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AWS Cloud Control v1.26.0 published on Wednesday, Mar 12, 2025 by Pulumi

pulumi/pulumi-aws-native

aws-native.codebuild.getFleet

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AWS Cloud Control v1.26.0 published on Wednesday, Mar 12, 2025 by Pulumi

pulumi/pulumi-aws-native

Using getFleet

Two invocation forms are available. The direct form accepts plain arguments and either blocks until the result value is available, or returns a Promise-wrapped result. The output form accepts Input-wrapped arguments and returns an Output-wrapped result.

function getFleet(args: GetFleetArgs, opts?: InvokeOptions): Promise<GetFleetResult>
function getFleetOutput(args: GetFleetOutputArgs, opts?: InvokeOptions): Output<GetFleetResult>

def get_fleet(arn: Optional[str] = None,
              opts: Optional[InvokeOptions] = None) -> GetFleetResult
def get_fleet_output(arn: Optional[pulumi.Input[str]] = None,
              opts: Optional[InvokeOptions] = None) -> Output[GetFleetResult]

func LookupFleet(ctx *Context, args *LookupFleetArgs, opts ...InvokeOption) (*LookupFleetResult, error)
func LookupFleetOutput(ctx *Context, args *LookupFleetOutputArgs, opts ...InvokeOption) LookupFleetResultOutput

> Note: This function is named LookupFleet in the Go SDK.

public static class GetFleet 
{
    public static Task<GetFleetResult> InvokeAsync(GetFleetArgs args, InvokeOptions? opts = null)
    public static Output<GetFleetResult> Invoke(GetFleetInvokeArgs args, InvokeOptions? opts = null)
}

public static CompletableFuture<GetFleetResult> getFleet(GetFleetArgs args, InvokeOptions options)
public static Output<GetFleetResult> getFleet(GetFleetArgs args, InvokeOptions options)

fn::invoke:
  function: aws-native:codebuild:getFleet
  arguments:
    # arguments dictionary

The following arguments are supported:

Arn string: The ARN of the compute fleet.

Arn string: The ARN of the compute fleet.

arn String: The ARN of the compute fleet.

arn string: The ARN of the compute fleet.

arn str: The ARN of the compute fleet.

arn String: The ARN of the compute fleet.

getFleet Result

The following output properties are available:

Arn string

The ARN of the compute fleet.

BaseCapacity int

The initial number of machines allocated to the compute ﬂeet, which deﬁnes the number of builds that can run in parallel.

ComputeConfiguration Pulumi.AwsNative.CodeBuild.Outputs.FleetComputeConfiguration

The compute configuration of the compute fleet. This is only required if computeType is set to ATTRIBUTE_BASED_COMPUTE .

ComputeType Pulumi.AwsNative.CodeBuild.FleetComputeType

Information about the compute resources the compute fleet uses. Available values include:

ATTRIBUTE_BASED_COMPUTE : Specify the amount of vCPUs, memory, disk space, and the type of machine.

If you use ATTRIBUTE_BASED_COMPUTE , you must define your attributes by using computeConfiguration . AWS CodeBuild will select the cheapest instance that satisfies your specified attributes. For more information, see Reserved capacity environment types in the AWS CodeBuild User Guide .

BUILD_GENERAL1_SMALL : Use up to 4 GiB memory and 2 vCPUs for builds.
BUILD_GENERAL1_MEDIUM : Use up to 8 GiB memory and 4 vCPUs for builds.
BUILD_GENERAL1_LARGE : Use up to 16 GiB memory and 8 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_XLARGE : Use up to 72 GiB memory and 36 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_2XLARGE : Use up to 144 GiB memory, 72 vCPUs, and 824 GB of SSD storage for builds. This compute type supports Docker images up to 100 GB uncompressed.
BUILD_LAMBDA_1GB : Use up to 1 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_2GB : Use up to 2 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_4GB : Use up to 4 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_8GB : Use up to 8 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_10GB : Use up to 10 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .

If you use BUILD_GENERAL1_SMALL :

For environment type LINUX_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 16 GiB memory, 4 vCPUs, and 1 NVIDIA A10G Tensor Core GPU for builds.
For environment type ARM_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs on ARM-based processors for builds.

If you use BUILD_GENERAL1_LARGE :

For environment type LINUX_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 255 GiB memory, 32 vCPUs, and 4 NVIDIA Tesla V100 GPUs for builds.
For environment type ARM_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs on ARM-based processors for builds.

For more information, see On-demand environment types in the AWS CodeBuild User Guide.

EnvironmentType Pulumi.AwsNative.CodeBuild.FleetEnvironmentType

The environment type of the compute fleet.

The environment type ARM_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), Asia Pacific (Mumbai), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), EU (Frankfurt), and South America (São Paulo).
The environment type ARM_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_GPU_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), and Asia Pacific (Sydney).
The environment type MAC_ARM is available only in regions US East (Ohio), US East (N. Virginia), US West (Oregon), Europe (Frankfurt), and Asia Pacific (Sydney).
The environment type WINDOWS_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type WINDOWS_SERVER_2019_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), Asia Pacific (Sydney), Asia Pacific (Tokyo), Asia Pacific (Mumbai) and EU (Ireland).
The environment type WINDOWS_SERVER_2022_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Sydney), Asia Pacific (Singapore), Asia Pacific (Tokyo), South America (São Paulo) and Asia Pacific (Mumbai).

For more information, see Build environment compute types in the AWS CodeBuild user guide .

FleetProxyConfiguration Pulumi.AwsNative.CodeBuild.Outputs.FleetProxyConfiguration

Information about the proxy configurations that apply network access control to your reserved capacity instances.

FleetServiceRole string

The service role associated with the compute fleet. For more information, see Allow a user to add a permission policy for a fleet service role in the AWS CodeBuild User Guide .

FleetVpcConfig Pulumi.AwsNative.CodeBuild.Outputs.FleetVpcConfig

Information about the VPC configuration that AWS CodeBuild accesses.

ImageId string

The Amazon Machine Image (AMI) of the compute fleet.

Name string

The name of the compute fleet.

OverflowBehavior Pulumi.AwsNative.CodeBuild.FleetOverflowBehavior

The compute fleet overflow behavior.

For overflow behavior QUEUE , your overflow builds need to wait on the existing fleet instance to become available.
For overflow behavior ON_DEMAND , your overflow builds run on CodeBuild on-demand.

If you choose to set your overflow behavior to on-demand while creating a VPC-connected fleet, make sure that you add the required VPC permissions to your project service role. For more information, see Example policy statement to allow CodeBuild access to AWS services required to create a VPC network interface .

ScalingConfiguration Pulumi.AwsNative.CodeBuild.Outputs.FleetScalingConfigurationInput

The scaling configuration of the compute fleet.

Tags List<Pulumi.AwsNative.Outputs.Tag>

A list of tag key and value pairs associated with this compute fleet.

These tags are available for use by AWS services that support AWS CodeBuild compute fleet tags.

Arn string

The ARN of the compute fleet.

BaseCapacity int

The initial number of machines allocated to the compute ﬂeet, which deﬁnes the number of builds that can run in parallel.

ComputeConfiguration FleetComputeConfiguration

The compute configuration of the compute fleet. This is only required if computeType is set to ATTRIBUTE_BASED_COMPUTE .

ComputeType FleetComputeType

Information about the compute resources the compute fleet uses. Available values include:

ATTRIBUTE_BASED_COMPUTE : Specify the amount of vCPUs, memory, disk space, and the type of machine.

If you use ATTRIBUTE_BASED_COMPUTE , you must define your attributes by using computeConfiguration . AWS CodeBuild will select the cheapest instance that satisfies your specified attributes. For more information, see Reserved capacity environment types in the AWS CodeBuild User Guide .

BUILD_GENERAL1_SMALL : Use up to 4 GiB memory and 2 vCPUs for builds.
BUILD_GENERAL1_MEDIUM : Use up to 8 GiB memory and 4 vCPUs for builds.
BUILD_GENERAL1_LARGE : Use up to 16 GiB memory and 8 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_XLARGE : Use up to 72 GiB memory and 36 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_2XLARGE : Use up to 144 GiB memory, 72 vCPUs, and 824 GB of SSD storage for builds. This compute type supports Docker images up to 100 GB uncompressed.
BUILD_LAMBDA_1GB : Use up to 1 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_2GB : Use up to 2 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_4GB : Use up to 4 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_8GB : Use up to 8 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_10GB : Use up to 10 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .

If you use BUILD_GENERAL1_SMALL :

For environment type LINUX_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 16 GiB memory, 4 vCPUs, and 1 NVIDIA A10G Tensor Core GPU for builds.
For environment type ARM_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs on ARM-based processors for builds.

If you use BUILD_GENERAL1_LARGE :

For environment type LINUX_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 255 GiB memory, 32 vCPUs, and 4 NVIDIA Tesla V100 GPUs for builds.
For environment type ARM_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs on ARM-based processors for builds.

For more information, see On-demand environment types in the AWS CodeBuild User Guide.

EnvironmentType FleetEnvironmentType

The environment type of the compute fleet.

The environment type ARM_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), Asia Pacific (Mumbai), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), EU (Frankfurt), and South America (São Paulo).
The environment type ARM_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_GPU_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), and Asia Pacific (Sydney).
The environment type MAC_ARM is available only in regions US East (Ohio), US East (N. Virginia), US West (Oregon), Europe (Frankfurt), and Asia Pacific (Sydney).
The environment type WINDOWS_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type WINDOWS_SERVER_2019_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), Asia Pacific (Sydney), Asia Pacific (Tokyo), Asia Pacific (Mumbai) and EU (Ireland).
The environment type WINDOWS_SERVER_2022_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Sydney), Asia Pacific (Singapore), Asia Pacific (Tokyo), South America (São Paulo) and Asia Pacific (Mumbai).

For more information, see Build environment compute types in the AWS CodeBuild user guide .

FleetProxyConfiguration FleetProxyConfiguration

Information about the proxy configurations that apply network access control to your reserved capacity instances.

FleetServiceRole string

The service role associated with the compute fleet. For more information, see Allow a user to add a permission policy for a fleet service role in the AWS CodeBuild User Guide .

FleetVpcConfig FleetVpcConfig

Information about the VPC configuration that AWS CodeBuild accesses.

ImageId string

The Amazon Machine Image (AMI) of the compute fleet.

Name string

The name of the compute fleet.

OverflowBehavior FleetOverflowBehavior

The compute fleet overflow behavior.

For overflow behavior QUEUE , your overflow builds need to wait on the existing fleet instance to become available.
For overflow behavior ON_DEMAND , your overflow builds run on CodeBuild on-demand.

If you choose to set your overflow behavior to on-demand while creating a VPC-connected fleet, make sure that you add the required VPC permissions to your project service role. For more information, see Example policy statement to allow CodeBuild access to AWS services required to create a VPC network interface .

ScalingConfiguration FleetScalingConfigurationInput

The scaling configuration of the compute fleet.

Tags Tag

A list of tag key and value pairs associated with this compute fleet.

These tags are available for use by AWS services that support AWS CodeBuild compute fleet tags.

arn String

The ARN of the compute fleet.

baseCapacity Integer

The initial number of machines allocated to the compute ﬂeet, which deﬁnes the number of builds that can run in parallel.

computeConfiguration FleetComputeConfiguration

The compute configuration of the compute fleet. This is only required if computeType is set to ATTRIBUTE_BASED_COMPUTE .

computeType FleetComputeType

Information about the compute resources the compute fleet uses. Available values include:

ATTRIBUTE_BASED_COMPUTE : Specify the amount of vCPUs, memory, disk space, and the type of machine.

If you use ATTRIBUTE_BASED_COMPUTE , you must define your attributes by using computeConfiguration . AWS CodeBuild will select the cheapest instance that satisfies your specified attributes. For more information, see Reserved capacity environment types in the AWS CodeBuild User Guide .

BUILD_GENERAL1_SMALL : Use up to 4 GiB memory and 2 vCPUs for builds.
BUILD_GENERAL1_MEDIUM : Use up to 8 GiB memory and 4 vCPUs for builds.
BUILD_GENERAL1_LARGE : Use up to 16 GiB memory and 8 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_XLARGE : Use up to 72 GiB memory and 36 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_2XLARGE : Use up to 144 GiB memory, 72 vCPUs, and 824 GB of SSD storage for builds. This compute type supports Docker images up to 100 GB uncompressed.
BUILD_LAMBDA_1GB : Use up to 1 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_2GB : Use up to 2 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_4GB : Use up to 4 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_8GB : Use up to 8 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_10GB : Use up to 10 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .

If you use BUILD_GENERAL1_SMALL :

For environment type LINUX_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 16 GiB memory, 4 vCPUs, and 1 NVIDIA A10G Tensor Core GPU for builds.
For environment type ARM_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs on ARM-based processors for builds.

If you use BUILD_GENERAL1_LARGE :

For environment type LINUX_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 255 GiB memory, 32 vCPUs, and 4 NVIDIA Tesla V100 GPUs for builds.
For environment type ARM_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs on ARM-based processors for builds.

For more information, see On-demand environment types in the AWS CodeBuild User Guide.

environmentType FleetEnvironmentType

The environment type of the compute fleet.

The environment type ARM_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), Asia Pacific (Mumbai), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), EU (Frankfurt), and South America (São Paulo).
The environment type ARM_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_GPU_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), and Asia Pacific (Sydney).
The environment type MAC_ARM is available only in regions US East (Ohio), US East (N. Virginia), US West (Oregon), Europe (Frankfurt), and Asia Pacific (Sydney).
The environment type WINDOWS_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type WINDOWS_SERVER_2019_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), Asia Pacific (Sydney), Asia Pacific (Tokyo), Asia Pacific (Mumbai) and EU (Ireland).
The environment type WINDOWS_SERVER_2022_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Sydney), Asia Pacific (Singapore), Asia Pacific (Tokyo), South America (São Paulo) and Asia Pacific (Mumbai).

For more information, see Build environment compute types in the AWS CodeBuild user guide .

fleetProxyConfiguration FleetProxyConfiguration

Information about the proxy configurations that apply network access control to your reserved capacity instances.

fleetServiceRole String

The service role associated with the compute fleet. For more information, see Allow a user to add a permission policy for a fleet service role in the AWS CodeBuild User Guide .

fleetVpcConfig FleetVpcConfig

Information about the VPC configuration that AWS CodeBuild accesses.

imageId String

The Amazon Machine Image (AMI) of the compute fleet.

name String

The name of the compute fleet.

overflowBehavior FleetOverflowBehavior

The compute fleet overflow behavior.

For overflow behavior QUEUE , your overflow builds need to wait on the existing fleet instance to become available.
For overflow behavior ON_DEMAND , your overflow builds run on CodeBuild on-demand.

If you choose to set your overflow behavior to on-demand while creating a VPC-connected fleet, make sure that you add the required VPC permissions to your project service role. For more information, see Example policy statement to allow CodeBuild access to AWS services required to create a VPC network interface .

scalingConfiguration FleetScalingConfigurationInput

The scaling configuration of the compute fleet.

tags List<Tag>

A list of tag key and value pairs associated with this compute fleet.

These tags are available for use by AWS services that support AWS CodeBuild compute fleet tags.

arn string

The ARN of the compute fleet.

baseCapacity number

The initial number of machines allocated to the compute ﬂeet, which deﬁnes the number of builds that can run in parallel.

computeConfiguration FleetComputeConfiguration

The compute configuration of the compute fleet. This is only required if computeType is set to ATTRIBUTE_BASED_COMPUTE .

computeType FleetComputeType

Information about the compute resources the compute fleet uses. Available values include:

ATTRIBUTE_BASED_COMPUTE : Specify the amount of vCPUs, memory, disk space, and the type of machine.

If you use ATTRIBUTE_BASED_COMPUTE , you must define your attributes by using computeConfiguration . AWS CodeBuild will select the cheapest instance that satisfies your specified attributes. For more information, see Reserved capacity environment types in the AWS CodeBuild User Guide .

BUILD_GENERAL1_SMALL : Use up to 4 GiB memory and 2 vCPUs for builds.
BUILD_GENERAL1_MEDIUM : Use up to 8 GiB memory and 4 vCPUs for builds.
BUILD_GENERAL1_LARGE : Use up to 16 GiB memory and 8 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_XLARGE : Use up to 72 GiB memory and 36 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_2XLARGE : Use up to 144 GiB memory, 72 vCPUs, and 824 GB of SSD storage for builds. This compute type supports Docker images up to 100 GB uncompressed.
BUILD_LAMBDA_1GB : Use up to 1 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_2GB : Use up to 2 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_4GB : Use up to 4 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_8GB : Use up to 8 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_10GB : Use up to 10 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .

If you use BUILD_GENERAL1_SMALL :

For environment type LINUX_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 16 GiB memory, 4 vCPUs, and 1 NVIDIA A10G Tensor Core GPU for builds.
For environment type ARM_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs on ARM-based processors for builds.

If you use BUILD_GENERAL1_LARGE :

For environment type LINUX_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 255 GiB memory, 32 vCPUs, and 4 NVIDIA Tesla V100 GPUs for builds.
For environment type ARM_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs on ARM-based processors for builds.

For more information, see On-demand environment types in the AWS CodeBuild User Guide.

environmentType FleetEnvironmentType

The environment type of the compute fleet.

The environment type ARM_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), Asia Pacific (Mumbai), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), EU (Frankfurt), and South America (São Paulo).
The environment type ARM_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_GPU_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), and Asia Pacific (Sydney).
The environment type MAC_ARM is available only in regions US East (Ohio), US East (N. Virginia), US West (Oregon), Europe (Frankfurt), and Asia Pacific (Sydney).
The environment type WINDOWS_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type WINDOWS_SERVER_2019_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), Asia Pacific (Sydney), Asia Pacific (Tokyo), Asia Pacific (Mumbai) and EU (Ireland).
The environment type WINDOWS_SERVER_2022_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Sydney), Asia Pacific (Singapore), Asia Pacific (Tokyo), South America (São Paulo) and Asia Pacific (Mumbai).

For more information, see Build environment compute types in the AWS CodeBuild user guide .

fleetProxyConfiguration FleetProxyConfiguration

Information about the proxy configurations that apply network access control to your reserved capacity instances.

fleetServiceRole string

The service role associated with the compute fleet. For more information, see Allow a user to add a permission policy for a fleet service role in the AWS CodeBuild User Guide .

fleetVpcConfig FleetVpcConfig

Information about the VPC configuration that AWS CodeBuild accesses.

imageId string

The Amazon Machine Image (AMI) of the compute fleet.

name string

The name of the compute fleet.

overflowBehavior FleetOverflowBehavior

The compute fleet overflow behavior.

For overflow behavior QUEUE , your overflow builds need to wait on the existing fleet instance to become available.
For overflow behavior ON_DEMAND , your overflow builds run on CodeBuild on-demand.

If you choose to set your overflow behavior to on-demand while creating a VPC-connected fleet, make sure that you add the required VPC permissions to your project service role. For more information, see Example policy statement to allow CodeBuild access to AWS services required to create a VPC network interface .

scalingConfiguration FleetScalingConfigurationInput

The scaling configuration of the compute fleet.

tags Tag[]

A list of tag key and value pairs associated with this compute fleet.

These tags are available for use by AWS services that support AWS CodeBuild compute fleet tags.

arn str

The ARN of the compute fleet.

base_capacity int

The initial number of machines allocated to the compute ﬂeet, which deﬁnes the number of builds that can run in parallel.

compute_configuration FleetComputeConfiguration

The compute configuration of the compute fleet. This is only required if computeType is set to ATTRIBUTE_BASED_COMPUTE .

compute_type FleetComputeType

Information about the compute resources the compute fleet uses. Available values include:

ATTRIBUTE_BASED_COMPUTE : Specify the amount of vCPUs, memory, disk space, and the type of machine.

If you use ATTRIBUTE_BASED_COMPUTE , you must define your attributes by using computeConfiguration . AWS CodeBuild will select the cheapest instance that satisfies your specified attributes. For more information, see Reserved capacity environment types in the AWS CodeBuild User Guide .

BUILD_GENERAL1_SMALL : Use up to 4 GiB memory and 2 vCPUs for builds.
BUILD_GENERAL1_MEDIUM : Use up to 8 GiB memory and 4 vCPUs for builds.
BUILD_GENERAL1_LARGE : Use up to 16 GiB memory and 8 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_XLARGE : Use up to 72 GiB memory and 36 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_2XLARGE : Use up to 144 GiB memory, 72 vCPUs, and 824 GB of SSD storage for builds. This compute type supports Docker images up to 100 GB uncompressed.
BUILD_LAMBDA_1GB : Use up to 1 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_2GB : Use up to 2 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_4GB : Use up to 4 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_8GB : Use up to 8 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_10GB : Use up to 10 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .

If you use BUILD_GENERAL1_SMALL :

For environment type LINUX_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 16 GiB memory, 4 vCPUs, and 1 NVIDIA A10G Tensor Core GPU for builds.
For environment type ARM_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs on ARM-based processors for builds.

If you use BUILD_GENERAL1_LARGE :

For environment type LINUX_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 255 GiB memory, 32 vCPUs, and 4 NVIDIA Tesla V100 GPUs for builds.
For environment type ARM_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs on ARM-based processors for builds.

For more information, see On-demand environment types in the AWS CodeBuild User Guide.

environment_type FleetEnvironmentType

The environment type of the compute fleet.

The environment type ARM_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), Asia Pacific (Mumbai), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), EU (Frankfurt), and South America (São Paulo).
The environment type ARM_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_GPU_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), and Asia Pacific (Sydney).
The environment type MAC_ARM is available only in regions US East (Ohio), US East (N. Virginia), US West (Oregon), Europe (Frankfurt), and Asia Pacific (Sydney).
The environment type WINDOWS_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type WINDOWS_SERVER_2019_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), Asia Pacific (Sydney), Asia Pacific (Tokyo), Asia Pacific (Mumbai) and EU (Ireland).
The environment type WINDOWS_SERVER_2022_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Sydney), Asia Pacific (Singapore), Asia Pacific (Tokyo), South America (São Paulo) and Asia Pacific (Mumbai).

For more information, see Build environment compute types in the AWS CodeBuild user guide .

fleet_proxy_configuration FleetProxyConfiguration

Information about the proxy configurations that apply network access control to your reserved capacity instances.

fleet_service_role str

The service role associated with the compute fleet. For more information, see Allow a user to add a permission policy for a fleet service role in the AWS CodeBuild User Guide .

fleet_vpc_config FleetVpcConfig

Information about the VPC configuration that AWS CodeBuild accesses.

image_id str

The Amazon Machine Image (AMI) of the compute fleet.

name str

The name of the compute fleet.

overflow_behavior FleetOverflowBehavior

The compute fleet overflow behavior.

For overflow behavior QUEUE , your overflow builds need to wait on the existing fleet instance to become available.
For overflow behavior ON_DEMAND , your overflow builds run on CodeBuild on-demand.

If you choose to set your overflow behavior to on-demand while creating a VPC-connected fleet, make sure that you add the required VPC permissions to your project service role. For more information, see Example policy statement to allow CodeBuild access to AWS services required to create a VPC network interface .

scaling_configuration FleetScalingConfigurationInput

The scaling configuration of the compute fleet.

tags Sequence[root_Tag]

A list of tag key and value pairs associated with this compute fleet.

These tags are available for use by AWS services that support AWS CodeBuild compute fleet tags.

arn String

The ARN of the compute fleet.

baseCapacity Number

The initial number of machines allocated to the compute ﬂeet, which deﬁnes the number of builds that can run in parallel.

computeConfiguration Property Map

The compute configuration of the compute fleet. This is only required if computeType is set to ATTRIBUTE_BASED_COMPUTE .

Information about the compute resources the compute fleet uses. Available values include:

ATTRIBUTE_BASED_COMPUTE : Specify the amount of vCPUs, memory, disk space, and the type of machine.

If you use ATTRIBUTE_BASED_COMPUTE , you must define your attributes by using computeConfiguration . AWS CodeBuild will select the cheapest instance that satisfies your specified attributes. For more information, see Reserved capacity environment types in the AWS CodeBuild User Guide .

BUILD_GENERAL1_SMALL : Use up to 4 GiB memory and 2 vCPUs for builds.
BUILD_GENERAL1_MEDIUM : Use up to 8 GiB memory and 4 vCPUs for builds.
BUILD_GENERAL1_LARGE : Use up to 16 GiB memory and 8 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_XLARGE : Use up to 72 GiB memory and 36 vCPUs for builds, depending on your environment type.
BUILD_GENERAL1_2XLARGE : Use up to 144 GiB memory, 72 vCPUs, and 824 GB of SSD storage for builds. This compute type supports Docker images up to 100 GB uncompressed.
BUILD_LAMBDA_1GB : Use up to 1 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_2GB : Use up to 2 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_4GB : Use up to 4 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_8GB : Use up to 8 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .
BUILD_LAMBDA_10GB : Use up to 10 GiB memory for builds. Only available for environment type LINUX_LAMBDA_CONTAINER and ARM_LAMBDA_CONTAINER .

If you use BUILD_GENERAL1_SMALL :

For environment type LINUX_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 16 GiB memory, 4 vCPUs, and 1 NVIDIA A10G Tensor Core GPU for builds.
For environment type ARM_CONTAINER , you can use up to 4 GiB memory and 2 vCPUs on ARM-based processors for builds.

If you use BUILD_GENERAL1_LARGE :

For environment type LINUX_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs for builds.
For environment type LINUX_GPU_CONTAINER , you can use up to 255 GiB memory, 32 vCPUs, and 4 NVIDIA Tesla V100 GPUs for builds.
For environment type ARM_CONTAINER , you can use up to 16 GiB memory and 8 vCPUs on ARM-based processors for builds.

For more information, see On-demand environment types in the AWS CodeBuild User Guide.

The environment type of the compute fleet.

The environment type ARM_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), Asia Pacific (Mumbai), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), EU (Frankfurt), and South America (São Paulo).
The environment type ARM_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type LINUX_GPU_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), and Asia Pacific (Sydney).
The environment type MAC_ARM is available only in regions US East (Ohio), US East (N. Virginia), US West (Oregon), Europe (Frankfurt), and Asia Pacific (Sydney).
The environment type WINDOWS_EC2 is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Tokyo), Asia Pacific (Singapore), Asia Pacific (Sydney), South America (São Paulo), and Asia Pacific (Mumbai).
The environment type WINDOWS_SERVER_2019_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), Asia Pacific (Sydney), Asia Pacific (Tokyo), Asia Pacific (Mumbai) and EU (Ireland).
The environment type WINDOWS_SERVER_2022_CONTAINER is available only in regions US East (N. Virginia), US East (Ohio), US West (Oregon), EU (Ireland), EU (Frankfurt), Asia Pacific (Sydney), Asia Pacific (Singapore), Asia Pacific (Tokyo), South America (São Paulo) and Asia Pacific (Mumbai).

For more information, see Build environment compute types in the AWS CodeBuild user guide .

fleetProxyConfiguration Property Map

Information about the proxy configurations that apply network access control to your reserved capacity instances.

fleetServiceRole String

The service role associated with the compute fleet. For more information, see Allow a user to add a permission policy for a fleet service role in the AWS CodeBuild User Guide .

fleetVpcConfig Property Map

Information about the VPC configuration that AWS CodeBuild accesses.

imageId String

The Amazon Machine Image (AMI) of the compute fleet.

name String

The name of the compute fleet.

overflowBehavior "QUEUE" | "ON_DEMAND"

The compute fleet overflow behavior.

For overflow behavior QUEUE , your overflow builds need to wait on the existing fleet instance to become available.
For overflow behavior ON_DEMAND , your overflow builds run on CodeBuild on-demand.

If you choose to set your overflow behavior to on-demand while creating a VPC-connected fleet, make sure that you add the required VPC permissions to your project service role. For more information, see Example policy statement to allow CodeBuild access to AWS services required to create a VPC network interface .

scalingConfiguration Property Map

The scaling configuration of the compute fleet.

tags List<Property Map>

A list of tag key and value pairs associated with this compute fleet.

These tags are available for use by AWS services that support AWS CodeBuild compute fleet tags.

Supporting Types

FleetComputeConfiguration

Disk int: The amount of disk space of the instance type included in your fleet.
MachineType Pulumi.AwsNative.CodeBuild.FleetComputeConfigurationmachineType: The machine type of the instance type included in your fleet.
Memory int: The amount of memory of the instance type included in your fleet.
VCpu int: The number of vCPUs of the instance type included in your fleet.

Disk int: The amount of disk space of the instance type included in your fleet.
MachineType FleetComputeConfigurationmachineType: The machine type of the instance type included in your fleet.
Memory int: The amount of memory of the instance type included in your fleet.
VCpu int: The number of vCPUs of the instance type included in your fleet.

disk Integer: The amount of disk space of the instance type included in your fleet.
machineType FleetComputeConfigurationmachineType: The machine type of the instance type included in your fleet.
memory Integer: The amount of memory of the instance type included in your fleet.
vCpu Integer: The number of vCPUs of the instance type included in your fleet.

disk number: The amount of disk space of the instance type included in your fleet.
machineType FleetComputeConfigurationmachineType: The machine type of the instance type included in your fleet.
memory number: The amount of memory of the instance type included in your fleet.
vCpu number: The number of vCPUs of the instance type included in your fleet.

disk int: The amount of disk space of the instance type included in your fleet.
machine_type FleetComputeConfigurationmachineType: The machine type of the instance type included in your fleet.
memory int: The amount of memory of the instance type included in your fleet.
v_cpu int: The number of vCPUs of the instance type included in your fleet.

disk Number: The amount of disk space of the instance type included in your fleet.
machineType "GENERAL" | "NVME": The machine type of the instance type included in your fleet.
memory Number: The amount of memory of the instance type included in your fleet.
vCpu Number: The number of vCPUs of the instance type included in your fleet.

FleetComputeConfigurationmachineType

FleetComputeType

FleetEnvironmentType

FleetOverflowBehavior

FleetProxyConfiguration

DefaultBehavior Pulumi.AwsNative.CodeBuild.FleetProxyConfigurationDefaultBehavior: The default behavior of outgoing traffic.
OrderedProxyRules List<Pulumi.AwsNative.CodeBuild.Inputs.FleetProxyRule>: An array of FleetProxyRule objects that represent the specified destination domains or IPs to allow or deny network access control to.

DefaultBehavior FleetProxyConfigurationDefaultBehavior: The default behavior of outgoing traffic.
OrderedProxyRules []FleetProxyRule: An array of FleetProxyRule objects that represent the specified destination domains or IPs to allow or deny network access control to.

defaultBehavior FleetProxyConfigurationDefaultBehavior: The default behavior of outgoing traffic.
orderedProxyRules List<FleetProxyRule>: An array of FleetProxyRule objects that represent the specified destination domains or IPs to allow or deny network access control to.

defaultBehavior FleetProxyConfigurationDefaultBehavior: The default behavior of outgoing traffic.
orderedProxyRules FleetProxyRule[]: An array of FleetProxyRule objects that represent the specified destination domains or IPs to allow or deny network access control to.

default_behavior FleetProxyConfigurationDefaultBehavior: The default behavior of outgoing traffic.
ordered_proxy_rules Sequence[FleetProxyRule]: An array of FleetProxyRule objects that represent the specified destination domains or IPs to allow or deny network access control to.

defaultBehavior "ALLOW_ALL" | "DENY_ALL": The default behavior of outgoing traffic.
orderedProxyRules List<Property Map>: An array of FleetProxyRule objects that represent the specified destination domains or IPs to allow or deny network access control to.

FleetProxyConfigurationDefaultBehavior

FleetProxyRule

Effect Pulumi.AwsNative.CodeBuild.FleetProxyRuleEffect: The behavior of the proxy rule.
Entities List<string>: The destination of the proxy rule.
Type Pulumi.AwsNative.CodeBuild.FleetProxyRuleType: The type of proxy rule.

Effect FleetProxyRuleEffect: The behavior of the proxy rule.
Entities []string: The destination of the proxy rule.
Type FleetProxyRuleType: The type of proxy rule.

effect FleetProxyRuleEffect: The behavior of the proxy rule.
entities List<String>: The destination of the proxy rule.
type FleetProxyRuleType: The type of proxy rule.

effect FleetProxyRuleEffect: The behavior of the proxy rule.
entities string[]: The destination of the proxy rule.
type FleetProxyRuleType: The type of proxy rule.

effect FleetProxyRuleEffect: The behavior of the proxy rule.
entities Sequence[str]: The destination of the proxy rule.
type FleetProxyRuleType: The type of proxy rule.

effect "ALLOW" | "DENY": The behavior of the proxy rule.
entities List<String>: The destination of the proxy rule.
type "DOMAIN" | "IP": The type of proxy rule.

FleetProxyRuleEffect

FleetProxyRuleType

FleetScalingConfigurationInput

MaxCapacity int: The maximum number of instances in the ﬂeet when auto-scaling.
ScalingType Pulumi.AwsNative.CodeBuild.FleetScalingConfigurationInputScalingType: The scaling type for a compute fleet.
TargetTrackingScalingConfigs List<Pulumi.AwsNative.CodeBuild.Inputs.FleetTargetTrackingScalingConfiguration>: A list of TargetTrackingScalingConfiguration objects.

MaxCapacity int: The maximum number of instances in the ﬂeet when auto-scaling.
ScalingType FleetScalingConfigurationInputScalingType: The scaling type for a compute fleet.
TargetTrackingScalingConfigs []FleetTargetTrackingScalingConfiguration: A list of TargetTrackingScalingConfiguration objects.

maxCapacity Integer: The maximum number of instances in the ﬂeet when auto-scaling.
scalingType FleetScalingConfigurationInputScalingType: The scaling type for a compute fleet.
targetTrackingScalingConfigs List<FleetTargetTrackingScalingConfiguration>: A list of TargetTrackingScalingConfiguration objects.

maxCapacity number: The maximum number of instances in the ﬂeet when auto-scaling.
scalingType FleetScalingConfigurationInputScalingType: The scaling type for a compute fleet.
targetTrackingScalingConfigs FleetTargetTrackingScalingConfiguration[]: A list of TargetTrackingScalingConfiguration objects.

max_capacity int: The maximum number of instances in the ﬂeet when auto-scaling.
scaling_type FleetScalingConfigurationInputScalingType: The scaling type for a compute fleet.
target_tracking_scaling_configs Sequence[FleetTargetTrackingScalingConfiguration]: A list of TargetTrackingScalingConfiguration objects.

maxCapacity Number: The maximum number of instances in the ﬂeet when auto-scaling.
scalingType "TARGET_TRACKING_SCALING": The scaling type for a compute fleet.
targetTrackingScalingConfigs List<Property Map>: A list of TargetTrackingScalingConfiguration objects.

FleetScalingConfigurationInputScalingType

FleetTargetTrackingScalingConfiguration

MetricType Pulumi.AwsNative.CodeBuild.FleetTargetTrackingScalingConfigurationMetricType: The metric type to determine auto-scaling.
TargetValue double: The value of metricType when to start scaling.

MetricType FleetTargetTrackingScalingConfigurationMetricType: The metric type to determine auto-scaling.
TargetValue float64: The value of metricType when to start scaling.

metricType FleetTargetTrackingScalingConfigurationMetricType: The metric type to determine auto-scaling.
targetValue Double: The value of metricType when to start scaling.

metricType FleetTargetTrackingScalingConfigurationMetricType: The metric type to determine auto-scaling.
targetValue number: The value of metricType when to start scaling.

metric_type FleetTargetTrackingScalingConfigurationMetricType: The metric type to determine auto-scaling.
target_value float: The value of metricType when to start scaling.

metricType "FLEET_UTILIZATION_RATE": The metric type to determine auto-scaling.
targetValue Number: The value of metricType when to start scaling.

FleetTargetTrackingScalingConfigurationMetricType

FleetVpcConfig

SecurityGroupIds List<string>: A list of one or more security groups IDs in your Amazon VPC.
Subnets List<string>: A list of one or more subnet IDs in your Amazon VPC.
VpcId string: The ID of the Amazon VPC.

SecurityGroupIds []string: A list of one or more security groups IDs in your Amazon VPC.
Subnets []string: A list of one or more subnet IDs in your Amazon VPC.
VpcId string: The ID of the Amazon VPC.

securityGroupIds List<String>: A list of one or more security groups IDs in your Amazon VPC.
subnets List<String>: A list of one or more subnet IDs in your Amazon VPC.
vpcId String: The ID of the Amazon VPC.

securityGroupIds string[]: A list of one or more security groups IDs in your Amazon VPC.
subnets string[]: A list of one or more subnet IDs in your Amazon VPC.
vpcId string: The ID of the Amazon VPC.

security_group_ids Sequence[str]: A list of one or more security groups IDs in your Amazon VPC.
subnets Sequence[str]: A list of one or more subnet IDs in your Amazon VPC.
vpc_id str: The ID of the Amazon VPC.

securityGroupIds List<String>: A list of one or more security groups IDs in your Amazon VPC.
subnets List<String>: A list of one or more subnet IDs in your Amazon VPC.
vpcId String: The ID of the Amazon VPC.

Package Details

Repository: AWS Native pulumi/pulumi-aws-native
License: Apache-2.0

We recommend new projects start with resources from the AWS provider.

AWS Cloud Control v1.26.0 published on Wednesday, Mar 12, 2025 by Pulumi

pulumi/pulumi-aws-native

aws-native.codebuild.getFleet

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Using getFleet

getFleet Result

Supporting Types

FleetComputeConfiguration

FleetComputeConfigurationmachineType

FleetComputeType

FleetEnvironmentType

FleetOverflowBehavior

FleetProxyConfiguration

FleetProxyConfigurationDefaultBehavior

FleetProxyRule

FleetProxyRuleEffect

FleetProxyRuleType

FleetScalingConfigurationInput

FleetScalingConfigurationInputScalingType

FleetTargetTrackingScalingConfiguration

FleetTargetTrackingScalingConfigurationMetricType

FleetVpcConfig

Tag

Package Details

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