/*
- * Copyright 2001-2007 Internet2
- *
+ * Copyright 2001-2009 Internet2
+ *
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
#include "internal.h"
#include "exceptions.h"
+#include "version.h"
#include "AccessControl.h"
#include "Application.h"
#include "RequestMapper.h"
#include "util/DOMPropertySet.h"
#include "util/SPConstants.h"
-#include <log4cpp/Category.hh>
-#include <log4cpp/PropertyConfigurator.hh>
+#if defined(XMLTOOLING_LOG4SHIB)
+# include <log4shib/PropertyConfigurator.hh>
+#elif defined(XMLTOOLING_LOG4CPP)
+# include <log4cpp/PropertyConfigurator.hh>
+#else
+# error "Supported logging library not available."
+#endif
#include <xercesc/util/XMLUniDefs.hpp>
#include <xmltooling/XMLToolingConfig.h>
+#include <xmltooling/version.h>
#include <xmltooling/util/NDC.h>
#include <xmltooling/util/ReloadableXMLFile.h>
+#include <xmltooling/util/TemplateEngine.h>
#include <xmltooling/util/XMLHelper.h>
#ifndef SHIBSP_LITE
# include "attribute/resolver/AttributeResolver.h"
# include "security/PKIXTrustEngine.h"
# include <saml/SAMLConfig.h>
+# include <saml/version.h>
# include <saml/binding/ArtifactMap.h>
# include <saml/binding/SAMLArtifact.h>
# include <saml/saml1/core/Assertions.h>
using namespace shibsp;
using namespace xmltooling;
-using namespace log4cpp;
using namespace std;
+#ifndef min
+# define min(a,b) (((a) < (b)) ? (a) : (b))
+#endif
+
namespace {
#if defined (_MSC_VER)
public:
XMLApplication(const ServiceProvider*, const DOMElement* e, const XMLApplication* base=NULL);
~XMLApplication() { cleanup(); }
-
- // Application
- const ServiceProvider& getServiceProvider() const {return *m_sp;}
- const char* getId() const {return getString("id").second;}
+
const char* getHash() const {return m_hash.c_str();}
#ifndef SHIBSP_LITE
SAML2Artifact* generateSAML2Artifact(const EntityDescriptor* relyingParty) const {
pair<bool,int> index = make_pair(false,0);
const PropertySet* props = getRelyingParty(relyingParty);
- if (props)
- index = getInt("artifactEndpointIndex");
+ index = props->getInt("artifactEndpointIndex");
if (!index.first)
index = getArtifactEndpointIndex();
- return new SAML2ArtifactType0004(SAMLConfig::getConfig().hashSHA1(getString("entityID").second),index.first ? index.second : 1);
+ return new SAML2ArtifactType0004(SAMLConfig::getConfig().hashSHA1(props->getString("entityID").second),index.first ? index.second : 1);
}
MetadataProvider* getMetadataProvider(bool required=true) const {
return (!m_credResolver && m_base) ? m_base->getCredentialResolver() : m_credResolver;
}
const PropertySet* getRelyingParty(const EntityDescriptor* provider) const;
- const vector<const XMLCh*>& getAudiences() const {
- return (m_audiences.empty() && m_base) ? m_base->getAudiences() : m_audiences;
+ const PropertySet* getRelyingParty(const XMLCh* entityID) const;
+ const vector<const XMLCh*>* getAudiences() const {
+ return (m_audiences.empty() && m_base) ? m_base->getAudiences() : &m_audiences;
}
#endif
- const set<string>& getRemoteUserAttributeIds() const {
+ string getNotificationURL(const char* resource, bool front, unsigned int index) const;
+
+ const vector<string>& getRemoteUserAttributeIds() const {
return (m_remoteUsers.empty() && m_base) ? m_base->getRemoteUserAttributeIds() : m_remoteUsers;
}
- void clearAttributeHeaders(SPRequest& request) const;
+ void clearHeader(SPRequest& request, const char* rawname, const char* cginame) const;
+ void setHeader(SPRequest& request, const char* name, const char* value) const;
+ string getSecureHeader(const SPRequest& request, const char* name) const;
+
const SessionInitiator* getDefaultSessionInitiator() const;
const SessionInitiator* getSessionInitiatorById(const char* id) const;
const Handler* getDefaultAssertionConsumerService() const;
const Handler* getAssertionConsumerServiceByIndex(unsigned short index) const;
const vector<const Handler*>& getAssertionConsumerServicesByBinding(const XMLCh* binding) const;
const Handler* getHandler(const char* path) const;
+ void getHandlers(vector<const Handler*>& handlers) const;
void receive(DDF& in, ostream& out) {
// Only current function is to return the headers to clear.
}
// Provides filter to exclude special config elements.
- short acceptNode(const DOMNode* node) const;
-
+#ifdef SHIBSP_XERCESC_SHORT_ACCEPTNODE
+ short
+#else
+ FilterAction
+#endif
+ acceptNode(const DOMNode* node) const;
+
private:
void cleanup();
- const ServiceProvider* m_sp; // this is ok because its locking scope includes us
const XMLApplication* m_base;
string m_hash;
+ std::pair<std::string,std::string> m_attributePrefix;
#ifndef SHIBSP_LITE
MetadataProvider* m_metadata;
TrustEngine* m_trust;
vector<const XMLCh*> m_audiences;
// RelyingParty properties
- DOMPropertySet* m_partyDefault;
#ifdef HAVE_GOOD_STL
map<xstring,PropertySet*> m_partyMap;
#else
map<const XMLCh*,PropertySet*> m_partyMap;
#endif
#endif
- set<string> m_remoteUsers;
- mutable vector< pair<string,string> > m_unsetHeaders;
- RWLock* m_unsetLock;
+ vector<string> m_remoteUsers,m_frontLogout,m_backLogout;
// manage handler objects
vector<Handler*> m_handlers;
// maps unique indexes to consumer services
map<unsigned int,const Handler*> m_acsIndexMap;
-
+
// pointer to default consumer service
const Handler* m_acsDefault;
public:
XMLConfigImpl(const DOMElement* e, bool first, const XMLConfig* outer, Category& log);
~XMLConfigImpl();
-
+
RequestMapper* m_requestMapper;
map<string,Application*> m_appmap;
#ifndef SHIBSP_LITE
map< string,pair< PropertySet*,vector<const SecurityPolicyRule*> > > m_policyMap;
+ vector< pair< string, pair<string,string> > > m_transportOptions;
#endif
-
+
// Provides filter to exclude special config elements.
- short acceptNode(const DOMNode* node) const;
+#ifdef SHIBSP_XERCESC_SHORT_ACCEPTNODE
+ short
+#else
+ FilterAction
+#endif
+ acceptNode(const DOMNode* node) const;
void setDocument(DOMDocument* doc) {
m_document = doc;
private:
void doExtensions(const DOMElement* e, const char* label, Category& log);
+ void cleanup();
const XMLConfig* m_outer;
DOMDocument* m_document;
};
- class SHIBSP_DLLLOCAL XMLConfig : public ServiceProvider, public ReloadableXMLFile, public Remoted
+ class SHIBSP_DLLLOCAL XMLConfig : public ServiceProvider, public ReloadableXMLFile
+#ifndef SHIBSP_LITE
+ ,public Remoted
+#endif
{
public:
XMLConfig(const DOMElement* e) : ReloadableXMLFile(e, Category::getInstance(SHIBSP_LOGCAT".Config")),
#endif
{
}
-
+
void init() {
load();
}
}
// PropertySet
+ const PropertySet* getParent() const { return m_impl->getParent(); }
void setParent(const PropertySet* parent) {return m_impl->setParent(parent);}
pair<bool,bool> getBool(const char* name, const char* ns=NULL) const {return m_impl->getBool(name,ns);}
pair<bool,const char*> getString(const char* name, const char* ns=NULL) const {return m_impl->getString(name,ns);}
pair<bool,const XMLCh*> getXMLString(const char* name, const char* ns=NULL) const {return m_impl->getXMLString(name,ns);}
pair<bool,unsigned int> getUnsignedInt(const char* name, const char* ns=NULL) const {return m_impl->getUnsignedInt(name,ns);}
pair<bool,int> getInt(const char* name, const char* ns=NULL) const {return m_impl->getInt(name,ns);}
+ void getAll(map<string,const char*>& properties) const {return m_impl->getAll(properties);}
const PropertySet* getPropertySet(const char* name, const char* ns="urn:mace:shibboleth:2.0:native:sp:config") const {return m_impl->getPropertySet(name,ns);}
const DOMElement* getElement() const {return m_impl->getElement();}
+ // ServiceProvider
+#ifndef SHIBSP_LITE
// Remoted
void receive(DDF& in, ostream& out);
- // ServiceProvider
-#ifndef SHIBSP_LITE
TransactionLog* getTransactionLog() const {
if (m_tranLog)
return m_tranLog;
return i->second.second;
throw ConfigurationException("Security Policy ($1) not found, check <SecurityPolicies> element.", params(1,id));
}
+
+ bool setTransportOptions(SOAPTransport& transport) const {
+ bool ret = true;
+ vector< pair< string, pair<string,string> > >::const_iterator opt;
+ for (opt = m_impl->m_transportOptions.begin(); opt != m_impl->m_transportOptions.end(); ++opt) {
+ if (!transport.setProviderOption(opt->first.c_str(), opt->second.first.c_str(), opt->second.second.c_str())) {
+ m_log.error("failed to set SOAPTransport option (%s)", opt->second.first.c_str());
+ ret = false;
+ }
+ }
+ return ret;
+ }
#endif
protected:
#pragma warning( pop )
#endif
- static const XMLCh _Application[] = UNICODE_LITERAL_11(A,p,p,l,i,c,a,t,i,o,n);
- static const XMLCh Applications[] = UNICODE_LITERAL_12(A,p,p,l,i,c,a,t,i,o,n,s);
+ static const XMLCh ApplicationOverride[] = UNICODE_LITERAL_19(A,p,p,l,i,c,a,t,i,o,n,O,v,e,r,r,i,d,e);
+ static const XMLCh ApplicationDefaults[] = UNICODE_LITERAL_19(A,p,p,l,i,c,a,t,i,o,n,D,e,f,a,u,l,t,s);
static const XMLCh _ArtifactMap[] = UNICODE_LITERAL_11(A,r,t,i,f,a,c,t,M,a,p);
static const XMLCh _AttributeExtractor[] = UNICODE_LITERAL_18(A,t,t,r,i,b,u,t,e,E,x,t,r,a,c,t,o,r);
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 _ArtifactResolutionService[] =UNICODE_LITERAL_25(A,r,t,i,f,a,c,t,R,e,s,o,l,u,t,i,o,n,S,e,r,v,i,c,e);
static const XMLCh _Audience[] = UNICODE_LITERAL_8(A,u,d,i,e,n,c,e);
static const XMLCh Binding[] = UNICODE_LITERAL_7(B,i,n,d,i,n,g);
+ static const XMLCh Channel[]= UNICODE_LITERAL_7(C,h,a,n,n,e,l);
static const XMLCh _CredentialResolver[] = UNICODE_LITERAL_18(C,r,e,d,e,n,t,i,a,l,R,e,s,o,l,v,e,r);
- static const XMLCh DefaultRelyingParty[] = UNICODE_LITERAL_19(D,e,f,a,u,l,t,R,e,l,y,i,n,g,P,a,r,t,y);
static const XMLCh _Extensions[] = UNICODE_LITERAL_10(E,x,t,e,n,s,i,o,n,s);
static const XMLCh _fatal[] = UNICODE_LITERAL_5(f,a,t,a,l);
static const XMLCh _Handler[] = UNICODE_LITERAL_7(H,a,n,d,l,e,r);
static const XMLCh _id[] = UNICODE_LITERAL_2(i,d);
- static const XMLCh Implementation[] = UNICODE_LITERAL_14(I,m,p,l,e,m,e,n,t,a,t,i,o,n);
static const XMLCh InProcess[] = UNICODE_LITERAL_9(I,n,P,r,o,c,e,s,s);
static const XMLCh Library[] = UNICODE_LITERAL_7(L,i,b,r,a,r,y);
static const XMLCh Listener[] = UNICODE_LITERAL_8(L,i,s,t,e,n,e,r);
+ static const XMLCh Location[] = UNICODE_LITERAL_8(L,o,c,a,t,i,o,n);
static const XMLCh logger[] = UNICODE_LITERAL_6(l,o,g,g,e,r);
+ static const XMLCh _LogoutInitiator[] = UNICODE_LITERAL_15(L,o,g,o,u,t,I,n,i,t,i,a,t,o,r);
static const XMLCh _ManageNameIDService[] = UNICODE_LITERAL_19(M,a,n,a,g,e,N,a,m,e,I,D,S,e,r,v,i,c,e);
- static const XMLCh MemoryListener[] = UNICODE_LITERAL_14(M,e,m,o,r,y,L,i,s,t,e,n,e,r);
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 Notify[] = UNICODE_LITERAL_6(N,o,t,i,f,y);
+ static const XMLCh _option[] = UNICODE_LITERAL_6(o,p,t,i,o,n);
static const XMLCh OutOfProcess[] = UNICODE_LITERAL_12(O,u,t,O,f,P,r,o,c,e,s,s);
static const XMLCh _path[] = UNICODE_LITERAL_4(p,a,t,h);
static const XMLCh Policy[] = UNICODE_LITERAL_6(P,o,l,i,c,y);
+ static const XMLCh PolicyRule[] = UNICODE_LITERAL_10(P,o,l,i,c,y,R,u,l,e);
+ static const XMLCh _provider[] = UNICODE_LITERAL_8(p,r,o,v,i,d,e,r);
static const XMLCh RelyingParty[] = UNICODE_LITERAL_12(R,e,l,y,i,n,g,P,a,r,t,y);
static const XMLCh _ReplayCache[] = UNICODE_LITERAL_11(R,e,p,l,a,y,C,a,c,h,e);
static const XMLCh _RequestMapper[] = UNICODE_LITERAL_13(R,e,q,u,e,s,t,M,a,p,p,e,r);
static const XMLCh _SessionCache[] = UNICODE_LITERAL_12(S,e,s,s,i,o,n,C,a,c,h,e);
static const XMLCh _SessionInitiator[] = UNICODE_LITERAL_16(S,e,s,s,i,o,n,I,n,i,t,i,a,t,o,r);
static const XMLCh _SingleLogoutService[] = UNICODE_LITERAL_19(S,i,n,g,l,e,L,o,g,o,u,t,S,e,r,v,i,c,e);
+ static const XMLCh Site[] = UNICODE_LITERAL_4(S,i,t,e);
static const XMLCh _StorageService[] = UNICODE_LITERAL_14(S,t,o,r,a,g,e,S,e,r,v,i,c,e);
static const XMLCh TCPListener[] = UNICODE_LITERAL_11(T,C,P,L,i,s,t,e,n,e,r);
+ static const XMLCh TransportOption[] = UNICODE_LITERAL_15(T,r,a,n,s,p,o,r,t,O,p,t,i,o,n);
static const XMLCh _TrustEngine[] = UNICODE_LITERAL_11(T,r,u,s,t,E,n,g,i,n,e);
static const XMLCh _type[] = UNICODE_LITERAL_4(t,y,p,e);
static const XMLCh UnixListener[] = UNICODE_LITERAL_12(U,n,i,x,L,i,s,t,e,n,e,r);
+#ifndef SHIBSP_LITE
class SHIBSP_DLLLOCAL PolicyNodeFilter : public DOMNodeFilter
{
public:
- short acceptNode(const DOMNode* node) const {
- if (XMLHelper::isNodeNamed(node,shibspconstants::SHIB2SPCONFIG_NS,Rule))
- return FILTER_REJECT;
- return FILTER_ACCEPT;
+#ifdef SHIBSP_XERCESC_SHORT_ACCEPTNODE
+ short
+#else
+ FilterAction
+#endif
+ acceptNode(const DOMNode* node) const {
+ return FILTER_REJECT;
}
};
+#endif
};
namespace shibsp {
const ServiceProvider* sp,
const DOMElement* e,
const XMLApplication* base
- ) : m_sp(sp), m_base(base),
+ ) : Application(sp), m_base(base),
#ifndef SHIBSP_LITE
m_metadata(NULL), m_trust(NULL),
m_attrExtractor(NULL), m_attrFilter(NULL), m_attrResolver(NULL),
- m_credResolver(NULL), m_partyDefault(NULL),
+ m_credResolver(NULL),
#endif
- m_unsetLock(NULL), m_acsDefault(NULL), m_sessionInitDefault(NULL), m_artifactResolutionDefault(NULL)
+ m_acsDefault(NULL), m_sessionInitDefault(NULL), m_artifactResolutionDefault(NULL)
{
#ifdef _DEBUG
xmltooling::NDC ndc("XMLApplication");
try {
// First load any property sets.
- load(e,log,this);
+ load(e,NULL,this);
if (base)
setParent(base);
m_hash += (DIGITS[0x0F & *ch]);
}
+ // Populate prefix pair.
+ m_attributePrefix.second = "HTTP_";
+ pair<bool,const char*> prefix = getString("attributePrefix");
+ if (prefix.first) {
+ m_attributePrefix.first = prefix.second;
+ const char* pch = prefix.second;
+ while (*pch) {
+ m_attributePrefix.second += (isalnum(*pch) ? toupper(*pch) : '_');
+ pch++;
+ }
+ }
+
// Load attribute ID lists for REMOTE_USER and header clearing.
if (conf.isEnabled(SPConfig::InProcess)) {
pair<bool,const char*> attributes = getString("REMOTE_USER");
pos = strchr(start,' ');
if (pos)
*pos=0;
- m_remoteUsers.insert(start);
+ m_remoteUsers.push_back(start);
start = pos ? pos+1 : NULL;
}
free(dup);
attributes = getString("unsetHeaders");
if (attributes.first) {
+ string transformedprefix(m_attributePrefix.second);
+ const char* pch;
+ prefix = getString("metadataAttributePrefix");
+ if (prefix.first) {
+ pch = prefix.second;
+ while (*pch) {
+ transformedprefix += (isalnum(*pch) ? toupper(*pch) : '_');
+ pch++;
+ }
+ }
char* dup = strdup(attributes.second);
char* pos;
char* start = dup;
if (pos)
*pos=0;
- string transformed("HTTP_");
- const char* pch = start;
+ string transformed;
+ pch = start;
while (*pch) {
transformed += (isalnum(*pch) ? toupper(*pch) : '_');
pch++;
}
- m_unsetHeaders.push_back(pair<string,string>(start,transformed));
+
+ m_unsetHeaders.push_back(pair<string,string>(m_attributePrefix.first + start, m_attributePrefix.second + transformed));
+ if (prefix.first)
+ m_unsetHeaders.push_back(pair<string,string>(m_attributePrefix.first + prefix.second + start, transformedprefix + transformed));
start = pos ? pos+1 : NULL;
}
free(dup);
- m_unsetHeaders.push_back(pair<string,string>("Shib-Application-ID","HTTP_SHIB_APPLICATION_ID"));
+ m_unsetHeaders.push_back(pair<string,string>(m_attributePrefix.first + "Shib-Application-ID", m_attributePrefix.second + "SHIB_APPLICATION_ID"));
}
}
pair<bool,const char*> location = sessions ? sessions->getString("exportLocation") : pair<bool,const char*>(false,NULL);
if (location.first) {
try {
- handler = conf.HandlerManager.newPlugin(samlconstants::SAML20_BINDING_URI, make_pair(sessions->getElement(), getId()));
+ DOMElement* exportElement = e->getOwnerDocument()->createElementNS(shibspconstants::SHIB2SPCONFIG_NS,_Handler);
+ exportElement->setAttributeNS(NULL,Location,sessions->getXMLString("exportLocation").second);
+ pair<bool,const XMLCh*> exportACL = sessions->getXMLString("exportACL");
+ if (exportACL.first) {
+ static const XMLCh _acl[] = UNICODE_LITERAL_9(e,x,p,o,r,t,A,C,L);
+ exportElement->setAttributeNS(NULL,_acl,exportACL.second);
+ }
+ handler = conf.HandlerManager.newPlugin(
+ samlconstants::SAML20_BINDING_URI, pair<const DOMElement*,const char*>(exportElement, getId())
+ );
m_handlers.push_back(handler);
- // Insert into location map.
+ // Insert into location map. If it contains the handlerURL, we skip past that part.
+ const char* pch = strstr(location.second, sessions->getString("handlerURL").second);
+ if (pch)
+ location.second = pch + strlen(sessions->getString("handlerURL").second);
if (*location.second == '/')
m_handlerMap[location.second]=handler;
else
m_acsBindingMap[handler->getString("Binding").second].push_back(handler);
#endif
m_acsIndexMap[handler->getUnsignedInt("index").second]=handler;
-
+
if (!hardACS) {
pair<bool,bool> defprop=handler->getBool("isDefault");
if (defprop.first) {
m_sessionInitDefault=sihandler;
}
}
+ else if (XMLString::equals(child->getLocalName(),_LogoutInitiator)) {
+ auto_ptr_char type(child->getAttributeNS(NULL,_type));
+ if (!type.get() || !*(type.get())) {
+ log.warn("LogoutInitiator element has no type attribute, skipping it...");
+ child = XMLHelper::getNextSiblingElement(child);
+ continue;
+ }
+ handler=conf.LogoutInitiatorManager.newPlugin(type.get(),make_pair(child, getId()));
+ }
else if (XMLString::equals(child->getLocalName(),_ArtifactResolutionService)) {
auto_ptr_char bindprop(child->getAttributeNS(NULL,Binding));
if (!bindprop.get() || !*(bindprop.get())) {
continue;
}
handler=conf.ArtifactResolutionServiceManager.newPlugin(bindprop.get(),make_pair(child, getId()));
-
+
if (!hardArt) {
pair<bool,bool> defprop=handler->getBool("isDefault");
if (defprop.first) {
catch (exception& ex) {
log.error("caught exception processing handler element: %s", ex.what());
}
-
+
child = XMLHelper::getNextSiblingElement(child);
}
-#ifndef SHIBSP_LITE
- DOMNodeList* nlist=e->getElementsByTagNameNS(samlconstants::SAML20_NS,Audience::LOCAL_NAME);
- for (XMLSize_t i=0; nlist && i<nlist->getLength(); i++)
- if (nlist->item(i)->getParentNode()->isSameNode(e) && nlist->item(i)->hasChildNodes())
- m_audiences.push_back(nlist->item(i)->getFirstChild()->getNodeValue());
+ // Notification.
+ DOMNodeList* nlist=e->getElementsByTagNameNS(shibspconstants::SHIB2SPCONFIG_NS,Notify);
+ for (XMLSize_t i=0; nlist && i<nlist->getLength(); i++) {
+ if (nlist->item(i)->getParentNode()->isSameNode(e)) {
+ const XMLCh* channel = static_cast<DOMElement*>(nlist->item(i))->getAttributeNS(NULL,Channel);
+ auto_ptr_char loc(static_cast<DOMElement*>(nlist->item(i))->getAttributeNS(NULL,Location));
+ if (loc.get() && *loc.get()) {
+ if (channel && *channel == chLatin_f)
+ m_frontLogout.push_back(loc.get());
+ else
+ m_backLogout.push_back(loc.get());
+ }
+ }
+ }
- // Always include our own entityID as an audience.
- m_audiences.push_back(getXMLString("entityID").second);
+#ifndef SHIBSP_LITE
+ nlist=e->getElementsByTagNameNS(samlconstants::SAML20_NS,Audience::LOCAL_NAME);
+ if (nlist && nlist->getLength()) {
+ log.warn("use of <saml:Audience> elements outside of a Security Policy Rule is deprecated");
+ for (XMLSize_t i=0; i<nlist->getLength(); i++)
+ if (nlist->item(i)->getParentNode()->isSameNode(e) && nlist->item(i)->hasChildNodes())
+ m_audiences.push_back(nlist->item(i)->getFirstChild()->getNodeValue());
+ }
if (conf.isEnabled(SPConfig::Metadata)) {
child = XMLHelper::getFirstChildElement(e,_MetadataProvider);
Locker extlock(m_attrExtractor);
m_attrExtractor->getAttributeIds(unsetHeaders);
}
+ else if (m_base && m_base->m_attrExtractor) {
+ Locker extlock(m_base->m_attrExtractor);
+ m_base->m_attrExtractor->getAttributeIds(unsetHeaders);
+ }
if (m_attrResolver) {
Locker reslock(m_attrResolver);
m_attrResolver->getAttributeIds(unsetHeaders);
}
- if (unsetHeaders.empty()) {
- if (m_base)
- m_unsetHeaders.insert(m_unsetHeaders.end(), m_base->m_unsetHeaders.begin(), m_base->m_unsetHeaders.end());
- else
- m_unsetHeaders.push_back(pair<string,string>("Shib-Application-ID","HTTP_SHIB_APPLICATION_ID"));
+ else if (m_base && m_base->m_attrResolver) {
+ Locker extlock(m_base->m_attrResolver);
+ m_base->m_attrResolver->getAttributeIds(unsetHeaders);
}
- else {
+ if (!unsetHeaders.empty()) {
+ string transformedprefix(m_attributePrefix.second);
+ const char* pch;
+ pair<bool,const char*> prefix = getString("metadataAttributePrefix");
+ if (prefix.first) {
+ pch = prefix.second;
+ while (*pch) {
+ transformedprefix += (isalnum(*pch) ? toupper(*pch) : '_');
+ pch++;
+ }
+ }
for (vector<string>::const_iterator hdr = unsetHeaders.begin(); hdr!=unsetHeaders.end(); ++hdr) {
- string transformed("HTTP_");
- const char* pch = hdr->c_str();
+ string transformed;
+ pch = hdr->c_str();
while (*pch) {
transformed += (isalnum(*pch) ? toupper(*pch) : '_');
pch++;
}
- m_unsetHeaders.push_back(pair<string,string>(*hdr,transformed));
+ m_unsetHeaders.push_back(pair<string,string>(m_attributePrefix.first + *hdr, m_attributePrefix.second + transformed));
+ if (prefix.first)
+ m_unsetHeaders.push_back(pair<string,string>(m_attributePrefix.first + prefix.second + *hdr, transformedprefix + transformed));
}
- m_unsetHeaders.push_back(pair<string,string>("Shib-Application-ID","HTTP_SHIB_APPLICATION_ID"));
}
+ m_unsetHeaders.push_back(pair<string,string>(m_attributePrefix.first + "Shib-Application-ID", m_attributePrefix.second + "SHIB_APPLICATION_ID"));
}
}
}
// Finally, load relying parties.
- child = XMLHelper::getFirstChildElement(e,DefaultRelyingParty);
- if (child) {
- m_partyDefault=new DOMPropertySet();
- m_partyDefault->load(child,log,this);
- child = XMLHelper::getFirstChildElement(child,RelyingParty);
- while (child) {
- auto_ptr<DOMPropertySet> rp(new DOMPropertySet());
- rp->load(child,log,this);
- rp->setParent(m_partyDefault);
- m_partyMap[child->getAttributeNS(NULL,saml2::Attribute::NAME_ATTRIB_NAME)]=rp.release();
- child = XMLHelper::getNextSiblingElement(child,RelyingParty);
- }
+ child = XMLHelper::getFirstChildElement(e,RelyingParty);
+ while (child) {
+ auto_ptr<DOMPropertySet> rp(new DOMPropertySet());
+ rp->load(child,NULL,this);
+ rp->setParent(this);
+ m_partyMap[child->getAttributeNS(NULL,saml2::Attribute::NAME_ATTRIB_NAME)]=rp.release();
+ child = XMLHelper::getNextSiblingElement(child,RelyingParty);
}
#endif
- // In process only, we need a shared lock around accessing the header clearing list.
- if (!conf.isEnabled(SPConfig::OutOfProcess)) {
- m_unsetLock = RWLock::create();
- }
- else if (!conf.isEnabled(SPConfig::InProcess)) {
+ // Out of process only, we register a listener endpoint.
+ if (!conf.isEnabled(SPConfig::InProcess)) {
ListenerService* listener = sp->getListenerService(false);
if (listener) {
string addr=string(getId()) + "::getHeaders::Application";
string addr=string(getId()) + "::getHeaders::Application";
listener->unregListener(addr.c_str(),this);
}
- delete m_unsetLock;
for_each(m_handlers.begin(),m_handlers.end(),xmltooling::cleanup<Handler>());
+ m_handlers.clear();
#ifndef SHIBSP_LITE
- delete m_partyDefault;
#ifdef HAVE_GOOD_STL
for_each(m_partyMap.begin(),m_partyMap.end(),cleanup_pair<xstring,PropertySet>());
#else
for_each(m_partyMap.begin(),m_partyMap.end(),cleanup_pair<const XMLCh*,PropertySet>());
#endif
+ m_partyMap.clear();
delete m_credResolver;
+ m_credResolver = NULL;
delete m_attrResolver;
+ m_attrResolver = NULL;
delete m_attrFilter;
+ m_attrFilter = NULL;
delete m_attrExtractor;
+ m_attrExtractor = NULL;
delete m_trust;
+ m_trust = NULL;
delete m_metadata;
+ m_metadata = NULL;
#endif
}
-short XMLApplication::acceptNode(const DOMNode* node) const
+#ifdef SHIBSP_XERCESC_SHORT_ACCEPTNODE
+short
+#else
+DOMNodeFilter::FilterAction
+#endif
+XMLApplication::acceptNode(const DOMNode* node) const
{
const XMLCh* name=node->getLocalName();
- if (XMLString::equals(name,_Application) ||
+ if (XMLString::equals(name,ApplicationOverride) ||
XMLString::equals(name,_Audience) ||
+ XMLString::equals(name,Notify) ||
+ XMLString::equals(name,_Handler) ||
XMLString::equals(name,_AssertionConsumerService) ||
XMLString::equals(name,_ArtifactResolutionService) ||
- XMLString::equals(name,_SingleLogoutService) ||
+ XMLString::equals(name,_LogoutInitiator) ||
XMLString::equals(name,_ManageNameIDService) ||
XMLString::equals(name,_SessionInitiator) ||
- XMLString::equals(name,DefaultRelyingParty) ||
+ XMLString::equals(name,_SingleLogoutService) ||
XMLString::equals(name,RelyingParty) ||
XMLString::equals(name,_MetadataProvider) ||
XMLString::equals(name,_TrustEngine) ||
const PropertySet* XMLApplication::getRelyingParty(const EntityDescriptor* provider) const
{
- if (!m_partyDefault && m_base)
- return m_base->getRelyingParty(provider);
- else if (!provider)
- return m_partyDefault;
-
+ if (!provider)
+ return this;
+
#ifdef HAVE_GOOD_STL
map<xstring,PropertySet*>::const_iterator i=m_partyMap.find(provider->getEntityID());
if (i!=m_partyMap.end())
#else
map<const XMLCh*,PropertySet*>::const_iterator i=m_partyMap.begin();
for (; i!=m_partyMap.end(); i++) {
- if (XMLString::equals(i->first,provider->getId()))
+ if (XMLString::equals(i->first,provider->getEntityID()))
return i->second;
const EntitiesDescriptor* group=dynamic_cast<const EntitiesDescriptor*>(provider->getParent());
while (group) {
}
}
#endif
- return m_partyDefault;
+ return this;
+}
+
+const PropertySet* XMLApplication::getRelyingParty(const XMLCh* entityID) const
+{
+ if (!entityID)
+ return this;
+
+#ifdef HAVE_GOOD_STL
+ map<xstring,PropertySet*>::const_iterator i=m_partyMap.find(entityID);
+ if (i!=m_partyMap.end())
+ return i->second;
+#else
+ map<const XMLCh*,PropertySet*>::const_iterator i=m_partyMap.begin();
+ for (; i!=m_partyMap.end(); i++) {
+ if (XMLString::equals(i->first,entityID))
+ return i->second;
+ }
+#endif
+ return this;
}
#endif
+string XMLApplication::getNotificationURL(const char* resource, bool front, unsigned int index) const
+{
+ const vector<string>& locs = front ? m_frontLogout : m_backLogout;
+ if (locs.empty())
+ return m_base ? m_base->getNotificationURL(resource, front, index) : string();
+ else if (index >= locs.size())
+ return string();
+
+#ifdef HAVE_STRCASECMP
+ if (!resource || (strncasecmp(resource,"http://",7) && strncasecmp(resource,"https://",8)))
+#else
+ if (!resource || (strnicmp(resource,"http://",7) && strnicmp(resource,"https://",8)))
+#endif
+ throw ConfigurationException("Request URL was not absolute.");
+
+ const char* handler=locs[index].c_str();
+
+ // Should never happen...
+ if (!handler || (*handler!='/' && strncmp(handler,"http:",5) && strncmp(handler,"https:",6)))
+ throw ConfigurationException(
+ "Invalid Location property ($1) in Notify element for Application ($2)",
+ params(2, handler ? handler : "null", getId())
+ );
+
+ // The "Location" property can be in one of three formats:
+ //
+ // 1) a full URI: http://host/foo/bar
+ // 2) a hostless URI: http:///foo/bar
+ // 3) a relative path: /foo/bar
+ //
+ // # Protocol Host Path
+ // 1 handler handler handler
+ // 2 handler resource handler
+ // 3 resource resource handler
+
+ const char* path = NULL;
+
+ // Decide whether to use the handler or the resource for the "protocol"
+ const char* prot;
+ if (*handler != '/') {
+ prot = handler;
+ }
+ else {
+ prot = resource;
+ path = handler;
+ }
+
+ // break apart the "protocol" string into protocol, host, and "the rest"
+ const char* colon=strchr(prot,':');
+ colon += 3;
+ const char* slash=strchr(colon,'/');
+ if (!path)
+ path = slash;
+
+ // Compute the actual protocol and store.
+ string notifyURL(prot, colon-prot);
+
+ // create the "host" from either the colon/slash or from the target string
+ // If prot == handler then we're in either #1 or #2, else #3.
+ // If slash == colon then we're in #2.
+ if (prot != handler || slash == colon) {
+ colon = strchr(resource, ':');
+ colon += 3; // Get past the ://
+ slash = strchr(colon, '/');
+ }
+ string host(colon, (slash ? slash-colon : strlen(colon)));
+
+ // Build the URL
+ notifyURL += host + path;
+ return notifyURL;
+}
+
+void XMLApplication::clearHeader(SPRequest& request, const char* rawname, const char* cginame) const
+{
+ if (!m_attributePrefix.first.empty()) {
+ string temp = m_attributePrefix.first + rawname;
+ string temp2 = m_attributePrefix.second + (cginame + 5);
+ request.clearHeader(temp.c_str(), temp2.c_str());
+ }
+ else if (m_base) {
+ m_base->clearHeader(request, rawname, cginame);
+ }
+ else {
+ request.clearHeader(rawname, cginame);
+ }
+}
+
+void XMLApplication::setHeader(SPRequest& request, const char* name, const char* value) const
+{
+ if (!m_attributePrefix.first.empty()) {
+ string temp = m_attributePrefix.first + name;
+ request.setHeader(temp.c_str(), value);
+ }
+ else if (m_base) {
+ m_base->setHeader(request, name, value);
+ }
+ else {
+ request.setHeader(name, value);
+ }
+}
+
+string XMLApplication::getSecureHeader(const SPRequest& request, const char* name) const
+{
+ if (!m_attributePrefix.first.empty()) {
+ string temp = m_attributePrefix.first + name;
+ return request.getSecureHeader(temp.c_str());
+ }
+ else if (m_base) {
+ return m_base->getSecureHeader(request,name);
+ }
+ else {
+ return request.getSecureHeader(name);
+ }
+}
+
const SessionInitiator* XMLApplication::getDefaultSessionInitiator() const
{
if (m_sessionInitDefault) return m_sessionInitDefault;
return m_base ? m_base->getHandler(path) : NULL;
}
-void XMLApplication::clearAttributeHeaders(SPRequest& request) const
+void XMLApplication::getHandlers(vector<const Handler*>& handlers) const
{
- if (SPConfig::getConfig().isEnabled(SPConfig::OutOfProcess)) {
- for (vector< pair<string,string> >::const_iterator i = m_unsetHeaders.begin(); i!=m_unsetHeaders.end(); ++i)
- request.clearHeader(i->first.c_str(), i->second.c_str());
- return;
- }
-
- m_unsetLock->rdlock();
- if (m_unsetHeaders.empty()) {
- // No headers yet, so we have to request them from the remote half.
- m_unsetLock->unlock();
- m_unsetLock->wrlock();
- if (m_unsetHeaders.empty()) {
- SharedLock wrlock(m_unsetLock, false);
- string addr=string(getId()) + "::getHeaders::Application";
- DDF out,in = DDF(addr.c_str());
- DDFJanitor jin(in),jout(out);
- out = getServiceProvider().getListenerService()->send(in);
- if (out.islist()) {
- DDF header = out.first();
- while (header.isstring()) {
- m_unsetHeaders.push_back(pair<string,string>(header.name(),header.string()));
- header = out.next();
- }
- }
+ handlers.insert(handlers.end(), m_handlers.begin(), m_handlers.end());
+ if (m_base) {
+ for (map<string,const Handler*>::const_iterator h = m_base->m_handlerMap.begin(); h != m_base->m_handlerMap.end(); ++h) {
+ if (m_handlerMap.count(h->first) == 0)
+ handlers.push_back(h->second);
}
- else {
- m_unsetLock->unlock();
- }
- m_unsetLock->rdlock();
}
-
- // Now holding read lock.
- SharedLock unsetLock(m_unsetLock, false);
- for (vector< pair<string,string> >::const_iterator i = m_unsetHeaders.begin(); i!=m_unsetHeaders.end(); ++i)
- request.clearHeader(i->first.c_str(), i->second.c_str());
}
-short XMLConfigImpl::acceptNode(const DOMNode* node) const
+#ifdef SHIBSP_XERCESC_SHORT_ACCEPTNODE
+short
+#else
+DOMNodeFilter::FilterAction
+#endif
+XMLConfigImpl::acceptNode(const DOMNode* node) const
{
if (!XMLString::equals(node->getNamespaceURI(),shibspconstants::SHIB2SPCONFIG_NS))
return FILTER_ACCEPT;
const XMLCh* name=node->getLocalName();
- if (XMLString::equals(name,Applications) ||
+ if (XMLString::equals(name,ApplicationDefaults) ||
XMLString::equals(name,_ArtifactMap) ||
XMLString::equals(name,_Extensions) ||
- XMLString::equals(name,Implementation) ||
XMLString::equals(name,Listener) ||
- XMLString::equals(name,MemoryListener) ||
- XMLString::equals(name,Policy) ||
XMLString::equals(name,_RequestMapper) ||
XMLString::equals(name,_ReplayCache) ||
+ XMLString::equals(name,SecurityPolicies) ||
XMLString::equals(name,_SessionCache) ||
+ XMLString::equals(name,Site) ||
XMLString::equals(name,_StorageService) ||
XMLString::equals(name,TCPListener) ||
+ XMLString::equals(name,TransportOption) ||
XMLString::equals(name,UnixListener))
return FILTER_REJECT;
auto_ptr_char path(exts->getAttributeNS(NULL,_path));
try {
if (path.get()) {
- XMLToolingConfig::getConfig().load_library(path.get(),(void*)exts);
+ if (!XMLToolingConfig::getConfig().load_library(path.get(),(void*)exts))
+ throw ConfigurationException("XMLToolingConfig::load_library failed.");
log.debug("loaded %s extension library (%s)", label, path.get());
}
}
log.debug("loading new logging configuration from (%s), check log destination for status of configuration",logpath.get());
XMLToolingConfig::getConfig().log_config(logpath.get());
}
-
+
#ifndef SHIBSP_LITE
if (first)
m_outer->m_tranLog = new TransactionLog();
#endif
}
-
+
+ // Re-log library versions now that logging is set up.
+#ifndef SHIBSP_LITE
+ log.info(
+ "Library versions: Xerces-C %s, XML-Security-C %s, XMLTooling-C %s, OpenSAML-C %s, Shibboleth %s",
+ XERCES_FULLVERSIONDOT, XSEC_FULLVERSIONDOT, XMLTOOLING_FULLVERSIONDOT, OPENSAML_FULLVERSIONDOT, SHIBSP_FULLVERSIONDOT
+ );
+#else
+ log.info(
+ "Library versions: Xerces-C %s, XMLTooling-C %s, Shibboleth %s",
+ XERCES_FULLVERSIONDOT, XMLTOOLING_FULLVERSIONDOT, SHIBSP_FULLVERSIONDOT
+ );
+#endif
+
// First load any property sets.
- load(e,log,this);
+ load(e,NULL,this);
const DOMElement* child;
string plugtype;
// Set clock skew.
pair<bool,unsigned int> skew=getUnsignedInt("clockSkew");
if (skew.first)
- xmlConf.clock_skew_secs=skew.second;
+ xmlConf.clock_skew_secs=min(skew.second,(60*60*24*7*28));
+
+ pair<bool,const char*> unsafe = getString("unsafeChars");
+ if (unsafe.first)
+ TemplateEngine::unsafe_chars = unsafe.second;
// Extensions
doExtensions(e, "global", log);
if (conf.isEnabled(SPConfig::InProcess))
doExtensions(SHIRE, "in process", log);
-
+
// Instantiate the ListenerService and SessionCache objects.
if (conf.isEnabled(SPConfig::Listener)) {
- child=XMLHelper::getFirstChildElement(SHAR,UnixListener);
+ child=XMLHelper::getFirstChildElement(e,UnixListener);
if (child)
plugtype=UNIX_LISTENER_SERVICE;
else {
- child=XMLHelper::getFirstChildElement(SHAR,TCPListener);
+ child=XMLHelper::getFirstChildElement(e,TCPListener);
if (child)
plugtype=TCP_LISTENER_SERVICE;
else {
- child=XMLHelper::getFirstChildElement(SHAR,MemoryListener);
- if (child)
- plugtype=MEMORY_LISTENER_SERVICE;
- else {
- child=XMLHelper::getFirstChildElement(SHAR,Listener);
- if (child) {
- auto_ptr_char type(child->getAttributeNS(NULL,_type));
- if (type.get())
- plugtype=type.get();
- }
+ child=XMLHelper::getFirstChildElement(e,Listener);
+ if (child) {
+ auto_ptr_char type(child->getAttributeNS(NULL,_type));
+ if (type.get())
+ plugtype=type.get();
}
}
}
if (child) {
log.info("building ListenerService of type %s...", plugtype.c_str());
- m_outer->m_listener = conf.ListenerServiceManager.newPlugin(plugtype.c_str(),child);
+ m_outer->m_listener = conf.ListenerServiceManager.newPlugin(plugtype.c_str(), child);
}
else {
log.fatal("can't build ListenerService, missing conf:Listener element?");
}
}
+#ifndef SHIBSP_LITE
if (m_outer->m_listener && conf.isEnabled(SPConfig::OutOfProcess) && !conf.isEnabled(SPConfig::InProcess)) {
- m_outer->m_listener->regListener("set::RelayState",m_outer->m_listener);
- m_outer->m_listener->regListener("get::RelayState",m_outer->m_listener);
+ m_outer->m_listener->regListener("set::RelayState", const_cast<XMLConfig*>(m_outer));
+ m_outer->m_listener->regListener("get::RelayState", const_cast<XMLConfig*>(m_outer));
+ m_outer->m_listener->regListener("set::PostData", const_cast<XMLConfig*>(m_outer));
+ m_outer->m_listener->regListener("get::PostData", const_cast<XMLConfig*>(m_outer));
}
+#endif
if (conf.isEnabled(SPConfig::Caching)) {
if (conf.isEnabled(SPConfig::OutOfProcess)) {
#ifndef SHIBSP_LITE
// First build any StorageServices.
- string inmemID;
- child=XMLHelper::getFirstChildElement(SHAR,_StorageService);
+ child=XMLHelper::getFirstChildElement(e,_StorageService);
while (child) {
auto_ptr_char id(child->getAttributeNS(NULL,_id));
auto_ptr_char type(child->getAttributeNS(NULL,_type));
try {
log.info("building StorageService (%s) of type %s...", id.get(), type.get());
m_outer->m_storage[id.get()] = xmlConf.StorageServiceManager.newPlugin(type.get(),child);
- if (!strcmp(type.get(),MEMORY_STORAGE_SERVICE))
- inmemID = id.get();
}
catch (exception& ex) {
log.crit("failed to instantiate StorageService (%s): %s", id.get(), ex.what());
}
child=XMLHelper::getNextSiblingElement(child,_StorageService);
}
-
- child=XMLHelper::getFirstChildElement(SHAR,_SessionCache);
- if (child) {
- auto_ptr_char type(child->getAttributeNS(NULL,_type));
- log.info("building SessionCache of type %s...",type.get());
- m_outer->m_sessionCache=conf.SessionCacheManager.newPlugin(type.get(),child);
- }
- else {
- log.warn("SessionCache unspecified, building SessionCache of type %s...",STORAGESERVICE_SESSION_CACHE);
- if (inmemID.empty()) {
- inmemID = "memory";
- log.info("no StorageServices configured, providing in-memory version for session cache");
- m_outer->m_storage[inmemID] = xmlConf.StorageServiceManager.newPlugin(MEMORY_STORAGE_SERVICE,NULL);
- }
- child = e->getOwnerDocument()->createElementNS(NULL,_SessionCache);
- auto_ptr_XMLCh ssid(inmemID.c_str());
- const_cast<DOMElement*>(child)->setAttributeNS(NULL,_StorageService,ssid.get());
- m_outer->m_sessionCache=conf.SessionCacheManager.newPlugin(STORAGESERVICE_SESSION_CACHE,child);
- }
// Replay cache.
StorageService* replaySS=NULL;
- child=XMLHelper::getFirstChildElement(SHAR,_ReplayCache);
+ child=XMLHelper::getFirstChildElement(e,_ReplayCache);
if (child) {
auto_ptr_char ssid(child->getAttributeNS(NULL,_StorageService));
if (ssid.get() && *ssid.get()) {
if (replaySS)
log.info("building ReplayCache on top of StorageService (%s)...", ssid.get());
else
- log.crit("unable to locate StorageService (%s) in configuration", ssid.get());
+ log.warn("unable to locate StorageService (%s) for ReplayCache, using dedicated in-memory instance", ssid.get());
}
+ xmlConf.setReplayCache(new ReplayCache(replaySS));
}
- if (!replaySS) {
- log.info("building ReplayCache using in-memory StorageService...");
- if (inmemID.empty()) {
- inmemID = "memory";
- log.info("no StorageServices configured, providing in-memory version for legacy config");
- m_outer->m_storage[inmemID] = xmlConf.StorageServiceManager.newPlugin(MEMORY_STORAGE_SERVICE,NULL);
- }
- replaySS = m_outer->m_storage[inmemID];
+ else {
+ log.warn("no ReplayCache built, missing conf:ReplayCache element?");
}
- xmlConf.setReplayCache(new ReplayCache(replaySS));
-
+
// ArtifactMap
- child=XMLHelper::getFirstChildElement(SHAR,_ArtifactMap);
+ child=XMLHelper::getFirstChildElement(e,_ArtifactMap);
if (child) {
auto_ptr_char ssid(child->getAttributeNS(NULL,_StorageService));
if (ssid.get() && *ssid.get() && m_outer->m_storage.count(ssid.get())) {
}
#endif
}
+ child=XMLHelper::getFirstChildElement(e,_SessionCache);
+ if (child) {
+ auto_ptr_char type(child->getAttributeNS(NULL,_type));
+ log.info("building SessionCache of type %s...",type.get());
+ m_outer->m_sessionCache=conf.SessionCacheManager.newPlugin(type.get(), child);
+ }
else {
- child=XMLHelper::getFirstChildElement(SHIRE,_SessionCache);
- if (child) {
- auto_ptr_char type(child->getAttributeNS(NULL,_type));
- log.info("building SessionCache of type %s...",type.get());
- m_outer->m_sessionCache=conf.SessionCacheManager.newPlugin(type.get(),child);
- }
- else {
- log.warn("SessionCache unspecified, building SessionCache of type %s...",REMOTED_SESSION_CACHE);
- m_outer->m_sessionCache=conf.SessionCacheManager.newPlugin(REMOTED_SESSION_CACHE,child);
- }
+ log.fatal("can't build SessionCache, missing conf:SessionCache element?");
+ throw ConfigurationException("Can't build SessionCache, missing conf:SessionCache element?");
}
}
} // end of first-time-only stuff
-
+
// Back to the fully dynamic stuff...next up is the RequestMapper.
if (conf.isEnabled(SPConfig::RequestMapping)) {
- child=XMLHelper::getFirstChildElement(SHIRE,_RequestMapper);
+ child=XMLHelper::getFirstChildElement(e,_RequestMapper);
if (child) {
auto_ptr_char type(child->getAttributeNS(NULL,_type));
log.info("building RequestMapper of type %s...",type.get());
m_requestMapper=conf.RequestMapperManager.newPlugin(type.get(),child);
}
+ else {
+ log.fatal("can't build RequestMapper, missing conf:RequestMapper element?");
+ throw ConfigurationException("Can't build RequestMapper, missing conf:RequestMapper element?");
+ }
}
-
+
#ifndef SHIBSP_LITE
// Load security policies.
child = XMLHelper::getLastChildElement(e,SecurityPolicies);
pair< PropertySet*,vector<const SecurityPolicyRule*> >& rules = m_policyMap[id.get()];
rules.first = NULL;
auto_ptr<DOMPropertySet> settings(new DOMPropertySet());
- settings->load(child, log, &filter);
+ settings->load(child, NULL, &filter);
rules.first = settings.release();
- const DOMElement* rule = XMLHelper::getFirstChildElement(child,Rule);
+
+ // Process PolicyRule elements.
+ const DOMElement* rule = XMLHelper::getFirstChildElement(child,PolicyRule);
while (rule) {
auto_ptr_char type(rule->getAttributeNS(NULL,_type));
try {
catch (exception& ex) {
log.crit("error instantiating policy rule (%s) in policy (%s): %s", type.get(), id.get(), ex.what());
}
- rule = XMLHelper::getNextSiblingElement(rule,Rule);
+ rule = XMLHelper::getNextSiblingElement(rule,PolicyRule);
+ }
+
+ if (rules.second.size() == 0) {
+ // Process Rule elements.
+ log.warn("detected legacy Policy configuration, please convert to new PolicyRule syntax");
+ rule = XMLHelper::getFirstChildElement(child,Rule);
+ while (rule) {
+ auto_ptr_char type(rule->getAttributeNS(NULL,_type));
+ try {
+ rules.second.push_back(samlConf.SecurityPolicyRuleManager.newPlugin(type.get(),rule));
+ }
+ catch (exception& ex) {
+ log.crit("error instantiating policy rule (%s) in policy (%s): %s", type.get(), id.get(), ex.what());
+ }
+ rule = XMLHelper::getNextSiblingElement(rule,Rule);
+ }
+
+ // Manually add a basic Conditions rule.
+ log.info("installing a default Conditions rule in policy (%s) for compatibility with legacy configuration", id.get());
+ rules.second.push_back(samlConf.SecurityPolicyRuleManager.newPlugin(CONDITIONS_POLICY_RULE, NULL));
}
+
child = XMLHelper::getNextSiblingElement(child,Policy);
}
}
+
+ // Process TransportOption elements.
+ child = XMLHelper::getLastChildElement(e,TransportOption);
+ while (child) {
+ if (child->hasChildNodes()) {
+ auto_ptr_char provider(child->getAttributeNS(NULL,_provider));
+ auto_ptr_char option(child->getAttributeNS(NULL,_option));
+ auto_ptr_char value(child->getFirstChild()->getNodeValue());
+ if (provider.get() && *provider.get() && option.get() && *option.get() && value.get() && *value.get()) {
+ m_transportOptions.push_back(make_pair(string(provider.get()), make_pair(string(option.get()), string(value.get()))));
+ }
+ }
+ child = XMLHelper::getPreviousSiblingElement(child,TransportOption);
+ }
#endif
// Load the default application. This actually has a fixed ID of "default". ;-)
- child=XMLHelper::getLastChildElement(e,Applications);
+ child=XMLHelper::getLastChildElement(e,ApplicationDefaults);
if (!child) {
- log.fatal("can't build default Application object, missing conf:Applications element?");
- throw ConfigurationException("can't build default Application object, missing conf:Applications element?");
+ log.fatal("can't build default Application object, missing conf:ApplicationDefaults element?");
+ throw ConfigurationException("can't build default Application object, missing conf:ApplicationDefaults element?");
}
XMLApplication* defapp=new XMLApplication(m_outer,child);
m_appmap[defapp->getId()]=defapp;
-
+
// Load any overrides.
- child = XMLHelper::getFirstChildElement(child,_Application);
+ child = XMLHelper::getFirstChildElement(child,ApplicationOverride);
while (child) {
auto_ptr<XMLApplication> iapp(new XMLApplication(m_outer,child,defapp));
if (m_appmap.count(iapp->getId()))
- log.crit("found conf:Application element with duplicate id attribute (%s), skipping it", iapp->getId());
- else
- m_appmap[iapp->getId()]=iapp.release();
+ log.crit("found conf:ApplicationOverride element with duplicate id attribute (%s), skipping it", iapp->getId());
+ else {
+ const char* iappid=iapp->getId();
+ m_appmap[iappid]=iapp.release();
+ }
- child = XMLHelper::getNextSiblingElement(child,_Application);
+ child = XMLHelper::getNextSiblingElement(child,ApplicationOverride);
}
}
catch (exception&) {
- this->~XMLConfigImpl();
- throw;
- }
-#ifndef _DEBUG
- catch (...) {
- this->~XMLConfigImpl();
+ cleanup();
throw;
}
-#endif
}
XMLConfigImpl::~XMLConfigImpl()
{
+ cleanup();
+}
+
+void XMLConfigImpl::cleanup()
+{
for_each(m_appmap.begin(),m_appmap.end(),cleanup_pair<string,Application>());
+ m_appmap.clear();
#ifndef SHIBSP_LITE
for (map< string,pair<PropertySet*,vector<const SecurityPolicyRule*> > >::iterator i=m_policyMap.begin(); i!=m_policyMap.end(); ++i) {
delete i->second.first;
for_each(i->second.second.begin(), i->second.second.end(), xmltooling::cleanup<SecurityPolicyRule>());
}
+ m_policyMap.clear();
#endif
delete m_requestMapper;
+ m_requestMapper = NULL;
if (m_document)
m_document->release();
+ m_document = NULL;
}
+#ifndef SHIBSP_LITE
void XMLConfig::receive(DDF& in, ostream& out)
{
-#ifndef SHIBSP_LITE
if (!strcmp(in.name(), "get::RelayState")) {
const char* id = in["id"].string();
const char* key = in["key"].string();
}
// Repack for return to caller.
- DDF ret=DDF(NULL).string(relayState.c_str());
+ DDF ret=DDF(NULL).unsafe_string(relayState.c_str());
DDFJanitor jret(ret);
out << ret;
}
DDFJanitor jret(ret);
out << ret;
}
-#endif
+ else if (!strcmp(in.name(), "get::PostData")) {
+ const char* id = in["id"].string();
+ const char* key = in["key"].string();
+ if (!id || !key)
+ throw ListenerException("Required parameters missing for PostData recovery.");
+
+ string postData;
+ StorageService* storage = getStorageService(id);
+ if (storage) {
+ if (storage->readString("PostData",key,&postData) > 0) {
+ storage->deleteString("PostData",key);
+ }
+ }
+ else {
+ Category::getInstance(SHIBSP_LOGCAT".ServiceProvider").error(
+ "Storage-backed PostData with invalid StorageService ID (%s)", id
+ );
+ }
+ // If the data's empty, we'll send nothing back.
+ // If not, we don't need to round trip it, just send back the serialized DDF list.
+ if (postData.empty()) {
+ DDF ret(NULL);
+ DDFJanitor jret(ret);
+ out << ret;
+ }
+ else {
+ out << postData;
+ }
+ }
+ else if (!strcmp(in.name(), "set::PostData")) {
+ const char* id = in["id"].string();
+ if (!id || !in["parameters"].islist())
+ throw ListenerException("Required parameters missing for PostData creation.");
+
+ string rsKey;
+ StorageService* storage = getStorageService(id);
+ if (storage) {
+ SAMLConfig::getConfig().generateRandomBytes(rsKey,20);
+ rsKey = SAMLArtifact::toHex(rsKey);
+ ostringstream params;
+ params << in["parameters"];
+ storage->createString("PostData", rsKey.c_str(), params.str().c_str(), time(NULL) + 600);
+ }
+ else {
+ Category::getInstance(SHIBSP_LOGCAT".ServiceProvider").error(
+ "Storage-backed PostData with invalid StorageService ID (%s)", id
+ );
+ }
+
+ // Repack for return to caller.
+ DDF ret=DDF(NULL).string(rsKey.c_str());
+ DDFJanitor jret(ret);
+ out << ret;
+ }
}
+#endif
pair<bool,DOMElement*> XMLConfig::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);
XMLConfigImpl* impl = new XMLConfigImpl(raw.second,(m_impl==NULL),this,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());