Amazon Elastic File System Construct Library
AWS CDK v1 has reached End-of-Support on 2023-06-01.
This package is no longer being updated, and users should migrate to AWS CDK v2.
For more information on how to migrate, see the Migrating to AWS CDK v2 guide.
Amazon Elastic File System (Amazon EFS) provides a simple, scalable,
fully managed elastic NFS file system for use with AWS Cloud services and on-premises resources.
Amazon EFS provides file storage in the AWS Cloud. With Amazon EFS, you can create a file system,
mount the file system on an Amazon EC2 instance, and then read and write data to and from your file system.
This module is part of the AWS Cloud Development Kit project.
File Systems
Amazon EFS provides elastic, shared file storage that is POSIX-compliant. The file system you create
supports concurrent read and write access from multiple Amazon EC2 instances and is accessible from
all of the Availability Zones in the AWS Region where it is created. Learn more about EFS file systems
Create an Amazon EFS file system
A Virtual Private Cloud (VPC) is required to create an Amazon EFS file system.
The following example creates a file system that is encrypted at rest, running in General Purpose
performance mode, and Bursting
throughput mode and does not transition files to the Infrequent
Access (IA) storage class.
const fileSystem = new efs.FileSystem(this, 'MyEfsFileSystem', {
vpc: new ec2.Vpc(this, 'VPC'),
lifecyclePolicy: efs.LifecyclePolicy.AFTER_14_DAYS,
performanceMode: efs.PerformanceMode.GENERAL_PURPOSE,
outOfInfrequentAccessPolicy: efs.OutOfInfrequentAccessPolicy.AFTER_1_ACCESS,
});
⚠️ An Amazon EFS file system's performance mode can't be changed after the file system has been created.
Updating this property will replace the file system.
Any file system that has been created outside the stack can be imported into your CDK app.
Use the fromFileSystemAttributes()
API to import an existing file system.
Here is an example of giving a role write permissions on a file system.
import * as iam from '@aws-cdk/aws-iam';
const importedFileSystem = efs.FileSystem.fromFileSystemAttributes(this, 'existingFS', {
fileSystemId: 'fs-12345678',
securityGroup: ec2.SecurityGroup.fromSecurityGroupId(this, 'SG', 'sg-123456789', {
allowAllOutbound: false,
}),
});
Permissions
If you need to grant file system permissions to another resource, you can use the .grant()
API.
As an example, the following code gives elasticfilesystem:ClientWrite
permissions to an IAM role.
const role = new iam.Role(this, 'Role', {
assumedBy: new iam.AnyPrincipal(),
});
fileSystem.grant(role, 'elasticfilesystem:ClientWrite');
Access Point
An access point is an application-specific view into an EFS file system that applies an operating
system user and group, and a file system path, to any file system request made through the access
point. The operating system user and group override any identity information provided by the NFS
client. The file system path is exposed as the access point's root directory. Applications using
the access point can only access data in its own directory and below. To learn more, see Mounting a File System Using EFS Access Points.
Use the addAccessPoint
API to create an access point from a fileSystem.
fileSystem.addAccessPoint('AccessPoint');
By default, when you create an access point, the root(/
) directory is exposed to the client
connecting to the access point. You can specify a custom path with the path
property.
If path
does not exist, it will be created with the settings defined in the creationInfo
.
See Creating Access Points for more details.
Any access point that has been created outside the stack can be imported into your CDK app.
Use the fromAccessPointAttributes()
API to import an existing access point.
efs.AccessPoint.fromAccessPointAttributes(this, 'ap', {
accessPointId: 'fsap-1293c4d9832fo0912',
fileSystem: efs.FileSystem.fromFileSystemAttributes(this, 'efs', {
fileSystemId: 'fs-099d3e2f',
securityGroup: ec2.SecurityGroup.fromSecurityGroupId(this, 'sg', 'sg-51530134'),
}),
});
⚠️ Notice: When importing an Access Point using fromAccessPointAttributes()
, you must make sure
the mount targets are deployed and their lifecycle state is available
. Otherwise, you may encounter
the following error when deploying:
EFS file system <ARN of efs> referenced by access point <ARN of access point of EFS> has
mount targets created in all availability zones the function will execute in, but not all
are in the available life cycle state yet. Please wait for them to become available and
try the request again.
Connecting
To control who can access the EFS, use the .connections
attribute. EFS has
a fixed default port, so you don't need to specify the port:
fileSystem.connections.allowDefaultPortFrom(instance);
Learn more about managing file system network accessibility
Mounting the file system using User Data
After you create a file system, you can create mount targets. Then you can mount the file system on
EC2 instances, containers, and Lambda functions in your virtual private cloud (VPC).
The following example automatically mounts a file system during instance launch.
fileSystem.connections.allowDefaultPortFrom(instance);
instance.userData.addCommands("yum check-update -y",
"yum upgrade -y",
"yum install -y amazon-efs-utils",
"yum install -y nfs-utils",
"file_system_id_1=" + fileSystem.fileSystemId,
"efs_mount_point_1=/mnt/efs/fs1",
"mkdir -p \"${efs_mount_point_1}\"",
"test -f \"/sbin/mount.efs\" && echo \"${file_system_id_1}:/ ${efs_mount_point_1} efs defaults,_netdev\" >> /etc/fstab || " +
"echo \"${file_system_id_1}.efs." + Stack.of(this).region + ".amazonaws.com:/ ${efs_mount_point_1} nfs4 nfsvers=4.1,rsize=1048576,wsize=1048576,hard,timeo=600,retrans=2,noresvport,_netdev 0 0\" >> /etc/fstab",
"mount -a -t efs,nfs4 defaults");
Learn more about mounting EFS file systems
Deleting
Since file systems are stateful resources, by default the file system will not be deleted when your
stack is deleted.
You can configure the file system to be destroyed on stack deletion by setting a removalPolicy
const fileSystem = new efs.FileSystem(this, 'EfsFileSystem', {
vpc: new ec2.Vpc(this, 'VPC'),
removalPolicy: RemovalPolicy.DESTROY,
});