v1.5.7/website/docs/language/data-sources/index.mdx - terraform - Git at Google

 ---
 page_title: Data Sources - Configuration Language
 description: >-
   Data sources allow Terraform to use external data, function output, and data
   from other configurations. Learn data resource arguments, behavior, and
   lifecycle.
 ---

 # Data Sources

 _Data sources_ allow Terraform to use information defined outside of Terraform,
 defined by another separate Terraform configuration, or modified by functions.

 > **Hands-on:** Try the [Query Data Sources](/terraform/tutorials/configuration-language/data-sources) tutorial.

 Each [provider](/terraform/language/providers) may offer data sources
 alongside its set of [resource](/terraform/language/resources)
 types.

 ## Using Data Sources

 A data source is accessed via a special kind of resource known as a
 _data resource_, declared using a `data` block:

 ```hcl
 data "aws_ami" "example" {
   most_recent = true

   owners = ["self"]
   tags = {
     Name   = "app-server"
     Tested = "true"
   }
 }
 ```

 A `data` block requests that Terraform read from a given data source ("aws_ami")
 and export the result under the given local name ("example"). The name is used
 to refer to this resource from elsewhere in the same Terraform module, but has
 no significance outside of the scope of a module.

 The data source and name together serve as an identifier for a given
 resource and so must be unique within a module.

 Within the block body (between `{` and `}`) are query constraints defined by
 the data source. Most arguments in this section depend on the
 data source, and indeed in this example `most_recent`, `owners` and `tags` are
 all arguments defined specifically for [the `aws_ami` data source](https://registry.terraform.io/providers/hashicorp/aws/latest/docs/data-sources/ami).

 When distinguishing from data resources, the primary kind of resource (as declared
 by a `resource` block) is known as a _managed resource_. Both kinds of resources
 take arguments and export attributes for use in configuration, but while
 managed resources cause Terraform to create, update, and delete infrastructure
 objects, data resources cause Terraform only to _read_ objects. For brevity,
 managed resources are often referred to just as "resources" when the meaning
 is clear from context.

 ## Data Source Arguments

 Each data resource is associated with a single data source, which determines
 the kind of object (or objects) it reads and what query constraint arguments
 are available.

 Each data source in turn belongs to a [provider](/terraform/language/providers),
 which is a plugin for Terraform that offers a collection of resource types and
 data sources that most often belong to a single cloud or on-premises
 infrastructure platform.

 Most of the items within the body of a `data` block are defined by and
 specific to the selected data source, and these arguments can make full
 use of [expressions](/terraform/language/expressions) and other dynamic
 Terraform language features.

 However, there are some "meta-arguments" that are defined by Terraform itself
 and apply across all data sources. These arguments often have additional
 restrictions on what language features can be used with them, and are described
 in more detail in the following sections.

 ## Data Resource Behavior

 Terraform reads data resources during the planning phase when possible, but
 announces in the plan when it must defer reading resources until the apply
 phase to preserve the order of operations. Terraform defers reading data
 resources in the following situations:
 * At least one of the given arguments is a managed resource attribute or
   other value that Terraform cannot predict until the apply step.
 * The data resource depends directly on a managed resource that itself has
   planned changes in the current plan.
 * The data resource has
   [custom conditions](#custom-condition-checks)
   and it depends directly or indirectly on a managed resource that itself
   has planned changes in the current plan.

 Refer to [Data Resource Dependencies](#data-resource-dependencies) for details
 on what it means for a data resource to depend on other objects. Any resulting
 attribute of such a data resource will be unknown during planning, so it cannot
 be used in situations where values must be fully known.

 ## Local-only Data Sources

 While many data sources correspond to an infrastructure object type that
 is accessed via a remote network API, some specialized data sources operate
 only within Terraform itself, calculating some results and exposing them
 for use elsewhere.

 For example, local-only data sources exist for
 [rendering templates](https://registry.terraform.io/providers/hashicorp/template/latest/docs/data-sources/file),
 [reading local files](https://registry.terraform.io/providers/hashicorp/local/latest/docs/data-sources/file), and
 [rendering AWS IAM policies](https://registry.terraform.io/providers/hashicorp/aws/latest/docs/data-sources/iam_policy_document).

 The behavior of local-only data sources is the same as all other data
 sources, but their result data exists only temporarily during a Terraform
 operation, and is re-calculated each time a new plan is created.

 ## Data Resource Dependencies

 Data resources have the same dependency resolution behavior
 [as defined for managed resources](/terraform/language/resources/behavior#resource-dependencies).
 Setting the `depends_on` meta-argument within `data` blocks defers reading of
 the data source until after all changes to the dependencies have been applied.

 In order to ensure that data sources are accessing the most up to date
 information possible in a wide variety of use cases, arguments directly
 referencing managed resources are treated the same as if the resource was
 listed in `depends_on`. This behavior can be avoided when desired by indirectly
 referencing the managed resource values through a `local` value, unless the
 data resource itself has
 [custom conditions](#custom-condition-checks).

 ~> **NOTE:** **In Terraform 0.12 and earlier**, due to the data resource behavior of deferring the read until the apply phase when depending on values that are not yet known, using `depends_on` with `data` resources will force the read to always be deferred to the apply phase, and therefore a configuration that uses `depends_on` with a `data` resource can never converge. Due to this behavior, we do not recommend using `depends_on` with data resources.

 ## Custom Condition Checks

 You can use `precondition` and `postcondition` blocks to specify assumptions and guarantees about how the data source operates. The following examples creates a postcondition that checks whether the AMI has the correct tags.

 ``` hcl
 data "aws_ami" "example" {
   id = var.aws_ami_id

   lifecycle {
     # The AMI ID must refer to an existing AMI that has the tag "nomad-server".
     postcondition {
       condition     = self.tags["Component"] == "nomad-server"
       error_message = "tags[\"Component\"] must be \"nomad-server\"."
     }
   }
 }
 ```

 Custom conditions can help capture assumptions, helping future maintainers understand the configuration design and intent. They also return useful information about errors earlier and in context, helping consumers more easily diagnose issues in their configurations.

 Refer to [Custom Condition Checks](/terraform/language/expressions/custom-conditions#preconditions-and-postconditions) for more details.


 ## Multiple Resource Instances

 Data resources support [`count`](/terraform/language/meta-arguments/count)
 and [`for_each`](/terraform/language/meta-arguments/for_each)
 meta-arguments as defined for managed resources, with the same syntax and behavior.

 As with managed resources, when `count` or `for_each` is present it is important to
 distinguish the resource itself from the multiple resource _instances_ it
 creates. Each instance will separately read from its data source with its
 own variant of the constraint arguments, producing an indexed result.

 ## Selecting a Non-default Provider Configuration

 Data resources support [the `provider` meta-argument](/terraform/language/meta-arguments/resource-provider)
 as defined for managed resources, with the same syntax and behavior.

 ## Lifecycle Customizations

 Data resources do not have any customization settings available
 for their lifecycle. However, the `lifecycle` block is reserved for future versions.

 ## Example

 A data source configuration looks like the following:

 ```hcl
 # Find the latest available AMI that is tagged with Component = web
 data "aws_ami" "web" {
   filter {
     name   = "state"
     values = ["available"]
   }

   filter {
     name   = "tag:Component"
     values = ["web"]
   }

   most_recent = true
 }
 ```

 ## Description

 The `data` block creates a data instance of the given _type_ (first
 block label) and _name_ (second block label). The combination of the type
 and name must be unique.

 Within the block (the `{ }`) is configuration for the data instance. The
 configuration is dependent on the type; as with
 [resources](/terraform/language/resources), each provider on the
 [Terraform Registry](https://registry.terraform.io/browse/providers) has its own
 documentation for configuring and using the data types it provides.

 Each data instance will export one or more attributes, which can be
 used in other resources as reference expressions of the form
 `data.<TYPE>.<NAME>.<ATTRIBUTE>`. For example:

 ```hcl
 resource "aws_instance" "web" {
   ami           = data.aws_ami.web.id
   instance_type = "t1.micro"
 }
 ```

 ## Meta-Arguments

 As data sources are essentially a read only subset of resources, they also
 support the same [meta-arguments](/terraform/language/resources/syntax#meta-arguments) of resources
 with the exception of the
 [`lifecycle` configuration block](/terraform/language/meta-arguments/lifecycle).

 ### Non-Default Provider Configurations

 Similarly to [resources](/terraform/language/resources), when
 a module has multiple configurations for the same provider you can specify which
 configuration to use with the `provider` meta-argument:

 ```hcl
 data "aws_ami" "web" {
   provider = aws.west

   # ...
 }
 ```

 See
 [The Resource `provider` Meta-Argument](/terraform/language/meta-arguments/resource-provider)
 for more information.

 ## Data Source Lifecycle

 If the arguments of a data instance contain no references to computed values,
 such as attributes of resources that have not yet been created, then the
 data instance will be read and its state updated during Terraform's "refresh"
 phase, which by default runs prior to creating a plan. This ensures that the
 retrieved data is available for use during planning and the diff will show
 the real values obtained.

 Data instance arguments may refer to computed values, in which case the
 attributes of the instance itself cannot be resolved until all of its
 arguments are defined. In this case, refreshing the data instance will be
 deferred until the "apply" phase, and all interpolations of the data instance
 attributes will show as "computed" in the plan since the values are not yet
 known.
	---
	page_title: Data Sources - Configuration Language
	description: >-
	Data sources allow Terraform to use external data, function output, and data
	from other configurations. Learn data resource arguments, behavior, and
	lifecycle.
	---

	# Data Sources

	_Data sources_ allow Terraform to use information defined outside of Terraform,
	defined by another separate Terraform configuration, or modified by functions.

	> Hands-on: Try the [Query Data Sources](/terraform/tutorials/configuration-language/data-sources) tutorial.

	Each [provider](/terraform/language/providers) may offer data sources
	alongside its set of [resource](/terraform/language/resources)
	types.

	## Using Data Sources

	A data source is accessed via a special kind of resource known as a
	_data resource_, declared using a `data` block:

	```hcl
	data "aws_ami" "example" {
	most_recent = true

	owners = ["self"]
	tags = {
	Name = "app-server"
	Tested = "true"
	}
	}
	```

	A `data` block requests that Terraform read from a given data source ("aws_ami")
	and export the result under the given local name ("example"). The name is used
	to refer to this resource from elsewhere in the same Terraform module, but has
	no significance outside of the scope of a module.

	The data source and name together serve as an identifier for a given
	resource and so must be unique within a module.

	Within the block body (between `{` and `}`) are query constraints defined by
	the data source. Most arguments in this section depend on the
	data source, and indeed in this example `most_recent`, `owners` and `tags` are
	all arguments defined specifically for [the `aws_ami` data source](https://registry.terraform.io/providers/hashicorp/aws/latest/docs/data-sources/ami).

	When distinguishing from data resources, the primary kind of resource (as declared
	by a `resource` block) is known as a _managed resource_. Both kinds of resources
	take arguments and export attributes for use in configuration, but while
	managed resources cause Terraform to create, update, and delete infrastructure
	objects, data resources cause Terraform only to _read_ objects. For brevity,
	managed resources are often referred to just as "resources" when the meaning
	is clear from context.

	## Data Source Arguments

	Each data resource is associated with a single data source, which determines
	the kind of object (or objects) it reads and what query constraint arguments
	are available.

	Each data source in turn belongs to a [provider](/terraform/language/providers),
	which is a plugin for Terraform that offers a collection of resource types and
	data sources that most often belong to a single cloud or on-premises
	infrastructure platform.

	Most of the items within the body of a `data` block are defined by and
	specific to the selected data source, and these arguments can make full
	use of [expressions](/terraform/language/expressions) and other dynamic
	Terraform language features.

	However, there are some "meta-arguments" that are defined by Terraform itself
	and apply across all data sources. These arguments often have additional
	restrictions on what language features can be used with them, and are described
	in more detail in the following sections.

	## Data Resource Behavior

	Terraform reads data resources during the planning phase when possible, but
	announces in the plan when it must defer reading resources until the apply
	phase to preserve the order of operations. Terraform defers reading data
	resources in the following situations:
	* At least one of the given arguments is a managed resource attribute or
	other value that Terraform cannot predict until the apply step.
	* The data resource depends directly on a managed resource that itself has
	planned changes in the current plan.
	* The data resource has
	[custom conditions](#custom-condition-checks)
	and it depends directly or indirectly on a managed resource that itself
	has planned changes in the current plan.

	Refer to [Data Resource Dependencies](#data-resource-dependencies) for details
	on what it means for a data resource to depend on other objects. Any resulting
	attribute of such a data resource will be unknown during planning, so it cannot
	be used in situations where values must be fully known.

	## Local-only Data Sources

	While many data sources correspond to an infrastructure object type that
	is accessed via a remote network API, some specialized data sources operate
	only within Terraform itself, calculating some results and exposing them
	for use elsewhere.

	For example, local-only data sources exist for
	[rendering templates](https://registry.terraform.io/providers/hashicorp/template/latest/docs/data-sources/file),
	[reading local files](https://registry.terraform.io/providers/hashicorp/local/latest/docs/data-sources/file), and
	[rendering AWS IAM policies](https://registry.terraform.io/providers/hashicorp/aws/latest/docs/data-sources/iam_policy_document).

	The behavior of local-only data sources is the same as all other data
	sources, but their result data exists only temporarily during a Terraform
	operation, and is re-calculated each time a new plan is created.

	## Data Resource Dependencies

	Data resources have the same dependency resolution behavior
	[as defined for managed resources](/terraform/language/resources/behavior#resource-dependencies).
	Setting the `depends_on` meta-argument within `data` blocks defers reading of
	the data source until after all changes to the dependencies have been applied.

	In order to ensure that data sources are accessing the most up to date
	information possible in a wide variety of use cases, arguments directly
	referencing managed resources are treated the same as if the resource was
	listed in `depends_on`. This behavior can be avoided when desired by indirectly
	referencing the managed resource values through a `local` value, unless the
	data resource itself has
	[custom conditions](#custom-condition-checks).

	~> NOTE: In Terraform 0.12 and earlier, due to the data resource behavior of deferring the read until the apply phase when depending on values that are not yet known, using `depends_on` with `data` resources will force the read to always be deferred to the apply phase, and therefore a configuration that uses `depends_on` with a `data` resource can never converge. Due to this behavior, we do not recommend using `depends_on` with data resources.

	## Custom Condition Checks

	You can use `precondition` and `postcondition` blocks to specify assumptions and guarantees about how the data source operates. The following examples creates a postcondition that checks whether the AMI has the correct tags.

	``` hcl
	data "aws_ami" "example" {
	id = var.aws_ami_id

	lifecycle {
	# The AMI ID must refer to an existing AMI that has the tag "nomad-server".
	postcondition {
	condition = self.tags["Component"] == "nomad-server"
	error_message = "tags[\"Component\"] must be \"nomad-server\"."
	}
	}
	}
	```

	Custom conditions can help capture assumptions, helping future maintainers understand the configuration design and intent. They also return useful information about errors earlier and in context, helping consumers more easily diagnose issues in their configurations.

	Refer to [Custom Condition Checks](/terraform/language/expressions/custom-conditions#preconditions-and-postconditions) for more details.


	## Multiple Resource Instances

	Data resources support [`count`](/terraform/language/meta-arguments/count)
	and [`for_each`](/terraform/language/meta-arguments/for_each)
	meta-arguments as defined for managed resources, with the same syntax and behavior.

	As with managed resources, when `count` or `for_each` is present it is important to
	distinguish the resource itself from the multiple resource _instances_ it
	creates. Each instance will separately read from its data source with its
	own variant of the constraint arguments, producing an indexed result.

	## Selecting a Non-default Provider Configuration

	Data resources support [the `provider` meta-argument](/terraform/language/meta-arguments/resource-provider)
	as defined for managed resources, with the same syntax and behavior.

	## Lifecycle Customizations

	Data resources do not have any customization settings available
	for their lifecycle. However, the `lifecycle` block is reserved for future versions.

	## Example

	A data source configuration looks like the following:

	```hcl
	# Find the latest available AMI that is tagged with Component = web
	data "aws_ami" "web" {
	filter {
	name = "state"
	values = ["available"]
	}

	filter {
	name = "tag:Component"
	values = ["web"]
	}

	most_recent = true
	}
	```

	## Description

	The `data` block creates a data instance of the given _type_ (first
	block label) and _name_ (second block label). The combination of the type
	and name must be unique.

	Within the block (the `{ }`) is configuration for the data instance. The
	configuration is dependent on the type; as with
	[resources](/terraform/language/resources), each provider on the
	[Terraform Registry](https://registry.terraform.io/browse/providers) has its own
	documentation for configuring and using the data types it provides.

	Each data instance will export one or more attributes, which can be
	used in other resources as reference expressions of the form
	`data.<TYPE>.<NAME>.<ATTRIBUTE>`. For example:

	```hcl
	resource "aws_instance" "web" {
	ami = data.aws_ami.web.id
	instance_type = "t1.micro"
	}
	```

	## Meta-Arguments

	As data sources are essentially a read only subset of resources, they also
	support the same [meta-arguments](/terraform/language/resources/syntax#meta-arguments) of resources
	with the exception of the
	[`lifecycle` configuration block](/terraform/language/meta-arguments/lifecycle).

	### Non-Default Provider Configurations

	Similarly to [resources](/terraform/language/resources), when
	a module has multiple configurations for the same provider you can specify which
	configuration to use with the `provider` meta-argument:

	```hcl
	data "aws_ami" "web" {
	provider = aws.west

	# ...
	}
	```

	See
	[The Resource `provider` Meta-Argument](/terraform/language/meta-arguments/resource-provider)
	for more information.

	## Data Source Lifecycle

	If the arguments of a data instance contain no references to computed values,
	such as attributes of resources that have not yet been created, then the
	data instance will be read and its state updated during Terraform's "refresh"
	phase, which by default runs prior to creating a plan. This ensures that the
	retrieved data is available for use during planning and the diff will show
	the real values obtained.

	Data instance arguments may refer to computed values, in which case the
	attributes of the instance itself cannot be resolved until all of its
	arguments are defined. In this case, refreshing the data instance will be
	deferred until the "apply" phase, and all interpolations of the data instance
	attributes will show as "computed" in the plan since the values are not yet
	known.