/* * Copyright 2003-2005 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 * * XENCEncryptedKey := Definition for holder object for EncryptedKey * * $Id: XENCEncryptedKey.hpp 351364 2005-06-04 11:30:26Z blautenb $ * */ #ifndef XENCENCRYPTEDKEY_INCLUDE #define XENCENCRYPTEDKEY_INCLUDE // XSEC Includes #include #include #include #include /** * @ingroup xenc */ /** * @brief Interface definition for the EncryptedKey object * * The \ element is an abstract type which builds * on the EncryptedType element for encrypted data (as opposed to * encrypted data). * * In general, this class should not be used directly. For most * applications, callers will want to use the XENCCipher class * instead. * * The schema definition for EncryptedKey is as follows: * * \verbatim \endverbatim */ class XENCEncryptedKey : public XENCEncryptedType, public DSIGKeyInfo { /** @name Constructors and Destructors */ //@{ protected: // Because we inherit from KeyInfo, we need to implement a slightly different // constructor. XENCEncryptedKey(const XSECEnv * env) : DSIGKeyInfo(env) {}; public: virtual ~XENCEncryptedKey() {}; /** @name EncryptedKey Specific Getter Methods */ //@{ /** * \brief Get the CarriedKeyName * * EncryptedKey elements MAY have a CarriedKeyName element that links * the EncryptedKey to a KeyName KeyInfo element in another EncryptedKey * or EncryptedData element. * * This method allows applications to retrieve the Carried Key Name for * the particular EncryptedKey * * @returns A pointer (owned by the library) to the CarriedKeyName string * (or NULL if none) */ virtual const XMLCh * getCarriedKeyName(void) const = 0; /** * \brief Get the Recipient name * * EncryptedKey elements MAY have a Recipient Attribute on the main * EncryptedKey element that provide a hint to the application as to who * the recipient of the key is. * * This method returns this string in cases where it has been provided * * @returns A pointer (owned by the library) to the Recipient string * (or NULL if none provided). */ virtual const XMLCh * getRecipient(void) const = 0; //@} /** @name EncryptedKey Specific Setter Methods */ //@{ /** * \brief Set the CarriedKeyName * * EncryptedKey elements MAY have a CarriedKeyName element that links * the EncryptedKey to a KeyName KeyInfo element in another EncryptedKey * or EncryptedData element. * * This method allows applications to set the Carried Key Name for * the particular EncryptedKey * * @param name String to set in the CarriedKeyName element */ virtual void setCarriedKeyName(const XMLCh * name) = 0; /** * \brief Set the Recipient name * * EncryptedKey elements MAY have a Recipient Attribute on the main * EncryptedKey element that provide a hint to the application as to who * the recipient of the key is. * * This method sets the Recipient string * * @param recipient String to set in the Recipient attribute */ virtual void setRecipient(const XMLCh * recipient) = 0; //@} private: // Unimplemented XENCEncryptedKey(const XENCEncryptedKey &); XENCEncryptedKey & operator = (const XENCEncryptedKey &); }; #endif /* XENCENCRYPTEDKEY_INCLUDE */