/*
- * Copyright 2001-2009 Internet2
+ * Copyright 2001-2010 Internet2
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
attributes.insert(attributes.end(), m_attributeIds.begin(), m_attributeIds.end());
}
+ void generateMetadata(SPSSODescriptor& role) const;
+
private:
Category& m_log;
DOMDocument* m_document;
-#ifdef HAVE_GOOD_STL
typedef map< pair<xstring,xstring>,pair< AttributeDecoder*,vector<string> > > attrmap_t;
-#else
- typedef map< pair<string,string>,pair< AttributeDecoder*,vector<string> > > attrmap_t;
-#endif
attrmap_t m_attrMap;
vector<string> m_attributeIds;
+ vector< pair< pair<xstring,xstring>,bool > > m_requestedAttrs;
// settings for embedded assertions in metadata
- auto_ptr_char m_policyId;
+ string m_policyId;
MetadataProvider* m_metadata;
TrustEngine* m_trust;
AttributeFilter* m_filter;
class XMLExtractor : public AttributeExtractor, public ReloadableXMLFile
{
public:
- XMLExtractor(const DOMElement* e) : ReloadableXMLFile(e, Category::getInstance(SHIBSP_LOGCAT".AttributeExtractor.XML")), m_impl(NULL) {
- load();
+ XMLExtractor(const DOMElement* e) : ReloadableXMLFile(e, Category::getInstance(SHIBSP_LOGCAT".AttributeExtractor.XML")), m_impl(nullptr) {
+ background_load();
}
~XMLExtractor() {
+ shutdown();
delete m_impl;
}
m_impl->getAttributeIds(attributes);
}
+ void generateMetadata(SPSSODescriptor& role) const {
+ if (m_impl)
+ m_impl->generateMetadata(role);
+ }
+
protected:
- pair<bool,DOMElement*> load();
+ pair<bool,DOMElement*> background_load();
private:
XMLExtractorImpl* m_impl;
static const XMLCh _AttributeFilter[] = UNICODE_LITERAL_15(A,t,t,r,i,b,u,t,e,F,i,l,t,e,r);
static const XMLCh Attributes[] = UNICODE_LITERAL_10(A,t,t,r,i,b,u,t,e,s);
static const XMLCh _id[] = UNICODE_LITERAL_2(i,d);
+ static const XMLCh isRequested[] = UNICODE_LITERAL_11(i,s,R,e,q,u,e,s,t,e,d);
static const XMLCh _MetadataProvider[] = UNICODE_LITERAL_16(M,e,t,a,d,a,t,a,P,r,o,v,i,d,e,r);
static const XMLCh _name[] = UNICODE_LITERAL_4(n,a,m,e);
static const XMLCh nameFormat[] = UNICODE_LITERAL_10(n,a,m,e,F,o,r,m,a,t);
XMLExtractorImpl::XMLExtractorImpl(const DOMElement* e, Category& log)
: m_log(log),
- m_document(NULL),
- m_policyId(e ? e->getAttributeNS(NULL, metadataPolicyId) : NULL),
- m_metadata(NULL),
- m_trust(NULL),
- m_filter(NULL),
+ m_document(nullptr),
+ m_policyId(XMLHelper::getAttrString(e, nullptr, metadataPolicyId)),
+ m_metadata(nullptr),
+ m_trust(nullptr),
+ m_filter(nullptr),
m_entityAssertions(true),
- m_attrLock(NULL)
+ m_attrLock(nullptr)
{
#ifdef _DEBUG
xmltooling::NDC ndc("XMLExtractorImpl");
DOMElement* child = XMLHelper::getFirstChildElement(e, shibspconstants::SHIB2ATTRIBUTEMAP_NS, _MetadataProvider);
if (child) {
try {
- auto_ptr_char type(child->getAttributeNS(NULL, _type));
- if (!type.get() || !*type.get())
+ string t(XMLHelper::getAttrString(child, nullptr, _type));
+ if (t.empty())
throw ConfigurationException("MetadataProvider element missing type attribute.");
- m_log.info("building MetadataProvider of type %s...", type.get());
- auto_ptr<MetadataProvider> mp(SAMLConfig::getConfig().MetadataProviderManager.newPlugin(type.get(), child));
+ m_log.info("building MetadataProvider of type %s...", t.c_str());
+ auto_ptr<MetadataProvider> mp(SAMLConfig::getConfig().MetadataProviderManager.newPlugin(t.c_str(), child));
mp->init();
m_metadata = mp.release();
}
child = XMLHelper::getFirstChildElement(e, shibspconstants::SHIB2ATTRIBUTEMAP_NS, _TrustEngine);
if (child) {
try {
- auto_ptr_char type(child->getAttributeNS(NULL, _type));
- if (!type.get() || !*type.get())
+ string t(XMLHelper::getAttrString(child, nullptr, _type));
+ if (t.empty())
throw ConfigurationException("TrustEngine element missing type attribute.");
- m_log.info("building TrustEngine of type %s...", type.get());
- m_trust = XMLToolingConfig::getConfig().TrustEngineManager.newPlugin(type.get(), child);
+ m_log.info("building TrustEngine of type %s...", t.c_str());
+ m_trust = XMLToolingConfig::getConfig().TrustEngineManager.newPlugin(t.c_str(), child);
}
catch (exception& ex) {
m_entityAssertions = false;
child = XMLHelper::getFirstChildElement(e, shibspconstants::SHIB2ATTRIBUTEMAP_NS, _AttributeFilter);
if (child) {
try {
- auto_ptr_char type(child->getAttributeNS(NULL, _type));
- if (!type.get() || !*type.get())
+ string t(XMLHelper::getAttrString(child, nullptr, _type));
+ if (t.empty())
throw ConfigurationException("AttributeFilter element missing type attribute.");
- m_log.info("building AttributeFilter of type %s...", type.get());
- m_filter = SPConfig::getConfig().AttributeFilterManager.newPlugin(type.get(), child);
+ m_log.info("building AttributeFilter of type %s...", t.c_str());
+ m_filter = SPConfig::getConfig().AttributeFilterManager.newPlugin(t.c_str(), child);
}
catch (exception& ex) {
m_entityAssertions = false;
child = XMLHelper::getFirstChildElement(e, shibspconstants::SHIB2ATTRIBUTEMAP_NS, saml1::Attribute::LOCAL_NAME);
while (child) {
// Check for missing name or id.
- const XMLCh* name = child->getAttributeNS(NULL, _name);
+ const XMLCh* name = child->getAttributeNS(nullptr, _name);
if (!name || !*name) {
m_log.warn("skipping Attribute with no name");
child = XMLHelper::getNextSiblingElement(child, shibspconstants::SHIB2ATTRIBUTEMAP_NS, saml1::Attribute::LOCAL_NAME);
continue;
}
- auto_ptr_char id(child->getAttributeNS(NULL, _id));
+ auto_ptr_char id(child->getAttributeNS(nullptr, _id));
if (!id.get() || !*id.get()) {
m_log.warn("skipping Attribute with no id");
child = XMLHelper::getNextSiblingElement(child, shibspconstants::SHIB2ATTRIBUTEMAP_NS, saml1::Attribute::LOCAL_NAME);
continue;
}
- AttributeDecoder* decoder=NULL;
+ AttributeDecoder* decoder=nullptr;
try {
DOMElement* dchild = XMLHelper::getFirstChildElement(child, shibspconstants::SHIB2ATTRIBUTEMAP_NS, _AttributeDecoder);
if (dchild) {
decoder = SPConfig::getConfig().AttributeDecoderManager.newPlugin(*q.get(), dchild);
}
if (!decoder)
- decoder = SPConfig::getConfig().AttributeDecoderManager.newPlugin(StringAttributeDecoderType, NULL);
+ decoder = SPConfig::getConfig().AttributeDecoderManager.newPlugin(StringAttributeDecoderType, nullptr);
}
catch (exception& ex) {
m_log.error("skipping Attribute (%s), error building AttributeDecoder: %s", id.get(), ex.what());
}
// Empty NameFormat implies the usual Shib URI naming defaults.
- const XMLCh* format = child->getAttributeNS(NULL, nameFormat);
+ const XMLCh* format = child->getAttributeNS(nullptr, nameFormat);
if (!format || XMLString::equals(format, shibspconstants::SHIB1_ATTRIBUTE_NAMESPACE_URI) ||
XMLString::equals(format, saml2::Attribute::URI_REFERENCE))
format = &chNull; // ignore default Format/Namespace values
// Fetch/create the map entry and see if it's a duplicate rule.
-#ifdef HAVE_GOOD_STL
pair< AttributeDecoder*,vector<string> >& decl = m_attrMap[pair<xstring,xstring>(name,format)];
-#else
- auto_ptr_char n(name);
- auto_ptr_char f(format);
- pair< AttributeDecoder*,vector<string> >& decl = m_attrMap[pair<string,string>(n.get(),f.get())];
-#endif
if (decl.first) {
m_log.warn("skipping duplicate Attribute mapping (same name and nameFormat)");
delete decoder;
}
if (m_log.isInfoEnabled()) {
-#ifdef HAVE_GOOD_STL
auto_ptr_char n(name);
auto_ptr_char f(format);
-#endif
m_log.info("creating mapping for Attribute %s%s%s", n.get(), *f.get() ? ", Format/Namespace:" : "", f.get());
}
decl.second.push_back(id.get());
m_attributeIds.push_back(id.get());
- name = child->getAttributeNS(NULL, _aliases);
+ // Check for isRequired/isRequested.
+ bool requested = XMLHelper::getAttrBool(child, false, isRequested);
+ bool required = XMLHelper::getAttrBool(child, false, RequestedAttribute::ISREQUIRED_ATTRIB_NAME);
+ if (required || requested)
+ m_requestedAttrs.push_back(make_pair(pair<xstring,xstring>(name,format), required));
+
+ name = child->getAttributeNS(nullptr, _aliases);
if (name && *name) {
auto_ptr_char aliases(name);
char* pos;
else {
m_log.warn("skipping alias, REMOTE_USER is a reserved name");
}
- start = pos ? pos+1 : NULL;
+ start = pos ? pos+1 : nullptr;
}
}
m_attrLock = RWLock::create();
}
+void XMLExtractorImpl::generateMetadata(SPSSODescriptor& role) const
+{
+ if (m_requestedAttrs.empty())
+ return;
+ int index = 1;
+ const vector<AttributeConsumingService*>& svcs = const_cast<const SPSSODescriptor*>(&role)->getAttributeConsumingServices();
+ for (vector<AttributeConsumingService*>::const_iterator s =svcs.begin(); s != svcs.end(); ++s) {
+ pair<bool,int> i = (*s)->getIndex();
+ if (i.first && index == i.second)
+ index = i.second + 1;
+ }
+ AttributeConsumingService* svc = AttributeConsumingServiceBuilder::buildAttributeConsumingService();
+ role.getAttributeConsumingServices().push_back(svc);
+ svc->setIndex(index);
+ ServiceName* sn = ServiceNameBuilder::buildServiceName();
+ svc->getServiceNames().push_back(sn);
+ sn->setName(dynamic_cast<EntityDescriptor*>(role.getParent())->getEntityID());
+ static const XMLCh english[] = UNICODE_LITERAL_2(e,n);
+ sn->setLang(english);
+
+ for (vector< pair< pair<xstring,xstring>,bool > >::const_iterator i = m_requestedAttrs.begin(); i != m_requestedAttrs.end(); ++i) {
+ RequestedAttribute* req = RequestedAttributeBuilder::buildRequestedAttribute();
+ svc->getRequestedAttributes().push_back(req);
+ req->setName(i->first.first.c_str());
+ if (i->first.second.empty())
+ req->setNameFormat(saml2::Attribute::URI_REFERENCE);
+ else
+ req->setNameFormat(i->first.second.c_str());
+ if (i->second)
+ req->isRequired(true);
+ }
+}
+
void XMLExtractorImpl::extractAttributes(
const Application& application,
const char* assertingParty,
vector<Attribute*>& attributes
) const
{
-#ifdef HAVE_GOOD_STL
map< pair<xstring,xstring>,pair< AttributeDecoder*,vector<string> > >::const_iterator rule;
-#else
- map< pair<string,string>,pair< AttributeDecoder*,vector<string> > >::const_iterator rule;
-#endif
const XMLCh* format = nameid.getFormat();
if (!format || !*format)
format = NameIdentifier::UNSPECIFIED;
-#ifdef HAVE_GOOD_STL
if ((rule=m_attrMap.find(pair<xstring,xstring>(format,xstring()))) != m_attrMap.end()) {
-#else
- auto_ptr_char temp(format);
- if ((rule=m_attrMap.find(pair<string,string>(temp.get(),string()))) != m_attrMap.end()) {
-#endif
Attribute* a = rule->second.first->decode(rule->second.second, &nameid, assertingParty, relyingParty);
if (a)
attributes.push_back(a);
}
else if (m_log.isDebugEnabled()) {
-#ifdef HAVE_GOOD_STL
auto_ptr_char temp(format);
-#endif
m_log.debug("skipping unmapped NameIdentifier with format (%s)", temp.get());
}
}
vector<Attribute*>& attributes
) const
{
-#ifdef HAVE_GOOD_STL
map< pair<xstring,xstring>,pair< AttributeDecoder*,vector<string> > >::const_iterator rule;
-#else
- map< pair<string,string>,pair< AttributeDecoder*,vector<string> > >::const_iterator rule;
-#endif
const XMLCh* format = nameid.getFormat();
if (!format || !*format)
format = NameID::UNSPECIFIED;
-#ifdef HAVE_GOOD_STL
if ((rule=m_attrMap.find(pair<xstring,xstring>(format,xstring()))) != m_attrMap.end()) {
-#else
- auto_ptr_char temp(format);
- if ((rule=m_attrMap.find(pair<string,string>(temp.get(),string()))) != m_attrMap.end()) {
-#endif
Attribute* a = rule->second.first->decode(rule->second.second, &nameid, assertingParty, relyingParty);
if (a)
attributes.push_back(a);
}
else if (m_log.isDebugEnabled()) {
-#ifdef HAVE_GOOD_STL
auto_ptr_char temp(format);
-#endif
m_log.debug("skipping unmapped NameID with format (%s)", temp.get());
}
}
vector<Attribute*>& attributes
) const
{
-#ifdef HAVE_GOOD_STL
map< pair<xstring,xstring>,pair< AttributeDecoder*,vector<string> > >::const_iterator rule;
-#else
- map< pair<string,string>,pair< AttributeDecoder*,vector<string> > >::const_iterator rule;
-#endif
const XMLCh* name = attr.getAttributeName();
const XMLCh* format = attr.getAttributeNamespace();
return;
if (!format || XMLString::equals(format, shibspconstants::SHIB1_ATTRIBUTE_NAMESPACE_URI))
format = &chNull;
-#ifdef HAVE_GOOD_STL
if ((rule=m_attrMap.find(pair<xstring,xstring>(name,format))) != m_attrMap.end()) {
-#else
- auto_ptr_char temp1(name);
- auto_ptr_char temp2(format);
- if ((rule=m_attrMap.find(pair<string,string>(temp1.get(),temp2.get()))) != m_attrMap.end()) {
-#endif
Attribute* a = rule->second.first->decode(rule->second.second, &attr, assertingParty, relyingParty);
if (a)
attributes.push_back(a);
}
else if (m_log.isInfoEnabled()) {
-#ifdef HAVE_GOOD_STL
auto_ptr_char temp1(name);
auto_ptr_char temp2(format);
-#endif
m_log.info("skipping unmapped SAML 1.x Attribute with Name: %s%s%s", temp1.get(), *temp2.get() ? ", Namespace:" : "", temp2.get());
}
}
vector<Attribute*>& attributes
) const
{
-#ifdef HAVE_GOOD_STL
map< pair<xstring,xstring>,pair< AttributeDecoder*,vector<string> > >::const_iterator rule;
-#else
- map< pair<string,string>,pair< AttributeDecoder*,vector<string> > >::const_iterator rule;
-#endif
const XMLCh* name = attr.getName();
const XMLCh* format = attr.getNameFormat();
format = saml2::Attribute::UNSPECIFIED;
else if (XMLString::equals(format, saml2::Attribute::URI_REFERENCE))
format = &chNull;
-#ifdef HAVE_GOOD_STL
+
if ((rule=m_attrMap.find(pair<xstring,xstring>(name,format))) != m_attrMap.end()) {
-#else
- auto_ptr_char temp1(name);
- auto_ptr_char temp2(format);
- if ((rule=m_attrMap.find(pair<string,string>(temp1.get(),temp2.get()))) != m_attrMap.end()) {
-#endif
Attribute* a = rule->second.first->decode(rule->second.second, &attr, assertingParty, relyingParty);
- if (a)
+ if (a) {
attributes.push_back(a);
+ return;
+ }
}
- else if (m_log.isInfoEnabled()) {
-#ifdef HAVE_GOOD_STL
+ else if (XMLString::equals(format, saml2::Attribute::UNSPECIFIED)) {
+ // As a fallback, if the format is "unspecified", null out the value and re-map.
+ if ((rule=m_attrMap.find(pair<xstring,xstring>(name,xstring()))) != m_attrMap.end()) {
+ Attribute* a = rule->second.first->decode(rule->second.second, &attr, assertingParty, relyingParty);
+ if (a) {
+ attributes.push_back(a);
+ return;
+ }
+ }
+ }
+
+ if (m_log.isInfoEnabled()) {
auto_ptr_char temp1(name);
auto_ptr_char temp2(format);
-#endif
m_log.info("skipping unmapped SAML 2.0 Attribute with Name: %s%s%s", temp1.get(), *temp2.get() ? ", Format:" : "", temp2.get());
}
}
const vector<saml2::Attribute*>& attrs = container->getAttributes();
for (vector<saml2::Attribute*>::const_iterator attr = attrs.begin(); attr != attrs.end(); ++attr) {
try {
- extractAttributes(application, NULL, relyingParty, *(*attr), holding);
+ extractAttributes(application, nullptr, relyingParty, *(*attr), holding);
}
catch (...) {
if (useCache)
}
else {
// Check subject.
- const NameID* subject = (*assert)->getSubject() ? (*assert)->getSubject()->getNameID() : NULL;
+ const NameID* subject = (*assert)->getSubject() ? (*assert)->getSubject()->getNameID() : nullptr;
if (!subject ||
!XMLString::equals(subject->getFormat(), NameID::ENTITY) ||
!XMLString::equals(subject->getName(), entityID)) {
try {
// Set up and evaluate a policy for an AA asserting attributes to us.
- shibsp::SecurityPolicy policy(application, &AttributeAuthorityDescriptor::ELEMENT_QNAME, false, m_policyId.get());
+ shibsp::SecurityPolicy policy(application, &AttributeAuthorityDescriptor::ELEMENT_QNAME, false, m_policyId.c_str());
Locker locker(m_metadata);
if (m_metadata)
policy.setMetadataProvider(m_metadata);
if (m_trust)
policy.setTrustEngine(m_trust);
// Populate recipient as audience.
- const XMLCh* issuer = (*assert)->getIssuer() ? (*assert)->getIssuer()->getName() : NULL;
+ const XMLCh* issuer = (*assert)->getIssuer() ? (*assert)->getIssuer()->getName() : nullptr;
policy.getAudiences().push_back(application.getRelyingParty(issuer)->getXMLString("entityID").second);
// Extract assertion information for policy.
// Override the asserting/relying party names based on this new issuer.
const EntityDescriptor* inlineEntity =
- policy.getIssuerMetadata() ? dynamic_cast<const EntityDescriptor*>(policy.getIssuerMetadata()->getParent()) : NULL;
- auto_ptr_char inlineAssertingParty(inlineEntity ? inlineEntity->getEntityID() : NULL);
+ policy.getIssuerMetadata() ? dynamic_cast<const EntityDescriptor*>(policy.getIssuerMetadata()->getParent()) : nullptr;
+ auto_ptr_char inlineAssertingParty(inlineEntity ? inlineEntity->getEntityID() : nullptr);
relyingParty = application.getRelyingParty(inlineEntity)->getString("entityID").second;
const vector<saml2::Attribute*>& attrs2 =
const_cast<const saml2::AttributeStatement*>(tokencopy->getAttributeStatements().front())->getAttributes();
if (!m_impl)
return;
- const EntityDescriptor* entity = issuer ? dynamic_cast<const EntityDescriptor*>(issuer->getParent()) : NULL;
+ const EntityDescriptor* entity = issuer ? dynamic_cast<const EntityDescriptor*>(issuer->getParent()) : nullptr;
const char* relyingParty = application.getRelyingParty(entity)->getString("entityID").second;
// Check for statements.
if (XMLString::equals(xmlObject.getElementQName().getLocalPart(), saml1::AttributeStatement::LOCAL_NAME)) {
const saml2::AttributeStatement* statement2 = dynamic_cast<const saml2::AttributeStatement*>(&xmlObject);
if (statement2) {
- auto_ptr_char assertingParty(entity ? entity->getEntityID() : NULL);
+ auto_ptr_char assertingParty(entity ? entity->getEntityID() : nullptr);
m_impl->extractAttributes(application, assertingParty.get(), relyingParty, *statement2, attributes);
// Handle EncryptedAttributes inline so we have access to the role descriptor.
const vector<saml2::EncryptedAttribute*>& encattrs = statement2->getEncryptedAttributes();
const saml1::AttributeStatement* statement1 = dynamic_cast<const saml1::AttributeStatement*>(&xmlObject);
if (statement1) {
- auto_ptr_char assertingParty(entity ? entity->getEntityID() : NULL);
+ auto_ptr_char assertingParty(entity ? entity->getEntityID() : nullptr);
m_impl->extractAttributes(application, assertingParty.get(), relyingParty, *statement1, attributes);
return;
}
if (XMLString::equals(xmlObject.getElementQName().getLocalPart(), saml1::Assertion::LOCAL_NAME)) {
const saml2::Assertion* token2 = dynamic_cast<const saml2::Assertion*>(&xmlObject);
if (token2) {
- auto_ptr_char assertingParty(entity ? entity->getEntityID() : NULL);
+ auto_ptr_char assertingParty(entity ? entity->getEntityID() : nullptr);
const vector<saml2::AttributeStatement*>& statements = token2->getAttributeStatements();
for (vector<saml2::AttributeStatement*>::const_iterator s = statements.begin(); s!=statements.end(); ++s) {
m_impl->extractAttributes(application, assertingParty.get(), relyingParty, *(*s), attributes);
const saml1::Assertion* token1 = dynamic_cast<const saml1::Assertion*>(&xmlObject);
if (token1) {
- auto_ptr_char assertingParty(entity ? entity->getEntityID() : NULL);
+ auto_ptr_char assertingParty(entity ? entity->getEntityID() : nullptr);
const vector<saml1::AttributeStatement*>& statements = token1->getAttributeStatements();
for (vector<saml1::AttributeStatement*>::const_iterator s = statements.begin(); s!=statements.end(); ++s)
m_impl->extractAttributes(application, assertingParty.get(), relyingParty, *(*s), attributes);
// Check for metadata.
if (XMLString::equals(xmlObject.getElementQName().getNamespaceURI(), samlconstants::SAML20MD_NS)) {
const RoleDescriptor* roleToExtract = dynamic_cast<const RoleDescriptor*>(&xmlObject);
- const EntityDescriptor* entityToExtract = roleToExtract ? dynamic_cast<const EntityDescriptor*>(roleToExtract->getParent()) : NULL;
+ const EntityDescriptor* entityToExtract = roleToExtract ? dynamic_cast<const EntityDescriptor*>(roleToExtract->getParent()) : nullptr;
if (!entityToExtract)
throw AttributeExtractionException("Unable to extract attributes, unknown metadata object type.");
const Extensions* ext = entityToExtract->getExtensions();
m_impl->extractAttributes(
application,
dynamic_cast<const ObservableMetadataProvider*>(application.getMetadataProvider(false)),
- NULL, // not an entity, so inline assertions won't be processed
+ nullptr, // not an entity, so inline assertions won't be processed
relyingParty,
*ext,
attributes
// Check for attributes.
if (XMLString::equals(xmlObject.getElementQName().getLocalPart(), saml1::Attribute::LOCAL_NAME)) {
- auto_ptr_char assertingParty(entity ? entity->getEntityID() : NULL);
+ auto_ptr_char assertingParty(entity ? entity->getEntityID() : nullptr);
const saml2::Attribute* attr2 = dynamic_cast<const saml2::Attribute*>(&xmlObject);
if (attr2)
return m_impl->extractAttributes(application, assertingParty.get(), relyingParty, *attr2, attributes);
// Check for NameIDs.
const NameID* name2 = dynamic_cast<const NameID*>(&xmlObject);
if (name2) {
- auto_ptr_char assertingParty(entity ? entity->getEntityID() : NULL);
+ auto_ptr_char assertingParty(entity ? entity->getEntityID() : nullptr);
return m_impl->extractAttributes(application, assertingParty.get(), relyingParty, *name2, attributes);
}
const NameIdentifier* name1 = dynamic_cast<const NameIdentifier*>(&xmlObject);
if (name1) {
- auto_ptr_char assertingParty(entity ? entity->getEntityID() : NULL);
+ auto_ptr_char assertingParty(entity ? entity->getEntityID() : nullptr);
return m_impl->extractAttributes(application, assertingParty.get(), relyingParty, *name1, attributes);
}
throw AttributeExtractionException("Unable to extract attributes, unknown object type.");
}
-pair<bool,DOMElement*> XMLExtractor::load()
+pair<bool,DOMElement*> XMLExtractor::background_load()
{
// Load from source using base class.
pair<bool,DOMElement*> raw = ReloadableXMLFile::load();
// If we own it, wrap it.
- XercesJanitor<DOMDocument> docjanitor(raw.first ? raw.second->getOwnerDocument() : NULL);
+ XercesJanitor<DOMDocument> docjanitor(raw.first ? raw.second->getOwnerDocument() : nullptr);
XMLExtractorImpl* impl = new XMLExtractorImpl(raw.second, m_log);
// If we held the document, transfer it to the impl. If we didn't, it's a no-op.
impl->setDocument(docjanitor.release());
+ // Perform the swap inside a lock.
+ if (m_lock)
+ m_lock->wrlock();
+ SharedLock locker(m_lock, false);
delete m_impl;
m_impl = impl;
- return make_pair(false,(DOMElement*)NULL);
+ return make_pair(false,(DOMElement*)nullptr);
}