h&7>      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~                                                                                                                              !!!!!!!!!!!!!!!!!!!!!!!!!!!!""""""""""""""""""""""""#################$$$$$$$$$$$$$$$$$$$$$$$$%%%%%%%%%%%%%%%%%%%%%%%%&&&&&&&&&&&&&&&&&&''''''''''''''''''''''''''(((((((((((((((((())))))))))))))***************+++++++++++++++,,,,,,,,,,,,,,,,,,,,,-------------------...............////////////////////////000000000000000000000000000111111111111111111111111111222222222222222233333333333333333333333333334444444444444444444444444455555555555555566666666666666666 6 6 6 6 6 6 6 6 6 6 6 6 6 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; < < < < < < < < < < < < < < < < < = = = = = = = = = = = = = = = = = = = = = = = = = > > > > > > > > > > > > > > > > > > > ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? @ @ @ @ @ @ @ @ @ @ @ @ A A A A A A A A A A A A A A A A A A B B B B B B B B B B B B B B B C C C C C C C C C C C C C C C D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D E E E E E E E E E E E E E E E E E E E E E E E E E E E F F F F F F F F F F F F F F F F F F F F F F F G G G G G G G G G G G G G G G G G G G G G G H H H H H H H H H H H H H H H H I I I I I I I I I I I I I I J J J J J J J J J J J J J J J J J J J J J J J J J J K K K K K K K K K K L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L L M M M M M M M M M M M M M M M M M M M M M M M M M M N N N N N N N N N N N N N N N N N N N N N N N N O O O O O O O O O O O O O O O O O O O O O O O O P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q QQQQQQQQQQQRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ[[[[[[[[[[[[[[[[[[[[[[[[[[[[[[[[[\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^___________________________________`````````````````````````````````````````aaaaaaaaaaaaaaaaaaaaaaaaaaaabbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbccccccccccccccccccccccccccccddddddddddddddddddddddddddddeeeeeeeeeeeeeeeeeeeeeeeeeeeeffffffffffffffffffffffffffffffgggggggggggggggggggggggggggggggghhhhhhhhhhhhhhhhhhhhhhhhhhhhiiiiiiiiiiiiiiiiiiiiiiiiiiijjjjjjjjjjjjjjjjjjjjjjjjjjjjjjkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkllllllllllllllllllllllllmmmmmmmmmmmmmmmmmmmmmmmmmmnnnnnnnnnnnnnnnnnnnnnnnnnnnnooooooooooooooooooooooooppppppppppppppppppppppppqqqqqqqqqqqqqqqqqqqqqqqqqqrrrrrrrrrrrrrrrrrrrrrrrrssssssssssssssssssssssssttttttttttttttttttttttttttuuuuuuuuuuuuuuuuuuuuuuuuuuvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{||||||||||||||||||||||||||||||||||||||||||||}}}}}}}}}}}}}}}}}}}}}}}}}}~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?FP(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?G(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?G/43201 /43201432(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?H`HLKIJHLKIJLK(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?I`dcab`dcabdc(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?Ix|{yzx|{yz|{(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';T amazonka-transferEach step type has its own  StepDetails structure.See:  smart constructor.amazonka-transfer,The name of the step, used as an identifier.amazonka-transferSpecifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step.amazonka-transfer5The ARN for the lambda function that is being called.amazonka-transfer"Timeout, in seconds, for the step.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, / - The name of the step, used as an identifier.,  - Specifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step., 8 - The ARN for the lambda function that is being called., % - Timeout, in seconds, for the step.amazonka-transfer,The name of the step, used as an identifier.amazonka-transferSpecifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step.amazonka-transfer5The ARN for the lambda function that is being called.amazonka-transfer"Timeout, in seconds, for the step.  (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?UP (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';^amazonka-transfer7The name of the step, used to identify the delete step.See:  smart constructor.amazonka-transfer,The name of the step, used as an identifier.amazonka-transferSpecifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, / - The name of the step, used as an identifier.,  - Specifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step.amazonka-transfer,The name of the step, used as an identifier.amazonka-transferSpecifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step. (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';kamazonka-transferDescribes the properties of a security policy that was specified. For more information about security policies, see  https://docs.aws.amazon.com/transfer/latest/userguide/security-policies.htmlWorking with security policies.See:  smart constructor.amazonka-transferSpecifies whether this policy enables Federal Information Processing Standards (FIPS).amazonka-transferSpecifies the enabled Secure Shell (SSH) cipher encryption algorithms in the security policy that is attached to the server.amazonka-transferSpecifies the enabled SSH key exchange (KEX) encryption algorithms in the security policy that is attached to the server.amazonka-transferSpecifies the enabled SSH message authentication code (MAC) encryption algorithms in the security policy that is attached to the server.amazonka-transferSpecifies the enabled Transport Layer Security (TLS) cipher encryption algorithms in the security policy that is attached to the server.amazonka-transferSpecifies the name of the security policy that is attached to the server.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies whether this policy enables Federal Information Processing Standards (FIPS).,  - Specifies the enabled Secure Shell (SSH) cipher encryption algorithms in the security policy that is attached to the server.,  - Specifies the enabled SSH key exchange (KEX) encryption algorithms in the security policy that is attached to the server.,  - Specifies the enabled SSH message authentication code (MAC) encryption algorithms in the security policy that is attached to the server.,  - Specifies the enabled Transport Layer Security (TLS) cipher encryption algorithms in the security policy that is attached to the server.,  - Specifies the name of the security policy that is attached to the server.amazonka-transferSpecifies whether this policy enables Federal Information Processing Standards (FIPS).amazonka-transferSpecifies the enabled Secure Shell (SSH) cipher encryption algorithms in the security policy that is attached to the server.amazonka-transferSpecifies the enabled SSH key exchange (KEX) encryption algorithms in the security policy that is attached to the server.amazonka-transferSpecifies the enabled SSH message authentication code (MAC) encryption algorithms in the security policy that is attached to the server.amazonka-transferSpecifies the enabled Transport Layer Security (TLS) cipher encryption algorithms in the security policy that is attached to the server.amazonka-transferSpecifies the name of the security policy that is attached to the server.amazonka-transfer (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?l (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';qamazonka-transferReserved for future use.See:  smart constructor.amazonka-transfer:The identifier of the file system, assigned by Amazon EFS.amazonka-transfer5The pathname for the folder being used by a workflow.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, = - The identifier of the file system, assigned by Amazon EFS., 8 - The pathname for the folder being used by a workflow.amazonka-transfer:The identifier of the file system, assigned by Amazon EFS.amazonka-transfer5The pathname for the folder being used by a workflow. (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?q (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?r(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';E amazonka-transferThe virtual private cloud (VPC) endpoint settings that are configured for your file transfer protocol-enabled server. With a VPC endpoint, you can restrict access to your server and resources only within your VPC. To control incoming internet traffic, invoke the  UpdateServer API and attach an Elastic IP address to your server's endpoint.After May 19, 2021, you won't be able to create a server using EndpointType=VPC_ENDPOINT in your Amazon Web Servicesaccount if your account hasn't already done so before May 19, 2021. If you have already created servers with EndpointType=VPC_ENDPOINT in your Amazon Web Servicesaccount on or before May 19, 2021, you will not be affected. After this date, use  EndpointType=VPC.For more information, see https://docs.aws.amazon.com/transfer/latest/userguide/create-server-in-vpc.html#deprecate-vpc-endpoint.See:  smart constructor.amazonka-transferA list of address allocation IDs that are required to attach an Elastic IP address to your server's endpoint.#This property can only be set when  EndpointType is set to VPC and it is only valid in the  UpdateServer API.amazonka-transferA list of security groups IDs that are available to attach to your server's endpoint.#This property can only be set when  EndpointType is set to VPC.You can edit the SecurityGroupIds property in the  https://docs.aws.amazon.com/transfer/latest/userguide/API_UpdateServer.html UpdateServer# API only if you are changing the  EndpointType from PUBLIC or  VPC_ENDPOINT to VPC. To change security groups associated with your server's VPC endpoint after creation, use the Amazon EC2  https://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_ModifyVpcEndpoint.htmlModifyVpcEndpoint API.amazonka-transferA list of subnet IDs that are required to host your server endpoint in your VPC.#This property can only be set when  EndpointType is set to VPC.amazonka-transfer#The identifier of the VPC endpoint.#This property can only be set when  EndpointType is set to  VPC_ENDPOINT.For more information, see https://docs.aws.amazon.com/transfer/latest/userguide/create-server-in-vpc.html#deprecate-vpc-endpoint.amazonka-transferThe VPC identifier of the VPC in which a server's endpoint will be hosted.#This property can only be set when  EndpointType is set to VPC.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - A list of address allocation IDs that are required to attach an Elastic IP address to your server's endpoint.#This property can only be set when  EndpointType is set to VPC and it is only valid in the  UpdateServer API.,  - A list of security groups IDs that are available to attach to your server's endpoint.#This property can only be set when  EndpointType is set to VPC.You can edit the SecurityGroupIds property in the  https://docs.aws.amazon.com/transfer/latest/userguide/API_UpdateServer.html UpdateServer# API only if you are changing the  EndpointType from PUBLIC or  VPC_ENDPOINT to VPC. To change security groups associated with your server's VPC endpoint after creation, use the Amazon EC2  https://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_ModifyVpcEndpoint.htmlModifyVpcEndpoint API.,  - A list of subnet IDs that are required to host your server endpoint in your VPC.#This property can only be set when  EndpointType is set to VPC., & - The identifier of the VPC endpoint.#This property can only be set when  EndpointType is set to  VPC_ENDPOINT.For more information, see https://docs.aws.amazon.com/transfer/latest/userguide/create-server-in-vpc.html#deprecate-vpc-endpoint.,  - The VPC identifier of the VPC in which a server's endpoint will be hosted.#This property can only be set when  EndpointType is set to VPC.amazonka-transferA list of address allocation IDs that are required to attach an Elastic IP address to your server's endpoint.#This property can only be set when  EndpointType is set to VPC and it is only valid in the  UpdateServer API.amazonka-transferA list of security groups IDs that are available to attach to your server's endpoint.#This property can only be set when  EndpointType is set to VPC.You can edit the SecurityGroupIds property in the  https://docs.aws.amazon.com/transfer/latest/userguide/API_UpdateServer.html UpdateServer# API only if you are changing the  EndpointType from PUBLIC or  VPC_ENDPOINT to VPC. To change security groups associated with your server's VPC endpoint after creation, use the Amazon EC2  https://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_ModifyVpcEndpoint.htmlModifyVpcEndpoint API.amazonka-transferA list of subnet IDs that are required to host your server endpoint in your VPC.#This property can only be set when  EndpointType is set to VPC.amazonka-transfer#The identifier of the VPC endpoint.#This property can only be set when  EndpointType is set to  VPC_ENDPOINT.For more information, see https://docs.aws.amazon.com/transfer/latest/userguide/create-server-in-vpc.html#deprecate-vpc-endpoint.amazonka-transferThe VPC identifier of the VPC in which a server's endpoint will be hosted.#This property can only be set when  EndpointType is set to VPC.  (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";? (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";? (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';Oamazonka-transferSpecifies the error message and type, for an error that occurs during the execution of the workflow.See:  smart constructor.amazonka-transferSpecifies the error type.ALREADY_EXISTS: occurs for a copy step, if the overwrite option is not selected and a file with the same name already exists in the target location. BAD_REQUEST: a general bad request: for example, a step that attempts to tag an EFS file returns  BAD_REQUEST&, as only S3 files can be tagged.CUSTOM_STEP_FAILED: occurs when the custom step provided a callback that indicates failure.INTERNAL_SERVER_ERROR: a catch-all error that can occur for a variety of reasons. NOT_FOUND: occurs when a requested entity, for example a source file for a copy step, does not exist.PERMISSION_DENIED: occurs if your policy does not contain the correct permissions to complete one or more of the steps in the workflow.TIMEOUT&: occurs when the execution times out.You can set the TimeoutSeconds for a custom step, anywhere from 1 second to 1800 seconds (30 minutes). THROTTLED: occurs if you exceed the new execution refill rate of one workflow per second.amazonka-transfer:Specifies the descriptive message that corresponds to the  ErrorType.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the error type.ALREADY_EXISTS: occurs for a copy step, if the overwrite option is not selected and a file with the same name already exists in the target location. BAD_REQUEST: a general bad request: for example, a step that attempts to tag an EFS file returns  BAD_REQUEST&, as only S3 files can be tagged.CUSTOM_STEP_FAILED: occurs when the custom step provided a callback that indicates failure.INTERNAL_SERVER_ERROR: a catch-all error that can occur for a variety of reasons. NOT_FOUND: occurs when a requested entity, for example a source file for a copy step, does not exist.PERMISSION_DENIED: occurs if your policy does not contain the correct permissions to complete one or more of the steps in the workflow.TIMEOUT&: occurs when the execution times out.You can set the TimeoutSeconds for a custom step, anywhere from 1 second to 1800 seconds (30 minutes). THROTTLED: occurs if you exceed the new execution refill rate of one workflow per second., = - Specifies the descriptive message that corresponds to the  ErrorType.amazonka-transferSpecifies the error type.ALREADY_EXISTS: occurs for a copy step, if the overwrite option is not selected and a file with the same name already exists in the target location. BAD_REQUEST: a general bad request: for example, a step that attempts to tag an EFS file returns  BAD_REQUEST&, as only S3 files can be tagged.CUSTOM_STEP_FAILED: occurs when the custom step provided a callback that indicates failure.INTERNAL_SERVER_ERROR: a catch-all error that can occur for a variety of reasons. NOT_FOUND: occurs when a requested entity, for example a source file for a copy step, does not exist.PERMISSION_DENIED: occurs if your policy does not contain the correct permissions to complete one or more of the steps in the workflow.TIMEOUT&: occurs when the execution times out.You can set the TimeoutSeconds for a custom step, anywhere from 1 second to 1800 seconds (30 minutes). THROTTLED: occurs if you exceed the new execution refill rate of one workflow per second.amazonka-transfer:Specifies the descriptive message that corresponds to the  ErrorType.amazonka-transferamazonka-transfer(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";? (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';amazonka-transfer parameter is specified by using one of the following values: ssh-rsa  ssh-ed25519 ecdsa-sha2-nistp256 ecdsa-sha2-nistp384 ecdsa-sha2-nistp521amazonka-transfer6The unique Amazon Resource Name (ARN) of the host key.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, : - The date on which the host key was added to the server.,  - The current description for the host key. You can change it by calling the  UpdateHostKey+ operation and providing a new description.,  - The public key fingerprint, which is a short sequence of bytes used to identify the longer public key., ( - A unique identifier for the host key., ? - The encryption algorithm that is used for the host key. The Type> parameter is specified by using one of the following values: ssh-rsa  ssh-ed25519 ecdsa-sha2-nistp256 ecdsa-sha2-nistp384 ecdsa-sha2-nistp521, 9 - The unique Amazon Resource Name (ARN) of the host key.amazonka-transfer7The date on which the host key was added to the server.amazonka-transferThe current description for the host key. You can change it by calling the  UpdateHostKey+ operation and providing a new description.amazonka-transferThe public key fingerprint, which is a short sequence of bytes used to identify the longer public key.amazonka-transfer%A unique identifier for the host key.amazonka-transfer parameter is specified by using one of the following values: ssh-rsa  ssh-ed25519 ecdsa-sha2-nistp256 ecdsa-sha2-nistp384 ecdsa-sha2-nistp521amazonka-transfer6The unique Amazon Resource Name (ARN) of the host key.amazonka-transfer(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&'; amazonka-transfer0Returns properties of the user that you specify.See:  smart constructor.amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.The IAM role that controls your users' access to your Amazon S3 bucket for servers with  Domain=S3,, or your EFS file system for servers with  Domain=EFS.The policies attached to this role determine the level of access you want to provide your users when transferring files into and out of your S3 buckets or EFS file systems.amazonka-transferSpecifies the number of SSH public keys stored for the user you specified.amazonka-transferSpecifies the name of the user whose ARN was specified. User names are used for authentication purposes.amazonka-transferProvides the unique Amazon Resource Name (ARN) for the user that you want to learn about.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.,  - The type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.,  - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.The IAM role that controls your users' access to your Amazon S3 bucket for servers with  Domain=S3,, or your EFS file system for servers with  Domain=EFS.The policies attached to this role determine the level of access you want to provide your users when transferring files into and out of your S3 buckets or EFS file systems.,  - Specifies the number of SSH public keys stored for the user you specified.,  - Specifies the name of the user whose ARN was specified. User names are used for authentication purposes.,  - Provides the unique Amazon Resource Name (ARN) for the user that you want to learn about.amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.The IAM role that controls your users' access to your Amazon S3 bucket for servers with  Domain=S3,, or your EFS file system for servers with  Domain=EFS.The policies attached to this role determine the level of access you want to provide your users when transferring files into and out of your S3 buckets or EFS file systems.amazonka-transferSpecifies the number of SSH public keys stored for the user you specified.amazonka-transferSpecifies the name of the user whose ARN was specified. User names are used for authentication purposes.amazonka-transferProvides the unique Amazon Resource Name (ARN) for the user that you want to learn about.amazonka-transfer(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';tamazonka-transferContains the identifier, text description, and Amazon Resource Name (ARN) for the workflow.See:  smart constructor.amazonka-transferSpecifies the unique Amazon Resource Name (ARN) for the workflow.amazonka-transfer0Specifies the text description for the workflow.amazonka-transfer%A unique identifier for the workflow.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the unique Amazon Resource Name (ARN) for the workflow., 3 - Specifies the text description for the workflow., ( - A unique identifier for the workflow.amazonka-transferSpecifies the unique Amazon Resource Name (ARN) for the workflow.amazonka-transfer0Specifies the text description for the workflow.amazonka-transfer%A unique identifier for the workflow.  (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';amazonka-transfer4Consists of the logging role and the log group name.See:  smart constructor.amazonka-transferThe name of the CloudWatch logging group for the Transfer Family server to which this workflow belongs.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The name of the CloudWatch logging group for the Transfer Family server to which this workflow belongs.,  - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs.amazonka-transferThe name of the CloudWatch logging group for the Transfer Family server to which this workflow belongs.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs. (c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?x!(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?4 "(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?#(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';$Ramazonka-transfer,The full POSIX identity, including user ID (Uid ), group ID (Gid"), and any secondary groups IDs ( SecondaryGids), that controls your users' access to your Amazon EFS file systems. The POSIX permissions that are set on files and directories in your file system determine the level of access your users get when transferring files into and out of your Amazon EFS file systems.See:  smart constructor.amazonka-transferThe secondary POSIX group IDs used for all EFS operations by this user.amazonka-transfer;The POSIX user ID used for all EFS operations by this user.amazonka-transfer - The POSIX user ID used for all EFS operations by this user., ? - The POSIX group ID used for all EFS operations by this user.amazonka-transferThe secondary POSIX group IDs used for all EFS operations by this user.amazonka-transfer;The POSIX user ID used for all EFS operations by this user.amazonka-transferA unique identifier for the partner profile for the connector.amazonka-transferThe algorithm that is used to sign the AS2 messages sent with the connector.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 0 - Specifies whether the AS2 file is compressed., 2 - The algorithm that is used to encrypt the file., 1 - A unique identifier for the AS2 local profile.,  - Used for outbound requests (from an Transfer Family server to a partner AS2 server) to determine whether the partner response for transfers is synchronous or asynchronous. Specify either of the following values:SYNC: The system expects a synchronous MDN response, confirming that the file was transferred successfully (or not).NONE-: Specifies that no MDN response is required., . - The signing algorithm for the MDN response.5If set to DEFAULT (or not set at all), the value for SigningAlogorithm is used.,  - Used as the Subject HTTP header attribute in AS2 messages that are being sent with the connector.,  - A unique identifier for the partner profile for the connector.,  - The algorithm that is used to sign the AS2 messages sent with the connector.amazonka-transfer-Specifies whether the AS2 file is compressed.amazonka-transfer/The algorithm that is used to encrypt the file.amazonka-transfer.A unique identifier for the AS2 local profile.amazonka-transferUsed for outbound requests (from an Transfer Family server to a partner AS2 server) to determine whether the partner response for transfers is synchronous or asynchronous. Specify either of the following values:SYNC: The system expects a synchronous MDN response, confirming that the file was transferred successfully (or not).NONE-: Specifies that no MDN response is required.amazonka-transfer+The signing algorithm for the MDN response.5If set to DEFAULT (or not set at all), the value for SigningAlogorithm is used.amazonka-transfer Used as the Subject HTTP header attribute in AS2 messages that are being sent with the connector.amazonka-transfer>A unique identifier for the partner profile for the connector.amazonka-transferThe algorithm that is used to sign the AS2 messages sent with the connector.2(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';amazonka-transferProvides information about the public Secure Shell (SSH) key that is associated with a user account for the specific file transfer protocol-enabled server (as identified by ServerId). The information returned includes the date the key was imported, the public key contents, and the public key ID. A user can store more than one SSH public key associated with their user name on a specific server.See:  smart constructor.amazonka-transferSpecifies the date that the public key was added to the user account.amazonka-transferSpecifies the content of the SSH public key as specified by the  PublicKeyId.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transferSpecifies the SshPublicKeyId6 parameter contains the identifier of the public key.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the date that the public key was added to the user account.,  - Specifies the content of the SSH public key as specified by the  PublicKeyId.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.,  - Specifies the SshPublicKeyId6 parameter contains the identifier of the public key.amazonka-transferSpecifies the date that the public key was added to the user account.amazonka-transferSpecifies the content of the SSH public key as specified by the  PublicKeyId.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transferSpecifies the SshPublicKeyId6 parameter contains the identifier of the public key.amazonka-transferamazonka-transferamazonka-transfer  3(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?amazonka-transferDescribes the condition of a file transfer protocol-enabled server with respect to its ability to perform file operations. There are six possible states: OFFLINE, ONLINE, STARTING, STOPPING,  START_FAILED, and  STOP_FAILED.OFFLINE indicates that the server exists, but that it is not available for file operations. ONLINE indicates that the server is available to perform file operations. STARTING indicates that the server's was instantiated, but the server is not yet available to perform file operations. Under normal conditions, it can take a couple of minutes for the server to be completely operational. Both  START_FAILED and  STOP_FAILED are error conditions. 4(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';amazonka-transferReturns properties of a file transfer protocol-enabled server that was specified.See:  smart constructor.amazonka-transferSpecifies the domain of the storage system that is used for file transfers.amazonka-transferSpecifies the type of VPC endpoint that your server is connected to. If your server is connected to a VPC endpoint, your server isn't accessible over the public internet.amazonka-transfer?The mode of authentication for a server. The default value is SERVICE_MANAGED, which allows you to store and access user credentials within the Transfer Family service.Use AWS_DIRECTORY_SERVICE to provide access to Active Directory groups in Directory Service for Microsoft Active Directory or Microsoft Active Directory in your on-premises environment or in Amazon Web Services using AD Connector. This option also requires you to provide a Directory ID by using the IdentityProviderDetails parameter.Use the  API_GATEWAY value to integrate with an identity provider of your choosing. The  API_GATEWAY setting requires you to provide an Amazon API Gateway endpoint URL to call for authentication by using the IdentityProviderDetails parameter.Use the  AWS_LAMBDA value to directly use an Lambda function as your identity provider. If you choose this value, you must specify the ARN for the Lambda function in the Function parameter or the IdentityProviderDetails data type.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs.amazonka-transferSpecifies the unique system assigned identifier for the servers that were listed.amazonka-transfer;The condition of the server that was described. A value of ONLINE indicates that the server can accept jobs and transfer files. A State value of OFFLINE means that the server cannot perform file transfer operations.The states of STARTING and STOPPING indicate that the server is in an intermediate state, either not fully able to respond, or not fully offline. The values of  START_FAILED or  STOP_FAILED" can indicate an error condition.amazonka-transferSpecifies the number of users that are assigned to a server you specified with the ServerId.amazonka-transferSpecifies the unique Amazon Resource Name (ARN) for a server to be listed.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the domain of the storage system that is used for file transfers.,  - Specifies the type of VPC endpoint that your server is connected to. If your server is connected to a VPC endpoint, your server isn't accessible over the public internet.,  - The mode of authentication for a server. The default value is SERVICE_MANAGED, which allows you to store and access user credentials within the Transfer Family service.Use AWS_DIRECTORY_SERVICE to provide access to Active Directory groups in Directory Service for Microsoft Active Directory or Microsoft Active Directory in your on-premises environment or in Amazon Web Services using AD Connector. This option also requires you to provide a Directory ID by using the IdentityProviderDetails parameter.Use the  API_GATEWAY value to integrate with an identity provider of your choosing. The  API_GATEWAY setting requires you to provide an Amazon API Gateway endpoint URL to call for authentication by using the IdentityProviderDetails parameter.Use the  AWS_LAMBDA value to directly use an Lambda function as your identity provider. If you choose this value, you must specify the ARN for the Lambda function in the Function parameter or the IdentityProviderDetails data type.,  - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs.,  - Specifies the unique system assigned identifier for the servers that were listed., > - The condition of the server that was described. A value of ONLINE indicates that the server can accept jobs and transfer files. A State value of OFFLINE means that the server cannot perform file transfer operations.The states of STARTING and STOPPING indicate that the server is in an intermediate state, either not fully able to respond, or not fully offline. The values of  START_FAILED or  STOP_FAILED" can indicate an error condition.,  - Specifies the number of users that are assigned to a server you specified with the ServerId.,  - Specifies the unique Amazon Resource Name (ARN) for a server to be listed.amazonka-transferSpecifies the domain of the storage system that is used for file transfers.amazonka-transferSpecifies the type of VPC endpoint that your server is connected to. If your server is connected to a VPC endpoint, your server isn't accessible over the public internet.amazonka-transfer?The mode of authentication for a server. The default value is SERVICE_MANAGED, which allows you to store and access user credentials within the Transfer Family service.Use AWS_DIRECTORY_SERVICE to provide access to Active Directory groups in Directory Service for Microsoft Active Directory or Microsoft Active Directory in your on-premises environment or in Amazon Web Services using AD Connector. This option also requires you to provide a Directory ID by using the IdentityProviderDetails parameter.Use the  API_GATEWAY value to integrate with an identity provider of your choosing. The  API_GATEWAY setting requires you to provide an Amazon API Gateway endpoint URL to call for authentication by using the IdentityProviderDetails parameter.Use the  AWS_LAMBDA value to directly use an Lambda function as your identity provider. If you choose this value, you must specify the ARN for the Lambda function in the Function parameter or the IdentityProviderDetails data type.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs.amazonka-transferSpecifies the unique system assigned identifier for the servers that were listed.amazonka-transfer;The condition of the server that was described. A value of ONLINE indicates that the server can accept jobs and transfer files. A State value of OFFLINE means that the server cannot perform file transfer operations.The states of STARTING and STOPPING indicate that the server is in an intermediate state, either not fully able to respond, or not fully offline. The values of  START_FAILED or  STOP_FAILED" can indicate an error condition.amazonka-transferSpecifies the number of users that are assigned to a server you specified with the ServerId.amazonka-transferSpecifies the unique Amazon Resource Name (ARN) for a server to be listed.amazonka-transfer5(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';Eamazonka-transferCreates a key-value pair for a specific resource. Tags are metadata that you can use to search for and group a resource for various purposes. You can apply tags to servers, users, and roles. A tag key can take more than one value. For example, to group servers for accounting purposes, you might create a tag called Group and assign the values Research and  Accounting to that group.See:  smart constructor.amazonka-transfer-The name assigned to the tag that you create.amazonka-transferContains one or more values that you assigned to the key name you create.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 0 - The name assigned to the tag that you create.,  - Contains one or more values that you assigned to the key name you create.amazonka-transfer-The name assigned to the tag that you create.amazonka-transferContains one or more values that you assigned to the key name you create.amazonka-transferamazonka-transfer6(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';?amazonka-transfer6Describes the properties of a user that was specified.See:  smart constructor.amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferLogical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.In most cases, you can use this value instead of the session policy to lock your user down to the designated home directory ("chroot"). To do this, you can set Entry to '/' and set Target' to the HomeDirectory parameter value.amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferA session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.amazonka-transfer6Specifies the full POSIX identity, including user ID (Uid), group ID (Gid!), and any secondary groups IDs ( SecondaryGids), that controls your users' access to your Amazon Elastic File System (Amazon EFS) file systems. The POSIX permissions that are set on files and directories in your file system determine the level of access your users get when transferring files into and out of your Amazon EFS file systems.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.amazonka-transferSpecifies the public key portion of the Secure Shell (SSH) keys stored for the described user.amazonka-transferSpecifies the key-value pairs for the user requested. Tag can be used to search for and group users for a variety of purposes.amazonka-transferSpecifies the name of the user that was requested to be described. User names are used for authentication purposes. This is the string that will be used by your user when they log in to your server.amazonka-transferSpecifies the unique Amazon Resource Name (ARN) for the user that was requested to be described.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.,  - Logical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.In most cases, you can use this value instead of the session policy to lock your user down to the designated home directory ("chroot"). To do this, you can set Entry to '/' and set Target' to the HomeDirectory parameter value.,  - The type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.,  - A session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,  9 - Specifies the full POSIX identity, including user ID (Uid), group ID (Gid!), and any secondary groups IDs ( SecondaryGids), that controls your users' access to your Amazon Elastic File System (Amazon EFS) file systems. The POSIX permissions that are set on files and directories in your file system determine the level of access your users get when transferring files into and out of your Amazon EFS file systems.,   - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.,   - Specifies the public key portion of the Secure Shell (SSH) keys stored for the described user.,   - Specifies the key-value pairs for the user requested. Tag can be used to search for and group users for a variety of purposes.,   - Specifies the name of the user that was requested to be described. User names are used for authentication purposes. This is the string that will be used by your user when they log in to your server.,   - Specifies the unique Amazon Resource Name (ARN) for the user that was requested to be described.amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferLogical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.In most cases, you can use this value instead of the session policy to lock your user down to the designated home directory ("chroot"). To do this, you can set Entry to '/' and set Target' to the HomeDirectory parameter value.amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferA session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}. amazonka-transfer6Specifies the full POSIX identity, including user ID (Uid), group ID (Gid!), and any secondary groups IDs ( SecondaryGids), that controls your users' access to your Amazon Elastic File System (Amazon EFS) file systems. The POSIX permissions that are set on files and directories in your file system determine the level of access your users get when transferring files into and out of your Amazon EFS file systems. amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests. amazonka-transferSpecifies the public key portion of the Secure Shell (SSH) keys stored for the described user. amazonka-transferSpecifies the key-value pairs for the user requested. Tag can be used to search for and group users for a variety of purposes. amazonka-transferSpecifies the name of the user that was requested to be described. User names are used for authentication purposes. This is the string that will be used by your user when they log in to your server. amazonka-transferSpecifies the unique Amazon Resource Name (ARN) for the user that was requested to be described.amazonka-transfer  7(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&'; S amazonka-transfer/The details for a local or partner AS2 profile.See:   smart constructor. amazonka-transferThe As2Id is the AS2-name, as defined in the  -https://datatracker.ietf.org/doc/html/rfc4130RFC 4130&. For inbound transfers, this is the AS2-From header for the AS2 messages sent from the partner. For outbound connectors, this is the AS2-To< header for the AS2 messages sent to the partner using the StartFileTransfer/ API operation. This ID cannot include spaces. amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles. amazonka-transfer9A unique identifier for the local or partner AS2 profile. amazonka-transferIndicates whether to list only LOCAL type profiles or only PARTNER type profiles. If not supplied in the request, the command lists all types of profiles. amazonka-transferKey-value pairs that can be used to group and search for profiles. amazonka-transfer6The unique Amazon Resource Name (ARN) for the profile. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - The As2Id is the AS2-name, as defined in the  -https://datatracker.ietf.org/doc/html/rfc4130RFC 4130&. For inbound transfers, this is the AS2-From header for the AS2 messages sent from the partner. For outbound connectors, this is the AS2-To< header for the AS2 messages sent to the partner using the StartFileTransfer/ API operation. This ID cannot include spaces. ,   - An array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles. ,  < - A unique identifier for the local or partner AS2 profile. ,  " - Indicates whether to list only LOCAL type profiles or only PARTNER type profiles. If not supplied in the request, the command lists all types of profiles. ,   - Key-value pairs that can be used to group and search for profiles. ,  9 - The unique Amazon Resource Name (ARN) for the profile. amazonka-transferThe As2Id is the AS2-name, as defined in the  -https://datatracker.ietf.org/doc/html/rfc4130RFC 4130&. For inbound transfers, this is the AS2-From header for the AS2 messages sent from the partner. For outbound connectors, this is the AS2-To< header for the AS2 messages sent to the partner using the StartFileTransfer/ API operation. This ID cannot include spaces. amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles. amazonka-transfer9A unique identifier for the local or partner AS2 profile. amazonka-transferIndicates whether to list only LOCAL type profiles or only PARTNER type profiles. If not supplied in the request, the command lists all types of profiles. amazonka-transferKey-value pairs that can be used to group and search for profiles. amazonka-transfer6The unique Amazon Resource Name (ARN) for the profile. amazonka-transfer   8(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&'; amazonka-transfer"The details for a server host key.See:   smart constructor. amazonka-transfer7The date on which the host key was added to the server. amazonka-transfer'The text description for this host key. amazonka-transferThe public key fingerprint, which is a short sequence of bytes used to identify the longer public key. amazonka-transfer%A unique identifier for the host key. amazonka-transferKey-value pairs that can be used to group and search for host keys. amazonka-transfer parameter is specified by using one of the following values: ssh-rsa  ssh-ed25519 ecdsa-sha2-nistp256 ecdsa-sha2-nistp384 ecdsa-sha2-nistp521 amazonka-transfer7The unique Amazon Resource Name (ARN) for the host key. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  : - The date on which the host key was added to the server. ,  * - The text description for this host key. ,   - The public key fingerprint, which is a short sequence of bytes used to identify the longer public key. ,  ( - A unique identifier for the host key. ,   - Key-value pairs that can be used to group and search for host keys. ,  ? - The encryption algorithm that is used for the host key. The Type> parameter is specified by using one of the following values: ssh-rsa  ssh-ed25519 ecdsa-sha2-nistp256 ecdsa-sha2-nistp384 ecdsa-sha2-nistp521 ,  : - The unique Amazon Resource Name (ARN) for the host key. amazonka-transfer7The date on which the host key was added to the server. amazonka-transfer'The text description for this host key. amazonka-transferThe public key fingerprint, which is a short sequence of bytes used to identify the longer public key. amazonka-transfer%A unique identifier for the host key. amazonka-transferKey-value pairs that can be used to group and search for host keys. amazonka-transfer parameter is specified by using one of the following values: ssh-rsa  ssh-ed25519 ecdsa-sha2-nistp256 ecdsa-sha2-nistp384 ecdsa-sha2-nistp521 amazonka-transfer7The unique Amazon Resource Name (ARN) for the host key. amazonka-transfer   9(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';+ amazonka-transferDescribes the parameters for the connector, as identified by the  ConnectorId.See:   smart constructor. amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer. amazonka-transferA structure that contains the parameters for a connector object. amazonka-transfer(The unique identifier for the connector. amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs. amazonka-transferKey-value pairs that can be used to group and search for connectors. amazonka-transfer&The URL of the partner's AS2 endpoint. amazonka-transfer8The unique Amazon Resource Name (ARN) for the connector. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  + - With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer. ,   - A structure that contains the parameters for a connector object. ,  + - The unique identifier for the connector. ,   - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs. ,   - Key-value pairs that can be used to group and search for connectors. ,  ) - The URL of the partner's AS2 endpoint. ,  ; - The unique Amazon Resource Name (ARN) for the connector. amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer. amazonka-transferA structure that contains the parameters for a connector object. amazonka-transfer(The unique identifier for the connector. amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs. amazonka-transferKey-value pairs that can be used to group and search for connectors. amazonka-transfer&The URL of the partner's AS2 endpoint. amazonka-transfer8The unique Amazon Resource Name (ARN) for the connector. amazonka-transfer   :(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';@ amazonka-transfer*Describes the properties of a certificate.See:   smart constructor. amazonka-transferAn optional date that specifies when the certificate becomes active. amazonka-transfer"The file name for the certificate. amazonka-transferThe list of certificates that make up the chain for the certificate. amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles. amazonka-transferThe name or description that's used to identity the certificate. amazonka-transferAn optional date that specifies when the certificate becomes inactive. amazonka-transfer-The final date that the certificate is valid. amazonka-transfer0The earliest date that the certificate is valid. amazonka-transfer&The serial number for the certificate. amazonka-transferThe certificate can be either ACTIVE, PENDING_ROTATION, or INACTIVE. PENDING_ROTATION means that this certificate will replace the current certificate when it expires. amazonka-transferKey-value pairs that can be used to group and search for certificates. amazonka-transferIf a private key has been specified for the certificate, its type is CERTIFICATE_WITH_PRIVATE_KEY+. If there is no private key, the type is  CERTIFICATE. amazonka-transferSpecifies whether this certificate is used for signing or encryption. amazonka-transfer:The unique Amazon Resource Name (ARN) for the certificate. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - An optional date that specifies when the certificate becomes active. ,  % - The file name for the certificate. ,   - The list of certificates that make up the chain for the certificate. ,   - An array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles. ,   - The name or description that's used to identity the certificate. ,   - An optional date that specifies when the certificate becomes inactive. ,  0 - The final date that the certificate is valid. ,  3 - The earliest date that the certificate is valid. ,  ) - The serial number for the certificate. ,  ! - The certificate can be either ACTIVE, PENDING_ROTATION, or INACTIVE. PENDING_ROTATION means that this certificate will replace the current certificate when it expires. ,   - Key-value pairs that can be used to group and search for certificates. ,   - If a private key has been specified for the certificate, its type is CERTIFICATE_WITH_PRIVATE_KEY+. If there is no private key, the type is  CERTIFICATE. ,   - Specifies whether this certificate is used for signing or encryption. ,  = - The unique Amazon Resource Name (ARN) for the certificate. amazonka-transferAn optional date that specifies when the certificate becomes active. amazonka-transfer"The file name for the certificate. amazonka-transferThe list of certificates that make up the chain for the certificate. amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles. amazonka-transferThe name or description that's used to identity the certificate. amazonka-transferAn optional date that specifies when the certificate becomes inactive. amazonka-transfer-The final date that the certificate is valid. amazonka-transfer0The earliest date that the certificate is valid. amazonka-transfer&The serial number for the certificate. amazonka-transferThe certificate can be either ACTIVE, PENDING_ROTATION, or INACTIVE. PENDING_ROTATION means that this certificate will replace the current certificate when it expires. amazonka-transferKey-value pairs that can be used to group and search for certificates. amazonka-transferIf a private key has been specified for the certificate, its type is CERTIFICATE_WITH_PRIVATE_KEY+. If there is no private key, the type is  CERTIFICATE. amazonka-transferSpecifies whether this certificate is used for signing or encryption. amazonka-transfer:The unique Amazon Resource Name (ARN) for the certificate. amazonka-transfer   ;(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';W[ amazonka-transfer)Describes the properties of an agreement.See:   smart constructor. amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer. amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement. amazonka-transferThe landing directory (folder) for files that are transferred by using the AS2 protocol. amazonka-transferThe name or short description that's used to identify the agreement. amazonka-transfer.A unique identifier for the AS2 local profile. amazonka-transferA unique identifier for the partner profile used in the agreement. amazonka-transferA system-assigned unique identifier for a server instance. This identifier indicates the specific server that the agreement uses. amazonka-transfer,The current status of the agreement, either ACTIVE or INACTIVE. amazonka-transferKey-value pairs that can be used to group and search for agreements. amazonka-transfer8The unique Amazon Resource Name (ARN) for the agreement. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  + - With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer. ,   - A unique identifier for the agreement. This identifier is returned when you create an agreement. ,   - The landing directory (folder) for files that are transferred by using the AS2 protocol. ,   - The name or short description that's used to identify the agreement. ,  1 - A unique identifier for the AS2 local profile. ,   - A unique identifier for the partner profile used in the agreement. ,   - A system-assigned unique identifier for a server instance. This identifier indicates the specific server that the agreement uses. ,  / - The current status of the agreement, either ACTIVE or INACTIVE. ,   - Key-value pairs that can be used to group and search for agreements. ,  ; - The unique Amazon Resource Name (ARN) for the agreement. amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer. amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement. amazonka-transferThe landing directory (folder) for files that are transferred by using the AS2 protocol. amazonka-transferThe name or short description that's used to identify the agreement. amazonka-transfer.A unique identifier for the AS2 local profile. amazonka-transferA unique identifier for the partner profile used in the agreement. amazonka-transferA system-assigned unique identifier for a server instance. This identifier indicates the specific server that the agreement uses. amazonka-transfer,The current status of the agreement, either ACTIVE or INACTIVE. amazonka-transferKey-value pairs that can be used to group and search for agreements. amazonka-transfer8The unique Amazon Resource Name (ARN) for the agreement. amazonka-transfer   <(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';b amazonka-transferEach step type has its own  StepDetails structure.The key/value pairs used to tag a file during the execution of a workflow step.See:   smart constructor. amazonka-transfer,The name of the step, used as an identifier. amazonka-transferSpecifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step. amazonka-transfer1Array that contains from 1 to 10 key/value pairs. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  / - The name of the step, used as an identifier. ,   - Specifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step. ,  4 - Array that contains from 1 to 10 key/value pairs. amazonka-transfer,The name of the step, used as an identifier. amazonka-transferSpecifies which file to use as input to the workflow step: either the output from the previous step, or the originally uploaded file for the workflow.Enter ${previous.file} to use the previous file as the input. In this case, this workflow step uses the output file from the previous workflow step as input. This is the default value.Enter ${original.file} to use the originally-uploaded file location as input for this step. amazonka-transfer1Array that contains from 1 to 10 key/value pairs. =(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";?b >(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';X amazonka-transfer:The protocol settings that are configured for your server.See:   smart constructor. amazonka-transferIndicates the transport method for the AS2 messages. Currently, only HTTP is supported. amazonka-transferIndicates passive mode, for FTP and FTPS protocols. Enter a single IPv4 address, such as the public IP address of a firewall, router, or load balancer. For example: ?aws transfer update-server --protocol-details PassiveIp=0.0.0.0Replace 0.0.0.0 in the example above with the actual IP address you want to use.If you change the  PassiveIp value, you must stop and then restart your Transfer Family server for the change to take effect. For details on using passive mode (PASV) in a NAT environment, see  http://aws.amazon.com/blogs/storage/configuring-your-ftps-server-behind-a-firewall-or-nat-with-aws-transfer-family/Configuring your FTPS server behind a firewall or NAT with Transfer Family.Special valuesThe AUTO and 0.0.0.0 are special values for the  PassiveIp parameter. The value PassiveIp=AUTO is assigned by default to FTP and FTPS type servers. In this case, the server automatically responds with one of the endpoint IPs within the PASV response. PassiveIp=0.0.0.0 has a more unique application for its usage. For example, if you have a High Availability (HA) Network Load Balancer (NLB) environment, where you have 3 subnets, you can only specify a single IP address using the  PassiveIp parameter. This reduces the effectiveness of having High Availability. In this case, you can specify PassiveIp=0.0.0.0. This tells the client to use the same IP address as the Control connection and utilize all AZs for their connections. Note, however, that not all FTP clients support the PassiveIp=0.0.0.0 response. FileZilla and WinSCP do support it. If you are using other clients, check to see if your client supports the PassiveIp=0.0.0.0 response. amazonka-transferUse the  SetStatOption to ignore the error that is generated when the client attempts to use SETSTAT. on a file you are uploading to an S3 bucket.Some SFTP file transfer clients can attempt to change the attributes of remote files, including timestamp and permissions, using commands, such as SETSTAT when uploading the file. However, these commands are not compatible with object storage systems, such as Amazon S3. Due to this incompatibility, file uploads from these clients can result in errors even when the file is otherwise successfully uploaded.Set the value to  ENABLE_NO_OP0 to have the Transfer Family server ignore the SETSTAT command, and upload files without needing to make any changes to your SFTP client. While the  SetStatOption  ENABLE_NO_OP setting ignores the error, it does generate a log entry in Amazon CloudWatch Logs, so you can determine when the client is making a SETSTAT call.If you want to preserve the original timestamp for your file, and modify other file attributes using SETSTAT, you can use Amazon EFS as backend storage with Transfer Family. amazonka-transferA property used with Transfer Family servers that use the FTPS protocol. TLS Session Resumption provides a mechanism to resume or share a negotiated secret key between the control and data connection for an FTPS session. TlsSessionResumptionMode determines whether or not the server resumes recent, negotiated sessions through a unique session ID. This property is available during  CreateServer and  UpdateServer calls. If a TlsSessionResumptionMode value is not specified during  CreateServer, it is set to ENFORCED by default.DISABLED: the server does not process TLS session resumption client requests and creates a new TLS session for each request.ENABLED: the server processes and accepts clients that are performing TLS session resumption. The server doesn't reject client data connections that do not perform the TLS session resumption client processing.ENFORCED: the server processes and accepts clients that are performing TLS session resumption. The server rejects client data connections that do not perform the TLS session resumption client processing. Before you set the value to ENFORCED, test your clients.Not all FTPS clients perform TLS session resumption. So, if you choose to enforce TLS session resumption, you prevent any connections from FTPS clients that don't perform the protocol negotiation. To determine whether or not you can use the ENFORCED& value, you need to test your clients. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - Indicates the transport method for the AS2 messages. Currently, only HTTP is supported. ,   - Indicates passive mode, for FTP and FTPS protocols. Enter a single IPv4 address, such as the public IP address of a firewall, router, or load balancer. For example: ?aws transfer update-server --protocol-details PassiveIp=0.0.0.0Replace 0.0.0.0 in the example above with the actual IP address you want to use.If you change the  PassiveIp value, you must stop and then restart your Transfer Family server for the change to take effect. For details on using passive mode (PASV) in a NAT environment, see  http://aws.amazon.com/blogs/storage/configuring-your-ftps-server-behind-a-firewall-or-nat-with-aws-transfer-family/Configuring your FTPS server behind a firewall or NAT with Transfer Family.Special valuesThe AUTO and 0.0.0.0 are special values for the  PassiveIp parameter. The value PassiveIp=AUTO is assigned by default to FTP and FTPS type servers. In this case, the server automatically responds with one of the endpoint IPs within the PASV response. PassiveIp=0.0.0.0 has a more unique application for its usage. For example, if you have a High Availability (HA) Network Load Balancer (NLB) environment, where you have 3 subnets, you can only specify a single IP address using the  PassiveIp parameter. This reduces the effectiveness of having High Availability. In this case, you can specify PassiveIp=0.0.0.0. This tells the client to use the same IP address as the Control connection and utilize all AZs for their connections. Note, however, that not all FTP clients support the PassiveIp=0.0.0.0 response. FileZilla and WinSCP do support it. If you are using other clients, check to see if your client supports the PassiveIp=0.0.0.0 response. ,   - Use the  SetStatOption to ignore the error that is generated when the client attempts to use SETSTAT. on a file you are uploading to an S3 bucket.Some SFTP file transfer clients can attempt to change the attributes of remote files, including timestamp and permissions, using commands, such as SETSTAT when uploading the file. However, these commands are not compatible with object storage systems, such as Amazon S3. Due to this incompatibility, file uploads from these clients can result in errors even when the file is otherwise successfully uploaded.Set the value to  ENABLE_NO_OP0 to have the Transfer Family server ignore the SETSTAT command, and upload files without needing to make any changes to your SFTP client. While the  SetStatOption  ENABLE_NO_OP setting ignores the error, it does generate a log entry in Amazon CloudWatch Logs, so you can determine when the client is making a SETSTAT call.If you want to preserve the original timestamp for your file, and modify other file attributes using SETSTAT, you can use Amazon EFS as backend storage with Transfer Family. ,   - A property used with Transfer Family servers that use the FTPS protocol. TLS Session Resumption provides a mechanism to resume or share a negotiated secret key between the control and data connection for an FTPS session. TlsSessionResumptionMode determines whether or not the server resumes recent, negotiated sessions through a unique session ID. This property is available during  CreateServer and  UpdateServer calls. If a TlsSessionResumptionMode value is not specified during  CreateServer, it is set to ENFORCED by default.DISABLED: the server does not process TLS session resumption client requests and creates a new TLS session for each request.ENABLED: the server processes and accepts clients that are performing TLS session resumption. The server doesn't reject client data connections that do not perform the TLS session resumption client processing.ENFORCED: the server processes and accepts clients that are performing TLS session resumption. The server rejects client data connections that do not perform the TLS session resumption client processing. Before you set the value to ENFORCED, test your clients.Not all FTPS clients perform TLS session resumption. So, if you choose to enforce TLS session resumption, you prevent any connections from FTPS clients that don't perform the protocol negotiation. To determine whether or not you can use the ENFORCED& value, you need to test your clients. amazonka-transferIndicates the transport method for the AS2 messages. Currently, only HTTP is supported. amazonka-transferIndicates passive mode, for FTP and FTPS protocols. Enter a single IPv4 address, such as the public IP address of a firewall, router, or load balancer. For example: ?aws transfer update-server --protocol-details PassiveIp=0.0.0.0Replace 0.0.0.0 in the example above with the actual IP address you want to use.If you change the  PassiveIp value, you must stop and then restart your Transfer Family server for the change to take effect. For details on using passive mode (PASV) in a NAT environment, see  http://aws.amazon.com/blogs/storage/configuring-your-ftps-server-behind-a-firewall-or-nat-with-aws-transfer-family/Configuring your FTPS server behind a firewall or NAT with Transfer Family.Special valuesThe AUTO and 0.0.0.0 are special values for the  PassiveIp parameter. The value PassiveIp=AUTO is assigned by default to FTP and FTPS type servers. In this case, the server automatically responds with one of the endpoint IPs within the PASV response. PassiveIp=0.0.0.0 has a more unique application for its usage. For example, if you have a High Availability (HA) Network Load Balancer (NLB) environment, where you have 3 subnets, you can only specify a single IP address using the  PassiveIp parameter. This reduces the effectiveness of having High Availability. In this case, you can specify PassiveIp=0.0.0.0. This tells the client to use the same IP address as the Control connection and utilize all AZs for their connections. Note, however, that not all FTP clients support the PassiveIp=0.0.0.0 response. FileZilla and WinSCP do support it. If you are using other clients, check to see if your client supports the PassiveIp=0.0.0.0 response. amazonka-transferUse the  SetStatOption to ignore the error that is generated when the client attempts to use SETSTAT. on a file you are uploading to an S3 bucket.Some SFTP file transfer clients can attempt to change the attributes of remote files, including timestamp and permissions, using commands, such as SETSTAT when uploading the file. However, these commands are not compatible with object storage systems, such as Amazon S3. Due to this incompatibility, file uploads from these clients can result in errors even when the file is otherwise successfully uploaded.Set the value to  ENABLE_NO_OP0 to have the Transfer Family server ignore the SETSTAT command, and upload files without needing to make any changes to your SFTP client. While the  SetStatOption  ENABLE_NO_OP setting ignores the error, it does generate a log entry in Amazon CloudWatch Logs, so you can determine when the client is making a SETSTAT call.If you want to preserve the original timestamp for your file, and modify other file attributes using SETSTAT, you can use Amazon EFS as backend storage with Transfer Family. amazonka-transferA property used with Transfer Family servers that use the FTPS protocol. TLS Session Resumption provides a mechanism to resume or share a negotiated secret key between the control and data connection for an FTPS session. TlsSessionResumptionMode determines whether or not the server resumes recent, negotiated sessions through a unique session ID. This property is available during  CreateServer and  UpdateServer calls. If a TlsSessionResumptionMode value is not specified during  CreateServer, it is set to ENFORCED by default.DISABLED: the server does not process TLS session resumption client requests and creates a new TLS session for each request.ENABLED: the server processes and accepts clients that are performing TLS session resumption. The server doesn't reject client data connections that do not perform the TLS session resumption client processing.ENFORCED: the server processes and accepts clients that are performing TLS session resumption. The server rejects client data connections that do not perform the TLS session resumption client processing. Before you set the value to ENFORCED, test your clients.Not all FTPS clients perform TLS session resumption. So, if you choose to enforce TLS session resumption, you prevent any connections from FTPS clients that don't perform the protocol negotiation. To determine whether or not you can use the ENFORCED& value, you need to test your clients. ?(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&'; amazonka-transferSpecifies the user name, server ID, and session ID for a workflow.See:   smart constructor. amazonka-transferThe system-assigned unique identifier for a session that corresponds to the workflow. amazonka-transferA unique string that identifies a user account associated with a server. amazonka-transferThe system-assigned unique identifier for a Transfer server instance. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - The system-assigned unique identifier for a session that corresponds to the workflow. ,   - A unique string that identifies a user account associated with a server. ,   - The system-assigned unique identifier for a Transfer server instance. amazonka-transferThe system-assigned unique identifier for a session that corresponds to the workflow. amazonka-transferA unique string that identifies a user account associated with a server. amazonka-transferThe system-assigned unique identifier for a Transfer server instance. amazonka-transfer amazonka-transfer @(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';~ amazonka-transferA container object for the session details that are associated with a workflow.See:   smart constructor. amazonka-transferThe Server ID (ServerId), Session ID ( SessionId ) and user (UserName) make up the  UserDetails. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - The Server ID (ServerId), Session ID ( SessionId ) and user (UserName) make up the  UserDetails. amazonka-transferThe Server ID (ServerId), Session ID ( SessionId ) and user (UserName) make up the  UserDetails. amazonka-transfer   A(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&'; amazonka-transfer6Returns properties of the execution that is specified.See:   smart constructor. amazonka-transfer4A unique identifier for the execution of a workflow. amazonka-transferA structure that describes the Amazon S3 or EFS file location. This is the file location when the execution begins: if the file is being copied, this is the initial (as opposed to destination) file location. amazonka-transferA container object for the session details that are associated with a workflow. amazonka-transferThe status is one of the execution. Can be in progress, completed, exception encountered, or handling the exception. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  7 - A unique identifier for the execution of a workflow. ,   - A structure that describes the Amazon S3 or EFS file location. This is the file location when the execution begins: if the file is being copied, this is the initial (as opposed to destination) file location. ,   - A container object for the session details that are associated with a workflow. ,   - The status is one of the execution. Can be in progress, completed, exception encountered, or handling the exception. amazonka-transfer4A unique identifier for the execution of a workflow. amazonka-transferA structure that describes the Amazon S3 or EFS file location. This is the file location when the execution begins: if the file is being copied, this is the initial (as opposed to destination) file location. amazonka-transferA container object for the session details that are associated with a workflow. amazonka-transferThe status is one of the execution. Can be in progress, completed, exception encountered, or handling the exception. B(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&'; amazonka-transferSpecifies the workflow ID for the workflow to assign and the execution role that's used for executing the workflow.In additon to a workflow to execute when a file is uploaded completely, WorkflowDeatails can also contain a workflow ID (and execution role) for a workflow to execute on partial upload. A partial upload occurs when a file is open when the session disconnects.See:   smart constructor. amazonka-transfer%A unique identifier for the workflow. amazonka-transferIncludes the necessary permissions for S3, EFS, and Lambda operations that Transfer can assume, so that all workflow steps can operate on the required resources amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  ( - A unique identifier for the workflow. ,   - Includes the necessary permissions for S3, EFS, and Lambda operations that Transfer can assume, so that all workflow steps can operate on the required resources amazonka-transfer%A unique identifier for the workflow. amazonka-transferIncludes the necessary permissions for S3, EFS, and Lambda operations that Transfer can assume, so that all workflow steps can operate on the required resources amazonka-transfer amazonka-transfer   C(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&'; amazonka-transferContainer for the WorkflowDetail data type. It is used by actions that trigger a workflow to begin execution.See:   smart constructor. amazonka-transferA trigger that starts a workflow if a file is only partially uploaded. You can attach a workflow to a server that executes whenever there is a partial upload.A partial upload: occurs when a file is open when the session disconnects. amazonka-transferA trigger that starts a workflow: the workflow begins to execute after a file is uploaded.To remove an associated workflow from a server, you can provide an empty OnUpload% object, as in the following example. aws transfer update-server --server-id s-01234567890abcdef --workflow-details '{"OnUpload":[]}' amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - A trigger that starts a workflow if a file is only partially uploaded. You can attach a workflow to a server that executes whenever there is a partial upload.A partial upload: occurs when a file is open when the session disconnects. ,   - A trigger that starts a workflow: the workflow begins to execute after a file is uploaded.To remove an associated workflow from a server, you can provide an empty OnUpload% object, as in the following example. aws transfer update-server --server-id s-01234567890abcdef --workflow-details '{"OnUpload":[]}' amazonka-transferA trigger that starts a workflow if a file is only partially uploaded. You can attach a workflow to a server that executes whenever there is a partial upload.A partial upload: occurs when a file is open when the session disconnects. amazonka-transferA trigger that starts a workflow: the workflow begins to execute after a file is uploaded.To remove an associated workflow from a server, you can provide an empty OnUpload% object, as in the following example. aws transfer update-server --server-id s-01234567890abcdef --workflow-details '{"OnUpload":[]}'  D(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';( amazonka-transferDescribes the properties of a file transfer protocol-enabled server that was specified.See:   smart constructor. amazonka-transferSpecifies the ARN of the Amazon Web ServicesCertificate Manager (ACM) certificate. Required when  Protocols is set to FTPS. amazonka-transferSpecifies the domain of the storage system that is used for file transfers. amazonka-transferThe virtual private cloud (VPC) endpoint settings that are configured for your server. When you host your endpoint within your VPC, you can make your endpoint accessible only to resources within your VPC, or you can attach Elastic IP addresses and make your endpoint accessible to clients over the internet. Your VPC's default security groups are automatically assigned to your endpoint. amazonka-transferDefines the type of endpoint that your server is connected to. If your server is connected to a VPC endpoint, your server isn't accessible over the public internet. amazonka-transferSpecifies the Base64-encoded SHA256 fingerprint of the server's host key. This value is equivalent to the output of the "ssh-keygen -l -f my-new-server-key command. amazonka-transferSpecifies information to call a customer-supplied authentication API. This field is not populated when the IdentityProviderType of a server is AWS_DIRECTORY_SERVICE or SERVICE_MANAGED. amazonka-transfer?The mode of authentication for a server. The default value is SERVICE_MANAGED, which allows you to store and access user credentials within the Transfer Family service.Use AWS_DIRECTORY_SERVICE to provide access to Active Directory groups in Directory Service for Microsoft Active Directory or Microsoft Active Directory in your on-premises environment or in Amazon Web Services using AD Connector. This option also requires you to provide a Directory ID by using the IdentityProviderDetails parameter.Use the  API_GATEWAY value to integrate with an identity provider of your choosing. The  API_GATEWAY setting requires you to provide an Amazon API Gateway endpoint URL to call for authentication by using the IdentityProviderDetails parameter.Use the  AWS_LAMBDA value to directly use an Lambda function as your identity provider. If you choose this value, you must specify the ARN for the Lambda function in the Function parameter or the IdentityProviderDetails data type. amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs. amazonka-transferSpecifies a string to display when users connect to a server. This string is displayed after the user authenticates.The SFTP protocol does not support post-authentication display banners. amazonka-transferSpecifies a string to display when users connect to a server. This string is displayed before the user authenticates. For example, the following banner displays details about using the system: This system is for the use of authorized users only. Individuals using this computer system without authority, or in excess of their authority, are subject to having all of their activities on this system monitored and recorded by system personnel. amazonka-transfer:The protocol settings that are configured for your server.To indicate passive mode (for FTP and FTPS protocols), use the  PassiveIp parameter. Enter a single dotted-quad IPv4 address, such as the external IP address of a firewall, router, or load balancer.To ignore the error that is generated when the client attempts to use the SETSTAT command on a file that you are uploading to an Amazon S3 bucket, use the  SetStatOption? parameter. To have the Transfer Family server ignore the SETSTAT command and upload files without needing to make any changes to your SFTP client, set the value to  ENABLE_NO_OP. If you set the  SetStatOption parameter to  ENABLE_NO_OP, Transfer Family generates a log entry to Amazon CloudWatch Logs, so that you can determine when the client is making a SETSTAT call.To determine whether your Transfer Family server resumes recent, negotiated sessions through a unique session ID, use the TlsSessionResumptionMode parameter. As2Transports indicates the transport method for the AS2 messages. Currently, only HTTP is supported. amazonka-transferSpecifies the file transfer protocol or protocols over which your file transfer protocol client can connect to your server's endpoint. The available protocols are: SFTP (Secure Shell (SSH) File Transfer Protocol): File transfer over SSHFTPS (File Transfer Protocol Secure): File transfer with TLS encryptionFTP4 (File Transfer Protocol): Unencrypted file transferAS2 (Applicability Statement 2): used for transporting structured business-to-business dataIf you select FTPS, you must choose a certificate stored in Certificate Manager (ACM) which is used to identify your server when clients connect to it over FTPS.If Protocol includes either FTP or FTPS, then the  EndpointType must be VPC and the IdentityProviderType must be AWS_DIRECTORY_SERVICE or  API_GATEWAY.If Protocol includes FTP, then AddressAllocationIds cannot be associated.If Protocol is set only to SFTP, the  EndpointType can be set to PUBLIC and the IdentityProviderType can be set to SERVICE_MANAGED.If Protocol includes AS2 , then the  EndpointType must be VPC$, and domain must be Amazon S3. amazonka-transferSpecifies the name of the security policy that is attached to the server. amazonka-transferSpecifies the unique system-assigned identifier for a server that you instantiate. amazonka-transfer;The condition of the server that was described. A value of ONLINE indicates that the server can accept jobs and transfer files. A State value of OFFLINE means that the server cannot perform file transfer operations.The states of STARTING and STOPPING indicate that the server is in an intermediate state, either not fully able to respond, or not fully offline. The values of  START_FAILED or  STOP_FAILED" can indicate an error condition. amazonka-transferSpecifies the key-value pairs that you can use to search for and group servers that were assigned to the server that was described. amazonka-transferSpecifies the number of users that are assigned to a server you specified with the ServerId. amazonka-transferSpecifies the workflow ID for the workflow to assign and the execution role that's used for executing the workflow.In additon to a workflow to execute when a file is uploaded completely, WorkflowDeatails can also contain a workflow ID (and execution role) for a workflow to execute on partial upload. A partial upload occurs when a file is open when the session disconnects. amazonka-transfer>Specifies the unique Amazon Resource Name (ARN) of the server. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - Specifies the ARN of the Amazon Web ServicesCertificate Manager (ACM) certificate. Required when  Protocols is set to FTPS. ,   - Specifies the domain of the storage system that is used for file transfers. ,   - The virtual private cloud (VPC) endpoint settings that are configured for your server. When you host your endpoint within your VPC, you can make your endpoint accessible only to resources within your VPC, or you can attach Elastic IP addresses and make your endpoint accessible to clients over the internet. Your VPC's default security groups are automatically assigned to your endpoint. ,   - Defines the type of endpoint that your server is connected to. If your server is connected to a VPC endpoint, your server isn't accessible over the public internet. ,   - Specifies the Base64-encoded SHA256 fingerprint of the server's host key. This value is equivalent to the output of the "ssh-keygen -l -f my-new-server-key command. ,   - Specifies information to call a customer-supplied authentication API. This field is not populated when the IdentityProviderType of a server is AWS_DIRECTORY_SERVICE or SERVICE_MANAGED. ,   - The mode of authentication for a server. The default value is SERVICE_MANAGED, which allows you to store and access user credentials within the Transfer Family service.Use AWS_DIRECTORY_SERVICE to provide access to Active Directory groups in Directory Service for Microsoft Active Directory or Microsoft Active Directory in your on-premises environment or in Amazon Web Services using AD Connector. This option also requires you to provide a Directory ID by using the IdentityProviderDetails parameter.Use the  API_GATEWAY value to integrate with an identity provider of your choosing. The  API_GATEWAY setting requires you to provide an Amazon API Gateway endpoint URL to call for authentication by using the IdentityProviderDetails parameter.Use the  AWS_LAMBDA value to directly use an Lambda function as your identity provider. If you choose this value, you must specify the ARN for the Lambda function in the Function parameter or the IdentityProviderDetails data type. ,   - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs. ,   - Specifies a string to display when users connect to a server. This string is displayed after the user authenticates.The SFTP protocol does not support post-authentication display banners. ,   - Specifies a string to display when users connect to a server. This string is displayed before the user authenticates. For example, the following banner displays details about using the system: This system is for the use of authorized users only. Individuals using this computer system without authority, or in excess of their authority, are subject to having all of their activities on this system monitored and recorded by system personnel. ,  = - The protocol settings that are configured for your server.To indicate passive mode (for FTP and FTPS protocols), use the  PassiveIp parameter. Enter a single dotted-quad IPv4 address, such as the external IP address of a firewall, router, or load balancer.To ignore the error that is generated when the client attempts to use the SETSTAT command on a file that you are uploading to an Amazon S3 bucket, use the  SetStatOption? parameter. To have the Transfer Family server ignore the SETSTAT command and upload files without needing to make any changes to your SFTP client, set the value to  ENABLE_NO_OP. If you set the  SetStatOption parameter to  ENABLE_NO_OP, Transfer Family generates a log entry to Amazon CloudWatch Logs, so that you can determine when the client is making a SETSTAT call.To determine whether your Transfer Family server resumes recent, negotiated sessions through a unique session ID, use the TlsSessionResumptionMode parameter. As2Transports indicates the transport method for the AS2 messages. Currently, only HTTP is supported. ,   - Specifies the file transfer protocol or protocols over which your file transfer protocol client can connect to your server's endpoint. The available protocols are: SFTP (Secure Shell (SSH) File Transfer Protocol): File transfer over SSHFTPS (File Transfer Protocol Secure): File transfer with TLS encryptionFTP4 (File Transfer Protocol): Unencrypted file transferAS2 (Applicability Statement 2): used for transporting structured business-to-business dataIf you select FTPS, you must choose a certificate stored in Certificate Manager (ACM) which is used to identify your server when clients connect to it over FTPS.If Protocol includes either FTP or FTPS, then the  EndpointType must be VPC and the IdentityProviderType must be AWS_DIRECTORY_SERVICE or  API_GATEWAY.If Protocol includes FTP, then AddressAllocationIds cannot be associated.If Protocol is set only to SFTP, the  EndpointType can be set to PUBLIC and the IdentityProviderType can be set to SERVICE_MANAGED.If Protocol includes AS2 , then the  EndpointType must be VPC$, and domain must be Amazon S3. ,   - Specifies the name of the security policy that is attached to the server. ,   - Specifies the unique system-assigned identifier for a server that you instantiate. ,  > - The condition of the server that was described. A value of ONLINE indicates that the server can accept jobs and transfer files. A State value of OFFLINE means that the server cannot perform file transfer operations.The states of STARTING and STOPPING indicate that the server is in an intermediate state, either not fully able to respond, or not fully offline. The values of  START_FAILED or  STOP_FAILED" can indicate an error condition. ,   - Specifies the key-value pairs that you can use to search for and group servers that were assigned to the server that was described. ,   - Specifies the number of users that are assigned to a server you specified with the ServerId. ,   - Specifies the workflow ID for the workflow to assign and the execution role that's used for executing the workflow.In additon to a workflow to execute when a file is uploaded completely, WorkflowDeatails can also contain a workflow ID (and execution role) for a workflow to execute on partial upload. A partial upload occurs when a file is open when the session disconnects. ,   - Specifies the unique Amazon Resource Name (ARN) of the server. amazonka-transferSpecifies the ARN of the Amazon Web ServicesCertificate Manager (ACM) certificate. Required when  Protocols is set to FTPS. amazonka-transferSpecifies the domain of the storage system that is used for file transfers. amazonka-transferThe virtual private cloud (VPC) endpoint settings that are configured for your server. When you host your endpoint within your VPC, you can make your endpoint accessible only to resources within your VPC, or you can attach Elastic IP addresses and make your endpoint accessible to clients over the internet. Your VPC's default security groups are automatically assigned to your endpoint. amazonka-transferDefines the type of endpoint that your server is connected to. If your server is connected to a VPC endpoint, your server isn't accessible over the public internet. amazonka-transferSpecifies the Base64-encoded SHA256 fingerprint of the server's host key. This value is equivalent to the output of the "ssh-keygen -l -f my-new-server-key command. amazonka-transferSpecifies information to call a customer-supplied authentication API. This field is not populated when the IdentityProviderType of a server is AWS_DIRECTORY_SERVICE or SERVICE_MANAGED. amazonka-transfer?The mode of authentication for a server. The default value is SERVICE_MANAGED, which allows you to store and access user credentials within the Transfer Family service.Use AWS_DIRECTORY_SERVICE to provide access to Active Directory groups in Directory Service for Microsoft Active Directory or Microsoft Active Directory in your on-premises environment or in Amazon Web Services using AD Connector. This option also requires you to provide a Directory ID by using the IdentityProviderDetails parameter.Use the  API_GATEWAY value to integrate with an identity provider of your choosing. The  API_GATEWAY setting requires you to provide an Amazon API Gateway endpoint URL to call for authentication by using the IdentityProviderDetails parameter.Use the  AWS_LAMBDA value to directly use an Lambda function as your identity provider. If you choose this value, you must specify the ARN for the Lambda function in the Function parameter or the IdentityProviderDetails data type. amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a server to turn on Amazon CloudWatch logging for Amazon S3 or Amazon EFSevents. When set, you can view user activity in your CloudWatch logs. amazonka-transferSpecifies a string to display when users connect to a server. This string is displayed after the user authenticates.The SFTP protocol does not support post-authentication display banners. amazonka-transferSpecifies a string to display when users connect to a server. This string is displayed before the user authenticates. For example, the following banner displays details about using the system: This system is for the use of authorized users only. Individuals using this computer system without authority, or in excess of their authority, are subject to having all of their activities on this system monitored and recorded by system personnel. amazonka-transfer:The protocol settings that are configured for your server.To indicate passive mode (for FTP and FTPS protocols), use the  PassiveIp parameter. Enter a single dotted-quad IPv4 address, such as the external IP address of a firewall, router, or load balancer.To ignore the error that is generated when the client attempts to use the SETSTAT command on a file that you are uploading to an Amazon S3 bucket, use the  SetStatOption? parameter. To have the Transfer Family server ignore the SETSTAT command and upload files without needing to make any changes to your SFTP client, set the value to  ENABLE_NO_OP. If you set the  SetStatOption parameter to  ENABLE_NO_OP, Transfer Family generates a log entry to Amazon CloudWatch Logs, so that you can determine when the client is making a SETSTAT call.To determine whether your Transfer Family server resumes recent, negotiated sessions through a unique session ID, use the TlsSessionResumptionMode parameter. As2Transports indicates the transport method for the AS2 messages. Currently, only HTTP is supported. amazonka-transferSpecifies the file transfer protocol or protocols over which your file transfer protocol client can connect to your server's endpoint. The available protocols are: SFTP (Secure Shell (SSH) File Transfer Protocol): File transfer over SSHFTPS (File Transfer Protocol Secure): File transfer with TLS encryptionFTP4 (File Transfer Protocol): Unencrypted file transferAS2 (Applicability Statement 2): used for transporting structured business-to-business dataIf you select FTPS, you must choose a certificate stored in Certificate Manager (ACM) which is used to identify your server when clients connect to it over FTPS.If Protocol includes either FTP or FTPS, then the  EndpointType must be VPC and the IdentityProviderType must be AWS_DIRECTORY_SERVICE or  API_GATEWAY.If Protocol includes FTP, then AddressAllocationIds cannot be associated.If Protocol is set only to SFTP, the  EndpointType can be set to PUBLIC and the IdentityProviderType can be set to SERVICE_MANAGED.If Protocol includes AS2 , then the  EndpointType must be VPC$, and domain must be Amazon S3. amazonka-transferSpecifies the name of the security policy that is attached to the server. amazonka-transferSpecifies the unique system-assigned identifier for a server that you instantiate. amazonka-transfer;The condition of the server that was described. A value of ONLINE indicates that the server can accept jobs and transfer files. A State value of OFFLINE means that the server cannot perform file transfer operations.The states of STARTING and STOPPING indicate that the server is in an intermediate state, either not fully able to respond, or not fully offline. The values of  START_FAILED or  STOP_FAILED" can indicate an error condition. amazonka-transferSpecifies the key-value pairs that you can use to search for and group servers that were assigned to the server that was described. amazonka-transferSpecifies the number of users that are assigned to a server you specified with the ServerId. amazonka-transferSpecifies the workflow ID for the workflow to assign and the execution role that's used for executing the workflow.In additon to a workflow to execute when a file is uploaded completely, WorkflowDeatails can also contain a workflow ID (and execution role) for a workflow to execute on partial upload. A partial upload occurs when a file is open when the session disconnects. amazonka-transfer>Specifies the unique Amazon Resource Name (ARN) of the server. amazonka-transfer ) ) E(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred";? F(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';* amazonka-transfer'The basic building block of a workflow.See:   smart constructor. amazonka-transfer-Details for a step that performs a file copy.!Consists of the following values: A description4An S3 location for the destination of the file copy.A flag that indicates whether or not to overwrite an existing file of the same name. The default is FALSE. amazonka-transfer2Details for a step that invokes a lambda function.Consists of the lambda function name, target, and timeout (in seconds). amazonka-transfer)Details for a step that deletes the file. amazonka-transfer1Details for a step that creates one or more tags.You specify one or more tags: each tag contains a key/value pair. amazonka-transfer2Currently, the following step types are supported.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  0 - Details for a step that performs a file copy.!Consists of the following values: A description4An S3 location for the destination of the file copy.A flag that indicates whether or not to overwrite an existing file of the same name. The default is FALSE. ,  5 - Details for a step that invokes a lambda function.Consists of the lambda function name, target, and timeout (in seconds). ,   - Undocumented member. ,  , - Details for a step that deletes the file. ,  4 - Details for a step that creates one or more tags.You specify one or more tags: each tag contains a key/value pair. ,  5 - Currently, the following step types are supported.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file. amazonka-transfer-Details for a step that performs a file copy.!Consists of the following values: A description4An S3 location for the destination of the file copy.A flag that indicates whether or not to overwrite an existing file of the same name. The default is FALSE. amazonka-transfer2Details for a step that invokes a lambda function.Consists of the lambda function name, target, and timeout (in seconds). amazonka-transferUndocumented member. amazonka-transfer)Details for a step that deletes the file. amazonka-transfer1Details for a step that creates one or more tags.You specify one or more tags: each tag contains a key/value pair. amazonka-transfer2Currently, the following step types are supported.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file.  G(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';4 amazonka-transfer2Describes the properties of the specified workflowSee:   smart constructor. amazonka-transfer0Specifies the text description for the workflow. amazonka-transferSpecifies the steps (actions) to take if errors are encountered during execution of the workflow. amazonka-transferSpecifies the details for the steps that are in the specified workflow. amazonka-transferKey-value pairs that can be used to group and search for workflows. Tags are metadata attached to workflows for any purpose. amazonka-transfer%A unique identifier for the workflow. amazonka-transferSpecifies the unique Amazon Resource Name (ARN) for the workflow. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  3 - Specifies the text description for the workflow. ,   - Specifies the steps (actions) to take if errors are encountered during execution of the workflow. ,   - Specifies the details for the steps that are in the specified workflow. ,   - Key-value pairs that can be used to group and search for workflows. Tags are metadata attached to workflows for any purpose. ,  ( - A unique identifier for the workflow. ,   - Specifies the unique Amazon Resource Name (ARN) for the workflow. amazonka-transfer0Specifies the text description for the workflow. amazonka-transferSpecifies the steps (actions) to take if errors are encountered during execution of the workflow. amazonka-transferSpecifies the details for the steps that are in the specified workflow. amazonka-transferKey-value pairs that can be used to group and search for workflows. Tags are metadata attached to workflows for any purpose. amazonka-transfer%A unique identifier for the workflow. amazonka-transferSpecifies the unique Amazon Resource Name (ARN) for the workflow. amazonka-transfer   H(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';=~ amazonka-transferSpecifies the following details for the step: error (if any), outputs (if any), and the step type.See:   smart constructor. amazonka-transferSpecifies the details for an error, if it occurred during execution of the specified workflow step. amazonka-transferThe values for the key/value pair applied as a tag to the file. Only applicable if the step type is TAG. amazonka-transfer One of the available step types.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - Specifies the details for an error, if it occurred during execution of the specified workflow step. ,   - The values for the key/value pair applied as a tag to the file. Only applicable if the step type is TAG. ,  # - One of the available step types.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file. amazonka-transferSpecifies the details for an error, if it occurred during execution of the specified workflow step. amazonka-transferThe values for the key/value pair applied as a tag to the file. Only applicable if the step type is TAG. amazonka-transfer One of the available step types.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file. I(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';C amazonka-transferSpecifies the steps in the workflow, as well as the steps to execute in case of any errors during workflow execution.See:   smart constructor. amazonka-transferSpecifies the steps (actions) to take if errors are encountered during execution of the workflow. amazonka-transferSpecifies the details for the steps that are in the specified workflow. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - Specifies the steps (actions) to take if errors are encountered during execution of the workflow. ,   - Specifies the details for the steps that are in the specified workflow. amazonka-transferSpecifies the steps (actions) to take if errors are encountered during execution of the workflow. amazonka-transferSpecifies the details for the steps that are in the specified workflow.  J(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%&';P amazonka-transfer$The details for an execution object.See:   smart constructor. amazonka-transfer4A unique identifier for the execution of a workflow. amazonka-transfer+The IAM role associated with the execution. amazonka-transferA structure that describes the Amazon S3 or EFS file location. This is the file location when the execution begins: if the file is being copied, this is the initial (as opposed to destination) file location. amazonka-transfer3The IAM logging role associated with the execution. amazonka-transferA structure that describes the execution results. This includes a list of the steps along with the details of each step, error type and message (if any), and the OnExceptionSteps structure. amazonka-transferA container object for the session details that are associated with a workflow. amazonka-transferThe status is one of the execution. Can be in progress, completed, exception encountered, or handling the exception. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  7 - A unique identifier for the execution of a workflow. ,  . - The IAM role associated with the execution. ,   - A structure that describes the Amazon S3 or EFS file location. This is the file location when the execution begins: if the file is being copied, this is the initial (as opposed to destination) file location. ,  6 - The IAM logging role associated with the execution. ,   - Undocumented member. ,   - A structure that describes the execution results. This includes a list of the steps along with the details of each step, error type and message (if any), and the OnExceptionSteps structure. ,   - A container object for the session details that are associated with a workflow. ,   - The status is one of the execution. Can be in progress, completed, exception encountered, or handling the exception. amazonka-transfer4A unique identifier for the execution of a workflow. amazonka-transfer+The IAM role associated with the execution. amazonka-transferA structure that describes the Amazon S3 or EFS file location. This is the file location when the execution begins: if the file is being copied, this is the initial (as opposed to destination) file location. amazonka-transfer3The IAM logging role associated with the execution. amazonka-transferUndocumented member. amazonka-transferA structure that describes the execution results. This includes a list of the steps along with the details of each step, error type and message (if any), and the OnExceptionSteps structure. amazonka-transferA container object for the session details that are associated with a workflow. amazonka-transferThe status is one of the execution. Can be in progress, completed, exception encountered, or handling the exception.  K(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred"%V amazonka-transfer API version  2018-11-051 of the Amazon Transfer Family SDK configuration. amazonka-transfer9You do not have sufficient access to perform this action. amazonka-transfer"This exception is thrown when the  UpdateServer is called for a file transfer protocol-enabled server that has VPC as the endpoint type and the server's  VpcEndpointID is not in the available state. amazonka-transferThis exception is thrown when an error occurs in the Amazon Web ServicesTransfer Family service. amazonka-transferThe  NextToken& parameter that was passed is invalid. amazonka-transferThis exception is thrown when the client submits a malformed request. amazonka-transfer&The requested resource does not exist. amazonka-transferThis exception is thrown when a resource is not found by the Amazon Web ServicesTransfer Family service. amazonka-transferThe request has failed because the Amazon Web ServicesTransfer Family service is not available. amazonka-transfer1The request was denied due to request throttling./43201HLKIJ`dcabx|{yz  /43201432HLKIJLK`dcabdcx|{yz|{         L(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';ts amazonka-transferSee:   smart constructor. amazonka-transferA message that indicates whether the test was successful or not.If an empty string is returned, the most likely cause is that the authentication failed due to an incorrect username or password. amazonka-transfer4The response that is returned from your API Gateway. amazonka-transfer The response's http status code. amazonka-transferThe HTTP status code that is the response from your API Gateway. amazonka-transfer8The endpoint of the service used to authenticate a user. amazonka-transferSee:   smart constructor. amazonka-transfer0The type of file transfer protocol to be tested.The available protocols are:0Secure Shell (SSH) File Transfer Protocol (SFTP)$File Transfer Protocol Secure (FTPS)File Transfer Protocol (FTP) amazonka-transfer7The source IP address of the user account to be tested. amazonka-transfer.The password of the user account to be tested. amazonka-transferA system-assigned identifier for a specific server. That server's user authentication method is tested with a user name and password. amazonka-transfer*The name of the user account to be tested. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  3 - The type of file transfer protocol to be tested.The available protocols are:0Secure Shell (SSH) File Transfer Protocol (SFTP)$File Transfer Protocol Secure (FTPS)File Transfer Protocol (FTP) ,  : - The source IP address of the user account to be tested. ,  1 - The password of the user account to be tested. ,   - A system-assigned identifier for a specific server. That server's user authentication method is tested with a user name and password. ,  - - The name of the user account to be tested. amazonka-transfer0The type of file transfer protocol to be tested.The available protocols are:0Secure Shell (SSH) File Transfer Protocol (SFTP)$File Transfer Protocol Secure (FTPS)File Transfer Protocol (FTP) amazonka-transfer7The source IP address of the user account to be tested. amazonka-transfer.The password of the user account to be tested. amazonka-transferA system-assigned identifier for a specific server. That server's user authentication method is tested with a user name and password. amazonka-transfer*The name of the user account to be tested. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - A message that indicates whether the test was successful or not.If an empty string is returned, the most likely cause is that the authentication failed due to an incorrect username or password. ,  7 - The response that is returned from your API Gateway. ,  # - The response's http status code. ,   - The HTTP status code that is the response from your API Gateway. ,  ; - The endpoint of the service used to authenticate a user. amazonka-transferA message that indicates whether the test was successful or not.If an empty string is returned, the most likely cause is that the authentication failed due to an incorrect username or password. amazonka-transfer4The response that is returned from your API Gateway. amazonka-transfer The response's http status code. amazonka-transferThe HTTP status code that is the response from your API Gateway. amazonka-transfer8The endpoint of the service used to authenticate a user. amazonka-transfer amazonka-transfer amazonka-transfer amazonka-transfer amazonka-transfer   M(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';|Y amazonka-transferSee:   smart constructor. amazonka-transferSee:   smart constructor. amazonka-transferAn Amazon Resource Name (ARN) for a specific Amazon Web Services resource, such as a server, user, or role. amazonka-transferKey-value pairs assigned to ARNs that you can use to group and search for resources by type. You can attach this metadata to user accounts for any purpose. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - An Amazon Resource Name (ARN) for a specific Amazon Web Services resource, such as a server, user, or role. ,   - Key-value pairs assigned to ARNs that you can use to group and search for resources by type. You can attach this metadata to user accounts for any purpose. amazonka-transferAn Amazon Resource Name (ARN) for a specific Amazon Web Services resource, such as a server, user, or role. amazonka-transferKey-value pairs assigned to ARNs that you can use to group and search for resources by type. You can attach this metadata to user accounts for any purpose. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields. amazonka-transfer amazonka-transfer N(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';E amazonka-transferSee:   smart constructor. amazonka-transferSee:   smart constructor. amazonka-transferA system-assigned unique identifier for a server that you stopped. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - A system-assigned unique identifier for a server that you stopped. amazonka-transferA system-assigned unique identifier for a server that you stopped. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields. amazonka-transfer   O(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';# amazonka-transferSee:   smart constructor. amazonka-transferSee:   smart constructor. amazonka-transferA system-assigned unique identifier for a server that you start. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,   - A system-assigned unique identifier for a server that you start. amazonka-transferA system-assigned unique identifier for a server that you start. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields. amazonka-transfer   P(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';G amazonka-transferSee:   smart constructor. amazonka-transfer The response's http status code. amazonka-transfer5Returns the unique identifier for this file transfer. amazonka-transferSee:   smart constructor. amazonka-transfer(The unique identifier for the connector. amazonka-transferAn array of strings. Each string represents the absolute path for one outbound file transfer. For example,  DOC-EXAMPLE-BUCKET/ myfile.txt . amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  + - The unique identifier for the connector. ,   - An array of strings. Each string represents the absolute path for one outbound file transfer. For example,  DOC-EXAMPLE-BUCKET/ myfile.txt . amazonka-transfer(The unique identifier for the connector. amazonka-transferAn array of strings. Each string represents the absolute path for one outbound file transfer. For example,  DOC-EXAMPLE-BUCKET/ myfile.txt . amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  # - The response's http status code. ,  8 - Returns the unique identifier for this file transfer. amazonka-transfer The response's http status code. amazonka-transfer5Returns the unique identifier for this file transfer. amazonka-transfer amazonka-transfer amazonka-transfer amazonka-transfer   Q(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&'; amazonka-transferSee:   smart constructor. amazonka-transfer The response's http status code. amazonka-transferSee:   smart constructor. amazonka-transfer%A unique identifier for the workflow. amazonka-transfer4A unique identifier for the execution of a workflow. amazonka-transferUsed to distinguish between multiple callbacks for multiple Lambda steps within the same execution. amazonka-transfer9Indicates whether the specified step succeeded or failed. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  ( - A unique identifier for the workflow. ,  7 - A unique identifier for the execution of a workflow. ,   - Used to distinguish between multiple callbacks for multiple Lambda steps within the same execution. ,  < - Indicates whether the specified step succeeded or failed. amazonka-transfer%A unique identifier for the workflow. amazonka-transfer4A unique identifier for the execution of a workflow. amazonka-transferUsed to distinguish between multiple callbacks for multiple Lambda steps within the same execution. amazonka-transfer9Indicates whether the specified step succeeded or failed. amazonka-transferCreate a value of  " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility: ,  # - The response's http status code. amazonka-transfer The response's http status code. amazonka-transfer amazonka-transfer amazonka-transfer amazonka-transfer amazonka-transfer   R(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer ListWorkflows returns the  NextToken1 parameter in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional workflows.amazonka-transfer The response's http status code.amazonka-transfer Returns the Arn,  WorkflowId, and  Description for each workflow.amazonka-transferSee:  smart constructor.amazonka-transfer4Specifies the maximum number of workflows to return.amazonka-transfer ListWorkflows returns the  NextToken1 parameter in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional workflows.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 7 - Specifies the maximum number of workflows to return.,  -  ListWorkflows returns the  NextToken1 parameter in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional workflows.amazonka-transfer4Specifies the maximum number of workflows to return.amazonka-transfer ListWorkflows returns the  NextToken1 parameter in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional workflows.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  -  ListWorkflows returns the  NextToken1 parameter in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional workflows., # - The response's http status code.,  - Returns the Arn,  WorkflowId, and  Description for each workflow.amazonka-transfer ListWorkflows returns the  NextToken1 parameter in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional workflows.amazonka-transfer The response's http status code.amazonka-transfer Returns the Arn,  WorkflowId, and  Description for each workflow.amazonka-transferS(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer-When you can get additional results from the  ListUsers call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken1 parameter to continue listing additional users.amazonka-transfer The response's http status code.amazonka-transferA system-assigned unique identifier for a server that the users are assigned to.amazonka-transfer7Returns the user accounts and their properties for the ServerId value that you specify.amazonka-transferSee:  smart constructor.amazonka-transfer=Specifies the number of users to return as a response to the  ListUsers request.amazonka-transfer-When you can get additional results from the  ListUsers call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken1 parameter to continue listing additional users.amazonka-transferA system-assigned unique identifier for a server that has users assigned to it.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the number of users to return as a response to the  ListUsers request., 0 - When you can get additional results from the  ListUsers call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken1 parameter to continue listing additional users.,  - A system-assigned unique identifier for a server that has users assigned to it.amazonka-transfer=Specifies the number of users to return as a response to the  ListUsers request.amazonka-transfer-When you can get additional results from the  ListUsers call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken1 parameter to continue listing additional users.amazonka-transferA system-assigned unique identifier for a server that has users assigned to it.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 0 - When you can get additional results from the  ListUsers call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken1 parameter to continue listing additional users., # - The response's http status code.,  - A system-assigned unique identifier for a server that the users are assigned to., : - Returns the user accounts and their properties for the ServerId value that you specify.amazonka-transfer-When you can get additional results from the  ListUsers call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken1 parameter to continue listing additional users.amazonka-transfer The response's http status code.amazonka-transferA system-assigned unique identifier for a server that the users are assigned to.amazonka-transfer7Returns the user accounts and their properties for the ServerId value that you specify.amazonka-transferamazonka-transferamazonka-transferT(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer*The ARN you specified to list the tags of.amazonka-transfer-When you can get additional results from the ListTagsForResource call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken0 parameter to continue listing additional tags.amazonka-transferKey-value pairs that are assigned to a resource, usually for the purpose of grouping and searching for items. Tags are metadata that you define.amazonka-transfer The response's http status code.amazonka-transferSee:  smart constructor.amazonka-transfer=Specifies the number of tags to return as a response to the ListTagsForResource request.amazonka-transfer-When you request additional results from the ListTagsForResource operation, a  NextToken parameter is returned in the input. You can then pass in a subsequent command to the  NextToken0 parameter to continue listing additional tags.amazonka-transferRequests the tags associated with a particular Amazon Resource Name (ARN). An ARN is an identifier for a specific Amazon Web Services resource, such as a server, user, or role.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the number of tags to return as a response to the ListTagsForResource request., 0 - When you request additional results from the ListTagsForResource operation, a  NextToken parameter is returned in the input. You can then pass in a subsequent command to the  NextToken0 parameter to continue listing additional tags.,  - Requests the tags associated with a particular Amazon Resource Name (ARN). An ARN is an identifier for a specific Amazon Web Services resource, such as a server, user, or role.amazonka-transfer=Specifies the number of tags to return as a response to the ListTagsForResource request.amazonka-transfer-When you request additional results from the ListTagsForResource operation, a  NextToken parameter is returned in the input. You can then pass in a subsequent command to the  NextToken0 parameter to continue listing additional tags.amazonka-transferRequests the tags associated with a particular Amazon Resource Name (ARN). An ARN is an identifier for a specific Amazon Web Services resource, such as a server, user, or role.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, - - The ARN you specified to list the tags of., 0 - When you can get additional results from the ListTagsForResource call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken0 parameter to continue listing additional tags.,  - Key-value pairs that are assigned to a resource, usually for the purpose of grouping and searching for items. Tags are metadata that you define., # - The response's http status code.amazonka-transfer*The ARN you specified to list the tags of.amazonka-transfer-When you can get additional results from the ListTagsForResource call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken0 parameter to continue listing additional tags.amazonka-transferKey-value pairs that are assigned to a resource, usually for the purpose of grouping and searching for items. Tags are metadata that you define.amazonka-transfer The response's http status code.amazonka-transferamazonka-transferU(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';`amazonka-transferSee:  smart constructor.amazonka-transfer-When you can get additional results from the  ListServers operation, a  NextToken parameter is returned in the output. In a following command, you can pass in the  NextToken3 parameter to continue listing additional servers.amazonka-transfer The response's http status code.amazonka-transfer%An array of servers that were listed.amazonka-transferSee:  smart constructor.amazonka-transferSpecifies the number of servers to return as a response to the  ListServers query.amazonka-transfer.When additional results are obtained from the  ListServers command, a  NextToken= parameter is returned in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional servers.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the number of servers to return as a response to the  ListServers query., 1 - When additional results are obtained from the  ListServers command, a  NextToken= parameter is returned in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional servers.amazonka-transferSpecifies the number of servers to return as a response to the  ListServers query.amazonka-transfer.When additional results are obtained from the  ListServers command, a  NextToken= parameter is returned in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional servers.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 0 - When you can get additional results from the  ListServers operation, a  NextToken parameter is returned in the output. In a following command, you can pass in the  NextToken3 parameter to continue listing additional servers., # - The response's http status code., ( - An array of servers that were listed.amazonka-transfer-When you can get additional results from the  ListServers operation, a  NextToken parameter is returned in the output. In a following command, you can pass in the  NextToken3 parameter to continue listing additional servers.amazonka-transfer The response's http status code.amazonka-transfer%An array of servers that were listed.amazonka-transferV(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';uamazonka-transferSee:  smart constructor.amazonka-transfer-When you can get additional results from the ListSecurityPolicies operation, a  NextToken parameter is returned in the output. In a following command, you can pass in the  NextToken2 parameter to continue listing security policies.amazonka-transfer The response's http status code.amazonka-transfer/An array of security policies that were listed.amazonka-transferSee:  smart constructor.amazonka-transferSpecifies the number of security policies to return as a response to the ListSecurityPolicies query.amazonka-transfer.When additional results are obtained from the ListSecurityPolicies command, a  NextToken= parameter is returned in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional security policies.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the number of security policies to return as a response to the ListSecurityPolicies query., 1 - When additional results are obtained from the ListSecurityPolicies command, a  NextToken= parameter is returned in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional security policies.amazonka-transferSpecifies the number of security policies to return as a response to the ListSecurityPolicies query.amazonka-transfer.When additional results are obtained from the ListSecurityPolicies command, a  NextToken= parameter is returned in the output. You can then pass the  NextToken parameter in a subsequent command to continue listing additional security policies.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 0 - When you can get additional results from the ListSecurityPolicies operation, a  NextToken parameter is returned in the output. In a following command, you can pass in the  NextToken2 parameter to continue listing security policies., # - The response's http status code., 2 - An array of security policies that were listed.amazonka-transfer-When you can get additional results from the ListSecurityPolicies operation, a  NextToken parameter is returned in the output. In a following command, you can pass in the  NextToken2 parameter to continue listing security policies.amazonka-transfer The response's http status code.amazonka-transfer/An array of security policies that were listed.amazonka-transferW(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer)Returns a token that you can use to call  ListProfiles9 again and receive additional results, if there are any.amazonka-transfer The response's http status code.amazonka-transferReturns an array, where each item contains the details of a profile.amazonka-transferSee:  smart constructor.amazonka-transfer)The maximum number of profiles to return.amazonka-transferamazonka-transferSee:  smart constructor.amazonka-transfer)Returns a token that you can use to call ListAgreements9 again and receive additional results, if there are any.amazonka-transfer The response's http status code.amazonka-transferReturns an array, where each item contains the details of an agreement.amazonka-transferSee:  smart constructor.amazonka-transfer+The maximum number of agreements to return.amazonka-transfer-When you can get additional results from the ListAgreements call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken6 parameter to continue listing additional agreements.amazonka-transferThe identifier of the server for which you want a list of agreements.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, . - The maximum number of agreements to return., 0 - When you can get additional results from the ListAgreements call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken6 parameter to continue listing additional agreements.,  - The identifier of the server for which you want a list of agreements.amazonka-transfer+The maximum number of agreements to return.amazonka-transfer-When you can get additional results from the ListAgreements call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken6 parameter to continue listing additional agreements.amazonka-transferThe identifier of the server for which you want a list of agreements.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, , - Returns a token that you can use to call ListAgreements9 again and receive additional results, if there are any., # - The response's http status code.,  - Returns an array, where each item contains the details of an agreement.amazonka-transfer)Returns a token that you can use to call ListAgreements9 again and receive additional results, if there are any.amazonka-transfer The response's http status code.amazonka-transferReturns an array, where each item contains the details of an agreement.amazonka-transferamazonka-transfer](c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';Oamazonka-transferSee:  smart constructor.amazonka-transfer-When you can get additional results from the  ListAccesses call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken4 parameter to continue listing additional accesses.amazonka-transfer The response's http status code.amazonka-transferA system-assigned unique identifier for a server that has users assigned to it.amazonka-transfer2Returns the accesses and their properties for the ServerId value that you specify.amazonka-transferSee:  smart constructor.amazonka-transfer6Specifies the maximum number of access SIDs to return.amazonka-transfer-When you can get additional results from the  ListAccesses call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken4 parameter to continue listing additional accesses.amazonka-transferA system-assigned unique identifier for a server that has users assigned to it.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 9 - Specifies the maximum number of access SIDs to return., 0 - When you can get additional results from the  ListAccesses call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken4 parameter to continue listing additional accesses.,  - A system-assigned unique identifier for a server that has users assigned to it.amazonka-transfer6Specifies the maximum number of access SIDs to return.amazonka-transfer-When you can get additional results from the  ListAccesses call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken4 parameter to continue listing additional accesses.amazonka-transferA system-assigned unique identifier for a server that has users assigned to it.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 0 - When you can get additional results from the  ListAccesses call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken4 parameter to continue listing additional accesses., # - The response's http status code.,  - A system-assigned unique identifier for a server that has users assigned to it., 5 - Returns the accesses and their properties for the ServerId value that you specify.amazonka-transfer-When you can get additional results from the  ListAccesses call, a  NextToken parameter is returned in the output. You can then pass in a subsequent command to the  NextToken4 parameter to continue listing additional accesses.amazonka-transfer The response's http status code.amazonka-transferA system-assigned unique identifier for a server that has users assigned to it.amazonka-transfer2Returns the accesses and their properties for the ServerId value that you specify.amazonka-transferamazonka-transferamazonka-transfer^(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';[amazonka-transferIdentifies the user, the server they belong to, and the identifier of the SSH public key associated with that user. A user can have more than one key on each server that they are associated with.See:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer1A system-assigned unique identifier for a server.amazonka-transfer?The name given to a public key by the system that was imported.amazonka-transferA user name assigned to the ServerID value that you specified.amazonka-transferSee:  smart constructor.amazonka-transfer1A system-assigned unique identifier for a server.amazonka-transfer*The public key portion of an SSH key pair.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transferThe name of the user account that is assigned to one or more servers.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 4 - A system-assigned unique identifier for a server., - - The public key portion of an SSH key pair.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.,  - The name of the user account that is assigned to one or more servers.amazonka-transfer1A system-assigned unique identifier for a server.amazonka-transfer*The public key portion of an SSH key pair.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transferThe name of the user account that is assigned to one or more servers.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., 4 - A system-assigned unique identifier for a server.,  - The name given to a public key by the system that was imported.,  - A user name assigned to the ServerID value that you specified.amazonka-transfer The response's http status code.amazonka-transfer1A system-assigned unique identifier for a server.amazonka-transfer?The name given to a public key by the system that was imported.amazonka-transferA user name assigned to the ServerID value that you specified.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transfer_(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';hamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer=Returns the server identifier that contains the imported key.amazonka-transfer5Returns the host key identifier for the imported key.amazonka-transferSee:  smart constructor.amazonka-transfer3The text description that identifies this host key.amazonka-transferKey-value pairs that can be used to group and search for host keys.amazonka-transferThe identifier of the server that contains the host key that you are importing.amazonka-transfer*The public key portion of an SSH key pair.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 6 - The text description that identifies this host key.,  - Key-value pairs that can be used to group and search for host keys.,  - The identifier of the server that contains the host key that you are importing., - - The public key portion of an SSH key pair.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transfer3The text description that identifies this host key.amazonka-transferKey-value pairs that can be used to group and search for host keys.amazonka-transferThe identifier of the server that contains the host key that you are importing.amazonka-transfer*The public key portion of an SSH key pair.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - Returns the server identifier that contains the imported key., 8 - Returns the host key identifier for the imported key.amazonka-transfer The response's http status code.amazonka-transfer=Returns the server identifier that contains the imported key.amazonka-transfer5Returns the host key identifier for the imported key.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transfer`(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';x4amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles.amazonka-transferSee:  smart constructor.amazonka-transferAn optional date that specifies when the certificate becomes active.amazonka-transferAn optional list of certificates that make up the chain for the certificate that's being imported.amazonka-transfer8A short description that helps identify the certificate.amazonka-transferAn optional date that specifies when the certificate becomes inactive.amazonka-transferThe file that contains the private key for the certificate that's being imported.amazonka-transferKey-value pairs that can be used to group and search for certificates.amazonka-transferSpecifies whether this certificate is used for signing or encryption.amazonka-transfer1The file that contains the certificate to import.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - An optional date that specifies when the certificate becomes active.,  - An optional list of certificates that make up the chain for the certificate that's being imported., ; - A short description that helps identify the certificate.,  - An optional date that specifies when the certificate becomes inactive.,  - The file that contains the private key for the certificate that's being imported.,  - Key-value pairs that can be used to group and search for certificates.,  - Specifies whether this certificate is used for signing or encryption., 4 - The file that contains the certificate to import.amazonka-transferAn optional date that specifies when the certificate becomes active.amazonka-transferAn optional list of certificates that make up the chain for the certificate that's being imported.amazonka-transfer8A short description that helps identify the certificate.amazonka-transferAn optional date that specifies when the certificate becomes inactive.amazonka-transferThe file that contains the private key for the certificate that's being imported.amazonka-transferKey-value pairs that can be used to group and search for certificates.amazonka-transferSpecifies whether this certificate is used for signing or encryption.amazonka-transfer1The file that contains the certificate to import.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - An array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles.amazonka-transfer The response's http status code.amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles.amazonka-transferamazonka-transferamazonka-transferamazonka-transfera(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';I amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer8The structure that contains the details of the workflow.amazonka-transferSee:  smart constructor.amazonka-transfer%A unique identifier for the workflow.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, ( - A unique identifier for the workflow.amazonka-transfer%A unique identifier for the workflow.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., ; - The structure that contains the details of the workflow.amazonka-transfer The response's http status code.amazonka-transfer8The structure that contains the details of the workflow.amazonka-transferamazonka-transferamazonka-transfer  b(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferA system-assigned unique identifier for a server that has this user assigned.amazonka-transferAn array containing the properties of the user account for the ServerID value that you specified.amazonka-transferSee:  smart constructor.amazonka-transferA system-assigned unique identifier for a server that has this user assigned.amazonka-transferThe name of the user assigned to one or more servers. User names are part of the sign-in credentials to use the Transfer Family service and perform file transfer tasks.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - A system-assigned unique identifier for a server that has this user assigned.,  - The name of the user assigned to one or more servers. User names are part of the sign-in credentials to use the Transfer Family service and perform file transfer tasks.amazonka-transferA system-assigned unique identifier for a server that has this user assigned.amazonka-transferThe name of the user assigned to one or more servers. User names are part of the sign-in credentials to use the Transfer Family service and perform file transfer tasks.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - A system-assigned unique identifier for a server that has this user assigned.,  - An array containing the properties of the user account for the ServerID value that you specified.amazonka-transfer The response's http status code.amazonka-transferA system-assigned unique identifier for a server that has this user assigned.amazonka-transferAn array containing the properties of the user account for the ServerID value that you specified.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferc(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';Z amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer8An array containing the properties of a server with the ServerID you specified.amazonka-transferSee:  smart constructor.amazonka-transfer1A system-assigned unique identifier for a server.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 4 - A system-assigned unique identifier for a server.amazonka-transfer1A system-assigned unique identifier for a server.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., ; - An array containing the properties of a server with the ServerID you specified.amazonka-transfer The response's http status code.amazonka-transfer8An array containing the properties of a server with the ServerID you specified.amazonka-transferamazonka-transferamazonka-transfer  d(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&'; amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer:An array containing the properties of the security policy.amazonka-transferSee:  smart constructor.amazonka-transferSpecifies the name of the security policy that is attached to the server.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - Specifies the name of the security policy that is attached to the server.amazonka-transferSpecifies the name of the security policy that is attached to the server.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., = - An array containing the properties of the security policy.amazonka-transfer The response's http status code.amazonka-transfer:An array containing the properties of the security policy.amazonka-transferamazonka-transferamazonka-transfer  e(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&'; amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer - The server identifier that's associated with the agreement.amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement.amazonka-transfer;The server identifier that's associated with the agreement.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., ; - The details for the specified agreement, returned as a DescribedAgreement object.amazonka-transfer The response's http status code.amazonka-transfer8The details for the specified agreement, returned as a DescribedAgreement object.amazonka-transferamazonka-transferamazonka-transferamazonka-transferk(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferA system-assigned unique identifier for a server that has this access assigned.amazonka-transferThe external identifier of the server that the access is attached to.amazonka-transferSee:  smart constructor.amazonka-transferA system-assigned unique identifier for a server that has this access assigned.amazonka-transferA unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - A system-assigned unique identifier for a server that has this access assigned.,  - A unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferA system-assigned unique identifier for a server that has this access assigned.amazonka-transferA unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - A system-assigned unique identifier for a server that has this access assigned.,  - The external identifier of the server that the access is attached to.amazonka-transfer The response's http status code.amazonka-transferA system-assigned unique identifier for a server that has this access assigned.amazonka-transferThe external identifier of the server that the access is attached to.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferl(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';}amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transfer%A unique identifier for the workflow.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, ( - A unique identifier for the workflow.amazonka-transfer%A unique identifier for the workflow.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferm(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transferA system-assigned unique identifier for a server instance that has the user assigned to it.amazonka-transferA unique string that identifies a user that is being deleted from a server.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - A system-assigned unique identifier for a server instance that has the user assigned to it.,  - A unique string that identifies a user that is being deleted from a server.amazonka-transferA system-assigned unique identifier for a server instance that has the user assigned to it.amazonka-transferA unique string that identifies a user that is being deleted from a server.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferamazonka-transfer  n(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&'; amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transferA system-assigned unique identifier for a file transfer protocol-enabled server instance that has the user assigned to it.amazonka-transferA unique identifier used to reference your user's specific SSH key.amazonka-transferA unique string that identifies a user whose public key is being deleted.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - A system-assigned unique identifier for a file transfer protocol-enabled server instance that has the user assigned to it.,  - A unique identifier used to reference your user's specific SSH key.,  - A unique string that identifies a user whose public key is being deleted.amazonka-transferA system-assigned unique identifier for a file transfer protocol-enabled server instance that has the user assigned to it.amazonka-transferA unique identifier used to reference your user's specific SSH key.amazonka-transferA unique string that identifies a user whose public key is being deleted.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferamazonka-transferamazonka-transfer  o(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transfer:A unique system-assigned identifier for a server instance.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, = - A unique system-assigned identifier for a server instance.amazonka-transfer:A unique system-assigned identifier for a server instance.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferp(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transfer4The identifier of the profile that you are deleting.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 7 - The identifier of the profile that you are deleting.amazonka-transfer4The identifier of the profile that you are deleting.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferq(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transferThe identifier of the server that contains the host key that you are deleting.amazonka-transfer5The identifier of the host key that you are deleting.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The identifier of the server that contains the host key that you are deleting., 8 - The identifier of the host key that you are deleting.amazonka-transferThe identifier of the server that contains the host key that you are deleting.amazonka-transfer5The identifier of the host key that you are deleting.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferamazonka-transfer  r(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';7amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transfer(The unique identifier for the connector.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, + - The unique identifier for the connector.amazonka-transfer(The unique identifier for the connector.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transfers(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&'; amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transfer?The identifier of the certificate object that you are deleting.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The identifier of the certificate object that you are deleting.amazonka-transfer?The identifier of the certificate object that you are deleting.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transfert(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement.amazonka-transferThe server identifier associated with the agreement that you are deleting.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - A unique identifier for the agreement. This identifier is returned when you create an agreement.,  - The server identifier associated with the agreement that you are deleting.amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement.amazonka-transferThe server identifier associated with the agreement that you are deleting.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferamazonka-transfer  u(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transferA system-assigned unique identifier for a server that has this user assigned.amazonka-transferA unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - A system-assigned unique identifier for a server that has this user assigned.,  - A unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferA system-assigned unique identifier for a server that has this user assigned.amazonka-transferA unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferamazonka-transfer  v(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';1Wamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer%A unique identifier for the workflow.amazonka-transferSee:  smart constructor.amazonka-transfer'A textual description for the workflow.amazonka-transferSpecifies the steps (actions) to take if errors are encountered during execution of the workflow.4For custom steps, the lambda function needs to send FAILURE to the call back API to kick off the exception steps. Additionally, if the lambda does not send SUCCESS8 before it times out, the exception steps are executed.amazonka-transferKey-value pairs that can be used to group and search for workflows. Tags are metadata attached to workflows for any purpose.amazonka-transferSpecifies the details for the steps that are in the specified workflow.The TYPE specifies which of the following actions is being taken for this step.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file.8Currently, copying and tagging are supported only on S3.For file location, you specify either the S3 bucket and key, or the EFS file system ID and path.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, * - A textual description for the workflow.,  - Specifies the steps (actions) to take if errors are encountered during execution of the workflow.4For custom steps, the lambda function needs to send FAILURE to the call back API to kick off the exception steps. Additionally, if the lambda does not send SUCCESS8 before it times out, the exception steps are executed.,  - Key-value pairs that can be used to group and search for workflows. Tags are metadata attached to workflows for any purpose.,  - Specifies the details for the steps that are in the specified workflow.The TYPE specifies which of the following actions is being taken for this step.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file.8Currently, copying and tagging are supported only on S3.For file location, you specify either the S3 bucket and key, or the EFS file system ID and path.amazonka-transfer'A textual description for the workflow.amazonka-transferSpecifies the steps (actions) to take if errors are encountered during execution of the workflow.4For custom steps, the lambda function needs to send FAILURE to the call back API to kick off the exception steps. Additionally, if the lambda does not send SUCCESS8 before it times out, the exception steps are executed.amazonka-transferKey-value pairs that can be used to group and search for workflows. Tags are metadata attached to workflows for any purpose.amazonka-transferSpecifies the details for the steps that are in the specified workflow.The TYPE specifies which of the following actions is being taken for this step.COPY$: Copy the file to another location.CUSTOM7: Perform a custom step with an Lambda function target.DELETE: Delete the file.TAG: Add a tag to the file.8Currently, copying and tagging are supported only on S3.For file location, you specify either the S3 bucket and key, or the EFS file system ID and path.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., ( - A unique identifier for the workflow.amazonka-transfer The response's http status code.amazonka-transfer%A unique identifier for the workflow.amazonka-transferamazonka-transferw(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';oamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer:The identifier of the server that the user is attached to.amazonka-transferA unique string that identifies a user account associated with a server.amazonka-transferSee:  smart constructor.amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferLogical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock your user down to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target' to the HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ]amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferA session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the 8Amazon Web Services Security Token Service API Reference.amazonka-transfer6Specifies the full POSIX identity, including user ID (Uid), group ID (Gid!), and any secondary groups IDs ( SecondaryGids), that controls your users' access to your Amazon EFS file systems. The POSIX permissions that are set on files and directories in Amazon EFS determine the level of access your users get when transferring files into and out of your Amazon EFS file systems.amazonka-transferThe public portion of the Secure Shell (SSH) key used to authenticate the user to the server.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transferKey-value pairs that can be used to group and search for users. Tags are metadata attached to users for any purpose.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that you added your user to.amazonka-transferA unique string that identifies a user and is associated with a ServerId. This user name must be a minimum of 3 and a maximum of 100 characters long. The following are valid characters: a-z, A-Z, 0-9, underscore '_', hyphen '-', period '.', and at sign '@'. The user name can't start with a hyphen, period, or at sign.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.,  - Logical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock your user down to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target' to the HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ],  - The type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.,  - A session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the 8Amazon Web Services Security Token Service API Reference., 9 - Specifies the full POSIX identity, including user ID (Uid), group ID (Gid!), and any secondary groups IDs ( SecondaryGids), that controls your users' access to your Amazon EFS file systems. The POSIX permissions that are set on files and directories in Amazon EFS determine the level of access your users get when transferring files into and out of your Amazon EFS file systems.,  - The public portion of the Secure Shell (SSH) key used to authenticate the user to the server.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.,  - Key-value pairs that can be used to group and search for users. Tags are metadata attached to users for any purpose.,  - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.,  - A system-assigned unique identifier for a server instance. This is the specific server that you added your user to.,  - A unique string that identifies a user and is associated with a ServerId. This user name must be a minimum of 3 and a maximum of 100 characters long. The following are valid characters: a-z, A-Z, 0-9, underscore '_', hyphen '-', period '.', and at sign '@'. The user name can't start with a hyphen, period, or at sign.amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferLogical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock your user down to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target' to the HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ]amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferA session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the 8Amazon Web Services Security Token Service API Reference.amazonka-transfer6Specifies the full POSIX identity, including user ID (Uid), group ID (Gid!), and any secondary groups IDs ( SecondaryGids), that controls your users' access to your Amazon EFS file systems. The POSIX permissions that are set on files and directories in Amazon EFS determine the level of access your users get when transferring files into and out of your Amazon EFS file systems.amazonka-transferThe public portion of the Secure Shell (SSH) key used to authenticate the user to the server.5Transfer Family accepts RSA, ECDSA, and ED25519 keys.amazonka-transferKey-value pairs that can be used to group and search for users. Tags are metadata attached to users for any purpose.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that you added your user to.amazonka-transferA unique string that identifies a user and is associated with a ServerId. This user name must be a minimum of 3 and a maximum of 100 characters long. The following are valid characters: a-z, A-Z, 0-9, underscore '_', hyphen '-', period '.', and at sign '@'. The user name can't start with a hyphen, period, or at sign.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., = - The identifier of the server that the user is attached to.,  - A unique string that identifies a user account associated with a server.amazonka-transfer The response's http status code.amazonka-transfer:The identifier of the server that the user is attached to.amazonka-transferA unique string that identifies a user account associated with a server.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transfer  x(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';&amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer>The service-assigned identifier of the server that is created.amazonka-transferSee:  smart constructor.amazonka-transferThe Amazon Resource Name (ARN) of the Certificate Manager (ACM) certificate. Required when  Protocols is set to FTPS.*To request a new public certificate, see  https://docs.aws.amazon.com/acm/latest/userguide/gs-acm-request-public.htmlRequest a public certificate in the Certificate Manager User Guide.1To import an existing certificate into ACM, see  https://docs.aws.amazon.com/acm/latest/userguide/import-certificate.htmlImporting certificates into ACM in the Certificate Manager User Guide.To request a private certificate to use FTPS through private IP addresses, see  https://docs.aws.amazon.com/acm/latest/userguide/gs-acm-request-private.htmlRequest a private certificate in the Certificate Manager User Guide.Certificates with the following cryptographic algorithms and key sizes are supported:2048-bit RSA (RSA_2048)4096-bit RSA (RSA_4096),Elliptic Prime Curve 256 bit (EC_prime256v1)+Elliptic Prime Curve 384 bit (EC_secp384r1)+Elliptic Prime Curve 521 bit (EC_secp521r1)The certificate must be a valid SSL/TLS X.509 version 3 certificate with FQDN or IP address specified and information about the issuer.amazonka-transferThe domain of the storage system that is used for file transfers. There are two domains available: Amazon Simple Storage Service (Amazon S3) and Amazon Elastic File System (Amazon EFS). The default value is S3.:After the server is created, the domain cannot be changed.amazonka-transferThe virtual private cloud (VPC) endpoint settings that are configured for your server. When you host your endpoint within your VPC, you can make your endpoint accessible only to resources within your VPC, or you can attach Elastic IP addresses and make your endpoint accessible to clients over the internet. Your VPC's default security groups are automatically assigned to your endpoint.amazonka-transferThe type of endpoint that you want your server to use. You can choose to make your server's endpoint publicly accessible (PUBLIC) or host it inside your VPC. With an endpoint that is hosted in a VPC, you can restrict access to your server and resources only within your VPC or choose to make it internet facing by attaching Elastic IP addresses directly to it.After May 19, 2021, you won't be able to create a server using EndpointType=VPC_ENDPOINT in your Amazon Web Services account if your account hasn't already done so before May 19, 2021. If you have already created servers with EndpointType=VPC_ENDPOINT in your Amazon Web Services account on or before May 19, 2021, you will not be affected. After this date, use  EndpointType=VPC.For more information, see https://docs.aws.amazon.com/transfer/latest/userguide/create-server-in-vpc.html#deprecate-vpc-endpoint.It is recommended that you use VPC as the  EndpointType. With this endpoint type, you have the option to directly associate up to three Elastic IPv4 addresses (BYO IP included) with your server's endpoint and use VPC security groups to restrict traffic by the client's public IP address. This is not possible with  EndpointType set to  VPC_ENDPOINT.amazonka-transferThe RSA, ECDSA, or ED25519 private key to use for your SFTP-enabled server. You can add multiple host keys, in case you want to rotate keys, or have a set of active keys that use different algorithms.Use the following command to generate an RSA 2048 bit key with no passphrase:;ssh-keygen -t rsa -b 2048 -N "" -m PEM -f my-new-server-key.$Use a minimum value of 2048 for the -b> option. You can create a stronger key by using 3072 or 4096.Use the following command to generate an ECDSA 256 bit key with no passphrase: option. You can create a stronger key by using 3072 or 4096.Use the following command to generate an ECDSA 256 bit key with no passphrase: option. You can create a stronger key by using 3072 or 4096.Use the following command to generate an ECDSA 256 bit key with no passphrase:The service-assigned identifier of the server that is created.amazonka-transferamazonka-transfer((y(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferThe unique identifier for the AS2 profile, returned after the API call succeeds.amazonka-transferSee:  smart constructor.amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles.amazonka-transferKey-value pairs that can be used to group and search for AS2 profiles.amazonka-transferThe As2Id is the AS2-name, as defined in the  -https://datatracker.ietf.org/doc/html/rfc4130RFC 4130&. For inbound transfers, this is the AS2-From header for the AS2 messages sent from the partner. For outbound connectors, this is the AS2-To< header for the AS2 messages sent to the partner using the StartFileTransfer/ API operation. This ID cannot include spaces.amazonka-transfer)Determines the type of profile to create:Specify LOCAL to create a local profile. A local profile represents the AS2-enabled Transfer Family server organization or party.Specify PARTNER to create a partner profile. A partner profile represents a remote organization, external to Transfer Family.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - An array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles.,  - Key-value pairs that can be used to group and search for AS2 profiles.,  - The As2Id is the AS2-name, as defined in the  -https://datatracker.ietf.org/doc/html/rfc4130RFC 4130&. For inbound transfers, this is the AS2-From header for the AS2 messages sent from the partner. For outbound connectors, this is the AS2-To< header for the AS2 messages sent to the partner using the StartFileTransfer/ API operation. This ID cannot include spaces., , - Determines the type of profile to create:Specify LOCAL to create a local profile. A local profile represents the AS2-enabled Transfer Family server organization or party.Specify PARTNER to create a partner profile. A partner profile represents a remote organization, external to Transfer Family.amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles.amazonka-transferKey-value pairs that can be used to group and search for AS2 profiles.amazonka-transferThe As2Id is the AS2-name, as defined in the  -https://datatracker.ietf.org/doc/html/rfc4130RFC 4130&. For inbound transfers, this is the AS2-From header for the AS2 messages sent from the partner. For outbound connectors, this is the AS2-To< header for the AS2 messages sent to the partner using the StartFileTransfer/ API operation. This ID cannot include spaces.amazonka-transfer)Determines the type of profile to create:Specify LOCAL to create a local profile. A local profile represents the AS2-enabled Transfer Family server organization or party.Specify PARTNER to create a partner profile. A partner profile represents a remote organization, external to Transfer Family.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - The unique identifier for the AS2 profile, returned after the API call succeeds.amazonka-transfer The response's http status code.amazonka-transferThe unique identifier for the AS2 profile, returned after the API call succeeds.amazonka-transferamazonka-transferamazonka-transferamazonka-transferz(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferThe unique identifier for the connector, returned after the API call succeeds.amazonka-transferSee:  smart constructor.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs.amazonka-transferKey-value pairs that can be used to group and search for connectors. Tags are metadata attached to connectors for any purpose.amazonka-transfer&The URL of the partner's AS2 endpoint.amazonka-transferA structure that contains the parameters for a connector object.amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs.,  - Key-value pairs that can be used to group and search for connectors. Tags are metadata attached to connectors for any purpose., ) - The URL of the partner's AS2 endpoint.,  - A structure that contains the parameters for a connector object., + - With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs.amazonka-transferKey-value pairs that can be used to group and search for connectors. Tags are metadata attached to connectors for any purpose.amazonka-transfer&The URL of the partner's AS2 endpoint.amazonka-transferA structure that contains the parameters for a connector object.amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - The unique identifier for the connector, returned after the API call succeeds.amazonka-transfer The response's http status code.amazonka-transferThe unique identifier for the connector, returned after the API call succeeds.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transfer{(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';3bamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferThe unique identifier for the agreement. Use this ID for deleting, or updating an agreement, as well as in any other API calls that require that you specify the agreement ID.amazonka-transferSee:  smart constructor.amazonka-transfer6A name or short description to identify the agreement.amazonka-transfer9The status of the agreement. The agreement can be either ACTIVE or INACTIVE.amazonka-transferKey-value pairs that can be used to group and search for agreements.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that the agreement uses.amazonka-transfer.A unique identifier for the AS2 local profile.amazonka-transferA unique identifier for the partner profile used in the agreement.amazonka-transferThe landing directory (folder) for files transferred by using the AS2 protocol.A  BaseDirectory example is DOC-EXAMPLE-BUCKET/home/ mydirectory.amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, 9 - A name or short description to identify the agreement., < - The status of the agreement. The agreement can be either ACTIVE or INACTIVE.,  - Key-value pairs that can be used to group and search for agreements.,  - A system-assigned unique identifier for a server instance. This is the specific server that the agreement uses., 1 - A unique identifier for the AS2 local profile.,  - A unique identifier for the partner profile used in the agreement.,  - The landing directory (folder) for files transferred by using the AS2 protocol.A  BaseDirectory example is DOC-EXAMPLE-BUCKET/home/ mydirectory., + - With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transfer6A name or short description to identify the agreement.amazonka-transfer9The status of the agreement. The agreement can be either ACTIVE or INACTIVE.amazonka-transferKey-value pairs that can be used to group and search for agreements.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that the agreement uses.amazonka-transfer.A unique identifier for the AS2 local profile.amazonka-transferA unique identifier for the partner profile used in the agreement.amazonka-transferThe landing directory (folder) for files transferred by using the AS2 protocol.A  BaseDirectory example is DOC-EXAMPLE-BUCKET/home/ mydirectory.amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - The unique identifier for the agreement. Use this ID for deleting, or updating an agreement, as well as in any other API calls that require that you specify the agreement ID.amazonka-transfer The response's http status code.amazonka-transferThe unique identifier for the agreement. Use this ID for deleting, or updating an agreement, as well as in any other API calls that require that you specify the agreement ID.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transfer|(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';oamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer:The identifier of the server that the user is attached to.amazonka-transferThe external identifier of the group whose users have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family.amazonka-transferSee:  smart constructor.amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferLogical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock down your user to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target to the  HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ]amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferA session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the $Security Token Service API Reference.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that you added your user to.amazonka-transferA unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.,  - Logical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock down your user to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target to the  HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ],  - The type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.,  - A session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the $Security Token Service API Reference.,  - Undocumented member.,  - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.,  - A system-assigned unique identifier for a server instance. This is the specific server that you added your user to.,  - A unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferLogical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock down your user to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target to the  HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ]amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferA session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the $Security Token Service API Reference.amazonka-transferUndocumented member.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that you added your user to.amazonka-transferA unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., = - The identifier of the server that the user is attached to.,  - The external identifier of the group whose users have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family.amazonka-transfer The response's http status code.amazonka-transfer:The identifier of the server that the user is attached to.amazonka-transferThe external identifier of the group whose users have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transfer}(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';xamazonka-transferSee:  smart constructor.amazonka-transferSee:  smart constructor.amazonka-transferThe value of the resource that will have the tag removed. An Amazon Resource Name (ARN) is an identifier for a specific Amazon Web Services resource, such as a server, user, or role.amazonka-transferTagKeys are key-value pairs assigned to ARNs that can be used to group and search for resources by type. This metadata can be attached to resources for any purpose.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The value of the resource that will have the tag removed. An Amazon Resource Name (ARN) is an identifier for a specific Amazon Web Services resource, such as a server, user, or role.,  - TagKeys are key-value pairs assigned to ARNs that can be used to group and search for resources by type. This metadata can be attached to resources for any purpose.amazonka-transferThe value of the resource that will have the tag removed. An Amazon Resource Name (ARN) is an identifier for a specific Amazon Web Services resource, such as a server, user, or role.amazonka-transferTagKeys are key-value pairs assigned to ARNs that can be used to group and search for resources by type. This metadata can be attached to resources for any purpose.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.amazonka-transferamazonka-transfer  ~(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';eamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer:The identifier of the server that the user is attached to.amazonka-transferThe external identifier of the group whose users have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Amazon Web ServicesTransfer Family.amazonka-transferSee:  smart constructor.amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferLogical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock down your user to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target to the  HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ]amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferA session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the 7Amazon Web ServicesSecurity Token Service API Reference.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that you added your user to.amazonka-transferA unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.,  - Logical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock down your user to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target to the  HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ],  - The type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.,  - A session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the 7Amazon Web ServicesSecurity Token Service API Reference.,  - Undocumented member.,  - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.,  - A system-assigned unique identifier for a server instance. This is the specific server that you added your user to.,  - A unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferThe landing directory (folder) for a user when they log in to the server using the client.A  HomeDirectory example is /bucket_name/home/mydirectory.amazonka-transferLogical directory mappings that specify what Amazon S3 or Amazon EFS paths and keys should be visible to your user and how you want to make them visible. You must specify the Entry and Target pair, where Entry( shows how the path is made visible and Target is the actual Amazon S3 or Amazon EFS path. If you only specify a target, it is displayed as is. You also must ensure that your Identity and Access Management (IAM) role provides access to paths in Target#. This value can be set only when HomeDirectoryType is set to LOGICAL.The following is an Entry and Target pair example. [ { "Entry": "/directory1", "Target": "/bucket_name/home/mydirectory" } ]In most cases, you can use this value instead of the session policy to lock down your user to the designated home directory ("chroot"). To do this, you can set Entry to / and set Target to the  HomeDirectory parameter value.The following is an Entry and Target pair example for chroot. ?[ { "Entry": "/", "Target": "/bucket_name/home/mydirectory" } ]amazonka-transferThe type of landing directory (folder) that you want your users' home directory to be when they log in to the server. If you set it to PATH, the user will see the absolute Amazon S3 bucket or EFS paths as is in their file transfer protocol clients. If you set it LOGICAL', you need to provide mappings in the HomeDirectoryMappings for how you want to make Amazon S3 or Amazon EFS paths visible to your users.amazonka-transferA session policy for your user so that you can use the same Identity and Access Management (IAM) role across multiple users. This policy scopes down a user's access to portions of their Amazon S3 bucket. Variables that you can use inside this policy include ${Transfer:UserName}, ${Transfer:HomeDirectory}, and ${Transfer:HomeBucket}.,This policy applies only when the domain of ServerId9 is Amazon S3. Amazon EFS does not use session policies.For session policies, Transfer Family stores the policy as a JSON blob, instead of the Amazon Resource Name (ARN) of the policy. You save the policy as a JSON blob and pass it in the Policy argument.)For an example of a session policy, see  https://docs.aws.amazon.com/transfer/latest/userguide/session-policy.htmlExample session policy.For more information, see  https://docs.aws.amazon.com/STS/latest/APIReference/API_AssumeRole.html AssumeRole in the 7Amazon Web ServicesSecurity Token Service API Reference.amazonka-transferUndocumented member.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that controls your users' access to your Amazon S3 bucket or Amazon EFS file system. The policies attached to this role determine the level of access that you want to provide your users when transferring files into and out of your Amazon S3 bucket or Amazon EFS file system. The IAM role should also contain a trust relationship that allows the server to access your resources when servicing your users' transfer requests.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that you added your user to.amazonka-transferA unique identifier that is required to identify specific groups within your directory. The users of the group that you associate have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Transfer Family. If you know the group name, you can view the SID values by running the following command using Windows PowerShell.+Get-ADGroup -Filter {samAccountName -like " YourGroupName3*"} -Properties * | Select SamAccountName,ObjectSidIn that command, replace  YourGroupName/ with the name of your Active Directory group.The regular expression used to validate this parameter is a string of characters consisting of uppercase and lowercase alphanumeric characters with no spaces. You can also include underscores or any of the following characters: =,.@:/-amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., = - The identifier of the server that the user is attached to.,  - The external identifier of the group whose users have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Amazon Web ServicesTransfer Family.amazonka-transfer The response's http status code.amazonka-transfer:The identifier of the server that the user is attached to.amazonka-transferThe external identifier of the group whose users have access to your Amazon S3 or Amazon EFS resources over the enabled protocols using Amazon Web ServicesTransfer Family.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transfer(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';џamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement.amazonka-transferSee:  smart constructor.amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferTo change the landing directory (folder) for files that are transferred, provide the bucket folder that you want to use; for example, /DOC-EXAMPLE-BUCKET/home/ mydirectory .amazonka-transferTo replace the existing description, provide a short description for the agreement.amazonka-transfer.A unique identifier for the AS2 local profile.To change the local profile identifier, provide a new value here.amazonka-transferA unique identifier for the partner profile. To change the partner profile identifier, provide a new value here.amazonka-transferYou can update the status for the agreement, either activating an inactive agreement or the reverse.amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that the agreement uses.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, + - With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.,  - To change the landing directory (folder) for files that are transferred, provide the bucket folder that you want to use; for example, /DOC-EXAMPLE-BUCKET/home/ mydirectory .,  - To replace the existing description, provide a short description for the agreement., 1 - A unique identifier for the AS2 local profile.To change the local profile identifier, provide a new value here.,  - A unique identifier for the partner profile. To change the partner profile identifier, provide a new value here.,  - You can update the status for the agreement, either activating an inactive agreement or the reverse.,  - A unique identifier for the agreement. This identifier is returned when you create an agreement.,  - A system-assigned unique identifier for a server instance. This is the specific server that the agreement uses.amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferTo change the landing directory (folder) for files that are transferred, provide the bucket folder that you want to use; for example, /DOC-EXAMPLE-BUCKET/home/ mydirectory .amazonka-transferTo replace the existing description, provide a short description for the agreement.amazonka-transfer.A unique identifier for the AS2 local profile.To change the local profile identifier, provide a new value here.amazonka-transferA unique identifier for the partner profile. To change the partner profile identifier, provide a new value here.amazonka-transferYou can update the status for the agreement, either activating an inactive agreement or the reverse.amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement.amazonka-transferA system-assigned unique identifier for a server instance. This is the specific server that the agreement uses.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - A unique identifier for the agreement. This identifier is returned when you create an agreement.amazonka-transfer The response's http status code.amazonka-transferA unique identifier for the agreement. This identifier is returned when you create an agreement.amazonka-transferamazonka-transferamazonka-transferamazonka-transfer(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';Oamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferReturns the identifier of the certificate object that you are updating.amazonka-transferSee:  smart constructor.amazonka-transferAn optional date that specifies when the certificate becomes active.amazonka-transfer5A short description to help identify the certificate.amazonka-transferAn optional date that specifies when the certificate becomes inactive.amazonka-transfer?The identifier of the certificate object that you are updating.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - An optional date that specifies when the certificate becomes active., 8 - A short description to help identify the certificate.,  - An optional date that specifies when the certificate becomes inactive.,  - The identifier of the certificate object that you are updating.amazonka-transferAn optional date that specifies when the certificate becomes active.amazonka-transfer5A short description to help identify the certificate.amazonka-transferAn optional date that specifies when the certificate becomes inactive.amazonka-transfer?The identifier of the certificate object that you are updating.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - Returns the identifier of the certificate object that you are updating.amazonka-transfer The response's http status code.amazonka-transferReturns the identifier of the certificate object that you are updating.amazonka-transferamazonka-transferamazonka-transfer(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferReturns the identifier of the connector object that you are updating.amazonka-transferSee:  smart constructor.amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferA structure that contains the parameters for a connector object.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs.amazonka-transfer&The URL of the partner's AS2 endpoint.amazonka-transfer(The unique identifier for the connector.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, + - With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.,  - A structure that contains the parameters for a connector object.,  - The Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs., ) - The URL of the partner's AS2 endpoint., + - The unique identifier for the connector.amazonka-transfer(With AS2, you can send files by calling StartFileTransfer: and specifying the file paths in the request parameter,  SendFilePaths9. We use the file@s parent directory (for example, for &--send-file-paths /bucket/dir/file.txt, parent directory is  /bucket/dir/) to temporarily store a processed AS2 message file, store the MDN when we receive them from the partner, and write a final JSON file containing relevant metadata of the transmission. So, the  AccessRole needs to provide read and write access to the parent directory of the file location used in the StartFileTransfer request. Additionally, you need to provide read and write access to the parent directory of the files that you intend to send with StartFileTransfer.amazonka-transferA structure that contains the parameters for a connector object.amazonka-transferThe Amazon Resource Name (ARN) of the Identity and Access Management (IAM) role that allows a connector to turn on CloudWatch logging for Amazon S3 events. When set, you can view connector activity in your CloudWatch logs.amazonka-transfer&The URL of the partner's AS2 endpoint.amazonka-transfer(The unique identifier for the connector.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - Returns the identifier of the connector object that you are updating.amazonka-transfer The response's http status code.amazonka-transferReturns the identifier of the connector object that you are updating.amazonka-transferamazonka-transferamazonka-transfer(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';Uamazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transferReturns the server identifier for the server that contains the updated host key.amazonka-transfer9Returns the host key identifier for the updated host key.amazonka-transferSee:  smart constructor.amazonka-transferThe identifier of the server that contains the host key that you are updating.amazonka-transfer5The identifier of the host key that you are updating.amazonka-transfer(An updated description for the host key.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:,  - The identifier of the server that contains the host key that you are updating., 8 - The identifier of the host key that you are updating., + - An updated description for the host key.amazonka-transferThe identifier of the server that contains the host key that you are updating.amazonka-transfer5The identifier of the host key that you are updating.amazonka-transfer(An updated description for the host key.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code.,  - Returns the server identifier for the server that contains the updated host key., < - Returns the host key identifier for the updated host key.amazonka-transfer The response's http status code.amazonka-transferReturns the server identifier for the server that contains the updated host key.amazonka-transfer9Returns the host key identifier for the updated host key.amazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transferamazonka-transfer(c) 2013-2023 Brendan HayMozilla Public License, v. 2.0. Brendan Hayauto-generatednon-portable (GHC extensions) Safe-Inferred "%&';a amazonka-transferSee:  smart constructor.amazonka-transfer The response's http status code.amazonka-transfer - The identifier of the profile object that you are updating.amazonka-transferAn array of identifiers for the imported certificates. You use this identifier for working with profiles and partner profiles.amazonka-transfer;The identifier of the profile object that you are updating.amazonka-transferCreate a value of " with all optional fields omitted.Use  0https://hackage.haskell.org/package/generic-lens generic-lens or  *https://hackage.haskell.org/package/opticsoptics! to modify other optional fields.The following record fields are available, with the corresponding lenses provided for backwards compatibility:, # - The response's http status code., ? - Returns the identifier for the profile that's being updated.amazonka-transfer The response's http status code.amazonka-transfer option. You can create a stronger key by using 3072 or 4096.Use the following command to generate an ECDSA 256 bit key with no passphrase: option. You can create a stronger key by using 3072 or 4096.Use the following command to generate an ECDSA 256 bit key with no passphrase: option. You can create a stronger key by using 3072 or 4096.Use the following command to generate an ECDSA 256 bit key with no passphrase: > > > > > > > > > > > > > > > > > > ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? @ @ @ @ @ @ @ @ @ @ @ @ A A A A A A A A A A A A A A A A A A B B B B B B B B B B B B B B B C C C C C C C C C C C C C C C D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D E E E E E E E E E E E E E E E E E E E E E E E E E E E F F F F F F F F F F F F F F F F F F F F F F F G G G G G G G G G G G G G G G G G G G G G G H H H H H H H H H H H H H H H H I I I I I I I I I I I I I I J J J J J J J J J J J J J J J J J J J J J J J J J J K K K K K K K K K K L L L L L L L L L L L L L L L L L L L L L L L L L L L L L 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Amazonka.Transfer.ListExecutions Amazonka.Transfer.ListConnectors"Amazonka.Transfer.ListCertificates Amazonka.Transfer.ListAgreementsAmazonka.Transfer.ListAccesses$Amazonka.Transfer.ImportSshPublicKeyAmazonka.Transfer.ImportHostKey#Amazonka.Transfer.ImportCertificate"Amazonka.Transfer.DescribeWorkflowAmazonka.Transfer.DescribeUser Amazonka.Transfer.DescribeServer(Amazonka.Transfer.DescribeSecurityPolicy!Amazonka.Transfer.DescribeProfile!Amazonka.Transfer.DescribeHostKey#Amazonka.Transfer.DescribeExecution#Amazonka.Transfer.DescribeConnector%Amazonka.Transfer.DescribeCertificate#Amazonka.Transfer.DescribeAgreement Amazonka.Transfer.DescribeAccess Amazonka.Transfer.DeleteWorkflowAmazonka.Transfer.DeleteUser$Amazonka.Transfer.DeleteSshPublicKeyAmazonka.Transfer.DeleteServerAmazonka.Transfer.DeleteProfileAmazonka.Transfer.DeleteHostKey!Amazonka.Transfer.DeleteConnector#Amazonka.Transfer.DeleteCertificate!Amazonka.Transfer.DeleteAgreementAmazonka.Transfer.DeleteAccess Amazonka.Transfer.CreateWorkflowAmazonka.Transfer.CreateUserAmazonka.Transfer.CreateServerAmazonka.Transfer.CreateProfile!Amazonka.Transfer.CreateConnector!Amazonka.Transfer.CreateAgreementAmazonka.Transfer.CreateAccessAmazonka.Transfer.UntagResourceAmazonka.Transfer.UpdateAccess!Amazonka.Transfer.UpdateAgreement#Amazonka.Transfer.UpdateCertificate!Amazonka.Transfer.UpdateConnectorAmazonka.Transfer.UpdateHostKeyAmazonka.Transfer.UpdateProfileAmazonka.Transfer.UpdateServerAmazonka.Transfer.UpdateUserAmazonka.Transfer.WaitersAmazonka.Transfer.LensAmazonka.TransferDescribeServerAgreementStatusTypeAgreementStatusType'fromAgreementStatusTypeAgreementStatusType_INACTIVEAgreementStatusType_ACTIVE$fShowAgreementStatusType$fReadAgreementStatusType$fEqAgreementStatusType$fOrdAgreementStatusType$fGenericAgreementStatusType$fHashableAgreementStatusType$fNFDataAgreementStatusType$fFromTextAgreementStatusType$fToTextAgreementStatusType!$fToByteStringAgreementStatusType$fToLogAgreementStatusType$fToHeaderAgreementStatusType$fToQueryAgreementStatusType$fFromJSONAgreementStatusType $fFromJSONKeyAgreementStatusType$fToJSONAgreementStatusType$fToJSONKeyAgreementStatusType$fFromXMLAgreementStatusType$fToXMLAgreementStatusType As2Transport 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newListedUserlistedUser_homeDirectorylistedUser_homeDirectoryTypelistedUser_rolelistedUser_sshPublicKeyCountlistedUser_userNamelistedUser_arn$fNFDataListedUser$fHashableListedUser$fFromJSONListedUser$fEqListedUser$fReadListedUser$fShowListedUser$fGenericListedUserListedWorkflowListedWorkflow'$sel:arn:ListedWorkflow' $sel:description:ListedWorkflow'$sel:workflowId:ListedWorkflow'newListedWorkflowlistedWorkflow_arnlistedWorkflow_descriptionlistedWorkflow_workflowId$fNFDataListedWorkflow$fHashableListedWorkflow$fFromJSONListedWorkflow$fEqListedWorkflow$fReadListedWorkflow$fShowListedWorkflow$fGenericListedWorkflowLoggingConfigurationLoggingConfiguration''$sel:logGroupName:LoggingConfiguration'&$sel:loggingRole:LoggingConfiguration'newLoggingConfiguration!loggingConfiguration_logGroupName 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MdnSigningAlgMdnSigningAlg'fromMdnSigningAlgMdnSigningAlg_SHA512MdnSigningAlg_SHA384MdnSigningAlg_SHA256MdnSigningAlg_SHA1MdnSigningAlg_NONEMdnSigningAlg_DEFAULT$fShowMdnSigningAlg$fReadMdnSigningAlg$fEqMdnSigningAlg$fOrdMdnSigningAlg$fGenericMdnSigningAlg$fHashableMdnSigningAlg$fNFDataMdnSigningAlg$fFromTextMdnSigningAlg$fToTextMdnSigningAlg$fToByteStringMdnSigningAlg$fToLogMdnSigningAlg$fToHeaderMdnSigningAlg$fToQueryMdnSigningAlg$fFromJSONMdnSigningAlg$fFromJSONKeyMdnSigningAlg$fToJSONMdnSigningAlg$fToJSONKeyMdnSigningAlg$fFromXMLMdnSigningAlg$fToXMLMdnSigningAlgOverwriteExistingOverwriteExisting'fromOverwriteExistingOverwriteExisting_TRUEOverwriteExisting_FALSE$fShowOverwriteExisting$fReadOverwriteExisting$fEqOverwriteExisting$fOrdOverwriteExisting$fGenericOverwriteExisting$fHashableOverwriteExisting$fNFDataOverwriteExisting$fFromTextOverwriteExisting$fToTextOverwriteExisting$fToByteStringOverwriteExisting$fToLogOverwriteExisting$fToHeaderOverwriteExisting$fToQueryOverwriteExisting$fFromJSONOverwriteExisting$fFromJSONKeyOverwriteExisting$fToJSONOverwriteExisting$fToJSONKeyOverwriteExisting$fFromXMLOverwriteExisting$fToXMLOverwriteExisting PosixProfile PosixProfile' $sel:secondaryGids:PosixProfile'$sel:uid:PosixProfile'$sel:gid:PosixProfile'newPosixProfileposixProfile_secondaryGidsposixProfile_uidposixProfile_gid$fToJSONPosixProfile$fNFDataPosixProfile$fHashablePosixProfile$fFromJSONPosixProfile$fEqPosixProfile$fReadPosixProfile$fShowPosixProfile$fGenericPosixProfileDescribedAccessDescribedAccess' $sel:externalId:DescribedAccess'#$sel:homeDirectory:DescribedAccess'+$sel:homeDirectoryMappings:DescribedAccess''$sel:homeDirectoryType:DescribedAccess'$sel:policy:DescribedAccess'"$sel:posixProfile:DescribedAccess'$sel:role':DescribedAccess'newDescribedAccessdescribedAccess_externalIddescribedAccess_homeDirectory%describedAccess_homeDirectoryMappings!describedAccess_homeDirectoryTypedescribedAccess_policydescribedAccess_posixProfiledescribedAccess_role$fNFDataDescribedAccess$fHashableDescribedAccess$fFromJSONDescribedAccess$fEqDescribedAccess$fReadDescribedAccess$fShowDescribedAccess$fGenericDescribedAccess ProfileType ProfileType'fromProfileTypeProfileType_PARTNERProfileType_LOCAL$fShowProfileType$fReadProfileType$fEqProfileType$fOrdProfileType$fGenericProfileType$fHashableProfileType$fNFDataProfileType$fFromTextProfileType$fToTextProfileType$fToByteStringProfileType$fToLogProfileType$fToHeaderProfileType$fToQueryProfileType$fFromJSONProfileType$fFromJSONKeyProfileType$fToJSONProfileType$fToJSONKeyProfileType$fFromXMLProfileType$fToXMLProfileType ListedProfileListedProfile'$sel:arn:ListedProfile'$sel:as2Id:ListedProfile'$sel:profileId:ListedProfile'$sel:profileType:ListedProfile'newListedProfilelistedProfile_arnlistedProfile_as2IdlistedProfile_profileIdlistedProfile_profileType$fNFDataListedProfile$fHashableListedProfile$fFromJSONListedProfile$fEqListedProfile$fReadListedProfile$fShowListedProfile$fGenericListedProfileProtocol Protocol' fromProtocol Protocol_SFTP Protocol_FTPS Protocol_FTP Protocol_AS2$fShowProtocol$fReadProtocol $fEqProtocol $fOrdProtocol$fGenericProtocol$fHashableProtocol$fNFDataProtocol$fFromTextProtocol$fToTextProtocol$fToByteStringProtocol$fToLogProtocol$fToHeaderProtocol$fToQueryProtocol$fFromJSONProtocol$fFromJSONKeyProtocol$fToJSONProtocol$fToJSONKeyProtocol$fFromXMLProtocol$fToXMLProtocolS3FileLocationS3FileLocation'$sel:bucket:S3FileLocation'$sel:etag:S3FileLocation'$sel:key:S3FileLocation'$sel:versionId:S3FileLocation'newS3FileLocations3FileLocation_buckets3FileLocation_etags3FileLocation_keys3FileLocation_versionId$fNFDataS3FileLocation$fHashableS3FileLocation$fFromJSONS3FileLocation$fEqS3FileLocation$fReadS3FileLocation$fShowS3FileLocation$fGenericS3FileLocation FileLocation FileLocation'"$sel:efsFileLocation:FileLocation'!$sel:s3FileLocation:FileLocation'newFileLocationfileLocation_efsFileLocationfileLocation_s3FileLocation$fNFDataFileLocation$fHashableFileLocation$fFromJSONFileLocation$fEqFileLocation$fReadFileLocation$fShowFileLocation$fGenericFileLocationS3InputFileLocationS3InputFileLocation' $sel:bucket:S3InputFileLocation'$sel:key:S3InputFileLocation'newS3InputFileLocations3InputFileLocation_buckets3InputFileLocation_key$fToJSONS3InputFileLocation$fNFDataS3InputFileLocation$fHashableS3InputFileLocation$fFromJSONS3InputFileLocation$fEqS3InputFileLocation$fReadS3InputFileLocation$fShowS3InputFileLocation$fGenericS3InputFileLocationInputFileLocationInputFileLocation''$sel:efsFileLocation:InputFileLocation'&$sel:s3FileLocation:InputFileLocation'newInputFileLocation!inputFileLocation_efsFileLocation inputFileLocation_s3FileLocation$fToJSONInputFileLocation$fNFDataInputFileLocation$fHashableInputFileLocation$fFromJSONInputFileLocation$fEqInputFileLocation$fReadInputFileLocation$fShowInputFileLocation$fGenericInputFileLocationDecryptStepDetailsDecryptStepDetails'$sel:name:DecryptStepDetails'*$sel:overwriteExisting:DecryptStepDetails'+$sel:sourceFileLocation:DecryptStepDetails'$sel:type':DecryptStepDetails'0$sel:destinationFileLocation:DecryptStepDetails'newDecryptStepDetailsdecryptStepDetails_name$decryptStepDetails_overwriteExisting%decryptStepDetails_sourceFileLocationdecryptStepDetails_type*decryptStepDetails_destinationFileLocation$fToJSONDecryptStepDetails$fNFDataDecryptStepDetails$fHashableDecryptStepDetails$fFromJSONDecryptStepDetails$fEqDecryptStepDetails$fReadDecryptStepDetails$fShowDecryptStepDetails$fGenericDecryptStepDetailsCopyStepDetailsCopyStepDetails'-$sel:destinationFileLocation:CopyStepDetails'$sel:name:CopyStepDetails''$sel:overwriteExisting:CopyStepDetails'($sel:sourceFileLocation:CopyStepDetails'newCopyStepDetails'copyStepDetails_destinationFileLocationcopyStepDetails_name!copyStepDetails_overwriteExisting"copyStepDetails_sourceFileLocation$fToJSONCopyStepDetails$fNFDataCopyStepDetails$fHashableCopyStepDetails$fFromJSONCopyStepDetails$fEqCopyStepDetails$fReadCopyStepDetails$fShowCopyStepDetails$fGenericCopyStepDetailsS3TagS3Tag'$sel:key:S3Tag'$sel:value:S3Tag'newS3Tag s3Tag_key s3Tag_value $fToJSONS3Tag $fNFDataS3Tag$fHashableS3Tag$fFromJSONS3Tag $fEqS3Tag $fReadS3Tag $fShowS3Tag$fGenericS3Tag SetStatOptionSetStatOption'fromSetStatOptionSetStatOption_ENABLE_NO_OPSetStatOption_DEFAULT$fShowSetStatOption$fReadSetStatOption$fEqSetStatOption$fOrdSetStatOption$fGenericSetStatOption$fHashableSetStatOption$fNFDataSetStatOption$fFromTextSetStatOption$fToTextSetStatOption$fToByteStringSetStatOption$fToLogSetStatOption$fToHeaderSetStatOption$fToQuerySetStatOption$fFromJSONSetStatOption$fFromJSONKeySetStatOption$fToJSONSetStatOption$fToJSONKeySetStatOption$fFromXMLSetStatOption$fToXMLSetStatOption SigningAlg SigningAlg'fromSigningAlgSigningAlg_SHA512SigningAlg_SHA384SigningAlg_SHA256SigningAlg_SHA1SigningAlg_NONE$fShowSigningAlg$fReadSigningAlg$fEqSigningAlg$fOrdSigningAlg$fGenericSigningAlg$fHashableSigningAlg$fNFDataSigningAlg$fFromTextSigningAlg$fToTextSigningAlg$fToByteStringSigningAlg$fToLogSigningAlg$fToHeaderSigningAlg$fToQuerySigningAlg$fFromJSONSigningAlg$fFromJSONKeySigningAlg$fToJSONSigningAlg$fToJSONKeySigningAlg$fFromXMLSigningAlg$fToXMLSigningAlgAs2ConnectorConfigAs2ConnectorConfig'$$sel:compression:As2ConnectorConfig',$sel:encryptionAlgorithm:As2ConnectorConfig''$sel:localProfileId:As2ConnectorConfig'$$sel:mdnResponse:As2ConnectorConfig',$sel:mdnSigningAlgorithm:As2ConnectorConfig''$sel:messageSubject:As2ConnectorConfig')$sel:partnerProfileId:As2ConnectorConfig')$sel:signingAlgorithm:As2ConnectorConfig'newAs2ConnectorConfigas2ConnectorConfig_compression&as2ConnectorConfig_encryptionAlgorithm!as2ConnectorConfig_localProfileIdas2ConnectorConfig_mdnResponse&as2ConnectorConfig_mdnSigningAlgorithm!as2ConnectorConfig_messageSubject#as2ConnectorConfig_partnerProfileId#as2ConnectorConfig_signingAlgorithm$fToJSONAs2ConnectorConfig$fNFDataAs2ConnectorConfig$fHashableAs2ConnectorConfig$fFromJSONAs2ConnectorConfig$fEqAs2ConnectorConfig$fReadAs2ConnectorConfig$fShowAs2ConnectorConfig$fGenericAs2ConnectorConfig SshPublicKey SshPublicKey'$sel:dateImported:SshPublicKey'#$sel:sshPublicKeyBody:SshPublicKey'!$sel:sshPublicKeyId:SshPublicKey'newSshPublicKeysshPublicKey_dateImportedsshPublicKey_sshPublicKeyBodysshPublicKey_sshPublicKeyId$fNFDataSshPublicKey$fHashableSshPublicKey$fFromJSONSshPublicKey$fEqSshPublicKey$fReadSshPublicKey$fShowSshPublicKey$fGenericSshPublicKeyStateState' fromStateState_STOP_FAILEDState_STOPPINGState_START_FAILEDState_STARTING State_ONLINE State_OFFLINE $fShowState $fReadState $fEqState $fOrdState$fGenericState$fHashableState $fNFDataState$fFromTextState $fToTextState$fToByteStringState $fToLogState$fToHeaderState$fToQueryState$fFromJSONState$fFromJSONKeyState $fToJSONState$fToJSONKeyState$fFromXMLState $fToXMLState ListedServer ListedServer'$sel:domain:ListedServer'$sel:endpointType:ListedServer''$sel:identityProviderType:ListedServer'$sel:loggingRole:ListedServer'$sel:serverId:ListedServer'$sel:state:ListedServer'$sel:userCount:ListedServer'$sel:arn:ListedServer'newListedServerlistedServer_domainlistedServer_endpointType!listedServer_identityProviderTypelistedServer_loggingRolelistedServer_serverIdlistedServer_statelistedServer_userCountlistedServer_arn$fNFDataListedServer$fHashableListedServer$fFromJSONListedServer$fEqListedServer$fReadListedServer$fShowListedServer$fGenericListedServerTagTag' $sel:key:Tag'$sel:value:Tag'newTagtag_key tag_value $fToJSONTag $fNFDataTag $fHashableTag $fFromJSONTag$fEqTag $fReadTag $fShowTag $fGenericTag DescribedUserDescribedUser'!$sel:homeDirectory:DescribedUser')$sel:homeDirectoryMappings:DescribedUser'%$sel:homeDirectoryType:DescribedUser'$sel:policy:DescribedUser' $sel:posixProfile:DescribedUser'$sel:role':DescribedUser'!$sel:sshPublicKeys:DescribedUser'$sel:tags:DescribedUser'$sel:userName:DescribedUser'$sel:arn:DescribedUser'newDescribedUserdescribedUser_homeDirectory#describedUser_homeDirectoryMappingsdescribedUser_homeDirectoryTypedescribedUser_policydescribedUser_posixProfiledescribedUser_roledescribedUser_sshPublicKeysdescribedUser_tagsdescribedUser_userNamedescribedUser_arn$fNFDataDescribedUser$fHashableDescribedUser$fFromJSONDescribedUser$fEqDescribedUser$fReadDescribedUser$fShowDescribedUser$fGenericDescribedUserDescribedProfileDescribedProfile'$sel:as2Id:DescribedProfile'%$sel:certificateIds:DescribedProfile' $sel:profileId:DescribedProfile'"$sel:profileType:DescribedProfile'$sel:tags:DescribedProfile'$sel:arn:DescribedProfile'newDescribedProfiledescribedProfile_as2IddescribedProfile_certificateIdsdescribedProfile_profileIddescribedProfile_profileTypedescribedProfile_tagsdescribedProfile_arn$fNFDataDescribedProfile$fHashableDescribedProfile$fFromJSONDescribedProfile$fEqDescribedProfile$fReadDescribedProfile$fShowDescribedProfile$fGenericDescribedProfileDescribedHostKeyDescribedHostKey'#$sel:dateImported:DescribedHostKey'"$sel:description:DescribedHostKey')$sel:hostKeyFingerprint:DescribedHostKey' $sel:hostKeyId:DescribedHostKey'$sel:tags:DescribedHostKey'$sel:type':DescribedHostKey'$sel:arn:DescribedHostKey'newDescribedHostKeydescribedHostKey_dateImporteddescribedHostKey_description#describedHostKey_hostKeyFingerprintdescribedHostKey_hostKeyIddescribedHostKey_tagsdescribedHostKey_typedescribedHostKey_arn$fNFDataDescribedHostKey$fHashableDescribedHostKey$fFromJSONDescribedHostKey$fEqDescribedHostKey$fReadDescribedHostKey$fShowDescribedHostKey$fGenericDescribedHostKeyDescribedConnectorDescribedConnector'#$sel:accessRole:DescribedConnector'"$sel:as2Config:DescribedConnector'$$sel:connectorId:DescribedConnector'$$sel:loggingRole:DescribedConnector'$sel:tags:DescribedConnector'$sel:url:DescribedConnector'$sel:arn:DescribedConnector'newDescribedConnectordescribedConnector_accessRoledescribedConnector_as2ConfigdescribedConnector_connectorIddescribedConnector_loggingRoledescribedConnector_tagsdescribedConnector_urldescribedConnector_arn$fNFDataDescribedConnector$fHashableDescribedConnector$fFromJSONDescribedConnector$fEqDescribedConnector$fReadDescribedConnector$fShowDescribedConnector$fGenericDescribedConnectorDescribedCertificateDescribedCertificate'%$sel:activeDate:DescribedCertificate'&$sel:certificate:DescribedCertificate'+$sel:certificateChain:DescribedCertificate'($sel:certificateId:DescribedCertificate'&$sel:description:DescribedCertificate''$sel:inactiveDate:DescribedCertificate''$sel:notAfterDate:DescribedCertificate'($sel:notBeforeDate:DescribedCertificate'!$sel:serial:DescribedCertificate'!$sel:status:DescribedCertificate'$sel:tags:DescribedCertificate' $sel:type':DescribedCertificate' $sel:usage:DescribedCertificate'$sel:arn:DescribedCertificate'newDescribedCertificatedescribedCertificate_activeDate describedCertificate_certificate%describedCertificate_certificateChain"describedCertificate_certificateId describedCertificate_description!describedCertificate_inactiveDate!describedCertificate_notAfterDate"describedCertificate_notBeforeDatedescribedCertificate_serialdescribedCertificate_statusdescribedCertificate_tagsdescribedCertificate_typedescribedCertificate_usagedescribedCertificate_arn$fNFDataDescribedCertificate$fHashableDescribedCertificate$fFromJSONDescribedCertificate$fEqDescribedCertificate$fShowDescribedCertificate$fGenericDescribedCertificateDescribedAgreementDescribedAgreement'#$sel:accessRole:DescribedAgreement'$$sel:agreementId:DescribedAgreement'&$sel:baseDirectory:DescribedAgreement'$$sel:description:DescribedAgreement''$sel:localProfileId:DescribedAgreement')$sel:partnerProfileId:DescribedAgreement'!$sel:serverId:DescribedAgreement'$sel:status:DescribedAgreement'$sel:tags:DescribedAgreement'$sel:arn:DescribedAgreement'newDescribedAgreementdescribedAgreement_accessRoledescribedAgreement_agreementId describedAgreement_baseDirectorydescribedAgreement_description!describedAgreement_localProfileId#describedAgreement_partnerProfileIddescribedAgreement_serverIddescribedAgreement_statusdescribedAgreement_tagsdescribedAgreement_arn$fNFDataDescribedAgreement$fHashableDescribedAgreement$fFromJSONDescribedAgreement$fEqDescribedAgreement$fReadDescribedAgreement$fShowDescribedAgreement$fGenericDescribedAgreementTagStepDetailsTagStepDetails'$sel:name:TagStepDetails''$sel:sourceFileLocation:TagStepDetails'$sel:tags:TagStepDetails'newTagStepDetailstagStepDetails_name!tagStepDetails_sourceFileLocationtagStepDetails_tags$fToJSONTagStepDetails$fNFDataTagStepDetails$fHashableTagStepDetails$fFromJSONTagStepDetails$fEqTagStepDetails$fReadTagStepDetails$fShowTagStepDetails$fGenericTagStepDetailsTlsSessionResumptionModeTlsSessionResumptionMode'fromTlsSessionResumptionMode!TlsSessionResumptionMode_ENFORCED TlsSessionResumptionMode_ENABLED!TlsSessionResumptionMode_DISABLED$fShowTlsSessionResumptionMode$fReadTlsSessionResumptionMode$fEqTlsSessionResumptionMode$fOrdTlsSessionResumptionMode!$fGenericTlsSessionResumptionMode"$fHashableTlsSessionResumptionMode $fNFDataTlsSessionResumptionMode"$fFromTextTlsSessionResumptionMode $fToTextTlsSessionResumptionMode&$fToByteStringTlsSessionResumptionMode$fToLogTlsSessionResumptionMode"$fToHeaderTlsSessionResumptionMode!$fToQueryTlsSessionResumptionMode"$fFromJSONTlsSessionResumptionMode%$fFromJSONKeyTlsSessionResumptionMode $fToJSONTlsSessionResumptionMode#$fToJSONKeyTlsSessionResumptionMode!$fFromXMLTlsSessionResumptionMode$fToXMLTlsSessionResumptionModeProtocolDetailsProtocolDetails'#$sel:as2Transports:ProtocolDetails'$sel:passiveIp:ProtocolDetails'#$sel:setStatOption:ProtocolDetails'.$sel:tlsSessionResumptionMode:ProtocolDetails'newProtocolDetailsprotocolDetails_as2TransportsprotocolDetails_passiveIpprotocolDetails_setStatOption(protocolDetails_tlsSessionResumptionMode$fToJSONProtocolDetails$fNFDataProtocolDetails$fHashableProtocolDetails$fFromJSONProtocolDetails$fEqProtocolDetails$fReadProtocolDetails$fShowProtocolDetails$fGenericProtocolDetails UserDetails UserDetails'$sel:sessionId:UserDetails'$sel:userName:UserDetails'$sel:serverId:UserDetails'newUserDetailsuserDetails_sessionIduserDetails_userNameuserDetails_serverId$fNFDataUserDetails$fHashableUserDetails$fFromJSONUserDetails$fEqUserDetails$fReadUserDetails$fShowUserDetails$fGenericUserDetailsServiceMetadataServiceMetadata'!$sel:userDetails:ServiceMetadata'newServiceMetadataserviceMetadata_userDetails$fNFDataServiceMetadata$fHashableServiceMetadata$fFromJSONServiceMetadata$fEqServiceMetadata$fReadServiceMetadata$fShowServiceMetadata$fGenericServiceMetadataListedExecutionListedExecution'!$sel:executionId:ListedExecution')$sel:initialFileLocation:ListedExecution'%$sel:serviceMetadata:ListedExecution'$sel:status:ListedExecution'newListedExecutionlistedExecution_executionId#listedExecution_initialFileLocationlistedExecution_serviceMetadatalistedExecution_status$fNFDataListedExecution$fHashableListedExecution$fFromJSONListedExecution$fEqListedExecution$fReadListedExecution$fShowListedExecution$fGenericListedExecutionWorkflowDetailWorkflowDetail'$sel:workflowId:WorkflowDetail'"$sel:executionRole:WorkflowDetail'newWorkflowDetailworkflowDetail_workflowIdworkflowDetail_executionRole$fToJSONWorkflowDetail$fNFDataWorkflowDetail$fHashableWorkflowDetail$fFromJSONWorkflowDetail$fEqWorkflowDetail$fReadWorkflowDetail$fShowWorkflowDetail$fGenericWorkflowDetailWorkflowDetailsWorkflowDetails'%$sel:onPartialUpload:WorkflowDetails'$sel:onUpload:WorkflowDetails'newWorkflowDetailsworkflowDetails_onPartialUploadworkflowDetails_onUpload$fToJSONWorkflowDetails$fNFDataWorkflowDetails$fHashableWorkflowDetails$fFromJSONWorkflowDetails$fEqWorkflowDetails$fReadWorkflowDetails$fShowWorkflowDetails$fGenericWorkflowDetailsDescribedServerDescribedServer'!$sel:certificate:DescribedServer'$sel:domain:DescribedServer'%$sel:endpointDetails:DescribedServer'"$sel:endpointType:DescribedServer'($sel:hostKeyFingerprint:DescribedServer'-$sel:identityProviderDetails:DescribedServer'*$sel:identityProviderType:DescribedServer'!$sel:loggingRole:DescribedServer'3$sel:postAuthenticationLoginBanner:DescribedServer'2$sel:preAuthenticationLoginBanner:DescribedServer'%$sel:protocolDetails:DescribedServer'$sel:protocols:DescribedServer'($sel:securityPolicyName:DescribedServer'$sel:serverId:DescribedServer'$sel:state:DescribedServer'$sel:tags:DescribedServer'$sel:userCount:DescribedServer'%$sel:workflowDetails:DescribedServer'$sel:arn:DescribedServer'newDescribedServerdescribedServer_certificatedescribedServer_domaindescribedServer_endpointDetailsdescribedServer_endpointType"describedServer_hostKeyFingerprint'describedServer_identityProviderDetails$describedServer_identityProviderTypedescribedServer_loggingRole-describedServer_postAuthenticationLoginBanner,describedServer_preAuthenticationLoginBannerdescribedServer_protocolDetailsdescribedServer_protocols"describedServer_securityPolicyNamedescribedServer_serverIddescribedServer_statedescribedServer_tagsdescribedServer_userCountdescribedServer_workflowDetailsdescribedServer_arn$fNFDataDescribedServer$fHashableDescribedServer$fFromJSONDescribedServer$fEqDescribedServer$fReadDescribedServer$fShowDescribedServer$fGenericDescribedServerWorkflowStepTypeWorkflowStepType'fromWorkflowStepTypeWorkflowStepType_TAGWorkflowStepType_DELETEWorkflowStepType_DECRYPTWorkflowStepType_CUSTOMWorkflowStepType_COPY$fShowWorkflowStepType$fReadWorkflowStepType$fEqWorkflowStepType$fOrdWorkflowStepType$fGenericWorkflowStepType$fHashableWorkflowStepType$fNFDataWorkflowStepType$fFromTextWorkflowStepType$fToTextWorkflowStepType$fToByteStringWorkflowStepType$fToLogWorkflowStepType$fToHeaderWorkflowStepType$fToQueryWorkflowStepType$fFromJSONWorkflowStepType$fFromJSONKeyWorkflowStepType$fToJSONWorkflowStepType$fToJSONKeyWorkflowStepType$fFromXMLWorkflowStepType$fToXMLWorkflowStepType WorkflowStep WorkflowStep'"$sel:copyStepDetails:WorkflowStep'$$sel:customStepDetails:WorkflowStep'%$sel:decryptStepDetails:WorkflowStep'$$sel:deleteStepDetails:WorkflowStep'!$sel:tagStepDetails:WorkflowStep'$sel:type':WorkflowStep'newWorkflowStepworkflowStep_copyStepDetailsworkflowStep_customStepDetailsworkflowStep_decryptStepDetailsworkflowStep_deleteStepDetailsworkflowStep_tagStepDetailsworkflowStep_type$fToJSONWorkflowStep$fNFDataWorkflowStep$fHashableWorkflowStep$fFromJSONWorkflowStep$fEqWorkflowStep$fReadWorkflowStep$fShowWorkflowStep$fGenericWorkflowStepDescribedWorkflowDescribedWorkflow'#$sel:description:DescribedWorkflow'($sel:onExceptionSteps:DescribedWorkflow'$sel:steps:DescribedWorkflow'$sel:tags:DescribedWorkflow'"$sel:workflowId:DescribedWorkflow'$sel:arn:DescribedWorkflow'newDescribedWorkflowdescribedWorkflow_description"describedWorkflow_onExceptionStepsdescribedWorkflow_stepsdescribedWorkflow_tagsdescribedWorkflow_workflowIddescribedWorkflow_arn$fNFDataDescribedWorkflow$fHashableDescribedWorkflow$fFromJSONDescribedWorkflow$fEqDescribedWorkflow$fReadDescribedWorkflow$fShowDescribedWorkflow$fGenericDescribedWorkflowExecutionStepResultExecutionStepResult'$sel:error:ExecutionStepResult'!$sel:outputs:ExecutionStepResult'"$sel:stepType:ExecutionStepResult'newExecutionStepResultexecutionStepResult_errorexecutionStepResult_outputsexecutionStepResult_stepType$fNFDataExecutionStepResult$fHashableExecutionStepResult$fFromJSONExecutionStepResult$fEqExecutionStepResult$fReadExecutionStepResult$fShowExecutionStepResult$fGenericExecutionStepResultExecutionResultsExecutionResults''$sel:onExceptionSteps:ExecutionResults'$sel:steps:ExecutionResults'newExecutionResults!executionResults_onExceptionStepsexecutionResults_steps$fNFDataExecutionResults$fHashableExecutionResults$fFromJSONExecutionResults$fEqExecutionResults$fReadExecutionResults$fShowExecutionResults$fGenericExecutionResultsDescribedExecutionDescribedExecution'$$sel:executionId:DescribedExecution'&$sel:executionRole:DescribedExecution',$sel:initialFileLocation:DescribedExecution'-$sel:loggingConfiguration:DescribedExecution'%$sel:posixProfile:DescribedExecution' $sel:results:DescribedExecution'($sel:serviceMetadata:DescribedExecution'$sel:status:DescribedExecution'newDescribedExecutiondescribedExecution_executionId describedExecution_executionRole&describedExecution_initialFileLocation'describedExecution_loggingConfigurationdescribedExecution_posixProfiledescribedExecution_results"describedExecution_serviceMetadatadescribedExecution_status$fNFDataDescribedExecution$fHashableDescribedExecution$fFromJSONDescribedExecution$fEqDescribedExecution$fReadDescribedExecution$fShowDescribedExecution$fGenericDescribedExecutiondefaultService_AccessDeniedException_ConflictException_InternalServiceError_InvalidNextTokenException_InvalidRequestException_ResourceExistsException_ResourceNotFoundException_ServiceUnavailableException_ThrottlingExceptionTestIdentityProviderResponseTestIdentityProviderResponse'*$sel:message:TestIdentityProviderResponse'+$sel:response:TestIdentityProviderResponse'-$sel:httpStatus:TestIdentityProviderResponse'-$sel:statusCode:TestIdentityProviderResponse'&$sel:url:TestIdentityProviderResponse'TestIdentityProviderTestIdentityProvider')$sel:serverProtocol:TestIdentityProvider'#$sel:sourceIp:TestIdentityProvider''$sel:userPassword:TestIdentityProvider'#$sel:serverId:TestIdentityProvider'#$sel:userName:TestIdentityProvider'newTestIdentityProvider#testIdentityProvider_serverProtocoltestIdentityProvider_sourceIp!testIdentityProvider_userPasswordtestIdentityProvider_serverIdtestIdentityProvider_userNamenewTestIdentityProviderResponse$testIdentityProviderResponse_message%testIdentityProviderResponse_response'testIdentityProviderResponse_httpStatus'testIdentityProviderResponse_statusCode testIdentityProviderResponse_url$fToQueryTestIdentityProvider$fToPathTestIdentityProvider$fToJSONTestIdentityProvider$fToHeadersTestIdentityProvider$fNFDataTestIdentityProvider$fHashableTestIdentityProvider$$fNFDataTestIdentityProviderResponse $fAWSRequestTestIdentityProvider $fEqTestIdentityProviderResponse"$fReadTestIdentityProviderResponse"$fShowTestIdentityProviderResponse%$fGenericTestIdentityProviderResponse$fEqTestIdentityProvider$fShowTestIdentityProvider$fGenericTestIdentityProviderTagResourceResponseTagResourceResponse' TagResource TagResource'$sel:arn:TagResource'$sel:tags:TagResource'newTagResourcetagResource_arntagResource_tagsnewTagResourceResponse$fToQueryTagResource$fToPathTagResource$fToJSONTagResource$fToHeadersTagResource$fNFDataTagResource$fHashableTagResource$fNFDataTagResourceResponse$fAWSRequestTagResource$fEqTagResourceResponse$fReadTagResourceResponse$fShowTagResourceResponse$fGenericTagResourceResponse$fEqTagResource$fReadTagResource$fShowTagResource$fGenericTagResourceStopServerResponseStopServerResponse' StopServer StopServer'$sel:serverId:StopServer' newStopServerstopServer_serverIdnewStopServerResponse$fToQueryStopServer$fToPathStopServer$fToJSONStopServer$fToHeadersStopServer$fNFDataStopServer$fHashableStopServer$fNFDataStopServerResponse$fAWSRequestStopServer$fEqStopServerResponse$fReadStopServerResponse$fShowStopServerResponse$fGenericStopServerResponse$fEqStopServer$fReadStopServer$fShowStopServer$fGenericStopServerStartServerResponseStartServerResponse' StartServer StartServer'$sel:serverId:StartServer'newStartServerstartServer_serverIdnewStartServerResponse$fToQueryStartServer$fToPathStartServer$fToJSONStartServer$fToHeadersStartServer$fNFDataStartServer$fHashableStartServer$fNFDataStartServerResponse$fAWSRequestStartServer$fEqStartServerResponse$fReadStartServerResponse$fShowStartServerResponse$fGenericStartServerResponse$fEqStartServer$fReadStartServer$fShowStartServer$fGenericStartServerStartFileTransferResponseStartFileTransferResponse'*$sel:httpStatus:StartFileTransferResponse'*$sel:transferId:StartFileTransferResponse'StartFileTransferStartFileTransfer'#$sel:connectorId:StartFileTransfer'%$sel:sendFilePaths:StartFileTransfer'newStartFileTransferstartFileTransfer_connectorIdstartFileTransfer_sendFilePathsnewStartFileTransferResponse$startFileTransferResponse_httpStatus$startFileTransferResponse_transferId$fToQueryStartFileTransfer$fToPathStartFileTransfer$fToJSONStartFileTransfer$fToHeadersStartFileTransfer$fNFDataStartFileTransfer$fHashableStartFileTransfer!$fNFDataStartFileTransferResponse$fAWSRequestStartFileTransfer$fEqStartFileTransferResponse$fReadStartFileTransferResponse$fShowStartFileTransferResponse"$fGenericStartFileTransferResponse$fEqStartFileTransfer$fReadStartFileTransfer$fShowStartFileTransfer$fGenericStartFileTransferSendWorkflowStepStateResponseSendWorkflowStepStateResponse'.$sel:httpStatus:SendWorkflowStepStateResponse'SendWorkflowStepStateSendWorkflowStepState'&$sel:workflowId:SendWorkflowStepState''$sel:executionId:SendWorkflowStepState'!$sel:token:SendWorkflowStepState'"$sel:status:SendWorkflowStepState'newSendWorkflowStepState sendWorkflowStepState_workflowId!sendWorkflowStepState_executionIdsendWorkflowStepState_tokensendWorkflowStepState_status newSendWorkflowStepStateResponse(sendWorkflowStepStateResponse_httpStatus$fToQuerySendWorkflowStepState$fToPathSendWorkflowStepState$fToJSONSendWorkflowStepState $fToHeadersSendWorkflowStepState$fNFDataSendWorkflowStepState$fHashableSendWorkflowStepState%$fNFDataSendWorkflowStepStateResponse!$fAWSRequestSendWorkflowStepState!$fEqSendWorkflowStepStateResponse#$fReadSendWorkflowStepStateResponse#$fShowSendWorkflowStepStateResponse&$fGenericSendWorkflowStepStateResponse$fEqSendWorkflowStepState$fReadSendWorkflowStepState$fShowSendWorkflowStepState$fGenericSendWorkflowStepStateListWorkflowsResponseListWorkflowsResponse'%$sel:nextToken:ListWorkflowsResponse'&$sel:httpStatus:ListWorkflowsResponse'%$sel:workflows:ListWorkflowsResponse' ListWorkflowsListWorkflows'$sel:maxResults:ListWorkflows'$sel:nextToken:ListWorkflows'newListWorkflowslistWorkflows_maxResultslistWorkflows_nextTokennewListWorkflowsResponselistWorkflowsResponse_nextToken listWorkflowsResponse_httpStatuslistWorkflowsResponse_workflows$fToQueryListWorkflows$fToPathListWorkflows$fToJSONListWorkflows$fToHeadersListWorkflows$fNFDataListWorkflows$fHashableListWorkflows$fAWSPagerListWorkflows$fNFDataListWorkflowsResponse$fAWSRequestListWorkflows$fEqListWorkflowsResponse$fReadListWorkflowsResponse$fShowListWorkflowsResponse$fGenericListWorkflowsResponse$fEqListWorkflows$fReadListWorkflows$fShowListWorkflows$fGenericListWorkflowsListUsersResponseListUsersResponse'!$sel:nextToken:ListUsersResponse'"$sel:httpStatus:ListUsersResponse' $sel:serverId:ListUsersResponse'$sel:users:ListUsersResponse' ListUsers ListUsers'$sel:maxResults:ListUsers'$sel:nextToken:ListUsers'$sel:serverId:ListUsers' newListUserslistUsers_maxResultslistUsers_nextTokenlistUsers_serverIdnewListUsersResponselistUsersResponse_nextTokenlistUsersResponse_httpStatuslistUsersResponse_serverIdlistUsersResponse_users$fToQueryListUsers$fToPathListUsers$fToJSONListUsers$fToHeadersListUsers$fNFDataListUsers$fHashableListUsers$fAWSPagerListUsers$fNFDataListUsersResponse$fAWSRequestListUsers$fEqListUsersResponse$fReadListUsersResponse$fShowListUsersResponse$fGenericListUsersResponse $fEqListUsers$fReadListUsers$fShowListUsers$fGenericListUsersListTagsForResourceResponseListTagsForResourceResponse'%$sel:arn:ListTagsForResourceResponse'+$sel:nextToken:ListTagsForResourceResponse'&$sel:tags:ListTagsForResourceResponse',$sel:httpStatus:ListTagsForResourceResponse'ListTagsForResourceListTagsForResource'$$sel:maxResults:ListTagsForResource'#$sel:nextToken:ListTagsForResource'$sel:arn:ListTagsForResource'newListTagsForResourcelistTagsForResource_maxResultslistTagsForResource_nextTokenlistTagsForResource_arnnewListTagsForResourceResponselistTagsForResourceResponse_arn%listTagsForResourceResponse_nextToken listTagsForResourceResponse_tags&listTagsForResourceResponse_httpStatus$fToQueryListTagsForResource$fToPathListTagsForResource$fToJSONListTagsForResource$fToHeadersListTagsForResource$fNFDataListTagsForResource$fHashableListTagsForResource$fAWSPagerListTagsForResource#$fNFDataListTagsForResourceResponse$fAWSRequestListTagsForResource$fEqListTagsForResourceResponse!$fReadListTagsForResourceResponse!$fShowListTagsForResourceResponse$$fGenericListTagsForResourceResponse$fEqListTagsForResource$fReadListTagsForResource$fShowListTagsForResource$fGenericListTagsForResourceListServersResponseListServersResponse'#$sel:nextToken:ListServersResponse'$$sel:httpStatus:ListServersResponse'!$sel:servers:ListServersResponse' ListServers ListServers'$sel:maxResults:ListServers'$sel:nextToken:ListServers'newListServerslistServers_maxResultslistServers_nextTokennewListServersResponselistServersResponse_nextTokenlistServersResponse_httpStatuslistServersResponse_servers$fToQueryListServers$fToPathListServers$fToJSONListServers$fToHeadersListServers$fNFDataListServers$fHashableListServers$fAWSPagerListServers$fNFDataListServersResponse$fAWSRequestListServers$fEqListServersResponse$fReadListServersResponse$fShowListServersResponse$fGenericListServersResponse$fEqListServers$fReadListServers$fShowListServers$fGenericListServersListSecurityPoliciesResponseListSecurityPoliciesResponse',$sel:nextToken:ListSecurityPoliciesResponse'-$sel:httpStatus:ListSecurityPoliciesResponse'6$sel:securityPolicyNames:ListSecurityPoliciesResponse'ListSecurityPoliciesListSecurityPolicies'%$sel:maxResults:ListSecurityPolicies'$$sel:nextToken:ListSecurityPolicies'newListSecurityPolicieslistSecurityPolicies_maxResultslistSecurityPolicies_nextTokennewListSecurityPoliciesResponse&listSecurityPoliciesResponse_nextToken'listSecurityPoliciesResponse_httpStatus0listSecurityPoliciesResponse_securityPolicyNames$fToQueryListSecurityPolicies$fToPathListSecurityPolicies$fToJSONListSecurityPolicies$fToHeadersListSecurityPolicies$fNFDataListSecurityPolicies$fHashableListSecurityPolicies$fAWSPagerListSecurityPolicies$$fNFDataListSecurityPoliciesResponse $fAWSRequestListSecurityPolicies $fEqListSecurityPoliciesResponse"$fReadListSecurityPoliciesResponse"$fShowListSecurityPoliciesResponse%$fGenericListSecurityPoliciesResponse$fEqListSecurityPolicies$fReadListSecurityPolicies$fShowListSecurityPolicies$fGenericListSecurityPoliciesListProfilesResponseListProfilesResponse'$$sel:nextToken:ListProfilesResponse'%$sel:httpStatus:ListProfilesResponse'#$sel:profiles:ListProfilesResponse' ListProfiles ListProfiles'$sel:maxResults:ListProfiles'$sel:nextToken:ListProfiles'$sel:profileType:ListProfiles'newListProfileslistProfiles_maxResultslistProfiles_nextTokenlistProfiles_profileTypenewListProfilesResponselistProfilesResponse_nextTokenlistProfilesResponse_httpStatuslistProfilesResponse_profiles$fToQueryListProfiles$fToPathListProfiles$fToJSONListProfiles$fToHeadersListProfiles$fNFDataListProfiles$fHashableListProfiles$fAWSPagerListProfiles$fNFDataListProfilesResponse$fAWSRequestListProfiles$fEqListProfilesResponse$fReadListProfilesResponse$fShowListProfilesResponse$fGenericListProfilesResponse$fEqListProfiles$fReadListProfiles$fShowListProfiles$fGenericListProfilesListHostKeysResponseListHostKeysResponse'$$sel:nextToken:ListHostKeysResponse'%$sel:httpStatus:ListHostKeysResponse'#$sel:serverId:ListHostKeysResponse'#$sel:hostKeys:ListHostKeysResponse' ListHostKeys ListHostKeys'$sel:maxResults:ListHostKeys'$sel:nextToken:ListHostKeys'$sel:serverId:ListHostKeys'newListHostKeyslistHostKeys_maxResultslistHostKeys_nextTokenlistHostKeys_serverIdnewListHostKeysResponselistHostKeysResponse_nextTokenlistHostKeysResponse_httpStatuslistHostKeysResponse_serverIdlistHostKeysResponse_hostKeys$fToQueryListHostKeys$fToPathListHostKeys$fToJSONListHostKeys$fToHeadersListHostKeys$fNFDataListHostKeys$fHashableListHostKeys$fNFDataListHostKeysResponse$fAWSRequestListHostKeys$fEqListHostKeysResponse$fReadListHostKeysResponse$fShowListHostKeysResponse$fGenericListHostKeysResponse$fEqListHostKeys$fReadListHostKeys$fShowListHostKeys$fGenericListHostKeysListExecutionsResponseListExecutionsResponse'&$sel:nextToken:ListExecutionsResponse''$sel:httpStatus:ListExecutionsResponse''$sel:workflowId:ListExecutionsResponse''$sel:executions:ListExecutionsResponse'ListExecutionsListExecutions'$sel:maxResults:ListExecutions'$sel:nextToken:ListExecutions'$sel:workflowId:ListExecutions'newListExecutionslistExecutions_maxResultslistExecutions_nextTokenlistExecutions_workflowIdnewListExecutionsResponse listExecutionsResponse_nextToken!listExecutionsResponse_httpStatus!listExecutionsResponse_workflowId!listExecutionsResponse_executions$fToQueryListExecutions$fToPathListExecutions$fToJSONListExecutions$fToHeadersListExecutions$fNFDataListExecutions$fHashableListExecutions$fAWSPagerListExecutions$fNFDataListExecutionsResponse$fAWSRequestListExecutions$fEqListExecutionsResponse$fReadListExecutionsResponse$fShowListExecutionsResponse$fGenericListExecutionsResponse$fEqListExecutions$fReadListExecutions$fShowListExecutions$fGenericListExecutionsListConnectorsResponseListConnectorsResponse'&$sel:nextToken:ListConnectorsResponse''$sel:httpStatus:ListConnectorsResponse''$sel:connectors:ListConnectorsResponse'ListConnectorsListConnectors'$sel:maxResults:ListConnectors'$sel:nextToken:ListConnectors'newListConnectorslistConnectors_maxResultslistConnectors_nextTokennewListConnectorsResponse listConnectorsResponse_nextToken!listConnectorsResponse_httpStatus!listConnectorsResponse_connectors$fToQueryListConnectors$fToPathListConnectors$fToJSONListConnectors$fToHeadersListConnectors$fNFDataListConnectors$fHashableListConnectors$fAWSPagerListConnectors$fNFDataListConnectorsResponse$fAWSRequestListConnectors$fEqListConnectorsResponse$fReadListConnectorsResponse$fShowListConnectorsResponse$fGenericListConnectorsResponse$fEqListConnectors$fReadListConnectors$fShowListConnectors$fGenericListConnectorsListCertificatesResponseListCertificatesResponse'($sel:nextToken:ListCertificatesResponse')$sel:httpStatus:ListCertificatesResponse'+$sel:certificates:ListCertificatesResponse'ListCertificatesListCertificates'!$sel:maxResults:ListCertificates' $sel:nextToken:ListCertificates'newListCertificateslistCertificates_maxResultslistCertificates_nextTokennewListCertificatesResponse"listCertificatesResponse_nextToken#listCertificatesResponse_httpStatus%listCertificatesResponse_certificates$fToQueryListCertificates$fToPathListCertificates$fToJSONListCertificates$fToHeadersListCertificates$fNFDataListCertificates$fHashableListCertificates$fAWSPagerListCertificates $fNFDataListCertificatesResponse$fAWSRequestListCertificates$fEqListCertificatesResponse$fReadListCertificatesResponse$fShowListCertificatesResponse!$fGenericListCertificatesResponse$fEqListCertificates$fReadListCertificates$fShowListCertificates$fGenericListCertificatesListAgreementsResponseListAgreementsResponse'&$sel:nextToken:ListAgreementsResponse''$sel:httpStatus:ListAgreementsResponse''$sel:agreements:ListAgreementsResponse'ListAgreementsListAgreements'$sel:maxResults:ListAgreements'$sel:nextToken:ListAgreements'$sel:serverId:ListAgreements'newListAgreementslistAgreements_maxResultslistAgreements_nextTokenlistAgreements_serverIdnewListAgreementsResponse listAgreementsResponse_nextToken!listAgreementsResponse_httpStatus!listAgreementsResponse_agreements$fToQueryListAgreements$fToPathListAgreements$fToJSONListAgreements$fToHeadersListAgreements$fNFDataListAgreements$fHashableListAgreements$fAWSPagerListAgreements$fNFDataListAgreementsResponse$fAWSRequestListAgreements$fEqListAgreementsResponse$fReadListAgreementsResponse$fShowListAgreementsResponse$fGenericListAgreementsResponse$fEqListAgreements$fReadListAgreements$fShowListAgreements$fGenericListAgreementsListAccessesResponseListAccessesResponse'$$sel:nextToken:ListAccessesResponse'%$sel:httpStatus:ListAccessesResponse'#$sel:serverId:ListAccessesResponse'#$sel:accesses:ListAccessesResponse' ListAccesses ListAccesses'$sel:maxResults:ListAccesses'$sel:nextToken:ListAccesses'$sel:serverId:ListAccesses'newListAccesseslistAccesses_maxResultslistAccesses_nextTokenlistAccesses_serverIdnewListAccessesResponselistAccessesResponse_nextTokenlistAccessesResponse_httpStatuslistAccessesResponse_serverIdlistAccessesResponse_accesses$fToQueryListAccesses$fToPathListAccesses$fToJSONListAccesses$fToHeadersListAccesses$fNFDataListAccesses$fHashableListAccesses$fAWSPagerListAccesses$fNFDataListAccessesResponse$fAWSRequestListAccesses$fEqListAccessesResponse$fReadListAccessesResponse$fShowListAccessesResponse$fGenericListAccessesResponse$fEqListAccesses$fReadListAccesses$fShowListAccesses$fGenericListAccessesImportSshPublicKeyResponseImportSshPublicKeyResponse'+$sel:httpStatus:ImportSshPublicKeyResponse')$sel:serverId:ImportSshPublicKeyResponse'/$sel:sshPublicKeyId:ImportSshPublicKeyResponse')$sel:userName:ImportSshPublicKeyResponse'ImportSshPublicKeyImportSshPublicKey'!$sel:serverId:ImportSshPublicKey')$sel:sshPublicKeyBody:ImportSshPublicKey'!$sel:userName:ImportSshPublicKey'newImportSshPublicKeyimportSshPublicKey_serverId#importSshPublicKey_sshPublicKeyBodyimportSshPublicKey_userNamenewImportSshPublicKeyResponse%importSshPublicKeyResponse_httpStatus#importSshPublicKeyResponse_serverId)importSshPublicKeyResponse_sshPublicKeyId#importSshPublicKeyResponse_userName$fToQueryImportSshPublicKey$fToPathImportSshPublicKey$fToJSONImportSshPublicKey$fToHeadersImportSshPublicKey$fNFDataImportSshPublicKey$fHashableImportSshPublicKey"$fNFDataImportSshPublicKeyResponse$fAWSRequestImportSshPublicKey$fEqImportSshPublicKeyResponse $fReadImportSshPublicKeyResponse $fShowImportSshPublicKeyResponse#$fGenericImportSshPublicKeyResponse$fEqImportSshPublicKey$fReadImportSshPublicKey$fShowImportSshPublicKey$fGenericImportSshPublicKeyImportHostKeyResponseImportHostKeyResponse'&$sel:httpStatus:ImportHostKeyResponse'$$sel:serverId:ImportHostKeyResponse'%$sel:hostKeyId:ImportHostKeyResponse' ImportHostKeyImportHostKey'$sel:description:ImportHostKey'$sel:tags:ImportHostKey'$sel:serverId:ImportHostKey'$sel:hostKeyBody:ImportHostKey'newImportHostKeyimportHostKey_descriptionimportHostKey_tagsimportHostKey_serverIdimportHostKey_hostKeyBodynewImportHostKeyResponse importHostKeyResponse_httpStatusimportHostKeyResponse_serverIdimportHostKeyResponse_hostKeyId$fToQueryImportHostKey$fToPathImportHostKey$fToJSONImportHostKey$fToHeadersImportHostKey$fNFDataImportHostKey$fHashableImportHostKey$fNFDataImportHostKeyResponse$fAWSRequestImportHostKey$fEqImportHostKeyResponse$fReadImportHostKeyResponse$fShowImportHostKeyResponse$fGenericImportHostKeyResponse$fEqImportHostKey$fShowImportHostKey$fGenericImportHostKeyImportCertificateResponseImportCertificateResponse'*$sel:httpStatus:ImportCertificateResponse'-$sel:certificateId:ImportCertificateResponse'ImportCertificateImportCertificate'"$sel:activeDate:ImportCertificate'($sel:certificateChain:ImportCertificate'#$sel:description:ImportCertificate'$$sel:inactiveDate:ImportCertificate'"$sel:privateKey:ImportCertificate'$sel:tags:ImportCertificate'$sel:usage:ImportCertificate'#$sel:certificate:ImportCertificate'newImportCertificateimportCertificate_activeDate"importCertificate_certificateChainimportCertificate_descriptionimportCertificate_inactiveDateimportCertificate_privateKeyimportCertificate_tagsimportCertificate_usageimportCertificate_certificatenewImportCertificateResponse$importCertificateResponse_httpStatus'importCertificateResponse_certificateId$fToQueryImportCertificate$fToPathImportCertificate$fToJSONImportCertificate$fToHeadersImportCertificate$fNFDataImportCertificate$fHashableImportCertificate!$fNFDataImportCertificateResponse$fAWSRequestImportCertificate$fEqImportCertificateResponse$fReadImportCertificateResponse$fShowImportCertificateResponse"$fGenericImportCertificateResponse$fEqImportCertificate$fShowImportCertificate$fGenericImportCertificateDescribeWorkflowResponseDescribeWorkflowResponse')$sel:httpStatus:DescribeWorkflowResponse''$sel:workflow:DescribeWorkflowResponse'DescribeWorkflowDescribeWorkflow'!$sel:workflowId:DescribeWorkflow'newDescribeWorkflowdescribeWorkflow_workflowIdnewDescribeWorkflowResponse#describeWorkflowResponse_httpStatus!describeWorkflowResponse_workflow$fToQueryDescribeWorkflow$fToPathDescribeWorkflow$fToJSONDescribeWorkflow$fToHeadersDescribeWorkflow$fNFDataDescribeWorkflow$fHashableDescribeWorkflow $fNFDataDescribeWorkflowResponse$fAWSRequestDescribeWorkflow$fEqDescribeWorkflowResponse$fReadDescribeWorkflowResponse$fShowDescribeWorkflowResponse!$fGenericDescribeWorkflowResponse$fEqDescribeWorkflow$fReadDescribeWorkflow$fShowDescribeWorkflow$fGenericDescribeWorkflowDescribeUserResponseDescribeUserResponse'%$sel:httpStatus:DescribeUserResponse'#$sel:serverId:DescribeUserResponse'$sel:user:DescribeUserResponse' DescribeUser DescribeUser'$sel:serverId:DescribeUser'$sel:userName:DescribeUser'newDescribeUserdescribeUser_serverIddescribeUser_userNamenewDescribeUserResponsedescribeUserResponse_httpStatusdescribeUserResponse_serverIddescribeUserResponse_user$fToQueryDescribeUser$fToPathDescribeUser$fToJSONDescribeUser$fToHeadersDescribeUser$fNFDataDescribeUser$fHashableDescribeUser$fNFDataDescribeUserResponse$fAWSRequestDescribeUser$fEqDescribeUserResponse$fReadDescribeUserResponse$fShowDescribeUserResponse$fGenericDescribeUserResponse$fEqDescribeUser$fReadDescribeUser$fShowDescribeUser$fGenericDescribeUserDescribeServerResponseDescribeServerResponse''$sel:httpStatus:DescribeServerResponse'#$sel:server:DescribeServerResponse'DescribeServer'$sel:serverId:DescribeServer'newDescribeServerdescribeServer_serverIdnewDescribeServerResponse!describeServerResponse_httpStatusdescribeServerResponse_server$fToQueryDescribeServer$fToPathDescribeServer$fToJSONDescribeServer$fToHeadersDescribeServer$fNFDataDescribeServer$fHashableDescribeServer$fNFDataDescribeServerResponse$fAWSRequestDescribeServer$fEqDescribeServerResponse$fReadDescribeServerResponse$fShowDescribeServerResponse$fGenericDescribeServerResponse$fEqDescribeServer$fReadDescribeServer$fShowDescribeServer$fGenericDescribeServerDescribeSecurityPolicyResponseDescribeSecurityPolicyResponse'/$sel:httpStatus:DescribeSecurityPolicyResponse'3$sel:securityPolicy:DescribeSecurityPolicyResponse'DescribeSecurityPolicyDescribeSecurityPolicy'/$sel:securityPolicyName:DescribeSecurityPolicy'newDescribeSecurityPolicy)describeSecurityPolicy_securityPolicyName!newDescribeSecurityPolicyResponse)describeSecurityPolicyResponse_httpStatus-describeSecurityPolicyResponse_securityPolicy$fToQueryDescribeSecurityPolicy$fToPathDescribeSecurityPolicy$fToJSONDescribeSecurityPolicy!$fToHeadersDescribeSecurityPolicy$fNFDataDescribeSecurityPolicy $fHashableDescribeSecurityPolicy&$fNFDataDescribeSecurityPolicyResponse"$fAWSRequestDescribeSecurityPolicy"$fEqDescribeSecurityPolicyResponse$$fReadDescribeSecurityPolicyResponse$$fShowDescribeSecurityPolicyResponse'$fGenericDescribeSecurityPolicyResponse$fEqDescribeSecurityPolicy$fReadDescribeSecurityPolicy$fShowDescribeSecurityPolicy$fGenericDescribeSecurityPolicyDescribeProfileResponseDescribeProfileResponse'($sel:httpStatus:DescribeProfileResponse'%$sel:profile:DescribeProfileResponse'DescribeProfileDescribeProfile'$sel:profileId:DescribeProfile'newDescribeProfiledescribeProfile_profileIdnewDescribeProfileResponse"describeProfileResponse_httpStatusdescribeProfileResponse_profile$fToQueryDescribeProfile$fToPathDescribeProfile$fToJSONDescribeProfile$fToHeadersDescribeProfile$fNFDataDescribeProfile$fHashableDescribeProfile$fNFDataDescribeProfileResponse$fAWSRequestDescribeProfile$fEqDescribeProfileResponse$fReadDescribeProfileResponse$fShowDescribeProfileResponse $fGenericDescribeProfileResponse$fEqDescribeProfile$fReadDescribeProfile$fShowDescribeProfile$fGenericDescribeProfileDescribeHostKeyResponseDescribeHostKeyResponse'($sel:httpStatus:DescribeHostKeyResponse'%$sel:hostKey:DescribeHostKeyResponse'DescribeHostKeyDescribeHostKey'$sel:serverId:DescribeHostKey'$sel:hostKeyId:DescribeHostKey'newDescribeHostKeydescribeHostKey_serverIddescribeHostKey_hostKeyIdnewDescribeHostKeyResponse"describeHostKeyResponse_httpStatusdescribeHostKeyResponse_hostKey$fToQueryDescribeHostKey$fToPathDescribeHostKey$fToJSONDescribeHostKey$fToHeadersDescribeHostKey$fNFDataDescribeHostKey$fHashableDescribeHostKey$fNFDataDescribeHostKeyResponse$fAWSRequestDescribeHostKey$fEqDescribeHostKeyResponse$fReadDescribeHostKeyResponse$fShowDescribeHostKeyResponse $fGenericDescribeHostKeyResponse$fEqDescribeHostKey$fReadDescribeHostKey$fShowDescribeHostKey$fGenericDescribeHostKeyDescribeExecutionResponseDescribeExecutionResponse'*$sel:httpStatus:DescribeExecutionResponse'*$sel:workflowId:DescribeExecutionResponse')$sel:execution:DescribeExecutionResponse'DescribeExecutionDescribeExecution'#$sel:executionId:DescribeExecution'"$sel:workflowId:DescribeExecution'newDescribeExecutiondescribeExecution_executionIddescribeExecution_workflowIdnewDescribeExecutionResponse$describeExecutionResponse_httpStatus$describeExecutionResponse_workflowId#describeExecutionResponse_execution$fToQueryDescribeExecution$fToPathDescribeExecution$fToJSONDescribeExecution$fToHeadersDescribeExecution$fNFDataDescribeExecution$fHashableDescribeExecution!$fNFDataDescribeExecutionResponse$fAWSRequestDescribeExecution$fEqDescribeExecutionResponse$fReadDescribeExecutionResponse$fShowDescribeExecutionResponse"$fGenericDescribeExecutionResponse$fEqDescribeExecution$fReadDescribeExecution$fShowDescribeExecution$fGenericDescribeExecutionDescribeConnectorResponseDescribeConnectorResponse'*$sel:httpStatus:DescribeConnectorResponse')$sel:connector:DescribeConnectorResponse'DescribeConnectorDescribeConnector'#$sel:connectorId:DescribeConnector'newDescribeConnectordescribeConnector_connectorIdnewDescribeConnectorResponse$describeConnectorResponse_httpStatus#describeConnectorResponse_connector$fToQueryDescribeConnector$fToPathDescribeConnector$fToJSONDescribeConnector$fToHeadersDescribeConnector$fNFDataDescribeConnector$fHashableDescribeConnector!$fNFDataDescribeConnectorResponse$fAWSRequestDescribeConnector$fEqDescribeConnectorResponse$fReadDescribeConnectorResponse$fShowDescribeConnectorResponse"$fGenericDescribeConnectorResponse$fEqDescribeConnector$fReadDescribeConnector$fShowDescribeConnector$fGenericDescribeConnectorDescribeCertificateResponseDescribeCertificateResponse',$sel:httpStatus:DescribeCertificateResponse'-$sel:certificate:DescribeCertificateResponse'DescribeCertificateDescribeCertificate''$sel:certificateId:DescribeCertificate'newDescribeCertificate!describeCertificate_certificateIdnewDescribeCertificateResponse&describeCertificateResponse_httpStatus'describeCertificateResponse_certificate$fToQueryDescribeCertificate$fToPathDescribeCertificate$fToJSONDescribeCertificate$fToHeadersDescribeCertificate$fNFDataDescribeCertificate$fHashableDescribeCertificate#$fNFDataDescribeCertificateResponse$fAWSRequestDescribeCertificate$fEqDescribeCertificateResponse!$fShowDescribeCertificateResponse$$fGenericDescribeCertificateResponse$fEqDescribeCertificate$fReadDescribeCertificate$fShowDescribeCertificate$fGenericDescribeCertificateDescribeAgreementResponseDescribeAgreementResponse'*$sel:httpStatus:DescribeAgreementResponse')$sel:agreement:DescribeAgreementResponse'DescribeAgreementDescribeAgreement'#$sel:agreementId:DescribeAgreement' $sel:serverId:DescribeAgreement'newDescribeAgreementdescribeAgreement_agreementIddescribeAgreement_serverIdnewDescribeAgreementResponse$describeAgreementResponse_httpStatus#describeAgreementResponse_agreement$fToQueryDescribeAgreement$fToPathDescribeAgreement$fToJSONDescribeAgreement$fToHeadersDescribeAgreement$fNFDataDescribeAgreement$fHashableDescribeAgreement!$fNFDataDescribeAgreementResponse$fAWSRequestDescribeAgreement$fEqDescribeAgreementResponse$fReadDescribeAgreementResponse$fShowDescribeAgreementResponse"$fGenericDescribeAgreementResponse$fEqDescribeAgreement$fReadDescribeAgreement$fShowDescribeAgreement$fGenericDescribeAgreementDescribeAccessResponseDescribeAccessResponse''$sel:httpStatus:DescribeAccessResponse'%$sel:serverId:DescribeAccessResponse'#$sel:access:DescribeAccessResponse'DescribeAccessDescribeAccess'$sel:serverId:DescribeAccess'$sel:externalId:DescribeAccess'newDescribeAccessdescribeAccess_serverIddescribeAccess_externalIdnewDescribeAccessResponse!describeAccessResponse_httpStatusdescribeAccessResponse_serverIddescribeAccessResponse_access$fToQueryDescribeAccess$fToPathDescribeAccess$fToJSONDescribeAccess$fToHeadersDescribeAccess$fNFDataDescribeAccess$fHashableDescribeAccess$fNFDataDescribeAccessResponse$fAWSRequestDescribeAccess$fEqDescribeAccessResponse$fReadDescribeAccessResponse$fShowDescribeAccessResponse$fGenericDescribeAccessResponse$fEqDescribeAccess$fReadDescribeAccess$fShowDescribeAccess$fGenericDescribeAccessDeleteWorkflowResponseDeleteWorkflowResponse'DeleteWorkflowDeleteWorkflow'$sel:workflowId:DeleteWorkflow'newDeleteWorkflowdeleteWorkflow_workflowIdnewDeleteWorkflowResponse$fToQueryDeleteWorkflow$fToPathDeleteWorkflow$fToJSONDeleteWorkflow$fToHeadersDeleteWorkflow$fNFDataDeleteWorkflow$fHashableDeleteWorkflow$fNFDataDeleteWorkflowResponse$fAWSRequestDeleteWorkflow$fEqDeleteWorkflowResponse$fReadDeleteWorkflowResponse$fShowDeleteWorkflowResponse$fGenericDeleteWorkflowResponse$fEqDeleteWorkflow$fReadDeleteWorkflow$fShowDeleteWorkflow$fGenericDeleteWorkflowDeleteUserResponseDeleteUserResponse' DeleteUser DeleteUser'$sel:serverId:DeleteUser'$sel:userName:DeleteUser' newDeleteUserdeleteUser_serverIddeleteUser_userNamenewDeleteUserResponse$fToQueryDeleteUser$fToPathDeleteUser$fToJSONDeleteUser$fToHeadersDeleteUser$fNFDataDeleteUser$fHashableDeleteUser$fNFDataDeleteUserResponse$fAWSRequestDeleteUser$fEqDeleteUserResponse$fReadDeleteUserResponse$fShowDeleteUserResponse$fGenericDeleteUserResponse$fEqDeleteUser$fReadDeleteUser$fShowDeleteUser$fGenericDeleteUserDeleteSshPublicKeyResponseDeleteSshPublicKeyResponse'DeleteSshPublicKeyDeleteSshPublicKey'!$sel:serverId:DeleteSshPublicKey''$sel:sshPublicKeyId:DeleteSshPublicKey'!$sel:userName:DeleteSshPublicKey'newDeleteSshPublicKeydeleteSshPublicKey_serverId!deleteSshPublicKey_sshPublicKeyIddeleteSshPublicKey_userNamenewDeleteSshPublicKeyResponse$fToQueryDeleteSshPublicKey$fToPathDeleteSshPublicKey$fToJSONDeleteSshPublicKey$fToHeadersDeleteSshPublicKey$fNFDataDeleteSshPublicKey$fHashableDeleteSshPublicKey"$fNFDataDeleteSshPublicKeyResponse$fAWSRequestDeleteSshPublicKey$fEqDeleteSshPublicKeyResponse $fReadDeleteSshPublicKeyResponse $fShowDeleteSshPublicKeyResponse#$fGenericDeleteSshPublicKeyResponse$fEqDeleteSshPublicKey$fReadDeleteSshPublicKey$fShowDeleteSshPublicKey$fGenericDeleteSshPublicKeyDeleteServerResponseDeleteServerResponse' DeleteServer DeleteServer'$sel:serverId:DeleteServer'newDeleteServerdeleteServer_serverIdnewDeleteServerResponse$fToQueryDeleteServer$fToPathDeleteServer$fToJSONDeleteServer$fToHeadersDeleteServer$fNFDataDeleteServer$fHashableDeleteServer$fNFDataDeleteServerResponse$fAWSRequestDeleteServer$fEqDeleteServerResponse$fReadDeleteServerResponse$fShowDeleteServerResponse$fGenericDeleteServerResponse$fEqDeleteServer$fReadDeleteServer$fShowDeleteServer$fGenericDeleteServerDeleteProfileResponseDeleteProfileResponse' DeleteProfileDeleteProfile'$sel:profileId:DeleteProfile'newDeleteProfiledeleteProfile_profileIdnewDeleteProfileResponse$fToQueryDeleteProfile$fToPathDeleteProfile$fToJSONDeleteProfile$fToHeadersDeleteProfile$fNFDataDeleteProfile$fHashableDeleteProfile$fNFDataDeleteProfileResponse$fAWSRequestDeleteProfile$fEqDeleteProfileResponse$fReadDeleteProfileResponse$fShowDeleteProfileResponse$fGenericDeleteProfileResponse$fEqDeleteProfile$fReadDeleteProfile$fShowDeleteProfile$fGenericDeleteProfileDeleteHostKeyResponseDeleteHostKeyResponse' DeleteHostKeyDeleteHostKey'$sel:serverId:DeleteHostKey'$sel:hostKeyId:DeleteHostKey'newDeleteHostKeydeleteHostKey_serverIddeleteHostKey_hostKeyIdnewDeleteHostKeyResponse$fToQueryDeleteHostKey$fToPathDeleteHostKey$fToJSONDeleteHostKey$fToHeadersDeleteHostKey$fNFDataDeleteHostKey$fHashableDeleteHostKey$fNFDataDeleteHostKeyResponse$fAWSRequestDeleteHostKey$fEqDeleteHostKeyResponse$fReadDeleteHostKeyResponse$fShowDeleteHostKeyResponse$fGenericDeleteHostKeyResponse$fEqDeleteHostKey$fReadDeleteHostKey$fShowDeleteHostKey$fGenericDeleteHostKeyDeleteConnectorResponseDeleteConnectorResponse'DeleteConnectorDeleteConnector'!$sel:connectorId:DeleteConnector'newDeleteConnectordeleteConnector_connectorIdnewDeleteConnectorResponse$fToQueryDeleteConnector$fToPathDeleteConnector$fToJSONDeleteConnector$fToHeadersDeleteConnector$fNFDataDeleteConnector$fHashableDeleteConnector$fNFDataDeleteConnectorResponse$fAWSRequestDeleteConnector$fEqDeleteConnectorResponse$fReadDeleteConnectorResponse$fShowDeleteConnectorResponse $fGenericDeleteConnectorResponse$fEqDeleteConnector$fReadDeleteConnector$fShowDeleteConnector$fGenericDeleteConnectorDeleteCertificateResponseDeleteCertificateResponse'DeleteCertificateDeleteCertificate'%$sel:certificateId:DeleteCertificate'newDeleteCertificatedeleteCertificate_certificateIdnewDeleteCertificateResponse$fToQueryDeleteCertificate$fToPathDeleteCertificate$fToJSONDeleteCertificate$fToHeadersDeleteCertificate$fNFDataDeleteCertificate$fHashableDeleteCertificate!$fNFDataDeleteCertificateResponse$fAWSRequestDeleteCertificate$fEqDeleteCertificateResponse$fReadDeleteCertificateResponse$fShowDeleteCertificateResponse"$fGenericDeleteCertificateResponse$fEqDeleteCertificate$fReadDeleteCertificate$fShowDeleteCertificate$fGenericDeleteCertificateDeleteAgreementResponseDeleteAgreementResponse'DeleteAgreementDeleteAgreement'!$sel:agreementId:DeleteAgreement'$sel:serverId:DeleteAgreement'newDeleteAgreementdeleteAgreement_agreementIddeleteAgreement_serverIdnewDeleteAgreementResponse$fToQueryDeleteAgreement$fToPathDeleteAgreement$fToJSONDeleteAgreement$fToHeadersDeleteAgreement$fNFDataDeleteAgreement$fHashableDeleteAgreement$fNFDataDeleteAgreementResponse$fAWSRequestDeleteAgreement$fEqDeleteAgreementResponse$fReadDeleteAgreementResponse$fShowDeleteAgreementResponse $fGenericDeleteAgreementResponse$fEqDeleteAgreement$fReadDeleteAgreement$fShowDeleteAgreement$fGenericDeleteAgreementDeleteAccessResponseDeleteAccessResponse' DeleteAccess DeleteAccess'$sel:serverId:DeleteAccess'$sel:externalId:DeleteAccess'newDeleteAccessdeleteAccess_serverIddeleteAccess_externalIdnewDeleteAccessResponse$fToQueryDeleteAccess$fToPathDeleteAccess$fToJSONDeleteAccess$fToHeadersDeleteAccess$fNFDataDeleteAccess$fHashableDeleteAccess$fNFDataDeleteAccessResponse$fAWSRequestDeleteAccess$fEqDeleteAccessResponse$fReadDeleteAccessResponse$fShowDeleteAccessResponse$fGenericDeleteAccessResponse$fEqDeleteAccess$fReadDeleteAccess$fShowDeleteAccess$fGenericDeleteAccessCreateWorkflowResponseCreateWorkflowResponse''$sel:httpStatus:CreateWorkflowResponse''$sel:workflowId:CreateWorkflowResponse'CreateWorkflowCreateWorkflow' $sel:description:CreateWorkflow'%$sel:onExceptionSteps:CreateWorkflow'$sel:tags:CreateWorkflow'$sel:steps:CreateWorkflow'newCreateWorkflowcreateWorkflow_descriptioncreateWorkflow_onExceptionStepscreateWorkflow_tagscreateWorkflow_stepsnewCreateWorkflowResponse!createWorkflowResponse_httpStatus!createWorkflowResponse_workflowId$fToQueryCreateWorkflow$fToPathCreateWorkflow$fToJSONCreateWorkflow$fToHeadersCreateWorkflow$fNFDataCreateWorkflow$fHashableCreateWorkflow$fNFDataCreateWorkflowResponse$fAWSRequestCreateWorkflow$fEqCreateWorkflowResponse$fReadCreateWorkflowResponse$fShowCreateWorkflowResponse$fGenericCreateWorkflowResponse$fEqCreateWorkflow$fReadCreateWorkflow$fShowCreateWorkflow$fGenericCreateWorkflowCreateUserResponseCreateUserResponse'#$sel:httpStatus:CreateUserResponse'!$sel:serverId:CreateUserResponse'!$sel:userName:CreateUserResponse' CreateUser CreateUser'$sel:homeDirectory:CreateUser'&$sel:homeDirectoryMappings:CreateUser'"$sel:homeDirectoryType:CreateUser'$sel:policy:CreateUser'$sel:posixProfile:CreateUser'!$sel:sshPublicKeyBody:CreateUser'$sel:tags:CreateUser'$sel:role':CreateUser'$sel:serverId:CreateUser'$sel:userName:CreateUser' newCreateUsercreateUser_homeDirectory createUser_homeDirectoryMappingscreateUser_homeDirectoryTypecreateUser_policycreateUser_posixProfilecreateUser_sshPublicKeyBodycreateUser_tagscreateUser_rolecreateUser_serverIdcreateUser_userNamenewCreateUserResponsecreateUserResponse_httpStatuscreateUserResponse_serverIdcreateUserResponse_userName$fToQueryCreateUser$fToPathCreateUser$fToJSONCreateUser$fToHeadersCreateUser$fNFDataCreateUser$fHashableCreateUser$fNFDataCreateUserResponse$fAWSRequestCreateUser$fEqCreateUserResponse$fReadCreateUserResponse$fShowCreateUserResponse$fGenericCreateUserResponse$fEqCreateUser$fReadCreateUser$fShowCreateUser$fGenericCreateUserCreateServerResponseCreateServerResponse'%$sel:httpStatus:CreateServerResponse'#$sel:serverId:CreateServerResponse' CreateServer CreateServer'$sel:certificate:CreateServer'$sel:domain:CreateServer'"$sel:endpointDetails:CreateServer'$sel:endpointType:CreateServer'$sel:hostKey:CreateServer'*$sel:identityProviderDetails:CreateServer''$sel:identityProviderType:CreateServer'$sel:loggingRole:CreateServer'0$sel:postAuthenticationLoginBanner:CreateServer'/$sel:preAuthenticationLoginBanner:CreateServer'"$sel:protocolDetails:CreateServer'$sel:protocols:CreateServer'%$sel:securityPolicyName:CreateServer'$sel:tags:CreateServer'"$sel:workflowDetails:CreateServer'newCreateServercreateServer_certificatecreateServer_domaincreateServer_endpointDetailscreateServer_endpointTypecreateServer_hostKey$createServer_identityProviderDetails!createServer_identityProviderTypecreateServer_loggingRole*createServer_postAuthenticationLoginBanner)createServer_preAuthenticationLoginBannercreateServer_protocolDetailscreateServer_protocolscreateServer_securityPolicyNamecreateServer_tagscreateServer_workflowDetailsnewCreateServerResponsecreateServerResponse_httpStatuscreateServerResponse_serverId$fToQueryCreateServer$fToPathCreateServer$fToJSONCreateServer$fToHeadersCreateServer$fNFDataCreateServer$fHashableCreateServer$fNFDataCreateServerResponse$fAWSRequestCreateServer$fEqCreateServerResponse$fReadCreateServerResponse$fShowCreateServerResponse$fGenericCreateServerResponse$fEqCreateServer$fShowCreateServer$fGenericCreateServerCreateProfileResponseCreateProfileResponse'&$sel:httpStatus:CreateProfileResponse'%$sel:profileId:CreateProfileResponse' CreateProfileCreateProfile'"$sel:certificateIds:CreateProfile'$sel:tags:CreateProfile'$sel:as2Id:CreateProfile'$sel:profileType:CreateProfile'newCreateProfilecreateProfile_certificateIdscreateProfile_tagscreateProfile_as2IdcreateProfile_profileTypenewCreateProfileResponse createProfileResponse_httpStatuscreateProfileResponse_profileId$fToQueryCreateProfile$fToPathCreateProfile$fToJSONCreateProfile$fToHeadersCreateProfile$fNFDataCreateProfile$fHashableCreateProfile$fNFDataCreateProfileResponse$fAWSRequestCreateProfile$fEqCreateProfileResponse$fReadCreateProfileResponse$fShowCreateProfileResponse$fGenericCreateProfileResponse$fEqCreateProfile$fReadCreateProfile$fShowCreateProfile$fGenericCreateProfileCreateConnectorResponseCreateConnectorResponse'($sel:httpStatus:CreateConnectorResponse')$sel:connectorId:CreateConnectorResponse'CreateConnectorCreateConnector'!$sel:loggingRole:CreateConnector'$sel:tags:CreateConnector'$sel:url:CreateConnector'$sel:as2Config:CreateConnector' $sel:accessRole:CreateConnector'newCreateConnectorcreateConnector_loggingRolecreateConnector_tagscreateConnector_urlcreateConnector_as2ConfigcreateConnector_accessRolenewCreateConnectorResponse"createConnectorResponse_httpStatus#createConnectorResponse_connectorId$fToQueryCreateConnector$fToPathCreateConnector$fToJSONCreateConnector$fToHeadersCreateConnector$fNFDataCreateConnector$fHashableCreateConnector$fNFDataCreateConnectorResponse$fAWSRequestCreateConnector$fEqCreateConnectorResponse$fReadCreateConnectorResponse$fShowCreateConnectorResponse $fGenericCreateConnectorResponse$fEqCreateConnector$fReadCreateConnector$fShowCreateConnector$fGenericCreateConnectorCreateAgreementResponseCreateAgreementResponse'($sel:httpStatus:CreateAgreementResponse')$sel:agreementId:CreateAgreementResponse'CreateAgreementCreateAgreement'!$sel:description:CreateAgreement'$sel:status:CreateAgreement'$sel:tags:CreateAgreement'$sel:serverId:CreateAgreement'$$sel:localProfileId:CreateAgreement'&$sel:partnerProfileId:CreateAgreement'#$sel:baseDirectory:CreateAgreement' $sel:accessRole:CreateAgreement'newCreateAgreementcreateAgreement_descriptioncreateAgreement_statuscreateAgreement_tagscreateAgreement_serverIdcreateAgreement_localProfileId createAgreement_partnerProfileIdcreateAgreement_baseDirectorycreateAgreement_accessRolenewCreateAgreementResponse"createAgreementResponse_httpStatus#createAgreementResponse_agreementId$fToQueryCreateAgreement$fToPathCreateAgreement$fToJSONCreateAgreement$fToHeadersCreateAgreement$fNFDataCreateAgreement$fHashableCreateAgreement$fNFDataCreateAgreementResponse$fAWSRequestCreateAgreement$fEqCreateAgreementResponse$fReadCreateAgreementResponse$fShowCreateAgreementResponse $fGenericCreateAgreementResponse$fEqCreateAgreement$fReadCreateAgreement$fShowCreateAgreement$fGenericCreateAgreementCreateAccessResponseCreateAccessResponse'%$sel:httpStatus:CreateAccessResponse'#$sel:serverId:CreateAccessResponse'%$sel:externalId:CreateAccessResponse' CreateAccess CreateAccess' $sel:homeDirectory:CreateAccess'($sel:homeDirectoryMappings:CreateAccess'$$sel:homeDirectoryType:CreateAccess'$sel:policy:CreateAccess'$sel:posixProfile:CreateAccess'$sel:role':CreateAccess'$sel:serverId:CreateAccess'$sel:externalId:CreateAccess'newCreateAccesscreateAccess_homeDirectory"createAccess_homeDirectoryMappingscreateAccess_homeDirectoryTypecreateAccess_policycreateAccess_posixProfilecreateAccess_rolecreateAccess_serverIdcreateAccess_externalIdnewCreateAccessResponsecreateAccessResponse_httpStatuscreateAccessResponse_serverIdcreateAccessResponse_externalId$fToQueryCreateAccess$fToPathCreateAccess$fToJSONCreateAccess$fToHeadersCreateAccess$fNFDataCreateAccess$fHashableCreateAccess$fNFDataCreateAccessResponse$fAWSRequestCreateAccess$fEqCreateAccessResponse$fReadCreateAccessResponse$fShowCreateAccessResponse$fGenericCreateAccessResponse$fEqCreateAccess$fReadCreateAccess$fShowCreateAccess$fGenericCreateAccessUntagResourceResponseUntagResourceResponse' UntagResourceUntagResource'$sel:arn:UntagResource'$sel:tagKeys:UntagResource'newUntagResourceuntagResource_arnuntagResource_tagKeysnewUntagResourceResponse$fToQueryUntagResource$fToPathUntagResource$fToJSONUntagResource$fToHeadersUntagResource$fNFDataUntagResource$fHashableUntagResource$fNFDataUntagResourceResponse$fAWSRequestUntagResource$fEqUntagResourceResponse$fReadUntagResourceResponse$fShowUntagResourceResponse$fGenericUntagResourceResponse$fEqUntagResource$fReadUntagResource$fShowUntagResource$fGenericUntagResourceUpdateAccessResponseUpdateAccessResponse'%$sel:httpStatus:UpdateAccessResponse'#$sel:serverId:UpdateAccessResponse'%$sel:externalId:UpdateAccessResponse' UpdateAccess UpdateAccess' $sel:homeDirectory:UpdateAccess'($sel:homeDirectoryMappings:UpdateAccess'$$sel:homeDirectoryType:UpdateAccess'$sel:policy:UpdateAccess'$sel:posixProfile:UpdateAccess'$sel:role':UpdateAccess'$sel:serverId:UpdateAccess'$sel:externalId:UpdateAccess'newUpdateAccessupdateAccess_homeDirectory"updateAccess_homeDirectoryMappingsupdateAccess_homeDirectoryTypeupdateAccess_policyupdateAccess_posixProfileupdateAccess_roleupdateAccess_serverIdupdateAccess_externalIdnewUpdateAccessResponseupdateAccessResponse_httpStatusupdateAccessResponse_serverIdupdateAccessResponse_externalId$fToQueryUpdateAccess$fToPathUpdateAccess$fToJSONUpdateAccess$fToHeadersUpdateAccess$fNFDataUpdateAccess$fHashableUpdateAccess$fNFDataUpdateAccessResponse$fAWSRequestUpdateAccess$fEqUpdateAccessResponse$fReadUpdateAccessResponse$fShowUpdateAccessResponse$fGenericUpdateAccessResponse$fEqUpdateAccess$fReadUpdateAccess$fShowUpdateAccess$fGenericUpdateAccessUpdateAgreementResponseUpdateAgreementResponse'($sel:httpStatus:UpdateAgreementResponse')$sel:agreementId:UpdateAgreementResponse'UpdateAgreementUpdateAgreement' $sel:accessRole:UpdateAgreement'#$sel:baseDirectory:UpdateAgreement'!$sel:description:UpdateAgreement'$$sel:localProfileId:UpdateAgreement'&$sel:partnerProfileId:UpdateAgreement'$sel:status:UpdateAgreement'!$sel:agreementId:UpdateAgreement'$sel:serverId:UpdateAgreement'newUpdateAgreementupdateAgreement_accessRoleupdateAgreement_baseDirectoryupdateAgreement_descriptionupdateAgreement_localProfileId updateAgreement_partnerProfileIdupdateAgreement_statusupdateAgreement_agreementIdupdateAgreement_serverIdnewUpdateAgreementResponse"updateAgreementResponse_httpStatus#updateAgreementResponse_agreementId$fToQueryUpdateAgreement$fToPathUpdateAgreement$fToJSONUpdateAgreement$fToHeadersUpdateAgreement$fNFDataUpdateAgreement$fHashableUpdateAgreement$fNFDataUpdateAgreementResponse$fAWSRequestUpdateAgreement$fEqUpdateAgreementResponse$fReadUpdateAgreementResponse$fShowUpdateAgreementResponse $fGenericUpdateAgreementResponse$fEqUpdateAgreement$fReadUpdateAgreement$fShowUpdateAgreement$fGenericUpdateAgreementUpdateCertificateResponseUpdateCertificateResponse'*$sel:httpStatus:UpdateCertificateResponse'-$sel:certificateId:UpdateCertificateResponse'UpdateCertificateUpdateCertificate'"$sel:activeDate:UpdateCertificate'#$sel:description:UpdateCertificate'$$sel:inactiveDate:UpdateCertificate'%$sel:certificateId:UpdateCertificate'newUpdateCertificateupdateCertificate_activeDateupdateCertificate_descriptionupdateCertificate_inactiveDateupdateCertificate_certificateIdnewUpdateCertificateResponse$updateCertificateResponse_httpStatus'updateCertificateResponse_certificateId$fToQueryUpdateCertificate$fToPathUpdateCertificate$fToJSONUpdateCertificate$fToHeadersUpdateCertificate$fNFDataUpdateCertificate$fHashableUpdateCertificate!$fNFDataUpdateCertificateResponse$fAWSRequestUpdateCertificate$fEqUpdateCertificateResponse$fReadUpdateCertificateResponse$fShowUpdateCertificateResponse"$fGenericUpdateCertificateResponse$fEqUpdateCertificate$fReadUpdateCertificate$fShowUpdateCertificate$fGenericUpdateCertificateUpdateConnectorResponseUpdateConnectorResponse'($sel:httpStatus:UpdateConnectorResponse')$sel:connectorId:UpdateConnectorResponse'UpdateConnectorUpdateConnector' $sel:accessRole:UpdateConnector'$sel:as2Config:UpdateConnector'!$sel:loggingRole:UpdateConnector'$sel:url:UpdateConnector'!$sel:connectorId:UpdateConnector'newUpdateConnectorupdateConnector_accessRoleupdateConnector_as2ConfigupdateConnector_loggingRoleupdateConnector_urlupdateConnector_connectorIdnewUpdateConnectorResponse"updateConnectorResponse_httpStatus#updateConnectorResponse_connectorId$fToQueryUpdateConnector$fToPathUpdateConnector$fToJSONUpdateConnector$fToHeadersUpdateConnector$fNFDataUpdateConnector$fHashableUpdateConnector$fNFDataUpdateConnectorResponse$fAWSRequestUpdateConnector$fEqUpdateConnectorResponse$fReadUpdateConnectorResponse$fShowUpdateConnectorResponse $fGenericUpdateConnectorResponse$fEqUpdateConnector$fReadUpdateConnector$fShowUpdateConnector$fGenericUpdateConnectorUpdateHostKeyResponseUpdateHostKeyResponse'&$sel:httpStatus:UpdateHostKeyResponse'$$sel:serverId:UpdateHostKeyResponse'%$sel:hostKeyId:UpdateHostKeyResponse' UpdateHostKeyUpdateHostKey'$sel:serverId:UpdateHostKey'$sel:hostKeyId:UpdateHostKey'$sel:description:UpdateHostKey'newUpdateHostKeyupdateHostKey_serverIdupdateHostKey_hostKeyIdupdateHostKey_descriptionnewUpdateHostKeyResponse updateHostKeyResponse_httpStatusupdateHostKeyResponse_serverIdupdateHostKeyResponse_hostKeyId$fToQueryUpdateHostKey$fToPathUpdateHostKey$fToJSONUpdateHostKey$fToHeadersUpdateHostKey$fNFDataUpdateHostKey$fHashableUpdateHostKey$fNFDataUpdateHostKeyResponse$fAWSRequestUpdateHostKey$fEqUpdateHostKeyResponse$fReadUpdateHostKeyResponse$fShowUpdateHostKeyResponse$fGenericUpdateHostKeyResponse$fEqUpdateHostKey$fReadUpdateHostKey$fShowUpdateHostKey$fGenericUpdateHostKeyUpdateProfileResponseUpdateProfileResponse'&$sel:httpStatus:UpdateProfileResponse'%$sel:profileId:UpdateProfileResponse' UpdateProfileUpdateProfile'"$sel:certificateIds:UpdateProfile'$sel:profileId:UpdateProfile'newUpdateProfileupdateProfile_certificateIdsupdateProfile_profileIdnewUpdateProfileResponse updateProfileResponse_httpStatusupdateProfileResponse_profileId$fToQueryUpdateProfile$fToPathUpdateProfile$fToJSONUpdateProfile$fToHeadersUpdateProfile$fNFDataUpdateProfile$fHashableUpdateProfile$fNFDataUpdateProfileResponse$fAWSRequestUpdateProfile$fEqUpdateProfileResponse$fReadUpdateProfileResponse$fShowUpdateProfileResponse$fGenericUpdateProfileResponse$fEqUpdateProfile$fReadUpdateProfile$fShowUpdateProfile$fGenericUpdateProfileUpdateServerResponseUpdateServerResponse'%$sel:httpStatus:UpdateServerResponse'#$sel:serverId:UpdateServerResponse' UpdateServer UpdateServer'$sel:certificate:UpdateServer'"$sel:endpointDetails:UpdateServer'$sel:endpointType:UpdateServer'$sel:hostKey:UpdateServer'*$sel:identityProviderDetails:UpdateServer'$sel:loggingRole:UpdateServer'0$sel:postAuthenticationLoginBanner:UpdateServer'/$sel:preAuthenticationLoginBanner:UpdateServer'"$sel:protocolDetails:UpdateServer'$sel:protocols:UpdateServer'%$sel:securityPolicyName:UpdateServer'"$sel:workflowDetails:UpdateServer'$sel:serverId:UpdateServer'newUpdateServerupdateServer_certificateupdateServer_endpointDetailsupdateServer_endpointTypeupdateServer_hostKey$updateServer_identityProviderDetailsupdateServer_loggingRole*updateServer_postAuthenticationLoginBanner)updateServer_preAuthenticationLoginBannerupdateServer_protocolDetailsupdateServer_protocolsupdateServer_securityPolicyNameupdateServer_workflowDetailsupdateServer_serverIdnewUpdateServerResponseupdateServerResponse_httpStatusupdateServerResponse_serverId$fToQueryUpdateServer$fToPathUpdateServer$fToJSONUpdateServer$fToHeadersUpdateServer$fNFDataUpdateServer$fHashableUpdateServer$fNFDataUpdateServerResponse$fAWSRequestUpdateServer$fEqUpdateServerResponse$fReadUpdateServerResponse$fShowUpdateServerResponse$fGenericUpdateServerResponse$fEqUpdateServer$fShowUpdateServer$fGenericUpdateServerUpdateUserResponseUpdateUserResponse'#$sel:httpStatus:UpdateUserResponse'!$sel:serverId:UpdateUserResponse'!$sel:userName:UpdateUserResponse' UpdateUser UpdateUser'$sel:homeDirectory:UpdateUser'&$sel:homeDirectoryMappings:UpdateUser'"$sel:homeDirectoryType:UpdateUser'$sel:policy:UpdateUser'$sel:posixProfile:UpdateUser'$sel:role':UpdateUser'$sel:serverId:UpdateUser'$sel:userName:UpdateUser' newUpdateUserupdateUser_homeDirectory updateUser_homeDirectoryMappingsupdateUser_homeDirectoryTypeupdateUser_policyupdateUser_posixProfileupdateUser_roleupdateUser_serverIdupdateUser_userNamenewUpdateUserResponseupdateUserResponse_httpStatusupdateUserResponse_serverIdupdateUserResponse_userName$fToQueryUpdateUser$fToPathUpdateUser$fToJSONUpdateUser$fToHeadersUpdateUser$fNFDataUpdateUser$fHashableUpdateUser$fNFDataUpdateUserResponse$fAWSRequestUpdateUser$fEqUpdateUserResponse$fReadUpdateUserResponse$fShowUpdateUserResponse$fGenericUpdateUserResponse$fEqUpdateUser$fReadUpdateUser$fShowUpdateUser$fGenericUpdateUsernewServerOfflinenewServerOnline