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google-native.compute/v1.RegionAutoscaler
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Google Cloud Native is in preview. Google Cloud Classic is fully supported.
Creates an autoscaler in the specified project using the data included in the request.
Create RegionAutoscaler Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new RegionAutoscaler(name: string, args: RegionAutoscalerArgs, opts?: CustomResourceOptions);
@overload
def RegionAutoscaler(resource_name: str,
args: RegionAutoscalerArgs,
opts: Optional[ResourceOptions] = None)
@overload
def RegionAutoscaler(resource_name: str,
opts: Optional[ResourceOptions] = None,
region: Optional[str] = None,
autoscaling_policy: Optional[AutoscalingPolicyArgs] = None,
description: Optional[str] = None,
name: Optional[str] = None,
project: Optional[str] = None,
request_id: Optional[str] = None,
target: Optional[str] = None)
func NewRegionAutoscaler(ctx *Context, name string, args RegionAutoscalerArgs, opts ...ResourceOption) (*RegionAutoscaler, error)
public RegionAutoscaler(string name, RegionAutoscalerArgs args, CustomResourceOptions? opts = null)
public RegionAutoscaler(String name, RegionAutoscalerArgs args)
public RegionAutoscaler(String name, RegionAutoscalerArgs args, CustomResourceOptions options)
type: google-native:compute/v1:RegionAutoscaler
properties: # The arguments to resource properties.
options: # Bag of options to control resource's behavior.
Parameters
- name string
- The unique name of the resource.
- args RegionAutoscalerArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- resource_name str
- The unique name of the resource.
- args RegionAutoscalerArgs
- The arguments to resource properties.
- opts ResourceOptions
- Bag of options to control resource's behavior.
- ctx Context
- Context object for the current deployment.
- name string
- The unique name of the resource.
- args RegionAutoscalerArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args RegionAutoscalerArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args RegionAutoscalerArgs
- The arguments to resource properties.
- options CustomResourceOptions
- Bag of options to control resource's behavior.
Constructor example
The following reference example uses placeholder values for all input properties.
var exampleregionAutoscalerResourceResourceFromComputev1 = new GoogleNative.Compute.V1.RegionAutoscaler("exampleregionAutoscalerResourceResourceFromComputev1", new()
{
Region = "string",
AutoscalingPolicy = new GoogleNative.Compute.V1.Inputs.AutoscalingPolicyArgs
{
CoolDownPeriodSec = 0,
CpuUtilization = new GoogleNative.Compute.V1.Inputs.AutoscalingPolicyCpuUtilizationArgs
{
PredictiveMethod = GoogleNative.Compute.V1.AutoscalingPolicyCpuUtilizationPredictiveMethod.None,
UtilizationTarget = 0,
},
CustomMetricUtilizations = new[]
{
new GoogleNative.Compute.V1.Inputs.AutoscalingPolicyCustomMetricUtilizationArgs
{
Filter = "string",
Metric = "string",
SingleInstanceAssignment = 0,
UtilizationTarget = 0,
UtilizationTargetType = GoogleNative.Compute.V1.AutoscalingPolicyCustomMetricUtilizationUtilizationTargetType.DeltaPerMinute,
},
},
LoadBalancingUtilization = new GoogleNative.Compute.V1.Inputs.AutoscalingPolicyLoadBalancingUtilizationArgs
{
UtilizationTarget = 0,
},
MaxNumReplicas = 0,
MinNumReplicas = 0,
Mode = GoogleNative.Compute.V1.AutoscalingPolicyMode.Off,
ScaleInControl = new GoogleNative.Compute.V1.Inputs.AutoscalingPolicyScaleInControlArgs
{
MaxScaledInReplicas = new GoogleNative.Compute.V1.Inputs.FixedOrPercentArgs
{
Fixed = 0,
Percent = 0,
},
TimeWindowSec = 0,
},
ScalingSchedules =
{
{ "string", "string" },
},
},
Description = "string",
Name = "string",
Project = "string",
RequestId = "string",
Target = "string",
});
example, err := computev1.NewRegionAutoscaler(ctx, "exampleregionAutoscalerResourceResourceFromComputev1", &computev1.RegionAutoscalerArgs{
Region: pulumi.String("string"),
AutoscalingPolicy: &compute.AutoscalingPolicyArgs{
CoolDownPeriodSec: pulumi.Int(0),
CpuUtilization: &compute.AutoscalingPolicyCpuUtilizationArgs{
PredictiveMethod: computev1.AutoscalingPolicyCpuUtilizationPredictiveMethodNone,
UtilizationTarget: pulumi.Float64(0),
},
CustomMetricUtilizations: compute.AutoscalingPolicyCustomMetricUtilizationArray{
&compute.AutoscalingPolicyCustomMetricUtilizationArgs{
Filter: pulumi.String("string"),
Metric: pulumi.String("string"),
SingleInstanceAssignment: pulumi.Float64(0),
UtilizationTarget: pulumi.Float64(0),
UtilizationTargetType: computev1.AutoscalingPolicyCustomMetricUtilizationUtilizationTargetTypeDeltaPerMinute,
},
},
LoadBalancingUtilization: &compute.AutoscalingPolicyLoadBalancingUtilizationArgs{
UtilizationTarget: pulumi.Float64(0),
},
MaxNumReplicas: pulumi.Int(0),
MinNumReplicas: pulumi.Int(0),
Mode: computev1.AutoscalingPolicyModeOff,
ScaleInControl: &compute.AutoscalingPolicyScaleInControlArgs{
MaxScaledInReplicas: &compute.FixedOrPercentArgs{
Fixed: pulumi.Int(0),
Percent: pulumi.Int(0),
},
TimeWindowSec: pulumi.Int(0),
},
ScalingSchedules: pulumi.StringMap{
"string": pulumi.String("string"),
},
},
Description: pulumi.String("string"),
Name: pulumi.String("string"),
Project: pulumi.String("string"),
RequestId: pulumi.String("string"),
Target: pulumi.String("string"),
})
var exampleregionAutoscalerResourceResourceFromComputev1 = new RegionAutoscaler("exampleregionAutoscalerResourceResourceFromComputev1", RegionAutoscalerArgs.builder()
.region("string")
.autoscalingPolicy(AutoscalingPolicyArgs.builder()
.coolDownPeriodSec(0)
.cpuUtilization(AutoscalingPolicyCpuUtilizationArgs.builder()
.predictiveMethod("NONE")
.utilizationTarget(0)
.build())
.customMetricUtilizations(AutoscalingPolicyCustomMetricUtilizationArgs.builder()
.filter("string")
.metric("string")
.singleInstanceAssignment(0)
.utilizationTarget(0)
.utilizationTargetType("DELTA_PER_MINUTE")
.build())
.loadBalancingUtilization(AutoscalingPolicyLoadBalancingUtilizationArgs.builder()
.utilizationTarget(0)
.build())
.maxNumReplicas(0)
.minNumReplicas(0)
.mode("OFF")
.scaleInControl(AutoscalingPolicyScaleInControlArgs.builder()
.maxScaledInReplicas(FixedOrPercentArgs.builder()
.fixed(0)
.percent(0)
.build())
.timeWindowSec(0)
.build())
.scalingSchedules(Map.of("string", "string"))
.build())
.description("string")
.name("string")
.project("string")
.requestId("string")
.target("string")
.build());
exampleregion_autoscaler_resource_resource_from_computev1 = google_native.compute.v1.RegionAutoscaler("exampleregionAutoscalerResourceResourceFromComputev1",
region="string",
autoscaling_policy={
"cool_down_period_sec": 0,
"cpu_utilization": {
"predictive_method": google_native.compute.v1.AutoscalingPolicyCpuUtilizationPredictiveMethod.NONE,
"utilization_target": 0,
},
"custom_metric_utilizations": [{
"filter": "string",
"metric": "string",
"single_instance_assignment": 0,
"utilization_target": 0,
"utilization_target_type": google_native.compute.v1.AutoscalingPolicyCustomMetricUtilizationUtilizationTargetType.DELTA_PER_MINUTE,
}],
"load_balancing_utilization": {
"utilization_target": 0,
},
"max_num_replicas": 0,
"min_num_replicas": 0,
"mode": google_native.compute.v1.AutoscalingPolicyMode.OFF,
"scale_in_control": {
"max_scaled_in_replicas": {
"fixed": 0,
"percent": 0,
},
"time_window_sec": 0,
},
"scaling_schedules": {
"string": "string",
},
},
description="string",
name="string",
project="string",
request_id="string",
target="string")
const exampleregionAutoscalerResourceResourceFromComputev1 = new google_native.compute.v1.RegionAutoscaler("exampleregionAutoscalerResourceResourceFromComputev1", {
region: "string",
autoscalingPolicy: {
coolDownPeriodSec: 0,
cpuUtilization: {
predictiveMethod: google_native.compute.v1.AutoscalingPolicyCpuUtilizationPredictiveMethod.None,
utilizationTarget: 0,
},
customMetricUtilizations: [{
filter: "string",
metric: "string",
singleInstanceAssignment: 0,
utilizationTarget: 0,
utilizationTargetType: google_native.compute.v1.AutoscalingPolicyCustomMetricUtilizationUtilizationTargetType.DeltaPerMinute,
}],
loadBalancingUtilization: {
utilizationTarget: 0,
},
maxNumReplicas: 0,
minNumReplicas: 0,
mode: google_native.compute.v1.AutoscalingPolicyMode.Off,
scaleInControl: {
maxScaledInReplicas: {
fixed: 0,
percent: 0,
},
timeWindowSec: 0,
},
scalingSchedules: {
string: "string",
},
},
description: "string",
name: "string",
project: "string",
requestId: "string",
target: "string",
});
type: google-native:compute/v1:RegionAutoscaler
properties:
autoscalingPolicy:
coolDownPeriodSec: 0
cpuUtilization:
predictiveMethod: NONE
utilizationTarget: 0
customMetricUtilizations:
- filter: string
metric: string
singleInstanceAssignment: 0
utilizationTarget: 0
utilizationTargetType: DELTA_PER_MINUTE
loadBalancingUtilization:
utilizationTarget: 0
maxNumReplicas: 0
minNumReplicas: 0
mode: "OFF"
scaleInControl:
maxScaledInReplicas:
fixed: 0
percent: 0
timeWindowSec: 0
scalingSchedules:
string: string
description: string
name: string
project: string
region: string
requestId: string
target: string
RegionAutoscaler Resource Properties
To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.
Inputs
In Python, inputs that are objects can be passed either as argument classes or as dictionary literals.
The RegionAutoscaler resource accepts the following input properties:
- Region string
- Autoscaling
Policy Pulumi.Google Native. Compute. V1. Inputs. Autoscaling Policy - The configuration parameters for the autoscaling algorithm. You can define one or more signals for an autoscaler: cpuUtilization, customMetricUtilizations, and loadBalancingUtilization. If none of these are specified, the default will be to autoscale based on cpuUtilization to 0.6 or 60%.
- Description string
- An optional description of this resource. Provide this property when you create the resource.
- Name string
- Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression
[a-z]([-a-z0-9]*[a-z0-9])?
which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash. - Project string
- Request
Id string - An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
- Target string
- URL of the managed instance group that this autoscaler will scale. This field is required when creating an autoscaler.
- Region string
- Autoscaling
Policy AutoscalingPolicy Args - The configuration parameters for the autoscaling algorithm. You can define one or more signals for an autoscaler: cpuUtilization, customMetricUtilizations, and loadBalancingUtilization. If none of these are specified, the default will be to autoscale based on cpuUtilization to 0.6 or 60%.
- Description string
- An optional description of this resource. Provide this property when you create the resource.
- Name string
- Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression
[a-z]([-a-z0-9]*[a-z0-9])?
which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash. - Project string
- Request
Id string - An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
- Target string
- URL of the managed instance group that this autoscaler will scale. This field is required when creating an autoscaler.
- region String
- autoscaling
Policy AutoscalingPolicy - The configuration parameters for the autoscaling algorithm. You can define one or more signals for an autoscaler: cpuUtilization, customMetricUtilizations, and loadBalancingUtilization. If none of these are specified, the default will be to autoscale based on cpuUtilization to 0.6 or 60%.
- description String
- An optional description of this resource. Provide this property when you create the resource.
- name String
- Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression
[a-z]([-a-z0-9]*[a-z0-9])?
which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash. - project String
- request
Id String - An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
- target String
- URL of the managed instance group that this autoscaler will scale. This field is required when creating an autoscaler.
- region string
- autoscaling
Policy AutoscalingPolicy - The configuration parameters for the autoscaling algorithm. You can define one or more signals for an autoscaler: cpuUtilization, customMetricUtilizations, and loadBalancingUtilization. If none of these are specified, the default will be to autoscale based on cpuUtilization to 0.6 or 60%.
- description string
- An optional description of this resource. Provide this property when you create the resource.
- name string
- Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression
[a-z]([-a-z0-9]*[a-z0-9])?
which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash. - project string
- request
Id string - An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
- target string
- URL of the managed instance group that this autoscaler will scale. This field is required when creating an autoscaler.
- region str
- autoscaling_
policy AutoscalingPolicy Args - The configuration parameters for the autoscaling algorithm. You can define one or more signals for an autoscaler: cpuUtilization, customMetricUtilizations, and loadBalancingUtilization. If none of these are specified, the default will be to autoscale based on cpuUtilization to 0.6 or 60%.
- description str
- An optional description of this resource. Provide this property when you create the resource.
- name str
- Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression
[a-z]([-a-z0-9]*[a-z0-9])?
which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash. - project str
- request_
id str - An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
- target str
- URL of the managed instance group that this autoscaler will scale. This field is required when creating an autoscaler.
- region String
- autoscaling
Policy Property Map - The configuration parameters for the autoscaling algorithm. You can define one or more signals for an autoscaler: cpuUtilization, customMetricUtilizations, and loadBalancingUtilization. If none of these are specified, the default will be to autoscale based on cpuUtilization to 0.6 or 60%.
- description String
- An optional description of this resource. Provide this property when you create the resource.
- name String
- Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression
[a-z]([-a-z0-9]*[a-z0-9])?
which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash. - project String
- request
Id String - An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
- target String
- URL of the managed instance group that this autoscaler will scale. This field is required when creating an autoscaler.
Outputs
All input properties are implicitly available as output properties. Additionally, the RegionAutoscaler resource produces the following output properties:
- Creation
Timestamp string - Creation timestamp in RFC3339 text format.
- Id string
- The provider-assigned unique ID for this managed resource.
- Kind string
- Type of the resource. Always compute#autoscaler for autoscalers.
- Recommended
Size int - Target recommended MIG size (number of instances) computed by autoscaler. Autoscaler calculates the recommended MIG size even when the autoscaling policy mode is different from ON. This field is empty when autoscaler is not connected to an existing managed instance group or autoscaler did not generate its prediction.
- Scaling
Schedule Dictionary<string, string>Status - Status information of existing scaling schedules.
- Self
Link string - Server-defined URL for the resource.
- Status string
- The status of the autoscaler configuration. Current set of possible values: - PENDING: Autoscaler backend hasn't read new/updated configuration. - DELETING: Configuration is being deleted. - ACTIVE: Configuration is acknowledged to be effective. Some warnings might be present in the statusDetails field. - ERROR: Configuration has errors. Actionable for users. Details are present in the statusDetails field. New values might be added in the future.
- Status
Details List<Pulumi.Google Native. Compute. V1. Outputs. Autoscaler Status Details Response> - Human-readable details about the current state of the autoscaler. Read the documentation for Commonly returned status messages for examples of status messages you might encounter.
- Zone string
- URL of the zone where the instance group resides (for autoscalers living in zonal scope).
- Creation
Timestamp string - Creation timestamp in RFC3339 text format.
- Id string
- The provider-assigned unique ID for this managed resource.
- Kind string
- Type of the resource. Always compute#autoscaler for autoscalers.
- Recommended
Size int - Target recommended MIG size (number of instances) computed by autoscaler. Autoscaler calculates the recommended MIG size even when the autoscaling policy mode is different from ON. This field is empty when autoscaler is not connected to an existing managed instance group or autoscaler did not generate its prediction.
- Scaling
Schedule map[string]stringStatus - Status information of existing scaling schedules.
- Self
Link string - Server-defined URL for the resource.
- Status string
- The status of the autoscaler configuration. Current set of possible values: - PENDING: Autoscaler backend hasn't read new/updated configuration. - DELETING: Configuration is being deleted. - ACTIVE: Configuration is acknowledged to be effective. Some warnings might be present in the statusDetails field. - ERROR: Configuration has errors. Actionable for users. Details are present in the statusDetails field. New values might be added in the future.
- Status
Details []AutoscalerStatus Details Response - Human-readable details about the current state of the autoscaler. Read the documentation for Commonly returned status messages for examples of status messages you might encounter.
- Zone string
- URL of the zone where the instance group resides (for autoscalers living in zonal scope).
- creation
Timestamp String - Creation timestamp in RFC3339 text format.
- id String
- The provider-assigned unique ID for this managed resource.
- kind String
- Type of the resource. Always compute#autoscaler for autoscalers.
- recommended
Size Integer - Target recommended MIG size (number of instances) computed by autoscaler. Autoscaler calculates the recommended MIG size even when the autoscaling policy mode is different from ON. This field is empty when autoscaler is not connected to an existing managed instance group or autoscaler did not generate its prediction.
- scaling
Schedule Map<String,String>Status - Status information of existing scaling schedules.
- self
Link String - Server-defined URL for the resource.
- status String
- The status of the autoscaler configuration. Current set of possible values: - PENDING: Autoscaler backend hasn't read new/updated configuration. - DELETING: Configuration is being deleted. - ACTIVE: Configuration is acknowledged to be effective. Some warnings might be present in the statusDetails field. - ERROR: Configuration has errors. Actionable for users. Details are present in the statusDetails field. New values might be added in the future.
- status
Details List<AutoscalerStatus Details Response> - Human-readable details about the current state of the autoscaler. Read the documentation for Commonly returned status messages for examples of status messages you might encounter.
- zone String
- URL of the zone where the instance group resides (for autoscalers living in zonal scope).
- creation
Timestamp string - Creation timestamp in RFC3339 text format.
- id string
- The provider-assigned unique ID for this managed resource.
- kind string
- Type of the resource. Always compute#autoscaler for autoscalers.
- recommended
Size number - Target recommended MIG size (number of instances) computed by autoscaler. Autoscaler calculates the recommended MIG size even when the autoscaling policy mode is different from ON. This field is empty when autoscaler is not connected to an existing managed instance group or autoscaler did not generate its prediction.
- scaling
Schedule {[key: string]: string}Status - Status information of existing scaling schedules.
- self
Link string - Server-defined URL for the resource.
- status string
- The status of the autoscaler configuration. Current set of possible values: - PENDING: Autoscaler backend hasn't read new/updated configuration. - DELETING: Configuration is being deleted. - ACTIVE: Configuration is acknowledged to be effective. Some warnings might be present in the statusDetails field. - ERROR: Configuration has errors. Actionable for users. Details are present in the statusDetails field. New values might be added in the future.
- status
Details AutoscalerStatus Details Response[] - Human-readable details about the current state of the autoscaler. Read the documentation for Commonly returned status messages for examples of status messages you might encounter.
- zone string
- URL of the zone where the instance group resides (for autoscalers living in zonal scope).
- creation_
timestamp str - Creation timestamp in RFC3339 text format.
- id str
- The provider-assigned unique ID for this managed resource.
- kind str
- Type of the resource. Always compute#autoscaler for autoscalers.
- recommended_
size int - Target recommended MIG size (number of instances) computed by autoscaler. Autoscaler calculates the recommended MIG size even when the autoscaling policy mode is different from ON. This field is empty when autoscaler is not connected to an existing managed instance group or autoscaler did not generate its prediction.
- scaling_
schedule_ Mapping[str, str]status - Status information of existing scaling schedules.
- self_
link str - Server-defined URL for the resource.
- status str
- The status of the autoscaler configuration. Current set of possible values: - PENDING: Autoscaler backend hasn't read new/updated configuration. - DELETING: Configuration is being deleted. - ACTIVE: Configuration is acknowledged to be effective. Some warnings might be present in the statusDetails field. - ERROR: Configuration has errors. Actionable for users. Details are present in the statusDetails field. New values might be added in the future.
- status_
details Sequence[AutoscalerStatus Details Response] - Human-readable details about the current state of the autoscaler. Read the documentation for Commonly returned status messages for examples of status messages you might encounter.
- zone str
- URL of the zone where the instance group resides (for autoscalers living in zonal scope).
- creation
Timestamp String - Creation timestamp in RFC3339 text format.
- id String
- The provider-assigned unique ID for this managed resource.
- kind String
- Type of the resource. Always compute#autoscaler for autoscalers.
- recommended
Size Number - Target recommended MIG size (number of instances) computed by autoscaler. Autoscaler calculates the recommended MIG size even when the autoscaling policy mode is different from ON. This field is empty when autoscaler is not connected to an existing managed instance group or autoscaler did not generate its prediction.
- scaling
Schedule Map<String>Status - Status information of existing scaling schedules.
- self
Link String - Server-defined URL for the resource.
- status String
- The status of the autoscaler configuration. Current set of possible values: - PENDING: Autoscaler backend hasn't read new/updated configuration. - DELETING: Configuration is being deleted. - ACTIVE: Configuration is acknowledged to be effective. Some warnings might be present in the statusDetails field. - ERROR: Configuration has errors. Actionable for users. Details are present in the statusDetails field. New values might be added in the future.
- status
Details List<Property Map> - Human-readable details about the current state of the autoscaler. Read the documentation for Commonly returned status messages for examples of status messages you might encounter.
- zone String
- URL of the zone where the instance group resides (for autoscalers living in zonal scope).
Supporting Types
AutoscalerStatusDetailsResponse, AutoscalerStatusDetailsResponseArgs
- Message string
- The status message.
- Type string
- The type of error, warning, or notice returned. Current set of possible values: - ALL_INSTANCES_UNHEALTHY (WARNING): All instances in the instance group are unhealthy (not in RUNNING state). - BACKEND_SERVICE_DOES_NOT_EXIST (ERROR): There is no backend service attached to the instance group. - CAPPED_AT_MAX_NUM_REPLICAS (WARNING): Autoscaler recommends a size greater than maxNumReplicas. - CUSTOM_METRIC_DATA_POINTS_TOO_SPARSE (WARNING): The custom metric samples are not exported often enough to be a credible base for autoscaling. - CUSTOM_METRIC_INVALID (ERROR): The custom metric that was specified does not exist or does not have the necessary labels. - MIN_EQUALS_MAX (WARNING): The minNumReplicas is equal to maxNumReplicas. This means the autoscaler cannot add or remove instances from the instance group. - MISSING_CUSTOM_METRIC_DATA_POINTS (WARNING): The autoscaler did not receive any data from the custom metric configured for autoscaling. - MISSING_LOAD_BALANCING_DATA_POINTS (WARNING): The autoscaler is configured to scale based on a load balancing signal but the instance group has not received any requests from the load balancer. - MODE_OFF (WARNING): Autoscaling is turned off. The number of instances in the group won't change automatically. The autoscaling configuration is preserved. - MODE_ONLY_UP (WARNING): Autoscaling is in the "Autoscale only out" mode. The autoscaler can add instances but not remove any. - MORE_THAN_ONE_BACKEND_SERVICE (ERROR): The instance group cannot be autoscaled because it has more than one backend service attached to it. - NOT_ENOUGH_QUOTA_AVAILABLE (ERROR): There is insufficient quota for the necessary resources, such as CPU or number of instances. - REGION_RESOURCE_STOCKOUT (ERROR): Shown only for regional autoscalers: there is a resource stockout in the chosen region. - SCALING_TARGET_DOES_NOT_EXIST (ERROR): The target to be scaled does not exist. - UNSUPPORTED_MAX_RATE_LOAD_BALANCING_CONFIGURATION (ERROR): Autoscaling does not work with an HTTP/S load balancer that has been configured for maxRate. - ZONE_RESOURCE_STOCKOUT (ERROR): For zonal autoscalers: there is a resource stockout in the chosen zone. For regional autoscalers: in at least one of the zones you're using there is a resource stockout. New values might be added in the future. Some of the values might not be available in all API versions.
- Message string
- The status message.
- Type string
- The type of error, warning, or notice returned. Current set of possible values: - ALL_INSTANCES_UNHEALTHY (WARNING): All instances in the instance group are unhealthy (not in RUNNING state). - BACKEND_SERVICE_DOES_NOT_EXIST (ERROR): There is no backend service attached to the instance group. - CAPPED_AT_MAX_NUM_REPLICAS (WARNING): Autoscaler recommends a size greater than maxNumReplicas. - CUSTOM_METRIC_DATA_POINTS_TOO_SPARSE (WARNING): The custom metric samples are not exported often enough to be a credible base for autoscaling. - CUSTOM_METRIC_INVALID (ERROR): The custom metric that was specified does not exist or does not have the necessary labels. - MIN_EQUALS_MAX (WARNING): The minNumReplicas is equal to maxNumReplicas. This means the autoscaler cannot add or remove instances from the instance group. - MISSING_CUSTOM_METRIC_DATA_POINTS (WARNING): The autoscaler did not receive any data from the custom metric configured for autoscaling. - MISSING_LOAD_BALANCING_DATA_POINTS (WARNING): The autoscaler is configured to scale based on a load balancing signal but the instance group has not received any requests from the load balancer. - MODE_OFF (WARNING): Autoscaling is turned off. The number of instances in the group won't change automatically. The autoscaling configuration is preserved. - MODE_ONLY_UP (WARNING): Autoscaling is in the "Autoscale only out" mode. The autoscaler can add instances but not remove any. - MORE_THAN_ONE_BACKEND_SERVICE (ERROR): The instance group cannot be autoscaled because it has more than one backend service attached to it. - NOT_ENOUGH_QUOTA_AVAILABLE (ERROR): There is insufficient quota for the necessary resources, such as CPU or number of instances. - REGION_RESOURCE_STOCKOUT (ERROR): Shown only for regional autoscalers: there is a resource stockout in the chosen region. - SCALING_TARGET_DOES_NOT_EXIST (ERROR): The target to be scaled does not exist. - UNSUPPORTED_MAX_RATE_LOAD_BALANCING_CONFIGURATION (ERROR): Autoscaling does not work with an HTTP/S load balancer that has been configured for maxRate. - ZONE_RESOURCE_STOCKOUT (ERROR): For zonal autoscalers: there is a resource stockout in the chosen zone. For regional autoscalers: in at least one of the zones you're using there is a resource stockout. New values might be added in the future. Some of the values might not be available in all API versions.
- message String
- The status message.
- type String
- The type of error, warning, or notice returned. Current set of possible values: - ALL_INSTANCES_UNHEALTHY (WARNING): All instances in the instance group are unhealthy (not in RUNNING state). - BACKEND_SERVICE_DOES_NOT_EXIST (ERROR): There is no backend service attached to the instance group. - CAPPED_AT_MAX_NUM_REPLICAS (WARNING): Autoscaler recommends a size greater than maxNumReplicas. - CUSTOM_METRIC_DATA_POINTS_TOO_SPARSE (WARNING): The custom metric samples are not exported often enough to be a credible base for autoscaling. - CUSTOM_METRIC_INVALID (ERROR): The custom metric that was specified does not exist or does not have the necessary labels. - MIN_EQUALS_MAX (WARNING): The minNumReplicas is equal to maxNumReplicas. This means the autoscaler cannot add or remove instances from the instance group. - MISSING_CUSTOM_METRIC_DATA_POINTS (WARNING): The autoscaler did not receive any data from the custom metric configured for autoscaling. - MISSING_LOAD_BALANCING_DATA_POINTS (WARNING): The autoscaler is configured to scale based on a load balancing signal but the instance group has not received any requests from the load balancer. - MODE_OFF (WARNING): Autoscaling is turned off. The number of instances in the group won't change automatically. The autoscaling configuration is preserved. - MODE_ONLY_UP (WARNING): Autoscaling is in the "Autoscale only out" mode. The autoscaler can add instances but not remove any. - MORE_THAN_ONE_BACKEND_SERVICE (ERROR): The instance group cannot be autoscaled because it has more than one backend service attached to it. - NOT_ENOUGH_QUOTA_AVAILABLE (ERROR): There is insufficient quota for the necessary resources, such as CPU or number of instances. - REGION_RESOURCE_STOCKOUT (ERROR): Shown only for regional autoscalers: there is a resource stockout in the chosen region. - SCALING_TARGET_DOES_NOT_EXIST (ERROR): The target to be scaled does not exist. - UNSUPPORTED_MAX_RATE_LOAD_BALANCING_CONFIGURATION (ERROR): Autoscaling does not work with an HTTP/S load balancer that has been configured for maxRate. - ZONE_RESOURCE_STOCKOUT (ERROR): For zonal autoscalers: there is a resource stockout in the chosen zone. For regional autoscalers: in at least one of the zones you're using there is a resource stockout. New values might be added in the future. Some of the values might not be available in all API versions.
- message string
- The status message.
- type string
- The type of error, warning, or notice returned. Current set of possible values: - ALL_INSTANCES_UNHEALTHY (WARNING): All instances in the instance group are unhealthy (not in RUNNING state). - BACKEND_SERVICE_DOES_NOT_EXIST (ERROR): There is no backend service attached to the instance group. - CAPPED_AT_MAX_NUM_REPLICAS (WARNING): Autoscaler recommends a size greater than maxNumReplicas. - CUSTOM_METRIC_DATA_POINTS_TOO_SPARSE (WARNING): The custom metric samples are not exported often enough to be a credible base for autoscaling. - CUSTOM_METRIC_INVALID (ERROR): The custom metric that was specified does not exist or does not have the necessary labels. - MIN_EQUALS_MAX (WARNING): The minNumReplicas is equal to maxNumReplicas. This means the autoscaler cannot add or remove instances from the instance group. - MISSING_CUSTOM_METRIC_DATA_POINTS (WARNING): The autoscaler did not receive any data from the custom metric configured for autoscaling. - MISSING_LOAD_BALANCING_DATA_POINTS (WARNING): The autoscaler is configured to scale based on a load balancing signal but the instance group has not received any requests from the load balancer. - MODE_OFF (WARNING): Autoscaling is turned off. The number of instances in the group won't change automatically. The autoscaling configuration is preserved. - MODE_ONLY_UP (WARNING): Autoscaling is in the "Autoscale only out" mode. The autoscaler can add instances but not remove any. - MORE_THAN_ONE_BACKEND_SERVICE (ERROR): The instance group cannot be autoscaled because it has more than one backend service attached to it. - NOT_ENOUGH_QUOTA_AVAILABLE (ERROR): There is insufficient quota for the necessary resources, such as CPU or number of instances. - REGION_RESOURCE_STOCKOUT (ERROR): Shown only for regional autoscalers: there is a resource stockout in the chosen region. - SCALING_TARGET_DOES_NOT_EXIST (ERROR): The target to be scaled does not exist. - UNSUPPORTED_MAX_RATE_LOAD_BALANCING_CONFIGURATION (ERROR): Autoscaling does not work with an HTTP/S load balancer that has been configured for maxRate. - ZONE_RESOURCE_STOCKOUT (ERROR): For zonal autoscalers: there is a resource stockout in the chosen zone. For regional autoscalers: in at least one of the zones you're using there is a resource stockout. New values might be added in the future. Some of the values might not be available in all API versions.
- message str
- The status message.
- type str
- The type of error, warning, or notice returned. Current set of possible values: - ALL_INSTANCES_UNHEALTHY (WARNING): All instances in the instance group are unhealthy (not in RUNNING state). - BACKEND_SERVICE_DOES_NOT_EXIST (ERROR): There is no backend service attached to the instance group. - CAPPED_AT_MAX_NUM_REPLICAS (WARNING): Autoscaler recommends a size greater than maxNumReplicas. - CUSTOM_METRIC_DATA_POINTS_TOO_SPARSE (WARNING): The custom metric samples are not exported often enough to be a credible base for autoscaling. - CUSTOM_METRIC_INVALID (ERROR): The custom metric that was specified does not exist or does not have the necessary labels. - MIN_EQUALS_MAX (WARNING): The minNumReplicas is equal to maxNumReplicas. This means the autoscaler cannot add or remove instances from the instance group. - MISSING_CUSTOM_METRIC_DATA_POINTS (WARNING): The autoscaler did not receive any data from the custom metric configured for autoscaling. - MISSING_LOAD_BALANCING_DATA_POINTS (WARNING): The autoscaler is configured to scale based on a load balancing signal but the instance group has not received any requests from the load balancer. - MODE_OFF (WARNING): Autoscaling is turned off. The number of instances in the group won't change automatically. The autoscaling configuration is preserved. - MODE_ONLY_UP (WARNING): Autoscaling is in the "Autoscale only out" mode. The autoscaler can add instances but not remove any. - MORE_THAN_ONE_BACKEND_SERVICE (ERROR): The instance group cannot be autoscaled because it has more than one backend service attached to it. - NOT_ENOUGH_QUOTA_AVAILABLE (ERROR): There is insufficient quota for the necessary resources, such as CPU or number of instances. - REGION_RESOURCE_STOCKOUT (ERROR): Shown only for regional autoscalers: there is a resource stockout in the chosen region. - SCALING_TARGET_DOES_NOT_EXIST (ERROR): The target to be scaled does not exist. - UNSUPPORTED_MAX_RATE_LOAD_BALANCING_CONFIGURATION (ERROR): Autoscaling does not work with an HTTP/S load balancer that has been configured for maxRate. - ZONE_RESOURCE_STOCKOUT (ERROR): For zonal autoscalers: there is a resource stockout in the chosen zone. For regional autoscalers: in at least one of the zones you're using there is a resource stockout. New values might be added in the future. Some of the values might not be available in all API versions.
- message String
- The status message.
- type String
- The type of error, warning, or notice returned. Current set of possible values: - ALL_INSTANCES_UNHEALTHY (WARNING): All instances in the instance group are unhealthy (not in RUNNING state). - BACKEND_SERVICE_DOES_NOT_EXIST (ERROR): There is no backend service attached to the instance group. - CAPPED_AT_MAX_NUM_REPLICAS (WARNING): Autoscaler recommends a size greater than maxNumReplicas. - CUSTOM_METRIC_DATA_POINTS_TOO_SPARSE (WARNING): The custom metric samples are not exported often enough to be a credible base for autoscaling. - CUSTOM_METRIC_INVALID (ERROR): The custom metric that was specified does not exist or does not have the necessary labels. - MIN_EQUALS_MAX (WARNING): The minNumReplicas is equal to maxNumReplicas. This means the autoscaler cannot add or remove instances from the instance group. - MISSING_CUSTOM_METRIC_DATA_POINTS (WARNING): The autoscaler did not receive any data from the custom metric configured for autoscaling. - MISSING_LOAD_BALANCING_DATA_POINTS (WARNING): The autoscaler is configured to scale based on a load balancing signal but the instance group has not received any requests from the load balancer. - MODE_OFF (WARNING): Autoscaling is turned off. The number of instances in the group won't change automatically. The autoscaling configuration is preserved. - MODE_ONLY_UP (WARNING): Autoscaling is in the "Autoscale only out" mode. The autoscaler can add instances but not remove any. - MORE_THAN_ONE_BACKEND_SERVICE (ERROR): The instance group cannot be autoscaled because it has more than one backend service attached to it. - NOT_ENOUGH_QUOTA_AVAILABLE (ERROR): There is insufficient quota for the necessary resources, such as CPU or number of instances. - REGION_RESOURCE_STOCKOUT (ERROR): Shown only for regional autoscalers: there is a resource stockout in the chosen region. - SCALING_TARGET_DOES_NOT_EXIST (ERROR): The target to be scaled does not exist. - UNSUPPORTED_MAX_RATE_LOAD_BALANCING_CONFIGURATION (ERROR): Autoscaling does not work with an HTTP/S load balancer that has been configured for maxRate. - ZONE_RESOURCE_STOCKOUT (ERROR): For zonal autoscalers: there is a resource stockout in the chosen zone. For regional autoscalers: in at least one of the zones you're using there is a resource stockout. New values might be added in the future. Some of the values might not be available in all API versions.
AutoscalingPolicy, AutoscalingPolicyArgs
- Cool
Down intPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- Cpu
Utilization Pulumi.Google Native. Compute. V1. Inputs. Autoscaling Policy Cpu Utilization - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- Custom
Metric List<Pulumi.Utilizations Google Native. Compute. V1. Inputs. Autoscaling Policy Custom Metric Utilization> - Configuration parameters of autoscaling based on a custom metric.
- Load
Balancing Pulumi.Utilization Google Native. Compute. V1. Inputs. Autoscaling Policy Load Balancing Utilization - Configuration parameters of autoscaling based on load balancer.
- Max
Num intReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- Min
Num intReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- Mode
Pulumi.
Google Native. Compute. V1. Autoscaling Policy Mode - Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- Scale
In Pulumi.Control Google Native. Compute. V1. Inputs. Autoscaling Policy Scale In Control - Scaling
Schedules Dictionary<string, string> - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- Cool
Down intPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- Cpu
Utilization AutoscalingPolicy Cpu Utilization - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- Custom
Metric []AutoscalingUtilizations Policy Custom Metric Utilization - Configuration parameters of autoscaling based on a custom metric.
- Load
Balancing AutoscalingUtilization Policy Load Balancing Utilization - Configuration parameters of autoscaling based on load balancer.
- Max
Num intReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- Min
Num intReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- Mode
Autoscaling
Policy Mode - Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- Scale
In AutoscalingControl Policy Scale In Control - Scaling
Schedules map[string]string - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- cool
Down IntegerPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- cpu
Utilization AutoscalingPolicy Cpu Utilization - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- custom
Metric List<AutoscalingUtilizations Policy Custom Metric Utilization> - Configuration parameters of autoscaling based on a custom metric.
- load
Balancing AutoscalingUtilization Policy Load Balancing Utilization - Configuration parameters of autoscaling based on load balancer.
- max
Num IntegerReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- min
Num IntegerReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- mode
Autoscaling
Policy Mode - Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- scale
In AutoscalingControl Policy Scale In Control - scaling
Schedules Map<String,String> - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- cool
Down numberPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- cpu
Utilization AutoscalingPolicy Cpu Utilization - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- custom
Metric AutoscalingUtilizations Policy Custom Metric Utilization[] - Configuration parameters of autoscaling based on a custom metric.
- load
Balancing AutoscalingUtilization Policy Load Balancing Utilization - Configuration parameters of autoscaling based on load balancer.
- max
Num numberReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- min
Num numberReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- mode
Autoscaling
Policy Mode - Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- scale
In AutoscalingControl Policy Scale In Control - scaling
Schedules {[key: string]: string} - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- cool_
down_ intperiod_ sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- cpu_
utilization AutoscalingPolicy Cpu Utilization - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- custom_
metric_ Sequence[Autoscalingutilizations Policy Custom Metric Utilization] - Configuration parameters of autoscaling based on a custom metric.
- load_
balancing_ Autoscalingutilization Policy Load Balancing Utilization - Configuration parameters of autoscaling based on load balancer.
- max_
num_ intreplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- min_
num_ intreplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- mode
Autoscaling
Policy Mode - Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- scale_
in_ Autoscalingcontrol Policy Scale In Control - scaling_
schedules Mapping[str, str] - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- cool
Down NumberPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- cpu
Utilization Property Map - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- custom
Metric List<Property Map>Utilizations - Configuration parameters of autoscaling based on a custom metric.
- load
Balancing Property MapUtilization - Configuration parameters of autoscaling based on load balancer.
- max
Num NumberReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- min
Num NumberReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- mode "OFF" | "ON" | "ONLY_SCALE_OUT" | "ONLY_UP"
- Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- scale
In Property MapControl - scaling
Schedules Map<String> - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
AutoscalingPolicyCpuUtilization, AutoscalingPolicyCpuUtilizationArgs
- Predictive
Method Pulumi.Google Native. Compute. V1. Autoscaling Policy Cpu Utilization Predictive Method - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- Utilization
Target double - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- Predictive
Method AutoscalingPolicy Cpu Utilization Predictive Method - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- Utilization
Target float64 - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- predictive
Method AutoscalingPolicy Cpu Utilization Predictive Method - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- utilization
Target Double - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- predictive
Method AutoscalingPolicy Cpu Utilization Predictive Method - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- utilization
Target number - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- predictive_
method AutoscalingPolicy Cpu Utilization Predictive Method - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- utilization_
target float - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- predictive
Method "NONE" | "OPTIMIZE_AVAILABILITY" - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- utilization
Target Number - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
AutoscalingPolicyCpuUtilizationPredictiveMethod, AutoscalingPolicyCpuUtilizationPredictiveMethodArgs
- None
- NONENo predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics
- Optimize
Availability - OPTIMIZE_AVAILABILITYPredictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- Autoscaling
Policy Cpu Utilization Predictive Method None - NONENo predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics
- Autoscaling
Policy Cpu Utilization Predictive Method Optimize Availability - OPTIMIZE_AVAILABILITYPredictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- None
- NONENo predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics
- Optimize
Availability - OPTIMIZE_AVAILABILITYPredictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- None
- NONENo predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics
- Optimize
Availability - OPTIMIZE_AVAILABILITYPredictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- NONE
- NONENo predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics
- OPTIMIZE_AVAILABILITY
- OPTIMIZE_AVAILABILITYPredictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- "NONE"
- NONENo predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics
- "OPTIMIZE_AVAILABILITY"
- OPTIMIZE_AVAILABILITYPredictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
AutoscalingPolicyCpuUtilizationResponse, AutoscalingPolicyCpuUtilizationResponseArgs
- Predictive
Method string - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- Utilization
Target double - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- Predictive
Method string - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- Utilization
Target float64 - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- predictive
Method String - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- utilization
Target Double - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- predictive
Method string - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- utilization
Target number - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- predictive_
method str - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- utilization_
target float - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
- predictive
Method String - Indicates whether predictive autoscaling based on CPU metric is enabled. Valid values are: * NONE (default). No predictive method is used. The autoscaler scales the group to meet current demand based on real-time metrics. * OPTIMIZE_AVAILABILITY. Predictive autoscaling improves availability by monitoring daily and weekly load patterns and scaling out ahead of anticipated demand.
- utilization
Target Number - The target CPU utilization that the autoscaler maintains. Must be a float value in the range (0, 1]. If not specified, the default is 0.6. If the CPU level is below the target utilization, the autoscaler scales in the number of instances until it reaches the minimum number of instances you specified or until the average CPU of your instances reaches the target utilization. If the average CPU is above the target utilization, the autoscaler scales out until it reaches the maximum number of instances you specified or until the average utilization reaches the target utilization.
AutoscalingPolicyCustomMetricUtilization, AutoscalingPolicyCustomMetricUtilizationArgs
- Filter string
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- Metric string
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- Single
Instance doubleAssignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- Utilization
Target double - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- Utilization
Target Pulumi.Type Google Native. Compute. V1. Autoscaling Policy Custom Metric Utilization Utilization Target Type - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- Filter string
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- Metric string
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- Single
Instance float64Assignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- Utilization
Target float64 - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- Utilization
Target AutoscalingType Policy Custom Metric Utilization Utilization Target Type - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- filter String
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- metric String
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- single
Instance DoubleAssignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- utilization
Target Double - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- utilization
Target AutoscalingType Policy Custom Metric Utilization Utilization Target Type - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- filter string
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- metric string
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- single
Instance numberAssignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- utilization
Target number - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- utilization
Target AutoscalingType Policy Custom Metric Utilization Utilization Target Type - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- filter str
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- metric str
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- single_
instance_ floatassignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- utilization_
target float - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- utilization_
target_ Autoscalingtype Policy Custom Metric Utilization Utilization Target Type - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- filter String
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- metric String
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- single
Instance NumberAssignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- utilization
Target Number - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- utilization
Target "DELTA_PER_MINUTE" | "DELTA_PER_SECOND" | "GAUGE"Type - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
AutoscalingPolicyCustomMetricUtilizationResponse, AutoscalingPolicyCustomMetricUtilizationResponseArgs
- Filter string
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- Metric string
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- Single
Instance doubleAssignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- Utilization
Target double - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- Utilization
Target stringType - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- Filter string
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- Metric string
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- Single
Instance float64Assignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- Utilization
Target float64 - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- Utilization
Target stringType - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- filter String
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- metric String
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- single
Instance DoubleAssignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- utilization
Target Double - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- utilization
Target StringType - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- filter string
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- metric string
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- single
Instance numberAssignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- utilization
Target number - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- utilization
Target stringType - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- filter str
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- metric str
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- single_
instance_ floatassignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- utilization_
target float - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- utilization_
target_ strtype - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
- filter String
- A filter string, compatible with a Stackdriver Monitoring filter string for TimeSeries.list API call. This filter is used to select a specific TimeSeries for the purpose of autoscaling and to determine whether the metric is exporting per-instance or per-group data. For the filter to be valid for autoscaling purposes, the following rules apply: - You can only use the AND operator for joining selectors. - You can only use direct equality comparison operator (=) without any functions for each selector. - You can specify the metric in both the filter string and in the metric field. However, if specified in both places, the metric must be identical. - The monitored resource type determines what kind of values are expected for the metric. If it is a gce_instance, the autoscaler expects the metric to include a separate TimeSeries for each instance in a group. In such a case, you cannot filter on resource labels. If the resource type is any other value, the autoscaler expects this metric to contain values that apply to the entire autoscaled instance group and resource label filtering can be performed to point autoscaler at the correct TimeSeries to scale upon. This is called a per-group metric for the purpose of autoscaling. If not specified, the type defaults to gce_instance. Try to provide a filter that is selective enough to pick just one TimeSeries for the autoscaled group or for each of the instances (if you are using gce_instance resource type). If multiple TimeSeries are returned upon the query execution, the autoscaler will sum their respective values to obtain its scaling value.
- metric String
- The identifier (type) of the Stackdriver Monitoring metric. The metric cannot have negative values. The metric must have a value type of INT64 or DOUBLE.
- single
Instance NumberAssignment - If scaling is based on a per-group metric value that represents the total amount of work to be done or resource usage, set this value to an amount assigned for a single instance of the scaled group. Autoscaler keeps the number of instances proportional to the value of this metric. The metric itself does not change value due to group resizing. A good metric to use with the target is for example pubsub.googleapis.com/subscription/num_undelivered_messages or a custom metric exporting the total number of requests coming to your instances. A bad example would be a metric exporting an average or median latency, since this value can't include a chunk assignable to a single instance, it could be better used with utilization_target instead.
- utilization
Target Number - The target value of the metric that autoscaler maintains. This must be a positive value. A utilization metric scales number of virtual machines handling requests to increase or decrease proportionally to the metric. For example, a good metric to use as a utilization_target is https://www.googleapis.com/compute/v1/instance/network/received_bytes_count. The autoscaler works to keep this value constant for each of the instances.
- utilization
Target StringType - Defines how target utilization value is expressed for a Stackdriver Monitoring metric. Either GAUGE, DELTA_PER_SECOND, or DELTA_PER_MINUTE.
AutoscalingPolicyCustomMetricUtilizationUtilizationTargetType, AutoscalingPolicyCustomMetricUtilizationUtilizationTargetTypeArgs
- Delta
Per Minute - DELTA_PER_MINUTESets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per minute.
- Delta
Per Second - DELTA_PER_SECONDSets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per second.
- Gauge
- GAUGESets the utilization target value for a gauge metric. The autoscaler will collect the average utilization of the virtual machines from the last couple of minutes, and compare the value to the utilization target value to perform autoscaling.
- Autoscaling
Policy Custom Metric Utilization Utilization Target Type Delta Per Minute - DELTA_PER_MINUTESets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per minute.
- Autoscaling
Policy Custom Metric Utilization Utilization Target Type Delta Per Second - DELTA_PER_SECONDSets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per second.
- Autoscaling
Policy Custom Metric Utilization Utilization Target Type Gauge - GAUGESets the utilization target value for a gauge metric. The autoscaler will collect the average utilization of the virtual machines from the last couple of minutes, and compare the value to the utilization target value to perform autoscaling.
- Delta
Per Minute - DELTA_PER_MINUTESets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per minute.
- Delta
Per Second - DELTA_PER_SECONDSets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per second.
- Gauge
- GAUGESets the utilization target value for a gauge metric. The autoscaler will collect the average utilization of the virtual machines from the last couple of minutes, and compare the value to the utilization target value to perform autoscaling.
- Delta
Per Minute - DELTA_PER_MINUTESets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per minute.
- Delta
Per Second - DELTA_PER_SECONDSets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per second.
- Gauge
- GAUGESets the utilization target value for a gauge metric. The autoscaler will collect the average utilization of the virtual machines from the last couple of minutes, and compare the value to the utilization target value to perform autoscaling.
- DELTA_PER_MINUTE
- DELTA_PER_MINUTESets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per minute.
- DELTA_PER_SECOND
- DELTA_PER_SECONDSets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per second.
- GAUGE
- GAUGESets the utilization target value for a gauge metric. The autoscaler will collect the average utilization of the virtual machines from the last couple of minutes, and compare the value to the utilization target value to perform autoscaling.
- "DELTA_PER_MINUTE"
- DELTA_PER_MINUTESets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per minute.
- "DELTA_PER_SECOND"
- DELTA_PER_SECONDSets the utilization target value for a cumulative or delta metric, expressed as the rate of growth per second.
- "GAUGE"
- GAUGESets the utilization target value for a gauge metric. The autoscaler will collect the average utilization of the virtual machines from the last couple of minutes, and compare the value to the utilization target value to perform autoscaling.
AutoscalingPolicyLoadBalancingUtilization, AutoscalingPolicyLoadBalancingUtilizationArgs
- Utilization
Target double - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- Utilization
Target float64 - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- utilization
Target Double - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- utilization
Target number - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- utilization_
target float - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- utilization
Target Number - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
AutoscalingPolicyLoadBalancingUtilizationResponse, AutoscalingPolicyLoadBalancingUtilizationResponseArgs
- Utilization
Target double - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- Utilization
Target float64 - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- utilization
Target Double - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- utilization
Target number - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- utilization_
target float - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
- utilization
Target Number - Fraction of backend capacity utilization (set in HTTP(S) load balancing configuration) that the autoscaler maintains. Must be a positive float value. If not defined, the default is 0.8.
AutoscalingPolicyMode, AutoscalingPolicyModeArgs
- Off
- OFFDo not automatically scale the MIG in or out. The recommended_size field contains the size of MIG that would be set if the actuation mode was enabled.
- On
- ONAutomatically scale the MIG in and out according to the policy.
- Only
Scale Out - ONLY_SCALE_OUTAutomatically create VMs according to the policy, but do not scale the MIG in.
- Only
Up - ONLY_UPAutomatically create VMs according to the policy, but do not scale the MIG in.
- Autoscaling
Policy Mode Off - OFFDo not automatically scale the MIG in or out. The recommended_size field contains the size of MIG that would be set if the actuation mode was enabled.
- Autoscaling
Policy Mode On - ONAutomatically scale the MIG in and out according to the policy.
- Autoscaling
Policy Mode Only Scale Out - ONLY_SCALE_OUTAutomatically create VMs according to the policy, but do not scale the MIG in.
- Autoscaling
Policy Mode Only Up - ONLY_UPAutomatically create VMs according to the policy, but do not scale the MIG in.
- Off
- OFFDo not automatically scale the MIG in or out. The recommended_size field contains the size of MIG that would be set if the actuation mode was enabled.
- On
- ONAutomatically scale the MIG in and out according to the policy.
- Only
Scale Out - ONLY_SCALE_OUTAutomatically create VMs according to the policy, but do not scale the MIG in.
- Only
Up - ONLY_UPAutomatically create VMs according to the policy, but do not scale the MIG in.
- Off
- OFFDo not automatically scale the MIG in or out. The recommended_size field contains the size of MIG that would be set if the actuation mode was enabled.
- On
- ONAutomatically scale the MIG in and out according to the policy.
- Only
Scale Out - ONLY_SCALE_OUTAutomatically create VMs according to the policy, but do not scale the MIG in.
- Only
Up - ONLY_UPAutomatically create VMs according to the policy, but do not scale the MIG in.
- OFF
- OFFDo not automatically scale the MIG in or out. The recommended_size field contains the size of MIG that would be set if the actuation mode was enabled.
- ON
- ONAutomatically scale the MIG in and out according to the policy.
- ONLY_SCALE_OUT
- ONLY_SCALE_OUTAutomatically create VMs according to the policy, but do not scale the MIG in.
- ONLY_UP
- ONLY_UPAutomatically create VMs according to the policy, but do not scale the MIG in.
- "OFF"
- OFFDo not automatically scale the MIG in or out. The recommended_size field contains the size of MIG that would be set if the actuation mode was enabled.
- "ON"
- ONAutomatically scale the MIG in and out according to the policy.
- "ONLY_SCALE_OUT"
- ONLY_SCALE_OUTAutomatically create VMs according to the policy, but do not scale the MIG in.
- "ONLY_UP"
- ONLY_UPAutomatically create VMs according to the policy, but do not scale the MIG in.
AutoscalingPolicyResponse, AutoscalingPolicyResponseArgs
- Cool
Down intPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- Cpu
Utilization Pulumi.Google Native. Compute. V1. Inputs. Autoscaling Policy Cpu Utilization Response - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- Custom
Metric List<Pulumi.Utilizations Google Native. Compute. V1. Inputs. Autoscaling Policy Custom Metric Utilization Response> - Configuration parameters of autoscaling based on a custom metric.
- Load
Balancing Pulumi.Utilization Google Native. Compute. V1. Inputs. Autoscaling Policy Load Balancing Utilization Response - Configuration parameters of autoscaling based on load balancer.
- Max
Num intReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- Min
Num intReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- Mode string
- Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- Scale
In Pulumi.Control Google Native. Compute. V1. Inputs. Autoscaling Policy Scale In Control Response - Scaling
Schedules Dictionary<string, string> - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- Cool
Down intPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- Cpu
Utilization AutoscalingPolicy Cpu Utilization Response - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- Custom
Metric []AutoscalingUtilizations Policy Custom Metric Utilization Response - Configuration parameters of autoscaling based on a custom metric.
- Load
Balancing AutoscalingUtilization Policy Load Balancing Utilization Response - Configuration parameters of autoscaling based on load balancer.
- Max
Num intReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- Min
Num intReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- Mode string
- Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- Scale
In AutoscalingControl Policy Scale In Control Response - Scaling
Schedules map[string]string - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- cool
Down IntegerPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- cpu
Utilization AutoscalingPolicy Cpu Utilization Response - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- custom
Metric List<AutoscalingUtilizations Policy Custom Metric Utilization Response> - Configuration parameters of autoscaling based on a custom metric.
- load
Balancing AutoscalingUtilization Policy Load Balancing Utilization Response - Configuration parameters of autoscaling based on load balancer.
- max
Num IntegerReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- min
Num IntegerReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- mode String
- Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- scale
In AutoscalingControl Policy Scale In Control Response - scaling
Schedules Map<String,String> - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- cool
Down numberPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- cpu
Utilization AutoscalingPolicy Cpu Utilization Response - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- custom
Metric AutoscalingUtilizations Policy Custom Metric Utilization Response[] - Configuration parameters of autoscaling based on a custom metric.
- load
Balancing AutoscalingUtilization Policy Load Balancing Utilization Response - Configuration parameters of autoscaling based on load balancer.
- max
Num numberReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- min
Num numberReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- mode string
- Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- scale
In AutoscalingControl Policy Scale In Control Response - scaling
Schedules {[key: string]: string} - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- cool_
down_ intperiod_ sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- cpu_
utilization AutoscalingPolicy Cpu Utilization Response - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- custom_
metric_ Sequence[Autoscalingutilizations Policy Custom Metric Utilization Response] - Configuration parameters of autoscaling based on a custom metric.
- load_
balancing_ Autoscalingutilization Policy Load Balancing Utilization Response - Configuration parameters of autoscaling based on load balancer.
- max_
num_ intreplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- min_
num_ intreplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- mode str
- Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- scale_
in_ Autoscalingcontrol Policy Scale In Control Response - scaling_
schedules Mapping[str, str] - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
- cool
Down NumberPeriod Sec - The number of seconds that your application takes to initialize on a VM instance. This is referred to as the initialization period. Specifying an accurate initialization period improves autoscaler decisions. For example, when scaling out, the autoscaler ignores data from VMs that are still initializing because those VMs might not yet represent normal usage of your application. The default initialization period is 60 seconds. Initialization periods might vary because of numerous factors. We recommend that you test how long your application takes to initialize. To do this, create a VM and time your application's startup process.
- cpu
Utilization Property Map - Defines the CPU utilization policy that allows the autoscaler to scale based on the average CPU utilization of a managed instance group.
- custom
Metric List<Property Map>Utilizations - Configuration parameters of autoscaling based on a custom metric.
- load
Balancing Property MapUtilization - Configuration parameters of autoscaling based on load balancer.
- max
Num NumberReplicas - The maximum number of instances that the autoscaler can scale out to. This is required when creating or updating an autoscaler. The maximum number of replicas must not be lower than minimal number of replicas.
- min
Num NumberReplicas - The minimum number of replicas that the autoscaler can scale in to. This cannot be less than 0. If not provided, autoscaler chooses a default value depending on maximum number of instances allowed.
- mode String
- Defines the operating mode for this policy. The following modes are available: - OFF: Disables the autoscaler but maintains its configuration. - ONLY_SCALE_OUT: Restricts the autoscaler to add VM instances only. - ON: Enables all autoscaler activities according to its policy. For more information, see "Turning off or restricting an autoscaler"
- scale
In Property MapControl - scaling
Schedules Map<String> - Scaling schedules defined for an autoscaler. Multiple schedules can be set on an autoscaler, and they can overlap. During overlapping periods the greatest min_required_replicas of all scaling schedules is applied. Up to 128 scaling schedules are allowed.
AutoscalingPolicyScaleInControl, AutoscalingPolicyScaleInControlArgs
- Max
Scaled Pulumi.In Replicas Google Native. Compute. V1. Inputs. Fixed Or Percent - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- Time
Window intSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- Max
Scaled FixedIn Replicas Or Percent - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- Time
Window intSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- max
Scaled FixedIn Replicas Or Percent - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- time
Window IntegerSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- max
Scaled FixedIn Replicas Or Percent - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- time
Window numberSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- max_
scaled_ Fixedin_ replicas Or Percent - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- time_
window_ intsec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- max
Scaled Property MapIn Replicas - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- time
Window NumberSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
AutoscalingPolicyScaleInControlResponse, AutoscalingPolicyScaleInControlResponseArgs
- Max
Scaled Pulumi.In Replicas Google Native. Compute. V1. Inputs. Fixed Or Percent Response - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- Time
Window intSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- Max
Scaled FixedIn Replicas Or Percent Response - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- Time
Window intSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- max
Scaled FixedIn Replicas Or Percent Response - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- time
Window IntegerSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- max
Scaled FixedIn Replicas Or Percent Response - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- time
Window numberSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- max_
scaled_ Fixedin_ replicas Or Percent Response - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- time_
window_ intsec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
- max
Scaled Property MapIn Replicas - Maximum allowed number (or %) of VMs that can be deducted from the peak recommendation during the window autoscaler looks at when computing recommendations. Possibly all these VMs can be deleted at once so user service needs to be prepared to lose that many VMs in one step.
- time
Window NumberSec - How far back autoscaling looks when computing recommendations to include directives regarding slower scale in, as described above.
FixedOrPercent, FixedOrPercentArgs
FixedOrPercentResponse, FixedOrPercentResponseArgs
- Calculated int
- Absolute value of VM instances calculated based on the specific mode. - If the value is fixed, then the calculated value is equal to the fixed value. - If the value is a percent, then the calculated value is percent/100 * targetSize. For example, the calculated value of a 80% of a managed instance group with 150 instances would be (80/100 * 150) = 120 VM instances. If there is a remainder, the number is rounded.
- Fixed int
- Specifies a fixed number of VM instances. This must be a positive integer.
- Percent int
- Specifies a percentage of instances between 0 to 100%, inclusive. For example, specify 80 for 80%.
- Calculated int
- Absolute value of VM instances calculated based on the specific mode. - If the value is fixed, then the calculated value is equal to the fixed value. - If the value is a percent, then the calculated value is percent/100 * targetSize. For example, the calculated value of a 80% of a managed instance group with 150 instances would be (80/100 * 150) = 120 VM instances. If there is a remainder, the number is rounded.
- Fixed int
- Specifies a fixed number of VM instances. This must be a positive integer.
- Percent int
- Specifies a percentage of instances between 0 to 100%, inclusive. For example, specify 80 for 80%.
- calculated Integer
- Absolute value of VM instances calculated based on the specific mode. - If the value is fixed, then the calculated value is equal to the fixed value. - If the value is a percent, then the calculated value is percent/100 * targetSize. For example, the calculated value of a 80% of a managed instance group with 150 instances would be (80/100 * 150) = 120 VM instances. If there is a remainder, the number is rounded.
- fixed Integer
- Specifies a fixed number of VM instances. This must be a positive integer.
- percent Integer
- Specifies a percentage of instances between 0 to 100%, inclusive. For example, specify 80 for 80%.
- calculated number
- Absolute value of VM instances calculated based on the specific mode. - If the value is fixed, then the calculated value is equal to the fixed value. - If the value is a percent, then the calculated value is percent/100 * targetSize. For example, the calculated value of a 80% of a managed instance group with 150 instances would be (80/100 * 150) = 120 VM instances. If there is a remainder, the number is rounded.
- fixed number
- Specifies a fixed number of VM instances. This must be a positive integer.
- percent number
- Specifies a percentage of instances between 0 to 100%, inclusive. For example, specify 80 for 80%.
- calculated int
- Absolute value of VM instances calculated based on the specific mode. - If the value is fixed, then the calculated value is equal to the fixed value. - If the value is a percent, then the calculated value is percent/100 * targetSize. For example, the calculated value of a 80% of a managed instance group with 150 instances would be (80/100 * 150) = 120 VM instances. If there is a remainder, the number is rounded.
- fixed int
- Specifies a fixed number of VM instances. This must be a positive integer.
- percent int
- Specifies a percentage of instances between 0 to 100%, inclusive. For example, specify 80 for 80%.
- calculated Number
- Absolute value of VM instances calculated based on the specific mode. - If the value is fixed, then the calculated value is equal to the fixed value. - If the value is a percent, then the calculated value is percent/100 * targetSize. For example, the calculated value of a 80% of a managed instance group with 150 instances would be (80/100 * 150) = 120 VM instances. If there is a remainder, the number is rounded.
- fixed Number
- Specifies a fixed number of VM instances. This must be a positive integer.
- percent Number
- Specifies a percentage of instances between 0 to 100%, inclusive. For example, specify 80 for 80%.
Package Details
- Repository
- Google Cloud Native pulumi/pulumi-google-native
- License
- Apache-2.0
Google Cloud Native is in preview. Google Cloud Classic is fully supported.