mirror of https://github.com/ansible/ansible.git
You cannot select more than 25 topics
Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
500 lines
26 KiB
ReStructuredText
500 lines
26 KiB
ReStructuredText
12 years ago
|
Glossary
|
||
|
========
|
||
|
|
||
|
The following is a list (and re-explanation) of term definitions used elsewhere in the Ansible documentation.
|
||
|
|
||
11 years ago
|
Consult the documentation home page for the full documentation and to see the terms in context, but this should be a good resource
|
||
|
to check your knowledge of Ansible's components and understand how they fit together. It's something you might wish to read for review or
|
||
12 years ago
|
when a term comes up on the mailing list.
|
||
|
|
||
9 years ago
|
.. glossary::
|
||
|
|
||
|
Action
|
||
|
An action is a part of a task that specifies which of the modules to
|
||
|
run and which arguments to pass to that module. Each task can have
|
||
|
only one action, but it may also have other parameters.
|
||
|
|
||
|
Ad Hoc
|
||
|
Refers to running Ansible to perform some quick command, using
|
||
|
:command:`/usr/bin/ansible`, rather than the :term:`orchestration`
|
||
|
language, which is :command:`/usr/bin/ansible-playbook`. An example
|
||
|
of an ad hoc command might be rebooting 50 machines in your
|
||
|
infrastructure. Anything you can do ad hoc can be accomplished by
|
||
|
writing a :term:`playbook <playbooks>` and playbooks can also glue
|
||
|
lots of other operations together.
|
||
|
|
||
|
Async
|
||
|
Refers to a task that is configured to run in the background rather
|
||
|
than waiting for completion. If you have a long process that would
|
||
|
run longer than the SSH timeout, it would make sense to launch that
|
||
|
task in async mode. Async modes can poll for completion every so many
|
||
|
seconds or can be configured to "fire and forget", in which case
|
||
|
Ansible will not even check on the task again; it will just kick it
|
||
|
off and proceed to future steps. Async modes work with both
|
||
|
:command:`/usr/bin/ansible` and :command:`/usr/bin/ansible-playbook`.
|
||
|
|
||
|
Callback Plugin
|
||
|
Refers to some user-written code that can intercept results from
|
||
|
Ansible and do something with them. Some supplied examples in the
|
||
|
GitHub project perform custom logging, send email, or even play sound
|
||
|
effects.
|
||
|
|
||
|
Check Mode
|
||
|
Refers to running Ansible with the ``--check`` option, which does not
|
||
|
make any changes on the remote systems, but only outputs the changes
|
||
|
that might occur if the command ran without this flag. This is
|
||
|
analogous to so-called "dry run" modes in other systems, though the
|
||
|
user should be warned that this does not take into account unexpected
|
||
|
command failures or cascade effects (which is true of similar modes in
|
||
|
other systems). Use this to get an idea of what might happen, but do
|
||
|
not substitute it for a good staging environment.
|
||
|
|
||
|
Connection Plugin
|
||
|
By default, Ansible talks to remote machines through pluggable
|
||
|
libraries. Ansible supports native OpenSSH (:term:`SSH (Native)`) or
|
||
|
a Python implementation called :term:`paramiko`. OpenSSH is preferred
|
||
|
if you are using a recent version, and also enables some features like
|
||
|
Kerberos and jump hosts. This is covered in the :ref:`getting
|
||
|
started section <remote_connection_information>`. There are also
|
||
|
other connection types like ``accelerate`` mode, which must be
|
||
|
bootstrapped over one of the SSH-based connection types but is very
|
||
|
fast, and local mode, which acts on the local system. Users can also
|
||
|
write their own connection plugins.
|
||
|
|
||
|
Conditionals
|
||
|
A conditional is an expression that evaluates to true or false that
|
||
|
decides whether a given task is executed on a given machine or not.
|
||
|
Ansible's conditionals are powered by the 'when' statement, which are
|
||
|
discussed in the :doc:`playbook documentation <playbooks>`.
|
||
|
|
||
8 years ago
|
Declarative
|
||
|
An approach to achieving a task that uses a description of the
|
||
|
final state rather than a description of the sequence of steps
|
||
|
necessary to achieve that state. For a real world example, a
|
||
|
declarative specification of a task would be: "put me in California".
|
||
|
Depending on your current location, the sequence of steps to get you to
|
||
|
California may vary, and if you are already in California, nothing
|
||
|
at all needs to be done. Ansible's Resources are declarative; it
|
||
|
figures out the steps needed to achieve the final state. It also lets
|
||
|
you know whether or not any steps needed to be taken to get to the
|
||
|
final state.
|
||
|
|
||
9 years ago
|
Diff Mode
|
||
9 years ago
|
A ``--diff`` flag can be passed to Ansible to show what changed on
|
||
|
modules that support it. You can combine it with ``--check`` to get a
|
||
9 years ago
|
good 'dry run'. File diffs are normally in unified diff format.
|
||
9 years ago
|
|
||
|
Executor
|
||
|
A core software component of Ansible that is the power behind
|
||
|
:command:`/usr/bin/ansible` directly -- and corresponds to the
|
||
|
invocation of each task in a :term:`playbook <playbooks>`. The
|
||
|
Executor is something Ansible developers may talk about, but it's not
|
||
|
really user land vocabulary.
|
||
|
|
||
|
Facts
|
||
|
Facts are simply things that are discovered about remote nodes. While
|
||
|
they can be used in :term:`playbooks` and templates just like
|
||
|
variables, facts are things that are inferred, rather than set. Facts
|
||
|
are automatically discovered by Ansible when running plays by
|
||
|
executing the internal :ref:`setup module <setup>` on the remote nodes. You
|
||
|
never have to call the setup module explicitly, it just runs, but it
|
||
|
can be disabled to save time if it is not needed or you can tell
|
||
|
ansible to collect only a subset of the full facts via the
|
||
|
``gather_subset:`` option. For the convenience of users who are
|
||
|
switching from other configuration management systems, the fact module
|
||
|
will also pull in facts from the :program:`ohai` and :program:`facter`
|
||
|
tools if they are installed. These are fact libraries from Chef and
|
||
|
Puppet, respectively. (These may also be disabled via
|
||
|
``gather_subset:``)
|
||
|
|
||
|
Filter Plugin
|
||
|
A filter plugin is something that most users will never need to
|
||
|
understand. These allow for the creation of new :term:`Jinja2`
|
||
|
filters, which are more or less only of use to people who know what
|
||
|
Jinja2 filters are. If you need them, you can learn how to write them
|
||
|
in the :ref:`API docs section <developing_filter_plugins>`.
|
||
|
|
||
|
Forks
|
||
|
Ansible talks to remote nodes in parallel and the level of parallelism
|
||
|
can be set either by passing ``--forks`` or editing the default in
|
||
|
a configuration file. The default is a very conservative five (5)
|
||
|
forks, though if you have a lot of RAM, you can easily set this to
|
||
|
a value like 50 for increased parallelism.
|
||
|
|
||
|
Gather Facts (Boolean)
|
||
|
:term:`Facts` are mentioned above. Sometimes when running a multi-play
|
||
|
:term:`playbook <playbooks>`, it is desirable to have some plays that
|
||
|
don't bother with fact computation if they aren't going to need to
|
||
|
utilize any of these values. Setting ``gather_facts: False`` on
|
||
|
a playbook allows this implicit fact gathering to be skipped.
|
||
|
|
||
|
Globbing
|
||
|
Globbing is a way to select lots of hosts based on wildcards, rather
|
||
|
than the name of the host specifically, or the name of the group they
|
||
|
are in. For instance, it is possible to select ``ww*`` to match all
|
||
|
hosts starting with ``www``. This concept is pulled directly from
|
||
|
:program:`Func`, one of Michael DeHaan's (an Ansible Founder) earlier
|
||
|
projects. In addition to basic globbing, various set operations are
|
||
|
also possible, such as 'hosts in this group and not in another group',
|
||
|
and so on.
|
||
|
|
||
|
Group
|
||
|
A group consists of several hosts assigned to a pool that can be
|
||
|
conveniently targeted together, as well as given variables that they
|
||
|
share in common.
|
||
|
|
||
|
Group Vars
|
||
|
The :file:`group_vars/` files are files that live in a directory
|
||
|
alongside an inventory file, with an optional filename named after
|
||
|
each group. This is a convenient place to put variables that are
|
||
|
provided to a given group, especially complex data structures, so that
|
||
|
these variables do not have to be embedded in the :term:`inventory`
|
||
|
file or :term:`playbook <playbooks>`.
|
||
|
|
||
|
Handlers
|
||
|
Handlers are just like regular tasks in an Ansible
|
||
|
:term:`playbook <playbooks>` (see :term:`Tasks`) but are only run if
|
||
|
the Task contains a ``notify`` directive and also indicates that it
|
||
|
changed something. For example, if a config file is changed, then the
|
||
|
task referencing the config file templating operation may notify
|
||
|
a service restart handler. This means services can be bounced only if
|
||
|
they need to be restarted. Handlers can be used for things other than
|
||
|
service restarts, but service restarts are the most common usage.
|
||
|
|
||
|
Host
|
||
|
A host is simply a remote machine that Ansible manages. They can have
|
||
|
individual variables assigned to them, and can also be organized in
|
||
|
groups. All hosts have a name they can be reached at (which is either
|
||
|
an IP address or a domain name) and, optionally, a port number, if they
|
||
|
are not to be accessed on the default SSH port.
|
||
|
|
||
|
Host Specifier
|
||
|
Each :term:`Play <plays>` in Ansible maps a series of :term:`tasks` (which define the role,
|
||
|
purpose, or orders of a system) to a set of systems.
|
||
|
|
||
|
This ``hosts:`` directive in each play is often called the hosts specifier.
|
||
|
|
||
|
It may select one system, many systems, one or more groups, or even
|
||
|
some hosts that are in one group and explicitly not in another.
|
||
|
|
||
|
Host Vars
|
||
|
Just like :term:`Group Vars`, a directory alongside the inventory file named
|
||
|
:file:`host_vars/` can contain a file named after each hostname in the
|
||
|
inventory file, in :term:`YAML` format. This provides a convenient place to
|
||
|
assign variables to the host without having to embed them in the
|
||
|
:term:`inventory` file. The Host Vars file can also be used to define complex
|
||
|
data structures that can't be represented in the inventory file.
|
||
|
|
||
|
Idempotency
|
||
8 years ago
|
An operation is idempotent if the result of performing it once is
|
||
|
exactly the same as the result of performing it repeatedly without
|
||
|
any intervening actions.
|
||
9 years ago
|
|
||
|
Includes
|
||
|
The idea that :term:`playbook <playbooks>` files (which are nothing
|
||
|
more than lists of :term:`plays`) can include other lists of plays,
|
||
|
and task lists can externalize lists of :term:`tasks` in other files,
|
||
|
and similarly with :term:`handlers`. Includes can be parameterized,
|
||
|
which means that the loaded file can pass variables. For instance, an
|
||
|
included play for setting up a WordPress blog may take a parameter
|
||
|
called ``user`` and that play could be included more than once to
|
||
|
create a blog for both ``alice`` and ``bob``.
|
||
|
|
||
|
Inventory
|
||
|
A file (by default, Ansible uses a simple INI format) that describes
|
||
|
:term:`Hosts <Host>` and :term:`Groups <Group>` in Ansible. Inventory
|
||
|
can also be provided via an :term:`Inventory Script` (sometimes called
|
||
|
an "External Inventory Script").
|
||
|
|
||
|
Inventory Script
|
||
|
A very simple program (or a complicated one) that looks up
|
||
|
:term:`hosts <Host>`, :term:`group` membership for hosts, and variable
|
||
|
information from an external resource -- whether that be a SQL
|
||
|
database, a CMDB solution, or something like LDAP. This concept was
|
||
|
adapted from Puppet (where it is called an "External Nodes
|
||
|
Classifier") and works more or less exactly the same way.
|
||
|
|
||
|
Jinja2
|
||
|
Jinja2 is the preferred templating language of Ansible's template
|
||
|
module. It is a very simple Python template language that is
|
||
|
generally readable and easy to write.
|
||
|
|
||
|
JSON
|
||
|
Ansible uses JSON for return data from remote modules. This allows
|
||
|
modules to be written in any language, not just Python.
|
||
|
|
||
|
Lazy Evaluation
|
||
|
In general, Ansible evaluates any variables in
|
||
|
:term:`playbook <playbooks>` content at the last possible second,
|
||
|
which means that if you define a data structure that data structure
|
||
|
itself can define variable values within it, and everything "just
|
||
|
works" as you would expect. This also means variable strings can
|
||
|
include other variables inside of those strings.
|
||
|
|
||
|
Library
|
||
|
A collection of modules made available to :command:`/usr/bin/ansible`
|
||
|
or an Ansible :term:`playbook <playbooks>`.
|
||
|
|
||
|
Limit Groups
|
||
|
By passing ``--limit somegroup`` to :command:`ansible` or
|
||
|
:command:`ansible-playbook`, the commands can be limited to a subset
|
||
|
of :term:`hosts <Host>`. For instance, this can be used to run
|
||
|
a :term:`playbook <playbooks>` that normally targets an entire set of
|
||
|
servers to one particular server.
|
||
|
|
||
|
Local Action
|
||
|
A local_action directive in a :term:`playbook <playbooks>` targeting
|
||
|
remote machines means that the given step will actually occur on the
|
||
|
local machine, but that the variable ``{{ ansible_hostname }}`` can be
|
||
|
passed in to reference the remote hostname being referred to in that
|
||
|
step. This can be used to trigger, for example, an rsync operation.
|
||
|
|
||
|
Local Connection
|
||
|
By using ``connection: local`` in a :term:`playbook <playbooks>`, or
|
||
|
passing ``-c local`` to :command:`/usr/bin/ansible`, this indicates
|
||
|
that we are managing the local host and not a remote machine.
|
||
|
|
||
|
Lookup Plugin
|
||
|
A lookup plugin is a way to get data into Ansible from the outside
|
||
|
world. These are how such things as ``with_items``, a basic looping
|
||
|
plugin, are implemented. There are also lookup plugins like
|
||
|
``with_file`` which load data from a file and ones for querying
|
||
|
environment variables, DNS text records, or key value stores. Lookup
|
||
|
plugins can also be accessed in templates, e.g.,
|
||
|
``{{ lookup('file','/path/to/file') }}``.
|
||
|
|
||
|
Loops
|
||
|
Generally, Ansible is not a programming language. It prefers to be
|
||
|
more declarative, though various constructs like ``with_items`` allow
|
||
|
a particular task to be repeated for multiple items in a list.
|
||
|
Certain modules, like :ref:`yum <yum>` and :ref:`apt <apt>`, are actually
|
||
|
optimized for this, and can install all packages given in those lists
|
||
|
within a single transaction, dramatically speeding up total time to
|
||
|
configuration.
|
||
|
|
||
|
Modules
|
||
|
Modules are the units of work that Ansible ships out to remote
|
||
|
machines. Modules are kicked off by either
|
||
|
:command:`/usr/bin/ansible` or :command:`/usr/bin/ansible-playbook`
|
||
|
(where multiple tasks use lots of different modules in conjunction).
|
||
|
Modules can be implemented in any language, including Perl, Bash, or
|
||
|
Ruby -- but can leverage some useful communal library code if written
|
||
|
in Python. Modules just have to return :term:`JSON`. Once modules are
|
||
|
executed on remote machines, they are removed, so no long running
|
||
|
daemons are used. Ansible refers to the collection of available
|
||
|
modules as a :term:`library`.
|
||
|
|
||
|
Multi-Tier
|
||
|
The concept that IT systems are not managed one system at a time, but
|
||
|
by interactions between multiple systems and groups of systems in
|
||
|
well defined orders. For instance, a web server may need to be
|
||
|
updated before a database server and pieces on the web server may
|
||
|
need to be updated after *THAT* database server and various load
|
||
|
balancers and monitoring servers may need to be contacted. Ansible
|
||
|
models entire IT topologies and workflows rather than looking at
|
||
|
configuration from a "one system at a time" perspective.
|
||
|
|
||
|
Notify
|
||
|
The act of a :term:`task <tasks>` registering a change event and
|
||
|
informing a :term:`handler <handlers>` task that another
|
||
|
:term:`action` needs to be run at the end of the :term:`play <plays>`. If
|
||
|
a handler is notified by multiple tasks, it will still be run only
|
||
|
once. Handlers are run in the order they are listed, not in the order
|
||
|
that they are notified.
|
||
|
|
||
|
Orchestration
|
||
|
Many software automation systems use this word to mean different
|
||
|
things. Ansible uses it as a conductor would conduct an orchestra.
|
||
|
A datacenter or cloud architecture is full of many systems, playing
|
||
|
many parts -- web servers, database servers, maybe load balancers,
|
||
|
monitoring systems, continuous integration systems, etc. In
|
||
|
performing any process, it is necessary to touch systems in particular
|
||
|
orders, often to simulate rolling updates or to deploy software
|
||
|
correctly. Some system may perform some steps, then others, then
|
||
|
previous systems already processed may need to perform more steps.
|
||
|
Along the way, emails may need to be sent or web services contacted.
|
||
|
Ansible orchestration is all about modeling that kind of process.
|
||
|
|
||
|
paramiko
|
||
|
By default, Ansible manages machines over SSH. The library that
|
||
|
Ansible uses by default to do this is a Python-powered library called
|
||
|
paramiko. The paramiko library is generally fast and easy to manage,
|
||
|
though users desiring Kerberos or Jump Host support may wish to switch
|
||
|
to a native SSH binary such as OpenSSH by specifying the connection
|
||
|
type in their :term:`playbooks`, or using the ``-c ssh`` flag.
|
||
|
|
||
|
Playbooks
|
||
|
Playbooks are the language by which Ansible orchestrates, configures,
|
||
|
administers, or deploys systems. They are called playbooks partially
|
||
|
because it's a sports analogy, and it's supposed to be fun using them.
|
||
|
They aren't workbooks :)
|
||
|
|
||
|
Plays
|
||
|
A :term:`playbook <playbooks>` is a list of plays. A play is
|
||
|
minimally a mapping between a set of :term:`hosts <Host>` selected by a host
|
||
|
specifier (usually chosen by :term:`groups <Group>` but sometimes by
|
||
|
hostname :term:`globs <Globbing>`) and the :term:`tasks` which run on those
|
||
|
hosts to define the role that those systems will perform. There can be
|
||
|
one or many plays in a playbook.
|
||
|
|
||
|
Pull Mode
|
||
|
By default, Ansible runs in :term:`push mode`, which allows it very
|
||
|
fine-grained control over when it talks to each system. Pull mode is
|
||
|
provided for when you would rather have nodes check in every N minutes
|
||
|
on a particular schedule. It uses a program called
|
||
|
:command:`ansible-pull` and can also be set up (or reconfigured) using
|
||
|
a push-mode :term:`playbook <playbooks>`. Most Ansible users use push
|
||
|
mode, but pull mode is included for variety and the sake of having
|
||
|
choices.
|
||
|
|
||
|
:command:`ansible-pull` works by checking configuration orders out of
|
||
|
git on a crontab and then managing the machine locally, using the
|
||
|
:term:`local connection` plugin.
|
||
|
|
||
|
Push Mode
|
||
|
Push mode is the default mode of Ansible. In fact, it's not really
|
||
|
a mode at all -- it's just how Ansible works when you aren't thinking
|
||
|
about it. Push mode allows Ansible to be fine-grained and conduct
|
||
|
nodes through complex orchestration processes without waiting for them
|
||
|
to check in.
|
||
|
|
||
|
Register Variable
|
||
|
The result of running any :term:`task <tasks>` in Ansible can be
|
||
|
stored in a variable for use in a template or a conditional statement.
|
||
|
The keyword used to define the variable is called ``register``, taking
|
||
|
its name from the idea of registers in assembly programming (though
|
||
|
Ansible will never feel like assembly programming). There are an
|
||
|
infinite number of variable names you can use for registration.
|
||
|
|
||
|
Resource Model
|
||
|
Ansible modules work in terms of resources. For instance, the
|
||
|
:ref:`file module <file>` will select a particular file and ensure
|
||
|
that the attributes of that resource match a particular model. As an
|
||
|
example, we might wish to change the owner of :file:`/etc/motd` to
|
||
|
``root`` if it is not already set to ``root``, or set its mode to
|
||
|
``0644`` if it is not already set to ``0644``. The resource models
|
||
|
are :term:`idempotent <idempotency>` meaning change commands are not
|
||
|
run unless needed, and Ansible will bring the system back to a desired
|
||
|
state regardless of the actual state -- rather than you having to tell
|
||
|
it how to get to the state.
|
||
|
|
||
|
Roles
|
||
|
Roles are units of organization in Ansible. Assigning a role to
|
||
|
a group of :term:`hosts <Host>` (or a set of :term:`groups <group>`,
|
||
|
or :term:`host patterns <Globbing>`, etc.) implies that they should
|
||
|
implement a specific behavior. A role may include applying certain
|
||
|
variable values, certain :term:`tasks`, and certain :term:`handlers`
|
||
|
-- or just one or more of these things. Because of the file structure
|
||
|
associated with a role, roles become redistributable units that allow
|
||
|
you to share behavior among :term:`playbooks` -- or even with other users.
|
||
|
|
||
|
Rolling Update
|
||
|
The act of addressing a number of nodes in a group N at a time to
|
||
|
avoid updating them all at once and bringing the system offline. For
|
||
|
instance, in a web topology of 500 nodes handling very large volume,
|
||
|
it may be reasonable to update 10 or 20 machines at a time, moving on
|
||
|
to the next 10 or 20 when done. The ``serial:`` keyword in an Ansible
|
||
|
:term:`playbooks` control the size of the rolling update pool. The
|
||
|
default is to address the batch size all at once, so this is something
|
||
|
that you must opt-in to. OS configuration (such as making sure config
|
||
|
files are correct) does not typically have to use the rolling update
|
||
|
model, but can do so if desired.
|
||
|
|
||
|
Serial
|
||
|
.. seealso::
|
||
|
|
||
|
:term:`Rolling Update`
|
||
|
|
||
|
Sudo
|
||
|
Ansible does not require root logins, and since it's daemonless,
|
||
|
definitely does not require root level daemons (which can be
|
||
|
a security concern in sensitive environments). Ansible can log in and
|
||
|
perform many operations wrapped in a sudo command, and can work with
|
||
|
both password-less and password-based sudo. Some operations that
|
||
|
don't normally work with sudo (like scp file transfer) can be achieved
|
||
|
with Ansible's :ref:`copy <copy>`, :ref:`template <template>`, and
|
||
|
:ref:`fetch <fetch>` modules while running in sudo mode.
|
||
|
|
||
|
SSH (Native)
|
||
|
Native OpenSSH as an Ansible transport is specified with ``-c ssh``
|
||
|
(or a config file, or a directive in the :term:`playbook <playbooks>`)
|
||
|
and can be useful if wanting to login via Kerberized SSH or using SSH
|
||
|
jump hosts, etc. In 1.2.1, ``ssh`` will be used by default if the
|
||
|
OpenSSH binary on the control machine is sufficiently new.
|
||
|
Previously, Ansible selected ``paramiko`` as a default. Using
|
||
|
a client that supports ``ControlMaster`` and ``ControlPersist`` is
|
||
|
recommended for maximum performance -- if you don't have that and
|
||
|
don't need Kerberos, jump hosts, or other features, ``paramiko`` is
|
||
|
a good choice. Ansible will warn you if it doesn't detect
|
||
|
ControlMaster/ControlPersist capability.
|
||
|
|
||
|
Tags
|
||
|
Ansible allows tagging resources in a :term:`playbook <playbooks>`
|
||
|
with arbitrary keywords, and then running only the parts of the
|
||
|
playbook that correspond to those keywords. For instance, it is
|
||
|
possible to have an entire OS configuration, and have certain steps
|
||
|
labeled ``ntp``, and then run just the ``ntp`` steps to reconfigure
|
||
|
the time server information on a remote host.
|
||
|
|
||
|
Tasks
|
||
|
:term:`Playbooks` exist to run tasks. Tasks combine an :term:`action`
|
||
|
(a module and its arguments) with a name and optionally some other
|
||
|
keywords (like :term:`looping directives <loops>`). :term:`Handlers`
|
||
|
are also tasks, but they are a special kind of task that do not run
|
||
|
unless they are notified by name when a task reports an underlying
|
||
|
change on a remote system.
|
||
|
|
||
|
Templates
|
||
|
Ansible can easily transfer files to remote systems but often it is
|
||
|
desirable to substitute variables in other files. Variables may come
|
||
|
from the :term:`inventory` file, :term:`Host Vars`, :term:`Group
|
||
|
Vars`, or :term:`Facts`. Templates use the :term:`Jinja2` template
|
||
|
engine and can also include logical constructs like loops and if
|
||
|
statements.
|
||
|
|
||
|
Transport
|
||
|
Ansible uses :term:``Connection Plugins`` to define types of available
|
||
|
transports. These are simply how Ansible will reach out to managed
|
||
|
systems. Transports included are :term:`paramiko`,
|
||
|
:term:`ssh <SSH (Native)>` (using OpenSSH), and
|
||
|
:term:`local <Local Connection>`.
|
||
|
|
||
|
When
|
||
|
An optional conditional statement attached to a :term:`task <tasks>` that is used to
|
||
|
determine if the task should run or not. If the expression following
|
||
|
the ``when:`` keyword evaluates to false, the task will be ignored.
|
||
|
|
||
|
Vars (Variables)
|
||
|
As opposed to :term:`Facts`, variables are names of values (they can
|
||
|
be simple scalar values -- integers, booleans, strings) or complex
|
||
|
ones (dictionaries/hashes, lists) that can be used in templates and
|
||
|
:term:`playbooks`. They are declared things, not things that are
|
||
|
inferred from the remote system's current state or nature (which is
|
||
|
what Facts are).
|
||
|
|
||
|
YAML
|
||
|
Ansible does not want to force people to write programming language
|
||
|
code to automate infrastructure, so Ansible uses YAML to define
|
||
|
:term:`playbook <playbooks>` configuration languages and also variable
|
||
|
files. YAML is nice because it has a minimum of syntax and is very
|
||
|
clean and easy for people to skim. It is a good data format for
|
||
|
configuration files and humans, but also machine readable. Ansible's
|
||
|
usage of YAML stemmed from Michael DeHaan's first use of it inside of
|
||
|
Cobbler around 2006. YAML is fairly popular in the dynamic language
|
||
|
community and the format has libraries available for serialization in
|
||
|
many languages (Python, Perl, Ruby, etc.).
|
||
12 years ago
|
|
||
11 years ago
|
.. seealso::
|
||
|
|
||
|
:doc:`faq`
|
||
|
Frequently asked questions
|
||
|
:doc:`playbooks`
|
||
|
An introduction to playbooks
|
||
|
:doc:`playbooks_best_practices`
|
||
|
Best practices advice
|
||
|
`User Mailing List <http://groups.google.com/group/ansible-devel>`_
|
||
|
Have a question? Stop by the google group!
|
||
|
`irc.freenode.net <http://irc.freenode.net>`_
|
||
|
#ansible IRC chat channel
|
||
12 years ago
|
|