returns A pointer to a Hash object that implements SHA1
* @param length - length of hash. E.g. 160 for SHA1 or 256 for SHA256
* @see OpenSSLCryptoHash
*/
virtual XSECCryptoHash * hashSHA(int length = 160) const;
/**
* \brief Return a HMAC SHA1 implementation.
*
* Call used by the library to obtain a HMAC SHA1 object from the
* provider. The caller will need to set the key in the hash
* object with an XSECCryptoKeyHMAC using OpenSSLCryptoHash::setKey()
*
* @returns A pointer to a Hash object that implements HMAC-SHA1
* @see OpenSSLCryptoHash
*/
virtual XSECCryptoHash * hashHMACSHA1() const;
/**
* \brief Return a HMAC SHA(1-512) implementation.
*
* Call used by the library to obtain a HMAC SHA object from the
* provider. The caller will need to set the key in the hash
* object with an XSECCryptoKeyHMAC using XSECCryptoHash::setKey()
*
* @returns A pointer to a Hash object that implements HMAC-SHA1
* @param length Length of hash output (160 = SHA1, 256, 512 etc)
* @see OpenSSLCryptoHash
*/
virtual XSECCryptoHash * hashHMACSHA(int length = 160) const;
/**
* \brief Return a MD5 implementation.
*
* Call used by the library to obtain a MD5 object from the
* OpenSSL provider.
*
* @returns A pointer to a Hash object that implements MD5
* @see OpenSSLCryptoHash
*/
virtual XSECCryptoHash * hashMD5() const;
/**
* \brief Return a HMAC MD5 implementation.
*
* Call used by the library to obtain a HMAC MD5 object from the
* provider. The caller will need to set the key in the hash
* object with an XSECCryptoKeyHMAC using XSECCryptoHash::setKey()
*
* @note The use of MD5 is explicitly marked as <b>not recommended</b>
* in the XML Digital Signature standard due to recent advances in
* cryptography indicating there <em>may</em> be weaknesses in the
* algorithm.
*
* @returns A pointer to a Hash object that implements HMAC-MD5
* @see OpenSSLCryptoHash
*/
virtual XSECCryptoHash * hashHMACMD5() const;
/**
* \brief Return a HMAC key
*
* Sometimes the library needs to create an HMAC key (notably within
* the XKMS utilities.
*
* This function allows the library to obtain a key that can then have
* a value set within it.
*/
virtual XSECCryptoKeyHMAC * keyHMAC(void) const;
//@}
/** @name Encoding functions */
//@{
/**
* \brief Return a Base64 encoder/decoder implementation.
*
* Call used by the library to obtain an OpenSSL Base64
* encoder/decoder.
*
* @returns Pointer to the new Base64 encoder.
* @see OpenSSLCryptoBase64
*/
virtual XSECCryptoBase64 * base64() const;
//@}
/** @name Keys and Certificates */
//@{
/**
* \brief Return a DSA key implementation object.
*
* Call used by the library to obtain a DSA key object.
*
* @returns Pointer to the new DSA key
* @see OpenSSLCryptoKeyDSA
*/
virtual XSECCryptoKeyDSA * keyDSA() const;
/**
* \brief Return an RSA key implementation object.
*
* Call used by the library to obtain an OpenSSL RSA key object.
*
* @returns Pointer to the new RSA key
* @see OpenSSLCryptoKeyRSA
*/
virtual XSECCryptoKeyRSA * keyRSA() const;
/**
* \brief Return an EC key implementation object.
*
* Call used by the library to obtain an OpenSSL EC key object.
*
* @returns Pointer to the new EC key
* @see OpenSSLCryptoKeyEC
*/
virtual XSECCryptoKeyEC * keyEC() const;
/**
* \brief Return a key implementation object based on DER-encoded input.
*
* Call used by the library to obtain a key object from a DER-encoded key.
*
* @param buf DER-encoded data
* @param buflen length of data
* @param base64 true iff data is base64-encoded
* @returns Pointer to the new key
* @see XSECCryptoKey
*/
virtual XSECCryptoKey * keyDER(const char* buf, unsigned long buflen, bool base64) const;
/**
* \brief Return an X509 implementation object.
*
* Call used by the library to obtain an object that can work
* with X509 certificates.
*
* @returns Pointer to the new X509 object
* @see OpenSSLCryptoX509
*/
virtual XSECCryptoX509 * X509() const;
/**
* \brief Determine whether a given algorithm is supported
*
* A call that can be used to determine whether a given
* symmetric algorithm is supported
*/
virtual bool algorithmSupported(XSECCryptoSymmetricKey::SymmetricKeyType alg) const;
/**
* \brief Determine whether a given algorithm is supported
*
* A call that can be used to determine whether a given
* digest algorithm is supported
*/
virtual bool algorithmSupported(XSECCryptoHash::HashType alg) const;
/**
* \brief Return a Symmetric Key implementation object.
*
* Call used by the library to obtain a bulk encryption
* object.
*
* @returns Pointer to the new SymmetricKey object
* @see XSECCryptoSymmetricKey
*/
virtual XSECCryptoSymmetricKey * keySymmetric(XSECCryptoSymmetricKey::SymmetricKeyType alg) const;
/**
* \brief Obtain some random octets
*
* For generation of IVs and the like, the library needs to be able
* to obtain "random" octets. The library uses this call to the
* crypto provider to obtain what it needs.
*
* @param buffer The buffer to place the random data in
* @param numOctets Number of bytes required
* @returns Number of bytes obtained.
*/
virtual unsigned int getRandom(unsigned char * buffer, unsigned int numOctets) const;
#ifdef XSEC_OPENSSL_HAVE_EC
/**
* \brief Map a curve name (in URI form) to a curve NID.
*
* Maps a URI identifying a named curve to a library identifier.
*
* @param curveName the URI identifying the curve
* @returns the corresponding NID
*/
int curveNameToNID(const char* curveName) const;
#endif
//@}
/** @name Information Functions */
//@{
/**
* \brief Returns a string that identifies the Crypto Provider
*/
virtual const XMLCh * getProviderName() const;
//@}
/*\@}*/
};
#endif /* XSEC_HAVE_OPENSSL */
#endif /* OPENSSLCRYPTOPROVIDER_INCLUDE */
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