Output Values
Output values make information about your infrastructure available on the command line, and can expose information for other OpenTF configurations to use. Output values are similar to return values in programming languages.
Output values have several uses:
- A child module can use outputs to expose a subset of its resource attributes to a parent module.
- A root module can use outputs to print certain values in the CLI output after
running
opentf apply
. - When using remote state, root module outputs can be
accessed by other configurations via a
terraform_remote_state
data source.
Resource instances managed by OpenTF each export attributes whose values can be used elsewhere in configuration. Output values are a way to expose some of that information to the user of your module.
-> Note: For brevity, output values are often referred to as just "outputs" when the meaning is clear from context.
Declaring an Output Value
Each output value exported by a module must be declared using an output
block:
output "instance_ip_addr" {
value = aws_instance.server.private_ip
}
The label immediately after the output
keyword is the name, which must be a
valid identifier. In a root module, this name is
displayed to the user; in a child module, it can be used to access the output's
value.
The value
argument takes an expression
whose result is to be returned to the user. In this example, the expression
refers to the private_ip
attribute exposed by an aws_instance
resource
defined elsewhere in this module (not shown). Any valid expression is allowed
as an output value.
-> Note: Outputs are only rendered when OpenTF applies your plan. Running
opentf plan
will not render outputs.
Accessing Child Module Outputs
In a parent module, outputs of child modules are available in expressions as
module.<MODULE NAME>.<OUTPUT NAME>
. For example, if a child module named
web_server
declared an output named instance_ip_addr
, you could access that
value as module.web_server.instance_ip_addr
.
Custom Condition Checks
You can use precondition
blocks to specify guarantees about output data. The following examples creates a precondition that checks whether the EC2 instance has an encrypted root volume.
output "api_base_url" {
value = "https://${aws_instance.example.private_dns}:8433/"
# The EC2 instance must have an encrypted root volume.
precondition {
condition = data.aws_ebs_volume.example.encrypted
error_message = "The server's root volume is not encrypted."
}
}
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 for more details.
Optional Arguments
output
blocks can optionally include description
, sensitive
, and depends_on
arguments, which are described in the following sections.
description
— Output Value Documentation
Because the output values of a module are part of its user interface, you can
briefly describe the purpose of each value using the optional description
argument:
output "instance_ip_addr" {
value = aws_instance.server.private_ip
description = "The private IP address of the main server instance."
}
The description should concisely explain the purpose of the output and what kind of value is expected. This description string might be included in documentation about the module, and so it should be written from the perspective of the user of the module rather than its maintainer. For commentary for module maintainers, use comments.
sensitive
— Suppressing Values in CLI Output
An output can be marked as containing sensitive material using the optional
sensitive
argument:
output "db_password" {
value = aws_db_instance.db.password
description = "The password for logging in to the database."
sensitive = true
}
OpenTF will hide values marked as sensitive in the messages from
opentf plan
and opentf apply
. In the following scenario, our root
module has an output declared as sensitive and a module call with a
sensitive output, which we then use in a resource attribute.
# main.tf
module "foo" {
source = "./mod"
}
resource "test_instance" "x" {
some_attribute = module.foo.a # resource attribute references a sensitive output
}
output "out" {
value = "xyz"
sensitive = true
}
# mod/main.tf, our module containing a sensitive output
output "a" {
value = "secret"
sensitive = true
}
When we run a plan or apply, the sensitive value is redacted from output:
OpenTF will perform the following actions:
# test_instance.x will be created
+ resource "test_instance" "x" {
+ some_attribute = (sensitive value)
}
Plan: 1 to add, 0 to change, 0 to destroy.
Changes to Outputs:
+ out = (sensitive value)
OpenTF will still record sensitive values in the state, and so anyone who can access the state data will have access to the sensitive values in cleartext. For more information, see Sensitive Data in State.
depends_on
— Explicit Output Dependencies
Since output values are just a means for passing data out of a module, it is usually not necessary to worry about their relationships with other nodes in the dependency graph.
However, when a parent module accesses an output value exported by one of its child modules, the dependencies of that output value allow OpenTF to correctly determine the dependencies between resources defined in different modules.
Just as with
resource dependencies,
OpenTF analyzes the value
expression for an output value and automatically
determines a set of dependencies, but in less-common cases there are
dependencies that cannot be recognized implicitly. In these rare cases, the
depends_on
argument can be used to create additional explicit dependencies:
output "instance_ip_addr" {
value = aws_instance.server.private_ip
description = "The private IP address of the main server instance."
depends_on = [
# Security group rule must be created before this IP address could
# actually be used, otherwise the services will be unreachable.
aws_security_group_rule.local_access,
]
}
The depends_on
argument should be used only as a last resort. When using it,
always include a comment explaining why it is being used, to help future
maintainers understand the purpose of the additional dependency.