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filemapper

Developer extension for permitting complex manipulation of file contents as resources

399,378 downloads

5,654 latest version

4.7 quality score

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Version information

  • 4.0.0 (latest)
  • 3.1.0
  • 3.0.2
  • 3.0.1
  • 3.0.0
  • 2.1.0
  • 2.0.1
  • 2.0.0
released Nov 30th 2023
This version is compatible with:
  • Puppet Enterprise 2023.8.x, 2023.7.x, 2023.6.x, 2023.5.x, 2023.4.x, 2023.3.x, 2023.2.x, 2023.1.x, 2023.0.x, 2021.7.x, 2021.6.x, 2021.5.x, 2021.4.x, 2021.3.x, 2021.2.x, 2021.1.x, 2021.0.x
  • Puppet >= 7.0.0 < 9.0.0

Start using this module

  • r10k or Code Manager
  • Bolt
  • Manual installation
  • Direct download

Add this module to your Puppetfile:

mod 'puppet-filemapper', '4.0.0'
Learn more about managing modules with a Puppetfile

Add this module to your Bolt project:

bolt module add puppet-filemapper
Learn more about using this module with an existing project

Manually install this module globally with Puppet module tool:

puppet module install puppet-filemapper --version 4.0.0

Direct download is not typically how you would use a Puppet module to manage your infrastructure, but you may want to download the module in order to inspect the code.

Download

Documentation

puppet/filemapper — version 4.0.0 Nov 30th 2023

FileMapper module for Puppet

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Synopsis

Map files to resources and back with this handy dandy mixin!

Description

Things that are harder than they should be:

  • Acquiring a pet monkey
  • Getting anywhere in Los Angeles
  • Understanding the ParsedFile provider
  • Writing Puppet providers that directly manipulate files

The solution for this is to completely bypass parsing in any sort of base provider, and delegate the role of parsing and generating to including classes.

You figure out how to parse and write the file, and this will do the rest.

Synopsis of implementation requirements

Providers using the Filemapper extension need to implement the following methods.

self.target_files

This should return an array of filenames specifying which files should be prefetched.

self.parse_file(filename, file_contents)

This should take two values, a string containing the file name, and a string containing the contents of the file. It should return an array of hashes, where each hash represents {property => value} pairs.

select_file

This is a provider instance method. It should return a string containing the filename that the provider should be flushed to.

self.format_file(filename, providers)

This should take two values, a string containing the file name to be flushed, and an array of providers that should be flushed to this file. It should return a string containing the contents of the file to be written.

Synopsis of optional implementation hooks

self.pre_flush_hook(filename) and self.post_flush_hook(filename)

These methods can be implemented to add behavior right before and right after filesystem operations. Both methods take a single argument, a string containing the name of the file to be flushed.

If self.pre_flush_hook raises an exception, the flush will not occur and the provider will be marked as failed and will refuse to perform any more flushes. If some sort of critical error occurred, this can force the provider to error out before it starts stomping on files.

self.post_flush_hook is guaranteed to run after any filesystem operations occur. This can be used for recovery if something goes wrong during the flush. If this method raises an exception, the provider will be marked as failed and will refuse to perform any more flushes.

Removing empty files

If a file is empty, it's often reasonable to just delete it. The Filemapper mixin implements attr_accessor :unlink_empty_files. If that value is set to true, then if self.format_file returns the empty string then the file will be deleted from the file system.

How it works

The Filemapper extension takes advantage of hooks within the Transaction to reduce the number of reads and writes needed to perform operations.

prefetching

When a catalog is being applied, providers can define the prefetch method to load all resources before runtime. The Filemapper extension uses this method to preemptively read all files that the provider requires, and generates and stores the state of the requested resources. This means that if you have a few thousand resources in 20 files, you only need to do 20 reads for the entire Puppet run.

post-evaluation flushing

When resources are normally evaluated, each time a property is synchronized it's expected that an action will be run right then. The Filemapper extension instead records all the requested changes and defers operating on them. When the resource is finished, it will be flushed, at which time all of the requested changes will be applied in one pass. Given a resource with 10 properties, all of which are out of sync, the file will be written only once. If no properties are out of sync, the file will be untouched.

To ensure that the system state matches what Puppet thinks is going on, any file that has changed resources will be re-written after each resource is flushed. That means that if you have 20 resources out of sync, that file will have to be written 20 times. While it's technically possible to write the file in a single pass, this means that some resources will be applied either early or late, which utterly smashes POLA.

Use on the command line

The Filemapper extension implements the instances method, which means that you can use the puppet resource command to interact with the associated provider without having to perform a full blown Puppet run.

Selecting files to load

In order to provide prefetching and puppet resource in a clean manner, the Filemapper extension has to have a full list of what files to read. Implementing classes need to implement the target_files method which returns a list of files to read. The implementation is entirely up to the implementing class; it can return a single file every time, such as "/etc/inittab", or it can generate that information on the fly, by returning Dir["/etc/sysconfig/network/ifcfg-*"]. Basically, files that will be used as a source of data can be as complex or simple as you need.

Writing back files

In a similar vein, resources can be written back to files in whatever method you need. Implementing classes need to implement the instance method #select_file so that when that resource is changed, the correct file is modified.

Parsing

When parsing a file, the implementing class needs to implement the parse_file method. It will get the name of the file being parsed as well as the contents. It can parse this file in whatever manner needed, and should return an array of any provider instances generated. If the file only contains a single provider instance, then just wrap that instance in an array.

Writing

Whenever a file is marked as dirty, that is a resource associated with that file has changed, the format_file method will be called. The implementing class needs to implement a method that takes the filename and an array of provider instances associated with that file, and return a string. The method needs to determine how that file should be written to disk and then return the contents. This can be as complex as needed.

Under no conditions should implementing classes modify any files directly. No, seriously, don't do it. The Filemapper extension uses the built in methods for modifying files, which will back up changed files to the filebucket. This is for your own safety, so if you bypass this then you are on your own.

Storing state outside of resources

It's more or less expected that there will be no state outside of the provider instances, but there are plenty of cases where this could be the case. For instance, if one wanted to preserve the comments in a file but didn't directly associate them with resource attributes, the parse_file method can store data in an instance variable, such as @comments = my_list_of_comments. When formatting the file, the implementing class can read the @comments variable and re-add that data to the content that will be written back.

Basically, you can store whatever data you need in these methods and pass things around to maintain more complex state.

Using this sort of operation of reading outside state, you can theoretically have multiple Filemapper extensions that work on shared files. By communicating the state between them, you can manage multiple different resources in one file. HOWEVER, this will require careful communication, so don't take this sort of thing lightly. However, I don't thing that anything else in Puppet can provide this sort of behavior. YMMV.

Why a mixin?

While the ParsedFile provider is supposed to be inherited, this class is a mixin and needs to be included. This is done because the Filemapper extension only adds behavior, and isn't really an object or entity in its own right. This way you can use the Filemapper extension while inheriting from something like the Puppet::Provider::Package provider.

The Backstory

Managing Unix-ish systems generally means dealing with one of two things:

  1. Processes - starting them, stopping them, monitoring them, etc.
  2. Files - Creating them, editing, deleting them, specifying permissions, etc.

Puppet has pretty good support in the provider layer for running commands, but the file manipulation layer has been lacking. The long-standing approach for manipulating files has been to select one of the following, and hope for the best.

Shipping flat files to the client

Using the File resource to ship flat files is a really common solution, and it's very easy. It also has the finesse of a brick thrown through a window. There is very little customizability here, aside from the array notation for specifying the source field.

Using ERB templates to customize files

The File resource can also take a content field, to which you can pass the output of a template. This allows more sophistication, but not much. It also adds more of a burden to your master; template rendering happens on the master and if you're doing really crazy number crunching then this pain will be centralized.

Using Augeas

Augeas is a very powerful tool that allows you to manipulate files, and the Augeas type allows you to harness this inside of Puppet. However, it has a rather byzantine syntax, and is dependent on lenses being available.

Sed

I personally love sed, but sed a file configuration management tool is not.

Using the ParsedFile provider

Puppet has a provider extension called the ParsedFile provider that's used to manipulate text like crontabs and so forth. It also uses a number of advanced features in puppet, which makes it quite powerful. However, it's incredibly complex, tightly coupled with the FileParsing utility language, has tons of obscure and undocumented hooks that are the only way to do complex operations, and is entirely record based which makes it unsuitable for managing files that have complex structure. While it has basic support for managing multiple files, basic is the indicative word.


The Filemapper extension has been designed as a lower level alternative to the ParsedFile.

Examples

The Filemapper extension was largely extracted out of the puppet-network module. That code base should display the weird edge cases that this extension handles.