-/*
- * Copyright 2001-2007 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
+/**
+ * Licensed to the University Corporation for Advanced Internet
+ * Development, Inc. (UCAID) under one or more contributor license
+ * agreements. See the NOTICE file distributed with this work for
+ * additional information regarding copyright ownership.
+ *
+ * UCAID licenses this file to you 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
*
- * http://www.apache.org/licenses/LICENSE-2.0
+ * http://www.apache.org/licenses/LICENSE-2.0
*
- * Unless required by applicable law or agreed to in writing, software
- * distributed under the License is distributed on an "AS IS" BASIS,
- * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- * See the License for the specific language governing permissions and
- * limitations under the License.
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND,
+ * either express or implied. See the License for the specific
+ * language governing permissions and limitations under the License.
*/
/**
* QueryAttributeResolver.cpp
- *
+ *
* AttributeResolver based on SAML queries.
*/
#include "Application.h"
#include "ServiceProvider.h"
#include "SessionCache.h"
-#include "attribute/Attribute.h"
+#include "attribute/SimpleAttribute.h"
#include "attribute/filtering/AttributeFilter.h"
#include "attribute/filtering/BasicFilteringContext.h"
#include "attribute/resolver/AttributeExtractor.h"
#include "attribute/resolver/AttributeResolver.h"
#include "attribute/resolver/ResolutionContext.h"
#include "binding/SOAPClient.h"
+#include "metadata/MetadataProviderCriteria.h"
+#include "security/SecurityPolicy.h"
+#include "security/SecurityPolicyProvider.h"
#include "util/SPConstants.h"
+#include <boost/iterator/indirect_iterator.hpp>
+#include <boost/ptr_container/ptr_vector.hpp>
#include <saml/exceptions.h>
-#include <saml/binding/SecurityPolicy.h>
#include <saml/saml1/binding/SAML1SOAPClient.h>
#include <saml/saml1/core/Assertions.h>
#include <saml/saml1/core/Protocols.h>
-#include <saml/saml1/profile/AssertionValidator.h>
#include <saml/saml2/binding/SAML2SOAPClient.h>
#include <saml/saml2/core/Protocols.h>
#include <saml/saml2/metadata/Metadata.h>
+#include <saml/saml2/metadata/MetadataCredentialCriteria.h>
#include <saml/saml2/metadata/MetadataProvider.h>
-#include <saml/saml2/profile/AssertionValidator.h>
+#include <xmltooling/XMLToolingConfig.h>
#include <xmltooling/util/NDC.h>
+#include <xmltooling/util/URLEncoder.h>
#include <xmltooling/util/XMLHelper.h>
#include <xercesc/util/XMLUniDefs.hpp>
using namespace opensaml::saml2md;
using namespace opensaml;
using namespace xmltooling;
+using namespace boost;
using namespace std;
namespace shibsp {
{
public:
QueryContext(const Application& application, const Session& session)
- : m_query(true), m_app(application), m_session(&session), m_metadata(NULL), m_entity(NULL), m_nameid(NULL) {
+ : m_query(true), m_app(application), m_request(nullptr), m_session(&session), m_metadata(nullptr), m_entity(nullptr), m_nameid(nullptr) {
m_protocol = XMLString::transcode(session.getProtocol());
m_class = XMLString::transcode(session.getAuthnContextClassRef());
m_decl = XMLString::transcode(session.getAuthnContextDeclRef());
}
-
+
QueryContext(
const Application& application,
+ const GenericRequest* request,
const EntityDescriptor* issuer,
const XMLCh* protocol,
- const NameID* nameid,
- const XMLCh* authncontext_class=NULL,
- const XMLCh* authncontext_decl=NULL,
- const vector<const opensaml::Assertion*>* tokens=NULL,
- const vector<Attribute*>* attributes=NULL
- ) : m_query(true), m_app(application), m_session(NULL), m_metadata(NULL), m_entity(issuer),
+ const NameID* nameid=nullptr,
+ const XMLCh* authncontext_class=nullptr,
+ const XMLCh* authncontext_decl=nullptr,
+ const vector<const opensaml::Assertion*>* tokens=nullptr
+ ) : m_query(true), m_app(application), m_request(request), m_session(nullptr), m_metadata(nullptr), m_entity(issuer),
m_protocol(protocol), m_nameid(nameid), m_class(authncontext_class), m_decl(authncontext_decl) {
if (tokens) {
}
}
}
-
+
~QueryContext() {
if (m_session) {
XMLString::release((XMLCh**)&m_protocol);
for_each(m_attributes.begin(), m_attributes.end(), xmltooling::cleanup<shibsp::Attribute>());
for_each(m_assertions.begin(), m_assertions.end(), xmltooling::cleanup<opensaml::Assertion>());
}
-
+
bool doQuery() const {
return m_query;
}
const Application& getApplication() const {
return m_app;
}
+ const GenericRequest* getRequest() const {
+ return m_request;
+ }
const EntityDescriptor* getEntityDescriptor() const {
if (m_entity)
return m_entity;
if (m_session && m_session->getEntityID()) {
- m_metadata = m_app.getMetadataProvider();
+ m_metadata = m_app.getMetadataProvider(false);
if (m_metadata) {
m_metadata->lock();
- return m_entity = m_metadata->getEntityDescriptor(m_session->getEntityID());
+ return m_entity = m_metadata->getEntityDescriptor(MetadataProviderCriteria(m_app, m_session->getEntityID())).first;
}
}
- return NULL;
+ return nullptr;
}
const XMLCh* getProtocol() const {
return m_protocol;
private:
bool m_query;
const Application& m_app;
+ const GenericRequest* m_request;
const Session* m_session;
mutable MetadataProvider* m_metadata;
mutable const EntityDescriptor* m_entity;
vector<shibsp::Attribute*> m_attributes;
vector<opensaml::Assertion*> m_assertions;
};
-
+
class SHIBSP_DLLLOCAL QueryResolver : public AttributeResolver
{
public:
QueryResolver(const DOMElement* e);
- ~QueryResolver() {
- for_each(m_SAML1Designators.begin(), m_SAML1Designators.end(), xmltooling::cleanup<AttributeDesignator>());
- for_each(m_SAML2Designators.begin(), m_SAML2Designators.end(), xmltooling::cleanup<saml2::Attribute>());
- }
+ ~QueryResolver() {}
Lockable* lock() {return this;}
void unlock() {}
-
+
+ // deprecated method
ResolutionContext* createResolutionContext(
const Application& application,
const EntityDescriptor* issuer,
const XMLCh* protocol,
- const NameID* nameid,
- const XMLCh* authncontext_class=NULL,
- const XMLCh* authncontext_decl=NULL,
- const vector<const opensaml::Assertion*>* tokens=NULL,
- const vector<shibsp::Attribute*>* attributes=NULL
+ const NameID* nameid=nullptr,
+ const XMLCh* authncontext_class=nullptr,
+ const XMLCh* authncontext_decl=nullptr,
+ const vector<const opensaml::Assertion*>* tokens=nullptr,
+ const vector<shibsp::Attribute*>* attributes=nullptr
) const {
- return new QueryContext(application,issuer,protocol,nameid,authncontext_class,authncontext_decl,tokens,attributes);
+ return createResolutionContext(application, nullptr, issuer, protocol, nameid, authncontext_class, authncontext_decl, tokens);
+ }
+
+ ResolutionContext* createResolutionContext(
+ const Application& application,
+ const GenericRequest* request,
+ const EntityDescriptor* issuer,
+ const XMLCh* protocol,
+ const NameID* nameid=nullptr,
+ const XMLCh* authncontext_class=nullptr,
+ const XMLCh* authncontext_decl=nullptr,
+ const vector<const opensaml::Assertion*>* tokens=nullptr,
+ const vector<shibsp::Attribute*>* attributes=nullptr
+ ) const {
+ return new QueryContext(application, request, issuer, protocol, nameid, authncontext_class, authncontext_decl, tokens);
}
ResolutionContext* createResolutionContext(const Application& application, const Session& session) const {
}
private:
- bool SAML1Query(QueryContext& ctx) const;
- bool SAML2Query(QueryContext& ctx) const;
+ void SAML1Query(QueryContext& ctx) const;
+ void SAML2Query(QueryContext& ctx) const;
Category& m_log;
- vector<AttributeDesignator*> m_SAML1Designators;
- vector<saml2::Attribute*> m_SAML2Designators;
+ string m_policyId;
+ bool m_subjectMatch;
+ ptr_vector<AttributeDesignator> m_SAML1Designators;
+ ptr_vector<saml2::Attribute> m_SAML2Designators;
+ vector<string> m_exceptionId;
};
AttributeResolver* SHIBSP_DLLLOCAL QueryResolverFactory(const DOMElement* const & e)
{
return new QueryResolver(e);
}
-
-};
-void SHIBSP_API shibsp::registerAttributeResolvers()
-{
- SPConfig::getConfig().AttributeResolverManager.registerFactory(QUERY_ATTRIBUTE_RESOLVER, QueryResolverFactory);
-}
+ static const XMLCh exceptionId[] = UNICODE_LITERAL_11(e,x,c,e,p,t,i,o,n,I,d);
+ static const XMLCh policyId[] = UNICODE_LITERAL_8(p,o,l,i,c,y,I,d);
+ static const XMLCh subjectMatch[] = UNICODE_LITERAL_12(s,u,b,j,e,c,t,M,a,t,c,h);
+};
-QueryResolver::QueryResolver(const DOMElement* e) : m_log(Category::getInstance(SHIBSP_LOGCAT".AttributeResolver"))
+QueryResolver::QueryResolver(const DOMElement* e)
+ : m_log(Category::getInstance(SHIBSP_LOGCAT ".AttributeResolver.Query")),
+ m_policyId(XMLHelper::getAttrString(e, nullptr, policyId)),
+ m_subjectMatch(XMLHelper::getAttrBool(e, false, subjectMatch))
{
#ifdef _DEBUG
xmltooling::NDC ndc("QueryResolver");
#endif
-
+
DOMElement* child = XMLHelper::getFirstChildElement(e);
while (child) {
try {
- if (XMLHelper::isNodeNamed(e, samlconstants::SAML20_NS, saml2::Attribute::LOCAL_NAME)) {
+ if (XMLHelper::isNodeNamed(child, samlconstants::SAML20_NS, saml2::Attribute::LOCAL_NAME)) {
auto_ptr<XMLObject> obj(saml2::AttributeBuilder::buildOneFromElement(child));
saml2::Attribute* down = dynamic_cast<saml2::Attribute*>(obj.get());
if (down) {
obj.release();
}
}
- else if (XMLHelper::isNodeNamed(e, samlconstants::SAML1P_NS, AttributeDesignator::LOCAL_NAME)) {
+ else if (XMLHelper::isNodeNamed(child, samlconstants::SAML1_NS, AttributeDesignator::LOCAL_NAME)) {
auto_ptr<XMLObject> obj(AttributeDesignatorBuilder::buildOneFromElement(child));
AttributeDesignator* down = dynamic_cast<AttributeDesignator*>(obj.get());
if (down) {
}
child = XMLHelper::getNextSiblingElement(child);
}
+
+ string exid(XMLHelper::getAttrString(e, nullptr, exceptionId));
+ if (!exid.empty())
+ m_exceptionId.push_back(exid);
}
-bool QueryResolver::SAML1Query(QueryContext& ctx) const
+void QueryResolver::SAML1Query(QueryContext& ctx) const
{
#ifdef _DEBUG
xmltooling::NDC ndc("query");
#endif
int version = XMLString::equals(ctx.getProtocol(), samlconstants::SAML11_PROTOCOL_ENUM) ? 1 : 0;
- const AttributeAuthorityDescriptor* AA = ctx.getEntityDescriptor()->getAttributeAuthorityDescriptor(ctx.getProtocol());
+ const AttributeAuthorityDescriptor* AA =
+ find_if(ctx.getEntityDescriptor()->getAttributeAuthorityDescriptors(), isValidForProtocol(ctx.getProtocol()));
if (!AA) {
m_log.warn("no SAML 1.%d AttributeAuthority role found in metadata", version);
- return false;
+ return;
}
- shibsp::SecurityPolicy policy(ctx.getApplication());
+ const Application& application = ctx.getApplication();
+ const PropertySet* relyingParty = application.getRelyingParty(ctx.getEntityDescriptor());
+
+ // Locate policy key.
+ const char* policyId = m_policyId.empty() ? application.getString("policyId").second : m_policyId.c_str();
+
+ // Set up policy and SOAP client.
+ scoped_ptr<SecurityPolicy> policy(
+ application.getServiceProvider().getSecurityPolicyProvider()->createSecurityPolicy(application, nullptr, policyId)
+ );
+ policy->getAudiences().push_back(relyingParty->getXMLString("entityID").second);
MetadataCredentialCriteria mcc(*AA);
- shibsp::SOAPClient soaper(policy);
- const PropertySet* policySettings =
- ctx.getApplication().getServiceProvider().getPolicySettings(ctx.getApplication().getString("policyId").second);
- pair<bool,bool> signedAssertions = policySettings->getBool("signedAssertions");
+ shibsp::SOAPClient soaper(*policy);
auto_ptr_XMLCh binding(samlconstants::SAML1_BINDING_SOAP);
- saml1p::Response* response=NULL;
+ auto_ptr<saml1p::Response> response;
const vector<AttributeService*>& endpoints=AA->getAttributeServices();
- for (vector<AttributeService*>::const_iterator ep=endpoints.begin(); !response && ep!=endpoints.end(); ++ep) {
+ for (indirect_iterator<vector<AttributeService*>::const_iterator> ep = make_indirect_iterator(endpoints.begin());
+ !response.get() && ep != make_indirect_iterator(endpoints.end()); ++ep) {
+ if (!XMLString::equals(ep->getBinding(), binding.get()) || !ep->getLocation())
+ continue;
+ auto_ptr_char loc(ep->getLocation());
try {
- if (!XMLString::equals((*ep)->getBinding(),binding.get()))
- continue;
- auto_ptr_char loc((*ep)->getLocation());
- auto_ptr_XMLCh issuer(ctx.getApplication().getString("entityID").second);
NameIdentifier* nameid = NameIdentifierBuilder::buildNameIdentifier();
nameid->setName(ctx.getNameID()->getName());
nameid->setFormat(ctx.getNameID()->getFormat());
subject->setNameIdentifier(nameid);
saml1p::AttributeQuery* query = saml1p::AttributeQueryBuilder::buildAttributeQuery();
query->setSubject(subject);
- query->setResource(issuer.get());
- for (vector<AttributeDesignator*>::const_iterator ad = m_SAML1Designators.begin(); ad!=m_SAML1Designators.end(); ++ad)
- query->getAttributeDesignators().push_back((*ad)->cloneAttributeDesignator());
+ query->setResource(relyingParty->getXMLString("entityID").second);
+ for (ptr_vector<AttributeDesignator>::const_iterator ad = m_SAML1Designators.begin(); ad != m_SAML1Designators.end(); ++ad) {
+ auto_ptr<AttributeDesignator> adwrapper(ad->cloneAttributeDesignator());
+ query->getAttributeDesignators().push_back(adwrapper.get());
+ adwrapper.release();
+ }
Request* request = RequestBuilder::buildRequest();
request->setAttributeQuery(query);
request->setMinorVersion(version);
SAML1SOAPClient client(soaper, false);
- client.sendSAML(request, mcc, loc.get());
- response = client.receiveSAML();
+ client.sendSAML(request, application.getId(), mcc, loc.get());
+ response.reset(client.receiveSAML());
}
catch (exception& ex) {
- m_log.error("exception making SAML query: %s", ex.what());
+ m_log.error("exception during SAML query to %s: %s", loc.get(), ex.what());
soaper.reset();
}
}
- if (!response) {
+ if (!response.get()) {
m_log.error("unable to obtain a SAML response from attribute authority");
- return false;
+ throw BindingException("Unable to obtain a SAML response from attribute authority.");
}
- else if (!response->getStatus() || !response->getStatus()->getStatusCode() || response->getStatus()->getStatusCode()->getValue()==NULL ||
+ else if (!response->getStatus() || !response->getStatus()->getStatusCode() || response->getStatus()->getStatusCode()->getValue()==nullptr ||
*(response->getStatus()->getStatusCode()->getValue()) != saml1p::StatusCode::SUCCESS) {
- delete response;
m_log.error("attribute authority returned a SAML error");
- return true;
+ throw FatalProfileException("Attribute authority returned a SAML error.");
}
- const vector<saml1::Assertion*>& assertions = const_cast<const saml1p::Response*>(response)->getAssertions();
+ const vector<saml1::Assertion*>& assertions = const_cast<const saml1p::Response*>(response.get())->getAssertions();
if (assertions.empty()) {
- delete response;
m_log.warn("response from attribute authority was empty");
- return true;
+ return;
}
- else if (assertions.size()>1)
+ else if (assertions.size() > 1) {
m_log.warn("simple resolver only supports one assertion in the query response");
+ }
- auto_ptr<saml1p::Response> wrapper(response);
saml1::Assertion* newtoken = assertions.front();
+ pair<bool,bool> signedAssertions = relyingParty->getBool("requireSignedAssertions");
if (!newtoken->getSignature() && signedAssertions.first && signedAssertions.second) {
m_log.error("assertion unsigned, rejecting it based on signedAssertions policy");
- return true;
+ throw SecurityPolicyException("Rejected unsigned assertion based on local policy.");
}
try {
- policy.evaluate(*newtoken);
- if (!policy.isSecure())
+ // We're going to insist that the assertion issuer is the same as the peer.
+ // Reset the policy's message bits and extract them from the assertion.
+ policy->reset(true);
+ policy->setMessageID(newtoken->getAssertionID());
+ policy->setIssueInstant(newtoken->getIssueInstantEpoch());
+ policy->setIssuer(newtoken->getIssuer());
+ policy->evaluate(*newtoken);
+
+ // Now we can check the security status of the policy.
+ if (!policy->isAuthenticated())
throw SecurityPolicyException("Security of SAML 1.x query result not established.");
- saml1::AssertionValidator tokval(ctx.getApplication().getAudiences(), time(NULL));
- tokval.validateAssertion(*newtoken);
}
catch (exception& ex) {
- m_log.error("assertion failed policy/validation: %s", ex.what());
- return true;
+ m_log.error("assertion failed policy validation: %s", ex.what());
+ throw;
}
newtoken->detach();
- wrapper.release();
+ response.release(); // detach blows away the Response
ctx.getResolvedAssertions().push_back(newtoken);
// Finally, extract and filter the result.
try {
- AttributeExtractor* extractor = ctx.getApplication().getAttributeExtractor();
+ AttributeExtractor* extractor = application.getAttributeExtractor();
if (extractor) {
Locker extlocker(extractor);
- extractor->extractAttributes(ctx.getApplication(), AA, *newtoken, ctx.getResolvedAttributes());
+ const vector<saml1::AttributeStatement*>& statements = const_cast<const saml1::Assertion*>(newtoken)->getAttributeStatements();
+ for (indirect_iterator<vector<saml1::AttributeStatement*>::const_iterator> s = make_indirect_iterator(statements.begin());
+ s != make_indirect_iterator(statements.end()); ++s) {
+ if (m_subjectMatch) {
+ // Check for subject match.
+ const NameIdentifier* respName = s->getSubject() ? s->getSubject()->getNameIdentifier() : nullptr;
+ if (!respName || !XMLString::equals(respName->getName(), ctx.getNameID()->getName()) ||
+ !XMLString::equals(respName->getFormat(), ctx.getNameID()->getFormat()) ||
+ !XMLString::equals(respName->getNameQualifier(), ctx.getNameID()->getNameQualifier())) {
+ if (respName)
+ m_log.warnStream() << "ignoring AttributeStatement without strongly matching NameIdentifier in Subject: " <<
+ *respName << logging::eol;
+ else
+ m_log.warn("ignoring AttributeStatement without NameIdentifier in Subject");
+ continue;
+ }
+ }
+ extractor->extractAttributes(application, ctx.getRequest(), AA, *s, ctx.getResolvedAttributes());
+ }
}
- AttributeFilter* filter = ctx.getApplication().getAttributeFilter();
+ AttributeFilter* filter = application.getAttributeFilter();
if (filter) {
- BasicFilteringContext fc(ctx.getApplication(), ctx.getResolvedAttributes(), AA, ctx.getClassRef(), ctx.getDeclRef());
+ BasicFilteringContext fc(application, ctx.getResolvedAttributes(), AA, ctx.getClassRef(), ctx.getDeclRef());
Locker filtlocker(filter);
filter->filterAttributes(fc, ctx.getResolvedAttributes());
}
m_log.error("caught exception extracting/filtering attributes from query result: %s", ex.what());
for_each(ctx.getResolvedAttributes().begin(), ctx.getResolvedAttributes().end(), xmltooling::cleanup<shibsp::Attribute>());
ctx.getResolvedAttributes().clear();
+ throw;
}
-
- return true;
}
-bool QueryResolver::SAML2Query(QueryContext& ctx) const
+void QueryResolver::SAML2Query(QueryContext& ctx) const
{
#ifdef _DEBUG
xmltooling::NDC ndc("query");
#endif
- const AttributeAuthorityDescriptor* AA = ctx.getEntityDescriptor()->getAttributeAuthorityDescriptor(samlconstants::SAML20P_NS);
+ const AttributeAuthorityDescriptor* AA =
+ find_if(ctx.getEntityDescriptor()->getAttributeAuthorityDescriptors(), isValidForProtocol(samlconstants::SAML20P_NS));
if (!AA) {
m_log.warn("no SAML 2 AttributeAuthority role found in metadata");
- return false;
+ return;
}
- shibsp::SecurityPolicy policy(ctx.getApplication());
- MetadataCredentialCriteria mcc(*AA);
- shibsp::SOAPClient soaper(policy);
- const PropertySet* policySettings =
- ctx.getApplication().getServiceProvider().getPolicySettings(ctx.getApplication().getString("policyId").second);
- pair<bool,bool> signedAssertions = policySettings->getBool("signedAssertions");
-
- const PropertySet* relyingParty = ctx.getApplication().getRelyingParty(ctx.getEntityDescriptor());
+ const Application& application = ctx.getApplication();
+ const PropertySet* relyingParty = application.getRelyingParty(ctx.getEntityDescriptor());
+ pair<bool,bool> signedAssertions = relyingParty->getBool("requireSignedAssertions");
pair<bool,const char*> encryption = relyingParty->getString("encryption");
+ // Locate policy key.
+ const char* policyId = m_policyId.empty() ? application.getString("policyId").second : m_policyId.c_str();
+
+ // Set up policy and SOAP client.
+ scoped_ptr<SecurityPolicy> policy(
+ application.getServiceProvider().getSecurityPolicyProvider()->createSecurityPolicy(application, nullptr, policyId)
+ );
+ policy->getAudiences().push_back(relyingParty->getXMLString("entityID").second);
+ MetadataCredentialCriteria mcc(*AA);
+ shibsp::SOAPClient soaper(*policy);
+
auto_ptr_XMLCh binding(samlconstants::SAML20_BINDING_SOAP);
- saml2p::StatusResponseType* srt=NULL;
+ auto_ptr<saml2p::StatusResponseType> srt;
const vector<AttributeService*>& endpoints=AA->getAttributeServices();
- for (vector<AttributeService*>::const_iterator ep=endpoints.begin(); !srt && ep!=endpoints.end(); ++ep) {
+ for (indirect_iterator<vector<AttributeService*>::const_iterator> ep = make_indirect_iterator(endpoints.begin());
+ !srt.get() && ep != make_indirect_iterator(endpoints.end()); ++ep) {
+ if (!XMLString::equals(ep->getBinding(), binding.get()) || !ep->getLocation())
+ continue;
+ auto_ptr_char loc(ep->getLocation());
try {
- if (!XMLString::equals((*ep)->getBinding(),binding.get()))
- continue;
- auto_ptr_char loc((*ep)->getLocation());
- auto_ptr_XMLCh issuer(ctx.getApplication().getString("entityID").second);
-
auto_ptr<saml2::Subject> subject(saml2::SubjectBuilder::buildSubject());
// Encrypt the NameID?
if (encryption.first && (!strcmp(encryption.second, "true") || !strcmp(encryption.second, "back"))) {
auto_ptr<EncryptedID> encrypted(EncryptedIDBuilder::buildEncryptedID());
- MetadataCredentialCriteria mcc(*AA);
encrypted->encrypt(
*ctx.getNameID(),
- *(ctx.getApplication().getMetadataProvider()),
+ *(application.getMetadataProvider()),
mcc,
false,
relyingParty->getXMLString("encryptionAlg").second
);
- subject->setEncryptedID(encrypted.release());
+ subject->setEncryptedID(encrypted.get());
+ encrypted.release();
}
else {
- subject->setNameID(ctx.getNameID()->cloneNameID());
+ auto_ptr<NameID> namewrapper(ctx.getNameID()->cloneNameID());
+ subject->setNameID(namewrapper.get());
+ namewrapper.release();
}
saml2p::AttributeQuery* query = saml2p::AttributeQueryBuilder::buildAttributeQuery();
query->setSubject(subject.release());
Issuer* iss = IssuerBuilder::buildIssuer();
- iss->setName(issuer.get());
+ iss->setName(relyingParty->getXMLString("entityID").second);
query->setIssuer(iss);
- for (vector<saml2::Attribute*>::const_iterator ad = m_SAML2Designators.begin(); ad!=m_SAML2Designators.end(); ++ad)
- query->getAttributes().push_back((*ad)->cloneAttribute());
+ for (ptr_vector<saml2::Attribute>::const_iterator ad = m_SAML2Designators.begin(); ad != m_SAML2Designators.end(); ++ad) {
+ auto_ptr<saml2::Attribute> adwrapper(ad->cloneAttribute());
+ query->getAttributes().push_back(adwrapper.get());
+ adwrapper.release();
+ }
SAML2SOAPClient client(soaper, false);
- client.sendSAML(query, mcc, loc.get());
- srt = client.receiveSAML();
+ client.sendSAML(query, application.getId(), mcc, loc.get());
+ srt.reset(client.receiveSAML());
}
catch (exception& ex) {
- m_log.error("exception making SAML query: %s", ex.what());
+ m_log.error("exception during SAML query to %s: %s", loc.get(), ex.what());
soaper.reset();
}
}
- if (!srt) {
+ if (!srt.get()) {
m_log.error("unable to obtain a SAML response from attribute authority");
- return false;
+ throw BindingException("Unable to obtain a SAML response from attribute authority.");
}
- saml2p::Response* response = dynamic_cast<saml2p::Response*>(srt);
+
+ saml2p::Response* response = dynamic_cast<saml2p::Response*>(srt.get());
if (!response) {
- delete srt;
m_log.error("message was not a samlp:Response");
- return true;
+ throw FatalProfileException("Attribute authority returned an unrecognized message.");
}
else if (!response->getStatus() || !response->getStatus()->getStatusCode() ||
!XMLString::equals(response->getStatus()->getStatusCode()->getValue(), saml2p::StatusCode::SUCCESS)) {
- delete srt;
m_log.error("attribute authority returned a SAML error");
- return true;
+ throw FatalProfileException("Attribute authority returned a SAML error.");
}
+ saml2::Assertion* newtoken = nullptr;
+ auto_ptr<saml2::Assertion> newtokenwrapper;
const vector<saml2::Assertion*>& assertions = const_cast<const saml2p::Response*>(response)->getAssertions();
if (assertions.empty()) {
- delete srt;
- m_log.warn("response from attribute authority was empty");
- return true;
- }
- else if (assertions.size()>1)
- m_log.warn("simple resolver only supports one assertion in the query response");
+ // Check for encryption.
+ const vector<saml2::EncryptedAssertion*>& encassertions = const_cast<const saml2p::Response*>(response)->getEncryptedAssertions();
+ if (encassertions.empty()) {
+ m_log.warn("response from attribute authority was empty");
+ return;
+ }
+ else if (encassertions.size() > 1) {
+ m_log.warn("simple resolver only supports one assertion in the query response");
+ }
+
+ CredentialResolver* cr = application.getCredentialResolver();
+ if (!cr) {
+ m_log.warn("found encrypted assertion, but no CredentialResolver was available");
+ throw FatalProfileException("Assertion was encrypted, but no decryption credentials are available.");
+ }
+
+ // With this flag on, we block unauthenticated ciphertext when decrypting,
+ // unless the protocol was authenticated.
+ pair<bool,bool> authenticatedCipher = application.getBool("requireAuthenticatedEncryption");
+ if (policy->isAuthenticated())
+ authenticatedCipher.second = false;
- auto_ptr<saml2p::StatusResponseType> wrapper(srt);
- saml2::Assertion* newtoken = assertions.front();
+ // Attempt to decrypt it.
+ try {
+ Locker credlocker(cr);
+ auto_ptr<XMLObject> tokenwrapper(
+ encassertions.front()->decrypt(
+ *cr, relyingParty->getXMLString("entityID").second, &mcc, authenticatedCipher.first && authenticatedCipher.second
+ )
+ );
+ newtoken = dynamic_cast<saml2::Assertion*>(tokenwrapper.get());
+ if (newtoken) {
+ tokenwrapper.release();
+ newtokenwrapper.reset(newtoken);
+ if (m_log.isDebugEnabled())
+ m_log.debugStream() << "decrypted assertion: " << *newtoken << logging::eol;
+ }
+ }
+ catch (exception& ex) {
+ m_log.error("failed to decrypt assertion: %s", ex.what());
+ throw;
+ }
+ }
+ else {
+ if (assertions.size() > 1)
+ m_log.warn("simple resolver only supports one assertion in the query response");
+ newtoken = assertions.front();
+ }
if (!newtoken->getSignature() && signedAssertions.first && signedAssertions.second) {
m_log.error("assertion unsigned, rejecting it based on signedAssertions policy");
- return true;
+ throw SecurityPolicyException("Rejected unsigned assertion based on local policy.");
}
try {
- policy.evaluate(*newtoken);
- if (!policy.isSecure())
+ // We're going to insist that the assertion issuer is the same as the peer.
+ // Reset the policy's message bits and extract them from the assertion.
+ policy->reset(true);
+ policy->setMessageID(newtoken->getID());
+ policy->setIssueInstant(newtoken->getIssueInstantEpoch());
+ policy->setIssuer(newtoken->getIssuer());
+ policy->evaluate(*newtoken);
+
+ // Now we can check the security status of the policy.
+ if (!policy->isAuthenticated())
throw SecurityPolicyException("Security of SAML 2.0 query result not established.");
- saml2::AssertionValidator tokval(ctx.getApplication().getAudiences(), time(NULL));
- tokval.validateAssertion(*newtoken);
+
+ if (m_subjectMatch) {
+ // Check for subject match.
+ auto_ptr<NameID> nameIDwrapper;
+ NameID* respName = newtoken->getSubject() ? newtoken->getSubject()->getNameID() : nullptr;
+ if (!respName) {
+ // Check for encryption.
+ EncryptedID* encname = newtoken->getSubject() ? newtoken->getSubject()->getEncryptedID() : nullptr;
+ if (encname) {
+ CredentialResolver* cr=application.getCredentialResolver();
+ if (!cr)
+ m_log.warn("found EncryptedID, but no CredentialResolver was available");
+ else {
+ Locker credlocker(cr);
+ auto_ptr<XMLObject> decryptedID(encname->decrypt(*cr, relyingParty->getXMLString("entityID").second, &mcc));
+ respName = dynamic_cast<NameID*>(decryptedID.get());
+ if (respName) {
+ decryptedID.release();
+ nameIDwrapper.reset(respName);
+ if (m_log.isDebugEnabled())
+ m_log.debugStream() << "decrypted NameID: " << *respName << logging::eol;
+ }
+ }
+ }
+ }
+
+ if (!respName || !XMLString::equals(respName->getName(), ctx.getNameID()->getName()) ||
+ !XMLString::equals(respName->getFormat(), ctx.getNameID()->getFormat()) ||
+ !XMLString::equals(respName->getNameQualifier(), ctx.getNameID()->getNameQualifier()) ||
+ !XMLString::equals(respName->getSPNameQualifier(), ctx.getNameID()->getSPNameQualifier())) {
+ if (respName)
+ m_log.warnStream() << "ignoring Assertion without strongly matching NameID in Subject: " <<
+ *respName << logging::eol;
+ else
+ m_log.warn("ignoring Assertion without NameID in Subject");
+ return;
+ }
+ }
}
catch (exception& ex) {
- m_log.error("assertion failed policy/validation: %s", ex.what());
- return true;
+ m_log.error("assertion failed policy validation: %s", ex.what());
+ throw;
}
- newtoken->detach();
- wrapper.release();
+ // If the token's embedded, detach it.
+ if (!newtokenwrapper.get()) {
+ newtoken->detach();
+ srt.release(); // detach blows away the Response, so avoid a double free
+ newtokenwrapper.reset(newtoken);
+ }
ctx.getResolvedAssertions().push_back(newtoken);
+ newtokenwrapper.release();
// Finally, extract and filter the result.
try {
- AttributeExtractor* extractor = ctx.getApplication().getAttributeExtractor();
+ AttributeExtractor* extractor = application.getAttributeExtractor();
if (extractor) {
Locker extlocker(extractor);
- extractor->extractAttributes(ctx.getApplication(), AA, *newtoken, ctx.getResolvedAttributes());
+ extractor->extractAttributes(application, ctx.getRequest(), AA, *newtoken, ctx.getResolvedAttributes());
}
- AttributeFilter* filter = ctx.getApplication().getAttributeFilter();
+ AttributeFilter* filter = application.getAttributeFilter();
if (filter) {
- BasicFilteringContext fc(ctx.getApplication(), ctx.getResolvedAttributes(), AA, ctx.getClassRef(), ctx.getDeclRef());
+ BasicFilteringContext fc(application, ctx.getResolvedAttributes(), AA, ctx.getClassRef(), ctx.getDeclRef());
Locker filtlocker(filter);
filter->filterAttributes(fc, ctx.getResolvedAttributes());
}
m_log.error("caught exception extracting/filtering attributes from query result: %s", ex.what());
for_each(ctx.getResolvedAttributes().begin(), ctx.getResolvedAttributes().end(), xmltooling::cleanup<shibsp::Attribute>());
ctx.getResolvedAttributes().clear();
+ throw;
}
-
- return true;
}
void QueryResolver::resolveAttributes(ResolutionContext& ctx) const
return;
}
- if (qctx.getNameID() && qctx.getEntityDescriptor()) {
- if (XMLString::equals(qctx.getProtocol(), samlconstants::SAML20P_NS)) {
- m_log.debug("attempting SAML 2.0 attribute query");
- SAML2Query(qctx);
+ try {
+ if (qctx.getNameID() && qctx.getEntityDescriptor()) {
+ if (XMLString::equals(qctx.getProtocol(), samlconstants::SAML20P_NS)) {
+ m_log.debug("attempting SAML 2.0 attribute query");
+ SAML2Query(qctx);
+ }
+ else if (XMLString::equals(qctx.getProtocol(), samlconstants::SAML11_PROTOCOL_ENUM) ||
+ XMLString::equals(qctx.getProtocol(), samlconstants::SAML10_PROTOCOL_ENUM)) {
+ m_log.debug("attempting SAML 1.x attribute query");
+ SAML1Query(qctx);
+ }
+ else {
+ m_log.info("SSO protocol does not allow for attribute query");
+ }
+ }
+ else {
+ m_log.warn("can't attempt attribute query, either no NameID or no metadata to use");
}
- else if (XMLString::equals(qctx.getProtocol(), samlconstants::SAML11_PROTOCOL_ENUM) ||
- XMLString::equals(qctx.getProtocol(), samlconstants::SAML10_PROTOCOL_ENUM)) {
- m_log.debug("attempting SAML 1.x attribute query");
- SAML1Query(qctx);
+ }
+ catch (exception& ex) {
+ // Already logged.
+ if (!m_exceptionId.empty()) {
+ auto_ptr<SimpleAttribute> attr(new SimpleAttribute(m_exceptionId));
+ attr->getValues().push_back(XMLToolingConfig::getConfig().getURLEncoder()->encode(ex.what()));
+ qctx.getResolvedAttributes().push_back(attr.get());
+ attr.release();
}
- else
- m_log.warn("SSO protocol does not allow for attribute query");
}
- else
- m_log.warn("can't attempt attribute query, either no NameID or no metadata to use");
}