/*
- * Copyright 2001-2006 Internet2
+ * Copyright 2001-2007 Internet2
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
*/
/**
- * Encrypter.cpp
+ * Decrypter.cpp
*
- * Methods for encrypting XMLObjects and other data.
+ * Methods for decrypting XMLObjects and other data.
*/
#include "internal.h"
+#include "logging.h"
#include "encryption/Decrypter.h"
#include "encryption/EncryptedKeyResolver.h"
+#include "security/Credential.h"
+#include "security/CredentialCriteria.h"
+#include "security/CredentialResolver.h"
-#include <log4cpp/Category.hh>
#include <xsec/enc/XSECCryptoException.hpp>
#include <xsec/framework/XSECException.hpp>
#include <xsec/framework/XSECAlgorithmMapper.hpp>
#include <xsec/framework/XSECAlgorithmHandler.hpp>
+#include <xsec/utils/XSECBinTXFMInputStream.hpp>
#include <xsec/xenc/XENCEncryptedData.hpp>
#include <xsec/xenc/XENCEncryptedKey.hpp>
Decrypter::~Decrypter()
{
- XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->releaseCipher(m_cipher);
- delete m_resolver;
- delete m_KEKresolver;
+ if (m_cipher)
+ XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->releaseCipher(m_cipher);
}
-DOMDocumentFragment* Decrypter::decryptData(EncryptedData* encryptedData)
+DOMDocumentFragment* Decrypter::decryptData(const EncryptedData& encryptedData, XSECCryptoKey* key)
{
- if (encryptedData->getDOM()==NULL)
+ if (encryptedData.getDOM()==NULL)
throw DecryptionException("The object must be marshalled before decryption.");
-
+
// We can reuse the cipher object if the document hasn't changed.
- if (m_cipher && m_cipher->getDocument()!=encryptedData->getDOM()->getOwnerDocument()) {
+ if (m_cipher && m_cipher->getDocument()!=encryptedData.getDOM()->getOwnerDocument()) {
XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->releaseCipher(m_cipher);
m_cipher=NULL;
}
if (!m_cipher)
- m_cipher=XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->newCipher(encryptedData->getDOM()->getOwnerDocument());
-
- try {
- // Resolve decryption key.
- XSECCryptoKey* key=NULL;
- if (m_resolver)
- key=m_resolver->resolveKey(encryptedData->getKeyInfo());
-
- if (!key && m_KEKresolver) {
- // See if there's an encrypted key available. We'll need the algorithm...
- const XMLCh* algorithm=
- encryptedData->getEncryptionMethod() ? encryptedData->getEncryptionMethod()->getAlgorithm() : NULL;
- if (!algorithm)
- throw DecryptionException("No EncryptionMethod/@Algorithm set, key decryption cannot proceed.");
-
- if (encryptedData->getKeyInfo()) {
- const vector<XMLObject*>& others=const_cast<const KeyInfo*>(encryptedData->getKeyInfo())->getOthers();
- for (vector<XMLObject*>::const_iterator i=others.begin(); i!=others.end(); i++) {
- EncryptedKey* encKey=dynamic_cast<EncryptedKey*>(*i);
- if (encKey) {
- try {
- key=decryptKey(encKey, algorithm);
- }
- catch (DecryptionException& e) {
- log4cpp::Category::getInstance(XMLTOOLING_LOGCAT".Decrypter").warn(e.what());
- }
- }
- }
- }
-
- if (!key) {
- // Check for a non-trivial resolver.
- EncryptedKeyResolver* ekr=dynamic_cast<EncryptedKeyResolver*>(m_resolver);
- if (ekr) {
- EncryptedKey* encKey=ekr->resolveKey(encryptedData);
- if (encKey) {
- try {
- key=decryptKey(encKey, algorithm);
- }
- catch (DecryptionException& e) {
- log4cpp::Category::getInstance(XMLTOOLING_LOGCAT".Decrypter").warn(e.what());
- }
- }
- }
- }
- }
+ m_cipher=XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->newCipher(encryptedData.getDOM()->getOwnerDocument());
- if (!key)
- throw DecryptionException("Unable to resolve a decryption key.");
-
- m_cipher->setKey(key);
- DOMNode* ret=m_cipher->decryptElementDetached(encryptedData->getDOM());
+ try {
+ m_cipher->setKey(key->clone());
+ DOMNode* ret=m_cipher->decryptElementDetached(encryptedData.getDOM());
if (ret->getNodeType()!=DOMNode::DOCUMENT_FRAGMENT_NODE) {
ret->release();
throw DecryptionException("Decryption operation did not result in DocumentFragment.");
}
}
-XSECCryptoKey* Decrypter::decryptKey(EncryptedKey* encryptedKey, const XMLCh* algorithm)
+DOMDocumentFragment* Decrypter::decryptData(const EncryptedData& encryptedData, const XMLCh* recipient)
{
- if (encryptedKey->getDOM()==NULL)
- throw DecryptionException("The object must be marshalled before decryption.");
+ if (!m_credResolver)
+ throw DecryptionException("No CredentialResolver supplied to provide decryption keys.");
+
+ // Resolve a decryption key directly.
+ vector<const Credential*> creds;
+ int types =
+ CredentialCriteria::KEYINFO_EXTRACTION_KEY |
+ CredentialCriteria::KEYINFO_EXTRACTION_KEYNAMES |
+ CredentialCriteria::KEYINFO_EXTRACTION_IMPLICIT_KEYNAMES;
+ if (m_criteria) {
+ m_criteria->setUsage(CredentialCriteria::ENCRYPTION_CREDENTIAL);
+ m_criteria->setKeyInfo(encryptedData.getKeyInfo(), types);
+ const EncryptionMethod* meth = encryptedData.getEncryptionMethod();
+ if (meth)
+ m_criteria->setXMLAlgorithm(meth->getAlgorithm());
+ m_credResolver->resolve(creds,m_criteria);
+ }
+ else {
+ CredentialCriteria criteria;
+ criteria.setUsage(CredentialCriteria::ENCRYPTION_CREDENTIAL);
+ criteria.setKeyInfo(encryptedData.getKeyInfo(), types);
+ const EncryptionMethod* meth = encryptedData.getEncryptionMethod();
+ if (meth)
+ criteria.setXMLAlgorithm(meth->getAlgorithm());
+ m_credResolver->resolve(creds,&criteria);
+ }
+
+ // Loop over them and try each one.
+ XSECCryptoKey* key;
+ for (vector<const Credential*>::const_iterator cred = creds.begin(); cred!=creds.end(); ++cred) {
+ try {
+ key = (*cred)->getPrivateKey();
+ if (!key)
+ continue;
+ return decryptData(encryptedData, key);
+ }
+ catch(DecryptionException& ex) {
+ logging::Category::getInstance(XMLTOOLING_LOGCAT".Decrypter").warn(ex.what());
+ }
+ }
+
+ // We need to find an encrypted decryption key somewhere. We'll need the underlying algorithm...
+ const XMLCh* algorithm=
+ encryptedData.getEncryptionMethod() ? encryptedData.getEncryptionMethod()->getAlgorithm() : NULL;
+ if (!algorithm)
+ throw DecryptionException("No EncryptionMethod/@Algorithm set, key decryption cannot proceed.");
+ // Check for external resolver.
+ const EncryptedKey* encKey=NULL;
+ if (m_EKResolver)
+ encKey = m_EKResolver->resolveKey(encryptedData, recipient);
+ else {
+ EncryptedKeyResolver ekr;
+ encKey = ekr.resolveKey(encryptedData, recipient);
+ }
+
+ if (!encKey)
+ throw DecryptionException("Unable to locate an encrypted key.");
+
+ auto_ptr<XSECCryptoKey> keywrapper(decryptKey(*encKey, algorithm));
+ if (!keywrapper.get())
+ throw DecryptionException("Unable to decrypt the encrypted key.");
+ return decryptData(encryptedData, keywrapper.get());
+}
+
+void Decrypter::decryptData(ostream& out, const EncryptedData& encryptedData, XSECCryptoKey* key)
+{
+ if (encryptedData.getDOM()==NULL)
+ throw DecryptionException("The object must be marshalled before decryption.");
+
// We can reuse the cipher object if the document hasn't changed.
- if (m_cipher && m_cipher->getDocument()!=encryptedKey->getDOM()->getOwnerDocument()) {
+ if (m_cipher && m_cipher->getDocument()!=encryptedData.getDOM()->getOwnerDocument()) {
XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->releaseCipher(m_cipher);
m_cipher=NULL;
}
if (!m_cipher)
- m_cipher=XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->newCipher(encryptedKey->getDOM()->getOwnerDocument());
-
+ m_cipher=XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->newCipher(encryptedData.getDOM()->getOwnerDocument());
+
try {
- // Resolve key decryption key.
- XSECCryptoKey* key=NULL;
- if (m_KEKresolver)
- key=m_KEKresolver->resolveKey(encryptedKey->getKeyInfo());
- if (!key)
- throw DecryptionException("Unable to resolve a key decryption key.");
- m_cipher->setKEK(key);
+ m_cipher->setKey(key->clone());
+ auto_ptr<XSECBinTXFMInputStream> in(m_cipher->decryptToBinInputStream(encryptedData.getDOM()));
- XMLByte buffer[1024];
- int keySize = m_cipher->decryptKey(encryptedKey->getDOM(), buffer, 1024);
- if (keySize > 0) {
- // Try to map the key.
- XSECAlgorithmHandler* handler = XSECPlatformUtils::g_algorithmMapper->mapURIToHandler(algorithm);
- if (handler != NULL)
- return handler->createKeyForURI(algorithm, buffer, keySize);
- throw DecryptionException("Unrecognized algorithm, could not build object around decrypted key.");
- }
- throw DecryptionException("Unable to decrypt key.");
+ XMLByte buf[8192];
+ unsigned int count = in->readBytes(buf, sizeof(buf));
+ while (count > 0)
+ out.write(reinterpret_cast<char*>(buf),count);
}
catch(XSECException& e) {
auto_ptr_char temp(e.getMsg());
throw DecryptionException(string("XMLSecurity exception while decrypting: ") + e.getMsg());
}
}
+
+void Decrypter::decryptData(ostream& out, const EncryptedData& encryptedData, const XMLCh* recipient)
+{
+ if (!m_credResolver)
+ throw DecryptionException("No CredentialResolver supplied to provide decryption keys.");
+
+ // Resolve a decryption key directly.
+ vector<const Credential*> creds;
+ int types =
+ CredentialCriteria::KEYINFO_EXTRACTION_KEY |
+ CredentialCriteria::KEYINFO_EXTRACTION_KEYNAMES |
+ CredentialCriteria::KEYINFO_EXTRACTION_IMPLICIT_KEYNAMES;
+ if (m_criteria) {
+ m_criteria->setUsage(CredentialCriteria::ENCRYPTION_CREDENTIAL);
+ m_criteria->setKeyInfo(encryptedData.getKeyInfo(), types);
+ const EncryptionMethod* meth = encryptedData.getEncryptionMethod();
+ if (meth)
+ m_criteria->setXMLAlgorithm(meth->getAlgorithm());
+ m_credResolver->resolve(creds,m_criteria);
+ }
+ else {
+ CredentialCriteria criteria;
+ criteria.setUsage(CredentialCriteria::ENCRYPTION_CREDENTIAL);
+ criteria.setKeyInfo(encryptedData.getKeyInfo(), types);
+ const EncryptionMethod* meth = encryptedData.getEncryptionMethod();
+ if (meth)
+ criteria.setXMLAlgorithm(meth->getAlgorithm());
+ m_credResolver->resolve(creds,&criteria);
+ }
+
+ // Loop over them and try each one.
+ XSECCryptoKey* key;
+ for (vector<const Credential*>::const_iterator cred = creds.begin(); cred!=creds.end(); ++cred) {
+ try {
+ key = (*cred)->getPrivateKey();
+ if (!key)
+ continue;
+ return decryptData(out, encryptedData, key);
+ }
+ catch(DecryptionException& ex) {
+ logging::Category::getInstance(XMLTOOLING_LOGCAT".Decrypter").warn(ex.what());
+ }
+ }
+
+ // We need to find an encrypted decryption key somewhere. We'll need the underlying algorithm...
+ const XMLCh* algorithm=
+ encryptedData.getEncryptionMethod() ? encryptedData.getEncryptionMethod()->getAlgorithm() : NULL;
+ if (!algorithm)
+ throw DecryptionException("No EncryptionMethod/@Algorithm set, key decryption cannot proceed.");
+
+ // Check for external resolver.
+ const EncryptedKey* encKey=NULL;
+ if (m_EKResolver)
+ encKey = m_EKResolver->resolveKey(encryptedData, recipient);
+ else {
+ EncryptedKeyResolver ekr;
+ encKey = ekr.resolveKey(encryptedData, recipient);
+ }
+
+ if (!encKey)
+ throw DecryptionException("Unable to locate an encrypted key.");
+
+ auto_ptr<XSECCryptoKey> keywrapper(decryptKey(*encKey, algorithm));
+ if (!keywrapper.get())
+ throw DecryptionException("Unable to decrypt the encrypted key.");
+ decryptData(out, encryptedData, keywrapper.get());
+}
+
+XSECCryptoKey* Decrypter::decryptKey(const EncryptedKey& encryptedKey, const XMLCh* algorithm)
+{
+ if (!m_credResolver)
+ throw DecryptionException("No CredentialResolver supplied to provide decryption keys.");
+
+ if (encryptedKey.getDOM()==NULL)
+ throw DecryptionException("The object must be marshalled before decryption.");
+
+ XSECAlgorithmHandler* handler = XSECPlatformUtils::g_algorithmMapper->mapURIToHandler(algorithm);
+ if (!handler)
+ throw DecryptionException("Unrecognized algorithm, no way to build object around decrypted key.");
+
+ // We can reuse the cipher object if the document hasn't changed.
+
+ if (m_cipher && m_cipher->getDocument()!=encryptedKey.getDOM()->getOwnerDocument()) {
+ XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->releaseCipher(m_cipher);
+ m_cipher=NULL;
+ }
+
+ if (!m_cipher)
+ m_cipher=XMLToolingInternalConfig::getInternalConfig().m_xsecProvider->newCipher(encryptedKey.getDOM()->getOwnerDocument());
+
+ // Resolve key decryption keys.
+ int types =
+ CredentialCriteria::KEYINFO_EXTRACTION_KEY |
+ CredentialCriteria::KEYINFO_EXTRACTION_KEYNAMES |
+ CredentialCriteria::KEYINFO_EXTRACTION_IMPLICIT_KEYNAMES;
+ vector<const Credential*> creds;
+ if (m_criteria) {
+ m_criteria->setUsage(CredentialCriteria::ENCRYPTION_CREDENTIAL);
+ m_criteria->setKeyInfo(encryptedKey.getKeyInfo(), types);
+ const EncryptionMethod* meth = encryptedKey.getEncryptionMethod();
+ if (meth)
+ m_criteria->setXMLAlgorithm(meth->getAlgorithm());
+ m_credResolver->resolve(creds, m_criteria);
+ }
+ else {
+ CredentialCriteria criteria;
+ criteria.setUsage(CredentialCriteria::ENCRYPTION_CREDENTIAL);
+ criteria.setKeyInfo(encryptedKey.getKeyInfo(), types);
+ const EncryptionMethod* meth = encryptedKey.getEncryptionMethod();
+ if (meth)
+ criteria.setXMLAlgorithm(meth->getAlgorithm());
+ m_credResolver->resolve(creds, &criteria);
+ }
+ if (creds.empty())
+ throw DecryptionException("Unable to resolve any key decryption keys.");
+
+ XMLByte buffer[1024];
+ for (vector<const Credential*>::const_iterator cred = creds.begin(); cred!=creds.end(); ++cred) {
+ try {
+ if (!(*cred)->getPrivateKey())
+ throw DecryptionException("Credential did not contain a private key.");
+ memset(buffer,0,sizeof(buffer));
+ m_cipher->setKEK((*cred)->getPrivateKey()->clone());
+
+ try {
+ int keySize = m_cipher->decryptKey(encryptedKey.getDOM(), buffer, 1024);
+ if (keySize<=0)
+ throw DecryptionException("Unable to decrypt key.");
+
+ // Try to wrap the key.
+ return handler->createKeyForURI(algorithm, buffer, keySize);
+ }
+ catch(XSECException& e) {
+ auto_ptr_char temp(e.getMsg());
+ throw DecryptionException(string("XMLSecurity exception while decrypting key: ") + temp.get());
+ }
+ catch(XSECCryptoException& e) {
+ throw DecryptionException(string("XMLSecurity exception while decrypting key: ") + e.getMsg());
+ }
+ }
+ catch(DecryptionException& ex) {
+ logging::Category::getInstance(XMLTOOLING_LOGCAT".Decrypter").warn(ex.what());
+ }
+ }
+
+ throw DecryptionException("Unable to decrypt key.");
+}