305 lines
14 KiB
Kotlin
305 lines
14 KiB
Kotlin
// SPDX-FileCopyrightText: 2023 Paul Schaub <vanitasvitae@fsfe.org>
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//
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// SPDX-License-Identifier: Apache-2.0
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package org.pgpainless.signature.consumer
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import java.io.InputStream
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import java.util.*
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import openpgp.openPgpKeyId
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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.SignatureType
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import org.pgpainless.bouncycastle.extensions.issuerKeyId
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import org.pgpainless.exception.SignatureValidationException
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import org.pgpainless.key.util.KeyRingUtils
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import org.pgpainless.policy.Policy
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import org.pgpainless.signature.subpackets.SignatureSubpacketsUtil
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import org.slf4j.LoggerFactory
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/**
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* A collection of static methods that validate signing certificates (public keys) and verify
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* signature correctness.
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*/
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class CertificateValidator {
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companion object {
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@JvmStatic private val LOGGER = LoggerFactory.getLogger(CertificateValidator::class.java)
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/**
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* Check if the signing key was eligible to create the provided signature.
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*
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* That entails:
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* - Check, if the primary key is being revoked via key-revocation signatures.
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* - Check, if the keys user-ids are revoked or not bound.
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* - Check, if the signing subkey is revoked or expired.
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* - Check, if the signing key is not capable of signing
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*
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* @param signature signature
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* @param signingKeyRing signing key ring
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* @param policy validation policy
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* @return true if the signing key was eligible to create the signature
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* @throws SignatureValidationException in case of a validation constraint violation
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*/
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@JvmStatic
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@Throws(SignatureValidationException::class)
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fun validateCertificate(
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signature: PGPSignature,
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signingKeyRing: PGPPublicKeyRing,
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policy: Policy = PGPainless.getPolicy()
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): Boolean {
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val signingSubkey: PGPPublicKey =
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signingKeyRing.getPublicKey(signature.issuerKeyId)
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?: throw SignatureValidationException(
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"Provided key ring does not contain a subkey with id ${signature.issuerKeyId.openPgpKeyId()}.")
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val primaryKey = signingKeyRing.publicKey!!
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val directKeyAndRevSigs = mutableListOf<PGPSignature>()
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val rejections = mutableMapOf<PGPSignature, Exception>()
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// revocations
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primaryKey
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.getSignaturesOfType(SignatureType.KEY_REVOCATION.code)
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.asSequence()
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.filter {
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it.issuerKeyId == primaryKey.keyID
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} // We do not support external rev keys
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.forEach {
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try {
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if (SignatureVerifier.verifyKeyRevocationSignature(
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it, primaryKey, policy, signature.creationTime)) {
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directKeyAndRevSigs.add(it)
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}
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} catch (e: SignatureValidationException) {
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rejections[it] = e
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LOGGER.debug("Rejecting key revocation signature: ${e.message}", e)
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}
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}
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// direct-key sigs
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primaryKey
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.getSignaturesOfType(SignatureType.DIRECT_KEY.code)
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.asSequence()
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.filter { it.issuerKeyId == primaryKey.keyID }
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.forEach {
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try {
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if (SignatureVerifier.verifyDirectKeySignature(
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it, primaryKey, policy, signature.creationTime)) {
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directKeyAndRevSigs.add(it)
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}
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} catch (e: SignatureValidationException) {
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rejections[it] = e
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LOGGER.debug("Rejecting key signature: ${e.message}, e")
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}
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}
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directKeyAndRevSigs.sortWith(
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SignatureValidityComparator(SignatureCreationDateComparator.Order.NEW_TO_OLD))
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if (directKeyAndRevSigs.isNotEmpty()) {
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if (directKeyAndRevSigs[0].signatureType == SignatureType.KEY_REVOCATION.code) {
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throw SignatureValidationException("Primary key has been revoked.")
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}
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}
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// UserID signatures
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val userIdSignatures = mutableMapOf<String, List<PGPSignature>>()
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KeyRingUtils.getUserIdsIgnoringInvalidUTF8(primaryKey).forEach { userId ->
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buildList<PGPSignature> {
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primaryKey
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.getSignaturesForID(userId)
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.asSequence()
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.filter { it.issuerKeyId == primaryKey.keyID }
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.forEach { uidSig ->
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try {
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if (SignatureVerifier.verifySignatureOverUserId(
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userId,
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uidSig,
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primaryKey,
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policy,
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signature.creationTime)) {
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add(uidSig)
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}
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} catch (e: SignatureValidationException) {
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rejections[uidSig] = e
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LOGGER.debug("Rejecting user-id signature: ${e.message}", e)
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}
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}
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}
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.sortedWith(
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SignatureValidityComparator(
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SignatureCreationDateComparator.Order.NEW_TO_OLD))
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.let { userIdSignatures[userId] = it }
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}
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val hasAnyUserIds = userIdSignatures.isNotEmpty()
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val isAnyUserIdValid =
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userIdSignatures.any { entry ->
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entry.value.isNotEmpty() &&
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entry.value[0].signatureType != SignatureType.CERTIFICATION_REVOCATION.code
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}
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if (hasAnyUserIds && !isAnyUserIdValid) {
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throw SignatureValidationException("No valid user-id found.", rejections)
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}
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// Specific signer user-id
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if (policy.signerUserIdValidationLevel == Policy.SignerUserIdValidationLevel.STRICT) {
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SignatureSubpacketsUtil.getSignerUserID(signature)?.let {
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if (userIdSignatures[it.id] == null || userIdSignatures[it.id]!!.isEmpty()) {
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throw SignatureValidationException(
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"Signature was allegedly made by user-id '${it.id}'," +
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" but we have no valid signatures for that on the certificate.")
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}
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if (userIdSignatures[it.id]!![0].signatureType ==
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SignatureType.CERTIFICATION_REVOCATION.code) {
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throw SignatureValidationException(
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"Signature was made with user-id '${it.id}' which is revoked.")
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}
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}
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}
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if (signingSubkey.keyID == primaryKey.keyID) { // signing key is primary key
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if (directKeyAndRevSigs.isNotEmpty()) {
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val directKeySig = directKeyAndRevSigs[0]!!
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val flags = SignatureSubpacketsUtil.getKeyFlags(directKeySig)
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if (flags != null && KeyFlag.hasKeyFlag(flags.flags, KeyFlag.SIGN_DATA)) {
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return true
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}
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}
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} else { // signing key is subkey
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val subkeySigs = mutableListOf<PGPSignature>()
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signingSubkey
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.getSignaturesOfType(SignatureType.SUBKEY_REVOCATION.code)
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.asSequence()
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.filter { it.issuerKeyId == primaryKey.keyID }
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.forEach {
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try {
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if (SignatureVerifier.verifySubkeyBindingRevocation(
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it, primaryKey, signingSubkey, policy, signature.creationTime)) {
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subkeySigs.add(it)
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}
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} catch (e: SignatureValidationException) {
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rejections[it] = e
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LOGGER.debug("REjecting subkey revocation signature: ${e.message}", e)
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}
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}
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signingSubkey
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.getSignaturesOfType(SignatureType.SUBKEY_BINDING.code)
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.asSequence()
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.forEach {
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try {
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if (SignatureVerifier.verifySubkeyBindingSignature(
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it, primaryKey, signingSubkey, policy, signature.creationTime)) {
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subkeySigs.add(it)
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}
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} catch (e: SignatureValidationException) {
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rejections[it] = e
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LOGGER.debug("Rejecting subkey binding signature: ${e.message}", e)
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}
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}
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subkeySigs.sortWith(
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SignatureValidityComparator(SignatureCreationDateComparator.Order.NEW_TO_OLD))
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if (subkeySigs.isEmpty()) {
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throw SignatureValidationException("Subkey is not bound.", rejections)
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}
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if (subkeySigs[0].signatureType == SignatureType.SUBKEY_REVOCATION.code) {
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throw SignatureValidationException("Subkey is revoked.")
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}
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val keyFlags = SignatureSubpacketsUtil.getKeyFlags(subkeySigs[0])
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if (keyFlags == null || !KeyFlag.hasKeyFlag(keyFlags.flags, KeyFlag.SIGN_DATA)) {
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throw SignatureValidationException(
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"Signature was made by key which is not capable of signing (no keyflag).")
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}
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}
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return true
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}
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/**
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* Validate the given signing key and then verify the given signature while parsing out the
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* signed data. Uninitialized means that no signed data has been read and the hash
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* generators state has not yet been updated.
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*
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* @param signature uninitialized signature
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* @param signedData input stream containing signed data
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* @param signingKeyRing key ring containing signing key
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* @param policy validation policy
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* @param validationDate date of validation
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* @return true if the signature is valid, false otherwise
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* @throws SignatureValidationException for validation constraint violations
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*/
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@JvmStatic
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@Throws(SignatureValidationException::class)
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fun validateCertificateAndVerifyUninitializedSignature(
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signature: PGPSignature,
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signedData: InputStream,
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signingKeyRing: PGPPublicKeyRing,
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policy: Policy,
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referenceTime: Date = signature.creationTime
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): Boolean {
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return validateCertificate(signature, signingKeyRing, policy) &&
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SignatureVerifier.verifyUninitializedSignature(
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signature,
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signedData,
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signingKeyRing.getPublicKey(signature.issuerKeyId)!!,
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policy,
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referenceTime)
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}
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/**
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* Validate the signing key and the given initialized signature. Initialized means that the
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* signatures hash generator has already been updated by reading the signed data completely.
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*
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* @param signature initialized signature
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* @param verificationKeys key ring containing the verification key
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* @param policy validation policy
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* @return true if the signature is valid, false otherwise
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* @throws SignatureValidationException in case of a validation constraint violation
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*/
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@JvmStatic
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@Throws(SignatureValidationException::class)
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fun validateCertificateAndVerifyInitializedSignature(
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signature: PGPSignature,
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verificationKeys: PGPPublicKeyRing,
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policy: Policy
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): Boolean {
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return validateCertificate(signature, verificationKeys, policy) &&
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SignatureVerifier.verifyInitializedSignature(
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signature,
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verificationKeys.getPublicKey(signature.issuerKeyId),
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policy,
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signature.creationTime)
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}
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/**
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* Validate the signing key certificate and the given [OnePassSignatureCheck].
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*
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* @param onePassSignature corresponding one-pass-signature
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* @param policy policy
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* @return true if the certificate is valid and the signature is correct, false otherwise.
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* @throws SignatureValidationException in case of a validation error
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*/
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@JvmStatic
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@Throws(SignatureValidationException::class)
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fun validateCertificateAndVerifyOnePassSignature(
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onePassSignature: OnePassSignatureCheck,
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policy: Policy
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): Boolean {
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return validateCertificate(
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onePassSignature.signature!!, onePassSignature.verificationKeys, policy) &&
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SignatureVerifier.verifyOnePassSignature(
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onePassSignature.signature!!,
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onePassSignature.verificationKeys.getPublicKey(
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onePassSignature.signature!!.issuerKeyId),
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onePassSignature,
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policy)
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}
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}
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}
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