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// Copyright Vespa.ai. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
package com.yahoo.security.tls;
import com.yahoo.security.KeyAlgorithm;
import com.yahoo.security.KeyUtils;
import com.yahoo.security.SubjectAlternativeName.Type;
import com.yahoo.security.X509CertificateBuilder;
import com.yahoo.security.tls.RequiredPeerCredential.Field;
import org.junit.jupiter.api.Test;
import javax.security.auth.x500.X500Principal;
import java.math.BigInteger;
import java.security.KeyPair;
import java.security.cert.X509Certificate;
import java.time.Instant;
import java.time.temporal.ChronoUnit;
import java.util.Arrays;
import java.util.List;
import java.util.Optional;
import java.util.Set;
import static com.yahoo.security.SignatureAlgorithm.SHA256_WITH_ECDSA;
import static com.yahoo.security.tls.RequiredPeerCredential.Field.CN;
import static com.yahoo.security.tls.RequiredPeerCredential.Field.SAN_DNS;
import static com.yahoo.security.tls.RequiredPeerCredential.Field.SAN_URI;
import static java.util.Arrays.asList;
import static java.util.Collections.emptyList;
import static java.util.Collections.singletonList;
import static java.util.stream.Collectors.toSet;
import static org.assertj.core.api.Assertions.assertThat;
import static org.junit.jupiter.api.Assertions.assertFalse;
import static org.junit.jupiter.api.Assertions.assertTrue;
/**
* @author bjorncs
*/
public class PeerAuthorizerTest {
private static final KeyPair KEY_PAIR = KeyUtils.generateKeypair(KeyAlgorithm.EC);
private static final String POLICY_1 = "policy-1", POLICY_2 = "policy-2";
@Test
void certificate_must_match_both_san_and_cn_pattern() {
RequiredPeerCredential cnRequirement = createRequiredCredential(CN, "*.matching.cn");
RequiredPeerCredential sanRequirement = createRequiredCredential(SAN_DNS, "*.matching.san");
PeerAuthorizer authorizer = createPeerAuthorizer(createPolicy(POLICY_1, cnRequirement, sanRequirement));
ConnectionAuthContext result = authorizer.authorizePeer(createCertificate("foo.matching.cn", asList("foo.matching.san", "foo.invalid.san"), emptyList()));
assertAuthorized(result);
assertThat(result.matchedPolicies()).containsOnly(POLICY_1);
assertUnauthorized(authorizer.authorizePeer(createCertificate("foo.invalid.cn", singletonList("foo.matching.san"), emptyList())));
assertUnauthorized(authorizer.authorizePeer(createCertificate("foo.invalid.cn", asList("foo.matching.san", "foo.invalid.san"), emptyList())));
assertUnauthorized(authorizer.authorizePeer(createCertificate("foo.matching.cn", singletonList("foo.invalid.san"), emptyList())));
}
@Test
void can_match_multiple_policies() {
RequiredPeerCredential cnRequirement = createRequiredCredential(CN, "*.matching.cn");
RequiredPeerCredential sanRequirement = createRequiredCredential(SAN_DNS, "*.matching.san");
PeerAuthorizer peerAuthorizer = createPeerAuthorizer(
createPolicy(POLICY_1, cnRequirement, sanRequirement),
createPolicy(POLICY_2, cnRequirement, sanRequirement));
ConnectionAuthContext result = peerAuthorizer
.authorizePeer(createCertificate("foo.matching.cn", singletonList("foo.matching.san"), emptyList()));
assertAuthorized(result);
assertThat(result.matchedPolicies()).containsOnly(POLICY_1, POLICY_2);
}
@Test
void can_match_subset_of_policies() {
PeerAuthorizer peerAuthorizer = createPeerAuthorizer(
createPolicy(POLICY_1, createRequiredCredential(CN, "*.matching.cn")),
createPolicy(POLICY_2, createRequiredCredential(SAN_DNS, "*.matching.san")));
ConnectionAuthContext result = peerAuthorizer.authorizePeer(createCertificate("foo.invalid.cn", singletonList("foo.matching.san"), emptyList()));
assertAuthorized(result);
assertThat(result.matchedPolicies()).containsOnly(POLICY_2);
}
@Test
void must_match_all_cn_and_san_patterns() {
RequiredPeerCredential cnSuffixRequirement = createRequiredCredential(CN, "*.*.matching.suffix.cn");
RequiredPeerCredential cnPrefixRequirement = createRequiredCredential(CN, "matching.prefix.*.*.*");
RequiredPeerCredential sanPrefixRequirement = createRequiredCredential(SAN_DNS, "*.*.matching.suffix.san");
RequiredPeerCredential sanSuffixRequirement = createRequiredCredential(SAN_DNS, "matching.prefix.*.*.*");
PeerAuthorizer peerAuthorizer = createPeerAuthorizer(
createPolicy(POLICY_1, cnSuffixRequirement, cnPrefixRequirement, sanPrefixRequirement, sanSuffixRequirement));
assertAuthorized(peerAuthorizer.authorizePeer(createCertificate("matching.prefix.matching.suffix.cn", singletonList("matching.prefix.matching.suffix.san"), emptyList())));
assertUnauthorized(peerAuthorizer.authorizePeer(createCertificate("matching.prefix.matching.suffix.cn", singletonList("matching.prefix.invalid.suffix.san"), emptyList())));
assertUnauthorized(peerAuthorizer.authorizePeer(createCertificate("invalid.prefix.matching.suffix.cn", singletonList("matching.prefix.matching.suffix.san"), emptyList())));
}
@Test
void can_match_policy_with_san_uri_pattern() {
RequiredPeerCredential cnRequirement = createRequiredCredential(CN, "*.matching.cn");
RequiredPeerCredential sanUriRequirement = createRequiredCredential(SAN_URI, "myscheme://my/*/uri");
PeerAuthorizer authorizer = createPeerAuthorizer(createPolicy(POLICY_1, cnRequirement, sanUriRequirement));
ConnectionAuthContext result = authorizer.authorizePeer(createCertificate("foo.matching.cn", singletonList("foo.irrelevant.san"), singletonList("myscheme://my/matching/uri")));
assertAuthorized(result);
assertThat(result.matchedPolicies()).containsOnly(POLICY_1);
assertUnauthorized(authorizer.authorizePeer(createCertificate("foo.matching.cn", emptyList(), singletonList("myscheme://my/nonmatching/url"))));
}
@Test
void auth_context_contains_union_of_granted_capabilities_from_policies() {
RequiredPeerCredential cnRequirement = createRequiredCredential(CN, "*.matching.cn");
RequiredPeerCredential sanRequirement = createRequiredCredential(SAN_DNS, "*.matching.san");
PeerAuthorizer peerAuthorizer = createPeerAuthorizer(
createPolicy(POLICY_1, List.of(Capability.SLOBROK__API, Capability.CONTENT__DOCUMENT_API), List.of(cnRequirement)),
createPolicy(POLICY_2, List.of(Capability.SLOBROK__API, Capability.CONTENT__SEARCH_API), List.of(sanRequirement)));
var result = peerAuthorizer
.authorizePeer(createCertificate("foo.matching.cn", List.of("foo.matching.san"), List.of()));
assertAuthorized(result);
assertCapabiltiesGranted(result, Set.of(Capability.SLOBROK__API, Capability.CONTENT__DOCUMENT_API, Capability.CONTENT__SEARCH_API));
}
private static X509Certificate createCertificate(String subjectCn, List<String> sanDns, List<String> sanUri) {
X509CertificateBuilder builder =
X509CertificateBuilder.fromKeypair(
KEY_PAIR,
new X500Principal("CN=" + subjectCn),
Instant.EPOCH,
Instant.EPOCH.plus(100000, ChronoUnit.DAYS),
SHA256_WITH_ECDSA,
BigInteger.ONE);
sanDns.forEach(san -> builder.addSubjectAlternativeName(Type.DNS, san));
sanUri.forEach(san -> builder.addSubjectAlternativeName(Type.URI, san));
return builder.build();
}
private static RequiredPeerCredential createRequiredCredential(Field field, String pattern) {
return RequiredPeerCredential.of(field, pattern);
}
private static PeerAuthorizer createPeerAuthorizer(PeerPolicy... policies) {
return new PeerAuthorizer(new AuthorizedPeers(Arrays.stream(policies).collect(toSet())));
}
private static PeerPolicy createPolicy(String name, RequiredPeerCredential... requiredCredentials) {
return new PeerPolicy(name, asList(requiredCredentials));
}
private static PeerPolicy createPolicy(String name, List<Capability> caps, List<RequiredPeerCredential> creds) {
return new PeerPolicy(name, Optional.empty(), CapabilitySet.of(caps), creds);
}
private static void assertAuthorized(ConnectionAuthContext result) {
assertTrue(result.authorized());
}
private static void assertUnauthorized(ConnectionAuthContext result) {
assertFalse(result.authorized());
}
private static void assertCapabiltiesGranted(ConnectionAuthContext ctx, Set<Capability> expected) {
assertThat(ctx.capabilities().asSet()).containsOnly(expected.toArray(new Capability[0]));
}
}
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