About Recipes
A recipe is the most fundamental configuration element within the organization. A recipe:
- Is authored using Ruby, which is a programming language designed to read and behave in a predictable manner
- Is mostly a collection of resources, defined using patterns (resource names, attribute-value pairs, and actions); helper code is added around this using Ruby, when needed
- Must define everything that is required to configure part of a system
- Must be stored in a cookbook
- May be included in another recipe
- May use the results of a search query and read the contents of a data bag (including an encrypted data bag)
- May have a dependency on one (or more) recipes
- Must be added to a run-list before it can be used by Chef Infra Client
- Is always executed in the same order as listed in a run-list
Recipe Attributes
An attribute can be defined in a cookbook (or a recipe) and then used to
override the default settings on a node. When a cookbook is loaded
during a Chef Infra Client run, these attributes are compared to the
attributes that are already present on the node. Attributes that are
defined in attribute files are first loaded according to cookbook order.
For each cookbook, attributes in the default.rb
file are loaded first,
and then additional attribute files (if present) are loaded in lexical
sort order. When the cookbook attributes take precedence over the
default attributes, Chef Infra Client applies those new settings and
values during a Chef Infra Client run on the node.
Note
Environment Variables
In UNIX, a process environment is a set of key-value pairs made available to a process. Programs expect their environment to contain information required for the program to run. The details of how these key-value pairs are accessed depends on the API of the language being used.
If processes is started by using the execute or script resources
(or any of the resources based on those two resources, such as
bash), use the environment
attribute to alter the environment that
will be passed to the process.
bash 'env_test' do
code <<-EOF
echo $FOO
EOF
environment ({ 'FOO' => 'bar' })
end
The only environment being altered is the one being passed to the child process that is started by the bash resource. This will not affect the Chef Infra Client environment or any child processes.
Work with Recipes
The following sections show approaches to working with recipes.
Use Data Bags
Data bags store global variables as JSON data. Data bags are indexed for searching and can be loaded by a cookbook or accessed during a search.
The contents of a data bag can be loaded into a recipe. For example, a
data bag named apps
and a data bag item named my_app
:
{
"id": "my_app",
"repository": "git://github.com/company/my_app.git"
}
can be accessed in a recipe, like this:
my_bag = data_bag_item('apps', 'my_app')
The data bag item’s keys and values can be accessed with a Hash:
my_bag['repository'] #=> 'git://github.com/company/my_app.git'
Secret Keys
Encrypting a data bag item requires a secret key. A secret key can be created in any number of ways. For example, OpenSSL can be used to generate a random number, which can then be used as the secret key:
openssl rand -base64 512 | tr -d '\r\n' > encrypted_data_bag_secret
where encrypted_data_bag_secret
is the name of the file which will
contain the secret key. For example, to create a secret key named
“my_secret_key”:
openssl rand -base64 512 | tr -d '\r\n' > my_secret_key
The tr
command eliminates any trailing line feeds. Doing so avoids key
corruption when transferring the file between platforms with different
line endings.
Store Keys on Nodes
An encryption key can also be stored in an alternate file on the nodes
that need it and specify the path location to the file inside an
attribute; however, EncryptedDataBagItem.load
expects to see the
actual secret as the third argument, rather than a path to the secret
file. In this case, you can use EncryptedDataBagItem.load_secret
to
slurp the secret file contents and then pass them:
# inside your attribute file:
# default[:mysql][:secretpath] = 'C:\\chef\\any_secret_filename'
#
# inside your recipe:
# look for secret in file pointed to by mysql attribute :secretpath
mysql_secret = Chef::EncryptedDataBagItem.load_secret('#{node['mysql']['secretpath']}')
mysql_creds = Chef::EncryptedDataBagItem.load('passwords', 'mysql', mysql_secret)
mysql_creds['pass'] # will be decrypted
Assign Dependencies
If a cookbook has a dependency on a recipe that is located in another
cookbook, that dependency must be declared in the metadata.rb file for
that cookbook using the depends
keyword.
Note
For example, if the following recipe is included in a cookbook named
my_app
:
include_recipe 'apache2::mod_ssl'
Then the metadata.rb file for that cookbook would have:
depends 'apache2'
Include Recipes
A recipe can include one (or more) recipes from cookbooks by using the
include_recipe
method. When a recipe is included, the resources found
in that recipe will be inserted (in the same exact order) at the point
where the include_recipe
keyword is located.
The syntax for including a recipe is like this:
include_recipe 'recipe'
For example:
include_recipe 'apache2::mod_ssl'
Multiple recipes can be included within a recipe. For example:
include_recipe 'cookbook::setup'
include_recipe 'cookbook::install'
include_recipe 'cookbook::configure'
If a specific recipe is included more than once with the
include_recipe
method or elsewhere in the run_list directly, only the
first instance is processed and subsequent inclusions are ignored.
Reload Attributes
Attributes sometimes depend on actions taken from within recipes, so it may be necessary to reload a given attribute from within a recipe. For example:
ruby_block 'some_code' do
block do
node.from_file(run_context.resolve_attribute('COOKBOOK_NAME', 'ATTR_FILE'))
end
action :nothing
end
Use Ruby
Anything that can be done with Ruby can be used within a recipe, such as
expressions (if, unless, etc.), case statements, loop statements,
arrays, hashes, and variables. In Ruby, the conditionals nil
and
false
are false; every other conditional is true
.
Assign a value
A variable uses an equals sign (=
) to assign a value.
To assign a value to a variable:
package_name = 'apache2'
Use Case Statement
A case statement can be used to compare an expression, and then execute the code that matches.
To select a package name based on platform:
package 'apache2' do
case node['platform']
when 'centos', 'redhat', 'fedora', 'suse'
package_name 'httpd'
when 'debian', 'ubuntu'
package_name 'apache2'
when 'arch'
package_name 'apache'
end
action :install
end
Check Conditions
An if expression can be used to check for conditions (true or false).
To check for condition only for Debian and Ubuntu platforms:
if platform?('debian', 'ubuntu')
# do something if node['platform'] is debian or ubuntu
else
# do other stuff
end
Execute Conditions
An unless expression can be used to execute code when a condition returns a false value (effectively, an unless expression is the opposite of an if statement).
To use an expression to execute when a condition returns a false value:
unless node['platform_version'] == '5.0'
# do stuff on everything but 5.0
end
Loop over Array
A loop statement is used to execute a block of code one (or more) times.
A loop statement is created when .each
is added to an expression that
defines an array or a hash. An array is an integer-indexed collection of
objects. Each element in an array can be associated with and referred to
by an index.
To loop over an array of package names by platform:
['apache2', 'apache2-mpm'].each do |p|
package p
end
Loop over Hash
A hash is a collection of key-value pairs. Indexing for a hash is done
using arbitrary keys of any object (as opposed to the indexing done by
an array). The syntax for a hash is: key => "value"
.
To loop over a hash of gem package names:
{ 'fog' => '0.6.0', 'highline' => '1.6.0' }.each do |g, v|
gem_package g do
version v
end
end
Apply to Run-lists
A recipe must be assigned to a run-list using the appropriate name, as defined by the cookbook directory and namespace. For example, a cookbook directory has the following structure:
cookbooks/
apache2/
recipes/
default.rb
mod_ssl.rb
There are two recipes: a default recipe (that has the same name as the
cookbook) and a recipe named mod_ssl
. The syntax that applies a recipe
to a run-list is similar to:
{
'run_list': [
'recipe[cookbook_name::default_recipe]',
'recipe[cookbook_name::recipe_name]'
]
}
where ::default_recipe
is implied (and does not need to be specified).
On a node, these recipes can be assigned to a node’s run-list similar
to:
{
'run_list': [
'recipe[apache2]',
'recipe[apache2::mod_ssl]'
]
}
Chef Infra Server
Use knife to add a recipe to the run-list for a node. For example:
knife node run list add NODENAME "recipe[apache2]"
More than one recipe can be added:
% knife node run list add NODENAME "recipe[apache2],recipe[mysql],role[ssh]"
which creates a run-list similar to:
run_list:
recipe[apache2]
recipe[mysql]
role[ssh]
chef-solo
Use a JSON file to pass run-list details to chef-solo as long as the
cookbook in which the recipe is located is available to the system on
which chef-solo is running. For example, a file named dna.json
contains the following details:
{
"run_list": ["recipe[apache2]"]
}
To add the run-list to the node, enter the following:
sudo chef-solo -j /etc/chef/dna.json
Use Search Results
Search indexes allow queries to be made for any type of data that is
indexed by the Chef Infra Server, including data bags (and data bag
items), environments, nodes, and roles. A defined query syntax is used
to support search patterns like exact, wildcard, range, and fuzzy. A
search is a full-text query that can be done from several locations,
including from within a recipe, by using the search
subcommand in
knife, the search
method in the Chef Infra Language, the search box in the Chef
management console, and by using the /search
or /search/INDEX
endpoints in the Chef Infra Server API. The search engine is based on
Elasticsearch and is run from the Chef Infra Server.
The results of a search query can be loaded into a recipe. For example, a very simple search query (in a recipe) might look like this:
search(:node, 'attribute:value')
A search query can be assigned to variables and then used elsewhere in a
recipe. For example, to search for all nodes that have a role assignment
named webserver
, and then render a template which includes those role
assignments:
webservers = search(:node, 'role:webserver')
template '/tmp/list_of_webservers' do
source 'list_of_webservers.erb'
variables(webservers: webservers)
end
Use Tags
A tag is a custom description that is applied to a node. A tag, once applied, can be helpful when managing nodes using knife or when building recipes by providing alternate methods of grouping similar types of information.
Tags can be added and removed. Machines can be checked to see if they already have a specific tag. To use tags in your recipe simply add the following:
tag('mytag')
To test if a machine is tagged, add the following:
tagged?('mytag')
to return true
or false
. tagged?
can also use an array as an
argument.
To remove a tag:
untag('mytag')
For example:
tag('machine')
if tagged?('machine')
Chef::Log.info("Hey I'm #{node['tags']}")
end
untag('machine')
unless tagged?('machine')
Chef::Log.info('I am not tagged')
end
Will return something like this:
[Thu, 22 Jul 2010 18:01:45 +0000] INFO: Hey I'm machine
[Thu, 22 Jul 2010 18:01:45 +0000] INFO: I has no tagz
End Chef Infra Client Run
Sometimes it may be necessary to stop processing a recipe and/or stop processing the entire Chef Infra Client run. There are a few ways to do this:
- Use the
return
keyword to stop processing a recipe based on a condition, but continue processing a Chef Infra Client run - Use the
raise
keyword to stop a Chef Infra Client run by triggering an unhandled exception - Use a
rescue
block in Ruby code - Use an exception handler
The following sections show various approaches to ending a Chef Infra Client run.
return Keyword
The return
keyword can be used to stop processing a recipe based on a
condition, but continue processing a Chef Infra Client run. For example:
file '/tmp/name_of_file' do
action :create
end
return if platform?('windows')
package 'name_of_package' do
action :install
end
where platform?('windows')
is the condition set on the return
keyword. When the condition is met, stop processing the recipe. This
approach is useful when there is no need to continue processing, such as
when a package cannot be installed. In this situation, it’s OK for a
recipe to stop processing.
raise Keyword
In certain situations it may be useful to stop a Chef Infra Client run
entirely by using an unhandled exception. The raise
keyword can be used
to stop a Chef Infra Client run in both the compile and execute phases.
Note
fail
keyword, which behaves the same
but is discouraged and will result in Cookstyle warnings.
Use these keywords in a recipe—but outside of any resource blocks—to trigger an unhandled exception during the compile phase. For example:
file '/tmp/name_of_file' do
action :create
end
raise "message" if platform?('windows')
package 'name_of_package' do
action :install
end
where platform?('windows')
is the condition that will trigger the
unhandled exception.
Use these keywords in the ruby_block resource to trigger an unhandled exception during the execute phase. For example:
ruby_block "name" do
block do
# Ruby code with a condition, e.g. if ::File.exist?(::File.join(path, "/tmp"))
raise "message" # e.g. "Ordering issue with file path, expected foo"
end
end
Use these keywords in a class. For example:
class CustomError < StandardError; end
and then later on:
def custom_error
raise CustomError, "error message"
end
or:
def custom_error
raise CustomError, "error message"
end
Rescue Blocks
Since recipes are written in Ruby, they can be written to attempt to
handle error conditions using the rescue
block.
For example:
begin
dater = data_bag_item(:basket, 'flowers')
rescue Net::HTTPClientException
# maybe some retry code here?
raise 'message_to_be_raised'
end
where data_bag_item
makes an HTTP request to the Chef Infra Server to
get a data bag item named flowers
. If there is a problem, the request
will return a Net::HTTPClientException
. The rescue
block can be used
to try to retry or otherwise handle the situation. If the rescue
block
is unable to handle the situation, then the raise
keyword is used to
specify the message to be raised.
node.run_state
Use node.run_state
to stash transient data during a Chef Infra Client
run. This data may be passed between resources, and then evaluated
during the execution phase. run_state
is an empty Hash that is always
discarded at the end of a Chef Infra Client run.
For example, the following recipe will install the Apache web server, randomly choose PHP or Perl as the scripting language, and then install that scripting language:
package 'httpd' do
action :install
end
ruby_block 'randomly_choose_language' do
block do
if Random.rand > 0.5
node.run_state['scripting_language'] = 'php'
else
node.run_state['scripting_language'] = 'perl'
end
end
end
package 'scripting_language' do
package_name lazy { node.run_state['scripting_language'] }
action :install
end
where:
- The ruby_block resource declares a
block
of Ruby code that is run during the execution phase of a Chef Infra Client run - The
if
statement randomly chooses PHP or Perl, saving the choice tonode.run_state['scripting_language']
- When the package resource has to install the package for the
scripting language, it looks up the scripting language and uses the
one defined in
node.run_state['scripting_language']
lazy {}
ensures that the package resource evaluates this during the execution phase of a Chef Infra Client run (as opposed to during the compile phase)
When this recipe runs, Chef Infra Client will print something like the following:
* ruby_block[randomly_choose_language] action run
- execute the ruby block randomly_choose_language
* package[scripting_language] action install
- install version 5.3.3-27.el6_5 of package php
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