The environment affects the runtime behavior of a template. It provides a way to override the resource implementations and a mechanism to place parameters that the service needs.
To fully understand the runtime behavior you have to consider what plug-ins are installed on the cloud you’re using.
The environment is a yaml text file that contains two main sections:
parameters
resource_registry
It also can contain some other sections:
parameter_defaults
encrypted_parameters
event_sinks
parameter_merge_strategies
Use the -e option of the openstack stack create command to create a stack using the environment defined in such a file.
You can also provide environment parameters as a list of key/value pairs using the –parameter option of the openstack stack create command.
In the following example the environment is read from the my_env.yaml
file and an extra parameter is provided using the –parameter option:
$ openstack stack create my_stack -e my_env.yaml --parameter "param1=val1;param2=val2" -t my_tmpl.yaml
Parameters and their defaults (parameter_defaults
) are merged based on merge
strategies in an environment file.
There are three merge strategy types:
overwrite
merge
deep_merge
merge
.You can provide a default merge strategy and/or parameter specific merge strategies
per environment file. Parameter specific merge strategy is only used for that
parameter. An example of parameter_merge_strategies
section in an environment file:
parameter_merge_strategies:
default: merge
param1: overwrite
param2: deep_merge
If no merge strategy is provided in an environment file, overwrite
becomes the
default merge strategy for all parameters
and parameter_defaults
in that
environment file.
The environment used for a stack is the combination of the environment you use with the template for the stack, and a global environment that is determined by your cloud operator. An entry in the user environment takes precedence over the global environment. OpenStack includes a default global environment, but your cloud operator can add additional environment entries.
The cloud operator can add to the global environment
by putting environment files in a configurable directory wherever
the Orchestration engine runs. The configuration variable is named
environment_dir
and is found in the [DEFAULT]
section
of /etc/heat/heat.conf
. The default for that directory is
/etc/heat/environment.d
. Its contents are combined in whatever
order the shell delivers them when the service starts up,
which is the time when these files are read.
If the my_env.yaml
file from the example above had been put in the
environment_dir
then the user’s command line could be this:
openstack stack create my_stack --parameter "some_parm=bla" -t my_tmpl.yaml
A global template directory allows files to be pre-loaded in the global environment. A global template is determined by your cloud operator. An entry in the user template takes precedence over the global environment. OpenStack includes a default global template, but your cloud operator can add additional template entries.
The cloud operator can add new global templates by putting template
files in a configurable directory wherever the Orchestration engine runs.
The configuration variable is named template_dir
and is found in the
[DEFAULT]
section of /etc/heat/heat.conf
. The default for
that directory is /etc/heat/templates
. Its contents are
combined in whatever order the shell delivers them when the service
starts up, which is the time when these files are read.
If the my_tmpl.yaml
file from the example below has been put in the
template_dir
, other templates which we used to create stacks could
contain following way to include my_tmpl.yaml in it:
resourceA:
type: {get_file: "my_tmpl.yaml"}
You can define values for the template arguments in the parameters
section
of an environment file:
parameters:
KeyName: heat_key
InstanceType: m1.micro
ImageId: F18-x86_64-cfntools
You can define default values for all template arguments in the
parameter_defaults
section of an environment file. These defaults are
passed into all template resources:
parameter_defaults:
KeyName: heat_key
You can map one resource to another in the resource_registry
section
of an environment file. The resource you provide in this manner must have an
identifier, and must reference either another resource’s ID or the URL of an
existing template file.
The following example maps a new OS::Networking::FloatingIP
resource to an existing OS::Nova::FloatingIP
resource:
resource_registry:
"OS::Networking::FloatingIP": "OS::Nova::FloatingIP"
You can use wildcards to map multiple resources, for example to map all
OS::Neutron
resources to OS::Network
:
resource_registry:
"OS::Network*": "OS::Neutron*"
To create or override a resource with a custom resource, create a template file to define this resource, and provide the URL to the template file in the environment file:
resource_registry:
"AWS::EC2::Instance": file:///path/to/my_instance.yaml
The supported URL schemes are file
, http
and https
.
Note
The template file extension must be .yaml
or .template
, or it will
not be treated as a custom template resource.
You can limit the usage of a custom resource to a specific resource of the template:
resource_registry:
resources:
my_db_server:
"OS::DBInstance": file:///home/mine/all_my_cool_templates/db.yaml
If you want to debug your stack as it’s being created, updated or deleted, or
if you want to run it in phases, you can set pre-create
, pre-update
,
pre-delete
, post-create
, post-update
and post-delete
hooks in
the resources
section of resource_registry
.
To set a hook, add either hooks: $hook_name
(for example hooks:
pre-update
) to the resource’s dictionary. You can also use a list (hooks:
[pre-create, pre-update]
) to stop on several actions.
You can combine hooks with other resources
properties such as provider
templates or type mapping:
resource_registry:
resources:
my_server:
"OS::DBInstance": file:///home/mine/all_my_cool_templates/db.yaml
hooks: pre-create
nested_stack:
nested_resource:
hooks: pre-update
another_resource:
hooks: [pre-create, pre-update]
When heat encounters a resource that has a hook, it pauses the resource action until the hook clears. Any resources that depend on the paused action wait as well. Non-dependent resources are created in parallel unless they have their own hooks.
It is possible to perform a wild card match using an asterisk (*) in the
resource name. For example, the following entry pauses while creating
app_server
and database_server
, but not server
or app_network
:
resource_registry:
resources:
"*_server":
hooks: pre-create
Clear hooks by signaling the resource with {unset_hook: $hook_name}
(for
example {unset_hook: pre-update}
).
By default events are stored in the database and can be retrieved via the API. Using the environment, you can register an endpoint which will receive events produced by your stack, so that you don’t have to poll Heat.
You can specify endpoints using the event_sinks
property:
event_sinks:
- type: zaqar-queue
target: myqueue
ttl: 1200
If you want to restrict update or replace of a resource when your stack is
being updated, you can set restricted_actions
in the resources
section of resource_registry
.
To restrict update or replace, add restricted_actions: update
or
restricted_actions: replace
to the resource dictionary. You can also
use [update, replace]
to restrict both actions.
You can combine restricted actions with other resources
properties such
as provider templates or type mapping or hooks:
resource_registry:
resources:
my_server:
"OS::DBInstance": file:///home/mine/all_my_cool_templates/db.yaml
restricted_actions: replace
hooks: pre-create
nested_stack:
nested_resource:
restricted_actions: update
another_resource:
restricted_actions: [update, replace]
It is possible to perform a wild card match using an asterisk (*) in the
resource name. For example, the following entry restricts replace for
app_server
and database_server
, but not server
or app_network
:
resource_registry:
resources:
"*_server":
restricted_actions: replace
Except where otherwise noted, this document is licensed under Creative Commons Attribution 3.0 License. See all OpenStack Legal Documents.