Class: Aws::EFS::Client

Inherits:
Seahorse::Client::Base show all
Includes:
ClientStubs
Defined in:
gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb

Overview

An API client for EFS. To construct a client, you need to configure a :region and :credentials.

client = Aws::EFS::Client.new(
  region: region_name,
  credentials: credentials,
  # ...
)

For details on configuring region and credentials see the developer guide.

See #initialize for a full list of supported configuration options.

Instance Attribute Summary

Attributes inherited from Seahorse::Client::Base

#config, #handlers

API Operations collapse

Instance Method Summary collapse

Methods included from ClientStubs

#api_requests, #stub_data, #stub_responses

Methods inherited from Seahorse::Client::Base

add_plugin, api, clear_plugins, define, new, #operation_names, plugins, remove_plugin, set_api, set_plugins

Methods included from Seahorse::Client::HandlerBuilder

#handle, #handle_request, #handle_response

Constructor Details

#initialize(options) ⇒ Client

Returns a new instance of Client.

Parameters:

  • options (Hash)

Options Hash (options):

  • :plugins (Array<Seahorse::Client::Plugin>) — default: []]

    A list of plugins to apply to the client. Each plugin is either a class name or an instance of a plugin class.

  • :credentials (required, Aws::CredentialProvider)

    Your AWS credentials. This can be an instance of any one of the following classes:

    • Aws::Credentials - Used for configuring static, non-refreshing credentials.

    • Aws::SharedCredentials - Used for loading static credentials from a shared file, such as ~/.aws/config.

    • Aws::AssumeRoleCredentials - Used when you need to assume a role.

    • Aws::AssumeRoleWebIdentityCredentials - Used when you need to assume a role after providing credentials via the web.

    • Aws::SSOCredentials - Used for loading credentials from AWS SSO using an access token generated from aws login.

    • Aws::ProcessCredentials - Used for loading credentials from a process that outputs to stdout.

    • Aws::InstanceProfileCredentials - Used for loading credentials from an EC2 IMDS on an EC2 instance.

    • Aws::ECSCredentials - Used for loading credentials from instances running in ECS.

    • Aws::CognitoIdentityCredentials - Used for loading credentials from the Cognito Identity service.

    When :credentials are not configured directly, the following locations will be searched for credentials:

    • Aws.config[:credentials]
    • The :access_key_id, :secret_access_key, :session_token, and :account_id options.
    • ENV['AWS_ACCESS_KEY_ID'], ENV['AWS_SECRET_ACCESS_KEY'], ENV['AWS_SESSION_TOKEN'], and ENV['AWS_ACCOUNT_ID']
    • ~/.aws/credentials
    • ~/.aws/config
    • EC2/ECS IMDS instance profile - When used by default, the timeouts are very aggressive. Construct and pass an instance of Aws::InstanceProfileCredentials or Aws::ECSCredentials to enable retries and extended timeouts. Instance profile credential fetching can be disabled by setting ENV['AWS_EC2_METADATA_DISABLED'] to true.
  • :region (required, String)

    The AWS region to connect to. The configured :region is used to determine the service :endpoint. When not passed, a default :region is searched for in the following locations:

    • Aws.config[:region]
    • ENV['AWS_REGION']
    • ENV['AMAZON_REGION']
    • ENV['AWS_DEFAULT_REGION']
    • ~/.aws/credentials
    • ~/.aws/config
  • :access_key_id (String)
  • :account_id (String)
  • :active_endpoint_cache (Boolean) — default: false

    When set to true, a thread polling for endpoints will be running in the background every 60 secs (default). Defaults to false.

  • :adaptive_retry_wait_to_fill (Boolean) — default: true

    Used only in adaptive retry mode. When true, the request will sleep until there is sufficent client side capacity to retry the request. When false, the request will raise a RetryCapacityNotAvailableError and will not retry instead of sleeping.

  • :client_side_monitoring (Boolean) — default: false

    When true, client-side metrics will be collected for all API requests from this client.

  • :client_side_monitoring_client_id (String) — default: ""

    Allows you to provide an identifier for this client which will be attached to all generated client side metrics. Defaults to an empty string.

  • :client_side_monitoring_host (String) — default: "127.0.0.1"

    Allows you to specify the DNS hostname or IPv4 or IPv6 address that the client side monitoring agent is running on, where client metrics will be published via UDP.

  • :client_side_monitoring_port (Integer) — default: 31000

    Required for publishing client metrics. The port that the client side monitoring agent is running on, where client metrics will be published via UDP.

  • :client_side_monitoring_publisher (Aws::ClientSideMonitoring::Publisher) — default: Aws::ClientSideMonitoring::Publisher

    Allows you to provide a custom client-side monitoring publisher class. By default, will use the Client Side Monitoring Agent Publisher.

  • :convert_params (Boolean) — default: true

    When true, an attempt is made to coerce request parameters into the required types.

  • :correct_clock_skew (Boolean) — default: true

    Used only in standard and adaptive retry modes. Specifies whether to apply a clock skew correction and retry requests with skewed client clocks.

  • :defaults_mode (String) — default: "legacy"

    See DefaultsModeConfiguration for a list of the accepted modes and the configuration defaults that are included.

  • :disable_host_prefix_injection (Boolean) — default: false

    Set to true to disable SDK automatically adding host prefix to default service endpoint when available.

  • :disable_request_compression (Boolean) — default: false

    When set to 'true' the request body will not be compressed for supported operations.

  • :endpoint (String, URI::HTTPS, URI::HTTP)

    Normally you should not configure the :endpoint option directly. This is normally constructed from the :region option. Configuring :endpoint is normally reserved for connecting to test or custom endpoints. The endpoint should be a URI formatted like:

    'http://example.com'
    'https://example.com'
    'http://example.com:123'
    
  • :endpoint_cache_max_entries (Integer) — default: 1000

    Used for the maximum size limit of the LRU cache storing endpoints data for endpoint discovery enabled operations. Defaults to 1000.

  • :endpoint_cache_max_threads (Integer) — default: 10

    Used for the maximum threads in use for polling endpoints to be cached, defaults to 10.

  • :endpoint_cache_poll_interval (Integer) — default: 60

    When :endpoint_discovery and :active_endpoint_cache is enabled, Use this option to config the time interval in seconds for making requests fetching endpoints information. Defaults to 60 sec.

  • :endpoint_discovery (Boolean) — default: false

    When set to true, endpoint discovery will be enabled for operations when available.

  • :ignore_configured_endpoint_urls (Boolean)

    Setting to true disables use of endpoint URLs provided via environment variables and the shared configuration file.

  • :log_formatter (Aws::Log::Formatter) — default: Aws::Log::Formatter.default

    The log formatter.

  • :log_level (Symbol) — default: :info

    The log level to send messages to the :logger at.

  • :logger (Logger)

    The Logger instance to send log messages to. If this option is not set, logging will be disabled.

  • :max_attempts (Integer) — default: 3

    An integer representing the maximum number attempts that will be made for a single request, including the initial attempt. For example, setting this value to 5 will result in a request being retried up to 4 times. Used in standard and adaptive retry modes.

  • :profile (String) — default: "default"

    Used when loading credentials from the shared credentials file at HOME/.aws/credentials. When not specified, 'default' is used.

  • :request_min_compression_size_bytes (Integer) — default: 10240

    The minimum size in bytes that triggers compression for request bodies. The value must be non-negative integer value between 0 and 10485780 bytes inclusive.

  • :retry_backoff (Proc)

    A proc or lambda used for backoff. Defaults to 2**retries * retry_base_delay. This option is only used in the legacy retry mode.

  • :retry_base_delay (Float) — default: 0.3

    The base delay in seconds used by the default backoff function. This option is only used in the legacy retry mode.

  • :retry_jitter (Symbol) — default: :none

    A delay randomiser function used by the default backoff function. Some predefined functions can be referenced by name - :none, :equal, :full, otherwise a Proc that takes and returns a number. This option is only used in the legacy retry mode.

    @see https://www.awsarchitectureblog.com/2015/03/backoff.html

  • :retry_limit (Integer) — default: 3

    The maximum number of times to retry failed requests. Only ~ 500 level server errors and certain ~ 400 level client errors are retried. Generally, these are throttling errors, data checksum errors, networking errors, timeout errors, auth errors, endpoint discovery, and errors from expired credentials. This option is only used in the legacy retry mode.

  • :retry_max_delay (Integer) — default: 0

    The maximum number of seconds to delay between retries (0 for no limit) used by the default backoff function. This option is only used in the legacy retry mode.

  • :retry_mode (String) — default: "legacy"

    Specifies which retry algorithm to use. Values are:

    • legacy - The pre-existing retry behavior. This is default value if no retry mode is provided.

    • standard - A standardized set of retry rules across the AWS SDKs. This includes support for retry quotas, which limit the number of unsuccessful retries a client can make.

    • adaptive - An experimental retry mode that includes all the functionality of standard mode along with automatic client side throttling. This is a provisional mode that may change behavior in the future.

  • :sdk_ua_app_id (String)

    A unique and opaque application ID that is appended to the User-Agent header as app/sdk_ua_app_id. It should have a maximum length of 50. This variable is sourced from environment variable AWS_SDK_UA_APP_ID or the shared config profile attribute sdk_ua_app_id.

  • :secret_access_key (String)
  • :session_token (String)
  • :sigv4a_signing_region_set (Array)

    A list of regions that should be signed with SigV4a signing. When not passed, a default :sigv4a_signing_region_set is searched for in the following locations:

    • Aws.config[:sigv4a_signing_region_set]
    • ENV['AWS_SIGV4A_SIGNING_REGION_SET']
    • ~/.aws/config
  • :stub_responses (Boolean) — default: false

    Causes the client to return stubbed responses. By default fake responses are generated and returned. You can specify the response data to return or errors to raise by calling ClientStubs#stub_responses. See ClientStubs for more information.

    Please note When response stubbing is enabled, no HTTP requests are made, and retries are disabled.

  • :telemetry_provider (Aws::Telemetry::TelemetryProviderBase) — default: Aws::Telemetry::NoOpTelemetryProvider

    Allows you to provide a telemetry provider, which is used to emit telemetry data. By default, uses NoOpTelemetryProvider which will not record or emit any telemetry data. The SDK supports the following telemetry providers:

    • OpenTelemetry (OTel) - To use the OTel provider, install and require the opentelemetry-sdk gem and then, pass in an instance of a Aws::Telemetry::OTelProvider for telemetry provider.
  • :token_provider (Aws::TokenProvider)

    A Bearer Token Provider. This can be an instance of any one of the following classes:

    • Aws::StaticTokenProvider - Used for configuring static, non-refreshing tokens.

    • Aws::SSOTokenProvider - Used for loading tokens from AWS SSO using an access token generated from aws login.

    When :token_provider is not configured directly, the Aws::TokenProviderChain will be used to search for tokens configured for your profile in shared configuration files.

  • :use_dualstack_endpoint (Boolean)

    When set to true, dualstack enabled endpoints (with .aws TLD) will be used if available.

  • :use_fips_endpoint (Boolean)

    When set to true, fips compatible endpoints will be used if available. When a fips region is used, the region is normalized and this config is set to true.

  • :validate_params (Boolean) — default: true

    When true, request parameters are validated before sending the request.

  • :endpoint_provider (Aws::EFS::EndpointProvider)

    The endpoint provider used to resolve endpoints. Any object that responds to #resolve_endpoint(parameters) where parameters is a Struct similar to Aws::EFS::EndpointParameters.

  • :http_continue_timeout (Float) — default: 1

    The number of seconds to wait for a 100-continue response before sending the request body. This option has no effect unless the request has "Expect" header set to "100-continue". Defaults to nil which disables this behaviour. This value can safely be set per request on the session.

  • :http_idle_timeout (Float) — default: 5

    The number of seconds a connection is allowed to sit idle before it is considered stale. Stale connections are closed and removed from the pool before making a request.

  • :http_open_timeout (Float) — default: 15

    The default number of seconds to wait for response data. This value can safely be set per-request on the session.

  • :http_proxy (URI::HTTP, String)

    A proxy to send requests through. Formatted like 'http://proxy.com:123'.

  • :http_read_timeout (Float) — default: 60

    The default number of seconds to wait for response data. This value can safely be set per-request on the session.

  • :http_wire_trace (Boolean) — default: false

    When true, HTTP debug output will be sent to the :logger.

  • :on_chunk_received (Proc)

    When a Proc object is provided, it will be used as callback when each chunk of the response body is received. It provides three arguments: the chunk, the number of bytes received, and the total number of bytes in the response (or nil if the server did not send a content-length).

  • :on_chunk_sent (Proc)

    When a Proc object is provided, it will be used as callback when each chunk of the request body is sent. It provides three arguments: the chunk, the number of bytes read from the body, and the total number of bytes in the body.

  • :raise_response_errors (Boolean) — default: true

    When true, response errors are raised.

  • :ssl_ca_bundle (String)

    Full path to the SSL certificate authority bundle file that should be used when verifying peer certificates. If you do not pass :ssl_ca_bundle or :ssl_ca_directory the the system default will be used if available.

  • :ssl_ca_directory (String)

    Full path of the directory that contains the unbundled SSL certificate authority files for verifying peer certificates. If you do not pass :ssl_ca_bundle or :ssl_ca_directory the the system default will be used if available.

  • :ssl_ca_store (String)

    Sets the X509::Store to verify peer certificate.

  • :ssl_cert (OpenSSL::X509::Certificate)

    Sets a client certificate when creating http connections.

  • :ssl_key (OpenSSL::PKey)

    Sets a client key when creating http connections.

  • :ssl_timeout (Float)

    Sets the SSL timeout in seconds

  • :ssl_verify_peer (Boolean) — default: true

    When true, SSL peer certificates are verified when establishing a connection.



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 444

def initialize(*args)
  super
end

Instance Method Details

#create_access_point(params = {}) ⇒ Types::AccessPointDescription

Creates an EFS 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 the application's own directory and any subdirectories. To learn more, see Mounting a file system using EFS access points.

If multiple requests to create access points on the same file system are sent in quick succession, and the file system is near the limit of 1,000 access points, you may experience a throttling response for these requests. This is to ensure that the file system does not exceed the stated access point limit.

This operation requires permissions for the elasticfilesystem:CreateAccessPoint action.

Access points can be tagged on creation. If tags are specified in the creation action, IAM performs additional authorization on the elasticfilesystem:TagResource action to verify if users have permissions to create tags. Therefore, you must grant explicit permissions to use the elasticfilesystem:TagResource action. For more information, see Granting permissions to tag resources during creation.

Examples:

Request syntax with placeholder values


resp = client.create_access_point({
  client_token: "ClientToken", # required
  tags: [
    {
      key: "TagKey", # required
      value: "TagValue", # required
    },
  ],
  file_system_id: "FileSystemId", # required
  posix_user: {
    uid: 1, # required
    gid: 1, # required
    secondary_gids: [1],
  },
  root_directory: {
    path: "Path",
    creation_info: {
      owner_uid: 1, # required
      owner_gid: 1, # required
      permissions: "Permissions", # required
    },
  },
})

Response structure


resp.client_token #=> String
resp.name #=> String
resp.tags #=> Array
resp.tags[0].key #=> String
resp.tags[0].value #=> String
resp.access_point_id #=> String
resp.access_point_arn #=> String
resp.file_system_id #=> String
resp.posix_user.uid #=> Integer
resp.posix_user.gid #=> Integer
resp.posix_user.secondary_gids #=> Array
resp.posix_user.secondary_gids[0] #=> Integer
resp.root_directory.path #=> String
resp.root_directory.creation_info.owner_uid #=> Integer
resp.root_directory.creation_info.owner_gid #=> Integer
resp.root_directory.creation_info.permissions #=> String
resp.owner_id #=> String
resp.life_cycle_state #=> String, one of "creating", "available", "updating", "deleting", "deleted", "error"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :client_token (required, String)

    A string of up to 64 ASCII characters that Amazon EFS uses to ensure idempotent creation.

    A suitable default value is auto-generated. You should normally not need to pass this option.**

  • :tags (Array<Types::Tag>)

    Creates tags associated with the access point. Each tag is a key-value pair, each key must be unique. For more information, see Tagging Amazon Web Services resources in the Amazon Web Services General Reference Guide.

  • :file_system_id (required, String)

    The ID of the EFS file system that the access point provides access to.

  • :posix_user (Types::PosixUser)

    The operating system user and group applied to all file system requests made using the access point.

  • :root_directory (Types::RootDirectory)

    Specifies the directory on the EFS file system that the access point exposes as the root directory of your file system to NFS clients using the access point. The clients using the access point can only access the root directory and below. If the RootDirectory > Path specified does not exist, Amazon EFS creates it and applies the CreationInfo settings when a client connects to an access point. When specifying a RootDirectory, you must provide the Path, and the CreationInfo.

    Amazon EFS creates a root directory only if you have provided the CreationInfo: OwnUid, OwnGID, and permissions for the directory. If you do not provide this information, Amazon EFS does not create the root directory. If the root directory does not exist, attempts to mount using the access point will fail.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 589

def create_access_point(params = {}, options = {})
  req = build_request(:create_access_point, params)
  req.send_request(options)
end

#create_file_system(params = {}) ⇒ Types::FileSystemDescription

Creates a new, empty file system. The operation requires a creation token in the request that Amazon EFS uses to ensure idempotent creation (calling the operation with same creation token has no effect). If a file system does not currently exist that is owned by the caller's Amazon Web Services account with the specified creation token, this operation does the following:

  • Creates a new, empty file system. The file system will have an Amazon EFS assigned ID, and an initial lifecycle state creating.

  • Returns with the description of the created file system.

Otherwise, this operation returns a FileSystemAlreadyExists error with the ID of the existing file system.

For basic use cases, you can use a randomly generated UUID for the creation token.

The idempotent operation allows you to retry a CreateFileSystem call without risk of creating an extra file system. This can happen when an initial call fails in a way that leaves it uncertain whether or not a file system was actually created. An example might be that a transport level timeout occurred or your connection was reset. As long as you use the same creation token, if the initial call had succeeded in creating a file system, the client can learn of its existence from the FileSystemAlreadyExists error.

For more information, see Creating a file system in the Amazon EFS User Guide.

The CreateFileSystem call returns while the file system's lifecycle state is still creating. You can check the file system creation status by calling the DescribeFileSystems operation, which among other things returns the file system state.

This operation accepts an optional PerformanceMode parameter that you choose for your file system. We recommend generalPurpose performance mode for all file systems. File systems using the maxIO mode is a previous generation performance type that is designed for highly parallelized workloads that can tolerate higher latencies than the General Purpose mode. Max I/O mode is not supported for One Zone file systems or file systems that use Elastic throughput.

Due to the higher per-operation latencies with Max I/O, we recommend using General Purpose performance mode for all file systems.

The performance mode can't be changed after the file system has been created. For more information, see Amazon EFS performance modes.

You can set the throughput mode for the file system using the ThroughputMode parameter.

After the file system is fully created, Amazon EFS sets its lifecycle state to available, at which point you can create one or more mount targets for the file system in your VPC. For more information, see CreateMountTarget. You mount your Amazon EFS file system on an EC2 instances in your VPC by using the mount target. For more information, see Amazon EFS: How it Works.

This operation requires permissions for the elasticfilesystem:CreateFileSystem action.

File systems can be tagged on creation. If tags are specified in the creation action, IAM performs additional authorization on the elasticfilesystem:TagResource action to verify if users have permissions to create tags. Therefore, you must grant explicit permissions to use the elasticfilesystem:TagResource action. For more information, see Granting permissions to tag resources during creation.

Examples:

Example: To create a new file system


# This operation creates a new, encrypted file system with automatic backups enabled, and the default generalpurpose
# performance mode.

resp = client.create_file_system({
  backup: true, 
  creation_token: "tokenstring", 
  encrypted: true, 
  performance_mode: "generalPurpose", 
  tags: [
    {
      key: "Name", 
      value: "MyFileSystem", 
    }, 
  ], 
})

resp.to_h outputs the following:
{
  creation_time: Time.parse("1481841524.0"), 
  creation_token: "tokenstring", 
  encrypted: true, 
  file_system_id: "fs-01234567", 
  life_cycle_state: "creating", 
  number_of_mount_targets: 0, 
  owner_id: "012345678912", 
  performance_mode: "generalPurpose", 
  size_in_bytes: {
    value: 0, 
  }, 
  tags: [
    {
      key: "Name", 
      value: "MyFileSystem", 
    }, 
  ], 
}

Request syntax with placeholder values


resp = client.create_file_system({
  creation_token: "CreationToken", # required
  performance_mode: "generalPurpose", # accepts generalPurpose, maxIO
  encrypted: false,
  kms_key_id: "KmsKeyId",
  throughput_mode: "bursting", # accepts bursting, provisioned, elastic
  provisioned_throughput_in_mibps: 1.0,
  availability_zone_name: "AvailabilityZoneName",
  backup: false,
  tags: [
    {
      key: "TagKey", # required
      value: "TagValue", # required
    },
  ],
})

Response structure


resp.owner_id #=> String
resp.creation_token #=> String
resp.file_system_id #=> String
resp.file_system_arn #=> String
resp.creation_time #=> Time
resp.life_cycle_state #=> String, one of "creating", "available", "updating", "deleting", "deleted", "error"
resp.name #=> String
resp.number_of_mount_targets #=> Integer
resp.size_in_bytes.value #=> Integer
resp.size_in_bytes.timestamp #=> Time
resp.size_in_bytes.value_in_ia #=> Integer
resp.size_in_bytes.value_in_standard #=> Integer
resp.size_in_bytes.value_in_archive #=> Integer
resp.performance_mode #=> String, one of "generalPurpose", "maxIO"
resp.encrypted #=> Boolean
resp.kms_key_id #=> String
resp.throughput_mode #=> String, one of "bursting", "provisioned", "elastic"
resp.provisioned_throughput_in_mibps #=> Float
resp.availability_zone_name #=> String
resp.availability_zone_id #=> String
resp.tags #=> Array
resp.tags[0].key #=> String
resp.tags[0].value #=> String
resp.file_system_protection.replication_overwrite_protection #=> String, one of "ENABLED", "DISABLED", "REPLICATING"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :creation_token (required, String)

    A string of up to 64 ASCII characters. Amazon EFS uses this to ensure idempotent creation.

    A suitable default value is auto-generated. You should normally not need to pass this option.**

  • :performance_mode (String)

    The Performance mode of the file system. We recommend generalPurpose performance mode for all file systems. File systems using the maxIO performance mode can scale to higher levels of aggregate throughput and operations per second with a tradeoff of slightly higher latencies for most file operations. The performance mode can't be changed after the file system has been created. The maxIO mode is not supported on One Zone file systems.

    Due to the higher per-operation latencies with Max I/O, we recommend using General Purpose performance mode for all file systems.

    Default is generalPurpose.

  • :encrypted (Boolean)

    A Boolean value that, if true, creates an encrypted file system. When creating an encrypted file system, you have the option of specifying an existing Key Management Service key (KMS key). If you don't specify a KMS key, then the default KMS key for Amazon EFS, /aws/elasticfilesystem, is used to protect the encrypted file system.

  • :kms_key_id (String)

    The ID of the KMS key that you want to use to protect the encrypted file system. This parameter is required only if you want to use a non-default KMS key. If this parameter is not specified, the default KMS key for Amazon EFS is used. You can specify a KMS key ID using the following formats:

    • Key ID - A unique identifier of the key, for example 1234abcd-12ab-34cd-56ef-1234567890ab.

    • ARN - An Amazon Resource Name (ARN) for the key, for example arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab.

    • Key alias - A previously created display name for a key, for example alias/projectKey1.

    • Key alias ARN - An ARN for a key alias, for example arn:aws:kms:us-west-2:444455556666:alias/projectKey1.

    If you use KmsKeyId, you must set the CreateFileSystemRequest$Encrypted parameter to true.

    EFS accepts only symmetric KMS keys. You cannot use asymmetric KMS keys with Amazon EFS file systems.

  • :throughput_mode (String)

    Specifies the throughput mode for the file system. The mode can be bursting, provisioned, or elastic. If you set ThroughputMode to provisioned, you must also set a value for ProvisionedThroughputInMibps. After you create the file system, you can decrease your file system's Provisioned throughput or change between the throughput modes, with certain time restrictions. For more information, see Specifying throughput with provisioned mode in the Amazon EFS User Guide.

    Default is bursting.

  • :provisioned_throughput_in_mibps (Float)

    The throughput, measured in mebibytes per second (MiBps), that you want to provision for a file system that you're creating. Required if ThroughputMode is set to provisioned. Valid values are 1-3414 MiBps, with the upper limit depending on Region. To increase this limit, contact Amazon Web Services Support. For more information, see Amazon EFS quotas that you can increase in the Amazon EFS User Guide.

  • :availability_zone_name (String)

    Used to create a One Zone file system. It specifies the Amazon Web Services Availability Zone in which to create the file system. Use the format us-east-1a to specify the Availability Zone. For more information about One Zone file systems, see Using EFS storage classes in the Amazon EFS User Guide.

    One Zone file systems are not available in all Availability Zones in Amazon Web Services Regions where Amazon EFS is available.

  • :backup (Boolean)

    Specifies whether automatic backups are enabled on the file system that you are creating. Set the value to true to enable automatic backups. If you are creating a One Zone file system, automatic backups are enabled by default. For more information, see Automatic backups in the Amazon EFS User Guide.

    Default is false. However, if you specify an AvailabilityZoneName, the default is true.

    Backup is not available in all Amazon Web Services Regions where Amazon EFS is available.

  • :tags (Array<Types::Tag>)

    Use to create one or more tags associated with the file system. Each tag is a user-defined key-value pair. Name your file system on creation by including a "Key":"Name","Value":"{value}" key-value pair. Each key must be unique. For more information, see Tagging Amazon Web Services resources in the Amazon Web Services General Reference Guide.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 916

def create_file_system(params = {}, options = {})
  req = build_request(:create_file_system, params)
  req.send_request(options)
end

#create_mount_target(params = {}) ⇒ Types::MountTargetDescription

Creates a mount target for a file system. You can then mount the file system on EC2 instances by using the mount target.

You can create one mount target in each Availability Zone in your VPC. All EC2 instances in a VPC within a given Availability Zone share a single mount target for a given file system. If you have multiple subnets in an Availability Zone, you create a mount target in one of the subnets. EC2 instances do not need to be in the same subnet as the mount target in order to access their file system.

You can create only one mount target for a One Zone file system. You must create that mount target in the same Availability Zone in which the file system is located. Use the AvailabilityZoneName and AvailabiltyZoneId properties in the DescribeFileSystems response object to get this information. Use the subnetId associated with the file system's Availability Zone when creating the mount target.

For more information, see Amazon EFS: How it Works.

To create a mount target for a file system, the file system's lifecycle state must be available. For more information, see DescribeFileSystems.

In the request, provide the following:

  • The file system ID for which you are creating the mount target.

  • A subnet ID, which determines the following:

    • The VPC in which Amazon EFS creates the mount target

    • The Availability Zone in which Amazon EFS creates the mount target

    • The IP address range from which Amazon EFS selects the IP address of the mount target (if you don't specify an IP address in the request)

After creating the mount target, Amazon EFS returns a response that includes, a MountTargetId and an IpAddress. You use this IP address when mounting the file system in an EC2 instance. You can also use the mount target's DNS name when mounting the file system. The EC2 instance on which you mount the file system by using the mount target can resolve the mount target's DNS name to its IP address. For more information, see How it Works: Implementation Overview.

Note that you can create mount targets for a file system in only one VPC, and there can be only one mount target per Availability Zone. That is, if the file system already has one or more mount targets created for it, the subnet specified in the request to add another mount target must meet the following requirements:

  • Must belong to the same VPC as the subnets of the existing mount targets

  • Must not be in the same Availability Zone as any of the subnets of the existing mount targets

If the request satisfies the requirements, Amazon EFS does the following:

  • Creates a new mount target in the specified subnet.

  • Also creates a new network interface in the subnet as follows:

    • If the request provides an IpAddress, Amazon EFS assigns that IP address to the network interface. Otherwise, Amazon EFS assigns a free address in the subnet (in the same way that the Amazon EC2 CreateNetworkInterface call does when a request does not specify a primary private IP address).

    • If the request provides SecurityGroups, this network interface is associated with those security groups. Otherwise, it belongs to the default security group for the subnet's VPC.

    • Assigns the description Mount target fsmt-id for file system fs-id where fsmt-id is the mount target ID, and fs-id is the FileSystemId.

    • Sets the requesterManaged property of the network interface to true, and the requesterId value to EFS. Each Amazon EFS mount target has one corresponding requester-managed EC2 network interface. After the network interface is created, Amazon EFS sets the NetworkInterfaceId field in the mount target's description to the network interface ID, and the IpAddress field to its address. If network interface creation fails, the entire CreateMountTarget operation fails.

The CreateMountTarget call returns only after creating the network interface, but while the mount target state is still creating, you can check the mount target creation status by calling the DescribeMountTargets operation, which among other things returns the mount target state.

We recommend that you create a mount target in each of the Availability Zones. There are cost considerations for using a file system in an Availability Zone through a mount target created in another Availability Zone. For more information, see Amazon EFS. In addition, by always using a mount target local to the instance's Availability Zone, you eliminate a partial failure scenario. If the Availability Zone in which your mount target is created goes down, then you can't access your file system through that mount target.

This operation requires permissions for the following action on the file system:

  • elasticfilesystem:CreateMountTarget

^

This operation also requires permissions for the following Amazon EC2 actions:

  • ec2:DescribeSubnets

  • ec2:DescribeNetworkInterfaces

  • ec2:CreateNetworkInterface

Examples:

Example: To create a new mount target


# This operation creates a new mount target for an EFS file system.

resp = client.create_mount_target({
  file_system_id: "fs-01234567", 
  subnet_id: "subnet-1234abcd", 
})

resp.to_h outputs the following:
{
  file_system_id: "fs-01234567", 
  ip_address: "192.0.0.2", 
  life_cycle_state: "creating", 
  mount_target_id: "fsmt-12340abc", 
  network_interface_id: "eni-cedf6789", 
  owner_id: "012345678912", 
  subnet_id: "subnet-1234abcd", 
}

Request syntax with placeholder values


resp = client.create_mount_target({
  file_system_id: "FileSystemId", # required
  subnet_id: "SubnetId", # required
  ip_address: "IpAddress",
  security_groups: ["SecurityGroup"],
})

Response structure


resp.owner_id #=> String
resp.mount_target_id #=> String
resp.file_system_id #=> String
resp.subnet_id #=> String
resp.life_cycle_state #=> String, one of "creating", "available", "updating", "deleting", "deleted", "error"
resp.ip_address #=> String
resp.network_interface_id #=> String
resp.availability_zone_id #=> String
resp.availability_zone_name #=> String
resp.vpc_id #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the file system for which to create the mount target.

  • :subnet_id (required, String)

    The ID of the subnet to add the mount target in. For One Zone file systems, use the subnet that is associated with the file system's Availability Zone.

  • :ip_address (String)

    Valid IPv4 address within the address range of the specified subnet.

  • :security_groups (Array<String>)

    Up to five VPC security group IDs, of the form sg-xxxxxxxx. These must be for the same VPC as subnet specified.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1122

def create_mount_target(params = {}, options = {})
  req = build_request(:create_mount_target, params)
  req.send_request(options)
end

#create_replication_configuration(params = {}) ⇒ Types::ReplicationConfigurationDescription

Creates a replication configuration that replicates an existing EFS file system to a new, read-only file system. For more information, see Amazon EFS replication in the Amazon EFS User Guide. The replication configuration specifies the following:

  • Source file system – The EFS file system that you want replicated. The source file system cannot be a destination file system in an existing replication configuration.

  • Amazon Web Services Region – The Amazon Web Services Region in which the destination file system is created. Amazon EFS replication is available in all Amazon Web Services Regions in which EFS is available. The Region must be enabled. For more information, see Managing Amazon Web Services Regions in the Amazon Web Services General Reference Reference Guide.

  • Destination file system configuration – The configuration of the destination file system to which the source file system will be replicated. There can only be one destination file system in a replication configuration.

    Parameters for the replication configuration include:

    • File system ID – The ID of the destination file system for the replication. If no ID is provided, then EFS creates a new file system with the default settings. For existing file systems, the file system's replication overwrite protection must be disabled. For more information, see Replicating to an existing file system.

    • Availability Zone – If you want the destination file system to use One Zone storage, you must specify the Availability Zone to create the file system in. For more information, see EFS file system types in the Amazon EFS User Guide.

    • Encryption – All destination file systems are created with encryption at rest enabled. You can specify the Key Management Service (KMS) key that is used to encrypt the destination file system. If you don't specify a KMS key, your service-managed KMS key for Amazon EFS is used.

      After the file system is created, you cannot change the KMS key.

After the file system is created, you cannot change the KMS key.

For new destination file systems, the following properties are set by default:

  • Performance mode - The destination file system's performance mode matches that of the source file system, unless the destination file system uses EFS One Zone storage. In that case, the General Purpose performance mode is used. The performance mode cannot be changed.

  • Throughput mode - The destination file system's throughput mode matches that of the source file system. After the file system is created, you can modify the throughput mode. ^

  • Lifecycle management – Lifecycle management is not enabled on the destination file system. After the destination file system is created, you can enable lifecycle management.

  • Automatic backups – Automatic daily backups are enabled on the destination file system. After the file system is created, you can change this setting.

For more information, see Amazon EFS replication in the Amazon EFS User Guide.

Examples:

Request syntax with placeholder values


resp = client.create_replication_configuration({
  source_file_system_id: "FileSystemId", # required
  destinations: [ # required
    {
      region: "RegionName",
      availability_zone_name: "AvailabilityZoneName",
      kms_key_id: "KmsKeyId",
      file_system_id: "FileSystemId",
    },
  ],
})

Response structure


resp.source_file_system_id #=> String
resp.source_file_system_region #=> String
resp.source_file_system_arn #=> String
resp.original_source_file_system_arn #=> String
resp.creation_time #=> Time
resp.destinations #=> Array
resp.destinations[0].status #=> String, one of "ENABLED", "ENABLING", "DELETING", "ERROR", "PAUSED", "PAUSING"
resp.destinations[0].file_system_id #=> String
resp.destinations[0].region #=> String
resp.destinations[0].last_replicated_timestamp #=> Time

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :source_file_system_id (required, String)

    Specifies the Amazon EFS file system that you want to replicate. This file system cannot already be a source or destination file system in another replication configuration.

  • :destinations (required, Array<Types::DestinationToCreate>)

    An array of destination configuration objects. Only one destination configuration object is supported.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1257

def create_replication_configuration(params = {}, options = {})
  req = build_request(:create_replication_configuration, params)
  req.send_request(options)
end

#create_tags(params = {}) ⇒ Struct

DEPRECATED - CreateTags is deprecated and not maintained. To create tags for EFS resources, use the API action.

Creates or overwrites tags associated with a file system. Each tag is a key-value pair. If a tag key specified in the request already exists on the file system, this operation overwrites its value with the value provided in the request. If you add the Name tag to your file system, Amazon EFS returns it in the response to the DescribeFileSystems operation.

This operation requires permission for the elasticfilesystem:CreateTags action.

Examples:

Example: To create a new tag


# This operation creates a new tag for an EFS file system.

resp = client.create_tags({
  file_system_id: "fs-01234567", 
  tags: [
    {
      key: "Name", 
      value: "MyFileSystem", 
    }, 
  ], 
})

Request syntax with placeholder values


resp = client.create_tags({
  file_system_id: "FileSystemId", # required
  tags: [ # required
    {
      key: "TagKey", # required
      value: "TagValue", # required
    },
  ],
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the file system whose tags you want to modify (String). This operation modifies the tags only, not the file system.

  • :tags (required, Array<Types::Tag>)

    An array of Tag objects to add. Each Tag object is a key-value pair.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1318

def create_tags(params = {}, options = {})
  req = build_request(:create_tags, params)
  req.send_request(options)
end

#delete_access_point(params = {}) ⇒ Struct

Deletes the specified access point. After deletion is complete, new clients can no longer connect to the access points. Clients connected to the access point at the time of deletion will continue to function until they terminate their connection.

This operation requires permissions for the elasticfilesystem:DeleteAccessPoint action.

Examples:

Request syntax with placeholder values


resp = client.delete_access_point({
  access_point_id: "AccessPointId", # required
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :access_point_id (required, String)

    The ID of the access point that you want to delete.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1346

def delete_access_point(params = {}, options = {})
  req = build_request(:delete_access_point, params)
  req.send_request(options)
end

#delete_file_system(params = {}) ⇒ Struct

Deletes a file system, permanently severing access to its contents. Upon return, the file system no longer exists and you can't access any contents of the deleted file system.

You need to manually delete mount targets attached to a file system before you can delete an EFS file system. This step is performed for you when you use the Amazon Web Services console to delete a file system.

You cannot delete a file system that is part of an EFS Replication configuration. You need to delete the replication configuration first.

You can't delete a file system that is in use. That is, if the file system has any mount targets, you must first delete them. For more information, see DescribeMountTargets and DeleteMountTarget.

The DeleteFileSystem call returns while the file system state is still deleting. You can check the file system deletion status by calling the DescribeFileSystems operation, which returns a list of file systems in your account. If you pass file system ID or creation token for the deleted file system, the DescribeFileSystems returns a 404 FileSystemNotFound error.

This operation requires permissions for the elasticfilesystem:DeleteFileSystem action.

Examples:

Example: To delete a file system


# This operation deletes an EFS file system.

resp = client.delete_file_system({
  file_system_id: "fs-01234567", 
})

Request syntax with placeholder values


resp = client.delete_file_system({
  file_system_id: "FileSystemId", # required
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the file system you want to delete.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1405

def delete_file_system(params = {}, options = {})
  req = build_request(:delete_file_system, params)
  req.send_request(options)
end

#delete_file_system_policy(params = {}) ⇒ Struct

Deletes the FileSystemPolicy for the specified file system. The default FileSystemPolicy goes into effect once the existing policy is deleted. For more information about the default file system policy, see Using Resource-based Policies with EFS.

This operation requires permissions for the elasticfilesystem:DeleteFileSystemPolicy action.

Examples:

Request syntax with placeholder values


resp = client.delete_file_system_policy({
  file_system_id: "FileSystemId", # required
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    Specifies the EFS file system for which to delete the FileSystemPolicy.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1438

def delete_file_system_policy(params = {}, options = {})
  req = build_request(:delete_file_system_policy, params)
  req.send_request(options)
end

#delete_mount_target(params = {}) ⇒ Struct

Deletes the specified mount target.

This operation forcibly breaks any mounts of the file system by using the mount target that is being deleted, which might disrupt instances or applications using those mounts. To avoid applications getting cut off abruptly, you might consider unmounting any mounts of the mount target, if feasible. The operation also deletes the associated network interface. Uncommitted writes might be lost, but breaking a mount target using this operation does not corrupt the file system itself. The file system you created remains. You can mount an EC2 instance in your VPC by using another mount target.

This operation requires permissions for the following action on the file system:

  • elasticfilesystem:DeleteMountTarget

^

The DeleteMountTarget call returns while the mount target state is still deleting. You can check the mount target deletion by calling the DescribeMountTargets operation, which returns a list of mount target descriptions for the given file system.

The operation also requires permissions for the following Amazon EC2 action on the mount target's network interface:

  • ec2:DeleteNetworkInterface

^

Examples:

Example: To delete a mount target


# This operation deletes a mount target.

resp = client.delete_mount_target({
  mount_target_id: "fsmt-12340abc", 
})

Request syntax with placeholder values


resp = client.delete_mount_target({
  mount_target_id: "MountTargetId", # required
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :mount_target_id (required, String)

    The ID of the mount target to delete (String).

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1500

def delete_mount_target(params = {}, options = {})
  req = build_request(:delete_mount_target, params)
  req.send_request(options)
end

#delete_replication_configuration(params = {}) ⇒ Struct

Deletes a replication configuration. Deleting a replication configuration ends the replication process. After a replication configuration is deleted, the destination file system becomes Writeable and its replication overwrite protection is re-enabled. For more information, see Delete a replication configuration.

This operation requires permissions for the elasticfilesystem:DeleteReplicationConfiguration action.

Examples:

Request syntax with placeholder values


resp = client.delete_replication_configuration({
  source_file_system_id: "FileSystemId", # required
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :source_file_system_id (required, String)

    The ID of the source file system in the replication configuration.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1533

def delete_replication_configuration(params = {}, options = {})
  req = build_request(:delete_replication_configuration, params)
  req.send_request(options)
end

#delete_tags(params = {}) ⇒ Struct

DEPRECATED - DeleteTags is deprecated and not maintained. To remove tags from EFS resources, use the API action.

Deletes the specified tags from a file system. If the DeleteTags request includes a tag key that doesn't exist, Amazon EFS ignores it and doesn't cause an error. For more information about tags and related restrictions, see Tag restrictions in the Billing and Cost Management User Guide.

This operation requires permissions for the elasticfilesystem:DeleteTags action.

Examples:

Example: To delete tags for an EFS file system


# This operation deletes tags for an EFS file system.

resp = client.delete_tags({
  file_system_id: "fs-01234567", 
  tag_keys: [
    "Name", 
  ], 
})

Request syntax with placeholder values


resp = client.delete_tags({
  file_system_id: "FileSystemId", # required
  tag_keys: ["TagKey"], # required
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the file system whose tags you want to delete (String).

  • :tag_keys (required, Array<String>)

    A list of tag keys to delete.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1587

def delete_tags(params = {}, options = {})
  req = build_request(:delete_tags, params)
  req.send_request(options)
end

#describe_access_points(params = {}) ⇒ Types::DescribeAccessPointsResponse

Returns the description of a specific Amazon EFS access point if the AccessPointId is provided. If you provide an EFS FileSystemId, it returns descriptions of all access points for that file system. You can provide either an AccessPointId or a FileSystemId in the request, but not both.

This operation requires permissions for the elasticfilesystem:DescribeAccessPoints action.

The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.

Examples:

Request syntax with placeholder values


resp = client.describe_access_points({
  max_results: 1,
  next_token: "Token",
  access_point_id: "AccessPointId",
  file_system_id: "FileSystemId",
})

Response structure


resp.access_points #=> Array
resp.access_points[0].client_token #=> String
resp.access_points[0].name #=> String
resp.access_points[0].tags #=> Array
resp.access_points[0].tags[0].key #=> String
resp.access_points[0].tags[0].value #=> String
resp.access_points[0].access_point_id #=> String
resp.access_points[0].access_point_arn #=> String
resp.access_points[0].file_system_id #=> String
resp.access_points[0].posix_user.uid #=> Integer
resp.access_points[0].posix_user.gid #=> Integer
resp.access_points[0].posix_user.secondary_gids #=> Array
resp.access_points[0].posix_user.secondary_gids[0] #=> Integer
resp.access_points[0].root_directory.path #=> String
resp.access_points[0].root_directory.creation_info.owner_uid #=> Integer
resp.access_points[0].root_directory.creation_info.owner_gid #=> Integer
resp.access_points[0].root_directory.creation_info.permissions #=> String
resp.access_points[0].owner_id #=> String
resp.access_points[0].life_cycle_state #=> String, one of "creating", "available", "updating", "deleting", "deleted", "error"
resp.next_token #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :max_results (Integer) — default: Optional

    When retrieving all access points for a file system, you can optionally specify the MaxItems parameter to limit the number of objects returned in a response. The default value is 100.

  • :next_token (String)

    NextToken is present if the response is paginated. You can use NextMarker in the subsequent request to fetch the next page of access point descriptions.

  • :access_point_id (String) — default: Optional

    Specifies an EFS access point to describe in the response; mutually exclusive with FileSystemId.

  • :file_system_id (String) — default: Optional

    If you provide a FileSystemId, EFS returns all access points for that file system; mutually exclusive with AccessPointId.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1662

def describe_access_points(params = {}, options = {})
  req = build_request(:describe_access_points, params)
  req.send_request(options)
end

#describe_account_preferences(params = {}) ⇒ Types::DescribeAccountPreferencesResponse

Returns the account preferences settings for the Amazon Web Services account associated with the user making the request, in the current Amazon Web Services Region.

Examples:

Request syntax with placeholder values


resp = client.({
  next_token: "Token",
  max_results: 1,
})

Response structure


resp.resource_id_preference.resource_id_type #=> String, one of "LONG_ID", "SHORT_ID"
resp.resource_id_preference.resources #=> Array
resp.resource_id_preference.resources[0] #=> String, one of "FILE_SYSTEM", "MOUNT_TARGET"
resp.next_token #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :next_token (String) — default: Optional

    You can use NextToken in a subsequent request to fetch the next page of Amazon Web Services account preferences if the response payload was paginated.

  • :max_results (Integer) — default: Optional

    When retrieving account preferences, you can optionally specify the MaxItems parameter to limit the number of objects returned in a response. The default value is 100.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1704

def (params = {}, options = {})
  req = build_request(:describe_account_preferences, params)
  req.send_request(options)
end

#describe_backup_policy(params = {}) ⇒ Types::BackupPolicyDescription

Returns the backup policy for the specified EFS file system.

Examples:

Request syntax with placeholder values


resp = client.describe_backup_policy({
  file_system_id: "FileSystemId", # required
})

Response structure


resp.backup_policy.status #=> String, one of "ENABLED", "ENABLING", "DISABLED", "DISABLING"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    Specifies which EFS file system for which to retrieve the BackupPolicy.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1733

def describe_backup_policy(params = {}, options = {})
  req = build_request(:describe_backup_policy, params)
  req.send_request(options)
end

#describe_file_system_policy(params = {}) ⇒ Types::FileSystemPolicyDescription

Returns the FileSystemPolicy for the specified EFS file system.

This operation requires permissions for the elasticfilesystem:DescribeFileSystemPolicy action.

Examples:

Request syntax with placeholder values


resp = client.describe_file_system_policy({
  file_system_id: "FileSystemId", # required
})

Response structure


resp.file_system_id #=> String
resp.policy #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    Specifies which EFS file system to retrieve the FileSystemPolicy for.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1767

def describe_file_system_policy(params = {}, options = {})
  req = build_request(:describe_file_system_policy, params)
  req.send_request(options)
end

#describe_file_systems(params = {}) ⇒ Types::DescribeFileSystemsResponse

Returns the description of a specific Amazon EFS file system if either the file system CreationToken or the FileSystemId is provided. Otherwise, it returns descriptions of all file systems owned by the caller's Amazon Web Services account in the Amazon Web Services Region of the endpoint that you're calling.

When retrieving all file system descriptions, you can optionally specify the MaxItems parameter to limit the number of descriptions in a response. This number is automatically set to 100. If more file system descriptions remain, Amazon EFS returns a NextMarker, an opaque token, in the response. In this case, you should send a subsequent request with the Marker request parameter set to the value of NextMarker.

To retrieve a list of your file system descriptions, this operation is used in an iterative process, where DescribeFileSystems is called first without the Marker and then the operation continues to call it with the Marker parameter set to the value of the NextMarker from the previous response until the response has no NextMarker.

The order of file systems returned in the response of one DescribeFileSystems call and the order of file systems returned across the responses of a multi-call iteration is unspecified.

This operation requires permissions for the elasticfilesystem:DescribeFileSystems action.

The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.

Examples:

Example: To describe an EFS file system


# This operation describes all of the EFS file systems in an account.

resp = client.describe_file_systems({
})

resp.to_h outputs the following:
{
  file_systems: [
    {
      creation_time: Time.parse("1481841524.0"), 
      creation_token: "tokenstring", 
      file_system_id: "fs-01234567", 
      life_cycle_state: "available", 
      name: "MyFileSystem", 
      number_of_mount_targets: 1, 
      owner_id: "012345678912", 
      performance_mode: "generalPurpose", 
      size_in_bytes: {
        value: 6144, 
      }, 
      tags: [
        {
          key: "Name", 
          value: "MyFileSystem", 
        }, 
      ], 
    }, 
  ], 
}

Request syntax with placeholder values


resp = client.describe_file_systems({
  max_items: 1,
  marker: "Marker",
  creation_token: "CreationToken",
  file_system_id: "FileSystemId",
})

Response structure


resp.marker #=> String
resp.file_systems #=> Array
resp.file_systems[0].owner_id #=> String
resp.file_systems[0].creation_token #=> String
resp.file_systems[0].file_system_id #=> String
resp.file_systems[0].file_system_arn #=> String
resp.file_systems[0].creation_time #=> Time
resp.file_systems[0].life_cycle_state #=> String, one of "creating", "available", "updating", "deleting", "deleted", "error"
resp.file_systems[0].name #=> String
resp.file_systems[0].number_of_mount_targets #=> Integer
resp.file_systems[0].size_in_bytes.value #=> Integer
resp.file_systems[0].size_in_bytes.timestamp #=> Time
resp.file_systems[0].size_in_bytes.value_in_ia #=> Integer
resp.file_systems[0].size_in_bytes.value_in_standard #=> Integer
resp.file_systems[0].size_in_bytes.value_in_archive #=> Integer
resp.file_systems[0].performance_mode #=> String, one of "generalPurpose", "maxIO"
resp.file_systems[0].encrypted #=> Boolean
resp.file_systems[0].kms_key_id #=> String
resp.file_systems[0].throughput_mode #=> String, one of "bursting", "provisioned", "elastic"
resp.file_systems[0].provisioned_throughput_in_mibps #=> Float
resp.file_systems[0].availability_zone_name #=> String
resp.file_systems[0].availability_zone_id #=> String
resp.file_systems[0].tags #=> Array
resp.file_systems[0].tags[0].key #=> String
resp.file_systems[0].tags[0].value #=> String
resp.file_systems[0].file_system_protection.replication_overwrite_protection #=> String, one of "ENABLED", "DISABLED", "REPLICATING"
resp.next_marker #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :max_items (Integer) — default: Optional

    Specifies the maximum number of file systems to return in the response (integer). This number is automatically set to 100. The response is paginated at 100 per page if you have more than 100 file systems.

  • :marker (String) — default: Optional

    Opaque pagination token returned from a previous DescribeFileSystems operation (String). If present, specifies to continue the list from where the returning call had left off.

  • :creation_token (String) — default: Optional

    Restricts the list to the file system with this creation token (String). You specify a creation token when you create an Amazon EFS file system.

  • :file_system_id (String) — default: Optional

    ID of the file system whose description you want to retrieve (String).

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1903

def describe_file_systems(params = {}, options = {})
  req = build_request(:describe_file_systems, params)
  req.send_request(options)
end

#describe_lifecycle_configuration(params = {}) ⇒ Types::LifecycleConfigurationDescription

Returns the current LifecycleConfiguration object for the specified Amazon EFS file system. Lifecycle management uses the LifecycleConfiguration object to identify when to move files between storage classes. For a file system without a LifecycleConfiguration object, the call returns an empty array in the response.

This operation requires permissions for the elasticfilesystem:DescribeLifecycleConfiguration operation.

Examples:

Example: To describe the lifecycle configuration for a file system


# This operation describes a file system's LifecycleConfiguration. EFS lifecycle management uses the
# LifecycleConfiguration object to identify which files to move to the EFS Infrequent Access (IA) storage class. 

resp = client.describe_lifecycle_configuration({
  file_system_id: "fs-01234567", 
})

resp.to_h outputs the following:
{
  lifecycle_policies: [
    {
      transition_to_ia: "AFTER_30_DAYS", 
    }, 
  ], 
}

Request syntax with placeholder values


resp = client.describe_lifecycle_configuration({
  file_system_id: "FileSystemId", # required
})

Response structure


resp.lifecycle_policies #=> Array
resp.lifecycle_policies[0].transition_to_ia #=> String, one of "AFTER_7_DAYS", "AFTER_14_DAYS", "AFTER_30_DAYS", "AFTER_60_DAYS", "AFTER_90_DAYS", "AFTER_1_DAY", "AFTER_180_DAYS", "AFTER_270_DAYS", "AFTER_365_DAYS"
resp.lifecycle_policies[0].transition_to_primary_storage_class #=> String, one of "AFTER_1_ACCESS"
resp.lifecycle_policies[0].transition_to_archive #=> String, one of "AFTER_1_DAY", "AFTER_7_DAYS", "AFTER_14_DAYS", "AFTER_30_DAYS", "AFTER_60_DAYS", "AFTER_90_DAYS", "AFTER_180_DAYS", "AFTER_270_DAYS", "AFTER_365_DAYS"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the file system whose LifecycleConfiguration object you want to retrieve (String).

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 1961

def describe_lifecycle_configuration(params = {}, options = {})
  req = build_request(:describe_lifecycle_configuration, params)
  req.send_request(options)
end

#describe_mount_target_security_groups(params = {}) ⇒ Types::DescribeMountTargetSecurityGroupsResponse

Returns the security groups currently in effect for a mount target. This operation requires that the network interface of the mount target has been created and the lifecycle state of the mount target is not deleted.

This operation requires permissions for the following actions:

  • elasticfilesystem:DescribeMountTargetSecurityGroups action on the mount target's file system.

  • ec2:DescribeNetworkInterfaceAttribute action on the mount target's network interface.

Examples:

Example: To describe the security groups for a mount target


# This operation describes all of the security groups for a file system's mount target.

resp = client.describe_mount_target_security_groups({
  mount_target_id: "fsmt-12340abc", 
})

resp.to_h outputs the following:
{
  security_groups: [
    "sg-4567abcd", 
  ], 
}

Request syntax with placeholder values


resp = client.describe_mount_target_security_groups({
  mount_target_id: "MountTargetId", # required
})

Response structure


resp.security_groups #=> Array
resp.security_groups[0] #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :mount_target_id (required, String)

    The ID of the mount target whose security groups you want to retrieve.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2017

def describe_mount_target_security_groups(params = {}, options = {})
  req = build_request(:describe_mount_target_security_groups, params)
  req.send_request(options)
end

#describe_mount_targets(params = {}) ⇒ Types::DescribeMountTargetsResponse

Returns the descriptions of all the current mount targets, or a specific mount target, for a file system. When requesting all of the current mount targets, the order of mount targets returned in the response is unspecified.

This operation requires permissions for the elasticfilesystem:DescribeMountTargets action, on either the file system ID that you specify in FileSystemId, or on the file system of the mount target that you specify in MountTargetId.

The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.

Examples:

Example: To describe the mount targets for a file system


# This operation describes all of a file system's mount targets.

resp = client.describe_mount_targets({
  file_system_id: "fs-01234567", 
})

resp.to_h outputs the following:
{
  mount_targets: [
    {
      file_system_id: "fs-01234567", 
      ip_address: "192.0.0.2", 
      life_cycle_state: "available", 
      mount_target_id: "fsmt-12340abc", 
      network_interface_id: "eni-cedf6789", 
      owner_id: "012345678912", 
      subnet_id: "subnet-1234abcd", 
    }, 
  ], 
}

Request syntax with placeholder values


resp = client.describe_mount_targets({
  max_items: 1,
  marker: "Marker",
  file_system_id: "FileSystemId",
  mount_target_id: "MountTargetId",
  access_point_id: "AccessPointId",
})

Response structure


resp.marker #=> String
resp.mount_targets #=> Array
resp.mount_targets[0].owner_id #=> String
resp.mount_targets[0].mount_target_id #=> String
resp.mount_targets[0].file_system_id #=> String
resp.mount_targets[0].subnet_id #=> String
resp.mount_targets[0].life_cycle_state #=> String, one of "creating", "available", "updating", "deleting", "deleted", "error"
resp.mount_targets[0].ip_address #=> String
resp.mount_targets[0].network_interface_id #=> String
resp.mount_targets[0].availability_zone_id #=> String
resp.mount_targets[0].availability_zone_name #=> String
resp.mount_targets[0].vpc_id #=> String
resp.next_marker #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :max_items (Integer) — default: Optional

    Maximum number of mount targets to return in the response. Currently, this number is automatically set to 10, and other values are ignored. The response is paginated at 100 per page if you have more than 100 mount targets.

  • :marker (String) — default: Optional

    Opaque pagination token returned from a previous DescribeMountTargets operation (String). If present, it specifies to continue the list from where the previous returning call left off.

  • :file_system_id (String) — default: Optional

    ID of the file system whose mount targets you want to list (String). It must be included in your request if an AccessPointId or MountTargetId is not included. Accepts either a file system ID or ARN as input.

  • :mount_target_id (String) — default: Optional

    ID of the mount target that you want to have described (String). It must be included in your request if FileSystemId is not included. Accepts either a mount target ID or ARN as input.

  • :access_point_id (String) — default: Optional

    The ID of the access point whose mount targets that you want to list. It must be included in your request if a FileSystemId or MountTargetId is not included in your request. Accepts either an access point ID or ARN as input.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2122

def describe_mount_targets(params = {}, options = {})
  req = build_request(:describe_mount_targets, params)
  req.send_request(options)
end

#describe_replication_configurations(params = {}) ⇒ Types::DescribeReplicationConfigurationsResponse

Retrieves the replication configuration for a specific file system. If a file system is not specified, all of the replication configurations for the Amazon Web Services account in an Amazon Web Services Region are retrieved.

The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.

Examples:

Request syntax with placeholder values


resp = client.describe_replication_configurations({
  file_system_id: "FileSystemId",
  next_token: "Token",
  max_results: 1,
})

Response structure


resp.replications #=> Array
resp.replications[0].source_file_system_id #=> String
resp.replications[0].source_file_system_region #=> String
resp.replications[0].source_file_system_arn #=> String
resp.replications[0].original_source_file_system_arn #=> String
resp.replications[0].creation_time #=> Time
resp.replications[0].destinations #=> Array
resp.replications[0].destinations[0].status #=> String, one of "ENABLED", "ENABLING", "DELETING", "ERROR", "PAUSED", "PAUSING"
resp.replications[0].destinations[0].file_system_id #=> String
resp.replications[0].destinations[0].region #=> String
resp.replications[0].destinations[0].last_replicated_timestamp #=> Time
resp.next_token #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (String)

    You can retrieve the replication configuration for a specific file system by providing its file system ID.

  • :next_token (String)

    NextToken is present if the response is paginated. You can use NextToken in a subsequent request to fetch the next page of output.

  • :max_results (Integer) — default: Optional

    To limit the number of objects returned in a response, you can specify the MaxItems parameter. The default value is 100.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2178

def describe_replication_configurations(params = {}, options = {})
  req = build_request(:describe_replication_configurations, params)
  req.send_request(options)
end

#describe_tags(params = {}) ⇒ Types::DescribeTagsResponse

DEPRECATED - The DescribeTags action is deprecated and not maintained. To view tags associated with EFS resources, use the ListTagsForResource API action.

Returns the tags associated with a file system. The order of tags returned in the response of one DescribeTags call and the order of tags returned across the responses of a multiple-call iteration (when using pagination) is unspecified.

This operation requires permissions for the elasticfilesystem:DescribeTags action.

The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.

Examples:

Example: To describe the tags for a file system


# This operation describes all of a file system's tags.

resp = client.describe_tags({
  file_system_id: "fs-01234567", 
})

resp.to_h outputs the following:
{
  tags: [
    {
      key: "Name", 
      value: "MyFileSystem", 
    }, 
  ], 
}

Request syntax with placeholder values


resp = client.describe_tags({
  max_items: 1,
  marker: "Marker",
  file_system_id: "FileSystemId", # required
})

Response structure


resp.marker #=> String
resp.tags #=> Array
resp.tags[0].key #=> String
resp.tags[0].value #=> String
resp.next_marker #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :max_items (Integer) — default: Optional

    The maximum number of file system tags to return in the response. Currently, this number is automatically set to 100, and other values are ignored. The response is paginated at 100 per page if you have more than 100 tags.

  • :marker (String) — default: Optional

    An opaque pagination token returned from a previous DescribeTags operation (String). If present, it specifies to continue the list from where the previous call left off.

  • :file_system_id (required, String)

    The ID of the file system whose tag set you want to retrieve.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2258

def describe_tags(params = {}, options = {})
  req = build_request(:describe_tags, params)
  req.send_request(options)
end

#list_tags_for_resource(params = {}) ⇒ Types::ListTagsForResourceResponse

Lists all tags for a top-level EFS resource. You must provide the ID of the resource that you want to retrieve the tags for.

This operation requires permissions for the elasticfilesystem:DescribeAccessPoints action.

The returned response is a pageable response and is Enumerable. For details on usage see PageableResponse.

Examples:

Request syntax with placeholder values


resp = client.list_tags_for_resource({
  resource_id: "ResourceId", # required
  max_results: 1,
  next_token: "Token",
})

Response structure


resp.tags #=> Array
resp.tags[0].key #=> String
resp.tags[0].value #=> String
resp.next_token #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :resource_id (required, String)

    Specifies the EFS resource you want to retrieve tags for. You can retrieve tags for EFS file systems and access points using this API endpoint.

  • :max_results (Integer) — default: Optional

    Specifies the maximum number of tag objects to return in the response. The default value is 100.

  • :next_token (String) — default: Optional

    You can use NextToken in a subsequent request to fetch the next page of access point descriptions if the response payload was paginated.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2309

def list_tags_for_resource(params = {}, options = {})
  req = build_request(:list_tags_for_resource, params)
  req.send_request(options)
end

#modify_mount_target_security_groups(params = {}) ⇒ Struct

Modifies the set of security groups in effect for a mount target.

When you create a mount target, Amazon EFS also creates a new network interface. For more information, see CreateMountTarget. This operation replaces the security groups in effect for the network interface associated with a mount target, with the SecurityGroups provided in the request. This operation requires that the network interface of the mount target has been created and the lifecycle state of the mount target is not deleted.

The operation requires permissions for the following actions:

  • elasticfilesystem:ModifyMountTargetSecurityGroups action on the mount target's file system.

  • ec2:ModifyNetworkInterfaceAttribute action on the mount target's network interface.

Examples:

Example: To modify the security groups associated with a mount target for a file system


# This operation modifies the security groups associated with a mount target for a file system.

resp = client.modify_mount_target_security_groups({
  mount_target_id: "fsmt-12340abc", 
  security_groups: [
    "sg-abcd1234", 
  ], 
})

Request syntax with placeholder values


resp = client.modify_mount_target_security_groups({
  mount_target_id: "MountTargetId", # required
  security_groups: ["SecurityGroup"],
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :mount_target_id (required, String)

    The ID of the mount target whose security groups you want to modify.

  • :security_groups (Array<String>)

    An array of up to five VPC security group IDs.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2363

def modify_mount_target_security_groups(params = {}, options = {})
  req = build_request(:modify_mount_target_security_groups, params)
  req.send_request(options)
end

#put_account_preferences(params = {}) ⇒ Types::PutAccountPreferencesResponse

Use this operation to set the account preference in the current Amazon Web Services Region to use long 17 character (63 bit) or short 8 character (32 bit) resource IDs for new EFS file system and mount target resources. All existing resource IDs are not affected by any changes you make. You can set the ID preference during the opt-in period as EFS transitions to long resource IDs. For more information, see Managing Amazon EFS resource IDs.

Starting in October, 2021, you will receive an error if you try to set the account preference to use the short 8 character format resource ID. Contact Amazon Web Services support if you receive an error and must use short IDs for file system and mount target resources.

Examples:

Request syntax with placeholder values


resp = client.({
  resource_id_type: "LONG_ID", # required, accepts LONG_ID, SHORT_ID
})

Response structure


resp.resource_id_preference.resource_id_type #=> String, one of "LONG_ID", "SHORT_ID"
resp.resource_id_preference.resources #=> Array
resp.resource_id_preference.resources[0] #=> String, one of "FILE_SYSTEM", "MOUNT_TARGET"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :resource_id_type (required, String)

    Specifies the EFS resource ID preference to set for the user's Amazon Web Services account, in the current Amazon Web Services Region, either LONG_ID (17 characters), or SHORT_ID (8 characters).

    Starting in October, 2021, you will receive an error when setting the account preference to SHORT_ID. Contact Amazon Web Services support if you receive an error and must use short IDs for file system and mount target resources.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2419

def (params = {}, options = {})
  req = build_request(:put_account_preferences, params)
  req.send_request(options)
end

#put_backup_policy(params = {}) ⇒ Types::BackupPolicyDescription

Updates the file system's backup policy. Use this action to start or stop automatic backups of the file system.

Examples:

Request syntax with placeholder values


resp = client.put_backup_policy({
  file_system_id: "FileSystemId", # required
  backup_policy: { # required
    status: "ENABLED", # required, accepts ENABLED, ENABLING, DISABLED, DISABLING
  },
})

Response structure


resp.backup_policy.status #=> String, one of "ENABLED", "ENABLING", "DISABLED", "DISABLING"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    Specifies which EFS file system to update the backup policy for.

  • :backup_policy (required, Types::BackupPolicy)

    The backup policy included in the PutBackupPolicy request.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2454

def put_backup_policy(params = {}, options = {})
  req = build_request(:put_backup_policy, params)
  req.send_request(options)
end

#put_file_system_policy(params = {}) ⇒ Types::FileSystemPolicyDescription

Applies an Amazon EFS FileSystemPolicy to an Amazon EFS file system. A file system policy is an IAM resource-based policy and can contain multiple policy statements. A file system always has exactly one file system policy, which can be the default policy or an explicit policy set or updated using this API operation. EFS file system policies have a 20,000 character limit. When an explicit policy is set, it overrides the default policy. For more information about the default file system policy, see Default EFS File System Policy.

EFS file system policies have a 20,000 character limit.

This operation requires permissions for the elasticfilesystem:PutFileSystemPolicy action.

Examples:

Request syntax with placeholder values


resp = client.put_file_system_policy({
  file_system_id: "FileSystemId", # required
  policy: "Policy", # required
  bypass_policy_lockout_safety_check: false,
})

Response structure


resp.file_system_id #=> String
resp.policy #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the EFS file system that you want to create or update the FileSystemPolicy for.

  • :policy (required, String)

    The FileSystemPolicy that you're creating. Accepts a JSON formatted policy definition. EFS file system policies have a 20,000 character limit. To find out more about the elements that make up a file system policy, see EFS Resource-based Policies.

  • :bypass_policy_lockout_safety_check (Boolean) — default: Optional

    A boolean that specifies whether or not to bypass the FileSystemPolicy lockout safety check. The lockout safety check determines whether the policy in the request will lock out, or prevent, the IAM principal that is making the request from making future PutFileSystemPolicy requests on this file system. Set BypassPolicyLockoutSafetyCheck to True only when you intend to prevent the IAM principal that is making the request from making subsequent PutFileSystemPolicy requests on this file system. The default value is False.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2526

def put_file_system_policy(params = {}, options = {})
  req = build_request(:put_file_system_policy, params)
  req.send_request(options)
end

#put_lifecycle_configuration(params = {}) ⇒ Types::LifecycleConfigurationDescription

Use this action to manage storage for your file system. A LifecycleConfiguration consists of one or more LifecyclePolicy objects that define the following:

  • TransitionToIA – When to move files in the file system from primary storage (Standard storage class) into the Infrequent Access (IA) storage.

  • TransitionToArchive – When to move files in the file system from their current storage class (either IA or Standard storage) into the Archive storage.

    File systems cannot transition into Archive storage before transitioning into IA storage. Therefore, TransitionToArchive must either not be set or must be later than TransitionToIA.

    The Archive storage class is available only for file systems that use the Elastic Throughput mode and the General Purpose Performance mode.

    ^

  • TransitionToPrimaryStorageClass – Whether to move files in the file system back to primary storage (Standard storage class) after they are accessed in IA or Archive storage.

^

For more information, see Managing file system storage.

Each Amazon EFS file system supports one lifecycle configuration, which applies to all files in the file system. If a LifecycleConfiguration object already exists for the specified file system, a PutLifecycleConfiguration call modifies the existing configuration. A PutLifecycleConfiguration call with an empty LifecyclePolicies array in the request body deletes any existing LifecycleConfiguration. In the request, specify the following:

  • The ID for the file system for which you are enabling, disabling, or modifying Lifecycle management.

  • A LifecyclePolicies array of LifecyclePolicy objects that define when to move files to IA storage, to Archive storage, and back to primary storage.

    Amazon EFS requires that each LifecyclePolicy object have only have a single transition, so the LifecyclePolicies array needs to be structured with separate LifecyclePolicy objects. See the example requests in the following section for more information.

This operation requires permissions for the elasticfilesystem:PutLifecycleConfiguration operation.

To apply a LifecycleConfiguration object to an encrypted file system, you need the same Key Management Service permissions as when you created the encrypted file system.

Examples:

Example: Creates a new lifecycleconfiguration object for a file system


# This operation enables lifecycle management on a file system by creating a new LifecycleConfiguration object. A
# LifecycleConfiguration object defines when files in an Amazon EFS file system are automatically transitioned to the
# lower-cost EFS Infrequent Access (IA) storage class. A LifecycleConfiguration applies to all files in a file system.

resp = client.put_lifecycle_configuration({
  file_system_id: "fs-01234567", 
  lifecycle_policies: [
    {
      transition_to_ia: "AFTER_30_DAYS", 
    }, 
  ], 
})

resp.to_h outputs the following:
{
  lifecycle_policies: [
    {
      transition_to_ia: "AFTER_30_DAYS", 
    }, 
  ], 
}

Request syntax with placeholder values


resp = client.put_lifecycle_configuration({
  file_system_id: "FileSystemId", # required
  lifecycle_policies: [ # required
    {
      transition_to_ia: "AFTER_7_DAYS", # accepts AFTER_7_DAYS, AFTER_14_DAYS, AFTER_30_DAYS, AFTER_60_DAYS, AFTER_90_DAYS, AFTER_1_DAY, AFTER_180_DAYS, AFTER_270_DAYS, AFTER_365_DAYS
      transition_to_primary_storage_class: "AFTER_1_ACCESS", # accepts AFTER_1_ACCESS
      transition_to_archive: "AFTER_1_DAY", # accepts AFTER_1_DAY, AFTER_7_DAYS, AFTER_14_DAYS, AFTER_30_DAYS, AFTER_60_DAYS, AFTER_90_DAYS, AFTER_180_DAYS, AFTER_270_DAYS, AFTER_365_DAYS
    },
  ],
})

Response structure


resp.lifecycle_policies #=> Array
resp.lifecycle_policies[0].transition_to_ia #=> String, one of "AFTER_7_DAYS", "AFTER_14_DAYS", "AFTER_30_DAYS", "AFTER_60_DAYS", "AFTER_90_DAYS", "AFTER_1_DAY", "AFTER_180_DAYS", "AFTER_270_DAYS", "AFTER_365_DAYS"
resp.lifecycle_policies[0].transition_to_primary_storage_class #=> String, one of "AFTER_1_ACCESS"
resp.lifecycle_policies[0].transition_to_archive #=> String, one of "AFTER_1_DAY", "AFTER_7_DAYS", "AFTER_14_DAYS", "AFTER_30_DAYS", "AFTER_60_DAYS", "AFTER_90_DAYS", "AFTER_180_DAYS", "AFTER_270_DAYS", "AFTER_365_DAYS"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the file system for which you are creating the LifecycleConfiguration object (String).

  • :lifecycle_policies (required, Array<Types::LifecyclePolicy>)

    An array of LifecyclePolicy objects that define the file system's LifecycleConfiguration object. A LifecycleConfiguration object informs EFS Lifecycle management of the following:

    • TransitionToIA – When to move files in the file system from primary storage (Standard storage class) into the Infrequent Access (IA) storage.

    • TransitionToArchive – When to move files in the file system from their current storage class (either IA or Standard storage) into the Archive storage.

      File systems cannot transition into Archive storage before transitioning into IA storage. Therefore, TransitionToArchive must either not be set or must be later than TransitionToIA.

      The Archive storage class is available only for file systems that use the Elastic Throughput mode and the General Purpose Performance mode.

    • TransitionToPrimaryStorageClass – Whether to move files in the file system back to primary storage (Standard storage class) after they are accessed in IA or Archive storage.

    When using the put-lifecycle-configuration CLI command or the PutLifecycleConfiguration API action, Amazon EFS requires that each LifecyclePolicy object have only a single transition. This means that in a request body, LifecyclePolicies must be structured as an array of LifecyclePolicy objects, one object for each storage transition. See the example requests in the following section for more information.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2689

def put_lifecycle_configuration(params = {}, options = {})
  req = build_request(:put_lifecycle_configuration, params)
  req.send_request(options)
end

#tag_resource(params = {}) ⇒ Struct

Creates a tag for an EFS resource. You can create tags for EFS file systems and access points using this API operation.

This operation requires permissions for the elasticfilesystem:TagResource action.

Examples:

Request syntax with placeholder values


resp = client.tag_resource({
  resource_id: "ResourceId", # required
  tags: [ # required
    {
      key: "TagKey", # required
      value: "TagValue", # required
    },
  ],
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :resource_id (required, String)

    The ID specifying the EFS resource that you want to create a tag for.

  • :tags (required, Array<Types::Tag>)

    An array of Tag objects to add. Each Tag object is a key-value pair.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2725

def tag_resource(params = {}, options = {})
  req = build_request(:tag_resource, params)
  req.send_request(options)
end

#untag_resource(params = {}) ⇒ Struct

Removes tags from an EFS resource. You can remove tags from EFS file systems and access points using this API operation.

This operation requires permissions for the elasticfilesystem:UntagResource action.

Examples:

Request syntax with placeholder values


resp = client.untag_resource({
  resource_id: "ResourceId", # required
  tag_keys: ["TagKey"], # required
})

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :resource_id (required, String)

    Specifies the EFS resource that you want to remove tags from.

  • :tag_keys (required, Array<String>)

    The keys of the key-value tag pairs that you want to remove from the specified EFS resource.

Returns:

  • (Struct)

    Returns an empty response.

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2756

def untag_resource(params = {}, options = {})
  req = build_request(:untag_resource, params)
  req.send_request(options)
end

#update_file_system(params = {}) ⇒ Types::FileSystemDescription

Updates the throughput mode or the amount of provisioned throughput of an existing file system.

Examples:

Request syntax with placeholder values


resp = client.update_file_system({
  file_system_id: "FileSystemId", # required
  throughput_mode: "bursting", # accepts bursting, provisioned, elastic
  provisioned_throughput_in_mibps: 1.0,
})

Response structure


resp.owner_id #=> String
resp.creation_token #=> String
resp.file_system_id #=> String
resp.file_system_arn #=> String
resp.creation_time #=> Time
resp.life_cycle_state #=> String, one of "creating", "available", "updating", "deleting", "deleted", "error"
resp.name #=> String
resp.number_of_mount_targets #=> Integer
resp.size_in_bytes.value #=> Integer
resp.size_in_bytes.timestamp #=> Time
resp.size_in_bytes.value_in_ia #=> Integer
resp.size_in_bytes.value_in_standard #=> Integer
resp.size_in_bytes.value_in_archive #=> Integer
resp.performance_mode #=> String, one of "generalPurpose", "maxIO"
resp.encrypted #=> Boolean
resp.kms_key_id #=> String
resp.throughput_mode #=> String, one of "bursting", "provisioned", "elastic"
resp.provisioned_throughput_in_mibps #=> Float
resp.availability_zone_name #=> String
resp.availability_zone_id #=> String
resp.tags #=> Array
resp.tags[0].key #=> String
resp.tags[0].value #=> String
resp.file_system_protection.replication_overwrite_protection #=> String, one of "ENABLED", "DISABLED", "REPLICATING"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the file system that you want to update.

  • :throughput_mode (String) — default: Optional

    Updates the file system's throughput mode. If you're not updating your throughput mode, you don't need to provide this value in your request. If you are changing the ThroughputMode to provisioned, you must also set a value for ProvisionedThroughputInMibps.

  • :provisioned_throughput_in_mibps (Float) — default: Optional

    The throughput, measured in mebibytes per second (MiBps), that you want to provision for a file system that you're creating. Required if ThroughputMode is set to provisioned. Valid values are 1-3414 MiBps, with the upper limit depending on Region. To increase this limit, contact Amazon Web Services Support. For more information, see Amazon EFS quotas that you can increase in the Amazon EFS User Guide.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2847

def update_file_system(params = {}, options = {})
  req = build_request(:update_file_system, params)
  req.send_request(options)
end

#update_file_system_protection(params = {}) ⇒ Types::FileSystemProtectionDescription

Updates protection on the file system.

This operation requires permissions for the elasticfilesystem:UpdateFileSystemProtection action.

Examples:

Request syntax with placeholder values


resp = client.update_file_system_protection({
  file_system_id: "FileSystemId", # required
  replication_overwrite_protection: "ENABLED", # accepts ENABLED, DISABLED, REPLICATING
})

Response structure


resp.replication_overwrite_protection #=> String, one of "ENABLED", "DISABLED", "REPLICATING"

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :file_system_id (required, String)

    The ID of the file system to update.

  • :replication_overwrite_protection (String)

    The status of the file system's replication overwrite protection.

    • ENABLED – The file system cannot be used as the destination file system in a replication configuration. The file system is writeable. Replication overwrite protection is ENABLED by default.

    • DISABLED – The file system can be used as the destination file system in a replication configuration. The file system is read-only and can only be modified by EFS replication.

    • REPLICATING – The file system is being used as the destination file system in a replication configuration. The file system is read-only and is only modified only by EFS replication.

    If the replication configuration is deleted, the file system's replication overwrite protection is re-enabled, the file system becomes writeable.

Returns:

See Also:



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# File 'gems/aws-sdk-efs/lib/aws-sdk-efs/client.rb', line 2898

def update_file_system_protection(params = {}, options = {})
  req = build_request(:update_file_system_protection, params)
  req.send_request(options)
end