Data manipulation
In many cases, you need to do some complex operation with your variables, while Ansible is not recommended as a data processing/manipulation tool, you can use the existing Jinja2 templating in conjunction with the many added Ansible filters, lookups and tests to do some very complex transformations.
- Let’s start with a quick definition of each type of plugin:
-
- lookups: Mainly used to query ‘external data’, in Ansible these were the primary part of loops using the
with_<lookup>
construct, but they can be used independently to return data for processing. They normally return a list due to their primary function in loops as mentioned previously. Used with thelookup
orquery
Jinja2 operators. - filters: used to change/transform data, used with the
|
Jinja2 operator. - tests: used to validate data, used with the
is
Jinja2 operator.
- lookups: Mainly used to query ‘external data’, in Ansible these were the primary part of loops using the
Loops and list comprehensions
Most programming languages have loops (for
, while
, and so on) and list comprehensions to do transformations on lists including lists of objects. Jinja2 has a few filters that provide this functionality: map
, select
, reject
, selectattr
, rejectattr
.
- map: this is a basic for loop that just allows you to change every item in a list, using the ‘attribute’ keyword you can do the transformation based on attributes of the list elements.
- select/reject: this is a for loop with a condition, that allows you to create a subset of a list that matches (or not) based on the result of the condition.
- selectattr/rejectattr: very similar to the above but it uses a specific attribute of the list elements for the conditional statement.
Use a loop to create exponential backoff for retries/until.
- name: retry ping 10 times with exponential backup delay ping: retries: 10 delay: '{{item|int}}' loop: '{{ range(1, 10)|map('pow', 2) }}'
Extract keys from a dictionary matching elements from a list
The Python equivalent code would be:
chains = [1, 2] for chain in chains: for config in chains_config[chain]['configs']: print(config['type'])
There are several ways to do it in Ansible, this is just one example:
tasks: - name: Show extracted list of keys from a list of dictionaries ansible.builtin.debug: msg: "{{ chains | map('extract', chains_config) | map(attribute='configs') | flatten | map(attribute='type') | flatten }}" vars: chains: [1, 2] chains_config: 1: foo: bar configs: - type: routed version: 0.1 - type: bridged version: 0.2 2: foo: baz configs: - type: routed version: 1.0 - type: bridged version: 1.1
ok: [localhost] => { "msg": [ "routed", "bridged", "routed", "bridged" ] }
vars: unique_value_list: "{{ groups['all'] | map ('extract', hostvars, 'varname') | list | unique}}"
Find mount point
In this case, we want to find the mount point for a given path across our machines, since we already collect mount facts, we can use the following:
- hosts: all gather_facts: True vars: path: /var/lib/cache tasks: - name: The mount point for {{path}}, found using the Ansible mount facts, [-1] is the same as the 'last' filter ansible.builtin.debug: msg: "{{(ansible_facts.mounts | selectattr('mount', 'in', path) | list | sort(attribute='mount'))[-1]['mount']}}"
Omit elements from a list
The special omit
variable ONLY works with module options, but we can still use it in other ways as an identifier to tailor a list of elements:
- name: Enable a list of Windows features, by name ansible.builtin.set_fact: win_feature_list: "{{ namestuff | reject('equalto', omit) | list }}" vars: namestuff: - "{{ (fs_installed_smb_v1 | default(False)) | ternary(omit, 'FS-SMB1') }}" - "foo" - "bar"
Another way is to avoid adding elements to the list in the first place, so you can just use it directly:
- name: Build unique list with some items conditionally omitted ansible.builtin.set_fact: namestuff: ' {{ (namestuff | default([])) | union([item]) }}' when: item != omit loop: - "{{ (fs_installed_smb_v1 | default(False)) | ternary(omit, 'FS-SMB1') }}" - "foo" - "bar"
Combine values from same list of dicts
Combining positive and negative filters from examples above, you can get a ‘value when it exists’ and a ‘fallback’ when it doesn’t.
- hosts: localhost tasks: - name: Check hosts in inventory that respond to ssh port wait_for: host: "{{ item }}" port: 22 loop: '{{ has_ah + no_ah }}' vars: has_ah: '{{ hostvars|dictsort|selectattr("1.ansible_host", "defined")|map(attribute="1.ansible_host")|list }}' no_ah: '{{ hostvars|dictsort|rejectattr("1.ansible_host", "defined")|map(attribute="0")|list }}'
Custom Fileglob Based on a Variable
This example uses Python argument list unpacking to create a custom list of fileglobs based on a variable.
- hosts: all vars: mygroups - prod - web tasks: - name: Copy a glob of files based on a list of groups copy: src: "{{ item }}" dest: "/tmp/{{ item }}" loop: '{{ q("fileglob", *globlist) }}' vars: globlist: '{{ mygroups | map("regex_replace", "^(.*)$", "files/\1/*.conf") | list }}'
Complex Type transformations
Jinja provides filters for simple data type transformations (int
, bool
, and so on), but when you want to transform data structures things are not as easy. You can use loops and list comprehensions as shown above to help, also other filters and lookups can be chained and leveraged to achieve more complex transformations.
Create dictionary from list
In most languages it is easy to create a dictionary (a.k.a. map/associative array/hash and so on) from a list of pairs, in Ansible there are a couple of ways to do it and the best one for you might depend on the source of your data.
These example produces {"a": "b", "c": "d"}
vars: single_list: [ 'a', 'b', 'c', 'd' ] mydict: "{{ dict(single_list | slice(2)) }}"
vars: list_of_pairs: [ ['a', 'b'], ['c', 'd'] ] mydict: "{{ dict(list_of_pairs) }}"
Both end up being the same thing, with slice(2)
transforming single_list
to a list_of_pairs
generator.
A bit more complex, using set_fact
and a loop
to create/update a dictionary with key value pairs from 2 lists:
- name: Uses 'combine' to update the dictionary and 'zip' to make pairs of both lists ansible.builtin.set_fact: mydict: "{{ mydict | default({}) | combine({item[0]: item[1]}) }}" loop: "{{ (keys | zip(values)) | list }}" vars: keys: - foo - var - bar values: - a - b - c
This results in {"foo": "a", "var": "b", "bar": "c"}
.
You can even combine these simple examples with other filters and lookups to create a dictionary dynamically by matching patterns to variable names:
vars: myvarnames: "{{ q('varnames', '^my') }}" mydict: "{{ dict(myvarnames | zip(q('vars', *myvarnames))) }}"
A quick explanation, since there is a lot to unpack from these two lines:
- The
varnames
lookup returns a list of variables that match “begin withmy
”. - Then feeding the list from the previous step into the
vars
lookup to get the list of values. The*
is used to ‘dereference the list’ (a pythonism that works in Jinja), otherwise it would take the list as a single argument. - Both lists get passed to the
zip
filter to pair them off into a unified list (key, value, key2, value2, …). - The dict function then takes this ‘list of pairs’ to create the dictionary.
An example on how to use facts to find a host’s data that meets condition X:
vars: uptime_of_host_most_recently_rebooted: "{{ansible_play_hosts_all | map('extract', hostvars, 'ansible_uptime_seconds') | sort | first}}"
Using an example from @zoradache on reddit, to show the ‘uptime in days/hours/minutes’ (assumes facts where gathered). https://www.reddit.com/r/ansible/comments/gj5a93/trying_to_get_uptime_from_seconds/fqj2qr3/
- name: Show the uptime in a certain format ansible.builtin.debug: msg: Timedelta {{ now() - now().fromtimestamp(now(fmt='%s') | int - ansible_uptime_seconds) }}
See also
- Using filters to manipulate data
-
Jinja2 filters included with Ansible
- Tests
-
Jinja2 tests included with Ansible
- Jinja2 Docs
-
Jinja2 documentation, includes lists for core filters and tests
© 2012–2018 Michael DeHaan
© 2018–2021 Red Hat, Inc.
Licensed under the GNU General Public License version 3.
https://docs.ansible.com/ansible/latest/user_guide/complex_data_manipulation.html