Extend Facter by writing your own custom facts to provide information to Puppet.

Adding custom facts to Facter

Sometimes you need to be able to write conditional expressions based on site-specific data that just isn’t available via Facter, or perhaps you’d like to include it in a template.

Since you can’t include arbitrary Ruby code in your manifests, the best solution is to add a new fact to Facter. These additional facts can then be distributed to Puppet clients and are available for use in manifests and templates, just like any other fact would be.

Note: Facter 3.0 removed the Ruby implementations of some features and replaced them with a custom facts API. Any custom fact that requires one of the Ruby files previously stored in lib/facter/util will fail with an error. For more information, see the Facter 3.0 release notes.

The concept

You can add new facts by writing snippets of Ruby code on the Puppet master. Puppet then uses Plugins in Modules to distribute the facts to the client.

Loading custom facts

Facter offers a few methods of loading facts:

  • $LOAD\_PATH, or the Ruby library load path
  • The --custom-dir command line option.
  • The environment variable ‘FACTERLIB’

You can use these methods of loading facts to do things like test files locally before distributing them, or you can arrange to have a specific set of facts available on certain machines.

Using the Ruby load path

Facter searches all directories in the Ruby $LOAD_PATH variable for subdirectories named ‘facter’, and loads all Ruby files in those directories. If you had some directory in your $LOAD_PATH like ~/lib/ruby, set up like this:

└── facter
    ├── rackspace.rb
    ├── system_load.rb
    └── users.rb

Facter would try to load ‘facter/system_load.rb’, ‘facter/users.rb’, and ‘facter/rackspace.rb’.

Using the --custom-dir command line option

Facter can take multiple --custom-dir options on the command line that specifies a single directory to search for custom facts. Facter attempts to load all Ruby files in the specified directories. This allows you to do something like this:

$ ls my_facts
$ ls my_other_facts
$ facter --custom-dir=./my_facts --custom-dir=./my_other_facts system_load users
system_load => 0.25
users => thomas,pat

Using the FACTERLIB environment variable

Facter also checks the environment variable FACTERLIB for a delimited (semicolon for Windows and colon for all other platforms) set of directories, and tries to load all Ruby files in those directories. This allows you to do something like this:

$ ls my_facts
$ ls my_other_facts
$ export FACTERLIB="./my_facts:./my_other_facts"
$ facter system_load users
system_load => 0.25
users => thomas,pat

Note: Changes in built-in pluginsync support in Facter 3

Facter 2.4 deprecated Facter’s support for loading facts via Puppet’s pluginsync (the -p option), and Facter 3.0.0 removed the -p option. However, we reversed this decision in Facter 3.0.2 and re-enabled the -p option. For details about current and future support for this option, see the Facter 3.0.2 release notes.

Two parts of every fact

Setting aside external facts for now, most facts have at least two elements:

  1. A call to Facter.add('fact_name'), which determines the name of the fact
  2. A setcode statement for simple resolutions, which is evaluated to determine the fact’s value.

Facts can get a lot more complicated than that, but those two together are the most common implementation of a custom fact.

Executing shell commands in facts

Puppet gets information about a system from Facter, and the most common way for Facter to get that information is by executing shell commands. You can then parse and manipulate the output from those commands using standard Ruby code. The Facter API gives you a few ways to execute shell commands:

  • If all you want to do is run the command and use the output, verbatim, as your fact’s value, you can pass the command into setcode directly. For example: setcode 'uname --hardware-platform'
  • If your fact is more complicated than that, you can call Facter::Core::Execution.execute('uname --hardware-platform') from within the setcode doend block. As always, whatever the setcode statement returns is used as the fact’s value.
  • In any case, remember that your shell command is also a Ruby string, so you’ll need to escape special characters if you want to pass them through.

It’s important to note that not everything that works in the terminal will work in a fact. You can use the pipe (|) and similar operators as you normally would, but Bash-specific syntax like if statements will not work. The best way to handle this limitation is to write your conditional logic in Ruby.


Let’s say you need to get the output of uname --hardware-platform to single out a specific type of workstation. To do this, you would create a new custom fact. Start by giving the fact a name, in this case, hardware_platform, and create your new fact in a file, hardware_platform.rb, on the Puppet master server:

# hardware_platform.rb

Facter.add('hardware_platform') do
  setcode do
    Facter::Core::Execution.execute('/bin/uname --hardware-platform')

You can then use the instructions in the Plugins in Modules page to copy the new fact to a module and distribute it. During your next Puppet run, the value of the new fact will be available to use in your manifests and templates.

Using other facts

You can write a fact that uses other facts by accessing Facter.value(:somefact). If the fact fails to resolve or is not present, Facter returns nil.

For example:

Facter.add(:osfamily) do
  setcode do
    distid = Facter.value(:lsbdistid)
    case distid
    when /RedHatEnterprise|CentOS|Fedora/
    when 'ubuntu'

Configuring facts

Facts have a few properties that you can use to customize how facts are evaluated.

Confining facts

One of the more commonly used properties is the confine statement, which restricts the fact to only run on systems that matches another given fact.

An example of the confine statement would be something like the following:

Facter.add(:powerstates) do
  confine :kernel => 'Linux'
  setcode do
    Facter::Core::Execution.execute('cat /sys/power/states')

This fact uses sysfs on linux to get a list of the power states that are available on the given system. Since this is only available on Linux systems, we use the confine statement to ensure that this fact isn’t needlessly run on systems that don’t support this type of enumeration.

Fact precedence

A single fact can have multiple resolutions, each of which is a different way of ascertaining what the value of the fact should be. It’s very common to have different resolutions for different operating systems, for example. It’s easy to confuse facts and resolutions because they are superficially identical — to add a new resolution to a fact, you simply add the fact again, only with a different setcode statement.

When a fact has more than one resolution, the first resolution that returns a value other than nil will set the fact’s value. The way that Facter decides the issue of resolution precedence is the weight property. Once Facter rules out any resolutions that are excluded because of confine statements, the resolution with the highest weight is evaluated first. If that resolution returns nil, Facter moves on to the next resolution (by descending weight) until it gets a value for the fact.

By default, the weight of a fact is the number of confines for that resolution, so that more specific resolutions takes priority over less specific resolutions.

# Check to see if this server has been marked as a postgres server
Facter.add(:role) do
  has_weight 100
  setcode do
    if File.exist? '/etc/postgres_server'

# Guess if this is a server by the presence of the pg_create binary
Facter.add(:role) do
  has_weight 50
  setcode do
    if File.exist? '/usr/sbin/pg_create'

# If this server doesn't look like a server, it must be a desktop
Facter.add(:role) do
  setcode do

Execution timeouts

Facter 2.x supported a :timeout option to Facter#add. Facter no longer supports this option, and produces a warning if it’s used.

Although this version of Facter does not support overall timeouts on resolutions, you can pass a timeout to Facter::Core::Execution#execute:

Facter.add(:sleep) do
  setcode do
      Facter::Core::Execution.execute('sleep 10', options = {:timeout => 5})
      'did not timeout!'
    rescue Facter::Core::Execution::ExecutionFailure

Structured facts

While the norm is for a fact to return a single string, Facter 2.0 introduced structured facts, which take the form of either a hash or an array. All you need to do to create a structured fact is return a hash or an array from the setcode statement. You can see some relevant examples in the writing structured facts section of the Fact Overview.

Aggregate resolutions

If your fact combines the output of multiple commands, it may make sense to use aggregate resolutions. An aggregate resolution is split into “chunks”, each one responsible for resolving one piece of the fact. After all of the chunks have been resolved separately, they’re combined into a single flat or structured fact and returned.

Aggregate resolutions have several key differences compared to simple resolutions, beginning with the fact declaration. To introduce an aggregate resolution, you’ll need to add the :type => :aggregate parameter:

Facter.add(:fact_name, :type => :aggregate) do
    #chunks go here
    #aggregate block goes here

Each step in the resolution then gets its own named chunk statement:

chunk(:one) do
    'Chunk one returns this. '

chunk(:two) do
    'Chunk two returns this.'

In a simple resolution, the code always includes a setcode statement that determines the fact’s value. Aggregate resolutions never have a setcode statement. Instead, they have an optional aggregate block that combines the chunks. Whatever value the aggregate block returns will be the fact’s value. Here’s an example that just combines the strings from the two chunks above:

aggregate do |chunks|
  result = ''

  chunks.each_value do |str|
    result += str

  # Result will be "Chunk one returns this. Chunk two returns this."

If the chunk blocks either all return arrays or all return hashes, you can omit the aggregate block. If you do, Facter automatically merges all of your data into one array or hash and use that as the fact’s value.

For more examples of aggregate resolutions, see the aggregate resolutions section of the Fact Overview page.

Viewing fact values

If your Puppet master(s) are configured to use PuppetDB, you can view and search all of the facts for any node, including custom facts. See the PuppetDB docs for more info.

External facts

What are external facts?

External facts provide a way to use arbitrary executables or scripts as facts, or set facts statically with structured data. If you’ve ever wanted to write a custom fact in Perl, C, or a one-line text file, this is how.

Fact locations

The best way to distribute external facts is with pluginsync, which added support for them in Puppet 3.4/Facter 2.0.1. To add external facts to your Puppet modules, just place them in <MODULEPATH>/<MODULE>/facts.d/.

If you’re not using pluginsync, then external facts must go in a standard directory. The location of this directory varies depending on your operating system, whether your deployment uses Puppet Enterprise or open source releases, and whether you are running as root/Administrator. When calling facter from the command line, you can specify the external facts directory with the --external-dir option.

Note: These directories don’t necessarily exist by default; you may need to create them. If you create the directory, make sure to restrict access so that only Administrators can write to the directory.

In a module (recommended):


On Unix/Linux/OS X, there are three directories:


On Windows:


When running as a non-root / non-Administrator user:

<HOME DIRECTORY>/.facter/facts.d/

Executable facts — Unix

Executable facts on Unix work by dropping an executable file into the standard external fact path above. A shebang is always required for executable facts on Unix. If the shebang is missing, the execution of the fact will fail.

An example external fact written in Python:

#!/usr/bin/env python
data = {"key1" : "value1", "key2" : "value2" }

for k in data:
    print "%s=%s" % (k,data[k])

You must ensure that the script has its execute bit set:

chmod +x /etc/facter/facts.d/my_fact_script.py

For Facter to parse the output, the script must return key/value pairs on STDOUT in the format:


Using this format, a single script can return multiple facts.

Executable facts — Windows

Executable facts on Windows work by dropping an executable file into the external fact path for your version of Windows. Unlike with Unix, the external facts interface expects Windows scripts to end with a known extension. Line endings can be either LF or CRLF. At the moment the following extensions are supported:

  • .com and .exe: binary executables
  • .bat and .cmd: batch scripts
  • .ps1: PowerShell scripts

As with Unix facts, each script must return key/value pairs on STDOUT in the format:


Using this format, a single script can return multiple facts in one return.

Batch scripts

The file encoding for .bat/.cmd files must be ANSI or UTF8 without BOM (Byte Order Mark), otherwise you may get strange output.

Here is a sample batch script which outputs facts using the required format:

@echo off
echo key1=val1
echo key2=val2
echo key3=val3
REM Invalid - echo 'key4=val4'
REM Invalid - echo "key5=val5"

PowerShell scripts

The encoding that should be used with .ps1 files is pretty open. PowerShell determines the encoding of the file at run time.

Here is a sample PowerShell script which outputs facts using the required format:

Write-Host "key1=val1"
Write-Host 'key2=val2'
Write-Host key3=val3

You should be able to save and execute this PowerShell script on the command line.

Structured data facts

Facter can parse structured data files stored in the external facts directory and set facts based on their contents.

Structured data files must use one of the supported data types and must have the correct file extension. At the moment, Facter supports the following extensions and data types:

.yaml: YAML data, in the following format:

key1: val1
key2: val2
key3: val3

.json: JSON data, in the following format:

    "key1": "val1",
    "key2": "val2",
    "key3": "val3"

.txt: Key value pairs, of the String data type, in the following format:


As with executable facts, structured data files can set multiple facts at once.

Structured data facts on Windows

All of the above types are supported on Windows with the following caveats:

  • The line endings can be either LF or CRLF.
  • The file encoding must be either ANSI or UTF8 without BOM (Byte Order Mark).


If your external fact is not appearing in Facter’s output, running Facter in debug mode should give you a meaningful reason and tell you which file is causing the problem:

# puppet facts --debug

One example of when this might happen is in cases where a fact returns invalid characters. Let say you used a hyphen instead of an equals sign in your script test.sh:


echo "key1-value1"

Running puppet facts --debug should yield a useful message:

Debug: Facter: resolving facts from executable file "/tmp/test.sh".
Debug: Facter: executing command: /tmp/test.sh
Debug: Facter: key1-value1
Debug: Facter: ignoring line in output: key1-value1
Debug: Facter: process exited with status code 0.
Debug: Facter: completed resolving facts from executable file "/tmp/test.sh".

External facts and stdlib

If you find that an external fact does not match what you have configured in your facts.d directory, make sure you have not defined the same fact using the external facts capabilities found in the stdlib module.


While external facts provide a mostly-equal way to create variables for Puppet, they have a few drawbacks:

  • An external fact cannot internally reference another fact. However, due to parse order, you can reference an external fact from a Ruby fact.
  • External executable facts are forked instead of executed within the same process.
  • Distributing executable facts through pluginsync requires Puppet 3.4.0 or greater.
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