awsinternetmonitor

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Published: Apr 26, 2023 License: Apache-2.0 Imports: 7 Imported by: 0

README

AWS::InternetMonitor Construct Library

This module is part of the AWS Cloud Development Kit project.

import internetmonitor "github.com/aws/aws-cdk-go/awscdk"

There are no official hand-written (L2) constructs for this service yet. Here are some suggestions on how to proceed:

There are no hand-written (L2) constructs for this service yet. However, you can still use the automatically generated L1 constructs, and use this service exactly as you would using CloudFormation directly.

For more information on the resources and properties available for this service, see the CloudFormation documentation for AWS::InternetMonitor.

(Read the CDK Contributing Guide and submit an RFC if you are interested in contributing to this construct library.)

Documentation

Index

Constants

This section is empty.

Variables

This section is empty.

Functions

func CfnMonitor_CFN_RESOURCE_TYPE_NAME

func CfnMonitor_CFN_RESOURCE_TYPE_NAME() *string

func CfnMonitor_IsCfnElement

func CfnMonitor_IsCfnElement(x interface{}) *bool

Returns `true` if a construct is a stack element (i.e. part of the synthesized cloudformation template).

Uses duck-typing instead of `instanceof` to allow stack elements from different versions of this library to be included in the same stack.

Returns: The construct as a stack element or undefined if it is not a stack element.

func CfnMonitor_IsCfnResource

func CfnMonitor_IsCfnResource(construct constructs.IConstruct) *bool

Check whether the given construct is a CfnResource.

func CfnMonitor_IsConstruct

func CfnMonitor_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func NewCfnMonitor_Override

func NewCfnMonitor_Override(c CfnMonitor, scope constructs.Construct, id *string, props *CfnMonitorProps)

Create a new `AWS::InternetMonitor::Monitor`.

Types

type CfnMonitor

type CfnMonitor interface {
	awscdk.CfnResource
	awscdk.IInspectable
	// The time when the monitor was created.
	AttrCreatedAt() *string
	// The last time that the monitor was modified.
	AttrModifiedAt() *string
	// The Amazon Resource Name (ARN) of the monitor.
	AttrMonitorArn() *string
	// The health of data processing for the monitor.
	//
	// For more information, see `ProcessingStatus` under [MonitorListMember](https://docs.aws.amazon.com/internet-monitor/latest/api/API_MonitorListMember.html) in the *Amazon CloudWatch Internet Monitor API Reference* .
	AttrProcessingStatus() *string
	// Additional information about the health of the data processing for the monitor.
	AttrProcessingStatusInfo() *string
	// Options for this resource, such as condition, update policy etc.
	CfnOptions() awscdk.ICfnResourceOptions
	CfnProperties() *map[string]interface{}
	// AWS resource type.
	CfnResourceType() *string
	// Returns: the stack trace of the point where this Resource was created from, sourced
	// from the +metadata+ entry typed +aws:cdk:logicalId+, and with the bottom-most
	// node +internal+ entries filtered.
	CreationStack() *[]*string
	// The logical ID for this CloudFormation stack element.
	//
	// The logical ID of the element
	// is calculated from the path of the resource node in the construct tree.
	//
	// To override this value, use `overrideLogicalId(newLogicalId)`.
	//
	// Returns: the logical ID as a stringified token. This value will only get
	// resolved during synthesis.
	LogicalId() *string
	// The maximum number of city-networks to monitor for your resources.
	//
	// A city-network is the location (city) where clients access your application resources from and the network, such as an internet service provider, that clients access the resources through.
	//
	// For more information, see [Choosing a city-network maximum value](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/IMCityNetworksMaximum.html) in *Using Amazon CloudWatch Internet Monitor* .
	MaxCityNetworksToMonitor() *float64
	SetMaxCityNetworksToMonitor(val *float64)
	// The name of the monitor.
	//
	// A monitor name can contain only alphanumeric characters, dashes (-), periods (.), and underscores (_).
	MonitorName() *string
	SetMonitorName(val *string)
	// The tree node.
	Node() constructs.Node
	// Return a string that will be resolved to a CloudFormation `{ Ref }` for this element.
	//
	// If, by any chance, the intrinsic reference of a resource is not a string, you could
	// coerce it to an IResolvable through `Lazy.any({ produce: resource.ref })`.
	Ref() *string
	// The resources that have been added for the monitor, listed by their Amazon Resource Names (ARNs).
	Resources() *[]*string
	SetResources(val *[]*string)
	// The resources to add to a monitor, which you provide as a set of Amazon Resource Names (ARNs).
	//
	// You can add a combination of Virtual Private Clouds (VPCs) and Amazon CloudFront distributions, or you can add WorkSpaces directories. You can't add all three types of resources.
	//
	// > If you add only VPC resources, at least one VPC must have an Internet Gateway attached to it, to make sure that it has internet connectivity.
	ResourcesToAdd() *[]*string
	SetResourcesToAdd(val *[]*string)
	// The resources to remove from a monitor, which you provide as a set of Amazon Resource Names (ARNs).
	ResourcesToRemove() *[]*string
	SetResourcesToRemove(val *[]*string)
	// The stack in which this element is defined.
	//
	// CfnElements must be defined within a stack scope (directly or indirectly).
	Stack() awscdk.Stack
	// The status of a monitor.
	//
	// The accepted values that you can specify for `Status` are `ACTIVE` and `INACTIVE` .
	Status() *string
	SetStatus(val *string)
	// The tags for a monitor, listed as a set of *key:value* pairs.
	Tags() awscdk.TagManager
	// Deprecated.
	// Deprecated: use `updatedProperties`
	//
	// Return properties modified after initiation
	//
	// Resources that expose mutable properties should override this function to
	// collect and return the properties object for this resource.
	UpdatedProperites() *map[string]interface{}
	// Return properties modified after initiation.
	//
	// Resources that expose mutable properties should override this function to
	// collect and return the properties object for this resource.
	UpdatedProperties() *map[string]interface{}
	// Syntactic sugar for `addOverride(path, undefined)`.
	AddDeletionOverride(path *string)
	// Indicates that this resource depends on another resource and cannot be provisioned unless the other resource has been successfully provisioned.
	//
	// This can be used for resources across stacks (or nested stack) boundaries
	// and the dependency will automatically be transferred to the relevant scope.
	AddDependency(target awscdk.CfnResource)
	// Indicates that this resource depends on another resource and cannot be provisioned unless the other resource has been successfully provisioned.
	// Deprecated: use addDependency.
	AddDependsOn(target awscdk.CfnResource)
	// Add a value to the CloudFormation Resource Metadata.
	// See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html
	//
	// Note that this is a different set of metadata from CDK node metadata; this
	// metadata ends up in the stack template under the resource, whereas CDK
	// node metadata ends up in the Cloud Assembly.
	//
	AddMetadata(key *string, value interface{})
	// Adds an override to the synthesized CloudFormation resource.
	//
	// To add a
	// property override, either use `addPropertyOverride` or prefix `path` with
	// "Properties." (i.e. `Properties.TopicName`).
	//
	// If the override is nested, separate each nested level using a dot (.) in the path parameter.
	// If there is an array as part of the nesting, specify the index in the path.
	//
	// To include a literal `.` in the property name, prefix with a `\`. In most
	// programming languages you will need to write this as `"\\."` because the
	// `\` itself will need to be escaped.
	//
	// For example,
	// “`typescript
	// cfnResource.addOverride('Properties.GlobalSecondaryIndexes.0.Projection.NonKeyAttributes', ['myattribute']);
	// cfnResource.addOverride('Properties.GlobalSecondaryIndexes.1.ProjectionType', 'INCLUDE');
	// “`
	// would add the overrides
	// “`json
	// "Properties": {
	//   "GlobalSecondaryIndexes": [
	//     {
	//       "Projection": {
	//         "NonKeyAttributes": [ "myattribute" ]
	//         ...
	//       }
	//       ...
	//     },
	//     {
	//       "ProjectionType": "INCLUDE"
	//       ...
	//     },
	//   ]
	//   ...
	// }
	// “`
	//
	// The `value` argument to `addOverride` will not be processed or translated
	// in any way. Pass raw JSON values in here with the correct capitalization
	// for CloudFormation. If you pass CDK classes or structs, they will be
	// rendered with lowercased key names, and CloudFormation will reject the
	// template.
	AddOverride(path *string, value interface{})
	// Adds an override that deletes the value of a property from the resource definition.
	AddPropertyDeletionOverride(propertyPath *string)
	// Adds an override to a resource property.
	//
	// Syntactic sugar for `addOverride("Properties.<...>", value)`.
	AddPropertyOverride(propertyPath *string, value interface{})
	// Sets the deletion policy of the resource based on the removal policy specified.
	//
	// The Removal Policy controls what happens to this resource when it stops
	// being managed by CloudFormation, either because you've removed it from the
	// CDK application or because you've made a change that requires the resource
	// to be replaced.
	//
	// The resource can be deleted (`RemovalPolicy.DESTROY`), or left in your AWS
	// account for data recovery and cleanup later (`RemovalPolicy.RETAIN`). In some
	// cases, a snapshot can be taken of the resource prior to deletion
	// (`RemovalPolicy.SNAPSHOT`). A list of resources that support this policy
	// can be found in the following link:.
	// See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-attribute-deletionpolicy.html#aws-attribute-deletionpolicy-options
	//
	ApplyRemovalPolicy(policy awscdk.RemovalPolicy, options *awscdk.RemovalPolicyOptions)
	// Returns a token for an runtime attribute of this resource.
	//
	// Ideally, use generated attribute accessors (e.g. `resource.arn`), but this can be used for future compatibility
	// in case there is no generated attribute.
	GetAtt(attributeName *string, typeHint awscdk.ResolutionTypeHint) awscdk.Reference
	// Retrieve a value value from the CloudFormation Resource Metadata.
	// See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html
	//
	// Note that this is a different set of metadata from CDK node metadata; this
	// metadata ends up in the stack template under the resource, whereas CDK
	// node metadata ends up in the Cloud Assembly.
	//
	GetMetadata(key *string) interface{}
	// Examines the CloudFormation resource and discloses attributes.
	Inspect(inspector awscdk.TreeInspector)
	// Retrieves an array of resources this resource depends on.
	//
	// This assembles dependencies on resources across stacks (including nested stacks)
	// automatically.
	ObtainDependencies() *[]interface{}
	// Get a shallow copy of dependencies between this resource and other resources in the same stack.
	ObtainResourceDependencies() *[]awscdk.CfnResource
	// Overrides the auto-generated logical ID with a specific ID.
	OverrideLogicalId(newLogicalId *string)
	// Indicates that this resource no longer depends on another resource.
	//
	// This can be used for resources across stacks (including nested stacks)
	// and the dependency will automatically be removed from the relevant scope.
	RemoveDependency(target awscdk.CfnResource)
	RenderProperties(props *map[string]interface{}) *map[string]interface{}
	// Replaces one dependency with another.
	ReplaceDependency(target awscdk.CfnResource, newTarget awscdk.CfnResource)
	// Can be overridden by subclasses to determine if this resource will be rendered into the cloudformation template.
	//
	// Returns: `true` if the resource should be included or `false` is the resource
	// should be omitted.
	ShouldSynthesize() *bool
	// Returns a string representation of this construct.
	//
	// Returns: a string representation of this resource.
	ToString() *string
	ValidateProperties(_properties interface{})
}

A CloudFormation `AWS::InternetMonitor::Monitor`.

The `AWS::InternetMonitor::Monitor` resource is an Internet Monitor resource type that contains information about how you create a monitor in Amazon CloudWatch Internet Monitor. A monitor in Internet Monitor provides visibility into performance and availability between your applications hosted on AWS and your end users, using a traffic profile that it creates based on the application resources that you add: Virtual Private Clouds (VPCs), Amazon CloudFront distributions, or WorkSpaces directories.

Internet Monitor also alerts you to internet issues that impact your application in the city-networks (geographies and networks) where your end users use it. With Internet Monitor, you can quickly pinpoint the locations and providers that are affected, so that you can address the issue.

For more information, see [Using Amazon CloudWatch Internet Monitor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-InternetMonitor.html) in the *Amazon CloudWatch User Guide* .

Example:

// The code below shows an example of how to instantiate this type.
// The values are placeholders you should change.
import "github.com/aws/aws-cdk-go/awscdk"

cfnMonitor := awscdk.Aws_internetmonitor.NewCfnMonitor(this, jsii.String("MyCfnMonitor"), &CfnMonitorProps{
	MonitorName: jsii.String("monitorName"),

	// the properties below are optional
	MaxCityNetworksToMonitor: jsii.Number(123),
	Resources: []*string{
		jsii.String("resources"),
	},
	ResourcesToAdd: []*string{
		jsii.String("resourcesToAdd"),
	},
	ResourcesToRemove: []*string{
		jsii.String("resourcesToRemove"),
	},
	Status: jsii.String("status"),
	Tags: []cfnTag{
		&cfnTag{
			Key: jsii.String("key"),
			Value: jsii.String("value"),
		},
	},
})

func NewCfnMonitor

func NewCfnMonitor(scope constructs.Construct, id *string, props *CfnMonitorProps) CfnMonitor

Create a new `AWS::InternetMonitor::Monitor`.

type CfnMonitorProps

type CfnMonitorProps struct {
	// The name of the monitor.
	//
	// A monitor name can contain only alphanumeric characters, dashes (-), periods (.), and underscores (_).
	MonitorName *string `field:"required" json:"monitorName" yaml:"monitorName"`
	// The maximum number of city-networks to monitor for your resources.
	//
	// A city-network is the location (city) where clients access your application resources from and the network, such as an internet service provider, that clients access the resources through.
	//
	// For more information, see [Choosing a city-network maximum value](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/IMCityNetworksMaximum.html) in *Using Amazon CloudWatch Internet Monitor* .
	MaxCityNetworksToMonitor *float64 `field:"optional" json:"maxCityNetworksToMonitor" yaml:"maxCityNetworksToMonitor"`
	// The resources that have been added for the monitor, listed by their Amazon Resource Names (ARNs).
	Resources *[]*string `field:"optional" json:"resources" yaml:"resources"`
	// The resources to add to a monitor, which you provide as a set of Amazon Resource Names (ARNs).
	//
	// You can add a combination of Virtual Private Clouds (VPCs) and Amazon CloudFront distributions, or you can add WorkSpaces directories. You can't add all three types of resources.
	//
	// > If you add only VPC resources, at least one VPC must have an Internet Gateway attached to it, to make sure that it has internet connectivity.
	ResourcesToAdd *[]*string `field:"optional" json:"resourcesToAdd" yaml:"resourcesToAdd"`
	// The resources to remove from a monitor, which you provide as a set of Amazon Resource Names (ARNs).
	ResourcesToRemove *[]*string `field:"optional" json:"resourcesToRemove" yaml:"resourcesToRemove"`
	// The status of a monitor.
	//
	// The accepted values that you can specify for `Status` are `ACTIVE` and `INACTIVE` .
	Status *string `field:"optional" json:"status" yaml:"status"`
	// The tags for a monitor, listed as a set of *key:value* pairs.
	Tags *[]*awscdk.CfnTag `field:"optional" json:"tags" yaml:"tags"`
}

Properties for defining a `CfnMonitor`.

Example:

// The code below shows an example of how to instantiate this type.
// The values are placeholders you should change.
import "github.com/aws/aws-cdk-go/awscdk"

cfnMonitorProps := &CfnMonitorProps{
	MonitorName: jsii.String("monitorName"),

	// the properties below are optional
	MaxCityNetworksToMonitor: jsii.Number(123),
	Resources: []*string{
		jsii.String("resources"),
	},
	ResourcesToAdd: []*string{
		jsii.String("resourcesToAdd"),
	},
	ResourcesToRemove: []*string{
		jsii.String("resourcesToRemove"),
	},
	Status: jsii.String("status"),
	Tags: []cfnTag{
		&cfnTag{
			Key: jsii.String("key"),
			Value: jsii.String("value"),
		},
	},
}

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