/*
- * Copyright 2001-2005 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 <shibsp/attribute/resolver/ResolutionContext.h>
# include <shibsp/metadata/MetadataProviderCriteria.h>
# include <saml/SAMLConfig.h>
+# include <saml/binding/SecurityPolicy.h>
# include <saml/saml1/core/Assertions.h>
-# include <saml/saml1/profile/AssertionValidator.h>
# include <saml/saml2/core/Assertions.h>
# include <saml/saml2/metadata/Metadata.h>
# include <saml/saml2/metadata/EndpointManager.h>
-# include <saml/saml2/profile/AssertionValidator.h>
+# include <xmltooling/XMLToolingConfig.h>
# include <xmltooling/impl/AnyElement.h>
# include <xmltooling/validation/ValidatorSuite.h>
using namespace opensaml::saml2md;
public:
ADFSDecoder() : m_ns(WSTRUST_NS) {}
virtual ~ADFSDecoder() {}
-
+
XMLObject* decode(string& relayState, const GenericRequest& genericRequest, SecurityPolicy& policy) const;
protected:
{
public:
ADFSSessionInitiator(const DOMElement* e, const char* appId)
- : AbstractHandler(e, Category::getInstance(SHIBSP_LOGCAT".SessionInitiator.ADFS")), m_appId(appId), m_binding(WSFED_NS) {
+ : AbstractHandler(e, Category::getInstance(SHIBSP_LOGCAT".SessionInitiator.ADFS"), NULL, &m_remapper), m_appId(appId), m_binding(WSFED_NS) {
// If Location isn't set, defer address registration until the setParent call.
pair<bool,const char*> loc = getString("Location");
if (loc.first) {
}
}
virtual ~ADFSSessionInitiator() {}
-
+
void setParent(const PropertySet* parent) {
DOMPropertySet::setParent(parent);
pair<bool,const char*> loc = getString("Location");
}
void receive(DDF& in, ostream& out);
+ pair<bool,long> unwrap(SPRequest& request, DDF& out) const;
pair<bool,long> run(SPRequest& request, string& entityID, bool isHandler=true) const;
private:
pair<bool,long> doRequest(
const Application& application,
+ const HTTPRequest* httpRequest,
HTTPResponse& httpResponse,
const char* entityID,
const char* acsLocation,
}
}
virtual ~ADFSLogoutInitiator() {}
-
+
void setParent(const PropertySet* parent) {
DOMPropertySet::setParent(parent);
pair<bool,const char*> loc = getString("Location");
public:
ADFSLogout(const DOMElement* e, const char* appId)
: AbstractHandler(e, Category::getInstance(SHIBSP_LOGCAT".Logout.ADFS")), m_login(e, appId) {
-#ifndef SHIBSP_LITE
m_initiator = false;
+#ifndef SHIBSP_LITE
m_preserve.push_back("wreply");
string address = string(appId) + getString("Location").second + "::run::ADFSLO";
setAddress(address.c_str());
const Application& app=request.getApplication();
if (isHandler) {
+ option=request.getParameter("acsIndex");
+ if (option) {
+ ACS = app.getAssertionConsumerServiceByIndex(atoi(option));
+ if (!ACS)
+ request.log(SPRequest::SPWarn, "invalid acsIndex specified in request, using acsIndex property");
+ }
+
option = request.getParameter("target");
if (option)
target = option;
}
// Since we're not passing by index, we need to fully compute the return URL.
- // 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;
+ if (!ACS) {
+ pair<bool,unsigned int> index = getUnsignedInt("acsIndex");
+ if (index.first) {
+ ACS = app.getAssertionConsumerServiceByIndex(index.second);
+ if (!ACS)
+ request.log(SPRequest::SPWarn, "invalid acsIndex property, using default ACS location");
}
+ if (!ACS)
+ ACS = app.getDefaultAssertionConsumerService();
}
- else if (!handlers.empty()) {
- ACS = handlers.front();
+
+ // Validate the ACS for use with this protocol.
+ pair<bool,const XMLCh*> ACSbinding = ACS ? ACS->getXMLString("Binding") : pair<bool,const XMLCh*>(false,NULL);
+ if (ACSbinding.first) {
+ if (!XMLString::equals(ACSbinding.second, m_binding.get())) {
+ m_log.info("configured or requested ACS has non-ADFS binding");
+ return make_pair(false,0L);
+ }
}
- if (!ACS)
- throw ConfigurationException("Unable to locate ADFS response endpoint.");
// Compute the ACS URL. We add the ACS location to the base handlerURL.
string ACSloc=request.getHandlerURL(target.c_str());
m_log.debug("attempting to initiate session using ADFS with provider (%s)", entityID.c_str());
- if (SPConfig::getConfig().isEnabled(SPConfig::OutOfProcess))
- return doRequest(app, request, entityID.c_str(), ACSloc.c_str(), (acClass.first ? acClass.second : NULL), target);
+ if (SPConfig::getConfig().isEnabled(SPConfig::OutOfProcess)) {
+ // Out of process means the POST data via the request can be exposed directly to the private method.
+ // The method will handle POST preservation if necessary *before* issuing the response, but only if
+ // it dispatches to an IdP.
+ return doRequest(app, &request, request, entityID.c_str(), ACSloc.c_str(), (acClass.first ? acClass.second : NULL), target);
+ }
// Remote the call.
DDF out,in = DDF(m_address.c_str()).structure();
in.addmember("entity_id").string(entityID.c_str());
in.addmember("acsLocation").string(ACSloc.c_str());
if (!target.empty())
- in.addmember("RelayState").string(target.c_str());
+ in.addmember("RelayState").unsafe_string(target.c_str());
if (acClass.first)
in.addmember("authnContextClassRef").string(acClass.second);
return unwrap(request, out);
}
+pair<bool,long> ADFSSessionInitiator::unwrap(SPRequest& request, DDF& out) const
+{
+ // See if there's any response to send back.
+ if (!out["redirect"].isnull() || !out["response"].isnull()) {
+ // If so, we're responsible for handling the POST data, probably by dropping a cookie.
+ preservePostData(request.getApplication(), request, request, out["RelayState"].string());
+ }
+ return RemotedHandler::unwrap(request, out);
+}
+
void ADFSSessionInitiator::receive(DDF& in, ostream& out)
{
// Find application.
// Since we're remoted, the result should either be a throw, which we pass on,
// a false/0 return, which we just return as an empty structure, or a response/redirect,
// which we capture in the facade and send back.
- doRequest(*app, *http.get(), entityID, acsLocation, in["authnContextClassRef"].string(), relayState);
+ doRequest(*app, NULL, *http.get(), entityID, acsLocation, in["authnContextClassRef"].string(), relayState);
+ if (!ret.isstruct())
+ ret.structure();
+ ret.addmember("RelayState").unsafe_string(relayState.c_str());
out << ret;
}
pair<bool,long> ADFSSessionInitiator::doRequest(
const Application& app,
+ const HTTPRequest* httpRequest,
HTTPResponse& httpResponse,
const char* entityID,
const char* acsLocation,
throw MetadataException("Unable to locate metadata for identity provider ($entityID)", namedparams(1, "entityID", entityID));
}
else if (!entity.second) {
- m_log.warn("unable to locate ADFS-aware identity provider role for provider (%s)", entityID);
+ m_log.log(getParent() ? Priority::INFO : Priority::WARN, "unable to locate ADFS-aware identity provider role for provider (%s)", entityID);
if (getParent())
return make_pair(false,0L);
throw MetadataException("Unable to locate ADFS-aware identity provider role for provider ($entityID)", namedparams(1, "entityID", entityID));
if (!relayState.empty())
req += "&wctx=" + urlenc->encode(relayState.c_str());
+ if (httpRequest) {
+ // If the request object is available, we're responsible for the POST data.
+ preservePostData(app, *httpRequest, httpResponse, relayState.c_str());
+ }
+
return make_pair(true, httpResponse.sendRedirect(req.c_str()));
#else
return make_pair(false,0L);
// Parse and bind the document into an XMLObject.
istringstream is(param);
DOMDocument* doc = (policy.getValidating() ? XMLToolingConfig::getConfig().getValidatingParser()
- : XMLToolingConfig::getConfig().getParser()).parse(is);
+ : XMLToolingConfig::getConfig().getParser()).parse(is);
XercesJanitor<DOMDocument> janitor(doc);
auto_ptr<XMLObject> xmlObject(XMLObjectBuilder::buildOneFromElement(doc->getDocumentElement(), true));
janitor.release();
throw BindingException("Decoded message was not of the appropriate type.");
}
- if (!policy.getValidating())
- SchemaValidators.validate(xmlObject.get());
+ SchemaValidators.validate(xmlObject.get());
// Skip policy step here, there's no security in the wrapper.
// policy.evaluate(*xmlObject.get(), &genericRequest);
-
+
return xmlObject.release();
}
const ElementProxy* response = dynamic_cast<const ElementProxy*>(&xmlObject);
if (!response || !response->hasChildren())
throw FatalProfileException("Incoming message was not of the proper type or contains no security token.");
-
+
const Assertion* token = NULL;
for (vector<XMLObject*>::const_iterator xo = response->getUnknownXMLObjects().begin(); xo != response->getUnknownXMLObjects().end(); ++xo) {
// Look for the RequestedSecurityToken element.
break;
}
}
-
+
// Extract message and issuer details from assertion.
extractMessageDetails(*token, m_protocol.get(), policy);
+ // Populate recipient as audience.
+ const EntityDescriptor* entity = policy.getIssuerMetadata() ? dynamic_cast<const EntityDescriptor*>(policy.getIssuerMetadata()->getParent()) : NULL;
+ policy.getAudiences().push_back(application.getRelyingParty(entity)->getXMLString("entityID").second);
+
// Run the policy over the assertion. Handles replay, freshness, and
- // signature verification, assuming the relevant rules are configured.
- policy.evaluate(*token);
-
+ // signature verification, assuming the relevant rules are configured,
+ // along with condition enforcement.
+ policy.evaluate(*token, &httpRequest);
+
// If no security is in place now, we kick it.
if (!policy.isAuthenticated())
throw SecurityPolicyException("Unable to establish security of incoming assertion.");
- time_t now = time(NULL);
-
- const PropertySet* sessionProps = application.getPropertySet("Sessions");
- const EntityDescriptor* entity = policy.getIssuerMetadata() ? dynamic_cast<const EntityDescriptor*>(policy.getIssuerMetadata()->getParent()) : NULL;
-
saml1::NameIdentifier* saml1name=NULL;
saml2::NameID* saml2name=NULL;
const XMLCh* authMethod=NULL;
const XMLCh* authInstant=NULL;
- time_t sessionExp = 0;
-
+ time_t now = time(NULL), sessionExp = 0;
+ const PropertySet* sessionProps = application.getPropertySet("Sessions");
+
const saml1::Assertion* saml1token = dynamic_cast<const saml1::Assertion*>(token);
if (saml1token) {
- // Now do profile and core semantic validation to ensure we can use it for SSO.
- saml1::AssertionValidator ssoValidator(application.getRelyingParty(entity)->getXMLString("entityID").second, application.getAudiences(), now);
- ssoValidator.validateAssertion(*saml1token);
+ // Now do profile validation to ensure we can use it for SSO.
if (!saml1token->getConditions() || !saml1token->getConditions()->getNotBefore() || !saml1token->getConditions()->getNotOnOrAfter())
throw FatalProfileException("Assertion did not contain time conditions.");
else if (saml1token->getAuthenticationStatements().empty())
throw FatalProfileException("Assertion did not contain an authentication statement.");
-
+
// authnskew allows rejection of SSO if AuthnInstant is too old.
pair<bool,unsigned int> authnskew = sessionProps ? sessionProps->getUnsignedInt("maxTimeSinceAuthn") : pair<bool,unsigned int>(false,0);
if (!saml2token)
throw FatalProfileException("Incoming message did not contain a recognized type of SAML assertion.");
- // Now do profile and core semantic validation to ensure we can use it for SSO.
- saml2::AssertionValidator ssoValidator(application.getRelyingParty(entity)->getXMLString("entityID").second, application.getAudiences(), now);
- ssoValidator.validateAssertion(*saml2token);
+ // Now do profile validation to ensure we can use it for SSO.
if (!saml2token->getConditions() || !saml2token->getConditions()->getNotBefore() || !saml2token->getConditions()->getNotOnOrAfter())
throw FatalProfileException("Assertion did not contain time conditions.");
else if (saml2token->getAuthnStatements().empty())
throw FatalProfileException("Assertion did not contain an authentication statement.");
-
+
// authnskew allows rejection of SSO if AuthnInstant is too old.
pair<bool,unsigned int> authnskew = sessionProps ? sessionProps->getUnsignedInt("maxTimeSinceAuthn") : pair<bool,unsigned int>(false,0);
else
sessionExp = min(sessionExp, now + lifetime.second); // Use the lowest.
}
-
+
m_log.debug("ADFS profile processing completed successfully");
// We've successfully "accepted" the SSO token.
m_log.error("couldn't find application (%s) for logout", aid ? aid : "(missing)");
throw ConfigurationException("Unable to locate application for logout, deleted?");
}
-
+
// Unpack the request.
auto_ptr<HTTPRequest> req(getRequest(in));
DDF ret(NULL);
DDFJanitor jout(ret);
auto_ptr<HTTPResponse> resp(getResponse(ret));
-
+
Session* session = NULL;
try {
session = app->getServiceProvider().getSessionCache()->find(*app, *req.get(), NULL, NULL);
"Unable to locate ADFS IdP role for identity provider ($entityID).", namedparams(1, "entityID", session->getEntityID())
);
}
-
+
const EndpointType* ep = EndpointManager<SingleLogoutService>(
dynamic_cast<const IDPSSODescriptor*>(entity.second)->getSingleLogoutServices()
).getByBinding(m_binding.get());