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https://github.com/pgpainless/pgpainless.git
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Dirty n hacky network population
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parent
e1d3180e1e
commit
2b12e4fdb7
GPG key ID:
62BEE9264BF17311
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@ -13,17 +13,23 @@ import java.util.List;
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import java.util.Map;
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import org.bouncycastle.bcpg.sig.RevocationReason;
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import org.bouncycastle.openpgp.PGPPublicKey;
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import org.bouncycastle.openpgp.PGPPublicKeyRing;
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import org.bouncycastle.openpgp.PGPSignature;
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import org.pgpainless.PGPainless;
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import org.pgpainless.algorithm.KeyFlag;
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import org.pgpainless.algorithm.RevocationState;
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import org.pgpainless.exception.SignatureValidationException;
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import org.pgpainless.key.OpenPgpFingerprint;
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import org.pgpainless.key.info.KeyRingInfo;
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import org.pgpainless.key.util.KeyRingUtils;
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import org.pgpainless.key.util.RevocationAttributes;
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import org.pgpainless.policy.Policy;
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import org.pgpainless.signature.SignatureUtils;
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import org.pgpainless.signature.consumer.SignatureVerifier;
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import org.pgpainless.signature.subpackets.SignatureSubpacketsUtil;
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import org.pgpainless.wot.dijkstra.sq.CertSynopsis;
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import org.pgpainless.wot.dijkstra.sq.Certification;
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import org.pgpainless.wot.dijkstra.sq.CertificationSet;
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import org.pgpainless.wot.dijkstra.sq.Network;
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import org.pgpainless.wot.dijkstra.sq.Optional;
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@ -66,7 +72,10 @@ public class WebOfTrust implements CertificateAuthority {
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Iterable<Certificate> certificates,
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Policy policy,
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Optional<ReferenceTime> optReferenceTime) {
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ReferenceTime referenceTime = optReferenceTime.isPresent() ? optReferenceTime.get() : ReferenceTime.now();
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// Parse all certificates
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List<KeyRingInfo> validCerts = new ArrayList<>();
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for (Certificate cert : certificates) {
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try {
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@ -91,6 +100,7 @@ public class WebOfTrust implements CertificateAuthority {
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return fromValidCertificates(
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validCerts,
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policy,
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referenceTime
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);
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}
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@ -104,6 +114,7 @@ public class WebOfTrust implements CertificateAuthority {
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*/
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public static Network fromValidCertificates(
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Iterable<KeyRingInfo> validatedCertificates,
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Policy policy,
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ReferenceTime referenceTime) {
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Map<OpenPgpFingerprint, KeyRingInfo> byFingerprint = new HashMap<>();
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@ -116,12 +127,14 @@ public class WebOfTrust implements CertificateAuthority {
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if (byFingerprint.get(cert.getFingerprint()) == null) {
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byFingerprint.put(cert.getFingerprint(), cert);
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}
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List<KeyRingInfo> byKeyIdEntry = byKeyId.get(cert.getKeyId());
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List<KeyRingInfo> byKeyIdEntry = byKeyId.get(cert.getKeyId());
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// noinspection Java8MapApi
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if (byKeyIdEntry == null) {
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byKeyIdEntry = new ArrayList<>();
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byKeyId.put(cert.getKeyId(), byKeyIdEntry);
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for (PGPPublicKey key : cert.getValidSubkeys()) {
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byKeyId.put(key.getKeyID(), byKeyIdEntry);
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}
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}
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byKeyIdEntry.add(cert);
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@ -132,13 +145,131 @@ public class WebOfTrust implements CertificateAuthority {
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new HashSet<>(cert.getValidUserIds())));
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}
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Map<OpenPgpFingerprint, Map<OpenPgpFingerprint, List<Certification>>> certifications = new HashMap<>();
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for (KeyRingInfo validatedTarget : validatedCertificates) {
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PGPPublicKeyRing validatedKeyRing = KeyRingUtils.publicKeys(validatedTarget.getKeys());
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OpenPgpFingerprint targetFingerprint = OpenPgpFingerprint.of(validatedKeyRing);
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PGPPublicKey validatedPrimaryKey = validatedKeyRing.getPublicKey();
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CertSynopsis target = certSynopsisMap.get(targetFingerprint);
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// Direct-Key Signatures by X on Y
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List<PGPSignature> delegations = SignatureUtils.getDelegations(validatedKeyRing);
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for (PGPSignature delegation : delegations) {
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List<KeyRingInfo> issuerCandidates = byKeyId.get(delegation.getKeyID());
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if (issuerCandidates == null) {
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continue;
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}
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for (KeyRingInfo candidate : issuerCandidates) {
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PGPPublicKeyRing issuerKeyRing = KeyRingUtils.publicKeys(candidate.getKeys());
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OpenPgpFingerprint issuerFingerprint = OpenPgpFingerprint.of(issuerKeyRing);
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PGPPublicKey issuerSigningKey = issuerKeyRing.getPublicKey(delegation.getKeyID());
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CertSynopsis issuer = certSynopsisMap.get(issuerFingerprint);
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try {
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System.out.println("Sig from " + issuerFingerprint + " on " + targetFingerprint);
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boolean valid = SignatureVerifier.verifyDirectKeySignature(delegation, issuerSigningKey, validatedPrimaryKey, policy, referenceTime.getTimestamp());
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if (valid) {
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Map<OpenPgpFingerprint, List<Certification>> sigsBy = certifications.get(issuerFingerprint);
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if (sigsBy == null) {
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sigsBy = new HashMap<>();
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certifications.put(issuerFingerprint, sigsBy);
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}
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List<Certification> targetSigs = sigsBy.get(targetFingerprint);
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if (targetSigs == null) {
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targetSigs = new ArrayList<>();
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sigsBy.put(targetFingerprint, targetSigs);
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}
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targetSigs.add(new Certification(issuer, Optional.empty(), target, delegation));
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}
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} catch (SignatureValidationException e) {
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LOGGER.warn("Cannot verify signature by " + issuerFingerprint + " on cert of " + targetFingerprint, e);
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}
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}
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}
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Iterator<String> userIds = validatedPrimaryKey.getUserIDs();
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while (userIds.hasNext()) {
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String userId = userIds.next();
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List<PGPSignature> userIdSigs = SignatureUtils.get3rdPartyCertificationsFor(userId, validatedKeyRing);
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for (PGPSignature certification : userIdSigs) {
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List<KeyRingInfo> issuerCandidates = byKeyId.get(certification.getKeyID());
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if (issuerCandidates == null) {
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continue;
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}
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for (KeyRingInfo candidate : issuerCandidates) {
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PGPPublicKeyRing issuerKeyRing = KeyRingUtils.publicKeys(candidate.getKeys());
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OpenPgpFingerprint issuerFingerprint = OpenPgpFingerprint.of(issuerKeyRing);
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PGPPublicKey issuerSigningKey = issuerKeyRing.getPublicKey(certification.getKeyID());
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CertSynopsis issuer = certSynopsisMap.get(issuerFingerprint);
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try {
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System.out.println("Sig from " + issuerFingerprint + " for " + userId + " on " + targetFingerprint);
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boolean valid = SignatureVerifier.verifySignatureOverUserId(userId, certification, issuerSigningKey, validatedPrimaryKey, policy, referenceTime.getTimestamp());
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if (valid) {
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Map<OpenPgpFingerprint, List<Certification>> sigsBy = certifications.get(issuerFingerprint);
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if (sigsBy == null) {
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sigsBy = new HashMap<>();
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certifications.put(issuerFingerprint, sigsBy);
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}
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List<Certification> targetSigs = sigsBy.get(targetFingerprint);
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if (targetSigs == null) {
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targetSigs = new ArrayList<>();
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sigsBy.put(targetFingerprint, targetSigs);
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}
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targetSigs.add(new Certification(issuer, Optional.just(userId), target, certification));
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}
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} catch (SignatureValidationException e) {
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LOGGER.warn("Cannot verify signature for '" + userId + "' by " + issuerFingerprint + " on cert of " + targetFingerprint, e);
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}
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}
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}
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}
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}
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// Re-order data structure
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// Issuer -> Target, Signatures by an issuer
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Map<OpenPgpFingerprint, List<CertificationSet>> edges = new HashMap<>();
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// Target -> Issuer, Signatures on the target
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Map<OpenPgpFingerprint, List<CertificationSet>> reverseEdges = new HashMap<>();
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// for each issuer
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for (OpenPgpFingerprint issuerFp : certifications.keySet()) {
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Map<OpenPgpFingerprint, List<Certification>> issuedBy = certifications.get(issuerFp);
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List<CertificationSet> edge = new ArrayList<>();
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// for each target
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for (OpenPgpFingerprint targetFp : issuedBy.keySet()) {
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List<Certification> onCert = issuedBy.get(targetFp);
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CertificationSet edgeSigs = CertificationSet.empty(certSynopsisMap.get(issuerFp), certSynopsisMap.get(targetFp));
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for (Certification certification : onCert) {
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edgeSigs.add(certification);
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}
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edge.add(edgeSigs);
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List<CertificationSet> reverseEdge = reverseEdges.get(targetFp);
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if (reverseEdge == null) {
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reverseEdge = new ArrayList<>();
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reverseEdges.put(targetFp, reverseEdge);
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}
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reverseEdge.add(edgeSigs);
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}
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edges.put(issuerFp, edge);
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}
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return new Network(certSynopsisMap, edges, reverseEdges, referenceTime);
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}
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private static RevocationState revocationStateFromSignature(PGPSignature revocation) {
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if (revocation == null) {
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return RevocationState.notRevoked();
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@ -19,6 +19,6 @@ public class WebOfTrustTest {
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WebOfTrust wot = new WebOfTrust(store);
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wot.initialize();
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// TODO: Test stuff
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System.out.println(wot);
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}
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}
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