Loops

Ansible offers the loop, with_<lookup>, and until keywords to execute a task multiple times. Examples of commonly-used loops include changing ownership on several files and/or directories with the file module, creating multiple users with the user module, and repeating a polling step until a certain result is reached.

Note

  • We added loop in Ansible 2.5. as a simpler way to do loops, but we recommend it for most use cases.

  • We have not deprecated the use of with_<lookup> - that syntax will still be valid for the foreseeable future.

  • loop and with_<lookup> are mutually exclusive. While it is possible to nest them under until, this affects each loop iteration.

Comparing loops

  • The normal use case for until has to do with tasks that are likely to fail, while loop and with_<lookup> are meant for repeating tasks with slight variations.

  • The loop and with_<lookup> will run the task once per item in the list used as input, while until will rerun the task until a condition is met. For programmers the former are “for loops” and the latter is a “while/until loop”.

  • The with_<lookup> keywords rely on Lookup plugins - even items is a lookup.

  • The loop keyword is equivalent to with_list, and is the best choice for simple loops.

  • The loop keyword will not accept a string as input, see Ensuring list input for loop: using query rather than lookup.

  • The until keyword accepts an ‘end conditional’ (expression that returns True or False) that is “implicitly templated” (no need for {{ }}), commonly based on the variable you register for the task.

  • loop_control affects both loop and with_<lookup>, but not until, which has its own companion keywords: retries and delay.

  • Generally speaking, any use of with_* covered in Migrating from with_X to loop can be updated to use loop.

  • Be careful when changing with_items to loop, as with_items performs implicit single-level flattening. You may need to use | flatten(1) with loop to match the exact outcome. For example, to get the same output as:

with_items:
  - 1
  - [2,3]
  - 4

you would need

loop: "{{ [1, [2, 3], 4] | flatten(1) }}"
  • Any with_* statement that requires using lookup within a loop should not be converted to use the loop keyword. For example, instead of doing:

loop: "{{ lookup('fileglob', '*.txt', wantlist=True) }}"

it is cleaner to keep

with_fileglob: '*.txt'

Using loops

Iterating over a simple list

Repeated tasks can be written as standard loops over a simple list of strings. You can define the list directly in the task.

- name: Add several users
  ansible.builtin.user:
    name: "{{ item }}"
    state: present
    groups: "wheel"
  loop:
     - testuser1
     - testuser2

You can define the list in a variables file, or in the ‘vars’ section of your play, then refer to the name of the list in the task.

loop: "{{ somelist }}"

Either of these examples would be the equivalent of

- name: Add user testuser1
  ansible.builtin.user:
    name: "testuser1"
    state: present
    groups: "wheel"

- name: Add user testuser2
  ansible.builtin.user:
    name: "testuser2"
    state: present
    groups: "wheel"

You can pass a list directly to a parameter for some plugins. Most of the packaging modules, like yum and apt, have this capability. When available, passing the list to a parameter is better than looping over the task. For example

- name: Optimal yum
  ansible.builtin.yum:
    name: "{{ list_of_packages }}"
    state: present

- name: Non-optimal yum, slower and may cause issues with interdependencies
  ansible.builtin.yum:
    name: "{{ item }}"
    state: present
  loop: "{{ list_of_packages }}"

Check the module documentation to see if you can pass a list to any particular module’s parameter(s).

Iterating over a list of hashes

If you have a list of hashes, you can reference subkeys in a loop. For example:

- name: Add several users
  ansible.builtin.user:
    name: "{{ item.name }}"
    state: present
    groups: "{{ item.groups }}"
  loop:
    - { name: 'testuser1', groups: 'wheel' }
    - { name: 'testuser2', groups: 'root' }

When combining conditionals with a loop, the when: statement is processed separately for each item. See Basic conditionals with when for examples.

Iterating over a dictionary

To loop over a dict, use the dict2items:

- name: Using dict2items
  ansible.builtin.debug:
    msg: "{{ item.key }} - {{ item.value }}"
  loop: "{{ tag_data | dict2items }}"
  vars:
    tag_data:
      Environment: dev
      Application: payment

Here, we are iterating over tag_data and printing the key and the value from it.

Registering variables with a loop

You can register the output of a loop as a variable. For example

- name: Register loop output as a variable
  ansible.builtin.shell: "echo {{ item }}"
  loop:
    - "one"
    - "two"
  register: echo

When you use register with a loop, the data structure placed in the variable will contain a results attribute that is a list of all responses from the module. This differs from the data structure returned when using register without a loop. The changed/failed/skipped attribute that’s beside the results will represent the overall state. changed/failed will be true if at least one of the iterations triggered a change/failed, while skipped will be true only if all iterations were skipped.

{
    "changed": true,
    "msg": "All items completed",
    "results": [
        {
            "changed": true,
            "cmd": "echo \"one\" ",
            "delta": "0:00:00.003110",
            "end": "2013-12-19 12:00:05.187153",
            "invocation": {
                "module_args": "echo \"one\"",
                "module_name": "shell"
            },
            "item": "one",
            "rc": 0,
            "start": "2013-12-19 12:00:05.184043",
            "stderr": "",
            "stdout": "one"
        },
        {
            "changed": true,
            "cmd": "echo \"two\" ",
            "delta": "0:00:00.002920",
            "end": "2013-12-19 12:00:05.245502",
            "invocation": {
                "module_args": "echo \"two\"",
                "module_name": "shell"
            },
            "item": "two",
            "rc": 0,
            "start": "2013-12-19 12:00:05.242582",
            "stderr": "",
            "stdout": "two"
        }
    ]
}

Subsequent loops over the registered variable to inspect the results may look like

- name: Fail if return code is not 0
  ansible.builtin.fail:
    msg: "The command ({{ item.cmd }}) did not have a 0 return code"
  when: item.rc != 0
  loop: "{{ echo.results }}"

During iteration, the result of the current item will be placed in the variable.

- name: Place the result of the current item in the variable
  ansible.builtin.shell: echo "{{ item }}"
  loop:
    - one
    - two
  register: echo
  changed_when: echo.stdout != "one"

Retrying a task until a condition is met

New in version 1.4.

You can use the until keyword to retry a task until a certain condition is met. Here’s an example:

- name: Retry a task until a certain condition is met
  ansible.builtin.shell: /usr/bin/foo
  register: result
  until: result.stdout.find("all systems go") != -1
  retries: 5
  delay: 10

This task runs up to 5 times with a delay of 10 seconds between each attempt. If the result of any attempt has “all systems go” in its stdout, the task succeeds. The default value for “retries” is 3 and “delay” is 5.

To see the results of individual retries, run the play with -vv.

When you run a task with until and register the result as a variable, the registered variable will include a key called “attempts”, which records the number of retries for the task.

If until is not specified, the task will retry until the task succeeds but at most retries times (New in version 2.16).

You can combine the until keyword with loop or with_<lookup>. The result of the task for each element of the loop is registered in the variable and can be used in the until condition. Here is an example:

- name: Retry combined with a loop
  uri:
    url: "https://{{ item }}.ansible.com"
    method: GET
  register: uri_output
  with_items:
  - "galaxy"
  - "docs"
  - "forum"
  - "www"
  retries: 2
  delay: 1
  until: "uri_output.status == 200"

Note

When you use the timeout keyword in a loop, it applies to each attempt of the task action. See TASK_TIMEOUT for more details.

Looping over inventory

Normally the play itself is a loop over your inventory, but sometimes you need a task to do the same over a different set of hosts. To loop over your inventory, or just a subset of it, you can use a regular loop with the ansible_play_batch or groups variables.

- name: Show all the hosts in the inventory
  ansible.builtin.debug:
    msg: "{{ item }}"
  loop: "{{ groups['all'] }}"

- name: Show all the hosts in the current play
  ansible.builtin.debug:
    msg: "{{ item }}"
  loop: "{{ ansible_play_batch }}"

There is also a specific lookup plugin inventory_hostnames that can be used like this

- name: Show all the hosts in the inventory
  ansible.builtin.debug:
    msg: "{{ item }}"
  loop: "{{ query('inventory_hostnames', 'all') }}"

- name: Show all the hosts matching the pattern, ie all but the group www
  ansible.builtin.debug:
    msg: "{{ item }}"
  loop: "{{ query('inventory_hostnames', 'all:!www') }}"

More information on the patterns can be found in Patterns: targeting hosts and groups.

Ensuring list input for loop: using query rather than lookup

The loop keyword requires a list as input, but the lookup keyword returns a string of comma-separated values by default. Ansible 2.5 introduced a new Jinja2 function named query that always returns a list, offering a simpler interface and more predictable output from lookup plugins when using the loop keyword.

You can force lookup to return a list to loop by using wantlist=True, or you can use query instead.

The following two examples do the same thing.

loop: "{{ query('inventory_hostnames', 'all') }}"

loop: "{{ lookup('inventory_hostnames', 'all', wantlist=True) }}"

Adding controls to loops

New in version 2.1.

The loop_control keyword lets you manage your loops in useful ways.

Limiting loop output with label

New in version 2.2.

When looping over complex data structures, the console output of your task can be enormous. To limit the displayed output, use the label directive with loop_control.

- name: Create servers
  digital_ocean:
    name: "{{ item.name }}"
    state: present
  loop:
    - name: server1
      disks: 3gb
      ram: 15Gb
      network:
        nic01: 100Gb
        nic02: 10Gb
        ...
  loop_control:
    label: "{{ item.name }}"

The output of this task will display just the name field for each item instead of the entire contents of the multi-line {{ item }} variable.

Note

This is for making console output more readable, not protecting sensitive data. If there is sensitive data in loop, set no_log: true on the task to prevent disclosure.

Pausing within a loop

New in version 2.2.

To control the time (in seconds) between the execution of each item in a task loop, use the pause directive with loop_control.

# main.yml
- name: Create servers, pause 3s before creating next
  community.digitalocean.digital_ocean:
    name: "{{ item }}"
    state: present
  loop:
    - server1
    - server2
  loop_control:
    pause: 3

Breaking out of a loop

New in version 2.18.

Use the break_when directive with loop_control to exit a loop after any item, based on Jinja2 expressions.

# main.yml
- name: Use set_fact in a loop until a condition is met
  vars:
    special_characters: "!@#$%^&*(),.?:{}|<>"
    character_set: "digits,ascii_letters,{{ special_characters }}"
    password_policy: '^(?=.*\d)(?=.*[A-Z])(?=.*[{{ special_characters | regex_escape }}]).{12,}$'
  block:
    - name: Generate a password until it contains a digit, uppercase letter, and special character (10 attempts)
      set_fact:
        password: "{{ lookup('password', '/dev/null', chars=character_set, length=12) }}"
      loop: "{{ range(0, 10) }}"
      loop_control:
        break_when:
          - password is match(password_policy)

    - fail:
        msg: "Maximum attempts to generate a valid password exceeded"
      when: password is not match(password_policy)

Tracking progress through a loop with index_var

New in version 2.5.

To keep track of where you are in a loop, use the index_var directive with loop_control. This directive specifies a variable name to contain the current loop index.

- name: Count our fruit
  ansible.builtin.debug:
    msg: "{{ item }} with index {{ my_idx }}"
  loop:
    - apple
    - banana
    - pear
  loop_control:
    index_var: my_idx

Note

index_var is 0 indexed.

Extended loop variables

New in version 2.8.

As of Ansible 2.8, you can get extended loop information using the extended option to loop control. This option will expose the following information.

Variable

Description

ansible_loop.allitems

The list of all items in the loop

ansible_loop.index

The current iteration of the loop. (1 indexed)

ansible_loop.index0

The current iteration of the loop. (0 indexed)

ansible_loop.revindex

The number of iterations from the end of the loop (1 indexed)

ansible_loop.revindex0

The number of iterations from the end of the loop (0 indexed)

ansible_loop.first

True if first iteration

ansible_loop.last

True if last iteration

ansible_loop.length

The number of items in the loop

ansible_loop.previtem

The item from the previous iteration of the loop. Undefined during the first iteration.

ansible_loop.nextitem

The item from the following iteration of the loop. Undefined during the last iteration.

loop_control:
  extended: true

Note

When using loop_control.extended more memory will be utilized on the control node. This is a result of ansible_loop.allitems containing a reference to the full loop data for every loop. When serializing the results for display in callback plugins within the main ansible process, these references may be dereferenced causing memory usage to increase.

New in version 2.14.

To disable the ansible_loop.allitems item, to reduce memory consumption, set loop_control.extended_allitems: false.

loop_control:
  extended: true
  extended_allitems: false

Accessing the name of your loop_var

New in version 2.8.

As of Ansible 2.8, you can get the name of the value provided to loop_control.loop_var using the ansible_loop_var variable

For role authors, writing roles that allow loops, instead of dictating the required loop_var value, you can gather the value through the following

"{{ lookup('vars', ansible_loop_var) }}"

Nested Loops

While we are using loop in these examples, the same applies to with_<lookup>.

Iterating over nested lists

The simplest way to ‘nest’ loops is to avoid nesting loops, just format the data to achieve the same result. You can use Jinja2 expressions to iterate over complex lists. For example, a loop can combine nested lists, which simulates a nested loop.

- name: Give users access to multiple databases
  community.mysql.mysql_user:
    name: "{{ item[0] }}"
    priv: "{{ item[1] }}.*:ALL"
    append_privs: true
    password: "foo"
  loop: "{{ ['alice', 'bob'] | product(['clientdb', 'employeedb', 'providerdb']) | list }}"

Stacking loops via include_tasks

New in version 2.1.

You can nest two looping tasks using include_tasks. However, by default, Ansible sets the loop variable item for each loop. This means the inner, nested loop will overwrite the value of item from the outer loop. To avoid this, you can specify the name of the variable for each loop using loop_var with loop_control.

# main.yml
- include_tasks: inner.yml
  loop:
    - 1
    - 2
    - 3
  loop_control:
    loop_var: outer_item

# inner.yml
- name: Print outer and inner items
  ansible.builtin.debug:
    msg: "outer item={{ outer_item }} inner item={{ item }}"
  loop:
    - a
    - b
    - c

Note

If Ansible detects that the current loop is using a variable that has already been defined, it will raise an error to fail the task.

Until and loop

The until condition will apply per item of the loop:

- debug: msg={{item}}
  loop:
    - 1
    - 2
    - 3
  retries: 2
  until: item > 2

This will make Ansible retry the first 2 items twice, then fail the item on the 3rd attempt, then succeed at the first attempt on the 3rd item, in the end failing the task as a whole.

[started TASK: debug on localhost]
FAILED - RETRYING: [localhost]: debug (2 retries left).Result was: {
    "attempts": 1,
    "changed": false,
    "msg": 1,
    "retries": 3
}
FAILED - RETRYING: [localhost]: debug (1 retries left).Result was: {
    "attempts": 2,
    "changed": false,
    "msg": 1,
    "retries": 3
}
failed: [localhost] (item=1) => {
    "msg": 1
}
FAILED - RETRYING: [localhost]: debug (2 retries left).Result was: {
    "attempts": 1,
    "changed": false,
    "msg": 2,
    "retries": 3
}
FAILED - RETRYING: [localhost]: debug (1 retries left).Result was: {
    "attempts": 2,
    "changed": false,
    "msg": 2,
    "retries": 3
}
failed: [localhost] (item=2) => {
    "msg": 2
}
ok: [localhost] => (item=3) => {
    "msg": 3
}
fatal: [localhost]: FAILED! => {"msg": "One or more items failed"}

Migrating from with_X to loop

In most cases, loops work best with the loop keyword instead of with_X style loops. The loop syntax is usually best expressed using filters instead of more complex use of query or lookup.

These examples show how to convert many common with_ style loops to loop and filters.

with_list

with_list is directly replaced by loop.

- name: with_list
  ansible.builtin.debug:
    msg: "{{ item }}"
  with_list:
    - one
    - two

- name: with_list -> loop
  ansible.builtin.debug:
    msg: "{{ item }}"
  loop:
    - one
    - two

with_items

with_items is replaced by loop and the flatten filter.

- name: with_items
  ansible.builtin.debug:
    msg: "{{ item }}"
  with_items: "{{ items }}"

- name: with_items -> loop
  ansible.builtin.debug:
    msg: "{{ item }}"
  loop: "{{ items|flatten(levels=1) }}"

with_indexed_items

with_indexed_items is replaced by loop, the flatten filter and loop_control.index_var.

- name: with_indexed_items
  ansible.builtin.debug:
    msg: "{{ item.0 }} - {{ item.1 }}"
  with_indexed_items: "{{ items }}"

- name: with_indexed_items -> loop
  ansible.builtin.debug:
    msg: "{{ index }} - {{ item }}"
  loop: "{{ items|flatten(levels=1) }}"
  loop_control:
    index_var: index

with_flattened

with_flattened is replaced by loop and the flatten filter.

- name: with_flattened
  ansible.builtin.debug:
    msg: "{{ item }}"
  with_flattened: "{{ items }}"

- name: with_flattened -> loop
  ansible.builtin.debug:
    msg: "{{ item }}"
  loop: "{{ items|flatten }}"

with_together

with_together is replaced by loop and the zip filter.

- name: with_together
  ansible.builtin.debug:
    msg: "{{ item.0 }} - {{ item.1 }}"
  with_together:
    - "{{ list_one }}"
    - "{{ list_two }}"

- name: with_together -> loop
  ansible.builtin.debug:
    msg: "{{ item.0 }} - {{ item.1 }}"
  loop: "{{ list_one|zip(list_two)|list }}"

Another example with complex data

- name: with_together -> loop
  ansible.builtin.debug:
    msg: "{{ item.0 }} - {{ item.1 }} - {{ item.2 }}"
  loop: "{{ data[0]|zip(*data[1:])|list }}"
  vars:
    data:
      - ['a', 'b', 'c']
      - ['d', 'e', 'f']
      - ['g', 'h', 'i']

with_dict

with_dict can be substituted by loop and either the dictsort or dict2items filters.

- name: with_dict
  ansible.builtin.debug:
    msg: "{{ item.key }} - {{ item.value }}"
  with_dict: "{{ dictionary }}"

- name: with_dict -> loop (option 1)
  ansible.builtin.debug:
    msg: "{{ item.key }} - {{ item.value }}"
  loop: "{{ dictionary|dict2items }}"

- name: with_dict -> loop (option 2)
  ansible.builtin.debug:
    msg: "{{ item.0 }} - {{ item.1 }}"
  loop: "{{ dictionary|dictsort }}"

with_sequence

with_sequence is replaced by loop and the range function, and potentially the format filter.

- name: with_sequence
  ansible.builtin.debug:
    msg: "{{ item }}"
  with_sequence: start=0 end=4 stride=2 format=testuser%02x

- name: with_sequence -> loop
  ansible.builtin.debug:
    msg: "{{ 'testuser%02x' | format(item) }}"
  loop: "{{ range(0, 4 + 1, 2)|list }}"

The range of the loop is exclusive of the end point.

with_subelements

with_subelements is replaced by loop and the subelements filter.

- name: with_subelements
  ansible.builtin.debug:
    msg: "{{ item.0.name }} - {{ item.1 }}"
  with_subelements:
    - "{{ users }}"
    - mysql.hosts

- name: with_subelements -> loop
  ansible.builtin.debug:
    msg: "{{ item.0.name }} - {{ item.1 }}"
  loop: "{{ users|subelements('mysql.hosts') }}"

with_nested/with_cartesian

with_nested and with_cartesian are replaced by loop and the product filter.

- name: with_nested
  ansible.builtin.debug:
    msg: "{{ item.0 }} - {{ item.1 }}"
  with_nested:
    - "{{ list_one }}"
    - "{{ list_two }}"

- name: with_nested -> loop
  ansible.builtin.debug:
    msg: "{{ item.0 }} - {{ item.1 }}"
  loop: "{{ list_one|product(list_two)|list }}"

with_random_choice

with_random_choice is replaced by just use of the random filter, without need of loop.

- name: with_random_choice
  ansible.builtin.debug:
    msg: "{{ item }}"
  with_random_choice: "{{ my_list }}"

- name: with_random_choice -> loop (No loop is needed here)
  ansible.builtin.debug:
    msg: "{{ my_list|random }}"
  tags: random

See also

Ansible playbooks

An introduction to playbooks

Roles

Playbook organization by roles

General tips

Tips and tricks for playbooks

Conditionals

Conditional statements in playbooks

Using Variables

All about variables

Communication

Got questions? Need help? Want to share your ideas? Visit the Ansible communication guide