AbstractMetadataProvider::~AbstractMetadataProvider()
{
for (credmap_t::iterator c = m_credentialMap.begin(); c!=m_credentialMap.end(); ++c)
- for_each(c->second.begin(), c->second.end(), cleanup_pair<const XMLCh*,Credential>());
+ for_each(c->second.begin(), c->second.end(), xmltooling::cleanup<Credential>());
delete m_credentialLock;
delete m_resolver;
}
-void AbstractMetadataProvider::emitChangeEvent()
+void AbstractMetadataProvider::emitChangeEvent() const
{
for (credmap_t::iterator c = m_credentialMap.begin(); c!=m_credentialMap.end(); ++c)
- for_each(c->second.begin(), c->second.end(), cleanup_pair<const XMLCh*,Credential>());
+ for_each(c->second.begin(), c->second.end(), xmltooling::cleanup<Credential>());
m_credentialMap.clear();
ObservableMetadataProvider::emitChangeEvent();
}
auto_ptr_char id(site->getEntityID());
if (id.get()) {
- m_sites.insert(make_pair(id.get(),site));
+ m_sites.insert(sitemap_t::value_type(id.get(),site));
}
// Process each IdP role.
if (sid) {
auto_ptr_char sourceid(sid->getID());
if (sourceid.get()) {
- m_sources.insert(pair<string,const EntityDescriptor*>(sourceid.get(),site));
+ m_sources.insert(sitemap_t::value_type(sourceid.get(),site));
break;
}
}
}
// Hash the ID.
- m_sources.insert(
- pair<string,const EntityDescriptor*>(SAMLConfig::getConfig().hashSHA1(id.get(), true),site)
- );
+ m_sources.insert(sitemap_t::value_type(SAMLConfig::getConfig().hashSHA1(id.get(), true),site));
// Load endpoints for type 0x0002 artifacts.
const vector<ArtifactResolutionService*>& locs=const_cast<const IDPSSODescriptor*>(*i)->getArtifactResolutionServices();
for (vector<ArtifactResolutionService*>::const_iterator loc=locs.begin(); loc!=locs.end(); loc++) {
auto_ptr_char location((*loc)->getLocation());
if (location.get())
- m_sources.insert(pair<string,const EntityDescriptor*>(location.get(),site));
+ m_sources.insert(sitemap_t::value_type(location.get(),site));
}
}
// SAML 2.0?
if ((*i)->hasSupport(samlconstants::SAML20P_NS)) {
// Hash the ID.
- m_sources.insert(
- pair<string,const EntityDescriptor*>(SAMLConfig::getConfig().hashSHA1(id.get(), true),site)
- );
+ m_sources.insert(sitemap_t::value_type(SAMLConfig::getConfig().hashSHA1(id.get(), true),site));
}
}
}
auto_ptr_char name(group->getName());
if (name.get()) {
- m_groups.insert(make_pair(name.get(),group));
+ m_groups.insert(groupmap_t::value_type(name.get(),group));
}
const vector<EntitiesDescriptor*>& groups=const_cast<const EntitiesDescriptor*>(group)->getEntitiesDescriptors();
const credmap_t::mapped_type& creds = resolveCredentials(metacrit->getRole());
for (credmap_t::mapped_type::const_iterator c = creds.begin(); c!=creds.end(); ++c)
- if (matches(*c,criteria))
- return c->second;
+ if (metacrit->matches(*(*c)))
+ return *c;
return NULL;
}
const credmap_t::mapped_type& creds = resolveCredentials(metacrit->getRole());
for (credmap_t::mapped_type::const_iterator c = creds.begin(); c!=creds.end(); ++c)
- if (matches(*c,criteria))
- results.push_back(c->second);
+ if (metacrit->matches(*(*c)))
+ results.push_back(*c);
return results.size();
}
auto_ptr<MetadataCredentialContext> mcc(new MetadataCredentialContext(*(*k)));
Credential* c = resolver->resolve(mcc.get());
mcc.release();
- resolved.push_back(make_pair((*k)->getUse(), c));
+ resolved.push_back(c);
}
}
return resolved;
}
-
-bool AbstractMetadataProvider::matches(const pair<const XMLCh*,Credential*>& cred, const CredentialCriteria* criteria) const
-{
- if (criteria) {
- // Check for a usage mismatch.
- if ((criteria->getUsage()==CredentialCriteria::SIGNING_CREDENTIAL || criteria->getUsage()==CredentialCriteria::TLS_CREDENTIAL) &&
- XMLString::equals(cred.first,KeyDescriptor::KEYTYPE_ENCRYPTION))
- return false;
- else if (criteria->getUsage()==CredentialCriteria::ENCRYPTION_CREDENTIAL && XMLString::equals(cred.first,KeyDescriptor::KEYTYPE_SIGNING))
- return false;
- return cred.second->matches(*criteria);
- }
- return true;
-}