#[non_exhaustive]pub struct CreateSecretInputBuilder { /* private fields */ }
Expand description
A builder for CreateSecretInput
.
Implementations§
source§impl CreateSecretInputBuilder
impl CreateSecretInputBuilder
sourcepub fn name(self, input: impl Into<String>) -> Self
pub fn name(self, input: impl Into<String>) -> Self
The name of the new secret.
The secret name can contain ASCII letters, numbers, and the following characters: /_+=.@-
Do not end your secret name with a hyphen followed by six characters. If you do so, you risk confusion and unexpected results when searching for a secret by partial ARN. Secrets Manager automatically adds a hyphen and six random characters after the secret name at the end of the ARN.
This field is required.sourcepub fn set_name(self, input: Option<String>) -> Self
pub fn set_name(self, input: Option<String>) -> Self
The name of the new secret.
The secret name can contain ASCII letters, numbers, and the following characters: /_+=.@-
Do not end your secret name with a hyphen followed by six characters. If you do so, you risk confusion and unexpected results when searching for a secret by partial ARN. Secrets Manager automatically adds a hyphen and six random characters after the secret name at the end of the ARN.
sourcepub fn get_name(&self) -> &Option<String>
pub fn get_name(&self) -> &Option<String>
The name of the new secret.
The secret name can contain ASCII letters, numbers, and the following characters: /_+=.@-
Do not end your secret name with a hyphen followed by six characters. If you do so, you risk confusion and unexpected results when searching for a secret by partial ARN. Secrets Manager automatically adds a hyphen and six random characters after the secret name at the end of the ARN.
sourcepub fn client_request_token(self, input: impl Into<String>) -> Self
pub fn client_request_token(self, input: impl Into<String>) -> Self
If you include SecretString
or SecretBinary
, then Secrets Manager creates an initial version for the secret, and this parameter specifies the unique identifier for the new version.
If you use the Amazon Web Services CLI or one of the Amazon Web Services SDKs to call this operation, then you can leave this parameter empty. The CLI or SDK generates a random UUID for you and includes it as the value for this parameter in the request.
If you generate a raw HTTP request to the Secrets Manager service endpoint, then you must generate a ClientRequestToken
and include it in the request.
This value helps ensure idempotency. Secrets Manager uses this value to prevent the accidental creation of duplicate versions if there are failures and retries during a rotation. We recommend that you generate a UUID-type value to ensure uniqueness of your versions within the specified secret.
-
If the
ClientRequestToken
value isn't already associated with a version of the secret then a new version of the secret is created. -
If a version with this value already exists and the version
SecretString
andSecretBinary
values are the same as those in the request, then the request is ignored. -
If a version with this value already exists and that version's
SecretString
andSecretBinary
values are different from those in the request, then the request fails because you cannot modify an existing version. Instead, usePutSecretValue
to create a new version.
This value becomes the VersionId
of the new version.
sourcepub fn set_client_request_token(self, input: Option<String>) -> Self
pub fn set_client_request_token(self, input: Option<String>) -> Self
If you include SecretString
or SecretBinary
, then Secrets Manager creates an initial version for the secret, and this parameter specifies the unique identifier for the new version.
If you use the Amazon Web Services CLI or one of the Amazon Web Services SDKs to call this operation, then you can leave this parameter empty. The CLI or SDK generates a random UUID for you and includes it as the value for this parameter in the request.
If you generate a raw HTTP request to the Secrets Manager service endpoint, then you must generate a ClientRequestToken
and include it in the request.
This value helps ensure idempotency. Secrets Manager uses this value to prevent the accidental creation of duplicate versions if there are failures and retries during a rotation. We recommend that you generate a UUID-type value to ensure uniqueness of your versions within the specified secret.
-
If the
ClientRequestToken
value isn't already associated with a version of the secret then a new version of the secret is created. -
If a version with this value already exists and the version
SecretString
andSecretBinary
values are the same as those in the request, then the request is ignored. -
If a version with this value already exists and that version's
SecretString
andSecretBinary
values are different from those in the request, then the request fails because you cannot modify an existing version. Instead, usePutSecretValue
to create a new version.
This value becomes the VersionId
of the new version.
sourcepub fn get_client_request_token(&self) -> &Option<String>
pub fn get_client_request_token(&self) -> &Option<String>
If you include SecretString
or SecretBinary
, then Secrets Manager creates an initial version for the secret, and this parameter specifies the unique identifier for the new version.
If you use the Amazon Web Services CLI or one of the Amazon Web Services SDKs to call this operation, then you can leave this parameter empty. The CLI or SDK generates a random UUID for you and includes it as the value for this parameter in the request.
If you generate a raw HTTP request to the Secrets Manager service endpoint, then you must generate a ClientRequestToken
and include it in the request.
This value helps ensure idempotency. Secrets Manager uses this value to prevent the accidental creation of duplicate versions if there are failures and retries during a rotation. We recommend that you generate a UUID-type value to ensure uniqueness of your versions within the specified secret.
-
If the
ClientRequestToken
value isn't already associated with a version of the secret then a new version of the secret is created. -
If a version with this value already exists and the version
SecretString
andSecretBinary
values are the same as those in the request, then the request is ignored. -
If a version with this value already exists and that version's
SecretString
andSecretBinary
values are different from those in the request, then the request fails because you cannot modify an existing version. Instead, usePutSecretValue
to create a new version.
This value becomes the VersionId
of the new version.
sourcepub fn description(self, input: impl Into<String>) -> Self
pub fn description(self, input: impl Into<String>) -> Self
The description of the secret.
sourcepub fn set_description(self, input: Option<String>) -> Self
pub fn set_description(self, input: Option<String>) -> Self
The description of the secret.
sourcepub fn get_description(&self) -> &Option<String>
pub fn get_description(&self) -> &Option<String>
The description of the secret.
sourcepub fn kms_key_id(self, input: impl Into<String>) -> Self
pub fn kms_key_id(self, input: impl Into<String>) -> Self
The ARN, key ID, or alias of the KMS key that Secrets Manager uses to encrypt the secret value in the secret. An alias is always prefixed by alias/
, for example alias/aws/secretsmanager
. For more information, see About aliases.
To use a KMS key in a different account, use the key ARN or the alias ARN.
If you don't specify this value, then Secrets Manager uses the key aws/secretsmanager
. If that key doesn't yet exist, then Secrets Manager creates it for you automatically the first time it encrypts the secret value.
If the secret is in a different Amazon Web Services account from the credentials calling the API, then you can't use aws/secretsmanager
to encrypt the secret, and you must create and use a customer managed KMS key.
sourcepub fn set_kms_key_id(self, input: Option<String>) -> Self
pub fn set_kms_key_id(self, input: Option<String>) -> Self
The ARN, key ID, or alias of the KMS key that Secrets Manager uses to encrypt the secret value in the secret. An alias is always prefixed by alias/
, for example alias/aws/secretsmanager
. For more information, see About aliases.
To use a KMS key in a different account, use the key ARN or the alias ARN.
If you don't specify this value, then Secrets Manager uses the key aws/secretsmanager
. If that key doesn't yet exist, then Secrets Manager creates it for you automatically the first time it encrypts the secret value.
If the secret is in a different Amazon Web Services account from the credentials calling the API, then you can't use aws/secretsmanager
to encrypt the secret, and you must create and use a customer managed KMS key.
sourcepub fn get_kms_key_id(&self) -> &Option<String>
pub fn get_kms_key_id(&self) -> &Option<String>
The ARN, key ID, or alias of the KMS key that Secrets Manager uses to encrypt the secret value in the secret. An alias is always prefixed by alias/
, for example alias/aws/secretsmanager
. For more information, see About aliases.
To use a KMS key in a different account, use the key ARN or the alias ARN.
If you don't specify this value, then Secrets Manager uses the key aws/secretsmanager
. If that key doesn't yet exist, then Secrets Manager creates it for you automatically the first time it encrypts the secret value.
If the secret is in a different Amazon Web Services account from the credentials calling the API, then you can't use aws/secretsmanager
to encrypt the secret, and you must create and use a customer managed KMS key.
sourcepub fn secret_binary(self, input: Blob) -> Self
pub fn secret_binary(self, input: Blob) -> Self
The binary data to encrypt and store in the new version of the secret. We recommend that you store your binary data in a file and then pass the contents of the file as a parameter.
Either SecretString
or SecretBinary
must have a value, but not both.
This parameter is not available in the Secrets Manager console.
sourcepub fn set_secret_binary(self, input: Option<Blob>) -> Self
pub fn set_secret_binary(self, input: Option<Blob>) -> Self
The binary data to encrypt and store in the new version of the secret. We recommend that you store your binary data in a file and then pass the contents of the file as a parameter.
Either SecretString
or SecretBinary
must have a value, but not both.
This parameter is not available in the Secrets Manager console.
sourcepub fn get_secret_binary(&self) -> &Option<Blob>
pub fn get_secret_binary(&self) -> &Option<Blob>
The binary data to encrypt and store in the new version of the secret. We recommend that you store your binary data in a file and then pass the contents of the file as a parameter.
Either SecretString
or SecretBinary
must have a value, but not both.
This parameter is not available in the Secrets Manager console.
sourcepub fn secret_string(self, input: impl Into<String>) -> Self
pub fn secret_string(self, input: impl Into<String>) -> Self
The text data to encrypt and store in this new version of the secret. We recommend you use a JSON structure of key/value pairs for your secret value.
Either SecretString
or SecretBinary
must have a value, but not both.
If you create a secret by using the Secrets Manager console then Secrets Manager puts the protected secret text in only the SecretString
parameter. The Secrets Manager console stores the information as a JSON structure of key/value pairs that a Lambda rotation function can parse.
sourcepub fn set_secret_string(self, input: Option<String>) -> Self
pub fn set_secret_string(self, input: Option<String>) -> Self
The text data to encrypt and store in this new version of the secret. We recommend you use a JSON structure of key/value pairs for your secret value.
Either SecretString
or SecretBinary
must have a value, but not both.
If you create a secret by using the Secrets Manager console then Secrets Manager puts the protected secret text in only the SecretString
parameter. The Secrets Manager console stores the information as a JSON structure of key/value pairs that a Lambda rotation function can parse.
sourcepub fn get_secret_string(&self) -> &Option<String>
pub fn get_secret_string(&self) -> &Option<String>
The text data to encrypt and store in this new version of the secret. We recommend you use a JSON structure of key/value pairs for your secret value.
Either SecretString
or SecretBinary
must have a value, but not both.
If you create a secret by using the Secrets Manager console then Secrets Manager puts the protected secret text in only the SecretString
parameter. The Secrets Manager console stores the information as a JSON structure of key/value pairs that a Lambda rotation function can parse.
Appends an item to tags
.
To override the contents of this collection use set_tags
.
A list of tags to attach to the secret. Each tag is a key and value pair of strings in a JSON text string, for example:
[{"Key":"CostCenter","Value":"12345"},{"Key":"environment","Value":"production"}]
Secrets Manager tag key names are case sensitive. A tag with the key "ABC" is a different tag from one with key "abc".
If you check tags in permissions policies as part of your security strategy, then adding or removing a tag can change permissions. If the completion of this operation would result in you losing your permissions for this secret, then Secrets Manager blocks the operation and returns an Access Denied
error. For more information, see Control access to secrets using tags and Limit access to identities with tags that match secrets' tags.
For information about how to format a JSON parameter for the various command line tool environments, see Using JSON for Parameters. If your command-line tool or SDK requires quotation marks around the parameter, you should use single quotes to avoid confusion with the double quotes required in the JSON text.
For tag quotas and naming restrictions, see Service quotas for Tagging in the Amazon Web Services General Reference guide.
A list of tags to attach to the secret. Each tag is a key and value pair of strings in a JSON text string, for example:
[{"Key":"CostCenter","Value":"12345"},{"Key":"environment","Value":"production"}]
Secrets Manager tag key names are case sensitive. A tag with the key "ABC" is a different tag from one with key "abc".
If you check tags in permissions policies as part of your security strategy, then adding or removing a tag can change permissions. If the completion of this operation would result in you losing your permissions for this secret, then Secrets Manager blocks the operation and returns an Access Denied
error. For more information, see Control access to secrets using tags and Limit access to identities with tags that match secrets' tags.
For information about how to format a JSON parameter for the various command line tool environments, see Using JSON for Parameters. If your command-line tool or SDK requires quotation marks around the parameter, you should use single quotes to avoid confusion with the double quotes required in the JSON text.
For tag quotas and naming restrictions, see Service quotas for Tagging in the Amazon Web Services General Reference guide.
A list of tags to attach to the secret. Each tag is a key and value pair of strings in a JSON text string, for example:
[{"Key":"CostCenter","Value":"12345"},{"Key":"environment","Value":"production"}]
Secrets Manager tag key names are case sensitive. A tag with the key "ABC" is a different tag from one with key "abc".
If you check tags in permissions policies as part of your security strategy, then adding or removing a tag can change permissions. If the completion of this operation would result in you losing your permissions for this secret, then Secrets Manager blocks the operation and returns an Access Denied
error. For more information, see Control access to secrets using tags and Limit access to identities with tags that match secrets' tags.
For information about how to format a JSON parameter for the various command line tool environments, see Using JSON for Parameters. If your command-line tool or SDK requires quotation marks around the parameter, you should use single quotes to avoid confusion with the double quotes required in the JSON text.
For tag quotas and naming restrictions, see Service quotas for Tagging in the Amazon Web Services General Reference guide.
sourcepub fn add_replica_regions(self, input: ReplicaRegionType) -> Self
pub fn add_replica_regions(self, input: ReplicaRegionType) -> Self
Appends an item to add_replica_regions
.
To override the contents of this collection use set_add_replica_regions
.
A list of Regions and KMS keys to replicate secrets.
sourcepub fn set_add_replica_regions(
self,
input: Option<Vec<ReplicaRegionType>>,
) -> Self
pub fn set_add_replica_regions( self, input: Option<Vec<ReplicaRegionType>>, ) -> Self
A list of Regions and KMS keys to replicate secrets.
sourcepub fn get_add_replica_regions(&self) -> &Option<Vec<ReplicaRegionType>>
pub fn get_add_replica_regions(&self) -> &Option<Vec<ReplicaRegionType>>
A list of Regions and KMS keys to replicate secrets.
sourcepub fn force_overwrite_replica_secret(self, input: bool) -> Self
pub fn force_overwrite_replica_secret(self, input: bool) -> Self
Specifies whether to overwrite a secret with the same name in the destination Region. By default, secrets aren't overwritten.
sourcepub fn set_force_overwrite_replica_secret(self, input: Option<bool>) -> Self
pub fn set_force_overwrite_replica_secret(self, input: Option<bool>) -> Self
Specifies whether to overwrite a secret with the same name in the destination Region. By default, secrets aren't overwritten.
sourcepub fn get_force_overwrite_replica_secret(&self) -> &Option<bool>
pub fn get_force_overwrite_replica_secret(&self) -> &Option<bool>
Specifies whether to overwrite a secret with the same name in the destination Region. By default, secrets aren't overwritten.
sourcepub fn build(self) -> Result<CreateSecretInput, BuildError>
pub fn build(self) -> Result<CreateSecretInput, BuildError>
Consumes the builder and constructs a CreateSecretInput
.
source§impl CreateSecretInputBuilder
impl CreateSecretInputBuilder
sourcepub async fn send_with(
self,
client: &Client,
) -> Result<CreateSecretOutput, SdkError<CreateSecretError, HttpResponse>>
pub async fn send_with( self, client: &Client, ) -> Result<CreateSecretOutput, SdkError<CreateSecretError, HttpResponse>>
Sends a request with this input using the given client.
Trait Implementations§
source§impl Clone for CreateSecretInputBuilder
impl Clone for CreateSecretInputBuilder
source§fn clone(&self) -> CreateSecretInputBuilder
fn clone(&self) -> CreateSecretInputBuilder
1.0.0 · source§fn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
source
. Read moresource§impl Debug for CreateSecretInputBuilder
impl Debug for CreateSecretInputBuilder
source§impl Default for CreateSecretInputBuilder
impl Default for CreateSecretInputBuilder
source§fn default() -> CreateSecretInputBuilder
fn default() -> CreateSecretInputBuilder
source§impl PartialEq for CreateSecretInputBuilder
impl PartialEq for CreateSecretInputBuilder
impl StructuralPartialEq for CreateSecretInputBuilder
Auto Trait Implementations§
impl Freeze for CreateSecretInputBuilder
impl RefUnwindSafe for CreateSecretInputBuilder
impl Send for CreateSecretInputBuilder
impl Sync for CreateSecretInputBuilder
impl Unpin for CreateSecretInputBuilder
impl UnwindSafe for CreateSecretInputBuilder
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
source§impl<T> CloneToUninit for Twhere
T: Clone,
impl<T> CloneToUninit for Twhere
T: Clone,
source§default unsafe fn clone_to_uninit(&self, dst: *mut T)
default unsafe fn clone_to_uninit(&self, dst: *mut T)
clone_to_uninit
)