#include "security/OpenSSLCryptoX509CRL.h"
#include "security/CredentialResolver.h"
#include "security/KeyInfoResolver.h"
+#include "security/PathValidator.h"
#include "signature/KeyInfo.h"
#include "signature/Signature.h"
#include "soap/SOAP.h"
+#include "soap/SOAPTransport.h"
#include "util/NDC.h"
#include "util/PathResolver.h"
#include "util/ReplayCache.h"
#endif
#include <stdexcept>
+#include <boost/ptr_container/ptr_vector.hpp>
+
#if defined(XMLTOOLING_LOG4SHIB)
# include <log4shib/PropertyConfigurator.hh>
# include <log4shib/OstreamAppender.hh>
using namespace xmltooling::logging;
using namespace xmltooling;
using namespace xercesc;
+using namespace boost;
using namespace std;
#ifdef WIN32
namespace {
static XMLToolingInternalConfig g_config;
#ifndef XMLTOOLING_NO_XMLSEC
- static vector<Mutex*> g_openssl_locks;
+ static ptr_vector<Mutex> g_openssl_locks;
extern "C" void openssl_locking_callback(int mode,int n,const char *file,int line)
{
if (mode & CRYPTO_LOCK)
- g_openssl_locks[n]->lock();
+ g_openssl_locks[n].lock();
else
- g_openssl_locks[n]->unlock();
+ g_openssl_locks[n].unlock();
}
# ifndef WIN32
XMLToolingInternalConfig::~XMLToolingInternalConfig()
{
- delete m_lock;
}
bool XMLToolingInternalConfig::log_config(const char* config)
#endif
}
catch (const ConfigureFailure& e) {
- string msg = string("failed to configure logging: ") + e.what();
+ string msg = string("error in file permissions or logging configuration: ") + e.what();
Category::getInstance(XMLTOOLING_LOGCAT".Logging").crit(msg);
#ifdef WIN32
LogEvent(nullptr, EVENTLOG_ERROR_TYPE, 2100, nullptr, msg.c_str());
# ifdef XMLTOOLING_XMLSEC_DEBUGLOGGING
XSECPlatformUtils::SetReferenceLoggingSink(TXFMOutputLogFactory);
# endif
- m_xsecProvider=new XSECProvider();
+ m_xsecProvider = new XSECProvider();
log.debug("XML-Security %s initialization complete", XSEC_FULLVERSIONDOT);
#endif
- m_parserPool=new ParserPool();
- m_validatingPool=new ParserPool(true,true);
-
- // Load catalogs from path.
- if (!catalog_path.empty()) {
- char* catpath=strdup(catalog_path.c_str());
- char* sep=nullptr;
- char* start=catpath;
- while (start && *start) {
- sep=strchr(start,PATH_SEPARATOR_CHAR);
- if (sep)
- *sep=0;
- auto_ptr_XMLCh temp(start);
- m_validatingPool->loadCatalog(temp.get());
- start = sep ? sep + 1 : nullptr;
- }
- free(catpath);
- }
+ m_parserPool = new ParserPool();
+ m_validatingPool = new ParserPool(true,true);
+
+ m_pathResolver = new PathResolver();
+ m_urlEncoder = new URLEncoder();
+
+ // Load catalogs from deprecated path setting.
+ if (!catalog_path.empty())
+ m_validatingPool->loadCatalogs(catalog_path.c_str());
// default registrations
XMLObjectBuilder::registerDefaultBuilder(new UnknownElementBuilder());
REGISTER_XMLTOOLING_EXCEPTION_FACTORY(EncryptionException,xmlencryption);
registerKeyInfoClasses();
registerEncryptionClasses();
- registerKeyInfoResolvers();
registerCredentialResolvers();
+ registerKeyInfoResolvers();
+ registerPathValidators();
registerTrustEngines();
registerXMLAlgorithms();
- registerSOAPTransports();
- initSOAPTransports();
- registerStorageServices();
m_keyInfoResolver = KeyInfoResolverManager.newPlugin(INLINE_KEYINFO_RESOLVER,nullptr);
#endif
- m_pathResolver = new PathResolver();
- m_urlEncoder = new URLEncoder();
+#ifndef XMLTOOLING_LITE
+ registerStorageServices();
+#endif
+ registerSOAPTransports();
+ initSOAPTransports();
HTTPResponse::getAllowedSchemes().push_back("https");
HTTPResponse::getAllowedSchemes().push_back("http");
#ifndef XMLTOOLING_NO_XMLSEC
CRYPTO_set_locking_callback(nullptr);
- for_each(g_openssl_locks.begin(), g_openssl_locks.end(), xmltooling::cleanup<Mutex>());
g_openssl_locks.clear();
#endif
XMLToolingException::deregisterFactories();
AttributeExtensibleXMLObject::deregisterIDAttributes();
-#ifndef XMLTOOLING_NO_XMLSEC
- StorageServiceManager.deregisterFactories();
termSOAPTransports();
SOAPTransportManager.deregisterFactories();
+
+#ifndef XMLTOOLING_LITE
+ StorageServiceManager.deregisterFactories();
+#endif
+
+#ifndef XMLTOOLING_NO_XMLSEC
TrustEngineManager.deregisterFactories();
CredentialResolverManager.deregisterFactories();
KeyInfoResolverManager.deregisterFactories();
delete m_validatingPool;
m_validatingPool=nullptr;
+ for_each(m_namedLocks.begin(), m_namedLocks.end(), cleanup_pair<string,Mutex>());
+ m_namedLocks.clear();
+
#ifndef XMLTOOLING_NO_XMLSEC
delete m_xsecProvider;
m_xsecProvider=nullptr;
m_lock->unlock();
}
+Mutex& XMLToolingInternalConfig::getNamedMutex(const char* name)
+{
+ Locker glock(this);
+ map<string,Mutex*>::const_iterator m = m_namedLocks.find(name);
+ if (m != m_namedLocks.end())
+ return *(m->second);
+ Mutex* newlock = Mutex::create();
+ m_namedLocks[name] = newlock;
+ return *newlock;
+}
+
bool XMLToolingInternalConfig::load_library(const char* path, void* context)
{
#ifdef _DEBUG
throw runtime_error(string("detected error in xmltooling_extension_init: ") + resolved);
SetErrorMode(em);
}
- catch(exception&) {
+ catch(std::exception&) {
if (handle)
FreeLibrary(handle);
SetErrorMode(em);
if (fn(context)!=0)
throw runtime_error(string("detected error in xmltooling_extension_init in ") + resolved);
}
- catch(exception&) {
+ catch(std::exception&) {
if (handle)
dlclose(handle);
throw;
)
{
m_algorithmMap[type][xmlAlgorithm] = pair<string,unsigned int>((keyAlgorithm ? keyAlgorithm : ""), size);
+ // Authenticated encryption algorithms are also generic encryption algorithms.
+ if (type == ALGTYPE_AUTHNENCRYPT)
+ m_algorithmMap[ALGTYPE_ENCRYPT][xmlAlgorithm] = pair<string,unsigned int>((keyAlgorithm ? keyAlgorithm : ""), size);
}
bool XMLToolingInternalConfig::isXMLAlgorithmSupported(const XMLCh* xmlAlgorithm, XMLSecurityAlgorithmType type)
// With ECDSA, XML-Security exports a public macro for OpenSSL's support, and any
// versions of XML-Security that didn't provide the macro don't handle ECDSA anyway.
+ // However, the SHA-224 variant was left out of the initial XML-Security release.
- // With AES, all supported XML-Security versions export a macro for OpenSSL's support.
+ // With AES and GCM, all supported XML-Security versions export a macro for OpenSSL's support.
// With SHA2, only the very latest XML-Security exports a macro, but all the versions
// will handle SHA2 *if* OpenSSL does. So we use our own macro to check OpenSSL's
#endif
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIDSA_SHA1, "DSA", 0, ALGTYPE_SIGN);
+#if defined(URI_ID_DSA_SHA256) && defined(XMLTOOLING_OPENSSL_HAVE_SHA2) && !defined(OPENSSL_NO_SHA256)
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIDSA_SHA256, "DSA", 0, ALGTYPE_SIGN);
+#endif
+
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIRSA_MD5, "RSA", 0, ALGTYPE_SIGN);
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIRSA_SHA1, "RSA", 0, ALGTYPE_SIGN);
#if defined(XMLTOOLING_OPENSSL_HAVE_SHA2) && !defined(OPENSSL_NO_SHA256)
#ifdef XSEC_OPENSSL_HAVE_EC
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIECDSA_SHA1, "EC", 0, ALGTYPE_SIGN);
-#if defined(XMLTOOLING_OPENSSL_HAVE_SHA2) && !defined(OPENSSL_NO_SHA256)
+# if defined(XMLTOOLING_OPENSSL_HAVE_SHA2) && !defined(OPENSSL_NO_SHA256)
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIECDSA_SHA256, "EC", 0, ALGTYPE_SIGN);
+# ifdef URI_ID_ECDSA_SHA224
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIECDSA_SHA224, "EC", 0, ALGTYPE_SIGN);
+# endif
# endif
-#if defined(XMLTOOLING_OPENSSL_HAVE_SHA2) && !defined(OPENSSL_NO_SHA512)
+# if defined(XMLTOOLING_OPENSSL_HAVE_SHA2) && !defined(OPENSSL_NO_SHA512)
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIECDSA_SHA384, "EC", 0, ALGTYPE_SIGN);
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIECDSA_SHA512, "EC", 0, ALGTYPE_SIGN);
# endif
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIRSA_1_5, "RSA", 0, ALGTYPE_KEYENCRYPT);
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIRSA_OAEP_MGFP1, "RSA", 0, ALGTYPE_KEYENCRYPT);
+#ifdef URI_ID_RSA_OAEP
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIRSA_OAEP, "RSA", 0, ALGTYPE_KEYENCRYPT);
+#endif
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURI3DES_CBC, "DESede", 192, ALGTYPE_ENCRYPT);
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIKW_3DES, "DESede", 192, ALGTYPE_KEYENCRYPT);
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIAES256_CBC, "AES", 256, ALGTYPE_ENCRYPT);
registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIKW_AES256, "AES", 256, ALGTYPE_KEYENCRYPT);
+
+# ifdef URI_ID_KW_AES128_PAD
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIKW_AES128_PAD, "AES", 128, ALGTYPE_KEYENCRYPT);
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIKW_AES192_PAD, "AES", 192, ALGTYPE_KEYENCRYPT);
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIKW_AES256_PAD, "AES", 256, ALGTYPE_KEYENCRYPT);
+# endif
+#endif
+
+#ifdef XSEC_OPENSSL_HAVE_GCM
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIAES128_GCM, "AES", 128, ALGTYPE_AUTHNENCRYPT);
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIAES192_GCM, "AES", 192, ALGTYPE_AUTHNENCRYPT);
+ registerXMLAlgorithm(DSIGConstants::s_unicodeStrURIAES256_GCM, "AES", 256, ALGTYPE_AUTHNENCRYPT);
#endif
}