Struct CreateFleetInputBuilder

#[non_exhaustive]
pub struct CreateFleetInputBuilder { /* private fields */ }

A builder for CreateFleetInput.

Implementations

impl CreateFleetInputBuilder

pub fn name(self, input: impl Into<String>) -> Self

A unique name for the fleet.

This field is required.

pub fn set_name(self, input: Option<String>) -> Self

A unique name for the fleet.

pub fn get_name(&self) -> &Option<String>

A unique name for the fleet.

pub fn image_name(self, input: impl Into<String>) -> Self

The name of the image used to create the fleet.

pub fn set_image_name(self, input: Option<String>) -> Self

The name of the image used to create the fleet.

pub fn get_image_name(&self) -> &Option<String>

The name of the image used to create the fleet.

pub fn image_arn(self, input: impl Into<String>) -> Self

The ARN of the public, private, or shared image to use.

pub fn set_image_arn(self, input: Option<String>) -> Self

The ARN of the public, private, or shared image to use.

pub fn get_image_arn(&self) -> &Option<String>

The ARN of the public, private, or shared image to use.

pub fn instance_type(self, input: impl Into<String>) -> Self

The instance type to use when launching fleet instances. The following instance types are available:

• stream.standard.small

• stream.standard.medium

• stream.standard.large

• stream.standard.xlarge

• stream.standard.2xlarge

• stream.compute.large

• stream.compute.xlarge

• stream.compute.2xlarge

• stream.compute.4xlarge

• stream.compute.8xlarge

• stream.memory.large

• stream.memory.xlarge

• stream.memory.2xlarge

• stream.memory.4xlarge

• stream.memory.8xlarge

• stream.memory.z1d.large

• stream.memory.z1d.xlarge

• stream.memory.z1d.2xlarge

• stream.memory.z1d.3xlarge

• stream.memory.z1d.6xlarge

• stream.memory.z1d.12xlarge

• stream.graphics-design.large

• stream.graphics-design.xlarge

• stream.graphics-design.2xlarge

• stream.graphics-design.4xlarge

• stream.graphics-desktop.2xlarge

• stream.graphics.g4dn.xlarge

• stream.graphics.g4dn.2xlarge

• stream.graphics.g4dn.4xlarge

• stream.graphics.g4dn.8xlarge

• stream.graphics.g4dn.12xlarge

• stream.graphics.g4dn.16xlarge

• stream.graphics.g5.xlarge

• stream.graphics.g5.2xlarge

• stream.graphics.g5.4xlarge

• stream.graphics.g5.8xlarge

• stream.graphics.g5.12xlarge

• stream.graphics.g5.16xlarge

• stream.graphics.g5.24xlarge

• stream.graphics-pro.4xlarge

• stream.graphics-pro.8xlarge

• stream.graphics-pro.16xlarge

The following instance types are available for Elastic fleets:

• stream.standard.small

• stream.standard.medium

• stream.standard.large

• stream.standard.xlarge

• stream.standard.2xlarge

This field is required.

pub fn set_instance_type(self, input: Option<String>) -> Self

The instance type to use when launching fleet instances. The following instance types are available:

• stream.standard.small

• stream.standard.medium

• stream.standard.large

• stream.standard.xlarge

• stream.standard.2xlarge

• stream.compute.large

• stream.compute.xlarge

• stream.compute.2xlarge

• stream.compute.4xlarge

• stream.compute.8xlarge

• stream.memory.large

• stream.memory.xlarge

• stream.memory.2xlarge

• stream.memory.4xlarge

• stream.memory.8xlarge

• stream.memory.z1d.large

• stream.memory.z1d.xlarge

• stream.memory.z1d.2xlarge

• stream.memory.z1d.3xlarge

• stream.memory.z1d.6xlarge

• stream.memory.z1d.12xlarge

• stream.graphics-design.large

• stream.graphics-design.xlarge

• stream.graphics-design.2xlarge

• stream.graphics-design.4xlarge

• stream.graphics-desktop.2xlarge

• stream.graphics.g4dn.xlarge

• stream.graphics.g4dn.2xlarge

• stream.graphics.g4dn.4xlarge

• stream.graphics.g4dn.8xlarge

• stream.graphics.g4dn.12xlarge

• stream.graphics.g4dn.16xlarge

• stream.graphics.g5.xlarge

• stream.graphics.g5.2xlarge

• stream.graphics.g5.4xlarge

• stream.graphics.g5.8xlarge

• stream.graphics.g5.12xlarge

• stream.graphics.g5.16xlarge

• stream.graphics.g5.24xlarge

• stream.graphics-pro.4xlarge

• stream.graphics-pro.8xlarge

• stream.graphics-pro.16xlarge

The following instance types are available for Elastic fleets:

• stream.standard.small

• stream.standard.medium

• stream.standard.large

• stream.standard.xlarge

• stream.standard.2xlarge

pub fn get_instance_type(&self) -> &Option<String>

The instance type to use when launching fleet instances. The following instance types are available:

• stream.standard.small

• stream.standard.medium

• stream.standard.large

• stream.standard.xlarge

• stream.standard.2xlarge

• stream.compute.large

• stream.compute.xlarge

• stream.compute.2xlarge

• stream.compute.4xlarge

• stream.compute.8xlarge

• stream.memory.large

• stream.memory.xlarge

• stream.memory.2xlarge

• stream.memory.4xlarge

• stream.memory.8xlarge

• stream.memory.z1d.large

• stream.memory.z1d.xlarge

• stream.memory.z1d.2xlarge

• stream.memory.z1d.3xlarge

• stream.memory.z1d.6xlarge

• stream.memory.z1d.12xlarge

• stream.graphics-design.large

• stream.graphics-design.xlarge

• stream.graphics-design.2xlarge

• stream.graphics-design.4xlarge

• stream.graphics-desktop.2xlarge

• stream.graphics.g4dn.xlarge

• stream.graphics.g4dn.2xlarge

• stream.graphics.g4dn.4xlarge

• stream.graphics.g4dn.8xlarge

• stream.graphics.g4dn.12xlarge

• stream.graphics.g4dn.16xlarge

• stream.graphics.g5.xlarge

• stream.graphics.g5.2xlarge

• stream.graphics.g5.4xlarge

• stream.graphics.g5.8xlarge

• stream.graphics.g5.12xlarge

• stream.graphics.g5.16xlarge

• stream.graphics.g5.24xlarge

• stream.graphics-pro.4xlarge

• stream.graphics-pro.8xlarge

• stream.graphics-pro.16xlarge

The following instance types are available for Elastic fleets:

• stream.standard.small

• stream.standard.medium

• stream.standard.large

• stream.standard.xlarge

• stream.standard.2xlarge

pub fn fleet_type(self, input: FleetType) -> Self

The fleet type.

ALWAYS_ON

Provides users with instant-on access to their apps. You are charged for all running instances in your fleet, even if no users are streaming apps.

ON_DEMAND

Provide users with access to applications after they connect, which takes one to two minutes. You are charged for instance streaming when users are connected and a small hourly fee for instances that are not streaming apps.

pub fn set_fleet_type(self, input: Option<FleetType>) -> Self

The fleet type.

ALWAYS_ON

Provides users with instant-on access to their apps. You are charged for all running instances in your fleet, even if no users are streaming apps.

ON_DEMAND

Provide users with access to applications after they connect, which takes one to two minutes. You are charged for instance streaming when users are connected and a small hourly fee for instances that are not streaming apps.

pub fn get_fleet_type(&self) -> &Option<FleetType>

The fleet type.

ALWAYS_ON

Provides users with instant-on access to their apps. You are charged for all running instances in your fleet, even if no users are streaming apps.

ON_DEMAND

Provide users with access to applications after they connect, which takes one to two minutes. You are charged for instance streaming when users are connected and a small hourly fee for instances that are not streaming apps.

pub fn compute_capacity(self, input: ComputeCapacity) -> Self

The desired capacity for the fleet. This is not allowed for Elastic fleets. For Elastic fleets, specify MaxConcurrentSessions instead.

pub fn set_compute_capacity(self, input: Option<ComputeCapacity>) -> Self

The desired capacity for the fleet. This is not allowed for Elastic fleets. For Elastic fleets, specify MaxConcurrentSessions instead.

pub fn get_compute_capacity(&self) -> &Option<ComputeCapacity>

The desired capacity for the fleet. This is not allowed for Elastic fleets. For Elastic fleets, specify MaxConcurrentSessions instead.

pub fn vpc_config(self, input: VpcConfig) -> Self

The VPC configuration for the fleet. This is required for Elastic fleets, but not required for other fleet types. Elastic fleets require that you specify at least two subnets in different availability zones.

pub fn set_vpc_config(self, input: Option<VpcConfig>) -> Self

The VPC configuration for the fleet. This is required for Elastic fleets, but not required for other fleet types. Elastic fleets require that you specify at least two subnets in different availability zones.

pub fn get_vpc_config(&self) -> &Option<VpcConfig>

The VPC configuration for the fleet. This is required for Elastic fleets, but not required for other fleet types. Elastic fleets require that you specify at least two subnets in different availability zones.

pub fn max_user_duration_in_seconds(self, input: i32) -> Self

The maximum amount of time that a streaming session can remain active, in seconds. If users are still connected to a streaming instance five minutes before this limit is reached, they are prompted to save any open documents before being disconnected. After this time elapses, the instance is terminated and replaced by a new instance.

Specify a value between 600 and 432000.

pub fn set_max_user_duration_in_seconds(self, input: Option<i32>) -> Self

The maximum amount of time that a streaming session can remain active, in seconds. If users are still connected to a streaming instance five minutes before this limit is reached, they are prompted to save any open documents before being disconnected. After this time elapses, the instance is terminated and replaced by a new instance.

Specify a value between 600 and 432000.

pub fn get_max_user_duration_in_seconds(&self) -> &Option<i32>

The maximum amount of time that a streaming session can remain active, in seconds. If users are still connected to a streaming instance five minutes before this limit is reached, they are prompted to save any open documents before being disconnected. After this time elapses, the instance is terminated and replaced by a new instance.

Specify a value between 600 and 432000.

pub fn disconnect_timeout_in_seconds(self, input: i32) -> Self

The amount of time that a streaming session remains active after users disconnect. If users try to reconnect to the streaming session after a disconnection or network interruption within this time interval, they are connected to their previous session. Otherwise, they are connected to a new session with a new streaming instance.

Specify a value between 60 and 36000.

pub fn set_disconnect_timeout_in_seconds(self, input: Option<i32>) -> Self

The amount of time that a streaming session remains active after users disconnect. If users try to reconnect to the streaming session after a disconnection or network interruption within this time interval, they are connected to their previous session. Otherwise, they are connected to a new session with a new streaming instance.

Specify a value between 60 and 36000.

pub fn get_disconnect_timeout_in_seconds(&self) -> &Option<i32>

The amount of time that a streaming session remains active after users disconnect. If users try to reconnect to the streaming session after a disconnection or network interruption within this time interval, they are connected to their previous session. Otherwise, they are connected to a new session with a new streaming instance.

Specify a value between 60 and 36000.

pub fn description(self, input: impl Into<String>) -> Self

The description to display.

pub fn set_description(self, input: Option<String>) -> Self

The description to display.

pub fn get_description(&self) -> &Option<String>

The description to display.

pub fn display_name(self, input: impl Into<String>) -> Self

The fleet name to display.

pub fn set_display_name(self, input: Option<String>) -> Self

The fleet name to display.

pub fn get_display_name(&self) -> &Option<String>

The fleet name to display.

pub fn enable_default_internet_access(self, input: bool) -> Self

Enables or disables default internet access for the fleet.

pub fn set_enable_default_internet_access(self, input: Option<bool>) -> Self

Enables or disables default internet access for the fleet.

pub fn get_enable_default_internet_access(&self) -> &Option<bool>

Enables or disables default internet access for the fleet.

pub fn domain_join_info(self, input: DomainJoinInfo) -> Self

The name of the directory and organizational unit (OU) to use to join the fleet to a Microsoft Active Directory domain. This is not allowed for Elastic fleets.

pub fn set_domain_join_info(self, input: Option<DomainJoinInfo>) -> Self

The name of the directory and organizational unit (OU) to use to join the fleet to a Microsoft Active Directory domain. This is not allowed for Elastic fleets.

pub fn get_domain_join_info(&self) -> &Option<DomainJoinInfo>

The name of the directory and organizational unit (OU) to use to join the fleet to a Microsoft Active Directory domain. This is not allowed for Elastic fleets.

pub fn tags(self, k: impl Into<String>, v: impl Into<String>) -> Self

Adds a key-value pair to tags.

To override the contents of this collection use set_tags.

The tags to associate with the fleet. A tag is a key-value pair, and the value is optional. For example, Environment=Test. If you do not specify a value, Environment=.

If you do not specify a value, the value is set to an empty string.

Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following special characters:

_ . : / = + \ - @

For more information, see Tagging Your Resources in the Amazon AppStream 2.0 Administration Guide.

pub fn set_tags(self, input: Option<HashMap<String, String>>) -> Self

The tags to associate with the fleet. A tag is a key-value pair, and the value is optional. For example, Environment=Test. If you do not specify a value, Environment=.

If you do not specify a value, the value is set to an empty string.

Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following special characters:

_ . : / = + \ - @

For more information, see Tagging Your Resources in the Amazon AppStream 2.0 Administration Guide.

pub fn get_tags(&self) -> &Option<HashMap<String, String>>

The tags to associate with the fleet. A tag is a key-value pair, and the value is optional. For example, Environment=Test. If you do not specify a value, Environment=.

If you do not specify a value, the value is set to an empty string.

Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following special characters:

_ . : / = + \ - @

For more information, see Tagging Your Resources in the Amazon AppStream 2.0 Administration Guide.

pub fn idle_disconnect_timeout_in_seconds(self, input: i32) -> Self

The amount of time that users can be idle (inactive) before they are disconnected from their streaming session and the DisconnectTimeoutInSeconds time interval begins. Users are notified before they are disconnected due to inactivity. If they try to reconnect to the streaming session before the time interval specified in DisconnectTimeoutInSeconds elapses, they are connected to their previous session. Users are considered idle when they stop providing keyboard or mouse input during their streaming session. File uploads and downloads, audio in, audio out, and pixels changing do not qualify as user activity. If users continue to be idle after the time interval in IdleDisconnectTimeoutInSeconds elapses, they are disconnected.

To prevent users from being disconnected due to inactivity, specify a value of 0. Otherwise, specify a value between 60 and 36000. The default value is 0.

If you enable this feature, we recommend that you specify a value that corresponds exactly to a whole number of minutes (for example, 60, 120, and 180). If you don't do this, the value is rounded to the nearest minute. For example, if you specify a value of 70, users are disconnected after 1 minute of inactivity. If you specify a value that is at the midpoint between two different minutes, the value is rounded up. For example, if you specify a value of 90, users are disconnected after 2 minutes of inactivity.

pub fn set_idle_disconnect_timeout_in_seconds(self, input: Option<i32>) -> Self

The amount of time that users can be idle (inactive) before they are disconnected from their streaming session and the DisconnectTimeoutInSeconds time interval begins. Users are notified before they are disconnected due to inactivity. If they try to reconnect to the streaming session before the time interval specified in DisconnectTimeoutInSeconds elapses, they are connected to their previous session. Users are considered idle when they stop providing keyboard or mouse input during their streaming session. File uploads and downloads, audio in, audio out, and pixels changing do not qualify as user activity. If users continue to be idle after the time interval in IdleDisconnectTimeoutInSeconds elapses, they are disconnected.

To prevent users from being disconnected due to inactivity, specify a value of 0. Otherwise, specify a value between 60 and 36000. The default value is 0.

If you enable this feature, we recommend that you specify a value that corresponds exactly to a whole number of minutes (for example, 60, 120, and 180). If you don't do this, the value is rounded to the nearest minute. For example, if you specify a value of 70, users are disconnected after 1 minute of inactivity. If you specify a value that is at the midpoint between two different minutes, the value is rounded up. For example, if you specify a value of 90, users are disconnected after 2 minutes of inactivity.

pub fn get_idle_disconnect_timeout_in_seconds(&self) -> &Option<i32>

The amount of time that users can be idle (inactive) before they are disconnected from their streaming session and the DisconnectTimeoutInSeconds time interval begins. Users are notified before they are disconnected due to inactivity. If they try to reconnect to the streaming session before the time interval specified in DisconnectTimeoutInSeconds elapses, they are connected to their previous session. Users are considered idle when they stop providing keyboard or mouse input during their streaming session. File uploads and downloads, audio in, audio out, and pixels changing do not qualify as user activity. If users continue to be idle after the time interval in IdleDisconnectTimeoutInSeconds elapses, they are disconnected.

To prevent users from being disconnected due to inactivity, specify a value of 0. Otherwise, specify a value between 60 and 36000. The default value is 0.

If you enable this feature, we recommend that you specify a value that corresponds exactly to a whole number of minutes (for example, 60, 120, and 180). If you don't do this, the value is rounded to the nearest minute. For example, if you specify a value of 70, users are disconnected after 1 minute of inactivity. If you specify a value that is at the midpoint between two different minutes, the value is rounded up. For example, if you specify a value of 90, users are disconnected after 2 minutes of inactivity.

pub fn iam_role_arn(self, input: impl Into<String>) -> Self

The Amazon Resource Name (ARN) of the IAM role to apply to the fleet. To assume a role, a fleet instance calls the AWS Security Token Service (STS) AssumeRole API operation and passes the ARN of the role to use. The operation creates a new session with temporary credentials. AppStream 2.0 retrieves the temporary credentials and creates the appstream_machine_role credential profile on the instance.

For more information, see Using an IAM Role to Grant Permissions to Applications and Scripts Running on AppStream 2.0 Streaming Instances in the Amazon AppStream 2.0 Administration Guide.

pub fn set_iam_role_arn(self, input: Option<String>) -> Self

The Amazon Resource Name (ARN) of the IAM role to apply to the fleet. To assume a role, a fleet instance calls the AWS Security Token Service (STS) AssumeRole API operation and passes the ARN of the role to use. The operation creates a new session with temporary credentials. AppStream 2.0 retrieves the temporary credentials and creates the appstream_machine_role credential profile on the instance.

For more information, see Using an IAM Role to Grant Permissions to Applications and Scripts Running on AppStream 2.0 Streaming Instances in the Amazon AppStream 2.0 Administration Guide.

pub fn get_iam_role_arn(&self) -> &Option<String>

The Amazon Resource Name (ARN) of the IAM role to apply to the fleet. To assume a role, a fleet instance calls the AWS Security Token Service (STS) AssumeRole API operation and passes the ARN of the role to use. The operation creates a new session with temporary credentials. AppStream 2.0 retrieves the temporary credentials and creates the appstream_machine_role credential profile on the instance.

For more information, see Using an IAM Role to Grant Permissions to Applications and Scripts Running on AppStream 2.0 Streaming Instances in the Amazon AppStream 2.0 Administration Guide.

pub fn stream_view(self, input: StreamView) -> Self

The AppStream 2.0 view that is displayed to your users when they stream from the fleet. When APP is specified, only the windows of applications opened by users display. When DESKTOP is specified, the standard desktop that is provided by the operating system displays.

The default value is APP.

pub fn set_stream_view(self, input: Option<StreamView>) -> Self

The AppStream 2.0 view that is displayed to your users when they stream from the fleet. When APP is specified, only the windows of applications opened by users display. When DESKTOP is specified, the standard desktop that is provided by the operating system displays.

The default value is APP.

pub fn get_stream_view(&self) -> &Option<StreamView>

The AppStream 2.0 view that is displayed to your users when they stream from the fleet. When APP is specified, only the windows of applications opened by users display. When DESKTOP is specified, the standard desktop that is provided by the operating system displays.

The default value is APP.

pub fn platform(self, input: PlatformType) -> Self

The fleet platform. WINDOWS_SERVER_2019 and AMAZON_LINUX2 are supported for Elastic fleets.

pub fn set_platform(self, input: Option<PlatformType>) -> Self

The fleet platform. WINDOWS_SERVER_2019 and AMAZON_LINUX2 are supported for Elastic fleets.

pub fn get_platform(&self) -> &Option<PlatformType>

The fleet platform. WINDOWS_SERVER_2019 and AMAZON_LINUX2 are supported for Elastic fleets.

pub fn max_concurrent_sessions(self, input: i32) -> Self

The maximum concurrent sessions of the Elastic fleet. This is required for Elastic fleets, and not allowed for other fleet types.

pub fn set_max_concurrent_sessions(self, input: Option<i32>) -> Self

The maximum concurrent sessions of the Elastic fleet. This is required for Elastic fleets, and not allowed for other fleet types.

pub fn get_max_concurrent_sessions(&self) -> &Option<i32>

The maximum concurrent sessions of the Elastic fleet. This is required for Elastic fleets, and not allowed for other fleet types.

pub fn usb_device_filter_strings(self, input: impl Into<String>) -> Self

Appends an item to usb_device_filter_strings.

To override the contents of this collection use set_usb_device_filter_strings.

The USB device filter strings that specify which USB devices a user can redirect to the fleet streaming session, when using the Windows native client. This is allowed but not required for Elastic fleets.

pub fn set_usb_device_filter_strings(self, input: Option<Vec<String>>) -> Self

The USB device filter strings that specify which USB devices a user can redirect to the fleet streaming session, when using the Windows native client. This is allowed but not required for Elastic fleets.

pub fn get_usb_device_filter_strings(&self) -> &Option<Vec<String>>

The USB device filter strings that specify which USB devices a user can redirect to the fleet streaming session, when using the Windows native client. This is allowed but not required for Elastic fleets.

pub fn session_script_s3_location(self, input: S3Location) -> Self

The S3 location of the session scripts configuration zip file. This only applies to Elastic fleets.

pub fn set_session_script_s3_location(self, input: Option<S3Location>) -> Self

The S3 location of the session scripts configuration zip file. This only applies to Elastic fleets.

pub fn get_session_script_s3_location(&self) -> &Option<S3Location>

The S3 location of the session scripts configuration zip file. This only applies to Elastic fleets.

pub fn max_sessions_per_instance(self, input: i32) -> Self

The maximum number of user sessions on an instance. This only applies to multi-session fleets.

pub fn set_max_sessions_per_instance(self, input: Option<i32>) -> Self

The maximum number of user sessions on an instance. This only applies to multi-session fleets.

pub fn get_max_sessions_per_instance(&self) -> &Option<i32>

The maximum number of user sessions on an instance. This only applies to multi-session fleets.

pub fn build(self) -> Result<CreateFleetInput, BuildError>

Consumes the builder and constructs a CreateFleetInput.

impl CreateFleetInputBuilder

pub async fn send_with( self, client: &Client, ) -> Result<CreateFleetOutput, SdkError<CreateFleetError, HttpResponse>>

Sends a request with this input using the given client.

Trait Implementations

impl Clone for CreateFleetInputBuilder

fn clone(&self) -> CreateFleetInputBuilder

Returns a duplicate of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for CreateFleetInputBuilder

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl Default for CreateFleetInputBuilder

fn default() -> CreateFleetInputBuilder

Returns the “default value” for a type.

impl PartialEq for CreateFleetInputBuilder

fn eq(&self, other: &CreateFleetInputBuilder) -> bool

Tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl StructuralPartialEq for CreateFleetInputBuilder