EC 鍵の非対称署名を検証する

非対称の RSA 鍵で署名されたメールの署名を検証する

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Cloud KMS 用のクライアント ライブラリをインストールして使用する方法については、Cloud KMS クライアント ライブラリをご覧ください。

public class VerifyAsymmetricSignatureEcSample
    // Cloud KMS returns signatures in a DER-encoded format. .NET requires
    // signatures to be in IEEE 1363 format, and converting between these formats
    // is a few hundred lines of code.
    // exposes these helpers, but will
    // not be available until .NET 5. Until then, you will need to use an external
    // library or package to validate signatures.


Cloud KMS 用のクライアント ライブラリをインストールして使用する方法については、Cloud KMS クライアント ライブラリをご覧ください。

import (

	kms ""
	kmspb ""

// verifyAsymmetricSignatureEC will verify that an 'EC_SIGN_P256_SHA256' signature is
// valid for a given message.
func verifyAsymmetricSignatureEC(w io.Writer, name string, message, signature []byte) error {
	// name := "projects/my-project/locations/us-east1/keyRings/my-key-ring/cryptoKeys/my-key/cryptoKeyVersions/123"
	// message := "my message"
	// signature := []byte("...")  // Response from a sign request

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

	// Retrieve the public key from KMS.
	response, err := client.GetPublicKey(ctx, &kmspb.GetPublicKeyRequest{Name: name})
	if err != nil {
		return fmt.Errorf("failed to get public key: %v", err)

	// Parse the public key. Note, this example assumes the public key is in the
	// ECDSA format.
	block, _ := pem.Decode([]byte(response.Pem))
	publicKey, err := x509.ParsePKIXPublicKey(block.Bytes)
	if err != nil {
		return fmt.Errorf("failed to parse public key: %v", err)
	ecKey, ok := publicKey.(*ecdsa.PublicKey)
	if !ok {
		return fmt.Errorf("public key is not rsa")

	// Verify Elliptic Curve signature.
	var parsedSig struct{ R, S *big.Int }
	if _, err = asn1.Unmarshal(signature, &parsedSig); err != nil {
		return fmt.Errorf("asn1.Unmarshal: %v", err)

	digest := sha256.Sum256(message)
	if !ecdsa.Verify(ecKey, digest[:], parsedSig.R, parsedSig.S) {
		return fmt.Errorf("failed to verify signature")
	fmt.Fprintf(w, "Verified signature!")
	return nil


Cloud KMS 用のクライアント ライブラリをインストールして使用する方法については、Cloud KMS クライアント ライブラリをご覧ください。

import java.nio.charset.StandardCharsets;
import java.util.Base64;

public class VerifyAsymmetricEc {

  public void verifyAsymmetricEc() throws IOException, GeneralSecurityException {
    // 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";
    String message = "my message";
    byte[] signature = null;
    verifyAsymmetricEc(projectId, locationId, keyRingId, keyId, keyVersionId, message, signature);

  // Verify the signature of a message signed with an RSA key.
  public void verifyAsymmetricEc(
      String projectId,
      String locationId,
      String keyRingId,
      String keyId,
      String keyVersionId,
      String message,
      byte[] signature)
      throws IOException, GeneralSecurityException {
    // 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, key, and key version.
      CryptoKeyVersionName keyVersionName =
          CryptoKeyVersionName.of(projectId, locationId, keyRingId, keyId, keyVersionId);

      // Convert the message into bytes. Cryptographic plaintexts and
      // ciphertexts are always byte arrays.
      byte[] plaintext = message.getBytes(StandardCharsets.UTF_8);

      // Get the public key.
      PublicKey publicKey = client.getPublicKey(keyVersionName);

      // Convert the public PEM key to a DER key (see helper below).
      byte[] derKey = convertPemToDer(publicKey.getPem());
      X509EncodedKeySpec keySpec = new X509EncodedKeySpec(derKey); ecKey = KeyFactory.getInstance("EC").generatePublic(keySpec);

      // Verify the 'RSA_SIGN_PKCS1_2048_SHA256' signature.
      // For other key algorithms:
      Signature ecVerify = Signature.getInstance("SHA256withECDSA");

      // Verify the signature.
      boolean verified = ecVerify.verify(signature);
      System.out.printf("Signature verified: %s", verified);

  // Converts a base64-encoded PEM certificate like the one returned from Cloud
  // KMS into a DER formatted certificate for use with the Java APIs.
  private byte[] convertPemToDer(String pem) {
    BufferedReader bufferedReader = new BufferedReader(new StringReader(pem));
    String encoded =
            .filter(line -> !line.startsWith("-----BEGIN") && !line.startsWith("-----END"))
    return Base64.getDecoder().decode(encoded);


Cloud KMS 用のクライアント ライブラリをインストールして使用する方法については、Cloud KMS クライアント ライブラリをご覧ください。

// TODO(developer): Uncomment these variables before running the sample.
// const projectId = 'your-project-id';
// const locationId = 'us-east1';
// const keyRingId = 'my-key-ring';
// const keyId = 'my-key';
// const versionId = '1';
// const message = 'my message to verify';
// const signatureBuffer = Buffer.from('...');

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

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

// Build the key name
const versionName = client.cryptoKeyVersionPath(

async function verifyAsymmetricSignatureEc() {
  // Get public key
  const [publicKey] = await client.getPublicKey({
    name: versionName,

  // Create the verifier. The algorithm must match the algorithm of the key.
  const crypto = require('crypto');
  const verify = crypto.createVerify('sha256');

  // Build the key object
  const key = {
    key: publicKey.pem,

  // Verify the signature using the public key
  const verified = verify.verify(key, signatureBuffer);
  return verified;

return verifyAsymmetricSignatureEc();


Cloud KMS 用のクライアント ライブラリをインストールして使用する方法については、Cloud KMS クライアント ライブラリをご覧ください。

use Google\Cloud\Kms\V1\KeyManagementServiceClient;

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

    // Build the key version name.
    $keyVersionName = $client->cryptoKeyVersionName($projectId, $locationId, $keyRingId, $keyId, $versionId);

    // Get the public key.
    $publicKey = $client->getPublicKey($keyVersionName);

    // Verify the signature. The hash algorithm must correspond to the key
    // algorithm. The openssl_verify command returns 1 on success, 0 on falure.
    $verified = openssl_verify($message, $signature, $publicKey->getPem(), OPENSSL_ALGO_SHA256) === 1;
    printf('Signature verified: %s', $verified);
    return $verified;


Cloud KMS 用のクライアント ライブラリをインストールして使用する方法については、Cloud KMS クライアント ライブラリをご覧ください。

def verify_asymmetric_ec(project_id, location_id, key_ring_id, key_id, version_id, message, signature):
    Verify the signature of an message signed with an asymmetric EC key.

        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 version to use (e.g. '1').
        message (string): Original message (e.g. 'my message')
        signature (bytes): Signature from a sign request.

        bool: True if verified, False otherwise


    # Import the client library.
    from import kms

    # Import cryptographic helpers from the cryptography package.
    from cryptography.exceptions import InvalidSignature
    from cryptography.hazmat.backends import default_backend
    from cryptography.hazmat.primitives import hashes, serialization
    from cryptography.hazmat.primitives.asymmetric import ec, utils

    # Import hashlib.
    import hashlib

    # Convert the message to bytes.
    message_bytes = message.encode('utf-8')

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

    # Build the key version name.
    key_version_name = client.crypto_key_version_path(project_id, location_id, key_ring_id, key_id, version_id)

    # Get the public key.
    public_key = client.get_public_key(request={'name': key_version_name})

    # Extract and parse the public key as a PEM-encoded RSA key.
    pem = public_key.pem.encode('utf-8')
    ec_key = serialization.load_pem_public_key(pem, default_backend())
    hash_ = hashlib.sha256(message_bytes).digest()

    # Attempt to verify.
        sha256 = hashes.SHA256()
        ec_key.verify(signature, hash_, ec.ECDSA(utils.Prehashed(sha256)))
        print('Signature verified')
        return True
    except InvalidSignature:
        print('Signature failed to verify')
        return False


Cloud KMS 用のクライアント ライブラリをインストールして使用する方法については、Cloud KMS クライアント ライブラリをご覧ください。

# 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"
# message     = "my message"
# signature   = "..."

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

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

# Build the key version name.
key_version_name = client.crypto_key_version_path project:            project_id,
                                                  location:           location_id,
                                                  key_ring:           key_ring_id,
                                                  crypto_key:         key_id,
                                                  crypto_key_version: version_id

# Get the public key.
public_key = client.get_public_key name: key_version_name

# Parse the public key.
ec_key = public_key.pem

# Verify the signature.
verified = ec_key.verify "sha256", signature, message
puts "Verified: #{verified}"


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