#include <xercesc/util/XMLUniDefs.hpp>
#ifndef SHIBSP_LITE
-# include <shibsp/attribute/Attribute.h>
-# include <shibsp/attribute/filtering/AttributeFilter.h>
-# include <shibsp/attribute/filtering/BasicFilteringContext.h>
-# include <shibsp/attribute/resolver/AttributeExtractor.h>
# include <shibsp/attribute/resolver/ResolutionContext.h>
# include <saml/SAMLConfig.h>
# include <saml/saml1/core/Assertions.h>
virtual ~ADFSDecoder() {}
XMLObject* decode(string& relayState, const GenericRequest& genericRequest, SecurityPolicy& policy) const;
+
+ protected:
+ void extractMessageDetails(
+ const XMLObject& message, const GenericRequest& req, const XMLCh* protocol, SecurityPolicy& policy
+ ) const {
+ }
};
MessageDecoder* ADFSDecoderFactory(const pair<const DOMElement*,const XMLCh*>& p)
{}
virtual ~ADFSConsumer() {}
- private:
#ifndef SHIBSP_LITE
+ void generateMetadata(SPSSODescriptor& role, const char* handlerURL) const {
+ AssertionConsumerService::generateMetadata(role, handlerURL);
+ role.addSupport(m_protocol.get());
+ }
+
+ auto_ptr_XMLCh m_protocol;
+
+ private:
string implementProtocol(
const Application& application,
const HTTPRequest& httpRequest,
const PropertySet* settings,
const XMLObject& xmlObject
) const;
- auto_ptr_XMLCh m_protocol;
#endif
};
void receive(DDF& in, ostream& out);
pair<bool,long> run(SPRequest& request, bool isHandler=true) const;
+#ifndef SHIBSP_LITE
+ const char* getType() const {
+ return "LogoutInitiator";
+ }
+#endif
+
private:
pair<bool,long> doRequest(
const Application& application, const char* requestURL, const char* entityID, HTTPResponse& httpResponse
pair<bool,long> run(SPRequest& request, bool isHandler=true) const;
+#ifndef SHIBSP_LITE
+ void generateMetadata(SPSSODescriptor& role, const char* handlerURL) const {
+ m_login.generateMetadata(role, handlerURL);
+ const char* loc = getString("Location").second;
+ string hurl(handlerURL);
+ if (*loc != '/')
+ hurl += '/';
+ hurl += loc;
+ auto_ptr_XMLCh widen(hurl.c_str());
+ SingleLogoutService* ep = SingleLogoutServiceBuilder::buildSingleLogoutService();
+ ep->setLocation(widen.get());
+ ep->setBinding(m_login.m_protocol.get());
+ role.getSingleLogoutServices().push_back(ep);
+ }
+
+ const char* getType() const {
+ return m_login.getType();
+ }
+#endif
+
private:
ADFSConsumer m_login;
};
{
// We have to know the IdP to function.
if (!entityID || !*entityID)
- return make_pair(false,0);
+ return make_pair(false,0L);
string target;
const Handler* ACS=NULL;
}
// Since we're not passing by index, we need to fully compute the return URL.
- if (!ACS) {
- // Get all the ADFS endpoints.
- const vector<const Handler*>& handlers = app.getAssertionConsumerServicesByBinding(m_binding.get());
-
- // Index comes from request, or default set in the handler, or we just pick the first endpoint.
- pair<bool,unsigned int> index = make_pair(false,0);
- if (isHandler) {
- option = request.getParameter("acsIndex");
- if (option)
- index = make_pair(true, atoi(option));
- }
- if (!index.first)
- index = getUnsignedInt("defaultACSIndex");
- if (index.first) {
- for (vector<const Handler*>::const_iterator h = handlers.begin(); !ACS && h!=handlers.end(); ++h) {
- if (index.second == (*h)->getUnsignedInt("index").second)
- ACS = *h;
- }
- }
- else if (!handlers.empty()) {
- ACS = handlers.front();
+ // Get all the ADFS endpoints.
+ const vector<const Handler*>& handlers = app.getAssertionConsumerServicesByBinding(m_binding.get());
+
+ // Index comes from request, or default set in the handler, or we just pick the first endpoint.
+ pair<bool,unsigned int> index(false,0);
+ if (isHandler) {
+ option = request.getParameter("acsIndex");
+ if (option)
+ index = pair<bool,unsigned int>(true, atoi(option));
+ }
+ if (!index.first)
+ index = getUnsignedInt("defaultACSIndex");
+ if (index.first) {
+ for (vector<const Handler*>::const_iterator h = handlers.begin(); !ACS && h!=handlers.end(); ++h) {
+ if (index.second == (*h)->getUnsignedInt("index").second)
+ ACS = *h;
}
}
+ else if (!handlers.empty()) {
+ ACS = handlers.front();
+ }
if (!ACS)
throw ConfigurationException("Unable to locate ADFS response endpoint.");
// Use metadata to invoke the SSO service directly.
MetadataProvider* m=app.getMetadataProvider();
Locker locker(m);
- const EntityDescriptor* entity=m->getEntityDescriptor(entityID);
- if (!entity) {
+ MetadataProvider::Criteria mc(entityID, &IDPSSODescriptor::ELEMENT_QNAME, m_binding.get());
+ pair<const EntityDescriptor*,const RoleDescriptor*> entity=m->getEntityDescriptor(mc);
+ if (!entity.first) {
m_log.error("unable to locate metadata for provider (%s)", entityID);
- throw MetadataException("Unable to locate metadata for identity provider ($entityID)",
- namedparams(1, "entityID", entityID));
+ throw MetadataException("Unable to locate metadata for identity provider ($entityID)", namedparams(1, "entityID", entityID));
}
- const IDPSSODescriptor* role=entity->getIDPSSODescriptor(m_binding.get());
- if (!role) {
+ else if (!entity.second) {
m_log.error("unable to locate ADFS-aware identity provider role for provider (%s)", entityID);
- return make_pair(false,0);
+ return make_pair(false,0L);
}
- const EndpointType* ep=EndpointManager<SingleSignOnService>(role->getSingleSignOnServices()).getByBinding(m_binding.get());
+ const EndpointType* ep = EndpointManager<SingleSignOnService>(
+ dynamic_cast<const IDPSSODescriptor*>(entity.second)->getSingleSignOnServices()
+ ).getByBinding(m_binding.get());
if (!ep) {
m_log.error("unable to locate compatible SSO service for provider (%s)", entityID);
- return make_pair(false,0);
+ return make_pair(false,0L);
}
preserveRelayState(app, httpResponse, relayState);
return make_pair(true, httpResponse.sendRedirect(req.c_str()));
#else
- return make_pair(false,0);
+ return make_pair(false,0L);
#endif
}
if (!token || !token->getSignature())
throw FatalProfileException("Incoming message did not contain a signed SAML 1.1 assertion.");
- // Run the policy over the assertion. Handles issuer consistency, replay, freshness,
- // and signature verification, assuming the relevant rules are configured.
- policy.evaluate(*token, NULL, m_protocol.get());
+ // Extract message and issuer details from assertion.
+ extractMessageDetails(*token, m_protocol.get(), policy);
+
+ // Run the policy over the assertion. Handles replay, freshness, and
+ // signature verification, assuming the relevant rules are configured.
+ policy.evaluate(*token);
// If no security is in place now, we kick it.
- if (!policy.isSecure())
+ if (!policy.isAuthenticated())
throw SecurityPolicyException("Unable to establish security of incoming assertion.");
// Now do profile and core semantic validation to ensure we can use it for SSO.
throw FatalProfileException("Assertion did not contain time conditions.");
else if (token->getAuthenticationStatements().empty())
throw FatalProfileException("Assertion did not contain an authentication statement.");
+
// With ADFS, we only have one token, but we need to put it in a vector.
vector<const Assertion*> tokens(1,token);
const saml1::AuthenticationStatement* ssoStatement=token->getAuthenticationStatements().front();
+ // authnskew allows rejection of SSO if AuthnInstant is too old.
+ const PropertySet* sessionProps = application.getPropertySet("Sessions");
+ pair<bool,unsigned int> authnskew = sessionProps ? sessionProps->getUnsignedInt("authnskew") : pair<bool,unsigned int>(false,0);
+
+ if (authnskew.first && authnskew.second &&
+ ssoStatement->getAuthenticationInstant() && (now - ssoStatement->getAuthenticationInstantEpoch() > authnskew.second))
+ throw FatalProfileException("The gap between now and the time you logged into your identity provider exceeds the limit.");
+
// Address checking.
saml1::SubjectLocality* locality = ssoStatement->getSubjectLocality();
if (locality && locality->getIPAddress()) {
// Now we have to extract the authentication details for attribute and session setup.
// Session expiration for ADFS is purely SP-driven, and the method is mapped to a ctx class.
- const PropertySet* sessionProps = application.getPropertySet("Sessions");
pair<bool,unsigned int> lifetime = sessionProps ? sessionProps->getUnsignedInt("lifetime") : pair<bool,unsigned int>(true,28800);
if (!lifetime.first || lifetime.second == 0)
lifetime.second = 28800;
// We've successfully "accepted" the SSO token.
// To complete processing, we need to extract and resolve attributes and then create the session.
- vector<Attribute*> resolvedAttributes;
- AttributeExtractor* extractor = application.getAttributeExtractor();
- if (extractor) {
- m_log.debug("extracting pushed attributes...");
- Locker extlocker(extractor);
- if (n) {
- try {
- extractor->extractAttributes(application, policy.getIssuerMetadata(), *n, resolvedAttributes);
- }
- catch (exception& ex) {
- m_log.error("caught exception extracting attributes: %s", ex.what());
- }
- }
- try {
- extractor->extractAttributes(application, policy.getIssuerMetadata(), *token, resolvedAttributes);
- }
- catch (exception& ex) {
- m_log.error("caught exception extracting attributes: %s", ex.what());
- }
-
- AttributeFilter* filter = application.getAttributeFilter();
- if (filter && !resolvedAttributes.empty()) {
- BasicFilteringContext fc(application, resolvedAttributes, policy.getIssuerMetadata(), ssoStatement->getAuthenticationMethod());
- Locker filtlocker(filter);
- try {
- filter->filterAttributes(fc, resolvedAttributes);
- }
- catch (exception& ex) {
- m_log.error("caught exception filtering attributes: %s", ex.what());
- m_log.error("dumping extracted attributes due to filtering exception");
- for_each(resolvedAttributes.begin(), resolvedAttributes.end(), xmltooling::cleanup<shibsp::Attribute>());
- resolvedAttributes.clear();
- }
- }
- }
// Normalize the SAML 1.x NameIdentifier...
auto_ptr<saml2::NameID> nameid(n ? saml2::NameIDBuilder::buildNameID() : NULL);
nameid->setNameQualifier(n->getNameQualifier());
}
- const EntityDescriptor* issuerMetadata =
- policy.getIssuerMetadata() ? dynamic_cast<const EntityDescriptor*>(policy.getIssuerMetadata()->getParent()) : NULL;
- auto_ptr<ResolutionContext> ctx(
+ // The context will handle deleting attributes and new tokens.
+ auto_ptr<ResolutionContext> ctx(
resolveAttributes(
application,
- issuerMetadata,
+ policy.getIssuerMetadata(),
m_protocol.get(),
+ n,
nameid.get(),
ssoStatement->getAuthenticationMethod(),
NULL,
- &tokens,
- &resolvedAttributes
+ &tokens
)
);
if (ctx.get()) {
// Copy over any new tokens, but leave them in the context for cleanup.
tokens.insert(tokens.end(), ctx->getResolvedAssertions().begin(), ctx->getResolvedAssertions().end());
-
- // Copy over new attributes, and transfer ownership.
- resolvedAttributes.insert(resolvedAttributes.end(), ctx->getResolvedAttributes().begin(), ctx->getResolvedAttributes().end());
- ctx->getResolvedAttributes().clear();
}
- try {
- string key = application.getServiceProvider().getSessionCache()->insert(
- now + lifetime.second,
- application,
- httpRequest.getRemoteAddr().c_str(),
- issuerMetadata,
- m_protocol.get(),
- nameid.get(),
- ssoStatement->getAuthenticationInstant() ? ssoStatement->getAuthenticationInstant()->getRawData() : NULL,
- NULL,
- ssoStatement->getAuthenticationMethod(),
- NULL,
- &tokens,
- &resolvedAttributes
- );
- for_each(resolvedAttributes.begin(), resolvedAttributes.end(), xmltooling::cleanup<shibsp::Attribute>());
- return key;
- }
- catch (exception&) {
- for_each(resolvedAttributes.begin(), resolvedAttributes.end(), xmltooling::cleanup<shibsp::Attribute>());
- throw;
- }
+ return application.getServiceProvider().getSessionCache()->insert(
+ now + lifetime.second,
+ application,
+ httpRequest.getRemoteAddr().c_str(),
+ policy.getIssuerMetadata() ? dynamic_cast<const EntityDescriptor*>(policy.getIssuerMetadata()->getParent()) : NULL,
+ m_protocol.get(),
+ nameid.get(),
+ ssoStatement->getAuthenticationInstant() ? ssoStatement->getAuthenticationInstant()->getRawData() : NULL,
+ NULL,
+ ssoStatement->getAuthenticationMethod(),
+ NULL,
+ &tokens,
+ ctx.get() ? &ctx->getResolvedAttributes() : NULL
+ );
}
#endif
try {
session = request.getSession(false, true, false); // don't cache it and ignore all checks
if (!session)
- return make_pair(false,0);
+ return make_pair(false,0L);
// We only handle ADFS sessions.
if (!XMLString::equals(session->getProtocol(), WSFED_NS) || !session->getEntityID()) {
session->unlock();
- return make_pair(false,0);
+ return make_pair(false,0L);
}
}
catch (exception& ex) {
m_log.error("error accessing current session: %s", ex.what());
- return make_pair(false,0);
+ return make_pair(false,0L);
}
string entityID(session->getEntityID());
}
else {
// When not out of process, we remote the request.
- Locker locker(session);
+ Locker locker(session, false);
DDF out,in(m_address.c_str());
DDFJanitor jin(in), jout(out);
in.addmember("application_id").string(request.getApplication().getId());
throw ConfigurationException("Missing entityID parameter.");
// With a session in hand, we can create a request message, if we can find a compatible endpoint.
- Locker metadataLocker(application.getMetadataProvider());
- const EntityDescriptor* entity = application.getMetadataProvider()->getEntityDescriptor(entityID);
- if (!entity) {
- throw MetadataException(
- "Unable to locate metadata for identity provider ($entityID)",
- namedparams(1, "entityID", entityID)
- );
- }
- const IDPSSODescriptor* role = entity->getIDPSSODescriptor(m_binding.get());
- if (!role) {
- throw MetadataException(
- "Unable to locate ADFS IdP role for identity provider ($entityID).",
- namedparams(1, "entityID", entityID)
- );
- }
-
- const EndpointType* ep = EndpointManager<SingleLogoutService>(role->getSingleLogoutServices()).getByBinding(m_binding.get());
+ MetadataProvider* m=application.getMetadataProvider();
+ Locker locker(m);
+ MetadataProvider::Criteria mc(entityID, &IDPSSODescriptor::ELEMENT_QNAME, m_binding.get());
+ pair<const EntityDescriptor*,const RoleDescriptor*> entity=m->getEntityDescriptor(mc);
+ if (!entity.first)
+ throw MetadataException("Unable to locate metadata for identity provider ($entityID)", namedparams(1, "entityID", entityID));
+ else if (!entity.second)
+ throw MetadataException("Unable to locate ADFS IdP role for identity provider ($entityID).", namedparams(1, "entityID", entityID));
+
+ const EndpointType* ep = EndpointManager<SingleLogoutService>(
+ dynamic_cast<const IDPSSODescriptor*>(entity.second)->getSingleLogoutServices()
+ ).getByBinding(m_binding.get());
if (!ep) {
throw MetadataException(
"Unable to locate ADFS single logout service for identity provider ($entityID).",
m_log.error("error issuing ADFS logout request: %s", ex.what());
}
- return make_pair(false,0);
+ return make_pair(false,0L);
#else
throw ConfigurationException("Cannot perform logout using lite version of shibsp library.");
#endif