azure-security-keyvault-keys-java
Azure Key Vault Keys Java SDK for cryptographic key management. Use when creating, managing, or using RSA/EC keys, performing encrypt/decrypt/sign/verify operations, or working with HSM-backed keys.
- risk
- unknown
- source
- community
- date added
- 2026-02-27
Azure Key Vault Keys (Java)
Manage cryptographic keys and perform cryptographic operations in Azure Key Vault and Managed HSM.
Installation
<dependency> <groupId>com.azure</groupId> <artifactId>azure-security-keyvault-keys</artifactId> <version>4.9.0</version> </dependency>
Client Creation
import com.azure.security.keyvault.keys.KeyClient; import com.azure.security.keyvault.keys.KeyClientBuilder; import com.azure.security.keyvault.keys.cryptography.CryptographyClient; import com.azure.security.keyvault.keys.cryptography.CryptographyClientBuilder; import com.azure.identity.DefaultAzureCredentialBuilder; // Key management client KeyClient keyClient = new KeyClientBuilder() .vaultUrl("https://<vault-name>.vault.azure.net") .credential(new DefaultAzureCredentialBuilder().build()) .buildClient(); // Async client KeyAsyncClient keyAsyncClient = new KeyClientBuilder() .vaultUrl("https://<vault-name>.vault.azure.net") .credential(new DefaultAzureCredentialBuilder().build()) .buildAsyncClient(); // Cryptography client (for encrypt/decrypt/sign/verify) CryptographyClient cryptoClient = new CryptographyClientBuilder() .keyIdentifier("https://<vault-name>.vault.azure.net/keys/<key-name>/<key-version>") .credential(new DefaultAzureCredentialBuilder().build()) .buildClient();
Key Types
| Type | Description |
|---|---|
RSA | RSA key (2048, 3072, 4096 bits) |
RSA_HSM | RSA key in HSM |
EC | Elliptic Curve key |
EC_HSM | Elliptic Curve key in HSM |
OCT | Symmetric key (Managed HSM only) |
OCT_HSM | Symmetric key in HSM |
Create Keys
Create RSA Key
import com.azure.security.keyvault.keys.models.*; // Simple RSA key KeyVaultKey rsaKey = keyClient.createRsaKey(new CreateRsaKeyOptions("my-rsa-key") .setKeySize(2048)); System.out.println("Key name: " + rsaKey.getName()); System.out.println("Key ID: " + rsaKey.getId()); System.out.println("Key type: " + rsaKey.getKeyType()); // RSA key with options KeyVaultKey rsaKeyWithOptions = keyClient.createRsaKey(new CreateRsaKeyOptions("my-rsa-key-2") .setKeySize(4096) .setExpiresOn(OffsetDateTime.now().plusYears(1)) .setNotBefore(OffsetDateTime.now()) .setEnabled(true) .setKeyOperations(KeyOperation.ENCRYPT, KeyOperation.DECRYPT, KeyOperation.WRAP_KEY, KeyOperation.UNWRAP_KEY) .setTags(Map.of("environment", "production"))); // HSM-backed RSA key KeyVaultKey hsmKey = keyClient.createRsaKey(new CreateRsaKeyOptions("my-hsm-key") .setKeySize(2048) .setHardwareProtected(true));
Create EC Key
// EC key with P-256 curve KeyVaultKey ecKey = keyClient.createEcKey(new CreateEcKeyOptions("my-ec-key") .setCurveName(KeyCurveName.P_256)); // EC key with other curves KeyVaultKey ecKey384 = keyClient.createEcKey(new CreateEcKeyOptions("my-ec-key-384") .setCurveName(KeyCurveName.P_384)); KeyVaultKey ecKey521 = keyClient.createEcKey(new CreateEcKeyOptions("my-ec-key-521") .setCurveName(KeyCurveName.P_521)); // HSM-backed EC key KeyVaultKey ecHsmKey = keyClient.createEcKey(new CreateEcKeyOptions("my-ec-hsm-key") .setCurveName(KeyCurveName.P_256) .setHardwareProtected(true));
Create Symmetric Key (Managed HSM only)
KeyVaultKey octKey = keyClient.createOctKey(new CreateOctKeyOptions("my-symmetric-key") .setKeySize(256) .setHardwareProtected(true));
Get Key
// Get latest version KeyVaultKey key = keyClient.getKey("my-key"); // Get specific version KeyVaultKey keyVersion = keyClient.getKey("my-key", "<version-id>"); // Get only key properties (no key material) KeyProperties keyProps = keyClient.getKey("my-key").getProperties();
Update Key Properties
KeyVaultKey key = keyClient.getKey("my-key"); // Update properties key.getProperties() .setEnabled(false) .setExpiresOn(OffsetDateTime.now().plusMonths(6)) .setTags(Map.of("status", "archived")); KeyVaultKey updatedKey = keyClient.updateKeyProperties(key.getProperties(), KeyOperation.ENCRYPT, KeyOperation.DECRYPT);
List Keys
import com.azure.core.util.paging.PagedIterable; // List all keys for (KeyProperties keyProps : keyClient.listPropertiesOfKeys()) { System.out.println("Key: " + keyProps.getName()); System.out.println(" Enabled: " + keyProps.isEnabled()); System.out.println(" Created: " + keyProps.getCreatedOn()); } // List key versions for (KeyProperties version : keyClient.listPropertiesOfKeyVersions("my-key")) { System.out.println("Version: " + version.getVersion()); System.out.println("Created: " + version.getCreatedOn()); }
Delete Key
import com.azure.core.util.polling.SyncPoller; // Begin delete (soft-delete enabled vaults) SyncPoller<DeletedKey, Void> deletePoller = keyClient.beginDeleteKey("my-key"); // Wait for deletion DeletedKey deletedKey = deletePoller.poll().getValue(); System.out.println("Deleted: " + deletedKey.getDeletedOn()); deletePoller.waitForCompletion(); // Purge deleted key (permanent deletion) keyClient.purgeDeletedKey("my-key"); // Recover deleted key SyncPoller<KeyVaultKey, Void> recoverPoller = keyClient.beginRecoverDeletedKey("my-key"); recoverPoller.waitForCompletion();
Cryptographic Operations
Encrypt/Decrypt
import com.azure.security.keyvault.keys.cryptography.models.*; CryptographyClient cryptoClient = new CryptographyClientBuilder() .keyIdentifier("https://<vault>.vault.azure.net/keys/<key-name>") .credential(new DefaultAzureCredentialBuilder().build()) .buildClient(); byte[] plaintext = "Hello, World!".getBytes(StandardCharsets.UTF_8); // Encrypt EncryptResult encryptResult = cryptoClient.encrypt(EncryptionAlgorithm.RSA_OAEP, plaintext); byte[] ciphertext = encryptResult.getCipherText(); System.out.println("Ciphertext length: " + ciphertext.length); // Decrypt DecryptResult decryptResult = cryptoClient.decrypt(EncryptionAlgorithm.RSA_OAEP, ciphertext); String decrypted = new String(decryptResult.getPlainText(), StandardCharsets.UTF_8); System.out.println("Decrypted: " + decrypted);
Sign/Verify
import java.security.MessageDigest; // Create digest of data byte[] data = "Data to sign".getBytes(StandardCharsets.UTF_8); MessageDigest md = MessageDigest.getInstance("SHA-256"); byte[] digest = md.digest(data); // Sign SignResult signResult = cryptoClient.sign(SignatureAlgorithm.RS256, digest); byte[] signature = signResult.getSignature(); // Verify VerifyResult verifyResult = cryptoClient.verify(SignatureAlgorithm.RS256, digest, signature); System.out.println("Valid signature: " + verifyResult.isValid());
Wrap/Unwrap Key
// Key to wrap (e.g., AES key) byte[] keyToWrap = new byte[32]; // 256-bit key new SecureRandom().nextBytes(keyToWrap); // Wrap WrapResult wrapResult = cryptoClient.wrapKey(KeyWrapAlgorithm.RSA_OAEP, keyToWrap); byte[] wrappedKey = wrapResult.getEncryptedKey(); // Unwrap UnwrapResult unwrapResult = cryptoClient.unwrapKey(KeyWrapAlgorithm.RSA_OAEP, wrappedKey); byte[] unwrappedKey = unwrapResult.getKey();
Backup and Restore
// Backup byte[] backup = keyClient.backupKey("my-key"); // Save backup to file Files.write(Paths.get("key-backup.blob"), backup); // Restore byte[] backupData = Files.readAllBytes(Paths.get("key-backup.blob")); KeyVaultKey restoredKey = keyClient.restoreKeyBackup(backupData);
Key Rotation
// Rotate to new version KeyVaultKey rotatedKey = keyClient.rotateKey("my-key"); System.out.println("New version: " + rotatedKey.getProperties().getVersion()); // Set rotation policy KeyRotationPolicy policy = new KeyRotationPolicy() .setExpiresIn("P90D") // Expire after 90 days .setLifetimeActions(Arrays.asList( new KeyRotationLifetimeAction(KeyRotationPolicyAction.ROTATE) .setTimeBeforeExpiry("P30D"))); // Rotate 30 days before expiry keyClient.updateKeyRotationPolicy("my-key", policy); // Get rotation policy KeyRotationPolicy currentPolicy = keyClient.getKeyRotationPolicy("my-key");
Import Key
import com.azure.security.keyvault.keys.models.ImportKeyOptions; import com.azure.security.keyvault.keys.models.JsonWebKey; // Import existing key material JsonWebKey jsonWebKey = new JsonWebKey() .setKeyType(KeyType.RSA) .setN(modulus) .setE(exponent) .setD(privateExponent) // ... other RSA components ; ImportKeyOptions importOptions = new ImportKeyOptions("imported-key", jsonWebKey) .setHardwareProtected(false); KeyVaultKey importedKey = keyClient.importKey(importOptions);
Encryption Algorithms
| Algorithm | Key Type | Description |
|---|---|---|
RSA1_5 | RSA | RSAES-PKCS1-v1_5 |
RSA_OAEP | RSA | RSAES with OAEP (recommended) |
RSA_OAEP_256 | RSA | RSAES with OAEP using SHA-256 |
A128GCM | OCT | AES-GCM 128-bit |
A256GCM | OCT | AES-GCM 256-bit |
A128CBC | OCT | AES-CBC 128-bit |
A256CBC | OCT | AES-CBC 256-bit |
Signature Algorithms
| Algorithm | Key Type | Hash |
|---|---|---|
RS256 | RSA | SHA-256 |
RS384 | RSA | SHA-384 |
RS512 | RSA | SHA-512 |
PS256 | RSA | SHA-256 (PSS) |
ES256 | EC P-256 | SHA-256 |
ES384 | EC P-384 | SHA-384 |
ES512 | EC P-521 | SHA-512 |
Error Handling
import com.azure.core.exception.HttpResponseException; import com.azure.core.exception.ResourceNotFoundException; try { KeyVaultKey key = keyClient.getKey("non-existent-key"); } catch (ResourceNotFoundException e) { System.out.println("Key not found: " + e.getMessage()); } catch (HttpResponseException e) { System.out.println("HTTP error " + e.getResponse().getStatusCode()); System.out.println("Message: " + e.getMessage()); }
Environment Variables
AZURE_KEYVAULT_URL=https://<vault-name>.vault.azure.net
Best Practices
- Use HSM Keys for Production - Set
setHardwareProtected(true)for sensitive keys - Enable Soft Delete - Protects against accidental deletion
- Key Rotation - Set up automatic rotation policies
- Least Privilege - Use separate keys for different operations
- Local Crypto When Possible - Use
CryptographyClientwith local key material to reduce round-trips
Trigger Phrases
- "Key Vault keys Java", "cryptographic keys Java"
- "encrypt decrypt Java", "sign verify Java"
- "RSA key", "EC key", "HSM key"
- "key rotation", "wrap unwrap key"
When to Use
This skill is applicable to execute the workflow or actions described in the overview.