Google Cloud Classic v7.18.0, Apr 10 24

Google Cloud Classic v7.18.0 published on Wednesday, Apr 10, 2024 by Pulumi

gcp.monitoring.AlertPolicy

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Google Cloud Classic v7.18.0 published on Wednesday, Apr 10, 2024 by Pulumi

pulumi/pulumi-gcp

Example Usage

Monitoring Alert Policy Basic

import * as pulumi from "@pulumi/pulumi";
import * as gcp from "@pulumi/gcp";

const alertPolicy = new gcp.monitoring.AlertPolicy("alert_policy", {
    displayName: "My Alert Policy",
    combiner: "OR",
    conditions: [{
        displayName: "test condition",
        conditionThreshold: {
            filter: "metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
            duration: "60s",
            comparison: "COMPARISON_GT",
            aggregations: [{
                alignmentPeriod: "60s",
                perSeriesAligner: "ALIGN_RATE",
            }],
        },
    }],
    userLabels: {
        foo: "bar",
    },
});

import pulumi
import pulumi_gcp as gcp

alert_policy = gcp.monitoring.AlertPolicy("alert_policy",
    display_name="My Alert Policy",
    combiner="OR",
    conditions=[gcp.monitoring.AlertPolicyConditionArgs(
        display_name="test condition",
        condition_threshold=gcp.monitoring.AlertPolicyConditionConditionThresholdArgs(
            filter="metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
            duration="60s",
            comparison="COMPARISON_GT",
            aggregations=[gcp.monitoring.AlertPolicyConditionConditionThresholdAggregationArgs(
                alignment_period="60s",
                per_series_aligner="ALIGN_RATE",
            )],
        ),
    )],
    user_labels={
        "foo": "bar",
    })

package main

import (
	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/monitoring"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		_, err := monitoring.NewAlertPolicy(ctx, "alert_policy", &monitoring.AlertPolicyArgs{
			DisplayName: pulumi.String("My Alert Policy"),
			Combiner:    pulumi.String("OR"),
			Conditions: monitoring.AlertPolicyConditionArray{
				&monitoring.AlertPolicyConditionArgs{
					DisplayName: pulumi.String("test condition"),
					ConditionThreshold: &monitoring.AlertPolicyConditionConditionThresholdArgs{
						Filter:     pulumi.String("metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\""),
						Duration:   pulumi.String("60s"),
						Comparison: pulumi.String("COMPARISON_GT"),
						Aggregations: monitoring.AlertPolicyConditionConditionThresholdAggregationArray{
							&monitoring.AlertPolicyConditionConditionThresholdAggregationArgs{
								AlignmentPeriod:  pulumi.String("60s"),
								PerSeriesAligner: pulumi.String("ALIGN_RATE"),
							},
						},
					},
				},
			},
			UserLabels: pulumi.StringMap{
				"foo": pulumi.String("bar"),
			},
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Gcp = Pulumi.Gcp;

return await Deployment.RunAsync(() => 
{
    var alertPolicy = new Gcp.Monitoring.AlertPolicy("alert_policy", new()
    {
        DisplayName = "My Alert Policy",
        Combiner = "OR",
        Conditions = new[]
        {
            new Gcp.Monitoring.Inputs.AlertPolicyConditionArgs
            {
                DisplayName = "test condition",
                ConditionThreshold = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdArgs
                {
                    Filter = "metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
                    Duration = "60s",
                    Comparison = "COMPARISON_GT",
                    Aggregations = new[]
                    {
                        new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdAggregationArgs
                        {
                            AlignmentPeriod = "60s",
                            PerSeriesAligner = "ALIGN_RATE",
                        },
                    },
                },
            },
        },
        UserLabels = 
        {
            { "foo", "bar" },
        },
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.gcp.monitoring.AlertPolicy;
import com.pulumi.gcp.monitoring.AlertPolicyArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionConditionThresholdArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        var alertPolicy = new AlertPolicy("alertPolicy", AlertPolicyArgs.builder()        
            .displayName("My Alert Policy")
            .combiner("OR")
            .conditions(AlertPolicyConditionArgs.builder()
                .displayName("test condition")
                .conditionThreshold(AlertPolicyConditionConditionThresholdArgs.builder()
                    .filter("metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"")
                    .duration("60s")
                    .comparison("COMPARISON_GT")
                    .aggregations(AlertPolicyConditionConditionThresholdAggregationArgs.builder()
                        .alignmentPeriod("60s")
                        .perSeriesAligner("ALIGN_RATE")
                        .build())
                    .build())
                .build())
            .userLabels(Map.of("foo", "bar"))
            .build());

    }
}

resources:
  alertPolicy:
    type: gcp:monitoring:AlertPolicy
    name: alert_policy
    properties:
      displayName: My Alert Policy
      combiner: OR
      conditions:
        - displayName: test condition
          conditionThreshold:
            filter: metric.type="compute.googleapis.com/instance/disk/write_bytes_count" AND resource.type="gce_instance"
            duration: 60s
            comparison: COMPARISON_GT
            aggregations:
              - alignmentPeriod: 60s
                perSeriesAligner: ALIGN_RATE
      userLabels:
        foo: bar

Monitoring Alert Policy Evaluation Missing Data

import * as pulumi from "@pulumi/pulumi";
import * as gcp from "@pulumi/gcp";

const alertPolicy = new gcp.monitoring.AlertPolicy("alert_policy", {
    displayName: "My Alert Policy",
    combiner: "OR",
    conditions: [{
        displayName: "test condition",
        conditionThreshold: {
            filter: "metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
            duration: "60s",
            comparison: "COMPARISON_GT",
            aggregations: [{
                alignmentPeriod: "60s",
                perSeriesAligner: "ALIGN_RATE",
            }],
            evaluationMissingData: "EVALUATION_MISSING_DATA_INACTIVE",
        },
    }],
    userLabels: {
        foo: "bar",
    },
});

import pulumi
import pulumi_gcp as gcp

alert_policy = gcp.monitoring.AlertPolicy("alert_policy",
    display_name="My Alert Policy",
    combiner="OR",
    conditions=[gcp.monitoring.AlertPolicyConditionArgs(
        display_name="test condition",
        condition_threshold=gcp.monitoring.AlertPolicyConditionConditionThresholdArgs(
            filter="metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
            duration="60s",
            comparison="COMPARISON_GT",
            aggregations=[gcp.monitoring.AlertPolicyConditionConditionThresholdAggregationArgs(
                alignment_period="60s",
                per_series_aligner="ALIGN_RATE",
            )],
            evaluation_missing_data="EVALUATION_MISSING_DATA_INACTIVE",
        ),
    )],
    user_labels={
        "foo": "bar",
    })

package main

import (
	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/monitoring"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		_, err := monitoring.NewAlertPolicy(ctx, "alert_policy", &monitoring.AlertPolicyArgs{
			DisplayName: pulumi.String("My Alert Policy"),
			Combiner:    pulumi.String("OR"),
			Conditions: monitoring.AlertPolicyConditionArray{
				&monitoring.AlertPolicyConditionArgs{
					DisplayName: pulumi.String("test condition"),
					ConditionThreshold: &monitoring.AlertPolicyConditionConditionThresholdArgs{
						Filter:     pulumi.String("metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\""),
						Duration:   pulumi.String("60s"),
						Comparison: pulumi.String("COMPARISON_GT"),
						Aggregations: monitoring.AlertPolicyConditionConditionThresholdAggregationArray{
							&monitoring.AlertPolicyConditionConditionThresholdAggregationArgs{
								AlignmentPeriod:  pulumi.String("60s"),
								PerSeriesAligner: pulumi.String("ALIGN_RATE"),
							},
						},
						EvaluationMissingData: pulumi.String("EVALUATION_MISSING_DATA_INACTIVE"),
					},
				},
			},
			UserLabels: pulumi.StringMap{
				"foo": pulumi.String("bar"),
			},
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Gcp = Pulumi.Gcp;

return await Deployment.RunAsync(() => 
{
    var alertPolicy = new Gcp.Monitoring.AlertPolicy("alert_policy", new()
    {
        DisplayName = "My Alert Policy",
        Combiner = "OR",
        Conditions = new[]
        {
            new Gcp.Monitoring.Inputs.AlertPolicyConditionArgs
            {
                DisplayName = "test condition",
                ConditionThreshold = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdArgs
                {
                    Filter = "metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
                    Duration = "60s",
                    Comparison = "COMPARISON_GT",
                    Aggregations = new[]
                    {
                        new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdAggregationArgs
                        {
                            AlignmentPeriod = "60s",
                            PerSeriesAligner = "ALIGN_RATE",
                        },
                    },
                    EvaluationMissingData = "EVALUATION_MISSING_DATA_INACTIVE",
                },
            },
        },
        UserLabels = 
        {
            { "foo", "bar" },
        },
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.gcp.monitoring.AlertPolicy;
import com.pulumi.gcp.monitoring.AlertPolicyArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionConditionThresholdArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        var alertPolicy = new AlertPolicy("alertPolicy", AlertPolicyArgs.builder()        
            .displayName("My Alert Policy")
            .combiner("OR")
            .conditions(AlertPolicyConditionArgs.builder()
                .displayName("test condition")
                .conditionThreshold(AlertPolicyConditionConditionThresholdArgs.builder()
                    .filter("metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"")
                    .duration("60s")
                    .comparison("COMPARISON_GT")
                    .aggregations(AlertPolicyConditionConditionThresholdAggregationArgs.builder()
                        .alignmentPeriod("60s")
                        .perSeriesAligner("ALIGN_RATE")
                        .build())
                    .evaluationMissingData("EVALUATION_MISSING_DATA_INACTIVE")
                    .build())
                .build())
            .userLabels(Map.of("foo", "bar"))
            .build());

    }
}

resources:
  alertPolicy:
    type: gcp:monitoring:AlertPolicy
    name: alert_policy
    properties:
      displayName: My Alert Policy
      combiner: OR
      conditions:
        - displayName: test condition
          conditionThreshold:
            filter: metric.type="compute.googleapis.com/instance/disk/write_bytes_count" AND resource.type="gce_instance"
            duration: 60s
            comparison: COMPARISON_GT
            aggregations:
              - alignmentPeriod: 60s
                perSeriesAligner: ALIGN_RATE
            evaluationMissingData: EVALUATION_MISSING_DATA_INACTIVE
      userLabels:
        foo: bar

Monitoring Alert Policy Forecast Options

import * as pulumi from "@pulumi/pulumi";
import * as gcp from "@pulumi/gcp";

const alertPolicy = new gcp.monitoring.AlertPolicy("alert_policy", {
    displayName: "My Alert Policy",
    combiner: "OR",
    conditions: [{
        displayName: "test condition",
        conditionThreshold: {
            filter: "metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
            duration: "60s",
            forecastOptions: {
                forecastHorizon: "3600s",
            },
            comparison: "COMPARISON_GT",
            aggregations: [{
                alignmentPeriod: "60s",
                perSeriesAligner: "ALIGN_RATE",
            }],
        },
    }],
    userLabels: {
        foo: "bar",
    },
});

import pulumi
import pulumi_gcp as gcp

alert_policy = gcp.monitoring.AlertPolicy("alert_policy",
    display_name="My Alert Policy",
    combiner="OR",
    conditions=[gcp.monitoring.AlertPolicyConditionArgs(
        display_name="test condition",
        condition_threshold=gcp.monitoring.AlertPolicyConditionConditionThresholdArgs(
            filter="metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
            duration="60s",
            forecast_options=gcp.monitoring.AlertPolicyConditionConditionThresholdForecastOptionsArgs(
                forecast_horizon="3600s",
            ),
            comparison="COMPARISON_GT",
            aggregations=[gcp.monitoring.AlertPolicyConditionConditionThresholdAggregationArgs(
                alignment_period="60s",
                per_series_aligner="ALIGN_RATE",
            )],
        ),
    )],
    user_labels={
        "foo": "bar",
    })

package main

import (
	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/monitoring"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		_, err := monitoring.NewAlertPolicy(ctx, "alert_policy", &monitoring.AlertPolicyArgs{
			DisplayName: pulumi.String("My Alert Policy"),
			Combiner:    pulumi.String("OR"),
			Conditions: monitoring.AlertPolicyConditionArray{
				&monitoring.AlertPolicyConditionArgs{
					DisplayName: pulumi.String("test condition"),
					ConditionThreshold: &monitoring.AlertPolicyConditionConditionThresholdArgs{
						Filter:   pulumi.String("metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\""),
						Duration: pulumi.String("60s"),
						ForecastOptions: &monitoring.AlertPolicyConditionConditionThresholdForecastOptionsArgs{
							ForecastHorizon: pulumi.String("3600s"),
						},
						Comparison: pulumi.String("COMPARISON_GT"),
						Aggregations: monitoring.AlertPolicyConditionConditionThresholdAggregationArray{
							&monitoring.AlertPolicyConditionConditionThresholdAggregationArgs{
								AlignmentPeriod:  pulumi.String("60s"),
								PerSeriesAligner: pulumi.String("ALIGN_RATE"),
							},
						},
					},
				},
			},
			UserLabels: pulumi.StringMap{
				"foo": pulumi.String("bar"),
			},
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Gcp = Pulumi.Gcp;

return await Deployment.RunAsync(() => 
{
    var alertPolicy = new Gcp.Monitoring.AlertPolicy("alert_policy", new()
    {
        DisplayName = "My Alert Policy",
        Combiner = "OR",
        Conditions = new[]
        {
            new Gcp.Monitoring.Inputs.AlertPolicyConditionArgs
            {
                DisplayName = "test condition",
                ConditionThreshold = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdArgs
                {
                    Filter = "metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"",
                    Duration = "60s",
                    ForecastOptions = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdForecastOptionsArgs
                    {
                        ForecastHorizon = "3600s",
                    },
                    Comparison = "COMPARISON_GT",
                    Aggregations = new[]
                    {
                        new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdAggregationArgs
                        {
                            AlignmentPeriod = "60s",
                            PerSeriesAligner = "ALIGN_RATE",
                        },
                    },
                },
            },
        },
        UserLabels = 
        {
            { "foo", "bar" },
        },
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.gcp.monitoring.AlertPolicy;
import com.pulumi.gcp.monitoring.AlertPolicyArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionConditionThresholdArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionConditionThresholdForecastOptionsArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        var alertPolicy = new AlertPolicy("alertPolicy", AlertPolicyArgs.builder()        
            .displayName("My Alert Policy")
            .combiner("OR")
            .conditions(AlertPolicyConditionArgs.builder()
                .displayName("test condition")
                .conditionThreshold(AlertPolicyConditionConditionThresholdArgs.builder()
                    .filter("metric.type=\"compute.googleapis.com/instance/disk/write_bytes_count\" AND resource.type=\"gce_instance\"")
                    .duration("60s")
                    .forecastOptions(AlertPolicyConditionConditionThresholdForecastOptionsArgs.builder()
                        .forecastHorizon("3600s")
                        .build())
                    .comparison("COMPARISON_GT")
                    .aggregations(AlertPolicyConditionConditionThresholdAggregationArgs.builder()
                        .alignmentPeriod("60s")
                        .perSeriesAligner("ALIGN_RATE")
                        .build())
                    .build())
                .build())
            .userLabels(Map.of("foo", "bar"))
            .build());

    }
}

resources:
  alertPolicy:
    type: gcp:monitoring:AlertPolicy
    name: alert_policy
    properties:
      displayName: My Alert Policy
      combiner: OR
      conditions:
        - displayName: test condition
          conditionThreshold:
            filter: metric.type="compute.googleapis.com/instance/disk/write_bytes_count" AND resource.type="gce_instance"
            duration: 60s
            forecastOptions:
              forecastHorizon: 3600s
            comparison: COMPARISON_GT
            aggregations:
              - alignmentPeriod: 60s
                perSeriesAligner: ALIGN_RATE
      userLabels:
        foo: bar

Monitoring Alert Policy Promql Condition

import * as pulumi from "@pulumi/pulumi";
import * as gcp from "@pulumi/gcp";

const alertPolicy = new gcp.monitoring.AlertPolicy("alert_policy", {
    displayName: "My Alert Policy",
    combiner: "OR",
    conditions: [{
        displayName: "test condition",
        conditionPrometheusQueryLanguage: {
            query: "compute_googleapis_com:instance_cpu_usage_time > 0",
            duration: "60s",
            evaluationInterval: "60s",
            alertRule: "AlwaysOn",
            ruleGroup: "a test",
        },
    }],
    alertStrategy: {
        autoClose: "1800s",
    },
});

import pulumi
import pulumi_gcp as gcp

alert_policy = gcp.monitoring.AlertPolicy("alert_policy",
    display_name="My Alert Policy",
    combiner="OR",
    conditions=[gcp.monitoring.AlertPolicyConditionArgs(
        display_name="test condition",
        condition_prometheus_query_language=gcp.monitoring.AlertPolicyConditionConditionPrometheusQueryLanguageArgs(
            query="compute_googleapis_com:instance_cpu_usage_time > 0",
            duration="60s",
            evaluation_interval="60s",
            alert_rule="AlwaysOn",
            rule_group="a test",
        ),
    )],
    alert_strategy=gcp.monitoring.AlertPolicyAlertStrategyArgs(
        auto_close="1800s",
    ))

package main

import (
	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/monitoring"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		_, err := monitoring.NewAlertPolicy(ctx, "alert_policy", &monitoring.AlertPolicyArgs{
			DisplayName: pulumi.String("My Alert Policy"),
			Combiner:    pulumi.String("OR"),
			Conditions: monitoring.AlertPolicyConditionArray{
				&monitoring.AlertPolicyConditionArgs{
					DisplayName: pulumi.String("test condition"),
					ConditionPrometheusQueryLanguage: &monitoring.AlertPolicyConditionConditionPrometheusQueryLanguageArgs{
						Query:              pulumi.String("compute_googleapis_com:instance_cpu_usage_time > 0"),
						Duration:           pulumi.String("60s"),
						EvaluationInterval: pulumi.String("60s"),
						AlertRule:          pulumi.String("AlwaysOn"),
						RuleGroup:          pulumi.String("a test"),
					},
				},
			},
			AlertStrategy: &monitoring.AlertPolicyAlertStrategyArgs{
				AutoClose: pulumi.String("1800s"),
			},
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Gcp = Pulumi.Gcp;

return await Deployment.RunAsync(() => 
{
    var alertPolicy = new Gcp.Monitoring.AlertPolicy("alert_policy", new()
    {
        DisplayName = "My Alert Policy",
        Combiner = "OR",
        Conditions = new[]
        {
            new Gcp.Monitoring.Inputs.AlertPolicyConditionArgs
            {
                DisplayName = "test condition",
                ConditionPrometheusQueryLanguage = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionPrometheusQueryLanguageArgs
                {
                    Query = "compute_googleapis_com:instance_cpu_usage_time > 0",
                    Duration = "60s",
                    EvaluationInterval = "60s",
                    AlertRule = "AlwaysOn",
                    RuleGroup = "a test",
                },
            },
        },
        AlertStrategy = new Gcp.Monitoring.Inputs.AlertPolicyAlertStrategyArgs
        {
            AutoClose = "1800s",
        },
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.gcp.monitoring.AlertPolicy;
import com.pulumi.gcp.monitoring.AlertPolicyArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyConditionConditionPrometheusQueryLanguageArgs;
import com.pulumi.gcp.monitoring.inputs.AlertPolicyAlertStrategyArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        var alertPolicy = new AlertPolicy("alertPolicy", AlertPolicyArgs.builder()        
            .displayName("My Alert Policy")
            .combiner("OR")
            .conditions(AlertPolicyConditionArgs.builder()
                .displayName("test condition")
                .conditionPrometheusQueryLanguage(AlertPolicyConditionConditionPrometheusQueryLanguageArgs.builder()
                    .query("compute_googleapis_com:instance_cpu_usage_time > 0")
                    .duration("60s")
                    .evaluationInterval("60s")
                    .alertRule("AlwaysOn")
                    .ruleGroup("a test")
                    .build())
                .build())
            .alertStrategy(AlertPolicyAlertStrategyArgs.builder()
                .autoClose("1800s")
                .build())
            .build());

    }
}

resources:
  alertPolicy:
    type: gcp:monitoring:AlertPolicy
    name: alert_policy
    properties:
      displayName: My Alert Policy
      combiner: OR
      conditions:
        - displayName: test condition
          conditionPrometheusQueryLanguage:
            query: compute_googleapis_com:instance_cpu_usage_time > 0
            duration: 60s
            evaluationInterval: 60s
            alertRule: AlwaysOn
            ruleGroup: a test
      alertStrategy:
        autoClose: 1800s

Create AlertPolicy Resource

Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.

Constructor syntax

new AlertPolicy(name: string, args: AlertPolicyArgs, opts?: CustomResourceOptions);

@overload
def AlertPolicy(resource_name: str,
                args: AlertPolicyArgs,
                opts: Optional[ResourceOptions] = None)

@overload
def AlertPolicy(resource_name: str,
                opts: Optional[ResourceOptions] = None,
                combiner: Optional[str] = None,
                conditions: Optional[Sequence[AlertPolicyConditionArgs]] = None,
                display_name: Optional[str] = None,
                alert_strategy: Optional[AlertPolicyAlertStrategyArgs] = None,
                documentation: Optional[AlertPolicyDocumentationArgs] = None,
                enabled: Optional[bool] = None,
                notification_channels: Optional[Sequence[str]] = None,
                project: Optional[str] = None,
                severity: Optional[str] = None,
                user_labels: Optional[Mapping[str, str]] = None)

func NewAlertPolicy(ctx *Context, name string, args AlertPolicyArgs, opts ...ResourceOption) (*AlertPolicy, error)

public AlertPolicy(string name, AlertPolicyArgs args, CustomResourceOptions? opts = null)

public AlertPolicy(String name, AlertPolicyArgs args)
public AlertPolicy(String name, AlertPolicyArgs args, CustomResourceOptions options)

type: gcp:monitoring:AlertPolicy
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 AlertPolicyArgs: 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 AlertPolicyArgs: 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 AlertPolicyArgs: The arguments to resource properties.
opts ResourceOption: Bag of options to control resource's behavior.

name string: The unique name of the resource.
args AlertPolicyArgs: The arguments to resource properties.
opts CustomResourceOptions: Bag of options to control resource's behavior.

name String: The unique name of the resource.
args AlertPolicyArgs: The arguments to resource properties.
options CustomResourceOptions: Bag of options to control resource's behavior.

Example

The following reference example uses placeholder values for all input properties.

var alertPolicyResource = new Gcp.Monitoring.AlertPolicy("alertPolicyResource", new()
{
    Combiner = "string",
    Conditions = new[]
    {
        new Gcp.Monitoring.Inputs.AlertPolicyConditionArgs
        {
            DisplayName = "string",
            ConditionAbsent = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionAbsentArgs
            {
                Duration = "string",
                Aggregations = new[]
                {
                    new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionAbsentAggregationArgs
                    {
                        AlignmentPeriod = "string",
                        CrossSeriesReducer = "string",
                        GroupByFields = new[]
                        {
                            "string",
                        },
                        PerSeriesAligner = "string",
                    },
                },
                Filter = "string",
                Trigger = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionAbsentTriggerArgs
                {
                    Count = 0,
                    Percent = 0,
                },
            },
            ConditionMatchedLog = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionMatchedLogArgs
            {
                Filter = "string",
                LabelExtractors = 
                {
                    { "string", "string" },
                },
            },
            ConditionMonitoringQueryLanguage = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionMonitoringQueryLanguageArgs
            {
                Duration = "string",
                Query = "string",
                EvaluationMissingData = "string",
                Trigger = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionMonitoringQueryLanguageTriggerArgs
                {
                    Count = 0,
                    Percent = 0,
                },
            },
            ConditionPrometheusQueryLanguage = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionPrometheusQueryLanguageArgs
            {
                Query = "string",
                AlertRule = "string",
                Duration = "string",
                EvaluationInterval = "string",
                Labels = 
                {
                    { "string", "string" },
                },
                RuleGroup = "string",
            },
            ConditionThreshold = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdArgs
            {
                Comparison = "string",
                Duration = "string",
                Aggregations = new[]
                {
                    new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdAggregationArgs
                    {
                        AlignmentPeriod = "string",
                        CrossSeriesReducer = "string",
                        GroupByFields = new[]
                        {
                            "string",
                        },
                        PerSeriesAligner = "string",
                    },
                },
                DenominatorAggregations = new[]
                {
                    new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdDenominatorAggregationArgs
                    {
                        AlignmentPeriod = "string",
                        CrossSeriesReducer = "string",
                        GroupByFields = new[]
                        {
                            "string",
                        },
                        PerSeriesAligner = "string",
                    },
                },
                DenominatorFilter = "string",
                EvaluationMissingData = "string",
                Filter = "string",
                ForecastOptions = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdForecastOptionsArgs
                {
                    ForecastHorizon = "string",
                },
                ThresholdValue = 0,
                Trigger = new Gcp.Monitoring.Inputs.AlertPolicyConditionConditionThresholdTriggerArgs
                {
                    Count = 0,
                    Percent = 0,
                },
            },
            Name = "string",
        },
    },
    DisplayName = "string",
    AlertStrategy = new Gcp.Monitoring.Inputs.AlertPolicyAlertStrategyArgs
    {
        AutoClose = "string",
        NotificationChannelStrategies = new[]
        {
            new Gcp.Monitoring.Inputs.AlertPolicyAlertStrategyNotificationChannelStrategyArgs
            {
                NotificationChannelNames = new[]
                {
                    "string",
                },
                RenotifyInterval = "string",
            },
        },
        NotificationRateLimit = new Gcp.Monitoring.Inputs.AlertPolicyAlertStrategyNotificationRateLimitArgs
        {
            Period = "string",
        },
    },
    Documentation = new Gcp.Monitoring.Inputs.AlertPolicyDocumentationArgs
    {
        Content = "string",
        MimeType = "string",
        Subject = "string",
    },
    Enabled = false,
    NotificationChannels = new[]
    {
        "string",
    },
    Project = "string",
    Severity = "string",
    UserLabels = 
    {
        { "string", "string" },
    },
});

example, err := monitoring.NewAlertPolicy(ctx, "alertPolicyResource", &monitoring.AlertPolicyArgs{
	Combiner: pulumi.String("string"),
	Conditions: monitoring.AlertPolicyConditionArray{
		&monitoring.AlertPolicyConditionArgs{
			DisplayName: pulumi.String("string"),
			ConditionAbsent: &monitoring.AlertPolicyConditionConditionAbsentArgs{
				Duration: pulumi.String("string"),
				Aggregations: monitoring.AlertPolicyConditionConditionAbsentAggregationArray{
					&monitoring.AlertPolicyConditionConditionAbsentAggregationArgs{
						AlignmentPeriod:    pulumi.String("string"),
						CrossSeriesReducer: pulumi.String("string"),
						GroupByFields: pulumi.StringArray{
							pulumi.String("string"),
						},
						PerSeriesAligner: pulumi.String("string"),
					},
				},
				Filter: pulumi.String("string"),
				Trigger: &monitoring.AlertPolicyConditionConditionAbsentTriggerArgs{
					Count:   pulumi.Int(0),
					Percent: pulumi.Float64(0),
				},
			},
			ConditionMatchedLog: &monitoring.AlertPolicyConditionConditionMatchedLogArgs{
				Filter: pulumi.String("string"),
				LabelExtractors: pulumi.StringMap{
					"string": pulumi.String("string"),
				},
			},
			ConditionMonitoringQueryLanguage: &monitoring.AlertPolicyConditionConditionMonitoringQueryLanguageArgs{
				Duration:              pulumi.String("string"),
				Query:                 pulumi.String("string"),
				EvaluationMissingData: pulumi.String("string"),
				Trigger: &monitoring.AlertPolicyConditionConditionMonitoringQueryLanguageTriggerArgs{
					Count:   pulumi.Int(0),
					Percent: pulumi.Float64(0),
				},
			},
			ConditionPrometheusQueryLanguage: &monitoring.AlertPolicyConditionConditionPrometheusQueryLanguageArgs{
				Query:              pulumi.String("string"),
				AlertRule:          pulumi.String("string"),
				Duration:           pulumi.String("string"),
				EvaluationInterval: pulumi.String("string"),
				Labels: pulumi.StringMap{
					"string": pulumi.String("string"),
				},
				RuleGroup: pulumi.String("string"),
			},
			ConditionThreshold: &monitoring.AlertPolicyConditionConditionThresholdArgs{
				Comparison: pulumi.String("string"),
				Duration:   pulumi.String("string"),
				Aggregations: monitoring.AlertPolicyConditionConditionThresholdAggregationArray{
					&monitoring.AlertPolicyConditionConditionThresholdAggregationArgs{
						AlignmentPeriod:    pulumi.String("string"),
						CrossSeriesReducer: pulumi.String("string"),
						GroupByFields: pulumi.StringArray{
							pulumi.String("string"),
						},
						PerSeriesAligner: pulumi.String("string"),
					},
				},
				DenominatorAggregations: monitoring.AlertPolicyConditionConditionThresholdDenominatorAggregationArray{
					&monitoring.AlertPolicyConditionConditionThresholdDenominatorAggregationArgs{
						AlignmentPeriod:    pulumi.String("string"),
						CrossSeriesReducer: pulumi.String("string"),
						GroupByFields: pulumi.StringArray{
							pulumi.String("string"),
						},
						PerSeriesAligner: pulumi.String("string"),
					},
				},
				DenominatorFilter:     pulumi.String("string"),
				EvaluationMissingData: pulumi.String("string"),
				Filter:                pulumi.String("string"),
				ForecastOptions: &monitoring.AlertPolicyConditionConditionThresholdForecastOptionsArgs{
					ForecastHorizon: pulumi.String("string"),
				},
				ThresholdValue: pulumi.Float64(0),
				Trigger: &monitoring.AlertPolicyConditionConditionThresholdTriggerArgs{
					Count:   pulumi.Int(0),
					Percent: pulumi.Float64(0),
				},
			},
			Name: pulumi.String("string"),
		},
	},
	DisplayName: pulumi.String("string"),
	AlertStrategy: &monitoring.AlertPolicyAlertStrategyArgs{
		AutoClose: pulumi.String("string"),
		NotificationChannelStrategies: monitoring.AlertPolicyAlertStrategyNotificationChannelStrategyArray{
			&monitoring.AlertPolicyAlertStrategyNotificationChannelStrategyArgs{
				NotificationChannelNames: pulumi.StringArray{
					pulumi.String("string"),
				},
				RenotifyInterval: pulumi.String("string"),
			},
		},
		NotificationRateLimit: &monitoring.AlertPolicyAlertStrategyNotificationRateLimitArgs{
			Period: pulumi.String("string"),
		},
	},
	Documentation: &monitoring.AlertPolicyDocumentationArgs{
		Content:  pulumi.String("string"),
		MimeType: pulumi.String("string"),
		Subject:  pulumi.String("string"),
	},
	Enabled: pulumi.Bool(false),
	NotificationChannels: pulumi.StringArray{
		pulumi.String("string"),
	},
	Project:  pulumi.String("string"),
	Severity: pulumi.String("string"),
	UserLabels: pulumi.StringMap{
		"string": pulumi.String("string"),
	},
})

var alertPolicyResource = new AlertPolicy("alertPolicyResource", AlertPolicyArgs.builder()        
    .combiner("string")
    .conditions(AlertPolicyConditionArgs.builder()
        .displayName("string")
        .conditionAbsent(AlertPolicyConditionConditionAbsentArgs.builder()
            .duration("string")
            .aggregations(AlertPolicyConditionConditionAbsentAggregationArgs.builder()
                .alignmentPeriod("string")
                .crossSeriesReducer("string")
                .groupByFields("string")
                .perSeriesAligner("string")
                .build())
            .filter("string")
            .trigger(AlertPolicyConditionConditionAbsentTriggerArgs.builder()
                .count(0)
                .percent(0)
                .build())
            .build())
        .conditionMatchedLog(AlertPolicyConditionConditionMatchedLogArgs.builder()
            .filter("string")
            .labelExtractors(Map.of("string", "string"))
            .build())
        .conditionMonitoringQueryLanguage(AlertPolicyConditionConditionMonitoringQueryLanguageArgs.builder()
            .duration("string")
            .query("string")
            .evaluationMissingData("string")
            .trigger(AlertPolicyConditionConditionMonitoringQueryLanguageTriggerArgs.builder()
                .count(0)
                .percent(0)
                .build())
            .build())
        .conditionPrometheusQueryLanguage(AlertPolicyConditionConditionPrometheusQueryLanguageArgs.builder()
            .query("string")
            .alertRule("string")
            .duration("string")
            .evaluationInterval("string")
            .labels(Map.of("string", "string"))
            .ruleGroup("string")
            .build())
        .conditionThreshold(AlertPolicyConditionConditionThresholdArgs.builder()
            .comparison("string")
            .duration("string")
            .aggregations(AlertPolicyConditionConditionThresholdAggregationArgs.builder()
                .alignmentPeriod("string")
                .crossSeriesReducer("string")
                .groupByFields("string")
                .perSeriesAligner("string")
                .build())
            .denominatorAggregations(AlertPolicyConditionConditionThresholdDenominatorAggregationArgs.builder()
                .alignmentPeriod("string")
                .crossSeriesReducer("string")
                .groupByFields("string")
                .perSeriesAligner("string")
                .build())
            .denominatorFilter("string")
            .evaluationMissingData("string")
            .filter("string")
            .forecastOptions(AlertPolicyConditionConditionThresholdForecastOptionsArgs.builder()
                .forecastHorizon("string")
                .build())
            .thresholdValue(0)
            .trigger(AlertPolicyConditionConditionThresholdTriggerArgs.builder()
                .count(0)
                .percent(0)
                .build())
            .build())
        .name("string")
        .build())
    .displayName("string")
    .alertStrategy(AlertPolicyAlertStrategyArgs.builder()
        .autoClose("string")
        .notificationChannelStrategies(AlertPolicyAlertStrategyNotificationChannelStrategyArgs.builder()
            .notificationChannelNames("string")
            .renotifyInterval("string")
            .build())
        .notificationRateLimit(AlertPolicyAlertStrategyNotificationRateLimitArgs.builder()
            .period("string")
            .build())
        .build())
    .documentation(AlertPolicyDocumentationArgs.builder()
        .content("string")
        .mimeType("string")
        .subject("string")
        .build())
    .enabled(false)
    .notificationChannels("string")
    .project("string")
    .severity("string")
    .userLabels(Map.of("string", "string"))
    .build());

alert_policy_resource = gcp.monitoring.AlertPolicy("alertPolicyResource",
    combiner="string",
    conditions=[gcp.monitoring.AlertPolicyConditionArgs(
        display_name="string",
        condition_absent=gcp.monitoring.AlertPolicyConditionConditionAbsentArgs(
            duration="string",
            aggregations=[gcp.monitoring.AlertPolicyConditionConditionAbsentAggregationArgs(
                alignment_period="string",
                cross_series_reducer="string",
                group_by_fields=["string"],
                per_series_aligner="string",
            )],
            filter="string",
            trigger=gcp.monitoring.AlertPolicyConditionConditionAbsentTriggerArgs(
                count=0,
                percent=0,
            ),
        ),
        condition_matched_log=gcp.monitoring.AlertPolicyConditionConditionMatchedLogArgs(
            filter="string",
            label_extractors={
                "string": "string",
            },
        ),
        condition_monitoring_query_language=gcp.monitoring.AlertPolicyConditionConditionMonitoringQueryLanguageArgs(
            duration="string",
            query="string",
            evaluation_missing_data="string",
            trigger=gcp.monitoring.AlertPolicyConditionConditionMonitoringQueryLanguageTriggerArgs(
                count=0,
                percent=0,
            ),
        ),
        condition_prometheus_query_language=gcp.monitoring.AlertPolicyConditionConditionPrometheusQueryLanguageArgs(
            query="string",
            alert_rule="string",
            duration="string",
            evaluation_interval="string",
            labels={
                "string": "string",
            },
            rule_group="string",
        ),
        condition_threshold=gcp.monitoring.AlertPolicyConditionConditionThresholdArgs(
            comparison="string",
            duration="string",
            aggregations=[gcp.monitoring.AlertPolicyConditionConditionThresholdAggregationArgs(
                alignment_period="string",
                cross_series_reducer="string",
                group_by_fields=["string"],
                per_series_aligner="string",
            )],
            denominator_aggregations=[gcp.monitoring.AlertPolicyConditionConditionThresholdDenominatorAggregationArgs(
                alignment_period="string",
                cross_series_reducer="string",
                group_by_fields=["string"],
                per_series_aligner="string",
            )],
            denominator_filter="string",
            evaluation_missing_data="string",
            filter="string",
            forecast_options=gcp.monitoring.AlertPolicyConditionConditionThresholdForecastOptionsArgs(
                forecast_horizon="string",
            ),
            threshold_value=0,
            trigger=gcp.monitoring.AlertPolicyConditionConditionThresholdTriggerArgs(
                count=0,
                percent=0,
            ),
        ),
        name="string",
    )],
    display_name="string",
    alert_strategy=gcp.monitoring.AlertPolicyAlertStrategyArgs(
        auto_close="string",
        notification_channel_strategies=[gcp.monitoring.AlertPolicyAlertStrategyNotificationChannelStrategyArgs(
            notification_channel_names=["string"],
            renotify_interval="string",
        )],
        notification_rate_limit=gcp.monitoring.AlertPolicyAlertStrategyNotificationRateLimitArgs(
            period="string",
        ),
    ),
    documentation=gcp.monitoring.AlertPolicyDocumentationArgs(
        content="string",
        mime_type="string",
        subject="string",
    ),
    enabled=False,
    notification_channels=["string"],
    project="string",
    severity="string",
    user_labels={
        "string": "string",
    })

const alertPolicyResource = new gcp.monitoring.AlertPolicy("alertPolicyResource", {
    combiner: "string",
    conditions: [{
        displayName: "string",
        conditionAbsent: {
            duration: "string",
            aggregations: [{
                alignmentPeriod: "string",
                crossSeriesReducer: "string",
                groupByFields: ["string"],
                perSeriesAligner: "string",
            }],
            filter: "string",
            trigger: {
                count: 0,
                percent: 0,
            },
        },
        conditionMatchedLog: {
            filter: "string",
            labelExtractors: {
                string: "string",
            },
        },
        conditionMonitoringQueryLanguage: {
            duration: "string",
            query: "string",
            evaluationMissingData: "string",
            trigger: {
                count: 0,
                percent: 0,
            },
        },
        conditionPrometheusQueryLanguage: {
            query: "string",
            alertRule: "string",
            duration: "string",
            evaluationInterval: "string",
            labels: {
                string: "string",
            },
            ruleGroup: "string",
        },
        conditionThreshold: {
            comparison: "string",
            duration: "string",
            aggregations: [{
                alignmentPeriod: "string",
                crossSeriesReducer: "string",
                groupByFields: ["string"],
                perSeriesAligner: "string",
            }],
            denominatorAggregations: [{
                alignmentPeriod: "string",
                crossSeriesReducer: "string",
                groupByFields: ["string"],
                perSeriesAligner: "string",
            }],
            denominatorFilter: "string",
            evaluationMissingData: "string",
            filter: "string",
            forecastOptions: {
                forecastHorizon: "string",
            },
            thresholdValue: 0,
            trigger: {
                count: 0,
                percent: 0,
            },
        },
        name: "string",
    }],
    displayName: "string",
    alertStrategy: {
        autoClose: "string",
        notificationChannelStrategies: [{
            notificationChannelNames: ["string"],
            renotifyInterval: "string",
        }],
        notificationRateLimit: {
            period: "string",
        },
    },
    documentation: {
        content: "string",
        mimeType: "string",
        subject: "string",
    },
    enabled: false,
    notificationChannels: ["string"],
    project: "string",
    severity: "string",
    userLabels: {
        string: "string",
    },
});

type: gcp:monitoring:AlertPolicy
properties:
    alertStrategy:
        autoClose: string
        notificationChannelStrategies:
            - notificationChannelNames:
                - string
              renotifyInterval: string
        notificationRateLimit:
            period: string
    combiner: string
    conditions:
        - conditionAbsent:
            aggregations:
                - alignmentPeriod: string
                  crossSeriesReducer: string
                  groupByFields:
                    - string
                  perSeriesAligner: string
            duration: string
            filter: string
            trigger:
                count: 0
                percent: 0
          conditionMatchedLog:
            filter: string
            labelExtractors:
                string: string
          conditionMonitoringQueryLanguage:
            duration: string
            evaluationMissingData: string
            query: string
            trigger:
                count: 0
                percent: 0
          conditionPrometheusQueryLanguage:
            alertRule: string
            duration: string
            evaluationInterval: string
            labels:
                string: string
            query: string
            ruleGroup: string
          conditionThreshold:
            aggregations:
                - alignmentPeriod: string
                  crossSeriesReducer: string
                  groupByFields:
                    - string
                  perSeriesAligner: string
            comparison: string
            denominatorAggregations:
                - alignmentPeriod: string
                  crossSeriesReducer: string
                  groupByFields:
                    - string
                  perSeriesAligner: string
            denominatorFilter: string
            duration: string
            evaluationMissingData: string
            filter: string
            forecastOptions:
                forecastHorizon: string
            thresholdValue: 0
            trigger:
                count: 0
                percent: 0
          displayName: string
          name: string
    displayName: string
    documentation:
        content: string
        mimeType: string
        subject: string
    enabled: false
    notificationChannels:
        - string
    project: string
    severity: string
    userLabels:
        string: string

AlertPolicy Resource Properties

To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.

Inputs

The AlertPolicy resource accepts the following input properties:

Combiner string: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
Conditions List<AlertPolicyCondition>: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
DisplayName string: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
AlertStrategy AlertPolicyAlertStrategy: Control over how this alert policy's notification channels are notified. Structure is documented below.
Documentation AlertPolicyDocumentation: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
Enabled bool: Whether or not the policy is enabled. The default is true.
NotificationChannels List<string>: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
Project string: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
Severity string: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
UserLabels Dictionary<string, string>: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

Combiner string: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
Conditions []AlertPolicyConditionArgs: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
DisplayName string: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
AlertStrategy AlertPolicyAlertStrategyArgs: Control over how this alert policy's notification channels are notified. Structure is documented below.
Documentation AlertPolicyDocumentationArgs: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
Enabled bool: Whether or not the policy is enabled. The default is true.
NotificationChannels []string: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
Project string: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
Severity string: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
UserLabels map[string]string: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

combiner String: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
conditions List<AlertPolicyCondition>: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
displayName String: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
alertStrategy AlertPolicyAlertStrategy: Control over how this alert policy's notification channels are notified. Structure is documented below.
documentation AlertPolicyDocumentation: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
enabled Boolean: Whether or not the policy is enabled. The default is true.
notificationChannels List<String>: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
project String: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
severity String: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
userLabels Map<String,String>: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

combiner string: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
conditions AlertPolicyCondition[]: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
displayName string: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
alertStrategy AlertPolicyAlertStrategy: Control over how this alert policy's notification channels are notified. Structure is documented below.
documentation AlertPolicyDocumentation: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
enabled boolean: Whether or not the policy is enabled. The default is true.
notificationChannels string[]: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
project string: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
severity string: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
userLabels {[key: string]: string}: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

combiner str: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
conditions Sequence[AlertPolicyConditionArgs]: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
display_name str: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
alert_strategy AlertPolicyAlertStrategyArgs: Control over how this alert policy's notification channels are notified. Structure is documented below.
documentation AlertPolicyDocumentationArgs: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
enabled bool: Whether or not the policy is enabled. The default is true.
notification_channels Sequence[str]: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
project str: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
severity str: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
user_labels Mapping[str, str]: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

combiner String: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
conditions List<Property Map>: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
displayName String: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
alertStrategy Property Map: Control over how this alert policy's notification channels are notified. Structure is documented below.
documentation Property Map: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
enabled Boolean: Whether or not the policy is enabled. The default is true.
notificationChannels List<String>: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
project String: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
severity String: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
userLabels Map<String>: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

Outputs

All input properties are implicitly available as output properties. Additionally, the AlertPolicy resource produces the following output properties:

CreationRecords List<AlertPolicyCreationRecord>: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
Id string: The provider-assigned unique ID for this managed resource.
Name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

CreationRecords []AlertPolicyCreationRecord: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
Id string: The provider-assigned unique ID for this managed resource.
Name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

creationRecords List<AlertPolicyCreationRecord>: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
id String: The provider-assigned unique ID for this managed resource.
name String: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

creationRecords AlertPolicyCreationRecord[]: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
id string: The provider-assigned unique ID for this managed resource.
name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

creation_records Sequence[AlertPolicyCreationRecord]: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
id str: The provider-assigned unique ID for this managed resource.
name str: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

creationRecords List<Property Map>: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
id String: The provider-assigned unique ID for this managed resource.
name String: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

Look up Existing AlertPolicy Resource

Get an existing AlertPolicy resource’s state with the given name, ID, and optional extra properties used to qualify the lookup.

public static get(name: string, id: Input<ID>, state?: AlertPolicyState, opts?: CustomResourceOptions): AlertPolicy

@staticmethod
def get(resource_name: str,
        id: str,
        opts: Optional[ResourceOptions] = None,
        alert_strategy: Optional[AlertPolicyAlertStrategyArgs] = None,
        combiner: Optional[str] = None,
        conditions: Optional[Sequence[AlertPolicyConditionArgs]] = None,
        creation_records: Optional[Sequence[AlertPolicyCreationRecordArgs]] = None,
        display_name: Optional[str] = None,
        documentation: Optional[AlertPolicyDocumentationArgs] = None,
        enabled: Optional[bool] = None,
        name: Optional[str] = None,
        notification_channels: Optional[Sequence[str]] = None,
        project: Optional[str] = None,
        severity: Optional[str] = None,
        user_labels: Optional[Mapping[str, str]] = None) -> AlertPolicy

func GetAlertPolicy(ctx *Context, name string, id IDInput, state *AlertPolicyState, opts ...ResourceOption) (*AlertPolicy, error)

public static AlertPolicy Get(string name, Input<string> id, AlertPolicyState? state, CustomResourceOptions? opts = null)

public static AlertPolicy get(String name, Output<String> id, AlertPolicyState state, CustomResourceOptions options)

Resource lookup is not supported in YAML

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

resource_name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

The following state arguments are supported:

AlertStrategy AlertPolicyAlertStrategy: Control over how this alert policy's notification channels are notified. Structure is documented below.
Combiner string: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
Conditions List<AlertPolicyCondition>: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
CreationRecords List<AlertPolicyCreationRecord>: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
DisplayName string: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
Documentation AlertPolicyDocumentation: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
Enabled bool: Whether or not the policy is enabled. The default is true.
Name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.
NotificationChannels List<string>: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
Project string: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
Severity string: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
UserLabels Dictionary<string, string>: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

AlertStrategy AlertPolicyAlertStrategyArgs: Control over how this alert policy's notification channels are notified. Structure is documented below.
Combiner string: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
Conditions []AlertPolicyConditionArgs: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
CreationRecords []AlertPolicyCreationRecordArgs: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
DisplayName string: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
Documentation AlertPolicyDocumentationArgs: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
Enabled bool: Whether or not the policy is enabled. The default is true.
Name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.
NotificationChannels []string: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
Project string: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
Severity string: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
UserLabels map[string]string: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

alertStrategy AlertPolicyAlertStrategy: Control over how this alert policy's notification channels are notified. Structure is documented below.
combiner String: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
conditions List<AlertPolicyCondition>: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
creationRecords List<AlertPolicyCreationRecord>: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
displayName String: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
documentation AlertPolicyDocumentation: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
enabled Boolean: Whether or not the policy is enabled. The default is true.
name String: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.
notificationChannels List<String>: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
project String: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
severity String: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
userLabels Map<String,String>: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

alertStrategy AlertPolicyAlertStrategy: Control over how this alert policy's notification channels are notified. Structure is documented below.
combiner string: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
conditions AlertPolicyCondition[]: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
creationRecords AlertPolicyCreationRecord[]: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
displayName string: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
documentation AlertPolicyDocumentation: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
enabled boolean: Whether or not the policy is enabled. The default is true.
name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.
notificationChannels string[]: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
project string: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
severity string: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
userLabels {[key: string]: string}: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

alert_strategy AlertPolicyAlertStrategyArgs: Control over how this alert policy's notification channels are notified. Structure is documented below.
combiner str: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
conditions Sequence[AlertPolicyConditionArgs]: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
creation_records Sequence[AlertPolicyCreationRecordArgs]: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
display_name str: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
documentation AlertPolicyDocumentationArgs: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
enabled bool: Whether or not the policy is enabled. The default is true.
name str: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.
notification_channels Sequence[str]: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
project str: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
severity str: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
user_labels Mapping[str, str]: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

alertStrategy Property Map: Control over how this alert policy's notification channels are notified. Structure is documented below.
combiner String: How to combine the results of multiple conditions to determine if an incident should be opened. Possible values are: AND, OR, AND_WITH_MATCHING_RESOURCE.
conditions List<Property Map>: A list of conditions for the policy. The conditions are combined by AND or OR according to the combiner field. If the combined conditions evaluate to true, then an incident is created. A policy can have from one to six conditions. Structure is documented below.
creationRecords List<Property Map>: A read-only record of the creation of the alerting policy. If provided in a call to create or update, this field will be ignored. Structure is documented below.
displayName String: A short name or phrase used to identify the policy in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple policies in the same project. The name is limited to 512 Unicode characters.
documentation Property Map: Documentation that is included with notifications and incidents related to this policy. Best practice is for the documentation to include information to help responders understand, mitigate, escalate, and correct the underlying problems detected by the alerting policy. Notification channels that have limited capacity might not show this documentation. Structure is documented below.
enabled Boolean: Whether or not the policy is enabled. The default is true.
name String: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.
notificationChannels List<String>: Identifies the notification channels to which notifications should be sent when incidents are opened or closed or when new violations occur on an already opened incident. Each element of this array corresponds to the name field in each of the NotificationChannel objects that are returned from the notificationChannels.list method. The syntax of the entries in this field is projects/[PROJECT_ID]/notificationChannels/[CHANNEL_ID]
project String: The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
severity String: The severity of an alert policy indicates how important incidents generated by that policy are. The severity level will be displayed on the Incident detail page and in notifications. Possible values are: CRITICAL, ERROR, WARNING.
userLabels Map<String>: This field is intended to be used for organizing and identifying the AlertPolicy objects.The field can contain up to 64 entries. Each key and value is limited to 63 Unicode characters or 128 bytes, whichever is smaller. Labels and values can contain only lowercase letters, numerals, underscores, and dashes. Keys must begin with a letter.

Supporting Types

AlertPolicyAlertStrategy, AlertPolicyAlertStrategyArgs

AutoClose string: If an alert policy that was active has no data for this long, any open incidents will close.
NotificationChannelStrategies List<AlertPolicyAlertStrategyNotificationChannelStrategy>: Control over how the notification channels in notification_channels are notified when this alert fires, on a per-channel basis. Structure is documented below.
NotificationRateLimit AlertPolicyAlertStrategyNotificationRateLimit: Required for alert policies with a LogMatch condition. This limit is not implemented for alert policies that are not log-based. Structure is documented below.

AutoClose string: If an alert policy that was active has no data for this long, any open incidents will close.
NotificationChannelStrategies []AlertPolicyAlertStrategyNotificationChannelStrategy: Control over how the notification channels in notification_channels are notified when this alert fires, on a per-channel basis. Structure is documented below.
NotificationRateLimit AlertPolicyAlertStrategyNotificationRateLimit: Required for alert policies with a LogMatch condition. This limit is not implemented for alert policies that are not log-based. Structure is documented below.

autoClose String: If an alert policy that was active has no data for this long, any open incidents will close.
notificationChannelStrategies List<AlertPolicyAlertStrategyNotificationChannelStrategy>: Control over how the notification channels in notification_channels are notified when this alert fires, on a per-channel basis. Structure is documented below.
notificationRateLimit AlertPolicyAlertStrategyNotificationRateLimit: Required for alert policies with a LogMatch condition. This limit is not implemented for alert policies that are not log-based. Structure is documented below.

autoClose string: If an alert policy that was active has no data for this long, any open incidents will close.
notificationChannelStrategies AlertPolicyAlertStrategyNotificationChannelStrategy[]: Control over how the notification channels in notification_channels are notified when this alert fires, on a per-channel basis. Structure is documented below.
notificationRateLimit AlertPolicyAlertStrategyNotificationRateLimit: Required for alert policies with a LogMatch condition. This limit is not implemented for alert policies that are not log-based. Structure is documented below.

auto_close str: If an alert policy that was active has no data for this long, any open incidents will close.
notification_channel_strategies Sequence[AlertPolicyAlertStrategyNotificationChannelStrategy]: Control over how the notification channels in notification_channels are notified when this alert fires, on a per-channel basis. Structure is documented below.
notification_rate_limit AlertPolicyAlertStrategyNotificationRateLimit: Required for alert policies with a LogMatch condition. This limit is not implemented for alert policies that are not log-based. Structure is documented below.

autoClose String: If an alert policy that was active has no data for this long, any open incidents will close.
notificationChannelStrategies List<Property Map>: Control over how the notification channels in notification_channels are notified when this alert fires, on a per-channel basis. Structure is documented below.
notificationRateLimit Property Map: Required for alert policies with a LogMatch condition. This limit is not implemented for alert policies that are not log-based. Structure is documented below.

AlertPolicyAlertStrategyNotificationChannelStrategy, AlertPolicyAlertStrategyNotificationChannelStrategyArgs

NotificationChannelNames List<string>: The notification channels that these settings apply to. Each of these correspond to the name field in one of the NotificationChannel objects referenced in the notification_channels field of this AlertPolicy. The format is projects/[PROJECT_ID_OR_NUMBER]/notificationChannels/[CHANNEL_ID]
RenotifyInterval string: The frequency at which to send reminder notifications for open incidents.

NotificationChannelNames []string: The notification channels that these settings apply to. Each of these correspond to the name field in one of the NotificationChannel objects referenced in the notification_channels field of this AlertPolicy. The format is projects/[PROJECT_ID_OR_NUMBER]/notificationChannels/[CHANNEL_ID]
RenotifyInterval string: The frequency at which to send reminder notifications for open incidents.

notificationChannelNames List<String>: The notification channels that these settings apply to. Each of these correspond to the name field in one of the NotificationChannel objects referenced in the notification_channels field of this AlertPolicy. The format is projects/[PROJECT_ID_OR_NUMBER]/notificationChannels/[CHANNEL_ID]
renotifyInterval String: The frequency at which to send reminder notifications for open incidents.

notificationChannelNames string[]: The notification channels that these settings apply to. Each of these correspond to the name field in one of the NotificationChannel objects referenced in the notification_channels field of this AlertPolicy. The format is projects/[PROJECT_ID_OR_NUMBER]/notificationChannels/[CHANNEL_ID]
renotifyInterval string: The frequency at which to send reminder notifications for open incidents.

notification_channel_names Sequence[str]: The notification channels that these settings apply to. Each of these correspond to the name field in one of the NotificationChannel objects referenced in the notification_channels field of this AlertPolicy. The format is projects/[PROJECT_ID_OR_NUMBER]/notificationChannels/[CHANNEL_ID]
renotify_interval str: The frequency at which to send reminder notifications for open incidents.

notificationChannelNames List<String>: The notification channels that these settings apply to. Each of these correspond to the name field in one of the NotificationChannel objects referenced in the notification_channels field of this AlertPolicy. The format is projects/[PROJECT_ID_OR_NUMBER]/notificationChannels/[CHANNEL_ID]
renotifyInterval String: The frequency at which to send reminder notifications for open incidents.

AlertPolicyAlertStrategyNotificationRateLimit, AlertPolicyAlertStrategyNotificationRateLimitArgs

Period string: Not more than one notification per period. A duration in seconds with up to nine fractional digits, terminated by 's'. Example "60.5s".

Period string: Not more than one notification per period. A duration in seconds with up to nine fractional digits, terminated by 's'. Example "60.5s".

period String: Not more than one notification per period. A duration in seconds with up to nine fractional digits, terminated by 's'. Example "60.5s".

period string: Not more than one notification per period. A duration in seconds with up to nine fractional digits, terminated by 's'. Example "60.5s".

period str: Not more than one notification per period. A duration in seconds with up to nine fractional digits, terminated by 's'. Example "60.5s".

period String: Not more than one notification per period. A duration in seconds with up to nine fractional digits, terminated by 's'. Example "60.5s".

AlertPolicyCondition, AlertPolicyConditionArgs

DisplayName string: A short name or phrase used to identify the condition in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple conditions in the same policy.
ConditionAbsent AlertPolicyConditionConditionAbsent: A condition that checks that a time series continues to receive new data points. Structure is documented below.
ConditionMatchedLog AlertPolicyConditionConditionMatchedLog: A condition that checks for log messages matching given constraints. If set, no other conditions can be present. Structure is documented below.
ConditionMonitoringQueryLanguage AlertPolicyConditionConditionMonitoringQueryLanguage: A Monitoring Query Language query that outputs a boolean stream Structure is documented below.
ConditionPrometheusQueryLanguage AlertPolicyConditionConditionPrometheusQueryLanguage: A condition type that allows alert policies to be defined using Prometheus Query Language (PromQL). The PrometheusQueryLanguageCondition message contains information from a Prometheus alerting rule and its associated rule group. Structure is documented below.
ConditionThreshold AlertPolicyConditionConditionThreshold: A condition that compares a time series against a threshold. Structure is documented below.
Name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

DisplayName string: A short name or phrase used to identify the condition in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple conditions in the same policy.
ConditionAbsent AlertPolicyConditionConditionAbsent: A condition that checks that a time series continues to receive new data points. Structure is documented below.
ConditionMatchedLog AlertPolicyConditionConditionMatchedLog: A condition that checks for log messages matching given constraints. If set, no other conditions can be present. Structure is documented below.
ConditionMonitoringQueryLanguage AlertPolicyConditionConditionMonitoringQueryLanguage: A Monitoring Query Language query that outputs a boolean stream Structure is documented below.
ConditionPrometheusQueryLanguage AlertPolicyConditionConditionPrometheusQueryLanguage: A condition type that allows alert policies to be defined using Prometheus Query Language (PromQL). The PrometheusQueryLanguageCondition message contains information from a Prometheus alerting rule and its associated rule group. Structure is documented below.
ConditionThreshold AlertPolicyConditionConditionThreshold: A condition that compares a time series against a threshold. Structure is documented below.
Name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

displayName String: A short name or phrase used to identify the condition in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple conditions in the same policy.
conditionAbsent AlertPolicyConditionConditionAbsent: A condition that checks that a time series continues to receive new data points. Structure is documented below.
conditionMatchedLog AlertPolicyConditionConditionMatchedLog: A condition that checks for log messages matching given constraints. If set, no other conditions can be present. Structure is documented below.
conditionMonitoringQueryLanguage AlertPolicyConditionConditionMonitoringQueryLanguage: A Monitoring Query Language query that outputs a boolean stream Structure is documented below.
conditionPrometheusQueryLanguage AlertPolicyConditionConditionPrometheusQueryLanguage: A condition type that allows alert policies to be defined using Prometheus Query Language (PromQL). The PrometheusQueryLanguageCondition message contains information from a Prometheus alerting rule and its associated rule group. Structure is documented below.
conditionThreshold AlertPolicyConditionConditionThreshold: A condition that compares a time series against a threshold. Structure is documented below.
name String: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

displayName string: A short name or phrase used to identify the condition in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple conditions in the same policy.
conditionAbsent AlertPolicyConditionConditionAbsent: A condition that checks that a time series continues to receive new data points. Structure is documented below.
conditionMatchedLog AlertPolicyConditionConditionMatchedLog: A condition that checks for log messages matching given constraints. If set, no other conditions can be present. Structure is documented below.
conditionMonitoringQueryLanguage AlertPolicyConditionConditionMonitoringQueryLanguage: A Monitoring Query Language query that outputs a boolean stream Structure is documented below.
conditionPrometheusQueryLanguage AlertPolicyConditionConditionPrometheusQueryLanguage: A condition type that allows alert policies to be defined using Prometheus Query Language (PromQL). The PrometheusQueryLanguageCondition message contains information from a Prometheus alerting rule and its associated rule group. Structure is documented below.
conditionThreshold AlertPolicyConditionConditionThreshold: A condition that compares a time series against a threshold. Structure is documented below.
name string: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

display_name str: A short name or phrase used to identify the condition in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple conditions in the same policy.
condition_absent AlertPolicyConditionConditionAbsent: A condition that checks that a time series continues to receive new data points. Structure is documented below.
condition_matched_log AlertPolicyConditionConditionMatchedLog: A condition that checks for log messages matching given constraints. If set, no other conditions can be present. Structure is documented below.
condition_monitoring_query_language AlertPolicyConditionConditionMonitoringQueryLanguage: A Monitoring Query Language query that outputs a boolean stream Structure is documented below.
condition_prometheus_query_language AlertPolicyConditionConditionPrometheusQueryLanguage: A condition type that allows alert policies to be defined using Prometheus Query Language (PromQL). The PrometheusQueryLanguageCondition message contains information from a Prometheus alerting rule and its associated rule group. Structure is documented below.
condition_threshold AlertPolicyConditionConditionThreshold: A condition that compares a time series against a threshold. Structure is documented below.
name str: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

displayName String: A short name or phrase used to identify the condition in dashboards, notifications, and incidents. To avoid confusion, don't use the same display name for multiple conditions in the same policy.
conditionAbsent Property Map: A condition that checks that a time series continues to receive new data points. Structure is documented below.
conditionMatchedLog Property Map: A condition that checks for log messages matching given constraints. If set, no other conditions can be present. Structure is documented below.
conditionMonitoringQueryLanguage Property Map: A Monitoring Query Language query that outputs a boolean stream Structure is documented below.
conditionPrometheusQueryLanguage Property Map: A condition type that allows alert policies to be defined using Prometheus Query Language (PromQL). The PrometheusQueryLanguageCondition message contains information from a Prometheus alerting rule and its associated rule group. Structure is documented below.
conditionThreshold Property Map: A condition that compares a time series against a threshold. Structure is documented below.
name String: (Output) The unique resource name for this condition. Its syntax is: projects/[PROJECT_ID]/alertPolicies/[POLICY_ID]/conditions/[CONDITION_ID] [CONDITION_ID] is assigned by Stackdriver Monitoring when the condition is created as part of a new or updated alerting policy.

AlertPolicyConditionConditionAbsent, AlertPolicyConditionConditionAbsentArgs

Duration string: The amount of time that a time series must fail to report new data to be considered failing. Currently, only values that are a multiple of a minute--e.g. 60s, 120s, or 300s --are supported.
Aggregations List<AlertPolicyConditionConditionAbsentAggregation>: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified. Structure is documented below.
Filter string: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
Trigger AlertPolicyConditionConditionAbsentTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations. Structure is documented below.

Duration string: The amount of time that a time series must fail to report new data to be considered failing. Currently, only values that are a multiple of a minute--e.g. 60s, 120s, or 300s --are supported.
Aggregations []AlertPolicyConditionConditionAbsentAggregation: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified. Structure is documented below.
Filter string: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
Trigger AlertPolicyConditionConditionAbsentTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations. Structure is documented below.

duration String: The amount of time that a time series must fail to report new data to be considered failing. Currently, only values that are a multiple of a minute--e.g. 60s, 120s, or 300s --are supported.
aggregations List<AlertPolicyConditionConditionAbsentAggregation>: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified. Structure is documented below.
filter String: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
trigger AlertPolicyConditionConditionAbsentTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations. Structure is documented below.

duration string: The amount of time that a time series must fail to report new data to be considered failing. Currently, only values that are a multiple of a minute--e.g. 60s, 120s, or 300s --are supported.
aggregations AlertPolicyConditionConditionAbsentAggregation[]: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified. Structure is documented below.
filter string: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
trigger AlertPolicyConditionConditionAbsentTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations. Structure is documented below.

duration str: The amount of time that a time series must fail to report new data to be considered failing. Currently, only values that are a multiple of a minute--e.g. 60s, 120s, or 300s --are supported.
aggregations Sequence[AlertPolicyConditionConditionAbsentAggregation]: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified. Structure is documented below.
filter str: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
trigger AlertPolicyConditionConditionAbsentTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations. Structure is documented below.

duration String: The amount of time that a time series must fail to report new data to be considered failing. Currently, only values that are a multiple of a minute--e.g. 60s, 120s, or 300s --are supported.
aggregations List<Property Map>: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified. Structure is documented below.
filter String: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
trigger Property Map: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations. Structure is documented below.

AlertPolicyConditionConditionAbsentAggregation, AlertPolicyConditionConditionAbsentAggregationArgs

AlignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
CrossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
GroupByFields List<string>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
PerSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

AlignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
CrossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
GroupByFields []string: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
PerSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod String: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer String: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields List<String>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner String: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields string[]: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignment_period str: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
cross_series_reducer str: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
group_by_fields Sequence[str]: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
per_series_aligner str: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod String: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer String: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields List<String>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner String: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

AlertPolicyConditionConditionAbsentTrigger, AlertPolicyConditionConditionAbsentTriggerArgs

Count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
Percent double: The percentage of time series that must fail the predicate for the condition to be triggered.

Count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
Percent float64: The percentage of time series that must fail the predicate for the condition to be triggered.

count Integer: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent Double: The percentage of time series that must fail the predicate for the condition to be triggered.

count number: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent number: The percentage of time series that must fail the predicate for the condition to be triggered.

count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent float: The percentage of time series that must fail the predicate for the condition to be triggered.

count Number: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent Number: The percentage of time series that must fail the predicate for the condition to be triggered.

AlertPolicyConditionConditionMatchedLog, AlertPolicyConditionConditionMatchedLogArgs

Filter string: A logs-based filter.
LabelExtractors Dictionary<string, string>: A map from a label key to an extractor expression, which is used to extract the value for this label key. Each entry in this map is a specification for how data should be extracted from log entries that match filter. Each combination of extracted values is treated as a separate rule for the purposes of triggering notifications. Label keys and corresponding values can be used in notifications generated by this condition.

Filter string: A logs-based filter.
LabelExtractors map[string]string: A map from a label key to an extractor expression, which is used to extract the value for this label key. Each entry in this map is a specification for how data should be extracted from log entries that match filter. Each combination of extracted values is treated as a separate rule for the purposes of triggering notifications. Label keys and corresponding values can be used in notifications generated by this condition.

filter String: A logs-based filter.
labelExtractors Map<String,String>: A map from a label key to an extractor expression, which is used to extract the value for this label key. Each entry in this map is a specification for how data should be extracted from log entries that match filter. Each combination of extracted values is treated as a separate rule for the purposes of triggering notifications. Label keys and corresponding values can be used in notifications generated by this condition.

filter string: A logs-based filter.
labelExtractors {[key: string]: string}: A map from a label key to an extractor expression, which is used to extract the value for this label key. Each entry in this map is a specification for how data should be extracted from log entries that match filter. Each combination of extracted values is treated as a separate rule for the purposes of triggering notifications. Label keys and corresponding values can be used in notifications generated by this condition.

filter str: A logs-based filter.
label_extractors Mapping[str, str]: A map from a label key to an extractor expression, which is used to extract the value for this label key. Each entry in this map is a specification for how data should be extracted from log entries that match filter. Each combination of extracted values is treated as a separate rule for the purposes of triggering notifications. Label keys and corresponding values can be used in notifications generated by this condition.

filter String: A logs-based filter.
labelExtractors Map<String>: A map from a label key to an extractor expression, which is used to extract the value for this label key. Each entry in this map is a specification for how data should be extracted from log entries that match filter. Each combination of extracted values is treated as a separate rule for the purposes of triggering notifications. Label keys and corresponding values can be used in notifications generated by this condition.

AlertPolicyConditionConditionMonitoringQueryLanguage, AlertPolicyConditionConditionMonitoringQueryLanguageArgs

Duration string: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
Query string: Monitoring Query Language query that outputs a boolean stream.
EvaluationMissingData string: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
Trigger AlertPolicyConditionConditionMonitoringQueryLanguageTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

Duration string: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
Query string: Monitoring Query Language query that outputs a boolean stream.
EvaluationMissingData string: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
Trigger AlertPolicyConditionConditionMonitoringQueryLanguageTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

duration String: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
query String: Monitoring Query Language query that outputs a boolean stream.
evaluationMissingData String: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
trigger AlertPolicyConditionConditionMonitoringQueryLanguageTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

duration string: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
query string: Monitoring Query Language query that outputs a boolean stream.
evaluationMissingData string: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
trigger AlertPolicyConditionConditionMonitoringQueryLanguageTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

duration str: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
query str: Monitoring Query Language query that outputs a boolean stream.
evaluation_missing_data str: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
trigger AlertPolicyConditionConditionMonitoringQueryLanguageTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

duration String: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
query String: Monitoring Query Language query that outputs a boolean stream.
evaluationMissingData String: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
trigger Property Map: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

AlertPolicyConditionConditionMonitoringQueryLanguageTrigger, AlertPolicyConditionConditionMonitoringQueryLanguageTriggerArgs

Count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
Percent double: The percentage of time series that must fail the predicate for the condition to be triggered.

Count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
Percent float64: The percentage of time series that must fail the predicate for the condition to be triggered.

count Integer: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent Double: The percentage of time series that must fail the predicate for the condition to be triggered.

count number: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent number: The percentage of time series that must fail the predicate for the condition to be triggered.

count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent float: The percentage of time series that must fail the predicate for the condition to be triggered.

count Number: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent Number: The percentage of time series that must fail the predicate for the condition to be triggered.

AlertPolicyConditionConditionPrometheusQueryLanguage, AlertPolicyConditionConditionPrometheusQueryLanguageArgs

Query string: The PromQL expression to evaluate. Every evaluation cycle this expression is evaluated at the current time, and all resultant time series become pending/firing alerts. This field must not be empty.
AlertRule string: The alerting rule name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional. If this field is not empty, then it must be a valid Prometheus label name.
Duration string: Alerts are considered firing once their PromQL expression evaluated to be "true" for this long. Alerts whose PromQL expression was not evaluated to be "true" for long enough are considered pending. The default value is zero. Must be zero or positive.
EvaluationInterval string: How often this rule should be evaluated. Must be a positive multiple of 30 seconds or missing. The default value is 30 seconds. If this PrometheusQueryLanguageCondition was generated from a Prometheus alerting rule, then this value should be taken from the enclosing rule group.
Labels Dictionary<string, string>: Labels to add to or overwrite in the PromQL query result. Label names must be valid. Label values can be templatized by using variables. The only available variable names are the names of the labels in the PromQL result, including "name" and "value". "labels" may be empty. This field is intended to be used for organizing and identifying the AlertPolicy
RuleGroup string: The rule group name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional.

Query string: The PromQL expression to evaluate. Every evaluation cycle this expression is evaluated at the current time, and all resultant time series become pending/firing alerts. This field must not be empty.
AlertRule string: The alerting rule name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional. If this field is not empty, then it must be a valid Prometheus label name.
Duration string: Alerts are considered firing once their PromQL expression evaluated to be "true" for this long. Alerts whose PromQL expression was not evaluated to be "true" for long enough are considered pending. The default value is zero. Must be zero or positive.
EvaluationInterval string: How often this rule should be evaluated. Must be a positive multiple of 30 seconds or missing. The default value is 30 seconds. If this PrometheusQueryLanguageCondition was generated from a Prometheus alerting rule, then this value should be taken from the enclosing rule group.
Labels map[string]string: Labels to add to or overwrite in the PromQL query result. Label names must be valid. Label values can be templatized by using variables. The only available variable names are the names of the labels in the PromQL result, including "name" and "value". "labels" may be empty. This field is intended to be used for organizing and identifying the AlertPolicy
RuleGroup string: The rule group name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional.

query String: The PromQL expression to evaluate. Every evaluation cycle this expression is evaluated at the current time, and all resultant time series become pending/firing alerts. This field must not be empty.
alertRule String: The alerting rule name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional. If this field is not empty, then it must be a valid Prometheus label name.
duration String: Alerts are considered firing once their PromQL expression evaluated to be "true" for this long. Alerts whose PromQL expression was not evaluated to be "true" for long enough are considered pending. The default value is zero. Must be zero or positive.
evaluationInterval String: How often this rule should be evaluated. Must be a positive multiple of 30 seconds or missing. The default value is 30 seconds. If this PrometheusQueryLanguageCondition was generated from a Prometheus alerting rule, then this value should be taken from the enclosing rule group.
labels Map<String,String>: Labels to add to or overwrite in the PromQL query result. Label names must be valid. Label values can be templatized by using variables. The only available variable names are the names of the labels in the PromQL result, including "name" and "value". "labels" may be empty. This field is intended to be used for organizing and identifying the AlertPolicy
ruleGroup String: The rule group name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional.

query string: The PromQL expression to evaluate. Every evaluation cycle this expression is evaluated at the current time, and all resultant time series become pending/firing alerts. This field must not be empty.
alertRule string: The alerting rule name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional. If this field is not empty, then it must be a valid Prometheus label name.
duration string: Alerts are considered firing once their PromQL expression evaluated to be "true" for this long. Alerts whose PromQL expression was not evaluated to be "true" for long enough are considered pending. The default value is zero. Must be zero or positive.
evaluationInterval string: How often this rule should be evaluated. Must be a positive multiple of 30 seconds or missing. The default value is 30 seconds. If this PrometheusQueryLanguageCondition was generated from a Prometheus alerting rule, then this value should be taken from the enclosing rule group.
labels {[key: string]: string}: Labels to add to or overwrite in the PromQL query result. Label names must be valid. Label values can be templatized by using variables. The only available variable names are the names of the labels in the PromQL result, including "name" and "value". "labels" may be empty. This field is intended to be used for organizing and identifying the AlertPolicy
ruleGroup string: The rule group name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional.

query str: The PromQL expression to evaluate. Every evaluation cycle this expression is evaluated at the current time, and all resultant time series become pending/firing alerts. This field must not be empty.
alert_rule str: The alerting rule name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional. If this field is not empty, then it must be a valid Prometheus label name.
duration str: Alerts are considered firing once their PromQL expression evaluated to be "true" for this long. Alerts whose PromQL expression was not evaluated to be "true" for long enough are considered pending. The default value is zero. Must be zero or positive.
evaluation_interval str: How often this rule should be evaluated. Must be a positive multiple of 30 seconds or missing. The default value is 30 seconds. If this PrometheusQueryLanguageCondition was generated from a Prometheus alerting rule, then this value should be taken from the enclosing rule group.
labels Mapping[str, str]: Labels to add to or overwrite in the PromQL query result. Label names must be valid. Label values can be templatized by using variables. The only available variable names are the names of the labels in the PromQL result, including "name" and "value". "labels" may be empty. This field is intended to be used for organizing and identifying the AlertPolicy
rule_group str: The rule group name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional.

query String: The PromQL expression to evaluate. Every evaluation cycle this expression is evaluated at the current time, and all resultant time series become pending/firing alerts. This field must not be empty.
alertRule String: The alerting rule name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional. If this field is not empty, then it must be a valid Prometheus label name.
duration String: Alerts are considered firing once their PromQL expression evaluated to be "true" for this long. Alerts whose PromQL expression was not evaluated to be "true" for long enough are considered pending. The default value is zero. Must be zero or positive.
evaluationInterval String: How often this rule should be evaluated. Must be a positive multiple of 30 seconds or missing. The default value is 30 seconds. If this PrometheusQueryLanguageCondition was generated from a Prometheus alerting rule, then this value should be taken from the enclosing rule group.
labels Map<String>: Labels to add to or overwrite in the PromQL query result. Label names must be valid. Label values can be templatized by using variables. The only available variable names are the names of the labels in the PromQL result, including "name" and "value". "labels" may be empty. This field is intended to be used for organizing and identifying the AlertPolicy
ruleGroup String: The rule group name of this alert in the corresponding Prometheus configuration file. Some external tools may require this field to be populated correctly in order to refer to the original Prometheus configuration file. The rule group name and the alert name are necessary to update the relevant AlertPolicies in case the definition of the rule group changes in the future. This field is optional.

AlertPolicyConditionConditionThreshold, AlertPolicyConditionConditionThresholdArgs

Comparison string: The comparison to apply between the time series (indicated by filter and aggregation) and the threshold (indicated by threshold_value). The comparison is applied on each time series, with the time series on the left-hand side and the threshold on the right-hand side. Only COMPARISON_LT and COMPARISON_GT are supported currently. Possible values are: COMPARISON_GT, COMPARISON_GE, COMPARISON_LT, COMPARISON_LE, COMPARISON_EQ, COMPARISON_NE.
Duration string: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
Aggregations List<AlertPolicyConditionConditionThresholdAggregation>: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
DenominatorAggregations List<AlertPolicyConditionConditionThresholdDenominatorAggregation>: Specifies the alignment of data points in individual time series selected by denominatorFilter as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources).When computing ratios, the aggregations and denominator_aggregations fields must use the same alignment period and produce time series that have the same periodicity and labels.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
DenominatorFilter string: A filter that identifies a time series that should be used as the denominator of a ratio that will be compared with the threshold. If a denominator_filter is specified, the time series specified by the filter field will be used as the numerator.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
EvaluationMissingData string: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
Filter string: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
ForecastOptions AlertPolicyConditionConditionThresholdForecastOptions: When this field is present, the MetricThreshold condition forecasts whether the time series is predicted to violate the threshold within the forecastHorizon. When this field is not set, the MetricThreshold tests the current value of the timeseries against the threshold. Structure is documented below.
ThresholdValue double: A value against which to compare the time series.
Trigger AlertPolicyConditionConditionThresholdTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

Comparison string: The comparison to apply between the time series (indicated by filter and aggregation) and the threshold (indicated by threshold_value). The comparison is applied on each time series, with the time series on the left-hand side and the threshold on the right-hand side. Only COMPARISON_LT and COMPARISON_GT are supported currently. Possible values are: COMPARISON_GT, COMPARISON_GE, COMPARISON_LT, COMPARISON_LE, COMPARISON_EQ, COMPARISON_NE.
Duration string: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
Aggregations []AlertPolicyConditionConditionThresholdAggregation: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
DenominatorAggregations []AlertPolicyConditionConditionThresholdDenominatorAggregation: Specifies the alignment of data points in individual time series selected by denominatorFilter as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources).When computing ratios, the aggregations and denominator_aggregations fields must use the same alignment period and produce time series that have the same periodicity and labels.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
DenominatorFilter string: A filter that identifies a time series that should be used as the denominator of a ratio that will be compared with the threshold. If a denominator_filter is specified, the time series specified by the filter field will be used as the numerator.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
EvaluationMissingData string: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
Filter string: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
ForecastOptions AlertPolicyConditionConditionThresholdForecastOptions: When this field is present, the MetricThreshold condition forecasts whether the time series is predicted to violate the threshold within the forecastHorizon. When this field is not set, the MetricThreshold tests the current value of the timeseries against the threshold. Structure is documented below.
ThresholdValue float64: A value against which to compare the time series.
Trigger AlertPolicyConditionConditionThresholdTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

comparison String: The comparison to apply between the time series (indicated by filter and aggregation) and the threshold (indicated by threshold_value). The comparison is applied on each time series, with the time series on the left-hand side and the threshold on the right-hand side. Only COMPARISON_LT and COMPARISON_GT are supported currently. Possible values are: COMPARISON_GT, COMPARISON_GE, COMPARISON_LT, COMPARISON_LE, COMPARISON_EQ, COMPARISON_NE.
duration String: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
aggregations List<AlertPolicyConditionConditionThresholdAggregation>: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
denominatorAggregations List<AlertPolicyConditionConditionThresholdDenominatorAggregation>: Specifies the alignment of data points in individual time series selected by denominatorFilter as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources).When computing ratios, the aggregations and denominator_aggregations fields must use the same alignment period and produce time series that have the same periodicity and labels.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
denominatorFilter String: A filter that identifies a time series that should be used as the denominator of a ratio that will be compared with the threshold. If a denominator_filter is specified, the time series specified by the filter field will be used as the numerator.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
evaluationMissingData String: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
filter String: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
forecastOptions AlertPolicyConditionConditionThresholdForecastOptions: When this field is present, the MetricThreshold condition forecasts whether the time series is predicted to violate the threshold within the forecastHorizon. When this field is not set, the MetricThreshold tests the current value of the timeseries against the threshold. Structure is documented below.
thresholdValue Double: A value against which to compare the time series.
trigger AlertPolicyConditionConditionThresholdTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

comparison string: The comparison to apply between the time series (indicated by filter and aggregation) and the threshold (indicated by threshold_value). The comparison is applied on each time series, with the time series on the left-hand side and the threshold on the right-hand side. Only COMPARISON_LT and COMPARISON_GT are supported currently. Possible values are: COMPARISON_GT, COMPARISON_GE, COMPARISON_LT, COMPARISON_LE, COMPARISON_EQ, COMPARISON_NE.
duration string: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
aggregations AlertPolicyConditionConditionThresholdAggregation[]: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
denominatorAggregations AlertPolicyConditionConditionThresholdDenominatorAggregation[]: Specifies the alignment of data points in individual time series selected by denominatorFilter as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources).When computing ratios, the aggregations and denominator_aggregations fields must use the same alignment period and produce time series that have the same periodicity and labels.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
denominatorFilter string: A filter that identifies a time series that should be used as the denominator of a ratio that will be compared with the threshold. If a denominator_filter is specified, the time series specified by the filter field will be used as the numerator.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
evaluationMissingData string: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
filter string: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
forecastOptions AlertPolicyConditionConditionThresholdForecastOptions: When this field is present, the MetricThreshold condition forecasts whether the time series is predicted to violate the threshold within the forecastHorizon. When this field is not set, the MetricThreshold tests the current value of the timeseries against the threshold. Structure is documented below.
thresholdValue number: A value against which to compare the time series.
trigger AlertPolicyConditionConditionThresholdTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

comparison str: The comparison to apply between the time series (indicated by filter and aggregation) and the threshold (indicated by threshold_value). The comparison is applied on each time series, with the time series on the left-hand side and the threshold on the right-hand side. Only COMPARISON_LT and COMPARISON_GT are supported currently. Possible values are: COMPARISON_GT, COMPARISON_GE, COMPARISON_LT, COMPARISON_LE, COMPARISON_EQ, COMPARISON_NE.
duration str: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
aggregations Sequence[AlertPolicyConditionConditionThresholdAggregation]: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
denominator_aggregations Sequence[AlertPolicyConditionConditionThresholdDenominatorAggregation]: Specifies the alignment of data points in individual time series selected by denominatorFilter as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources).When computing ratios, the aggregations and denominator_aggregations fields must use the same alignment period and produce time series that have the same periodicity and labels.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
denominator_filter str: A filter that identifies a time series that should be used as the denominator of a ratio that will be compared with the threshold. If a denominator_filter is specified, the time series specified by the filter field will be used as the numerator.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
evaluation_missing_data str: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
filter str: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
forecast_options AlertPolicyConditionConditionThresholdForecastOptions: When this field is present, the MetricThreshold condition forecasts whether the time series is predicted to violate the threshold within the forecastHorizon. When this field is not set, the MetricThreshold tests the current value of the timeseries against the threshold. Structure is documented below.
threshold_value float: A value against which to compare the time series.
trigger AlertPolicyConditionConditionThresholdTrigger: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

comparison String: The comparison to apply between the time series (indicated by filter and aggregation) and the threshold (indicated by threshold_value). The comparison is applied on each time series, with the time series on the left-hand side and the threshold on the right-hand side. Only COMPARISON_LT and COMPARISON_GT are supported currently. Possible values are: COMPARISON_GT, COMPARISON_GE, COMPARISON_LT, COMPARISON_LE, COMPARISON_EQ, COMPARISON_NE.
duration String: The amount of time that a time series must violate the threshold to be considered failing. Currently, only values that are a multiple of a minute--e.g., 0, 60, 120, or 300 seconds--are supported. If an invalid value is given, an error will be returned. When choosing a duration, it is useful to keep in mind the frequency of the underlying time series data (which may also be affected by any alignments specified in the aggregations field); a good duration is long enough so that a single outlier does not generate spurious alerts, but short enough that unhealthy states are detected and alerted on quickly.
aggregations List<Property Map>: Specifies the alignment of data points in individual time series as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources). Multiple aggregations are applied in the order specified.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
denominatorAggregations List<Property Map>: Specifies the alignment of data points in individual time series selected by denominatorFilter as well as how to combine the retrieved time series together (such as when aggregating multiple streams on each resource to a single stream for each resource or when aggregating streams across all members of a group of resources).When computing ratios, the aggregations and denominator_aggregations fields must use the same alignment period and produce time series that have the same periodicity and labels.This field is similar to the one in the MetricService.ListTimeSeries request. It is advisable to use the ListTimeSeries method when debugging this field. Structure is documented below.
denominatorFilter String: A filter that identifies a time series that should be used as the denominator of a ratio that will be compared with the threshold. If a denominator_filter is specified, the time series specified by the filter field will be used as the numerator.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
evaluationMissingData String: A condition control that determines how metric-threshold conditions are evaluated when data stops arriving. Possible values are: EVALUATION_MISSING_DATA_INACTIVE, EVALUATION_MISSING_DATA_ACTIVE, EVALUATION_MISSING_DATA_NO_OP.
filter String: A filter that identifies which time series should be compared with the threshold.The filter is similar to the one that is specified in the MetricService.ListTimeSeries request (that call is useful to verify the time series that will be retrieved / processed) and must specify the metric type and optionally may contain restrictions on resource type, resource labels, and metric labels. This field may not exceed 2048 Unicode characters in length.
forecastOptions Property Map: When this field is present, the MetricThreshold condition forecasts whether the time series is predicted to violate the threshold within the forecastHorizon. When this field is not set, the MetricThreshold tests the current value of the timeseries against the threshold. Structure is documented below.
thresholdValue Number: A value against which to compare the time series.
trigger Property Map: The number/percent of time series for which the comparison must hold in order for the condition to trigger. If unspecified, then the condition will trigger if the comparison is true for any of the time series that have been identified by filter and aggregations, or by the ratio, if denominator_filter and denominator_aggregations are specified. Structure is documented below.

AlertPolicyConditionConditionThresholdAggregation, AlertPolicyConditionConditionThresholdAggregationArgs

AlignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
CrossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
GroupByFields List<string>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
PerSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

AlignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
CrossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
GroupByFields []string: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
PerSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod String: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer String: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields List<String>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner String: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields string[]: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignment_period str: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
cross_series_reducer str: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
group_by_fields Sequence[str]: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
per_series_aligner str: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod String: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer String: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields List<String>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner String: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

AlertPolicyConditionConditionThresholdDenominatorAggregation, AlertPolicyConditionConditionThresholdDenominatorAggregationArgs

AlignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
CrossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
GroupByFields List<string>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
PerSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

AlignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
CrossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
GroupByFields []string: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
PerSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod String: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer String: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields List<String>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner String: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod string: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer string: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields string[]: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner string: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignment_period str: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
cross_series_reducer str: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
group_by_fields Sequence[str]: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
per_series_aligner str: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

alignmentPeriod String: The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned.
crossSeriesReducer String: The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: REDUCE_NONE, REDUCE_MEAN, REDUCE_MIN, REDUCE_MAX, REDUCE_SUM, REDUCE_STDDEV, REDUCE_COUNT, REDUCE_COUNT_TRUE, REDUCE_COUNT_FALSE, REDUCE_FRACTION_TRUE, REDUCE_PERCENTILE_99, REDUCE_PERCENTILE_95, REDUCE_PERCENTILE_50, REDUCE_PERCENTILE_05.
groupByFields List<String>: The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored.
perSeriesAligner String: The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross- time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. Possible values are: ALIGN_NONE, ALIGN_DELTA, ALIGN_RATE, ALIGN_INTERPOLATE, ALIGN_NEXT_OLDER, ALIGN_MIN, ALIGN_MAX, ALIGN_MEAN, ALIGN_COUNT, ALIGN_SUM, ALIGN_STDDEV, ALIGN_COUNT_TRUE, ALIGN_COUNT_FALSE, ALIGN_FRACTION_TRUE, ALIGN_PERCENTILE_99, ALIGN_PERCENTILE_95, ALIGN_PERCENTILE_50, ALIGN_PERCENTILE_05, ALIGN_PERCENT_CHANGE.

AlertPolicyConditionConditionThresholdForecastOptions, AlertPolicyConditionConditionThresholdForecastOptionsArgs

ForecastHorizon string: The length of time into the future to forecast whether a timeseries will violate the threshold. If the predicted value is found to violate the threshold, and the violation is observed in all forecasts made for the Configured duration, then the timeseries is considered to be failing.

ForecastHorizon string: The length of time into the future to forecast whether a timeseries will violate the threshold. If the predicted value is found to violate the threshold, and the violation is observed in all forecasts made for the Configured duration, then the timeseries is considered to be failing.

forecastHorizon String: The length of time into the future to forecast whether a timeseries will violate the threshold. If the predicted value is found to violate the threshold, and the violation is observed in all forecasts made for the Configured duration, then the timeseries is considered to be failing.

forecastHorizon string: The length of time into the future to forecast whether a timeseries will violate the threshold. If the predicted value is found to violate the threshold, and the violation is observed in all forecasts made for the Configured duration, then the timeseries is considered to be failing.

forecast_horizon str: The length of time into the future to forecast whether a timeseries will violate the threshold. If the predicted value is found to violate the threshold, and the violation is observed in all forecasts made for the Configured duration, then the timeseries is considered to be failing.

forecastHorizon String: The length of time into the future to forecast whether a timeseries will violate the threshold. If the predicted value is found to violate the threshold, and the violation is observed in all forecasts made for the Configured duration, then the timeseries is considered to be failing.

AlertPolicyConditionConditionThresholdTrigger, AlertPolicyConditionConditionThresholdTriggerArgs

Count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
Percent double: The percentage of time series that must fail the predicate for the condition to be triggered.

Count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
Percent float64: The percentage of time series that must fail the predicate for the condition to be triggered.

count Integer: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent Double: The percentage of time series that must fail the predicate for the condition to be triggered.

count number: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent number: The percentage of time series that must fail the predicate for the condition to be triggered.

count int: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent float: The percentage of time series that must fail the predicate for the condition to be triggered.

count Number: The absolute number of time series that must fail the predicate for the condition to be triggered.
percent Number: The percentage of time series that must fail the predicate for the condition to be triggered.

AlertPolicyCreationRecord, AlertPolicyCreationRecordArgs

MutateTime string: (Output) When the change occurred.
MutatedBy string: (Output) The email address of the user making the change.

MutateTime string: (Output) When the change occurred.
MutatedBy string: (Output) The email address of the user making the change.

mutateTime String: (Output) When the change occurred.
mutatedBy String: (Output) The email address of the user making the change.

mutateTime string: (Output) When the change occurred.
mutatedBy string: (Output) The email address of the user making the change.

mutate_time str: (Output) When the change occurred.
mutated_by str: (Output) The email address of the user making the change.

mutateTime String: (Output) When the change occurred.
mutatedBy String: (Output) The email address of the user making the change.

AlertPolicyDocumentation, AlertPolicyDocumentationArgs

Content string: The text of the documentation, interpreted according to mimeType. The content may not exceed 8,192 Unicode characters and may not exceed more than 10,240 bytes when encoded in UTF-8 format, whichever is smaller.
MimeType string: The format of the content field. Presently, only the value "text/markdown" is supported.
Subject string: The subject line of the notification. The subject line may not exceed 10,240 bytes. In notifications generated by this policy the contents of the subject line after variable expansion will be truncated to 255 bytes or shorter at the latest UTF-8 character boundary.

Content string: The text of the documentation, interpreted according to mimeType. The content may not exceed 8,192 Unicode characters and may not exceed more than 10,240 bytes when encoded in UTF-8 format, whichever is smaller.
MimeType string: The format of the content field. Presently, only the value "text/markdown" is supported.
Subject string: The subject line of the notification. The subject line may not exceed 10,240 bytes. In notifications generated by this policy the contents of the subject line after variable expansion will be truncated to 255 bytes or shorter at the latest UTF-8 character boundary.

content String: The text of the documentation, interpreted according to mimeType. The content may not exceed 8,192 Unicode characters and may not exceed more than 10,240 bytes when encoded in UTF-8 format, whichever is smaller.
mimeType String: The format of the content field. Presently, only the value "text/markdown" is supported.
subject String: The subject line of the notification. The subject line may not exceed 10,240 bytes. In notifications generated by this policy the contents of the subject line after variable expansion will be truncated to 255 bytes or shorter at the latest UTF-8 character boundary.

content string: The text of the documentation, interpreted according to mimeType. The content may not exceed 8,192 Unicode characters and may not exceed more than 10,240 bytes when encoded in UTF-8 format, whichever is smaller.
mimeType string: The format of the content field. Presently, only the value "text/markdown" is supported.
subject string: The subject line of the notification. The subject line may not exceed 10,240 bytes. In notifications generated by this policy the contents of the subject line after variable expansion will be truncated to 255 bytes or shorter at the latest UTF-8 character boundary.

content str: The text of the documentation, interpreted according to mimeType. The content may not exceed 8,192 Unicode characters and may not exceed more than 10,240 bytes when encoded in UTF-8 format, whichever is smaller.
mime_type str: The format of the content field. Presently, only the value "text/markdown" is supported.
subject str: The subject line of the notification. The subject line may not exceed 10,240 bytes. In notifications generated by this policy the contents of the subject line after variable expansion will be truncated to 255 bytes or shorter at the latest UTF-8 character boundary.

content String: The text of the documentation, interpreted according to mimeType. The content may not exceed 8,192 Unicode characters and may not exceed more than 10,240 bytes when encoded in UTF-8 format, whichever is smaller.
mimeType String: The format of the content field. Presently, only the value "text/markdown" is supported.
subject String: The subject line of the notification. The subject line may not exceed 10,240 bytes. In notifications generated by this policy the contents of the subject line after variable expansion will be truncated to 255 bytes or shorter at the latest UTF-8 character boundary.

Import

AlertPolicy can be imported using any of these accepted formats:

{{name}}

When using the pulumi import command, AlertPolicy can be imported using one of the formats above. For example:

$ pulumi import gcp:monitoring/alertPolicy:AlertPolicy default {{name}}

To learn more about importing existing cloud resources, see Importing resources.

Package Details

Repository: Google Cloud (GCP) Classic pulumi/pulumi-gcp
License: Apache-2.0
Notes: This Pulumi package is based on the google-beta Terraform Provider.

Google Cloud Classic v7.18.0 published on Wednesday, Apr 10, 2024 by Pulumi

pulumi/pulumi-gcp

gcp.monitoring.AlertPolicy

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Example Usage

Monitoring Alert Policy Basic

Monitoring Alert Policy Evaluation Missing Data

Monitoring Alert Policy Forecast Options

Monitoring Alert Policy Promql Condition

Create AlertPolicy Resource

Constructor syntax

Parameters

Example

AlertPolicy Resource Properties

Inputs

Outputs

Look up Existing AlertPolicy Resource

Supporting Types

AlertPolicyAlertStrategy, AlertPolicyAlertStrategyArgs

AlertPolicyAlertStrategyNotificationChannelStrategy, AlertPolicyAlertStrategyNotificationChannelStrategyArgs

AlertPolicyAlertStrategyNotificationRateLimit, AlertPolicyAlertStrategyNotificationRateLimitArgs

AlertPolicyCondition, AlertPolicyConditionArgs

AlertPolicyConditionConditionAbsent, AlertPolicyConditionConditionAbsentArgs

AlertPolicyConditionConditionAbsentAggregation, AlertPolicyConditionConditionAbsentAggregationArgs

AlertPolicyConditionConditionAbsentTrigger, AlertPolicyConditionConditionAbsentTriggerArgs

AlertPolicyConditionConditionMatchedLog, AlertPolicyConditionConditionMatchedLogArgs

AlertPolicyConditionConditionMonitoringQueryLanguage, AlertPolicyConditionConditionMonitoringQueryLanguageArgs

AlertPolicyConditionConditionMonitoringQueryLanguageTrigger, AlertPolicyConditionConditionMonitoringQueryLanguageTriggerArgs

AlertPolicyConditionConditionPrometheusQueryLanguage, AlertPolicyConditionConditionPrometheusQueryLanguageArgs

AlertPolicyConditionConditionThreshold, AlertPolicyConditionConditionThresholdArgs

AlertPolicyConditionConditionThresholdAggregation, AlertPolicyConditionConditionThresholdAggregationArgs

AlertPolicyConditionConditionThresholdDenominatorAggregation, AlertPolicyConditionConditionThresholdDenominatorAggregationArgs

AlertPolicyConditionConditionThresholdForecastOptions, AlertPolicyConditionConditionThresholdForecastOptionsArgs

AlertPolicyConditionConditionThresholdTrigger, AlertPolicyConditionConditionThresholdTriggerArgs

AlertPolicyCreationRecord, AlertPolicyCreationRecordArgs

AlertPolicyDocumentation, AlertPolicyDocumentationArgs

Import

Package Details

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