轮替密钥

using Google.Cloud.Kms.V1;
using Google.Protobuf.WellKnownTypes;
using System;

public class CreateKeyRotationScheduleSample
{
    public CryptoKey CreateKeyRotationSchedule(
      string projectId = "my-project", string locationId = "us-east1", string keyRingId = "my-key-ring",
      string id = "my-key-with-rotation-schedule")
    {
        // Create the client.
        KeyManagementServiceClient client = KeyManagementServiceClient.Create();

        // Build the parent key ring name.
        KeyRingName keyRingName = new KeyRingName(projectId, locationId, keyRingId);

        // Build the key.
        CryptoKey key = new CryptoKey
        {
            Purpose = CryptoKey.Types.CryptoKeyPurpose.EncryptDecrypt,
            VersionTemplate = new CryptoKeyVersionTemplate
            {
                Algorithm = CryptoKeyVersion.Types.CryptoKeyVersionAlgorithm.GoogleSymmetricEncryption,
            },

            // Rotate the key every 30 days.
            RotationPeriod = new Duration
            {
                Seconds = 60 * 60 * 24 * 30, // 30 days
            },

            // Start the first rotation in 24 hours.
            NextRotationTime = new Timestamp
            {
                Seconds = new DateTimeOffset(DateTime.UtcNow.AddHours(24)).ToUnixTimeSeconds(),
            }
        };

        // Call the API.
        CryptoKey result = client.CreateCryptoKey(keyRingName, id, key);

        // Return the result.
        return result;
    }
}

import (
	"context"
	"fmt"
	"io"
	"time"

	kms "cloud.google.com/go/kms/apiv1"
	"cloud.google.com/go/kms/apiv1/kmspb"
	"google.golang.org/protobuf/types/known/durationpb"
	"google.golang.org/protobuf/types/known/timestamppb"
)

// createKeyRotationSchedule creates a key with a rotation schedule.
func createKeyRotationSchedule(w io.Writer, parent, id string) error {
	// name := "projects/my-project/locations/us-east1/keyRings/my-key-ring"
	// id := "my-key-with-rotation-schedule"

	// Create the client.
	ctx := context.Background()
	client, err := kms.NewKeyManagementClient(ctx)
	if err != nil {
		return fmt.Errorf("failed to create kms client: %w", err)
	}
	defer client.Close()

	// Build the request.
	req := &kmspb.CreateCryptoKeyRequest{
		Parent:      parent,
		CryptoKeyId: id,
		CryptoKey: &kmspb.CryptoKey{
			Purpose: kmspb.CryptoKey_ENCRYPT_DECRYPT,
			VersionTemplate: &kmspb.CryptoKeyVersionTemplate{
				Algorithm: kmspb.CryptoKeyVersion_GOOGLE_SYMMETRIC_ENCRYPTION,
			},

			// Rotate the key every 30 days
			RotationSchedule: &kmspb.CryptoKey_RotationPeriod{
				RotationPeriod: &durationpb.Duration{
					Seconds: int64(60 * 60 * 24 * 30), // 30 days
				},
			},

			// Start the first rotation in 24 hours
			NextRotationTime: &timestamppb.Timestamp{
				Seconds: time.Now().Add(24 * time.Hour).Unix(),
			},
		},
	}

	// Call the API.
	result, err := client.CreateCryptoKey(ctx, req)
	if err != nil {
		return fmt.Errorf("failed to create key: %w", err)
	}
	fmt.Fprintf(w, "Created key: %s\n", result.Name)
	return nil
}

import com.google.cloud.kms.v1.CryptoKey;
import com.google.cloud.kms.v1.CryptoKey.CryptoKeyPurpose;
import com.google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionAlgorithm;
import com.google.cloud.kms.v1.CryptoKeyVersionTemplate;
import com.google.cloud.kms.v1.KeyManagementServiceClient;
import com.google.cloud.kms.v1.KeyRingName;
import com.google.protobuf.Duration;
import com.google.protobuf.Timestamp;
import java.io.IOException;
import java.time.temporal.ChronoUnit;

public class CreateKeyRotationSchedule {

  public void createKeyRotationSchedule() throws IOException {
    // TODO(developer): Replace these variables before running the sample.
    String projectId = "your-project-id";
    String locationId = "us-east1";
    String keyRingId = "my-key-ring";
    String id = "my-key";
    createKeyRotationSchedule(projectId, locationId, keyRingId, id);
  }

  // Create a new key that automatically rotates on a schedule.
  public void createKeyRotationSchedule(
      String projectId, String locationId, String keyRingId, String id) throws IOException {
    // Initialize client that will be used to send requests. This client only
    // needs to be created once, and can be reused for multiple requests. After
    // completing all of your requests, call the "close" method on the client to
    // safely clean up any remaining background resources.
    try (KeyManagementServiceClient client = KeyManagementServiceClient.create()) {
      // Build the parent name from the project, location, and key ring.
      KeyRingName keyRingName = KeyRingName.of(projectId, locationId, keyRingId);

      // Calculate the date 24 hours from now (this is used below).
      long tomorrow = java.time.Instant.now().plus(24, ChronoUnit.HOURS).getEpochSecond();

      // Build the key to create with a rotation schedule.
      CryptoKey key =
          CryptoKey.newBuilder()
              .setPurpose(CryptoKeyPurpose.ENCRYPT_DECRYPT)
              .setVersionTemplate(
                  CryptoKeyVersionTemplate.newBuilder()
                      .setAlgorithm(CryptoKeyVersionAlgorithm.GOOGLE_SYMMETRIC_ENCRYPTION))

              // Rotate every 30 days.
              .setRotationPeriod(
                  Duration.newBuilder().setSeconds(java.time.Duration.ofDays(30).getSeconds()))

              // Start the first rotation in 24 hours.
              .setNextRotationTime(Timestamp.newBuilder().setSeconds(tomorrow))
              .build();

      // Create the key.
      CryptoKey createdKey = client.createCryptoKey(keyRingName, id, key);
      System.out.printf("Created key with rotation schedule %s%n", createdKey.getName());
    }
  }
}

//
// TODO(developer): Uncomment these variables before running the sample.
//
// const projectId = 'my-project';
// const locationId = 'us-east1';
// const keyRingId = 'my-key-ring';
// const id = 'my-rotating-encryption-key';

// Imports the Cloud KMS library
const {KeyManagementServiceClient} = require('@google-cloud/kms');

// Instantiates a client
const client = new KeyManagementServiceClient();

// Build the parent key ring name
const keyRingName = client.keyRingPath(projectId, locationId, keyRingId);

async function createKeyRotationSchedule() {
  const [key] = await client.createCryptoKey({
    parent: keyRingName,
    cryptoKeyId: id,
    cryptoKey: {
      purpose: 'ENCRYPT_DECRYPT',
      versionTemplate: {
        algorithm: 'GOOGLE_SYMMETRIC_ENCRYPTION',
      },

      // Rotate the key every 30 days.
      rotationPeriod: {
        seconds: 60 * 60 * 24 * 30,
      },

      // Start the first rotation in 24 hours.
      nextRotationTime: {
        seconds: new Date().getTime() / 1000 + 60 * 60 * 24,
      },
    },
  });

  console.log(`Created rotating key: ${key.name}`);
  return key;
}

return createKeyRotationSchedule();

use Google\Cloud\Kms\V1\Client\KeyManagementServiceClient;
use Google\Cloud\Kms\V1\CreateCryptoKeyRequest;
use Google\Cloud\Kms\V1\CryptoKey;
use Google\Cloud\Kms\V1\CryptoKey\CryptoKeyPurpose;
use Google\Cloud\Kms\V1\CryptoKeyVersion\CryptoKeyVersionAlgorithm;
use Google\Cloud\Kms\V1\CryptoKeyVersionTemplate;
use Google\Protobuf\Duration;
use Google\Protobuf\Timestamp;

function create_key_rotation_schedule(
    string $projectId = 'my-project',
    string $locationId = 'us-east1',
    string $keyRingId = 'my-key-ring',
    string $id = 'my-key-with-rotation-schedule'
): CryptoKey {
    // Create the Cloud KMS client.
    $client = new KeyManagementServiceClient();

    // Build the parent key ring name.
    $keyRingName = $client->keyRingName($projectId, $locationId, $keyRingId);

    // Build the key.
    $key = (new CryptoKey())
        ->setPurpose(CryptoKeyPurpose::ENCRYPT_DECRYPT)
        ->setVersionTemplate((new CryptoKeyVersionTemplate())
            ->setAlgorithm(CryptoKeyVersionAlgorithm::GOOGLE_SYMMETRIC_ENCRYPTION))

        // Rotate the key every 30 days.
        ->setRotationPeriod((new Duration())
            ->setSeconds(60 * 60 * 24 * 30)
        )

        // Start the first rotation in 24 hours.
        ->setNextRotationTime((new Timestamp())
            ->setSeconds(time() + 60 * 60 * 24)
        );

    // Call the API.
    $createCryptoKeyRequest = (new CreateCryptoKeyRequest())
        ->setParent($keyRingName)
        ->setCryptoKeyId($id)
        ->setCryptoKey($key);
    $createdKey = $client->createCryptoKey($createCryptoKeyRequest);
    printf('Created key with rotation: %s' . PHP_EOL, $createdKey->getName());

    return $createdKey;
}

import time

from google.cloud import kms


def create_key_rotation_schedule(
    project_id: str, location_id: str, key_ring_id: str, key_id: str
) -> kms.CryptoKey:
    """
    Creates a new key in Cloud KMS that automatically rotates.

    Args:
        project_id (string): Google Cloud project ID (e.g. 'my-project').
        location_id (string): Cloud KMS location (e.g. 'us-east1').
        key_ring_id (string): ID of the Cloud KMS key ring (e.g. 'my-key-ring').
        key_id (string): ID of the key to create (e.g. 'my-rotating-key').

    Returns:
        CryptoKey: Cloud KMS key.

    """

    # Create the client.
    client = kms.KeyManagementServiceClient()

    # Build the parent key ring name.
    key_ring_name = client.key_ring_path(project_id, location_id, key_ring_id)

    # Build the key.
    purpose = kms.CryptoKey.CryptoKeyPurpose.ENCRYPT_DECRYPT
    algorithm = (
        kms.CryptoKeyVersion.CryptoKeyVersionAlgorithm.GOOGLE_SYMMETRIC_ENCRYPTION
    )
    key = {
        "purpose": purpose,
        "version_template": {
            "algorithm": algorithm,
        },
        # Rotate the key every 30 days.
        "rotation_period": {"seconds": 60 * 60 * 24 * 30},
        # Start the first rotation in 24 hours.
        "next_rotation_time": {"seconds": int(time.time()) + 60 * 60 * 24},
    }

    # Call the API.
    created_key = client.create_crypto_key(
        request={"parent": key_ring_name, "crypto_key_id": key_id, "crypto_key": key}
    )
    print(f"Created labeled key: {created_key.name}")
    return created_key

# TODO(developer): uncomment these values before running the sample.
# project_id  = "my-project"
# location_id = "us-east1"
# key_ring_id = "my-key-ring"
# id          = "my-key-with-rotation"

# Require the library.
require "google/cloud/kms"

# Create the client.
client = Google::Cloud::Kms.key_management_service

# Build the parent key ring name.
key_ring_name = client.key_ring_path project: project_id, location: location_id, key_ring: key_ring_id

# Build the key.
key = {
  purpose:            :ENCRYPT_DECRYPT,
  version_template:   {
    algorithm: :GOOGLE_SYMMETRIC_ENCRYPTION
  },

  # Rotate the key every 30 days.
  rotation_period:    {
    seconds: 60 * 60 * 24 * 30
  },

  # Start the first rotation in 24 hours.
  next_rotation_time: {
    seconds: (Time.now + (60 * 60 * 24)).to_i
  }
}

# Call the API.
created_key = client.create_crypto_key parent: key_ring_name, crypto_key_id: id, crypto_key: key
puts "Created rotating key: #{created_key.name}"

using Google.Cloud.Kms.V1;
using Google.Protobuf.WellKnownTypes;
using System;

public class UpdateKeyAddRotationSample
{
    public CryptoKey UpdateKeyAddRotation(string projectId = "my-project", string locationId = "us-east1", string keyRingId = "my-key-ring", string keyId = "my-key")
    {
        // Create the client.
        KeyManagementServiceClient client = KeyManagementServiceClient.Create();

        // Build the key.
        CryptoKey key = new CryptoKey
        {
            // Provide the name of the key to update.
            CryptoKeyName = new CryptoKeyName(projectId, locationId, keyRingId, keyId),

            // Rotate the key every 30 days.
            RotationPeriod = new Duration
            {
                Seconds = 60 * 60 * 24 * 30, // 30 days
            },

            // Start the first rotation in 24 hours.
            NextRotationTime = new Timestamp
            {
                Seconds = new DateTimeOffset(DateTime.UtcNow.AddHours(24)).ToUnixTimeSeconds(),
            }
        };

        // Build the update mask.
        FieldMask fieldMask = new FieldMask
        {
            Paths = { "rotation_period", "next_rotation_time" },
        };

        // Call the API.
        CryptoKey result = client.UpdateCryptoKey(key, fieldMask);

        // Return the updated key.
        return result;
    }
}

import (
	"context"
	"fmt"
	"io"
	"time"

	kms "cloud.google.com/go/kms/apiv1"
	"cloud.google.com/go/kms/apiv1/kmspb"
	fieldmask "google.golang.org/genproto/protobuf/field_mask"
	"google.golang.org/protobuf/types/known/durationpb"
	"google.golang.org/protobuf/types/known/timestamppb"
)

// addRotationSchedule updates a key to add a rotation schedule. If the key
// already has a rotation schedule, it is overwritten.
func addRotationSchedule(w io.Writer, name string) error {
	// name := "projects/my-project/locations/us-east1/keyRings/my-key-ring/cryptoKeys/my-key"

	// Create the client.
	ctx := context.Background()
	client, err := kms.NewKeyManagementClient(ctx)
	if err != nil {
		return fmt.Errorf("failed to create kms client: %w", err)
	}
	defer client.Close()

	// Build the request.
	req := &kmspb.UpdateCryptoKeyRequest{
		CryptoKey: &kmspb.CryptoKey{
			// Provide the name of the key to update
			Name: name,

			// Rotate the key every 30 days
			RotationSchedule: &kmspb.CryptoKey_RotationPeriod{
				RotationPeriod: &durationpb.Duration{
					Seconds: int64(60 * 60 * 24 * 30), // 30 days
				},
			},

			// Start the first rotation in 24 hours
			NextRotationTime: &timestamppb.Timestamp{
				Seconds: time.Now().Add(24 * time.Hour).Unix(),
			},
		},
		UpdateMask: &fieldmask.FieldMask{
			Paths: []string{"rotation_period", "next_rotation_time"},
		},
	}

	// Call the API.
	result, err := client.UpdateCryptoKey(ctx, req)
	if err != nil {
		return fmt.Errorf("failed to update key: %w", err)
	}
	fmt.Fprintf(w, "Updated key: %s\n", result.Name)
	return nil
}

import com.google.cloud.kms.v1.CryptoKey;
import com.google.cloud.kms.v1.CryptoKey.CryptoKeyPurpose;
import com.google.cloud.kms.v1.CryptoKeyName;
import com.google.cloud.kms.v1.CryptoKeyVersion.CryptoKeyVersionAlgorithm;
import com.google.cloud.kms.v1.CryptoKeyVersionTemplate;
import com.google.cloud.kms.v1.KeyManagementServiceClient;
import com.google.protobuf.Duration;
import com.google.protobuf.FieldMask;
import com.google.protobuf.Timestamp;
import com.google.protobuf.util.FieldMaskUtil;
import java.io.IOException;
import java.time.temporal.ChronoUnit;

public class UpdateKeyAddRotation {

  public void updateKeyAddRotation() throws IOException {
    // TODO(developer): Replace these variables before running the sample.
    String projectId = "your-project-id";
    String locationId = "us-east1";
    String keyRingId = "my-key-ring";
    String keyId = "my-key";
    updateKeyAddRotation(projectId, locationId, keyRingId, keyId);
  }

  // Update a key to add or change a rotation schedule.
  public void updateKeyAddRotation(
      String projectId, String locationId, String keyRingId, String keyId) throws IOException {
    // Initialize client that will be used to send requests. This client only
    // needs to be created once, and can be reused for multiple requests. After
    // completing all of your requests, call the "close" method on the client to
    // safely clean up any remaining background resources.
    try (KeyManagementServiceClient client = KeyManagementServiceClient.create()) {
      // Build the name from the project, location, and key ring.
      CryptoKeyName cryptoKeyName = CryptoKeyName.of(projectId, locationId, keyRingId, keyId);

      // Calculate the date 24 hours from now (this is used below).
      long tomorrow = java.time.Instant.now().plus(24, ChronoUnit.HOURS).getEpochSecond();

      // Build the key to update with a rotation schedule.
      CryptoKey key =
          CryptoKey.newBuilder()
              .setName(cryptoKeyName.toString())
              .setPurpose(CryptoKeyPurpose.ENCRYPT_DECRYPT)
              .setVersionTemplate(
                  CryptoKeyVersionTemplate.newBuilder()
                      .setAlgorithm(CryptoKeyVersionAlgorithm.GOOGLE_SYMMETRIC_ENCRYPTION))

              // Rotate every 30 days.
              .setRotationPeriod(
                  Duration.newBuilder().setSeconds(java.time.Duration.ofDays(30).getSeconds()))

              // Start the first rotation in 24 hours.
              .setNextRotationTime(Timestamp.newBuilder().setSeconds(tomorrow))
              .build();

      // Construct the field mask.
      FieldMask fieldMask = FieldMaskUtil.fromString("rotation_period,next_rotation_time");

      // Update the key.
      CryptoKey updatedKey = client.updateCryptoKey(key, fieldMask);
      System.out.printf("Updated key %s%n", updatedKey.getName());
    }
  }
}

//
// TODO(developer): Uncomment these variables before running the sample.
//
// const projectId = 'my-project';
// const locationId = 'us-east1';
// const keyRingId = 'my-key-ring';
// const keyId = 'my-key';
// const versionId = '123';

// Imports the Cloud KMS library
const {KeyManagementServiceClient} = require('@google-cloud/kms');

// Instantiates a client
const client = new KeyManagementServiceClient();

// Build the key name
const keyName = client.cryptoKeyPath(projectId, locationId, keyRingId, keyId);

async function updateKeyAddRotation() {
  const [key] = await client.updateCryptoKey({
    cryptoKey: {
      name: keyName,

      // Rotate the key every 30 days.
      rotationPeriod: {
        seconds: 60 * 60 * 24 * 30,
      },

      // Start the first rotation in 24 hours.
      nextRotationTime: {
        seconds: new Date().getTime() / 1000 + 60 * 60 * 24,
      },
    },
    updateMask: {
      paths: ['rotation_period', 'next_rotation_time'],
    },
  });

  console.log(`Updated rotation for: ${key.name}`);
  return key;
}

return updateKeyAddRotation();

use Google\Cloud\Kms\V1\Client\KeyManagementServiceClient;
use Google\Cloud\Kms\V1\CryptoKey;
use Google\Cloud\Kms\V1\UpdateCryptoKeyRequest;
use Google\Protobuf\Duration;
use Google\Protobuf\FieldMask;
use Google\Protobuf\Timestamp;

function update_key_add_rotation(
    string $projectId = 'my-project',
    string $locationId = 'us-east1',
    string $keyRingId = 'my-key-ring',
    string $keyId = 'my-key'
): CryptoKey {
    // Create the Cloud KMS client.
    $client = new KeyManagementServiceClient();

    // Build the key name.
    $keyName = $client->cryptoKeyName($projectId, $locationId, $keyRingId, $keyId);

    // Build the key.
    $key = (new CryptoKey())
        ->setName($keyName)

        // Rotate the key every 30 days.
        ->setRotationPeriod((new Duration())
            ->setSeconds(60 * 60 * 24 * 30)
        )

        // Start the first rotation in 24 hours.
        ->setNextRotationTime((new Timestamp())
            ->setSeconds(time() + 60 * 60 * 24)
        );

    // Create the field mask.
    $updateMask = (new FieldMask())
        ->setPaths(['rotation_period', 'next_rotation_time']);

    // Call the API.
    $updateCryptoKeyRequest = (new UpdateCryptoKeyRequest())
        ->setCryptoKey($key)
        ->setUpdateMask($updateMask);
    $updatedKey = $client->updateCryptoKey($updateCryptoKeyRequest);
    printf('Updated key: %s' . PHP_EOL, $updatedKey->getName());

    return $updatedKey;
}

import time

from google.cloud import kms


def update_key_add_rotation(
    project_id: str, location_id: str, key_ring_id: str, key_id: str
) -> kms.CryptoKey:
    """
    Add a rotation schedule to an existing key.

    Args:
        project_id (string): Google Cloud project ID (e.g. 'my-project').
        location_id (string): Cloud KMS location (e.g. 'us-east1').
        key_ring_id (string): ID of the Cloud KMS key ring (e.g. 'my-key-ring').
        key_id (string): ID of the key to use (e.g. 'my-key').

    Returns:
        CryptoKey: Updated Cloud KMS key.

    """

    # Create the client.
    client = kms.KeyManagementServiceClient()

    # Build the key name.
    key_name = client.crypto_key_path(project_id, location_id, key_ring_id, key_id)

    key = {
        "name": key_name,
        "rotation_period": {
            "seconds": 60 * 60 * 24 * 30  # Rotate the key every 30 days.
        },
        "next_rotation_time": {
            "seconds": int(time.time())
            + 60 * 60 * 24  # Start the first rotation in 24 hours.
        },
    }

    # Build the update mask.
    update_mask = {"paths": ["rotation_period", "next_rotation_time"]}

    # Call the API.
    updated_key = client.update_crypto_key(
        request={"crypto_key": key, "update_mask": update_mask}
    )
    print(f"Updated key: {updated_key.name}")
    return updated_key

# TODO(developer): uncomment these values before running the sample.
# project_id  = "my-project"
# location_id = "us-east1"
# key_ring_id = "my-key-ring"
# key_id      = "my-key"

# Require the library.
require "google/cloud/kms"

# Create the client.
client = Google::Cloud::Kms.key_management_service

# Build the parent key name.
key_name = client.crypto_key_path project:    project_id,
                                  location:   location_id,
                                  key_ring:   key_ring_id,
                                  crypto_key: key_id

# Build the key.
key = {
  name:               key_name,

  # Rotate the key every 30 days.
  rotation_period:    {
    seconds: 60 * 60 * 24 * 30
  },

  # Start the first rotation in 24 hours.
  next_rotation_time: {
    seconds: (Time.now + (60 * 60 * 24)).to_i
  }
}

# Build the field mask.
update_mask = { paths: ["rotation_period", "next_rotation_time"] }

# Call the API.
updated_key = client.update_crypto_key crypto_key: key, update_mask: update_mask
puts "Updated key: #{updated_key.name}"

using Google.Cloud.Kms.V1;

public class CreateKeyVersionSample
{
    public CryptoKeyVersion CreateKeyVersion(string projectId = "my-project", string locationId = "us-east1", string keyRingId = "my-key-ring", string keyId = "my-key")
    {
        // Create the client.
        KeyManagementServiceClient client = KeyManagementServiceClient.Create();

        // Build the parent key name.
        CryptoKeyName keyName = new CryptoKeyName(projectId, locationId, keyRingId, keyId);

        // Build the key version.
        CryptoKeyVersion keyVersion = new CryptoKeyVersion { };

        // Call the API.
        CryptoKeyVersion result = client.CreateCryptoKeyVersion(keyName, keyVersion);

        // Return the result.
        return result;
    }
}

import (
	"context"
	"fmt"
	"io"

	kms "cloud.google.com/go/kms/apiv1"
	"cloud.google.com/go/kms/apiv1/kmspb"
)

// createKeyVersion creates a new key version for the given key.
func createKeyVersion(w io.Writer, parent string) error {
	// parent := "projects/my-project/locations/us-east1/keyRings/my-key-ring/cryptoKeys/my-key"

	// Create the client.
	ctx := context.Background()
	client, err := kms.NewKeyManagementClient(ctx)
	if err != nil {
		return fmt.Errorf("failed to create kms client: %w", err)
	}
	defer client.Close()

	// Build the request.
	req := &kmspb.CreateCryptoKeyVersionRequest{
		Parent: parent,
	}

	// Call the API.
	result, err := client.CreateCryptoKeyVersion(ctx, req)
	if err != nil {
		return fmt.Errorf("failed to create key version: %w", err)
	}
	fmt.Fprintf(w, "Created key version: %s\n", result.Name)
	return nil
}

import com.google.cloud.kms.v1.CryptoKeyName;
import com.google.cloud.kms.v1.CryptoKeyVersion;
import com.google.cloud.kms.v1.KeyManagementServiceClient;
import java.io.IOException;

public class CreateKeyVersion {

  public void createKeyVersion() throws IOException {
    // TODO(developer): Replace these variables before running the sample.
    String projectId = "your-project-id";
    String locationId = "us-east1";
    String keyRingId = "my-key-ring";
    String keyId = "my-key";
    createKeyVersion(projectId, locationId, keyRingId, keyId);
  }

  // Create a new key version.
  public void createKeyVersion(String projectId, String locationId, String keyRingId, String keyId)
      throws IOException {
    // Initialize client that will be used to send requests. This client only
    // needs to be created once, and can be reused for multiple requests. After
    // completing all of your requests, call the "close" method on the client to
    // safely clean up any remaining background resources.
    try (KeyManagementServiceClient client = KeyManagementServiceClient.create()) {
      // Build the parent name from the project, location, and key ring.
      CryptoKeyName cryptoKeyName = CryptoKeyName.of(projectId, locationId, keyRingId, keyId);

      // Build the key version to create.
      CryptoKeyVersion keyVersion = CryptoKeyVersion.newBuilder().build();

      // Create the key.
      CryptoKeyVersion createdVersion = client.createCryptoKeyVersion(cryptoKeyName, keyVersion);
      System.out.printf("Created key version %s%n", createdVersion.getName());
    }
  }
}

//
// TODO(developer): Uncomment these variables before running the sample.
//
// const projectId = 'my-project';
// const locationId = 'us-east1';
// const keyRingId = 'my-key-ring';
// const keyId = 'my-key';

// Imports the Cloud KMS library
const {KeyManagementServiceClient} = require('@google-cloud/kms');

// Instantiates a client
const client = new KeyManagementServiceClient();

// Build the parent key name
const keyName = client.cryptoKeyPath(projectId, locationId, keyRingId, keyId);

async function createKeyVersion() {
  const [version] = await client.createCryptoKeyVersion({
    parent: keyName,
  });

  console.log(`Created key version: ${version.name}`);
  return version;
}

return createKeyVersion();

use Google\Cloud\Kms\V1\Client\KeyManagementServiceClient;
use Google\Cloud\Kms\V1\CreateCryptoKeyVersionRequest;
use Google\Cloud\Kms\V1\CryptoKeyVersion;

function create_key_version(
    string $projectId = 'my-project',
    string $locationId = 'us-east1',
    string $keyRingId = 'my-key-ring',
    string $keyId = 'my-key'
): CryptoKeyVersion {
    // Create the Cloud KMS client.
    $client = new KeyManagementServiceClient();

    // Build the parent key name.
    $keyName = $client->cryptoKeyName($projectId, $locationId, $keyRingId, $keyId);

    // Build the key version.
    $version = new CryptoKeyVersion();

    // Call the API.
    $createCryptoKeyVersionRequest = (new CreateCryptoKeyVersionRequest())
        ->setParent($keyName)
        ->setCryptoKeyVersion($version);
    $createdVersion = $client->createCryptoKeyVersion($createCryptoKeyVersionRequest);
    printf('Created key version: %s' . PHP_EOL, $createdVersion->getName());

    return $createdVersion;
}

from google.cloud import kms


def create_key_version(
    project_id: str, location_id: str, key_ring_id: str, key_id: str
) -> kms.CryptoKey:
    """
    Creates a new version of the given key.

    Args:
        project_id (string): Google Cloud project ID (e.g. 'my-project').
        location_id (string): Cloud KMS location (e.g. 'us-east1').
        key_ring_id (string): ID of the Cloud KMS key ring (e.g. 'my-key-ring').
        key_id (string): ID of the key for which to create a new version (e.g. 'my-key').

    Returns:
        CryptoKeyVersion: Cloud KMS key version.

    """

    # Create the client.
    client = kms.KeyManagementServiceClient()

    # Build the parent key name.
    key_name = client.crypto_key_path(project_id, location_id, key_ring_id, key_id)

    # Build the key version.
    version = {}

    # Call the API.
    created_version = client.create_crypto_key_version(
        request={"parent": key_name, "crypto_key_version": version}
    )
    print(f"Created key version: {created_version.name}")
    return created_version

# TODO(developer): uncomment these values before running the sample.
# project_id  = "my-project"
# location_id = "us-east1"
# key_ring_id = "my-key-ring"
# key_id      = "my-key"

# Require the library.
require "google/cloud/kms"

# Create the client.
client = Google::Cloud::Kms.key_management_service

# Build the parent key name.
key_name = client.crypto_key_path project:    project_id,
                                  location:   location_id,
                                  key_ring:   key_ring_id,
                                  crypto_key: key_id

# Build the version.
version = {}

# Call the API.
created_version = client.create_crypto_key_version parent: key_name, crypto_key_version: version
puts "Created key version: #{created_version.name}"

using Google.Cloud.Kms.V1;

public class UpdateKeySetPrimarySample
{
    public CryptoKey UpdateKeySetPrimary(
      string projectId = "my-project", string locationId = "us-east1", string keyRingId = "my-key-ring", string keyId = "my-key",
      string keyVersionId = "123")
    {
        // Create the client.
        KeyManagementServiceClient client = KeyManagementServiceClient.Create();

        // Build the key name.
        CryptoKeyName keyName = new CryptoKeyName(projectId, locationId, keyRingId, keyId);

        // Call the API.
        CryptoKey result = client.UpdateCryptoKeyPrimaryVersion(keyName, keyVersionId);

        // Return the updated key.
        return result;
    }
}

import (
	"context"
	"fmt"
	"io"

	kms "cloud.google.com/go/kms/apiv1"
	"cloud.google.com/go/kms/apiv1/kmspb"
)

// updateKeySetPrimary updates the primary key version on a Cloud KMS key.
func updateKeySetPrimary(w io.Writer, name, version string) error {
	// name := "projects/my-project/locations/us-east1/keyRings/my-key-ring/cryptoKeys/my-key"
	// version := "123"

	// Create the client.
	ctx := context.Background()
	client, err := kms.NewKeyManagementClient(ctx)
	if err != nil {
		return fmt.Errorf("failed to create kms client: %w", err)
	}
	defer client.Close()

	// Build the request.
	req := &kmspb.UpdateCryptoKeyPrimaryVersionRequest{
		Name:               name,
		CryptoKeyVersionId: version,
	}

	// Call the API.
	result, err := client.UpdateCryptoKeyPrimaryVersion(ctx, req)
	if err != nil {
		return fmt.Errorf("failed to update key: %w", err)
	}
	fmt.Fprintf(w, "Updated key primary: %s\n", result.Name)

	return nil
}

import com.google.cloud.kms.v1.CryptoKey;
import com.google.cloud.kms.v1.CryptoKeyName;
import com.google.cloud.kms.v1.KeyManagementServiceClient;
import java.io.IOException;

public class UpdateKeySetPrimary {

  public void updateKeySetPrimary() throws IOException {
    // TODO(developer): Replace these variables before running the sample.
    String projectId = "your-project-id";
    String locationId = "us-east1";
    String keyRingId = "my-key-ring";
    String keyId = "my-key";
    String keyVersionId = "123";
    updateKeySetPrimary(projectId, locationId, keyRingId, keyId, keyVersionId);
  }

  // Update a key's primary version.
  public void updateKeySetPrimary(
      String projectId, String locationId, String keyRingId, String keyId, String keyVersionId)
      throws IOException {
    // Initialize client that will be used to send requests. This client only
    // needs to be created once, and can be reused for multiple requests. After
    // completing all of your requests, call the "close" method on the client to
    // safely clean up any remaining background resources.
    try (KeyManagementServiceClient client = KeyManagementServiceClient.create()) {
      // Build the name from the project, location, key ring, and keyId.
      CryptoKeyName cryptoKeyName = CryptoKeyName.of(projectId, locationId, keyRingId, keyId);

      // Create the key.
      CryptoKey createdKey = client.updateCryptoKeyPrimaryVersion(cryptoKeyName, keyVersionId);
      System.out.printf("Updated key primary version %s%n", createdKey.getName());
    }
  }
}

//
// TODO(developer): Uncomment these variables before running the sample.
//
// const projectId = 'my-project';
// const locationId = 'us-east1';
// const keyRingId = 'my-key-ring';
// const keyId = 'my-key';
// const versionId = '123';

// Imports the Cloud KMS library
const {KeyManagementServiceClient} = require('@google-cloud/kms');

// Instantiates a client
const client = new KeyManagementServiceClient();

// Build the key name
const keyName = client.cryptoKeyPath(projectId, locationId, keyRingId, keyId);

async function updateKeySetPrimary() {
  const [key] = await client.updateCryptoKeyPrimaryVersion({
    name: keyName,
    cryptoKeyVersionId: versionId,
  });

  console.log(`Set primary to ${versionId}`);
  return key;
}

return updateKeySetPrimary();

use Google\Cloud\Kms\V1\Client\KeyManagementServiceClient;
use Google\Cloud\Kms\V1\UpdateCryptoKeyPrimaryVersionRequest;

function update_key_set_primary(
    string $projectId = 'my-project',
    string $locationId = 'us-east1',
    string $keyRingId = 'my-key-ring',
    string $keyId = 'my-key',
    string $versionId = '123'
) {
    // Create the Cloud KMS client.
    $client = new KeyManagementServiceClient();

    // Build the key name.
    $keyName = $client->cryptoKeyName($projectId, $locationId, $keyRingId, $keyId);

    // Call the API.
    $updateCryptoKeyPrimaryVersionRequest = (new UpdateCryptoKeyPrimaryVersionRequest())
        ->setName($keyName)
        ->setCryptoKeyVersionId($versionId);
    $updatedKey = $client->updateCryptoKeyPrimaryVersion($updateCryptoKeyPrimaryVersionRequest);
    printf('Updated primary %s to %s' . PHP_EOL, $updatedKey->getName(), $versionId);

    return $updatedKey;
}

# TODO(developer): uncomment these values before running the sample.
# project_id  = "my-project"
# location_id = "us-east1"
# key_ring_id = "my-key-ring"
# key_id      = "my-key"
# version_id  = "123"

# Require the library.
require "google/cloud/kms"

# Create the client.
client = Google::Cloud::Kms.key_management_service

# Build the parent key name.
key_name = client.crypto_key_path project:    project_id,
                                  location:   location_id,
                                  key_ring:   key_ring_id,
                                  crypto_key: key_id

# Call the API.
updated_key = client.update_crypto_key_primary_version name: key_name, crypto_key_version_id: version_id
puts "Updated primary #{updated_key.name} to #{version_id}"

from google.cloud import kms


def update_key_set_primary(
    project_id: str, location_id: str, key_ring_id: str, key_id: str, version_id: str
) -> kms.CryptoKey:
    """
    Update the primary version of a key.

    Args:
        project_id (string): Google Cloud project ID (e.g. 'my-project').
        location_id (string): Cloud KMS location (e.g. 'us-east1').
        key_ring_id (string): ID of the Cloud KMS key ring (e.g. 'my-key-ring').
        key_id (string): ID of the key to use (e.g. 'my-key').
        version_id (string): ID of the key to make primary (e.g. '2').

    Returns:
        CryptoKey: Updated Cloud KMS key.

    """

    # Create the client.
    client = kms.KeyManagementServiceClient()

    # Build the key name.
    key_name = client.crypto_key_path(project_id, location_id, key_ring_id, key_id)

    # Call the API.
    updated_key = client.update_crypto_key_primary_version(
        request={"name": key_name, "crypto_key_version_id": version_id}
    )
    print(f"Updated {updated_key.name} primary to {version_id}")
    return updated_key

using Google.Cloud.Kms.V1;
using Google.Protobuf.WellKnownTypes;

public class UpdateKeyRemoveRotationSample
{
    public CryptoKey UpdateKeyRemoveRotation(string projectId = "my-project", string locationId = "us-east1", string keyRingId = "my-key-ring", string keyId = "my-key")
    {
        // Create the client.
        KeyManagementServiceClient client = KeyManagementServiceClient.Create();

        // Build the key.
        CryptoKey key = new CryptoKey
        {
            CryptoKeyName = new CryptoKeyName(projectId, locationId, keyRingId, keyId),
            RotationPeriod = null,
            NextRotationTime = null,
        };

        // Build the update mask.
        FieldMask fieldMask = new FieldMask
        {
            Paths = { "rotation_period", "next_rotation_time" },
        };

        // Call the API.
        CryptoKey result = client.UpdateCryptoKey(key, fieldMask);

        // Return the updated key.
        return result;
    }
}

import (
	"context"
	"fmt"
	"io"

	kms "cloud.google.com/go/kms/apiv1"
	"cloud.google.com/go/kms/apiv1/kmspb"
	fieldmask "google.golang.org/genproto/protobuf/field_mask"
)

// removeRotationSchedule updates a key to remove a rotation schedule, if one
// exists.
func removeRotationSchedule(w io.Writer, name string) error {
	// name := "projects/my-project/locations/us-east1/keyRings/my-key-ring/cryptoKeys/my-key"

	// Create the client.
	ctx := context.Background()
	client, err := kms.NewKeyManagementClient(ctx)
	if err != nil {
		return fmt.Errorf("failed to create kms client: %w", err)
	}
	defer client.Close()

	// Build the request.
	req := &kmspb.UpdateCryptoKeyRequest{
		CryptoKey: &kmspb.CryptoKey{
			// Provide the name of the key to update
			Name: name,

			// Remove any rotation fields.
			RotationSchedule: nil,
			NextRotationTime: nil,
		},
		UpdateMask: &fieldmask.FieldMask{
			Paths: []string{"rotation_period", "next_rotation_time"},
		},
	}

	// Call the API.
	result, err := client.UpdateCryptoKey(ctx, req)
	if err != nil {
		return fmt.Errorf("failed to update key: %w", err)
	}
	fmt.Fprintf(w, "Updated key: %s\n", result.Name)
	return nil
}

import com.google.cloud.kms.v1.CryptoKey;
import com.google.cloud.kms.v1.CryptoKeyName;
import com.google.cloud.kms.v1.KeyManagementServiceClient;
import com.google.protobuf.FieldMask;
import com.google.protobuf.util.FieldMaskUtil;
import java.io.IOException;

public class UpdateKeyRemoveRotation {

  public void updateKeyRemoveRotation() throws IOException {
    // TODO(developer): Replace these variables before running the sample.
    String projectId = "your-project-id";
    String locationId = "us-east1";
    String keyRingId = "my-key-ring";
    String keyId = "my-key";
    updateKeyRemoveRotation(projectId, locationId, keyRingId, keyId);
  }

  // Update a key to remove all labels.
  public void updateKeyRemoveRotation(
      String projectId, String locationId, String keyRingId, String keyId) throws IOException {
    // Initialize client that will be used to send requests. This client only
    // needs to be created once, and can be reused for multiple requests. After
    // completing all of your requests, call the "close" method on the client to
    // safely clean up any remaining background resources.
    try (KeyManagementServiceClient client = KeyManagementServiceClient.create()) {
      // Build the name from the project, location, key ring, and keyId.
      CryptoKeyName cryptoKeyName = CryptoKeyName.of(projectId, locationId, keyRingId, keyId);

      // Build an empty key with no labels.
      CryptoKey key =
          CryptoKey.newBuilder()
              .setName(cryptoKeyName.toString())
              .clearRotationPeriod()
              .clearNextRotationTime()
              .build();

      // Construct the field mask.
      FieldMask fieldMask = FieldMaskUtil.fromString("rotation_period,next_rotation_time");

      // Create the key.
      CryptoKey createdKey = client.updateCryptoKey(key, fieldMask);
      System.out.printf("Updated key %s%n", createdKey.getName());
    }
  }
}

//
// TODO(developer): Uncomment these variables before running the sample.
//
// const projectId = 'my-project';
// const locationId = 'us-east1';
// const keyRingId = 'my-key-ring';
// const keyId = 'my-key';

// Imports the Cloud KMS library
const {KeyManagementServiceClient} = require('@google-cloud/kms');

// Instantiates a client
const client = new KeyManagementServiceClient();

// Build the key name
const keyName = client.cryptoKeyPath(projectId, locationId, keyRingId, keyId);

async function updateKeyRemoveRotation() {
  const [key] = await client.updateCryptoKey({
    cryptoKey: {
      name: keyName,
      rotationPeriod: null,
      nextRotationTime: null,
    },
    updateMask: {
      paths: ['rotation_period', 'next_rotation_time'],
    },
  });

  console.log(`Removed rotation for: ${key.name}`);
  return key;
}

return updateKeyRemoveRotation();

use Google\Cloud\Kms\V1\Client\KeyManagementServiceClient;
use Google\Cloud\Kms\V1\CryptoKey;
use Google\Cloud\Kms\V1\UpdateCryptoKeyRequest;
use Google\Protobuf\FieldMask;

function update_key_remove_rotation(
    string $projectId = 'my-project',
    string $locationId = 'us-east1',
    string $keyRingId = 'my-key-ring',
    string $keyId = 'my-key'
): CryptoKey {
    // Create the Cloud KMS client.
    $client = new KeyManagementServiceClient();

    // Build the key name.
    $keyName = $client->cryptoKeyName($projectId, $locationId, $keyRingId, $keyId);

    // Build the key.
    $key = (new CryptoKey())
        ->setName($keyName);

    // Create the field mask.
    $updateMask = (new FieldMask())
        ->setPaths(['rotation_period', 'next_rotation_time']);

    // Call the API.
    $updateCryptoKeyRequest = (new UpdateCryptoKeyRequest())
        ->setCryptoKey($key)
        ->setUpdateMask($updateMask);
    $updatedKey = $client->updateCryptoKey($updateCryptoKeyRequest);
    printf('Updated key: %s' . PHP_EOL, $updatedKey->getName());

    return $updatedKey;
}

# TODO(developer): uncomment these values before running the sample.
# project_id  = "my-project"
# location_id = "us-east1"
# key_ring_id = "my-key-ring"
# key_id      = "my-key"

# Require the library.
require "google/cloud/kms"

# Create the client.
client = Google::Cloud::Kms.key_management_service

# Build the parent key name.
key_name = client.crypto_key_path project:    project_id,
                                  location:   location_id,
                                  key_ring:   key_ring_id,
                                  crypto_key: key_id

# Build the key.
key = {
  name:               key_name,
  rotation_period:    nil,
  next_rotation_time: nil
}

# Build the field mask.
update_mask = { paths: ["rotation_period", "next_rotation_time"] }

# Call the API.
updated_key = client.update_crypto_key crypto_key: key, update_mask: update_mask
puts "Updated key: #{updated_key.name}"

from google.cloud import kms


def update_key_remove_rotation(
    project_id: str, location_id: str, key_ring_id: str, key_id: str
) -> kms.CryptoKey:
    """
    Remove a rotation schedule from an existing key.

    Args:
        project_id (string): Google Cloud project ID (e.g. 'my-project').
        location_id (string): Cloud KMS location (e.g. 'us-east1').
        key_ring_id (string): ID of the Cloud KMS key ring (e.g. 'my-key-ring').
        key_id (string): ID of the key to use (e.g. 'my-key').

    Returns:
        CryptoKey: Updated Cloud KMS key.

    """

    # Create the client.
    client = kms.KeyManagementServiceClient()

    # Build the key name.
    key_name = client.crypto_key_path(project_id, location_id, key_ring_id, key_id)

    key = {"name": key_name}

    # Build the update mask.
    update_mask = {"paths": ["rotation_period", "next_rotation_time"]}

    # Call the API.
    updated_key = client.update_crypto_key(
        request={"crypto_key": key, "update_mask": update_mask}
    )
    print(f"Updated key: {updated_key.name}")
    return updated_key