generated from pulumi/pulumi-tf-provider-boilerplate
/
queue.go
490 lines (426 loc) · 24.8 KB
/
queue.go
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// Code generated by the Pulumi Terraform Bridge (tfgen) Tool DO NOT EDIT.
// *** WARNING: Do not edit by hand unless you're certain you know what you are doing! ***
package queue
import (
"context"
"reflect"
"errors"
"github.com/pulumi/pulumi-oci/sdk/go/oci/internal"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
// This resource provides the Queue resource in Oracle Cloud Infrastructure Queue service.
//
// Creates a new queue.
//
// ## Example Usage
//
// ```go
// package main
//
// import (
//
// "github.com/pulumi/pulumi-oci/sdk/go/oci/Queue"
// "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
//
// )
//
// func main() {
// pulumi.Run(func(ctx *pulumi.Context) error {
// _, err := Queue.NewQueue(ctx, "test_queue", &Queue.QueueArgs{
// CompartmentId: pulumi.Any(compartmentId),
// DisplayName: pulumi.Any(queueDisplayName),
// ChannelConsumptionLimit: pulumi.Any(queueChannelConsumptionLimit),
// CustomEncryptionKeyId: pulumi.Any(testKey.Id),
// DeadLetterQueueDeliveryCount: pulumi.Any(queueDeadLetterQueueDeliveryCount),
// DefinedTags: pulumi.Map{
// "foo-namespace.bar-key": pulumi.Any("value"),
// },
// FreeformTags: pulumi.Map{
// "bar-key": pulumi.Any("value"),
// },
// RetentionInSeconds: pulumi.Any(queueRetentionInSeconds),
// TimeoutInSeconds: pulumi.Any(queueTimeoutInSeconds),
// VisibilityInSeconds: pulumi.Any(queueVisibilityInSeconds),
// })
// if err != nil {
// return err
// }
// return nil
// })
// }
//
// ```
//
// ## Import
//
// Queues can be imported using the `id`, e.g.
//
// ```sh
// $ pulumi import oci:Queue/queue:Queue test_queue "id"
// ```
type Queue struct {
pulumi.CustomResourceState
// (Updatable) The percentage of allocated queue resources that can be consumed by a single channel. For example, if a queue has a storage limit of 2Gb, and a single channel consumption limit is 0.1 (10%), that means data size of a single channel can't exceed 200Mb. Consumption limit of 100% (default) means that a single channel can consume up-to all allocated queue's resources.
ChannelConsumptionLimit pulumi.IntOutput `pulumi:"channelConsumptionLimit"`
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment containing the queue.
CompartmentId pulumi.StringOutput `pulumi:"compartmentId"`
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the custom encryption key to be used to encrypt messages content.
CustomEncryptionKeyId pulumi.StringOutput `pulumi:"customEncryptionKeyId"`
// (Updatable) The number of times a message can be delivered to a consumer before being moved to the dead letter queue. A value of 0 indicates that the DLQ is not used.
DeadLetterQueueDeliveryCount pulumi.IntOutput `pulumi:"deadLetterQueueDeliveryCount"`
// (Updatable) Defined tags for this resource. Each key is predefined and scoped to a namespace. Example: `{"foo-namespace.bar-key": "value"}`
DefinedTags pulumi.MapOutput `pulumi:"definedTags"`
// (Updatable) The user-friendly name of the queue.
DisplayName pulumi.StringOutput `pulumi:"displayName"`
// (Updatable) Simple key-value pair that is applied without any predefined name, type or scope. Exists for cross-compatibility only. Example: `{"bar-key": "value"}`
FreeformTags pulumi.MapOutput `pulumi:"freeformTags"`
// Any additional details about the current state of the queue.
LifecycleDetails pulumi.StringOutput `pulumi:"lifecycleDetails"`
// The endpoint to use to consume or publish messages in the queue.
MessagesEndpoint pulumi.StringOutput `pulumi:"messagesEndpoint"`
PurgeQueue pulumi.BoolPtrOutput `pulumi:"purgeQueue"`
PurgeType pulumi.StringPtrOutput `pulumi:"purgeType"`
// The retention period of messages in the queue, in seconds.
RetentionInSeconds pulumi.IntOutput `pulumi:"retentionInSeconds"`
// The current state of the queue.
State pulumi.StringOutput `pulumi:"state"`
// Usage of system tag keys. These predefined keys are scoped to namespaces. Example: `{"orcl-cloud.free-tier-retained": "true"}`
SystemTags pulumi.MapOutput `pulumi:"systemTags"`
// The time that the queue was created, expressed in [RFC 3339](https://tools.ietf.org/rfc/rfc3339) timestamp format. Example: `2018-04-20T00:00:07.405Z`
TimeCreated pulumi.StringOutput `pulumi:"timeCreated"`
// The time that the queue was updated, expressed in [RFC 3339](https://tools.ietf.org/rfc/rfc3339) timestamp format. Example: `2018-04-20T00:00:07.405Z`
TimeUpdated pulumi.StringOutput `pulumi:"timeUpdated"`
// (Updatable) The default polling timeout of the messages in the queue, in seconds.
TimeoutInSeconds pulumi.IntOutput `pulumi:"timeoutInSeconds"`
// (Updatable) The default visibility timeout of the messages consumed from the queue, in seconds.
VisibilityInSeconds pulumi.IntOutput `pulumi:"visibilityInSeconds"`
}
// NewQueue registers a new resource with the given unique name, arguments, and options.
func NewQueue(ctx *pulumi.Context,
name string, args *QueueArgs, opts ...pulumi.ResourceOption) (*Queue, error) {
if args == nil {
return nil, errors.New("missing one or more required arguments")
}
if args.CompartmentId == nil {
return nil, errors.New("invalid value for required argument 'CompartmentId'")
}
if args.DisplayName == nil {
return nil, errors.New("invalid value for required argument 'DisplayName'")
}
opts = internal.PkgResourceDefaultOpts(opts)
var resource Queue
err := ctx.RegisterResource("oci:Queue/queue:Queue", name, args, &resource, opts...)
if err != nil {
return nil, err
}
return &resource, nil
}
// GetQueue gets an existing Queue resource's state with the given name, ID, and optional
// state properties that are used to uniquely qualify the lookup (nil if not required).
func GetQueue(ctx *pulumi.Context,
name string, id pulumi.IDInput, state *QueueState, opts ...pulumi.ResourceOption) (*Queue, error) {
var resource Queue
err := ctx.ReadResource("oci:Queue/queue:Queue", name, id, state, &resource, opts...)
if err != nil {
return nil, err
}
return &resource, nil
}
// Input properties used for looking up and filtering Queue resources.
type queueState struct {
// (Updatable) The percentage of allocated queue resources that can be consumed by a single channel. For example, if a queue has a storage limit of 2Gb, and a single channel consumption limit is 0.1 (10%), that means data size of a single channel can't exceed 200Mb. Consumption limit of 100% (default) means that a single channel can consume up-to all allocated queue's resources.
ChannelConsumptionLimit *int `pulumi:"channelConsumptionLimit"`
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment containing the queue.
CompartmentId *string `pulumi:"compartmentId"`
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the custom encryption key to be used to encrypt messages content.
CustomEncryptionKeyId *string `pulumi:"customEncryptionKeyId"`
// (Updatable) The number of times a message can be delivered to a consumer before being moved to the dead letter queue. A value of 0 indicates that the DLQ is not used.
DeadLetterQueueDeliveryCount *int `pulumi:"deadLetterQueueDeliveryCount"`
// (Updatable) Defined tags for this resource. Each key is predefined and scoped to a namespace. Example: `{"foo-namespace.bar-key": "value"}`
DefinedTags map[string]interface{} `pulumi:"definedTags"`
// (Updatable) The user-friendly name of the queue.
DisplayName *string `pulumi:"displayName"`
// (Updatable) Simple key-value pair that is applied without any predefined name, type or scope. Exists for cross-compatibility only. Example: `{"bar-key": "value"}`
FreeformTags map[string]interface{} `pulumi:"freeformTags"`
// Any additional details about the current state of the queue.
LifecycleDetails *string `pulumi:"lifecycleDetails"`
// The endpoint to use to consume or publish messages in the queue.
MessagesEndpoint *string `pulumi:"messagesEndpoint"`
PurgeQueue *bool `pulumi:"purgeQueue"`
PurgeType *string `pulumi:"purgeType"`
// The retention period of messages in the queue, in seconds.
RetentionInSeconds *int `pulumi:"retentionInSeconds"`
// The current state of the queue.
State *string `pulumi:"state"`
// Usage of system tag keys. These predefined keys are scoped to namespaces. Example: `{"orcl-cloud.free-tier-retained": "true"}`
SystemTags map[string]interface{} `pulumi:"systemTags"`
// The time that the queue was created, expressed in [RFC 3339](https://tools.ietf.org/rfc/rfc3339) timestamp format. Example: `2018-04-20T00:00:07.405Z`
TimeCreated *string `pulumi:"timeCreated"`
// The time that the queue was updated, expressed in [RFC 3339](https://tools.ietf.org/rfc/rfc3339) timestamp format. Example: `2018-04-20T00:00:07.405Z`
TimeUpdated *string `pulumi:"timeUpdated"`
// (Updatable) The default polling timeout of the messages in the queue, in seconds.
TimeoutInSeconds *int `pulumi:"timeoutInSeconds"`
// (Updatable) The default visibility timeout of the messages consumed from the queue, in seconds.
VisibilityInSeconds *int `pulumi:"visibilityInSeconds"`
}
type QueueState struct {
// (Updatable) The percentage of allocated queue resources that can be consumed by a single channel. For example, if a queue has a storage limit of 2Gb, and a single channel consumption limit is 0.1 (10%), that means data size of a single channel can't exceed 200Mb. Consumption limit of 100% (default) means that a single channel can consume up-to all allocated queue's resources.
ChannelConsumptionLimit pulumi.IntPtrInput
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment containing the queue.
CompartmentId pulumi.StringPtrInput
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the custom encryption key to be used to encrypt messages content.
CustomEncryptionKeyId pulumi.StringPtrInput
// (Updatable) The number of times a message can be delivered to a consumer before being moved to the dead letter queue. A value of 0 indicates that the DLQ is not used.
DeadLetterQueueDeliveryCount pulumi.IntPtrInput
// (Updatable) Defined tags for this resource. Each key is predefined and scoped to a namespace. Example: `{"foo-namespace.bar-key": "value"}`
DefinedTags pulumi.MapInput
// (Updatable) The user-friendly name of the queue.
DisplayName pulumi.StringPtrInput
// (Updatable) Simple key-value pair that is applied without any predefined name, type or scope. Exists for cross-compatibility only. Example: `{"bar-key": "value"}`
FreeformTags pulumi.MapInput
// Any additional details about the current state of the queue.
LifecycleDetails pulumi.StringPtrInput
// The endpoint to use to consume or publish messages in the queue.
MessagesEndpoint pulumi.StringPtrInput
PurgeQueue pulumi.BoolPtrInput
PurgeType pulumi.StringPtrInput
// The retention period of messages in the queue, in seconds.
RetentionInSeconds pulumi.IntPtrInput
// The current state of the queue.
State pulumi.StringPtrInput
// Usage of system tag keys. These predefined keys are scoped to namespaces. Example: `{"orcl-cloud.free-tier-retained": "true"}`
SystemTags pulumi.MapInput
// The time that the queue was created, expressed in [RFC 3339](https://tools.ietf.org/rfc/rfc3339) timestamp format. Example: `2018-04-20T00:00:07.405Z`
TimeCreated pulumi.StringPtrInput
// The time that the queue was updated, expressed in [RFC 3339](https://tools.ietf.org/rfc/rfc3339) timestamp format. Example: `2018-04-20T00:00:07.405Z`
TimeUpdated pulumi.StringPtrInput
// (Updatable) The default polling timeout of the messages in the queue, in seconds.
TimeoutInSeconds pulumi.IntPtrInput
// (Updatable) The default visibility timeout of the messages consumed from the queue, in seconds.
VisibilityInSeconds pulumi.IntPtrInput
}
func (QueueState) ElementType() reflect.Type {
return reflect.TypeOf((*queueState)(nil)).Elem()
}
type queueArgs struct {
// (Updatable) The percentage of allocated queue resources that can be consumed by a single channel. For example, if a queue has a storage limit of 2Gb, and a single channel consumption limit is 0.1 (10%), that means data size of a single channel can't exceed 200Mb. Consumption limit of 100% (default) means that a single channel can consume up-to all allocated queue's resources.
ChannelConsumptionLimit *int `pulumi:"channelConsumptionLimit"`
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment containing the queue.
CompartmentId string `pulumi:"compartmentId"`
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the custom encryption key to be used to encrypt messages content.
CustomEncryptionKeyId *string `pulumi:"customEncryptionKeyId"`
// (Updatable) The number of times a message can be delivered to a consumer before being moved to the dead letter queue. A value of 0 indicates that the DLQ is not used.
DeadLetterQueueDeliveryCount *int `pulumi:"deadLetterQueueDeliveryCount"`
// (Updatable) Defined tags for this resource. Each key is predefined and scoped to a namespace. Example: `{"foo-namespace.bar-key": "value"}`
DefinedTags map[string]interface{} `pulumi:"definedTags"`
// (Updatable) The user-friendly name of the queue.
DisplayName string `pulumi:"displayName"`
// (Updatable) Simple key-value pair that is applied without any predefined name, type or scope. Exists for cross-compatibility only. Example: `{"bar-key": "value"}`
FreeformTags map[string]interface{} `pulumi:"freeformTags"`
PurgeQueue *bool `pulumi:"purgeQueue"`
PurgeType *string `pulumi:"purgeType"`
// The retention period of messages in the queue, in seconds.
RetentionInSeconds *int `pulumi:"retentionInSeconds"`
// (Updatable) The default polling timeout of the messages in the queue, in seconds.
TimeoutInSeconds *int `pulumi:"timeoutInSeconds"`
// (Updatable) The default visibility timeout of the messages consumed from the queue, in seconds.
VisibilityInSeconds *int `pulumi:"visibilityInSeconds"`
}
// The set of arguments for constructing a Queue resource.
type QueueArgs struct {
// (Updatable) The percentage of allocated queue resources that can be consumed by a single channel. For example, if a queue has a storage limit of 2Gb, and a single channel consumption limit is 0.1 (10%), that means data size of a single channel can't exceed 200Mb. Consumption limit of 100% (default) means that a single channel can consume up-to all allocated queue's resources.
ChannelConsumptionLimit pulumi.IntPtrInput
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment containing the queue.
CompartmentId pulumi.StringInput
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the custom encryption key to be used to encrypt messages content.
CustomEncryptionKeyId pulumi.StringPtrInput
// (Updatable) The number of times a message can be delivered to a consumer before being moved to the dead letter queue. A value of 0 indicates that the DLQ is not used.
DeadLetterQueueDeliveryCount pulumi.IntPtrInput
// (Updatable) Defined tags for this resource. Each key is predefined and scoped to a namespace. Example: `{"foo-namespace.bar-key": "value"}`
DefinedTags pulumi.MapInput
// (Updatable) The user-friendly name of the queue.
DisplayName pulumi.StringInput
// (Updatable) Simple key-value pair that is applied without any predefined name, type or scope. Exists for cross-compatibility only. Example: `{"bar-key": "value"}`
FreeformTags pulumi.MapInput
PurgeQueue pulumi.BoolPtrInput
PurgeType pulumi.StringPtrInput
// The retention period of messages in the queue, in seconds.
RetentionInSeconds pulumi.IntPtrInput
// (Updatable) The default polling timeout of the messages in the queue, in seconds.
TimeoutInSeconds pulumi.IntPtrInput
// (Updatable) The default visibility timeout of the messages consumed from the queue, in seconds.
VisibilityInSeconds pulumi.IntPtrInput
}
func (QueueArgs) ElementType() reflect.Type {
return reflect.TypeOf((*queueArgs)(nil)).Elem()
}
type QueueInput interface {
pulumi.Input
ToQueueOutput() QueueOutput
ToQueueOutputWithContext(ctx context.Context) QueueOutput
}
func (*Queue) ElementType() reflect.Type {
return reflect.TypeOf((**Queue)(nil)).Elem()
}
func (i *Queue) ToQueueOutput() QueueOutput {
return i.ToQueueOutputWithContext(context.Background())
}
func (i *Queue) ToQueueOutputWithContext(ctx context.Context) QueueOutput {
return pulumi.ToOutputWithContext(ctx, i).(QueueOutput)
}
// QueueArrayInput is an input type that accepts QueueArray and QueueArrayOutput values.
// You can construct a concrete instance of `QueueArrayInput` via:
//
// QueueArray{ QueueArgs{...} }
type QueueArrayInput interface {
pulumi.Input
ToQueueArrayOutput() QueueArrayOutput
ToQueueArrayOutputWithContext(context.Context) QueueArrayOutput
}
type QueueArray []QueueInput
func (QueueArray) ElementType() reflect.Type {
return reflect.TypeOf((*[]*Queue)(nil)).Elem()
}
func (i QueueArray) ToQueueArrayOutput() QueueArrayOutput {
return i.ToQueueArrayOutputWithContext(context.Background())
}
func (i QueueArray) ToQueueArrayOutputWithContext(ctx context.Context) QueueArrayOutput {
return pulumi.ToOutputWithContext(ctx, i).(QueueArrayOutput)
}
// QueueMapInput is an input type that accepts QueueMap and QueueMapOutput values.
// You can construct a concrete instance of `QueueMapInput` via:
//
// QueueMap{ "key": QueueArgs{...} }
type QueueMapInput interface {
pulumi.Input
ToQueueMapOutput() QueueMapOutput
ToQueueMapOutputWithContext(context.Context) QueueMapOutput
}
type QueueMap map[string]QueueInput
func (QueueMap) ElementType() reflect.Type {
return reflect.TypeOf((*map[string]*Queue)(nil)).Elem()
}
func (i QueueMap) ToQueueMapOutput() QueueMapOutput {
return i.ToQueueMapOutputWithContext(context.Background())
}
func (i QueueMap) ToQueueMapOutputWithContext(ctx context.Context) QueueMapOutput {
return pulumi.ToOutputWithContext(ctx, i).(QueueMapOutput)
}
type QueueOutput struct{ *pulumi.OutputState }
func (QueueOutput) ElementType() reflect.Type {
return reflect.TypeOf((**Queue)(nil)).Elem()
}
func (o QueueOutput) ToQueueOutput() QueueOutput {
return o
}
func (o QueueOutput) ToQueueOutputWithContext(ctx context.Context) QueueOutput {
return o
}
// (Updatable) The percentage of allocated queue resources that can be consumed by a single channel. For example, if a queue has a storage limit of 2Gb, and a single channel consumption limit is 0.1 (10%), that means data size of a single channel can't exceed 200Mb. Consumption limit of 100% (default) means that a single channel can consume up-to all allocated queue's resources.
func (o QueueOutput) ChannelConsumptionLimit() pulumi.IntOutput {
return o.ApplyT(func(v *Queue) pulumi.IntOutput { return v.ChannelConsumptionLimit }).(pulumi.IntOutput)
}
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment containing the queue.
func (o QueueOutput) CompartmentId() pulumi.StringOutput {
return o.ApplyT(func(v *Queue) pulumi.StringOutput { return v.CompartmentId }).(pulumi.StringOutput)
}
// (Updatable) The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the custom encryption key to be used to encrypt messages content.
func (o QueueOutput) CustomEncryptionKeyId() pulumi.StringOutput {
return o.ApplyT(func(v *Queue) pulumi.StringOutput { return v.CustomEncryptionKeyId }).(pulumi.StringOutput)
}
// (Updatable) The number of times a message can be delivered to a consumer before being moved to the dead letter queue. A value of 0 indicates that the DLQ is not used.
func (o QueueOutput) DeadLetterQueueDeliveryCount() pulumi.IntOutput {
return o.ApplyT(func(v *Queue) pulumi.IntOutput { return v.DeadLetterQueueDeliveryCount }).(pulumi.IntOutput)
}
// (Updatable) Defined tags for this resource. Each key is predefined and scoped to a namespace. Example: `{"foo-namespace.bar-key": "value"}`
func (o QueueOutput) DefinedTags() pulumi.MapOutput {
return o.ApplyT(func(v *Queue) pulumi.MapOutput { return v.DefinedTags }).(pulumi.MapOutput)
}
// (Updatable) The user-friendly name of the queue.
func (o QueueOutput) DisplayName() pulumi.StringOutput {
return o.ApplyT(func(v *Queue) pulumi.StringOutput { return v.DisplayName }).(pulumi.StringOutput)
}
// (Updatable) Simple key-value pair that is applied without any predefined name, type or scope. Exists for cross-compatibility only. Example: `{"bar-key": "value"}`
func (o QueueOutput) FreeformTags() pulumi.MapOutput {
return o.ApplyT(func(v *Queue) pulumi.MapOutput { return v.FreeformTags }).(pulumi.MapOutput)
}
// Any additional details about the current state of the queue.
func (o QueueOutput) LifecycleDetails() pulumi.StringOutput {
return o.ApplyT(func(v *Queue) pulumi.StringOutput { return v.LifecycleDetails }).(pulumi.StringOutput)
}
// The endpoint to use to consume or publish messages in the queue.
func (o QueueOutput) MessagesEndpoint() pulumi.StringOutput {
return o.ApplyT(func(v *Queue) pulumi.StringOutput { return v.MessagesEndpoint }).(pulumi.StringOutput)
}
func (o QueueOutput) PurgeQueue() pulumi.BoolPtrOutput {
return o.ApplyT(func(v *Queue) pulumi.BoolPtrOutput { return v.PurgeQueue }).(pulumi.BoolPtrOutput)
}
func (o QueueOutput) PurgeType() pulumi.StringPtrOutput {
return o.ApplyT(func(v *Queue) pulumi.StringPtrOutput { return v.PurgeType }).(pulumi.StringPtrOutput)
}
// The retention period of messages in the queue, in seconds.
func (o QueueOutput) RetentionInSeconds() pulumi.IntOutput {
return o.ApplyT(func(v *Queue) pulumi.IntOutput { return v.RetentionInSeconds }).(pulumi.IntOutput)
}
// The current state of the queue.
func (o QueueOutput) State() pulumi.StringOutput {
return o.ApplyT(func(v *Queue) pulumi.StringOutput { return v.State }).(pulumi.StringOutput)
}
// Usage of system tag keys. These predefined keys are scoped to namespaces. Example: `{"orcl-cloud.free-tier-retained": "true"}`
func (o QueueOutput) SystemTags() pulumi.MapOutput {
return o.ApplyT(func(v *Queue) pulumi.MapOutput { return v.SystemTags }).(pulumi.MapOutput)
}
// The time that the queue was created, expressed in [RFC 3339](https://tools.ietf.org/rfc/rfc3339) timestamp format. Example: `2018-04-20T00:00:07.405Z`
func (o QueueOutput) TimeCreated() pulumi.StringOutput {
return o.ApplyT(func(v *Queue) pulumi.StringOutput { return v.TimeCreated }).(pulumi.StringOutput)
}
// The time that the queue was updated, expressed in [RFC 3339](https://tools.ietf.org/rfc/rfc3339) timestamp format. Example: `2018-04-20T00:00:07.405Z`
func (o QueueOutput) TimeUpdated() pulumi.StringOutput {
return o.ApplyT(func(v *Queue) pulumi.StringOutput { return v.TimeUpdated }).(pulumi.StringOutput)
}
// (Updatable) The default polling timeout of the messages in the queue, in seconds.
func (o QueueOutput) TimeoutInSeconds() pulumi.IntOutput {
return o.ApplyT(func(v *Queue) pulumi.IntOutput { return v.TimeoutInSeconds }).(pulumi.IntOutput)
}
// (Updatable) The default visibility timeout of the messages consumed from the queue, in seconds.
func (o QueueOutput) VisibilityInSeconds() pulumi.IntOutput {
return o.ApplyT(func(v *Queue) pulumi.IntOutput { return v.VisibilityInSeconds }).(pulumi.IntOutput)
}
type QueueArrayOutput struct{ *pulumi.OutputState }
func (QueueArrayOutput) ElementType() reflect.Type {
return reflect.TypeOf((*[]*Queue)(nil)).Elem()
}
func (o QueueArrayOutput) ToQueueArrayOutput() QueueArrayOutput {
return o
}
func (o QueueArrayOutput) ToQueueArrayOutputWithContext(ctx context.Context) QueueArrayOutput {
return o
}
func (o QueueArrayOutput) Index(i pulumi.IntInput) QueueOutput {
return pulumi.All(o, i).ApplyT(func(vs []interface{}) *Queue {
return vs[0].([]*Queue)[vs[1].(int)]
}).(QueueOutput)
}
type QueueMapOutput struct{ *pulumi.OutputState }
func (QueueMapOutput) ElementType() reflect.Type {
return reflect.TypeOf((*map[string]*Queue)(nil)).Elem()
}
func (o QueueMapOutput) ToQueueMapOutput() QueueMapOutput {
return o
}
func (o QueueMapOutput) ToQueueMapOutputWithContext(ctx context.Context) QueueMapOutput {
return o
}
func (o QueueMapOutput) MapIndex(k pulumi.StringInput) QueueOutput {
return pulumi.All(o, k).ApplyT(func(vs []interface{}) *Queue {
return vs[0].(map[string]*Queue)[vs[1].(string)]
}).(QueueOutput)
}
func init() {
pulumi.RegisterInputType(reflect.TypeOf((*QueueInput)(nil)).Elem(), &Queue{})
pulumi.RegisterInputType(reflect.TypeOf((*QueueArrayInput)(nil)).Elem(), QueueArray{})
pulumi.RegisterInputType(reflect.TypeOf((*QueueMapInput)(nil)).Elem(), QueueMap{})
pulumi.RegisterOutputType(QueueOutput{})
pulumi.RegisterOutputType(QueueArrayOutput{})
pulumi.RegisterOutputType(QueueMapOutput{})
}