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docs Module Sources docs-modules-sources The source argument within a module block specifies the location of the source code of a child module.

Module Sources

The source argument in a module block tells Terraform where to find the source code for the desired child module.

Terraform uses this during the module installation step of terraform init to download the source code to a directory on local disk so that it can be used by other Terraform commands.

The module installer supports installation from a number of different source types, as listed below.

Each of these is described in the following sections. Module source addresses use a URL-like syntax, but with extensions to support unambiguous selection of sources and additional features.

We recommend using local file paths for closely-related modules used primarily for the purpose of factoring out repeated code elements, and using a native Terraform module registry for modules intended to be shared by multiple calling configurations. We support other sources so that you can potentially distribute Terraform modules internally with existing infrastructure.

Many of the source types will make use of "ambient" credentials available when Terraform is run, such as from environment variables or credentials files in your home directory. This is covered in more detail in each of the following sections.

We recommend placing each module that is intended to be re-usable in the root of its own repository or archive file, but it is also possible to reference modules from subdirectories.

Local Paths

Local path references allow for factoring out portions of a configuration within a single source repository.

module "consul" {
  source = "./consul"
}

A local path must begin with either ./ or ../ to indicate that a local path is intended, to distinguish from a module registry address.

Local paths are special in that they are not "installed" in the same sense that other sources are: the files are already present on local disk (possibly as a result of installing a parent module) and so can just be used directly. Their source code is automatically updated if the parent module is upgraded.

Terraform Registry

A module registry is the native way of distributing Terraform modules for use across multiple configurations, using a Terraform-specific protocol that has full support for module versioning.

Terraform Registry is an index of modules shared publicly using this protocol. This public registry is the easiest way to get started with Terraform and find modules created by others in the community.

You can also use a private registry, either via the built-in feature from Terraform Enterprise, or by running a custom service that implements the module registry protocol.

Modules on the public Terraform Registry can be referenced using a registry source address of the form <NAMESPACE>/<NAME>/<PROVIDER>, with each module's information page on the registry site including the exact address to use.

module "consul" {
  source = "hashicorp/consul/aws"
  version = "0.1.0"
}

The above example will use the Consul module for AWS from the public registry.

For modules hosted in other registries, prefix the source address with an additional <HOSTNAME>/ portion, giving the hostname of the private registry:

module "consul" {
  source = "app.terraform.io/example-corp/k8s-cluster/azurerm"
  version = "1.1.0"
}

If you are using the managed version of Terraform Enterprise, its private registry hostname is app.terraform.io. If you are using Terraform Enterprise on-premises, its private registry hostname is the same hostname you use to access your Terraform Enterprise instance.

Registry modules support versioning. You can provide a specific version as shown in the above examples, or use flexible version constraints.

You can learn more about the registry at the Terraform Registry documentation.

To access modules from a private registry, you may need to configure an access token in the CLI config. Use the same hostname as used in the module source string. For a private registry within Terraform Enterprise, use the same authentication token as you would use with the Enterprise API or command-line clients.

GitHub

Terraform will recognize unprefixed github.com URLs and interpret them automatically as Git repository sources.

module "consul" {
  source = "github.com/hashicorp/example"
}

The above address scheme will clone over HTTPS. To clone over SSH, use the following form:

module "consul" {
  source = "git@github.com:hashicorp/example.git"
}

These GitHub schemes are treated as convenient aliases for the general Git repository address scheme, and so they obtain credentials in the same way and support the ref argument for selecting a specific revision. You will need to configure credentials in particular to access private repositories.

Bitbucket

Terraform will recognize unprefixed bitbucket.org URLs and interpret them automatically as BitBucket repositories:

module "consul" {
  source = "bitbucket.org/hashicorp/terraform-consul-aws"
}

This shorthand works only for public repositories, because Terraform must access the BitBucket API to learn if the given repository uses Git or Mercurial.

Terraform treats the result either as a Git source or a Mercurial source depending on the repository type. See the sections on each version control type for information on how to configure credentials for private repositories and how to specify a specific revision to install.

Generic Git Repository

Arbitrary Git repositories can be used by prefixing the address with the special git:: prefix. After this prefix, any valid Git URL can be specified to select one of the protocols supported by Git.

For example, to use HTTPS or SSH:

module "vpc" {
  source = "git::https://example.com/vpc.git"
}

module "storage" {
  source = "git::ssh://username@example.com/storage.git"
}

Terraform installs modules from Git repositories by running git clone, and so it will respect any local Git configuration set on your system, including credentials. To access a non-public Git repository, configure Git with suitable credentials for that repository.

If you use the SSH protocol then any configured SSH keys will be used automatically. This is the most common way to access non-public Git repositories from automated systems beacuse it is easy to configure and allows access to private repositories without interactive prompts.

If using the HTTP/HTTPS protocol, or any other protocol that uses username/password credentials, configure Git Credentials Storage to select a suitable source of credentials for your environment.

If your Terraform configuration will be used within Terraform Enterprise, only SSH key authentication is supported, and keys can be configured on a per-workspace basis.

Selecting a Revision

By default, Terraform will clone and use the default branch (referenced by HEAD) in the selected repository. You can override this using the ref argument:

module "vpc" {
  source = "git::https://example.com/vpc.git?ref=v1.2.0"
}

The value of the ref argument can be any reference that would be accepted by the git checkout command, including branch and tag names.

Generic Mercurial Repository

You can use arbitrary Mercurial repositories by prefixing the address with the special hg:: prefix. After this prefix, any valid Mercurial URL can be specified to select one of the protocols supported by Mercurial.

module "vpc" {
  source = "hg::http://example.com/vpc.hg"
}

Terraform installs modules from Mercurial repositories by running hg clone, and so it will respect any local Mercurial configuration set on your system, including credentials. To access a non-public repository, configure Mercurial with suitable credentials for that repository.

If you use the SSH protocol then any configured SSH keys will be used automatically. This is the most common way to access non-public Mercurial repositories from automated systems beacuse it is easy to configure and allows access to private repositories without interactive prompts.

If your Terraform configuration will be used within Terraform Enterprise, only SSH key authentication is supported, and keys can be configured on a per-workspace basis.

Selecting a Revision

You can select a non-default branch or tag using the optional ref argument:

module "vpc" {
  source = "hg::http://example.com/vpc.hg?ref=v1.2.0"
}

HTTP URLs

When you use an HTTP or HTTPS URL, Terraform will make a GET request to the given URL, which can return another source address. This indirection allows using HTTP URLs as a sort of "vanity redirect" over a more complicated module source address.

Terraform will append an additional query string argument terraform-get=1 to the given URL before sending the GET request, allowing the server to optionally return a different result when Terraform is requesting it.

If the response is successful (200-range status code), Terraform looks in the following locations in order for the next address to access:

  • The value of a response header field named X-Terraform-Get.

  • If the response is an HTML page, a meta element with the name terraform-get:

    <meta name="terraform-get"
          content="github.com/hashicorp/example" />
    

In either case, the result is interpreted as another module source address using one of the forms documented elsewhere on this page.

If an HTTP/HTTPS URL requires authentication credentials, use a .netrc file in your home directory to configure these. For information on this format, see the documentation for using it in curl.

Fetching archives over HTTP

As a special case, if Terraform detects that the URL has a common file extension associated with an archive file format then it will bypass the special terraform-get=1 redirection described above and instead just use the contents of the referenced archive as the module source code:

module "vpc" {
  source = "https://example.com/vpc-module.zip"
}

The extensions that Terraform recognizes for this special behavior are:

  • zip
  • tar.bz2 and tbz2
  • tar.gz and tgz
  • tar.xz and txz

If your URL doesn't have one of these extensions but refers to an archive anyway, use the archive argument to force this interpretation:

module "vpc" {
  source = "https://example.com/vpc-module?archive=zip"
}

S3 Bucket

You can use archives stored in S3 as module sources using the special s3:: prefix, followed by a path-style S3 bucket object URL.

module "consul" {
  source = "s3::https://s3-eu-west-1.amazonaws.com/examplecorp-terraform-modules/vpc.zip"
}

The s3:: prefix causes Terraform to use AWS-style authentication when accessing the given URL. As a result, this scheme may also work for other services that mimic the S3 API, as long as they handle authentication in the same way as AWS.

The resulting object must be an archive with one of the same file extensions as for archives over standard HTTP. Terraform will extract the archive to obtain the module source tree.

The module installer looks for AWS credentials in the following locations, preferring those earlier in the list when multiple are available:

  • The AWS_ACCESS_KEY_ID and AWS_SECRET_ACCESS_KEY environment variables.
  • The default profile in the .aws/credentials file in your home directory.
  • If running on an EC2 instance, temporary credentials associated with the instance's IAM Instance Profile.

Modules in Package Sub-directories

When the source of a module is a version control repository or archive file (generically, a "package"), the module itself may be in a sub-directory relative to the root of the package.

A special double-slash syntax is interpreted by Terraform to indicate that the remaining path after that point is a sub-directory within the package. For example:

  • hashicorp/consul/aws//modules/consul-cluster
  • git::https://example.com/network.git//modules/vpc
  • https://example.com/network-module.zip//modules/vpc
  • s3::https://s3-eu-west-1.amazonaws.com/examplecorp-terraform-modules/network.zip//modules/vpc

If the source address has arguments, such as the ref argument supported for the version control sources, the sub-directory portion must be before those arguments:

  • git::https://example.com/network.git//modules/vpc?ref=v1.2.0

Terraform will still extract the entire package to local disk, but will read the module from the subdirectory. As a result, it is safe for a module in a sub-directory of a package to use a local path to another module as long as it is in the same package.