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docs Using Modules docs-modules-usage Using modules in Terraform is very similar to defining resources.

Module Usage

Using child modules in Terraform is very similar to defining resources:

module "consul" {
  source  = "hashicorp/consul/aws"
  servers = 3
}

You can view the full documentation for configuring modules in the Module Configuration section.

In modules we only specify a name, rather than a name and a type as for resources. This name is used elsewhere in the configuration to reference the module and its outputs.

The source tells Terraform what to create. In this example, we instantiate the Consul module for AWS from the Terraform Registry. Other source types are supported, as described in the following section.

Just like a resource, the a module's configuration can be deleted to destroy the resources belonging to the module.

Source

The only required configuration key for a module is the source parameter. The value of this tells Terraform where to download the module's source code. Terraform comes with support for a variety of module sources.

The recommended source for external modules is a Terraform Registry, which provides the full capabilities of modules such as version constraints. Registry modules are specified using a simple slash-separated path like the hashicorp/consul/aws path used in the above example. The full source string for each registry module can be found from the registry website.

Terraform also supports modules in local directories, identified by a relative path starting with either ./ or ../. Such local modules are useful to organize code more complex repositories, and are described in more detail in Creating Modules.

Finally, Terraform can download modules directly from various storage providers and version control systems. These sources do not support versioning and other registry benefits, but can be convenient for getting started when already available within an organization. The full list of available sources are documented in the module sources documentation.

When a configuration uses modules, they must first be installed by running terraform init:

$ terraform init

This command will download any modules that haven't been updated already, as well as performing other Terraform working directory initialization such as installing providers.

By default the command will not check for available updates to already-installed modules, but you can use the -update option to check for available upgrades. When version constraints are specified (as described in the following section) a newer version will be used only if it is within the given constraint.

Module Versions

It is recommended to explicitly constrain the acceptable version numbers for each external module so that upstream changes aren't automatically adopted, since this may result in unexpected or unwanted changes changes.

The version attribute within the module block is used for this purpose:

module "consul" {
  source  = "hashicorp/consul/aws"
  version = "0.0.5"

  servers = 3
}

The version attribute value may either be a single explicit version or a version constraint expression. Constraint expressions use the following syntax to specify a range of versions that are acceptable:

  • >= 1.2.0: version 1.2.0 or newer
  • <= 1.2.0: version 1.2.0 or older
  • ~> 1.2: any non-beta patch release within the 1.2 range
  • >= 1.0.0, <= 2.0.0: any version between 1.0.0 and 2.0.0 inclusive

When depending on third-party modules, references to specific versions are recommended since this ensures that updates only happen when convenient to you.

For modules maintained within your organization, a version range strategy may be appropriate if a semantic versioning methodology is used consistently or if there is a well-defined release process that avoids unwanted updates.

Version constraints are supported only for modules installed from a module registry, such as the Terraform Registry. Other module sources may provide their own versioning mechanisms within the source string itself, or they may not support versions at all. In particular, modules whose sources are local file paths do not support version because they are constrained to share the same version as their caller by being obtained by the same source repository.

Configuration

The arguments used in a module block, such as the servers parameter above, correspond to variables within the module itself. You can therefore discover all the available variables for a module by inspecting the source of it.

The special arguments source, version and providers are exceptions. These are used for special purposes by Terraform and should therefore not be used as variable names within a module.

Outputs

Modules encapsulate their resources. A resource in one module cannot directly depend on resources or attributes in other modules, unless those are exported through outputs. These outputs can be referenced in other places in your configuration, for example:

resource "aws_instance" "client" {
  ami               = "ami-408c7f28"
  instance_type     = "t1.micro"
  availability_zone = "${module.consul.server_availability_zone}"
}

This is deliberately very similar to accessing resource attributes. Instead of referencing a resource attribute, however, the expression in this case references an output of the module.

Just like with resources, interpolation expressions can create implicit dependencies on resources and other modules. Since modules encapsulate other resources, however, the dependency is not on the module as a whole but rather on the server_availability_zone output specifically, which allows Terraform to work on resources in different modules concurrently rather than waiting for the entire module to be complete before proceeding.

Providers within Modules

For convenience in simple configurations, child modules automatically inherit default (un-aliased) provider configurations from their parent. This means that in most cases only the root module needs explicit provider blocks, and then any defined provider can be freely used with the same settings in child modules.

In more complex situations it may be necessary for a child module to use different provider settings than its parent. In this situation it is possible to define multiple provider instances and pass them explicitly and selectively to a child module:

# The default "aws" configuration is used for AWS resources in the root
# module where no explicit provider instance is selected.
provider "aws" {
  region = "us-west-1"
}

# A non-default, or "aliased" configuration is also defined for a different
# region.
provider "aws" {
  alias  = "usw2"
  region = "us-west-2"
}

# An example child module is instantiated with the _aliased_ configuration,
# so any AWS resources it defines will use the us-west-2 region.
module "example" {
  source    = "./example"
  providers = {
    aws = "aws.usw2"
  }
}

The providers argument within a module block serves the same purpose as the provider argument within a resource as described for multiple provider instances, but is a map rather than a single string because a module may contain resources from many different providers.

Once the providers argument is used in a module block it overrides all of the default inheritance behavior, so it is necessary to enumerate mappings for all of the required providers. This is to avoid confusion and surprises when mixing both implicit and explicit provider passing.

Additional provider configurations (those with the alias argument set) are never inherited automatically by child modules, and so must always be passed explicitly using the providers map. For example, a module that configures connectivity between networks in two AWS regions is likely to need both a source and a destination region. In that case, the root module may look something like this:

provider "aws" {
  alias  = "usw1"
  region = "us-west-1"
}

provider "aws" {
  alias  = "usw2"
  region = "us-west-2"
}

module "tunnel" {
  source    = "./tunnel"
  providers = {
    "aws.src" = "aws.usw1"
    "aws.dst" = "aws.usw2"
  }
}

In the providers map, the keys are provider names as expected by the child module, while the values are the names of corresponding configurations in the current module. The subdirectory ./tunnel must then contain alias-only configuration blocks like the following, to declare that it requires these names to be passed from a providers block in the parent's module block:

provider "aws" {
  alias = "src"
}

provider "aws" {
  alias = "dst"
}

Each resource should then have its own provider attribute set to either "aws.src" or "aws.dst" to choose which of the two provider instances to use.

It is recommended to use the default inheritance behavior in most cases where only a single default instance of each provider is used, and switch to passing providers explicitly only if multiple instances are needed.

In all cases it is recommended to keep explicit provider configurations only in the root module and pass them (either implicitly or explicitly) down to descendent modules. This avoids the provider configurations being "lost" when descendent providers are removed from the configuration. It also allows the user of a configuration to determine which providers require credentials by inspecting only the root module.

Provider configurations are used for all operations on resources, including destroying remote objects and refreshing state. Terraform retains, as part of its state, a reference to the provider configuration that was most recently used to apply changes to each resource. When a resource is removed from the configuration, this record in state is used to locate the appropriate configuration because the resource's provider argument is no longer present in the configuration.

As a consequence, it is required that all resources created for a particular provider configuration must be destroyed before that provider configuration is removed, unless the related resources are re-configured to use a different provider configuration first.

Multiple Instances of a Module

A particular module source can be instantiated multiple times:

# my_buckets.tf

module "assets_bucket" {
  source = "./publish_bucket"
  name   = "assets"
}

module "media_bucket" {
  source = "./publish_bucket"
  name   = "media"
}
# publish_bucket/bucket-and-cloudfront.tf

variable "name" {} # this is the input parameter of the module

resource "aws_s3_bucket" "example" {
  # ...
}

resource "aws_iam_user" "deploy_user" {
  # ...
}

This example defines a local child module in the ./publish_bucket subdirectory. That module has configuration to create an S3 bucket. The module wraps the bucket and all the other implementation details required to configure a bucket.

We can then instantiate the module multiple times in our configuration by giving each instance a unique name -- here module "assets_bucket" and module "media_bucket" -- whilst specifying the same source value.

Resources from child modules are prefixed with module.<module-instance-name> when displayed in plan output and elsewhere in the UI. For example, the ./publish_bucket module contains aws_s3_bucket.example, and so the two instances of this module produce S3 bucket resources with resource addresses module.assets_bucket.aws_s3_bucket.example and module.media_bucket.aws_s3_bucket.example respectively. These full addresses are used within the UI and on the command line, but are not valid within interpolation expressions due to the encapsulation behavior described above.

When refactoring an existing configuration to introduce modules, moving resource blocks between modules causes Terraform to see the new location as an entirely separate resource to the old. Always check the execution plan after performing such actions to ensure that no resources are surprisingly deleted.

Each instance of a module may optionally have different providers passed to it using the providers argument described above. This can be useful in situations where, for example, a duplicated set of resources must be created across several regions or datacenters.

Summarizing Modules in the UI

By default, commands such as the plan command and graph command will show each resource in a nested module to represent the full scope of the configuration. For more complex configurations, the -module-depth option may be useful to summarize some or all of the modules as single objects.

For example, with a configuration similar to what we've built above, the default graph output looks like the following:

Terraform Expanded Module Graph

If we instead set -module-depth=0, the graph will look like this:

Terraform Module Graph

Other commands work similarly with modules. Note that -module-depth only affects how modules are presented in the UI; it does not affect how modules and their contained resources are processed by Terraform operations.

Tainting resources within a module

The taint command can be used to taint specific resources within a module:

$ terraform taint -module=salt_master aws_instance.salt_master

It is not possible to taint an entire module. Instead, each resource within the module must be tainted separately.