#include "internal.h"
-#include <shib/shib-threads.h>
+#include <shibsp/DOMPropertySet.h>
+#include <shibsp/SPConfig.h>
+#include <shibsp/SPConstants.h>
#include <log4cpp/Category.hh>
#include <log4cpp/PropertyConfigurator.hh>
-
+#include <algorithm>
#include <sys/types.h>
#include <sys/stat.h>
-using namespace std;
-using namespace saml;
-using namespace shibboleth;
+using namespace shibsp;
using namespace shibtarget;
+using namespace shibboleth;
+using namespace saml;
using namespace log4cpp;
+using namespace std;
+
+using xmltooling::TrustEngine;
+using opensaml::saml2md::MetadataProvider;
namespace shibtarget {
// Application configuration wrapper
- class XMLApplication : public virtual IApplication, public XMLPropertySet, public DOMNodeFilter
+ class XMLApplication : public virtual IApplication, public DOMPropertySet, public DOMNodeFilter
{
public:
XMLApplication(const IConfig*, const Iterator<ICredentials*>& creds, const DOMElement* e, const XMLApplication* base=NULL);
~XMLApplication() { cleanup(); }
- // IPropertySet
+ // PropertySet
pair<bool,bool> getBool(const char* name, const char* ns=NULL) const;
pair<bool,const char*> getString(const char* name, const char* ns=NULL) const;
pair<bool,const XMLCh*> getXMLString(const char* name, const char* ns=NULL) const;
pair<bool,unsigned int> getUnsignedInt(const char* name, const char* ns=NULL) const;
pair<bool,int> getInt(const char* name, const char* ns=NULL) const;
- const IPropertySet* getPropertySet(const char* name, const char* ns="urn:mace:shibboleth:target:config:1.0") const;
+ const PropertySet* getPropertySet(const char* name, const char* ns="urn:mace:shibboleth:target:config:1.0") const;
// IApplication
const char* getId() const {return getString("id").second;}
Iterator<IMetadata*> getMetadataProviders() const;
Iterator<ITrust*> getTrustProviders() const;
Iterator<const XMLCh*> getAudiences() const;
- const IPropertySet* getCredentialUse(const IEntityDescriptor* provider) const;
+ const PropertySet* getCredentialUse(const IEntityDescriptor* provider) const;
+
+ const MetadataProvider* getMetadataProvider() const;
+ const TrustEngine* getTrustEngine() const;
+
const SAMLBrowserProfile* getBrowserProfile() const {return m_profile;}
const SAMLBinding* getBinding(const XMLCh* binding) const
{return XMLString::compareString(SAMLBinding::SOAP,binding) ? NULL : m_binding;}
SAMLBrowserProfile::ArtifactMapper* getArtifactMapper() const {return new STArtifactMapper(this);}
- const IPropertySet* getDefaultSessionInitiator() const;
- const IPropertySet* getSessionInitiatorById(const char* id) const;
- const IPropertySet* getDefaultAssertionConsumerService() const;
- const IPropertySet* getAssertionConsumerServiceByIndex(unsigned short index) const;
- const IPropertySet* getHandlerConfig(const char* path) const;
+ void validateToken(
+ SAMLAssertion* token,
+ time_t t=0,
+ const IRoleDescriptor* role=NULL,
+ const Iterator<ITrust*>& trusts=EMPTY(ITrust*)
+ ) const;
+ const IHandler* getDefaultSessionInitiator() const;
+ const IHandler* getSessionInitiatorById(const char* id) const;
+ const IHandler* getDefaultAssertionConsumerService() const;
+ const IHandler* getAssertionConsumerServiceByIndex(unsigned short index) const;
+ Iterator<const IHandler*> getAssertionConsumerServicesByBinding(const XMLCh* binding) const;
+ const IHandler* getHandler(const char* path) const;
// Provides filter to exclude special config elements.
short acceptNode(const DOMNode* node) const;
vector<IAAP*> m_aaps;
vector<IMetadata*> m_metadatas;
vector<ITrust*> m_trusts;
+ MetadataProvider* m_metadata;
+ TrustEngine* m_trust;
vector<const XMLCh*> m_audiences;
ShibBrowserProfile* m_profile;
SAMLBinding* m_binding;
ShibHTTPHook* m_bindingHook;
- map<string,XMLPropertySet*> m_handlerMap;
- map<unsigned int,const IPropertySet*> m_acsMap;
- const IPropertySet* m_acsDefault;
- map<string,const IPropertySet*> m_sessionInitMap;
- const IPropertySet* m_sessionInitDefault;
- XMLPropertySet* m_credDefault;
+
+ // vectors manage object life for handlers and their property sets
+ vector<IHandler*> m_handlers;
+ vector<PropertySet*> m_handlerProps;
+
+ // maps location (path info) to applicable handlers
+ map<string,const IHandler*> m_handlerMap;
+
+ // maps unique indexes to consumer services
+ map<unsigned int,const IHandler*> m_acsIndexMap;
+
+ // pointer to default consumer service
+ const IHandler* m_acsDefault;
+
+ // maps binding strings to supporting consumer service(s)
#ifdef HAVE_GOOD_STL
- map<xstring,XMLPropertySet*> m_credMap;
+ typedef map<xstring,vector<const IHandler*> > ACSBindingMap;
#else
- map<const XMLCh*,XMLPropertySet*> m_credMap;
+ typedef map<string,vector<const IHandler*> > ACSBindingMap;
+#endif
+ ACSBindingMap m_acsBindingMap;
+
+ // maps unique ID strings to session initiators
+ map<string,const IHandler*> m_sessionInitMap;
+
+ // pointer to default session initiator
+ const IHandler* m_sessionInitDefault;
+
+ DOMPropertySet* m_credDefault;
+#ifdef HAVE_GOOD_STL
+ map<xstring,PropertySet*> m_credMap;
+#else
+ map<const XMLCh*,PropertySet*> m_credMap;
#endif
};
// Top-level configuration implementation
class XMLConfig;
- class XMLConfigImpl : public ReloadableXMLFileImpl, public XMLPropertySet, public DOMNodeFilter
+ class XMLConfigImpl : public ReloadableXMLFileImpl, public DOMPropertySet, public DOMNodeFilter
{
public:
XMLConfigImpl(const char* pathname, bool first, const XMLConfig* outer)
- : ReloadableXMLFileImpl(pathname), m_requestMapper(NULL), m_outer(outer) { init(first); }
+ : ReloadableXMLFileImpl(pathname), m_outer(outer), m_requestMapper(NULL) { init(first); }
XMLConfigImpl(const DOMElement* e, bool first, const XMLConfig* outer)
- : ReloadableXMLFileImpl(e), m_requestMapper(NULL), m_outer(outer) { init(first); }
+ : ReloadableXMLFileImpl(e), m_outer(outer), m_requestMapper(NULL) { init(first); }
~XMLConfigImpl();
IRequestMapper* m_requestMapper;
map<string,IApplication*> m_appmap;
vector<ICredentials*> m_creds;
+ vector<IAttributeFactory*> m_attrFactories;
// Provides filter to exclude special config elements.
short acceptNode(const DOMNode* node) const;
{
public:
XMLConfig(const DOMElement* e) : ReloadableXMLFile(e), m_listener(NULL), m_sessionCache(NULL), m_replayCache(NULL) {}
- ~XMLConfig();
+ ~XMLConfig() {
+ delete m_impl;
+ m_impl=NULL;
+ delete m_sessionCache;
+ m_sessionCache=NULL;
+ delete m_replayCache;
+ m_replayCache=NULL;
+ delete m_listener;
+ m_listener=NULL;
+ }
- // IPropertySet
+ void init() { getImplementation(); }
+
+ // PropertySet
pair<bool,bool> getBool(const char* name, const char* ns=NULL) const {return static_cast<XMLConfigImpl*>(m_impl)->getBool(name,ns);}
pair<bool,const char*> getString(const char* name, const char* ns=NULL) const {return static_cast<XMLConfigImpl*>(m_impl)->getString(name,ns);}
pair<bool,const XMLCh*> getXMLString(const char* name, const char* ns=NULL) const {return static_cast<XMLConfigImpl*>(m_impl)->getXMLString(name,ns);}
pair<bool,unsigned int> getUnsignedInt(const char* name, const char* ns=NULL) const {return static_cast<XMLConfigImpl*>(m_impl)->getUnsignedInt(name,ns);}
pair<bool,int> getInt(const char* name, const char* ns=NULL) const {return static_cast<XMLConfigImpl*>(m_impl)->getInt(name,ns);}
- const IPropertySet* getPropertySet(const char* name, const char* ns="urn:mace:shibboleth:target:config:1.0") const {return static_cast<XMLConfigImpl*>(m_impl)->getPropertySet(name,ns);}
+ const PropertySet* getPropertySet(const char* name, const char* ns="urn:mace:shibboleth:target:config:1.0") const {return static_cast<XMLConfigImpl*>(m_impl)->getPropertySet(name,ns);}
const DOMElement* getElement() const {return static_cast<XMLConfigImpl*>(m_impl)->getElement();}
// IConfig
- const IListener* getListener() const {return m_listener;}
+ ListenerService* getListener() const {return m_listener;}
ISessionCache* getSessionCache() const {return m_sessionCache;}
IReplayCache* getReplayCache() const {return m_replayCache;}
IRequestMapper* getRequestMapper() const {return static_cast<XMLConfigImpl*>(m_impl)->m_requestMapper;}
private:
friend class XMLConfigImpl;
- mutable IListener* m_listener;
+ mutable ListenerService* m_listener;
mutable ISessionCache* m_sessionCache;
mutable IReplayCache* m_replayCache;
- mutable vector<IAttributeFactory*> m_attrFactories;
};
}
IConfig* STConfig::ShibTargetConfigFactory(const DOMElement* e)
{
- auto_ptr<XMLConfig> ret(new XMLConfig(e));
- ret->getImplementation();
- return ret.release();
-}
-
-XMLPropertySet::~XMLPropertySet()
-{
- for (map<string,pair<char*,const XMLCh*> >::iterator i=m_map.begin(); i!=m_map.end(); i++)
- XMLString::release(&(i->second.first));
- for (map<string,IPropertySet*>::iterator j=m_nested.begin(); j!=m_nested.end(); j++)
- delete j->second;
-}
-
-void XMLPropertySet::load(
- const DOMElement* e,
- Category& log,
- DOMNodeFilter* filter,
- const std::map<std::string,std::string>* remapper
- )
-{
-#ifdef _DEBUG
- saml::NDC ndc("load");
-#endif
- m_root=e;
-
- // Process each attribute as a property.
- DOMNamedNodeMap* attrs=m_root->getAttributes();
- for (XMLSize_t i=0; i<attrs->getLength(); i++) {
- DOMNode* a=attrs->item(i);
- if (!XMLString::compareString(a->getNamespaceURI(),saml::XML::XMLNS_NS))
- continue;
- char* val=XMLString::transcode(a->getNodeValue());
- if (val && *val) {
- auto_ptr_char ns(a->getNamespaceURI());
- auto_ptr_char name(a->getLocalName());
- const char* realname=name.get();
- if (remapper) {
- map<string,string>::const_iterator remap=remapper->find(realname);
- if (remap!=remapper->end()) {
- log.debug("remapping property (%s) to (%s)",realname,remap->second.c_str());
- realname=remap->second.c_str();
- }
- }
- if (ns.get()) {
- m_map[string("{") + ns.get() + '}' + realname]=pair<char*,const XMLCh*>(val,a->getNodeValue());
- log.debug("added property {%s}%s (%s)",ns.get(),realname,val);
- }
- else {
- m_map[realname]=pair<char*,const XMLCh*>(val,a->getNodeValue());
- log.debug("added property %s (%s)",realname,val);
- }
- }
- }
-
- // Process non-excluded elements as nested sets.
- DOMTreeWalker* walker=
- static_cast<DOMDocumentTraversal*>(
- m_root->getOwnerDocument())->createTreeWalker(const_cast<DOMElement*>(m_root),DOMNodeFilter::SHOW_ELEMENT,filter,false
- );
- e=static_cast<DOMElement*>(walker->firstChild());
- while (e) {
- auto_ptr_char ns(e->getNamespaceURI());
- auto_ptr_char name(e->getLocalName());
- const char* realname=name.get();
- if (remapper) {
- map<string,string>::const_iterator remap=remapper->find(realname);
- if (remap!=remapper->end()) {
- log.debug("remapping property set (%s) to (%s)",realname,remap->second.c_str());
- realname=remap->second.c_str();
- }
- }
- string key;
- if (ns.get())
- key=string("{") + ns.get() + '}' + realname;
- else
- key=realname;
- if (m_nested.find(key)!=m_nested.end())
- log.warn("load() skipping duplicate property set: %s",key.c_str());
- else {
- XMLPropertySet* set=new XMLPropertySet();
- set->load(e,log,filter,remapper);
- m_nested[key]=set;
- log.debug("added nested property set: %s",key.c_str());
- }
- e=static_cast<DOMElement*>(walker->nextSibling());
- }
- walker->release();
-}
-
-pair<bool,bool> XMLPropertySet::getBool(const char* name, const char* ns) const
-{
- pair<bool,bool> ret=pair<bool,bool>(false,false);
- map<string,pair<char*,const XMLCh*> >::const_iterator i;
-
- if (ns)
- i=m_map.find(string("{") + ns + '}' + name);
- else
- i=m_map.find(name);
-
- if (i!=m_map.end()) {
- ret.first=true;
- ret.second=(!strcmp(i->second.first,"true") || !strcmp(i->second.first,"1"));
- }
- return ret;
-}
-
-pair<bool,const char*> XMLPropertySet::getString(const char* name, const char* ns) const
-{
- pair<bool,const char*> ret=pair<bool,const char*>(false,NULL);
- map<string,pair<char*,const XMLCh*> >::const_iterator i;
-
- if (ns)
- i=m_map.find(string("{") + ns + '}' + name);
- else
- i=m_map.find(name);
-
- if (i!=m_map.end()) {
- ret.first=true;
- ret.second=i->second.first;
- }
- return ret;
-}
-
-pair<bool,const XMLCh*> XMLPropertySet::getXMLString(const char* name, const char* ns) const
-{
- pair<bool,const XMLCh*> ret=pair<bool,const XMLCh*>(false,NULL);
- map<string,pair<char*,const XMLCh*> >::const_iterator i;
-
- if (ns)
- i=m_map.find(string("{") + ns + '}' + name);
- else
- i=m_map.find(name);
-
- if (i!=m_map.end()) {
- ret.first=true;
- ret.second=i->second.second;
- }
- return ret;
-}
-
-pair<bool,unsigned int> XMLPropertySet::getUnsignedInt(const char* name, const char* ns) const
-{
- pair<bool,unsigned int> ret=pair<bool,unsigned int>(false,0);
- map<string,pair<char*,const XMLCh*> >::const_iterator i;
-
- if (ns)
- i=m_map.find(string("{") + ns + '}' + name);
- else
- i=m_map.find(name);
-
- if (i!=m_map.end()) {
- ret.first=true;
- ret.second=strtol(i->second.first,NULL,10);
- }
- return ret;
-}
-
-pair<bool,int> XMLPropertySet::getInt(const char* name, const char* ns) const
-{
- pair<bool,int> ret=pair<bool,int>(false,0);
- map<string,pair<char*,const XMLCh*> >::const_iterator i;
-
- if (ns)
- i=m_map.find(string("{") + ns + '}' + name);
- else
- i=m_map.find(name);
-
- if (i!=m_map.end()) {
- ret.first=true;
- ret.second=atoi(i->second.first);
- }
- return ret;
-}
-
-const IPropertySet* XMLPropertySet::getPropertySet(const char* name, const char* ns) const
-{
- map<string,IPropertySet*>::const_iterator i;
-
- if (ns)
- i=m_nested.find(string("{") + ns + '}' + name);
- else
- i=m_nested.find(name);
-
- return (i!=m_nested.end()) ? i->second : NULL;
+ return new XMLConfig(e);
}
XMLApplication::XMLApplication(
const Iterator<ICredentials*>& creds,
const DOMElement* e,
const XMLApplication* base
- ) : m_ini(ini), m_base(base), m_profile(NULL), m_binding(NULL), m_bindingHook(NULL),
- m_acsDefault(NULL), m_sessionInitDefault(NULL), m_credDefault(NULL)
+ ) : m_ini(ini), m_base(base), m_metadata(NULL), m_trust(NULL), m_profile(NULL), m_binding(NULL), m_bindingHook(NULL),
+ m_credDefault(NULL), m_sessionInitDefault(NULL), m_acsDefault(NULL)
{
#ifdef _DEBUG
- saml::NDC ndc("XMLApplication");
+ NDC ndc("XMLApplication");
#endif
Category& log=Category::getInstance("shibtarget.XMLApplication");
root_remap["shireURL"]="handlerURL";
root_remap["shireSSL"]="handlerSSL";
load(e,log,this,&root_remap);
- const IPropertySet* propcheck=getPropertySet("Errors");
+ const PropertySet* propcheck=getPropertySet("Errors");
if (propcheck && !propcheck->getString("session").first)
throw ConfigurationException("<Errors> element requires 'session' (or deprecated 'shire') attribute");
propcheck=getPropertySet("Sessions");
m_hash+=getString("providerId").second;
m_hash=SAMLArtifact::toHex(SAMLArtifactType0001::generateSourceId(m_hash.c_str()));
- ShibTargetConfig& conf=ShibTargetConfig::getConfig();
+ SPConfig& conf=SPConfig::getConfig();
SAMLConfig& shibConf=SAMLConfig::getConfig();
- if (conf.isEnabled(ShibTargetConfig::RequestMapper)) {
- // Process handlers.
- bool hardACS=false, hardSessionInit=false;
- DOMElement* handler=saml::XML::getFirstChildElement(propcheck->getElement());
- while (handler) {
- XMLPropertySet* hprops=new XMLPropertySet();
+ // Process handlers.
+ bool hardACS=false, hardSessionInit=false;
+ DOMElement* handler=saml::XML::getFirstChildElement(propcheck->getElement());
+ while (handler) {
+ // A handler is split across a property set and the plugin itself, which is based on the Binding property.
+ // We build both objects first and then insert them into various structures for lookup.
+ IHandler* hobj=NULL;
+ DOMPropertySet* hprops=new DOMPropertySet();
+ try {
hprops->load(handler,log,this); // filter irrelevant for now, no embedded elements expected
- m_handlerMap[hprops->getString("Location").second]=hprops;
+ const char* bindprop=hprops->getString("Binding").second;
+ if (!bindprop)
+ throw ConfigurationException("Handler element has no Binding attribute, skipping it...");
+ IPlugIn* hplug=shibConf.getPlugMgr().newPlugin(bindprop,handler);
+ hobj=dynamic_cast<IHandler*>(hplug);
+ if (!hobj) {
+ delete hplug;
+ throw UnsupportedProfileException(
+ "Plugin for binding ($1) does not implement IHandler interface.",params(1,bindprop)
+ );
+ }
+ }
+ catch (SAMLException& ex) {
+ // If we get here, the handler's not built, so dispose of the property set.
+ log.error("caught exception processing a handler element: %s",ex.what());
+ delete hprops;
+ hprops=NULL;
+ }
+
+ const char* location=hprops ? hprops->getString("Location").second : NULL;
+ if (!location) {
+ delete hprops;
+ hprops=NULL;
+ handler=saml::XML::getNextSiblingElement(handler);
+ continue;
+ }
+
+ // Save off the objects after giving the property set to the handler for its use.
+ hobj->setProperties(hprops);
+ m_handlers.push_back(hobj);
+ m_handlerProps.push_back(hprops);
+
+ // Insert into location map.
+ if (*location == '/')
+ m_handlerMap[location]=hobj;
+ else
+ m_handlerMap[string("/") + location]=hobj;
+
+ // If it's an ACS or SI, handle index/id mappings and defaulting.
+ if (saml::XML::isElementNamed(handler,shibtarget::XML::SAML2META_NS,SHIBT_L(AssertionConsumerService))) {
+ // Map it.
+#ifdef HAVE_GOOD_STL
+ const XMLCh* binding=hprops->getXMLString("Binding").second;
+#else
+ const char* binding=hprops->getString("Binding").second;
+#endif
+ if (m_acsBindingMap.count(binding)==0)
+ m_acsBindingMap[binding]=vector<const IHandler*>(1,hobj);
+ else
+ m_acsBindingMap[binding].push_back(hobj);
+ m_acsIndexMap[hprops->getUnsignedInt("index").second]=hobj;
- // If it's an ACS or SI, handle lookup mappings and defaulting.
- if (saml::XML::isElementNamed(handler,shibtarget::XML::SAML2META_NS,SHIBT_L(AssertionConsumerService))) {
- m_acsMap[hprops->getUnsignedInt("index").second]=hprops;
- if (!hardACS) {
- pair<bool,bool> defprop=hprops->getBool("isDefault");
- if (defprop.first) {
- if (defprop.second) {
- hardACS=true;
- m_acsDefault=hprops;
- }
+ if (!hardACS) {
+ pair<bool,bool> defprop=hprops->getBool("isDefault");
+ if (defprop.first) {
+ if (defprop.second) {
+ hardACS=true;
+ m_acsDefault=hobj;
}
- else if (!m_acsDefault)
- m_acsDefault=hprops;
}
+ else if (!m_acsDefault)
+ m_acsDefault=hobj;
}
- else if (saml::XML::isElementNamed(handler,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(SessionInitiator))) {
- pair<bool,const char*> si_id=hprops->getString("id");
- if (si_id.first && si_id.second)
- m_sessionInitMap[si_id.second]=hprops;
- if (!hardSessionInit) {
- pair<bool,bool> defprop=hprops->getBool("isDefault");
- if (defprop.first) {
- if (defprop.second) {
- hardSessionInit=true;
- m_sessionInitDefault=hprops;
- }
+ }
+ else if (saml::XML::isElementNamed(handler,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(SessionInitiator))) {
+ pair<bool,const char*> si_id=hprops->getString("id");
+ if (si_id.first && si_id.second)
+ m_sessionInitMap[si_id.second]=hobj;
+ if (!hardSessionInit) {
+ pair<bool,bool> defprop=hprops->getBool("isDefault");
+ if (defprop.first) {
+ if (defprop.second) {
+ hardSessionInit=true;
+ m_sessionInitDefault=hobj;
}
- else if (!m_sessionInitDefault)
- m_sessionInitDefault=hprops;
}
+ else if (!m_sessionInitDefault)
+ m_sessionInitDefault=hobj;
}
- handler=saml::XML::getNextSiblingElement(handler);
}
+ handler=saml::XML::getNextSiblingElement(handler);
+ }
+
+ // If no handlers defined at the root, assume a legacy configuration.
+ if (!m_base && m_handlers.empty()) {
+ // A legacy config installs a SAML POST handler at the root handler location.
+ // We use the Sessions element itself as the PropertySet.
+
+ auto_ptr_char b1(shibspconstants::SHIB1_SESSIONINIT_PROFILE_URI);
+ IPlugIn* hplug=shibConf.getPlugMgr().newPlugin(b1.get(),propcheck->getElement());
+ IHandler* h1=dynamic_cast<IHandler*>(hplug);
+ if (!h1) {
+ delete hplug;
+ throw UnsupportedProfileException(
+ "Plugin for binding ($1) does not implement IHandler interface.",params(1,b1.get())
+ );
+ }
+ h1->setProperties(propcheck);
+ m_handlers.push_back(h1);
+ m_sessionInitDefault=h1;
+
+ auto_ptr_char b2(SAMLBrowserProfile::BROWSER_POST);
+ hplug=shibConf.getPlugMgr().newPlugin(b2.get(),propcheck->getElement());
+ IHandler* h2=dynamic_cast<IHandler*>(hplug);
+ if (!h2) {
+ delete hplug;
+ throw UnsupportedProfileException(
+ "Plugin for binding ($1) does not implement IHandler interface.",params(1,b2.get())
+ );
+ }
+ h2->setProperties(propcheck);
+ m_handlers.push_back(h2);
+ m_handlerMap[""] = h2;
+ m_acsDefault=h2;
}
// Process general configuration elements.
- XMLSize_t i;
+ unsigned int i;
DOMNodeList* nlist=e->getElementsByTagNameNS(saml::XML::SAML_NS,L(AttributeDesignator));
for (i=0; nlist && i<nlist->getLength(); i++)
if (nlist->item(i)->getParentNode()->isSameNode(e))
// Always include our own providerId as an audience.
m_audiences.push_back(getXMLString("providerId").second);
- if (conf.isEnabled(ShibTargetConfig::AAP)) {
+ if (conf.isEnabled(SPConfig::AAP)) {
nlist=e->getElementsByTagNameNS(shibtarget::XML::SHIBTARGET_NS,SHIBT_L(AAPProvider));
for (i=0; nlist && i<nlist->getLength(); i++) {
if (nlist->item(i)->getParentNode()->isSameNode(e)) {
}
}
- if (conf.isEnabled(ShibTargetConfig::Metadata)) {
+ if (conf.isEnabled(SPConfig::Metadata)) {
nlist=e->getElementsByTagNameNS(shibtarget::XML::SHIBTARGET_NS,SHIBT_L(MetadataProvider));
for (i=0; nlist && i<nlist->getLength(); i++) {
if (nlist->item(i)->getParentNode()->isSameNode(e)) {
}
}
- if (conf.isEnabled(ShibTargetConfig::Trust)) {
+ if (conf.isEnabled(SPConfig::Trust)) {
+ // First build the old plugins.
+ // TODO: remove this later
nlist=e->getElementsByTagNameNS(shibtarget::XML::SHIBTARGET_NS,SHIBT_L(TrustProvider));
for (i=0; nlist && i<nlist->getLength(); i++) {
if (nlist->item(i)->getParentNode()->isSameNode(e)) {
// Finally, load credential mappings.
const DOMElement* cu=saml::XML::getFirstChildElement(e,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(CredentialUse));
if (cu) {
- m_credDefault=new XMLPropertySet();
+ m_credDefault=new DOMPropertySet();
m_credDefault->load(cu,log,this);
cu=saml::XML::getFirstChildElement(cu,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(RelyingParty));
while (cu) {
- XMLPropertySet* rp=new XMLPropertySet();
+ DOMPropertySet* rp=new DOMPropertySet();
rp->load(cu,log,this);
m_credMap[cu->getAttributeNS(NULL,SHIBT_L(Name))]=rp;
cu=saml::XML::getNextSiblingElement(cu,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(RelyingParty));
}
}
- if (conf.isEnabled(ShibTargetConfig::Caching)) {
+ if (conf.isEnabled(SPConfig::OutOfProcess)) {
// Really finally, build local browser profile and binding objects.
m_profile=new ShibBrowserProfile(
+ this,
getMetadataProviders(),
getTrustProviders()
);
delete m_bindingHook;
delete m_binding;
delete m_profile;
- map<string,XMLPropertySet*>::iterator h=m_handlerMap.begin();
- while (h!=m_handlerMap.end()) {
- delete h->second;
- h++;
- }
+ for_each(m_handlers.begin(),m_handlers.end(),xmltooling::cleanup<IHandler>());
+
delete m_credDefault;
#ifdef HAVE_GOOD_STL
- map<xstring,XMLPropertySet*>::iterator c=m_credMap.begin();
+ for_each(m_credMap.begin(),m_credMap.end(),xmltooling::cleanup_pair<xstring,PropertySet>());
#else
- map<const XMLCh*,XMLPropertySet*>::iterator c=m_credMap.begin();
+ for_each(m_credMap.begin(),m_credMap.end(),xmltooling::cleanup_pair<const XMLCh*,PropertySet>());
#endif
- while (c!=m_credMap.end()) {
- delete c->second;
- c++;
- }
- Iterator<SAMLAttributeDesignator*> i(m_designators);
- while (i.hasNext())
- delete i.next();
- Iterator<IAAP*> j(m_aaps);
- while (j.hasNext())
- delete j.next();
- Iterator<IMetadata*> k(m_metadatas);
- while (k.hasNext())
- delete k.next();
- Iterator<ITrust*> l(m_trusts);
- while (l.hasNext())
- delete l.next();
+ for_each(m_designators.begin(),m_designators.end(),xmltooling::cleanup<SAMLAttributeDesignator>());
+ for_each(m_aaps.begin(),m_aaps.end(),xmltooling::cleanup<IAAP>());
+ for_each(m_metadatas.begin(),m_metadatas.end(),xmltooling::cleanup<IMetadata>());
+ for_each(m_trusts.begin(),m_trusts.end(),xmltooling::cleanup<ITrust>());
}
short XMLApplication::acceptNode(const DOMNode* node) const
pair<bool,bool> XMLApplication::getBool(const char* name, const char* ns) const
{
- pair<bool,bool> ret=XMLPropertySet::getBool(name,ns);
+ pair<bool,bool> ret=DOMPropertySet::getBool(name,ns);
if (ret.first)
return ret;
return m_base ? m_base->getBool(name,ns) : ret;
pair<bool,const char*> XMLApplication::getString(const char* name, const char* ns) const
{
- pair<bool,const char*> ret=XMLPropertySet::getString(name,ns);
+ pair<bool,const char*> ret=DOMPropertySet::getString(name,ns);
if (ret.first)
return ret;
return m_base ? m_base->getString(name,ns) : ret;
pair<bool,const XMLCh*> XMLApplication::getXMLString(const char* name, const char* ns) const
{
- pair<bool,const XMLCh*> ret=XMLPropertySet::getXMLString(name,ns);
+ pair<bool,const XMLCh*> ret=DOMPropertySet::getXMLString(name,ns);
if (ret.first)
return ret;
return m_base ? m_base->getXMLString(name,ns) : ret;
pair<bool,unsigned int> XMLApplication::getUnsignedInt(const char* name, const char* ns) const
{
- pair<bool,unsigned int> ret=XMLPropertySet::getUnsignedInt(name,ns);
+ pair<bool,unsigned int> ret=DOMPropertySet::getUnsignedInt(name,ns);
if (ret.first)
return ret;
return m_base ? m_base->getUnsignedInt(name,ns) : ret;
pair<bool,int> XMLApplication::getInt(const char* name, const char* ns) const
{
- pair<bool,int> ret=XMLPropertySet::getInt(name,ns);
+ pair<bool,int> ret=DOMPropertySet::getInt(name,ns);
if (ret.first)
return ret;
return m_base ? m_base->getInt(name,ns) : ret;
}
-const IPropertySet* XMLApplication::getPropertySet(const char* name, const char* ns) const
+const PropertySet* XMLApplication::getPropertySet(const char* name, const char* ns) const
{
- const IPropertySet* ret=XMLPropertySet::getPropertySet(name,ns);
+ const PropertySet* ret=DOMPropertySet::getPropertySet(name,ns);
if (ret || !m_base)
return ret;
return m_base->getPropertySet(name,ns);
return (m_audiences.empty() && m_base) ? m_base->getAudiences() : m_audiences;
}
-const IPropertySet* XMLApplication::getCredentialUse(const IEntityDescriptor* provider) const
+const PropertySet* XMLApplication::getCredentialUse(const IEntityDescriptor* provider) const
{
if (!m_credDefault && m_base)
return m_base->getCredentialUse(provider);
#ifdef HAVE_GOOD_STL
- map<xstring,XMLPropertySet*>::const_iterator i=m_credMap.find(provider->getId());
+ map<xstring,PropertySet*>::const_iterator i=m_credMap.find(provider->getId());
if (i!=m_credMap.end())
return i->second;
const IEntitiesDescriptor* group=provider->getEntitiesDescriptor();
group=group->getEntitiesDescriptor();
}
#else
- map<const XMLCh*,XMLPropertySet*>::const_iterator i=m_credMap.begin();
+ map<const XMLCh*,PropertySet*>::const_iterator i=m_credMap.begin();
for (; i!=m_credMap.end(); i++) {
if (!XMLString::compareString(i->first,provider->getId()))
return i->second;
return m_credDefault;
}
-const IPropertySet* XMLApplication::getDefaultSessionInitiator() const
+const MetadataProvider* XMLApplication::getMetadataProvider() const
+{
+ return (!m_metadata && m_base) ? m_base->getMetadataProvider() : m_metadata;
+}
+
+const TrustEngine* XMLApplication::getTrustEngine() const
+{
+ return (!m_trust && m_base) ? m_base->getTrustEngine() : m_trust;
+}
+
+void XMLApplication::validateToken(SAMLAssertion* token, time_t ts, const IRoleDescriptor* role, const Iterator<ITrust*>& trusts) const
+{
+#ifdef _DEBUG
+ saml::NDC ndc("validateToken");
+#endif
+ Category& log=Category::getInstance("shibtarget.XMLApplication");
+
+ // First we verify the time conditions, using the specified timestamp, if non-zero.
+ SAMLConfig& config=SAMLConfig::getConfig();
+ if (ts>0) {
+ const SAMLDateTime* notBefore=token->getNotBefore();
+ if (notBefore && ts+config.clock_skew_secs < notBefore->getEpoch())
+ throw ExpiredAssertionException("Assertion is not yet valid.");
+ const SAMLDateTime* notOnOrAfter=token->getNotOnOrAfter();
+ if (notOnOrAfter && notOnOrAfter->getEpoch() <= ts-config.clock_skew_secs)
+ throw ExpiredAssertionException("Assertion is no longer valid.");
+ }
+
+ // Now we process conditions. Only audience restrictions at the moment.
+ Iterator<SAMLCondition*> conditions=token->getConditions();
+ while (conditions.hasNext()) {
+ SAMLCondition* cond=conditions.next();
+ const SAMLAudienceRestrictionCondition* ac=dynamic_cast<const SAMLAudienceRestrictionCondition*>(cond);
+ if (!ac) {
+ ostringstream os;
+ os << *cond;
+ log.error("unrecognized Condition in assertion (%s)",os.str().c_str());
+ throw UnsupportedExtensionException("Assertion contains an unrecognized condition.");
+ }
+ else if (!ac->eval(getAudiences())) {
+ ostringstream os;
+ os << *ac;
+ log.error("unacceptable AudienceRestrictionCondition in assertion (%s)",os.str().c_str());
+ throw UnsupportedProfileException("Assertion contains an unacceptable AudienceRestrictionCondition.");
+ }
+ }
+
+ if (!role) {
+ log.warn("no metadata provided, so no signature validation was performed");
+ return;
+ }
+
+ const PropertySet* credUse=getCredentialUse(role->getEntityDescriptor());
+ pair<bool,bool> signedAssertions=credUse ? credUse->getBool("signedAssertions") : make_pair(false,false);
+ Trust t(trusts);
+
+ if (token->isSigned() && !t.validate(*token,role))
+ throw TrustException("Assertion signature did not validate.");
+ else if (signedAssertions.first && signedAssertions.second)
+ throw TrustException("Assertion was unsigned, violating policy based on the issuer.");
+}
+
+const IHandler* XMLApplication::getDefaultSessionInitiator() const
{
if (m_sessionInitDefault) return m_sessionInitDefault;
return m_base ? m_base->getDefaultSessionInitiator() : NULL;
}
-const IPropertySet* XMLApplication::getSessionInitiatorById(const char* id) const
+const IHandler* XMLApplication::getSessionInitiatorById(const char* id) const
{
- map<string,const IPropertySet*>::const_iterator i=m_sessionInitMap.find(id);
+ map<string,const IHandler*>::const_iterator i=m_sessionInitMap.find(id);
if (i!=m_sessionInitMap.end()) return i->second;
return m_base ? m_base->getSessionInitiatorById(id) : NULL;
}
-const IPropertySet* XMLApplication::getDefaultAssertionConsumerService() const
+const IHandler* XMLApplication::getDefaultAssertionConsumerService() const
{
if (m_acsDefault) return m_acsDefault;
return m_base ? m_base->getDefaultAssertionConsumerService() : NULL;
}
-const IPropertySet* XMLApplication::getAssertionConsumerServiceByIndex(unsigned short index) const
+const IHandler* XMLApplication::getAssertionConsumerServiceByIndex(unsigned short index) const
{
- map<unsigned int,const IPropertySet*>::const_iterator i=m_acsMap.find(index);
- if (i!=m_acsMap.end()) return i->second;
+ map<unsigned int,const IHandler*>::const_iterator i=m_acsIndexMap.find(index);
+ if (i!=m_acsIndexMap.end()) return i->second;
return m_base ? m_base->getAssertionConsumerServiceByIndex(index) : NULL;
}
-const IPropertySet* XMLApplication::getHandlerConfig(const char* path) const
+Iterator<const IHandler*> XMLApplication::getAssertionConsumerServicesByBinding(const XMLCh* binding) const
+{
+#ifdef HAVE_GOOD_STL
+ ACSBindingMap::const_iterator i=m_acsBindingMap.find(binding);
+#else
+ auto_ptr_char temp(binding);
+ ACSBindingMap::const_iterator i=m_acsBindingMap.find(temp.get());
+#endif
+ if (i!=m_acsBindingMap.end())
+ return i->second;
+ return m_base ? m_base->getAssertionConsumerServicesByBinding(binding) : EMPTY(const IHandler*);
+}
+
+const IHandler* XMLApplication::getHandler(const char* path) const
{
string wrap(path);
- map<string,XMLPropertySet*>::const_iterator i=m_handlerMap.find(wrap.substr(0,wrap.find('?')));
+ map<string,const IHandler*>::const_iterator i=m_handlerMap.find(wrap.substr(0,wrap.find('?')));
if (i!=m_handlerMap.end())
return i->second;
- return m_base ? m_base->getHandlerConfig(path) : NULL;
+ return m_base ? m_base->getHandler(path) : NULL;
}
ReloadableXMLFileImpl* XMLConfig::newImplementation(const char* pathname, bool first) const
}
SAMLConfig& shibConf=SAMLConfig::getConfig();
- ShibTargetConfig& conf=ShibTargetConfig::getConfig();
+ SPConfig& conf=SPConfig::getConfig();
const DOMElement* SHAR=saml::XML::getFirstChildElement(ReloadableXMLFileImpl::m_root,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(SHAR));
if (!SHAR)
SHAR=saml::XML::getFirstChildElement(ReloadableXMLFileImpl::m_root,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Global));
+ if (!SHAR)
+ SHAR=saml::XML::getFirstChildElement(ReloadableXMLFileImpl::m_root,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(OutOfProcess));
const DOMElement* SHIRE=saml::XML::getFirstChildElement(ReloadableXMLFileImpl::m_root,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(SHIRE));
if (!SHIRE)
SHIRE=saml::XML::getFirstChildElement(ReloadableXMLFileImpl::m_root,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Local));
+ if (!SHIRE)
+ SHIRE=saml::XML::getFirstChildElement(ReloadableXMLFileImpl::m_root,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(InProcess));
// Initialize log4cpp manually in order to redirect log messages as soon as possible.
- if (conf.isEnabled(ShibTargetConfig::Logging)) {
+ if (conf.isEnabled(SPConfig::Logging)) {
const XMLCh* logger=NULL;
- if (conf.isEnabled(ShibTargetConfig::GlobalExtensions))
+ if (conf.isEnabled(SPConfig::OutOfProcess))
logger=SHAR->getAttributeNS(NULL,SHIBT_L(logger));
- else if (conf.isEnabled(ShibTargetConfig::LocalExtensions))
+ else if (conf.isEnabled(SPConfig::InProcess))
logger=SHIRE->getAttributeNS(NULL,SHIBT_L(logger));
if (!logger || !*logger)
logger=ReloadableXMLFileImpl::m_root->getAttributeNS(NULL,SHIBT_L(logger));
// First load any property sets.
map<string,string> root_remap;
- root_remap["SHAR"]="Global";
- root_remap["SHIRE"]="Local";
+ root_remap["SHAR"]="OutOfProcess";
+ root_remap["SHIRE"]="InProcess";
+ root_remap["Global"]="OutOfProcess";
+ root_remap["Local"]="InProcess";
load(ReloadableXMLFileImpl::m_root,log,this,&root_remap);
// Much of the processing can only occur on the first instantiation.
}
}
- if (conf.isEnabled(ShibTargetConfig::GlobalExtensions)) {
+ if (conf.isEnabled(SPConfig::OutOfProcess)) {
exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Extensions));
if (exts) {
exts=saml::XML::getFirstChildElement(exts,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Library));
}
}
- if (conf.isEnabled(ShibTargetConfig::LocalExtensions)) {
+ if (conf.isEnabled(SPConfig::InProcess)) {
exts=saml::XML::getFirstChildElement(SHIRE,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Extensions));
if (exts) {
exts=saml::XML::getFirstChildElement(exts,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Library));
}
}
- // Instantiate the Listener and SessionCache objects.
- if (conf.isEnabled(ShibTargetConfig::Listener)) {
- IPlugIn* plugin=NULL;
+ // Instantiate the ListenerService and SessionCache objects.
+ if (conf.isEnabled(SPConfig::Listener)) {
exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(UnixListener));
if (exts) {
- log.info("building Listener of type %s...",shibtarget::XML::UnixListenerType);
- plugin=shibConf.getPlugMgr().newPlugin(shibtarget::XML::UnixListenerType,exts);
+ log.info("building Listener of type %s...",UNIX_LISTENER_SERVICE);
+ m_outer->m_listener=conf.ListenerServiceManager.newPlugin(UNIX_LISTENER_SERVICE,exts);
}
else {
exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(TCPListener));
if (exts) {
- log.info("building Listener of type %s...",shibtarget::XML::TCPListenerType);
- plugin=shibConf.getPlugMgr().newPlugin(shibtarget::XML::TCPListenerType,exts);
+ log.info("building Listener of type %s...",TCP_LISTENER_SERVICE);
+ m_outer->m_listener=conf.ListenerServiceManager.newPlugin(TCP_LISTENER_SERVICE,exts);
}
else {
exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Listener));
if (exts) {
auto_ptr_char type(exts->getAttributeNS(NULL,SHIBT_L(type)));
log.info("building Listener of type %s...",type.get());
- plugin=shibConf.getPlugMgr().newPlugin(type.get(),exts);
+ m_outer->m_listener=conf.ListenerServiceManager.newPlugin(type.get(),exts);
}
else {
log.fatal("can't build Listener object, missing conf:Listener element?");
}
}
}
- if (plugin) {
- IListener* listen=dynamic_cast<IListener*>(plugin);
- if (listen)
- m_outer->m_listener=listen;
- else {
- delete plugin;
- log.fatal("plugin was not a Listener object");
- throw UnsupportedExtensionException("plugin was not a Listener object");
- }
- }
}
- if (conf.isEnabled(ShibTargetConfig::Caching)) {
+ if (conf.isEnabled(SPConfig::Caching)) {
IPlugIn* plugin=NULL;
- exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(MemorySessionCache));
+ const DOMElement* container=conf.isEnabled(SPConfig::OutOfProcess) ? SHAR : SHIRE;
+ exts=saml::XML::getFirstChildElement(container,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(MemorySessionCache));
if (exts) {
log.info("building Session Cache of type %s...",shibtarget::XML::MemorySessionCacheType);
plugin=shibConf.getPlugMgr().newPlugin(shibtarget::XML::MemorySessionCacheType,exts);
}
else {
- exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(MySQLSessionCache));
+ exts=saml::XML::getFirstChildElement(container,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(ODBCSessionCache));
if (exts) {
- log.info("building Session Cache of type %s...",shibtarget::XML::MySQLSessionCacheType);
- plugin=shibConf.getPlugMgr().newPlugin(shibtarget::XML::MySQLSessionCacheType,exts);
+ log.info("building Session Cache of type %s...",shibtarget::XML::ODBCSessionCacheType);
+ plugin=shibConf.getPlugMgr().newPlugin(shibtarget::XML::ODBCSessionCacheType,exts);
}
else {
- exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(SessionCache));
+ exts=saml::XML::getFirstChildElement(container,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(MySQLSessionCache));
if (exts) {
- auto_ptr_char type(exts->getAttributeNS(NULL,SHIBT_L(type)));
- log.info("building Session Cache of type %s...",type.get());
- plugin=shibConf.getPlugMgr().newPlugin(type.get(),exts);
+ log.info("building Session Cache of type %s...",shibtarget::XML::MySQLSessionCacheType);
+ plugin=shibConf.getPlugMgr().newPlugin(shibtarget::XML::MySQLSessionCacheType,exts);
}
else {
- log.fatal("can't build Session Cache object, missing conf:SessionCache element?");
- throw ConfigurationException("can't build Session Cache object, missing conf:SessionCache element?");
+ exts=saml::XML::getFirstChildElement(container,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(SessionCache));
+ if (exts) {
+ auto_ptr_char type(exts->getAttributeNS(NULL,SHIBT_L(type)));
+ log.info("building Session Cache of type %s...",type.get());
+ plugin=shibConf.getPlugMgr().newPlugin(type.get(),exts);
+ }
+ else {
+ log.info("session cache not specified, building Session Cache of type %s...",shibtarget::XML::MemorySessionCacheType);
+ plugin=shibConf.getPlugMgr().newPlugin(shibtarget::XML::MemorySessionCacheType,exts);
+ }
}
}
}
}
// Replay cache.
- exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(MySQLReplayCache));
+ container=conf.isEnabled(SPConfig::OutOfProcess) ? SHAR : SHIRE;
+ exts=saml::XML::getFirstChildElement(container,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(ODBCReplayCache));
if (exts) {
- log.info("building Replay Cache of type %s...",shibtarget::XML::MySQLReplayCacheType);
- m_outer->m_replayCache=IReplayCache::getInstance(shibtarget::XML::MySQLReplayCacheType,exts);
+ log.info("building Replay Cache of type %s...",shibtarget::XML::ODBCReplayCacheType);
+ m_outer->m_replayCache=IReplayCache::getInstance(shibtarget::XML::ODBCReplayCacheType,exts);
}
else {
- exts=saml::XML::getFirstChildElement(SHAR,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(ReplayCache));
+ exts=saml::XML::getFirstChildElement(container,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(MySQLReplayCache));
if (exts) {
- auto_ptr_char type(exts->getAttributeNS(NULL,SHIBT_L(type)));
- log.info("building Replay Cache of type %s...",type.get());
- m_outer->m_replayCache=IReplayCache::getInstance(type.get(),exts);
+ log.info("building Replay Cache of type %s...",shibtarget::XML::MySQLReplayCacheType);
+ m_outer->m_replayCache=IReplayCache::getInstance(shibtarget::XML::MySQLReplayCacheType,exts);
}
else {
- // OpenSAML default provider.
- log.info("building default Replay Cache...");
- m_outer->m_replayCache=IReplayCache::getInstance();
- }
- }
- }
-
- // Now we load any attribute factories.
- DOMNodeList* nlist=ReloadableXMLFileImpl::m_root->getElementsByTagNameNS(shibtarget::XML::SHIBTARGET_NS,SHIBT_L(AttributeFactory));
- for (XMLSize_t i=0; nlist && i<nlist->getLength(); i++) {
- auto_ptr_char type(static_cast<DOMElement*>(nlist->item(i))->getAttributeNS(NULL,SHIBT_L(type)));
- log.info("building Attribute factory of type %s...",type.get());
- try {
- IPlugIn* plugin=shibConf.getPlugMgr().newPlugin(type.get(),static_cast<DOMElement*>(nlist->item(i)));
- if (plugin) {
- IAttributeFactory* fact=dynamic_cast<IAttributeFactory*>(plugin);
- if (fact) {
- m_outer->m_attrFactories.push_back(fact);
- ShibConfig::getConfig().regAttributeMapping(
- static_cast<DOMElement*>(nlist->item(i))->getAttributeNS(NULL,L(AttributeName)),
- fact
- );
+ exts=saml::XML::getFirstChildElement(container,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(ReplayCache));
+ if (exts) {
+ auto_ptr_char type(exts->getAttributeNS(NULL,SHIBT_L(type)));
+ log.info("building Replay Cache of type %s...",type.get());
+ m_outer->m_replayCache=IReplayCache::getInstance(type.get(),exts);
}
else {
- delete plugin;
- log.crit("plugin was not an Attribute factory");
+ // OpenSAML default provider.
+ log.info("building default Replay Cache...");
+ m_outer->m_replayCache=IReplayCache::getInstance();
}
}
}
- catch (SAMLException& ex) {
- log.crit("error building Attribute factory: %s",ex.what());
- }
}
}
// Back to the fully dynamic stuff...next up is the Request Mapper.
- if (conf.isEnabled(ShibTargetConfig::RequestMapper)) {
+ if (conf.isEnabled(SPConfig::RequestMapper)) {
const DOMElement* child=saml::XML::getFirstChildElement(SHIRE,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(RequestMapProvider));
if (child) {
auto_ptr_char type(child->getAttributeNS(NULL,SHIBT_L(type)));
// Now we load any credentials providers.
DOMNodeList* nlist;
- if (conf.isEnabled(ShibTargetConfig::Credentials)) {
+ if (conf.isEnabled(SPConfig::Credentials)) {
nlist=ReloadableXMLFileImpl::m_root->getElementsByTagNameNS(shibtarget::XML::SHIBTARGET_NS,SHIBT_L(CredentialsProvider));
- for (XMLSize_t i=0; nlist && i<nlist->getLength(); i++) {
+ for (unsigned int i=0; nlist && i<nlist->getLength(); i++) {
auto_ptr_char type(static_cast<DOMElement*>(nlist->item(i))->getAttributeNS(NULL,SHIBT_L(type)));
log.info("building credentials provider of type %s...",type.get());
try {
}
}
+ // Now we load any attribute factories
+ nlist=ReloadableXMLFileImpl::m_root->getElementsByTagNameNS(shibtarget::XML::SHIBTARGET_NS,SHIBT_L(AttributeFactory));
+ for (unsigned int i=0; nlist && i<nlist->getLength(); i++) {
+ auto_ptr_char type(static_cast<DOMElement*>(nlist->item(i))->getAttributeNS(NULL,SHIBT_L(type)));
+ log.info("building Attribute factory of type %s...",type.get());
+ try {
+ IPlugIn* plugin=shibConf.getPlugMgr().newPlugin(type.get(),static_cast<DOMElement*>(nlist->item(i)));
+ if (plugin) {
+ IAttributeFactory* fact=dynamic_cast<IAttributeFactory*>(plugin);
+ if (fact) {
+ m_attrFactories.push_back(fact);
+ ShibConfig::getConfig().regAttributeMapping(
+ static_cast<DOMElement*>(nlist->item(i))->getAttributeNS(NULL,L(AttributeName)),
+ fact
+ );
+ }
+ else {
+ delete plugin;
+ log.crit("plugin was not an Attribute factory");
+ }
+ }
+ }
+ catch (SAMLException& ex) {
+ log.crit("error building Attribute factory: %s",ex.what());
+ }
+ }
+
// Load the default application. This actually has a fixed ID of "default". ;-)
const DOMElement* app=saml::XML::getFirstChildElement(
ReloadableXMLFileImpl::m_root,shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Applications)
// Load any overrides.
nlist=app->getElementsByTagNameNS(shibtarget::XML::SHIBTARGET_NS,SHIBT_L(Application));
- for (XMLSize_t j=0; nlist && j<nlist->getLength(); j++) {
- XMLApplication* iapp=new XMLApplication(m_outer,m_creds,static_cast<DOMElement*>(nlist->item(j)),defapp);
- if (m_appmap.find(iapp->getId())!=m_appmap.end()) {
- log.fatal("found conf:Application element with duplicate Id attribute");
- throw ConfigurationException("found conf:Application element with duplicate Id attribute");
- }
- m_appmap[iapp->getId()]=iapp;
+ for (unsigned int j=0; nlist && j<nlist->getLength(); j++) {
+ auto_ptr<XMLApplication> iapp(new XMLApplication(m_outer,m_creds,static_cast<DOMElement*>(nlist->item(j)),defapp));
+ if (m_appmap.find(iapp->getId())!=m_appmap.end())
+ log.crit("found conf:Application element with duplicate Id attribute, ignoring it");
+ else
+ m_appmap[iapp->getId()]=iapp.release();
}
}
+ catch (xmltooling::XMLToolingException& e) {
+ log.errorStream() << "Error while loading SP configuration: " << e.what() << CategoryStream::ENDLINE;
+ throw ConfigurationException(e.what());
+ }
catch (SAMLException& e) {
log.errorStream() << "Error while loading SP configuration: " << e.what() << CategoryStream::ENDLINE;
- throw;
+ throw ConfigurationException(e.what());
}
#ifndef _DEBUG
catch (...) {
XMLConfigImpl::~XMLConfigImpl()
{
delete m_requestMapper;
- for (map<string,IApplication*>::iterator i=m_appmap.begin(); i!=m_appmap.end(); i++)
- delete i->second;
- for (vector<ICredentials*>::iterator j=m_creds.begin(); j!=m_creds.end(); j++)
- delete (*j);
-}
-
-XMLConfig::~XMLConfig()
-{
- delete m_listener;
- delete m_sessionCache;
- delete m_replayCache;
+ for_each(m_appmap.begin(),m_appmap.end(),xmltooling::cleanup_pair<string,IApplication>());
+ for_each(m_creds.begin(),m_creds.end(),xmltooling::cleanup<ICredentials>());
ShibConfig::getConfig().clearAttributeMappings();
- for (vector<IAttributeFactory*>::iterator k=m_attrFactories.begin(); k!=m_attrFactories.end(); k++)
- delete (*k);
+ for_each(m_attrFactories.begin(),m_attrFactories.end(),xmltooling::cleanup<IAttributeFactory>());
}