Input Variables

Note: This page is about HCL2 Packer templates. HCL2 templates were first introduced as a beta feature into Packer version 1.5. As of v1.7, HCL2 support is no longer in beta, and is the preferred way to write Packer configuration. For the old-style stable configuration language see template docs. As of v1.6.2, you can convert your legacy JSON template into an HCL2 config file using the hcl2_upgrade command.

There are two kinds of variables in HCL Packer templates: Input variables, sometimes simply called "variables", and Local variables, also known as "locals". Input variables may have defaults, but those defaults can be overridden using command line options, environment variables, or variable definitions files. However, nothing can change the value of an input variable after the initial override.

This page is about input variables. To learn about local variables, see the locals page.

Input variables serve as parameters for a Packer build, allowing aspects of the build to be customized without altering the build's own source code.

Input variable and local variable usage are introduced in the Variables Guide.

Note: For brevity, input variables are often referred to as just "variables" or "Packer variables" when it is clear from context what sort of variable is being discussed. Other kinds of variables in Packer include environment variables (set by the shell where Packer runs) and expression variables (used to indirectly represent a value in an expression).

Declaring an Input Variable

Each input variable accepted by a build must be declared using a variable block :

variable "image_id" {
  type = string
}

variable "availability_zone_names" {
  type    = list(string)
  default = ["us-west-1a"]
}

variable "docker_ports" {
  type = list(object({
    internal = number
    external = number
    protocol = string
  }))
  default = [
    {
      internal = 8300
      external = 8300
      protocol = "tcp"
    }
  ]
}

Or a less precise variables block:

variables {
   foo = "value"
   my_secret = "foo"
}

The label after the variable keyword or a label of a variables block is a name for the variable, which must be unique among all variables in the same build. This name is used to assign a value to the variable from outside and to reference the variable's value from within the build.

Arguments

Packer defines the following arguments for variable declarations:

default - A default value which then makes the variable optional.
type - This argument specifies what value types are accepted for the variable.
description - This specifies the input variable's documentation.
validation - A block to define validation rules, usually in addition to type constraints.
sensitive - This causes string-values from that variable to be obfuscated from Packer's output.

Default values

The variable declaration can also include a default argument. If present, the variable is considered to be optional and the default value will be used if no value is set when running Packer. The default argument requires a literal value and cannot reference other objects in the configuration.

Type Constraints

The type argument in a variable block allows you to restrict the type of value that will be accepted as the value for a variable. If no type constraint is set then a value of any type is accepted.

While type constraints are optional, we recommend specifying them; they serve as easy reminders for users of the build, and allow Packer to return a helpful error message if the wrong type is used.

Type constraints are created from a mixture of type keywords and type constructors. The supported type keywords are:

The type constructors allow you to specify complex types such as collections:

The keyword any may be used to indicate that any type is acceptable. For more information on the meaning and behavior of these different types, as well as detailed information about automatic conversion of complex types, see Type Constraints.

If both the type and default arguments are specified, the given default value must be convertible to the specified type.

If only default is specified, the type of the default value will be used.

When the type and default are both not specified and you try to set a variable from env vars or from the command line, the variable will always be interpreted as a string.

Input Variable Documentation

Because the input variables of a build are part of its user interface, you can briefly describe the purpose of each variable using the optional description argument:

variable "image_id" {
  type        = string
  description = "The ID of the machine image (AMI) to use for the server."
}

The description should concisely explain the purpose of the variable and what kind of value is expected. This description string might be included in documentation about the build, and so it should be written from the perspective of the user of the build rather than its maintainer. For commentary for build maintainers, use comments.

Custom Validation Rules

In addition to Type Constraints, you can specify arbitrary custom validation rules for a particular variable using one or more validation block nested within the corresponding variable block:

variable "image_id" {
  type        = string
  description = "The ID of the machine image (AMI) to use for the server."

  validation {
    condition     = length(var.image_id) > 4 && substr(var.image_id, 0, 4) == "ami-"
    error_message = "The image_id value must be a valid AMI ID, starting with \"ami-\"."
  }
}

The condition argument is an expression that must use the value of the variable to return true if the value is valid or false if it is invalid. The expression can refer only to the variable that the condition applies to, and must not produce errors.

If the failure of an expression is the basis of the validation decision, use the can function to detect such errors. For example:

variable "image_id" {
  type        = string
  description = "The ID of the machine image (AMI) to use for the server."

  validation {
    # regex(...) fails if it cannot find a match
    condition     = can(regex("^ami-", var.image_id))
    error_message = "The image_id value must be a valid AMI ID, starting with \"ami-\"."
  }
}

If condition evaluates to false, an error message including the sentences given in error_message will be produced. The error message string should be at least one full sentence explaining the constraint that failed, using a sentence structure similar to the above examples.

Validation also works with more complex cases:

variable "image_metadata" {

  default = {
    key: "value",
    something: {
      foo: "bar",
    }
  }

  validation {
    condition     = length(var.image_metadata.key) > 4
    error_message = "The image_metadata.key field must be more than 4 runes."
  }

  validation {
    condition     = can(var.image_metadata.something.foo)
    error_message = "The image_metadata.something.foo field must exist."
  }

  validation {
    condition     = substr(var.image_metadata.something.foo, 0, 3) == "bar"
    error_message = "The image_metadata.something.foo field must start with \"bar\"."
  }

}

Suppressing Sensitive Variables

When a variable is sensitive all string-values from that variable will be obfuscated from Packer's output :

# var-foo.pkr.hcl
variable "foo" {
    sensitive = true
    default   = {
        key = "SECR3TP4SSW0RD"
    }
}

$ packer inspect var-foo.pkr.hcl
Packer Inspect: HCL2 mode

> input-variables:
var.foo: "{\n  \"key\" = \"<sensitive>\"\n }"
...

Using Input Variable Values

Within the build that declared a variable, its value can be accessed from within expressions as var.<NAME>, where <NAME> matches the label given in the declaration block:

source "googlecompute" "debian"  {
    zone = var.gcp_zone
    tags = var.gcp_debian_tags
}

The value assigned to a variable can be accessed only from expressions within the folder where it was declared.

Assigning Values to input Variables

Once a variable is declared in your configuration, you can set it:

Individually, with the -var foo=bar command line option.
In variable definitions files, either specified on the command line with the -var-files values.pkrvars.hcl or automatically loaded (*.auto.pkrvars.hcl).
As environment variables, for example: PKR_VAR_foo=bar

The following sections describe these options in more detail.

Variables on the Command Line

To specify individual variables on the command line, use the -var option when running the packer build command:

$ packer build -var="image_id=ami-abc123"
$ packer build -var='image_id_list=["ami-abc123","ami-def456"]'
$ packer build -var='image_id_map={"us-east-1":"ami-abc123","us-east-2":"ami-def456"}'

The -var option can be used any number of times in a single command.

If you plan to assign variables via the command line, we strongly recommend that you at least set a default type instead of using empty blocks; this helps the HCL parser understand what is being set. Otherwise, the interpreter will assume that any variable set on the command line is a string.

Standard Variable Definitions Files

To set lots of variables, it is more convenient to specify their values in a variable definitions file with a filename ending in either .pkrvars.hcl or .pkrvars.json and then specify that file on the command line with -var-file:

$ packer build -var-file="testing.pkrvars.hcl"

A variable definitions file uses the same basic syntax as Packer language files, but consists only of variable name and its assigned values:

image_id = "ami-abc123"
availability_zone_names = [
  "us-east-1a",
  "us-west-1c",
]

Important: Unlike legacy JSON templates the input variables within a variable definitions file must be declared via a variables block within a standard HCL2 template file *.pkr.hcl before it can be assigned a value. Failure to do so will result in an unknown variable error during Packer's runtime.

Auto-loaded Variable Definitions Files

Packer also has the ability automatically load one or more variable definitions files if they are present:

Any files with names ending in .auto.pkrvars.hcl or .auto.pkrvars.json.

Files whose names end with .json are parsed as JSON objects instead of HCL, with the root object properties corresponding to variable names:

{
  "image_id": "ami-abc123",
  "availability_zone_names": ["us-west-1a", "us-west-1c"]
}

Environment Variables

As a fallback for the other ways of defining variables, Packer searches the environment of its own process for environment variables named PKR_VAR_ followed by the name of a declared variable.

This can be useful when running Packer in automation, or when running a sequence of Packer commands in succession with the same variables. For example, at a bash prompt on a Unix system:

$ export PKR_VAR_image_id=ami-abc123
$ packer build gcp/debian/
...

On operating systems where environment variable names are case-sensitive, Packer matches the variable name exactly as given in configuration, and so the required environment variable name will usually have a mix of upper and lower case letters as in the above example.

Complex-typed Values

When variable values are provided in a variable definitions file, Packer's usual syntax can be used to assign complex-typed values, like lists and maps.

Some special rules apply to the -var command line option and to environment variables. For convenience, Packer defaults to interpreting -var and environment variable values as literal strings, which do not need to be quoted:

$ export PKR_VAR_image_id=ami-abc123

However, if a build variable uses a type constraint to require a complex value (list, set, map, object, or tuple), Packer will instead attempt to parse its value using the same syntax used within variable definitions files, which requires careful attention to the string escaping rules in your shell:

$ export PKR_VAR_availability_zone_names='["us-west-1b","us-west-1d"]'

For readability, and to avoid the need to worry about shell escaping, we recommend always setting complex variable values via variable definitions files.

Variable Definition Precedence

The above mechanisms for setting variables can be used together in any combination.

Packer loads variables in the following order, with later sources taking precedence over earlier ones:

Environment variables (lowest priority)
Any *.auto.pkrvars.hcl or *.auto.pkrvars.json files, processed in lexical order of their filenames.
Any -var and -var-file options on the command line, in the order they are provided. (highest priority)

If the same variable is assigned multiple values using different mechanisms, Packer uses the last value it finds, overriding any previous values. Note that the same variable cannot be assigned multiple values within a single source.

Important: Variables with map and object values behave the same way as other variables: the last value found overrides the previous values.

A variable value must be known:

Take the following variable for example:

variable "foo" {
  type = string
}

Here foo must have a known value but you can default it to null to make this behavior optional :

	no default	`default = null`	`default = "xy"`
foo unused	error, "foo needs to be set"	-	-
var.foo	error, "foo needs to be set"	null¹	xy
`PKR_VAR_foo=yz` var.foo	yz	yz	yz
`-var foo=yz` var.foo	yz	yz	yz

1: Null is a valid value. Packer will only error when the receiving field needs a value, example:

variable "example" {
  type = string
  default = null
}

source "example" "foo" {
  arg = var.example
}

In the above case, as long as "arg" is optional for an "example" source, there is no error and arg won’t be set.

Setting an unknown variable will not always fail:

Usage	packer validate	any other packer command
`bar=yz` in .pkrvars.hcl file.	error, "bar undeclared"	warning, "bar undeclared"
`var.bar` in .pkr.hcl file	error, "bar undeclared"	error, "bar undeclared"
`-var bar=yz` argument	error, "bar undeclared"	error, "bar undeclared"
`export PKR_VAR_bar=yz`	-	-