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CryptoKeyVersion.java
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CryptoKeyVersion.java
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/*
* Copyright 2020 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// Generated by the protocol buffer compiler. DO NOT EDIT!
// source: google/cloud/kms/v1/resources.proto
package com.google.cloud.kms.v1;
/**
*
*
* <pre>
* A [CryptoKeyVersion][google.cloud.kms.v1.CryptoKeyVersion] represents an individual cryptographic key, and the
* associated key material.
* An [ENABLED][google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionState.ENABLED] version can be
* used for cryptographic operations.
* For security reasons, the raw cryptographic key material represented by a
* [CryptoKeyVersion][google.cloud.kms.v1.CryptoKeyVersion] can never be viewed or exported. It can only be used to
* encrypt, decrypt, or sign data when an authorized user or application invokes
* Cloud KMS.
* </pre>
*
* Protobuf type {@code google.cloud.kms.v1.CryptoKeyVersion}
*/
public final class CryptoKeyVersion extends com.google.protobuf.GeneratedMessageV3
implements
// @@protoc_insertion_point(message_implements:google.cloud.kms.v1.CryptoKeyVersion)
CryptoKeyVersionOrBuilder {
private static final long serialVersionUID = 0L;
// Use CryptoKeyVersion.newBuilder() to construct.
private CryptoKeyVersion(com.google.protobuf.GeneratedMessageV3.Builder<?> builder) {
super(builder);
}
private CryptoKeyVersion() {
name_ = "";
state_ = 0;
protectionLevel_ = 0;
algorithm_ = 0;
importJob_ = "";
importFailureReason_ = "";
}
@java.lang.Override
@SuppressWarnings({"unused"})
protected java.lang.Object newInstance(UnusedPrivateParameter unused) {
return new CryptoKeyVersion();
}
@java.lang.Override
public final com.google.protobuf.UnknownFieldSet getUnknownFields() {
return this.unknownFields;
}
private CryptoKeyVersion(
com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry)
throws com.google.protobuf.InvalidProtocolBufferException {
this();
if (extensionRegistry == null) {
throw new java.lang.NullPointerException();
}
com.google.protobuf.UnknownFieldSet.Builder unknownFields =
com.google.protobuf.UnknownFieldSet.newBuilder();
try {
boolean done = false;
while (!done) {
int tag = input.readTag();
switch (tag) {
case 0:
done = true;
break;
case 10:
{
java.lang.String s = input.readStringRequireUtf8();
name_ = s;
break;
}
case 24:
{
int rawValue = input.readEnum();
state_ = rawValue;
break;
}
case 34:
{
com.google.protobuf.Timestamp.Builder subBuilder = null;
if (createTime_ != null) {
subBuilder = createTime_.toBuilder();
}
createTime_ =
input.readMessage(com.google.protobuf.Timestamp.parser(), extensionRegistry);
if (subBuilder != null) {
subBuilder.mergeFrom(createTime_);
createTime_ = subBuilder.buildPartial();
}
break;
}
case 42:
{
com.google.protobuf.Timestamp.Builder subBuilder = null;
if (destroyTime_ != null) {
subBuilder = destroyTime_.toBuilder();
}
destroyTime_ =
input.readMessage(com.google.protobuf.Timestamp.parser(), extensionRegistry);
if (subBuilder != null) {
subBuilder.mergeFrom(destroyTime_);
destroyTime_ = subBuilder.buildPartial();
}
break;
}
case 50:
{
com.google.protobuf.Timestamp.Builder subBuilder = null;
if (destroyEventTime_ != null) {
subBuilder = destroyEventTime_.toBuilder();
}
destroyEventTime_ =
input.readMessage(com.google.protobuf.Timestamp.parser(), extensionRegistry);
if (subBuilder != null) {
subBuilder.mergeFrom(destroyEventTime_);
destroyEventTime_ = subBuilder.buildPartial();
}
break;
}
case 56:
{
int rawValue = input.readEnum();
protectionLevel_ = rawValue;
break;
}
case 66:
{
com.google.cloud.kms.v1.KeyOperationAttestation.Builder subBuilder = null;
if (attestation_ != null) {
subBuilder = attestation_.toBuilder();
}
attestation_ =
input.readMessage(
com.google.cloud.kms.v1.KeyOperationAttestation.parser(), extensionRegistry);
if (subBuilder != null) {
subBuilder.mergeFrom(attestation_);
attestation_ = subBuilder.buildPartial();
}
break;
}
case 80:
{
int rawValue = input.readEnum();
algorithm_ = rawValue;
break;
}
case 90:
{
com.google.protobuf.Timestamp.Builder subBuilder = null;
if (generateTime_ != null) {
subBuilder = generateTime_.toBuilder();
}
generateTime_ =
input.readMessage(com.google.protobuf.Timestamp.parser(), extensionRegistry);
if (subBuilder != null) {
subBuilder.mergeFrom(generateTime_);
generateTime_ = subBuilder.buildPartial();
}
break;
}
case 114:
{
java.lang.String s = input.readStringRequireUtf8();
importJob_ = s;
break;
}
case 122:
{
com.google.protobuf.Timestamp.Builder subBuilder = null;
if (importTime_ != null) {
subBuilder = importTime_.toBuilder();
}
importTime_ =
input.readMessage(com.google.protobuf.Timestamp.parser(), extensionRegistry);
if (subBuilder != null) {
subBuilder.mergeFrom(importTime_);
importTime_ = subBuilder.buildPartial();
}
break;
}
case 130:
{
java.lang.String s = input.readStringRequireUtf8();
importFailureReason_ = s;
break;
}
case 138:
{
com.google.cloud.kms.v1.ExternalProtectionLevelOptions.Builder subBuilder = null;
if (externalProtectionLevelOptions_ != null) {
subBuilder = externalProtectionLevelOptions_.toBuilder();
}
externalProtectionLevelOptions_ =
input.readMessage(
com.google.cloud.kms.v1.ExternalProtectionLevelOptions.parser(),
extensionRegistry);
if (subBuilder != null) {
subBuilder.mergeFrom(externalProtectionLevelOptions_);
externalProtectionLevelOptions_ = subBuilder.buildPartial();
}
break;
}
case 144:
{
reimportEligible_ = input.readBool();
break;
}
default:
{
if (!parseUnknownField(input, unknownFields, extensionRegistry, tag)) {
done = true;
}
break;
}
}
}
} catch (com.google.protobuf.InvalidProtocolBufferException e) {
throw e.setUnfinishedMessage(this);
} catch (java.io.IOException e) {
throw new com.google.protobuf.InvalidProtocolBufferException(e).setUnfinishedMessage(this);
} finally {
this.unknownFields = unknownFields.build();
makeExtensionsImmutable();
}
}
public static final com.google.protobuf.Descriptors.Descriptor getDescriptor() {
return com.google.cloud.kms.v1.KmsResourcesProto
.internal_static_google_cloud_kms_v1_CryptoKeyVersion_descriptor;
}
@java.lang.Override
protected com.google.protobuf.GeneratedMessageV3.FieldAccessorTable
internalGetFieldAccessorTable() {
return com.google.cloud.kms.v1.KmsResourcesProto
.internal_static_google_cloud_kms_v1_CryptoKeyVersion_fieldAccessorTable
.ensureFieldAccessorsInitialized(
com.google.cloud.kms.v1.CryptoKeyVersion.class,
com.google.cloud.kms.v1.CryptoKeyVersion.Builder.class);
}
/**
*
*
* <pre>
* The algorithm of the [CryptoKeyVersion][google.cloud.kms.v1.CryptoKeyVersion], indicating what
* parameters must be used for each cryptographic operation.
* The
* [GOOGLE_SYMMETRIC_ENCRYPTION][google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionAlgorithm.GOOGLE_SYMMETRIC_ENCRYPTION]
* algorithm is usable with [CryptoKey.purpose][google.cloud.kms.v1.CryptoKey.purpose]
* [ENCRYPT_DECRYPT][google.cloud.kms.v1.CryptoKey.CryptoKeyPurpose.ENCRYPT_DECRYPT].
* Algorithms beginning with "RSA_SIGN_" are usable with [CryptoKey.purpose][google.cloud.kms.v1.CryptoKey.purpose]
* [ASYMMETRIC_SIGN][google.cloud.kms.v1.CryptoKey.CryptoKeyPurpose.ASYMMETRIC_SIGN].
* The fields in the name after "RSA_SIGN_" correspond to the following
* parameters: padding algorithm, modulus bit length, and digest algorithm.
* For PSS, the salt length used is equal to the length of digest
* algorithm. For example,
* [RSA_SIGN_PSS_2048_SHA256][google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionAlgorithm.RSA_SIGN_PSS_2048_SHA256]
* will use PSS with a salt length of 256 bits or 32 bytes.
* Algorithms beginning with "RSA_DECRYPT_" are usable with
* [CryptoKey.purpose][google.cloud.kms.v1.CryptoKey.purpose]
* [ASYMMETRIC_DECRYPT][google.cloud.kms.v1.CryptoKey.CryptoKeyPurpose.ASYMMETRIC_DECRYPT].
* The fields in the name after "RSA_DECRYPT_" correspond to the following
* parameters: padding algorithm, modulus bit length, and digest algorithm.
* Algorithms beginning with "EC_SIGN_" are usable with [CryptoKey.purpose][google.cloud.kms.v1.CryptoKey.purpose]
* [ASYMMETRIC_SIGN][google.cloud.kms.v1.CryptoKey.CryptoKeyPurpose.ASYMMETRIC_SIGN].
* The fields in the name after "EC_SIGN_" correspond to the following
* parameters: elliptic curve, digest algorithm.
* Algorithms beginning with "HMAC_" are usable with [CryptoKey.purpose][google.cloud.kms.v1.CryptoKey.purpose]
* [MAC][google.cloud.kms.v1.CryptoKey.CryptoKeyPurpose.MAC].
* The suffix following "HMAC_" corresponds to the hash algorithm being used
* (eg. SHA256).
* For more information, see [Key purposes and algorithms]
* (https://cloud.google.com/kms/docs/algorithms).
* </pre>
*
* Protobuf enum {@code google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionAlgorithm}
*/
public enum CryptoKeyVersionAlgorithm implements com.google.protobuf.ProtocolMessageEnum {
/**
*
*
* <pre>
* Not specified.
* </pre>
*
* <code>CRYPTO_KEY_VERSION_ALGORITHM_UNSPECIFIED = 0;</code>
*/
CRYPTO_KEY_VERSION_ALGORITHM_UNSPECIFIED(0),
/**
*
*
* <pre>
* Creates symmetric encryption keys.
* </pre>
*
* <code>GOOGLE_SYMMETRIC_ENCRYPTION = 1;</code>
*/
GOOGLE_SYMMETRIC_ENCRYPTION(1),
/**
*
*
* <pre>
* RSASSA-PSS 2048 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PSS_2048_SHA256 = 2;</code>
*/
RSA_SIGN_PSS_2048_SHA256(2),
/**
*
*
* <pre>
* RSASSA-PSS 3072 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PSS_3072_SHA256 = 3;</code>
*/
RSA_SIGN_PSS_3072_SHA256(3),
/**
*
*
* <pre>
* RSASSA-PSS 4096 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PSS_4096_SHA256 = 4;</code>
*/
RSA_SIGN_PSS_4096_SHA256(4),
/**
*
*
* <pre>
* RSASSA-PSS 4096 bit key with a SHA512 digest.
* </pre>
*
* <code>RSA_SIGN_PSS_4096_SHA512 = 15;</code>
*/
RSA_SIGN_PSS_4096_SHA512(15),
/**
*
*
* <pre>
* RSASSA-PKCS1-v1_5 with a 2048 bit key and a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PKCS1_2048_SHA256 = 5;</code>
*/
RSA_SIGN_PKCS1_2048_SHA256(5),
/**
*
*
* <pre>
* RSASSA-PKCS1-v1_5 with a 3072 bit key and a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PKCS1_3072_SHA256 = 6;</code>
*/
RSA_SIGN_PKCS1_3072_SHA256(6),
/**
*
*
* <pre>
* RSASSA-PKCS1-v1_5 with a 4096 bit key and a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PKCS1_4096_SHA256 = 7;</code>
*/
RSA_SIGN_PKCS1_4096_SHA256(7),
/**
*
*
* <pre>
* RSASSA-PKCS1-v1_5 with a 4096 bit key and a SHA512 digest.
* </pre>
*
* <code>RSA_SIGN_PKCS1_4096_SHA512 = 16;</code>
*/
RSA_SIGN_PKCS1_4096_SHA512(16),
/**
*
*
* <pre>
* RSAES-OAEP 2048 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_2048_SHA256 = 8;</code>
*/
RSA_DECRYPT_OAEP_2048_SHA256(8),
/**
*
*
* <pre>
* RSAES-OAEP 3072 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_3072_SHA256 = 9;</code>
*/
RSA_DECRYPT_OAEP_3072_SHA256(9),
/**
*
*
* <pre>
* RSAES-OAEP 4096 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_4096_SHA256 = 10;</code>
*/
RSA_DECRYPT_OAEP_4096_SHA256(10),
/**
*
*
* <pre>
* RSAES-OAEP 4096 bit key with a SHA512 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_4096_SHA512 = 17;</code>
*/
RSA_DECRYPT_OAEP_4096_SHA512(17),
/**
*
*
* <pre>
* RSAES-OAEP 2048 bit key with a SHA1 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_2048_SHA1 = 37;</code>
*/
RSA_DECRYPT_OAEP_2048_SHA1(37),
/**
*
*
* <pre>
* RSAES-OAEP 3072 bit key with a SHA1 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_3072_SHA1 = 38;</code>
*/
RSA_DECRYPT_OAEP_3072_SHA1(38),
/**
*
*
* <pre>
* RSAES-OAEP 4096 bit key with a SHA1 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_4096_SHA1 = 39;</code>
*/
RSA_DECRYPT_OAEP_4096_SHA1(39),
/**
*
*
* <pre>
* ECDSA on the NIST P-256 curve with a SHA256 digest.
* </pre>
*
* <code>EC_SIGN_P256_SHA256 = 12;</code>
*/
EC_SIGN_P256_SHA256(12),
/**
*
*
* <pre>
* ECDSA on the NIST P-384 curve with a SHA384 digest.
* </pre>
*
* <code>EC_SIGN_P384_SHA384 = 13;</code>
*/
EC_SIGN_P384_SHA384(13),
/**
*
*
* <pre>
* ECDSA on the non-NIST secp256k1 curve. This curve is only supported for
* HSM protection level.
* </pre>
*
* <code>EC_SIGN_SECP256K1_SHA256 = 31;</code>
*/
EC_SIGN_SECP256K1_SHA256(31),
/**
*
*
* <pre>
* HMAC-SHA256 signing with a 256 bit key.
* </pre>
*
* <code>HMAC_SHA256 = 32;</code>
*/
HMAC_SHA256(32),
/**
*
*
* <pre>
* Algorithm representing symmetric encryption by an external key manager.
* </pre>
*
* <code>EXTERNAL_SYMMETRIC_ENCRYPTION = 18;</code>
*/
EXTERNAL_SYMMETRIC_ENCRYPTION(18),
UNRECOGNIZED(-1),
;
/**
*
*
* <pre>
* Not specified.
* </pre>
*
* <code>CRYPTO_KEY_VERSION_ALGORITHM_UNSPECIFIED = 0;</code>
*/
public static final int CRYPTO_KEY_VERSION_ALGORITHM_UNSPECIFIED_VALUE = 0;
/**
*
*
* <pre>
* Creates symmetric encryption keys.
* </pre>
*
* <code>GOOGLE_SYMMETRIC_ENCRYPTION = 1;</code>
*/
public static final int GOOGLE_SYMMETRIC_ENCRYPTION_VALUE = 1;
/**
*
*
* <pre>
* RSASSA-PSS 2048 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PSS_2048_SHA256 = 2;</code>
*/
public static final int RSA_SIGN_PSS_2048_SHA256_VALUE = 2;
/**
*
*
* <pre>
* RSASSA-PSS 3072 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PSS_3072_SHA256 = 3;</code>
*/
public static final int RSA_SIGN_PSS_3072_SHA256_VALUE = 3;
/**
*
*
* <pre>
* RSASSA-PSS 4096 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PSS_4096_SHA256 = 4;</code>
*/
public static final int RSA_SIGN_PSS_4096_SHA256_VALUE = 4;
/**
*
*
* <pre>
* RSASSA-PSS 4096 bit key with a SHA512 digest.
* </pre>
*
* <code>RSA_SIGN_PSS_4096_SHA512 = 15;</code>
*/
public static final int RSA_SIGN_PSS_4096_SHA512_VALUE = 15;
/**
*
*
* <pre>
* RSASSA-PKCS1-v1_5 with a 2048 bit key and a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PKCS1_2048_SHA256 = 5;</code>
*/
public static final int RSA_SIGN_PKCS1_2048_SHA256_VALUE = 5;
/**
*
*
* <pre>
* RSASSA-PKCS1-v1_5 with a 3072 bit key and a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PKCS1_3072_SHA256 = 6;</code>
*/
public static final int RSA_SIGN_PKCS1_3072_SHA256_VALUE = 6;
/**
*
*
* <pre>
* RSASSA-PKCS1-v1_5 with a 4096 bit key and a SHA256 digest.
* </pre>
*
* <code>RSA_SIGN_PKCS1_4096_SHA256 = 7;</code>
*/
public static final int RSA_SIGN_PKCS1_4096_SHA256_VALUE = 7;
/**
*
*
* <pre>
* RSASSA-PKCS1-v1_5 with a 4096 bit key and a SHA512 digest.
* </pre>
*
* <code>RSA_SIGN_PKCS1_4096_SHA512 = 16;</code>
*/
public static final int RSA_SIGN_PKCS1_4096_SHA512_VALUE = 16;
/**
*
*
* <pre>
* RSAES-OAEP 2048 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_2048_SHA256 = 8;</code>
*/
public static final int RSA_DECRYPT_OAEP_2048_SHA256_VALUE = 8;
/**
*
*
* <pre>
* RSAES-OAEP 3072 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_3072_SHA256 = 9;</code>
*/
public static final int RSA_DECRYPT_OAEP_3072_SHA256_VALUE = 9;
/**
*
*
* <pre>
* RSAES-OAEP 4096 bit key with a SHA256 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_4096_SHA256 = 10;</code>
*/
public static final int RSA_DECRYPT_OAEP_4096_SHA256_VALUE = 10;
/**
*
*
* <pre>
* RSAES-OAEP 4096 bit key with a SHA512 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_4096_SHA512 = 17;</code>
*/
public static final int RSA_DECRYPT_OAEP_4096_SHA512_VALUE = 17;
/**
*
*
* <pre>
* RSAES-OAEP 2048 bit key with a SHA1 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_2048_SHA1 = 37;</code>
*/
public static final int RSA_DECRYPT_OAEP_2048_SHA1_VALUE = 37;
/**
*
*
* <pre>
* RSAES-OAEP 3072 bit key with a SHA1 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_3072_SHA1 = 38;</code>
*/
public static final int RSA_DECRYPT_OAEP_3072_SHA1_VALUE = 38;
/**
*
*
* <pre>
* RSAES-OAEP 4096 bit key with a SHA1 digest.
* </pre>
*
* <code>RSA_DECRYPT_OAEP_4096_SHA1 = 39;</code>
*/
public static final int RSA_DECRYPT_OAEP_4096_SHA1_VALUE = 39;
/**
*
*
* <pre>
* ECDSA on the NIST P-256 curve with a SHA256 digest.
* </pre>
*
* <code>EC_SIGN_P256_SHA256 = 12;</code>
*/
public static final int EC_SIGN_P256_SHA256_VALUE = 12;
/**
*
*
* <pre>
* ECDSA on the NIST P-384 curve with a SHA384 digest.
* </pre>
*
* <code>EC_SIGN_P384_SHA384 = 13;</code>
*/
public static final int EC_SIGN_P384_SHA384_VALUE = 13;
/**
*
*
* <pre>
* ECDSA on the non-NIST secp256k1 curve. This curve is only supported for
* HSM protection level.
* </pre>
*
* <code>EC_SIGN_SECP256K1_SHA256 = 31;</code>
*/
public static final int EC_SIGN_SECP256K1_SHA256_VALUE = 31;
/**
*
*
* <pre>
* HMAC-SHA256 signing with a 256 bit key.
* </pre>
*
* <code>HMAC_SHA256 = 32;</code>
*/
public static final int HMAC_SHA256_VALUE = 32;
/**
*
*
* <pre>
* Algorithm representing symmetric encryption by an external key manager.
* </pre>
*
* <code>EXTERNAL_SYMMETRIC_ENCRYPTION = 18;</code>
*/
public static final int EXTERNAL_SYMMETRIC_ENCRYPTION_VALUE = 18;
public final int getNumber() {
if (this == UNRECOGNIZED) {
throw new java.lang.IllegalArgumentException(
"Can't get the number of an unknown enum value.");
}
return value;
}
/**
* @param value The numeric wire value of the corresponding enum entry.
* @return The enum associated with the given numeric wire value.
* @deprecated Use {@link #forNumber(int)} instead.
*/
@java.lang.Deprecated
public static CryptoKeyVersionAlgorithm valueOf(int value) {
return forNumber(value);
}
/**
* @param value The numeric wire value of the corresponding enum entry.
* @return The enum associated with the given numeric wire value.
*/
public static CryptoKeyVersionAlgorithm forNumber(int value) {
switch (value) {
case 0:
return CRYPTO_KEY_VERSION_ALGORITHM_UNSPECIFIED;
case 1:
return GOOGLE_SYMMETRIC_ENCRYPTION;
case 2:
return RSA_SIGN_PSS_2048_SHA256;
case 3:
return RSA_SIGN_PSS_3072_SHA256;
case 4:
return RSA_SIGN_PSS_4096_SHA256;
case 15:
return RSA_SIGN_PSS_4096_SHA512;
case 5:
return RSA_SIGN_PKCS1_2048_SHA256;
case 6:
return RSA_SIGN_PKCS1_3072_SHA256;
case 7:
return RSA_SIGN_PKCS1_4096_SHA256;
case 16:
return RSA_SIGN_PKCS1_4096_SHA512;
case 8:
return RSA_DECRYPT_OAEP_2048_SHA256;
case 9:
return RSA_DECRYPT_OAEP_3072_SHA256;
case 10:
return RSA_DECRYPT_OAEP_4096_SHA256;
case 17:
return RSA_DECRYPT_OAEP_4096_SHA512;
case 37:
return RSA_DECRYPT_OAEP_2048_SHA1;
case 38:
return RSA_DECRYPT_OAEP_3072_SHA1;
case 39:
return RSA_DECRYPT_OAEP_4096_SHA1;
case 12:
return EC_SIGN_P256_SHA256;
case 13:
return EC_SIGN_P384_SHA384;
case 31:
return EC_SIGN_SECP256K1_SHA256;
case 32:
return HMAC_SHA256;
case 18:
return EXTERNAL_SYMMETRIC_ENCRYPTION;
default:
return null;
}
}
public static com.google.protobuf.Internal.EnumLiteMap<CryptoKeyVersionAlgorithm>
internalGetValueMap() {
return internalValueMap;
}
private static final com.google.protobuf.Internal.EnumLiteMap<CryptoKeyVersionAlgorithm>
internalValueMap =
new com.google.protobuf.Internal.EnumLiteMap<CryptoKeyVersionAlgorithm>() {
public CryptoKeyVersionAlgorithm findValueByNumber(int number) {
return CryptoKeyVersionAlgorithm.forNumber(number);
}
};
public final com.google.protobuf.Descriptors.EnumValueDescriptor getValueDescriptor() {
if (this == UNRECOGNIZED) {
throw new java.lang.IllegalStateException(
"Can't get the descriptor of an unrecognized enum value.");
}
return getDescriptor().getValues().get(ordinal());
}
public final com.google.protobuf.Descriptors.EnumDescriptor getDescriptorForType() {
return getDescriptor();
}
public static final com.google.protobuf.Descriptors.EnumDescriptor getDescriptor() {
return com.google.cloud.kms.v1.CryptoKeyVersion.getDescriptor().getEnumTypes().get(0);
}
private static final CryptoKeyVersionAlgorithm[] VALUES = values();
public static CryptoKeyVersionAlgorithm valueOf(
com.google.protobuf.Descriptors.EnumValueDescriptor desc) {
if (desc.getType() != getDescriptor()) {
throw new java.lang.IllegalArgumentException("EnumValueDescriptor is not for this type.");
}
if (desc.getIndex() == -1) {
return UNRECOGNIZED;
}
return VALUES[desc.getIndex()];
}
private final int value;
private CryptoKeyVersionAlgorithm(int value) {
this.value = value;
}
// @@protoc_insertion_point(enum_scope:google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionAlgorithm)
}
/**
*
*
* <pre>
* The state of a [CryptoKeyVersion][google.cloud.kms.v1.CryptoKeyVersion], indicating if it can be used.
* </pre>
*
* Protobuf enum {@code google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionState}
*/
public enum CryptoKeyVersionState implements com.google.protobuf.ProtocolMessageEnum {
/**
*
*
* <pre>
* Not specified.
* </pre>
*
* <code>CRYPTO_KEY_VERSION_STATE_UNSPECIFIED = 0;</code>
*/
CRYPTO_KEY_VERSION_STATE_UNSPECIFIED(0),
/**
*
*
* <pre>
* This version is still being generated. It may not be used, enabled,
* disabled, or destroyed yet. Cloud KMS will automatically mark this
* version [ENABLED][google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionState.ENABLED] as soon as the version is ready.
* </pre>
*
* <code>PENDING_GENERATION = 5;</code>
*/
PENDING_GENERATION(5),
/**
*
*
* <pre>
* This version may be used for cryptographic operations.
* </pre>
*
* <code>ENABLED = 1;</code>
*/
ENABLED(1),
/**
*
*
* <pre>
* This version may not be used, but the key material is still available,
* and the version can be placed back into the [ENABLED][google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionState.ENABLED] state.
* </pre>
*
* <code>DISABLED = 2;</code>
*/
DISABLED(2),
/**
*
*
* <pre>
* This version is destroyed, and the key material is no longer stored.
* This version may only become [ENABLED][google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionState.ENABLED] again if this version is
* [reimport_eligible][google.cloud.kms.v1.CryptoKeyVersion.reimport_eligible] and the original
* key material is reimported with a call to
* [KeyManagementService.ImportCryptoKeyVersion][google.cloud.kms.v1.KeyManagementService.ImportCryptoKeyVersion].
* </pre>
*
* <code>DESTROYED = 3;</code>
*/
DESTROYED(3),
/**
*
*
* <pre>
* This version is scheduled for destruction, and will be destroyed soon.
* Call
* [RestoreCryptoKeyVersion][google.cloud.kms.v1.KeyManagementService.RestoreCryptoKeyVersion]
* to put it back into the [DISABLED][google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionState.DISABLED] state.
* </pre>
*
* <code>DESTROY_SCHEDULED = 4;</code>
*/
DESTROY_SCHEDULED(4),
/**
*
*
* <pre>
* This version is still being imported. It may not be used, enabled,
* disabled, or destroyed yet. Cloud KMS will automatically mark this
* version [ENABLED][google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionState.ENABLED] as soon as the version is ready.
* </pre>
*
* <code>PENDING_IMPORT = 6;</code>
*/
PENDING_IMPORT(6),
/**
*
*
* <pre>
* This version was not imported successfully. It may not be used, enabled,
* disabled, or destroyed. The submitted key material has been discarded.
* Additional details can be found in
* [CryptoKeyVersion.import_failure_reason][google.cloud.kms.v1.CryptoKeyVersion.import_failure_reason].
* </pre>
*
* <code>IMPORT_FAILED = 7;</code>
*/
IMPORT_FAILED(7),
UNRECOGNIZED(-1),
;
/**
*
*
* <pre>
* Not specified.
* </pre>
*
* <code>CRYPTO_KEY_VERSION_STATE_UNSPECIFIED = 0;</code>
*/
public static final int CRYPTO_KEY_VERSION_STATE_UNSPECIFIED_VALUE = 0;
/**