[ aws . wafv2 ]

list-logging-configurations

Description

Retrieves an array of your LoggingConfiguration objects.

See also: AWS API Documentation

Synopsis

  list-logging-configurations
--scope <value>
[--next-marker <value>]
[--limit <value>]
[--log-scope <value>]
[--cli-input-json | --cli-input-yaml]
[--generate-cli-skeleton <value>]
[--debug]
[--endpoint-url <value>]
[--no-verify-ssl]
[--no-paginate]
[--output <value>]
[--query <value>]
[--profile <value>]
[--region <value>]
[--version <value>]
[--color <value>]
[--no-sign-request]
[--ca-bundle <value>]
[--cli-read-timeout <value>]
[--cli-connect-timeout <value>]
[--cli-binary-format <value>]
[--no-cli-pager]
[--cli-auto-prompt]
[--no-cli-auto-prompt]

Options

--scope (string)

Specifies whether this is for an Amazon CloudFront distribution or for a regional application. A regional application can be an Application Load Balancer (ALB), an Amazon API Gateway REST API, an AppSync GraphQL API, an Amazon Cognito user pool, an App Runner service, or an Amazon Web Services Verified Access instance.

To work with CloudFront, you must also specify the Region US East (N. Virginia) as follows:

  • CLI - Specify the Region when you use the CloudFront scope: --scope=CLOUDFRONT --region=us-east-1 .
  • API and SDKs - For all calls, use the Region endpoint us-east-1.

Possible values:

  • CLOUDFRONT
  • REGIONAL

--next-marker (string)

When you request a list of objects with a Limit setting, if the number of objects that are still available for retrieval exceeds the limit, WAF returns a NextMarker value in the response. To retrieve the next batch of objects, provide the marker from the prior call in your next request.

--limit (integer)

The maximum number of objects that you want WAF to return for this request. If more objects are available, in the response, WAF provides a NextMarker value that you can use in a subsequent call to get the next batch of objects.

--log-scope (string)

The owner of the logging configuration, which must be set to CUSTOMER for the configurations that you manage.

The log scope SECURITY_LAKE indicates a configuration that is managed through Amazon Security Lake. You can use Security Lake to collect log and event data from various sources for normalization, analysis, and management. For information, see Collecting data from Amazon Web Services services in the Amazon Security Lake user guide .

Default: CUSTOMER

Possible values:

  • CUSTOMER
  • SECURITY_LAKE

--cli-input-json | --cli-input-yaml (string) Reads arguments from the JSON string provided. The JSON string follows the format provided by --generate-cli-skeleton. If other arguments are provided on the command line, those values will override the JSON-provided values. It is not possible to pass arbitrary binary values using a JSON-provided value as the string will be taken literally. This may not be specified along with --cli-input-yaml.

--generate-cli-skeleton (string) Prints a JSON skeleton to standard output without sending an API request. If provided with no value or the value input, prints a sample input JSON that can be used as an argument for --cli-input-json. Similarly, if provided yaml-input it will print a sample input YAML that can be used with --cli-input-yaml. If provided with the value output, it validates the command inputs and returns a sample output JSON for that command. The generated JSON skeleton is not stable between versions of the AWS CLI and there are no backwards compatibility guarantees in the JSON skeleton generated.

Global Options

--debug (boolean)

Turn on debug logging.

--endpoint-url (string)

Override command’s default URL with the given URL.

--no-verify-ssl (boolean)

By default, the AWS CLI uses SSL when communicating with AWS services. For each SSL connection, the AWS CLI will verify SSL certificates. This option overrides the default behavior of verifying SSL certificates.

--no-paginate (boolean)

Disable automatic pagination. If automatic pagination is disabled, the AWS CLI will only make one call, for the first page of results.

--output (string)

The formatting style for command output.

  • json
  • text
  • table
  • yaml
  • yaml-stream

--query (string)

A JMESPath query to use in filtering the response data.

--profile (string)

Use a specific profile from your credential file.

--region (string)

The region to use. Overrides config/env settings.

--version (string)

Display the version of this tool.

--color (string)

Turn on/off color output.

  • on
  • off
  • auto

--no-sign-request (boolean)

Do not sign requests. Credentials will not be loaded if this argument is provided.

--ca-bundle (string)

The CA certificate bundle to use when verifying SSL certificates. Overrides config/env settings.

--cli-read-timeout (int)

The maximum socket read time in seconds. If the value is set to 0, the socket read will be blocking and not timeout. The default value is 60 seconds.

--cli-connect-timeout (int)

The maximum socket connect time in seconds. If the value is set to 0, the socket connect will be blocking and not timeout. The default value is 60 seconds.

--cli-binary-format (string)

The formatting style to be used for binary blobs. The default format is base64. The base64 format expects binary blobs to be provided as a base64 encoded string. The raw-in-base64-out format preserves compatibility with AWS CLI V1 behavior and binary values must be passed literally. When providing contents from a file that map to a binary blob fileb:// will always be treated as binary and use the file contents directly regardless of the cli-binary-format setting. When using file:// the file contents will need to properly formatted for the configured cli-binary-format.

  • base64
  • raw-in-base64-out

--no-cli-pager (boolean)

Disable cli pager for output.

--cli-auto-prompt (boolean)

Automatically prompt for CLI input parameters.

--no-cli-auto-prompt (boolean)

Disable automatically prompt for CLI input parameters.

Examples

Note

To use the following examples, you must have the AWS CLI installed and configured. See the Getting started guide in the AWS CLI User Guide for more information.

Unless otherwise stated, all examples have unix-like quotation rules. These examples will need to be adapted to your terminal’s quoting rules. See Using quotation marks with strings in the AWS CLI User Guide .

To retrieve a list of all logging configurations for a region

The following list-logging-configurations retrieves the all logging configurations for web ACLs that are scoped for regional use in the us-west-2 region.

aws wafv2 list-logging-configurations \
    --scope REGIONAL \
    --region us-west-2

Output:

{
    "LoggingConfigurations":[
        {
            "ResourceArn":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test-2/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "RedactedFields":[
                {
                    "QueryString":{

                    }
                }
            ],
            "LogDestinationConfigs":[
                "arn:aws:firehose:us-west-2:123456789012:deliverystream/aws-waf-logs-test"
            ]
        },
        {
            "ResourceArn":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "RedactedFields":[
                {
                    "Method":{

                    }
                }
            ],
            "LogDestinationConfigs":[
                "arn:aws:firehose:us-west-2:123456789012:deliverystream/aws-waf-logs-custom-transformation"
            ]
        }
    ]
}

For more information, see Logging Web ACL Traffic Information in the AWS WAF, AWS Firewall Manager, and AWS Shield Advanced Developer Guide.

Output

LoggingConfigurations -> (list)

Array of logging configurations. If you specified a Limit in your request, this might not be the full list.

(structure)

Defines an association between logging destinations and a web ACL resource, for logging from WAF. As part of the association, you can specify parts of the standard logging fields to keep out of the logs and you can specify filters so that you log only a subset of the logging records.

Note

You can define one logging destination per web ACL.

You can access information about the traffic that WAF inspects using the following steps:

  • Create your logging destination. You can use an Amazon CloudWatch Logs log group, an Amazon Simple Storage Service (Amazon S3) bucket, or an Amazon Kinesis Data Firehose. The name that you give the destination must start with aws-waf-logs- . Depending on the type of destination, you might need to configure additional settings or permissions. For configuration requirements and pricing information for each destination type, see Logging web ACL traffic in the WAF Developer Guide .
  • Associate your logging destination to your web ACL using a PutLoggingConfiguration request.

When you successfully enable logging using a PutLoggingConfiguration request, WAF creates an additional role or policy that is required to write logs to the logging destination. For an Amazon CloudWatch Logs log group, WAF creates a resource policy on the log group. For an Amazon S3 bucket, WAF creates a bucket policy. For an Amazon Kinesis Data Firehose, WAF creates a service-linked role.

For additional information about web ACL logging, see Logging web ACL traffic information in the WAF Developer Guide .

ResourceArn -> (string)

The Amazon Resource Name (ARN) of the web ACL that you want to associate with LogDestinationConfigs .

LogDestinationConfigs -> (list)

The logging destination configuration that you want to associate with the web ACL.

Note

You can associate one logging destination to a web ACL.

(string)

RedactedFields -> (list)

The parts of the request that you want to keep out of the logs.

For example, if you redact the SingleHeader field, the HEADER field in the logs will be REDACTED for all rules that use the SingleHeader FieldToMatch setting.

Redaction applies only to the component that’s specified in the rule’s FieldToMatch setting, so the SingleHeader redaction doesn’t apply to rules that use the Headers FieldToMatch .

Note

You can specify only the following fields for redaction: UriPath , QueryString , SingleHeader , and Method .

Note

This setting has no impact on request sampling. With request sampling, the only way to exclude fields is by disabling sampling in the web ACL visibility configuration.

(structure)

Specifies a web request component to be used in a rule match statement or in a logging configuration.

  • In a rule statement, this is the part of the web request that you want WAF to inspect. Include the single FieldToMatch type that you want to inspect, with additional specifications as needed, according to the type. You specify a single request component in FieldToMatch for each rule statement that requires it. To inspect more than one component of the web request, create a separate rule statement for each component. Example JSON for a QueryString field to match: "FieldToMatch": { "QueryString": {} } Example JSON for a Method field to match specification: "FieldToMatch": { "Method": { "Name": "DELETE" } }
  • In a logging configuration, this is used in the RedactedFields property to specify a field to redact from the logging records. For this use case, note the following:
    • Even though all FieldToMatch settings are available, the only valid settings for field redaction are UriPath , QueryString , SingleHeader , and Method .
    • In this documentation, the descriptions of the individual fields talk about specifying the web request component to inspect, but for field redaction, you are specifying the component type to redact from the logs.
    • If you have request sampling enabled, the redacted fields configuration for logging has no impact on sampling. The only way to exclude fields from request sampling is by disabling sampling in the web ACL visibility configuration.

SingleHeader -> (structure)

Inspect a single header. Provide the name of the header to inspect, for example, User-Agent or Referer . This setting isn’t case sensitive.

Example JSON: "SingleHeader": { "Name": "haystack" }

Alternately, you can filter and inspect all headers with the Headers FieldToMatch setting.

Name -> (string)

The name of the query header to inspect.

SingleQueryArgument -> (structure)

Inspect a single query argument. Provide the name of the query argument to inspect, such as UserName or SalesRegion . The name can be up to 30 characters long and isn’t case sensitive.

Example JSON: "SingleQueryArgument": { "Name": "myArgument" }

Name -> (string)

The name of the query argument to inspect.

AllQueryArguments -> (structure)

Inspect all query arguments.

UriPath -> (structure)

Inspect the request URI path. This is the part of the web request that identifies a resource, for example, /images/daily-ad.jpg .

QueryString -> (structure)

Inspect the query string. This is the part of a URL that appears after a ? character, if any.

Body -> (structure)

Inspect the request body as plain text. The request body immediately follows the request headers. This is the part of a request that contains any additional data that you want to send to your web server as the HTTP request body, such as data from a form.

WAF does not support inspecting the entire contents of the web request body if the body exceeds the limit for the resource type. When a web request body is larger than the limit, the underlying host service only forwards the contents that are within the limit to WAF for inspection.

  • For Application Load Balancer and AppSync, the limit is fixed at 8 KB (8,192 bytes).
  • For CloudFront, API Gateway, Amazon Cognito, App Runner, and Verified Access, the default limit is 16 KB (16,384 bytes), and you can increase the limit for each resource type in the web ACL AssociationConfig , for additional processing fees.

For information about how to handle oversized request bodies, see the Body object configuration.

OversizeHandling -> (string)

What WAF should do if the body is larger than WAF can inspect.

WAF does not support inspecting the entire contents of the web request body if the body exceeds the limit for the resource type. When a web request body is larger than the limit, the underlying host service only forwards the contents that are within the limit to WAF for inspection.

  • For Application Load Balancer and AppSync, the limit is fixed at 8 KB (8,192 bytes).
  • For CloudFront, API Gateway, Amazon Cognito, App Runner, and Verified Access, the default limit is 16 KB (16,384 bytes), and you can increase the limit for each resource type in the web ACL AssociationConfig , for additional processing fees.

The options for oversize handling are the following:

  • CONTINUE - Inspect the available body contents normally, according to the rule inspection criteria.
  • MATCH - Treat the web request as matching the rule statement. WAF applies the rule action to the request.
  • NO_MATCH - Treat the web request as not matching the rule statement.

You can combine the MATCH or NO_MATCH settings for oversize handling with your rule and web ACL action settings, so that you block any request whose body is over the limit.

Default: CONTINUE

Method -> (structure)

Inspect the HTTP method. The method indicates the type of operation that the request is asking the origin to perform.

JsonBody -> (structure)

Inspect the request body as JSON. The request body immediately follows the request headers. This is the part of a request that contains any additional data that you want to send to your web server as the HTTP request body, such as data from a form.

WAF does not support inspecting the entire contents of the web request body if the body exceeds the limit for the resource type. When a web request body is larger than the limit, the underlying host service only forwards the contents that are within the limit to WAF for inspection.

  • For Application Load Balancer and AppSync, the limit is fixed at 8 KB (8,192 bytes).
  • For CloudFront, API Gateway, Amazon Cognito, App Runner, and Verified Access, the default limit is 16 KB (16,384 bytes), and you can increase the limit for each resource type in the web ACL AssociationConfig , for additional processing fees.

For information about how to handle oversized request bodies, see the JsonBody object configuration.

MatchPattern -> (structure)

The patterns to look for in the JSON body. WAF inspects the results of these pattern matches against the rule inspection criteria.

All -> (structure)

Match all of the elements. See also MatchScope in JsonBody .

You must specify either this setting or the IncludedPaths setting, but not both.

IncludedPaths -> (list)

Match only the specified include paths. See also MatchScope in JsonBody .

Provide the include paths using JSON Pointer syntax. For example, "IncludedPaths": ["/dogs/0/name", "/dogs/1/name"] . For information about this syntax, see the Internet Engineering Task Force (IETF) documentation JavaScript Object Notation (JSON) Pointer .

You must specify either this setting or the All setting, but not both.

Note

Don’t use this option to include all paths. Instead, use the All setting.

(string)

MatchScope -> (string)

The parts of the JSON to match against using the MatchPattern . If you specify ALL , WAF matches against keys and values.

All does not require a match to be found in the keys and a match to be found in the values. It requires a match to be found in the keys or the values or both. To require a match in the keys and in the values, use a logical AND statement to combine two match rules, one that inspects the keys and another that inspects the values.

InvalidFallbackBehavior -> (string)

What WAF should do if it fails to completely parse the JSON body. The options are the following:

  • EVALUATE_AS_STRING - Inspect the body as plain text. WAF applies the text transformations and inspection criteria that you defined for the JSON inspection to the body text string.
  • MATCH - Treat the web request as matching the rule statement. WAF applies the rule action to the request.
  • NO_MATCH - Treat the web request as not matching the rule statement.

If you don’t provide this setting, WAF parses and evaluates the content only up to the first parsing failure that it encounters.

Note

WAF parsing doesn’t fully validate the input JSON string, so parsing can succeed even for invalid JSON. When parsing succeeds, WAF doesn’t apply the fallback behavior. For more information, see JSON body in the WAF Developer Guide .

OversizeHandling -> (string)

What WAF should do if the body is larger than WAF can inspect.

WAF does not support inspecting the entire contents of the web request body if the body exceeds the limit for the resource type. When a web request body is larger than the limit, the underlying host service only forwards the contents that are within the limit to WAF for inspection.

  • For Application Load Balancer and AppSync, the limit is fixed at 8 KB (8,192 bytes).
  • For CloudFront, API Gateway, Amazon Cognito, App Runner, and Verified Access, the default limit is 16 KB (16,384 bytes), and you can increase the limit for each resource type in the web ACL AssociationConfig , for additional processing fees.

The options for oversize handling are the following:

  • CONTINUE - Inspect the available body contents normally, according to the rule inspection criteria.
  • MATCH - Treat the web request as matching the rule statement. WAF applies the rule action to the request.
  • NO_MATCH - Treat the web request as not matching the rule statement.

You can combine the MATCH or NO_MATCH settings for oversize handling with your rule and web ACL action settings, so that you block any request whose body is over the limit.

Default: CONTINUE

Headers -> (structure)

Inspect the request headers. You must configure scope and pattern matching filters in the Headers object, to define the set of headers to and the parts of the headers that WAF inspects.

Only the first 8 KB (8192 bytes) of a request’s headers and only the first 200 headers are forwarded to WAF for inspection by the underlying host service. You must configure how to handle any oversize header content in the Headers object. WAF applies the pattern matching filters to the headers that it receives from the underlying host service.

MatchPattern -> (structure)

The filter to use to identify the subset of headers to inspect in a web request.

You must specify exactly one setting: either All , IncludedHeaders , or ExcludedHeaders .

Example JSON: "MatchPattern": { "ExcludedHeaders": [ "KeyToExclude1", "KeyToExclude2" ] }

All -> (structure)

Inspect all headers.

IncludedHeaders -> (list)

Inspect only the headers that have a key that matches one of the strings specified here.

(string)

ExcludedHeaders -> (list)

Inspect only the headers whose keys don’t match any of the strings specified here.

(string)

MatchScope -> (string)

The parts of the headers to match with the rule inspection criteria. If you specify ALL , WAF inspects both keys and values.

All does not require a match to be found in the keys and a match to be found in the values. It requires a match to be found in the keys or the values or both. To require a match in the keys and in the values, use a logical AND statement to combine two match rules, one that inspects the keys and another that inspects the values.

OversizeHandling -> (string)

What WAF should do if the headers of the request are more numerous or larger than WAF can inspect. WAF does not support inspecting the entire contents of request headers when they exceed 8 KB (8192 bytes) or 200 total headers. The underlying host service forwards a maximum of 200 headers and at most 8 KB of header contents to WAF.

The options for oversize handling are the following:

  • CONTINUE - Inspect the available headers normally, according to the rule inspection criteria.
  • MATCH - Treat the web request as matching the rule statement. WAF applies the rule action to the request.
  • NO_MATCH - Treat the web request as not matching the rule statement.

Cookies -> (structure)

Inspect the request cookies. You must configure scope and pattern matching filters in the Cookies object, to define the set of cookies and the parts of the cookies that WAF inspects.

Only the first 8 KB (8192 bytes) of a request’s cookies and only the first 200 cookies are forwarded to WAF for inspection by the underlying host service. You must configure how to handle any oversize cookie content in the Cookies object. WAF applies the pattern matching filters to the cookies that it receives from the underlying host service.

MatchPattern -> (structure)

The filter to use to identify the subset of cookies to inspect in a web request.

You must specify exactly one setting: either All , IncludedCookies , or ExcludedCookies .

Example JSON: "MatchPattern": { "IncludedCookies": [ "session-id-time", "session-id" ] }

All -> (structure)

Inspect all cookies.

IncludedCookies -> (list)

Inspect only the cookies that have a key that matches one of the strings specified here.

(string)

ExcludedCookies -> (list)

Inspect only the cookies whose keys don’t match any of the strings specified here.

(string)

MatchScope -> (string)

The parts of the cookies to inspect with the rule inspection criteria. If you specify ALL , WAF inspects both keys and values.

All does not require a match to be found in the keys and a match to be found in the values. It requires a match to be found in the keys or the values or both. To require a match in the keys and in the values, use a logical AND statement to combine two match rules, one that inspects the keys and another that inspects the values.

OversizeHandling -> (string)

What WAF should do if the cookies of the request are more numerous or larger than WAF can inspect. WAF does not support inspecting the entire contents of request cookies when they exceed 8 KB (8192 bytes) or 200 total cookies. The underlying host service forwards a maximum of 200 cookies and at most 8 KB of cookie contents to WAF.

The options for oversize handling are the following:

  • CONTINUE - Inspect the available cookies normally, according to the rule inspection criteria.
  • MATCH - Treat the web request as matching the rule statement. WAF applies the rule action to the request.
  • NO_MATCH - Treat the web request as not matching the rule statement.

HeaderOrder -> (structure)

Inspect a string containing the list of the request’s header names, ordered as they appear in the web request that WAF receives for inspection. WAF generates the string and then uses that as the field to match component in its inspection. WAF separates the header names in the string using colons and no added spaces, for example host:user-agent:accept:authorization:referer .

OversizeHandling -> (string)

What WAF should do if the headers of the request are more numerous or larger than WAF can inspect. WAF does not support inspecting the entire contents of request headers when they exceed 8 KB (8192 bytes) or 200 total headers. The underlying host service forwards a maximum of 200 headers and at most 8 KB of header contents to WAF.

The options for oversize handling are the following:

  • CONTINUE - Inspect the available headers normally, according to the rule inspection criteria.
  • MATCH - Treat the web request as matching the rule statement. WAF applies the rule action to the request.
  • NO_MATCH - Treat the web request as not matching the rule statement.

JA3Fingerprint -> (structure)

Available for use with Amazon CloudFront distributions and Application Load Balancers. Match against the request’s JA3 fingerprint. The JA3 fingerprint is a 32-character hash derived from the TLS Client Hello of an incoming request. This fingerprint serves as a unique identifier for the client’s TLS configuration. WAF calculates and logs this fingerprint for each request that has enough TLS Client Hello information for the calculation. Almost all web requests include this information.

Note

You can use this choice only with a string match ByteMatchStatement with the PositionalConstraint set to EXACTLY .

You can obtain the JA3 fingerprint for client requests from the web ACL logs. If WAF is able to calculate the fingerprint, it includes it in the logs. For information about the logging fields, see Log fields in the WAF Developer Guide .

Provide the JA3 fingerprint string from the logs in your string match statement specification, to match with any future requests that have the same TLS configuration.

FallbackBehavior -> (string)

The match status to assign to the web request if the request doesn’t have a JA3 fingerprint.

You can specify the following fallback behaviors:

  • MATCH - Treat the web request as matching the rule statement. WAF applies the rule action to the request.
  • NO_MATCH - Treat the web request as not matching the rule statement.

ManagedByFirewallManager -> (boolean)

Indicates whether the logging configuration was created by Firewall Manager, as part of an WAF policy configuration. If true, only Firewall Manager can modify or delete the configuration.

The logging configuration can be created by Firewall Manager for use with any web ACL that Firewall Manager is using for an WAF policy. Web ACLs that Firewall Manager creates and uses have their ManagedByFirewallManager property set to true. Web ACLs that were created by a customer account and then retrofitted by Firewall Manager for use by a policy have their RetrofittedByFirewallManager property set to true. For either case, any corresponding logging configuration will indicate ManagedByFirewallManager .

LoggingFilter -> (structure)

Filtering that specifies which web requests are kept in the logs and which are dropped. You can filter on the rule action and on the web request labels that were applied by matching rules during web ACL evaluation.

Filters -> (list)

The filters that you want to apply to the logs.

(structure)

A single logging filter, used in LoggingFilter .

Behavior -> (string)

How to handle logs that satisfy the filter’s conditions and requirement.

Requirement -> (string)

Logic to apply to the filtering conditions. You can specify that, in order to satisfy the filter, a log must match all conditions or must match at least one condition.

Conditions -> (list)

Match conditions for the filter.

(structure)

A single match condition for a Filter .

ActionCondition -> (structure)

A single action condition. This is the action setting that a log record must contain in order to meet the condition.

Action -> (string)

The action setting that a log record must contain in order to meet the condition. This is the action that WAF applied to the web request.

For rule groups, this is either the configured rule action setting, or if you’ve applied a rule action override to the rule, it’s the override action. The value EXCLUDED_AS_COUNT matches on excluded rules and also on rules that have a rule action override of Count.

LabelNameCondition -> (structure)

A single label name condition. This is the fully qualified label name that a log record must contain in order to meet the condition. Fully qualified labels have a prefix, optional namespaces, and label name. The prefix identifies the rule group or web ACL context of the rule that added the label.

LabelName -> (string)

The label name that a log record must contain in order to meet the condition. This must be a fully qualified label name. Fully qualified labels have a prefix, optional namespaces, and label name. The prefix identifies the rule group or web ACL context of the rule that added the label.

DefaultBehavior -> (string)

Default handling for logs that don’t match any of the specified filtering conditions.

LogType -> (string)

Used to distinguish between various logging options. Currently, there is one option.

Default: WAF_LOGS

LogScope -> (string)

The owner of the logging configuration, which must be set to CUSTOMER for the configurations that you manage.

The log scope SECURITY_LAKE indicates a configuration that is managed through Amazon Security Lake. You can use Security Lake to collect log and event data from various sources for normalization, analysis, and management. For information, see Collecting data from Amazon Web Services services in the Amazon Security Lake user guide .

Default: CUSTOMER

NextMarker -> (string)

When you request a list of objects with a Limit setting, if the number of objects that are still available for retrieval exceeds the limit, WAF returns a NextMarker value in the response. To retrieve the next batch of objects, provide the marker from the prior call in your next request.