The generate_hcl
block
Terramate supports the generation of arbitrary HCL code such as Terraform, OpenTofu and other HCL configurations, referencing data such as Variables and Metadata.
The generate_hcl
block
HCL code generation is done using generate_hcl
blocks in Terramate configuration files. References to Terramate globals and metadata are evaluated, but any other reference is just transported to the generated code (For details, please see partial evaluation).
# example.tm.hcl
generate_hcl "backend.tf" {
content {
backend "local" {}
}
}
The label of the generate_hcl
block names the file that will be generated within a stack. For more details about how code generation uses labels check the Labels Overview docs.
Argument reference of the generate_hcl
block
content
(required block) Thecontent
block defines the HCL code that will be generated as file content. It supports block definitions, attributes and expressions. Terramate Variables and Terramate Functions can be used and will be interpolated during code generation.The following variable namespaces are available within the
content
block:hclcontent { backend "local" {} }
In addition, the special block
tm_dynamic
is available to generate dynamic content. Any references to functions, variables or blocks that Terramate is unaware of will be rendered as-is. See partial code generation for details.lets
(optional block) One or morelets
blocks can be used to define Lets variables that can be used in other arguments within thegenerate_hcl
block and in thecontent
block and are only available inside the currentgenerate_hcl
block.hcllets { temp_a_plus_b = global.a + global.b }
TIP
Use Lets over Global variables whenever you want to provide computed variables available inside the current
generate_hcl
block only.stack_filter
(optional block) Stack filter allow to filter stacks where the code generation should be executed. Currently, only path-based filters are available but tag-based filters are coming soon. Stack filters support neither Terramate Functions nor Terramate Variables. For advanced filtering of stacks based on additional conditions and complex expressions please usecondition
argument.stack_filter
blocks have precedence overconditions
and will be executed first for performance reasons. A stack will only be selected for code generation if anystack_filter
istrue
and thecondition
istrue
too.Each
stack_filter
block supports one or more of the following arguments. When specifying more attributes, all need to betrue
to mark thestack_filter
block astrue
.project_paths
(optional list of strings) A list of patterns matched against the absolute project path of the stack. The patterns support globbing but no regular expressions. Any matched path in the list will mark the project path filter astrue
.repository_paths
(optional list of strings) A list of patterns matched against the absolute repository path of the stack. The patterns support globbing but no regular expressions. Any matched path in the list will mark the repository path filter astrue
.
hclstack_filter { project_paths = [ "/path/to/specific/stack", # match exact path "/path/to/some/stacks/*", # match stacks in a directory "/path/to/many/stacks/**", # match all stacks within a tree ] }
condition
(optional boolean) Thecondition
attribute supports any expression that renders to a boolean. Terramate Variables (let
,global
, andterramate
namespaces) and all Terramate Functions are supported. Variables are evaluated with the stack context. For details, please see Lazy Evaluation. If the condition istrue
and anystack_filter
(if defined) istrue
the stack is selected for generating the code. As evaluating the condition for multiple stacks can be slow, usingstack_filter
for path-based generation is recommended.hclcondition = tm_anytrue([ tm_contains(terramate.stack.tags, "my-tag"), # only render if tag is set tm_try(global.render_stack, false), # only render if `render_stack` is `true` ])
assert
(optional block) One or moreassert
blocks can be used to prevent wrong configurations in code generation assertion can be set to guarantee all preconditions for generating code are satisfied. Eachassert
block supports the following arguments:assertion
(required boolean) When the boolean expression isfalse
the assertion is triggered and themessage
is printed to the user. Terramate Variables (let
,global
, andterramate
namespaces) and all Terramate Functions are supported.message
(required string) A descriptive message to present to the user to inform about the causes that made an assertion fail. Terramate Variables (let
,global
, andterramate
namespaces) and all Terramate Functions are supported.warning
(optional boolean) When set totrue
the code generation will not fail, but a warning is issued to the user. Default isfalse
. Terramate Variables (let
,global
, andterramate
namespaces) and all Terramate Functions are supported.
hclassert { assertion = tm_can(global.is_enabled) message = "'global.is_enabled' needs to be set to either true or false" }
The tm_dynamic
block
INFO
The tm_dynamic
block is only supported within the content
block of a generate_hcl
block.
Additionally, a labels
attribute can be provided for generating the block's labels. Example:
globals {
values = ["a", "b", "c"]
}
generate_hcl "file.tf" {
content {
tm_dynamic "block" {
for_each = global.values
iterator = value
labels = ["some", "labels", value.value]
content {
key = value.key
value = value.value
}
}
}
}
which generates:
block "some" "labels" "a" {
key = 0
value = "a"
}
block "some" "labels" "b" {
key = 1
value = "b"
}
block "some" "labels" "c" {
key = 2
value = "c"
}
The labels
must evaluate to a list of strings, otherwise it fails.
The tm_dynamic
content block only evaluates the Terramate variables/functions, everything else is just copied as is to the final generated code.
The same goes when using attributes
:
globals {
values = ["a", "b", "c"]
}
generate_hcl "file.tf" {
content {
tm_dynamic "block" {
for_each = global.values
iterator = value
attributes = {
attr = "index: ${value.key}, value: ${value.value}"
attr2 = not_evaluated.attr
}
}
}
}
Also generates a file.tf
file like this:
block {
attr = "index: 0, value: a"
attr2 = not_evaluated.attr
}
block {
attr = "index: 1, value: b"
attr2 = not_evaluated.attr
}
block {
attr = "index: 2, value: c"
attr2 = not_evaluated.attr
}
The for_each
attribute is optional. If it is not defined then only a single block will be generated and no iterator will be available on block generation.
The tm_dynamic
block also supports an optional condition
attribute that must evaluate to a boolean. When not defined it is assumed to be true. If the condition
is false the tm_dynamic
block is ignored, including any of its nested tm_dynamic
blocks. No other attribute of the tm_dynamic
block is evaluated if the condition
is false, so it is safe to use it like this:
generate_hcl "file.tf" {
content {
tm_dynamic "block" {
for_each = global.values
condition = tm_can(global.values)
iterator = value
attributes = {
attr = "index: ${value.key}, value: ${value.value}"
attr2 = not_evaluated.attr
}
}
}
}
And if global.values
is undefined the block is just ignored.
Filter-based Code Generation
To only generate HCL code for stacks matching specific criteria, a stack_filter
block can be added within a generate_hcl
block.
The following filter attributes for path filtering are supported:
project_paths
: Match any of the given stack paths relative to the project root.repository_paths
: Match any of the given stack paths relative to the repository root.
Stack paths support glob-style wildcards:
*
matches any sequence of characters until the next directory separator (/
).**
matches any sequence of characters.
Unless a path starts with *
or /
, it is implicitly prefixed with **/
.
If multiple attributes are set per stack_filter
, all of them must match.
If multiple stack_filter
blocks are added, at least one must match.
Here's an example:
generate_hcl "file" {
stack_filter {
project_paths = ["networking/**"]
}
content {
resource "networking_resource" "name" {
# ...
}
}
}
This generates a file containing a networking resource only for stacks located within a directory named networking
. The implicitly added prefix **/
means that this directory can be located anywhere in our project. The suffix /**
means that the stack can be in any nested sub-directory of a networking
directory.
If we change the attribute to project_paths = ["/networking/*"]
, it only matches stacks that are directly in a networking
directory located at the project root level.
If more complex logic is required to decide if a file should be generated, see the condition
attribute described in the next section.
Conditional Code Generation
Conditional code generation is achieved by the use of the condition
attribute. The condition
attribute should always evaluate to a boolean. The file will be generated only if it evaluates to true.
If the condition
attribute is absent then it is assumed to be true.
Any expression that produces a boolean can be used, including references to globals and function calls. For example:
generate_hcl "file" {
condition = tm_length(global.list) > 0
content {
locals {
list = global.list
}
}
}
Will only generate the file for stacks that the expression tm_length(global.list) > 0
evaluates to true.
When condition
is false the content
block won't be evaluated.
- A single label is required to define the type of the block to be dynamically generated. If the block needs to specify any labels the
labels
argument can be used to populate any number of labels. labels
(optional list of string) Define any number of labels the block shall be generated with. Terramate Variables (let
,global
, andterramate
namespaces) and all Terramate Functions are supported when defining labels. In addition, theiterator
namespace is available which defaults to the label of the block being generated but can be renamed by using theiterator
argument.content
(optional block) Thecontent
block is optional whenattributes
are defined. It supports the same features as thegenerate_hcl.content
block. Terramate Variables (let
,global
, andterramate
namespaces) and all Terramate Functions are supported when defining labels. In addition, theiterator
namespace is available which defaults to the label of the block being generated but can be renamed by using theiterator
argument.attributes
(optional map) Theattributes
argument specifies a map of attributes that shall be rendered inside the generated block. Thoseattributes
are merged with attributes and blocks defined in thecontent
block, but they can not conflict, meaning any given attribute can either defined inattributes
orcontent
but not in both. Terramate Variables (let
,global
, andterramate
namespaces) and all Terramate Functions are supported when defining labels. In addition, theiterator
namespace is available which defaults to the label of the block being generated but can be renamed by using theiterator
argument.for_each
(optional list or map of any type) Thefor_each
argument provides the complex list of values to iterate over. In each iteration, theiterator
will be populated with avalue
of the current element. The element is accessible using theiterator
namespace and defaults to the label of the block being generated. The value can be accessed with thevalue
field.iterator
(optional string) Theiterator
sets the name of a temporary variable namespace that represents the current element of the complex value defined infor_each
. If omitted, the name of the variable defaults to the label of thedynamic
block.condition
(optional boolean) Instead of using thefor_each
thecondition
argument can be used for triggering generating the block based on an expression. Terramate Variables (let
,global
, andterramate
namespaces) and all Terramate Functions are supported when defining labels.
Partial Evaluation
A partial evaluation strategy is used when generating HCL code. This means that you can generate code with unknown references/function calls and those will be copied verbatim to the generated code.
Let's assume we have a single global as Terramate data:
globals {
terramate_data = "terramate_data"
}
And we want to mix those Terramate references with Terraform references, like locals, vars, outputs, etc. All we have to do is define our generate_hcl
block like this:
generate_hcl "main.tf" {
content {
resource "myresource" "name" {
count = var.enabled ? 1 : 0
data = global.terramate_data
path = terramate.path
name = local.name
}
}
}
And it will generate the following main.tf
file:
resource "myresource" "name" {
count = var.enabled ? 1 : 0
data = "terramate_data"
path = "/path/to/stack"
name = local.name
}
The global.terramate_data
and terramate.path
references were evaluated, but the references to var.enabled
and local.name
were retained as is, hence the partial evaluation.
Function calls are also partially evaluated. Any unknown function call will be retained as is, but any function call starting with the prefix tm_
is considered a Terramate function and will be evaluated. Terramate function calls can only have as parameters Terramate references or literals.
For example, given:
generate_hcl "main.tf" {
content {
resource "myresource" "name" {
data = tm_upper(global.terramate_data)
name = upper(local.name)
}
}
}
This will be generated:
resource "myresource" "name" {
data = "TERRAMATE_DATA"
name = upper(local.name)
}
If one of the parameters of an unknown function call is a Terramate reference the value of the Terramate reference will be replaced on the function call.
This:
generate_hcl "main.tf" {
content {
resource "myresource" "name" {
data = upper(global.terramate_data)
name = upper(local.name)
}
}
}
Generates:
generate_hcl "main.tf" {
content {
resource "myresource" "name" {
data = upper("terramate_data")
name = upper(local.name)
}
}
}
Currently, there is no partial evaluation of for
expressions. Referencing Terramate data inside a for
expression will result in an error (for
expressions with unknown references are copied as is).