-/*
- * 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.
*/
/**
* SignatureMetadataFilter.cpp
- *
+ *
* Filters out unsigned or mis-signed elements.
*/
#include "saml2/metadata/MetadataFilter.h"
#include "signature/SignatureProfileValidator.h"
-#include <log4cpp/Category.hh>
-
-#include <xmltooling/util/NDC.h>
+#include <xmltooling/logging.h>
+#include <xmltooling/XMLToolingConfig.h>
+#include <xmltooling/security/Credential.h>
+#include <xmltooling/security/CredentialCriteria.h>
+#include <xmltooling/security/CredentialResolver.h>
+#include <xmltooling/security/SignatureTrustEngine.h>
+#include <xmltooling/signature/Signature.h>
#include <xmltooling/signature/SignatureValidator.h>
+#include <xmltooling/util/NDC.h>
using namespace opensaml::saml2md;
using namespace opensaml;
using namespace xmlsignature;
+using namespace xmltooling::logging;
using namespace xmltooling;
-using namespace log4cpp;
using namespace std;
namespace opensaml {
namespace saml2md {
-
+
class SAML_DLLLOCAL SignatureMetadataFilter : public MetadataFilter
{
public:
SignatureMetadataFilter(const DOMElement* e);
- ~SignatureMetadataFilter() {
- delete m_sigValidator;
- }
-
+ ~SignatureMetadataFilter() {}
+
const char* getId() const { return SIGNATURE_METADATA_FILTER; }
void doFilter(XMLObject& xmlObject) const;
private:
void doFilter(EntitiesDescriptor& entities, bool rootObject=false) const;
- void verifySignature(Signature* sig) const {
- if (sig) {
- m_profileValidator.validate(sig);
- m_sigValidator->validate(sig);
- }
- }
-
+ void doFilter(EntityDescriptor& entity, bool rootObject=false) const;
+ void verifySignature(Signature* sig, const XMLCh* peerName) const;
+
+ bool m_verifyRoles,m_verifyName;
+ auto_ptr<CredentialResolver> m_credResolver,m_dummyResolver;
+ auto_ptr<SignatureTrustEngine> m_trust;
SignatureProfileValidator m_profileValidator;
- SignatureValidator* m_sigValidator;
- };
+ Category& m_log;
+ };
MetadataFilter* SAML_DLLLOCAL SignatureMetadataFilterFactory(const DOMElement* const & e)
{
};
};
-static const XMLCh GenericKeyResolver[] = UNICODE_LITERAL_11(K,e,y,R,e,s,o,l,v,e,r);
+static const XMLCh _TrustEngine[] = UNICODE_LITERAL_11(T,r,u,s,t,E,n,g,i,n,e);
+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 type[] = UNICODE_LITERAL_4(t,y,p,e);
+static const XMLCh certificate[] = UNICODE_LITERAL_11(c,e,r,t,i,f,i,c,a,t,e);
+static const XMLCh Certificate[] = UNICODE_LITERAL_11(C,e,r,t,i,f,i,c,a,t,e);
+static const XMLCh Path[] = UNICODE_LITERAL_4(P,a,t,h);
+static const XMLCh verifyRoles[] = UNICODE_LITERAL_11(v,e,r,i,f,y,R,o,l,e,s);
+static const XMLCh verifyName[] = UNICODE_LITERAL_10(v,e,r,i,f,y,N,a,m,e);
-SignatureMetadataFilter::SignatureMetadataFilter(const DOMElement* e) : m_sigValidator(NULL)
+SignatureMetadataFilter::SignatureMetadataFilter(const DOMElement* e)
+ : m_verifyRoles(XMLHelper::getAttrBool(e, false, verifyRoles)),
+ m_verifyName(XMLHelper::getAttrBool(e, true, verifyName)),
+ m_log(Category::getInstance(SAML_LOGCAT".MetadataFilter.Signature"))
{
- e = XMLHelper::getFirstChildElement(e, GenericKeyResolver);
- auto_ptr_char t(e ? e->getAttributeNS(NULL,type) : NULL);
- if (t.get()) {
- auto_ptr<KeyResolver> kr(XMLToolingConfig::getConfig().KeyResolverManager.newPlugin(t.get(),e));
- m_sigValidator = new SignatureValidator(kr.get());
- kr.release();
- }
- else
- throw MetadataFilterException("missing <KeyResolver> element, or no type attribute found");
+ if (e && e->hasAttributeNS(nullptr,certificate)) {
+ // Use a file-based credential resolver rooted here.
+ m_credResolver.reset(XMLToolingConfig::getConfig().CredentialResolverManager.newPlugin(FILESYSTEM_CREDENTIAL_RESOLVER, e));
+ return;
+ }
+
+ DOMElement* sub = XMLHelper::getFirstChildElement(e, _CredentialResolver);
+ if (sub) {
+ string t = XMLHelper::getAttrString(sub, nullptr, type);
+ if (!t.empty()) {
+ m_credResolver.reset(XMLToolingConfig::getConfig().CredentialResolverManager.newPlugin(t.c_str(), sub));
+ return;
+ }
+ }
+
+ sub = XMLHelper::getFirstChildElement(e, _TrustEngine);
+ if (sub) {
+ string t = XMLHelper::getAttrString(sub, nullptr, type);
+ if (!t.empty()) {
+ TrustEngine* trust = XMLToolingConfig::getConfig().TrustEngineManager.newPlugin(t.c_str(), sub);
+ SignatureTrustEngine* sigTrust = dynamic_cast<SignatureTrustEngine*>(trust);
+ if (!sigTrust) {
+ delete trust;
+ throw MetadataFilterException("TrustEngine-based SignatureMetadataFilter requires a SignatureTrustEngine plugin.");
+ }
+ m_trust.reset(sigTrust);
+ m_dummyResolver.reset(XMLToolingConfig::getConfig().CredentialResolverManager.newPlugin(DUMMY_CREDENTIAL_RESOLVER, nullptr));
+ if (!m_dummyResolver.get())
+ throw MetadataFilterException("Error creating dummy CredentialResolver.");
+ return;
+ }
+ }
+
+ throw MetadataFilterException("SignatureMetadataFilter configuration requires <CredentialResolver> or <TrustEngine> element.");
}
void SignatureMetadataFilter::doFilter(XMLObject& xmlObject) const
#ifdef _DEBUG
NDC ndc("doFilter");
#endif
-
+
try {
EntitiesDescriptor& entities = dynamic_cast<EntitiesDescriptor&>(xmlObject);
doFilter(entities, true);
return;
}
- catch (bad_cast) {
+ catch (bad_cast&) {
+ }
+ catch (exception& ex) {
+ m_log.warn("filtering out group at root of instance after failed signature check: %s", ex.what());
+ throw MetadataFilterException("SignatureMetadataFilter unable to verify signature at root of metadata instance.");
}
try {
EntityDescriptor& entity = dynamic_cast<EntityDescriptor&>(xmlObject);
- if (!entity.getSignature())
- throw MetadataFilterException("Root metadata element was unsigned.");
- verifySignature(entity.getSignature());
+ doFilter(entity, true);
+ return;
+ }
+ catch (bad_cast&) {
}
- catch (bad_cast) {
+ catch (exception& ex) {
+ m_log.warn("filtering out entity at root of instance after failed signature check: %s", ex.what());
+ throw MetadataFilterException("SignatureMetadataFilter unable to verify signature at root of metadata instance.");
}
-
+
throw MetadataFilterException("SignatureMetadataFilter was given an improper metadata instance to filter.");
}
void SignatureMetadataFilter::doFilter(EntitiesDescriptor& entities, bool rootObject) const
{
- Category& log=Category::getInstance(SAML_LOGCAT".Metadata");
-
Signature* sig = entities.getSignature();
if (!sig && rootObject)
throw MetadataFilterException("Root metadata element was unsigned.");
- verifySignature(sig);
-
- VectorOf(EntityDescriptor) v=entities.getEntityDescriptors();
- for (VectorOf(EntityDescriptor)::size_type i=0; i<v.size(); ) {
+ verifySignature(sig, entities.getName());
+
+ VectorOf(EntityDescriptor) v = entities.getEntityDescriptors();
+ for (VectorOf(EntityDescriptor)::size_type i = 0; i < v.size(); ) {
try {
- verifySignature(v[i]->getSignature());
+ doFilter(*(v[i]));
i++;
}
- catch (XMLToolingException& e) {
+ catch (exception& e) {
auto_ptr_char id(v[i]->getEntityID());
- log.info("filtering out entity (%s) after failed signature check: ", id.get(), e.what());
+ m_log.warn("filtering out entity (%s) after failed signature check: %s", id.get(), e.what());
v.erase(v.begin() + i);
}
}
-
- VectorOf(EntitiesDescriptor) w=entities.getEntitiesDescriptors();
- for (VectorOf(EntitiesDescriptor)::size_type j=0; j<w.size(); ) {
+
+ VectorOf(EntitiesDescriptor) w = entities.getEntitiesDescriptors();
+ for (VectorOf(EntitiesDescriptor)::size_type j = 0; j < w.size(); ) {
try {
- verifySignature(w[j]->getSignature());
+ doFilter(*w[j], false);
j++;
}
- catch (XMLToolingException& e) {
+ catch (exception& e) {
auto_ptr_char name(w[j]->getName());
- log.info("filtering out group (%s) after failed signature check: ", name.get(), e.what());
+ m_log.warn("filtering out group (%s) after failed signature check: %s", name.get(), e.what());
w.erase(w.begin() + j);
}
}
}
+
+void SignatureMetadataFilter::doFilter(EntityDescriptor& entity, bool rootObject) const
+{
+ Signature* sig = entity.getSignature();
+ if (!sig && rootObject)
+ throw MetadataFilterException("Root metadata element was unsigned.");
+ verifySignature(sig, entity.getEntityID());
+
+ if (!m_verifyRoles)
+ return;
+
+ VectorOf(IDPSSODescriptor) idp = entity.getIDPSSODescriptors();
+ for (VectorOf(IDPSSODescriptor)::size_type i = 0; i < idp.size(); ) {
+ try {
+ verifySignature(idp[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out IDPSSODescriptor for entity (%s) after failed signature check: %s", id.get(), e.what()
+ );
+ idp.erase(idp.begin() + i);
+ }
+ }
+
+ VectorOf(SPSSODescriptor) sp = entity.getSPSSODescriptors();
+ for (VectorOf(SPSSODescriptor)::size_type i = 0; i < sp.size(); ) {
+ try {
+ verifySignature(sp[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out SPSSODescriptor for entity (%s) after failed signature check: %s", id.get(), e.what()
+ );
+ sp.erase(sp.begin() + i);
+ }
+ }
+
+ VectorOf(AuthnAuthorityDescriptor) authn = entity.getAuthnAuthorityDescriptors();
+ for (VectorOf(AuthnAuthorityDescriptor)::size_type i = 0; i < authn.size(); ) {
+ try {
+ verifySignature(authn[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out AuthnAuthorityDescriptor for entity (%s) after failed signature check: %s", id.get(), e.what()
+ );
+ authn.erase(authn.begin() + i);
+ }
+ }
+
+ VectorOf(AttributeAuthorityDescriptor) aa = entity.getAttributeAuthorityDescriptors();
+ for (VectorOf(AttributeAuthorityDescriptor)::size_type i = 0; i < aa.size(); ) {
+ try {
+ verifySignature(aa[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out AttributeAuthorityDescriptor for entity (%s) after failed signature check: %s", id.get(), e.what()
+ );
+ aa.erase(aa.begin() + i);
+ }
+ }
+
+ VectorOf(PDPDescriptor) pdp = entity.getPDPDescriptors();
+ for (VectorOf(AuthnAuthorityDescriptor)::size_type i = 0; i < pdp.size(); ) {
+ try {
+ verifySignature(pdp[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out PDPDescriptor for entity (%s) after failed signature check: %s", id.get(), e.what()
+ );
+ pdp.erase(pdp.begin() + i);
+ }
+ }
+
+ VectorOf(AuthnQueryDescriptorType) authnq = entity.getAuthnQueryDescriptorTypes();
+ for (VectorOf(AuthnQueryDescriptorType)::size_type i = 0; i < authnq.size(); ) {
+ try {
+ verifySignature(authnq[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out AuthnQueryDescriptorType for entity (%s) after failed signature check: %s", id.get(), e.what()
+ );
+ authnq.erase(authnq.begin() + i);
+ }
+ }
+
+ VectorOf(AttributeQueryDescriptorType) attrq = entity.getAttributeQueryDescriptorTypes();
+ for (VectorOf(AttributeQueryDescriptorType)::size_type i = 0; i < attrq.size(); ) {
+ try {
+ verifySignature(attrq[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out AttributeQueryDescriptorType for entity (%s) after failed signature check: %s", id.get(), e.what()
+ );
+ attrq.erase(attrq.begin() + i);
+ }
+ }
+
+ VectorOf(AuthzDecisionQueryDescriptorType) authzq = entity.getAuthzDecisionQueryDescriptorTypes();
+ for (VectorOf(AuthzDecisionQueryDescriptorType)::size_type i = 0; i < authzq.size(); ) {
+ try {
+ verifySignature(authzq[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out AuthzDecisionQueryDescriptorType for entity (%s) after failed signature check: %s", id.get(), e.what()
+ );
+ authzq.erase(authzq.begin() + i);
+ }
+ }
+
+ VectorOf(RoleDescriptor) v = entity.getRoleDescriptors();
+ for (VectorOf(RoleDescriptor)::size_type i = 0; i < v.size(); ) {
+ try {
+ verifySignature(v[i]->getSignature(), entity.getEntityID());
+ i++;
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn(
+ "filtering out role (%s) for entity (%s) after failed signature check: %s",
+ v[i]->getElementQName().toString().c_str(), id.get(), e.what()
+ );
+ v.erase(v.begin() + i);
+ }
+ }
+
+ if (entity.getAffiliationDescriptor()) {
+ try {
+ verifySignature(entity.getAffiliationDescriptor()->getSignature(), entity.getEntityID());
+ }
+ catch (exception& e) {
+ auto_ptr_char id(entity.getEntityID());
+ m_log.warn("filtering out affiliation from entity (%s) after failed signature check: %s", id.get(), e.what());
+ entity.setAffiliationDescriptor(nullptr);
+ }
+ }
+}
+
+void SignatureMetadataFilter::verifySignature(Signature* sig, const XMLCh* peerName) const
+{
+ if (!sig)
+ return;
+
+ m_profileValidator.validate(sig);
+
+ // Set up criteria.
+ CredentialCriteria cc;
+ cc.setUsage(Credential::SIGNING_CREDENTIAL);
+ cc.setSignature(*sig, CredentialCriteria::KEYINFO_EXTRACTION_KEY);
+
+ if (m_credResolver.get()) {
+ if (peerName) {
+ auto_ptr_char pname(peerName);
+ cc.setPeerName(pname.get());
+ }
+ Locker locker(m_credResolver.get());
+ vector<const Credential*> creds;
+ if (m_credResolver->resolve(creds,&cc)) {
+ SignatureValidator sigValidator;
+ for (vector<const Credential*>::const_iterator i = creds.begin(); i != creds.end(); ++i) {
+ try {
+ sigValidator.setCredential(*i);
+ sigValidator.validate(sig);
+ return; // success!
+ }
+ catch (exception&) {
+ }
+ }
+ throw MetadataFilterException("Unable to verify signature with supplied key(s).");
+ }
+ else {
+ throw MetadataFilterException("CredentialResolver did not supply any candidate keys.");
+ }
+ }
+ else if (m_trust.get()) {
+ if (m_verifyName && peerName) {
+ auto_ptr_char pname(peerName);
+ cc.setPeerName(pname.get());
+ }
+ if (m_trust->validate(*sig, *m_dummyResolver, &cc))
+ return;
+ throw MetadataFilterException("TrustEngine unable to verify signature.");
+ }
+
+ throw MetadataFilterException("Unable to verify signature.");
+}