How Security Lake works with IAM
Before you use IAM to manage access to Security Lake, learn what IAM features are available to use with Security Lake.
| IAM feature | Security Lake support |
|---|---|
|
Yes |
|
|
Yes |
|
|
Yes |
|
|
Yes |
|
|
Yes |
|
|
No |
|
|
Yes |
|
|
Yes |
|
|
Yes |
|
|
No |
|
|
Yes |
To get a high-level view of how Security Lake and other AWS services work with most IAM features, see AWS services that work with IAM in the IAM User Guide.
Identity-based policies for Security Lake
Supports identity-based policies: Yes
Identity-based policies are JSON permissions policy documents that you can attach to an identity, such as an IAM user, group of users, or role. These policies control what actions users and roles can perform, on which resources, and under what conditions. To learn how to create an identity-based policy, see Define custom IAM permissions with customer managed policies in the IAM User Guide.
With IAM identity-based policies, you can specify allowed or denied actions and resources as well as the conditions under which actions are allowed or denied. To learn about all of the elements that you can use in a JSON policy, see IAM JSON policy elements reference in the IAM User Guide.
Security Lake supports identity-based policies. For more information, see Identity-based policy examples for Security Lake.
Resource-based policies within Security Lake
Supports resource-based policies: Yes
Resource-based policies are JSON policy documents that you attach to a resource. Examples of resource-based policies are IAM role trust policies and Amazon S3 bucket policies. In services that support resource-based policies, service administrators can use them to control access to a specific resource. For the resource where the policy is attached, the policy defines what actions a specified principal can perform on that resource and under what conditions. You must specify a principal in a resource-based policy. Principals can include accounts, users, roles, federated users, or AWS services.
To enable cross-account access, you can specify an entire account or IAM entities in another account as the principal in a resource-based policy. For more information, see Cross account resource access in IAM in the IAM User Guide.
The Security Lake service creates resource-based policies for the Amazon S3 buckets that store your data. You don't attach these resource-based policies to your S3 buckets. Security Lake automatically creates these policies on your behalf.
An example resource is an S3 bucket with an Amazon Resource Name (ARN) of
arn:aws:s3:::aws-security-data-lake-{region}-{bucket-identifier}. In
this example, region is a specific AWS Region where you've enabled
Security Lake, and bucket-identifier is a Regionally unique alphanumeric string
that Security Lake assigns to the bucket. Security Lake creates the S3 bucket to store data from
that Region. The resource policy defines which principals can perform actions on the
bucket. Here's a sample resource-based policy (bucket policy) that Security Lake attaches to
the bucket:
To learn more about resource-based policies, see Identity-based policies and resource-based policies in the IAM User Guide.
Policy actions for Security Lake
Supports policy actions: Yes
Administrators can use AWS JSON policies to specify who has access to what. That is, which principal can perform actions on what resources, and under what conditions.
The Action element of a JSON policy describes the
actions that you can use to allow or deny access in a policy. Include actions in a policy to grant permissions to perform the associated operation.
For a list of Security Lake actions, see Actions defined by Amazon Security Lake in the Service Authorization Reference.
Policy actions in Security Lake use the following prefix before the action:
securitylake
For example, to grant a user permission to access information about a specific
subscriber, include the securitylake:GetSubscriber action in the policy
assigned to that user. Policy statements must include either an Action or
NotAction element. Security Lake defines its own set of actions that
describe tasks that you can perform with this service.
To specify multiple actions in a single statement, separate them with commas.
"Action": [ "securitylake:action1", "securitylake:action2" ]
To view examples of Security Lake identity-based policies, see Identity-based policy examples for Security Lake.
Policy resources for Security Lake
Supports policy resources: Yes
Administrators can use AWS JSON policies to specify who has access to what. That is, which principal can perform actions on what resources, and under what conditions.
The Resource JSON policy element specifies the object or objects to which the action applies. As a best practice, specify a resource using its Amazon Resource Name (ARN). For actions that don't support resource-level permissions, use a wildcard (*) to indicate that the statement applies to all resources.
"Resource": "*"
Security Lake defines the following resource types: subscriber, and the data lake configuration for an AWS account in a particular AWS Region. You can specify these types of resources in policies by using ARNs.
For a list of Security Lake resource types and the ARN syntax for each one, see Resource types defined by Amazon Security Lake in the Service Authorization Reference. To learn which actions you can specify for each type of resource, see Actions defined by Amazon Security Lake in the Service Authorization Reference.
To view examples of Security Lake identity-based policies, see Identity-based policy examples for Security Lake.
Policy condition keys for Security Lake
Supports service-specific policy condition keys: Yes
Administrators can use AWS JSON policies to specify who has access to what. That is, which principal can perform actions on what resources, and under what conditions.
The Condition element specifies when statements execute based on defined criteria. You can create conditional expressions that use condition
operators, such as equals or less than, to match the condition in the
policy with values in the request. To see all AWS global
condition keys, see AWS global condition context keys in the
IAM User Guide.
For a list of Security Lake condition keys, see Condition keys for Amazon Security Lake in the Service Authorization Reference. To learn which actions and resources you can use a condition key with, see Actions defined by Amazon Security Lake in the Service Authorization Reference. For examples of policies that use condition keys, see Identity-based policy examples for Security Lake.
Access control lists (ACLs) in Security Lake
Supports ACLs: No
Access control lists (ACLs) control which principals (account members, users, or roles) have permissions to access a resource. ACLs are similar to resource-based policies, although they do not use the JSON policy document format.
Security Lake doesn't support ACLs, which means you can't attach an ACL to a Security Lake resource.
Attribute-based access control (ABAC) with Security Lake
Supports ABAC (tags in policies): Yes
Attribute-based access control (ABAC) is an authorization strategy that defines permissions based on attributes called tags. You can attach tags to IAM entities and AWS resources, then design ABAC policies to allow operations when the principal's tag matches the tag on the resource.
To control access based on tags, you provide tag information in the condition element of a policy using the aws:ResourceTag/,
key-nameaws:RequestTag/, or key-nameaws:TagKeys condition keys.
If a service supports all three condition keys for every resource type, then the value is Yes for the service. If a service supports all three condition keys for only some resource types, then the value is Partial.
For more information about ABAC, see Define permissions with ABAC authorization in the IAM User Guide. To view a tutorial with steps for setting up ABAC, see Use attribute-based access control (ABAC) in the IAM User Guide.
You can attach tags to Security Lake resources—subscribers, and the data lake
configuration for an AWS account in individual AWS Regions. You can also control
access to these types of resources by providing tag information in the
Condition element of a policy. For information about tagging Security Lake
resources, see Tagging Security Lake resources.
For an example of an identity-based policy that controls access to a resource based on
the tags for that resource, see Identity-based policy examples for
Security Lake.
Using temporary credentials with Security Lake
Supports temporary credentials: Yes
Temporary credentials provide short-term access to AWS resources and are automatically created when you use federation or switch roles. AWS recommends that you dynamically generate temporary credentials instead of using long-term access keys. For more information, see Temporary security credentials in IAM and AWS services that work with IAM in the IAM User Guide.
Security Lake supports the use of temporary credentials.
Forward access sessions for Security Lake
Supports forward access sessions (FAS): Yes
Forward access sessions (FAS) use the permissions of the principal calling an AWS service, combined with the requesting AWS service to make requests to downstream services. For policy details when making FAS requests, see Forward access sessions.
Some Security Lake actions require permissions for additional, dependent actions in other AWS services. For a list of these actions, see Actions defined by Amazon Security Lake in the Service Authorization Reference.
Service roles for Security Lake
Supports service roles: No
A service role is an IAM role that a service assumes to perform actions on your behalf. An IAM administrator can create, modify, and delete a service role from within IAM. For more information, see Create a role to delegate permissions to an AWS service in the IAM User Guide.
Security Lake doesn't assume or use service roles. However, related services such as Amazon EventBridge, AWS Lambda, and Amazon S3 assume service roles when you use Security Lake. To perform actions on your behalf, Security Lake uses a service-linked role.
Warning
Changing the permissions for a service role may create operational issues with your use of Security Lake. Edit service roles only when Security Lake provides guidance to do so.
Service-linked roles for Security Lake
Supports service-linked roles: Yes
A service-linked role is a type of service role that is linked to an AWS service. The service can assume the role to perform an action on your behalf. Service-linked roles appear in your AWS account and are owned by the service. An IAM administrator can view, but not edit the permissions for service-linked roles.
Security Lake uses an IAM service-linked role named
AWSServiceRoleForAmazonSecurityLake. The Security Lake service-linked role
grants permissions to operate a security data lake service on behalf of customers. This
service-linked role is an IAM role that's linked directly to Security Lake. It's
predefined by Security Lake, and it includes all the permissions that Security Lake requires to
call other AWS services on your behalf. Security Lake uses this service-linked role in all
the AWS Regions where Security Lake is available.
For details about creating or managing the Security Lake service-linked role, see Using service-linked roles for Security Lake.
