sql

package
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Published: Oct 15, 2021 License: Apache-2.0 Imports: 7 Imported by: 0

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Constants

This section is empty.

Variables

This section is empty.

Functions

This section is empty.

Types

type ActiveDirectoryAdministrator

type ActiveDirectoryAdministrator struct {
	pulumi.CustomResourceState

	// The login name of the principal to set as the server administrator
	Login pulumi.StringOutput `pulumi:"login"`
	// The ID of the principal to set as the server administrator
	ObjectId pulumi.StringOutput `pulumi:"objectId"`
	// The name of the resource group for the SQL server. Changing this forces a new resource to be created.
	ResourceGroupName pulumi.StringOutput `pulumi:"resourceGroupName"`
	// The name of the SQL Server on which to set the administrator. Changing this forces a new resource to be created.
	ServerName pulumi.StringOutput `pulumi:"serverName"`
	// The Azure Tenant ID
	TenantId pulumi.StringOutput `pulumi:"tenantId"`
}

Allows you to set a user or group as the AD administrator for an Azure SQL server

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		current, err := core.GetClientConfig(ctx, nil, nil)
		if err != nil {
			return err
		}
		exampleResourceGroup, err := core.NewResourceGroup(ctx, "exampleResourceGroup", &core.ResourceGroupArgs{
			Location: pulumi.String("West Europe"),
		})
		if err != nil {
			return err
		}
		exampleSqlServer, err := sql.NewSqlServer(ctx, "exampleSqlServer", &sql.SqlServerArgs{
			ResourceGroupName:          exampleResourceGroup.Name,
			Location:                   exampleResourceGroup.Location,
			Version:                    pulumi.String("12.0"),
			AdministratorLogin:         pulumi.String("4dm1n157r470r"),
			AdministratorLoginPassword: pulumi.String("4-v3ry-53cr37-p455w0rd"),
		})
		if err != nil {
			return err
		}
		_, err = sql.NewActiveDirectoryAdministrator(ctx, "exampleActiveDirectoryAdministrator", &sql.ActiveDirectoryAdministratorArgs{
			ServerName:        exampleSqlServer.Name,
			ResourceGroupName: exampleResourceGroup.Name,
			Login:             pulumi.String("sqladmin"),
			TenantId:          pulumi.String(current.TenantId),
			ObjectId:          pulumi.String(current.ObjectId),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

```

## Import

A SQL Active Directory Administrator can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/activeDirectoryAdministrator:ActiveDirectoryAdministrator administrator /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/servers/myserver/administrators/activeDirectory

```

func GetActiveDirectoryAdministrator

func GetActiveDirectoryAdministrator(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *ActiveDirectoryAdministratorState, opts ...pulumi.ResourceOption) (*ActiveDirectoryAdministrator, error)

GetActiveDirectoryAdministrator gets an existing ActiveDirectoryAdministrator 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 NewActiveDirectoryAdministrator

func NewActiveDirectoryAdministrator(ctx *pulumi.Context,
	name string, args *ActiveDirectoryAdministratorArgs, opts ...pulumi.ResourceOption) (*ActiveDirectoryAdministrator, error)

NewActiveDirectoryAdministrator registers a new resource with the given unique name, arguments, and options.

func (*ActiveDirectoryAdministrator) ElementType

func (*ActiveDirectoryAdministrator) ElementType() reflect.Type

func (*ActiveDirectoryAdministrator) ToActiveDirectoryAdministratorOutput

func (i *ActiveDirectoryAdministrator) ToActiveDirectoryAdministratorOutput() ActiveDirectoryAdministratorOutput

func (*ActiveDirectoryAdministrator) ToActiveDirectoryAdministratorOutputWithContext

func (i *ActiveDirectoryAdministrator) ToActiveDirectoryAdministratorOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorOutput

func (*ActiveDirectoryAdministrator) ToActiveDirectoryAdministratorPtrOutput

func (i *ActiveDirectoryAdministrator) ToActiveDirectoryAdministratorPtrOutput() ActiveDirectoryAdministratorPtrOutput

func (*ActiveDirectoryAdministrator) ToActiveDirectoryAdministratorPtrOutputWithContext

func (i *ActiveDirectoryAdministrator) ToActiveDirectoryAdministratorPtrOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorPtrOutput

type ActiveDirectoryAdministratorArgs

type ActiveDirectoryAdministratorArgs struct {
	// The login name of the principal to set as the server administrator
	Login pulumi.StringInput
	// The ID of the principal to set as the server administrator
	ObjectId pulumi.StringInput
	// The name of the resource group for the SQL server. Changing this forces a new resource to be created.
	ResourceGroupName pulumi.StringInput
	// The name of the SQL Server on which to set the administrator. Changing this forces a new resource to be created.
	ServerName pulumi.StringInput
	// The Azure Tenant ID
	TenantId pulumi.StringInput
}

The set of arguments for constructing a ActiveDirectoryAdministrator resource.

func (ActiveDirectoryAdministratorArgs) ElementType

type ActiveDirectoryAdministratorArray

type ActiveDirectoryAdministratorArray []ActiveDirectoryAdministratorInput

func (ActiveDirectoryAdministratorArray) ElementType

func (ActiveDirectoryAdministratorArray) ToActiveDirectoryAdministratorArrayOutput

func (i ActiveDirectoryAdministratorArray) ToActiveDirectoryAdministratorArrayOutput() ActiveDirectoryAdministratorArrayOutput

func (ActiveDirectoryAdministratorArray) ToActiveDirectoryAdministratorArrayOutputWithContext

func (i ActiveDirectoryAdministratorArray) ToActiveDirectoryAdministratorArrayOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorArrayOutput

type ActiveDirectoryAdministratorArrayInput

type ActiveDirectoryAdministratorArrayInput interface {
	pulumi.Input

	ToActiveDirectoryAdministratorArrayOutput() ActiveDirectoryAdministratorArrayOutput
	ToActiveDirectoryAdministratorArrayOutputWithContext(context.Context) ActiveDirectoryAdministratorArrayOutput
}

ActiveDirectoryAdministratorArrayInput is an input type that accepts ActiveDirectoryAdministratorArray and ActiveDirectoryAdministratorArrayOutput values. You can construct a concrete instance of `ActiveDirectoryAdministratorArrayInput` via:

ActiveDirectoryAdministratorArray{ ActiveDirectoryAdministratorArgs{...} }

type ActiveDirectoryAdministratorArrayOutput

type ActiveDirectoryAdministratorArrayOutput struct{ *pulumi.OutputState }

func (ActiveDirectoryAdministratorArrayOutput) ElementType

func (ActiveDirectoryAdministratorArrayOutput) Index

func (ActiveDirectoryAdministratorArrayOutput) ToActiveDirectoryAdministratorArrayOutput

func (o ActiveDirectoryAdministratorArrayOutput) ToActiveDirectoryAdministratorArrayOutput() ActiveDirectoryAdministratorArrayOutput

func (ActiveDirectoryAdministratorArrayOutput) ToActiveDirectoryAdministratorArrayOutputWithContext

func (o ActiveDirectoryAdministratorArrayOutput) ToActiveDirectoryAdministratorArrayOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorArrayOutput

type ActiveDirectoryAdministratorInput

type ActiveDirectoryAdministratorInput interface {
	pulumi.Input

	ToActiveDirectoryAdministratorOutput() ActiveDirectoryAdministratorOutput
	ToActiveDirectoryAdministratorOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorOutput
}

type ActiveDirectoryAdministratorMap

type ActiveDirectoryAdministratorMap map[string]ActiveDirectoryAdministratorInput

func (ActiveDirectoryAdministratorMap) ElementType

func (ActiveDirectoryAdministratorMap) ToActiveDirectoryAdministratorMapOutput

func (i ActiveDirectoryAdministratorMap) ToActiveDirectoryAdministratorMapOutput() ActiveDirectoryAdministratorMapOutput

func (ActiveDirectoryAdministratorMap) ToActiveDirectoryAdministratorMapOutputWithContext

func (i ActiveDirectoryAdministratorMap) ToActiveDirectoryAdministratorMapOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorMapOutput

type ActiveDirectoryAdministratorMapInput

type ActiveDirectoryAdministratorMapInput interface {
	pulumi.Input

	ToActiveDirectoryAdministratorMapOutput() ActiveDirectoryAdministratorMapOutput
	ToActiveDirectoryAdministratorMapOutputWithContext(context.Context) ActiveDirectoryAdministratorMapOutput
}

ActiveDirectoryAdministratorMapInput is an input type that accepts ActiveDirectoryAdministratorMap and ActiveDirectoryAdministratorMapOutput values. You can construct a concrete instance of `ActiveDirectoryAdministratorMapInput` via:

ActiveDirectoryAdministratorMap{ "key": ActiveDirectoryAdministratorArgs{...} }

type ActiveDirectoryAdministratorMapOutput

type ActiveDirectoryAdministratorMapOutput struct{ *pulumi.OutputState }

func (ActiveDirectoryAdministratorMapOutput) ElementType

func (ActiveDirectoryAdministratorMapOutput) MapIndex

func (ActiveDirectoryAdministratorMapOutput) ToActiveDirectoryAdministratorMapOutput

func (o ActiveDirectoryAdministratorMapOutput) ToActiveDirectoryAdministratorMapOutput() ActiveDirectoryAdministratorMapOutput

func (ActiveDirectoryAdministratorMapOutput) ToActiveDirectoryAdministratorMapOutputWithContext

func (o ActiveDirectoryAdministratorMapOutput) ToActiveDirectoryAdministratorMapOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorMapOutput

type ActiveDirectoryAdministratorOutput

type ActiveDirectoryAdministratorOutput struct{ *pulumi.OutputState }

func (ActiveDirectoryAdministratorOutput) ElementType

func (ActiveDirectoryAdministratorOutput) ToActiveDirectoryAdministratorOutput

func (o ActiveDirectoryAdministratorOutput) ToActiveDirectoryAdministratorOutput() ActiveDirectoryAdministratorOutput

func (ActiveDirectoryAdministratorOutput) ToActiveDirectoryAdministratorOutputWithContext

func (o ActiveDirectoryAdministratorOutput) ToActiveDirectoryAdministratorOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorOutput

func (ActiveDirectoryAdministratorOutput) ToActiveDirectoryAdministratorPtrOutput

func (o ActiveDirectoryAdministratorOutput) ToActiveDirectoryAdministratorPtrOutput() ActiveDirectoryAdministratorPtrOutput

func (ActiveDirectoryAdministratorOutput) ToActiveDirectoryAdministratorPtrOutputWithContext

func (o ActiveDirectoryAdministratorOutput) ToActiveDirectoryAdministratorPtrOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorPtrOutput

type ActiveDirectoryAdministratorPtrInput

type ActiveDirectoryAdministratorPtrInput interface {
	pulumi.Input

	ToActiveDirectoryAdministratorPtrOutput() ActiveDirectoryAdministratorPtrOutput
	ToActiveDirectoryAdministratorPtrOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorPtrOutput
}

type ActiveDirectoryAdministratorPtrOutput

type ActiveDirectoryAdministratorPtrOutput struct{ *pulumi.OutputState }

func (ActiveDirectoryAdministratorPtrOutput) Elem added in v4.20.0

func (ActiveDirectoryAdministratorPtrOutput) ElementType

func (ActiveDirectoryAdministratorPtrOutput) ToActiveDirectoryAdministratorPtrOutput

func (o ActiveDirectoryAdministratorPtrOutput) ToActiveDirectoryAdministratorPtrOutput() ActiveDirectoryAdministratorPtrOutput

func (ActiveDirectoryAdministratorPtrOutput) ToActiveDirectoryAdministratorPtrOutputWithContext

func (o ActiveDirectoryAdministratorPtrOutput) ToActiveDirectoryAdministratorPtrOutputWithContext(ctx context.Context) ActiveDirectoryAdministratorPtrOutput

type ActiveDirectoryAdministratorState

type ActiveDirectoryAdministratorState struct {
	// The login name of the principal to set as the server administrator
	Login pulumi.StringPtrInput
	// The ID of the principal to set as the server administrator
	ObjectId pulumi.StringPtrInput
	// The name of the resource group for the SQL server. Changing this forces a new resource to be created.
	ResourceGroupName pulumi.StringPtrInput
	// The name of the SQL Server on which to set the administrator. Changing this forces a new resource to be created.
	ServerName pulumi.StringPtrInput
	// The Azure Tenant ID
	TenantId pulumi.StringPtrInput
}

func (ActiveDirectoryAdministratorState) ElementType

type Database

type Database struct {
	pulumi.CustomResourceState

	// The name of the collation. Applies only if `createMode` is `Default`.  Azure default is `SQL_LATIN1_GENERAL_CP1_CI_AS`. Changing this forces a new resource to be created.
	Collation pulumi.StringOutput `pulumi:"collation"`
	// Specifies how to create the database. Valid values are: `Default`, `Copy`, `OnlineSecondary`, `NonReadableSecondary`,  `PointInTimeRestore`, `Recovery`, `Restore` or `RestoreLongTermRetentionBackup`. Must be `Default` to create a new database. Defaults to `Default`. Please see [Azure SQL Database REST API](https://docs.microsoft.com/en-us/rest/api/sql/databases/createorupdate#createmode)
	CreateMode pulumi.StringPtrOutput `pulumi:"createMode"`
	// The creation date of the SQL Database.
	CreationDate pulumi.StringOutput `pulumi:"creationDate"`
	// The default secondary location of the SQL Database.
	DefaultSecondaryLocation pulumi.StringOutput `pulumi:"defaultSecondaryLocation"`
	// The edition of the database to be created. Applies only if `createMode` is `Default`. Valid values are: `Basic`, `Standard`, `Premium`, `DataWarehouse`, `Business`, `BusinessCritical`, `Free`, `GeneralPurpose`, `Hyperscale`, `Premium`, `PremiumRS`, `Standard`, `Stretch`, `System`, `System2`, or `Web`. Please see [Azure SQL Database Service Tiers](https://azure.microsoft.com/en-gb/documentation/articles/sql-database-service-tiers/).
	Edition pulumi.StringOutput `pulumi:"edition"`
	// The name of the elastic database pool.
	ElasticPoolName pulumi.StringOutput `pulumi:"elasticPoolName"`
	Encryption      pulumi.StringOutput `pulumi:"encryption"`
	// A `extendedAuditingPolicy` block as defined below.
	//
	// Deprecated: the `extended_auditing_policy` block has been moved to `azurerm_mssql_server_extended_auditing_policy` and `azurerm_mssql_database_extended_auditing_policy`. This block will be removed in version 3.0 of the provider.
	ExtendedAuditingPolicy DatabaseExtendedAuditingPolicyOutput `pulumi:"extendedAuditingPolicy"`
	// A Database Import block as documented below. `createMode` must be set to `Default`.
	Import DatabaseImportPtrOutput `pulumi:"import"`
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringOutput `pulumi:"location"`
	// The maximum size that the database can grow to. Applies only if `createMode` is `Default`.  Please see [Azure SQL Database Service Tiers](https://azure.microsoft.com/en-gb/documentation/articles/sql-database-service-tiers/).
	MaxSizeBytes pulumi.StringOutput `pulumi:"maxSizeBytes"`
	MaxSizeGb    pulumi.StringOutput `pulumi:"maxSizeGb"`
	// The name of the database.
	Name pulumi.StringOutput `pulumi:"name"`
	// Read-only connections will be redirected to a high-available replica. Please see [Use read-only replicas to load-balance read-only query workloads](https://docs.microsoft.com/en-us/azure/sql-database/sql-database-read-scale-out).
	ReadScale pulumi.BoolPtrOutput `pulumi:"readScale"`
	// A GUID/UUID corresponding to a configured Service Level Objective for the Azure SQL database which can be used to configure a performance level.
	// .
	RequestedServiceObjectiveId pulumi.StringOutput `pulumi:"requestedServiceObjectiveId"`
	// The service objective name for the database. Valid values depend on edition and location and may include `S0`, `S1`, `S2`, `S3`, `P1`, `P2`, `P4`, `P6`, `P11` and `ElasticPool`. You can list the available names with the cli: `shell az sql db list-editions -l westus -o table`. For further information please see [Azure CLI - az sql db](https://docs.microsoft.com/en-us/cli/azure/sql/db?view=azure-cli-latest#az-sql-db-list-editions).
	RequestedServiceObjectiveName pulumi.StringOutput `pulumi:"requestedServiceObjectiveName"`
	// The name of the resource group in which to create the database.  This must be the same as Database Server resource group currently.
	ResourceGroupName pulumi.StringOutput `pulumi:"resourceGroupName"`
	// The point in time for the restore. Only applies if `createMode` is `PointInTimeRestore` e.g. 2013-11-08T22:00:40Z
	RestorePointInTime pulumi.StringOutput `pulumi:"restorePointInTime"`
	// The name of the SQL Server on which to create the database.
	ServerName pulumi.StringOutput `pulumi:"serverName"`
	// The deletion date time of the source database. Only applies to deleted databases where `createMode` is `PointInTimeRestore`.
	SourceDatabaseDeletionDate pulumi.StringOutput `pulumi:"sourceDatabaseDeletionDate"`
	// The URI of the source database if `createMode` value is not `Default`.
	SourceDatabaseId pulumi.StringOutput `pulumi:"sourceDatabaseId"`
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapOutput `pulumi:"tags"`
	// Threat detection policy configuration. The `threatDetectionPolicy` block supports fields documented below.
	ThreatDetectionPolicy DatabaseThreatDetectionPolicyOutput `pulumi:"threatDetectionPolicy"`
	// Whether or not this database is zone redundant, which means the replicas of this database will be spread across multiple availability zones.
	ZoneRedundant pulumi.BoolPtrOutput `pulumi:"zoneRedundant"`
}

## Import

SQL Databases can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/database:Database database1 /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/servers/myserver/databases/database1

```

func GetDatabase

func GetDatabase(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *DatabaseState, opts ...pulumi.ResourceOption) (*Database, error)

GetDatabase gets an existing Database 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 NewDatabase

func NewDatabase(ctx *pulumi.Context,
	name string, args *DatabaseArgs, opts ...pulumi.ResourceOption) (*Database, error)

NewDatabase registers a new resource with the given unique name, arguments, and options.

func (*Database) ElementType

func (*Database) ElementType() reflect.Type

func (*Database) ToDatabaseOutput

func (i *Database) ToDatabaseOutput() DatabaseOutput

func (*Database) ToDatabaseOutputWithContext

func (i *Database) ToDatabaseOutputWithContext(ctx context.Context) DatabaseOutput

func (*Database) ToDatabasePtrOutput

func (i *Database) ToDatabasePtrOutput() DatabasePtrOutput

func (*Database) ToDatabasePtrOutputWithContext

func (i *Database) ToDatabasePtrOutputWithContext(ctx context.Context) DatabasePtrOutput

type DatabaseArgs

type DatabaseArgs struct {
	// The name of the collation. Applies only if `createMode` is `Default`.  Azure default is `SQL_LATIN1_GENERAL_CP1_CI_AS`. Changing this forces a new resource to be created.
	Collation pulumi.StringPtrInput
	// Specifies how to create the database. Valid values are: `Default`, `Copy`, `OnlineSecondary`, `NonReadableSecondary`,  `PointInTimeRestore`, `Recovery`, `Restore` or `RestoreLongTermRetentionBackup`. Must be `Default` to create a new database. Defaults to `Default`. Please see [Azure SQL Database REST API](https://docs.microsoft.com/en-us/rest/api/sql/databases/createorupdate#createmode)
	CreateMode pulumi.StringPtrInput
	// The edition of the database to be created. Applies only if `createMode` is `Default`. Valid values are: `Basic`, `Standard`, `Premium`, `DataWarehouse`, `Business`, `BusinessCritical`, `Free`, `GeneralPurpose`, `Hyperscale`, `Premium`, `PremiumRS`, `Standard`, `Stretch`, `System`, `System2`, or `Web`. Please see [Azure SQL Database Service Tiers](https://azure.microsoft.com/en-gb/documentation/articles/sql-database-service-tiers/).
	Edition pulumi.StringPtrInput
	// The name of the elastic database pool.
	ElasticPoolName pulumi.StringPtrInput
	// A `extendedAuditingPolicy` block as defined below.
	//
	// Deprecated: the `extended_auditing_policy` block has been moved to `azurerm_mssql_server_extended_auditing_policy` and `azurerm_mssql_database_extended_auditing_policy`. This block will be removed in version 3.0 of the provider.
	ExtendedAuditingPolicy DatabaseExtendedAuditingPolicyPtrInput
	// A Database Import block as documented below. `createMode` must be set to `Default`.
	Import DatabaseImportPtrInput
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The maximum size that the database can grow to. Applies only if `createMode` is `Default`.  Please see [Azure SQL Database Service Tiers](https://azure.microsoft.com/en-gb/documentation/articles/sql-database-service-tiers/).
	MaxSizeBytes pulumi.StringPtrInput
	MaxSizeGb    pulumi.StringPtrInput
	// The name of the database.
	Name pulumi.StringPtrInput
	// Read-only connections will be redirected to a high-available replica. Please see [Use read-only replicas to load-balance read-only query workloads](https://docs.microsoft.com/en-us/azure/sql-database/sql-database-read-scale-out).
	ReadScale pulumi.BoolPtrInput
	// A GUID/UUID corresponding to a configured Service Level Objective for the Azure SQL database which can be used to configure a performance level.
	// .
	RequestedServiceObjectiveId pulumi.StringPtrInput
	// The service objective name for the database. Valid values depend on edition and location and may include `S0`, `S1`, `S2`, `S3`, `P1`, `P2`, `P4`, `P6`, `P11` and `ElasticPool`. You can list the available names with the cli: `shell az sql db list-editions -l westus -o table`. For further information please see [Azure CLI - az sql db](https://docs.microsoft.com/en-us/cli/azure/sql/db?view=azure-cli-latest#az-sql-db-list-editions).
	RequestedServiceObjectiveName pulumi.StringPtrInput
	// The name of the resource group in which to create the database.  This must be the same as Database Server resource group currently.
	ResourceGroupName pulumi.StringInput
	// The point in time for the restore. Only applies if `createMode` is `PointInTimeRestore` e.g. 2013-11-08T22:00:40Z
	RestorePointInTime pulumi.StringPtrInput
	// The name of the SQL Server on which to create the database.
	ServerName pulumi.StringInput
	// The deletion date time of the source database. Only applies to deleted databases where `createMode` is `PointInTimeRestore`.
	SourceDatabaseDeletionDate pulumi.StringPtrInput
	// The URI of the source database if `createMode` value is not `Default`.
	SourceDatabaseId pulumi.StringPtrInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
	// Threat detection policy configuration. The `threatDetectionPolicy` block supports fields documented below.
	ThreatDetectionPolicy DatabaseThreatDetectionPolicyPtrInput
	// Whether or not this database is zone redundant, which means the replicas of this database will be spread across multiple availability zones.
	ZoneRedundant pulumi.BoolPtrInput
}

The set of arguments for constructing a Database resource.

func (DatabaseArgs) ElementType

func (DatabaseArgs) ElementType() reflect.Type

type DatabaseArray

type DatabaseArray []DatabaseInput

func (DatabaseArray) ElementType

func (DatabaseArray) ElementType() reflect.Type

func (DatabaseArray) ToDatabaseArrayOutput

func (i DatabaseArray) ToDatabaseArrayOutput() DatabaseArrayOutput

func (DatabaseArray) ToDatabaseArrayOutputWithContext

func (i DatabaseArray) ToDatabaseArrayOutputWithContext(ctx context.Context) DatabaseArrayOutput

type DatabaseArrayInput

type DatabaseArrayInput interface {
	pulumi.Input

	ToDatabaseArrayOutput() DatabaseArrayOutput
	ToDatabaseArrayOutputWithContext(context.Context) DatabaseArrayOutput
}

DatabaseArrayInput is an input type that accepts DatabaseArray and DatabaseArrayOutput values. You can construct a concrete instance of `DatabaseArrayInput` via:

DatabaseArray{ DatabaseArgs{...} }

type DatabaseArrayOutput

type DatabaseArrayOutput struct{ *pulumi.OutputState }

func (DatabaseArrayOutput) ElementType

func (DatabaseArrayOutput) ElementType() reflect.Type

func (DatabaseArrayOutput) Index

func (DatabaseArrayOutput) ToDatabaseArrayOutput

func (o DatabaseArrayOutput) ToDatabaseArrayOutput() DatabaseArrayOutput

func (DatabaseArrayOutput) ToDatabaseArrayOutputWithContext

func (o DatabaseArrayOutput) ToDatabaseArrayOutputWithContext(ctx context.Context) DatabaseArrayOutput

type DatabaseExtendedAuditingPolicy

type DatabaseExtendedAuditingPolicy struct {
	LogMonitoringEnabled *bool `pulumi:"logMonitoringEnabled"`
	// Specifies the number of days to retain logs for in the storage account.
	RetentionInDays *int `pulumi:"retentionInDays"`
	// Specifies the access key to use for the auditing storage account.
	StorageAccountAccessKey *string `pulumi:"storageAccountAccessKey"`
	// Specifies whether `storageAccountAccessKey` value is the storage's secondary key.
	StorageAccountAccessKeyIsSecondary *bool `pulumi:"storageAccountAccessKeyIsSecondary"`
	// Specifies the blob storage endpoint (e.g. https://MyAccount.blob.core.windows.net).
	StorageEndpoint *string `pulumi:"storageEndpoint"`
}

type DatabaseExtendedAuditingPolicyArgs

type DatabaseExtendedAuditingPolicyArgs struct {
	LogMonitoringEnabled pulumi.BoolPtrInput `pulumi:"logMonitoringEnabled"`
	// Specifies the number of days to retain logs for in the storage account.
	RetentionInDays pulumi.IntPtrInput `pulumi:"retentionInDays"`
	// Specifies the access key to use for the auditing storage account.
	StorageAccountAccessKey pulumi.StringPtrInput `pulumi:"storageAccountAccessKey"`
	// Specifies whether `storageAccountAccessKey` value is the storage's secondary key.
	StorageAccountAccessKeyIsSecondary pulumi.BoolPtrInput `pulumi:"storageAccountAccessKeyIsSecondary"`
	// Specifies the blob storage endpoint (e.g. https://MyAccount.blob.core.windows.net).
	StorageEndpoint pulumi.StringPtrInput `pulumi:"storageEndpoint"`
}

func (DatabaseExtendedAuditingPolicyArgs) ElementType

func (DatabaseExtendedAuditingPolicyArgs) ToDatabaseExtendedAuditingPolicyOutput

func (i DatabaseExtendedAuditingPolicyArgs) ToDatabaseExtendedAuditingPolicyOutput() DatabaseExtendedAuditingPolicyOutput

func (DatabaseExtendedAuditingPolicyArgs) ToDatabaseExtendedAuditingPolicyOutputWithContext

func (i DatabaseExtendedAuditingPolicyArgs) ToDatabaseExtendedAuditingPolicyOutputWithContext(ctx context.Context) DatabaseExtendedAuditingPolicyOutput

func (DatabaseExtendedAuditingPolicyArgs) ToDatabaseExtendedAuditingPolicyPtrOutput

func (i DatabaseExtendedAuditingPolicyArgs) ToDatabaseExtendedAuditingPolicyPtrOutput() DatabaseExtendedAuditingPolicyPtrOutput

func (DatabaseExtendedAuditingPolicyArgs) ToDatabaseExtendedAuditingPolicyPtrOutputWithContext

func (i DatabaseExtendedAuditingPolicyArgs) ToDatabaseExtendedAuditingPolicyPtrOutputWithContext(ctx context.Context) DatabaseExtendedAuditingPolicyPtrOutput

type DatabaseExtendedAuditingPolicyInput

type DatabaseExtendedAuditingPolicyInput interface {
	pulumi.Input

	ToDatabaseExtendedAuditingPolicyOutput() DatabaseExtendedAuditingPolicyOutput
	ToDatabaseExtendedAuditingPolicyOutputWithContext(context.Context) DatabaseExtendedAuditingPolicyOutput
}

DatabaseExtendedAuditingPolicyInput is an input type that accepts DatabaseExtendedAuditingPolicyArgs and DatabaseExtendedAuditingPolicyOutput values. You can construct a concrete instance of `DatabaseExtendedAuditingPolicyInput` via:

DatabaseExtendedAuditingPolicyArgs{...}

type DatabaseExtendedAuditingPolicyOutput

type DatabaseExtendedAuditingPolicyOutput struct{ *pulumi.OutputState }

func (DatabaseExtendedAuditingPolicyOutput) ElementType

func (DatabaseExtendedAuditingPolicyOutput) LogMonitoringEnabled

func (DatabaseExtendedAuditingPolicyOutput) RetentionInDays

Specifies the number of days to retain logs for in the storage account.

func (DatabaseExtendedAuditingPolicyOutput) StorageAccountAccessKey

func (o DatabaseExtendedAuditingPolicyOutput) StorageAccountAccessKey() pulumi.StringPtrOutput

Specifies the access key to use for the auditing storage account.

func (DatabaseExtendedAuditingPolicyOutput) StorageAccountAccessKeyIsSecondary

func (o DatabaseExtendedAuditingPolicyOutput) StorageAccountAccessKeyIsSecondary() pulumi.BoolPtrOutput

Specifies whether `storageAccountAccessKey` value is the storage's secondary key.

func (DatabaseExtendedAuditingPolicyOutput) StorageEndpoint

Specifies the blob storage endpoint (e.g. https://MyAccount.blob.core.windows.net).

func (DatabaseExtendedAuditingPolicyOutput) ToDatabaseExtendedAuditingPolicyOutput

func (o DatabaseExtendedAuditingPolicyOutput) ToDatabaseExtendedAuditingPolicyOutput() DatabaseExtendedAuditingPolicyOutput

func (DatabaseExtendedAuditingPolicyOutput) ToDatabaseExtendedAuditingPolicyOutputWithContext

func (o DatabaseExtendedAuditingPolicyOutput) ToDatabaseExtendedAuditingPolicyOutputWithContext(ctx context.Context) DatabaseExtendedAuditingPolicyOutput

func (DatabaseExtendedAuditingPolicyOutput) ToDatabaseExtendedAuditingPolicyPtrOutput

func (o DatabaseExtendedAuditingPolicyOutput) ToDatabaseExtendedAuditingPolicyPtrOutput() DatabaseExtendedAuditingPolicyPtrOutput

func (DatabaseExtendedAuditingPolicyOutput) ToDatabaseExtendedAuditingPolicyPtrOutputWithContext

func (o DatabaseExtendedAuditingPolicyOutput) ToDatabaseExtendedAuditingPolicyPtrOutputWithContext(ctx context.Context) DatabaseExtendedAuditingPolicyPtrOutput

type DatabaseExtendedAuditingPolicyPtrInput

type DatabaseExtendedAuditingPolicyPtrInput interface {
	pulumi.Input

	ToDatabaseExtendedAuditingPolicyPtrOutput() DatabaseExtendedAuditingPolicyPtrOutput
	ToDatabaseExtendedAuditingPolicyPtrOutputWithContext(context.Context) DatabaseExtendedAuditingPolicyPtrOutput
}

DatabaseExtendedAuditingPolicyPtrInput is an input type that accepts DatabaseExtendedAuditingPolicyArgs, DatabaseExtendedAuditingPolicyPtr and DatabaseExtendedAuditingPolicyPtrOutput values. You can construct a concrete instance of `DatabaseExtendedAuditingPolicyPtrInput` via:

        DatabaseExtendedAuditingPolicyArgs{...}

or:

        nil

type DatabaseExtendedAuditingPolicyPtrOutput

type DatabaseExtendedAuditingPolicyPtrOutput struct{ *pulumi.OutputState }

func (DatabaseExtendedAuditingPolicyPtrOutput) Elem

func (DatabaseExtendedAuditingPolicyPtrOutput) ElementType

func (DatabaseExtendedAuditingPolicyPtrOutput) LogMonitoringEnabled

func (DatabaseExtendedAuditingPolicyPtrOutput) RetentionInDays

Specifies the number of days to retain logs for in the storage account.

func (DatabaseExtendedAuditingPolicyPtrOutput) StorageAccountAccessKey

Specifies the access key to use for the auditing storage account.

func (DatabaseExtendedAuditingPolicyPtrOutput) StorageAccountAccessKeyIsSecondary

func (o DatabaseExtendedAuditingPolicyPtrOutput) StorageAccountAccessKeyIsSecondary() pulumi.BoolPtrOutput

Specifies whether `storageAccountAccessKey` value is the storage's secondary key.

func (DatabaseExtendedAuditingPolicyPtrOutput) StorageEndpoint

Specifies the blob storage endpoint (e.g. https://MyAccount.blob.core.windows.net).

func (DatabaseExtendedAuditingPolicyPtrOutput) ToDatabaseExtendedAuditingPolicyPtrOutput

func (o DatabaseExtendedAuditingPolicyPtrOutput) ToDatabaseExtendedAuditingPolicyPtrOutput() DatabaseExtendedAuditingPolicyPtrOutput

func (DatabaseExtendedAuditingPolicyPtrOutput) ToDatabaseExtendedAuditingPolicyPtrOutputWithContext

func (o DatabaseExtendedAuditingPolicyPtrOutput) ToDatabaseExtendedAuditingPolicyPtrOutputWithContext(ctx context.Context) DatabaseExtendedAuditingPolicyPtrOutput

type DatabaseImport

type DatabaseImport struct {
	// Specifies the name of the SQL administrator.
	AdministratorLogin string `pulumi:"administratorLogin"`
	// Specifies the password of the SQL administrator.
	AdministratorLoginPassword string `pulumi:"administratorLoginPassword"`
	// Specifies the type of authentication used to access the server. Valid values are `SQL` or `ADPassword`.
	AuthenticationType string `pulumi:"authenticationType"`
	// Specifies the type of import operation being performed. The only allowable value is `Import`.
	OperationMode *string `pulumi:"operationMode"`
	// Specifies the access key for the storage account.
	StorageKey string `pulumi:"storageKey"`
	// Specifies the type of access key for the storage account. Valid values are `StorageAccessKey` or `SharedAccessKey`.
	StorageKeyType string `pulumi:"storageKeyType"`
	// Specifies the blob URI of the .bacpac file.
	StorageUri string `pulumi:"storageUri"`
}

type DatabaseImportArgs

type DatabaseImportArgs struct {
	// Specifies the name of the SQL administrator.
	AdministratorLogin pulumi.StringInput `pulumi:"administratorLogin"`
	// Specifies the password of the SQL administrator.
	AdministratorLoginPassword pulumi.StringInput `pulumi:"administratorLoginPassword"`
	// Specifies the type of authentication used to access the server. Valid values are `SQL` or `ADPassword`.
	AuthenticationType pulumi.StringInput `pulumi:"authenticationType"`
	// Specifies the type of import operation being performed. The only allowable value is `Import`.
	OperationMode pulumi.StringPtrInput `pulumi:"operationMode"`
	// Specifies the access key for the storage account.
	StorageKey pulumi.StringInput `pulumi:"storageKey"`
	// Specifies the type of access key for the storage account. Valid values are `StorageAccessKey` or `SharedAccessKey`.
	StorageKeyType pulumi.StringInput `pulumi:"storageKeyType"`
	// Specifies the blob URI of the .bacpac file.
	StorageUri pulumi.StringInput `pulumi:"storageUri"`
}

func (DatabaseImportArgs) ElementType

func (DatabaseImportArgs) ElementType() reflect.Type

func (DatabaseImportArgs) ToDatabaseImportOutput

func (i DatabaseImportArgs) ToDatabaseImportOutput() DatabaseImportOutput

func (DatabaseImportArgs) ToDatabaseImportOutputWithContext

func (i DatabaseImportArgs) ToDatabaseImportOutputWithContext(ctx context.Context) DatabaseImportOutput

func (DatabaseImportArgs) ToDatabaseImportPtrOutput

func (i DatabaseImportArgs) ToDatabaseImportPtrOutput() DatabaseImportPtrOutput

func (DatabaseImportArgs) ToDatabaseImportPtrOutputWithContext

func (i DatabaseImportArgs) ToDatabaseImportPtrOutputWithContext(ctx context.Context) DatabaseImportPtrOutput

type DatabaseImportInput

type DatabaseImportInput interface {
	pulumi.Input

	ToDatabaseImportOutput() DatabaseImportOutput
	ToDatabaseImportOutputWithContext(context.Context) DatabaseImportOutput
}

DatabaseImportInput is an input type that accepts DatabaseImportArgs and DatabaseImportOutput values. You can construct a concrete instance of `DatabaseImportInput` via:

DatabaseImportArgs{...}

type DatabaseImportOutput

type DatabaseImportOutput struct{ *pulumi.OutputState }

func (DatabaseImportOutput) AdministratorLogin

func (o DatabaseImportOutput) AdministratorLogin() pulumi.StringOutput

Specifies the name of the SQL administrator.

func (DatabaseImportOutput) AdministratorLoginPassword

func (o DatabaseImportOutput) AdministratorLoginPassword() pulumi.StringOutput

Specifies the password of the SQL administrator.

func (DatabaseImportOutput) AuthenticationType

func (o DatabaseImportOutput) AuthenticationType() pulumi.StringOutput

Specifies the type of authentication used to access the server. Valid values are `SQL` or `ADPassword`.

func (DatabaseImportOutput) ElementType

func (DatabaseImportOutput) ElementType() reflect.Type

func (DatabaseImportOutput) OperationMode

func (o DatabaseImportOutput) OperationMode() pulumi.StringPtrOutput

Specifies the type of import operation being performed. The only allowable value is `Import`.

func (DatabaseImportOutput) StorageKey

func (o DatabaseImportOutput) StorageKey() pulumi.StringOutput

Specifies the access key for the storage account.

func (DatabaseImportOutput) StorageKeyType

func (o DatabaseImportOutput) StorageKeyType() pulumi.StringOutput

Specifies the type of access key for the storage account. Valid values are `StorageAccessKey` or `SharedAccessKey`.

func (DatabaseImportOutput) StorageUri

func (o DatabaseImportOutput) StorageUri() pulumi.StringOutput

Specifies the blob URI of the .bacpac file.

func (DatabaseImportOutput) ToDatabaseImportOutput

func (o DatabaseImportOutput) ToDatabaseImportOutput() DatabaseImportOutput

func (DatabaseImportOutput) ToDatabaseImportOutputWithContext

func (o DatabaseImportOutput) ToDatabaseImportOutputWithContext(ctx context.Context) DatabaseImportOutput

func (DatabaseImportOutput) ToDatabaseImportPtrOutput

func (o DatabaseImportOutput) ToDatabaseImportPtrOutput() DatabaseImportPtrOutput

func (DatabaseImportOutput) ToDatabaseImportPtrOutputWithContext

func (o DatabaseImportOutput) ToDatabaseImportPtrOutputWithContext(ctx context.Context) DatabaseImportPtrOutput

type DatabaseImportPtrInput

type DatabaseImportPtrInput interface {
	pulumi.Input

	ToDatabaseImportPtrOutput() DatabaseImportPtrOutput
	ToDatabaseImportPtrOutputWithContext(context.Context) DatabaseImportPtrOutput
}

DatabaseImportPtrInput is an input type that accepts DatabaseImportArgs, DatabaseImportPtr and DatabaseImportPtrOutput values. You can construct a concrete instance of `DatabaseImportPtrInput` via:

        DatabaseImportArgs{...}

or:

        nil

type DatabaseImportPtrOutput

type DatabaseImportPtrOutput struct{ *pulumi.OutputState }

func (DatabaseImportPtrOutput) AdministratorLogin

func (o DatabaseImportPtrOutput) AdministratorLogin() pulumi.StringPtrOutput

Specifies the name of the SQL administrator.

func (DatabaseImportPtrOutput) AdministratorLoginPassword

func (o DatabaseImportPtrOutput) AdministratorLoginPassword() pulumi.StringPtrOutput

Specifies the password of the SQL administrator.

func (DatabaseImportPtrOutput) AuthenticationType

func (o DatabaseImportPtrOutput) AuthenticationType() pulumi.StringPtrOutput

Specifies the type of authentication used to access the server. Valid values are `SQL` or `ADPassword`.

func (DatabaseImportPtrOutput) Elem

func (DatabaseImportPtrOutput) ElementType

func (DatabaseImportPtrOutput) ElementType() reflect.Type

func (DatabaseImportPtrOutput) OperationMode

Specifies the type of import operation being performed. The only allowable value is `Import`.

func (DatabaseImportPtrOutput) StorageKey

Specifies the access key for the storage account.

func (DatabaseImportPtrOutput) StorageKeyType

func (o DatabaseImportPtrOutput) StorageKeyType() pulumi.StringPtrOutput

Specifies the type of access key for the storage account. Valid values are `StorageAccessKey` or `SharedAccessKey`.

func (DatabaseImportPtrOutput) StorageUri

Specifies the blob URI of the .bacpac file.

func (DatabaseImportPtrOutput) ToDatabaseImportPtrOutput

func (o DatabaseImportPtrOutput) ToDatabaseImportPtrOutput() DatabaseImportPtrOutput

func (DatabaseImportPtrOutput) ToDatabaseImportPtrOutputWithContext

func (o DatabaseImportPtrOutput) ToDatabaseImportPtrOutputWithContext(ctx context.Context) DatabaseImportPtrOutput

type DatabaseInput

type DatabaseInput interface {
	pulumi.Input

	ToDatabaseOutput() DatabaseOutput
	ToDatabaseOutputWithContext(ctx context.Context) DatabaseOutput
}

type DatabaseMap

type DatabaseMap map[string]DatabaseInput

func (DatabaseMap) ElementType

func (DatabaseMap) ElementType() reflect.Type

func (DatabaseMap) ToDatabaseMapOutput

func (i DatabaseMap) ToDatabaseMapOutput() DatabaseMapOutput

func (DatabaseMap) ToDatabaseMapOutputWithContext

func (i DatabaseMap) ToDatabaseMapOutputWithContext(ctx context.Context) DatabaseMapOutput

type DatabaseMapInput

type DatabaseMapInput interface {
	pulumi.Input

	ToDatabaseMapOutput() DatabaseMapOutput
	ToDatabaseMapOutputWithContext(context.Context) DatabaseMapOutput
}

DatabaseMapInput is an input type that accepts DatabaseMap and DatabaseMapOutput values. You can construct a concrete instance of `DatabaseMapInput` via:

DatabaseMap{ "key": DatabaseArgs{...} }

type DatabaseMapOutput

type DatabaseMapOutput struct{ *pulumi.OutputState }

func (DatabaseMapOutput) ElementType

func (DatabaseMapOutput) ElementType() reflect.Type

func (DatabaseMapOutput) MapIndex

func (DatabaseMapOutput) ToDatabaseMapOutput

func (o DatabaseMapOutput) ToDatabaseMapOutput() DatabaseMapOutput

func (DatabaseMapOutput) ToDatabaseMapOutputWithContext

func (o DatabaseMapOutput) ToDatabaseMapOutputWithContext(ctx context.Context) DatabaseMapOutput

type DatabaseOutput

type DatabaseOutput struct{ *pulumi.OutputState }

func (DatabaseOutput) ElementType

func (DatabaseOutput) ElementType() reflect.Type

func (DatabaseOutput) ToDatabaseOutput

func (o DatabaseOutput) ToDatabaseOutput() DatabaseOutput

func (DatabaseOutput) ToDatabaseOutputWithContext

func (o DatabaseOutput) ToDatabaseOutputWithContext(ctx context.Context) DatabaseOutput

func (DatabaseOutput) ToDatabasePtrOutput

func (o DatabaseOutput) ToDatabasePtrOutput() DatabasePtrOutput

func (DatabaseOutput) ToDatabasePtrOutputWithContext

func (o DatabaseOutput) ToDatabasePtrOutputWithContext(ctx context.Context) DatabasePtrOutput

type DatabasePtrInput

type DatabasePtrInput interface {
	pulumi.Input

	ToDatabasePtrOutput() DatabasePtrOutput
	ToDatabasePtrOutputWithContext(ctx context.Context) DatabasePtrOutput
}

type DatabasePtrOutput

type DatabasePtrOutput struct{ *pulumi.OutputState }

func (DatabasePtrOutput) Elem added in v4.20.0

func (DatabasePtrOutput) ElementType

func (DatabasePtrOutput) ElementType() reflect.Type

func (DatabasePtrOutput) ToDatabasePtrOutput

func (o DatabasePtrOutput) ToDatabasePtrOutput() DatabasePtrOutput

func (DatabasePtrOutput) ToDatabasePtrOutputWithContext

func (o DatabasePtrOutput) ToDatabasePtrOutputWithContext(ctx context.Context) DatabasePtrOutput

type DatabaseState

type DatabaseState struct {
	// The name of the collation. Applies only if `createMode` is `Default`.  Azure default is `SQL_LATIN1_GENERAL_CP1_CI_AS`. Changing this forces a new resource to be created.
	Collation pulumi.StringPtrInput
	// Specifies how to create the database. Valid values are: `Default`, `Copy`, `OnlineSecondary`, `NonReadableSecondary`,  `PointInTimeRestore`, `Recovery`, `Restore` or `RestoreLongTermRetentionBackup`. Must be `Default` to create a new database. Defaults to `Default`. Please see [Azure SQL Database REST API](https://docs.microsoft.com/en-us/rest/api/sql/databases/createorupdate#createmode)
	CreateMode pulumi.StringPtrInput
	// The creation date of the SQL Database.
	CreationDate pulumi.StringPtrInput
	// The default secondary location of the SQL Database.
	DefaultSecondaryLocation pulumi.StringPtrInput
	// The edition of the database to be created. Applies only if `createMode` is `Default`. Valid values are: `Basic`, `Standard`, `Premium`, `DataWarehouse`, `Business`, `BusinessCritical`, `Free`, `GeneralPurpose`, `Hyperscale`, `Premium`, `PremiumRS`, `Standard`, `Stretch`, `System`, `System2`, or `Web`. Please see [Azure SQL Database Service Tiers](https://azure.microsoft.com/en-gb/documentation/articles/sql-database-service-tiers/).
	Edition pulumi.StringPtrInput
	// The name of the elastic database pool.
	ElasticPoolName pulumi.StringPtrInput
	Encryption      pulumi.StringPtrInput
	// A `extendedAuditingPolicy` block as defined below.
	//
	// Deprecated: the `extended_auditing_policy` block has been moved to `azurerm_mssql_server_extended_auditing_policy` and `azurerm_mssql_database_extended_auditing_policy`. This block will be removed in version 3.0 of the provider.
	ExtendedAuditingPolicy DatabaseExtendedAuditingPolicyPtrInput
	// A Database Import block as documented below. `createMode` must be set to `Default`.
	Import DatabaseImportPtrInput
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The maximum size that the database can grow to. Applies only if `createMode` is `Default`.  Please see [Azure SQL Database Service Tiers](https://azure.microsoft.com/en-gb/documentation/articles/sql-database-service-tiers/).
	MaxSizeBytes pulumi.StringPtrInput
	MaxSizeGb    pulumi.StringPtrInput
	// The name of the database.
	Name pulumi.StringPtrInput
	// Read-only connections will be redirected to a high-available replica. Please see [Use read-only replicas to load-balance read-only query workloads](https://docs.microsoft.com/en-us/azure/sql-database/sql-database-read-scale-out).
	ReadScale pulumi.BoolPtrInput
	// A GUID/UUID corresponding to a configured Service Level Objective for the Azure SQL database which can be used to configure a performance level.
	// .
	RequestedServiceObjectiveId pulumi.StringPtrInput
	// The service objective name for the database. Valid values depend on edition and location and may include `S0`, `S1`, `S2`, `S3`, `P1`, `P2`, `P4`, `P6`, `P11` and `ElasticPool`. You can list the available names with the cli: `shell az sql db list-editions -l westus -o table`. For further information please see [Azure CLI - az sql db](https://docs.microsoft.com/en-us/cli/azure/sql/db?view=azure-cli-latest#az-sql-db-list-editions).
	RequestedServiceObjectiveName pulumi.StringPtrInput
	// The name of the resource group in which to create the database.  This must be the same as Database Server resource group currently.
	ResourceGroupName pulumi.StringPtrInput
	// The point in time for the restore. Only applies if `createMode` is `PointInTimeRestore` e.g. 2013-11-08T22:00:40Z
	RestorePointInTime pulumi.StringPtrInput
	// The name of the SQL Server on which to create the database.
	ServerName pulumi.StringPtrInput
	// The deletion date time of the source database. Only applies to deleted databases where `createMode` is `PointInTimeRestore`.
	SourceDatabaseDeletionDate pulumi.StringPtrInput
	// The URI of the source database if `createMode` value is not `Default`.
	SourceDatabaseId pulumi.StringPtrInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
	// Threat detection policy configuration. The `threatDetectionPolicy` block supports fields documented below.
	ThreatDetectionPolicy DatabaseThreatDetectionPolicyPtrInput
	// Whether or not this database is zone redundant, which means the replicas of this database will be spread across multiple availability zones.
	ZoneRedundant pulumi.BoolPtrInput
}

func (DatabaseState) ElementType

func (DatabaseState) ElementType() reflect.Type

type DatabaseThreatDetectionPolicy

type DatabaseThreatDetectionPolicy struct {
	// Specifies a list of alerts which should be disabled. Possible values include `Access_Anomaly`, `Sql_Injection` and `Sql_Injection_Vulnerability`.
	DisabledAlerts []string `pulumi:"disabledAlerts"`
	// Should the account administrators be emailed when this alert is triggered?
	EmailAccountAdmins *string `pulumi:"emailAccountAdmins"`
	// A list of email addresses which alerts should be sent to.
	EmailAddresses []string `pulumi:"emailAddresses"`
	// Specifies the number of days to keep in the Threat Detection audit logs.
	RetentionDays *int `pulumi:"retentionDays"`
	// The State of the Policy. Possible values are `Enabled`, `Disabled` or `New`.
	State *string `pulumi:"state"`
	// Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.
	StorageAccountAccessKey *string `pulumi:"storageAccountAccessKey"`
	// Specifies the blob storage endpoint (e.g. https://MyAccount.blob.core.windows.net). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.
	StorageEndpoint *string `pulumi:"storageEndpoint"`
	// Deprecated: This field is now non-functional and thus will be removed in version 3.0 of the Azure Provider
	UseServerDefault *string `pulumi:"useServerDefault"`
}

type DatabaseThreatDetectionPolicyArgs

type DatabaseThreatDetectionPolicyArgs struct {
	// Specifies a list of alerts which should be disabled. Possible values include `Access_Anomaly`, `Sql_Injection` and `Sql_Injection_Vulnerability`.
	DisabledAlerts pulumi.StringArrayInput `pulumi:"disabledAlerts"`
	// Should the account administrators be emailed when this alert is triggered?
	EmailAccountAdmins pulumi.StringPtrInput `pulumi:"emailAccountAdmins"`
	// A list of email addresses which alerts should be sent to.
	EmailAddresses pulumi.StringArrayInput `pulumi:"emailAddresses"`
	// Specifies the number of days to keep in the Threat Detection audit logs.
	RetentionDays pulumi.IntPtrInput `pulumi:"retentionDays"`
	// The State of the Policy. Possible values are `Enabled`, `Disabled` or `New`.
	State pulumi.StringPtrInput `pulumi:"state"`
	// Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.
	StorageAccountAccessKey pulumi.StringPtrInput `pulumi:"storageAccountAccessKey"`
	// Specifies the blob storage endpoint (e.g. https://MyAccount.blob.core.windows.net). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.
	StorageEndpoint pulumi.StringPtrInput `pulumi:"storageEndpoint"`
	// Deprecated: This field is now non-functional and thus will be removed in version 3.0 of the Azure Provider
	UseServerDefault pulumi.StringPtrInput `pulumi:"useServerDefault"`
}

func (DatabaseThreatDetectionPolicyArgs) ElementType

func (DatabaseThreatDetectionPolicyArgs) ToDatabaseThreatDetectionPolicyOutput

func (i DatabaseThreatDetectionPolicyArgs) ToDatabaseThreatDetectionPolicyOutput() DatabaseThreatDetectionPolicyOutput

func (DatabaseThreatDetectionPolicyArgs) ToDatabaseThreatDetectionPolicyOutputWithContext

func (i DatabaseThreatDetectionPolicyArgs) ToDatabaseThreatDetectionPolicyOutputWithContext(ctx context.Context) DatabaseThreatDetectionPolicyOutput

func (DatabaseThreatDetectionPolicyArgs) ToDatabaseThreatDetectionPolicyPtrOutput

func (i DatabaseThreatDetectionPolicyArgs) ToDatabaseThreatDetectionPolicyPtrOutput() DatabaseThreatDetectionPolicyPtrOutput

func (DatabaseThreatDetectionPolicyArgs) ToDatabaseThreatDetectionPolicyPtrOutputWithContext

func (i DatabaseThreatDetectionPolicyArgs) ToDatabaseThreatDetectionPolicyPtrOutputWithContext(ctx context.Context) DatabaseThreatDetectionPolicyPtrOutput

type DatabaseThreatDetectionPolicyInput

type DatabaseThreatDetectionPolicyInput interface {
	pulumi.Input

	ToDatabaseThreatDetectionPolicyOutput() DatabaseThreatDetectionPolicyOutput
	ToDatabaseThreatDetectionPolicyOutputWithContext(context.Context) DatabaseThreatDetectionPolicyOutput
}

DatabaseThreatDetectionPolicyInput is an input type that accepts DatabaseThreatDetectionPolicyArgs and DatabaseThreatDetectionPolicyOutput values. You can construct a concrete instance of `DatabaseThreatDetectionPolicyInput` via:

DatabaseThreatDetectionPolicyArgs{...}

type DatabaseThreatDetectionPolicyOutput

type DatabaseThreatDetectionPolicyOutput struct{ *pulumi.OutputState }

func (DatabaseThreatDetectionPolicyOutput) DisabledAlerts

Specifies a list of alerts which should be disabled. Possible values include `Access_Anomaly`, `Sql_Injection` and `Sql_Injection_Vulnerability`.

func (DatabaseThreatDetectionPolicyOutput) ElementType

func (DatabaseThreatDetectionPolicyOutput) EmailAccountAdmins

Should the account administrators be emailed when this alert is triggered?

func (DatabaseThreatDetectionPolicyOutput) EmailAddresses

A list of email addresses which alerts should be sent to.

func (DatabaseThreatDetectionPolicyOutput) RetentionDays

Specifies the number of days to keep in the Threat Detection audit logs.

func (DatabaseThreatDetectionPolicyOutput) State

The State of the Policy. Possible values are `Enabled`, `Disabled` or `New`.

func (DatabaseThreatDetectionPolicyOutput) StorageAccountAccessKey

func (o DatabaseThreatDetectionPolicyOutput) StorageAccountAccessKey() pulumi.StringPtrOutput

Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.

func (DatabaseThreatDetectionPolicyOutput) StorageEndpoint

Specifies the blob storage endpoint (e.g. https://MyAccount.blob.core.windows.net). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.

func (DatabaseThreatDetectionPolicyOutput) ToDatabaseThreatDetectionPolicyOutput

func (o DatabaseThreatDetectionPolicyOutput) ToDatabaseThreatDetectionPolicyOutput() DatabaseThreatDetectionPolicyOutput

func (DatabaseThreatDetectionPolicyOutput) ToDatabaseThreatDetectionPolicyOutputWithContext

func (o DatabaseThreatDetectionPolicyOutput) ToDatabaseThreatDetectionPolicyOutputWithContext(ctx context.Context) DatabaseThreatDetectionPolicyOutput

func (DatabaseThreatDetectionPolicyOutput) ToDatabaseThreatDetectionPolicyPtrOutput

func (o DatabaseThreatDetectionPolicyOutput) ToDatabaseThreatDetectionPolicyPtrOutput() DatabaseThreatDetectionPolicyPtrOutput

func (DatabaseThreatDetectionPolicyOutput) ToDatabaseThreatDetectionPolicyPtrOutputWithContext

func (o DatabaseThreatDetectionPolicyOutput) ToDatabaseThreatDetectionPolicyPtrOutputWithContext(ctx context.Context) DatabaseThreatDetectionPolicyPtrOutput

func (DatabaseThreatDetectionPolicyOutput) UseServerDefault deprecated

Deprecated: This field is now non-functional and thus will be removed in version 3.0 of the Azure Provider

type DatabaseThreatDetectionPolicyPtrInput

type DatabaseThreatDetectionPolicyPtrInput interface {
	pulumi.Input

	ToDatabaseThreatDetectionPolicyPtrOutput() DatabaseThreatDetectionPolicyPtrOutput
	ToDatabaseThreatDetectionPolicyPtrOutputWithContext(context.Context) DatabaseThreatDetectionPolicyPtrOutput
}

DatabaseThreatDetectionPolicyPtrInput is an input type that accepts DatabaseThreatDetectionPolicyArgs, DatabaseThreatDetectionPolicyPtr and DatabaseThreatDetectionPolicyPtrOutput values. You can construct a concrete instance of `DatabaseThreatDetectionPolicyPtrInput` via:

        DatabaseThreatDetectionPolicyArgs{...}

or:

        nil

type DatabaseThreatDetectionPolicyPtrOutput

type DatabaseThreatDetectionPolicyPtrOutput struct{ *pulumi.OutputState }

func (DatabaseThreatDetectionPolicyPtrOutput) DisabledAlerts

Specifies a list of alerts which should be disabled. Possible values include `Access_Anomaly`, `Sql_Injection` and `Sql_Injection_Vulnerability`.

func (DatabaseThreatDetectionPolicyPtrOutput) Elem

func (DatabaseThreatDetectionPolicyPtrOutput) ElementType

func (DatabaseThreatDetectionPolicyPtrOutput) EmailAccountAdmins

Should the account administrators be emailed when this alert is triggered?

func (DatabaseThreatDetectionPolicyPtrOutput) EmailAddresses

A list of email addresses which alerts should be sent to.

func (DatabaseThreatDetectionPolicyPtrOutput) RetentionDays

Specifies the number of days to keep in the Threat Detection audit logs.

func (DatabaseThreatDetectionPolicyPtrOutput) State

The State of the Policy. Possible values are `Enabled`, `Disabled` or `New`.

func (DatabaseThreatDetectionPolicyPtrOutput) StorageAccountAccessKey

Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.

func (DatabaseThreatDetectionPolicyPtrOutput) StorageEndpoint

Specifies the blob storage endpoint (e.g. https://MyAccount.blob.core.windows.net). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.

func (DatabaseThreatDetectionPolicyPtrOutput) ToDatabaseThreatDetectionPolicyPtrOutput

func (o DatabaseThreatDetectionPolicyPtrOutput) ToDatabaseThreatDetectionPolicyPtrOutput() DatabaseThreatDetectionPolicyPtrOutput

func (DatabaseThreatDetectionPolicyPtrOutput) ToDatabaseThreatDetectionPolicyPtrOutputWithContext

func (o DatabaseThreatDetectionPolicyPtrOutput) ToDatabaseThreatDetectionPolicyPtrOutputWithContext(ctx context.Context) DatabaseThreatDetectionPolicyPtrOutput

func (DatabaseThreatDetectionPolicyPtrOutput) UseServerDefault deprecated

Deprecated: This field is now non-functional and thus will be removed in version 3.0 of the Azure Provider

type ElasticPool

type ElasticPool struct {
	pulumi.CustomResourceState

	// The creation date of the SQL Elastic Pool.
	CreationDate pulumi.StringOutput `pulumi:"creationDate"`
	// The maximum DTU which will be guaranteed to all databases in the elastic pool to be created.
	DbDtuMax pulumi.IntOutput `pulumi:"dbDtuMax"`
	// The minimum DTU which will be guaranteed to all databases in the elastic pool to be created.
	DbDtuMin pulumi.IntOutput `pulumi:"dbDtuMin"`
	// The total shared DTU for the elastic pool. Valid values depend on the `edition` which has been defined. Refer to [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus) for valid combinations.
	Dtu pulumi.IntOutput `pulumi:"dtu"`
	// The edition of the elastic pool to be created. Valid values are `Basic`, `Standard`, and `Premium`. Refer to [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus) for details. Changing this forces a new resource to be created.
	Edition pulumi.StringOutput `pulumi:"edition"`
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringOutput `pulumi:"location"`
	// The name of the elastic pool. This needs to be globally unique. Changing this forces a new resource to be created.
	Name pulumi.StringOutput `pulumi:"name"`
	// The maximum size in MB that all databases in the elastic pool can grow to. The maximum size must be consistent with combination of `edition` and `dtu` and the limits documented in [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus). If not defined when creating an elastic pool, the value is set to the size implied by `edition` and `dtu`.
	PoolSize pulumi.IntOutput `pulumi:"poolSize"`
	// The name of the resource group in which to create the elastic pool. This must be the same as the resource group of the underlying SQL server.
	ResourceGroupName pulumi.StringOutput `pulumi:"resourceGroupName"`
	// The name of the SQL Server on which to create the elastic pool. Changing this forces a new resource to be created.
	ServerName pulumi.StringOutput `pulumi:"serverName"`
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapOutput `pulumi:"tags"`
}

Allows you to manage an Azure SQL Elastic Pool.

> **NOTE:** - This version of the `Elasticpool` resource is being **deprecated** and should no longer be used. Please use the mssql.ElasticPool version instead.

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		exampleResourceGroup, err := core.NewResourceGroup(ctx, "exampleResourceGroup", &core.ResourceGroupArgs{
			Location: pulumi.String("West Europe"),
		})
		if err != nil {
			return err
		}
		exampleSqlServer, err := sql.NewSqlServer(ctx, "exampleSqlServer", &sql.SqlServerArgs{
			ResourceGroupName:          exampleResourceGroup.Name,
			Location:                   exampleResourceGroup.Location,
			Version:                    pulumi.String("12.0"),
			AdministratorLogin:         pulumi.String("4dm1n157r470r"),
			AdministratorLoginPassword: pulumi.String("4-v3ry-53cr37-p455w0rd"),
		})
		if err != nil {
			return err
		}
		_, err = sql.NewElasticPool(ctx, "exampleElasticPool", &sql.ElasticPoolArgs{
			ResourceGroupName: exampleResourceGroup.Name,
			Location:          exampleResourceGroup.Location,
			ServerName:        exampleSqlServer.Name,
			Edition:           pulumi.String("Basic"),
			Dtu:               pulumi.Int(50),
			DbDtuMin:          pulumi.Int(0),
			DbDtuMax:          pulumi.Int(5),
			PoolSize:          pulumi.Int(5000),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

```

> **NOTE on `sql.ElasticPool`:** - The values of `edition`, `dtu`, and `poolSize` must be consistent with the [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus). Any inconsistent argument configuration will be rejected.

## Import

SQL Elastic Pool's can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/elasticPool:ElasticPool pool1 /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/servers/myserver/elasticPools/pool1

```

func GetElasticPool

func GetElasticPool(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *ElasticPoolState, opts ...pulumi.ResourceOption) (*ElasticPool, error)

GetElasticPool gets an existing ElasticPool 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 NewElasticPool

func NewElasticPool(ctx *pulumi.Context,
	name string, args *ElasticPoolArgs, opts ...pulumi.ResourceOption) (*ElasticPool, error)

NewElasticPool registers a new resource with the given unique name, arguments, and options.

func (*ElasticPool) ElementType

func (*ElasticPool) ElementType() reflect.Type

func (*ElasticPool) ToElasticPoolOutput

func (i *ElasticPool) ToElasticPoolOutput() ElasticPoolOutput

func (*ElasticPool) ToElasticPoolOutputWithContext

func (i *ElasticPool) ToElasticPoolOutputWithContext(ctx context.Context) ElasticPoolOutput

func (*ElasticPool) ToElasticPoolPtrOutput

func (i *ElasticPool) ToElasticPoolPtrOutput() ElasticPoolPtrOutput

func (*ElasticPool) ToElasticPoolPtrOutputWithContext

func (i *ElasticPool) ToElasticPoolPtrOutputWithContext(ctx context.Context) ElasticPoolPtrOutput

type ElasticPoolArgs

type ElasticPoolArgs struct {
	// The maximum DTU which will be guaranteed to all databases in the elastic pool to be created.
	DbDtuMax pulumi.IntPtrInput
	// The minimum DTU which will be guaranteed to all databases in the elastic pool to be created.
	DbDtuMin pulumi.IntPtrInput
	// The total shared DTU for the elastic pool. Valid values depend on the `edition` which has been defined. Refer to [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus) for valid combinations.
	Dtu pulumi.IntInput
	// The edition of the elastic pool to be created. Valid values are `Basic`, `Standard`, and `Premium`. Refer to [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus) for details. Changing this forces a new resource to be created.
	Edition pulumi.StringInput
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The name of the elastic pool. This needs to be globally unique. Changing this forces a new resource to be created.
	Name pulumi.StringPtrInput
	// The maximum size in MB that all databases in the elastic pool can grow to. The maximum size must be consistent with combination of `edition` and `dtu` and the limits documented in [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus). If not defined when creating an elastic pool, the value is set to the size implied by `edition` and `dtu`.
	PoolSize pulumi.IntPtrInput
	// The name of the resource group in which to create the elastic pool. This must be the same as the resource group of the underlying SQL server.
	ResourceGroupName pulumi.StringInput
	// The name of the SQL Server on which to create the elastic pool. Changing this forces a new resource to be created.
	ServerName pulumi.StringInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
}

The set of arguments for constructing a ElasticPool resource.

func (ElasticPoolArgs) ElementType

func (ElasticPoolArgs) ElementType() reflect.Type

type ElasticPoolArray

type ElasticPoolArray []ElasticPoolInput

func (ElasticPoolArray) ElementType

func (ElasticPoolArray) ElementType() reflect.Type

func (ElasticPoolArray) ToElasticPoolArrayOutput

func (i ElasticPoolArray) ToElasticPoolArrayOutput() ElasticPoolArrayOutput

func (ElasticPoolArray) ToElasticPoolArrayOutputWithContext

func (i ElasticPoolArray) ToElasticPoolArrayOutputWithContext(ctx context.Context) ElasticPoolArrayOutput

type ElasticPoolArrayInput

type ElasticPoolArrayInput interface {
	pulumi.Input

	ToElasticPoolArrayOutput() ElasticPoolArrayOutput
	ToElasticPoolArrayOutputWithContext(context.Context) ElasticPoolArrayOutput
}

ElasticPoolArrayInput is an input type that accepts ElasticPoolArray and ElasticPoolArrayOutput values. You can construct a concrete instance of `ElasticPoolArrayInput` via:

ElasticPoolArray{ ElasticPoolArgs{...} }

type ElasticPoolArrayOutput

type ElasticPoolArrayOutput struct{ *pulumi.OutputState }

func (ElasticPoolArrayOutput) ElementType

func (ElasticPoolArrayOutput) ElementType() reflect.Type

func (ElasticPoolArrayOutput) Index

func (ElasticPoolArrayOutput) ToElasticPoolArrayOutput

func (o ElasticPoolArrayOutput) ToElasticPoolArrayOutput() ElasticPoolArrayOutput

func (ElasticPoolArrayOutput) ToElasticPoolArrayOutputWithContext

func (o ElasticPoolArrayOutput) ToElasticPoolArrayOutputWithContext(ctx context.Context) ElasticPoolArrayOutput

type ElasticPoolInput

type ElasticPoolInput interface {
	pulumi.Input

	ToElasticPoolOutput() ElasticPoolOutput
	ToElasticPoolOutputWithContext(ctx context.Context) ElasticPoolOutput
}

type ElasticPoolMap

type ElasticPoolMap map[string]ElasticPoolInput

func (ElasticPoolMap) ElementType

func (ElasticPoolMap) ElementType() reflect.Type

func (ElasticPoolMap) ToElasticPoolMapOutput

func (i ElasticPoolMap) ToElasticPoolMapOutput() ElasticPoolMapOutput

func (ElasticPoolMap) ToElasticPoolMapOutputWithContext

func (i ElasticPoolMap) ToElasticPoolMapOutputWithContext(ctx context.Context) ElasticPoolMapOutput

type ElasticPoolMapInput

type ElasticPoolMapInput interface {
	pulumi.Input

	ToElasticPoolMapOutput() ElasticPoolMapOutput
	ToElasticPoolMapOutputWithContext(context.Context) ElasticPoolMapOutput
}

ElasticPoolMapInput is an input type that accepts ElasticPoolMap and ElasticPoolMapOutput values. You can construct a concrete instance of `ElasticPoolMapInput` via:

ElasticPoolMap{ "key": ElasticPoolArgs{...} }

type ElasticPoolMapOutput

type ElasticPoolMapOutput struct{ *pulumi.OutputState }

func (ElasticPoolMapOutput) ElementType

func (ElasticPoolMapOutput) ElementType() reflect.Type

func (ElasticPoolMapOutput) MapIndex

func (ElasticPoolMapOutput) ToElasticPoolMapOutput

func (o ElasticPoolMapOutput) ToElasticPoolMapOutput() ElasticPoolMapOutput

func (ElasticPoolMapOutput) ToElasticPoolMapOutputWithContext

func (o ElasticPoolMapOutput) ToElasticPoolMapOutputWithContext(ctx context.Context) ElasticPoolMapOutput

type ElasticPoolOutput

type ElasticPoolOutput struct{ *pulumi.OutputState }

func (ElasticPoolOutput) ElementType

func (ElasticPoolOutput) ElementType() reflect.Type

func (ElasticPoolOutput) ToElasticPoolOutput

func (o ElasticPoolOutput) ToElasticPoolOutput() ElasticPoolOutput

func (ElasticPoolOutput) ToElasticPoolOutputWithContext

func (o ElasticPoolOutput) ToElasticPoolOutputWithContext(ctx context.Context) ElasticPoolOutput

func (ElasticPoolOutput) ToElasticPoolPtrOutput

func (o ElasticPoolOutput) ToElasticPoolPtrOutput() ElasticPoolPtrOutput

func (ElasticPoolOutput) ToElasticPoolPtrOutputWithContext

func (o ElasticPoolOutput) ToElasticPoolPtrOutputWithContext(ctx context.Context) ElasticPoolPtrOutput

type ElasticPoolPtrInput

type ElasticPoolPtrInput interface {
	pulumi.Input

	ToElasticPoolPtrOutput() ElasticPoolPtrOutput
	ToElasticPoolPtrOutputWithContext(ctx context.Context) ElasticPoolPtrOutput
}

type ElasticPoolPtrOutput

type ElasticPoolPtrOutput struct{ *pulumi.OutputState }

func (ElasticPoolPtrOutput) Elem added in v4.20.0

func (ElasticPoolPtrOutput) ElementType

func (ElasticPoolPtrOutput) ElementType() reflect.Type

func (ElasticPoolPtrOutput) ToElasticPoolPtrOutput

func (o ElasticPoolPtrOutput) ToElasticPoolPtrOutput() ElasticPoolPtrOutput

func (ElasticPoolPtrOutput) ToElasticPoolPtrOutputWithContext

func (o ElasticPoolPtrOutput) ToElasticPoolPtrOutputWithContext(ctx context.Context) ElasticPoolPtrOutput

type ElasticPoolState

type ElasticPoolState struct {
	// The creation date of the SQL Elastic Pool.
	CreationDate pulumi.StringPtrInput
	// The maximum DTU which will be guaranteed to all databases in the elastic pool to be created.
	DbDtuMax pulumi.IntPtrInput
	// The minimum DTU which will be guaranteed to all databases in the elastic pool to be created.
	DbDtuMin pulumi.IntPtrInput
	// The total shared DTU for the elastic pool. Valid values depend on the `edition` which has been defined. Refer to [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus) for valid combinations.
	Dtu pulumi.IntPtrInput
	// The edition of the elastic pool to be created. Valid values are `Basic`, `Standard`, and `Premium`. Refer to [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus) for details. Changing this forces a new resource to be created.
	Edition pulumi.StringPtrInput
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The name of the elastic pool. This needs to be globally unique. Changing this forces a new resource to be created.
	Name pulumi.StringPtrInput
	// The maximum size in MB that all databases in the elastic pool can grow to. The maximum size must be consistent with combination of `edition` and `dtu` and the limits documented in [Azure SQL Database Service Tiers](https://docs.microsoft.com/en-gb/azure/sql-database/sql-database-service-tiers#elastic-pool-service-tiers-and-performance-in-edtus). If not defined when creating an elastic pool, the value is set to the size implied by `edition` and `dtu`.
	PoolSize pulumi.IntPtrInput
	// The name of the resource group in which to create the elastic pool. This must be the same as the resource group of the underlying SQL server.
	ResourceGroupName pulumi.StringPtrInput
	// The name of the SQL Server on which to create the elastic pool. Changing this forces a new resource to be created.
	ServerName pulumi.StringPtrInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
}

func (ElasticPoolState) ElementType

func (ElasticPoolState) ElementType() reflect.Type

type FailoverGroup

type FailoverGroup struct {
	pulumi.CustomResourceState

	// A list of database ids to add to the failover group
	Databases pulumi.StringArrayOutput `pulumi:"databases"`
	// the location of the failover group.
	Location pulumi.StringOutput `pulumi:"location"`
	// The name of the failover group. Changing this forces a new resource to be created.
	Name pulumi.StringOutput `pulumi:"name"`
	// A list of secondary servers as documented below
	PartnerServers FailoverGroupPartnerServerArrayOutput `pulumi:"partnerServers"`
	// A read/write policy as documented below
	ReadWriteEndpointFailoverPolicy FailoverGroupReadWriteEndpointFailoverPolicyOutput `pulumi:"readWriteEndpointFailoverPolicy"`
	// a read-only policy as documented below
	ReadonlyEndpointFailoverPolicy FailoverGroupReadonlyEndpointFailoverPolicyOutput `pulumi:"readonlyEndpointFailoverPolicy"`
	// The name of the resource group containing the SQL server
	ResourceGroupName pulumi.StringOutput `pulumi:"resourceGroupName"`
	// local replication role of the failover group instance.
	Role pulumi.StringOutput `pulumi:"role"`
	// The name of the primary SQL server. Changing this forces a new resource to be created.
	ServerName pulumi.StringOutput `pulumi:"serverName"`
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapOutput `pulumi:"tags"`
}

Create a failover group of databases on a collection of Azure SQL servers.

## Example Usage

```go package main

import (

"fmt"

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		exampleResourceGroup, err := core.NewResourceGroup(ctx, "exampleResourceGroup", &core.ResourceGroupArgs{
			Location: pulumi.String("West Europe"),
		})
		if err != nil {
			return err
		}
		primary, err := sql.NewSqlServer(ctx, "primary", &sql.SqlServerArgs{
			ResourceGroupName:          exampleResourceGroup.Name,
			Location:                   exampleResourceGroup.Location,
			Version:                    pulumi.String("12.0"),
			AdministratorLogin:         pulumi.String("sqladmin"),
			AdministratorLoginPassword: pulumi.String(fmt.Sprintf("%v%v%v%v", "pa", "$", "$", "w0rd")),
		})
		if err != nil {
			return err
		}
		secondary, err := sql.NewSqlServer(ctx, "secondary", &sql.SqlServerArgs{
			ResourceGroupName:          exampleResourceGroup.Name,
			Location:                   pulumi.String("northeurope"),
			Version:                    pulumi.String("12.0"),
			AdministratorLogin:         pulumi.String("sqladmin"),
			AdministratorLoginPassword: pulumi.String(fmt.Sprintf("%v%v%v%v", "pa", "$", "$", "w0rd")),
		})
		if err != nil {
			return err
		}
		db1, err := sql.NewDatabase(ctx, "db1", &sql.DatabaseArgs{
			ResourceGroupName: primary.ResourceGroupName,
			Location:          primary.Location,
			ServerName:        primary.Name,
		})
		if err != nil {
			return err
		}
		_, err = sql.NewFailoverGroup(ctx, "exampleFailoverGroup", &sql.FailoverGroupArgs{
			ResourceGroupName: primary.ResourceGroupName,
			ServerName:        primary.Name,
			Databases: pulumi.StringArray{
				db1.ID(),
			},
			PartnerServers: sql.FailoverGroupPartnerServerArray{
				&sql.FailoverGroupPartnerServerArgs{
					Id: secondary.ID(),
				},
			},
			ReadWriteEndpointFailoverPolicy: &sql.FailoverGroupReadWriteEndpointFailoverPolicyArgs{
				Mode:         pulumi.String("Automatic"),
				GraceMinutes: pulumi.Int(60),
			},
		})
		if err != nil {
			return err
		}
		return nil
	})
}

```

## Import

SQL Failover Groups can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/failoverGroup:FailoverGroup example /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/servers/myserver/failovergroups/group1

```

func GetFailoverGroup

func GetFailoverGroup(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *FailoverGroupState, opts ...pulumi.ResourceOption) (*FailoverGroup, error)

GetFailoverGroup gets an existing FailoverGroup 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 NewFailoverGroup

func NewFailoverGroup(ctx *pulumi.Context,
	name string, args *FailoverGroupArgs, opts ...pulumi.ResourceOption) (*FailoverGroup, error)

NewFailoverGroup registers a new resource with the given unique name, arguments, and options.

func (*FailoverGroup) ElementType

func (*FailoverGroup) ElementType() reflect.Type

func (*FailoverGroup) ToFailoverGroupOutput

func (i *FailoverGroup) ToFailoverGroupOutput() FailoverGroupOutput

func (*FailoverGroup) ToFailoverGroupOutputWithContext

func (i *FailoverGroup) ToFailoverGroupOutputWithContext(ctx context.Context) FailoverGroupOutput

func (*FailoverGroup) ToFailoverGroupPtrOutput

func (i *FailoverGroup) ToFailoverGroupPtrOutput() FailoverGroupPtrOutput

func (*FailoverGroup) ToFailoverGroupPtrOutputWithContext

func (i *FailoverGroup) ToFailoverGroupPtrOutputWithContext(ctx context.Context) FailoverGroupPtrOutput

type FailoverGroupArgs

type FailoverGroupArgs struct {
	// A list of database ids to add to the failover group
	Databases pulumi.StringArrayInput
	// The name of the failover group. Changing this forces a new resource to be created.
	Name pulumi.StringPtrInput
	// A list of secondary servers as documented below
	PartnerServers FailoverGroupPartnerServerArrayInput
	// A read/write policy as documented below
	ReadWriteEndpointFailoverPolicy FailoverGroupReadWriteEndpointFailoverPolicyInput
	// a read-only policy as documented below
	ReadonlyEndpointFailoverPolicy FailoverGroupReadonlyEndpointFailoverPolicyPtrInput
	// The name of the resource group containing the SQL server
	ResourceGroupName pulumi.StringInput
	// The name of the primary SQL server. Changing this forces a new resource to be created.
	ServerName pulumi.StringInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
}

The set of arguments for constructing a FailoverGroup resource.

func (FailoverGroupArgs) ElementType

func (FailoverGroupArgs) ElementType() reflect.Type

type FailoverGroupArray

type FailoverGroupArray []FailoverGroupInput

func (FailoverGroupArray) ElementType

func (FailoverGroupArray) ElementType() reflect.Type

func (FailoverGroupArray) ToFailoverGroupArrayOutput

func (i FailoverGroupArray) ToFailoverGroupArrayOutput() FailoverGroupArrayOutput

func (FailoverGroupArray) ToFailoverGroupArrayOutputWithContext

func (i FailoverGroupArray) ToFailoverGroupArrayOutputWithContext(ctx context.Context) FailoverGroupArrayOutput

type FailoverGroupArrayInput

type FailoverGroupArrayInput interface {
	pulumi.Input

	ToFailoverGroupArrayOutput() FailoverGroupArrayOutput
	ToFailoverGroupArrayOutputWithContext(context.Context) FailoverGroupArrayOutput
}

FailoverGroupArrayInput is an input type that accepts FailoverGroupArray and FailoverGroupArrayOutput values. You can construct a concrete instance of `FailoverGroupArrayInput` via:

FailoverGroupArray{ FailoverGroupArgs{...} }

type FailoverGroupArrayOutput

type FailoverGroupArrayOutput struct{ *pulumi.OutputState }

func (FailoverGroupArrayOutput) ElementType

func (FailoverGroupArrayOutput) ElementType() reflect.Type

func (FailoverGroupArrayOutput) Index

func (FailoverGroupArrayOutput) ToFailoverGroupArrayOutput

func (o FailoverGroupArrayOutput) ToFailoverGroupArrayOutput() FailoverGroupArrayOutput

func (FailoverGroupArrayOutput) ToFailoverGroupArrayOutputWithContext

func (o FailoverGroupArrayOutput) ToFailoverGroupArrayOutputWithContext(ctx context.Context) FailoverGroupArrayOutput

type FailoverGroupInput

type FailoverGroupInput interface {
	pulumi.Input

	ToFailoverGroupOutput() FailoverGroupOutput
	ToFailoverGroupOutputWithContext(ctx context.Context) FailoverGroupOutput
}

type FailoverGroupMap

type FailoverGroupMap map[string]FailoverGroupInput

func (FailoverGroupMap) ElementType

func (FailoverGroupMap) ElementType() reflect.Type

func (FailoverGroupMap) ToFailoverGroupMapOutput

func (i FailoverGroupMap) ToFailoverGroupMapOutput() FailoverGroupMapOutput

func (FailoverGroupMap) ToFailoverGroupMapOutputWithContext

func (i FailoverGroupMap) ToFailoverGroupMapOutputWithContext(ctx context.Context) FailoverGroupMapOutput

type FailoverGroupMapInput

type FailoverGroupMapInput interface {
	pulumi.Input

	ToFailoverGroupMapOutput() FailoverGroupMapOutput
	ToFailoverGroupMapOutputWithContext(context.Context) FailoverGroupMapOutput
}

FailoverGroupMapInput is an input type that accepts FailoverGroupMap and FailoverGroupMapOutput values. You can construct a concrete instance of `FailoverGroupMapInput` via:

FailoverGroupMap{ "key": FailoverGroupArgs{...} }

type FailoverGroupMapOutput

type FailoverGroupMapOutput struct{ *pulumi.OutputState }

func (FailoverGroupMapOutput) ElementType

func (FailoverGroupMapOutput) ElementType() reflect.Type

func (FailoverGroupMapOutput) MapIndex

func (FailoverGroupMapOutput) ToFailoverGroupMapOutput

func (o FailoverGroupMapOutput) ToFailoverGroupMapOutput() FailoverGroupMapOutput

func (FailoverGroupMapOutput) ToFailoverGroupMapOutputWithContext

func (o FailoverGroupMapOutput) ToFailoverGroupMapOutputWithContext(ctx context.Context) FailoverGroupMapOutput

type FailoverGroupOutput

type FailoverGroupOutput struct{ *pulumi.OutputState }

func (FailoverGroupOutput) ElementType

func (FailoverGroupOutput) ElementType() reflect.Type

func (FailoverGroupOutput) ToFailoverGroupOutput

func (o FailoverGroupOutput) ToFailoverGroupOutput() FailoverGroupOutput

func (FailoverGroupOutput) ToFailoverGroupOutputWithContext

func (o FailoverGroupOutput) ToFailoverGroupOutputWithContext(ctx context.Context) FailoverGroupOutput

func (FailoverGroupOutput) ToFailoverGroupPtrOutput

func (o FailoverGroupOutput) ToFailoverGroupPtrOutput() FailoverGroupPtrOutput

func (FailoverGroupOutput) ToFailoverGroupPtrOutputWithContext

func (o FailoverGroupOutput) ToFailoverGroupPtrOutputWithContext(ctx context.Context) FailoverGroupPtrOutput

type FailoverGroupPartnerServer

type FailoverGroupPartnerServer struct {
	// the SQL server ID
	Id string `pulumi:"id"`
	// the location of the failover group.
	Location *string `pulumi:"location"`
	// local replication role of the failover group instance.
	Role *string `pulumi:"role"`
}

type FailoverGroupPartnerServerArgs

type FailoverGroupPartnerServerArgs struct {
	// the SQL server ID
	Id pulumi.StringInput `pulumi:"id"`
	// the location of the failover group.
	Location pulumi.StringPtrInput `pulumi:"location"`
	// local replication role of the failover group instance.
	Role pulumi.StringPtrInput `pulumi:"role"`
}

func (FailoverGroupPartnerServerArgs) ElementType

func (FailoverGroupPartnerServerArgs) ToFailoverGroupPartnerServerOutput

func (i FailoverGroupPartnerServerArgs) ToFailoverGroupPartnerServerOutput() FailoverGroupPartnerServerOutput

func (FailoverGroupPartnerServerArgs) ToFailoverGroupPartnerServerOutputWithContext

func (i FailoverGroupPartnerServerArgs) ToFailoverGroupPartnerServerOutputWithContext(ctx context.Context) FailoverGroupPartnerServerOutput

type FailoverGroupPartnerServerArray

type FailoverGroupPartnerServerArray []FailoverGroupPartnerServerInput

func (FailoverGroupPartnerServerArray) ElementType

func (FailoverGroupPartnerServerArray) ToFailoverGroupPartnerServerArrayOutput

func (i FailoverGroupPartnerServerArray) ToFailoverGroupPartnerServerArrayOutput() FailoverGroupPartnerServerArrayOutput

func (FailoverGroupPartnerServerArray) ToFailoverGroupPartnerServerArrayOutputWithContext

func (i FailoverGroupPartnerServerArray) ToFailoverGroupPartnerServerArrayOutputWithContext(ctx context.Context) FailoverGroupPartnerServerArrayOutput

type FailoverGroupPartnerServerArrayInput

type FailoverGroupPartnerServerArrayInput interface {
	pulumi.Input

	ToFailoverGroupPartnerServerArrayOutput() FailoverGroupPartnerServerArrayOutput
	ToFailoverGroupPartnerServerArrayOutputWithContext(context.Context) FailoverGroupPartnerServerArrayOutput
}

FailoverGroupPartnerServerArrayInput is an input type that accepts FailoverGroupPartnerServerArray and FailoverGroupPartnerServerArrayOutput values. You can construct a concrete instance of `FailoverGroupPartnerServerArrayInput` via:

FailoverGroupPartnerServerArray{ FailoverGroupPartnerServerArgs{...} }

type FailoverGroupPartnerServerArrayOutput

type FailoverGroupPartnerServerArrayOutput struct{ *pulumi.OutputState }

func (FailoverGroupPartnerServerArrayOutput) ElementType

func (FailoverGroupPartnerServerArrayOutput) Index

func (FailoverGroupPartnerServerArrayOutput) ToFailoverGroupPartnerServerArrayOutput

func (o FailoverGroupPartnerServerArrayOutput) ToFailoverGroupPartnerServerArrayOutput() FailoverGroupPartnerServerArrayOutput

func (FailoverGroupPartnerServerArrayOutput) ToFailoverGroupPartnerServerArrayOutputWithContext

func (o FailoverGroupPartnerServerArrayOutput) ToFailoverGroupPartnerServerArrayOutputWithContext(ctx context.Context) FailoverGroupPartnerServerArrayOutput

type FailoverGroupPartnerServerInput

type FailoverGroupPartnerServerInput interface {
	pulumi.Input

	ToFailoverGroupPartnerServerOutput() FailoverGroupPartnerServerOutput
	ToFailoverGroupPartnerServerOutputWithContext(context.Context) FailoverGroupPartnerServerOutput
}

FailoverGroupPartnerServerInput is an input type that accepts FailoverGroupPartnerServerArgs and FailoverGroupPartnerServerOutput values. You can construct a concrete instance of `FailoverGroupPartnerServerInput` via:

FailoverGroupPartnerServerArgs{...}

type FailoverGroupPartnerServerOutput

type FailoverGroupPartnerServerOutput struct{ *pulumi.OutputState }

func (FailoverGroupPartnerServerOutput) ElementType

func (FailoverGroupPartnerServerOutput) Id

the SQL server ID

func (FailoverGroupPartnerServerOutput) Location

the location of the failover group.

func (FailoverGroupPartnerServerOutput) Role

local replication role of the failover group instance.

func (FailoverGroupPartnerServerOutput) ToFailoverGroupPartnerServerOutput

func (o FailoverGroupPartnerServerOutput) ToFailoverGroupPartnerServerOutput() FailoverGroupPartnerServerOutput

func (FailoverGroupPartnerServerOutput) ToFailoverGroupPartnerServerOutputWithContext

func (o FailoverGroupPartnerServerOutput) ToFailoverGroupPartnerServerOutputWithContext(ctx context.Context) FailoverGroupPartnerServerOutput

type FailoverGroupPtrInput

type FailoverGroupPtrInput interface {
	pulumi.Input

	ToFailoverGroupPtrOutput() FailoverGroupPtrOutput
	ToFailoverGroupPtrOutputWithContext(ctx context.Context) FailoverGroupPtrOutput
}

type FailoverGroupPtrOutput

type FailoverGroupPtrOutput struct{ *pulumi.OutputState }

func (FailoverGroupPtrOutput) Elem added in v4.20.0

func (FailoverGroupPtrOutput) ElementType

func (FailoverGroupPtrOutput) ElementType() reflect.Type

func (FailoverGroupPtrOutput) ToFailoverGroupPtrOutput

func (o FailoverGroupPtrOutput) ToFailoverGroupPtrOutput() FailoverGroupPtrOutput

func (FailoverGroupPtrOutput) ToFailoverGroupPtrOutputWithContext

func (o FailoverGroupPtrOutput) ToFailoverGroupPtrOutputWithContext(ctx context.Context) FailoverGroupPtrOutput

type FailoverGroupReadWriteEndpointFailoverPolicy

type FailoverGroupReadWriteEndpointFailoverPolicy struct {
	// Applies only if `mode` is `Automatic`. The grace period in minutes before failover with data loss is attempted
	GraceMinutes *int `pulumi:"graceMinutes"`
	// the failover mode. Possible values are `Manual`, `Automatic`
	Mode string `pulumi:"mode"`
}

type FailoverGroupReadWriteEndpointFailoverPolicyArgs

type FailoverGroupReadWriteEndpointFailoverPolicyArgs struct {
	// Applies only if `mode` is `Automatic`. The grace period in minutes before failover with data loss is attempted
	GraceMinutes pulumi.IntPtrInput `pulumi:"graceMinutes"`
	// the failover mode. Possible values are `Manual`, `Automatic`
	Mode pulumi.StringInput `pulumi:"mode"`
}

func (FailoverGroupReadWriteEndpointFailoverPolicyArgs) ElementType

func (FailoverGroupReadWriteEndpointFailoverPolicyArgs) ToFailoverGroupReadWriteEndpointFailoverPolicyOutput

func (i FailoverGroupReadWriteEndpointFailoverPolicyArgs) ToFailoverGroupReadWriteEndpointFailoverPolicyOutput() FailoverGroupReadWriteEndpointFailoverPolicyOutput

func (FailoverGroupReadWriteEndpointFailoverPolicyArgs) ToFailoverGroupReadWriteEndpointFailoverPolicyOutputWithContext

func (i FailoverGroupReadWriteEndpointFailoverPolicyArgs) ToFailoverGroupReadWriteEndpointFailoverPolicyOutputWithContext(ctx context.Context) FailoverGroupReadWriteEndpointFailoverPolicyOutput

func (FailoverGroupReadWriteEndpointFailoverPolicyArgs) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

func (i FailoverGroupReadWriteEndpointFailoverPolicyArgs) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutput() FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

func (FailoverGroupReadWriteEndpointFailoverPolicyArgs) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutputWithContext

func (i FailoverGroupReadWriteEndpointFailoverPolicyArgs) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutputWithContext(ctx context.Context) FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

type FailoverGroupReadWriteEndpointFailoverPolicyInput

type FailoverGroupReadWriteEndpointFailoverPolicyInput interface {
	pulumi.Input

	ToFailoverGroupReadWriteEndpointFailoverPolicyOutput() FailoverGroupReadWriteEndpointFailoverPolicyOutput
	ToFailoverGroupReadWriteEndpointFailoverPolicyOutputWithContext(context.Context) FailoverGroupReadWriteEndpointFailoverPolicyOutput
}

FailoverGroupReadWriteEndpointFailoverPolicyInput is an input type that accepts FailoverGroupReadWriteEndpointFailoverPolicyArgs and FailoverGroupReadWriteEndpointFailoverPolicyOutput values. You can construct a concrete instance of `FailoverGroupReadWriteEndpointFailoverPolicyInput` via:

FailoverGroupReadWriteEndpointFailoverPolicyArgs{...}

type FailoverGroupReadWriteEndpointFailoverPolicyOutput

type FailoverGroupReadWriteEndpointFailoverPolicyOutput struct{ *pulumi.OutputState }

func (FailoverGroupReadWriteEndpointFailoverPolicyOutput) ElementType

func (FailoverGroupReadWriteEndpointFailoverPolicyOutput) GraceMinutes

Applies only if `mode` is `Automatic`. The grace period in minutes before failover with data loss is attempted

func (FailoverGroupReadWriteEndpointFailoverPolicyOutput) Mode

the failover mode. Possible values are `Manual`, `Automatic`

func (FailoverGroupReadWriteEndpointFailoverPolicyOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyOutput

func (o FailoverGroupReadWriteEndpointFailoverPolicyOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyOutput() FailoverGroupReadWriteEndpointFailoverPolicyOutput

func (FailoverGroupReadWriteEndpointFailoverPolicyOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyOutputWithContext

func (o FailoverGroupReadWriteEndpointFailoverPolicyOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyOutputWithContext(ctx context.Context) FailoverGroupReadWriteEndpointFailoverPolicyOutput

func (FailoverGroupReadWriteEndpointFailoverPolicyOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

func (o FailoverGroupReadWriteEndpointFailoverPolicyOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutput() FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

func (FailoverGroupReadWriteEndpointFailoverPolicyOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutputWithContext

func (o FailoverGroupReadWriteEndpointFailoverPolicyOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutputWithContext(ctx context.Context) FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

type FailoverGroupReadWriteEndpointFailoverPolicyPtrInput

type FailoverGroupReadWriteEndpointFailoverPolicyPtrInput interface {
	pulumi.Input

	ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutput() FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput
	ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutputWithContext(context.Context) FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput
}

FailoverGroupReadWriteEndpointFailoverPolicyPtrInput is an input type that accepts FailoverGroupReadWriteEndpointFailoverPolicyArgs, FailoverGroupReadWriteEndpointFailoverPolicyPtr and FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput values. You can construct a concrete instance of `FailoverGroupReadWriteEndpointFailoverPolicyPtrInput` via:

        FailoverGroupReadWriteEndpointFailoverPolicyArgs{...}

or:

        nil

type FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

type FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput struct{ *pulumi.OutputState }

func (FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput) Elem

func (FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput) ElementType

func (FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput) GraceMinutes

Applies only if `mode` is `Automatic`. The grace period in minutes before failover with data loss is attempted

func (FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput) Mode

the failover mode. Possible values are `Manual`, `Automatic`

func (FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

func (FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutputWithContext

func (o FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput) ToFailoverGroupReadWriteEndpointFailoverPolicyPtrOutputWithContext(ctx context.Context) FailoverGroupReadWriteEndpointFailoverPolicyPtrOutput

type FailoverGroupReadonlyEndpointFailoverPolicy

type FailoverGroupReadonlyEndpointFailoverPolicy struct {
	// Failover policy for the read-only endpoint. Possible values are `Enabled`, and `Disabled`
	Mode string `pulumi:"mode"`
}

type FailoverGroupReadonlyEndpointFailoverPolicyArgs

type FailoverGroupReadonlyEndpointFailoverPolicyArgs struct {
	// Failover policy for the read-only endpoint. Possible values are `Enabled`, and `Disabled`
	Mode pulumi.StringInput `pulumi:"mode"`
}

func (FailoverGroupReadonlyEndpointFailoverPolicyArgs) ElementType

func (FailoverGroupReadonlyEndpointFailoverPolicyArgs) ToFailoverGroupReadonlyEndpointFailoverPolicyOutput

func (i FailoverGroupReadonlyEndpointFailoverPolicyArgs) ToFailoverGroupReadonlyEndpointFailoverPolicyOutput() FailoverGroupReadonlyEndpointFailoverPolicyOutput

func (FailoverGroupReadonlyEndpointFailoverPolicyArgs) ToFailoverGroupReadonlyEndpointFailoverPolicyOutputWithContext

func (i FailoverGroupReadonlyEndpointFailoverPolicyArgs) ToFailoverGroupReadonlyEndpointFailoverPolicyOutputWithContext(ctx context.Context) FailoverGroupReadonlyEndpointFailoverPolicyOutput

func (FailoverGroupReadonlyEndpointFailoverPolicyArgs) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

func (i FailoverGroupReadonlyEndpointFailoverPolicyArgs) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutput() FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

func (FailoverGroupReadonlyEndpointFailoverPolicyArgs) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutputWithContext

func (i FailoverGroupReadonlyEndpointFailoverPolicyArgs) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutputWithContext(ctx context.Context) FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

type FailoverGroupReadonlyEndpointFailoverPolicyInput

type FailoverGroupReadonlyEndpointFailoverPolicyInput interface {
	pulumi.Input

	ToFailoverGroupReadonlyEndpointFailoverPolicyOutput() FailoverGroupReadonlyEndpointFailoverPolicyOutput
	ToFailoverGroupReadonlyEndpointFailoverPolicyOutputWithContext(context.Context) FailoverGroupReadonlyEndpointFailoverPolicyOutput
}

FailoverGroupReadonlyEndpointFailoverPolicyInput is an input type that accepts FailoverGroupReadonlyEndpointFailoverPolicyArgs and FailoverGroupReadonlyEndpointFailoverPolicyOutput values. You can construct a concrete instance of `FailoverGroupReadonlyEndpointFailoverPolicyInput` via:

FailoverGroupReadonlyEndpointFailoverPolicyArgs{...}

type FailoverGroupReadonlyEndpointFailoverPolicyOutput

type FailoverGroupReadonlyEndpointFailoverPolicyOutput struct{ *pulumi.OutputState }

func (FailoverGroupReadonlyEndpointFailoverPolicyOutput) ElementType

func (FailoverGroupReadonlyEndpointFailoverPolicyOutput) Mode

Failover policy for the read-only endpoint. Possible values are `Enabled`, and `Disabled`

func (FailoverGroupReadonlyEndpointFailoverPolicyOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyOutput

func (o FailoverGroupReadonlyEndpointFailoverPolicyOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyOutput() FailoverGroupReadonlyEndpointFailoverPolicyOutput

func (FailoverGroupReadonlyEndpointFailoverPolicyOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyOutputWithContext

func (o FailoverGroupReadonlyEndpointFailoverPolicyOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyOutputWithContext(ctx context.Context) FailoverGroupReadonlyEndpointFailoverPolicyOutput

func (FailoverGroupReadonlyEndpointFailoverPolicyOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

func (o FailoverGroupReadonlyEndpointFailoverPolicyOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutput() FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

func (FailoverGroupReadonlyEndpointFailoverPolicyOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutputWithContext

func (o FailoverGroupReadonlyEndpointFailoverPolicyOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutputWithContext(ctx context.Context) FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

type FailoverGroupReadonlyEndpointFailoverPolicyPtrInput

type FailoverGroupReadonlyEndpointFailoverPolicyPtrInput interface {
	pulumi.Input

	ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutput() FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput
	ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutputWithContext(context.Context) FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput
}

FailoverGroupReadonlyEndpointFailoverPolicyPtrInput is an input type that accepts FailoverGroupReadonlyEndpointFailoverPolicyArgs, FailoverGroupReadonlyEndpointFailoverPolicyPtr and FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput values. You can construct a concrete instance of `FailoverGroupReadonlyEndpointFailoverPolicyPtrInput` via:

        FailoverGroupReadonlyEndpointFailoverPolicyArgs{...}

or:

        nil

type FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

type FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput struct{ *pulumi.OutputState }

func (FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput) Elem

func (FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput) ElementType

func (FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput) Mode

Failover policy for the read-only endpoint. Possible values are `Enabled`, and `Disabled`

func (FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

func (FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutputWithContext

func (o FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput) ToFailoverGroupReadonlyEndpointFailoverPolicyPtrOutputWithContext(ctx context.Context) FailoverGroupReadonlyEndpointFailoverPolicyPtrOutput

type FailoverGroupState

type FailoverGroupState struct {
	// A list of database ids to add to the failover group
	Databases pulumi.StringArrayInput
	// the location of the failover group.
	Location pulumi.StringPtrInput
	// The name of the failover group. Changing this forces a new resource to be created.
	Name pulumi.StringPtrInput
	// A list of secondary servers as documented below
	PartnerServers FailoverGroupPartnerServerArrayInput
	// A read/write policy as documented below
	ReadWriteEndpointFailoverPolicy FailoverGroupReadWriteEndpointFailoverPolicyPtrInput
	// a read-only policy as documented below
	ReadonlyEndpointFailoverPolicy FailoverGroupReadonlyEndpointFailoverPolicyPtrInput
	// The name of the resource group containing the SQL server
	ResourceGroupName pulumi.StringPtrInput
	// local replication role of the failover group instance.
	Role pulumi.StringPtrInput
	// The name of the primary SQL server. Changing this forces a new resource to be created.
	ServerName pulumi.StringPtrInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
}

func (FailoverGroupState) ElementType

func (FailoverGroupState) ElementType() reflect.Type

type FirewallRule

type FirewallRule struct {
	pulumi.CustomResourceState

	// The ending IP address to allow through the firewall for this rule.
	EndIpAddress pulumi.StringOutput `pulumi:"endIpAddress"`
	// The name of the firewall rule.
	Name pulumi.StringOutput `pulumi:"name"`
	// The name of the resource group in which to
	// create the sql server.
	ResourceGroupName pulumi.StringOutput `pulumi:"resourceGroupName"`
	// The name of the SQL Server on which to create the Firewall Rule.
	ServerName pulumi.StringOutput `pulumi:"serverName"`
	// The starting IP address to allow through the firewall for this rule.
	StartIpAddress pulumi.StringOutput `pulumi:"startIpAddress"`
}

Allows you to manage an Azure SQL Firewall Rule

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		exampleResourceGroup, err := core.NewResourceGroup(ctx, "exampleResourceGroup", &core.ResourceGroupArgs{
			Location: pulumi.String("West Europe"),
		})
		if err != nil {
			return err
		}
		exampleSqlServer, err := sql.NewSqlServer(ctx, "exampleSqlServer", &sql.SqlServerArgs{
			ResourceGroupName:          exampleResourceGroup.Name,
			Location:                   pulumi.String("West US"),
			Version:                    pulumi.String("12.0"),
			AdministratorLogin:         pulumi.String("4dm1n157r470r"),
			AdministratorLoginPassword: pulumi.String("4-v3ry-53cr37-p455w0rd"),
		})
		if err != nil {
			return err
		}
		_, err = sql.NewFirewallRule(ctx, "exampleFirewallRule", &sql.FirewallRuleArgs{
			ResourceGroupName: exampleResourceGroup.Name,
			ServerName:        exampleSqlServer.Name,
			StartIpAddress:    pulumi.String("10.0.17.62"),
			EndIpAddress:      pulumi.String("10.0.17.62"),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

```

## Import

SQL Firewall Rules can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/firewallRule:FirewallRule rule1 /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/servers/myserver/firewallRules/rule1

```

func GetFirewallRule

func GetFirewallRule(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *FirewallRuleState, opts ...pulumi.ResourceOption) (*FirewallRule, error)

GetFirewallRule gets an existing FirewallRule 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 NewFirewallRule

func NewFirewallRule(ctx *pulumi.Context,
	name string, args *FirewallRuleArgs, opts ...pulumi.ResourceOption) (*FirewallRule, error)

NewFirewallRule registers a new resource with the given unique name, arguments, and options.

func (*FirewallRule) ElementType

func (*FirewallRule) ElementType() reflect.Type

func (*FirewallRule) ToFirewallRuleOutput

func (i *FirewallRule) ToFirewallRuleOutput() FirewallRuleOutput

func (*FirewallRule) ToFirewallRuleOutputWithContext

func (i *FirewallRule) ToFirewallRuleOutputWithContext(ctx context.Context) FirewallRuleOutput

func (*FirewallRule) ToFirewallRulePtrOutput

func (i *FirewallRule) ToFirewallRulePtrOutput() FirewallRulePtrOutput

func (*FirewallRule) ToFirewallRulePtrOutputWithContext

func (i *FirewallRule) ToFirewallRulePtrOutputWithContext(ctx context.Context) FirewallRulePtrOutput

type FirewallRuleArgs

type FirewallRuleArgs struct {
	// The ending IP address to allow through the firewall for this rule.
	EndIpAddress pulumi.StringInput
	// The name of the firewall rule.
	Name pulumi.StringPtrInput
	// The name of the resource group in which to
	// create the sql server.
	ResourceGroupName pulumi.StringInput
	// The name of the SQL Server on which to create the Firewall Rule.
	ServerName pulumi.StringInput
	// The starting IP address to allow through the firewall for this rule.
	StartIpAddress pulumi.StringInput
}

The set of arguments for constructing a FirewallRule resource.

func (FirewallRuleArgs) ElementType

func (FirewallRuleArgs) ElementType() reflect.Type

type FirewallRuleArray

type FirewallRuleArray []FirewallRuleInput

func (FirewallRuleArray) ElementType

func (FirewallRuleArray) ElementType() reflect.Type

func (FirewallRuleArray) ToFirewallRuleArrayOutput

func (i FirewallRuleArray) ToFirewallRuleArrayOutput() FirewallRuleArrayOutput

func (FirewallRuleArray) ToFirewallRuleArrayOutputWithContext

func (i FirewallRuleArray) ToFirewallRuleArrayOutputWithContext(ctx context.Context) FirewallRuleArrayOutput

type FirewallRuleArrayInput

type FirewallRuleArrayInput interface {
	pulumi.Input

	ToFirewallRuleArrayOutput() FirewallRuleArrayOutput
	ToFirewallRuleArrayOutputWithContext(context.Context) FirewallRuleArrayOutput
}

FirewallRuleArrayInput is an input type that accepts FirewallRuleArray and FirewallRuleArrayOutput values. You can construct a concrete instance of `FirewallRuleArrayInput` via:

FirewallRuleArray{ FirewallRuleArgs{...} }

type FirewallRuleArrayOutput

type FirewallRuleArrayOutput struct{ *pulumi.OutputState }

func (FirewallRuleArrayOutput) ElementType

func (FirewallRuleArrayOutput) ElementType() reflect.Type

func (FirewallRuleArrayOutput) Index

func (FirewallRuleArrayOutput) ToFirewallRuleArrayOutput

func (o FirewallRuleArrayOutput) ToFirewallRuleArrayOutput() FirewallRuleArrayOutput

func (FirewallRuleArrayOutput) ToFirewallRuleArrayOutputWithContext

func (o FirewallRuleArrayOutput) ToFirewallRuleArrayOutputWithContext(ctx context.Context) FirewallRuleArrayOutput

type FirewallRuleInput

type FirewallRuleInput interface {
	pulumi.Input

	ToFirewallRuleOutput() FirewallRuleOutput
	ToFirewallRuleOutputWithContext(ctx context.Context) FirewallRuleOutput
}

type FirewallRuleMap

type FirewallRuleMap map[string]FirewallRuleInput

func (FirewallRuleMap) ElementType

func (FirewallRuleMap) ElementType() reflect.Type

func (FirewallRuleMap) ToFirewallRuleMapOutput

func (i FirewallRuleMap) ToFirewallRuleMapOutput() FirewallRuleMapOutput

func (FirewallRuleMap) ToFirewallRuleMapOutputWithContext

func (i FirewallRuleMap) ToFirewallRuleMapOutputWithContext(ctx context.Context) FirewallRuleMapOutput

type FirewallRuleMapInput

type FirewallRuleMapInput interface {
	pulumi.Input

	ToFirewallRuleMapOutput() FirewallRuleMapOutput
	ToFirewallRuleMapOutputWithContext(context.Context) FirewallRuleMapOutput
}

FirewallRuleMapInput is an input type that accepts FirewallRuleMap and FirewallRuleMapOutput values. You can construct a concrete instance of `FirewallRuleMapInput` via:

FirewallRuleMap{ "key": FirewallRuleArgs{...} }

type FirewallRuleMapOutput

type FirewallRuleMapOutput struct{ *pulumi.OutputState }

func (FirewallRuleMapOutput) ElementType

func (FirewallRuleMapOutput) ElementType() reflect.Type

func (FirewallRuleMapOutput) MapIndex

func (FirewallRuleMapOutput) ToFirewallRuleMapOutput

func (o FirewallRuleMapOutput) ToFirewallRuleMapOutput() FirewallRuleMapOutput

func (FirewallRuleMapOutput) ToFirewallRuleMapOutputWithContext

func (o FirewallRuleMapOutput) ToFirewallRuleMapOutputWithContext(ctx context.Context) FirewallRuleMapOutput

type FirewallRuleOutput

type FirewallRuleOutput struct{ *pulumi.OutputState }

func (FirewallRuleOutput) ElementType

func (FirewallRuleOutput) ElementType() reflect.Type

func (FirewallRuleOutput) ToFirewallRuleOutput

func (o FirewallRuleOutput) ToFirewallRuleOutput() FirewallRuleOutput

func (FirewallRuleOutput) ToFirewallRuleOutputWithContext

func (o FirewallRuleOutput) ToFirewallRuleOutputWithContext(ctx context.Context) FirewallRuleOutput

func (FirewallRuleOutput) ToFirewallRulePtrOutput

func (o FirewallRuleOutput) ToFirewallRulePtrOutput() FirewallRulePtrOutput

func (FirewallRuleOutput) ToFirewallRulePtrOutputWithContext

func (o FirewallRuleOutput) ToFirewallRulePtrOutputWithContext(ctx context.Context) FirewallRulePtrOutput

type FirewallRulePtrInput

type FirewallRulePtrInput interface {
	pulumi.Input

	ToFirewallRulePtrOutput() FirewallRulePtrOutput
	ToFirewallRulePtrOutputWithContext(ctx context.Context) FirewallRulePtrOutput
}

type FirewallRulePtrOutput

type FirewallRulePtrOutput struct{ *pulumi.OutputState }

func (FirewallRulePtrOutput) Elem added in v4.20.0

func (FirewallRulePtrOutput) ElementType

func (FirewallRulePtrOutput) ElementType() reflect.Type

func (FirewallRulePtrOutput) ToFirewallRulePtrOutput

func (o FirewallRulePtrOutput) ToFirewallRulePtrOutput() FirewallRulePtrOutput

func (FirewallRulePtrOutput) ToFirewallRulePtrOutputWithContext

func (o FirewallRulePtrOutput) ToFirewallRulePtrOutputWithContext(ctx context.Context) FirewallRulePtrOutput

type FirewallRuleState

type FirewallRuleState struct {
	// The ending IP address to allow through the firewall for this rule.
	EndIpAddress pulumi.StringPtrInput
	// The name of the firewall rule.
	Name pulumi.StringPtrInput
	// The name of the resource group in which to
	// create the sql server.
	ResourceGroupName pulumi.StringPtrInput
	// The name of the SQL Server on which to create the Firewall Rule.
	ServerName pulumi.StringPtrInput
	// The starting IP address to allow through the firewall for this rule.
	StartIpAddress pulumi.StringPtrInput
}

func (FirewallRuleState) ElementType

func (FirewallRuleState) ElementType() reflect.Type

type GetServerArgs

type GetServerArgs struct {
	// The name of the SQL Server.
	Name string `pulumi:"name"`
	// Specifies the name of the Resource Group where the SQL Server exists.
	ResourceGroupName string `pulumi:"resourceGroupName"`
}

A collection of arguments for invoking getServer.

type GetServerIdentity

type GetServerIdentity struct {
	// The ID of the Principal (Client) in Azure Active Directory.
	PrincipalId string `pulumi:"principalId"`
	// The ID of the Azure Active Directory Tenant.
	TenantId string `pulumi:"tenantId"`
	// The identity type of the SQL Server.
	Type string `pulumi:"type"`
}

type GetServerIdentityArgs

type GetServerIdentityArgs struct {
	// The ID of the Principal (Client) in Azure Active Directory.
	PrincipalId pulumi.StringInput `pulumi:"principalId"`
	// The ID of the Azure Active Directory Tenant.
	TenantId pulumi.StringInput `pulumi:"tenantId"`
	// The identity type of the SQL Server.
	Type pulumi.StringInput `pulumi:"type"`
}

func (GetServerIdentityArgs) ElementType

func (GetServerIdentityArgs) ElementType() reflect.Type

func (GetServerIdentityArgs) ToGetServerIdentityOutput

func (i GetServerIdentityArgs) ToGetServerIdentityOutput() GetServerIdentityOutput

func (GetServerIdentityArgs) ToGetServerIdentityOutputWithContext

func (i GetServerIdentityArgs) ToGetServerIdentityOutputWithContext(ctx context.Context) GetServerIdentityOutput

type GetServerIdentityArray

type GetServerIdentityArray []GetServerIdentityInput

func (GetServerIdentityArray) ElementType

func (GetServerIdentityArray) ElementType() reflect.Type

func (GetServerIdentityArray) ToGetServerIdentityArrayOutput

func (i GetServerIdentityArray) ToGetServerIdentityArrayOutput() GetServerIdentityArrayOutput

func (GetServerIdentityArray) ToGetServerIdentityArrayOutputWithContext

func (i GetServerIdentityArray) ToGetServerIdentityArrayOutputWithContext(ctx context.Context) GetServerIdentityArrayOutput

type GetServerIdentityArrayInput

type GetServerIdentityArrayInput interface {
	pulumi.Input

	ToGetServerIdentityArrayOutput() GetServerIdentityArrayOutput
	ToGetServerIdentityArrayOutputWithContext(context.Context) GetServerIdentityArrayOutput
}

GetServerIdentityArrayInput is an input type that accepts GetServerIdentityArray and GetServerIdentityArrayOutput values. You can construct a concrete instance of `GetServerIdentityArrayInput` via:

GetServerIdentityArray{ GetServerIdentityArgs{...} }

type GetServerIdentityArrayOutput

type GetServerIdentityArrayOutput struct{ *pulumi.OutputState }

func (GetServerIdentityArrayOutput) ElementType

func (GetServerIdentityArrayOutput) Index

func (GetServerIdentityArrayOutput) ToGetServerIdentityArrayOutput

func (o GetServerIdentityArrayOutput) ToGetServerIdentityArrayOutput() GetServerIdentityArrayOutput

func (GetServerIdentityArrayOutput) ToGetServerIdentityArrayOutputWithContext

func (o GetServerIdentityArrayOutput) ToGetServerIdentityArrayOutputWithContext(ctx context.Context) GetServerIdentityArrayOutput

type GetServerIdentityInput

type GetServerIdentityInput interface {
	pulumi.Input

	ToGetServerIdentityOutput() GetServerIdentityOutput
	ToGetServerIdentityOutputWithContext(context.Context) GetServerIdentityOutput
}

GetServerIdentityInput is an input type that accepts GetServerIdentityArgs and GetServerIdentityOutput values. You can construct a concrete instance of `GetServerIdentityInput` via:

GetServerIdentityArgs{...}

type GetServerIdentityOutput

type GetServerIdentityOutput struct{ *pulumi.OutputState }

func (GetServerIdentityOutput) ElementType

func (GetServerIdentityOutput) ElementType() reflect.Type

func (GetServerIdentityOutput) PrincipalId

The ID of the Principal (Client) in Azure Active Directory.

func (GetServerIdentityOutput) TenantId

The ID of the Azure Active Directory Tenant.

func (GetServerIdentityOutput) ToGetServerIdentityOutput

func (o GetServerIdentityOutput) ToGetServerIdentityOutput() GetServerIdentityOutput

func (GetServerIdentityOutput) ToGetServerIdentityOutputWithContext

func (o GetServerIdentityOutput) ToGetServerIdentityOutputWithContext(ctx context.Context) GetServerIdentityOutput

func (GetServerIdentityOutput) Type

The identity type of the SQL Server.

type GetServerOutputArgs added in v4.20.0

type GetServerOutputArgs struct {
	// The name of the SQL Server.
	Name pulumi.StringInput `pulumi:"name"`
	// Specifies the name of the Resource Group where the SQL Server exists.
	ResourceGroupName pulumi.StringInput `pulumi:"resourceGroupName"`
}

A collection of arguments for invoking getServer.

func (GetServerOutputArgs) ElementType added in v4.20.0

func (GetServerOutputArgs) ElementType() reflect.Type

type GetServerResult

type GetServerResult struct {
	// The administrator username of the SQL Server.
	AdministratorLogin string `pulumi:"administratorLogin"`
	// The fully qualified domain name of the SQL Server.
	Fqdn string `pulumi:"fqdn"`
	// The provider-assigned unique ID for this managed resource.
	Id string `pulumi:"id"`
	// An `identity` block as defined below.
	Identities []GetServerIdentity `pulumi:"identities"`
	// The location of the Resource Group in which the SQL Server exists.
	Location          string `pulumi:"location"`
	Name              string `pulumi:"name"`
	ResourceGroupName string `pulumi:"resourceGroupName"`
	// A mapping of tags assigned to the resource.
	Tags map[string]string `pulumi:"tags"`
	// The version of the SQL Server.
	Version string `pulumi:"version"`
}

A collection of values returned by getServer.

func GetServer

func GetServer(ctx *pulumi.Context, args *GetServerArgs, opts ...pulumi.InvokeOption) (*GetServerResult, error)

Use this data source to access information about an existing SQL Azure Database Server.

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		example, err := sql.GetServer(ctx, &sql.GetServerArgs{
			Name:              "examplesqlservername",
			ResourceGroupName: "example-resources",
		}, nil)
		if err != nil {
			return err
		}
		ctx.Export("sqlServerId", example.Id)
		return nil
	})
}

```

type GetServerResultOutput added in v4.20.0

type GetServerResultOutput struct{ *pulumi.OutputState }

A collection of values returned by getServer.

func GetServerOutput added in v4.20.0

func GetServerOutput(ctx *pulumi.Context, args GetServerOutputArgs, opts ...pulumi.InvokeOption) GetServerResultOutput

func (GetServerResultOutput) AdministratorLogin added in v4.20.0

func (o GetServerResultOutput) AdministratorLogin() pulumi.StringOutput

The administrator username of the SQL Server.

func (GetServerResultOutput) ElementType added in v4.20.0

func (GetServerResultOutput) ElementType() reflect.Type

func (GetServerResultOutput) Fqdn added in v4.20.0

The fully qualified domain name of the SQL Server.

func (GetServerResultOutput) Id added in v4.20.0

The provider-assigned unique ID for this managed resource.

func (GetServerResultOutput) Identities added in v4.20.0

An `identity` block as defined below.

func (GetServerResultOutput) Location added in v4.20.0

The location of the Resource Group in which the SQL Server exists.

func (GetServerResultOutput) Name added in v4.20.0

func (GetServerResultOutput) ResourceGroupName added in v4.20.0

func (o GetServerResultOutput) ResourceGroupName() pulumi.StringOutput

func (GetServerResultOutput) Tags added in v4.20.0

A mapping of tags assigned to the resource.

func (GetServerResultOutput) ToGetServerResultOutput added in v4.20.0

func (o GetServerResultOutput) ToGetServerResultOutput() GetServerResultOutput

func (GetServerResultOutput) ToGetServerResultOutputWithContext added in v4.20.0

func (o GetServerResultOutput) ToGetServerResultOutputWithContext(ctx context.Context) GetServerResultOutput

func (GetServerResultOutput) Version added in v4.20.0

The version of the SQL Server.

type LookupDatabaseArgs

type LookupDatabaseArgs struct {
	// The name of the SQL Database.
	Name string `pulumi:"name"`
	// Specifies the name of the Resource Group where the Azure SQL Database exists.
	ResourceGroupName string `pulumi:"resourceGroupName"`
	// The name of the SQL Server.
	ServerName string `pulumi:"serverName"`
	// A mapping of tags assigned to the resource.
	Tags map[string]string `pulumi:"tags"`
}

A collection of arguments for invoking getDatabase.

type LookupDatabaseOutputArgs added in v4.20.0

type LookupDatabaseOutputArgs struct {
	// The name of the SQL Database.
	Name pulumi.StringInput `pulumi:"name"`
	// Specifies the name of the Resource Group where the Azure SQL Database exists.
	ResourceGroupName pulumi.StringInput `pulumi:"resourceGroupName"`
	// The name of the SQL Server.
	ServerName pulumi.StringInput `pulumi:"serverName"`
	// A mapping of tags assigned to the resource.
	Tags pulumi.StringMapInput `pulumi:"tags"`
}

A collection of arguments for invoking getDatabase.

func (LookupDatabaseOutputArgs) ElementType added in v4.20.0

func (LookupDatabaseOutputArgs) ElementType() reflect.Type

type LookupDatabaseResult

type LookupDatabaseResult struct {
	// The name of the collation.
	Collation string `pulumi:"collation"`
	// The default secondary location of the SQL Database.
	DefaultSecondaryLocation string `pulumi:"defaultSecondaryLocation"`
	// The edition of the database.
	Edition string `pulumi:"edition"`
	// The name of the elastic database pool the database belongs to.
	ElasticPoolName string `pulumi:"elasticPoolName"`
	// The ID of the failover group the database belongs to.
	FailoverGroupId string `pulumi:"failoverGroupId"`
	// The provider-assigned unique ID for this managed resource.
	Id string `pulumi:"id"`
	// The location of the Resource Group in which the SQL Server exists.
	Location string `pulumi:"location"`
	// The name of the database.
	Name string `pulumi:"name"`
	// Indicate if read-only connections will be redirected to a high-available replica.
	ReadScale bool `pulumi:"readScale"`
	// The name of the resource group in which the database resides. This will always be the same resource group as the Database Server.
	ResourceGroupName string `pulumi:"resourceGroupName"`
	// The name of the SQL Server on which to create the database.
	ServerName string `pulumi:"serverName"`
	// A mapping of tags assigned to the resource.
	Tags map[string]string `pulumi:"tags"`
}

A collection of values returned by getDatabase.

func LookupDatabase

func LookupDatabase(ctx *pulumi.Context, args *LookupDatabaseArgs, opts ...pulumi.InvokeOption) (*LookupDatabaseResult, error)

Use this data source to access information about an existing SQL Azure Database.

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		example, err := sql.LookupDatabase(ctx, &sql.LookupDatabaseArgs{
			Name:              "example_db",
			ServerName:        "example_db_server",
			ResourceGroupName: "example-resources",
		}, nil)
		if err != nil {
			return err
		}
		ctx.Export("sqlDatabaseId", example.Id)
		return nil
	})
}

```

type LookupDatabaseResultOutput added in v4.20.0

type LookupDatabaseResultOutput struct{ *pulumi.OutputState }

A collection of values returned by getDatabase.

func LookupDatabaseOutput added in v4.20.0

func LookupDatabaseOutput(ctx *pulumi.Context, args LookupDatabaseOutputArgs, opts ...pulumi.InvokeOption) LookupDatabaseResultOutput

func (LookupDatabaseResultOutput) Collation added in v4.20.0

The name of the collation.

func (LookupDatabaseResultOutput) DefaultSecondaryLocation added in v4.20.0

func (o LookupDatabaseResultOutput) DefaultSecondaryLocation() pulumi.StringOutput

The default secondary location of the SQL Database.

func (LookupDatabaseResultOutput) Edition added in v4.20.0

The edition of the database.

func (LookupDatabaseResultOutput) ElasticPoolName added in v4.20.0

func (o LookupDatabaseResultOutput) ElasticPoolName() pulumi.StringOutput

The name of the elastic database pool the database belongs to.

func (LookupDatabaseResultOutput) ElementType added in v4.20.0

func (LookupDatabaseResultOutput) ElementType() reflect.Type

func (LookupDatabaseResultOutput) FailoverGroupId added in v4.20.0

func (o LookupDatabaseResultOutput) FailoverGroupId() pulumi.StringOutput

The ID of the failover group the database belongs to.

func (LookupDatabaseResultOutput) Id added in v4.20.0

The provider-assigned unique ID for this managed resource.

func (LookupDatabaseResultOutput) Location added in v4.20.0

The location of the Resource Group in which the SQL Server exists.

func (LookupDatabaseResultOutput) Name added in v4.20.0

The name of the database.

func (LookupDatabaseResultOutput) ReadScale added in v4.20.0

Indicate if read-only connections will be redirected to a high-available replica.

func (LookupDatabaseResultOutput) ResourceGroupName added in v4.20.0

func (o LookupDatabaseResultOutput) ResourceGroupName() pulumi.StringOutput

The name of the resource group in which the database resides. This will always be the same resource group as the Database Server.

func (LookupDatabaseResultOutput) ServerName added in v4.20.0

The name of the SQL Server on which to create the database.

func (LookupDatabaseResultOutput) Tags added in v4.20.0

A mapping of tags assigned to the resource.

func (LookupDatabaseResultOutput) ToLookupDatabaseResultOutput added in v4.20.0

func (o LookupDatabaseResultOutput) ToLookupDatabaseResultOutput() LookupDatabaseResultOutput

func (LookupDatabaseResultOutput) ToLookupDatabaseResultOutputWithContext added in v4.20.0

func (o LookupDatabaseResultOutput) ToLookupDatabaseResultOutputWithContext(ctx context.Context) LookupDatabaseResultOutput

type ManagedDatabase added in v4.18.0

type ManagedDatabase struct {
	pulumi.CustomResourceState

	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringOutput `pulumi:"location"`
	// The name of the SQL Managed Instance. Changing this forces a new resource to be created.
	Name pulumi.StringOutput `pulumi:"name"`
	// The SQL Managed Instance ID that this Managed Database will be associated with. Changing this forces a new resource to be created.
	SqlManagedInstanceId pulumi.StringOutput `pulumi:"sqlManagedInstanceId"`
}

Manages a SQL Azure Managed Database

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		_, err := sql.NewManagedDatabase(ctx, "example", &sql.ManagedDatabaseArgs{
			SqlManagedInstanceId: pulumi.Any(azurerm_sql_managed_instance.Example.Id),
			Location:             pulumi.Any(azurerm_resource_group.Example.Location),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

```

## Import

SQL Managed Databases can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/managedDatabase:ManagedDatabase example /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/managedInstances/myserver/databases/mydatabase

```

func GetManagedDatabase added in v4.18.0

func GetManagedDatabase(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *ManagedDatabaseState, opts ...pulumi.ResourceOption) (*ManagedDatabase, error)

GetManagedDatabase gets an existing ManagedDatabase 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 NewManagedDatabase added in v4.18.0

func NewManagedDatabase(ctx *pulumi.Context,
	name string, args *ManagedDatabaseArgs, opts ...pulumi.ResourceOption) (*ManagedDatabase, error)

NewManagedDatabase registers a new resource with the given unique name, arguments, and options.

func (*ManagedDatabase) ElementType added in v4.18.0

func (*ManagedDatabase) ElementType() reflect.Type

func (*ManagedDatabase) ToManagedDatabaseOutput added in v4.18.0

func (i *ManagedDatabase) ToManagedDatabaseOutput() ManagedDatabaseOutput

func (*ManagedDatabase) ToManagedDatabaseOutputWithContext added in v4.18.0

func (i *ManagedDatabase) ToManagedDatabaseOutputWithContext(ctx context.Context) ManagedDatabaseOutput

func (*ManagedDatabase) ToManagedDatabasePtrOutput added in v4.18.0

func (i *ManagedDatabase) ToManagedDatabasePtrOutput() ManagedDatabasePtrOutput

func (*ManagedDatabase) ToManagedDatabasePtrOutputWithContext added in v4.18.0

func (i *ManagedDatabase) ToManagedDatabasePtrOutputWithContext(ctx context.Context) ManagedDatabasePtrOutput

type ManagedDatabaseArgs added in v4.18.0

type ManagedDatabaseArgs struct {
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The name of the SQL Managed Instance. Changing this forces a new resource to be created.
	Name pulumi.StringPtrInput
	// The SQL Managed Instance ID that this Managed Database will be associated with. Changing this forces a new resource to be created.
	SqlManagedInstanceId pulumi.StringInput
}

The set of arguments for constructing a ManagedDatabase resource.

func (ManagedDatabaseArgs) ElementType added in v4.18.0

func (ManagedDatabaseArgs) ElementType() reflect.Type

type ManagedDatabaseArray added in v4.18.0

type ManagedDatabaseArray []ManagedDatabaseInput

func (ManagedDatabaseArray) ElementType added in v4.18.0

func (ManagedDatabaseArray) ElementType() reflect.Type

func (ManagedDatabaseArray) ToManagedDatabaseArrayOutput added in v4.18.0

func (i ManagedDatabaseArray) ToManagedDatabaseArrayOutput() ManagedDatabaseArrayOutput

func (ManagedDatabaseArray) ToManagedDatabaseArrayOutputWithContext added in v4.18.0

func (i ManagedDatabaseArray) ToManagedDatabaseArrayOutputWithContext(ctx context.Context) ManagedDatabaseArrayOutput

type ManagedDatabaseArrayInput added in v4.18.0

type ManagedDatabaseArrayInput interface {
	pulumi.Input

	ToManagedDatabaseArrayOutput() ManagedDatabaseArrayOutput
	ToManagedDatabaseArrayOutputWithContext(context.Context) ManagedDatabaseArrayOutput
}

ManagedDatabaseArrayInput is an input type that accepts ManagedDatabaseArray and ManagedDatabaseArrayOutput values. You can construct a concrete instance of `ManagedDatabaseArrayInput` via:

ManagedDatabaseArray{ ManagedDatabaseArgs{...} }

type ManagedDatabaseArrayOutput added in v4.18.0

type ManagedDatabaseArrayOutput struct{ *pulumi.OutputState }

func (ManagedDatabaseArrayOutput) ElementType added in v4.18.0

func (ManagedDatabaseArrayOutput) ElementType() reflect.Type

func (ManagedDatabaseArrayOutput) Index added in v4.18.0

func (ManagedDatabaseArrayOutput) ToManagedDatabaseArrayOutput added in v4.18.0

func (o ManagedDatabaseArrayOutput) ToManagedDatabaseArrayOutput() ManagedDatabaseArrayOutput

func (ManagedDatabaseArrayOutput) ToManagedDatabaseArrayOutputWithContext added in v4.18.0

func (o ManagedDatabaseArrayOutput) ToManagedDatabaseArrayOutputWithContext(ctx context.Context) ManagedDatabaseArrayOutput

type ManagedDatabaseInput added in v4.18.0

type ManagedDatabaseInput interface {
	pulumi.Input

	ToManagedDatabaseOutput() ManagedDatabaseOutput
	ToManagedDatabaseOutputWithContext(ctx context.Context) ManagedDatabaseOutput
}

type ManagedDatabaseMap added in v4.18.0

type ManagedDatabaseMap map[string]ManagedDatabaseInput

func (ManagedDatabaseMap) ElementType added in v4.18.0

func (ManagedDatabaseMap) ElementType() reflect.Type

func (ManagedDatabaseMap) ToManagedDatabaseMapOutput added in v4.18.0

func (i ManagedDatabaseMap) ToManagedDatabaseMapOutput() ManagedDatabaseMapOutput

func (ManagedDatabaseMap) ToManagedDatabaseMapOutputWithContext added in v4.18.0

func (i ManagedDatabaseMap) ToManagedDatabaseMapOutputWithContext(ctx context.Context) ManagedDatabaseMapOutput

type ManagedDatabaseMapInput added in v4.18.0

type ManagedDatabaseMapInput interface {
	pulumi.Input

	ToManagedDatabaseMapOutput() ManagedDatabaseMapOutput
	ToManagedDatabaseMapOutputWithContext(context.Context) ManagedDatabaseMapOutput
}

ManagedDatabaseMapInput is an input type that accepts ManagedDatabaseMap and ManagedDatabaseMapOutput values. You can construct a concrete instance of `ManagedDatabaseMapInput` via:

ManagedDatabaseMap{ "key": ManagedDatabaseArgs{...} }

type ManagedDatabaseMapOutput added in v4.18.0

type ManagedDatabaseMapOutput struct{ *pulumi.OutputState }

func (ManagedDatabaseMapOutput) ElementType added in v4.18.0

func (ManagedDatabaseMapOutput) ElementType() reflect.Type

func (ManagedDatabaseMapOutput) MapIndex added in v4.18.0

func (ManagedDatabaseMapOutput) ToManagedDatabaseMapOutput added in v4.18.0

func (o ManagedDatabaseMapOutput) ToManagedDatabaseMapOutput() ManagedDatabaseMapOutput

func (ManagedDatabaseMapOutput) ToManagedDatabaseMapOutputWithContext added in v4.18.0

func (o ManagedDatabaseMapOutput) ToManagedDatabaseMapOutputWithContext(ctx context.Context) ManagedDatabaseMapOutput

type ManagedDatabaseOutput added in v4.18.0

type ManagedDatabaseOutput struct{ *pulumi.OutputState }

func (ManagedDatabaseOutput) ElementType added in v4.18.0

func (ManagedDatabaseOutput) ElementType() reflect.Type

func (ManagedDatabaseOutput) ToManagedDatabaseOutput added in v4.18.0

func (o ManagedDatabaseOutput) ToManagedDatabaseOutput() ManagedDatabaseOutput

func (ManagedDatabaseOutput) ToManagedDatabaseOutputWithContext added in v4.18.0

func (o ManagedDatabaseOutput) ToManagedDatabaseOutputWithContext(ctx context.Context) ManagedDatabaseOutput

func (ManagedDatabaseOutput) ToManagedDatabasePtrOutput added in v4.18.0

func (o ManagedDatabaseOutput) ToManagedDatabasePtrOutput() ManagedDatabasePtrOutput

func (ManagedDatabaseOutput) ToManagedDatabasePtrOutputWithContext added in v4.18.0

func (o ManagedDatabaseOutput) ToManagedDatabasePtrOutputWithContext(ctx context.Context) ManagedDatabasePtrOutput

type ManagedDatabasePtrInput added in v4.18.0

type ManagedDatabasePtrInput interface {
	pulumi.Input

	ToManagedDatabasePtrOutput() ManagedDatabasePtrOutput
	ToManagedDatabasePtrOutputWithContext(ctx context.Context) ManagedDatabasePtrOutput
}

type ManagedDatabasePtrOutput added in v4.18.0

type ManagedDatabasePtrOutput struct{ *pulumi.OutputState }

func (ManagedDatabasePtrOutput) Elem added in v4.20.0

func (ManagedDatabasePtrOutput) ElementType added in v4.18.0

func (ManagedDatabasePtrOutput) ElementType() reflect.Type

func (ManagedDatabasePtrOutput) ToManagedDatabasePtrOutput added in v4.18.0

func (o ManagedDatabasePtrOutput) ToManagedDatabasePtrOutput() ManagedDatabasePtrOutput

func (ManagedDatabasePtrOutput) ToManagedDatabasePtrOutputWithContext added in v4.18.0

func (o ManagedDatabasePtrOutput) ToManagedDatabasePtrOutputWithContext(ctx context.Context) ManagedDatabasePtrOutput

type ManagedDatabaseState added in v4.18.0

type ManagedDatabaseState struct {
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The name of the SQL Managed Instance. Changing this forces a new resource to be created.
	Name pulumi.StringPtrInput
	// The SQL Managed Instance ID that this Managed Database will be associated with. Changing this forces a new resource to be created.
	SqlManagedInstanceId pulumi.StringPtrInput
}

func (ManagedDatabaseState) ElementType added in v4.18.0

func (ManagedDatabaseState) ElementType() reflect.Type

type ManagedInstance added in v4.18.0

type ManagedInstance struct {
	pulumi.CustomResourceState

	// The administrator login name for the new server. Changing this forces a new resource to be created.
	AdministratorLogin pulumi.StringOutput `pulumi:"administratorLogin"`
	// The password associated with the `administratorLogin` user. Needs to comply with Azure's [Password Policy](https://msdn.microsoft.com/library/ms161959.aspx)
	AdministratorLoginPassword pulumi.StringOutput `pulumi:"administratorLoginPassword"`
	// Specifies how the SQL Managed Instance will be collated. Default value is `SQL_Latin1_General_CP1_CI_AS`. Changing this forces a new resource to be created.
	Collation pulumi.StringPtrOutput `pulumi:"collation"`
	// The fully qualified domain name of the Azure Managed SQL Instance
	Fqdn pulumi.StringOutput `pulumi:"fqdn"`
	// What type of license the Managed Instance will use. Valid values include can be `PriceIncluded` or `BasePrice`.
	LicenseType pulumi.StringOutput `pulumi:"licenseType"`
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringOutput `pulumi:"location"`
	// The Minimum TLS Version. Default value is `1.2` Valid values include `1.0`, `1.1`, `1.2`.
	MinimumTlsVersion pulumi.StringPtrOutput `pulumi:"minimumTlsVersion"`
	// The name of the SQL Managed Instance. This needs to be globally unique within Azure.
	Name pulumi.StringOutput `pulumi:"name"`
	// Specifies how the SQL Managed Instance will be accessed. Default value is `Default`. Valid values include `Default`, `Proxy`, and `Redirect`.
	ProxyOverride pulumi.StringPtrOutput `pulumi:"proxyOverride"`
	// Is the public data endpoint enabled? Default value is `false`.
	PublicDataEndpointEnabled pulumi.BoolPtrOutput `pulumi:"publicDataEndpointEnabled"`
	// The name of the resource group in which to create the SQL Server.
	ResourceGroupName pulumi.StringOutput `pulumi:"resourceGroupName"`
	// Specifies the SKU Name for the SQL Managed Instance. Valid values include `GP_Gen4`, `GP_Gen5`, `BC_Gen4`, `BC_Gen5`. Changing this forces a new resource to be created.
	SkuName pulumi.StringOutput `pulumi:"skuName"`
	// Maximum storage space for your instance. It should be a multiple of 32GB.
	StorageSizeInGb pulumi.IntOutput `pulumi:"storageSizeInGb"`
	// The subnet resource id that the SQL Managed Instance will be associated with.
	SubnetId pulumi.StringOutput `pulumi:"subnetId"`
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapOutput `pulumi:"tags"`
	// The TimeZone ID that the SQL Managed Instance will be operating in. Default value is `UTC`. Changing this forces a new resource to be created.
	TimezoneId pulumi.StringPtrOutput `pulumi:"timezoneId"`
	// Number of cores that should be assigned to your instance. Values can be `8`, `16`, or `24` if `skuName` is `GP_Gen4`, or `8`, `16`, `24`, `32`, or `40` if `skuName` is `GP_Gen5`.
	Vcores pulumi.IntOutput `pulumi:"vcores"`
}

Manages a SQL Azure Managed Instance.

> **Note:** All arguments including the administrator login and password will be stored in the raw state as plain-text. [Read more about sensitive data in state](https://www.terraform.io/docs/state/sensitive-data.html).

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/network"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		exampleResourceGroup, err := core.NewResourceGroup(ctx, "exampleResourceGroup", &core.ResourceGroupArgs{
			Location: pulumi.String("West Europe"),
		})
		if err != nil {
			return err
		}
		exampleNetworkSecurityGroup, err := network.NewNetworkSecurityGroup(ctx, "exampleNetworkSecurityGroup", &network.NetworkSecurityGroupArgs{
			Location:          exampleResourceGroup.Location,
			ResourceGroupName: exampleResourceGroup.Name,
		})
		if err != nil {
			return err
		}
		_, err = network.NewNetworkSecurityRule(ctx, "allowManagementInbound", &network.NetworkSecurityRuleArgs{
			Priority:        pulumi.Int(106),
			Direction:       pulumi.String("Inbound"),
			Access:          pulumi.String("Allow"),
			Protocol:        pulumi.String("Tcp"),
			SourcePortRange: pulumi.String("*"),
			DestinationPortRanges: pulumi.StringArray{
				pulumi.String("9000"),
				pulumi.String("9003"),
				pulumi.String("1438"),
				pulumi.String("1440"),
				pulumi.String("1452"),
			},
			SourceAddressPrefix:      pulumi.String("*"),
			DestinationAddressPrefix: pulumi.String("*"),
			ResourceGroupName:        exampleResourceGroup.Name,
			NetworkSecurityGroupName: exampleNetworkSecurityGroup.Name,
		})
		if err != nil {
			return err
		}
		_, err = network.NewNetworkSecurityRule(ctx, "allowMisubnetInbound", &network.NetworkSecurityRuleArgs{
			Priority:                 pulumi.Int(200),
			Direction:                pulumi.String("Inbound"),
			Access:                   pulumi.String("Allow"),
			Protocol:                 pulumi.String("*"),
			SourcePortRange:          pulumi.String("*"),
			DestinationPortRange:     pulumi.String("*"),
			SourceAddressPrefix:      pulumi.String("10.0.0.0/24"),
			DestinationAddressPrefix: pulumi.String("*"),
			ResourceGroupName:        exampleResourceGroup.Name,
			NetworkSecurityGroupName: exampleNetworkSecurityGroup.Name,
		})
		if err != nil {
			return err
		}
		_, err = network.NewNetworkSecurityRule(ctx, "allowHealthProbeInbound", &network.NetworkSecurityRuleArgs{
			Priority:                 pulumi.Int(300),
			Direction:                pulumi.String("Inbound"),
			Access:                   pulumi.String("Allow"),
			Protocol:                 pulumi.String("*"),
			SourcePortRange:          pulumi.String("*"),
			DestinationPortRange:     pulumi.String("*"),
			SourceAddressPrefix:      pulumi.String("AzureLoadBalancer"),
			DestinationAddressPrefix: pulumi.String("*"),
			ResourceGroupName:        exampleResourceGroup.Name,
			NetworkSecurityGroupName: exampleNetworkSecurityGroup.Name,
		})
		if err != nil {
			return err
		}
		_, err = network.NewNetworkSecurityRule(ctx, "allowTdsInbound", &network.NetworkSecurityRuleArgs{
			Priority:                 pulumi.Int(1000),
			Direction:                pulumi.String("Inbound"),
			Access:                   pulumi.String("Allow"),
			Protocol:                 pulumi.String("Tcp"),
			SourcePortRange:          pulumi.String("*"),
			DestinationPortRange:     pulumi.String("1433"),
			SourceAddressPrefix:      pulumi.String("VirtualNetwork"),
			DestinationAddressPrefix: pulumi.String("*"),
			ResourceGroupName:        exampleResourceGroup.Name,
			NetworkSecurityGroupName: exampleNetworkSecurityGroup.Name,
		})
		if err != nil {
			return err
		}
		_, err = network.NewNetworkSecurityRule(ctx, "denyAllInbound", &network.NetworkSecurityRuleArgs{
			Priority:                 pulumi.Int(4096),
			Direction:                pulumi.String("Inbound"),
			Access:                   pulumi.String("Deny"),
			Protocol:                 pulumi.String("*"),
			SourcePortRange:          pulumi.String("*"),
			DestinationPortRange:     pulumi.String("*"),
			SourceAddressPrefix:      pulumi.String("*"),
			DestinationAddressPrefix: pulumi.String("*"),
			ResourceGroupName:        exampleResourceGroup.Name,
			NetworkSecurityGroupName: exampleNetworkSecurityGroup.Name,
		})
		if err != nil {
			return err
		}
		_, err = network.NewNetworkSecurityRule(ctx, "allowManagementOutbound", &network.NetworkSecurityRuleArgs{
			Priority:        pulumi.Int(102),
			Direction:       pulumi.String("Outbound"),
			Access:          pulumi.String("Allow"),
			Protocol:        pulumi.String("Tcp"),
			SourcePortRange: pulumi.String("*"),
			DestinationPortRanges: pulumi.StringArray{
				pulumi.String("80"),
				pulumi.String("443"),
				pulumi.String("12000"),
			},
			SourceAddressPrefix:      pulumi.String("*"),
			DestinationAddressPrefix: pulumi.String("*"),
			ResourceGroupName:        exampleResourceGroup.Name,
			NetworkSecurityGroupName: exampleNetworkSecurityGroup.Name,
		})
		if err != nil {
			return err
		}
		_, err = network.NewNetworkSecurityRule(ctx, "allowMisubnetOutbound", &network.NetworkSecurityRuleArgs{
			Priority:                 pulumi.Int(200),
			Direction:                pulumi.String("Outbound"),
			Access:                   pulumi.String("Allow"),
			Protocol:                 pulumi.String("*"),
			SourcePortRange:          pulumi.String("*"),
			DestinationPortRange:     pulumi.String("*"),
			SourceAddressPrefix:      pulumi.String("10.0.0.0/24"),
			DestinationAddressPrefix: pulumi.String("*"),
			ResourceGroupName:        exampleResourceGroup.Name,
			NetworkSecurityGroupName: exampleNetworkSecurityGroup.Name,
		})
		if err != nil {
			return err
		}
		_, err = network.NewNetworkSecurityRule(ctx, "denyAllOutbound", &network.NetworkSecurityRuleArgs{
			Priority:                 pulumi.Int(4096),
			Direction:                pulumi.String("Outbound"),
			Access:                   pulumi.String("Deny"),
			Protocol:                 pulumi.String("*"),
			SourcePortRange:          pulumi.String("*"),
			DestinationPortRange:     pulumi.String("*"),
			SourceAddressPrefix:      pulumi.String("*"),
			DestinationAddressPrefix: pulumi.String("*"),
			ResourceGroupName:        exampleResourceGroup.Name,
			NetworkSecurityGroupName: exampleNetworkSecurityGroup.Name,
		})
		if err != nil {
			return err
		}
		exampleVirtualNetwork, err := network.NewVirtualNetwork(ctx, "exampleVirtualNetwork", &network.VirtualNetworkArgs{
			ResourceGroupName: exampleResourceGroup.Name,
			AddressSpaces: pulumi.StringArray{
				pulumi.String("10.0.0.0/16"),
			},
			Location: exampleResourceGroup.Location,
		})
		if err != nil {
			return err
		}
		exampleSubnet, err := network.NewSubnet(ctx, "exampleSubnet", &network.SubnetArgs{
			ResourceGroupName:  exampleResourceGroup.Name,
			VirtualNetworkName: exampleVirtualNetwork.Name,
			AddressPrefix:      pulumi.String("10.0.0.0/24"),
			Delegations: network.SubnetDelegationArray{
				&network.SubnetDelegationArgs{
					Name: pulumi.String("managedinstancedelegation"),
					ServiceDelegation: &network.SubnetDelegationServiceDelegationArgs{
						Name: pulumi.String("Microsoft.Sql/managedInstances"),
						Actions: pulumi.StringArray{
							pulumi.String("Microsoft.Network/virtualNetworks/subnets/join/action"),
							pulumi.String("Microsoft.Network/virtualNetworks/subnets/prepareNetworkPolicies/action"),
							pulumi.String("Microsoft.Network/virtualNetworks/subnets/unprepareNetworkPolicies/action"),
						},
					},
				},
			},
		})
		if err != nil {
			return err
		}
		exampleSubnetNetworkSecurityGroupAssociation, err := network.NewSubnetNetworkSecurityGroupAssociation(ctx, "exampleSubnetNetworkSecurityGroupAssociation", &network.SubnetNetworkSecurityGroupAssociationArgs{
			SubnetId:               exampleSubnet.ID(),
			NetworkSecurityGroupId: exampleNetworkSecurityGroup.ID(),
		})
		if err != nil {
			return err
		}
		exampleRouteTable, err := network.NewRouteTable(ctx, "exampleRouteTable", &network.RouteTableArgs{
			Location:                   exampleResourceGroup.Location,
			ResourceGroupName:          exampleResourceGroup.Name,
			DisableBgpRoutePropagation: pulumi.Bool(false),
		}, pulumi.DependsOn([]pulumi.Resource{
			exampleSubnet,
		}))
		if err != nil {
			return err
		}
		exampleSubnetRouteTableAssociation, err := network.NewSubnetRouteTableAssociation(ctx, "exampleSubnetRouteTableAssociation", &network.SubnetRouteTableAssociationArgs{
			SubnetId:     exampleSubnet.ID(),
			RouteTableId: exampleRouteTable.ID(),
		})
		if err != nil {
			return err
		}
		_, err = sql.NewManagedInstance(ctx, "exampleManagedInstance", &sql.ManagedInstanceArgs{
			ResourceGroupName:          exampleResourceGroup.Name,
			Location:                   exampleResourceGroup.Location,
			AdministratorLogin:         pulumi.String("mradministrator"),
			AdministratorLoginPassword: pulumi.String("thisIsDog11"),
			LicenseType:                pulumi.String("BasePrice"),
			SubnetId:                   exampleSubnet.ID(),
			SkuName:                    pulumi.String("GP_Gen5"),
			Vcores:                     pulumi.Int(4),
			StorageSizeInGb:            pulumi.Int(32),
		}, pulumi.DependsOn([]pulumi.Resource{
			exampleSubnetNetworkSecurityGroupAssociation,
			exampleSubnetRouteTableAssociation,
		}))
		if err != nil {
			return err
		}
		return nil
	})
}

```

## Import

SQL Servers can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/managedInstance:ManagedInstance example /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/managedInstances/myserver

```

func GetManagedInstance added in v4.18.0

func GetManagedInstance(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *ManagedInstanceState, opts ...pulumi.ResourceOption) (*ManagedInstance, error)

GetManagedInstance gets an existing ManagedInstance 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 NewManagedInstance added in v4.18.0

func NewManagedInstance(ctx *pulumi.Context,
	name string, args *ManagedInstanceArgs, opts ...pulumi.ResourceOption) (*ManagedInstance, error)

NewManagedInstance registers a new resource with the given unique name, arguments, and options.

func (*ManagedInstance) ElementType added in v4.18.0

func (*ManagedInstance) ElementType() reflect.Type

func (*ManagedInstance) ToManagedInstanceOutput added in v4.18.0

func (i *ManagedInstance) ToManagedInstanceOutput() ManagedInstanceOutput

func (*ManagedInstance) ToManagedInstanceOutputWithContext added in v4.18.0

func (i *ManagedInstance) ToManagedInstanceOutputWithContext(ctx context.Context) ManagedInstanceOutput

func (*ManagedInstance) ToManagedInstancePtrOutput added in v4.18.0

func (i *ManagedInstance) ToManagedInstancePtrOutput() ManagedInstancePtrOutput

func (*ManagedInstance) ToManagedInstancePtrOutputWithContext added in v4.18.0

func (i *ManagedInstance) ToManagedInstancePtrOutputWithContext(ctx context.Context) ManagedInstancePtrOutput

type ManagedInstanceArgs added in v4.18.0

type ManagedInstanceArgs struct {
	// The administrator login name for the new server. Changing this forces a new resource to be created.
	AdministratorLogin pulumi.StringInput
	// The password associated with the `administratorLogin` user. Needs to comply with Azure's [Password Policy](https://msdn.microsoft.com/library/ms161959.aspx)
	AdministratorLoginPassword pulumi.StringInput
	// Specifies how the SQL Managed Instance will be collated. Default value is `SQL_Latin1_General_CP1_CI_AS`. Changing this forces a new resource to be created.
	Collation pulumi.StringPtrInput
	// What type of license the Managed Instance will use. Valid values include can be `PriceIncluded` or `BasePrice`.
	LicenseType pulumi.StringInput
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The Minimum TLS Version. Default value is `1.2` Valid values include `1.0`, `1.1`, `1.2`.
	MinimumTlsVersion pulumi.StringPtrInput
	// The name of the SQL Managed Instance. This needs to be globally unique within Azure.
	Name pulumi.StringPtrInput
	// Specifies how the SQL Managed Instance will be accessed. Default value is `Default`. Valid values include `Default`, `Proxy`, and `Redirect`.
	ProxyOverride pulumi.StringPtrInput
	// Is the public data endpoint enabled? Default value is `false`.
	PublicDataEndpointEnabled pulumi.BoolPtrInput
	// The name of the resource group in which to create the SQL Server.
	ResourceGroupName pulumi.StringInput
	// Specifies the SKU Name for the SQL Managed Instance. Valid values include `GP_Gen4`, `GP_Gen5`, `BC_Gen4`, `BC_Gen5`. Changing this forces a new resource to be created.
	SkuName pulumi.StringInput
	// Maximum storage space for your instance. It should be a multiple of 32GB.
	StorageSizeInGb pulumi.IntInput
	// The subnet resource id that the SQL Managed Instance will be associated with.
	SubnetId pulumi.StringInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
	// The TimeZone ID that the SQL Managed Instance will be operating in. Default value is `UTC`. Changing this forces a new resource to be created.
	TimezoneId pulumi.StringPtrInput
	// Number of cores that should be assigned to your instance. Values can be `8`, `16`, or `24` if `skuName` is `GP_Gen4`, or `8`, `16`, `24`, `32`, or `40` if `skuName` is `GP_Gen5`.
	Vcores pulumi.IntInput
}

The set of arguments for constructing a ManagedInstance resource.

func (ManagedInstanceArgs) ElementType added in v4.18.0

func (ManagedInstanceArgs) ElementType() reflect.Type

type ManagedInstanceArray added in v4.18.0

type ManagedInstanceArray []ManagedInstanceInput

func (ManagedInstanceArray) ElementType added in v4.18.0

func (ManagedInstanceArray) ElementType() reflect.Type

func (ManagedInstanceArray) ToManagedInstanceArrayOutput added in v4.18.0

func (i ManagedInstanceArray) ToManagedInstanceArrayOutput() ManagedInstanceArrayOutput

func (ManagedInstanceArray) ToManagedInstanceArrayOutputWithContext added in v4.18.0

func (i ManagedInstanceArray) ToManagedInstanceArrayOutputWithContext(ctx context.Context) ManagedInstanceArrayOutput

type ManagedInstanceArrayInput added in v4.18.0

type ManagedInstanceArrayInput interface {
	pulumi.Input

	ToManagedInstanceArrayOutput() ManagedInstanceArrayOutput
	ToManagedInstanceArrayOutputWithContext(context.Context) ManagedInstanceArrayOutput
}

ManagedInstanceArrayInput is an input type that accepts ManagedInstanceArray and ManagedInstanceArrayOutput values. You can construct a concrete instance of `ManagedInstanceArrayInput` via:

ManagedInstanceArray{ ManagedInstanceArgs{...} }

type ManagedInstanceArrayOutput added in v4.18.0

type ManagedInstanceArrayOutput struct{ *pulumi.OutputState }

func (ManagedInstanceArrayOutput) ElementType added in v4.18.0

func (ManagedInstanceArrayOutput) ElementType() reflect.Type

func (ManagedInstanceArrayOutput) Index added in v4.18.0

func (ManagedInstanceArrayOutput) ToManagedInstanceArrayOutput added in v4.18.0

func (o ManagedInstanceArrayOutput) ToManagedInstanceArrayOutput() ManagedInstanceArrayOutput

func (ManagedInstanceArrayOutput) ToManagedInstanceArrayOutputWithContext added in v4.18.0

func (o ManagedInstanceArrayOutput) ToManagedInstanceArrayOutputWithContext(ctx context.Context) ManagedInstanceArrayOutput

type ManagedInstanceInput added in v4.18.0

type ManagedInstanceInput interface {
	pulumi.Input

	ToManagedInstanceOutput() ManagedInstanceOutput
	ToManagedInstanceOutputWithContext(ctx context.Context) ManagedInstanceOutput
}

type ManagedInstanceMap added in v4.18.0

type ManagedInstanceMap map[string]ManagedInstanceInput

func (ManagedInstanceMap) ElementType added in v4.18.0

func (ManagedInstanceMap) ElementType() reflect.Type

func (ManagedInstanceMap) ToManagedInstanceMapOutput added in v4.18.0

func (i ManagedInstanceMap) ToManagedInstanceMapOutput() ManagedInstanceMapOutput

func (ManagedInstanceMap) ToManagedInstanceMapOutputWithContext added in v4.18.0

func (i ManagedInstanceMap) ToManagedInstanceMapOutputWithContext(ctx context.Context) ManagedInstanceMapOutput

type ManagedInstanceMapInput added in v4.18.0

type ManagedInstanceMapInput interface {
	pulumi.Input

	ToManagedInstanceMapOutput() ManagedInstanceMapOutput
	ToManagedInstanceMapOutputWithContext(context.Context) ManagedInstanceMapOutput
}

ManagedInstanceMapInput is an input type that accepts ManagedInstanceMap and ManagedInstanceMapOutput values. You can construct a concrete instance of `ManagedInstanceMapInput` via:

ManagedInstanceMap{ "key": ManagedInstanceArgs{...} }

type ManagedInstanceMapOutput added in v4.18.0

type ManagedInstanceMapOutput struct{ *pulumi.OutputState }

func (ManagedInstanceMapOutput) ElementType added in v4.18.0

func (ManagedInstanceMapOutput) ElementType() reflect.Type

func (ManagedInstanceMapOutput) MapIndex added in v4.18.0

func (ManagedInstanceMapOutput) ToManagedInstanceMapOutput added in v4.18.0

func (o ManagedInstanceMapOutput) ToManagedInstanceMapOutput() ManagedInstanceMapOutput

func (ManagedInstanceMapOutput) ToManagedInstanceMapOutputWithContext added in v4.18.0

func (o ManagedInstanceMapOutput) ToManagedInstanceMapOutputWithContext(ctx context.Context) ManagedInstanceMapOutput

type ManagedInstanceOutput added in v4.18.0

type ManagedInstanceOutput struct{ *pulumi.OutputState }

func (ManagedInstanceOutput) ElementType added in v4.18.0

func (ManagedInstanceOutput) ElementType() reflect.Type

func (ManagedInstanceOutput) ToManagedInstanceOutput added in v4.18.0

func (o ManagedInstanceOutput) ToManagedInstanceOutput() ManagedInstanceOutput

func (ManagedInstanceOutput) ToManagedInstanceOutputWithContext added in v4.18.0

func (o ManagedInstanceOutput) ToManagedInstanceOutputWithContext(ctx context.Context) ManagedInstanceOutput

func (ManagedInstanceOutput) ToManagedInstancePtrOutput added in v4.18.0

func (o ManagedInstanceOutput) ToManagedInstancePtrOutput() ManagedInstancePtrOutput

func (ManagedInstanceOutput) ToManagedInstancePtrOutputWithContext added in v4.18.0

func (o ManagedInstanceOutput) ToManagedInstancePtrOutputWithContext(ctx context.Context) ManagedInstancePtrOutput

type ManagedInstancePtrInput added in v4.18.0

type ManagedInstancePtrInput interface {
	pulumi.Input

	ToManagedInstancePtrOutput() ManagedInstancePtrOutput
	ToManagedInstancePtrOutputWithContext(ctx context.Context) ManagedInstancePtrOutput
}

type ManagedInstancePtrOutput added in v4.18.0

type ManagedInstancePtrOutput struct{ *pulumi.OutputState }

func (ManagedInstancePtrOutput) Elem added in v4.20.0

func (ManagedInstancePtrOutput) ElementType added in v4.18.0

func (ManagedInstancePtrOutput) ElementType() reflect.Type

func (ManagedInstancePtrOutput) ToManagedInstancePtrOutput added in v4.18.0

func (o ManagedInstancePtrOutput) ToManagedInstancePtrOutput() ManagedInstancePtrOutput

func (ManagedInstancePtrOutput) ToManagedInstancePtrOutputWithContext added in v4.18.0

func (o ManagedInstancePtrOutput) ToManagedInstancePtrOutputWithContext(ctx context.Context) ManagedInstancePtrOutput

type ManagedInstanceState added in v4.18.0

type ManagedInstanceState struct {
	// The administrator login name for the new server. Changing this forces a new resource to be created.
	AdministratorLogin pulumi.StringPtrInput
	// The password associated with the `administratorLogin` user. Needs to comply with Azure's [Password Policy](https://msdn.microsoft.com/library/ms161959.aspx)
	AdministratorLoginPassword pulumi.StringPtrInput
	// Specifies how the SQL Managed Instance will be collated. Default value is `SQL_Latin1_General_CP1_CI_AS`. Changing this forces a new resource to be created.
	Collation pulumi.StringPtrInput
	// The fully qualified domain name of the Azure Managed SQL Instance
	Fqdn pulumi.StringPtrInput
	// What type of license the Managed Instance will use. Valid values include can be `PriceIncluded` or `BasePrice`.
	LicenseType pulumi.StringPtrInput
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The Minimum TLS Version. Default value is `1.2` Valid values include `1.0`, `1.1`, `1.2`.
	MinimumTlsVersion pulumi.StringPtrInput
	// The name of the SQL Managed Instance. This needs to be globally unique within Azure.
	Name pulumi.StringPtrInput
	// Specifies how the SQL Managed Instance will be accessed. Default value is `Default`. Valid values include `Default`, `Proxy`, and `Redirect`.
	ProxyOverride pulumi.StringPtrInput
	// Is the public data endpoint enabled? Default value is `false`.
	PublicDataEndpointEnabled pulumi.BoolPtrInput
	// The name of the resource group in which to create the SQL Server.
	ResourceGroupName pulumi.StringPtrInput
	// Specifies the SKU Name for the SQL Managed Instance. Valid values include `GP_Gen4`, `GP_Gen5`, `BC_Gen4`, `BC_Gen5`. Changing this forces a new resource to be created.
	SkuName pulumi.StringPtrInput
	// Maximum storage space for your instance. It should be a multiple of 32GB.
	StorageSizeInGb pulumi.IntPtrInput
	// The subnet resource id that the SQL Managed Instance will be associated with.
	SubnetId pulumi.StringPtrInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
	// The TimeZone ID that the SQL Managed Instance will be operating in. Default value is `UTC`. Changing this forces a new resource to be created.
	TimezoneId pulumi.StringPtrInput
	// Number of cores that should be assigned to your instance. Values can be `8`, `16`, or `24` if `skuName` is `GP_Gen4`, or `8`, `16`, `24`, `32`, or `40` if `skuName` is `GP_Gen5`.
	Vcores pulumi.IntPtrInput
}

func (ManagedInstanceState) ElementType added in v4.18.0

func (ManagedInstanceState) ElementType() reflect.Type

type SqlServer

type SqlServer struct {
	pulumi.CustomResourceState

	// The administrator login name for the new server. Changing this forces a new resource to be created.
	AdministratorLogin pulumi.StringOutput `pulumi:"administratorLogin"`
	// The password associated with the `administratorLogin` user. Needs to comply with Azure's [Password Policy](https://msdn.microsoft.com/library/ms161959.aspx)
	AdministratorLoginPassword pulumi.StringOutput `pulumi:"administratorLoginPassword"`
	// The connection policy the server will use. Possible values are `Default`, `Proxy`, and `Redirect`. Defaults to `Default`.
	ConnectionPolicy pulumi.StringPtrOutput `pulumi:"connectionPolicy"`
	// A `extendedAuditingPolicy` block as defined below.
	//
	// Deprecated: the `extended_auditing_policy` block has been moved to `azurerm_mssql_server_extended_auditing_policy` and `azurerm_mssql_database_extended_auditing_policy`. This block will be removed in version 3.0 of the provider.
	ExtendedAuditingPolicy SqlServerExtendedAuditingPolicyOutput `pulumi:"extendedAuditingPolicy"`
	// The fully qualified domain name of the Azure SQL Server (e.g. myServerName.database.windows.net)
	FullyQualifiedDomainName pulumi.StringOutput `pulumi:"fullyQualifiedDomainName"`
	// An `identity` block as defined below.
	Identity SqlServerIdentityPtrOutput `pulumi:"identity"`
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringOutput `pulumi:"location"`
	// The name of the Microsoft SQL Server. This needs to be globally unique within Azure.
	Name pulumi.StringOutput `pulumi:"name"`
	// The name of the resource group in which to create the Microsoft SQL Server.
	ResourceGroupName pulumi.StringOutput `pulumi:"resourceGroupName"`
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapOutput `pulumi:"tags"`
	// Threat detection policy configuration. The `threatDetectionPolicy` block supports fields documented below.
	ThreatDetectionPolicy SqlServerThreatDetectionPolicyOutput `pulumi:"threatDetectionPolicy"`
	// The version for the new server. Valid values are: 2.0 (for v11 server) and 12.0 (for v12 server).
	Version pulumi.StringOutput `pulumi:"version"`
}

Manages a Microsoft SQL Azure Database Server.

> **Note:** This resource provides usage of Microsoft SQL Azure Database server using an older `sku` based model. It is recommended going forward to use `mssql.Server` resource which provides support for `vcores`.

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/storage"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		exampleResourceGroup, err := core.NewResourceGroup(ctx, "exampleResourceGroup", &core.ResourceGroupArgs{
			Location: pulumi.String("West Europe"),
		})
		if err != nil {
			return err
		}
		exampleAccount, err := storage.NewAccount(ctx, "exampleAccount", &storage.AccountArgs{
			ResourceGroupName:      exampleResourceGroup.Name,
			Location:               exampleResourceGroup.Location,
			AccountTier:            pulumi.String("Standard"),
			AccountReplicationType: pulumi.String("LRS"),
		})
		if err != nil {
			return err
		}
		_, err = sql.NewSqlServer(ctx, "exampleSqlServer", &sql.SqlServerArgs{
			ResourceGroupName:          exampleResourceGroup.Name,
			Location:                   exampleResourceGroup.Location,
			Version:                    pulumi.String("12.0"),
			AdministratorLogin:         pulumi.String("mradministrator"),
			AdministratorLoginPassword: pulumi.String("thisIsDog11"),
			ExtendedAuditingPolicy: &sql.SqlServerExtendedAuditingPolicyArgs{
				StorageEndpoint:                    exampleAccount.PrimaryBlobEndpoint,
				StorageAccountAccessKey:            exampleAccount.PrimaryAccessKey,
				StorageAccountAccessKeyIsSecondary: pulumi.Bool(true),
				RetentionInDays:                    pulumi.Int(6),
			},
			Tags: pulumi.StringMap{
				"environment": pulumi.String("production"),
			},
		})
		if err != nil {
			return err
		}
		return nil
	})
}

```

## Import

SQL Servers can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/sqlServer:SqlServer example /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/servers/myserver

```

func GetSqlServer

func GetSqlServer(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *SqlServerState, opts ...pulumi.ResourceOption) (*SqlServer, error)

GetSqlServer gets an existing SqlServer 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 NewSqlServer

func NewSqlServer(ctx *pulumi.Context,
	name string, args *SqlServerArgs, opts ...pulumi.ResourceOption) (*SqlServer, error)

NewSqlServer registers a new resource with the given unique name, arguments, and options.

func (*SqlServer) ElementType

func (*SqlServer) ElementType() reflect.Type

func (*SqlServer) ToSqlServerOutput

func (i *SqlServer) ToSqlServerOutput() SqlServerOutput

func (*SqlServer) ToSqlServerOutputWithContext

func (i *SqlServer) ToSqlServerOutputWithContext(ctx context.Context) SqlServerOutput

func (*SqlServer) ToSqlServerPtrOutput

func (i *SqlServer) ToSqlServerPtrOutput() SqlServerPtrOutput

func (*SqlServer) ToSqlServerPtrOutputWithContext

func (i *SqlServer) ToSqlServerPtrOutputWithContext(ctx context.Context) SqlServerPtrOutput

type SqlServerArgs

type SqlServerArgs struct {
	// The administrator login name for the new server. Changing this forces a new resource to be created.
	AdministratorLogin pulumi.StringInput
	// The password associated with the `administratorLogin` user. Needs to comply with Azure's [Password Policy](https://msdn.microsoft.com/library/ms161959.aspx)
	AdministratorLoginPassword pulumi.StringInput
	// The connection policy the server will use. Possible values are `Default`, `Proxy`, and `Redirect`. Defaults to `Default`.
	ConnectionPolicy pulumi.StringPtrInput
	// A `extendedAuditingPolicy` block as defined below.
	//
	// Deprecated: the `extended_auditing_policy` block has been moved to `azurerm_mssql_server_extended_auditing_policy` and `azurerm_mssql_database_extended_auditing_policy`. This block will be removed in version 3.0 of the provider.
	ExtendedAuditingPolicy SqlServerExtendedAuditingPolicyPtrInput
	// An `identity` block as defined below.
	Identity SqlServerIdentityPtrInput
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The name of the Microsoft SQL Server. This needs to be globally unique within Azure.
	Name pulumi.StringPtrInput
	// The name of the resource group in which to create the Microsoft SQL Server.
	ResourceGroupName pulumi.StringInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
	// Threat detection policy configuration. The `threatDetectionPolicy` block supports fields documented below.
	ThreatDetectionPolicy SqlServerThreatDetectionPolicyPtrInput
	// The version for the new server. Valid values are: 2.0 (for v11 server) and 12.0 (for v12 server).
	Version pulumi.StringInput
}

The set of arguments for constructing a SqlServer resource.

func (SqlServerArgs) ElementType

func (SqlServerArgs) ElementType() reflect.Type

type SqlServerArray

type SqlServerArray []SqlServerInput

func (SqlServerArray) ElementType

func (SqlServerArray) ElementType() reflect.Type

func (SqlServerArray) ToSqlServerArrayOutput

func (i SqlServerArray) ToSqlServerArrayOutput() SqlServerArrayOutput

func (SqlServerArray) ToSqlServerArrayOutputWithContext

func (i SqlServerArray) ToSqlServerArrayOutputWithContext(ctx context.Context) SqlServerArrayOutput

type SqlServerArrayInput

type SqlServerArrayInput interface {
	pulumi.Input

	ToSqlServerArrayOutput() SqlServerArrayOutput
	ToSqlServerArrayOutputWithContext(context.Context) SqlServerArrayOutput
}

SqlServerArrayInput is an input type that accepts SqlServerArray and SqlServerArrayOutput values. You can construct a concrete instance of `SqlServerArrayInput` via:

SqlServerArray{ SqlServerArgs{...} }

type SqlServerArrayOutput

type SqlServerArrayOutput struct{ *pulumi.OutputState }

func (SqlServerArrayOutput) ElementType

func (SqlServerArrayOutput) ElementType() reflect.Type

func (SqlServerArrayOutput) Index

func (SqlServerArrayOutput) ToSqlServerArrayOutput

func (o SqlServerArrayOutput) ToSqlServerArrayOutput() SqlServerArrayOutput

func (SqlServerArrayOutput) ToSqlServerArrayOutputWithContext

func (o SqlServerArrayOutput) ToSqlServerArrayOutputWithContext(ctx context.Context) SqlServerArrayOutput

type SqlServerExtendedAuditingPolicy

type SqlServerExtendedAuditingPolicy struct {
	// (Optional) Enable audit events to Azure Monitor? To enable server audit events to Azure Monitor, please enable its primary database audit events to Azure Monitor.
	LogMonitoringEnabled *bool `pulumi:"logMonitoringEnabled"`
	// (Optional) Specifies the number of days to retain logs for in the storage account.
	RetentionInDays *int `pulumi:"retentionInDays"`
	// Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.
	StorageAccountAccessKey *string `pulumi:"storageAccountAccessKey"`
	// (Optional) Specifies whether `storageAccountAccessKey` value is the storage's secondary key.
	StorageAccountAccessKeyIsSecondary *bool `pulumi:"storageAccountAccessKeyIsSecondary"`
	// Specifies the blob storage endpoint (e.g. `https://MyAccount.blob.core.windows.net`). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.
	StorageEndpoint *string `pulumi:"storageEndpoint"`
}

type SqlServerExtendedAuditingPolicyArgs

type SqlServerExtendedAuditingPolicyArgs struct {
	// (Optional) Enable audit events to Azure Monitor? To enable server audit events to Azure Monitor, please enable its primary database audit events to Azure Monitor.
	LogMonitoringEnabled pulumi.BoolPtrInput `pulumi:"logMonitoringEnabled"`
	// (Optional) Specifies the number of days to retain logs for in the storage account.
	RetentionInDays pulumi.IntPtrInput `pulumi:"retentionInDays"`
	// Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.
	StorageAccountAccessKey pulumi.StringPtrInput `pulumi:"storageAccountAccessKey"`
	// (Optional) Specifies whether `storageAccountAccessKey` value is the storage's secondary key.
	StorageAccountAccessKeyIsSecondary pulumi.BoolPtrInput `pulumi:"storageAccountAccessKeyIsSecondary"`
	// Specifies the blob storage endpoint (e.g. `https://MyAccount.blob.core.windows.net`). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.
	StorageEndpoint pulumi.StringPtrInput `pulumi:"storageEndpoint"`
}

func (SqlServerExtendedAuditingPolicyArgs) ElementType

func (SqlServerExtendedAuditingPolicyArgs) ToSqlServerExtendedAuditingPolicyOutput

func (i SqlServerExtendedAuditingPolicyArgs) ToSqlServerExtendedAuditingPolicyOutput() SqlServerExtendedAuditingPolicyOutput

func (SqlServerExtendedAuditingPolicyArgs) ToSqlServerExtendedAuditingPolicyOutputWithContext

func (i SqlServerExtendedAuditingPolicyArgs) ToSqlServerExtendedAuditingPolicyOutputWithContext(ctx context.Context) SqlServerExtendedAuditingPolicyOutput

func (SqlServerExtendedAuditingPolicyArgs) ToSqlServerExtendedAuditingPolicyPtrOutput

func (i SqlServerExtendedAuditingPolicyArgs) ToSqlServerExtendedAuditingPolicyPtrOutput() SqlServerExtendedAuditingPolicyPtrOutput

func (SqlServerExtendedAuditingPolicyArgs) ToSqlServerExtendedAuditingPolicyPtrOutputWithContext

func (i SqlServerExtendedAuditingPolicyArgs) ToSqlServerExtendedAuditingPolicyPtrOutputWithContext(ctx context.Context) SqlServerExtendedAuditingPolicyPtrOutput

type SqlServerExtendedAuditingPolicyInput

type SqlServerExtendedAuditingPolicyInput interface {
	pulumi.Input

	ToSqlServerExtendedAuditingPolicyOutput() SqlServerExtendedAuditingPolicyOutput
	ToSqlServerExtendedAuditingPolicyOutputWithContext(context.Context) SqlServerExtendedAuditingPolicyOutput
}

SqlServerExtendedAuditingPolicyInput is an input type that accepts SqlServerExtendedAuditingPolicyArgs and SqlServerExtendedAuditingPolicyOutput values. You can construct a concrete instance of `SqlServerExtendedAuditingPolicyInput` via:

SqlServerExtendedAuditingPolicyArgs{...}

type SqlServerExtendedAuditingPolicyOutput

type SqlServerExtendedAuditingPolicyOutput struct{ *pulumi.OutputState }

func (SqlServerExtendedAuditingPolicyOutput) ElementType

func (SqlServerExtendedAuditingPolicyOutput) LogMonitoringEnabled

(Optional) Enable audit events to Azure Monitor? To enable server audit events to Azure Monitor, please enable its primary database audit events to Azure Monitor.

func (SqlServerExtendedAuditingPolicyOutput) RetentionInDays

(Optional) Specifies the number of days to retain logs for in the storage account.

func (SqlServerExtendedAuditingPolicyOutput) StorageAccountAccessKey

func (o SqlServerExtendedAuditingPolicyOutput) StorageAccountAccessKey() pulumi.StringPtrOutput

Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.

func (SqlServerExtendedAuditingPolicyOutput) StorageAccountAccessKeyIsSecondary

func (o SqlServerExtendedAuditingPolicyOutput) StorageAccountAccessKeyIsSecondary() pulumi.BoolPtrOutput

(Optional) Specifies whether `storageAccountAccessKey` value is the storage's secondary key.

func (SqlServerExtendedAuditingPolicyOutput) StorageEndpoint

Specifies the blob storage endpoint (e.g. `https://MyAccount.blob.core.windows.net`). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.

func (SqlServerExtendedAuditingPolicyOutput) ToSqlServerExtendedAuditingPolicyOutput

func (o SqlServerExtendedAuditingPolicyOutput) ToSqlServerExtendedAuditingPolicyOutput() SqlServerExtendedAuditingPolicyOutput

func (SqlServerExtendedAuditingPolicyOutput) ToSqlServerExtendedAuditingPolicyOutputWithContext

func (o SqlServerExtendedAuditingPolicyOutput) ToSqlServerExtendedAuditingPolicyOutputWithContext(ctx context.Context) SqlServerExtendedAuditingPolicyOutput

func (SqlServerExtendedAuditingPolicyOutput) ToSqlServerExtendedAuditingPolicyPtrOutput

func (o SqlServerExtendedAuditingPolicyOutput) ToSqlServerExtendedAuditingPolicyPtrOutput() SqlServerExtendedAuditingPolicyPtrOutput

func (SqlServerExtendedAuditingPolicyOutput) ToSqlServerExtendedAuditingPolicyPtrOutputWithContext

func (o SqlServerExtendedAuditingPolicyOutput) ToSqlServerExtendedAuditingPolicyPtrOutputWithContext(ctx context.Context) SqlServerExtendedAuditingPolicyPtrOutput

type SqlServerExtendedAuditingPolicyPtrInput

type SqlServerExtendedAuditingPolicyPtrInput interface {
	pulumi.Input

	ToSqlServerExtendedAuditingPolicyPtrOutput() SqlServerExtendedAuditingPolicyPtrOutput
	ToSqlServerExtendedAuditingPolicyPtrOutputWithContext(context.Context) SqlServerExtendedAuditingPolicyPtrOutput
}

SqlServerExtendedAuditingPolicyPtrInput is an input type that accepts SqlServerExtendedAuditingPolicyArgs, SqlServerExtendedAuditingPolicyPtr and SqlServerExtendedAuditingPolicyPtrOutput values. You can construct a concrete instance of `SqlServerExtendedAuditingPolicyPtrInput` via:

        SqlServerExtendedAuditingPolicyArgs{...}

or:

        nil

type SqlServerExtendedAuditingPolicyPtrOutput

type SqlServerExtendedAuditingPolicyPtrOutput struct{ *pulumi.OutputState }

func (SqlServerExtendedAuditingPolicyPtrOutput) Elem

func (SqlServerExtendedAuditingPolicyPtrOutput) ElementType

func (SqlServerExtendedAuditingPolicyPtrOutput) LogMonitoringEnabled

(Optional) Enable audit events to Azure Monitor? To enable server audit events to Azure Monitor, please enable its primary database audit events to Azure Monitor.

func (SqlServerExtendedAuditingPolicyPtrOutput) RetentionInDays

(Optional) Specifies the number of days to retain logs for in the storage account.

func (SqlServerExtendedAuditingPolicyPtrOutput) StorageAccountAccessKey

Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.

func (SqlServerExtendedAuditingPolicyPtrOutput) StorageAccountAccessKeyIsSecondary

func (o SqlServerExtendedAuditingPolicyPtrOutput) StorageAccountAccessKeyIsSecondary() pulumi.BoolPtrOutput

(Optional) Specifies whether `storageAccountAccessKey` value is the storage's secondary key.

func (SqlServerExtendedAuditingPolicyPtrOutput) StorageEndpoint

Specifies the blob storage endpoint (e.g. `https://MyAccount.blob.core.windows.net`). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.

func (SqlServerExtendedAuditingPolicyPtrOutput) ToSqlServerExtendedAuditingPolicyPtrOutput

func (o SqlServerExtendedAuditingPolicyPtrOutput) ToSqlServerExtendedAuditingPolicyPtrOutput() SqlServerExtendedAuditingPolicyPtrOutput

func (SqlServerExtendedAuditingPolicyPtrOutput) ToSqlServerExtendedAuditingPolicyPtrOutputWithContext

func (o SqlServerExtendedAuditingPolicyPtrOutput) ToSqlServerExtendedAuditingPolicyPtrOutputWithContext(ctx context.Context) SqlServerExtendedAuditingPolicyPtrOutput

type SqlServerIdentity

type SqlServerIdentity struct {
	// The Principal ID for the Service Principal associated with the Identity of this SQL Server.
	PrincipalId *string `pulumi:"principalId"`
	// The Tenant ID for the Service Principal associated with the Identity of this SQL Server.
	TenantId *string `pulumi:"tenantId"`
	// Specifies the identity type of the Microsoft SQL Server. At this time the only allowed value is `SystemAssigned`.
	Type string `pulumi:"type"`
}

type SqlServerIdentityArgs

type SqlServerIdentityArgs struct {
	// The Principal ID for the Service Principal associated with the Identity of this SQL Server.
	PrincipalId pulumi.StringPtrInput `pulumi:"principalId"`
	// The Tenant ID for the Service Principal associated with the Identity of this SQL Server.
	TenantId pulumi.StringPtrInput `pulumi:"tenantId"`
	// Specifies the identity type of the Microsoft SQL Server. At this time the only allowed value is `SystemAssigned`.
	Type pulumi.StringInput `pulumi:"type"`
}

func (SqlServerIdentityArgs) ElementType

func (SqlServerIdentityArgs) ElementType() reflect.Type

func (SqlServerIdentityArgs) ToSqlServerIdentityOutput

func (i SqlServerIdentityArgs) ToSqlServerIdentityOutput() SqlServerIdentityOutput

func (SqlServerIdentityArgs) ToSqlServerIdentityOutputWithContext

func (i SqlServerIdentityArgs) ToSqlServerIdentityOutputWithContext(ctx context.Context) SqlServerIdentityOutput

func (SqlServerIdentityArgs) ToSqlServerIdentityPtrOutput

func (i SqlServerIdentityArgs) ToSqlServerIdentityPtrOutput() SqlServerIdentityPtrOutput

func (SqlServerIdentityArgs) ToSqlServerIdentityPtrOutputWithContext

func (i SqlServerIdentityArgs) ToSqlServerIdentityPtrOutputWithContext(ctx context.Context) SqlServerIdentityPtrOutput

type SqlServerIdentityInput

type SqlServerIdentityInput interface {
	pulumi.Input

	ToSqlServerIdentityOutput() SqlServerIdentityOutput
	ToSqlServerIdentityOutputWithContext(context.Context) SqlServerIdentityOutput
}

SqlServerIdentityInput is an input type that accepts SqlServerIdentityArgs and SqlServerIdentityOutput values. You can construct a concrete instance of `SqlServerIdentityInput` via:

SqlServerIdentityArgs{...}

type SqlServerIdentityOutput

type SqlServerIdentityOutput struct{ *pulumi.OutputState }

func (SqlServerIdentityOutput) ElementType

func (SqlServerIdentityOutput) ElementType() reflect.Type

func (SqlServerIdentityOutput) PrincipalId

The Principal ID for the Service Principal associated with the Identity of this SQL Server.

func (SqlServerIdentityOutput) TenantId

The Tenant ID for the Service Principal associated with the Identity of this SQL Server.

func (SqlServerIdentityOutput) ToSqlServerIdentityOutput

func (o SqlServerIdentityOutput) ToSqlServerIdentityOutput() SqlServerIdentityOutput

func (SqlServerIdentityOutput) ToSqlServerIdentityOutputWithContext

func (o SqlServerIdentityOutput) ToSqlServerIdentityOutputWithContext(ctx context.Context) SqlServerIdentityOutput

func (SqlServerIdentityOutput) ToSqlServerIdentityPtrOutput

func (o SqlServerIdentityOutput) ToSqlServerIdentityPtrOutput() SqlServerIdentityPtrOutput

func (SqlServerIdentityOutput) ToSqlServerIdentityPtrOutputWithContext

func (o SqlServerIdentityOutput) ToSqlServerIdentityPtrOutputWithContext(ctx context.Context) SqlServerIdentityPtrOutput

func (SqlServerIdentityOutput) Type

Specifies the identity type of the Microsoft SQL Server. At this time the only allowed value is `SystemAssigned`.

type SqlServerIdentityPtrInput

type SqlServerIdentityPtrInput interface {
	pulumi.Input

	ToSqlServerIdentityPtrOutput() SqlServerIdentityPtrOutput
	ToSqlServerIdentityPtrOutputWithContext(context.Context) SqlServerIdentityPtrOutput
}

SqlServerIdentityPtrInput is an input type that accepts SqlServerIdentityArgs, SqlServerIdentityPtr and SqlServerIdentityPtrOutput values. You can construct a concrete instance of `SqlServerIdentityPtrInput` via:

        SqlServerIdentityArgs{...}

or:

        nil

type SqlServerIdentityPtrOutput

type SqlServerIdentityPtrOutput struct{ *pulumi.OutputState }

func (SqlServerIdentityPtrOutput) Elem

func (SqlServerIdentityPtrOutput) ElementType

func (SqlServerIdentityPtrOutput) ElementType() reflect.Type

func (SqlServerIdentityPtrOutput) PrincipalId

The Principal ID for the Service Principal associated with the Identity of this SQL Server.

func (SqlServerIdentityPtrOutput) TenantId

The Tenant ID for the Service Principal associated with the Identity of this SQL Server.

func (SqlServerIdentityPtrOutput) ToSqlServerIdentityPtrOutput

func (o SqlServerIdentityPtrOutput) ToSqlServerIdentityPtrOutput() SqlServerIdentityPtrOutput

func (SqlServerIdentityPtrOutput) ToSqlServerIdentityPtrOutputWithContext

func (o SqlServerIdentityPtrOutput) ToSqlServerIdentityPtrOutputWithContext(ctx context.Context) SqlServerIdentityPtrOutput

func (SqlServerIdentityPtrOutput) Type

Specifies the identity type of the Microsoft SQL Server. At this time the only allowed value is `SystemAssigned`.

type SqlServerInput

type SqlServerInput interface {
	pulumi.Input

	ToSqlServerOutput() SqlServerOutput
	ToSqlServerOutputWithContext(ctx context.Context) SqlServerOutput
}

type SqlServerMap

type SqlServerMap map[string]SqlServerInput

func (SqlServerMap) ElementType

func (SqlServerMap) ElementType() reflect.Type

func (SqlServerMap) ToSqlServerMapOutput

func (i SqlServerMap) ToSqlServerMapOutput() SqlServerMapOutput

func (SqlServerMap) ToSqlServerMapOutputWithContext

func (i SqlServerMap) ToSqlServerMapOutputWithContext(ctx context.Context) SqlServerMapOutput

type SqlServerMapInput

type SqlServerMapInput interface {
	pulumi.Input

	ToSqlServerMapOutput() SqlServerMapOutput
	ToSqlServerMapOutputWithContext(context.Context) SqlServerMapOutput
}

SqlServerMapInput is an input type that accepts SqlServerMap and SqlServerMapOutput values. You can construct a concrete instance of `SqlServerMapInput` via:

SqlServerMap{ "key": SqlServerArgs{...} }

type SqlServerMapOutput

type SqlServerMapOutput struct{ *pulumi.OutputState }

func (SqlServerMapOutput) ElementType

func (SqlServerMapOutput) ElementType() reflect.Type

func (SqlServerMapOutput) MapIndex

func (SqlServerMapOutput) ToSqlServerMapOutput

func (o SqlServerMapOutput) ToSqlServerMapOutput() SqlServerMapOutput

func (SqlServerMapOutput) ToSqlServerMapOutputWithContext

func (o SqlServerMapOutput) ToSqlServerMapOutputWithContext(ctx context.Context) SqlServerMapOutput

type SqlServerOutput

type SqlServerOutput struct{ *pulumi.OutputState }

func (SqlServerOutput) ElementType

func (SqlServerOutput) ElementType() reflect.Type

func (SqlServerOutput) ToSqlServerOutput

func (o SqlServerOutput) ToSqlServerOutput() SqlServerOutput

func (SqlServerOutput) ToSqlServerOutputWithContext

func (o SqlServerOutput) ToSqlServerOutputWithContext(ctx context.Context) SqlServerOutput

func (SqlServerOutput) ToSqlServerPtrOutput

func (o SqlServerOutput) ToSqlServerPtrOutput() SqlServerPtrOutput

func (SqlServerOutput) ToSqlServerPtrOutputWithContext

func (o SqlServerOutput) ToSqlServerPtrOutputWithContext(ctx context.Context) SqlServerPtrOutput

type SqlServerPtrInput

type SqlServerPtrInput interface {
	pulumi.Input

	ToSqlServerPtrOutput() SqlServerPtrOutput
	ToSqlServerPtrOutputWithContext(ctx context.Context) SqlServerPtrOutput
}

type SqlServerPtrOutput

type SqlServerPtrOutput struct{ *pulumi.OutputState }

func (SqlServerPtrOutput) Elem added in v4.20.0

func (SqlServerPtrOutput) ElementType

func (SqlServerPtrOutput) ElementType() reflect.Type

func (SqlServerPtrOutput) ToSqlServerPtrOutput

func (o SqlServerPtrOutput) ToSqlServerPtrOutput() SqlServerPtrOutput

func (SqlServerPtrOutput) ToSqlServerPtrOutputWithContext

func (o SqlServerPtrOutput) ToSqlServerPtrOutputWithContext(ctx context.Context) SqlServerPtrOutput

type SqlServerState

type SqlServerState struct {
	// The administrator login name for the new server. Changing this forces a new resource to be created.
	AdministratorLogin pulumi.StringPtrInput
	// The password associated with the `administratorLogin` user. Needs to comply with Azure's [Password Policy](https://msdn.microsoft.com/library/ms161959.aspx)
	AdministratorLoginPassword pulumi.StringPtrInput
	// The connection policy the server will use. Possible values are `Default`, `Proxy`, and `Redirect`. Defaults to `Default`.
	ConnectionPolicy pulumi.StringPtrInput
	// A `extendedAuditingPolicy` block as defined below.
	//
	// Deprecated: the `extended_auditing_policy` block has been moved to `azurerm_mssql_server_extended_auditing_policy` and `azurerm_mssql_database_extended_auditing_policy`. This block will be removed in version 3.0 of the provider.
	ExtendedAuditingPolicy SqlServerExtendedAuditingPolicyPtrInput
	// The fully qualified domain name of the Azure SQL Server (e.g. myServerName.database.windows.net)
	FullyQualifiedDomainName pulumi.StringPtrInput
	// An `identity` block as defined below.
	Identity SqlServerIdentityPtrInput
	// Specifies the supported Azure location where the resource exists. Changing this forces a new resource to be created.
	Location pulumi.StringPtrInput
	// The name of the Microsoft SQL Server. This needs to be globally unique within Azure.
	Name pulumi.StringPtrInput
	// The name of the resource group in which to create the Microsoft SQL Server.
	ResourceGroupName pulumi.StringPtrInput
	// A mapping of tags to assign to the resource.
	Tags pulumi.StringMapInput
	// Threat detection policy configuration. The `threatDetectionPolicy` block supports fields documented below.
	ThreatDetectionPolicy SqlServerThreatDetectionPolicyPtrInput
	// The version for the new server. Valid values are: 2.0 (for v11 server) and 12.0 (for v12 server).
	Version pulumi.StringPtrInput
}

func (SqlServerState) ElementType

func (SqlServerState) ElementType() reflect.Type

type SqlServerThreatDetectionPolicy added in v4.15.0

type SqlServerThreatDetectionPolicy struct {
	// Specifies a list of alerts which should be disabled. Possible values include `Access_Anomaly`, `Data_Exfiltration`, `Sql_Injection`, `Sql_Injection_Vulnerability` and `Unsafe_Action"`,.
	DisabledAlerts []string `pulumi:"disabledAlerts"`
	// Should the account administrators be emailed when this alert is triggered?
	EmailAccountAdmins *bool `pulumi:"emailAccountAdmins"`
	// A list of email addresses which alerts should be sent to.
	EmailAddresses []string `pulumi:"emailAddresses"`
	// Specifies the number of days to keep in the Threat Detection audit logs.
	RetentionDays *int `pulumi:"retentionDays"`
	// The State of the Policy. Possible values are `Enabled`, `Disabled` or `New`.
	State *string `pulumi:"state"`
	// Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.
	StorageAccountAccessKey *string `pulumi:"storageAccountAccessKey"`
	// Specifies the blob storage endpoint (e.g. `https://MyAccount.blob.core.windows.net`). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.
	StorageEndpoint *string `pulumi:"storageEndpoint"`
}

type SqlServerThreatDetectionPolicyArgs added in v4.15.0

type SqlServerThreatDetectionPolicyArgs struct {
	// Specifies a list of alerts which should be disabled. Possible values include `Access_Anomaly`, `Data_Exfiltration`, `Sql_Injection`, `Sql_Injection_Vulnerability` and `Unsafe_Action"`,.
	DisabledAlerts pulumi.StringArrayInput `pulumi:"disabledAlerts"`
	// Should the account administrators be emailed when this alert is triggered?
	EmailAccountAdmins pulumi.BoolPtrInput `pulumi:"emailAccountAdmins"`
	// A list of email addresses which alerts should be sent to.
	EmailAddresses pulumi.StringArrayInput `pulumi:"emailAddresses"`
	// Specifies the number of days to keep in the Threat Detection audit logs.
	RetentionDays pulumi.IntPtrInput `pulumi:"retentionDays"`
	// The State of the Policy. Possible values are `Enabled`, `Disabled` or `New`.
	State pulumi.StringPtrInput `pulumi:"state"`
	// Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.
	StorageAccountAccessKey pulumi.StringPtrInput `pulumi:"storageAccountAccessKey"`
	// Specifies the blob storage endpoint (e.g. `https://MyAccount.blob.core.windows.net`). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.
	StorageEndpoint pulumi.StringPtrInput `pulumi:"storageEndpoint"`
}

func (SqlServerThreatDetectionPolicyArgs) ElementType added in v4.15.0

func (SqlServerThreatDetectionPolicyArgs) ToSqlServerThreatDetectionPolicyOutput added in v4.15.0

func (i SqlServerThreatDetectionPolicyArgs) ToSqlServerThreatDetectionPolicyOutput() SqlServerThreatDetectionPolicyOutput

func (SqlServerThreatDetectionPolicyArgs) ToSqlServerThreatDetectionPolicyOutputWithContext added in v4.15.0

func (i SqlServerThreatDetectionPolicyArgs) ToSqlServerThreatDetectionPolicyOutputWithContext(ctx context.Context) SqlServerThreatDetectionPolicyOutput

func (SqlServerThreatDetectionPolicyArgs) ToSqlServerThreatDetectionPolicyPtrOutput added in v4.15.0

func (i SqlServerThreatDetectionPolicyArgs) ToSqlServerThreatDetectionPolicyPtrOutput() SqlServerThreatDetectionPolicyPtrOutput

func (SqlServerThreatDetectionPolicyArgs) ToSqlServerThreatDetectionPolicyPtrOutputWithContext added in v4.15.0

func (i SqlServerThreatDetectionPolicyArgs) ToSqlServerThreatDetectionPolicyPtrOutputWithContext(ctx context.Context) SqlServerThreatDetectionPolicyPtrOutput

type SqlServerThreatDetectionPolicyInput added in v4.15.0

type SqlServerThreatDetectionPolicyInput interface {
	pulumi.Input

	ToSqlServerThreatDetectionPolicyOutput() SqlServerThreatDetectionPolicyOutput
	ToSqlServerThreatDetectionPolicyOutputWithContext(context.Context) SqlServerThreatDetectionPolicyOutput
}

SqlServerThreatDetectionPolicyInput is an input type that accepts SqlServerThreatDetectionPolicyArgs and SqlServerThreatDetectionPolicyOutput values. You can construct a concrete instance of `SqlServerThreatDetectionPolicyInput` via:

SqlServerThreatDetectionPolicyArgs{...}

type SqlServerThreatDetectionPolicyOutput added in v4.15.0

type SqlServerThreatDetectionPolicyOutput struct{ *pulumi.OutputState }

func (SqlServerThreatDetectionPolicyOutput) DisabledAlerts added in v4.15.0

Specifies a list of alerts which should be disabled. Possible values include `Access_Anomaly`, `Data_Exfiltration`, `Sql_Injection`, `Sql_Injection_Vulnerability` and `Unsafe_Action"`,.

func (SqlServerThreatDetectionPolicyOutput) ElementType added in v4.15.0

func (SqlServerThreatDetectionPolicyOutput) EmailAccountAdmins added in v4.15.0

Should the account administrators be emailed when this alert is triggered?

func (SqlServerThreatDetectionPolicyOutput) EmailAddresses added in v4.15.0

A list of email addresses which alerts should be sent to.

func (SqlServerThreatDetectionPolicyOutput) RetentionDays added in v4.15.0

Specifies the number of days to keep in the Threat Detection audit logs.

func (SqlServerThreatDetectionPolicyOutput) State added in v4.15.0

The State of the Policy. Possible values are `Enabled`, `Disabled` or `New`.

func (SqlServerThreatDetectionPolicyOutput) StorageAccountAccessKey added in v4.15.0

func (o SqlServerThreatDetectionPolicyOutput) StorageAccountAccessKey() pulumi.StringPtrOutput

Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.

func (SqlServerThreatDetectionPolicyOutput) StorageEndpoint added in v4.15.0

Specifies the blob storage endpoint (e.g. `https://MyAccount.blob.core.windows.net`). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.

func (SqlServerThreatDetectionPolicyOutput) ToSqlServerThreatDetectionPolicyOutput added in v4.15.0

func (o SqlServerThreatDetectionPolicyOutput) ToSqlServerThreatDetectionPolicyOutput() SqlServerThreatDetectionPolicyOutput

func (SqlServerThreatDetectionPolicyOutput) ToSqlServerThreatDetectionPolicyOutputWithContext added in v4.15.0

func (o SqlServerThreatDetectionPolicyOutput) ToSqlServerThreatDetectionPolicyOutputWithContext(ctx context.Context) SqlServerThreatDetectionPolicyOutput

func (SqlServerThreatDetectionPolicyOutput) ToSqlServerThreatDetectionPolicyPtrOutput added in v4.15.0

func (o SqlServerThreatDetectionPolicyOutput) ToSqlServerThreatDetectionPolicyPtrOutput() SqlServerThreatDetectionPolicyPtrOutput

func (SqlServerThreatDetectionPolicyOutput) ToSqlServerThreatDetectionPolicyPtrOutputWithContext added in v4.15.0

func (o SqlServerThreatDetectionPolicyOutput) ToSqlServerThreatDetectionPolicyPtrOutputWithContext(ctx context.Context) SqlServerThreatDetectionPolicyPtrOutput

type SqlServerThreatDetectionPolicyPtrInput added in v4.15.0

type SqlServerThreatDetectionPolicyPtrInput interface {
	pulumi.Input

	ToSqlServerThreatDetectionPolicyPtrOutput() SqlServerThreatDetectionPolicyPtrOutput
	ToSqlServerThreatDetectionPolicyPtrOutputWithContext(context.Context) SqlServerThreatDetectionPolicyPtrOutput
}

SqlServerThreatDetectionPolicyPtrInput is an input type that accepts SqlServerThreatDetectionPolicyArgs, SqlServerThreatDetectionPolicyPtr and SqlServerThreatDetectionPolicyPtrOutput values. You can construct a concrete instance of `SqlServerThreatDetectionPolicyPtrInput` via:

        SqlServerThreatDetectionPolicyArgs{...}

or:

        nil

type SqlServerThreatDetectionPolicyPtrOutput added in v4.15.0

type SqlServerThreatDetectionPolicyPtrOutput struct{ *pulumi.OutputState }

func (SqlServerThreatDetectionPolicyPtrOutput) DisabledAlerts added in v4.15.0

Specifies a list of alerts which should be disabled. Possible values include `Access_Anomaly`, `Data_Exfiltration`, `Sql_Injection`, `Sql_Injection_Vulnerability` and `Unsafe_Action"`,.

func (SqlServerThreatDetectionPolicyPtrOutput) Elem added in v4.15.0

func (SqlServerThreatDetectionPolicyPtrOutput) ElementType added in v4.15.0

func (SqlServerThreatDetectionPolicyPtrOutput) EmailAccountAdmins added in v4.15.0

Should the account administrators be emailed when this alert is triggered?

func (SqlServerThreatDetectionPolicyPtrOutput) EmailAddresses added in v4.15.0

A list of email addresses which alerts should be sent to.

func (SqlServerThreatDetectionPolicyPtrOutput) RetentionDays added in v4.15.0

Specifies the number of days to keep in the Threat Detection audit logs.

func (SqlServerThreatDetectionPolicyPtrOutput) State added in v4.15.0

The State of the Policy. Possible values are `Enabled`, `Disabled` or `New`.

func (SqlServerThreatDetectionPolicyPtrOutput) StorageAccountAccessKey added in v4.15.0

Specifies the identifier key of the Threat Detection audit storage account. Required if `state` is `Enabled`.

func (SqlServerThreatDetectionPolicyPtrOutput) StorageEndpoint added in v4.15.0

Specifies the blob storage endpoint (e.g. `https://MyAccount.blob.core.windows.net`). This blob storage will hold all Threat Detection audit logs. Required if `state` is `Enabled`.

func (SqlServerThreatDetectionPolicyPtrOutput) ToSqlServerThreatDetectionPolicyPtrOutput added in v4.15.0

func (o SqlServerThreatDetectionPolicyPtrOutput) ToSqlServerThreatDetectionPolicyPtrOutput() SqlServerThreatDetectionPolicyPtrOutput

func (SqlServerThreatDetectionPolicyPtrOutput) ToSqlServerThreatDetectionPolicyPtrOutputWithContext added in v4.15.0

func (o SqlServerThreatDetectionPolicyPtrOutput) ToSqlServerThreatDetectionPolicyPtrOutputWithContext(ctx context.Context) SqlServerThreatDetectionPolicyPtrOutput

type VirtualNetworkRule

type VirtualNetworkRule struct {
	pulumi.CustomResourceState

	// Create the virtual network rule before the subnet has the virtual network service endpoint enabled. The default value is false.
	IgnoreMissingVnetServiceEndpoint pulumi.BoolPtrOutput `pulumi:"ignoreMissingVnetServiceEndpoint"`
	// The name of the SQL virtual network rule. Changing this forces a new resource to be created. Cannot be empty and must only contain alphanumeric characters and hyphens. Cannot start with a number, and cannot start or end with a hyphen.
	Name pulumi.StringOutput `pulumi:"name"`
	// The name of the resource group where the SQL server resides. Changing this forces a new resource to be created.
	ResourceGroupName pulumi.StringOutput `pulumi:"resourceGroupName"`
	// The name of the SQL Server to which this SQL virtual network rule will be applied to. Changing this forces a new resource to be created.
	ServerName pulumi.StringOutput `pulumi:"serverName"`
	// The ID of the subnet that the SQL server will be connected to.
	SubnetId pulumi.StringOutput `pulumi:"subnetId"`
}

Allows you to add, update, or remove an Azure SQL server to a subnet of a virtual network.

## Example Usage

```go package main

import (

"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/network"
"github.com/pulumi/pulumi-azure/sdk/v4/go/azure/sql"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"

)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		example, err := core.NewResourceGroup(ctx, "example", &core.ResourceGroupArgs{
			Location: pulumi.String("West Europe"),
		})
		if err != nil {
			return err
		}
		vnet, err := network.NewVirtualNetwork(ctx, "vnet", &network.VirtualNetworkArgs{
			AddressSpaces: pulumi.StringArray{
				pulumi.String("10.7.29.0/29"),
			},
			Location:          example.Location,
			ResourceGroupName: example.Name,
		})
		if err != nil {
			return err
		}
		subnet, err := network.NewSubnet(ctx, "subnet", &network.SubnetArgs{
			ResourceGroupName:  example.Name,
			VirtualNetworkName: vnet.Name,
			AddressPrefixes: pulumi.StringArray{
				pulumi.String("10.7.29.0/29"),
			},
			ServiceEndpoints: pulumi.StringArray{
				pulumi.String("Microsoft.Sql"),
			},
		})
		if err != nil {
			return err
		}
		sqlserver, err := sql.NewSqlServer(ctx, "sqlserver", &sql.SqlServerArgs{
			ResourceGroupName:          example.Name,
			Location:                   example.Location,
			Version:                    pulumi.String("12.0"),
			AdministratorLogin:         pulumi.String("4dm1n157r470r"),
			AdministratorLoginPassword: pulumi.String("4-v3ry-53cr37-p455w0rd"),
		})
		if err != nil {
			return err
		}
		_, err = sql.NewVirtualNetworkRule(ctx, "sqlvnetrule", &sql.VirtualNetworkRuleArgs{
			ResourceGroupName: example.Name,
			ServerName:        sqlserver.Name,
			SubnetId:          subnet.ID(),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

```

## Import

SQL Virtual Network Rules can be imported using the `resource id`, e.g.

```sh

$ pulumi import azure:sql/virtualNetworkRule:VirtualNetworkRule rule1 /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/myresourcegroup/providers/Microsoft.Sql/servers/myserver/virtualNetworkRules/vnetrulename

```

func GetVirtualNetworkRule

func GetVirtualNetworkRule(ctx *pulumi.Context,
	name string, id pulumi.IDInput, state *VirtualNetworkRuleState, opts ...pulumi.ResourceOption) (*VirtualNetworkRule, error)

GetVirtualNetworkRule gets an existing VirtualNetworkRule 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 NewVirtualNetworkRule

func NewVirtualNetworkRule(ctx *pulumi.Context,
	name string, args *VirtualNetworkRuleArgs, opts ...pulumi.ResourceOption) (*VirtualNetworkRule, error)

NewVirtualNetworkRule registers a new resource with the given unique name, arguments, and options.

func (*VirtualNetworkRule) ElementType

func (*VirtualNetworkRule) ElementType() reflect.Type

func (*VirtualNetworkRule) ToVirtualNetworkRuleOutput

func (i *VirtualNetworkRule) ToVirtualNetworkRuleOutput() VirtualNetworkRuleOutput

func (*VirtualNetworkRule) ToVirtualNetworkRuleOutputWithContext

func (i *VirtualNetworkRule) ToVirtualNetworkRuleOutputWithContext(ctx context.Context) VirtualNetworkRuleOutput

func (*VirtualNetworkRule) ToVirtualNetworkRulePtrOutput

func (i *VirtualNetworkRule) ToVirtualNetworkRulePtrOutput() VirtualNetworkRulePtrOutput

func (*VirtualNetworkRule) ToVirtualNetworkRulePtrOutputWithContext

func (i *VirtualNetworkRule) ToVirtualNetworkRulePtrOutputWithContext(ctx context.Context) VirtualNetworkRulePtrOutput

type VirtualNetworkRuleArgs

type VirtualNetworkRuleArgs struct {
	// Create the virtual network rule before the subnet has the virtual network service endpoint enabled. The default value is false.
	IgnoreMissingVnetServiceEndpoint pulumi.BoolPtrInput
	// The name of the SQL virtual network rule. Changing this forces a new resource to be created. Cannot be empty and must only contain alphanumeric characters and hyphens. Cannot start with a number, and cannot start or end with a hyphen.
	Name pulumi.StringPtrInput
	// The name of the resource group where the SQL server resides. Changing this forces a new resource to be created.
	ResourceGroupName pulumi.StringInput
	// The name of the SQL Server to which this SQL virtual network rule will be applied to. Changing this forces a new resource to be created.
	ServerName pulumi.StringInput
	// The ID of the subnet that the SQL server will be connected to.
	SubnetId pulumi.StringInput
}

The set of arguments for constructing a VirtualNetworkRule resource.

func (VirtualNetworkRuleArgs) ElementType

func (VirtualNetworkRuleArgs) ElementType() reflect.Type

type VirtualNetworkRuleArray

type VirtualNetworkRuleArray []VirtualNetworkRuleInput

func (VirtualNetworkRuleArray) ElementType

func (VirtualNetworkRuleArray) ElementType() reflect.Type

func (VirtualNetworkRuleArray) ToVirtualNetworkRuleArrayOutput

func (i VirtualNetworkRuleArray) ToVirtualNetworkRuleArrayOutput() VirtualNetworkRuleArrayOutput

func (VirtualNetworkRuleArray) ToVirtualNetworkRuleArrayOutputWithContext

func (i VirtualNetworkRuleArray) ToVirtualNetworkRuleArrayOutputWithContext(ctx context.Context) VirtualNetworkRuleArrayOutput

type VirtualNetworkRuleArrayInput

type VirtualNetworkRuleArrayInput interface {
	pulumi.Input

	ToVirtualNetworkRuleArrayOutput() VirtualNetworkRuleArrayOutput
	ToVirtualNetworkRuleArrayOutputWithContext(context.Context) VirtualNetworkRuleArrayOutput
}

VirtualNetworkRuleArrayInput is an input type that accepts VirtualNetworkRuleArray and VirtualNetworkRuleArrayOutput values. You can construct a concrete instance of `VirtualNetworkRuleArrayInput` via:

VirtualNetworkRuleArray{ VirtualNetworkRuleArgs{...} }

type VirtualNetworkRuleArrayOutput

type VirtualNetworkRuleArrayOutput struct{ *pulumi.OutputState }

func (VirtualNetworkRuleArrayOutput) ElementType

func (VirtualNetworkRuleArrayOutput) Index

func (VirtualNetworkRuleArrayOutput) ToVirtualNetworkRuleArrayOutput

func (o VirtualNetworkRuleArrayOutput) ToVirtualNetworkRuleArrayOutput() VirtualNetworkRuleArrayOutput

func (VirtualNetworkRuleArrayOutput) ToVirtualNetworkRuleArrayOutputWithContext

func (o VirtualNetworkRuleArrayOutput) ToVirtualNetworkRuleArrayOutputWithContext(ctx context.Context) VirtualNetworkRuleArrayOutput

type VirtualNetworkRuleInput

type VirtualNetworkRuleInput interface {
	pulumi.Input

	ToVirtualNetworkRuleOutput() VirtualNetworkRuleOutput
	ToVirtualNetworkRuleOutputWithContext(ctx context.Context) VirtualNetworkRuleOutput
}

type VirtualNetworkRuleMap

type VirtualNetworkRuleMap map[string]VirtualNetworkRuleInput

func (VirtualNetworkRuleMap) ElementType

func (VirtualNetworkRuleMap) ElementType() reflect.Type

func (VirtualNetworkRuleMap) ToVirtualNetworkRuleMapOutput

func (i VirtualNetworkRuleMap) ToVirtualNetworkRuleMapOutput() VirtualNetworkRuleMapOutput

func (VirtualNetworkRuleMap) ToVirtualNetworkRuleMapOutputWithContext

func (i VirtualNetworkRuleMap) ToVirtualNetworkRuleMapOutputWithContext(ctx context.Context) VirtualNetworkRuleMapOutput

type VirtualNetworkRuleMapInput

type VirtualNetworkRuleMapInput interface {
	pulumi.Input

	ToVirtualNetworkRuleMapOutput() VirtualNetworkRuleMapOutput
	ToVirtualNetworkRuleMapOutputWithContext(context.Context) VirtualNetworkRuleMapOutput
}

VirtualNetworkRuleMapInput is an input type that accepts VirtualNetworkRuleMap and VirtualNetworkRuleMapOutput values. You can construct a concrete instance of `VirtualNetworkRuleMapInput` via:

VirtualNetworkRuleMap{ "key": VirtualNetworkRuleArgs{...} }

type VirtualNetworkRuleMapOutput

type VirtualNetworkRuleMapOutput struct{ *pulumi.OutputState }

func (VirtualNetworkRuleMapOutput) ElementType

func (VirtualNetworkRuleMapOutput) MapIndex

func (VirtualNetworkRuleMapOutput) ToVirtualNetworkRuleMapOutput

func (o VirtualNetworkRuleMapOutput) ToVirtualNetworkRuleMapOutput() VirtualNetworkRuleMapOutput

func (VirtualNetworkRuleMapOutput) ToVirtualNetworkRuleMapOutputWithContext

func (o VirtualNetworkRuleMapOutput) ToVirtualNetworkRuleMapOutputWithContext(ctx context.Context) VirtualNetworkRuleMapOutput

type VirtualNetworkRuleOutput

type VirtualNetworkRuleOutput struct{ *pulumi.OutputState }

func (VirtualNetworkRuleOutput) ElementType

func (VirtualNetworkRuleOutput) ElementType() reflect.Type

func (VirtualNetworkRuleOutput) ToVirtualNetworkRuleOutput

func (o VirtualNetworkRuleOutput) ToVirtualNetworkRuleOutput() VirtualNetworkRuleOutput

func (VirtualNetworkRuleOutput) ToVirtualNetworkRuleOutputWithContext

func (o VirtualNetworkRuleOutput) ToVirtualNetworkRuleOutputWithContext(ctx context.Context) VirtualNetworkRuleOutput

func (VirtualNetworkRuleOutput) ToVirtualNetworkRulePtrOutput

func (o VirtualNetworkRuleOutput) ToVirtualNetworkRulePtrOutput() VirtualNetworkRulePtrOutput

func (VirtualNetworkRuleOutput) ToVirtualNetworkRulePtrOutputWithContext

func (o VirtualNetworkRuleOutput) ToVirtualNetworkRulePtrOutputWithContext(ctx context.Context) VirtualNetworkRulePtrOutput

type VirtualNetworkRulePtrInput

type VirtualNetworkRulePtrInput interface {
	pulumi.Input

	ToVirtualNetworkRulePtrOutput() VirtualNetworkRulePtrOutput
	ToVirtualNetworkRulePtrOutputWithContext(ctx context.Context) VirtualNetworkRulePtrOutput
}

type VirtualNetworkRulePtrOutput

type VirtualNetworkRulePtrOutput struct{ *pulumi.OutputState }

func (VirtualNetworkRulePtrOutput) Elem added in v4.20.0

func (VirtualNetworkRulePtrOutput) ElementType

func (VirtualNetworkRulePtrOutput) ToVirtualNetworkRulePtrOutput

func (o VirtualNetworkRulePtrOutput) ToVirtualNetworkRulePtrOutput() VirtualNetworkRulePtrOutput

func (VirtualNetworkRulePtrOutput) ToVirtualNetworkRulePtrOutputWithContext

func (o VirtualNetworkRulePtrOutput) ToVirtualNetworkRulePtrOutputWithContext(ctx context.Context) VirtualNetworkRulePtrOutput

type VirtualNetworkRuleState

type VirtualNetworkRuleState struct {
	// Create the virtual network rule before the subnet has the virtual network service endpoint enabled. The default value is false.
	IgnoreMissingVnetServiceEndpoint pulumi.BoolPtrInput
	// The name of the SQL virtual network rule. Changing this forces a new resource to be created. Cannot be empty and must only contain alphanumeric characters and hyphens. Cannot start with a number, and cannot start or end with a hyphen.
	Name pulumi.StringPtrInput
	// The name of the resource group where the SQL server resides. Changing this forces a new resource to be created.
	ResourceGroupName pulumi.StringPtrInput
	// The name of the SQL Server to which this SQL virtual network rule will be applied to. Changing this forces a new resource to be created.
	ServerName pulumi.StringPtrInput
	// The ID of the subnet that the SQL server will be connected to.
	SubnetId pulumi.StringPtrInput
}

func (VirtualNetworkRuleState) ElementType

func (VirtualNetworkRuleState) ElementType() reflect.Type

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