PNG  IHDR;IDATxܻn0K )(pA 7LeG{ §㻢|ذaÆ 6lذaÆ 6lذaÆ 6lom$^yذag5bÆ 6lذaÆ 6lذa{ 6lذaÆ `}HFkm,mӪôô! x|'ܢ˟;E:9&ᶒ}{v]n&6 h_tڠ͵-ҫZ;Z$.Pkž)!o>}leQfJTu іچ\X=8Rن4`Vwl>nG^is"ms$ui?wbs[m6K4O.4%/bC%t Mז -lG6mrz2s%9s@-k9=)kB5\+͂Zsٲ Rn~GRC wIcIn7jJhۛNCS|j08yiHKֶۛkɈ+;SzL/F*\Ԕ#"5m2[S=gnaPeғL lذaÆ 6l^ḵaÆ 6lذaÆ 6lذa; _ذaÆ 6lذaÆ 6lذaÆ RIENDB` package Paws::EFS; use Moose; sub service { 'elasticfilesystem' } sub signing_name { 'elasticfilesystem' } sub version { '2015-02-01' } sub flattened_arrays { 0 } has max_attempts => (is => 'ro', isa => 'Int', default => 5); has retry => (is => 'ro', isa => 'HashRef', default => sub { { base => 'rand', type => 'exponential', growth_factor => 2 } }); has retriables => (is => 'ro', isa => 'ArrayRef', default => sub { [ ] }); with 'Paws::API::Caller', 'Paws::API::EndpointResolver', 'Paws::Net::V4Signature', 'Paws::Net::RestJsonCaller'; sub CreateAccessPoint { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::CreateAccessPoint', @_); return $self->caller->do_call($self, $call_object); } sub CreateFileSystem { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::CreateFileSystem', @_); return $self->caller->do_call($self, $call_object); } sub CreateMountTarget { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::CreateMountTarget', @_); return $self->caller->do_call($self, $call_object); } sub CreateTags { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::CreateTags', @_); return $self->caller->do_call($self, $call_object); } sub DeleteAccessPoint { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DeleteAccessPoint', @_); return $self->caller->do_call($self, $call_object); } sub DeleteFileSystem { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DeleteFileSystem', @_); return $self->caller->do_call($self, $call_object); } sub DeleteFileSystemPolicy { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DeleteFileSystemPolicy', @_); return $self->caller->do_call($self, $call_object); } sub DeleteMountTarget { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DeleteMountTarget', @_); return $self->caller->do_call($self, $call_object); } sub DeleteTags { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DeleteTags', @_); return $self->caller->do_call($self, $call_object); } sub DescribeAccessPoints { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeAccessPoints', @_); return $self->caller->do_call($self, $call_object); } sub DescribeAccountPreferences { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeAccountPreferences', @_); return $self->caller->do_call($self, $call_object); } sub DescribeBackupPolicy { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeBackupPolicy', @_); return $self->caller->do_call($self, $call_object); } sub DescribeFileSystemPolicy { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeFileSystemPolicy', @_); return $self->caller->do_call($self, $call_object); } sub DescribeFileSystems { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeFileSystems', @_); return $self->caller->do_call($self, $call_object); } sub DescribeLifecycleConfiguration { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeLifecycleConfiguration', @_); return $self->caller->do_call($self, $call_object); } sub DescribeMountTargets { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeMountTargets', @_); return $self->caller->do_call($self, $call_object); } sub DescribeMountTargetSecurityGroups { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeMountTargetSecurityGroups', @_); return $self->caller->do_call($self, $call_object); } sub DescribeTags { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::DescribeTags', @_); return $self->caller->do_call($self, $call_object); } sub ListTagsForResource { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::ListTagsForResource', @_); return $self->caller->do_call($self, $call_object); } sub ModifyMountTargetSecurityGroups { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::ModifyMountTargetSecurityGroups', @_); return $self->caller->do_call($self, $call_object); } sub PutAccountPreferences { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::PutAccountPreferences', @_); return $self->caller->do_call($self, $call_object); } sub PutBackupPolicy { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::PutBackupPolicy', @_); return $self->caller->do_call($self, $call_object); } sub PutFileSystemPolicy { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::PutFileSystemPolicy', @_); return $self->caller->do_call($self, $call_object); } sub PutLifecycleConfiguration { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::PutLifecycleConfiguration', @_); return $self->caller->do_call($self, $call_object); } sub TagResource { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::TagResource', @_); return $self->caller->do_call($self, $call_object); } sub UntagResource { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::UntagResource', @_); return $self->caller->do_call($self, $call_object); } sub UpdateFileSystem { my $self = shift; my $call_object = $self->new_with_coercions('Paws::EFS::UpdateFileSystem', @_); return $self->caller->do_call($self, $call_object); } sub DescribeAllFileSystems { my $self = shift; my $callback = shift @_ if (ref($_[0]) eq 'CODE'); my $result = $self->DescribeFileSystems(@_); my $next_result = $result; if (not defined $callback) { while ($next_result->NextMarker) { $next_result = $self->DescribeFileSystems(@_, Marker => $next_result->NextMarker); push @{ $result->FileSystems }, @{ $next_result->FileSystems }; } return $result; } else { while ($result->NextMarker) { $callback->($_ => 'FileSystems') foreach (@{ $result->FileSystems }); $result = $self->DescribeFileSystems(@_, Marker => $result->NextMarker); } $callback->($_ => 'FileSystems') foreach (@{ $result->FileSystems }); } return undef } sub DescribeAllMountTargets { my $self = shift; my $callback = shift @_ if (ref($_[0]) eq 'CODE'); my $result = $self->DescribeMountTargets(@_); my $next_result = $result; if (not defined $callback) { while ($next_result->NextMarker) { $next_result = $self->DescribeMountTargets(@_, Marker => $next_result->NextMarker); push @{ $result->MountTargets }, @{ $next_result->MountTargets }; } return $result; } else { while ($result->NextMarker) { $callback->($_ => 'MountTargets') foreach (@{ $result->MountTargets }); $result = $self->DescribeMountTargets(@_, Marker => $result->NextMarker); } $callback->($_ => 'MountTargets') foreach (@{ $result->MountTargets }); } return undef } sub DescribeAllTags { my $self = shift; my $callback = shift @_ if (ref($_[0]) eq 'CODE'); my $result = $self->DescribeTags(@_); my $next_result = $result; if (not defined $callback) { while ($next_result->NextMarker) { $next_result = $self->DescribeTags(@_, Marker => $next_result->NextMarker); push @{ $result->Tags }, @{ $next_result->Tags }; } return $result; } else { while ($result->NextMarker) { $callback->($_ => 'Tags') foreach (@{ $result->Tags }); $result = $self->DescribeTags(@_, Marker => $result->NextMarker); } $callback->($_ => 'Tags') foreach (@{ $result->Tags }); } return undef } sub operations { qw/CreateAccessPoint CreateFileSystem CreateMountTarget CreateTags DeleteAccessPoint DeleteFileSystem DeleteFileSystemPolicy DeleteMountTarget DeleteTags DescribeAccessPoints DescribeAccountPreferences DescribeBackupPolicy DescribeFileSystemPolicy DescribeFileSystems DescribeLifecycleConfiguration DescribeMountTargets DescribeMountTargetSecurityGroups DescribeTags ListTagsForResource ModifyMountTargetSecurityGroups PutAccountPreferences PutBackupPolicy PutFileSystemPolicy PutLifecycleConfiguration TagResource UntagResource UpdateFileSystem / } 1; ### main pod documentation begin ### =head1 NAME Paws::EFS - Perl Interface to AWS Amazon Elastic File System =head1 SYNOPSIS use Paws; my $obj = Paws->service('EFS'); my $res = $obj->Method( Arg1 => $val1, Arg2 => [ 'V1', 'V2' ], # if Arg3 is an object, the HashRef will be used as arguments to the constructor # of the arguments type Arg3 => { Att1 => 'Val1' }, # if Arg4 is an array of objects, the HashRefs will be passed as arguments to # the constructor of the arguments type Arg4 => [ { Att1 => 'Val1' }, { Att1 => 'Val2' } ], ); =head1 DESCRIPTION Amazon Elastic File System Amazon Elastic File System (Amazon EFS) provides simple, scalable file storage for use with Amazon EC2 instances in the AWS Cloud. With Amazon EFS, storage capacity is elastic, growing and shrinking automatically as you add and remove files, so your applications have the storage they need, when they need it. For more information, see the Amazon Elastic File System API Reference (https://docs.aws.amazon.com/efs/latest/ug/api-reference.html) and the Amazon Elastic File System User Guide (https://docs.aws.amazon.com/efs/latest/ug/whatisefs.html). For the AWS API documentation, see L =head1 METHODS =head2 CreateAccessPoint =over =item ClientToken => Str =item FileSystemId => Str =item [PosixUser => L] =item [RootDirectory => L] =item [Tags => ArrayRef[L]] =back Each argument is described in detail in: L Returns: a L instance 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 its own directory and below. To learn more, see Mounting a file system using EFS access points (https://docs.aws.amazon.com/efs/latest/ug/efs-access-points.html). This operation requires permissions for the C action. =head2 CreateFileSystem =over =item CreationToken => Str =item [AvailabilityZoneName => Str] =item [Backup => Bool] =item [Encrypted => Bool] =item [KmsKeyId => Str] =item [PerformanceMode => Str] =item [ProvisionedThroughputInMibps => Num] =item [Tags => ArrayRef[L]] =item [ThroughputMode => Str] =back Each argument is described in detail in: L Returns: a L instance 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 AWS account with the specified creation token, this operation does the following: =over =item * Creates a new, empty file system. The file system will have an Amazon EFS assigned ID, and an initial lifecycle state C. =item * Returns with the description of the created file system. =back Otherwise, this operation returns a C 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 C 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 C error. For more information, see Creating a file system (https://docs.aws.amazon.com/efs/latest/ug/creating-using-create-fs.html#creating-using-create-fs-part1) in the I. The C call returns while the file system's lifecycle state is still C. 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 C parameter that you choose for your file system. We recommend C performance mode for most file systems. File systems using the C 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. For more information, see Amazon EFS performance modes (https://docs.aws.amazon.com/efs/latest/ug/performance.html#performancemodes.html). You can set the throughput mode for the file system using the C parameter. After the file system is fully created, Amazon EFS sets its lifecycle state to C, 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 (https://docs.aws.amazon.com/efs/latest/ug/how-it-works.html). This operation requires permissions for the C action. =head2 CreateMountTarget =over =item FileSystemId => Str =item SubnetId => Str =item [IpAddress => Str] =item [SecurityGroups => ArrayRef[Str|Undef]] =back Each argument is described in detail in: L Returns: a L instance 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 an EFS file system using One Zone storage classes. You must create that mount target in the same Availability Zone in which the file system is located. Use the C and C properties in the DescribeFileSystems response object to get this information. Use the C associated with the file system's Availability Zone when creating the mount target. For more information, see Amazon EFS: How it Works (https://docs.aws.amazon.com/efs/latest/ug/how-it-works.html). To create a mount target for a file system, the file system's lifecycle state must be C. For more information, see DescribeFileSystems. In the request, provide the following: =over =item * The file system ID for which you are creating the mount target. =item * A subnet ID, which determines the following: =over =item * The VPC in which Amazon EFS creates the mount target =item * The Availability Zone in which Amazon EFS creates the mount target =item * 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) =back =back After creating the mount target, Amazon EFS returns a response that includes, a C and an C. 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 (https://docs.aws.amazon.com/efs/latest/ug/how-it-works.html#how-it-works-implementation). 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: =over =item * Must belong to the same VPC as the subnets of the existing mount targets =item * Must not be in the same Availability Zone as any of the subnets of the existing mount targets =back If the request satisfies the requirements, Amazon EFS does the following: =over =item * Creates a new mount target in the specified subnet. =item * Also creates a new network interface in the subnet as follows: =over =item * If the request provides an C, 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 C call does when a request does not specify a primary private IP address). =item * If the request provides C, this network interface is associated with those security groups. Otherwise, it belongs to the default security group for the subnet's VPC. =item * Assigns the description C for file system I > where C< I > is the mount target ID, and C< I > is the C. =item * Sets the C property of the network interface to C, and the C value to C. =back Each Amazon EFS mount target has one corresponding requester-managed EC2 network interface. After the network interface is created, Amazon EFS sets the C field in the mount target's description to the network interface ID, and the C field to its address. If network interface creation fails, the entire C operation fails. =back The C call returns only after creating the network interface, but while the mount target state is still C, 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 (http://aws.amazon.com/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: =over =item * C =back This operation also requires permissions for the following Amazon EC2 actions: =over =item * C =item * C =item * C =back =head2 CreateTags =over =item FileSystemId => Str =item Tags => ArrayRef[L] =back Each argument is described in detail in: L Returns: nothing DEPRECATED - CreateTags is deprecated and not maintained. Please use the API action to create tags for EFS resources. 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 C tag to your file system, Amazon EFS returns it in the response to the DescribeFileSystems operation. This operation requires permission for the C action. =head2 DeleteAccessPoint =over =item AccessPointId => Str =back Each argument is described in detail in: L Returns: nothing 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 C action. =head2 DeleteFileSystem =over =item FileSystemId => Str =back Each argument is described in detail in: L Returns: nothing 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 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 C call returns while the file system state is still C. 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 C<404 FileSystemNotFound> error. This operation requires permissions for the C action. =head2 DeleteFileSystemPolicy =over =item FileSystemId => Str =back Each argument is described in detail in: L Returns: nothing Deletes the C for the specified file system. The default C 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 (https://docs.aws.amazon.com/efs/latest/ug/res-based-policies-efs.html). This operation requires permissions for the C action. =head2 DeleteMountTarget =over =item MountTargetId => Str =back Each argument is described in detail in: L Returns: nothing 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: =over =item * C =back The C call returns while the mount target state is still C. 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: =over =item * C =back =head2 DeleteTags =over =item FileSystemId => Str =item TagKeys => ArrayRef[Str|Undef] =back Each argument is described in detail in: L Returns: nothing DEPRECATED - DeleteTags is deprecated and not maintained. Please use the API action to remove tags from EFS resources. Deletes the specified tags from a file system. If the C 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 (https://docs.aws.amazon.com/awsaccountbilling/latest/aboutv2/cost-alloc-tags.html) in the I. This operation requires permissions for the C action. =head2 DescribeAccessPoints =over =item [AccessPointId => Str] =item [FileSystemId => Str] =item [MaxResults => Int] =item [NextToken => Str] =back Each argument is described in detail in: L Returns: a L instance Returns the description of a specific Amazon EFS access point if the C is provided. If you provide an EFS C, it returns descriptions of all access points for that file system. You can provide either an C or a C in the request, but not both. This operation requires permissions for the C action. =head2 DescribeAccountPreferences =over =item [MaxResults => Int] =item [NextToken => Str] =back Each argument is described in detail in: L Returns: a L instance =head2 DescribeBackupPolicy =over =item FileSystemId => Str =back Each argument is described in detail in: L Returns: a L instance Returns the backup policy for the specified EFS file system. =head2 DescribeFileSystemPolicy =over =item FileSystemId => Str =back Each argument is described in detail in: L Returns: a L instance Returns the C for the specified EFS file system. This operation requires permissions for the C action. =head2 DescribeFileSystems =over =item [CreationToken => Str] =item [FileSystemId => Str] =item [Marker => Str] =item [MaxItems => Int] =back Each argument is described in detail in: L Returns: a L instance Returns the description of a specific Amazon EFS file system if either the file system C or the C is provided. Otherwise, it returns descriptions of all file systems owned by the caller's AWS account in the AWS Region of the endpoint that you're calling. When retrieving all file system descriptions, you can optionally specify the C parameter to limit the number of descriptions in a response. Currently, this number is automatically set to 10. If more file system descriptions remain, Amazon EFS returns a C, an opaque token, in the response. In this case, you should send a subsequent request with the C request parameter set to the value of C. To retrieve a list of your file system descriptions, this operation is used in an iterative process, where C is called first without the C and then the operation continues to call it with the C parameter set to the value of the C from the previous response until the response has no C. The order of file systems returned in the response of one C call and the order of file systems returned across the responses of a multi-call iteration is unspecified. This operation requires permissions for the C action. =head2 DescribeLifecycleConfiguration =over =item FileSystemId => Str =back Each argument is described in detail in: L Returns: a L instance Returns the current C object for the specified Amazon EFS file system. EFS lifecycle management uses the C object to identify which files to move to the EFS Infrequent Access (IA) storage class. For a file system without a C object, the call returns an empty array in the response. This operation requires permissions for the C operation. =head2 DescribeMountTargets =over =item [AccessPointId => Str] =item [FileSystemId => Str] =item [Marker => Str] =item [MaxItems => Int] =item [MountTargetId => Str] =back Each argument is described in detail in: L Returns: a L instance 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 C action, on either the file system ID that you specify in C, or on the file system of the mount target that you specify in C. =head2 DescribeMountTargetSecurityGroups =over =item MountTargetId => Str =back Each argument is described in detail in: L Returns: a L instance 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 C. This operation requires permissions for the following actions: =over =item * C action on the mount target's file system. =item * C action on the mount target's network interface. =back =head2 DescribeTags =over =item FileSystemId => Str =item [Marker => Str] =item [MaxItems => Int] =back Each argument is described in detail in: L Returns: a L instance DEPRECATED - The DeleteTags action is deprecated and not maintained. Please use the API action to remove tags from EFS resources. Returns the tags associated with a file system. The order of tags returned in the response of one C 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 C action. =head2 ListTagsForResource =over =item ResourceId => Str =item [MaxResults => Int] =item [NextToken => Str] =back Each argument is described in detail in: L Returns: a L instance 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 C action. =head2 ModifyMountTargetSecurityGroups =over =item MountTargetId => Str =item [SecurityGroups => ArrayRef[Str|Undef]] =back Each argument is described in detail in: L Returns: nothing 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 C 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 C. The operation requires permissions for the following actions: =over =item * C action on the mount target's file system. =item * C action on the mount target's network interface. =back =head2 PutAccountPreferences =over =item ResourceIdType => Str =back Each argument is described in detail in: L Returns: a L instance =head2 PutBackupPolicy =over =item BackupPolicy => L =item FileSystemId => Str =back Each argument is described in detail in: L Returns: a L instance Updates the file system's backup policy. Use this action to start or stop automatic backups of the file system. =head2 PutFileSystemPolicy =over =item FileSystemId => Str =item Policy => Str =item [BypassPolicyLockoutSafetyCheck => Bool] =back Each argument is described in detail in: L Returns: a L instance Applies an Amazon EFS C 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 (https://docs.aws.amazon.com/efs/latest/ug/iam-access-control-nfs-efs.html#default-filesystempolicy). EFS file system policies have a 20,000 character limit. This operation requires permissions for the C action. =head2 PutLifecycleConfiguration =over =item FileSystemId => Str =item LifecyclePolicies => ArrayRef[L] =back Each argument is described in detail in: L Returns: a L instance Enables lifecycle management by creating a new C object. A C object defines when files in an Amazon EFS file system are automatically transitioned to the lower-cost EFS Infrequent Access (IA) storage class. A C applies to all files in a file system. Each Amazon EFS file system supports one lifecycle configuration, which applies to all files in the file system. If a C object already exists for the specified file system, a C call modifies the existing configuration. A C call with an empty C array in the request body deletes any existing C and disables lifecycle management. In the request, specify the following: =over =item * The ID for the file system for which you are enabling, disabling, or modifying lifecycle management. =item * A C array of C objects that define when files are moved to the IA storage class. The array can contain only one C item. =back This operation requires permissions for the C operation. To apply a C object to an encrypted file system, you need the same AWS Key Management Service (AWS KMS) permissions as when you created the encrypted file system. =head2 TagResource =over =item ResourceId => Str =item Tags => ArrayRef[L] =back Each argument is described in detail in: L Returns: nothing 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 C action. =head2 UntagResource =over =item ResourceId => Str =item TagKeys => ArrayRef[Str|Undef] =back Each argument is described in detail in: L Returns: nothing 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 C action. =head2 UpdateFileSystem =over =item FileSystemId => Str =item [ProvisionedThroughputInMibps => Num] =item [ThroughputMode => Str] =back Each argument is described in detail in: L Returns: a L instance Updates the throughput mode or the amount of provisioned throughput of an existing file system. =head1 PAGINATORS Paginator methods are helpers that repetively call methods that return partial results =head2 DescribeAllFileSystems(sub { },[CreationToken => Str, FileSystemId => Str, Marker => Str, MaxItems => Int]) =head2 DescribeAllFileSystems([CreationToken => Str, FileSystemId => Str, Marker => Str, MaxItems => Int]) If passed a sub as first parameter, it will call the sub for each element found in : - FileSystems, passing the object as the first parameter, and the string 'FileSystems' as the second parameter If not, it will return a a L instance with all the Cs; from all the responses. Please take into account that this mode can potentially consume vasts ammounts of memory. =head2 DescribeAllMountTargets(sub { },[AccessPointId => Str, FileSystemId => Str, Marker => Str, MaxItems => Int, MountTargetId => Str]) =head2 DescribeAllMountTargets([AccessPointId => Str, FileSystemId => Str, Marker => Str, MaxItems => Int, MountTargetId => Str]) If passed a sub as first parameter, it will call the sub for each element found in : - MountTargets, passing the object as the first parameter, and the string 'MountTargets' as the second parameter If not, it will return a a L instance with all the Cs; from all the responses. Please take into account that this mode can potentially consume vasts ammounts of memory. =head2 DescribeAllTags(sub { },FileSystemId => Str, [Marker => Str, MaxItems => Int]) =head2 DescribeAllTags(FileSystemId => Str, [Marker => Str, MaxItems => Int]) If passed a sub as first parameter, it will call the sub for each element found in : - Tags, passing the object as the first parameter, and the string 'Tags' as the second parameter If not, it will return a a L instance with all the Cs; from all the responses. Please take into account that this mode can potentially consume vasts ammounts of memory. =head1 SEE ALSO This service class forms part of L =head1 BUGS and CONTRIBUTIONS The source code is located here: L Please report bugs to: L =cut