The poise cookbook is a set of libraries for writing reusable cookbooks. It provides helpers for common patterns and a standard structure to make it easier to create flexible cookbooks.
Rather than LWRPs, Poise promotes the idea of using normal, or "heavy weight"
resources, while including helpers to reduce much of boilerplate needed for this. Each resource goes in its own file under libraries/
named to match
the resource, which is in turn based on the class name. This means that the file libraries/my_app.rb
would contain Chef::Resource::MyApp
which maps to the resource my_app
.
An example of a simple shell to start from:
require 'poise'
require 'chef/resource'
require 'chef/provider'
module MyApp
class Resource < Chef::Resource
include Poise
provides(:my_app)
actions(:enable)
attribute(:path, kind_of: String)
# Other attribute definitions.
end
class Provider < Chef::Provider
include Poise
provides(:my_app)
def action_enable
notifying_block do
... # Normal Chef recipe code goes here
end
end
end
end
Starting from the top, first we require the libraries we will be using. Then we
create a module to hold our resource and provider. If your cookbook declares
multiple resources and/or providers, you might want additional nesting here.
Then we declare the resource class, which inherits from Chef::Resource
. This
is similar to the resources/
file in an LWRP, and a similar DSL can be used.
We then include the Poise
mixin to load our helpers, and then call
provides(:my_app)
to tell Chef this class will implement the my_app
resource. Then we use the familiar DSL, though with a few additions we'll cover
later.
Then we declare the provider class, again similar to the providers/
file in an
LWRP. We include the Poise
mixin again to get access to all the helpers and
call provides()
to tell Chef what provider this is. Rather than use the
action :enable do ... end
DSL from LWRPs, we just define the action method
directly. The implementation of action comes from a block of recipe code
wrapped with notifying_block
to capture changes in much the same way as
use_inline_resources
, see below for more information about all the features of
notifying_block
.
We can then use this resource like any other Chef resource:
my_app 'one' do
path '/tmp'
end
While not exposed as a specific method, Poise will automatically set the
resource_name
based on the class name.
As mentioned above, notifying_block
is similar to use_inline_resources
in LWRPs. Any Chef resource created inside the block will be converged in a sub-context and if any have updated it will trigger notifications on the current resource. Unlike use_inline_resources
, resources inside the sub-context can still see resources outside of it, with lookups propagating up sub-contexts until a match is found. Also any delayed notifications are scheduled to run at the end of the main converge cycle, instead of the end of this inner converge.
This can be used to write action methods using the normal Chef recipe DSL, while still offering more flexibility through subclassing and other forms of code reuse.
In keeping with notifying_block
to implement action methods using the Chef DSL, Poise adds an include_recipe
helper to match the method of the same name in recipes. This will load and converge the requested recipe.
To make writing resource classes easier, Poise exposes a DSL similar to LWRPs for defining actions and attributes. Both actions
and
default_action
are just like in LWRPs, though default_action
is rarely needed as the first action becomes the default. attribute
is also available just like in LWRPs, but with some enhancements noted below.
One notable difference over the standard DSL method is that Poise attributes can take a block argument.
A common pattern with resources is to allow passing either a template filename or raw file content to be used in a configuration file. Poise exposes a new attribute flag to help with this behavior:
attribute(:name, template: true)
This creates four methods on the class, name_source
, name_cookbook
,
name_content
, and name_options
. If the name is set to ''
, no prefix is applied to the function names. The content method can be set directly, but if not set and source is set, then it will render the template and return it as a string. Default values can also be set for any of these:
attribute(:name, template: true, default_source: 'app.cfg.erb',
default_options: {host: 'localhost'})
As an example, you can replace this:
if new_resource.source
template new_resource.path do
source new_resource.source
owner 'app'
group 'app'
variables new_resource.options
end
else
file new_resource.path do
content new_resource.content
owner 'app'
group 'app'
end
end
with simply:
file new_resource.path do
content new_resource.content
owner 'app'
group 'app'
end
As the content method returns the rendered template as a string, this can also be useful within other templates to build from partials.
One issue with Poise-style resources is that when the class definition is executed, Chef hasn't loaded very far so things like the node object are not yet available. This means setting defaults based on node attributes does not work directly:
attribute(:path, default: node['myapp']['path'])
...
NameError: undefined local variable or method 'node'
To work around this, Poise extends the idea of lazy initializers from Chef recipes to work with resource definitions as well:
attribute(:path, default: lazy { node['myapp']['path'] })
These initializers are run in the context of the resource object, allowing complex default logic to be moved to a method if desired:
attribute(:path, default: lazy { my_default_path })
def my_default_path
...
end
Another common pattern with resources is to need a set of key/value pairs for configuration data or options. This can done with a simple Hash, but an option collector attribute can offer a nicer syntax:
attribute(:mydata, option_collector: true)
...
my_app 'name' do
mydata do
key1 'value1'
key2 'value2'
end
end
This will be converted to {key1: 'value1', key2: 'value2'}
. You can also pass a Hash to an option collector attribute just as you would with a normal attribute.
Poise has its own extra-verbose level of debug logging that can be enabled in
three different ways. You can either set the environment variable $POISE_DEBUG
,
set a node attribute node['POISE_DEBUG']
, or touch the file /POISE_DEBUG
.
You will see a log message Extra verbose logging enabled
at the start of the
run to confirm Poise debugging has been enabled. Make sure you also set Chef's
log level to debug
, usually via -l debug
on the command line.
The biggest change when upgrading from Poise 1.0 is that the mixin is no longer
loaded automatically. You must add require 'poise'
to your code is you want to
load it, as you would with normal Ruby code outside of Chef. It is also highly
recommended to add provides(:name)
calls to your resources and providers, this
will be required in Chef 13 and will display a deprecation warning if you do
not. This also means you can move your code out of the Chef
module namespace
and instead declare it in your own namespace. An example of this is shown above.
The Poise test server infrastructure is generously sponsored by Rackspace. Thanks Rackspace!
Copyright 2013-2016, Noah Kantrowitz
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.