public class CryptographyClient extends Object
CryptographyClient provides synchronous methods to perform cryptographic operations using asymmetric and
symmetric keys. The client supports encrypt, decrypt, wrap key, unwrap key, sign and verify operations using the
configured key.
Samples to construct the sync client
CryptographyClient cryptographyClient = new CryptographyClientBuilder()
.keyIdentifier("<your-key-id>")
.credential(new DefaultAzureCredentialBuilder().build())
.buildClient();
JsonWebKey jsonWebKey = new JsonWebKey().setId("SampleJsonWebKey");
CryptographyClient cryptographyClient = new CryptographyClientBuilder()
.jsonWebKey(jsonWebKey)
.buildClient();
CryptographyClientBuilder| Modifier and Type | Method and Description |
|---|---|
DecryptResult |
decrypt(DecryptParameters decryptParameters,
com.azure.core.util.Context context)
Decrypts a single block of encrypted data using the configured key and specified algorithm.
|
DecryptResult |
decrypt(EncryptionAlgorithm algorithm,
byte[] ciphertext)
Decrypts a single block of encrypted data using the configured key and specified algorithm.
|
DecryptResult |
decrypt(EncryptionAlgorithm algorithm,
byte[] ciphertext,
com.azure.core.util.Context context)
Decrypts a single block of encrypted data using the configured key and specified algorithm.
|
EncryptResult |
encrypt(EncryptionAlgorithm algorithm,
byte[] plaintext)
Encrypts an arbitrary sequence of bytes using the configured key.
|
EncryptResult |
encrypt(EncryptionAlgorithm algorithm,
byte[] plaintext,
com.azure.core.util.Context context)
Encrypts an arbitrary sequence of bytes using the configured key.
|
EncryptResult |
encrypt(EncryptParameters encryptParameters,
com.azure.core.util.Context context)
Encrypts an arbitrary sequence of bytes using the configured key.
|
KeyVaultKey |
getKey()
Gets the public part of the configured key.
|
com.azure.core.http.rest.Response<KeyVaultKey> |
getKeyWithResponse(com.azure.core.util.Context context)
Gets the public part of the configured key.
|
SignResult |
sign(SignatureAlgorithm algorithm,
byte[] digest)
Creates a signature from a digest using the configured key.
|
SignResult |
sign(SignatureAlgorithm algorithm,
byte[] digest,
com.azure.core.util.Context context)
Creates a signature from a digest using the configured key.
|
SignResult |
signData(SignatureAlgorithm algorithm,
byte[] data)
Creates a signature from the raw data using the configured key.
|
SignResult |
signData(SignatureAlgorithm algorithm,
byte[] data,
com.azure.core.util.Context context)
Creates a signature from the raw data using the configured key.
|
UnwrapResult |
unwrapKey(KeyWrapAlgorithm algorithm,
byte[] encryptedKey)
Unwraps a symmetric key using the configured key that was initially used for wrapping that key.
|
UnwrapResult |
unwrapKey(KeyWrapAlgorithm algorithm,
byte[] encryptedKey,
com.azure.core.util.Context context)
Unwraps a symmetric key using the configured key that was initially used for wrapping that key.
|
VerifyResult |
verify(SignatureAlgorithm algorithm,
byte[] digest,
byte[] signature)
Verifies a signature using the configured key.
|
VerifyResult |
verify(SignatureAlgorithm algorithm,
byte[] digest,
byte[] signature,
com.azure.core.util.Context context)
Verifies a signature using the configured key.
|
VerifyResult |
verifyData(SignatureAlgorithm algorithm,
byte[] data,
byte[] signature)
Verifies a signature against the raw data using the configured key.
|
VerifyResult |
verifyData(SignatureAlgorithm algorithm,
byte[] data,
byte[] signature,
com.azure.core.util.Context context)
Verifies a signature against the raw data using the configured key.
|
WrapResult |
wrapKey(KeyWrapAlgorithm algorithm,
byte[] key)
Wraps a symmetric key using the configured key.
|
WrapResult |
wrapKey(KeyWrapAlgorithm algorithm,
byte[] key,
com.azure.core.util.Context context)
Wraps a symmetric key using the configured key.
|
public KeyVaultKey getKey()
keys/get permission for non-local operations.
Code Samples
Gets the configured key in the client. Subscribes to the call asynchronously and prints out the returned key details when a response has been received.
KeyVaultKey key = cryptographyClient.getKey();
System.out.printf("Key returned with name: %s and id: %s.%n", key.getName(), key.getId());
public com.azure.core.http.rest.Response<KeyVaultKey> getKeyWithResponse(com.azure.core.util.Context context)
keys/get permission for non-local operations.
Code Samples
Gets the configured key in the client. Subscribes to the call asynchronously and prints out the returned key details when a response has been received.
KeyVaultKey keyWithVersion = cryptographyClient.getKeyWithResponse(new Context("key1", "value1")).getValue();
System.out.printf("Key is returned with name: %s and id %s.%n", keyWithVersion.getName(),
keyWithVersion.getId());
context - Additional context that is passed through the HttpPipeline during the service call.Mono containing a Response whose value contains the
requested key.com.azure.core.exception.ResourceNotFoundException - When the configured key doesn't exist in the key vault.public EncryptResult encrypt(EncryptionAlgorithm algorithm, byte[] plaintext)
keys/encrypt permission
for non-local operations.
The encryption algorithm indicates the type of algorithm to use for encrypting
the specified plaintext. Possible values for asymmetric keys include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128CBC,
A128CBCPAD, A128CBC-HS256,
A128GCM, A192CBC,
A192CBCPAD, A192CBC-HS384,
A192GCM, A256CBC,
A256CBPAD, A256CBC-HS512 and
A256GCM.
Code Samples
Encrypts the content. Subscribes to the call asynchronously and prints out the encrypted content details when a response has been received.
byte[] plaintext = new byte[100];
new Random(0x1234567L).nextBytes(plaintext);
EncryptResult encryptResult = cryptographyClient.encrypt(EncryptionAlgorithm.RSA_OAEP, plaintext);
System.out.printf("Received encrypted content of length: %d, with algorithm: %s.%n",
encryptResult.getCipherText().length, encryptResult.getAlgorithm());
algorithm - The algorithm to be used for encryption.plaintext - The content to be encrypted.EncryptResult whose cipher text contains the encrypted
content.NullPointerException - If algorithm or plaintext are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for encryption.UnsupportedOperationException - If the encrypt operation is not supported or configured on the key.public EncryptResult encrypt(EncryptionAlgorithm algorithm, byte[] plaintext, com.azure.core.util.Context context)
keys/encrypt permission
for non-local operations.
The encryption algorithm indicates the type of algorithm to use for encrypting
the specified plaintext. Possible values for asymmetric keys include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128CBC,
A128CBCPAD, A128CBC-HS256,
A128GCM, A192CBC,
A192CBCPAD, A192CBC-HS384,
A192GCM, A256CBC,
A256CBPAD, A256CBC-HS512 and
A256GCM.
Code Samples
Encrypts the content. Subscribes to the call asynchronously and prints out the encrypted content details when a response has been received.
byte[] plaintextToEncrypt = new byte[100];
new Random(0x1234567L).nextBytes(plaintextToEncrypt);
EncryptResult encryptionResult = cryptographyClient.encrypt(EncryptionAlgorithm.RSA_OAEP, plaintextToEncrypt,
new Context("key1", "value1"));
System.out.printf("Received encrypted content of length: %d, with algorithm: %s.%n",
encryptionResult.getCipherText().length, encryptionResult.getAlgorithm());
algorithm - The algorithm to be used for encryption.plaintext - The content to be encrypted.context - Additional context that is passed through the HttpPipeline during the service call.EncryptResult whose cipher text contains the encrypted
content.NullPointerException - If algorithm or plaintext are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for encryption.UnsupportedOperationException - If the encrypt operation is not supported or configured on the key.public EncryptResult encrypt(EncryptParameters encryptParameters, com.azure.core.util.Context context)
keys/encrypt permission
for non-local operations.
The encryption algorithm indicates the type of algorithm to use for encrypting
the specified plaintext. Possible values for asymmetric keys include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128CBC,
A128CBCPAD, A128CBC-HS256,
A128GCM, A192CBC,
A192CBCPAD, A192CBC-HS384,
A192GCM, A256CBC,
A256CBPAD, A256CBC-HS512 and
A256GCM.
Code Samples
Encrypts the content. Subscribes to the call asynchronously and prints out the encrypted content details when a response has been received.
byte[] myPlaintext = new byte[100];
new Random(0x1234567L).nextBytes(myPlaintext);
byte[] iv = {
(byte) 0x1a, (byte) 0xf3, (byte) 0x8c, (byte) 0x2d, (byte) 0xc2, (byte) 0xb9, (byte) 0x6f, (byte) 0xfd,
(byte) 0xd8, (byte) 0x66, (byte) 0x94, (byte) 0x09, (byte) 0x23, (byte) 0x41, (byte) 0xbc, (byte) 0x04
};
EncryptParameters encryptParameters = EncryptParameters.createA128CbcParameters(myPlaintext, iv);
EncryptResult encryptedResult = cryptographyClient.encrypt(encryptParameters, new Context("key1", "value1"));
System.out.printf("Received encrypted content of length: %d, with algorithm: %s.%n",
encryptedResult.getCipherText().length, encryptedResult.getAlgorithm());
encryptParameters - The parameters to use in the encryption operation.context - Additional context that is passed through the HttpPipeline during the service call.EncryptResult whose cipher text contains the encrypted
content.NullPointerException - If algorithm or plaintext are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for encryption.UnsupportedOperationException - If the encrypt operation is not supported or configured on the key.public DecryptResult decrypt(EncryptionAlgorithm algorithm, byte[] ciphertext)
keys/decrypt permission for non-local operations.
The encryption algorithm indicates the type of algorithm to use for decrypting
the specified encrypted content. Possible values for asymmetric keys include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128CBC,
A128CBCPAD, A128CBC-HS256,
A128GCM, A192CBC,
A192CBCPAD, A192CBC-HS384,
A192GCM, A256CBC,
A256CBPAD, A256CBC-HS512 and
A256GCM.
Code Samples
Decrypts the encrypted content. Subscribes to the call asynchronously and prints out the decrypted content details when a response has been received.
byte[] ciphertext = new byte[100];
new Random(0x1234567L).nextBytes(ciphertext);
DecryptResult decryptResult = cryptographyClient.decrypt(EncryptionAlgorithm.RSA_OAEP, ciphertext);
System.out.printf("Received decrypted content of length: %d.%n", decryptResult.getPlainText().length);
algorithm - The algorithm to be used for decryption.ciphertext - The content to be decrypted.DecryptResult whose plain text contains the decrypted
content.NullPointerException - If algorithm or ciphertext are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for decryption.UnsupportedOperationException - If the decrypt operation is not supported or configured on the key.public DecryptResult decrypt(EncryptionAlgorithm algorithm, byte[] ciphertext, com.azure.core.util.Context context)
keys/decrypt permission for non-local operations.
The encryption algorithm indicates the type of algorithm to use for decrypting
the specified encrypted content. Possible values for asymmetric keys include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128CBC,
A128CBCPAD, A128CBC-HS256,
A128GCM, A192CBC,
A192CBCPAD, A192CBC-HS384,
A192GCM, A256CBC,
A256CBPAD, A256CBC-HS512 and
A256GCM.
Code Samples
Decrypts the encrypted content. Subscribes to the call asynchronously and prints out the decrypted content details when a response has been received.
byte[] ciphertextToDecrypt = new byte[100];
new Random(0x1234567L).nextBytes(ciphertextToDecrypt);
DecryptResult decryptionResult = cryptographyClient.decrypt(EncryptionAlgorithm.RSA_OAEP, ciphertextToDecrypt,
new Context("key1", "value1"));
System.out.printf("Received decrypted content of length: %d.%n", decryptionResult.getPlainText().length);
algorithm - The algorithm to be used for decryption.ciphertext - The content to be decrypted.context - Additional context that is passed through the HttpPipeline during the service call.DecryptResult whose plain text contains the decrypted
content.NullPointerException - If algorithm or ciphertext are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for decryption.UnsupportedOperationException - If the decrypt operation is not supported or configured on the key.public DecryptResult decrypt(DecryptParameters decryptParameters, com.azure.core.util.Context context)
keys/decrypt permission for non-local operations.
The encryption algorithm indicates the type of algorithm to use for decrypting
the specified encrypted content. Possible values for asymmetric keys include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128CBC,
A128CBCPAD, A128CBC-HS256,
A128GCM, A192CBC,
A192CBCPAD, A192CBC-HS384,
A192GCM, A256CBC,
A256CBPAD, A256CBC-HS512 and
A256GCM.
Code Samples
Decrypts the encrypted content. Subscribes to the call asynchronously and prints out the decrypted content details when a response has been received.
byte[] myCiphertext = new byte[100];
new Random(0x1234567L).nextBytes(myCiphertext);
byte[] iv = {
(byte) 0x1a, (byte) 0xf3, (byte) 0x8c, (byte) 0x2d, (byte) 0xc2, (byte) 0xb9, (byte) 0x6f, (byte) 0xfd,
(byte) 0xd8, (byte) 0x66, (byte) 0x94, (byte) 0x09, (byte) 0x23, (byte) 0x41, (byte) 0xbc, (byte) 0x04
};
DecryptParameters decryptParameters = DecryptParameters.createA128CbcParameters(myCiphertext, iv);
DecryptResult decryptedResult = cryptographyClient.decrypt(decryptParameters, new Context("key1", "value1"));
System.out.printf("Received decrypted content of length: %d.%n", decryptedResult.getPlainText().length);
decryptParameters - The parameters to use in the decryption operation.context - Additional context that is passed through the HttpPipeline during the service call.DecryptResult whose plain text contains the decrypted
content.NullPointerException - If algorithm or ciphertext are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for decryption.UnsupportedOperationException - If the decrypt operation is not supported or configured on the key.public SignResult sign(SignatureAlgorithm algorithm, byte[] digest)
keys/sign permission for non-local operations.
The signature algorithm indicates the type of algorithm to use to create the
signature from the digest. Possible values include:
ES256, E384,
ES512, ES246K,
PS256, RS384,
RS512, RS256,
RS384 and RS512
Code Samples
Sings the digest. Subscribes to the call asynchronously and prints out the signature details when a response has been received.
byte[] data = new byte[100];
new Random(0x1234567L).nextBytes(data);
MessageDigest md = MessageDigest.getInstance("SHA-256");
md.update(data);
byte[] digest = md.digest();
SignResult signResult = cryptographyClient.sign(SignatureAlgorithm.ES256, digest);
System.out.printf("Received signature of length: %d, with algorithm: %s.%n", signResult.getSignature().length,
signResult.getAlgorithm());
algorithm - The algorithm to use for signing.digest - The content from which signature is to be created.SignResult whose signature contains the created signature.NullPointerException - If algorithm or digest is null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for signing.UnsupportedOperationException - If the sign operation is not supported or configured on the key.public SignResult sign(SignatureAlgorithm algorithm, byte[] digest, com.azure.core.util.Context context)
keys/sign permission for non-local operations.
The signature algorithm indicates the type of algorithm to use to create the
signature from the digest. Possible values include:
ES256, E384,
ES512, ES246K,
PS256, RS384,
RS512, RS256,
RS384 and RS512
Code Samples
Sings the digest. Subscribes to the call asynchronously and prints out the signature details when a response has been received.
byte[] dataToVerify = new byte[100];
new Random(0x1234567L).nextBytes(dataToVerify);
MessageDigest myMessageDigest = MessageDigest.getInstance("SHA-256");
myMessageDigest.update(dataToVerify);
byte[] digestContent = myMessageDigest.digest();
SignResult signResponse = cryptographyClient.sign(SignatureAlgorithm.ES256, digestContent,
new Context("key1", "value1"));
System.out.printf("Received signature of length: %d, with algorithm: %s.%n", signResponse.getSignature().length,
signResponse.getAlgorithm());
algorithm - The algorithm to use for signing.digest - The content from which signature is to be created.context - Additional context that is passed through the HttpPipeline during the service call.SignResult whose signature contains the created signature.NullPointerException - If algorithm or digest is null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for signing.UnsupportedOperationException - If the sign operation is not supported or configured on the key.public VerifyResult verify(SignatureAlgorithm algorithm, byte[] digest, byte[] signature)
keys/verify permission for non-local operations.
The signature algorithm indicates the type of algorithm to use to verify the
signature. Possible values include: ES256,
E384, ES512,
ES246K, PS256,
RS384, RS512,
RS256, RS384 and
RS512
Code Samples
Verifies the signature against the specified digest. Subscribes to the call asynchronously and prints out the verification details when a response has been received.
byte[] myData = new byte[100];
new Random(0x1234567L).nextBytes(myData);
MessageDigest messageDigest = MessageDigest.getInstance("SHA-256");
messageDigest.update(myData);
byte[] myDigest = messageDigest.digest();
// A signature can be obtained from the SignResult returned by the CryptographyClient.sign() operation.
VerifyResult verifyResult = cryptographyClient.verify(SignatureAlgorithm.ES256, myDigest, signature);
System.out.printf("Verification status: %s.%n", verifyResult.isValid());
algorithm - The algorithm to use for signing.digest - The content from which signature was created.signature - The signature to be verified.VerifyResult indicating the signature verification result.com.azure.core.exception.ResourceNotFoundException - if the key cannot be found for verifying.UnsupportedOperationException - if the verify operation is not supported or configured on the key.NullPointerException - if algorithm, digest or signature is null.public VerifyResult verify(SignatureAlgorithm algorithm, byte[] digest, byte[] signature, com.azure.core.util.Context context)
keys/verify permission for non-local operations.
The signature algorithm indicates the type of algorithm to use to verify the
signature. Possible values include: ES256,
E384, ES512,
ES246K, PS256,
RS384, RS512,
RS256, RS384 and
RS512
Code Samples
Verifies the signature against the specified digest. Subscribes to the call asynchronously and prints out the verification details when a response has been received.
byte[] dataBytes = new byte[100];
new Random(0x1234567L).nextBytes(dataBytes);
MessageDigest msgDigest = MessageDigest.getInstance("SHA-256");
msgDigest.update(dataBytes);
byte[] digestBytes = msgDigest.digest();
// A signature can be obtained from the SignResult returned by the CryptographyClient.sign() operation.
VerifyResult verifyResponse = cryptographyClient.verify(SignatureAlgorithm.ES256, digestBytes, signatureBytes,
new Context("key1", "value1"));
System.out.printf("Verification status: %s.%n", verifyResponse.isValid());
algorithm - The algorithm to use for signing.digest - The content from which signature was created.signature - The signature to be verified.context - Additional context that is passed through the HttpPipeline during the service call.VerifyResult indicating the signature verification result.NullPointerException - If algorithm, digest or signature is null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for verifying.UnsupportedOperationException - If the verify operation is not supported or configured on the key.public WrapResult wrapKey(KeyWrapAlgorithm algorithm, byte[] key)
keys/wrapKey permission for non-local
operations.
The wrap algorithm indicates the type of algorithm to use for wrapping the specified
key content. Possible values include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128KW,
A192KW and A256KW.
Code Samples
Wraps the key content. Subscribes to the call asynchronously and prints out the wrapped key details when a response has been received.
byte[] key = new byte[100];
new Random(0x1234567L).nextBytes(key);
WrapResult wrapResult = cryptographyClient.wrapKey(KeyWrapAlgorithm.RSA_OAEP, key);
System.out.printf("Received encrypted key of length: %d, with algorithm: %s.%n",
wrapResult.getEncryptedKey().length, wrapResult.getAlgorithm());
algorithm - The encryption algorithm to use for wrapping the key.key - The key content to be wrapped.WrapResult whose encrypted key contains the wrapped
key result.NullPointerException - If algorithm or key are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for encryption.UnsupportedOperationException - If the wrap operation is not supported or configured on the key.public WrapResult wrapKey(KeyWrapAlgorithm algorithm, byte[] key, com.azure.core.util.Context context)
keys/wrapKey permission for non-local
operations.
The wrap algorithm indicates the type of algorithm to use for wrapping the specified
key content. Possible values include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128KW,
A192KW and A256KW.
Code Samples
Wraps the key content. Subscribes to the call asynchronously and prints out the wrapped key details when a response has been received.
byte[] keyToWrap = new byte[100];
new Random(0x1234567L).nextBytes(keyToWrap);
WrapResult keyWrapResult = cryptographyClient.wrapKey(KeyWrapAlgorithm.RSA_OAEP, keyToWrap,
new Context("key1", "value1"));
System.out.printf("Received encrypted key of length: %d, with algorithm: %s.%n",
keyWrapResult.getEncryptedKey().length, keyWrapResult.getAlgorithm());
algorithm - The encryption algorithm to use for wrapping the key.key - The key content to be wrapped.context - Additional context that is passed through the HttpPipeline during the service call.WrapResult whose encrypted key contains the wrapped
key result.NullPointerException - If algorithm or key are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for encryption.UnsupportedOperationException - If the wrap operation is not supported or configured on the key.public UnwrapResult unwrapKey(KeyWrapAlgorithm algorithm, byte[] encryptedKey)
keys/unwrapKey permission for non-local operations.
The wrap algorithm indicates the type of algorithm to use for unwrapping the
specified encrypted key content. Possible values for asymmetric keys include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128KW,
A192KW and A256KW.
Code Samples
Unwraps the key content. Subscribes to the call asynchronously and prints out the unwrapped key details when a response has been received.
byte[] keyContent = new byte[100];
new Random(0x1234567L).nextBytes(keyContent);
WrapResult wrapKeyResult = cryptographyClient.wrapKey(KeyWrapAlgorithm.RSA_OAEP, keyContent,
new Context("key1", "value1"));
UnwrapResult unwrapResult = cryptographyClient.unwrapKey(KeyWrapAlgorithm.RSA_OAEP,
wrapKeyResult.getEncryptedKey());
System.out.printf("Received key of length %d", unwrapResult.getKey().length);
algorithm - The encryption algorithm to use for wrapping the key.encryptedKey - The encrypted key content to unwrap.UnwrapResult whose decrypted key contains the unwrapped key
result.NullPointerException - If algorithm or encryptedKey are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for wrap operation.UnsupportedOperationException - If the unwrap operation is not supported or configured on the key.public UnwrapResult unwrapKey(KeyWrapAlgorithm algorithm, byte[] encryptedKey, com.azure.core.util.Context context)
keys/unwrapKey permission for non-local operations.
The wrap algorithm indicates the type of algorithm to use for unwrapping the
specified encrypted key content. Possible values for asymmetric keys include:
RSA1_5, RSA_OAEP and
RSA_OAEP_256.
Possible values for symmetric keys include: A128KW,
A192KW and A256KW.
Code Samples
Unwraps the key content. Subscribes to the call asynchronously and prints out the unwrapped key details when a response has been received.
byte[] keyContentToWrap = new byte[100];
new Random(0x1234567L).nextBytes(keyContentToWrap);
Context context = new Context("key1", "value1");
WrapResult wrapKeyContentResult =
cryptographyClient.wrapKey(KeyWrapAlgorithm.RSA_OAEP, keyContentToWrap, context);
UnwrapResult unwrapKeyResponse =
cryptographyClient.unwrapKey(KeyWrapAlgorithm.RSA_OAEP, wrapKeyContentResult.getEncryptedKey(), context);
System.out.printf("Received key of length %d", unwrapKeyResponse.getKey().length);
algorithm - The encryption algorithm to use for wrapping the key.encryptedKey - The encrypted key content to unwrap.context - Additional context that is passed through the HttpPipeline during the service call.UnwrapResult whose decrypted key contains the unwrapped key
result.NullPointerException - If algorithm or encryptedKey are null.com.azure.core.exception.ResourceNotFoundException - If the key cannot be found for wrap operation.UnsupportedOperationException - If the unwrap operation is not supported or configured on the key.public SignResult signData(SignatureAlgorithm algorithm, byte[] data)
keys/sign permission for non-local operations.
The signature algorithm indicates the type of algorithm to use to sign the digest.
Possible values include:
ES256, E384,
ES512, ES246K,
PS256, RS384,
RS512, RS256,
RS384 and RS512
Code Samples
Signs the raw data. Subscribes to the call asynchronously and prints out the signature details when a response has been received.
byte[] data = new byte[100];
new Random(0x1234567L).nextBytes(data);
SignResult signResult = cryptographyClient.sign(SignatureAlgorithm.ES256, data);
System.out.printf("Received signature of length: %d, with algorithm: %s.%n", signResult.getSignature().length,
signResult.getAlgorithm());
algorithm - The algorithm to use for signing.data - The content from which signature is to be created.SignResult whose signature contains the created signature.NullPointerException - if algorithm or data is null.com.azure.core.exception.ResourceNotFoundException - if the key cannot be found for signing.UnsupportedOperationException - if the sign operation is not supported or configured on the key.public SignResult signData(SignatureAlgorithm algorithm, byte[] data, com.azure.core.util.Context context)
keys/sign permission for non-local operations.
The signature algorithm indicates the type of algorithm to use to sign the digest.
Possible values include:
ES256, E384,
ES512, ES246K,
PS256, RS384,
RS512, RS256,
RS384 and RS512
Code Samples
Signs the raw data. Subscribes to the call asynchronously and prints out the signature details when a response has been received.
byte[] plainTextData = new byte[100];
new Random(0x1234567L).nextBytes(plainTextData);
SignResult signingResult = cryptographyClient.sign(SignatureAlgorithm.ES256, plainTextData);
System.out.printf("Received signature of length: %d, with algorithm: %s.%n",
signingResult.getSignature().length, new Context("key1", "value1"));
algorithm - The algorithm to use for signing.data - The content from which signature is to be created.context - Additional context that is passed through the HttpPipeline during the service call.SignResult whose signature contains the created signature.NullPointerException - if algorithm or data is null.com.azure.core.exception.ResourceNotFoundException - if the key cannot be found for signing.UnsupportedOperationException - if the sign operation is not supported or configured on the key.public VerifyResult verifyData(SignatureAlgorithm algorithm, byte[] data, byte[] signature)
keys/verify permission for non-local operations.
The signature algorithm indicates the type of algorithm to use to verify the
signature. Possible values include:
ES256, E384,
ES512, ES246K,
PS256, RS384,
RS512, RS256,
RS384 and RS512
Code Samples
Verifies the signature against the raw data. Subscribes to the call asynchronously and prints out the verification details when a response has been received.
byte[] myData = new byte[100];
new Random(0x1234567L).nextBytes(myData);
// A signature can be obtained from the SignResult returned by the CryptographyClient.sign() operation.
VerifyResult verifyResult = cryptographyClient.verify(SignatureAlgorithm.ES256, myData, signature);
System.out.printf("Verification status: %s.%n", verifyResult.isValid());
algorithm - The algorithm to use for signing.data - The raw content against which signature is to be verified.signature - The signature to be verified.VerifyResult indicating the signature verification result.com.azure.core.exception.ResourceNotFoundException - if the key cannot be found for verifying.UnsupportedOperationException - if the verify operation is not supported or configured on the key.NullPointerException - if algorithm, data or signature is null.public VerifyResult verifyData(SignatureAlgorithm algorithm, byte[] data, byte[] signature, com.azure.core.util.Context context)
keys/verify permission for non-local operations.
The signature algorithm indicates the type of algorithm to use to verify the
signature. Possible values include:
ES256, E384,
ES512, ES246K,
PS256, RS384,
RS512, RS256,
RS384 and RS512
Code Samples
Verifies the signature against the raw data. Subscribes to the call asynchronously and prints out the verification details when a response has been received.
byte[] dataToVerify = new byte[100];
new Random(0x1234567L).nextBytes(dataToVerify);
// A signature can be obtained from the SignResult returned by the CryptographyClient.sign() operation.
VerifyResult verificationResult = cryptographyClient.verify(SignatureAlgorithm.ES256, dataToVerify,
mySignature, new Context("key1", "value1"));
System.out.printf("Verification status: %s.%n", verificationResult.isValid());
algorithm - The algorithm to use for signing.data - The raw content against which signature is to be verified.signature - The signature to be verified.context - Additional context that is passed through the HttpPipeline during the service call.VerifyResult indicating the signature verification result.NullPointerException - if algorithm, data or signature is null.com.azure.core.exception.ResourceNotFoundException - if the key cannot be found for verifying.UnsupportedOperationException - if the verify operation is not supported or configured on the key.Visit the Azure for Java Developers site for more Java documentation, including quick starts, tutorials, and code samples.