#include "internal.h"
+#include <ctime>
+#include <saml/SAMLConfig.h>
+#include <saml/binding/URLEncoder.h>
+#include <saml/saml2/metadata/Metadata.h>
+#include <saml/saml2/metadata/EndpointManager.h>
+#include <saml/util/CommonDomainCookie.h>
+#include <shibsp/AbstractHandler.h>
+#include <shibsp/SPConfig.h>
+
#ifdef HAVE_UNISTD_H
# include <unistd.h>
#endif
-#include <shib/shib-threads.h>
-#include <xercesc/util/Base64.hpp>
-
-#ifndef HAVE_STRCASECMP
-# define strcasecmp stricmp
-#endif
-
-using namespace std;
-using namespace saml;
-using namespace shibboleth;
+using namespace shibsp;
using namespace shibtarget;
+using namespace shibboleth;
+using namespace saml;
+using namespace opensaml::saml2md;
using namespace log4cpp;
+using namespace std;
-namespace {
- class CgiParse
- {
- public:
- CgiParse(const char* data, unsigned int len);
- ~CgiParse();
- const char* get_value(const char* name) const;
-
- static char x2c(char *what);
- static void url_decode(char *url);
- static string url_encode(const char* s);
- private:
- char * fmakeword(char stop, unsigned int *cl, const char** ppch);
- char * makeword(char *line, char stop);
- void plustospace(char *str);
+using opensaml::CommonDomainCookie;
+using opensaml::URLEncoder;
- map<string,char*> kvp_map;
- };
+#if defined (_MSC_VER)
+ #pragma warning( push )
+ #pragma warning( disable : 4250 )
+#endif
- // Helper class for SAML 2.0 Common Domain Cookie operations
- class CommonDomainCookie
- {
- public:
- CommonDomainCookie(const char* cookie);
- ~CommonDomainCookie() {}
- saml::Iterator<std::string> get() {return m_list;}
- const char* set(const char* providerId);
- static const char CDCName[];
- private:
- std::string m_encoded;
- std::vector<std::string> m_list;
- };
-
- class SessionInitiator : virtual public IHandler
+namespace {
+ class SessionInitiator : public AbstractHandler
{
public:
- SessionInitiator(const DOMElement* e) {}
+ SessionInitiator(const DOMElement* e) : AbstractHandler(e) {}
~SessionInitiator() {}
- pair<bool,void*> run(ShibTarget* st, const IPropertySet* handler, bool isHandler=true);
- pair<bool,void*> ShibAuthnRequest(
- ShibTarget* st,
- const IPropertySet* shire,
+ pair<bool,long> run(SPRequest& request, bool isHandler=true) const;
+ pair<bool,long> ShibAuthnRequest(
+ SPRequest& request,
+ const Handler* shire,
const char* dest,
const char* target,
const char* providerId
- );
+ ) const;
};
- class SAML1Consumer : virtual public IHandler
+ class SAML1Consumer : public AbstractHandler, public virtual Remoted
{
public:
- SAML1Consumer(const DOMElement* e) {}
- ~SAML1Consumer() {}
- pair<bool,void*> run(ShibTarget* st, const IPropertySet* handler, bool isHandler=true);
+ SAML1Consumer(const DOMElement* e);
+ ~SAML1Consumer();
+ pair<bool,long> run(SPRequest& request, bool isHandler=true) const;
+ DDF receive(const DDF& in);
+ private:
+ string m_address;
+ static int counter;
};
- class ShibLogout : virtual public IHandler
+ int SAML1Consumer::counter = 0;
+
+ class ShibLogout : public AbstractHandler
{
public:
- ShibLogout(const DOMElement* e) {}
+ ShibLogout(const DOMElement* e) : AbstractHandler(e) {}
~ShibLogout() {}
- pair<bool,void*> run(ShibTarget* st, const IPropertySet* handler, bool isHandler=true);
+ pair<bool,long> run(SPRequest& request, bool isHandler=true) const;
};
}
+#if defined (_MSC_VER)
+ #pragma warning( pop )
+#endif
-IPlugIn* ShibSessionInitiatorFactory(const DOMElement* e)
+Handler* ShibSessionInitiatorFactory(const DOMElement* const & e)
{
return new SessionInitiator(e);
}
-IPlugIn* SAML1POSTFactory(const DOMElement* e)
+Handler* SAML1POSTFactory(const DOMElement* const & e)
{
return new SAML1Consumer(e);
}
-IPlugIn* SAML1ArtifactFactory(const DOMElement* e)
+Handler* SAML1ArtifactFactory(const DOMElement* const & e)
{
return new SAML1Consumer(e);
}
-IPlugIn* ShibLogoutFactory(const DOMElement* e)
+Handler* ShibLogoutFactory(const DOMElement* const & e)
{
return new ShibLogout(e);
}
-pair<bool,void*> SessionInitiator::run(ShibTarget* st, const IPropertySet* handler, bool isHandler)
+pair<bool,long> SessionInitiator::run(SPRequest& request, bool isHandler) const
{
string dupresource;
const char* resource=NULL;
- const IPropertySet* ACS=NULL;
- const IApplication* app=st->getApplication();
+ const Handler* ACS=NULL;
+ const IApplication& app=dynamic_cast<const IApplication&>(request.getApplication());
if (isHandler) {
/*
* acsIndex optional index of an ACS to use on the way back in
* providerId optional direct invocation of a specific IdP
*/
- string query=st->getArgs();
- CgiParse parser(query.c_str(),query.length());
-
- const char* option=parser.get_value("acsIndex");
+ const char* option=request.getParameter("acsIndex");
if (option)
- ACS=app->getAssertionConsumerServiceByIndex(atoi(option));
- option=parser.get_value("providerId");
+ ACS=app.getAssertionConsumerServiceByIndex(atoi(option));
+ option=request.getParameter("providerId");
- resource=parser.get_value("target");
+ resource=request.getParameter("target");
if (!resource || !*resource) {
- pair<bool,const char*> home=app->getString("homeURL");
+ pair<bool,const char*> home=app.getString("homeURL");
if (home.first)
resource=home.second;
else
- throw FatalProfileException("Session initiator requires a target parameter or a homeURL application property.");
+ throw opensaml::FatalProfileException("Session initiator requires a target parameter or a homeURL application property.");
}
else if (!option) {
dupresource=resource;
if (option) {
// Here we actually use metadata to invoke the SSO service directly.
// The only currently understood binding is the Shibboleth profile.
- Metadata m(app->getMetadataProviders());
- const IEntityDescriptor* entity=m.lookup(option);
+
+ MetadataProvider* m=app.getMetadataProvider();
+ xmltooling::Locker locker(m);
+ const EntityDescriptor* entity=m->getEntityDescriptor(option);
if (!entity)
- throw MetadataException("Session initiator unable to locate metadata for provider ($1).", params(1,option));
- const IIDPSSODescriptor* role=entity->getIDPSSODescriptor(Constants::SHIB_NS);
+ throw MetadataException("Session initiator unable to locate metadata for provider ($1).", xmltooling::params(1,option));
+ const IDPSSODescriptor* role=entity->getIDPSSODescriptor(shibspconstants::SHIB1_PROTOCOL_ENUM);
if (!role)
throw MetadataException(
- "Session initiator unable to locate a Shibboleth-aware identity provider role for provider ($1).", params(1,option)
+ "Session initiator unable to locate a Shibboleth-aware identity provider role for provider ($1).",
+ xmltooling::params(1,option)
);
- const IEndpointManager* SSO=role->getSingleSignOnServiceManager();
- const IEndpoint* ep=SSO->getEndpointByBinding(Constants::SHIB_AUTHNREQUEST_PROFILE_URI);
+ const EndpointType* ep=EndpointManager<SingleSignOnService>(role->getSingleSignOnServices()).getByBinding(
+ shibspconstants::SHIB1_AUTHNREQUEST_PROFILE_URI
+ );
if (!ep)
throw MetadataException(
- "Session initiator unable to locate compatible SSO service for provider ($1).", params(1,option)
+ "Session initiator unable to locate compatible SSO service for provider ($1).", xmltooling::params(1,option)
);
auto_ptr_char dest(ep->getLocation());
return ShibAuthnRequest(
- st,ACS ? ACS : app->getDefaultAssertionConsumerService(),dest.get(),resource,app->getString("providerId").second
+ request,ACS ? ACS : app.getDefaultAssertionConsumerService(),dest.get(),resource,app.getString("providerId").second
);
}
}
else {
// We're running as a "virtual handler" from within the filter.
// The target resource is the current one and everything else is defaulted.
- resource=st->getRequestURL();
+ resource=request.getRequestURL();
}
- if (!ACS) ACS=app->getDefaultAssertionConsumerService();
+ if (!ACS) ACS=app.getDefaultAssertionConsumerService();
// For now, we only support external session initiation via a wayfURL
- pair<bool,const char*> wayfURL=handler->getString("wayfURL");
+ pair<bool,const char*> wayfURL=getString("wayfURL");
if (!wayfURL.first)
throw ConfigurationException("Session initiator is missing wayfURL property.");
- pair<bool,const XMLCh*> wayfBinding=handler->getXMLString("wayfBinding");
- if (!wayfBinding.first || !XMLString::compareString(wayfBinding.second,Constants::SHIB_AUTHNREQUEST_PROFILE_URI))
+ pair<bool,const XMLCh*> wayfBinding=getXMLString("wayfBinding");
+ if (!wayfBinding.first || !XMLString::compareString(wayfBinding.second,shibspconstants::SHIB1_AUTHNREQUEST_PROFILE_URI))
// Standard Shib 1.x
- return ShibAuthnRequest(st,ACS,wayfURL.second,resource,app->getString("providerId").second);
- else if (!XMLString::compareString(wayfBinding.second,Constants::SHIB_LEGACY_AUTHNREQUEST_PROFILE_URI))
- // Shib pre-1.2
- return ShibAuthnRequest(st,ACS,wayfURL.second,resource,NULL);
- else if (!strcmp(handler->getString("wayfBinding").second,"urn:mace:shibboleth:1.0:profiles:EAuth")) {
+ return ShibAuthnRequest(request,ACS,wayfURL.second,resource,app.getString("providerId").second);
+ else if (!strcmp(getString("wayfBinding").second,"urn:mace:shibboleth:1.0:profiles:EAuth")) {
// TODO: Finalize E-Auth profile URI
- pair<bool,bool> localRelayState=st->getConfig()->getPropertySet("Local")->getBool("localRelayState");
+ pair<bool,bool> localRelayState=request.getServiceProvider().getPropertySet("InProcess")->getBool("localRelayState");
if (!localRelayState.first || !localRelayState.second)
throw ConfigurationException("E-Authn requests cannot include relay state, so localRelayState must be enabled.");
// Here we store the state in a cookie.
- pair<string,const char*> shib_cookie=st->getCookieNameProps("_shibstate_");
- st->setCookie(shib_cookie.first,CgiParse::url_encode(resource) + shib_cookie.second);
- return make_pair(true, st->sendRedirect(wayfURL.second));
+ pair<string,const char*> shib_cookie=app.getCookieNameProps("_shibstate_");
+ string stateval = opensaml::SAMLConfig::getConfig().getURLEncoder()->encode(resource) + shib_cookie.second;
+ request.setCookie(shib_cookie.first.c_str(),stateval.c_str());
+ return make_pair(true, request.sendRedirect(wayfURL.second));
}
- throw UnsupportedProfileException("Unsupported WAYF binding ($1).", params(1,handler->getString("wayfBinding").second));
+ throw opensaml::BindingException("Unsupported WAYF binding ($1).", xmltooling::params(1,getString("wayfBinding").second));
}
// Handles Shib 1.x AuthnRequest profile.
-pair<bool,void*> SessionInitiator::ShibAuthnRequest(
- ShibTarget* st,
- const IPropertySet* shire,
+pair<bool,long> SessionInitiator::ShibAuthnRequest(
+ SPRequest& request,
+ const Handler* shire,
const char* dest,
const char* target,
const char* providerId
- )
+ ) const
{
- // Compute the ACS URL. We add the ACS location to the handler baseURL.
- // Legacy configs will not have an ACS specified, so no suffix will be added.
- string ACSloc=st->getHandlerURL(target);
- if (shire) ACSloc+=shire->getString("Location").second;
+ // Compute the ACS URL. We add the ACS location to the base handlerURL.
+ // Legacy configs will not have the Location property specified, so no suffix will be added.
+ string ACSloc=request.getHandlerURL(target);
+ pair<bool,const char*> loc=shire ? shire->getString("Location") : pair<bool,const char*>(false,NULL);
+ if (loc.first) ACSloc+=loc.second;
+ URLEncoder* urlenc = opensaml::SAMLConfig::getConfig().getURLEncoder();
+
char timebuf[16];
- sprintf(timebuf,"%lu",time(NULL));
- string req=string(dest);
- req += strchr(dest,'?') ? '&' : '?';
- req = req + "shire=" + CgiParse::url_encode(ACSloc.c_str()) + "&time=" + timebuf;
+ sprintf(timebuf,"%u",time(NULL));
+ string req=string(dest) + "?shire=" + urlenc->encode(ACSloc.c_str()) + "&time=" + timebuf;
// How should the resource value be preserved?
- pair<bool,bool> localRelayState=st->getConfig()->getPropertySet("Local")->getBool("localRelayState");
+ pair<bool,bool> localRelayState=request.getServiceProvider().getPropertySet("InProcess")->getBool("localRelayState");
if (!localRelayState.first || !localRelayState.second) {
// The old way, just send it along.
- req+="&target=" + CgiParse::url_encode(target);
+ req+="&target=" + urlenc->encode(target);
}
else {
// Here we store the state in a cookie and send a fixed
// value to the IdP so we can recognize it on the way back.
- pair<string,const char*> shib_cookie=st->getCookieNameProps("_shibstate_");
- st->setCookie(shib_cookie.first,CgiParse::url_encode(target) + shib_cookie.second);
+ pair<string,const char*> shib_cookie=request.getApplication().getCookieNameProps("_shibstate_");
+ string stateval = urlenc->encode(target) + shib_cookie.second;
+ request.setCookie(shib_cookie.first.c_str(),stateval.c_str());
req+="&target=cookie";
}
// Only omitted for 1.1 style requests.
if (providerId)
- req+="&providerId=" + CgiParse::url_encode(providerId);
+ req+="&providerId=" + urlenc->encode(providerId);
+
+ return make_pair(true, request.sendRedirect(req.c_str()));
+}
+
+SAML1Consumer::SAML1Consumer(const DOMElement* e) : AbstractHandler(e)
+{
+ m_address += ('A' + (counter++));
+ m_address += "::SAML1Consumer::run";
+
+ // Register for remoted messages.
+ if (SPConfig::getConfig().isEnabled(SPConfig::OutOfProcess))
+ SPConfig::getConfig().getServiceProvider()->getListenerService()->regListener(m_address.c_str(),this);
+}
- return make_pair(true, st->sendRedirect(req));
+SAML1Consumer::~SAML1Consumer()
+{
+ ListenerService* listener=SPConfig::getConfig().getServiceProvider()->getListenerService(false);
+ if (listener && SPConfig::getConfig().isEnabled(SPConfig::OutOfProcess))
+ listener->unregListener(m_address.c_str(),this);
+ counter--;
}
-pair<bool,void*> SAML1Consumer::run(ShibTarget* st, const IPropertySet* handler, bool isHandler)
+/*
+ * IPC message definitions:
+ *
+ * [A-Z]::SAML1Consumer::run
+ *
+ * IN
+ * application_id
+ * client_address
+ * recipient
+ * SAMLResponse or SAMLart list
+ *
+ * OUT
+ * key
+ * provider_id
+ */
+DDF SAML1Consumer::receive(const DDF& in)
{
- int profile=0;
- string input,cookie,target,providerId;
- const IApplication* app=st->getApplication();
+#ifdef _DEBUG
+ xmltooling::NDC ndc("receive");
+#endif
+ Category& log=Category::getInstance(SHIBT_LOGCAT".SAML1Consumer");
+
+ // Find application.
+ const char* aid=in["application_id"].string();
+ const IApplication* app=aid ? dynamic_cast<const IApplication*>(SPConfig::getConfig().getServiceProvider()->getApplication(aid)) : NULL;
+ if (!app) {
+ // Something's horribly wrong.
+ log.error("couldn't find application (%s) for new session", aid ? aid : "(missing)");
+ throw SAMLException("Unable to locate application for new session, deleted?");
+ }
+
+ // Check required parameters.
+ const char* client_address=in["client_address"].string();
+ const char* recipient=in["recipient"].string();
+ if (!client_address || !recipient)
+ throw SAMLException("Required parameters missing in call to SAML1Consumer::run");
+ log.debug("processing new assertion for %s", client_address);
+ log.debug("recipient: %s", recipient);
+ log.debug("application: %s", app->getId());
+
+ // Access the application config.
+ ServiceProvider* conf=SPConfig::getConfig().getServiceProvider();
+ xmltooling::Locker confLocker(conf);
+
+ auto_ptr_XMLCh wrecipient(recipient);
+
+ pair<bool,bool> checkAddress=pair<bool,bool>(false,true);
+ pair<bool,bool> checkReplay=pair<bool,bool>(false,true);
+ const PropertySet* props=app->getPropertySet("Sessions");
+ if (props) {
+ checkAddress=props->getBool("checkAddress");
+ if (!checkAddress.first)
+ checkAddress.second=true;
+ checkReplay=props->getBool("checkReplay");
+ if (!checkReplay.first)
+ checkReplay.second=true;
+ }
+
// Supports either version...
- pair<bool,unsigned int> version=handler->getUnsignedInt("MinorVersion","urn:oasis:names:tc:SAML:1.0:protocol");
+ pair<bool,unsigned int> version=getUnsignedInt("MinorVersion","urn:oasis:names:tc:SAML:1.0:protocol");
if (!version.first)
version.second=1;
- pair<bool,const XMLCh*> binding=handler->getXMLString("Binding");
- if (!binding.first || !XMLString::compareString(binding.second,SAMLBrowserProfile::BROWSER_POST)) {
- if (strcasecmp(st->getRequestMethod(), "POST"))
- throw FatalProfileException(
- "SAML 1.x Browser/POST handler does not support HTTP method ($1).", params(1,st->getRequestMethod())
+ const EntityDescriptor* provider=NULL;
+ const RoleDescriptor* role=NULL;
+ MetadataProvider* m=app->getMetadataProvider();
+ xmltooling::Locker locker(m);
+ SAMLBrowserProfile::BrowserProfileResponse bpr;
+
+ try {
+ const char* samlResponse=in["SAMLResponse"].string();
+ if (samlResponse) {
+ // POST profile
+ log.debug("executing Browser/POST profile...");
+ bpr=app->getBrowserProfile()->receive(
+ samlResponse,
+ wrecipient.get(),
+ NULL,
+ version.second
);
-
- if (!st->getContentType() || strcasecmp(st->getContentType(),"application/x-www-form-urlencoded"))
- throw FatalProfileException(
- "Blocked invalid content-type ($1) submitted to SAML 1.x Browser/POST handler.", params(1,st->getContentType())
+ }
+ else {
+ // Artifact profile
+ vector<const char*> SAMLart;
+ DDF arts=in["SAMLart"];
+ DDF art=arts.first();
+ while (art.isstring()) {
+ SAMLart.push_back(art.string());
+ art=arts.next();
+ }
+ auto_ptr<SAMLBrowserProfile::ArtifactMapper> artifactMapper(app->getArtifactMapper());
+ log.debug("executing Browser/Artifact profile...");
+ bpr=app->getBrowserProfile()->receive(
+ SAMLart,
+ wrecipient.get(),
+ artifactMapper.get(),
+ NULL,
+ version.second
+ );
+
+ // Blow it away to clear any locks that might be held.
+ delete artifactMapper.release();
+ }
+
+ // Try and map to metadata (again).
+ // Once the metadata layer is in the SAML core, the repetition will be fixed.
+ provider=m->getEntityDescriptor(bpr.assertion->getIssuer());
+ if (!provider && bpr.authnStatement->getSubject()->getNameIdentifier() &&
+ bpr.authnStatement->getSubject()->getNameIdentifier()->getNameQualifier())
+ provider=m->getEntityDescriptor(bpr.authnStatement->getSubject()->getNameIdentifier()->getNameQualifier());
+ if (provider) {
+ role=provider->getIDPSSODescriptor(
+ version.second==1 ? samlconstants::SAML11_PROTOCOL_ENUM : samlconstants::SAML10_PROTOCOL_ENUM
);
- input=st->getPostData();
- profile|=(version.second==1 ? SAML11_POST : SAML10_POST);
+ }
+
+ // This isn't likely, since the profile must have found a role.
+ if (!role) {
+ MetadataException ex("Unable to locate role-specific metadata for identity provider.");
+ annotateException(&ex,provider); // throws it
+ }
+
+ // Maybe verify the client address....
+ if (checkAddress.second) {
+ log.debug("verifying client address");
+ // Verify the client address exists
+ const XMLCh* wip = bpr.authnStatement->getSubjectIP();
+ if (wip && *wip) {
+ // Verify the client address matches authentication
+ auto_ptr_char this_ip(wip);
+ if (strcmp(client_address, this_ip.get())) {
+ opensaml::FatalProfileException ex(
+ "Your client's current address ($1) differs from the one used when you authenticated "
+ "to your identity provider. To correct this problem, you may need to bypass a proxy server. "
+ "Please contact your local support staff or help desk for assistance.",
+ xmltooling::params(1,client_address)
+ );
+ annotateException(&ex,role); // throws it
+ }
+ }
+ }
+ }
+ catch (exception&) {
+ bpr.clear();
+ throw;
+ }
+ catch (...) {
+ log.error("caught unknown exception");
+ bpr.clear();
+#ifdef _DEBUG
+ throw;
+#else
+ SAMLException e("An unexpected error occurred while creating your session.");
+ shibboleth::annotateException(&e,role);
+#endif
+ }
+
+ // It passes all our tests -- create a new session.
+ log.info("creating new session");
+
+ // Insert into cache.
+ auto_ptr_char authContext(bpr.authnStatement->getAuthMethod());
+ string key=dynamic_cast<ISessionCache*>(conf->getSessionCache())->insert(
+ app,
+ role,
+ client_address,
+ bpr.authnStatement->getSubject(),
+ authContext.get(),
+ bpr.response
+ );
+ // objects owned by cache now
+ log.debug("new session id: %s", key.c_str());
+ auto_ptr_char oname(provider->getEntityID());
+ DDF out=DDF(NULL).structure();
+ out.addmember("key").string(key.c_str());
+ out.addmember("provider_id").string(oname.get());
+
+ return out;
+}
+
+pair<bool,long> SAML1Consumer::run(SPRequest& request, bool isHandler) const
+{
+ DDF in,out;
+ DDFJanitor jin(in),jout(out);
+
+ pair<bool,const XMLCh*> binding=getXMLString("Binding");
+ if (!binding.first || !XMLString::compareString(binding.second,SAMLBrowserProfile::BROWSER_POST)) {
+#ifdef HAVE_STRCASECMP
+ if (strcasecmp(request.getMethod(), "POST")) {
+#else
+ if (_stricmp(request.getMethod(), "POST")) {
+#endif
+ request.log(SPRequest::SPInfo, "SAML 1.x Browser/POST handler ignoring non-POST request");
+ return pair<bool,long>(false,NULL);
+ }
+#ifdef HAVE_STRCASECMP
+ if (strcasecmp(request.getContentType().c_str(),"application/x-www-form-urlencoded")) {
+#else
+ if (_stricmp(request.getContentType().c_str(),"application/x-www-form-urlencoded")) {
+#endif
+ request.log(SPRequest::SPInfo, "SAML 1.x Browser/POST handler ignoring submission with unknown content-type.");
+ return pair<bool,long>(false,0);
+ }
+
+ const char* samlResponse = request.getParameter("SAMLResponse");
+ if (!samlResponse) {
+ request.log(SPRequest::SPInfo, "SAML 1.x Browser/POST handler ignoring request with no SAMLResponse parameter.");
+ return pair<bool,long>(false,0);
+ }
+
+ in=DDF(m_address.c_str()).structure();
+ in.addmember("SAMLResponse").string(samlResponse);
}
else if (!XMLString::compareString(binding.second,SAMLBrowserProfile::BROWSER_ARTIFACT)) {
- if (strcasecmp(st->getRequestMethod(), "GET"))
- throw FatalProfileException(
- "SAML 1.x Browser/Artifact handler does not support HTTP method ($1).", params(1,st->getRequestMethod())
- );
- input=st->getArgs();
- profile|=(version.second==1 ? SAML11_ARTIFACT : SAML10_ARTIFACT);
+#ifdef HAVE_STRCASECMP
+ if (strcasecmp(request.getMethod(), "GET")) {
+#else
+ if (_stricmp(request.getMethod(), "GET")) {
+#endif
+ request.log(SPRequest::SPInfo, "SAML 1.x Browser/Artifact handler ignoring non-GET request");
+ return pair<bool,long>(false,0);
+ }
+
+ vector<const char*> arts;
+ if (request.getParameters("SAMLart",arts)==0) {
+ request.log(SPRequest::SPInfo, "SAML 1.x Browser/Artifact handler ignoring request with no SAMLart parameter.");
+ return pair<bool,long>(false,0);
+ }
+
+ in=DDF(m_address.c_str()).structure();
+ DDF artlist=in.addmember("SAMLart").list();
+
+ for (vector<const char*>::const_iterator a=arts.begin(); a!=arts.end(); ++a)
+ artlist.add(DDF(NULL).string(*a));
}
- if (input.empty())
- throw FatalProfileException("SAML 1.x Browser Profile handler received no data from browser.");
-
- string hURL=st->getHandlerURL(st->getRequestURL());
- pair<bool,const char*> loc=handler->getString("Location");
+ // Compute the endpoint location.
+ string hURL=request.getHandlerURL(request.getRequestURL());
+ pair<bool,const char*> loc=getString("Location");
string recipient=loc.first ? hURL + loc.second : hURL;
- st->getConfig()->getListener()->sessionNew(
- app,
- profile,
- recipient.c_str(),
- input.c_str(),
- st->getRemoteAddr(),
- target,
- cookie,
- providerId
- );
+ in.addmember("recipient").string(recipient.c_str());
- st->log(ShibTarget::LogLevelDebug, string("profile processing succeeded, new session created (") + cookie + ")");
+ // Add remaining parameters.
+ in.addmember("application_id").string(request.getApplication().getId());
+ in.addmember("client_address").string(request.getRemoteAddr().c_str());
- if (target=="default") {
- pair<bool,const char*> homeURL=app->getString("homeURL");
+ out=request.getServiceProvider().getListenerService()->send(in);
+ if (!out["key"].isstring())
+ throw opensaml::FatalProfileException("Remote processing of SAML 1.x Browser profile did not return a usable session key.");
+ string key=out["key"].string();
+
+ request.log(SPRequest::SPDebug, string("profile processing succeeded, new session created (") + key + ")");
+
+ const char* target=request.getParameter("TARGET");
+ if (target && !strcmp(target,"default")) {
+ pair<bool,const char*> homeURL=request.getApplication().getString("homeURL");
target=homeURL.first ? homeURL.second : "/";
}
- else if (target=="cookie" || target.empty()) {
+ else if (!target || !strcmp(target,"cookie")) {
// Pull the target value from the "relay state" cookie.
- pair<string,const char*> relay_cookie = st->getCookieNameProps("_shibstate_");
- const char* relay_state = st->getCookie(relay_cookie.first);
+ pair<string,const char*> relay_cookie = request.getApplication().getCookieNameProps("_shibstate_");
+ const char* relay_state = request.getCookie(relay_cookie.first.c_str());
if (!relay_state || !*relay_state) {
// No apparent relay state value to use, so fall back on the default.
- pair<bool,const char*> homeURL=app->getString("homeURL");
+ pair<bool,const char*> homeURL=request.getApplication().getString("homeURL");
target=homeURL.first ? homeURL.second : "/";
}
else {
char* rscopy=strdup(relay_state);
- CgiParse::url_decode(rscopy);
- target=rscopy;
+ opensaml::SAMLConfig::getConfig().getURLEncoder()->decode(rscopy);
+ hURL=rscopy;
free(rscopy);
+ target=hURL.c_str();
}
+ request.setCookie(relay_cookie.first.c_str(),relay_cookie.second);
}
// We've got a good session, set the session cookie.
- pair<string,const char*> shib_cookie=st->getCookieNameProps("_shibsession_");
- st->setCookie(shib_cookie.first, cookie + shib_cookie.second);
-
- const IPropertySet* sessionProps=app->getPropertySet("Sessions");
- pair<bool,bool> idpHistory=sessionProps->getBool("idpHistory");
- if (!idpHistory.first || idpHistory.second) {
- // Set an IdP history cookie locally (essentially just a CDC).
- CommonDomainCookie cdc(st->getCookie(CommonDomainCookie::CDCName));
-
- // Either leave in memory or set an expiration.
- pair<bool,unsigned int> days=sessionProps->getUnsignedInt("idpHistoryDays");
- if (!days.first || days.second==0)
- st->setCookie(CommonDomainCookie::CDCName,string(cdc.set(providerId.c_str())) + shib_cookie.second);
+ pair<string,const char*> shib_cookie=request.getApplication().getCookieNameProps("_shibsession_");
+ key += shib_cookie.second;
+ request.setCookie(shib_cookie.first.c_str(), key.c_str());
+
+ const char* providerId=out["provider_id"].string();
+ if (providerId) {
+ const PropertySet* sessionProps=request.getApplication().getPropertySet("Sessions");
+ pair<bool,bool> idpHistory=sessionProps->getBool("idpHistory");
+ if (!idpHistory.first || idpHistory.second) {
+ // Set an IdP history cookie locally (essentially just a CDC).
+ CommonDomainCookie cdc(request.getCookie(CommonDomainCookie::CDCName));
+
+ // Either leave in memory or set an expiration.
+ pair<bool,unsigned int> days=sessionProps->getUnsignedInt("idpHistoryDays");
+ if (!days.first || days.second==0) {
+ key = string(cdc.set(providerId)) + shib_cookie.second;
+ request.setCookie(CommonDomainCookie::CDCName, key.c_str());
+ }
else {
time_t now=time(NULL) + (days.second * 24 * 60 * 60);
#ifdef HAVE_GMTIME_R
#endif
char timebuf[64];
strftime(timebuf,64,"%a, %d %b %Y %H:%M:%S GMT",ptime);
- st->setCookie(
- CommonDomainCookie::CDCName,
- string(cdc.set(providerId.c_str())) + shib_cookie.second + "; expires=" + timebuf
- );
+ key = string(cdc.set(providerId)) + shib_cookie.second + "; expires=" + timebuf;
+ request.setCookie(CommonDomainCookie::CDCName, key.c_str());
+ }
}
}
// Now redirect to the target.
- return make_pair(true, st->sendRedirect(target));
+ return make_pair(true, request.sendRedirect(target));
}
-pair<bool,void*> ShibLogout::run(ShibTarget* st, const IPropertySet* handler, bool isHandler)
+pair<bool,long> ShibLogout::run(SPRequest& request, bool isHandler) const
{
// Recover the session key.
- pair<string,const char*> shib_cookie = st->getCookieNameProps("_shibsession_");
- const char* session_id = st->getCookie(shib_cookie.first);
+ pair<string,const char*> shib_cookie = request.getApplication().getCookieNameProps("_shibsession_");
+ const char* session_id = request.getCookie(shib_cookie.first.c_str());
// Logout is best effort.
if (session_id && *session_id) {
try {
- st->getConfig()->getListener()->sessionEnd(st->getApplication(),session_id);
+ // TODO: port to new cache API
+ //request.getServiceProvider().getSessionCache()->remove(session_id,request.getApplication(),request.getRemoteAddr().c_str());
}
- catch (SAMLException& e) {
- st->log(ShibTarget::LogLevelError, string("logout processing failed with exception: ") + e.what());
+ catch (exception& e) {
+ request.log(SPRequest::SPError, string("logout processing failed with exception: ") + e.what());
}
#ifndef _DEBUG
catch (...) {
- st->log(ShibTarget::LogLevelError, "logout processing failed with unknown exception");
+ request.log(SPRequest::SPError, "logout processing failed with unknown exception");
}
#endif
// We send the cookie property alone, which acts as an empty value.
- st->setCookie(shib_cookie.first,shib_cookie.second);
+ request.setCookie(shib_cookie.first.c_str(),shib_cookie.second);
}
- string query=st->getArgs();
- CgiParse parser(query.c_str(),query.length());
-
- const char* ret=parser.get_value("return");
+ const char* ret=request.getParameter("return");
if (!ret)
- ret=handler->getString("ResponseLocation").second;
+ ret=getString("ResponseLocation").second;
if (!ret)
- ret=st->getApplication()->getString("homeURL").second;
+ ret=request.getApplication().getString("homeURL").second;
if (!ret)
ret="/";
- return make_pair(true, st->sendRedirect(ret));
-}
-
-/*************************************************************************
- * CGI Parser implementation
- */
-
-CgiParse::CgiParse(const char* data, unsigned int len)
-{
- const char* pch = data;
- unsigned int cl = len;
-
- while (cl && pch) {
- char *name;
- char *value;
- value=fmakeword('&',&cl,&pch);
- plustospace(value);
- url_decode(value);
- name=makeword(value,'=');
- kvp_map[name]=value;
- free(name);
- }
-}
-
-CgiParse::~CgiParse()
-{
- for (map<string,char*>::iterator i=kvp_map.begin(); i!=kvp_map.end(); i++)
- free(i->second);
-}
-
-const char*
-CgiParse::get_value(const char* name) const
-{
- map<string,char*>::const_iterator i=kvp_map.find(name);
- if (i==kvp_map.end())
- return NULL;
- return i->second;
-}
-
-/* Parsing routines modified from NCSA source. */
-char *
-CgiParse::makeword(char *line, char stop)
-{
- int x = 0,y;
- char *word = (char *) malloc(sizeof(char) * (strlen(line) + 1));
-
- for(x=0;((line[x]) && (line[x] != stop));x++)
- word[x] = line[x];
-
- word[x] = '\0';
- if(line[x])
- ++x;
- y=0;
-
- while(line[x])
- line[y++] = line[x++];
- line[y] = '\0';
- return word;
-}
-
-char *
-CgiParse::fmakeword(char stop, unsigned int *cl, const char** ppch)
-{
- int wsize;
- char *word;
- int ll;
-
- wsize = 1024;
- ll=0;
- word = (char *) malloc(sizeof(char) * (wsize + 1));
-
- while(1)
- {
- word[ll] = *((*ppch)++);
- if(ll==wsize-1)
- {
- word[ll+1] = '\0';
- wsize+=1024;
- word = (char *)realloc(word,sizeof(char)*(wsize+1));
- }
- --(*cl);
- if((word[ll] == stop) || word[ll] == EOF || (!(*cl)))
- {
- if(word[ll] != stop)
- ll++;
- word[ll] = '\0';
- return word;
- }
- ++ll;
- }
-}
-
-void
-CgiParse::plustospace(char *str)
-{
- register int x;
-
- for(x=0;str[x];x++)
- if(str[x] == '+') str[x] = ' ';
-}
-
-char
-CgiParse::x2c(char *what)
-{
- register char digit;
-
- digit = (what[0] >= 'A' ? ((what[0] & 0xdf) - 'A')+10 : (what[0] - '0'));
- digit *= 16;
- digit += (what[1] >= 'A' ? ((what[1] & 0xdf) - 'A')+10 : (what[1] - '0'));
- return(digit);
-}
-
-void
-CgiParse::url_decode(char *url)
-{
- register int x,y;
-
- for(x=0,y=0;url[y];++x,++y)
- {
- if((url[x] = url[y]) == '%')
- {
- url[x] = x2c(&url[y+1]);
- y+=2;
- }
- }
- url[x] = '\0';
-}
-
-static inline char hexchar(unsigned short s)
-{
- return (s<=9) ? ('0' + s) : ('A' + s - 10);
-}
-
-string CgiParse::url_encode(const char* s)
-{
- static char badchars[]="\"\\+<>#%{}|^~[]()'`;/?:@=&";
-
- string ret;
- for (; *s; s++) {
- if (strchr(badchars,*s) || *s<=0x20 || *s>=0x7F) {
- ret+='%';
- ret+=hexchar(*s >> 4);
- ret+=hexchar(*s & 0x0F);
- }
- else
- ret+=*s;
- }
- return ret;
-}
-
-// CDC implementation
-
-const char CommonDomainCookie::CDCName[] = "_saml_idp";
-
-CommonDomainCookie::CommonDomainCookie(const char* cookie)
-{
- if (!cookie)
- return;
-
- Category& log=Category::getInstance(SHIBT_LOGCAT".CommonDomainCookie");
-
- // Copy it so we can URL-decode it.
- char* b64=strdup(cookie);
- CgiParse::url_decode(b64);
-
- // Chop it up and save off elements.
- vector<string> templist;
- char* ptr=b64;
- while (*ptr) {
- while (*ptr && isspace(*ptr)) ptr++;
- char* end=ptr;
- while (*end && !isspace(*end)) end++;
- templist.push_back(string(ptr,end-ptr));
- ptr=end;
- }
- free(b64);
-
- // Now Base64 decode the list.
- for (vector<string>::iterator i=templist.begin(); i!=templist.end(); i++) {
- unsigned int len;
- XMLByte* decoded=Base64::decode(reinterpret_cast<const XMLByte*>(i->c_str()),&len);
- if (decoded && *decoded) {
- m_list.push_back(reinterpret_cast<char*>(decoded));
- XMLString::release(&decoded);
- }
- else
- log.warn("cookie element does not appear to be base64-encoded");
- }
-}
-
-const char* CommonDomainCookie::set(const char* providerId)
-{
- // First scan the list for this IdP.
- for (vector<string>::iterator i=m_list.begin(); i!=m_list.end(); i++) {
- if (*i == providerId) {
- m_list.erase(i);
- break;
- }
- }
-
- // Append it to the end.
- m_list.push_back(providerId);
-
- // Now rebuild the delimited list.
- string delimited;
- for (vector<string>::const_iterator j=m_list.begin(); j!=m_list.end(); j++) {
- if (!delimited.empty()) delimited += ' ';
-
- unsigned int len;
- XMLByte* b64=Base64::encode(reinterpret_cast<const XMLByte*>(j->c_str()),j->length(),&len);
- XMLByte *pos, *pos2;
- for (pos=b64, pos2=b64; *pos2; pos2++)
- if (isgraph(*pos2))
- *pos++=*pos2;
- *pos=0;
-
- delimited += reinterpret_cast<char*>(b64);
- XMLString::release(&b64);
- }
-
- m_encoded=CgiParse::url_encode(delimited.c_str());
- return m_encoded.c_str();
+ return make_pair(true, request.sendRedirect(ret));
}