151 lines
4.6 KiB
Plaintext
151 lines
4.6 KiB
Plaintext
---
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page_title: templatefile - Functions - Configuration Language
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description: |-
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The templatefile function reads the file at the given path and renders its
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content as a template.
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---
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# `templatefile` Function
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`templatefile` reads the file at the given path and renders its content
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as a template using a supplied set of template variables.
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```hcl
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templatefile(path, vars)
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```
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The template syntax is the same as for
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[string templates](/language/expressions/strings#string-templates)
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in the main Terraform language, including interpolation sequences delimited with
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`${` ... `}`. This function just allows longer template sequences to be factored
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out into a separate file for readability.
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The "vars" argument must be a map. Within the template file, each of the keys
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in the map is available as a variable for interpolation. The template may
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also use any other function available in the Terraform language, except that
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recursive calls to `templatefile` are not permitted. Variable names must
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each start with a letter, followed by zero or more letters, digits, or
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underscores.
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Strings in the Terraform language are sequences of Unicode characters, so
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this function will interpret the file contents as UTF-8 encoded text and
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return the resulting Unicode characters. If the file contains invalid UTF-8
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sequences then this function will produce an error.
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This function can be used only with files that already exist on disk at the
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beginning of a Terraform run. Functions do not participate in the dependency
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graph, so this function cannot be used with files that are generated
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dynamically during a Terraform operation.
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`*.tftpl` is the recommended naming pattern to use for your template files.
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Terraform will not prevent you from using other names, but following this
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convention will help your editor understand the content and likely provide
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better editing experience as a result.
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## Examples
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### Lists
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Given a template file `backends.tftpl` with the following content:
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```
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%{ for addr in ip_addrs ~}
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backend ${addr}:${port}
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%{ endfor ~}
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```
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The `templatefile` function renders the template:
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```
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> templatefile("${path.module}/backends.tftpl", { port = 8080, ip_addrs = ["10.0.0.1", "10.0.0.2"] })
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backend 10.0.0.1:8080
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backend 10.0.0.2:8080
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```
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### Maps
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Given a template file `config.tftpl` with the following content:
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```
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%{ for config_key, config_value in config }
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set ${config_key} = ${config_value}
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%{ endfor ~}
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```
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The `templatefile` function renders the template:
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```
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> templatefile(
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"${path.module}/config.tftpl",
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{
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config = {
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"x" = "y"
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"foo" = "bar"
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"key" = "value"
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}
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}
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)
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set foo = bar
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set key = value
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set x = y
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```
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### Generating JSON or YAML from a template
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If the string you want to generate will be in JSON or YAML syntax, it's
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often tricky and tedious to write a template that will generate valid JSON or
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YAML that will be interpreted correctly when using lots of individual
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interpolation sequences and directives.
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Instead, you can write a template that consists only of a single interpolated
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call to either [`jsonencode`](/language/functions/jsonencode) or
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[`yamlencode`](/language/functions/yamlencode), specifying the value to encode using
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[normal Terraform expression syntax](/language/expressions)
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as in the following examples:
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```
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${jsonencode({
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"backends": [for addr in ip_addrs : "${addr}:${port}"],
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})}
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```
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```
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${yamlencode({
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"backends": [for addr in ip_addrs : "${addr}:${port}"],
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})}
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```
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Given the same input as the `backends.tftpl` example in the previous section,
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this will produce a valid JSON or YAML representation of the given data
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structure, without the need to manually handle escaping or delimiters.
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In the latest examples above, the repetition based on elements of `ip_addrs` is
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achieved by using a
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[`for` expression](/language/expressions/for)
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rather than by using
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[template directives](/language/expressions/strings#directives).
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```json
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{"backends":["10.0.0.1:8080","10.0.0.2:8080"]}
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```
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If the resulting template is small, you can choose instead to write
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`jsonencode` or `yamlencode` calls inline in your main configuration files, and
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avoid creating separate template files at all:
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```hcl
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locals {
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backend_config_json = jsonencode({
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"backends": [for addr in ip_addrs : "${addr}:${port}"],
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})
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}
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```
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For more information, see the main documentation for
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[`jsonencode`](/language/functions/jsonencode) and [`yamlencode`](/language/functions/yamlencode).
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## Related Functions
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* [`file`](/language/functions/file) reads a file from disk and returns its literal contents
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without any template interpretation.
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