13 KiB
layout | page_title | sidebar_current | description |
---|---|---|---|
docs | Interpolation Syntax | docs-config-interpolation | Embedded within strings in Terraform, whether you're using the Terraform syntax or JSON syntax, you can interpolate other values into strings. These interpolations are wrapped in `${}`, such as `${var.foo}`. |
Interpolation Syntax
Embedded within strings in Terraform, whether you're using the
Terraform syntax or JSON syntax, you can interpolate other values
into strings. These interpolations are wrapped in ${}
, such as
${var.foo}
.
The interpolation syntax is powerful and allows you to reference variables, attributes of resources, call functions, etc.
You can also perform simple math in interpolations, allowing
you to write expressions such as ${count.index + 1}
.
You can escape interpolation with double dollar signs: $${foo}
will be rendered as a literal ${foo}
.
Available Variables
To reference user variables, use the var.
prefix followed by the
variable name. For example, ${var.foo}
will interpolate the
foo
variable value. If the variable is a mapping, then you
can reference static keys in the map with the syntax
var.MAP.KEY
. For example, ${var.amis.us-east-1}
would
get the value of the us-east-1
key within the amis
variable
that is a mapping.
To reference attributes of your own resource, the syntax is
self.ATTRIBUTE
. For example ${self.private_ip_address}
will
interpolate that resource's private IP address. Note that this is
only allowed/valid within provisioners.
To reference attributes of other resources, the syntax is
TYPE.NAME.ATTRIBUTE
. For example, ${aws_instance.web.id}
will interpolate the ID attribute from the "aws_instance"
resource named "web". If the resource has a count
attribute set,
you can access individual attributes with a zero-based index, such
as ${aws_instance.web.0.id}
. You can also use the splat syntax
to get a list of all the attributes: ${aws_instance.web.*.id}
.
This is documented in more detail in the
resource configuration page.
To reference outputs from a module, the syntax is
MODULE.NAME.OUTPUT
. For example ${module.foo.bar}
will
interpolate the "bar" output from the "foo"
module.
To reference count information, the syntax is count.FIELD
.
For example, ${count.index}
will interpolate the current index
in a multi-count resource. For more information on count, see the
resource configuration page.
To reference path information, the syntax is path.TYPE
.
TYPE can be cwd
, module
, or root
. cwd
will interpolate the
cwd. module
will interpolate the path to the current module. root
will interpolate the path of the root module. In general, you probably
want the path.module
variable.
Built-in Functions
Terraform ships with built-in functions. Functions are called with
the syntax name(arg, arg2, ...)
. For example,
to read a file: ${file("path.txt")}
. The built-in functions
are documented below.
The supported built-in functions are:
-
base64decode(string)
- Given a base64-encoded string, decodes it and returns the original string. -
base64encode(string)
- Returns a base64-encoded representation of the given string. -
base64sha256(string)
- Returns a base64-encoded representation of raw SHA-256 sum of the given string. This is not equivalent ofbase64encode(sha256(string))
sincesha256()
returns hexadecimal representation. -
cidrhost(iprange, hostnum)
- Takes an IP address range in CIDR notation and creates an IP address with the given host number. For example,cidrhost("10.0.0.0/8", 2)
returns10.0.0.2
. -
cidrnetmask(iprange)
- Takes an IP address range in CIDR notation and returns the address-formatted subnet mask format that some systems expect for IPv4 interfaces. For example,cidrmask("10.0.0.0/8")
returns255.0.0.0
. Not applicable to IPv6 networks since CIDR notation is the only valid notation for IPv6. -
cidrsubnet(iprange, newbits, netnum)
- Takes an IP address range in CIDR notation (like10.0.0.0/8
) and extends its prefix to include an additional subnet number. For example,cidrsubnet("10.0.0.0/8", 8, 2)
returns10.2.0.0/16
;cidrsubnet("2607:f298:6051:516c::/64", 8, 2)
returns2607:f298:6051:516c:200::/72
. -
coalesce(string1, string2, ...)
- Returns the first non-empty value from the given arguments. At least two arguments must be provided. -
compact(list)
- Removes empty string elements from a list. This can be useful in some cases, for example when passing joined lists as module variables or when parsing module outputs. Example:compact(module.my_asg.load_balancer_names)
-
concat(list1, list2)
- Combines two or more lists into a single list. Example:concat(aws_instance.db.*.tags.Name, aws_instance.web.*.tags.Name)
-
element(list, index)
- Returns a single element from a list at the given index. If the index is greater than the number of elements, this function will wrap using a standard mod algorithm. A list is only possible with splat variables from resources with a count greater than one. Example:element(aws_subnet.foo.*.id, count.index)
-
file(path)
- Reads the contents of a file into the string. Variables in this file are not interpolated. The contents of the file are read as-is. Thepath
is interpreted relative to the working directory. Path variables can be used to reference paths relative to other base locations. For example, when usingfile()
from inside a module, you generally want to make the path relative to the module base, like this:file("${path.module}/file")
. -
format(format, args...)
- Formats a string according to the given format. The syntax for the format is standardsprintf
syntax. Good documentation for the syntax can be found here. Example to zero-prefix a count, used commonly for naming servers:format("web-%03d", count.index + 1)
. -
formatlist(format, args...)
- Formats each element of a list according to the given format, similarly toformat
, and returns a list. Non-list arguments are repeated for each list element. For example, to convert a list of DNS addresses to a list of URLs, you might use:formatlist("https://%s:%s/", aws_instance.foo.*.public_dns, var.port)
. If multiple args are lists, and they have the same number of elements, then the formatting is applied to the elements of the lists in parallel. Example:formatlist("instance %v has private ip %v", aws_instance.foo.*.id, aws_instance.foo.*.private_ip)
. Passing lists with different lengths to formatlist results in an error. -
index(list, elem)
- Finds the index of a given element in a list. Example:index(aws_instance.foo.*.tags.Name, "foo-test")
-
join(delim, list)
- Joins the list with the delimiter. A list is only possible with splat variables from resources with a count greater than one. Example:join(",", aws_instance.foo.*.id)
-
jsonencode(item)
- Returns a JSON-encoded representation of the given item, which may be a string, list of strings, or map from string to string. Note that if the item is a string, the return value includes the double quotes. -
length(list)
- Returns a number of members in a given list or a number of characters in a given string.${length(split(",", "a,b,c"))}
= 3${length("a,b,c")}
= 5
-
lookup(map, key [, default])
- Performs a dynamic lookup into a mapping variable. Themap
parameter should be another variable, such asvar.amis
. Ifkey
does not exist inmap
, the interpolation will fail unless you specify a third argument,default
, which should be a string value to return if nokey
is found in `map. -
lower(string)
- Returns a copy of the string with all Unicode letters mapped to their lower case. -
md5(string)
- Returns a (conventional) hexadecimal representation of the MD5 hash of the given string. -
replace(string, search, replace)
- Does a search and replace on the given string. All instances ofsearch
are replaced with the value ofreplace
. Ifsearch
is wrapped in forward slashes, it is treated as a regular expression. If using a regular expression,replace
can reference subcaptures in the regular expression by using$n
wheren
is the index or name of the subcapture. If using a regular expression, the syntax conforms to the re2 regular expression syntax. -
sha1(string)
- Returns a (conventional) hexadecimal representation of the SHA-1 hash of the given string. Example:"${sha1("${aws_vpc.default.tags.customer}-s3-bucket")}"
-
sha256(string)
- Returns a (conventional) hexadecimal representation of the SHA-256 hash of the given string. Example:"${sha256("${aws_vpc.default.tags.customer}-s3-bucket")}"
-
signum(int)
- Returns -1 for negative numbers, 0 for 0 and 1 for positive numbers. This function is useful when you need to set a value for the first resource and a different value for the rest of the resources. Example:element(split(",", var.r53_failover_policy), signum(count.index))
where the 0th index points toPRIMARY
and 1st toFAILOVER
-
split(delim, string)
- Splits the string previously created byjoin
back into a list. This is useful for pushing lists through module outputs since they currently only support string values. Depending on the use, the string this is being performed within may need to be wrapped in brackets to indicate that the output is actually a list, e.g.a_resource_param = ["${split(",", var.CSV_STRING)}"]
. Example:split(",", module.amod.server_ids)
-
trimspace(string)
- Returns a copy of the string with all leading and trailing white spaces removed. -
upper(string)
- Returns a copy of the string with all Unicode letters mapped to their upper case. -
uuid()
- Returns a UUID string in RFC 4122 v4 format. This string will change with every invocation of the function, so in order to prevent diffs on every plan & apply, it must be used with theignore_changes
lifecycle attribute.
Templates
Long strings can be managed using templates. Templates are resources defined by a filename and some variables to use during interpolation. They have a computed rendered
attribute containing the result.
A template resource looks like:
resource "template_file" "example" {
template = "${hello} ${world}!"
vars {
hello = "goodnight"
world = "moon"
}
}
output "rendered" {
value = "${template_file.example.rendered}"
}
Then the rendered value would be goodnight moon!
.
You may use any of the built-in functions in your template.
Using Templates with Count
Here is an example that combines the capabilities of templates with the interpolation
from count
to give us a parametized template, unique to each resource instance:
variable "count" {
default = 2
}
variable "hostnames" {
default = {
"0" = "example1.org"
"1" = "example2.net"
}
}
resource "template_file" "web_init" {
// here we expand multiple template_files - the same number as we have instances
count = "${var.count}"
template = "${file("templates/web_init.tpl")}"
vars {
// that gives us access to use count.index to do the lookup
hostname = "${lookup(var.hostnames, count.index)}"
}
}
resource "aws_instance" "web" {
// ...
count = "${var.count}"
// here we link each web instance to the proper template_file
user_data = "${element(template_file.web_init.*.rendered, count.index)}"
}
With this, we will build a list of template_file.web_init
resources which we can
use in combination with our list of aws_instance.web
resources.
Math
Simple math can be performed in interpolations:
variable "count" {
default = 2
}
resource "aws_instance" "web" {
// ...
count = "${var.count}"
// tag the instance with a counter starting at 1, ie. web-001
tags {
Name = "${format("web-%03d", count.index + 1)}"
}
}
The supported operations are:
- Add (
+
), Subtract (-
), Multiply (*
), and Divide (/
) for float types - Add (
+
), Subtract (-
), Multiply (*
), Divide (/
), and Modulo (%
) for integer types
-> Note: Since Terraform allows hyphens in resource and variable names,
it's best to use spaces between math operators to prevent confusion or unexpected
behavior. For example, ${var.instance-count - 1}
will subtract 1 from the
instance-count
variable value, while ${var.instance-count-1}
will interpolate
the instance-count-1
variable value.