2 * Copyright 2009 Internet2
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
20 * SAML Conditions SecurityPolicyRule
24 #include "exceptions.h"
25 #include "binding/SecurityPolicyRule.h"
26 #include "saml1/core/Assertions.h"
27 #include "saml2/core/Assertions.h"
29 #include <xmltooling/logging.h>
31 using namespace opensaml;
32 using namespace xmltooling::logging;
33 using namespace xmltooling;
37 class SAML_DLLLOCAL ConditionsRule : public SecurityPolicyRule
40 ConditionsRule(const DOMElement* e);
42 virtual ~ConditionsRule() {
43 for_each(m_rules.begin(), m_rules.end(), xmltooling::cleanup<SecurityPolicyRule>());
47 const char* getType() const {
48 return CONDITIONS_POLICY_RULE;
50 bool evaluate(const XMLObject& message, const GenericRequest* request, SecurityPolicy& policy) const;
54 vector<SecurityPolicyRule*> m_rules;
57 SecurityPolicyRule* SAML_DLLLOCAL ConditionsRuleFactory(const DOMElement* const & e)
59 return new ConditionsRule(e);
62 static const XMLCh Rule[] = UNICODE_LITERAL_10(P,o,l,i,c,y,R,u,l,e);
63 static const XMLCh type[] = UNICODE_LITERAL_4(t,y,p,e);
66 "<PolicyRule type=\"Conditions\" xmlns:saml2=\"urn:oasis:names:tc:SAML:2.0:assertion\" xmlns:saml=\"urn:oasis:names:tc:SAML:1.0:assertion\">"
67 "<PolicyRule type=\"Audience\"/>"
68 "<PolicyRule type=\"Ignore\">saml:DoNotCacheCondition</PolicyRule>"
69 "<PolicyRule type=\"Ignore\">saml2:OneTimeUse</PolicyRule>"
70 "<PolicyRule type=\"Ignore\">saml2:ProxyRestriction</PolicyRule>"
74 ConditionsRule::ConditionsRule(const DOMElement* e) : m_doc(NULL)
76 Category& log=Category::getInstance(SAML_LOGCAT".SecurityPolicyRule.Conditions");
78 if (!e || !e->hasChildNodes()) {
79 // Default the configuration.
80 istringstream in(config);
81 m_doc = XMLToolingConfig::getConfig().getParser().parse(in);
82 e = m_doc->getDocumentElement();
85 e = XMLHelper::getFirstChildElement(e, Rule);
87 auto_ptr_char temp(e->getAttributeNS(NULL, type));
88 if (temp.get() && *temp.get()) {
90 log.info("building SecurityPolicyRule of type %s", temp.get());
91 m_rules.push_back(SAMLConfig::getConfig().SecurityPolicyRuleManager.newPlugin(temp.get(),e));
93 catch (exception& ex) {
94 log.crit("error building SecurityPolicyRule: %s", ex.what());
97 e = XMLHelper::getNextSiblingElement(e, Rule);
101 bool ConditionsRule::evaluate(const XMLObject& message, const GenericRequest* request, SecurityPolicy& policy) const
103 const saml2::Assertion* a2=dynamic_cast<const saml2::Assertion*>(&message);
105 const saml2::Conditions* conds = a2->getConditions();
109 // First verify the time conditions, using the specified timestamp.
110 time_t now = policy.getTime();
111 unsigned int skew = XMLToolingConfig::getConfig().clock_skew_secs;
112 time_t t = conds->getNotBeforeEpoch();
114 throw SecurityPolicyException("Assertion is not yet valid.");
115 t = conds->getNotOnOrAfterEpoch();
117 throw SecurityPolicyException("Assertion is no longer valid.");
119 // Now we process conditions, starting with the known types and then extensions.
123 const vector<saml2::AudienceRestriction*>& acvec = conds->getAudienceRestrictions();
124 for (vector<saml2::AudienceRestriction*>::const_iterator ac = acvec.begin(); ac != acvec.end(); ++ac) {
126 for (vector<SecurityPolicyRule*>::const_iterator r = m_rules.begin(); !valid && r != m_rules.end(); ++r)
127 valid = (*r)->evaluate(*(*ac), request, policy);
129 throw SecurityPolicyException("AudienceRestriction condition not successfully validated by policy.");
132 const vector<saml2::OneTimeUse*>& otvec = conds->getOneTimeUses();
133 for (vector<saml2::OneTimeUse*>::const_iterator ot = otvec.begin(); ot!=otvec.end(); ++ot) {
135 for (vector<SecurityPolicyRule*>::const_iterator r = m_rules.begin(); !valid && r != m_rules.end(); ++r)
136 valid = (*r)->evaluate(*(*ot), request, policy);
138 throw SecurityPolicyException("OneTimeUse condition not successfully validated by policy.");
141 const vector<saml2::ProxyRestriction*> pvec = conds->getProxyRestrictions();
142 for (vector<saml2::ProxyRestriction*>::const_iterator p = pvec.begin(); p != pvec.end(); ++p) {
144 for (vector<SecurityPolicyRule*>::const_iterator r = m_rules.begin(); !valid && r != m_rules.end(); ++r)
145 valid = (*r)->evaluate(*(*p), request, policy);
147 throw SecurityPolicyException("ProxyRestriction condition not successfully validated by policy.");
150 const vector<saml2::Condition*>& convec = conds->getConditions();
151 for (vector<saml2::Condition*>::const_iterator c = convec.begin(); c != convec.end(); ++c) {
153 for (vector<SecurityPolicyRule*>::const_iterator r = m_rules.begin(); !valid && r != m_rules.end(); ++r)
154 valid = (*r)->evaluate(*(*c), request, policy);
156 throw SecurityPolicyException(
157 "Extension condition ($1) not successfully validated by policy.",
158 params(1,((*c)->getSchemaType() ? (*c)->getSchemaType()->toString().c_str() : "Unknown Type"))
166 const saml1::Assertion* a1=dynamic_cast<const saml1::Assertion*>(&message);
168 const saml1::Conditions* conds = a1->getConditions();
172 // First verify the time conditions, using the specified timestamp.
173 time_t now = policy.getTime();
174 unsigned int skew = XMLToolingConfig::getConfig().clock_skew_secs;
175 time_t t = conds->getNotBeforeEpoch();
177 throw SecurityPolicyException("Assertion is not yet valid.");
178 t = conds->getNotOnOrAfterEpoch();
180 throw SecurityPolicyException("Assertion is no longer valid.");
182 // Now we process conditions, starting with the known types and then extensions.
186 const vector<saml1::AudienceRestrictionCondition*>& acvec = conds->getAudienceRestrictionConditions();
187 for (vector<saml1::AudienceRestrictionCondition*>::const_iterator ac = acvec.begin(); ac != acvec.end(); ++ac) {
189 for (vector<SecurityPolicyRule*>::const_iterator r = m_rules.begin(); !valid && r != m_rules.end(); ++r)
190 valid = (*r)->evaluate(*(*ac), request, policy);
192 throw SecurityPolicyException("AudienceRestrictionCondition not successfully validated by policy.");
195 const vector<saml1::DoNotCacheCondition*>& dncvec = conds->getDoNotCacheConditions();
196 for (vector<saml1::DoNotCacheCondition*>::const_iterator dnc = dncvec.begin(); dnc != dncvec.end(); ++dnc) {
198 for (vector<SecurityPolicyRule*>::const_iterator r = m_rules.begin(); !valid && r != m_rules.end(); ++r)
199 valid = (*r)->evaluate(*(*dnc), request, policy);
201 throw SecurityPolicyException("DoNotCacheCondition not successfully validated by policy.");
204 const vector<saml1::Condition*>& convec = conds->getConditions();
205 for (vector<saml1::Condition*>::const_iterator c = convec.begin(); c != convec.end(); ++c) {
207 for (vector<SecurityPolicyRule*>::const_iterator r = m_rules.begin(); !valid && r != m_rules.end(); ++r)
208 valid = (*r)->evaluate(*(*c), request, policy);
210 throw SecurityPolicyException(
211 "Extension condition ($1) not successfully validated by policy.",
212 params(1,((*c)->getSchemaType() ? (*c)->getSchemaType()->toString().c_str() : (*c)->getElementQName().toString().c_str()))