Template composition

Template composition

When writing complex templates you are encouraged to break up your template into separate smaller templates. These can then be brought together using template resources. This is a mechanism to define a resource using a template, thus composing one logical stack with multiple templates.

Template resources provide a feature similar to the AWS::CloudFormation::Stack resource, but also provide a way to:

  • Define new resource types and build your own resource library.

  • Override the default behavior of existing resource types.

To achieve this:

  • The Orchestration client gets the associated template files and passes them along in the files section of the POST stacks/ API request.

  • The environment in the Orchestration engine manages the mapping of resource type to template creation.

  • The Orchestration engine translates template parameters into resource properties.

The following examples illustrate how you can use a custom template to define new types of resources. These examples use a custom template stored in a my_nova.yaml file

heat_template_version: 2015-04-30

parameters:
  key_name:
    type: string
    description: Name of a KeyPair

resources:
  server:
    type: OS::Nova::Server
    properties:
      key_name: {get_param: key_name}
      flavor: m1.small
      image: ubuntu-trusty-x86_64

Use the template filename as type

The following template defines the my_nova.yaml file as value for the type property of a resource

heat_template_version: 2015-04-30

resources:
  my_server:
    type: my_nova.yaml
    properties:
      key_name: my_key

The key_name argument of the my_nova.yaml template gets its value from the key_name property of the new template.

Note

The above reference to my_nova.yaml assumes it is in the same directory. You can use any of the following forms:

  • Relative path (my_nova.yaml)

  • Absolute path (file:///home/user/templates/my_nova.yaml)

  • Http URL (http://example.com/templates/my_nova.yaml)

  • Https URL (https://example.com/templates/my_nova.yaml)

To create the stack run:

$ openstack stack create -t main.yaml stack1

Define a new resource type

You can associate a name to the my_nova.yaml template in an environment file. If the name is already known by the Orchestration module then your new resource will override the default one.

In the following example a new OS::Nova::Server resource overrides the default resource of the same name.

An env.yaml environment file holds the definition of the new resource

resource_registry:
  "OS::Nova::Server": my_nova.yaml

Note

See Environments for more detail about environment files.

You can now use the new OS::Nova::Server in your new template

heat_template_version: 2015-04-30

resources:
  my_server:
    type: OS::Nova::Server
    properties:
      key_name: my_key

To create the stack run:

$ openstack stack create -t main.yaml -e env.yaml example-two

Get access to nested attributes

There are implicit attributes of a template resource. Accessing nested attributes requires heat_template_version 2014-10-16 or higher. These are accessible as follows

heat_template_version: 2015-04-30

resources:
  my_server:
    type: my_nova.yaml

outputs:
  test_out:
    value: {get_attr: my_server, resource.server, first_address}

Making your template resource more “transparent”

Note

Available since 2015.1 (Kilo).

If you wish to be able to return the ID of one of the inner resources instead of the nested stack’s identifier, you can add the special reserved output OS::stack_id to your template resource

heat_template_version: 2015-04-30

resources:
  server:
    type: OS::Nova::Server

outputs:
  OS::stack_id:
    value: {get_resource: server}

Now when you use get_resource from the outer template heat will use the nova server id and not the template resource identifier.

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