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Information about writing providers to provide implementation for types.
The core of Puppet’s cross-platform support is via Resource Providers, which are essentially back-ends that implement support for a specific implementation of a given resource type. For instance, there are more than 20 package providers, including providers for package formats like dpkg and rpm along with high-level package managers like apt and yum. A provider’s main job is to wrap client-side tools, usually by just calling out to those tools with the right information.
Not all resource types have or need providers, but any resource type concerned about portability will likely need them.
We will use the apt and dpkg package providers as examples throughout this document, and the examples used are current as of 0.23.0.
Providers are always associated with a single resource type, so
they are created by calling the
provide method on that
resource type. The
provide method takes three arguments plus a block:
- The first argument must be the name of the provider, as a
- The optional
:parentargument should be the name of a parent class.
- The optional
:sourceargument should be a symbol.
- The block takes no arguments, and implements the behavior of the provider.
When declaring a provider, you can specify a parent class. There are several different kinds of parent you can use.
A provider can inherit from a base provider, which is never used alone and only exists for other providers to inherit from. Use the full name of the class.
For example, all package providers have a common parent class:
Puppet::Type.type(:package).provide(:dpkg, :parent => Puppet::Provider::Package) do desc "..." ... end
Note the call to the
desc method; this sets the documentation for this
provider, and should include everything necessary for someone to
use this provider.
Another Provider of the Same Resource Type
Providers can also specify another provider as their parent. If it’s a provider for the same resource type, you can use the name of that provider as a symbol.
Puppet::Type.type(:package).provide(:apt, :parent => :dpkg, :source => :dpkg) do ... end
Note that we’re also specifying that this provider uses the dpkg
source; this tells Puppet to deduplicate packages from dpkg and
apt, so the same package does not show up in an instance list from
each provider type. Puppet defaults to creating a new source for
each provider type, so you have to specify when a provider subclass
shares a source with its parent class.
A Provider of Any Resource Type
Providers can also specify a provider of any resource type as their parent. Use the
Puppet::Type.type(<NAME>).provider(<NAME>) methods to locate the provider.
For example, the
ruby provider (from the puppetlabs/inifile module) can be re-used to implement new resource types that act like INI settings:
# my_module/lib/puppet/provider/glance_api_config/ini_setting.rb Puppet::Type.type(:glance_api_config).provide( :ini_setting, # set ini_setting as the parent provider :parent => Puppet::Type.type(:ini_setting).provider(:ruby) ) do # implement section as the first part of the namevar def section resource[:name].split('/', 2).first end def setting # implement setting as the second part of the namevar resource[:name].split('/', 2).last end # hard code the file path (this allows purging) def self.file_path '/etc/glance/glance-api.conf' end end
The first question to ask about a new provider is where it will be functional, which Puppet describes as suitable. Unsuitable providers cannot be used to do any work, although as of Puppet 2.7.8 the suitability test is late-binding, meaning that you can have a resource in your configuration that makes a provider suitable. If you start puppetd or puppet in debug mode, you’ll see the results of failed provider suitability tests for the resource types you’re using.
Puppet providers include some helpful class-level methods you can use to both document and declare how to determine whether a given provider is suitable. The primary method is commands, which actually does two things for you: It declares that this provider requires the named binary, and it sets up class and instance methods with the name provided that call the specified binary. The binary can be fully qualified, in which case that specific path is required, or it can be unqualified, in which case Puppet will find the binary in the shell path and use that. If the binary cannot be found, then the provider is considered unsuitable. For example, here is the header for the dpkg provider (as of 0.23.0):
commands :dpkg => "/usr/bin/dpkg" commands :dpkg_deb => "/usr/bin/dpkg-deb" commands :dpkgquery => "/usr/bin/dpkg-query"
In addition to looking for binaries, Puppet can compare Facter facts, test for the existence of a file, check for a “feature” such as a library, or test whether a given value is true or false. For file existence, truth, or false, just call the confine class method with exists, true, or false as the name of the test and your test as the value:
confine :exists => "/etc/debian_release" confine :true => /^10\.[0-4]/.match(product_version) confine :false => (Puppet[:ldapuser] == "")
To test Facter values, just use the name of the fact:
confine :operatingsystem => [:debian, :solaris] confine :puppetversion => "0.23.0"
Note that case doesn’t matter in the tests, nor does it matter whether the values are strings or symbols. It also doesn’t matter whether you specify an array or a single value — Puppet does an OR on the list of values.
To test a feature, as defined in
lib/puppet/feature/*.rb, just supply
the name of the feature. This is preferable to using a
confine :true statement that calls
Puppet.features because the
expression is only evaluated once. As of 2.7.20, Puppet will enable
the provider if the feature becomes available during a run (i.e. a
package is installed).
confine :feature => :posix confine :feature => :rrd
You can also create your own custom feature. They live in
lib/puppet/feature/*.rb and an example can be found
These features can be shipped in a similar manner as types and providers
are shipped within modules and will be pluginsynced.
Using custom features you can delay resource evaluation until the provider becomes suitable. This means that if your provider depends on a file being created by Puppet you can inform Puppet of this fact. It can also depend on a certain Fact being set to some value or it not being set at all.
Providers are generally meant to be hidden from the users, allowing them to focus on resource specification rather than implementation details. Toward this end, Puppet does what it can to choose an appropriate default provider for each resource type.
This is generally done by a single provider declaring that it is the default for a given set of facts, using the defaultfor class method. For instance, this is the apt provider’s declaration:
defaultfor :operatingsystem => :debian
The same fact matching functionality is used, so again case does not matter.
Providers never do anything on their own; all of their action is triggered through an associated resource (or, in special cases, from the transaction). Because of this, resource types are essentially free to define their own provider interface if necessary, and providers were initially developed without a clear resource/provider API (mostly because it wasn’t clear whether such an API was necessary or what it would look like). At this point, however, there is a default interface between the resource type and the provider.
This interface consists entirely of getter and setter methods. When the resource is retrieving its current state, it iterates across all of its properties and calls the getter method on the provider for that property. For instance, when a user resource is having its state retrieved and its uid and shell properties are being managed, then the resource will call uid and shell on the provider to figure out what the current state of each of those properties is. This method call is in the retrieve method in Puppet::Property.
When a resource is being modified, it calls the equivalent setter method for each property on the provider. Again using our user example, if the uid was in sync but the shell was not, then the resource would call shell=(value) with the new shell value.
The transaction is responsible for storing these returned values and deciding which value to actually send, and it does its work through a PropertyChange instance. It calls sync on each of the properties, which in turn just call the setter by default.
You can override that interface as necessary for your resource type, but in the hopefully-near future this API will become more solidified.
Note that all providers must define an instances class method that returns a list of provider instances, one for each existing instance of that provider. For instance, the dpkg provider should return a provider instance for every package in the dpkg database.
By default, you have to define all of your getter and setter methods. For simple cases, this is sufficient — you just implement the code that does the work for that property.
However, because things are rarely so simple, Puppet attempts to help in a few ways.
First, Puppet transactions will prefetch provider information by calling prefetch on each used provider type. This calls the instances method in turn, which returns a list of provider instances with the current resource state already retrieved and stored in a @property_hash instance variable. The prefetch method then tries to find any matching resources, and assigns the retrieved providers to found resources. This way you can get information on all of the resources you’re managing in just a few method calls, instead of having to call all of the getter methods for every property being managed. Note that it also means that providers are often getting replaced, so you cannot maintain state in a provider.
For providers that directly modify the system when a setter method is called, there’s no substitute for defining them manually. But for resources that get flushed to disk in one step, such as the ParsedFile providers, there is a mk_resource_methods class method that creates a getter and setter for each property on the resource. These methods just retrieve and set the appropriate value in the @property_hash variable.
Many providers model files or parts of files, so it makes sense to save all of the writes up and do them in one run. Providers in need of this functionality can define a flush instance method to do this. The transaction will call this method after all values are synced (which means that the provider should have them all in its @property_hash variable) but before refresh is called on the resource (if appropriate).