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13 * See the License for the specific language governing permissions and
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18 * @file xmltooling/encryption/Encrypter.h
20 * Methods for encrypting XMLObjects and other data.
23 #if !defined(__xmltooling_encrypter_h__) && !defined(XMLTOOLING_NO_XMLSEC)
24 #define __xmltooling_encrypter_h__
26 #include <xmltooling/encryption/Encryption.h>
28 #include <xsec/enc/XSECCryptoKey.hpp>
29 #include <xsec/xenc/XENCCipher.hpp>
31 namespace xmltooling {
32 class XMLTOOL_API Credential;
35 namespace xmlencryption {
38 * Wrapper API for XML Encryption functionality.
39 * Designed to allow both external and internal key generation as follows:
41 * If no keying material is supplied, then the algorithm MAY be recognized
42 * and a key can be generated internally. This is only done if a KeyEncryptionParams
43 * structure is also supplied to the operation (otherwise the key would be lost).
45 * If an XSECCryptoKey is supplied, then it is used directly, but if KeyEncryptionParams
46 * are supplied, an exception will result unless the raw key buffer is also supplied.
48 * If a raw key is provided, then a key object can also be created internally if the
49 * algorithm is recognized.
51 * Summing up, if KeyEncryptionParams are used, a raw key must be available or the
52 * key can be generated when the encryption algorithm itself is a standard one. If
53 * no KeyEncryptionParams are supplied, then the key must be supplied either in raw
56 class XMLTOOL_API Encrypter
61 * Structure to collect encryption requirements.
63 struct XMLTOOL_API EncryptionParams {
68 * The algorithm constant and key buffer <strong>MUST</strong> be accessible for the life of
71 * @param algorithm the XML Encryption algorithm constant
72 * @param keyBuffer buffer containing the raw key information
73 * @param keyBufferSize the size of the raw key buffer in bytes
74 * @param credential optional Credential supplying the encryption key
75 * @param compact true iff the encrypted representation should be made as small as possible
78 const XMLCh* algorithm=DSIGConstants::s_unicodeStrURIAES256_CBC,
79 const unsigned char* keyBuffer=NULL,
80 unsigned int keyBufferSize=0,
81 const xmltooling::Credential* credential=NULL,
83 ) : m_algorithm(algorithm), m_keyBuffer(keyBuffer), m_keyBufferSize(keyBufferSize),
84 m_credential(credential), m_compact(compact) {
87 ~EncryptionParams() {}
89 const XMLCh* m_algorithm;
90 const unsigned char* m_keyBuffer;
91 unsigned int m_keyBufferSize;
92 const xmltooling::Credential* m_credential;
95 friend class Encrypter;
99 * Structure to collect key wrapping/transport requirements.
101 struct XMLTOOL_API KeyEncryptionParams {
106 * @param credential a Credential supplying the key encryption key
107 * @param algorithm the XML Encryption key wrapping or transport algorithm constant
108 * @param recipient optional name of recipient of encrypted key
111 const xmltooling::Credential& credential,
112 const XMLCh* algorithm,
113 const XMLCh* recipient=NULL
114 ) : m_credential(credential), m_algorithm(algorithm), m_recipient(recipient) {
117 ~KeyEncryptionParams() {}
119 const xmltooling::Credential& m_credential;
120 const XMLCh* m_algorithm;
121 const XMLCh* m_recipient;
123 friend class Encrypter;
126 Encrypter() : m_cipher(NULL) {}
131 * Encrypts the supplied element and returns the resulting object.
133 * If an encryption algorithm is set, but no key, a random key will be
134 * generated iff kencParams is non-NULL and the algorithm is known.
136 * If key encryption parameters are supplied, then the encryption key
137 * is wrapped and the result placed into an EncryptedKey object in the
138 * KeyInfo of the returned EncryptedData.
140 * @param element the DOM element to encrypt
141 * @param encParams primary encryption settings
142 * @param kencParams key encryption settings, or NULL
143 * @return a stand-alone EncryptedData object, unconnected to the source DOM
145 EncryptedData* encryptElement(
146 xercesc::DOMElement* element, EncryptionParams& encParams, KeyEncryptionParams* kencParams=NULL
150 * Encrypts the supplied element's children and returns the resulting object.
152 * If an encryption algorithm is set, but no key, a random key will be
153 * generated iff kencParams is non-NULL and the algorithm is known.
155 * If key encryption parameters are supplied, then the encryption key
156 * is wrapped and the result placed into an EncryptedKey object in the
157 * KeyInfo of the returned EncryptedData.
159 * @param element parent element of children to encrypt
160 * @param encParams primary encryption settings
161 * @param kencParams key encryption settings, or NULL
162 * @return a stand-alone EncryptedData object, unconnected to the source DOM
164 EncryptedData* encryptElementContent(
165 xercesc::DOMElement* element, EncryptionParams& encParams, KeyEncryptionParams* kencParams=NULL
169 * Encrypts the supplied input stream and returns the resulting object.
171 * If an encryption algorithm is set, but no key, a random key will be
172 * generated iff kencParams is non-NULL and the algorithm is known.
174 * If key encryption parameters are supplied, then the encryption key
175 * is wrapped and the result placed into an EncryptedKey object in the
176 * KeyInfo of the returned EncryptedData.
178 * @param input the stream to encrypt
179 * @param encParams primary encryption settings
180 * @param kencParams key encryption settings, or NULL
181 * @return a stand-alone EncryptedData object, unconnected to any DOM
183 EncryptedData* encryptStream(std::istream& input, EncryptionParams& encParams, KeyEncryptionParams* kencParams=NULL);
186 * Encrypts the supplied key and returns the resulting object.
188 * @param keyBuffer raw key material to encrypt
189 * @param keyBufferSize size in bytes of raw key material
190 * @param kencParams key encryption settings
191 * @param compact true iff the encrypted representation should be made as small as possible
192 * @return a stand-alone EncryptedKey object, unconnected to any DOM
194 EncryptedKey* encryptKey(
195 const unsigned char* keyBuffer, unsigned int keyBufferSize, KeyEncryptionParams& kencParams, bool compact=false
199 void checkParams(EncryptionParams& encParams, KeyEncryptionParams* kencParams);
200 EncryptedData* decorateAndUnmarshall(EncryptionParams& encParams, KeyEncryptionParams* kencParams);
202 XENCCipher* m_cipher;
203 unsigned char m_keyBuffer[32];
206 DECL_XMLTOOLING_EXCEPTION(EncryptionException,XMLTOOL_EXCEPTIONAPI(XMLTOOL_API),xmlencryption,xmltooling::XMLSecurityException,Exceptions in encryption processing);
210 #endif /* __xmltooling_encrypter_h__ */