Class KeyAsyncClient

java.lang.Object
com.azure.security.keyvault.keys.KeyAsyncClient

public final class KeyAsyncClient extends Object
The KeyAsyncClient provides asynchronous methods to manage keys in the Azure Key Vault. The client supports creating, retrieving, updating, deleting, purging, backing up, restoring, listing, releasing and rotating the keys. The client also supports listing deleted keys for a soft-delete enabled Azure Key Vault.

Samples to construct the async client

 KeyAsyncClient keyAsyncClient = new KeyClientBuilder()
     .vaultUrl("https://myvault.azure.net/")
     .credential(new DefaultAzureCredentialBuilder().build())
     .buildAsyncClient();
 
See Also:
  • Method Details

    • getVaultUrl

      public String getVaultUrl()
      Get the vault endpoint url to which service requests are sent to.
      Returns:
      The vault endpoint url
    • getCryptographyAsyncClient

      public CryptographyAsyncClient getCryptographyAsyncClient(String keyName)
      Creates a CryptographyAsyncClient for the latest version of a given key.

      To ensure correct behavior when performing operations such as Decrypt, Unwrap and Verify, it is recommended to use a CryptographyAsyncClient created for the specific key version that was used for the corresponding inverse operation: Encrypt, Wrap, or Sign, respectively.

      You can provide a key version either via getCryptographyAsyncClient(String, String) or by ensuring it is included in the keyIdentifier passed to CryptographyClientBuilder.keyIdentifier(String) before building a client.

      Parameters:
      keyName - The name of the key.
      Returns:
      An instance of CryptographyAsyncClient associated with the latest version of a key with the provided name.
      Throws:
      IllegalArgumentException - If keyName is null or empty.
    • getCryptographyAsyncClient

      public CryptographyAsyncClient getCryptographyAsyncClient(String keyName, String keyVersion)
      Creates a CryptographyAsyncClient for a given key version.
      Parameters:
      keyName - The name of the key.
      keyVersion - The key version.
      Returns:
      An instance of CryptographyAsyncClient associated with a key with the provided name and version. If keyVersion is null or empty, the client will use the latest version of the key.
      Throws:
      IllegalArgumentException - If keyName is null or empty.
    • createKey

      public Mono<KeyVaultKey> createKey(String name, KeyType keyType)
      Creates a new key and stores it in the key vault. The create key operation can be used to create any keyType in Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. It requires the keys/create permission.

      The keyType indicates the type of key to create. Possible values include: EC, EC-HSM, RSA, RSA-HSM, OCT and OCT-HSM.

      Code Samples

      Creates a new EC key. Subscribes to the call asynchronously and prints out the newly created key details when a response has been received.

       keyAsyncClient.createKey("keyName", KeyType.EC)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(key ->
               System.out.printf("Created key with name: %s and id: %s %n", key.getName(),
                   key.getId()));
       
      Parameters:
      name - The name of the key being created.
      keyType - The type of key to create. For valid values, see KeyType.
      Returns:
      A Mono containing the created key.
      Throws:
      HttpResponseException - If name is an empty string.
      NullPointerException - If name or keyType are null.
    • createKeyWithResponse

      public Mono<Response<KeyVaultKey>> createKeyWithResponse(CreateKeyOptions createKeyOptions)
      Creates a new key and stores it in the key vault. The create key operation can be used to create any keyType in Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. It requires the keys/create permission.

      The keyType indicates the type of key to create. Possible values include: EC, EC-HSM, RSA, RSA-HSM, OCT and OCT-HSM.

      Code Samples

      Creates a new EC key. Subscribes to the call asynchronously and prints out the newly created key details when a response has been received.

       CreateKeyOptions createKeyOptions = new CreateKeyOptions("keyName", KeyType.RSA)
           .setNotBefore(OffsetDateTime.now().plusDays(1))
           .setExpiresOn(OffsetDateTime.now().plusYears(1));
      
       keyAsyncClient.createKeyWithResponse(createKeyOptions)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(createKeyResponse ->
               System.out.printf("Created key with name: %s and: id %s%n", createKeyResponse.getValue().getName(),
                   createKeyResponse.getValue().getId()));
       
      Parameters:
      createKeyOptions - The options object containing information about the key being created.
      Returns:
      A Mono containing a Response whose value contains the created key.
      Throws:
      HttpResponseException - If CreateKeyOptions.getName() is an empty string.
      NullPointerException - If name or keyType are null.
      ResourceModifiedException - If createKeyOptions is malformed.
    • createKey

      public Mono<KeyVaultKey> createKey(CreateKeyOptions createKeyOptions)
      Creates a new key and stores it in the key vault. The create key operation can be used to create any keyType in Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. It requires the keys/create permission.

      The CreateKeyOptions parameter is required. The expires and notBefore values are optional. The enabled field is set to true by Azure Key Vault, if not specified.

      The keyType indicates the type of key to create. Possible values include: EC, EC-HSM, RSA, RSA-HSM, OCT and OCT-HSM.

      Code Samples

      Creates a new RSA key which activates in one day and expires in one year. Subscribes to the call asynchronously and prints out the newly created key details when a response has been received.

       CreateKeyOptions createKeyOptions = new CreateKeyOptions("keyName", KeyType.RSA)
           .setNotBefore(OffsetDateTime.now().plusDays(1))
           .setExpiresOn(OffsetDateTime.now().plusYears(1));
      
       keyAsyncClient.createKey(createKeyOptions)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(key ->
               System.out.printf("Created key with name: %s and id: %s %n", key.getName(),
                   key.getId()));
       
      Parameters:
      createKeyOptions - The options object containing information about the key being created.
      Returns:
      A Mono containing the created key.
      Throws:
      HttpResponseException - If CreateKeyOptions.getName() is an empty string.
      NullPointerException - If createKeyOptions is null.
      ResourceModifiedException - If createKeyOptions is malformed.
    • createRsaKey

      public Mono<KeyVaultKey> createRsaKey(CreateRsaKeyOptions createRsaKeyOptions)
      /** Creates a new RSA key and stores it in the key vault. The create RSA key operation can be used to create any RSA key type in Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. It requires the keys/create permission.

      The CreateRsaKeyOptions parameter is required. The keySize can be optionally specified. The expires and notBefore values are optional. The enabled field is set to true by Azure Key Vault, if not specified.

      The keyType indicates the type of key to create. Possible values include: RSA and RSA-HSM.

      Code Samples

      Creates a new RSA key with size 2048 which activates in one day and expires in one year. Subscribes to the call asynchronously and prints out the newly created key details when a response has been received.

       CreateRsaKeyOptions createRsaKeyOptions = new CreateRsaKeyOptions("keyName")
           .setKeySize(2048)
           .setNotBefore(OffsetDateTime.now().plusDays(1))
           .setExpiresOn(OffsetDateTime.now().plusYears(1));
      
       keyAsyncClient.createRsaKey(createRsaKeyOptions)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(rsaKey ->
               System.out.printf("Created key with name: %s and id: %s %n", rsaKey.getName(),
                   rsaKey.getId()));
       
      Parameters:
      createRsaKeyOptions - The options object containing information about the RSA key being created.
      Returns:
      A Mono containing the created key.
      Throws:
      HttpResponseException - If CreateKeyOptions.getName() is an empty string.
      NullPointerException - If createRsaKeyOptions is null.
      ResourceModifiedException - If createRsaKeyOptions is malformed.
    • createRsaKeyWithResponse

      public Mono<Response<KeyVaultKey>> createRsaKeyWithResponse(CreateRsaKeyOptions createRsaKeyOptions)
      Creates a new RSA key and stores it in the key vault. The create RSA key operation can be used to create any RSA key type in Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. It requires the keys/create permission.

      The CreateRsaKeyOptions parameter is required. The keySize can be optionally specified. The expires and notBefore values are optional. The enabled field is set to true by Azure Key Vault, if not specified.

      The keyType indicates the type of key to create. Possible values include: RSA and RSA-HSM.

      Code Samples

      Creates a new RSA key with size 2048 which activates in one day and expires in one year. Subscribes to the call asynchronously and prints out the newly created key details when a response has been received.

       CreateRsaKeyOptions createRsaKeyOptions = new CreateRsaKeyOptions("keyName")
           .setKeySize(2048)
           .setNotBefore(OffsetDateTime.now().plusDays(1))
           .setExpiresOn(OffsetDateTime.now().plusYears(1));
      
       keyAsyncClient.createRsaKeyWithResponse(createRsaKeyOptions)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(createRsaKeyResponse ->
               System.out.printf("Created key with name: %s and: id %s%n", createRsaKeyResponse.getValue().getName(),
                   createRsaKeyResponse.getValue().getId()));
       
      Parameters:
      createRsaKeyOptions - The options object containing information about the RSA key being created.
      Returns:
      A Mono containing a Response whose value contains the created key.
      Throws:
      HttpResponseException - If CreateKeyOptions.getName() is an empty string.
      NullPointerException - If createRsaKeyOptions is null.
      ResourceModifiedException - If createRsaKeyOptions is malformed.
    • createEcKey

      public Mono<KeyVaultKey> createEcKey(CreateEcKeyOptions createEcKeyOptions)
      Creates a new EC key and stores it in the key vault. The create EC key operation can be used to create any EC key type in Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. It requires the keys/create permission.

      The CreateEcKeyOptions parameter is required. The key curve can be optionally specified. If not specified, the default value P-256 is used by Azure Key Vault. The expires and notBefore values are optional. The enabled field is set to true by Azure Key Vault, if not specified.

      The keyType indicates the type of KeyVaultKey key to create. Possible values include: EC and EC-HSM.

      Code Samples

      Creates a new EC key with a P-384 web key curve. The key activates in one day and expires in one year. Subscribes to the call asynchronously and prints out the newly created key details when a response has been received.

       CreateEcKeyOptions createEcKeyOptions = new CreateEcKeyOptions("keyName")
           .setCurveName(KeyCurveName.P_384)
           .setNotBefore(OffsetDateTime.now().plusDays(1))
           .setExpiresOn(OffsetDateTime.now().plusYears(1));
      
       keyAsyncClient.createEcKey(createEcKeyOptions)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(ecKey ->
               System.out.printf("Created key with name: %s and id: %s %n", ecKey.getName(),
                   ecKey.getId()));
       
      Parameters:
      createEcKeyOptions - The options object containing information about the EC key being created.
      Returns:
      A Mono containing the created key.
      Throws:
      HttpResponseException - If CreateKeyOptions.getName() is an empty string.
      NullPointerException - If ecKeyCreateOptions is null.
      ResourceModifiedException - If ecKeyCreateOptions is malformed.
    • createEcKeyWithResponse

      public Mono<Response<KeyVaultKey>> createEcKeyWithResponse(CreateEcKeyOptions createEcKeyOptions)
      Creates a new EC key and stores it in the key vault. The create EC key operation can be used to create any EC key type in Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. It requires the keys/create permission.

      The CreateEcKeyOptions parameter is required. The key curve can be optionally specified. If not specified, the default value P-256 is used by Azure Key Vault. The expires and notBefore values are optional. The enabled field is set to true by Azure Key Vault, if not specified.

      The keyType indicates the type of KeyVaultKey key to create. Possible values include: EC and EC-HSM.

      Code Samples

      Creates a new EC key with a P-384 web key curve. The key activates in one day and expires in one year. Subscribes to the call asynchronously and prints out the newly created key details when a response has been received.

       CreateEcKeyOptions createEcKeyOptions = new CreateEcKeyOptions("keyName")
           .setCurveName(KeyCurveName.P_384)
           .setNotBefore(OffsetDateTime.now().plusDays(1))
           .setExpiresOn(OffsetDateTime.now().plusYears(1));
      
       keyAsyncClient.createEcKeyWithResponse(createEcKeyOptions)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(createEcKeyResponse ->
               System.out.printf("Created key with name: %s and: id %s%n", createEcKeyResponse.getValue().getName(),
                   createEcKeyResponse.getValue().getId()));
       
      Parameters:
      createEcKeyOptions - The options object containing information about the EC key being created.
      Returns:
      A Mono containing a Response whose value contains the created key.
      Throws:
      HttpResponseException - If CreateKeyOptions.getName() is an empty string.
      NullPointerException - If ecKeyCreateOptions is null.
      ResourceModifiedException - If ecKeyCreateOptions is malformed.
    • createOctKey

      public Mono<KeyVaultKey> createOctKey(CreateOctKeyOptions createOctKeyOptions)
      Creates and stores a new symmetric key in the key vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. This operation requires the keys/create permission.

      The CreateOctKeyOptions parameter is required. The expires and notBefore values are optional. The enabled field is set to true by Azure Key Vault, if not specified.

      The keyType indicates the type of KeyVaultKey key to create. Possible values include: OCT and OCT-HSM.

      Code Samples

      Creates a new symmetric key. The key activates in one day and expires in one year. Subscribes to the call asynchronously and prints out the details of the newly created key when a response has been received.

       CreateOctKeyOptions createOctKeyOptions = new CreateOctKeyOptions("keyName")
           .setNotBefore(OffsetDateTime.now().plusDays(1))
           .setExpiresOn(OffsetDateTime.now().plusYears(1));
      
       keyAsyncClient.createOctKey(createOctKeyOptions)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(octKey ->
               System.out.printf("Created key with name: %s and id: %s %n", octKey.getName(),
                   octKey.getId()));
       
      Parameters:
      createOctKeyOptions - The options object containing information about the symmetric key being created.
      Returns:
      A Mono containing the created key.
      Throws:
      HttpResponseException - If CreateKeyOptions.getName() is an empty string.
      NullPointerException - If ecKeyCreateOptions is null.
      ResourceModifiedException - If ecKeyCreateOptions is malformed.
    • createOctKeyWithResponse

      public Mono<Response<KeyVaultKey>> createOctKeyWithResponse(CreateOctKeyOptions createOctKeyOptions)
      Creates and stores a new symmetric key in the key vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. This operation requires the keys/create permission.

      The CreateOctKeyOptions parameter is required. The expires and notBefore values are optional. The enabled field is set to true by Azure Key Vault, if not specified.

      The keyType indicates the type of KeyVaultKey key to create. Possible values include: OCT and OCT-HSM.

      Code Samples

      Creates a new symmetric key. The key activates in one day and expires in one year. Subscribes to the call asynchronously and prints out the details of the newly created key when a response has been received.

       CreateOctKeyOptions createOctKeyOptions = new CreateOctKeyOptions("keyName")
           .setNotBefore(OffsetDateTime.now().plusDays(1))
           .setExpiresOn(OffsetDateTime.now().plusYears(1));
      
       keyAsyncClient.createOctKeyWithResponse(createOctKeyOptions)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(createOctKeyResponse ->
               System.out.printf("Created key with name: %s and: id %s%n", createOctKeyResponse.getValue().getName(),
                   createOctKeyResponse.getValue().getId()));
       
      Parameters:
      createOctKeyOptions - The options object containing information about the symmetric key being created.
      Returns:
      A Mono containing a Response whose value contains the created key.
      Throws:
      HttpResponseException - If CreateKeyOptions.getName() is an empty string.
      NullPointerException - If createOctKeyOptions is null.
      ResourceModifiedException - If createOctKeyOptions is malformed.
    • importKey

      public Mono<KeyVaultKey> importKey(String name, JsonWebKey keyMaterial)
      Imports an externally created key and stores it in the key vault. The import key operation may be used to import any key type into Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. This operation requires the keys/import permission.

      Code Samples

      Imports a new key into key vault. Subscribes to the call asynchronously and prints out the newly imported key details when a response has been received.

       keyAsyncClient.importKey("keyName", jsonWebKeyToImport)
           .subscribe(keyVaultKey ->
               System.out.printf("Imported key with name: %s and id: %s%n", keyVaultKey.getName(),
                   keyVaultKey.getId()));
       
      Parameters:
      name - The name for the imported key.
      keyMaterial - The Json web key being imported.
      Returns:
      A Mono containing a Response whose value contains the imported key.
      Throws:
      HttpResponseException - If name is an empty string.
    • importKey

      public Mono<KeyVaultKey> importKey(ImportKeyOptions importKeyOptions)
      Imports an externally created key and stores it in the key vault. The import key operation may be used to import any key type into Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. This operation requires the keys/import permission.

      ImportKeyOptions is required and its fields name and key material cannot be null. The expires and notBefore values in keyImportOptions are optional. If not specified, no values are set for the fields. The enabled field is set to true and the hsm field is set to false by Azure Key Vault, if they are not specified.

      Code Samples

      Imports a new key into key vault. Subscribes to the call asynchronously and prints out the newly imported key details when a response has been received.

       ImportKeyOptions options = new ImportKeyOptions("keyName", jsonWebKeyToImport)
           .setHardwareProtected(false);
      
       keyAsyncClient.importKey(options).subscribe(keyVaultKey ->
           System.out.printf("Imported key with name: %s and id: %s%n", keyVaultKey.getName(), keyVaultKey.getId()));
       
      Parameters:
      importKeyOptions - The options object containing information about the JsonWebKey being imported.
      Returns:
      A Mono containing the imported key.
      Throws:
      HttpResponseException - If KeyProperties.getName() is an empty string.
      NullPointerException - If importKeyOptions is null.
    • importKeyWithResponse

      public Mono<Response<KeyVaultKey>> importKeyWithResponse(ImportKeyOptions importKeyOptions)
      Imports an externally created key and stores it in the key vault. The import key operation may be used to import any key type into Azure Key Vault. If a key with the provided name already exists, Azure Key Vault creates a new version of the key. This operation requires the keys/import permission.

      ImportKeyOptions is required and its fields name and key material cannot be null. The expires and notBefore values in keyImportOptions are optional. If not specified, no values are set for the fields. The enabled field is set to true and the hsm field is set to false by Azure Key Vault, if they are not specified.

      Code Samples

      Imports a new key into key vault. Subscribes to the call asynchronously and prints out the newly imported key details when a response has been received.

       ImportKeyOptions importKeyOptions = new ImportKeyOptions("keyName", jsonWebKeyToImport)
           .setHardwareProtected(false);
      
       keyAsyncClient.importKeyWithResponse(importKeyOptions).subscribe(response ->
           System.out.printf("Imported key with name: %s and id: %s%n", response.getValue().getName(),
               response.getValue().getId()));
       
      Parameters:
      importKeyOptions - The options object containing information about the JsonWebKey being imported.
      Returns:
      A Mono containing a Response whose value contains the imported key.
      Throws:
      HttpResponseException - If KeyProperties.getName() is an empty string.
      NullPointerException - If importKeyOptions is null.
    • getKey

      public Mono<KeyVaultKey> getKey(String name, String version)
      Gets the public part of the specified key and key version. The get key operation is applicable to all key types and it requires the keys/get permission.

      Code Samples

      Gets a specific version of the key in the key vault. Subscribes to the call asynchronously and prints out the retrieved key details when a response has been received.

       String keyVersion = "6A385B124DEF4096AF1361A85B16C204";
      
       keyAsyncClient.getKey("keyName", keyVersion)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(key ->
               System.out.printf("Created key with name: %s and: id %s%n", key.getName(),
                   key.getId()));
       
      Parameters:
      name - The name of the key, cannot be null.
      version - The version of the key to retrieve. If this is an empty String or null, this call is equivalent to calling getKey(String), with the latest version being retrieved.
      Returns:
      A Mono containing the requested key. The content of the key is null if both name and version are null or empty.
      Throws:
      HttpResponseException - If a valid name and a non null/empty version is specified.
      ResourceNotFoundException - When a key with the provided name doesn't exist in the key vault or an empty/null name and a non-null/empty version is provided.
    • getKeyWithResponse

      public Mono<Response<KeyVaultKey>> getKeyWithResponse(String name, String version)
      Gets the public part of the specified key and key version. The get key operation is applicable to all key types and it requires the keys/get permission.

      Code Samples

      Gets a specific version of the key in the key vault. Subscribes to the call asynchronously and prints out the retrieved key details when a response has been received.

       String keyVersion = "6A385B124DEF4096AF1361A85B16C204";
      
       keyAsyncClient.getKeyWithResponse("keyName", keyVersion)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(getKeyResponse ->
               System.out.printf("Created key with name: %s and: id %s%n",
                   getKeyResponse.getValue().getName(), getKeyResponse.getValue().getId()));
       
      Parameters:
      name - The name of the key, cannot be null.
      version - The version of the key to retrieve. If this is an empty String or null, this call is equivalent to calling getKey(String), with the latest version being retrieved.
      Returns:
      A Mono containing a Response whose value contains the requested key. The content of the key is null if both name and version are null or empty.
      Throws:
      HttpResponseException - If a valid name and a non-null/empty version is specified.
      ResourceNotFoundException - When a key with the provided name doesn't exist in the key vault or an empty/null name and a non-null/empty version is provided.
    • getKey

      public Mono<KeyVaultKey> getKey(String name)
      Gets the public part of the specified key and key version. The get key operation is applicable to all key types and it requires the keys/get permission.

      Code Samples

      Gets a specific version of the key in the key vault. Subscribes to the call asynchronously and prints out the retrieved key details when a response has been received.

       keyAsyncClient.getKey("keyName")
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(key ->
               System.out.printf("Created key with name: %s and: id %s%n", key.getName(),
                   key.getId()));
       
      Parameters:
      name - The name of the key, cannot be null.
      Returns:
      A Mono containing the requested key. The content of the key is null if name is null or empty.
      Throws:
      HttpResponseException - If a valid name and a non-null/empty version is specified.
      ResourceNotFoundException - When a key with the provided name doesn't exist in the key vault or an empty/null name and a non-null/empty version is provided.
    • updateKeyPropertiesWithResponse

      public Mono<Response<KeyVaultKey>> updateKeyPropertiesWithResponse(KeyProperties keyProperties, KeyOperation... keyOperations)
      Updates the attributes and key operations associated with the specified key, but not the cryptographic key material of the specified key in the key vault. The update operation changes specified attributes of an existing stored key and attributes that are not specified in the request are left unchanged. The cryptographic key material of a key itself cannot be changed. This operation requires the keys/set permission.

      Code Samples

      Gets latest version of the key, changes its notBefore time and then updates it in the Azure Key Vault. Subscribes to the call asynchronously and prints out the returned key details when a response has been received.

       keyAsyncClient.getKey("keyName")
           .subscribe(getKeyResponse -> {
               //Update the not before time of the key.
               getKeyResponse.getProperties().setNotBefore(OffsetDateTime.now().plusDays(50));
               keyAsyncClient.updateKeyPropertiesWithResponse(getKeyResponse.getProperties(), KeyOperation.ENCRYPT,
                       KeyOperation.DECRYPT)
                   .contextWrite(Context.of("key1", "value1", "key2", "value2"))
                   .subscribe(updateKeyResponse ->
                       System.out.printf("Updated key's \"not before time\": %s%n",
                           updateKeyResponse.getValue().getProperties().getNotBefore().toString()));
           });
       
      Parameters:
      keyProperties - The key properties object with updated properties.
      keyOperations - The updated key operations to associate with the key.
      Returns:
      A Mono containing a Response whose value contains the updated key.
      Throws:
      HttpResponseException - If name or version is an empty string.
      NullPointerException - If key is null.
      ResourceNotFoundException - When a key with name and version doesn't exist in the key vault.
    • updateKeyProperties

      public Mono<KeyVaultKey> updateKeyProperties(KeyProperties keyProperties, KeyOperation... keyOperations)
      Updates the attributes and key operations associated with the specified key, but not the cryptographic key material of the specified key in the key vault. The update operation changes specified attributes of an existing stored key and attributes that are not specified in the request are left unchanged. The cryptographic key material of a key itself cannot be changed. This operation requires the keys/set permission.

      Code Samples

      Gets latest version of the key, changes its notBefore time and then updates it in the Azure Key Vault. Subscribes to the call asynchronously and prints out the returned key details when a response has been received.

       keyAsyncClient.getKey("keyName")
           .subscribe(key -> {
               //Update the not before time of the key.
               key.getProperties().setNotBefore(OffsetDateTime.now().plusDays(50));
               keyAsyncClient.updateKeyProperties(key.getProperties(), KeyOperation.ENCRYPT,
                       KeyOperation.DECRYPT)
                   .contextWrite(Context.of("key1", "value1", "key2", "value2"))
                   .subscribe(updatedKey ->
                       System.out.printf("Updated key's \"not before time\": %s%n",
                           updatedKey.getProperties().getNotBefore().toString()));
           });
       
      Parameters:
      keyProperties - The key properties object with updated properties.
      keyOperations - The updated key operations to associate with the key.
      Returns:
      A Mono containing the updated key.
      Throws:
      HttpResponseException - If name or version is an empty string.
      NullPointerException - If key is null.
      ResourceNotFoundException - When a key with name and version doesn't exist in the key vault.
    • beginDeleteKey

      public PollerFlux<DeletedKey,Void> beginDeleteKey(String name)
      Deletes a key of any type from the key vault. If soft-delete is enabled on the key vault then the key is placed in the deleted state and requires to be purged for permanent deletion else the key is permanently deleted. The delete operation applies to any key stored in Azure Key Vault but it cannot be applied to an individual version of a key. This operation removes the cryptographic material associated with the key, which means the key is not usable for Sign/Verify, Wrap/Unwrap or Encrypt/Decrypt operations. This operation requires the keys/delete permission.

      Code Samples

      Deletes the key in the Azure Key Vault. Subscribes to the call asynchronously and prints out the deleted key details when a response has been received.

       keyAsyncClient.beginDeleteKey("keyName")
           .subscribe(pollResponse -> {
               System.out.printf("Deletion status: %s%n", pollResponse.getStatus());
               System.out.printf("Key name: %s%n", pollResponse.getValue().getName());
               System.out.printf("Key delete date: %s%n", pollResponse.getValue().getDeletedOn());
           });
       
      Parameters:
      name - The name of the key to be deleted.
      Returns:
      A PollerFlux to poll on the deleted key status.
      Throws:
      HttpResponseException - When a key with name is an empty string.
      ResourceNotFoundException - When a key with name doesn't exist in the key vault.
    • getDeletedKey

      public Mono<DeletedKey> getDeletedKey(String name)
      Gets the public part of a deleted key. The get deleted Key operation is applicable for soft-delete enabled vaults. This operation requires the keys/get permission.

      Code Samples

      Gets the deleted key from the key vault enabled for soft-delete. Subscribes to the call asynchronously and prints out the deleted key details when a response has been received.

       keyAsyncClient.getDeletedKey("keyName")
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(deletedKey ->
               System.out.printf("Deleted key's recovery id:%s%n", deletedKey.getRecoveryId()));
       
      Parameters:
      name - The name of the deleted key.
      Returns:
      A Mono containing the deleted key.
      Throws:
      HttpResponseException - When a key with name is an empty string.
      ResourceNotFoundException - When a key with name doesn't exist in the key vault.
    • getDeletedKeyWithResponse

      public Mono<Response<DeletedKey>> getDeletedKeyWithResponse(String name)
      Gets the public part of a deleted key. The get deleted Key operation is applicable for soft-delete enabled vaults. This operation requires the keys/get permission.

      Code Samples

      Gets the deleted key from the key vault enabled for soft-delete. Subscribes to the call asynchronously and prints out the deleted key details when a response has been received.

       keyAsyncClient.getDeletedKeyWithResponse("keyName")
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(getDeletedKeyResponse ->
               System.out.printf("Deleted key's recovery id: %s%n", getDeletedKeyResponse.getValue().getRecoveryId()));
       
      Parameters:
      name - The name of the deleted key.
      Returns:
      A Mono containing a Response whose value contains the deleted key.
      Throws:
      HttpResponseException - When a key with name is an empty string.
      ResourceNotFoundException - When a key with name doesn't exist in the key vault.
    • purgeDeletedKey

      public Mono<Void> purgeDeletedKey(String name)
      Permanently deletes the specified key without the possibility of recovery. The purge deleted key operation is applicable for soft-delete enabled vaults. This operation requires the keys/purge permission.

      Code Samples

      Purges the deleted key from the key vault enabled for soft-delete. Subscribes to the call asynchronously and prints out the status code from the server response when a response has been received.

       keyAsyncClient.purgeDeletedKey("deletedKeyName")
           .subscribe(ignored ->
               System.out.println("Successfully purged deleted key"));
       
      Parameters:
      name - The name of the deleted key.
      Returns:
      An empty Mono.
      Throws:
      HttpResponseException - When a key with name is an empty string.
      ResourceNotFoundException - When a key with name doesn't exist in the key vault.
    • purgeDeletedKeyWithResponse

      public Mono<Response<Void>> purgeDeletedKeyWithResponse(String name)
      Permanently deletes the specified key without the possibility of recovery. The purge deleted key operation is applicable for soft-delete enabled vaults. This operation requires the keys/purge permission.

      Code Samples

      Purges the deleted key from the key vault enabled for soft-delete. Subscribes to the call asynchronously and prints out the status code from the server response when a response has been received.

       keyAsyncClient.purgeDeletedKeyWithResponse("deletedKeyName")
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(purgeDeletedKeyResponse ->
               System.out.printf("Purge response status code: %d%n", purgeDeletedKeyResponse.getStatusCode()));
       
      Parameters:
      name - The name of the deleted key.
      Returns:
      A Mono containing a Response containing status code and HTTP headers.
      Throws:
      HttpResponseException - When a key with name is an empty string.
      ResourceNotFoundException - When a key with name doesn't exist in the key vault.
    • beginRecoverDeletedKey

      public PollerFlux<KeyVaultKey,Void> beginRecoverDeletedKey(String name)
      Recovers the deleted key in the key vault to its latest version and can only be performed on a soft-delete enabled vault. An attempt to recover an non-deleted key will return an error. Consider this the inverse of the delete operation on soft-delete enabled vaults. This operation requires the keys/recover permission.

      Code Samples

      Recovers the deleted key from the key vault enabled for soft-delete. Subscribes to the call asynchronously and prints out the recovered key details when a response has been received.

       keyAsyncClient.beginRecoverDeletedKey("deletedKeyName")
           .subscribe(pollResponse -> {
               System.out.printf("Recovery status: %s%n", pollResponse.getStatus());
               System.out.printf("Key name: %s%n", pollResponse.getValue().getName());
               System.out.printf("Key type: %s%n", pollResponse.getValue().getKeyType());
           });
       
      Parameters:
      name - The name of the deleted key to be recovered.
      Returns:
      A PollerFlux to poll on the recovered key status.
      Throws:
      HttpResponseException - When a key with name is an empty string.
      ResourceNotFoundException - When a key with name doesn't exist in the key vault.
    • backupKey

      public Mono<byte[]> backupKey(String name)
      Requests a backup of the specified key be downloaded to the client. The key backup operation exports a key from Azure Key Vault in a protected form. Note that this operation does not return key material in a form that can be used outside the Azure Key Vault system, the returned key material is either protected to a Azure Key Vault HSM or to Azure Key Vault itself. The intent of this operation is to allow a client to generate a key in one Azure Key Vault instance, backup the key, and then restore it into another Azure Key Vault instance. The backup operation may be used to export, in protected form, any key type from Azure Key Vault. Individual versions of a key cannot be backed up. Backup/Restore can be performed within geographical boundaries only; meaning that a backup from one geographical area cannot be restored to another geographical area. For example, a backup from the US geographical area cannot be restored in an EU geographical area. This operation requires the key/backup permission.

      Code Samples

      Backs up the key from the key vault. Subscribes to the call asynchronously and prints out the length of the key's backup byte array returned in the response.

       keyAsyncClient.backupKey("keyName")
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(bytes ->
               System.out.printf("Key backup byte array length: %s%n", bytes.length));
       
      Parameters:
      name - The name of the key.
      Returns:
      A Mono containing the backed up key blob.
      Throws:
      HttpResponseException - When a key with name is an empty string.
      ResourceNotFoundException - When a key with name doesn't exist in the key vault.
    • backupKeyWithResponse

      public Mono<Response<byte[]>> backupKeyWithResponse(String name)
      Requests a backup of the specified key be downloaded to the client. The key backup operation exports a key from Azure Key Vault in a protected form. Note that this operation does not return key material in a form that can be used outside the Azure Key Vault system, the returned key material is either protected to a Azure Key Vault HSM or to Azure Key Vault itself. The intent of this operation is to allow a client to generate a key in one Azure Key Vault instance, backup the key, and then restore it into another Azure Key Vault instance. The backup operation may be used to export, in protected form, any key type from Azure Key Vault. Individual versions of a key cannot be backed up. Backup/Restore can be performed within geographical boundaries only; meaning that a backup from one geographical area cannot be restored to another geographical area. For example, a backup from the US geographical area cannot be restored in an EU geographical area. This operation requires the key/backup permission.

      Code Samples

      Backs up the key from the key vault. Subscribes to the call asynchronously and prints out the length of the key's backup byte array returned in the response.

       keyAsyncClient.backupKeyWithResponse("keyName")
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(backupKeyResponse ->
               System.out.printf("Key backup byte array length: %s%n", backupKeyResponse.getValue().length));
       
      Parameters:
      name - The name of the key.
      Returns:
      A Mono containing a Response whose value contains the backed up key blob.
      Throws:
      ResourceNotFoundException - When a key with name doesn't exist in the key vault.
      HttpResponseException - When a key with name is an empty string.
    • restoreKeyBackup

      public Mono<KeyVaultKey> restoreKeyBackup(byte[] backup)
      Restores a backed up key to a vault. Imports a previously backed up key into Azure Key Vault, restoring the key, its key identifier, attributes and access control policies. The restore operation may be used to import a previously backed up key. Individual versions of a key cannot be restored. The key is restored in its entirety with the same key name as it had when it was backed up. If the key name is not available in the target key vault, the restore operation will be rejected. While the key name is retained during restore, the final key identifier will change if the key is restored to a different vault. Restore will restore all versions and preserve version identifiers. The restore operation is subject to security constraints: The target key vault must be owned by the same Microsoft Azure Subscription as the source key vault. The user must have the restore permission in the target key vault. This operation requires the keys/restore permission.

      Code Samples

      Restores the key in the key vault from its backup. Subscribes to the call asynchronously and prints out the restored key details when a response has been received.

      //Pass the Key Backup Byte array to the restore operation.
       keyAsyncClient.restoreKeyBackup(keyBackupByteArray)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(restoreKeyResponse ->
               System.out.printf("Restored key with name: %s and: id %s%n", restoreKeyResponse.getName(),
                   restoreKeyResponse.getId()));
       
      Parameters:
      backup - The backup blob associated with the key.
      Returns:
      A Mono containing the restored key.
      Throws:
      ResourceModifiedException - When backup blob is malformed.
    • restoreKeyBackupWithResponse

      public Mono<Response<KeyVaultKey>> restoreKeyBackupWithResponse(byte[] backup)
      Restores a backed up key to a vault. Imports a previously backed up key into Azure Key Vault, restoring the key, its key identifier, attributes and access control policies. The restore operation may be used to import a previously backed up key. Individual versions of a key cannot be restored. The key is restored in its entirety with the same key name as it had when it was backed up. If the key name is not available in the target key vault, the restore operation will be rejected. While the key name is retained during restore, the final key identifier will change if the key is restored to a different vault. Restore will restore all versions and preserve version identifiers. The restore operation is subject to security constraints: The target key vault must be owned by the same Microsoft Azure Subscription as the source key vault. The user must have the restore permission in the target key vault. This operation requires the keys/restore permission.

      Code Samples

      Restores the key in the key vault from its backup. Subscribes to the call asynchronously and prints out the restored key details when a response has been received.

      //Pass the Key Backup Byte array to the restore operation.
       keyAsyncClient.restoreKeyBackupWithResponse(keyBackupByteArray)
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(restoreKeyBackupResponse ->
               System.out.printf("Restored key with name: %s and: id %s%n",
                   restoreKeyBackupResponse.getValue().getName(), restoreKeyBackupResponse.getValue().getId()));
       
      Parameters:
      backup - The backup blob associated with the key.
      Returns:
      A Mono containing a Response whose value contains the restored key.
      Throws:
      ResourceModifiedException - When backup blob is malformed.
    • listPropertiesOfKeys

      public PagedFlux<KeyProperties> listPropertiesOfKeys()
      List keys in the key vault. Retrieves a list of the keys in the key vault as JsonWebKey structures that contain the public part of a stored key. The list operation is applicable to all key types and the individual key response in the list is represented by KeyProperties as only the key identifier, attributes and tags are provided in the response. The key material and individual key versions are not listed in the response. This operation requires the keys/list permission.

      Code Samples

      It is possible to get full keys with key material from this information. Convert the Flux containing key properties to Flux containing key using getKey(String, String) within Flux.flatMap(Function).

       keyAsyncClient.listPropertiesOfKeys()
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .flatMap(keyProperties -> keyAsyncClient.getKey(keyProperties.getName(), keyProperties.getVersion()))
           .subscribe(key -> System.out.printf("Retrieved key with name: %s and type: %s%n",
               key.getName(),
               key.getKeyType()));
       
      Returns:
      A PagedFlux containing key of all the keys in the vault.
    • listDeletedKeys

      public PagedFlux<DeletedKey> listDeletedKeys()
      Lists deleted keys of the key vault. The deleted keys are retrieved as JsonWebKey structures that contain the public part of a deleted key. The get deleted keys operation is applicable for vaults enabled for soft-delete. This operation requires the keys/list permission.

      Code Samples

      Lists the deleted keys in the key vault. Subscribes to the call asynchronously and prints out the recovery id of each deleted key when a response has been received.

       keyAsyncClient.listDeletedKeys()
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .subscribe(deletedKey ->
               System.out.printf("Deleted key's recovery id:%s%n", deletedKey.getRecoveryId()));
       
      Returns:
      A PagedFlux containing all of the deleted keys in the vault.
    • listPropertiesOfKeyVersions

      public PagedFlux<KeyProperties> listPropertiesOfKeyVersions(String name)
      List all versions of the specified keys. The individual key response in the flux is represented by KeyProperties as only the key identifier, attributes and tags are provided in the response. The key material values are not provided in the response. This operation requires the keys/list permission.

      Code Samples

      It is possible to get the keys with key material of all the versions from this information. Convert the Flux containing key properties to Flux containing key using getKey(String, String) within Flux.flatMap(Function).

       keyAsyncClient.listPropertiesOfKeyVersions("keyName")
           .contextWrite(Context.of("key1", "value1", "key2", "value2"))
           .flatMap(keyProperties -> keyAsyncClient.getKey(keyProperties.getName(), keyProperties.getVersion()))
           .subscribe(key ->
               System.out.printf("Retrieved key version: %s with name: %s and type: %s%n",
                   key.getProperties().getVersion(), key.getName(), key.getKeyType()));
       
      Parameters:
      name - The name of the key.
      Returns:
      A PagedFlux containing KeyProperties of all the versions of the specified keys in the vault. Flux is empty if key with name does not exist in the key vault.
      Throws:
      ResourceNotFoundException - When a given key name is null or an empty string.
    • getRandomBytes

      public Mono<byte[]> getRandomBytes(int count)
      Get the requested number of bytes containing random values from a managed HSM.

      Code Samples

      Gets a number of bytes containing random values from a Managed HSM. Prints out the retrieved bytes in base64Url format.

       int amount = 16;
       keyAsyncClient.getRandomBytes(amount)
           .subscribe(randomBytes ->
               System.out.printf("Retrieved %d random bytes: %s%n", amount, Arrays.toString(randomBytes)));
       
      Parameters:
      count - The requested number of random bytes.
      Returns:
      A Mono containing the requested number of bytes containing random values from a managed HSM.
    • getRandomBytesWithResponse

      public Mono<Response<byte[]>> getRandomBytesWithResponse(int count)
      Get the requested number of bytes containing random values from a managed HSM.

      Code Samples

      Gets a number of bytes containing random values from a Managed HSM. Prints out the HTTP Response details and the retrieved bytes in base64Url format.

       int amountOfBytes = 16;
       keyAsyncClient.getRandomBytesWithResponse(amountOfBytes).subscribe(response ->
           System.out.printf("Response received successfully with status code: %d. Retrieved %d random bytes: %s%n",
               response.getStatusCode(), amountOfBytes, Arrays.toString(response.getValue())));
       
      Parameters:
      count - The requested number of random bytes.
      Returns:
      A Mono containing the HTTP response for this operation and the requested number of bytes containing random values from a managed HSM.
    • releaseKey

      public Mono<ReleaseKeyResult> releaseKey(String name, String targetAttestationToken)
      Releases the latest version of a key.

      The key must be exportable. This operation requires the keys/release permission.

      Code Samples

      Releases a key. Subscribes to the call asynchronously and prints out the signed object that contains the released key when a response has been received.

       String targetAttestationToken = "someAttestationToken";
       ReleaseKeyResult releaseKeyResult = keyClient.releaseKey("keyName", targetAttestationToken);
      
       System.out.printf("Signed object containing released key: %s%n", releaseKeyResult);
       
      Parameters:
      name - The name of the key to release.
      targetAttestationToken - The attestation assertion for the target of the key release.
      Returns:
      A Mono containing the ReleaseKeyResult containing the released key.
      Throws:
      IllegalArgumentException - If name or targetAttestationToken are null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.
    • releaseKey

      public Mono<ReleaseKeyResult> releaseKey(String name, String version, String targetAttestationToken)
      Releases a key.

      The key must be exportable. This operation requires the 'keys/release' permission.

      Code Samples

      Releases a key. Subscribes to the call asynchronously and prints out the signed object that contains the released key when a response has been received.

       String myKeyVersion = "6A385B124DEF4096AF1361A85B16C204";
       String myTargetAttestationToken = "someAttestationToken";
      
       keyAsyncClient.releaseKey("keyName", myKeyVersion, myTargetAttestationToken)
           .subscribe(releaseKeyResult ->
               System.out.printf("Signed object containing released key: %s%n", releaseKeyResult.getValue()));
       
      Parameters:
      name - The name of the key to release.
      version - The version of the key to retrieve. If this is empty or null, this call is equivalent to calling releaseKey(String, String), with the latest key version being released.
      targetAttestationToken - The attestation assertion for the target of the key release.
      Returns:
      A Mono containing the ReleaseKeyResult containing the released key.
      Throws:
      IllegalArgumentException - If name or targetAttestationToken are null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.
    • releaseKeyWithResponse

      public Mono<Response<ReleaseKeyResult>> releaseKeyWithResponse(String name, String version, String targetAttestationToken, ReleaseKeyOptions releaseKeyOptions)
      Releases a key.

      The key must be exportable. This operation requires the 'keys/release' permission.

      Code Samples

      Releases a key. Subscribes to the call asynchronously and prints out the HTTP Response details and the signed object that contains the released key when a response has been received.

       String releaseKeyVersion = "6A385B124DEF4096AF1361A85B16C204";
       String someTargetAttestationToken = "someAttestationToken";
       ReleaseKeyOptions releaseKeyOptions = new ReleaseKeyOptions()
           .setAlgorithm(KeyExportEncryptionAlgorithm.RSA_AES_KEY_WRAP_256)
           .setNonce("someNonce");
      
       keyAsyncClient.releaseKeyWithResponse("keyName", releaseKeyVersion, someTargetAttestationToken,
               releaseKeyOptions)
           .subscribe(releaseKeyResponse ->
               System.out.printf("Response received successfully with status code: %d. Signed object containing"
                       + "released key: %s%n", releaseKeyResponse.getStatusCode(),
                   releaseKeyResponse.getValue().getValue()));
       
      Parameters:
      name - The name of the key to release.
      version - The version of the key to retrieve. If this is empty or null, this call is equivalent to calling releaseKey(String, String), with the latest key version being released.
      targetAttestationToken - The attestation assertion for the target of the key release.
      releaseKeyOptions - Additional options for releasing a key.
      Returns:
      A Mono containing the HTTP response for this operation and the ReleaseKeyResult containing the released key.
      Throws:
      IllegalArgumentException - If name or targetAttestationToken are null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.
    • rotateKey

      public Mono<KeyVaultKey> rotateKey(String name)
      Rotates a key. The rotate key operation will do so based on key's rotation policy. This operation requires the keys/rotate permission.

      Code Samples

      Rotates a key. Prints out rotated key details.

       keyAsyncClient.rotateKey("keyName")
           .subscribe(key ->
               System.out.printf("Rotated key with name: %s and version:%s%n", key.getName(),
                   key.getProperties().getVersion()));
       
      Parameters:
      name - The name of key to be rotated. The system will generate a new version in the specified key.
      Returns:
      The new version of the rotated key.
      Throws:
      IllegalArgumentException - If name is null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.
    • rotateKeyWithResponse

      public Mono<Response<KeyVaultKey>> rotateKeyWithResponse(String name)
      Rotates a key. The rotate key operation will do so based on key's rotation policy. This operation requires the keys/rotate permission.

      Code Samples

      Rotates a key. Subscribes to the call asynchronously and prints out the HTTP Response and rotated key details when a response has been received.

       keyAsyncClient.rotateKeyWithResponse("keyName")
           .subscribe(rotateKeyResponse ->
               System.out.printf("Response received successfully with status code: %d. Rotated key with name: %s and"
                       + "version: %s%n", rotateKeyResponse.getStatusCode(), rotateKeyResponse.getValue().getName(),
                   rotateKeyResponse.getValue().getProperties().getVersion()));
       
      Parameters:
      name - The name of key to be rotated. The system will generate a new version in the specified key.
      Returns:
      A Mono containing the HTTP response for this operation and the new version of the rotated key.
      Throws:
      IllegalArgumentException - If name is null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.
    • getKeyRotationPolicy

      public Mono<KeyRotationPolicy> getKeyRotationPolicy(String keyName)
      Gets the KeyRotationPolicy for the key with the provided name. This operation requires the keys/get permission.

      Code Samples

      Retrieves the rotation policy of a given key. Subscribes to the call asynchronously and prints out the rotation policy key details when a response has been received.

       keyAsyncClient.getKeyRotationPolicy("keyName")
           .subscribe(keyRotationPolicy ->
               System.out.printf("Retrieved key rotation policy with id: %s%n", keyRotationPolicy.getId()));
       
      Parameters:
      keyName - The name of the key.
      Returns:
      A Mono containing the KeyRotationPolicy for the key.
      Throws:
      IllegalArgumentException - If name is null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.
    • getKeyRotationPolicyWithResponse

      public Mono<Response<KeyRotationPolicy>> getKeyRotationPolicyWithResponse(String keyName)
      Gets the KeyRotationPolicy for the key with the provided name. This operation requires the keys/get permission.

      Code Samples

      Retrieves the rotation policy of a given key. Subscribes to the call asynchronously and prints out the HTTP Response and rotation policy key details when a response has been received.

       keyAsyncClient.getKeyRotationPolicyWithResponse("keyName")
           .subscribe(getKeyRotationPolicyResponse ->
               System.out.printf("Response received successfully with status code: %d. Retrieved key rotation policy"
                   + "with id: %s%n", getKeyRotationPolicyResponse.getStatusCode(),
                   getKeyRotationPolicyResponse.getValue().getId()));
       
      Parameters:
      keyName - The name of the key.
      Returns:
      A Mono containing the HTTP response for this operation and the KeyRotationPolicy for the key.
      Throws:
      IllegalArgumentException - If name is null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.
    • updateKeyRotationPolicy

      public Mono<KeyRotationPolicy> updateKeyRotationPolicy(String keyName, KeyRotationPolicy keyRotationPolicy)
      Updates the KeyRotationPolicy of the key with the provided name. This operation requires the keys/update permission.

      Code Samples

      Updates the rotation policy of a given key. Subscribes to the call asynchronously and prints out the rotation policy key details when a response has been received.

       List<KeyRotationLifetimeAction> lifetimeActions = new ArrayList<>();
       KeyRotationLifetimeAction rotateLifetimeAction = new KeyRotationLifetimeAction(KeyRotationPolicyAction.ROTATE)
           .setTimeAfterCreate("P90D");
       KeyRotationLifetimeAction notifyLifetimeAction = new KeyRotationLifetimeAction(KeyRotationPolicyAction.NOTIFY)
           .setTimeBeforeExpiry("P45D");
      
       lifetimeActions.add(rotateLifetimeAction);
       lifetimeActions.add(notifyLifetimeAction);
      
       KeyRotationPolicy keyRotationPolicy = new KeyRotationPolicy()
           .setLifetimeActions(lifetimeActions)
           .setExpiresIn("P6M");
      
       keyAsyncClient.updateKeyRotationPolicy("keyName", keyRotationPolicy)
           .subscribe(updatedPolicy ->
               System.out.printf("Updated key rotation policy with id: %s%n", updatedPolicy.getId()));
       
      Parameters:
      keyName - The name of the key.
      keyRotationPolicy - The KeyRotationPolicy for the key.
      Returns:
      A Mono containing the KeyRotationPolicy for the key.
      Throws:
      IllegalArgumentException - If name is null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.
    • updateKeyRotationPolicyWithResponse

      public Mono<Response<KeyRotationPolicy>> updateKeyRotationPolicyWithResponse(String keyName, KeyRotationPolicy keyRotationPolicy)
      Updates the KeyRotationPolicy of the key with the provided name. This operation requires the keys/update permission.

      Code Samples

      Updates the rotation policy of a given key. Subscribes to the call asynchronously and prints out the HTTP Response and rotation policy key details when a response has been received.

       List<KeyRotationLifetimeAction> myLifetimeActions = new ArrayList<>();
       KeyRotationLifetimeAction myRotateLifetimeAction = new KeyRotationLifetimeAction(KeyRotationPolicyAction.ROTATE)
           .setTimeAfterCreate("P90D");
       KeyRotationLifetimeAction myNotifyLifetimeAction = new KeyRotationLifetimeAction(KeyRotationPolicyAction.NOTIFY)
           .setTimeBeforeExpiry("P45D");
      
       myLifetimeActions.add(myRotateLifetimeAction);
       myLifetimeActions.add(myNotifyLifetimeAction);
      
       KeyRotationPolicy myKeyRotationPolicy = new KeyRotationPolicy()
           .setLifetimeActions(myLifetimeActions)
           .setExpiresIn("P6M");
      
       keyAsyncClient.updateKeyRotationPolicyWithResponse("keyName", myKeyRotationPolicy)
           .subscribe(myUpdatedPolicyResponse ->
               System.out.printf("Response received successfully with status code: %d. Updated key rotation policy"
                   + "with id: %s%n", myUpdatedPolicyResponse.getStatusCode(),
                   myUpdatedPolicyResponse.getValue().getId()));
       
      Parameters:
      keyName - The name of the key.
      keyRotationPolicy - The KeyRotationPolicy for the key.
      Returns:
      A Mono containing the HTTP response for this operation and the KeyRotationPolicy for the key.
      Throws:
      IllegalArgumentException - If name is null or empty.
      ResourceNotFoundException - If the key for the provided name does not exist.