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Kotlin conversion: SecretKeyRingProtector and subclasses

This commit is contained in:
Paul Schaub 2023-08-31 17:15:36 +02:00
parent 56d573aec6
commit 17d74cb52c
Signed by: vanitasvitae
GPG key ID: 62BEE9264BF17311
16 changed files with 198 additions and 215 deletions

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@ -44,13 +44,13 @@ public class BaseSecretKeyRingProtector implements SecretKeyRingProtector {
}
@Override
public boolean hasPassphraseFor(Long keyId) {
public boolean hasPassphraseFor(long keyId) {
return passphraseProvider.hasPassphrase(keyId);
}
@Override
@Nullable
public PBESecretKeyDecryptor getDecryptor(Long keyId) throws PGPException {
public PBESecretKeyDecryptor getDecryptor(long keyId) throws PGPException {
Passphrase passphrase = passphraseProvider.getPassphraseFor(keyId);
return passphrase == null || passphrase.isEmpty() ? null :
ImplementationFactory.getInstance().getPBESecretKeyDecryptor(passphrase);
@ -58,7 +58,7 @@ public class BaseSecretKeyRingProtector implements SecretKeyRingProtector {
@Override
@Nullable
public PBESecretKeyEncryptor getEncryptor(Long keyId) throws PGPException {
public PBESecretKeyEncryptor getEncryptor(long keyId) throws PGPException {
Passphrase passphrase = passphraseProvider.getPassphraseFor(keyId);
return passphrase == null || passphrase.isEmpty() ? null :
ImplementationFactory.getInstance().getPBESecretKeyEncryptor(

View file

@ -60,12 +60,12 @@ public class CachingSecretKeyRingProtector implements SecretKeyRingProtector, Se
* containing a key with the same key-id but different passphrases.
*
* If you can ensure that there will be no key-id clash, and you want to replace the passphrase, you can use
* {@link #replacePassphrase(Long, Passphrase)} to replace the passphrase.
* {@link #replacePassphrase(long, Passphrase)} to replace the passphrase.
*
* @param keyId id of the key
* @param passphrase passphrase
*/
public void addPassphrase(@Nonnull Long keyId, @Nonnull Passphrase passphrase) {
public void addPassphrase(long keyId, @Nonnull Passphrase passphrase) {
if (this.cache.containsKey(keyId)) {
throw new IllegalArgumentException("The cache already holds a passphrase for ID " + Long.toHexString(keyId) + ".\n" +
"If you want to replace the passphrase, use replacePassphrase(Long, Passphrase) instead.");
@ -79,7 +79,7 @@ public class CachingSecretKeyRingProtector implements SecretKeyRingProtector, Se
* @param keyId keyId
* @param passphrase passphrase
*/
public void replacePassphrase(@Nonnull Long keyId, @Nonnull Passphrase passphrase) {
public void replacePassphrase(long keyId, @Nonnull Passphrase passphrase) {
this.cache.put(keyId, passphrase);
}
@ -152,7 +152,7 @@ public class CachingSecretKeyRingProtector implements SecretKeyRingProtector, Se
*
* @param keyId id of the key
*/
public void forgetPassphrase(@Nonnull Long keyId) {
public void forgetPassphrase(long keyId) {
Passphrase passphrase = cache.remove(keyId);
if (passphrase != null) {
passphrase.clear();
@ -183,7 +183,7 @@ public class CachingSecretKeyRingProtector implements SecretKeyRingProtector, Se
@Override
@Nullable
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
Passphrase passphrase = cache.get(keyId);
if (passphrase == null || !passphrase.isValid()) {
if (provider == null) {
@ -198,25 +198,25 @@ public class CachingSecretKeyRingProtector implements SecretKeyRingProtector, Se
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
Passphrase passphrase = cache.get(keyId);
return passphrase != null && passphrase.isValid();
}
@Override
public boolean hasPassphraseFor(Long keyId) {
public boolean hasPassphraseFor(long keyId) {
return hasPassphrase(keyId);
}
@Override
@Nullable
public PBESecretKeyDecryptor getDecryptor(@Nonnull Long keyId) throws PGPException {
public PBESecretKeyDecryptor getDecryptor(long keyId) throws PGPException {
return protector.getDecryptor(keyId);
}
@Override
@Nullable
public PBESecretKeyEncryptor getEncryptor(@Nonnull Long keyId) throws PGPException {
public PBESecretKeyEncryptor getEncryptor(long keyId) throws PGPException {
return protector.getEncryptor(keyId);
}
}

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@ -40,12 +40,12 @@ public class PasswordBasedSecretKeyRingProtector extends BaseSecretKeyRingProtec
SecretKeyPassphraseProvider passphraseProvider = new SecretKeyPassphraseProvider() {
@Override
@Nullable
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
return hasPassphrase(keyId) ? passphrase : null;
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return keyRing.getPublicKey(keyId) != null;
}
};
@ -60,7 +60,7 @@ public class PasswordBasedSecretKeyRingProtector extends BaseSecretKeyRingProtec
SecretKeyPassphraseProvider passphraseProvider = new SecretKeyPassphraseProvider() {
@Nullable
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
if (keyId == singleKeyId) {
return passphrase;
}
@ -68,7 +68,7 @@ public class PasswordBasedSecretKeyRingProtector extends BaseSecretKeyRingProtec
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return keyId == singleKeyId;
}
};

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@ -1,168 +0,0 @@
// SPDX-FileCopyrightText: 2018 Paul Schaub <vanitasvitae@fsfe.org>
//
// SPDX-License-Identifier: Apache-2.0
package org.pgpainless.key.protection;
import java.util.HashMap;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import org.bouncycastle.openpgp.PGPException;
import org.bouncycastle.openpgp.PGPSecretKey;
import org.bouncycastle.openpgp.PGPSecretKeyRing;
import org.bouncycastle.openpgp.operator.PBESecretKeyDecryptor;
import org.bouncycastle.openpgp.operator.PBESecretKeyEncryptor;
import org.pgpainless.key.protection.passphrase_provider.SecretKeyPassphraseProvider;
import org.pgpainless.key.protection.passphrase_provider.SolitaryPassphraseProvider;
import org.pgpainless.util.Passphrase;
/**
* Task of the {@link SecretKeyRingProtector} is to map encryptor/decryptor objects to key-ids.
* {@link PBESecretKeyEncryptor PBESecretKeyEncryptors}/{@link PBESecretKeyDecryptor PBESecretKeyDecryptors} are used
* to encrypt/decrypt secret keys using a passphrase.
*
* While it is easy to create an implementation of this interface that fits your needs, there are a bunch of
* implementations ready for use.
*/
public interface SecretKeyRingProtector {
/**
* Returns true, if the protector has a passphrase for the key with the given key-id.
*
* @param keyId key id
* @return true if it has a passphrase, false otherwise
*/
boolean hasPassphraseFor(Long keyId);
/**
* Return a decryptor for the key of id {@code keyId}.
* This method returns null if the key is unprotected.
*
* @param keyId id of the key
* @return decryptor for the key
*
* @throws PGPException if the decryptor cannot be created for some reason
*/
@Nullable PBESecretKeyDecryptor getDecryptor(Long keyId) throws PGPException;
/**
* Return an encryptor for the key of id {@code keyId}.
* This method returns null if the key is unprotected.
*
* @param keyId id of the key
* @return encryptor for the key
*
* @throws PGPException if the encryptor cannot be created for some reason
*/
@Nullable PBESecretKeyEncryptor getEncryptor(Long keyId) throws PGPException;
/**
* Return a protector for secret keys.
* The protector maintains an in-memory cache of passphrases and can be extended with new passphrases
* at runtime.
*
* See {@link CachingSecretKeyRingProtector} for how to memorize/forget additional passphrases during runtime.
*
* @param missingPassphraseCallback callback that is used to provide missing passphrases.
* @return caching secret key protector
*/
static CachingSecretKeyRingProtector defaultSecretKeyRingProtector(SecretKeyPassphraseProvider missingPassphraseCallback) {
return new CachingSecretKeyRingProtector(
new HashMap<>(),
KeyRingProtectionSettings.secureDefaultSettings(),
missingPassphraseCallback);
}
/**
* Use the provided passphrase to lock/unlock all keys in the provided key ring.
*
* This protector will use the provided passphrase to lock/unlock all subkeys present in the provided keys object.
* For other keys that are not present in the ring, it will return null.
*
* @param passphrase passphrase
* @param keys key ring
* @return protector
* @deprecated use {@link #unlockEachKeyWith(Passphrase, PGPSecretKeyRing)} instead.
*
* TODO: Remove in 1.2.X
*/
@Deprecated
static SecretKeyRingProtector unlockAllKeysWith(@Nonnull Passphrase passphrase, @Nonnull PGPSecretKeyRing keys) {
return unlockEachKeyWith(passphrase, keys);
}
/**
* Use the provided passphrase to lock/unlock all keys in the provided key ring.
*
* This protector will use the provided passphrase to lock/unlock all subkeys present in the provided keys object.
* For other keys that are not present in the ring, it will return null.
*
* @param passphrase passphrase
* @param keys key ring
* @return protector
*/
static SecretKeyRingProtector unlockEachKeyWith(@Nonnull Passphrase passphrase, @Nonnull PGPSecretKeyRing keys) {
Map<Long, Passphrase> map = new ConcurrentHashMap<>();
for (PGPSecretKey secretKey : keys) {
map.put(secretKey.getKeyID(), passphrase);
}
return fromPassphraseMap(map);
}
/**
* Use the provided passphrase to unlock any key.
*
* @param passphrase passphrase
* @return protector
*/
static SecretKeyRingProtector unlockAnyKeyWith(@Nonnull Passphrase passphrase) {
return new BaseSecretKeyRingProtector(new SolitaryPassphraseProvider(passphrase));
}
/**
* Use the provided passphrase to lock/unlock only the provided (sub-)key.
* This protector will only return a non-null encryptor/decryptor based on the provided passphrase if
* {@link #getEncryptor(Long)}/{@link #getDecryptor(Long)} is getting called with the key-id of the provided key.
*
* Otherwise, this protector will always return null.
*
* @param passphrase passphrase
* @param key key to lock/unlock
* @return protector
*/
static SecretKeyRingProtector unlockSingleKeyWith(@Nonnull Passphrase passphrase, @Nonnull PGPSecretKey key) {
return PasswordBasedSecretKeyRingProtector.forKey(key, passphrase);
}
static SecretKeyRingProtector unlockSingleKeyWith(@Nonnull Passphrase passphrase, long keyId) {
return PasswordBasedSecretKeyRingProtector.forKeyId(keyId, passphrase);
}
/**
* Protector for unprotected keys.
* This protector returns null for all {@link #getEncryptor(Long)}/{@link #getDecryptor(Long)} calls,
* no matter what the key-id is.
*
* As a consequence, this protector can only "unlock" keys which are not protected using a passphrase, and it will
* leave keys unprotected, should it be used to "protect" a key
* (e.g. in {@link org.pgpainless.key.modification.secretkeyring.SecretKeyRingEditor#changePassphraseFromOldPassphrase(Passphrase)}).
*
* @return protector
*/
static SecretKeyRingProtector unprotectedKeys() {
return new UnprotectedKeysProtector();
}
/**
* Use the provided map of key-ids and passphrases to unlock keys.
*
* @param passphraseMap map of key ids and their respective passphrases
* @return protector
*/
static SecretKeyRingProtector fromPassphraseMap(@Nonnull Map<Long, Passphrase> passphraseMap) {
return new CachingSecretKeyRingProtector(passphraseMap, KeyRingProtectionSettings.secureDefaultSettings(), null);
}
}

View file

@ -61,6 +61,7 @@ public final class UnlockSecretKey {
public static PGPPrivateKey unlockSecretKey(PGPSecretKey secretKey, Passphrase passphrase)
throws PGPException, KeyIntegrityException {
return unlockSecretKey(secretKey, SecretKeyRingProtector.unlockSingleKeyWith(passphrase, secretKey));
return unlockSecretKey(secretKey, SecretKeyRingProtector.unlockSingleKeyWith(
passphrase == null ? Passphrase.emptyPassphrase() : passphrase, secretKey));
}
}

View file

@ -15,19 +15,19 @@ import org.bouncycastle.openpgp.operator.PBESecretKeyEncryptor;
public class UnprotectedKeysProtector implements SecretKeyRingProtector {
@Override
public boolean hasPassphraseFor(Long keyId) {
public boolean hasPassphraseFor(long keyId) {
return true;
}
@Override
@Nullable
public PBESecretKeyDecryptor getDecryptor(Long keyId) {
public PBESecretKeyDecryptor getDecryptor(long keyId) {
return null;
}
@Override
@Nullable
public PBESecretKeyEncryptor getEncryptor(Long keyId) {
public PBESecretKeyEncryptor getEncryptor(long keyId) {
return null;
}
}

View file

@ -31,12 +31,12 @@ public class MapBasedPassphraseProvider implements SecretKeyPassphraseProvider {
@Nullable
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
return map.get(keyId);
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return map.containsKey(keyId);
}
}

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@ -34,7 +34,7 @@ public interface SecretKeyPassphraseProvider {
* @param keyId if of the secret key
* @return passphrase or null, if no passphrase record has been found.
*/
@Nullable Passphrase getPassphraseFor(Long keyId);
@Nullable Passphrase getPassphraseFor(long keyId);
boolean hasPassphrase(Long keyId);
boolean hasPassphrase(long keyId);
}

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@ -21,13 +21,13 @@ public class SolitaryPassphraseProvider implements SecretKeyPassphraseProvider {
@Nullable
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
// always return the same passphrase.
return passphrase;
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return true;
}
}

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@ -0,0 +1,150 @@
// SPDX-FileCopyrightText: 2023 Paul Schaub <vanitasvitae@fsfe.org>
//
// SPDX-License-Identifier: Apache-2.0
package org.pgpainless.key.protection
import org.bouncycastle.openpgp.PGPException
import org.bouncycastle.openpgp.PGPSecretKey
import org.bouncycastle.openpgp.PGPSecretKeyRing
import org.bouncycastle.openpgp.operator.PBESecretKeyDecryptor
import org.bouncycastle.openpgp.operator.PBESecretKeyEncryptor
import org.pgpainless.key.protection.passphrase_provider.SecretKeyPassphraseProvider
import org.pgpainless.key.protection.passphrase_provider.SolitaryPassphraseProvider
import org.pgpainless.util.Passphrase
import kotlin.jvm.Throws
/**
* Task of the [SecretKeyRingProtector] is to map encryptor/decryptor objects to key-ids.
* [PBESecretKeyEncryptor]/[PBESecretKeyDecryptor] are used to encrypt/decrypt secret keys using a passphrase.
*
* While it is easy to create an implementation of this interface that fits your needs, there are a bunch of
* implementations ready for use.
*/
interface SecretKeyRingProtector {
/**
* Returns true, if the protector has a passphrase for the key with the given key-id.
*
* @param keyId key id
* @return true if it has a passphrase, false otherwise
*/
fun hasPassphraseFor(keyId: Long): Boolean
/**
* Return a decryptor for the key of id `keyId`.
* This method returns null if the key is unprotected.
*
* @param keyId id of the key
* @return decryptor for the key
*/
@Throws(PGPException::class)
fun getDecryptor(keyId: Long): PBESecretKeyDecryptor?
/**
* Return an encryptor for the key of id `keyId`.
* This method returns null if the key is unprotected.
*
* @param keyId id of the key
* @return encryptor for the key
*/
@Throws(PGPException::class)
fun getEncryptor(keyId: Long): PBESecretKeyEncryptor?
companion object {
/**
* Return a protector for secret keys.
* The protector maintains an in-memory cache of passphrases and can be extended with new passphrases
* at runtime.
*
* See [CachingSecretKeyRingProtector] for how to memorize/forget additional passphrases during runtime.
*
* @param missingPassphraseCallback callback that is used to provide missing passphrases.
* @return caching secret key protector
*/
@JvmStatic
fun defaultSecretKeyRingProtector(
missingPassphraseCallback: SecretKeyPassphraseProvider?
): CachingSecretKeyRingProtector = CachingSecretKeyRingProtector(
mapOf(), KeyRingProtectionSettings.secureDefaultSettings(), missingPassphraseCallback)
/**
* Use the provided passphrase to lock/unlock all keys in the provided key ring.
*
* This protector will use the provided passphrase to lock/unlock all subkeys present in the provided keys object.
* For other keys that are not present in the ring, it will return null.
*
* @param passphrase passphrase
* @param keys key ring
* @return protector
*/
@JvmStatic
fun unlockEachKeyWith(passphrase: Passphrase, keys: PGPSecretKeyRing): SecretKeyRingProtector =
fromPassphraseMap(keys.map { it.keyID }.associateWith { passphrase })
/**
* Use the provided passphrase to unlock any key.
*
* @param passphrase passphrase
* @return protector
*/
@JvmStatic
fun unlockAnyKeyWith(passphrase: Passphrase): SecretKeyRingProtector =
BaseSecretKeyRingProtector(SolitaryPassphraseProvider(passphrase))
/**
* Use the provided passphrase to lock/unlock only the provided (sub-)key.
* This protector will only return a non-null encryptor/decryptor based on the provided passphrase if
* [getEncryptor]/[getDecryptor] is getting called with the key-id of the provided key.
*
* Otherwise, this protector will always return null.
*
* @param passphrase passphrase
* @param key key to lock/unlock
* @return protector
*/
@JvmStatic
fun unlockSingleKeyWith(passphrase: Passphrase, key: PGPSecretKey): SecretKeyRingProtector =
PasswordBasedSecretKeyRingProtector.forKey(key, passphrase)
/**
* Use the provided passphrase to lock/unlock only the provided (sub-)key.
* This protector will only return a non-null encryptor/decryptor based on the provided passphrase if
* [getEncryptor]/[getDecryptor] is getting called with the key-id of the provided key.
*
* Otherwise, this protector will always return null.
*
* @param passphrase passphrase
* @param keyId id of the key to lock/unlock
* @return protector
*/
@JvmStatic
fun unlockSingleKeyWith(passphrase: Passphrase, keyId: Long): SecretKeyRingProtector =
PasswordBasedSecretKeyRingProtector.forKeyId(keyId, passphrase)
/**
* Protector for unprotected keys.
* This protector returns null for all [getEncryptor]/[getDecryptor] calls,
* no matter what the key-id is.
*
* As a consequence, this protector can only "unlock" keys which are not protected using a passphrase, and it will
* leave keys unprotected, should it be used to "protect" a key
* (e.g. in [org.pgpainless.key.modification.secretkeyring.SecretKeyRingEditor.changePassphraseFromOldPassphrase]).
*
* @return protector
*/
@JvmStatic
fun unprotectedKeys() = UnprotectedKeysProtector()
/**
* Use the provided map of key-ids and passphrases to unlock keys.
*
* @param passphraseMap map of key ids and their respective passphrases
* @return protector
*/
@JvmStatic
fun fromPassphraseMap(passphraseMap: Map<Long, Passphrase>): SecretKeyRingProtector =
CachingSecretKeyRingProtector(passphraseMap, KeyRingProtectionSettings.secureDefaultSettings(), null)
}
}

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@ -63,13 +63,13 @@ public class MissingPassphraseForDecryptionTest {
// interactive callback
SecretKeyPassphraseProvider callback = new SecretKeyPassphraseProvider() {
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
// is called in interactive mode
return Passphrase.fromPassword(passphrase);
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return true;
}
};
@ -95,13 +95,13 @@ public class MissingPassphraseForDecryptionTest {
SecretKeyPassphraseProvider callback = new SecretKeyPassphraseProvider() {
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
fail("MUST NOT get called in non-interactive mode.");
return null;
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return true;
}
};

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@ -120,13 +120,13 @@ public class PostponeDecryptionUsingKeyWithMissingPassphraseTest {
public void missingPassphraseFirst() throws PGPException, IOException {
SecretKeyRingProtector protector1 = new CachingSecretKeyRingProtector(new SecretKeyPassphraseProvider() {
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
fail("Although the first PKESK is for k1, we should have skipped it and tried k2 first, which has passphrase available.");
return null;
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return false;
}
});
@ -150,13 +150,13 @@ public class PostponeDecryptionUsingKeyWithMissingPassphraseTest {
SecretKeyRingProtector protector1 = SecretKeyRingProtector.unlockEachKeyWith(p1, k1);
SecretKeyRingProtector protector2 = new CachingSecretKeyRingProtector(new SecretKeyPassphraseProvider() {
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
fail("This callback should not get called, since the first PKESK is for k1, which has a passphrase available.");
return null;
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return false;
}
});
@ -178,13 +178,13 @@ public class PostponeDecryptionUsingKeyWithMissingPassphraseTest {
public void messagePassphraseFirst() throws PGPException, IOException {
SecretKeyPassphraseProvider provider = new SecretKeyPassphraseProvider() {
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
fail("Since we provide a decryption passphrase, we should not try to decrypt any key.");
return null;
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return false;
}
};

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@ -32,13 +32,13 @@ public class CachingSecretKeyRingProtectorTest {
// Dummy passphrase callback that returns the doubled key-id as passphrase
private final SecretKeyPassphraseProvider dummyCallback = new SecretKeyPassphraseProvider() {
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
long doubled = keyId * 2;
return Passphrase.fromPassword(Long.toString(doubled));
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return true;
}
};

View file

@ -31,8 +31,8 @@ public class PassphraseProtectedKeyTest {
new SecretKeyPassphraseProvider() {
@Nullable
@Override
public Passphrase getPassphraseFor(Long keyId) {
if (keyId.equals(TestKeys.CRYPTIE_KEY_ID)) {
public Passphrase getPassphraseFor(long keyId) {
if (keyId == TestKeys.CRYPTIE_KEY_ID) {
return new Passphrase(TestKeys.CRYPTIE_PASSWORD.toCharArray());
} else {
return null;
@ -40,8 +40,8 @@ public class PassphraseProtectedKeyTest {
}
@Override
public boolean hasPassphrase(Long keyId) {
return keyId.equals(TestKeys.CRYPTIE_KEY_ID);
public boolean hasPassphrase(long keyId) {
return keyId == TestKeys.CRYPTIE_KEY_ID;
}
});

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@ -108,12 +108,12 @@ public class SecretKeyRingProtectorTest {
CachingSecretKeyRingProtector protector = new CachingSecretKeyRingProtector(passphraseMap,
KeyRingProtectionSettings.secureDefaultSettings(), new SecretKeyPassphraseProvider() {
@Override
public Passphrase getPassphraseFor(Long keyId) {
public Passphrase getPassphraseFor(long keyId) {
return Passphrase.fromPassword("missingP455w0rd");
}
@Override
public boolean hasPassphrase(Long keyId) {
public boolean hasPassphrase(long keyId) {
return true;
}
});

View file

@ -88,19 +88,19 @@ public class MatchMakingSecretKeyRingProtector implements SecretKeyRingProtector
}
@Override
public boolean hasPassphraseFor(Long keyId) {
public boolean hasPassphraseFor(long keyId) {
return protector.hasPassphrase(keyId);
}
@Nullable
@Override
public PBESecretKeyDecryptor getDecryptor(Long keyId) throws PGPException {
public PBESecretKeyDecryptor getDecryptor(long keyId) throws PGPException {
return protector.getDecryptor(keyId);
}
@Nullable
@Override
public PBESecretKeyEncryptor getEncryptor(Long keyId) throws PGPException {
public PBESecretKeyEncryptor getEncryptor(long keyId) throws PGPException {
return protector.getEncryptor(keyId);
}