As part of this, I'm copying the entire text of the 0.12 docs/configuration/modules.html page into docs/configuration-0-11/modules.html — some of the 0.11 pages needed to be able to link to the moved content, I didn't want to jump versions jarringly, and a close reading didn't reveal anything in there that's inaccurate for 0.11.
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Modules
-> Note: This page is about Terraform 0.12 and later. For Terraform 0.11 and earlier, see 0.11 Configuration Language: Modules.
A module is a container for multiple resources that are used together.
Every Terraform configuration has at least one module, known as its
root module, which consists of the resources defined in the .tf
files in
the main working directory.
A module can call other modules, which lets you include the child module's resources into the configuration in a concise way. Modules can also be called multiple times, either within the same configuration or in separate configurations, allowing resource configurations to be packaged and re-used.
This page describes how to call one module from another. Other pages in this section of the documentation describe the different elements that make up modules, and there is further information about how modules can be used, created, and published in the dedicated Modules section.
Calling a Child Module
To call a module means to include the contents of that module into the
configuration with specific values for its
input variables. Modules are called
from within other modules using module
blocks:
module "servers" {
source = "./app-cluster"
servers = 5
}
A module that includes a module
block like this is the calling module of the
child module.
The label immediately after the module
keyword is a local name, which the
calling module can use to refer to this instance of the module.
Within the block body (between {
and }
) are the arguments for the module.
Most of the arguments correspond to input variables
defined by the module, including the servers
argument in the above example.
Terraform also defines a few meta-arguments that are reserved by Terraform
and used for its own purposes; we will discuss those throughout the rest of
this section.
All modules require a source
argument, which is a meta-argument defined by
Terraform CLI. Its value is either the path to a local directory of the
module's configuration files, or a remote module source that Terraform should
download and use. This value must be a literal string with no template
sequences; arbitrary expressions are not allowed. For more information on
possible values for this argument, see Module Sources.
The same source address can be specified in multiple module
blocks to create
multiple copies of the resources defined within, possibly with different
variable values.
After adding, removing, or modifying module
blocks, you must re-run
terraform init
to allow Terraform the opportunity to adjust the installed
modules. By default this command will not upgrade an already-installed module;
use the -upgrade
option to instead upgrade to the newest available version.
Accessing Module Output Values
The resources defined in a module are encapsulated, so the calling module cannot access their attributes directly. However, the child module can declare output values to selectively export certain values to be accessed by the calling module.
For example, if the ./app-cluster
module referenced in the example above
exported an output value named instance_ids
then the calling module
can reference that result using the expression module.servers.instance_ids
:
resource "aws_elb" "example" {
# ...
instances = module.servers.instance_ids
}
For more information about referring to named values, see Expressions.
Module Versions
We recommend explicitly constraining the acceptable version numbers for each external module to avoid unexpected or unwanted changes.
Use the version
attribute in the module
block to specify versions:
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~> 1.2.0
: any non-beta version>= 1.2.0
and< 1.3.0
, e.g.1.2.X
~> 1.2
: any non-beta version>= 1.2.0
and< 2.0.0
, e.g.1.X.Y
>= 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 or
Terraform Enterprise's private module registry.
Other module sources can provide their own versioning mechanisms within the
source string itself, or might not support versions at all. In particular,
modules sourced from local file paths do not support version
; since
they're loaded from the same source repository, they always share the same
version as their caller.
Other Meta-arguments
Along with the source
meta-argument described above, module blocks have
some more meta-arguments that have special meaning across all modules,
described in more detail in other sections:
-
version
- (Optional) A version constraint string that specifies which versions of the referenced module are acceptable. The newest version matching the constraint will be used.version
is supported only for modules retrieved from module registries. -
providers
- (Optional) A map whose keys are provider configuration names that are expected by child module and whose values are corresponding provider names in the calling module. This allows provider configurations to be passed explicitly to child modules. If not specified, the child module inherits all of the default (un-aliased) provider configurations from the calling module.
In addition to the above, the argument names count
, for_each
and
lifecycle
are not currently used by Terraform but are reserved for planned
future features.
Since modules are a complex feature in their own right, further detail about how modules can be used, created, and published is included in the dedicated section on modules.
Providers within Modules
In a configuration with multiple modules, there are some special considerations for how resources are associated with provider configurations.
While in principle provider
blocks can appear in any module, it is recommended
that they be placed only in the root module of a configuration, since this
approach allows users to configure providers just once and re-use them across
all descendent modules.
Each resource in the configuration must be associated with one provider
configuration, which may either be within the same module as the resource
or be passed from the parent module. Providers can be passed down to descendent
modules in two ways: either implicitly through inheritance, or explicitly
via the providers
argument within a module
block. These two options are
discussed in more detail in the following sections.
In all cases it is recommended to keep explicit provider configurations only in the root module and pass them (whether implicitly or explicitly) down to descendent modules. This avoids the provider configurations from being "lost" when descendent modules 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 associated 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
block is
removed from the configuration, this record in the state is used to locate the
appropriate configuration because the resource's provider
argument (if any)
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.
Implicit Provider Inheritance
For convenience in simple configurations, a child module automatically inherits
default (un-aliased) provider configurations from its parent. This means that
explicit provider
blocks appear only in the root module, and downstream
modules can simply declare resources for that provider and have them
automatically associated with the root provider configurations.
For example, the root module might contain only a provider
block and a
module
block to instantiate a child module:
provider "aws" {
region = "us-west-1"
}
module "child" {
source = "./child"
}
The child module can then use any resource from this provider with no further provider configuration required:
resource "aws_s3_bucket" "example" {
bucket = "provider-inherit-example"
}
This approach is recommended in the common case where only a single configuration is needed for each provider across the entire configuration.
In more complex situations there may be multiple provider instances, or a child module may need to use different provider settings than its parent. For such situations, it's necessary to pass providers explicitly as we will see in the next section.
Passing Providers Explicitly
When child modules each need a different configuration of a particular
provider, or where the child module requires a different provider configuration
than its parent, the providers
argument within a module
block can be
used to define explicitly which provider configs are made available to the
child module. For example:
# 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 is similar to
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
that may result 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
proxy configuration blocks like the following, to declare that it
requires configurations to be passed with these from the 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.
At this time it is required to write an explicit proxy configuration block
even for default (un-aliased) provider configurations when they will be passed
via an explicit providers
block:
provider "aws" {
}
If such a block is not present, the child module will behave as if it has no configurations of this type at all, which may cause input prompts to supply any required provider configuration arguments. This limitation will be addressed in a future version of Terraform.
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.
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.