AWS Foundational Security Best Practices v1.0.0 (FSBP) standard
The AWS Foundational Security Best Practices standard is a set of controls that detect when your AWS accounts and resources deviate from security best practices.
The standard lets you continuously evaluate all of your AWS accounts and workloads to quickly identify areas of deviation from best practices. It provides actionable and prescriptive guidance about how to improve and maintain your organization’s security posture.
The controls include security best practices for resources from multiple AWS services. Each control is also assigned a category that reflects the security function that it applies to. For more information, see List of control categories in Security Hub.
Controls that apply to the FSBP standard
[Account.1] Security contact information should be provided for an AWS account
[ACM.1] Imported and ACM-issued certificates should be renewed after a specified time period
[ACM.2] RSA certificates managed by ACM should use a key length of at least 2,048 bits
[APIGateway.1] API Gateway REST and WebSocket API execution logging should be enabled
[APIGateway.3] API Gateway REST API stages should have AWS X-Ray tracing enabled
[APIGateway.4] API Gateway should be associated with a WAF Web ACL
[APIGateway.5] API Gateway REST API cache data should be encrypted at rest
[APIGateway.8] API Gateway routes should specify an authorization type
[APIGateway.9] Access logging should be configured for API Gateway V2 Stages
[AppSync.1] AWS AppSync API caches should be encrypted at rest
[AppSync.2] AWS AppSync should have field-level logging enabled
[AppSync.5] AWS AppSync GraphQL APIs should not be authenticated with API keys
[AppSync.6] AWS AppSync API caches should be encrypted in transit
[Athena.4] Athena workgroups should have logging enabled
[AutoScaling.1] Auto Scaling groups associated with a load balancer should use ELB health checks
[AutoScaling.2] Amazon EC2 Auto Scaling group should cover multiple Availability Zones
[AutoScaling.9] Amazon EC2 Auto Scaling groups should use Amazon EC2 launch templates
[Backup.1] AWS Backup recovery points should be encrypted at rest
[CloudFront.1] CloudFront distributions should have a default root object configured
[CloudFront.3] CloudFront distributions should require encryption in transit
[CloudFront.4] CloudFront distributions should have origin failover configured
[CloudFront.5] CloudFront distributions should have logging enabled
[CloudFront.6] CloudFront distributions should have WAF enabled
[CloudFront.7] CloudFront distributions should use custom SSL/TLS certificates
[CloudFront.8] CloudFront distributions should use SNI to serve HTTPS requests
[CloudFront.9] CloudFront distributions should encrypt traffic to custom origins
[CloudFront.12] CloudFront distributions should not point to non-existent S3 origins
[CloudFront.13] CloudFront distributions should use origin access control
[CloudTrail.2] CloudTrail should have encryption at-rest enabled
[CloudTrail.4] CloudTrail log file validation should be enabled
[CloudTrail.5] CloudTrail trails should be integrated with Amazon CloudWatch Logs
[CodeBuild.1] CodeBuild Bitbucket source repository URLs should not contain sensitive credentials
[CodeBuild.2] CodeBuild project environment variables should not contain clear text credentials
[CodeBuild.3] CodeBuild S3 logs should be encrypted
[CodeBuild.4] CodeBuild project environments should have a logging AWS Configuration
[CodeBuild.7] CodeBuild report group exports should be encrypted at rest
[Config.1] AWS Config should be enabled and use the service-linked role for resource recording
[DataFirehose.1] Firehose delivery streams should be encrypted at rest
[DataSync.1] DataSync tasks should have logging enabled
[DMS.1] Database Migration Service replication instances should not be public
[DMS.6] DMS replication instances should have automatic minor version upgrade enabled
[DMS.7] DMS replication tasks for the target database should have logging enabled
[DMS.8] DMS replication tasks for the source database should have logging enabled
[DMS.9] DMS endpoints should use SSL
[DMS.10] DMS endpoints for Neptune databases should have IAM authorization enabled
[DMS.11] DMS endpoints for MongoDB should have an authentication mechanism enabled
[DMS.12] DMS endpoints for Redis OSS should have TLS enabled
[DocumentDB.1] Amazon DocumentDB clusters should be encrypted at rest
[DocumentDB.2] Amazon DocumentDB clusters should have an adequate backup retention period
[DocumentDB.3] Amazon DocumentDB manual cluster snapshots should not be public
[DocumentDB.4] Amazon DocumentDB clusters should publish audit logs to CloudWatch Logs
[DocumentDB.5] Amazon DocumentDB clusters should have deletion protection enabled
[DynamoDB.1] DynamoDB tables should automatically scale capacity with demand
[DynamoDB.2] DynamoDB tables should have point-in-time recovery enabled
[DynamoDB.3] DynamoDB Accelerator (DAX) clusters should be encrypted at rest
[DynamoDB.6] DynamoDB tables should have deletion protection enabled
[DynamoDB.7] DynamoDB Accelerator clusters should be encrypted in transit
[EC2.1] Amazon EBS snapshots should not be publicly restorable
[EC2.2] VPC default security groups should not allow inbound or outbound traffic
[EC2.3] Attached Amazon EBS volumes should be encrypted at-rest
[EC2.4] Stopped EC2 instances should be removed after a specified time period
[EC2.6] VPC flow logging should be enabled in all VPCs
[EC2.7] EBS default encryption should be enabled
[EC2.8] EC2 instances should use Instance Metadata Service Version 2 (IMDSv2)
[EC2.9] Amazon EC2 instances should not have a public IPv4 address
[EC2.15] Amazon EC2 subnets should not automatically assign public IP addresses
[EC2.16] Unused Network Access Control Lists should be removed
[EC2.17] Amazon EC2 instances should not use multiple ENIs
[EC2.18] Security groups should only allow unrestricted incoming traffic for authorized ports
[EC2.19] Security groups should not allow unrestricted access to ports with high risk
[EC2.20] Both VPN tunnels for an AWS Site-to-Site VPN connection should be up
[EC2.21] Network ACLs should not allow ingress from 0.0.0.0/0 to port 22 or port 3389
[EC2.23] Amazon EC2 Transit Gateways should not automatically accept VPC attachment requests
[EC2.24] Amazon EC2 paravirtual instance types should not be used
[EC2.25] Amazon EC2 launch templates should not assign public IPs to network interfaces
[EC2.51] EC2 Client VPN endpoints should have client connection logging enabled
[EC2.55] VPCs should be configured with an interface endpoint for ECR API
[EC2.56] VPCs should be configured with an interface endpoint for Docker Registry
[EC2.57] VPCs should be configured with an interface endpoint for Systems Manager
[EC2.60] VPCs should be configured with an interface endpoint for Systems Manager Incident Manager
[EC2.170] EC2 launch templates should use Instance Metadata Service Version 2 (IMDSv2)
[EC2.171] EC2 VPN connections should have logging enabled
[ECR.1] ECR private repositories should have image scanning configured
[ECR.2] ECR private repositories should have tag immutability configured
[ECR.3] ECR repositories should have at least one lifecycle policy configured
[ECS.1] Amazon ECS task definitions should have secure networking modes and user definitions.
[ECS.2] ECS services should not have public IP addresses assigned to them automatically
[ECS.3] ECS task definitions should not share the host's process namespace
[ECS.4] ECS containers should run as non-privileged
[ECS.5] ECS containers should be limited to read-only access to root filesystems
[ECS.8] Secrets should not be passed as container environment variables
[ECS.9] ECS task definitions should have a logging configuration
[ECS.10] ECS Fargate services should run on the latest Fargate platform version
[ECS.12] ECS clusters should use Container Insights
[ECS.16] ECS task sets should not automatically assign public IP addresses
[EFS.1] Elastic File System should be configured to encrypt file data at-rest using AWS KMS
[EFS.2] Amazon EFS volumes should be in backup plans
[EFS.3] EFS access points should enforce a root directory
[EFS.4] EFS access points should enforce a user identity
[EFS.6] EFS mount targets should not be associated with a public subnet
[EFS.7] EFS file systems should have automatic backups enabled
[EFS.8] EFS file systems should be encrypted at rest
[EKS.1] EKS cluster endpoints should not be publicly accessible
[EKS.2] EKS clusters should run on a supported Kubernetes version
[EKS.3] EKS clusters should use encrypted Kubernetes secrets
[EKS.8] EKS clusters should have audit logging enabled
[ElastiCache.1] ElastiCache (Redis OSS) clusters should have automatic backups enabled
[ElastiCache.2] ElastiCache clusters should have automatic minor version upgrades enabled
[ElastiCache.3] ElastiCache replication groups should have automatic failover enabled
[ElastiCache.4] ElastiCache replication groups should be encrypted at rest
[ElastiCache.5] ElastiCache replication groups should be encrypted in transit
[ElastiCache.7] ElastiCache clusters should not use the default subnet group
[ElasticBeanstalk.1] Elastic Beanstalk environments should have enhanced health reporting enabled
[ElasticBeanstalk.2] Elastic Beanstalk managed platform updates should be enabled
[ElasticBeanstalk.3] Elastic Beanstalk should stream logs to CloudWatch
[ELB.1] Application Load Balancer should be configured to redirect all HTTP requests to HTTPS
[ELB.3] Classic Load Balancer listeners should be configured with HTTPS or TLS termination
[ELB.4] Application Load Balancer should be configured to drop invalid http headers
[ELB.5] Application and Classic Load Balancers logging should be enabled
[ELB.6] Application, Gateway, and Network Load Balancers should have deletion protection enabled
[ELB.7] Classic Load Balancers should have connection draining enabled
[ELB.9] Classic Load Balancers should have cross-zone load balancing enabled
[ELB.10] Classic Load Balancer should span multiple Availability Zones
[ELB.13] Application, Network and Gateway Load Balancers should span multiple Availability Zones
[EMR.1] Amazon EMR cluster primary nodes should not have public IP addresses
[EMR.2] Amazon EMR block public access setting should be enabled
[ES.1] Elasticsearch domains should have encryption at-rest enabled
[ES.2] Elasticsearch domains should not be publicly accessible
[ES.3] Elasticsearch domains should encrypt data sent between nodes
[ES.4] Elasticsearch domain error logging to CloudWatch Logs should be enabled
[ES.5] Elasticsearch domains should have audit logging enabled
[ES.6] Elasticsearch domains should have at least three data nodes
[ES.7] Elasticsearch domains should be configured with at least three dedicated master nodes
[ES.8] Connections to Elasticsearch domains should be encrypted using the latest TLS security policy
[EventBridge.3] EventBridge custom event buses should have a resource-based policy attached
[FSx.1] FSx for OpenZFS file systems should be configured to copy tags to backups and volumes
[FSx.2] FSx for Lustre file systems should be configured to copy tags to backups
[Glue.2] AWS Glue jobs should have logging enabled
[Glue.3] AWS Glue machine learning transforms should be encrypted at rest
[GuardDuty.1] GuardDuty should be enabled
[GuardDuty.5] GuardDuty EKS Audit Log Monitoring should be enabled
[GuardDuty.6] GuardDuty Lambda Protection should be enabled
[GuardDuty.7] GuardDuty EKS Runtime Monitoring should be enabled
[GuardDuty.8] GuardDuty Malware Protection for EC2 should be enabled
[GuardDuty.9] GuardDuty RDS Protection should be enabled
[GuardDuty.10] GuardDuty S3 Protection should be enabled
[IAM.1] IAM policies should not allow full "*" administrative privileges
[IAM.2] IAM users should not have IAM policies attached
[IAM.3] IAM users' access keys should be rotated every 90 days or less
[IAM.4] IAM root user access key should not exist
[IAM.5] MFA should be enabled for all IAM users that have a console password
[IAM.6] Hardware MFA should be enabled for the root user
[IAM.7] Password policies for IAM users should have strong configurations
[IAM.8] Unused IAM user credentials should be removed
[Inspector.1] Amazon Inspector EC2 scanning should be enabled
[Inspector.2] Amazon Inspector ECR scanning should be enabled
[Inspector.3] Amazon Inspector Lambda code scanning should be enabled
[Inspector.4] Amazon Inspector Lambda standard scanning should be enabled
[Kinesis.1] Kinesis streams should be encrypted at rest
[Kinesis.3] Kinesis streams should have an adequate data retention period
[KMS.1] IAM customer managed policies should not allow decryption actions on all KMS keys
[KMS.3] AWS KMS keys should not be deleted unintentionally
[KMS.5] KMS keys should not be publicly accessible
[Lambda.1] Lambda function policies should prohibit public access
[Lambda.2] Lambda functions should use supported runtimes
[Lambda.5] VPC Lambda functions should operate in multiple Availability Zones
[Macie.1] Amazon Macie should be enabled
[Macie.2] Macie automated sensitive data discovery should be enabled
[MQ.2] ActiveMQ brokers should stream audit logs to CloudWatch
[MQ.3] Amazon MQ brokers should have automatic minor version upgrade enabled
[MSK.1] MSK clusters should be encrypted in transit among broker nodes
[MSK.3] MSK Connect connectors should be encrypted in transit
[Neptune.1] Neptune DB clusters should be encrypted at rest
[Neptune.2] Neptune DB clusters should publish audit logs to CloudWatch Logs
[Neptune.3] Neptune DB cluster snapshots should not be public
[Neptune.4] Neptune DB clusters should have deletion protection enabled
[Neptune.5] Neptune DB clusters should have automated backups enabled
[Neptune.6] Neptune DB cluster snapshots should be encrypted at rest
[Neptune.7] Neptune DB clusters should have IAM database authentication enabled
[Neptune.8] Neptune DB clusters should be configured to copy tags to snapshots
[NetworkFirewall.2] Network Firewall logging should be enabled
[NetworkFirewall.3] Network Firewall policies should have at least one rule group associated
[NetworkFirewall.6] Stateless Network Firewall rule group should not be empty
[NetworkFirewall.9] Network Firewall firewalls should have deletion protection enabled
[Opensearch.1] OpenSearch domains should have encryption at rest enabled
[Opensearch.2] OpenSearch domains should not be publicly accessible
[Opensearch.3] OpenSearch domains should encrypt data sent between nodes
[Opensearch.4] OpenSearch domain error logging to CloudWatch Logs should be enabled
[Opensearch.5] OpenSearch domains should have audit logging enabled
[Opensearch.6] OpenSearch domains should have at least three data nodes
[Opensearch.7] OpenSearch domains should have fine-grained access control enabled
[Opensearch.10] OpenSearch domains should have the latest software update installed
[PCA.1] AWS Private CA root certificate authority should be disabled
[Route53.2] Route 53 public hosted zones should log DNS queries
[RDS.1] RDS snapshot should be private
[RDS.3] RDS DB instances should have encryption at-rest enabled
[RDS.4] RDS cluster snapshots and database snapshots should be encrypted at rest
[RDS.5] RDS DB instances should be configured with multiple Availability Zones
[RDS.6] Enhanced monitoring should be configured for RDS DB instances
[RDS.7] RDS clusters should have deletion protection enabled
[RDS.8] RDS DB instances should have deletion protection enabled
[RDS.9] RDS DB instances should publish logs to CloudWatch Logs
[RDS.10] IAM authentication should be configured for RDS instances
[RDS.11] RDS instances should have automatic backups enabled
[RDS.12] IAM authentication should be configured for RDS clusters
[RDS.13] RDS automatic minor version upgrades should be enabled
[RDS.14] Amazon Aurora clusters should have backtracking enabled
[RDS.15] RDS DB clusters should be configured for multiple Availability Zones
[RDS.16] RDS DB clusters should be configured to copy tags to snapshots
[RDS.17] RDS DB instances should be configured to copy tags to snapshots
[RDS.18] RDS instances should be deployed in a VPC
[RDS.23] RDS instances should not use a database engine default port
[RDS.24] RDS Database clusters should use a custom administrator username
[RDS.25] RDS database instances should use a custom administrator username
[RDS.27] RDS DB clusters should be encrypted at rest
[RDS.34] Aurora MySQL DB clusters should publish audit logs to CloudWatch Logs
[RDS.35] RDS DB clusters should have automatic minor version upgrade enabled
[RDS.36] RDS for PostgreSQL DB instances should publish logs to CloudWatch Logs
[RDS.37] Aurora PostgreSQL DB clusters should publish logs to CloudWatch Logs
[Redshift.1] Amazon Redshift clusters should prohibit public access
[Redshift.2] Connections to Amazon Redshift clusters should be encrypted in transit
[Redshift.3] Amazon Redshift clusters should have automatic snapshots enabled
[Redshift.4] Amazon Redshift clusters should have audit logging enabled
[Redshift.6] Amazon Redshift should have automatic upgrades to major versions enabled
[Redshift.7] Redshift clusters should use enhanced VPC routing
[Redshift.8] Amazon Redshift clusters should not use the default Admin username
[Redshift.9] Redshift clusters should not use the default database name
[Redshift.10] Redshift clusters should be encrypted at rest
[S3.1] S3 general purpose buckets should have block public access settings enabled
[S3.2] S3 general purpose buckets should block public read access
[S3.3] S3 general purpose buckets should block public write access
[S3.5] S3 general purpose buckets should require requests to use SSL
[S3.6] S3 general purpose bucket policies should restrict access to other AWS accounts
[S3.8] S3 general purpose buckets should block public access
[S3.9] S3 general purpose buckets should have server access logging enabled
[S3.12] ACLs should not be used to manage user access to S3 general purpose buckets
[S3.13] S3 general purpose buckets should have Lifecycle configurations
[S3.19] S3 access points should have block public access settings enabled
[S3.24] S3 Multi-Region Access Points should have block public access settings enabled
[SageMaker.1] Amazon SageMaker AI notebook instances should not have direct internet access
[SageMaker.2] SageMaker AI notebook instances should be launched in a custom VPC
[SageMaker.3] Users should not have root access to SageMaker AI notebook instances
[SecretsManager.1] Secrets Manager secrets should have automatic rotation enabled
[SecretsManager.3] Remove unused Secrets Manager secrets
[SecretsManager.4] Secrets Manager secrets should be rotated within a specified number of days
[ServiceCatalog.1] Service Catalog portfolios should be shared within an AWS organization only
[SNS.4] SNS topic access policies should not allow public access
[SQS.1] Amazon SQS queues should be encrypted at rest
[SSM.1] Amazon EC2 instances should be managed by AWS Systems Manager
[SSM.4] SSM documents should not be public
[StepFunctions.1] Step Functions state machines should have logging turned on
[Transfer.2] Transfer Family servers should not use FTP protocol for endpoint connection
[WAF.1] AWS WAF Classic Global Web ACL logging should be enabled
[WAF.2] AWS WAF Classic Regional rules should have at least one condition
[WAF.3] AWS WAF Classic Regional rule groups should have at least one rule
[WAF.4] AWS WAF Classic Regional web ACLs should have at least one rule or rule group
[WAF.6] AWS WAF Classic global rules should have at least one condition
[WAF.7] AWS WAF Classic global rule groups should have at least one rule
[WAF.8] AWS WAF Classic global web ACLs should have at least one rule or rule group
[WAF.10] AWS WAF web ACLs should have at least one rule or rule group
[WAF.12] AWS WAF rules should have CloudWatch metrics enabled
[WorkSpaces.1] WorkSpaces user volumes should be encrypted at rest
[WorkSpaces.2] WorkSpaces root volumes should be encrypted at rest