Class: Aws::KMS::Client
- Inherits:
-
Seahorse::Client::Base
- Object
- Seahorse::Client::Base
- Aws::KMS::Client
- Includes:
- ClientStubs
- Defined in:
- gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb
Overview
An API client for KMS. To construct a client, you need to configure a :region
and :credentials
.
client = Aws::KMS::Client.new(
region: region_name,
credentials: credentials,
# ...
)
For details on configuring region and credentials see the developer guide.
See #initialize for a full list of supported configuration options.
Instance Attribute Summary
Attributes inherited from Seahorse::Client::Base
API Operations collapse
-
#cancel_key_deletion(params = {}) ⇒ Types::CancelKeyDeletionResponse
Cancels the deletion of a KMS key.
-
#connect_custom_key_store(params = {}) ⇒ Struct
Connects or reconnects a [custom key store][1] to its backing key store.
-
#create_alias(params = {}) ⇒ Struct
Creates a friendly name for a KMS key.
-
#create_custom_key_store(params = {}) ⇒ Types::CreateCustomKeyStoreResponse
Creates a [custom key store][1] backed by a key store that you own and manage.
-
#create_grant(params = {}) ⇒ Types::CreateGrantResponse
Adds a grant to a KMS key.
-
#create_key(params = {}) ⇒ Types::CreateKeyResponse
Creates a unique customer managed [KMS key][1] in your Amazon Web Services account and Region.
-
#decrypt(params = {}) ⇒ Types::DecryptResponse
Decrypts ciphertext that was encrypted by a KMS key using any of the following operations:.
-
#delete_alias(params = {}) ⇒ Struct
Deletes the specified alias.
-
#delete_custom_key_store(params = {}) ⇒ Struct
Deletes a [custom key store][1].
-
#delete_imported_key_material(params = {}) ⇒ Struct
Deletes key material that was previously imported.
-
#derive_shared_secret(params = {}) ⇒ Types::DeriveSharedSecretResponse
Derives a shared secret using a key agreement algorithm.
-
#describe_custom_key_stores(params = {}) ⇒ Types::DescribeCustomKeyStoresResponse
Gets information about [custom key stores][1] in the account and Region.
-
#describe_key(params = {}) ⇒ Types::DescribeKeyResponse
Provides detailed information about a KMS key.
-
#disable_key(params = {}) ⇒ Struct
Sets the state of a KMS key to disabled.
-
#disable_key_rotation(params = {}) ⇒ Struct
Disables [automatic rotation of the key material][1] of the specified symmetric encryption KMS key.
-
#disconnect_custom_key_store(params = {}) ⇒ Struct
Disconnects the [custom key store][1] from its backing key store.
-
#enable_key(params = {}) ⇒ Struct
Sets the key state of a KMS key to enabled.
-
#enable_key_rotation(params = {}) ⇒ Struct
Enables [automatic rotation of the key material][1] of the specified symmetric encryption KMS key.
-
#encrypt(params = {}) ⇒ Types::EncryptResponse
Encrypts plaintext of up to 4,096 bytes using a KMS key.
-
#generate_data_key(params = {}) ⇒ Types::GenerateDataKeyResponse
Returns a unique symmetric data key for use outside of KMS.
-
#generate_data_key_pair(params = {}) ⇒ Types::GenerateDataKeyPairResponse
Returns a unique asymmetric data key pair for use outside of KMS.
-
#generate_data_key_pair_without_plaintext(params = {}) ⇒ Types::GenerateDataKeyPairWithoutPlaintextResponse
Returns a unique asymmetric data key pair for use outside of KMS.
-
#generate_data_key_without_plaintext(params = {}) ⇒ Types::GenerateDataKeyWithoutPlaintextResponse
Returns a unique symmetric data key for use outside of KMS.
-
#generate_mac(params = {}) ⇒ Types::GenerateMacResponse
Generates a hash-based message authentication code (HMAC) for a message using an HMAC KMS key and a MAC algorithm that the key supports.
-
#generate_random(params = {}) ⇒ Types::GenerateRandomResponse
Returns a random byte string that is cryptographically secure.
-
#get_key_policy(params = {}) ⇒ Types::GetKeyPolicyResponse
Gets a key policy attached to the specified KMS key.
-
#get_key_rotation_status(params = {}) ⇒ Types::GetKeyRotationStatusResponse
Provides detailed information about the rotation status for a KMS key, including whether [automatic rotation of the key material][1] is enabled for the specified KMS key, the [rotation period][2], and the next scheduled rotation date.
-
#get_parameters_for_import(params = {}) ⇒ Types::GetParametersForImportResponse
Returns the public key and an import token you need to import or reimport key material for a KMS key.
-
#get_public_key(params = {}) ⇒ Types::GetPublicKeyResponse
Returns the public key of an asymmetric KMS key.
-
#import_key_material(params = {}) ⇒ Struct
Imports or reimports key material into an existing KMS key that was created without key material.
-
#list_aliases(params = {}) ⇒ Types::ListAliasesResponse
Gets a list of aliases in the caller's Amazon Web Services account and region.
-
#list_grants(params = {}) ⇒ Types::ListGrantsResponse
Gets a list of all grants for the specified KMS key.
-
#list_key_policies(params = {}) ⇒ Types::ListKeyPoliciesResponse
Gets the names of the key policies that are attached to a KMS key.
-
#list_key_rotations(params = {}) ⇒ Types::ListKeyRotationsResponse
Returns information about all completed key material rotations for the specified KMS key.
-
#list_keys(params = {}) ⇒ Types::ListKeysResponse
Gets a list of all KMS keys in the caller's Amazon Web Services account and Region.
-
#list_resource_tags(params = {}) ⇒ Types::ListResourceTagsResponse
Returns all tags on the specified KMS key.
-
#list_retirable_grants(params = {}) ⇒ Types::ListGrantsResponse
Returns information about all grants in the Amazon Web Services account and Region that have the specified retiring principal.
-
#put_key_policy(params = {}) ⇒ Struct
Attaches a key policy to the specified KMS key.
-
#re_encrypt(params = {}) ⇒ Types::ReEncryptResponse
Decrypts ciphertext and then reencrypts it entirely within KMS.
-
#replicate_key(params = {}) ⇒ Types::ReplicateKeyResponse
Replicates a multi-Region key into the specified Region.
-
#retire_grant(params = {}) ⇒ Struct
Deletes a grant.
-
#revoke_grant(params = {}) ⇒ Struct
Deletes the specified grant.
-
#rotate_key_on_demand(params = {}) ⇒ Types::RotateKeyOnDemandResponse
Immediately initiates rotation of the key material of the specified symmetric encryption KMS key.
-
#schedule_key_deletion(params = {}) ⇒ Types::ScheduleKeyDeletionResponse
Schedules the deletion of a KMS key.
-
#sign(params = {}) ⇒ Types::SignResponse
Creates a [digital signature][1] for a message or message digest by using the private key in an asymmetric signing KMS key.
-
#tag_resource(params = {}) ⇒ Struct
Adds or edits tags on a [customer managed key][1].
-
#untag_resource(params = {}) ⇒ Struct
Deletes tags from a [customer managed key][1].
-
#update_alias(params = {}) ⇒ Struct
Associates an existing KMS alias with a different KMS key.
-
#update_custom_key_store(params = {}) ⇒ Struct
Changes the properties of a custom key store.
-
#update_key_description(params = {}) ⇒ Struct
Updates the description of a KMS key.
-
#update_primary_region(params = {}) ⇒ Struct
Changes the primary key of a multi-Region key.
-
#verify(params = {}) ⇒ Types::VerifyResponse
Verifies a digital signature that was generated by the Sign operation.
-
#verify_mac(params = {}) ⇒ Types::VerifyMacResponse
Verifies the hash-based message authentication code (HMAC) for a specified message, HMAC KMS key, and MAC algorithm.
Instance Method Summary collapse
-
#initialize(options) ⇒ Client
constructor
A new instance of Client.
Methods included from ClientStubs
#api_requests, #stub_data, #stub_responses
Methods inherited from Seahorse::Client::Base
add_plugin, api, clear_plugins, define, new, #operation_names, plugins, remove_plugin, set_api, set_plugins
Methods included from Seahorse::Client::HandlerBuilder
#handle, #handle_request, #handle_response
Constructor Details
#initialize(options) ⇒ Client
Returns a new instance of Client.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 451 def initialize(*args) super end |
Instance Method Details
#cancel_key_deletion(params = {}) ⇒ Types::CancelKeyDeletionResponse
Cancels the deletion of a KMS key. When this operation succeeds, the
key state of the KMS key is Disabled
. To enable the KMS key, use
EnableKey.
For more information about scheduling and canceling deletion of a KMS key, see Deleting KMS keys in the Key Management Service Developer Guide.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:CancelKeyDeletion (key policy)
Related operations: ScheduleKeyDeletion
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 533 def cancel_key_deletion(params = {}, = {}) req = build_request(:cancel_key_deletion, params) req.send_request() end |
#connect_custom_key_store(params = {}) ⇒ Struct
Connects or reconnects a custom key store to its backing key
store. For an CloudHSM key store, ConnectCustomKeyStore
connects the
key store to its associated CloudHSM cluster. For an external key
store, ConnectCustomKeyStore
connects the key store to the external
key store proxy that communicates with your external key manager.
The custom key store must be connected before you can create KMS keys in the key store or use the KMS keys it contains. You can disconnect and reconnect a custom key store at any time.
The connection process for a custom key store can take an extended amount of time to complete. This operation starts the connection process, but it does not wait for it to complete. When it succeeds, this operation quickly returns an HTTP 200 response and a JSON object with no properties. However, this response does not indicate that the custom key store is connected. To get the connection state of the custom key store, use the DescribeCustomKeyStores operation.
This operation is part of the custom key stores feature in KMS, which combines the convenience and extensive integration of KMS with the isolation and control of a key store that you own and manage.
The ConnectCustomKeyStore
operation might fail for various reasons.
To find the reason, use the DescribeCustomKeyStores operation and see
the ConnectionErrorCode
in the response. For help interpreting the
ConnectionErrorCode
, see CustomKeyStoresListEntry.
To fix the failure, use the DisconnectCustomKeyStore operation to
disconnect the custom key store, correct the error, use the
UpdateCustomKeyStore operation if necessary, and then use
ConnectCustomKeyStore
again.
CloudHSM key store
During the connection process for an CloudHSM key store, KMS finds the
CloudHSM cluster that is associated with the custom key store, creates
the connection infrastructure, connects to the cluster, logs into the
CloudHSM client as the kmsuser
CU, and rotates its password.
To connect an CloudHSM key store, its associated CloudHSM cluster must
have at least one active HSM. To get the number of active HSMs in a
cluster, use the DescribeClusters operation. To add HSMs to the
cluster, use the CreateHsm operation. Also, the kmsuser
crypto user (CU) must not be logged into the cluster. This
prevents KMS from using this account to log in.
If you are having trouble connecting or disconnecting a CloudHSM key store, see Troubleshooting an CloudHSM key store in the Key Management Service Developer Guide.
External key store
When you connect an external key store that uses public endpoint connectivity, KMS tests its ability to communicate with your external key manager by sending a request via the external key store proxy.
When you connect to an external key store that uses VPC endpoint service connectivity, KMS establishes the networking elements that it needs to communicate with your external key manager via the external key store proxy. This includes creating an interface endpoint to the VPC endpoint service and a private hosted zone for traffic between KMS and the VPC endpoint service.
To connect an external key store, KMS must be able to connect to the external key store proxy, the external key store proxy must be able to communicate with your external key manager, and the external key manager must be available for cryptographic operations.
If you are having trouble connecting or disconnecting an external key store, see Troubleshooting an external key store in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a custom key store in a different Amazon Web Services account.
Required permissions: kms:ConnectCustomKeyStore (IAM policy)
Related operations
CreateCustomKeyStore
DeleteCustomKeyStore
DescribeCustomKeyStores
DisconnectCustomKeyStore
UpdateCustomKeyStore
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 674 def connect_custom_key_store(params = {}, = {}) req = build_request(:connect_custom_key_store, params) req.send_request() end |
#create_alias(params = {}) ⇒ Struct
Creates a friendly name for a KMS key.
You can use an alias to identify a KMS key in the KMS console, in the DescribeKey operation and in cryptographic operations, such as Encrypt and GenerateDataKey. You can also change the KMS key that's associated with the alias (UpdateAlias) or delete the alias (DeleteAlias) at any time. These operations don't affect the underlying KMS key.
You can associate the alias with any customer managed key in the same Amazon Web Services Region. Each alias is associated with only one KMS key at a time, but a KMS key can have multiple aliases. A valid KMS key is required. You can't create an alias without a KMS key.
The alias must be unique in the account and Region, but you can have aliases with the same name in different Regions. For detailed information about aliases, see Using aliases in the Key Management Service Developer Guide.
This operation does not return a response. To get the alias that you created, use the ListAliases operation.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on an alias in a different Amazon Web Services account.
Required permissions
kms:CreateAlias on the alias (IAM policy).
kms:CreateAlias on the KMS key (key policy).
For details, see Controlling access to aliases in the Key Management Service Developer Guide.
Related operations:
DeleteAlias
ListAliases
UpdateAlias
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 812 def create_alias(params = {}, = {}) req = build_request(:create_alias, params) req.send_request() end |
#create_custom_key_store(params = {}) ⇒ Types::CreateCustomKeyStoreResponse
Creates a custom key store backed by a key store that you own and manage. When you use a KMS key in a custom key store for a cryptographic operation, the cryptographic operation is actually performed in your key store using your keys. KMS supports CloudHSM key stores backed by an CloudHSM cluster and external key stores backed by an external key store proxy and external key manager outside of Amazon Web Services.
This operation is part of the custom key stores feature in KMS, which combines the convenience and extensive integration of KMS with the isolation and control of a key store that you own and manage.
Before you create the custom key store, the required elements must be in place and operational. We recommend that you use the test tools that KMS provides to verify the configuration your external key store proxy. For details about the required elements and verification tests, see Assemble the prerequisites (for CloudHSM key stores) or Assemble the prerequisites (for external key stores) in the Key Management Service Developer Guide.
To create a custom key store, use the following parameters.
To create an CloudHSM key store, specify the
CustomKeyStoreName
,CloudHsmClusterId
,KeyStorePassword
, andTrustAnchorCertificate
. TheCustomKeyStoreType
parameter is optional for CloudHSM key stores. If you include it, set it to the default value,AWS_CLOUDHSM
. For help with failures, see Troubleshooting an CloudHSM key store in the Key Management Service Developer Guide.To create an external key store, specify the
CustomKeyStoreName
and aCustomKeyStoreType
ofEXTERNAL_KEY_STORE
. Also, specify values forXksProxyConnectivity
,XksProxyAuthenticationCredential
,XksProxyUriEndpoint
, andXksProxyUriPath
. If yourXksProxyConnectivity
value isVPC_ENDPOINT_SERVICE
, specify theXksProxyVpcEndpointServiceName
parameter. For help with failures, see Troubleshooting an external key store in the Key Management Service Developer Guide.
Some external key managers provide a simpler method for creating an external key store. For details, see your external key manager documentation.
When creating an external key store in the KMS console, you can upload
a JSON-based proxy configuration file with the desired values. You
cannot use a proxy configuration with the CreateCustomKeyStore
operation. However, you can use the values in the file to help you
determine the correct values for the CreateCustomKeyStore
parameters.
When the operation completes successfully, it returns the ID of the new custom key store. Before you can use your new custom key store, you need to use the ConnectCustomKeyStore operation to connect a new CloudHSM key store to its CloudHSM cluster, or to connect a new external key store to the external key store proxy for your external key manager. Even if you are not going to use your custom key store immediately, you might want to connect it to verify that all settings are correct and then disconnect it until you are ready to use it.
For help with failures, see Troubleshooting a custom key store in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a custom key store in a different Amazon Web Services account.
Required permissions: kms:CreateCustomKeyStore (IAM policy).
Related operations:
ConnectCustomKeyStore
DeleteCustomKeyStore
DescribeCustomKeyStores
DisconnectCustomKeyStore
UpdateCustomKeyStore
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 1201 def create_custom_key_store(params = {}, = {}) req = build_request(:create_custom_key_store, params) req.send_request() end |
#create_grant(params = {}) ⇒ Types::CreateGrantResponse
Adds a grant to a KMS key.
A grant is a policy instrument that allows Amazon Web Services principals to use KMS keys in cryptographic operations. It also can allow them to view a KMS key (DescribeKey) and create and manage grants. When authorizing access to a KMS key, grants are considered along with key policies and IAM policies. Grants are often used for temporary permissions because you can create one, use its permissions, and delete it without changing your key policies or IAM policies.
For detailed information about grants, including grant terminology, see Grants in KMS in the Key Management Service Developer Guide . For examples of working with grants in several programming languages, see Programming grants.
The CreateGrant
operation returns a GrantToken
and a GrantId
.
When you create, retire, or revoke a grant, there might be a brief delay, usually less than five minutes, until the grant is available throughout KMS. This state is known as eventual consistency. Once the grant has achieved eventual consistency, the grantee principal can use the permissions in the grant without identifying the grant.
However, to use the permissions in the grant immediately, use the
GrantToken
thatCreateGrant
returns. For details, see Using a grant token in the Key Management Service Developer Guide .The
CreateGrant
operation also returns aGrantId
. You can use theGrantId
and a key identifier to identify the grant in the RetireGrant and RevokeGrant operations. To find the grant ID, use the ListGrants or ListRetirableGrants operations.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation on a KMS key in
a different Amazon Web Services account, specify the key ARN in the
value of the KeyId
parameter.
Required permissions: kms:CreateGrant (key policy)
Related operations:
ListGrants
ListRetirableGrants
RetireGrant
RevokeGrant
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 1478 def create_grant(params = {}, = {}) req = build_request(:create_grant, params) req.send_request() end |
#create_key(params = {}) ⇒ Types::CreateKeyResponse
Creates a unique customer managed KMS key in your Amazon Web Services account and Region. You can use a KMS key in cryptographic operations, such as encryption and signing. Some Amazon Web Services services let you use KMS keys that you create and manage to protect your service resources.
A KMS key is a logical representation of a cryptographic key. In addition to the key material used in cryptographic operations, a KMS key includes metadata, such as the key ID, key policy, creation date, description, and key state. For details, see Managing keys in the Key Management Service Developer Guide
Use the parameters of CreateKey
to specify the type of KMS key, the
source of its key material, its key policy, description, tags, and
other properties.
To create different types of KMS keys, use the following guidance:
- Symmetric encryption KMS key
By default,
CreateKey
creates a symmetric encryption KMS key with key material that KMS generates. This is the basic and most widely used type of KMS key, and provides the best performance.To create a symmetric encryption KMS key, you don't need to specify any parameters. The default value for
KeySpec
,SYMMETRIC_DEFAULT
, the default value forKeyUsage
,ENCRYPT_DECRYPT
, and the default value forOrigin
,AWS_KMS
, create a symmetric encryption KMS key with KMS key material.If you need a key for basic encryption and decryption or you are creating a KMS key to protect your resources in an Amazon Web Services service, create a symmetric encryption KMS key. The key material in a symmetric encryption key never leaves KMS unencrypted. You can use a symmetric encryption KMS key to encrypt and decrypt data up to 4,096 bytes, but they are typically used to generate data keys and data keys pairs. For details, see GenerateDataKey and GenerateDataKeyPair.
- Asymmetric KMS keys
To create an asymmetric KMS key, use the
KeySpec
parameter to specify the type of key material in the KMS key. Then, use theKeyUsage
parameter to determine whether the KMS key will be used to encrypt and decrypt or sign and verify. You can't change these properties after the KMS key is created.Asymmetric KMS keys contain an RSA key pair, Elliptic Curve (ECC) key pair, or an SM2 key pair (China Regions only). The private key in an asymmetric KMS key never leaves KMS unencrypted. However, you can use the GetPublicKey operation to download the public key so it can be used outside of KMS. Each KMS key can have only one key usage. KMS keys with RSA key pairs can be used to encrypt and decrypt data or sign and verify messages (but not both). KMS keys with NIST-recommended ECC key pairs can be used to sign and verify messages or derive shared secrets (but not both). KMS keys with
ECC_SECG_P256K1
can be used only to sign and verify messages. KMS keys with SM2 key pairs (China Regions only) can be used to either encrypt and decrypt data, sign and verify messages, or derive shared secrets (you must choose one key usage type). For information about asymmetric KMS keys, see Asymmetric KMS keys in the Key Management Service Developer Guide.- HMAC KMS key
To create an HMAC KMS key, set the
KeySpec
parameter to a key spec value for HMAC KMS keys. Then set theKeyUsage
parameter toGENERATE_VERIFY_MAC
. You must set the key usage even thoughGENERATE_VERIFY_MAC
is the only valid key usage value for HMAC KMS keys. You can't change these properties after the KMS key is created.HMAC KMS keys are symmetric keys that never leave KMS unencrypted. You can use HMAC keys to generate (GenerateMac) and verify (VerifyMac) HMAC codes for messages up to 4096 bytes.
- Multi-Region primary keys
- Imported key material
To create a multi-Region primary key in the local Amazon Web Services Region, use the
MultiRegion
parameter with a value ofTrue
. To create a multi-Region replica key, that is, a KMS key with the same key ID and key material as a primary key, but in a different Amazon Web Services Region, use the ReplicateKey operation. To change a replica key to a primary key, and its primary key to a replica key, use the UpdatePrimaryRegion operation.You can create multi-Region KMS keys for all supported KMS key types: symmetric encryption KMS keys, HMAC KMS keys, asymmetric encryption KMS keys, and asymmetric signing KMS keys. You can also create multi-Region keys with imported key material. However, you can't create multi-Region keys in a custom key store.
This operation supports multi-Region keys, an KMS feature that lets you create multiple interoperable KMS keys in different Amazon Web Services Regions. Because these KMS keys have the same key ID, key material, and other metadata, you can use them interchangeably to encrypt data in one Amazon Web Services Region and decrypt it in a different Amazon Web Services Region without re-encrypting the data or making a cross-Region call. For more information about multi-Region keys, see Multi-Region keys in KMS in the Key Management Service Developer Guide.
To import your own key material into a KMS key, begin by creating a KMS key with no key material. To do this, use the
Origin
parameter ofCreateKey
with a value ofEXTERNAL
. Next, use GetParametersForImport operation to get a public key and import token. Use the wrapping public key to encrypt your key material. Then, use ImportKeyMaterial with your import token to import the key material. For step-by-step instructions, see Importing Key Material in the Key Management Service Developer Guide .You can import key material into KMS keys of all supported KMS key types: symmetric encryption KMS keys, HMAC KMS keys, asymmetric encryption KMS keys, and asymmetric signing KMS keys. You can also create multi-Region keys with imported key material. However, you can't import key material into a KMS key in a custom key store.
To create a multi-Region primary key with imported key material, use the
Origin
parameter ofCreateKey
with a value ofEXTERNAL
and theMultiRegion
parameter with a value ofTrue
. To create replicas of the multi-Region primary key, use the ReplicateKey operation. For instructions, see Importing key material into multi-Region keys. For more information about multi-Region keys, see Multi-Region keys in KMS in the Key Management Service Developer Guide.- Custom key store
A custom key store lets you protect your Amazon Web Services resources using keys in a backing key store that you own and manage. When you request a cryptographic operation with a KMS key in a custom key store, the operation is performed in the backing key store using its cryptographic keys.
KMS supports CloudHSM key stores backed by an CloudHSM cluster and external key stores backed by an external key manager outside of Amazon Web Services. When you create a KMS key in an CloudHSM key store, KMS generates an encryption key in the CloudHSM cluster and associates it with the KMS key. When you create a KMS key in an external key store, you specify an existing encryption key in the external key manager.
Some external key managers provide a simpler method for creating a KMS key in an external key store. For details, see your external key manager documentation. Before you create a KMS key in a custom key store, the
ConnectionState
of the key store must beCONNECTED
. To connect the custom key store, use the ConnectCustomKeyStore operation. To find theConnectionState
, use the DescribeCustomKeyStores operation.To create a KMS key in a custom key store, use the
CustomKeyStoreId
. Use the defaultKeySpec
value,SYMMETRIC_DEFAULT
, and the defaultKeyUsage
value,ENCRYPT_DECRYPT
to create a symmetric encryption key. No other key type is supported in a custom key store.To create a KMS key in an CloudHSM key store, use the
Origin
parameter with a value ofAWS_CLOUDHSM
. The CloudHSM cluster that is associated with the custom key store must have at least two active HSMs in different Availability Zones in the Amazon Web Services Region.To create a KMS key in an external key store, use the
Origin
parameter with a value ofEXTERNAL_KEY_STORE
and anXksKeyId
parameter that identifies an existing external key.Some external key managers provide a simpler method for creating a KMS key in an external key store. For details, see your external key manager documentation.
Cross-account use: No. You cannot use this operation to create a KMS key in a different Amazon Web Services account.
Required permissions: kms:CreateKey (IAM policy). To use the
Tags
parameter, kms:TagResource (IAM policy). For examples and
information about related permissions, see Allow a user to create KMS
keys in the Key Management Service Developer Guide.
Related operations:
DescribeKey
ListKeys
ScheduleKeyDeletion
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 2380 def create_key(params = {}, = {}) req = build_request(:create_key, params) req.send_request() end |
#decrypt(params = {}) ⇒ Types::DecryptResponse
Decrypts ciphertext that was encrypted by a KMS key using any of the following operations:
Encrypt
GenerateDataKey
GenerateDataKeyPair
GenerateDataKeyWithoutPlaintext
GenerateDataKeyPairWithoutPlaintext
You can use this operation to decrypt ciphertext that was encrypted under a symmetric encryption KMS key or an asymmetric encryption KMS key. When the KMS key is asymmetric, you must specify the KMS key and the encryption algorithm that was used to encrypt the ciphertext. For information about asymmetric KMS keys, see Asymmetric KMS keys in the Key Management Service Developer Guide.
The Decrypt
operation also decrypts ciphertext that was encrypted
outside of KMS by the public key in an KMS asymmetric KMS key.
However, it cannot decrypt symmetric ciphertext produced by other
libraries, such as the Amazon Web Services Encryption SDK or
Amazon S3 client-side encryption. These libraries return a
ciphertext format that is incompatible with KMS.
If the ciphertext was encrypted under a symmetric encryption KMS key,
the KeyId
parameter is optional. KMS can get this information from
metadata that it adds to the symmetric ciphertext blob. This feature
adds durability to your implementation by ensuring that authorized
users can decrypt ciphertext decades after it was encrypted, even if
they've lost track of the key ID. However, specifying the KMS key is
always recommended as a best practice. When you use the KeyId
parameter to specify a KMS key, KMS only uses the KMS key you specify.
If the ciphertext was encrypted under a different KMS key, the
Decrypt
operation fails. This practice ensures that you use the KMS
key that you intend.
Whenever possible, use key policies to give users permission to call
the Decrypt
operation on a particular KMS key, instead of using
&IAM; policies. Otherwise, you might create an &IAM; policy
that gives the user Decrypt
permission on all KMS keys. This user
could decrypt ciphertext that was encrypted by KMS keys in other
accounts if the key policy for the cross-account KMS key permits it.
If you must use an IAM policy for Decrypt
permissions, limit the
user to particular KMS keys or particular trusted accounts. For
details, see Best practices for IAM policies in the Key
Management Service Developer Guide.
Decrypt
also supports Amazon Web Services Nitro Enclaves, which
provide an isolated compute environment in Amazon EC2. To call
Decrypt
for a Nitro enclave, use the Amazon Web Services Nitro
Enclaves SDK or any Amazon Web Services SDK. Use the Recipient
parameter to provide the attestation document for the enclave. Instead
of the plaintext data, the response includes the plaintext data
encrypted with the public key from the attestation document
(CiphertextForRecipient
). For information about the interaction
between KMS and Amazon Web Services Nitro Enclaves, see How Amazon
Web Services Nitro Enclaves uses KMS in the Key Management
Service Developer Guide.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. If you use the KeyId
parameter to
identify a KMS key in a different Amazon Web Services account, specify
the key ARN or the alias ARN of the KMS key.
Required permissions: kms:Decrypt (key policy)
Related operations:
Encrypt
GenerateDataKey
GenerateDataKeyPair
ReEncrypt
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 2696 def decrypt(params = {}, = {}) req = build_request(:decrypt, params) req.send_request() end |
#delete_alias(params = {}) ⇒ Struct
Deletes the specified alias.
Because an alias is not a property of a KMS key, you can delete and change the aliases of a KMS key without affecting the KMS key. Also, aliases do not appear in the response from the DescribeKey operation. To get the aliases of all KMS keys, use the ListAliases operation.
Each KMS key can have multiple aliases. To change the alias of a KMS key, use DeleteAlias to delete the current alias and CreateAlias to create a new alias. To associate an existing alias with a different KMS key, call UpdateAlias.
Cross-account use: No. You cannot perform this operation on an alias in a different Amazon Web Services account.
Required permissions
kms:DeleteAlias on the alias (IAM policy).
kms:DeleteAlias on the KMS key (key policy).
For details, see Controlling access to aliases in the Key Management Service Developer Guide.
Related operations:
CreateAlias
ListAliases
UpdateAlias
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 2774 def delete_alias(params = {}, = {}) req = build_request(:delete_alias, params) req.send_request() end |
#delete_custom_key_store(params = {}) ⇒ Struct
Deletes a custom key store. This operation does not affect any backing elements of the custom key store. It does not delete the CloudHSM cluster that is associated with an CloudHSM key store, or affect any users or keys in the cluster. For an external key store, it does not affect the external key store proxy, external key manager, or any external keys.
This operation is part of the custom key stores feature in KMS, which combines the convenience and extensive integration of KMS with the isolation and control of a key store that you own and manage.
The custom key store that you delete cannot contain any KMS keys. Before deleting the key store, verify that you will never need to use any of the KMS keys in the key store for any cryptographic operations. Then, use ScheduleKeyDeletion to delete the KMS keys from the key store. After the required waiting period expires and all KMS keys are deleted from the custom key store, use DisconnectCustomKeyStore to disconnect the key store from KMS. Then, you can delete the custom key store.
For keys in an CloudHSM key store, the ScheduleKeyDeletion
operation
makes a best effort to delete the key material from the associated
cluster. However, you might need to manually delete the orphaned key
material from the cluster and its backups. KMS never creates,
manages, or deletes cryptographic keys in the external key manager
associated with an external key store. You must manage them using your
external key manager tools.
Instead of deleting the custom key store, consider using the DisconnectCustomKeyStore operation to disconnect the custom key store from its backing key store. While the key store is disconnected, you cannot create or use the KMS keys in the key store. But, you do not need to delete KMS keys and you can reconnect a disconnected custom key store at any time.
If the operation succeeds, it returns a JSON object with no properties.
Cross-account use: No. You cannot perform this operation on a custom key store in a different Amazon Web Services account.
Required permissions: kms:DeleteCustomKeyStore (IAM policy)
Related operations:
ConnectCustomKeyStore
CreateCustomKeyStore
DescribeCustomKeyStores
DisconnectCustomKeyStore
UpdateCustomKeyStore
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 2877 def delete_custom_key_store(params = {}, = {}) req = build_request(:delete_custom_key_store, params) req.send_request() end |
#delete_imported_key_material(params = {}) ⇒ Struct
Deletes key material that was previously imported. This operation makes the specified KMS key temporarily unusable. To restore the usability of the KMS key, reimport the same key material. For more information about importing key material into KMS, see Importing Key Material in the Key Management Service Developer Guide.
When the specified KMS key is in the PendingDeletion
state, this
operation does not change the KMS key's state. Otherwise, it changes
the KMS key's state to PendingImport
.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:DeleteImportedKeyMaterial (key policy)
Related operations:
GetParametersForImport
ImportKeyMaterial
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 2955 def delete_imported_key_material(params = {}, = {}) req = build_request(:delete_imported_key_material, params) req.send_request() end |
#derive_shared_secret(params = {}) ⇒ Types::DeriveSharedSecretResponse
Derives a shared secret using a key agreement algorithm.
KeyUsage
value of
KEY_AGREEMENT
to call DeriveSharedSecret.
DeriveSharedSecret uses the Elliptic Curve Cryptography Cofactor Diffie-Hellman Primitive (ECDH) to establish a key agreement between two peers by deriving a shared secret from their elliptic curve public-private key pairs. You can use the raw shared secret that DeriveSharedSecret returns to derive a symmetric key that can encrypt and decrypt data that is sent between the two peers, or that can generate and verify HMACs. KMS recommends that you follow NIST recommendations for key derivation when using the raw shared secret to derive a symmetric key.
The following workflow demonstrates how to establish key agreement over an insecure communication channel using DeriveSharedSecret.
Alice calls CreateKey to create an asymmetric KMS key pair with a
KeyUsage
value ofKEY_AGREEMENT
.The asymmetric KMS key must use a NIST-recommended elliptic curve (ECC) or SM2 (China Regions only) key spec.
Bob creates an elliptic curve key pair.
Bob can call CreateKey to create an asymmetric KMS key pair or generate a key pair outside of KMS. Bob's key pair must use the same NIST-recommended elliptic curve (ECC) or SM2 (China Regions ony) curve as Alice.
Alice and Bob exchange their public keys through an insecure communication channel (like the internet).
Use GetPublicKey to download the public key of your asymmetric KMS key pair.
KMS strongly recommends verifying that the public key you receive came from the expected party before using it to derive a shared secret. Alice calls DeriveSharedSecret.
KMS uses the private key from the KMS key pair generated in Step 1, Bob's public key, and the Elliptic Curve Cryptography Cofactor Diffie-Hellman Primitive to derive the shared secret. The private key in your KMS key pair never leaves KMS unencrypted. DeriveSharedSecret returns the raw shared secret.
Bob uses the Elliptic Curve Cryptography Cofactor Diffie-Hellman Primitive to calculate the same raw secret using his private key and Alice's public key.
To derive a shared secret you must provide a key agreement algorithm, the private key of the caller's asymmetric NIST-recommended elliptic curve or SM2 (China Regions only) KMS key pair, and the public key from your peer's NIST-recommended elliptic curve or SM2 (China Regions only) key pair. The public key can be from another asymmetric KMS key pair or from a key pair generated outside of KMS, but both key pairs must be on the same elliptic curve.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:DeriveSharedSecret (key policy)
Related operations:
CreateKey
GetPublicKey
DescribeKey
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 3219 def derive_shared_secret(params = {}, = {}) req = build_request(:derive_shared_secret, params) req.send_request() end |
#describe_custom_key_stores(params = {}) ⇒ Types::DescribeCustomKeyStoresResponse
Gets information about custom key stores in the account and Region.
This operation is part of the custom key stores feature in KMS, which combines the convenience and extensive integration of KMS with the isolation and control of a key store that you own and manage.
By default, this operation returns information about all custom key
stores in the account and Region. To get only information about a
particular custom key store, use either the CustomKeyStoreName
or
CustomKeyStoreId
parameter (but not both).
To determine whether the custom key store is connected to its CloudHSM
cluster or external key store proxy, use the ConnectionState
element
in the response. If an attempt to connect the custom key store failed,
the ConnectionState
value is FAILED
and the ConnectionErrorCode
element in the response indicates the cause of the failure. For help
interpreting the ConnectionErrorCode
, see CustomKeyStoresListEntry.
Custom key stores have a DISCONNECTED
connection state if the key
store has never been connected or you used the
DisconnectCustomKeyStore operation to disconnect it. Otherwise, the
connection state is CONNECTED. If your custom key store connection
state is CONNECTED
but you are having trouble using it, verify that
the backing store is active and available. For an CloudHSM key store,
verify that the associated CloudHSM cluster is active and contains the
minimum number of HSMs required for the operation, if any. For an
external key store, verify that the external key store proxy and its
associated external key manager are reachable and enabled.
For help repairing your CloudHSM key store, see the Troubleshooting CloudHSM key stores. For help repairing your external key store, see the Troubleshooting external key stores. Both topics are in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a custom key store in a different Amazon Web Services account.
Required permissions: kms:DescribeCustomKeyStores (IAM policy)
Related operations:
ConnectCustomKeyStore
CreateCustomKeyStore
DeleteCustomKeyStore
DisconnectCustomKeyStore
UpdateCustomKeyStore
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 3454 def describe_custom_key_stores(params = {}, = {}) req = build_request(:describe_custom_key_stores, params) req.send_request() end |
#describe_key(params = {}) ⇒ Types::DescribeKeyResponse
Provides detailed information about a KMS key. You can run
DescribeKey
on a customer managed key or an Amazon Web
Services managed key.
This detailed information includes the key ARN, creation date (and
deletion date, if applicable), the key state, and the origin and
expiration date (if any) of the key material. It includes fields, like
KeySpec
, that help you distinguish different types of KMS keys. It
also displays the key usage (encryption, signing, or generating and
verifying MACs) and the algorithms that the KMS key supports.
For multi-Region keys, DescribeKey
displays the primary key and
all related replica keys. For KMS keys in CloudHSM key stores, it
includes information about the key store, such as the key store ID and
the CloudHSM cluster ID. For KMS keys in external key stores, it
includes the custom key store ID and the ID of the external key.
DescribeKey
does not return the following information:
Aliases associated with the KMS key. To get this information, use ListAliases.
Whether automatic key rotation is enabled on the KMS key. To get this information, use GetKeyRotationStatus. Also, some key states prevent a KMS key from being automatically rotated. For details, see How Automatic Key Rotation Works in the Key Management Service Developer Guide.
Tags on the KMS key. To get this information, use ListResourceTags.
Key policies and grants on the KMS key. To get this information, use GetKeyPolicy and ListGrants.
In general, DescribeKey
is a non-mutating operation. It returns data
about KMS keys, but doesn't change them. However, Amazon Web Services
services use DescribeKey
to create Amazon Web Services managed
keys from a predefined Amazon Web Services alias with no key ID.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:DescribeKey (key policy)
Related operations:
GetKeyPolicy
GetKeyRotationStatus
ListAliases
ListGrants
ListKeys
ListResourceTags
ListRetirableGrants
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 3841 def describe_key(params = {}, = {}) req = build_request(:describe_key, params) req.send_request() end |
#disable_key(params = {}) ⇒ Struct
Sets the state of a KMS key to disabled. This change temporarily prevents use of the KMS key for cryptographic operations.
For more information about how key state affects the use of a KMS key, see Key states of KMS keys in the Key Management Service Developer Guide .
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:DisableKey (key policy)
Related operations: EnableKey
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 3910 def disable_key(params = {}, = {}) req = build_request(:disable_key, params) req.send_request() end |
#disable_key_rotation(params = {}) ⇒ Struct
Disables automatic rotation of the key material of the specified symmetric encryption KMS key.
Automatic key rotation is supported only on symmetric encryption KMS keys. You cannot enable automatic rotation of asymmetric KMS keys, HMAC KMS keys, KMS keys with imported key material, or KMS keys in a custom key store. To enable or disable automatic rotation of a set of related multi-Region keys, set the property on the primary key.
You can enable (EnableKeyRotation) and disable automatic rotation of the key material in customer managed KMS keys. Key material rotation of Amazon Web Services managed KMS keys is not configurable. KMS always rotates the key material for every year. Rotation of Amazon Web Services owned KMS keys varies.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:DisableKeyRotation (key policy)
Related operations:
EnableKeyRotation
GetKeyRotationStatus
ListKeyRotations
RotateKeyOnDemand
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 4020 def disable_key_rotation(params = {}, = {}) req = build_request(:disable_key_rotation, params) req.send_request() end |
#disconnect_custom_key_store(params = {}) ⇒ Struct
Disconnects the custom key store from its backing key store. This operation disconnects an CloudHSM key store from its associated CloudHSM cluster or disconnects an external key store from the external key store proxy that communicates with your external key manager.
This operation is part of the custom key stores feature in KMS, which combines the convenience and extensive integration of KMS with the isolation and control of a key store that you own and manage.
While a custom key store is disconnected, you can manage the custom key store and its KMS keys, but you cannot create or use its KMS keys. You can reconnect the custom key store at any time.
When you disconnect a custom key store, its ConnectionState
changes
to Disconnected
. To find the connection state of a custom key store,
use the DescribeCustomKeyStores operation. To reconnect a custom key
store, use the ConnectCustomKeyStore operation.
If the operation succeeds, it returns a JSON object with no properties.
Cross-account use: No. You cannot perform this operation on a custom key store in a different Amazon Web Services account.
Required permissions: kms:DisconnectCustomKeyStore (IAM policy)
Related operations:
ConnectCustomKeyStore
CreateCustomKeyStore
DeleteCustomKeyStore
DescribeCustomKeyStores
UpdateCustomKeyStore
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 4115 def disconnect_custom_key_store(params = {}, = {}) req = build_request(:disconnect_custom_key_store, params) req.send_request() end |
#enable_key(params = {}) ⇒ Struct
Sets the key state of a KMS key to enabled. This allows you to use the KMS key for cryptographic operations.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:EnableKey (key policy)
Related operations: DisableKey
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 4180 def enable_key(params = {}, = {}) req = build_request(:enable_key, params) req.send_request() end |
#enable_key_rotation(params = {}) ⇒ Struct
Enables automatic rotation of the key material of the specified symmetric encryption KMS key.
By default, when you enable automatic rotation of a customer managed
KMS key, KMS rotates the key material of the KMS key one year
(approximately 365 days) from the enable date and every year
thereafter. You can use the optional RotationPeriodInDays
parameter
to specify a custom rotation period when you enable key rotation, or
you can use RotationPeriodInDays
to modify the rotation period of a
key that you previously enabled automatic key rotation on.
You can monitor rotation of the key material for your KMS keys in CloudTrail and Amazon CloudWatch. To disable rotation of the key material in a customer managed KMS key, use the DisableKeyRotation operation. You can use the GetKeyRotationStatus operation to identify any in progress rotations. You can use the ListKeyRotations operation to view the details of completed rotations.
Automatic key rotation is supported only on symmetric encryption KMS keys. You cannot enable automatic rotation of asymmetric KMS keys, HMAC KMS keys, KMS keys with imported key material, or KMS keys in a custom key store. To enable or disable automatic rotation of a set of related multi-Region keys, set the property on the primary key.
You cannot enable or disable automatic rotation of Amazon Web Services managed KMS keys. KMS always rotates the key material of Amazon Web Services managed keys every year. Rotation of Amazon Web Services owned KMS keys is managed by the Amazon Web Services service that owns the key.
New Amazon Web Services managed keys are automatically rotated one year after they are created, and approximately every year thereafter.
Existing Amazon Web Services managed keys are automatically rotated one year after their most recent rotation, and every year thereafter.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:EnableKeyRotation (key policy)
Related operations:
DisableKeyRotation
GetKeyRotationStatus
ListKeyRotations
RotateKeyOnDemand
You can perform on-demand (RotateKeyOnDemand) rotation of the key material in customer managed KMS keys, regardless of whether or not automatic key rotation is enabled.
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 4341 def enable_key_rotation(params = {}, = {}) req = build_request(:enable_key_rotation, params) req.send_request() end |
#encrypt(params = {}) ⇒ Types::EncryptResponse
Encrypts plaintext of up to 4,096 bytes using a KMS key. You can use a
symmetric or asymmetric KMS key with a KeyUsage
of
ENCRYPT_DECRYPT
.
You can use this operation to encrypt small amounts of arbitrary data,
such as a personal identifier or database password, or other sensitive
information. You don't need to use the Encrypt
operation to encrypt
a data key. The GenerateDataKey and GenerateDataKeyPair operations
return a plaintext data key and an encrypted copy of that data key.
If you use a symmetric encryption KMS key, you can use an encryption
context to add additional security to your encryption operation. If
you specify an EncryptionContext
when encrypting data, you must
specify the same encryption context (a case-sensitive exact match)
when decrypting the data. Otherwise, the request to decrypt fails with
an InvalidCiphertextException
. For more information, see Encryption
Context in the Key Management Service Developer Guide.
If you specify an asymmetric KMS key, you must also specify the encryption algorithm. The algorithm must be compatible with the KMS key spec.
When you use an asymmetric KMS key to encrypt or reencrypt data, be sure to record the KMS key and encryption algorithm that you choose. You will be required to provide the same KMS key and encryption algorithm when you decrypt the data. If the KMS key and algorithm do not match the values used to encrypt the data, the decrypt operation fails.
You are not required to supply the key ID and encryption algorithm when you decrypt with symmetric encryption KMS keys because KMS stores this information in the ciphertext blob. KMS cannot store metadata in ciphertext generated with asymmetric keys. The standard format for asymmetric key ciphertext does not include configurable fields.
The maximum size of the data that you can encrypt varies with the type of KMS key and the encryption algorithm that you choose.
Symmetric encryption KMS keys
SYMMETRIC_DEFAULT
: 4096 bytes
^
RSA_2048
RSAES_OAEP_SHA_1
: 214 bytesRSAES_OAEP_SHA_256
: 190 bytes
RSA_3072
RSAES_OAEP_SHA_1
: 342 bytesRSAES_OAEP_SHA_256
: 318 bytes
RSA_4096
RSAES_OAEP_SHA_1
: 470 bytesRSAES_OAEP_SHA_256
: 446 bytes
SM2PKE
: 1024 bytes (China Regions only)
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:Encrypt (key policy)
Related operations:
Decrypt
GenerateDataKey
GenerateDataKeyPair
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 4588 def encrypt(params = {}, = {}) req = build_request(:encrypt, params) req.send_request() end |
#generate_data_key(params = {}) ⇒ Types::GenerateDataKeyResponse
Returns a unique symmetric data key for use outside of KMS. This operation returns a plaintext copy of the data key and a copy that is encrypted under a symmetric encryption KMS key that you specify. The bytes in the plaintext key are random; they are not related to the caller or the KMS key. You can use the plaintext key to encrypt your data outside of KMS and store the encrypted data key with the encrypted data.
To generate a data key, specify the symmetric encryption KMS key that will be used to encrypt the data key. You cannot use an asymmetric KMS key to encrypt data keys. To get the type of your KMS key, use the DescribeKey operation.
You must also specify the length of the data key. Use either the
KeySpec
or NumberOfBytes
parameters (but not both). For 128-bit
and 256-bit data keys, use the KeySpec
parameter.
To generate a 128-bit SM4 data key (China Regions only), specify a
KeySpec
value of AES_128
or a NumberOfBytes
value of 16
. The
symmetric encryption key used in China Regions to encrypt your data
key is an SM4 encryption key.
To get only an encrypted copy of the data key, use GenerateDataKeyWithoutPlaintext. To generate an asymmetric data key pair, use the GenerateDataKeyPair or GenerateDataKeyPairWithoutPlaintext operation. To get a cryptographically secure random byte string, use GenerateRandom.
You can use an optional encryption context to add additional security
to the encryption operation. If you specify an EncryptionContext
,
you must specify the same encryption context (a case-sensitive exact
match) when decrypting the encrypted data key. Otherwise, the request
to decrypt fails with an InvalidCiphertextException
. For more
information, see Encryption Context in the Key Management
Service Developer Guide.
GenerateDataKey
also supports Amazon Web Services Nitro
Enclaves, which provide an isolated compute environment in Amazon
EC2. To call GenerateDataKey
for an Amazon Web Services Nitro
enclave, use the Amazon Web Services Nitro Enclaves SDK or any
Amazon Web Services SDK. Use the Recipient
parameter to provide the
attestation document for the enclave. GenerateDataKey
returns a copy
of the data key encrypted under the specified KMS key, as usual. But
instead of a plaintext copy of the data key, the response includes a
copy of the data key encrypted under the public key from the
attestation document (CiphertextForRecipient
). For information about
the interaction between KMS and Amazon Web Services Nitro Enclaves,
see How Amazon Web Services Nitro Enclaves uses KMS in the Key
Management Service Developer Guide..
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
How to use your data key
We recommend that you use the following pattern to encrypt data locally in your application. You can write your own code or use a client-side encryption library, such as the Amazon Web Services Encryption SDK, the Amazon DynamoDB Encryption Client, or Amazon S3 client-side encryption to do these tasks for you.
To encrypt data outside of KMS:
Use the
GenerateDataKey
operation to get a data key.Use the plaintext data key (in the
Plaintext
field of the response) to encrypt your data outside of KMS. Then erase the plaintext data key from memory.Store the encrypted data key (in the
CiphertextBlob
field of the response) with the encrypted data.
To decrypt data outside of KMS:
Use the Decrypt operation to decrypt the encrypted data key. The operation returns a plaintext copy of the data key.
Use the plaintext data key to decrypt data outside of KMS, then erase the plaintext data key from memory.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:GenerateDataKey (key policy)
Related operations:
Decrypt
Encrypt
GenerateDataKeyPair
GenerateDataKeyPairWithoutPlaintext
GenerateDataKeyWithoutPlaintext
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 4903 def generate_data_key(params = {}, = {}) req = build_request(:generate_data_key, params) req.send_request() end |
#generate_data_key_pair(params = {}) ⇒ Types::GenerateDataKeyPairResponse
Returns a unique asymmetric data key pair for use outside of KMS. This operation returns a plaintext public key, a plaintext private key, and a copy of the private key that is encrypted under the symmetric encryption KMS key you specify. You can use the data key pair to perform asymmetric cryptography and implement digital signatures outside of KMS. The bytes in the keys are random; they are not related to the caller or to the KMS key that is used to encrypt the private key.
You can use the public key that GenerateDataKeyPair
returns to
encrypt data or verify a signature outside of KMS. Then, store the
encrypted private key with the data. When you are ready to decrypt
data or sign a message, you can use the Decrypt operation to decrypt
the encrypted private key.
To generate a data key pair, you must specify a symmetric encryption KMS key to encrypt the private key in a data key pair. You cannot use an asymmetric KMS key or a KMS key in a custom key store. To get the type and origin of your KMS key, use the DescribeKey operation.
Use the KeyPairSpec
parameter to choose an RSA or Elliptic Curve
(ECC) data key pair. In China Regions, you can also choose an SM2 data
key pair. KMS recommends that you use ECC key pairs for signing, and
use RSA and SM2 key pairs for either encryption or signing, but not
both. However, KMS cannot enforce any restrictions on the use of data
key pairs outside of KMS.
If you are using the data key pair to encrypt data, or for any
operation where you don't immediately need a private key, consider
using the GenerateDataKeyPairWithoutPlaintext operation.
GenerateDataKeyPairWithoutPlaintext
returns a plaintext public key
and an encrypted private key, but omits the plaintext private key that
you need only to decrypt ciphertext or sign a message. Later, when you
need to decrypt the data or sign a message, use the Decrypt operation
to decrypt the encrypted private key in the data key pair.
GenerateDataKeyPair
returns a unique data key pair for each request.
The bytes in the keys are random; they are not related to the caller
or the KMS key that is used to encrypt the private key. The public key
is a DER-encoded X.509 SubjectPublicKeyInfo, as specified in RFC
5280. The private key is a DER-encoded PKCS8 PrivateKeyInfo, as
specified in RFC 5958.
GenerateDataKeyPair
also supports Amazon Web Services Nitro
Enclaves, which provide an isolated compute environment in Amazon
EC2. To call GenerateDataKeyPair
for an Amazon Web Services Nitro
enclave, use the Amazon Web Services Nitro Enclaves SDK or any
Amazon Web Services SDK. Use the Recipient
parameter to provide the
attestation document for the enclave. GenerateDataKeyPair
returns
the public data key and a copy of the private data key encrypted under
the specified KMS key, as usual. But instead of a plaintext copy of
the private data key (PrivateKeyPlaintext
), the response includes a
copy of the private data key encrypted under the public key from the
attestation document (CiphertextForRecipient
). For information about
the interaction between KMS and Amazon Web Services Nitro Enclaves,
see How Amazon Web Services Nitro Enclaves uses KMS in the Key
Management Service Developer Guide..
You can use an optional encryption context to add additional security
to the encryption operation. If you specify an EncryptionContext
,
you must specify the same encryption context (a case-sensitive exact
match) when decrypting the encrypted data key. Otherwise, the request
to decrypt fails with an InvalidCiphertextException
. For more
information, see Encryption Context in the Key Management
Service Developer Guide.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:GenerateDataKeyPair (key policy)
Related operations:
Decrypt
Encrypt
GenerateDataKey
GenerateDataKeyPairWithoutPlaintext
GenerateDataKeyWithoutPlaintext
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 5209 def generate_data_key_pair(params = {}, = {}) req = build_request(:generate_data_key_pair, params) req.send_request() end |
#generate_data_key_pair_without_plaintext(params = {}) ⇒ Types::GenerateDataKeyPairWithoutPlaintextResponse
Returns a unique asymmetric data key pair for use outside of KMS. This operation returns a plaintext public key and a copy of the private key that is encrypted under the symmetric encryption KMS key you specify. Unlike GenerateDataKeyPair, this operation does not return a plaintext private key. The bytes in the keys are random; they are not related to the caller or to the KMS key that is used to encrypt the private key.
You can use the public key that GenerateDataKeyPairWithoutPlaintext
returns to encrypt data or verify a signature outside of KMS. Then,
store the encrypted private key with the data. When you are ready to
decrypt data or sign a message, you can use the Decrypt operation to
decrypt the encrypted private key.
To generate a data key pair, you must specify a symmetric encryption KMS key to encrypt the private key in a data key pair. You cannot use an asymmetric KMS key or a KMS key in a custom key store. To get the type and origin of your KMS key, use the DescribeKey operation.
Use the KeyPairSpec
parameter to choose an RSA or Elliptic Curve
(ECC) data key pair. In China Regions, you can also choose an SM2 data
key pair. KMS recommends that you use ECC key pairs for signing, and
use RSA and SM2 key pairs for either encryption or signing, but not
both. However, KMS cannot enforce any restrictions on the use of data
key pairs outside of KMS.
GenerateDataKeyPairWithoutPlaintext
returns a unique data key pair
for each request. The bytes in the key are not related to the caller
or KMS key that is used to encrypt the private key. The public key is
a DER-encoded X.509 SubjectPublicKeyInfo, as specified in RFC
5280.
You can use an optional encryption context to add additional security
to the encryption operation. If you specify an EncryptionContext
,
you must specify the same encryption context (a case-sensitive exact
match) when decrypting the encrypted data key. Otherwise, the request
to decrypt fails with an InvalidCiphertextException
. For more
information, see Encryption Context in the Key Management
Service Developer Guide.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:GenerateDataKeyPairWithoutPlaintext (key policy)
Related operations:
Decrypt
Encrypt
GenerateDataKey
GenerateDataKeyPair
GenerateDataKeyWithoutPlaintext
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 5417 def generate_data_key_pair_without_plaintext(params = {}, = {}) req = build_request(:generate_data_key_pair_without_plaintext, params) req.send_request() end |
#generate_data_key_without_plaintext(params = {}) ⇒ Types::GenerateDataKeyWithoutPlaintextResponse
Returns a unique symmetric data key for use outside of KMS. This operation returns a data key that is encrypted under a symmetric encryption KMS key that you specify. The bytes in the key are random; they are not related to the caller or to the KMS key.
GenerateDataKeyWithoutPlaintext
is identical to the GenerateDataKey
operation except that it does not return a plaintext copy of the data
key.
This operation is useful for systems that need to encrypt data at some point, but not immediately. When you need to encrypt the data, you call the Decrypt operation on the encrypted copy of the key.
It's also useful in distributed systems with different levels of trust. For example, you might store encrypted data in containers. One component of your system creates new containers and stores an encrypted data key with each container. Then, a different component puts the data into the containers. That component first decrypts the data key, uses the plaintext data key to encrypt data, puts the encrypted data into the container, and then destroys the plaintext data key. In this system, the component that creates the containers never sees the plaintext data key.
To request an asymmetric data key pair, use the GenerateDataKeyPair or GenerateDataKeyPairWithoutPlaintext operations.
To generate a data key, you must specify the symmetric encryption KMS key that is used to encrypt the data key. You cannot use an asymmetric KMS key or a key in a custom key store to generate a data key. To get the type of your KMS key, use the DescribeKey operation.
You must also specify the length of the data key. Use either the
KeySpec
or NumberOfBytes
parameters (but not both). For 128-bit
and 256-bit data keys, use the KeySpec
parameter.
To generate an SM4 data key (China Regions only), specify a KeySpec
value of AES_128
or NumberOfBytes
value of 16
. The symmetric
encryption key used in China Regions to encrypt your data key is an
SM4 encryption key.
If the operation succeeds, you will find the encrypted copy of the
data key in the CiphertextBlob
field.
You can use an optional encryption context to add additional security
to the encryption operation. If you specify an EncryptionContext
,
you must specify the same encryption context (a case-sensitive exact
match) when decrypting the encrypted data key. Otherwise, the request
to decrypt fails with an InvalidCiphertextException
. For more
information, see Encryption Context in the Key Management
Service Developer Guide.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:GenerateDataKeyWithoutPlaintext (key policy)
Related operations:
Decrypt
Encrypt
GenerateDataKey
GenerateDataKeyPair
GenerateDataKeyPairWithoutPlaintext
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 5632 def generate_data_key_without_plaintext(params = {}, = {}) req = build_request(:generate_data_key_without_plaintext, params) req.send_request() end |
#generate_mac(params = {}) ⇒ Types::GenerateMacResponse
Generates a hash-based message authentication code (HMAC) for a message using an HMAC KMS key and a MAC algorithm that the key supports. HMAC KMS keys and the HMAC algorithms that KMS uses conform to industry standards defined in RFC 2104.
You can use value that GenerateMac returns in the VerifyMac operation to demonstrate that the original message has not changed. Also, because a secret key is used to create the hash, you can verify that the party that generated the hash has the required secret key. You can also use the raw result to implement HMAC-based algorithms such as key derivation functions. This operation is part of KMS support for HMAC KMS keys. For details, see HMAC keys in KMS in the Key Management Service Developer Guide .
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:GenerateMac (key policy)
Related operations: VerifyMac
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 5778 def generate_mac(params = {}, = {}) req = build_request(:generate_mac, params) req.send_request() end |
#generate_random(params = {}) ⇒ Types::GenerateRandomResponse
Returns a random byte string that is cryptographically secure.
You must use the NumberOfBytes
parameter to specify the length of
the random byte string. There is no default value for string length.
By default, the random byte string is generated in KMS. To generate
the byte string in the CloudHSM cluster associated with an CloudHSM
key store, use the CustomKeyStoreId
parameter.
GenerateRandom
also supports Amazon Web Services Nitro
Enclaves, which provide an isolated compute environment in Amazon
EC2. To call GenerateRandom
for a Nitro enclave, use the Amazon Web
Services Nitro Enclaves SDK or any Amazon Web Services SDK. Use
the Recipient
parameter to provide the attestation document for the
enclave. Instead of plaintext bytes, the response includes the
plaintext bytes encrypted under the public key from the attestation
document (CiphertextForRecipient
).For information about the
interaction between KMS and Amazon Web Services Nitro Enclaves, see
How Amazon Web Services Nitro Enclaves uses KMS in the Key
Management Service Developer Guide.
For more information about entropy and random number generation, see Key Management Service Cryptographic Details.
Cross-account use: Not applicable. GenerateRandom
does not use
any account-specific resources, such as KMS keys.
Required permissions: kms:GenerateRandom (IAM policy)
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 5921 def generate_random(params = {}, = {}) req = build_request(:generate_random, params) req.send_request() end |
#get_key_policy(params = {}) ⇒ Types::GetKeyPolicyResponse
Gets a key policy attached to the specified KMS key.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:GetKeyPolicy (key policy)
Related operations: PutKeyPolicy
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 6000 def get_key_policy(params = {}, = {}) req = build_request(:get_key_policy, params) req.send_request() end |
#get_key_rotation_status(params = {}) ⇒ Types::GetKeyRotationStatusResponse
Provides detailed information about the rotation status for a KMS key, including whether automatic rotation of the key material is enabled for the specified KMS key, the rotation period, and the next scheduled rotation date.
Automatic key rotation is supported only on symmetric encryption KMS keys. You cannot enable automatic rotation of asymmetric KMS keys, HMAC KMS keys, KMS keys with imported key material, or KMS keys in a custom key store. To enable or disable automatic rotation of a set of related multi-Region keys, set the property on the primary key..
You can enable (EnableKeyRotation) and disable automatic rotation
(DisableKeyRotation) of the key material in customer managed KMS keys.
Key material rotation of Amazon Web Services managed KMS keys is
not configurable. KMS always rotates the key material in Amazon Web
Services managed KMS keys every year. The key rotation status for
Amazon Web Services managed KMS keys is always true
.
You can perform on-demand (RotateKeyOnDemand) rotation of the key material in customer managed KMS keys, regardless of whether or not automatic key rotation is enabled. You can use GetKeyRotationStatus to identify the date and time that an in progress on-demand rotation was initiated. You can use ListKeyRotations to view the details of completed rotations.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Disabled: The key rotation status does not change when you disable a KMS key. However, while the KMS key is disabled, KMS does not rotate the key material. When you re-enable the KMS key, rotation resumes. If the key material in the re-enabled KMS key hasn't been rotated in one year, KMS rotates it immediately, and every year thereafter. If it's been less than a year since the key material in the re-enabled KMS key was rotated, the KMS key resumes its prior rotation schedule.
Pending deletion: While a KMS key is pending deletion, its key rotation status is
false
and KMS does not rotate the key material. If you cancel the deletion, the original key rotation status returns totrue
.
Cross-account use: Yes. To perform this operation on a KMS key in
a different Amazon Web Services account, specify the key ARN in the
value of the KeyId
parameter.
Required permissions: kms:GetKeyRotationStatus (key policy)
Related operations:
DisableKeyRotation
EnableKeyRotation
ListKeyRotations
RotateKeyOnDemand
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 6150 def get_key_rotation_status(params = {}, = {}) req = build_request(:get_key_rotation_status, params) req.send_request() end |
#get_parameters_for_import(params = {}) ⇒ Types::GetParametersForImportResponse
Returns the public key and an import token you need to import or reimport key material for a KMS key.
By default, KMS keys are created with key material that KMS generates. This operation supports Importing key material, an advanced feature that lets you generate and import the cryptographic key material for a KMS key. For more information about importing key material into KMS, see Importing key material in the Key Management Service Developer Guide.
Before calling GetParametersForImport
, use the CreateKey operation
with an Origin
value of EXTERNAL
to create a KMS key with no key
material. You can import key material for a symmetric encryption KMS
key, HMAC KMS key, asymmetric encryption KMS key, or asymmetric
signing KMS key. You can also import key material into a multi-Region
key of any supported type. However, you can't import key material
into a KMS key in a custom key store. You can also use
GetParametersForImport
to get a public key and import token to
reimport the original key material into a KMS key whose key
material expired or was deleted.
GetParametersForImport
returns the items that you need to import
your key material.
The public key (or "wrapping key") of an RSA key pair that KMS generates.
You will use this public key to encrypt ("wrap") your key material while it's in transit to KMS.
A import token that ensures that KMS can decrypt your key material and associate it with the correct KMS key.
The public key and its import token are permanently linked and must be
used together. Each public key and import token set is valid for 24
hours. The expiration date and time appear in the ParametersValidTo
field in the GetParametersForImport
response. You cannot use an
expired public key or import token in an ImportKeyMaterial request. If
your key and token expire, send another GetParametersForImport
request.
GetParametersForImport
requires the following information:
The key ID of the KMS key for which you are importing the key material.
The key spec of the public key ("wrapping key") that you will use to encrypt your key material during import.
The wrapping algorithm that you will use with the public key to encrypt your key material.
You can use the same or a different public key spec and wrapping algorithm each time you import or reimport the same key material.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:GetParametersForImport (key policy)
Related operations:
ImportKeyMaterial
DeleteImportedKeyMaterial
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 6410 def get_parameters_for_import(params = {}, = {}) req = build_request(:get_parameters_for_import, params) req.send_request() end |
#get_public_key(params = {}) ⇒ Types::GetPublicKeyResponse
Returns the public key of an asymmetric KMS key. Unlike the private
key of a asymmetric KMS key, which never leaves KMS unencrypted,
callers with kms:GetPublicKey
permission can download the public key
of an asymmetric KMS key. You can share the public key to allow others
to encrypt messages and verify signatures outside of KMS. For
information about asymmetric KMS keys, see Asymmetric KMS keys in
the Key Management Service Developer Guide.
You do not need to download the public key. Instead, you can use the public key within KMS by calling the Encrypt, ReEncrypt, or Verify operations with the identifier of an asymmetric KMS key. When you use the public key within KMS, you benefit from the authentication, authorization, and logging that are part of every KMS operation. You also reduce of risk of encrypting data that cannot be decrypted. These features are not effective outside of KMS.
To help you use the public key safely outside of KMS, GetPublicKey
returns important information about the public key in the response,
including:
KeySpec: The type of key material in the public key, such as
RSA_4096
orECC_NIST_P521
.KeyUsage: Whether the key is used for encryption, signing, or deriving a shared secret.
EncryptionAlgorithms or SigningAlgorithms: A list of the encryption algorithms or the signing algorithms for the key.
Although KMS cannot enforce these restrictions on external operations, it is crucial that you use this information to prevent the public key from being used improperly. For example, you can prevent a public signing key from being used encrypt data, or prevent a public key from being used with an encryption algorithm that is not supported by KMS. You can also avoid errors, such as using the wrong signing algorithm in a verification operation.
To verify a signature outside of KMS with an SM2 public key (China
Regions only), you must specify the distinguishing ID. By default, KMS
uses 1234567812345678
as the distinguishing ID. For more
information, see Offline verification with SM2 key pairs.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:GetPublicKey (key policy)
Related operations: CreateKey
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 6578 def get_public_key(params = {}, = {}) req = build_request(:get_public_key, params) req.send_request() end |
#import_key_material(params = {}) ⇒ Struct
Imports or reimports key material into an existing KMS key that was
created without key material. ImportKeyMaterial
also sets the
expiration model and expiration date of the imported key material.
By default, KMS keys are created with key material that KMS generates. This operation supports Importing key material, an advanced feature that lets you generate and import the cryptographic key material for a KMS key. For more information about importing key material into KMS, see Importing key material in the Key Management Service Developer Guide.
After you successfully import key material into a KMS key, you can reimport the same key material into that KMS key, but you cannot import different key material. You might reimport key material to replace key material that expired or key material that you deleted. You might also reimport key material to change the expiration model or expiration date of the key material.
Each time you import key material into KMS, you can determine whether
(ExpirationModel
) and when (ValidTo
) the key material expires. To
change the expiration of your key material, you must import it again,
either by calling ImportKeyMaterial
or using the import
features
of the KMS console.
Before calling ImportKeyMaterial
:
Create or identify a KMS key with no key material. The KMS key must have an
Origin
value ofEXTERNAL
, which indicates that the KMS key is designed for imported key material.To create an new KMS key for imported key material, call the CreateKey operation with an
Origin
value ofEXTERNAL
. You can create a symmetric encryption KMS key, HMAC KMS key, asymmetric encryption KMS key, or asymmetric signing KMS key. You can also import key material into a multi-Region key of any supported type. However, you can't import key material into a KMS key in a custom key store.Use the DescribeKey operation to verify that the
KeyState
of the KMS key isPendingImport
, which indicates that the KMS key has no key material.If you are reimporting the same key material into an existing KMS key, you might need to call the DeleteImportedKeyMaterial to delete its existing key material.
Call the GetParametersForImport operation to get a public key and import token set for importing key material.
Use the public key in the GetParametersForImport response to encrypt your key material.
Then, in an ImportKeyMaterial
request, you submit your encrypted key
material and import token. When calling this operation, you must
specify the following values:
The key ID or key ARN of the KMS key to associate with the imported key material. Its
Origin
must beEXTERNAL
and itsKeyState
must bePendingImport
. You cannot perform this operation on a KMS key in a custom key store, or on a KMS key in a different Amazon Web Services account. To get theOrigin
andKeyState
of a KMS key, call DescribeKey.The encrypted key material.
The import token that GetParametersForImport returned. You must use a public key and token from the same
GetParametersForImport
response.Whether the key material expires (
ExpirationModel
) and, if so, when (ValidTo
). For help with this choice, see Setting an expiration time in the Key Management Service Developer Guide.If you set an expiration date, KMS deletes the key material from the KMS key on the specified date, making the KMS key unusable. To use the KMS key in cryptographic operations again, you must reimport the same key material. However, you can delete and reimport the key material at any time, including before the key material expires. Each time you reimport, you can eliminate or reset the expiration time.
When this operation is successful, the key state of the KMS key
changes from PendingImport
to Enabled
, and you can use the KMS key
in cryptographic operations.
If this operation fails, use the exception to help determine the problem. If the error is related to the key material, the import token, or wrapping key, use GetParametersForImport to get a new public key and import token for the KMS key and repeat the import procedure. For help, see How To Import Key Material in the Key Management Service Developer Guide.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:ImportKeyMaterial (key policy)
Related operations:
DeleteImportedKeyMaterial
GetParametersForImport
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 6821 def import_key_material(params = {}, = {}) req = build_request(:import_key_material, params) req.send_request() end |
#list_aliases(params = {}) ⇒ Types::ListAliasesResponse
Gets a list of aliases in the caller's Amazon Web Services account and region. For more information about aliases, see CreateAlias.
By default, the ListAliases
operation returns all aliases in the
account and region. To get only the aliases associated with a
particular KMS key, use the KeyId
parameter.
The ListAliases
response can include aliases that you created and
associated with your customer managed keys, and aliases that Amazon
Web Services created and associated with Amazon Web Services managed
keys in your account. You can recognize Amazon Web Services aliases
because their names have the format aws/<service-name>
, such as
aws/dynamodb
.
The response might also include aliases that have no TargetKeyId
field. These are predefined aliases that Amazon Web Services has
created but has not yet associated with a KMS key. Aliases that Amazon
Web Services creates in your account, including predefined aliases, do
not count against your KMS aliases quota.
Cross-account use: No. ListAliases
does not return aliases in
other Amazon Web Services accounts.
Required permissions: kms:ListAliases (IAM policy)
For details, see Controlling access to aliases in the Key Management Service Developer Guide.
Related operations:
CreateAlias
DeleteAlias
UpdateAlias
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 6990 def list_aliases(params = {}, = {}) req = build_request(:list_aliases, params) req.send_request() end |
#list_grants(params = {}) ⇒ Types::ListGrantsResponse
Gets a list of all grants for the specified KMS key.
You must specify the KMS key in all requests. You can filter the grant list by grant ID or grantee principal.
For detailed information about grants, including grant terminology, see Grants in KMS in the Key Management Service Developer Guide . For examples of working with grants in several programming languages, see Programming grants.
GranteePrincipal
field in the ListGrants
response usually
contains the user or role designated as the grantee principal in the
grant. However, when the grantee principal in the grant is an Amazon
Web Services service, the GranteePrincipal
field contains the
service principal, which might represent several different
grantee principals.
Cross-account use: Yes. To perform this operation on a KMS key in
a different Amazon Web Services account, specify the key ARN in the
value of the KeyId
parameter.
Required permissions: kms:ListGrants (key policy)
Related operations:
CreateGrant
ListRetirableGrants
RetireGrant
RevokeGrant
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 7187 def list_grants(params = {}, = {}) req = build_request(:list_grants, params) req.send_request() end |
#list_key_policies(params = {}) ⇒ Types::ListKeyPoliciesResponse
Gets the names of the key policies that are attached to a KMS key.
This operation is designed to get policy names that you can use in a
GetKeyPolicy operation. However, the only valid policy name is
default
.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:ListKeyPolicies (key policy)
Related operations:
GetKeyPolicy
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 7292 def list_key_policies(params = {}, = {}) req = build_request(:list_key_policies, params) req.send_request() end |
#list_key_rotations(params = {}) ⇒ Types::ListKeyRotationsResponse
Returns information about all completed key material rotations for the specified KMS key.
You must specify the KMS key in all requests. You can refine the key rotations list by limiting the number of rotations returned.
For detailed information about automatic and on-demand key rotations, see Rotating KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:ListKeyRotations (key policy)
Related operations:
EnableKeyRotation
DisableKeyRotation
GetKeyRotationStatus
RotateKeyOnDemand
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 7415 def list_key_rotations(params = {}, = {}) req = build_request(:list_key_rotations, params) req.send_request() end |
#list_keys(params = {}) ⇒ Types::ListKeysResponse
Gets a list of all KMS keys in the caller's Amazon Web Services account and Region.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:ListKeys (IAM policy)
Related operations:
CreateKey
DescribeKey
ListAliases
ListResourceTags
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 7530 def list_keys(params = {}, = {}) req = build_request(:list_keys, params) req.send_request() end |
#list_resource_tags(params = {}) ⇒ Types::ListResourceTagsResponse
Returns all tags on the specified KMS key.
For general information about tags, including the format and syntax, see Tagging Amazon Web Services resources in the Amazon Web Services General Reference. For information about using tags in KMS, see Tagging keys.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:ListResourceTags (key policy)
Related operations:
CreateKey
ReplicateKey
TagResource
UntagResource
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 7654 def (params = {}, = {}) req = build_request(:list_resource_tags, params) req.send_request() end |
#list_retirable_grants(params = {}) ⇒ Types::ListGrantsResponse
Returns information about all grants in the Amazon Web Services account and Region that have the specified retiring principal.
You can specify any principal in your Amazon Web Services account. The grants that are returned include grants for KMS keys in your Amazon Web Services account and other Amazon Web Services accounts. You might use this operation to determine which grants you may retire. To retire a grant, use the RetireGrant operation.
For detailed information about grants, including grant terminology, see Grants in KMS in the Key Management Service Developer Guide . For examples of working with grants in several programming languages, see Programming grants.
Cross-account use: You must specify a principal in your Amazon Web
Services account. This operation returns a list of grants where the
retiring principal specified in the ListRetirableGrants
request is
the same retiring principal on the grant. This can include grants on
KMS keys owned by other Amazon Web Services accounts, but you do not
need kms:ListRetirableGrants
permission (or any other additional
permission) in any Amazon Web Services account other than your own.
Required permissions: kms:ListRetirableGrants (IAM policy) in your Amazon Web Services account.
ListRetirableGrants
requests by evaluating the caller
account's kms:ListRetirableGrants permissions. The authorized
resource in ListRetirableGrants
calls is the retiring principal
specified in the request. KMS does not evaluate the caller's
permissions to verify their access to any KMS keys or grants that
might be returned by the ListRetirableGrants
call.
Related operations:
CreateGrant
ListGrants
RetireGrant
RevokeGrant
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 7809 def list_retirable_grants(params = {}, = {}) req = build_request(:list_retirable_grants, params) req.send_request() end |
#put_key_policy(params = {}) ⇒ Struct
Attaches a key policy to the specified KMS key.
For more information about key policies, see Key Policies in the Key Management Service Developer Guide. For help writing and formatting a JSON policy document, see the IAM JSON Policy Reference in the Identity and Access Management User Guide . For examples of adding a key policy in multiple programming languages, see Setting a key policy in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:PutKeyPolicy (key policy)
Related operations: GetKeyPolicy
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 7950 def put_key_policy(params = {}, = {}) req = build_request(:put_key_policy, params) req.send_request() end |
#re_encrypt(params = {}) ⇒ Types::ReEncryptResponse
Decrypts ciphertext and then reencrypts it entirely within KMS. You can use this operation to change the KMS key under which data is encrypted, such as when you manually rotate a KMS key or change the KMS key that protects a ciphertext. You can also use it to reencrypt ciphertext under the same KMS key, such as to change the encryption context of a ciphertext.
The ReEncrypt
operation can decrypt ciphertext that was encrypted by
using a KMS key in an KMS operation, such as Encrypt or
GenerateDataKey. It can also decrypt ciphertext that was encrypted by
using the public key of an asymmetric KMS key outside of KMS.
However, it cannot decrypt ciphertext produced by other libraries,
such as the Amazon Web Services Encryption SDK or Amazon S3
client-side encryption. These libraries return a ciphertext format
that is incompatible with KMS.
When you use the ReEncrypt
operation, you need to provide
information for the decrypt operation and the subsequent encrypt
operation.
If your ciphertext was encrypted under an asymmetric KMS key, you must use the
SourceKeyId
parameter to identify the KMS key that encrypted the ciphertext. You must also supply the encryption algorithm that was used. This information is required to decrypt the data.If your ciphertext was encrypted under a symmetric encryption KMS key, the
SourceKeyId
parameter is optional. KMS can get this information from metadata that it adds to the symmetric ciphertext blob. This feature adds durability to your implementation by ensuring that authorized users can decrypt ciphertext decades after it was encrypted, even if they've lost track of the key ID. However, specifying the source KMS key is always recommended as a best practice. When you use theSourceKeyId
parameter to specify a KMS key, KMS uses only the KMS key you specify. If the ciphertext was encrypted under a different KMS key, theReEncrypt
operation fails. This practice ensures that you use the KMS key that you intend.To reencrypt the data, you must use the
DestinationKeyId
parameter to specify the KMS key that re-encrypts the data after it is decrypted. If the destination KMS key is an asymmetric KMS key, you must also provide the encryption algorithm. The algorithm that you choose must be compatible with the KMS key.When you use an asymmetric KMS key to encrypt or reencrypt data, be sure to record the KMS key and encryption algorithm that you choose. You will be required to provide the same KMS key and encryption algorithm when you decrypt the data. If the KMS key and algorithm do not match the values used to encrypt the data, the decrypt operation fails.
You are not required to supply the key ID and encryption algorithm when you decrypt with symmetric encryption KMS keys because KMS stores this information in the ciphertext blob. KMS cannot store metadata in ciphertext generated with asymmetric keys. The standard format for asymmetric key ciphertext does not include configurable fields.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. The source KMS key and destination KMS key can be in different Amazon Web Services accounts. Either or both KMS keys can be in a different account than the caller. To specify a KMS key in a different account, you must use its key ARN or alias ARN.
Required permissions:
kms:ReEncryptFrom permission on the source KMS key (key policy)
kms:ReEncryptTo permission on the destination KMS key (key policy)
To permit reencryption from or to a KMS key, include the
"kms:ReEncrypt*"
permission in your key policy. This permission
is automatically included in the key policy when you use the console
to create a KMS key. But you must include it manually when you create
a KMS key programmatically or when you use the PutKeyPolicy operation
to set a key policy.
Related operations:
Decrypt
Encrypt
GenerateDataKey
GenerateDataKeyPair
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 8271 def re_encrypt(params = {}, = {}) req = build_request(:re_encrypt, params) req.send_request() end |
#replicate_key(params = {}) ⇒ Types::ReplicateKeyResponse
Replicates a multi-Region key into the specified Region. This operation creates a multi-Region replica key based on a multi-Region primary key in a different Region of the same Amazon Web Services partition. You can create multiple replicas of a primary key, but each must be in a different Region. To create a multi-Region primary key, use the CreateKey operation.
This operation supports multi-Region keys, an KMS feature that lets you create multiple interoperable KMS keys in different Amazon Web Services Regions. Because these KMS keys have the same key ID, key material, and other metadata, you can use them interchangeably to encrypt data in one Amazon Web Services Region and decrypt it in a different Amazon Web Services Region without re-encrypting the data or making a cross-Region call. For more information about multi-Region keys, see Multi-Region keys in KMS in the Key Management Service Developer Guide.
A replica key is a fully-functional KMS key that can be used independently of its primary and peer replica keys. A primary key and its replica keys share properties that make them interoperable. They have the same key ID and key material. They also have the same key spec, key usage, key material origin, and automatic key rotation status. KMS automatically synchronizes these shared properties among related multi-Region keys. All other properties of a replica key can differ, including its key policy, tags, aliases, and Key states of KMS keys. KMS pricing and quotas for KMS keys apply to each primary key and replica key.
When this operation completes, the new replica key has a transient key
state of Creating
. This key state changes to Enabled
(or
PendingImport
) after a few seconds when the process of creating the
new replica key is complete. While the key state is Creating
, you
can manage key, but you cannot yet use it in cryptographic operations.
If you are creating and using the replica key programmatically, retry
on KMSInvalidStateException
or call DescribeKey
to check its
KeyState
value before using it. For details about the Creating
key
state, see Key states of KMS keys in the Key Management Service
Developer Guide.
You cannot create more than one replica of a primary key in any
Region. If the Region already includes a replica of the key you're
trying to replicate, ReplicateKey
returns an
AlreadyExistsException
error. If the key state of the existing
replica is PendingDeletion
, you can cancel the scheduled key
deletion (CancelKeyDeletion) or wait for the key to be deleted. The
new replica key you create will have the same shared properties
as the original replica key.
The CloudTrail log of a ReplicateKey
operation records a
ReplicateKey
operation in the primary key's Region and a CreateKey
operation in the replica key's Region.
If you replicate a multi-Region primary key with imported key material, the replica key is created with no key material. You must import the same key material that you imported into the primary key. For details, see Importing key material into multi-Region keys in the Key Management Service Developer Guide.
To convert a replica key to a primary key, use the UpdatePrimaryRegion operation.
ReplicateKey
uses different default values for the KeyPolicy
and
Tags
parameters than those used in the KMS console. For details, see
the parameter descriptions.
Cross-account use: No. You cannot use this operation to create a replica key in a different Amazon Web Services account.
Required permissions:
kms:ReplicateKey
on the primary key (in the primary key's Region). Include this permission in the primary key's key policy.kms:CreateKey
in an IAM policy in the replica Region.To use the
Tags
parameter,kms:TagResource
in an IAM policy in the replica Region.
Related operations
CreateKey
UpdatePrimaryRegion
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 8672 def replicate_key(params = {}, = {}) req = build_request(:replicate_key, params) req.send_request() end |
#retire_grant(params = {}) ⇒ Struct
Deletes a grant. Typically, you retire a grant when you no longer need its permissions. To identify the grant to retire, use a grant token, or both the grant ID and a key identifier (key ID or key ARN) of the KMS key. The CreateGrant operation returns both values.
This operation can be called by the retiring principal for a grant,
by the grantee principal if the grant allows the RetireGrant
operation, and by the Amazon Web Services account in which the grant
is created. It can also be called by principals to whom permission for
retiring a grant is delegated. For details, see Retiring and revoking
grants in the Key Management Service Developer Guide.
For detailed information about grants, including grant terminology, see Grants in KMS in the Key Management Service Developer Guide . For examples of working with grants in several programming languages, see Programming grants.
Cross-account use: Yes. You can retire a grant on a KMS key in a different Amazon Web Services account.
Required permissions: Permission to retire a grant is determined primarily by the grant. For details, see Retiring and revoking grants in the Key Management Service Developer Guide.
Related operations:
CreateGrant
ListGrants
ListRetirableGrants
RevokeGrant
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 8787 def retire_grant(params = {}, = {}) req = build_request(:retire_grant, params) req.send_request() end |
#revoke_grant(params = {}) ⇒ Struct
Deletes the specified grant. You revoke a grant to terminate the permissions that the grant allows. For more information, see Retiring and revoking grants in the Key Management Service Developer Guide .
When you create, retire, or revoke a grant, there might be a brief delay, usually less than five minutes, until the grant is available throughout KMS. This state is known as eventual consistency. For details, see Eventual consistency in the Key Management Service Developer Guide .
For detailed information about grants, including grant terminology, see Grants in KMS in the Key Management Service Developer Guide . For examples of working with grants in several programming languages, see Programming grants.
Cross-account use: Yes. To perform this operation on a KMS key in
a different Amazon Web Services account, specify the key ARN in the
value of the KeyId
parameter.
Required permissions: kms:RevokeGrant (key policy).
Related operations:
CreateGrant
ListGrants
ListRetirableGrants
RetireGrant
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 8892 def revoke_grant(params = {}, = {}) req = build_request(:revoke_grant, params) req.send_request() end |
#rotate_key_on_demand(params = {}) ⇒ Types::RotateKeyOnDemandResponse
Immediately initiates rotation of the key material of the specified symmetric encryption KMS key.
You can perform on-demand rotation of the key material in customer managed KMS keys, regardless of whether or not automatic key rotation is enabled. On-demand rotations do not change existing automatic rotation schedules. For example, consider a KMS key that has automatic key rotation enabled with a rotation period of 730 days. If the key is scheduled to automatically rotate on April 14, 2024, and you perform an on-demand rotation on April 10, 2024, the key will automatically rotate, as scheduled, on April 14, 2024 and every 730 days thereafter.
You can use GetKeyRotationStatus to identify any in progress on-demand rotations. You can use ListKeyRotations to identify the date that completed on-demand rotations were performed. You can monitor rotation of the key material for your KMS keys in CloudTrail and Amazon CloudWatch.
On-demand key rotation is supported only on symmetric encryption KMS keys. You cannot perform on-demand rotation of asymmetric KMS keys, HMAC KMS keys, KMS keys with imported key material, or KMS keys in a custom key store. To perform on-demand rotation of a set of related multi-Region keys, invoke the on-demand rotation on the primary key.
You cannot initiate on-demand rotation of Amazon Web Services managed KMS keys. KMS always rotates the key material of Amazon Web Services managed keys every year. Rotation of Amazon Web Services owned KMS keys is managed by the Amazon Web Services service that owns the key.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:RotateKeyOnDemand (key policy)
Related operations:
EnableKeyRotation
DisableKeyRotation
GetKeyRotationStatus
ListKeyRotations
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 9033 def rotate_key_on_demand(params = {}, = {}) req = build_request(:rotate_key_on_demand, params) req.send_request() end |
#schedule_key_deletion(params = {}) ⇒ Types::ScheduleKeyDeletionResponse
Schedules the deletion of a KMS key. By default, KMS applies a waiting
period of 30 days, but you can specify a waiting period of 7-30 days.
When this operation is successful, the key state of the KMS key
changes to PendingDeletion
and the key can't be used in any
cryptographic operations. It remains in this state for the duration of
the waiting period. Before the waiting period ends, you can use
CancelKeyDeletion to cancel the deletion of the KMS key. After the
waiting period ends, KMS deletes the KMS key, its key material, and
all KMS data associated with it, including all aliases that refer to
it.
Deleting a KMS key is a destructive and potentially dangerous operation. When a KMS key is deleted, all data that was encrypted under the KMS key is unrecoverable. (The only exception is a multi-Region replica key, or an asymmetric or HMAC KMS key with imported key material.) To prevent the use of a KMS key without deleting it, use DisableKey.
You can schedule the deletion of a multi-Region primary key and its
replica keys at any time. However, KMS will not delete a multi-Region
primary key with existing replica keys. If you schedule the deletion
of a primary key with replicas, its key state changes to
PendingReplicaDeletion
and it cannot be replicated or used in
cryptographic operations. This status can continue indefinitely. When
the last of its replicas keys is deleted (not just scheduled), the key
state of the primary key changes to PendingDeletion
and its waiting
period (PendingWindowInDays
) begins. For details, see Deleting
multi-Region keys in the Key Management Service Developer Guide.
When KMS deletes a KMS key from an CloudHSM key store, it makes a best effort to delete the associated key material from the associated CloudHSM cluster. However, you might need to manually delete the orphaned key material from the cluster and its backups. Deleting a KMS key from an external key store has no effect on the associated external key. However, for both types of custom key stores, deleting a KMS key is destructive and irreversible. You cannot decrypt ciphertext encrypted under the KMS key by using only its associated external key or CloudHSM key. Also, you cannot recreate a KMS key in an external key store by creating a new KMS key with the same key material.
For more information about scheduling a KMS key for deletion, see Deleting KMS keys in the Key Management Service Developer Guide.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:ScheduleKeyDeletion (key policy)
Related operations
CancelKeyDeletion
DisableKey
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 9186 def schedule_key_deletion(params = {}, = {}) req = build_request(:schedule_key_deletion, params) req.send_request() end |
#sign(params = {}) ⇒ Types::SignResponse
Creates a digital signature for a message or message digest by using the private key in an asymmetric signing KMS key. To verify the signature, use the Verify operation, or use the public key in the same asymmetric KMS key outside of KMS. For information about asymmetric KMS keys, see Asymmetric KMS keys in the Key Management Service Developer Guide.
Digital signatures are generated and verified by using asymmetric key pair, such as an RSA or ECC pair that is represented by an asymmetric KMS key. The key owner (or an authorized user) uses their private key to sign a message. Anyone with the public key can verify that the message was signed with that particular private key and that the message hasn't changed since it was signed.
To use the Sign
operation, provide the following information:
Use the
KeyId
parameter to identify an asymmetric KMS key with aKeyUsage
value ofSIGN_VERIFY
. To get theKeyUsage
value of a KMS key, use the DescribeKey operation. The caller must havekms:Sign
permission on the KMS key.Use the
Message
parameter to specify the message or message digest to sign. You can submit messages of up to 4096 bytes. To sign a larger message, generate a hash digest of the message, and then provide the hash digest in theMessage
parameter. To indicate whether the message is a full message or a digest, use theMessageType
parameter.Choose a signing algorithm that is compatible with the KMS key.
When signing a message, be sure to record the KMS key and the signing algorithm. This information is required to verify the signature.
To verify the signature that this operation generates, use the Verify operation. Or use the GetPublicKey operation to download the public key and then use the public key to verify the signature outside of KMS.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:Sign (key policy)
Related operations: Verify
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 9434 def sign(params = {}, = {}) req = build_request(:sign, params) req.send_request() end |
#tag_resource(params = {}) ⇒ Struct
Adds or edits tags on a customer managed key.
Each tag consists of a tag key and a tag value, both of which are case-sensitive strings. The tag value can be an empty (null) string. To add a tag, specify a new tag key and a tag value. To edit a tag, specify an existing tag key and a new tag value.
You can use this operation to tag a customer managed key, but you cannot tag an Amazon Web Services managed key, an Amazon Web Services owned key, a custom key store, or an alias.
You can also add tags to a KMS key while creating it (CreateKey) or replicating it (ReplicateKey).
For information about using tags in KMS, see Tagging keys. For general information about tags, including the format and syntax, see Tagging Amazon Web Services resources in the Amazon Web Services General Reference.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:TagResource (key policy)
Related operations
CreateKey
ListResourceTags
ReplicateKey
UntagResource
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 9560 def tag_resource(params = {}, = {}) req = build_request(:tag_resource, params) req.send_request() end |
#untag_resource(params = {}) ⇒ Struct
Deletes tags from a customer managed key. To delete a tag, specify the tag key and the KMS key.
When it succeeds, the UntagResource
operation doesn't return any
output. Also, if the specified tag key isn't found on the KMS key, it
doesn't throw an exception or return a response. To confirm that the
operation worked, use the ListResourceTags operation.
For information about using tags in KMS, see Tagging keys. For general information about tags, including the format and syntax, see Tagging Amazon Web Services resources in the Amazon Web Services General Reference.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:UntagResource (key policy)
Related operations
CreateKey
ListResourceTags
ReplicateKey
TagResource
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 9660 def untag_resource(params = {}, = {}) req = build_request(:untag_resource, params) req.send_request() end |
#update_alias(params = {}) ⇒ Struct
Associates an existing KMS alias with a different KMS key. Each alias is associated with only one KMS key at a time, although a KMS key can have multiple aliases. The alias and the KMS key must be in the same Amazon Web Services account and Region.
The current and new KMS key must be the same type (both symmetric or both asymmetric or both HMAC), and they must have the same key usage. This restriction prevents errors in code that uses aliases. If you must assign an alias to a different type of KMS key, use DeleteAlias to delete the old alias and CreateAlias to create a new alias.
You cannot use UpdateAlias
to change an alias name. To change an
alias name, use DeleteAlias to delete the old alias and CreateAlias to
create a new alias.
Because an alias is not a property of a KMS key, you can create, update, and delete the aliases of a KMS key without affecting the KMS key. Also, aliases do not appear in the response from the DescribeKey operation. To get the aliases of all KMS keys in the account, use the ListAliases operation.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions
kms:UpdateAlias on the alias (IAM policy).
kms:UpdateAlias on the current KMS key (key policy).
kms:UpdateAlias on the new KMS key (key policy).
For details, see Controlling access to aliases in the Key Management Service Developer Guide.
Related operations:
CreateAlias
DeleteAlias
ListAliases
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 9792 def update_alias(params = {}, = {}) req = build_request(:update_alias, params) req.send_request() end |
#update_custom_key_store(params = {}) ⇒ Struct
Changes the properties of a custom key store. You can use this operation to change the properties of an CloudHSM key store or an external key store.
Use the required CustomKeyStoreId
parameter to identify the custom
key store. Use the remaining optional parameters to change its
properties. This operation does not return any property values. To
verify the updated property values, use the DescribeCustomKeyStores
operation.
This operation is part of the custom key stores feature in KMS, which combines the convenience and extensive integration of KMS with the isolation and control of a key store that you own and manage.
When updating the properties of an external key store, verify that the updated settings connect your key store, via the external key store proxy, to the same external key manager as the previous settings, or to a backup or snapshot of the external key manager with the same cryptographic keys. If the updated connection settings fail, you can fix them and retry, although an extended delay might disrupt Amazon Web Services services. However, if KMS permanently loses its access to cryptographic keys, ciphertext encrypted under those keys is unrecoverable.
Some external key managers provide a simpler method for updating an external key store. For details, see your external key manager documentation.
When updating an external key store in the KMS console, you can upload
a JSON-based proxy configuration file with the desired values. You
cannot upload the proxy configuration file to the
UpdateCustomKeyStore
operation. However, you can use the file to
help you determine the correct values for the UpdateCustomKeyStore
parameters.
For an CloudHSM key store, you can use this operation to change the
custom key store friendly name (NewCustomKeyStoreName
), to tell KMS
about a change to the kmsuser
crypto user password
(KeyStorePassword
), or to associate the custom key store with a
different, but related, CloudHSM cluster (CloudHsmClusterId
). To
update any property of an CloudHSM key store, the ConnectionState
of
the CloudHSM key store must be DISCONNECTED
.
For an external key store, you can use this operation to change the
custom key store friendly name (NewCustomKeyStoreName
), or to tell
KMS about a change to the external key store proxy authentication
credentials (XksProxyAuthenticationCredential
), connection method
(XksProxyConnectivity
), external proxy endpoint
(XksProxyUriEndpoint
) and path (XksProxyUriPath
). For external key
stores with an XksProxyConnectivity
of VPC_ENDPOINT_SERVICE
, you
can also update the Amazon VPC endpoint service name
(XksProxyVpcEndpointServiceName
). To update most properties of an
external key store, the ConnectionState
of the external key store
must be DISCONNECTED
. However, you can update the
CustomKeyStoreName
, XksProxyAuthenticationCredential
, and
XksProxyUriPath
of an external key store when it is in the CONNECTED
or DISCONNECTED state.
If your update requires a DISCONNECTED
state, before using
UpdateCustomKeyStore
, use the DisconnectCustomKeyStore operation to
disconnect the custom key store. After the UpdateCustomKeyStore
operation completes, use the ConnectCustomKeyStore to reconnect the
custom key store. To find the ConnectionState
of the custom key
store, use the DescribeCustomKeyStores operation.
Before updating the custom key store, verify that the new values allow
KMS to connect the custom key store to its backing key store. For
example, before you change the XksProxyUriPath
value, verify that
the external key store proxy is reachable at the new path.
If the operation succeeds, it returns a JSON object with no properties.
Cross-account use: No. You cannot perform this operation on a custom key store in a different Amazon Web Services account.
Required permissions: kms:UpdateCustomKeyStore (IAM policy)
Related operations:
ConnectCustomKeyStore
CreateCustomKeyStore
DeleteCustomKeyStore
DescribeCustomKeyStores
DisconnectCustomKeyStore
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 10148 def update_custom_key_store(params = {}, = {}) req = build_request(:update_custom_key_store, params) req.send_request() end |
#update_key_description(params = {}) ⇒ Struct
Updates the description of a KMS key. To see the description of a KMS key, use DescribeKey.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: No. You cannot perform this operation on a KMS key in a different Amazon Web Services account.
Required permissions: kms:UpdateKeyDescription (key policy)
Related operations
CreateKey
DescribeKey
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 10225 def update_key_description(params = {}, = {}) req = build_request(:update_key_description, params) req.send_request() end |
#update_primary_region(params = {}) ⇒ Struct
Changes the primary key of a multi-Region key.
This operation changes the replica key in the specified Region to a
primary key and changes the former primary key to a replica key. For
example, suppose you have a primary key in us-east-1
and a replica
key in eu-west-2
. If you run UpdatePrimaryRegion
with a
PrimaryRegion
value of eu-west-2
, the primary key is now the key
in eu-west-2
, and the key in us-east-1
becomes a replica key. For
details, see Updating the primary Region in the Key Management
Service Developer Guide.
This operation supports multi-Region keys, an KMS feature that lets you create multiple interoperable KMS keys in different Amazon Web Services Regions. Because these KMS keys have the same key ID, key material, and other metadata, you can use them interchangeably to encrypt data in one Amazon Web Services Region and decrypt it in a different Amazon Web Services Region without re-encrypting the data or making a cross-Region call. For more information about multi-Region keys, see Multi-Region keys in KMS in the Key Management Service Developer Guide.
The primary key of a multi-Region key is the source for properties that are always shared by primary and replica keys, including the key material, key ID, key spec, key usage, key material origin, and automatic key rotation. It's the only key that can be replicated. You cannot delete the primary key until all replica keys are deleted.
The key ID and primary Region that you specify uniquely identify the replica key that will become the primary key. The primary Region must already have a replica key. This operation does not create a KMS key in the specified Region. To find the replica keys, use the DescribeKey operation on the primary key or any replica key. To create a replica key, use the ReplicateKey operation.
You can run this operation while using the affected multi-Region keys in cryptographic operations. This operation should not delay, interrupt, or cause failures in cryptographic operations.
Even after this operation completes, the process of updating the
primary Region might still be in progress for a few more seconds.
Operations such as DescribeKey
might display both the old and new
primary keys as replicas. The old and new primary keys have a
transient key state of Updating
. The original key state is restored
when the update is complete. While the key state is Updating
, you
can use the keys in cryptographic operations, but you cannot replicate
the new primary key or perform certain management operations, such as
enabling or disabling these keys. For details about the Updating
key
state, see Key states of KMS keys in the Key Management Service
Developer Guide.
This operation does not return any output. To verify that primary key is changed, use the DescribeKey operation.
Cross-account use: No. You cannot use this operation in a different Amazon Web Services account.
Required permissions:
kms:UpdatePrimaryRegion
on the current primary key (in the primary key's Region). Include this permission primary key's key policy.kms:UpdatePrimaryRegion
on the current replica key (in the replica key's Region). Include this permission in the replica key's key policy.
Related operations
CreateKey
ReplicateKey
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 10369 def update_primary_region(params = {}, = {}) req = build_request(:update_primary_region, params) req.send_request() end |
#verify(params = {}) ⇒ Types::VerifyResponse
Verifies a digital signature that was generated by the Sign operation.
Verification confirms that an authorized user signed the message with
the specified KMS key and signing algorithm, and the message hasn't
changed since it was signed. If the signature is verified, the value
of the SignatureValid
field in the response is True
. If the
signature verification fails, the Verify
operation fails with an
KMSInvalidSignatureException
exception.
A digital signature is generated by using the private key in an asymmetric KMS key. The signature is verified by using the public key in the same asymmetric KMS key. For information about asymmetric KMS keys, see Asymmetric KMS keys in the Key Management Service Developer Guide.
To use the Verify
operation, specify the same asymmetric KMS key,
message, and signing algorithm that were used to produce the
signature. The message type does not need to be the same as the one
used for signing, but it must indicate whether the value of the
Message
parameter should be hashed as part of the verification
process.
You can also verify the digital signature by using the public key of
the KMS key outside of KMS. Use the GetPublicKey operation to download
the public key in the asymmetric KMS key and then use the public key
to verify the signature outside of KMS. The advantage of using the
Verify
operation is that it is performed within KMS. As a result,
it's easy to call, the operation is performed within the FIPS
boundary, it is logged in CloudTrail, and you can use key policy and
IAM policy to determine who is authorized to use the KMS key to verify
signatures.
To verify a signature outside of KMS with an SM2 public key (China
Regions only), you must specify the distinguishing ID. By default, KMS
uses 1234567812345678
as the distinguishing ID. For more
information, see Offline verification with SM2 key pairs.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:Verify (key policy)
Related operations: Sign
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 10613 def verify(params = {}, = {}) req = build_request(:verify, params) req.send_request() end |
#verify_mac(params = {}) ⇒ Types::VerifyMacResponse
Verifies the hash-based message authentication code (HMAC) for a
specified message, HMAC KMS key, and MAC algorithm. To verify the
HMAC, VerifyMac
computes an HMAC using the message, HMAC KMS key,
and MAC algorithm that you specify, and compares the computed HMAC to
the HMAC that you specify. If the HMACs are identical, the
verification succeeds; otherwise, it fails. Verification indicates
that the message hasn't changed since the HMAC was calculated, and
the specified key was used to generate and verify the HMAC.
HMAC KMS keys and the HMAC algorithms that KMS uses conform to industry standards defined in RFC 2104.
This operation is part of KMS support for HMAC KMS keys. For details, see HMAC keys in KMS in the Key Management Service Developer Guide.
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide.
Cross-account use: Yes. To perform this operation with a KMS key
in a different Amazon Web Services account, specify the key ARN or
alias ARN in the value of the KeyId
parameter.
Required permissions: kms:VerifyMac (key policy)
Related operations: GenerateMac
Eventual consistency: The KMS API follows an eventual consistency model. For more information, see KMS eventual consistency.
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# File 'gems/aws-sdk-kms/lib/aws-sdk-kms/client.rb', line 10753 def verify_mac(params = {}, = {}) req = build_request(:verify_mac, params) req.send_request() end |