Certain settings in Ansible are adjustable via a configuration file. The stock configuration should be sufficient for most users, but there may be reasons you would want to change them.
Changes can be made and used in a configuration file which will be processed in the following order:
* ANSIBLE_CONFIG (an environment variable) * ansible.cfg (in the current directory) * .ansible.cfg (in the home directory) * /etc/ansible/ansible.cfg
Prior to 1.5 the order was:
* ansible.cfg (in the current directory) * ANSIBLE_CONFIG (an environment variable) * .ansible.cfg (in the home directory) * /etc/ansible/ansible.cfg
Ansible will process the above list and use the first file found. Settings in files are not merged.
Note
Comments The configuration file is one variant of an INI format. Both the hash sign (“#”) and semicolon (”;”) are allowed as comment markers when the comment starts the line. However, if the comment is inline with regular values, only the semicolon is allowed to introduce the comment. For instance:
# some basic default values... inventory = /etc/ansible/hosts ; This points to the file that lists your hosts
If installing ansible from a package manager, the latest ansible.cfg should be present in /etc/ansible, possibly as a ”.rpmnew” file (or other) as appropriate in the case of updates.
If you have installed from pip or from source, however, you may want to create this file in order to override default settings in Ansible.
You may wish to consult the ansible.cfg in source control for all of the possible latest values.
Ansible also allows configuration of settings via environment variables. If these environment variables are set, they will override any setting loaded from the configuration file. These variables are defined in constants.py.
The configuration file is broken up into sections. Most options are in the “general” section but some sections of the file are specific to certain connection types.
In the [defaults] section of ansible.cfg, the following settings are tunable:
Actions are pieces of code in ansible that enable things like module execution, templating, and so forth.
This is a developer-centric feature that allows low-level extensions around Ansible to be loaded from different locations:
action_plugins = ~/.ansible/plugins/action_plugins/:/usr/share/ansible_plugins/action_plugins
Most users will not need to use this feature. See Developing Plugins for more details.
New in version 2.2.3,: 2.3.1
When enabled, this option allows lookup plugins (whether used in variables as {{lookup(‘foo’)}}
or as a loop as with_foo
) to return data that is not marked “unsafe”. By default, such data is marked as unsafe to prevent the templating engine from evaluating any jinja2 templating language, as this could represent a security risk.
This option is provided to allow for backwards-compatibility, however users should first consider adding allow_unsafe=True
to any lookups which may be expected to contain data which may be run through the templating engine later. For example:
{{lookup('pipe', '/path/to/some/command', allow_unsafe=True)}}
New in version 2.1.
This makes the temporary files created on the machine to be world readable and will issue a warning instead of failing the task.
It is useful when becoming an unprivileged user:
allow_world_readable_tmpfiles=True
The ansible_managed
string can be inserted into files written by Ansible’s config templating system:
{{ ansible_managed }}
The default value indicates that Ansible is managing a file:
ansible_managed = Ansible managed
This string can be helpful to indicate that a file should not be directly edited because Ansible may overwrite the contents of the file.
There are several special placeholder values that can be placed in the ansible_managed
string. These are not in the default ansible_managed
string because they can cause Ansible to behave as though the entire template has changed when only the ansible_managed string has changed.
These placeholder values, along with the situations which can lead Ansible to report a template as changed when they are used, are listed below:
{file}
: expands to the name of the full path to the template file. If Ansible is run with multiple checkouts of the same configuration repository (for instance, in each sysadmin’s home directory), then the path will differ in each checkout causing Ansible to behave as though the file has been modified.{host}
: expands to the hostname of the machine ansible is run on. If ansible is invoked on multiple machines (for instance, each sysadmin can checkout the configuration repository on their workstation and run ansible there), then the host will vary on each of these machines. This will cause Ansible to behave as though the file has been modified.{uid}
: expands to the owner of the template file. If Ansible is run on checkouts of the configuration repository made by separate users (for instance, if multiple system administrators are making checkouts of the repository with their own accounts) then this will cause Ansible to behave as if the file has been modified.This controls whether an Ansible playbook should prompt for a password by default. The default behavior is no:
ask_pass = True
If using SSH keys for authentication, it’s probably not needed to change this setting.
Similar to ask_pass, this controls whether an Ansible playbook should prompt for a sudo password by default when sudoing. The default behavior is also no:
ask_sudo_pass = True
Users on platforms where sudo passwords are enabled should consider changing this setting.
This controls whether an Ansible playbook should prompt for the vault password by default. The default behavior is no:
ask_vault_pass = True
New in version 1.8.
Controls whether callback plugins are loaded when running /usr/bin/ansible. This may be used to log activity from the command line, send notifications, and so on. Callback plugins are always loaded for /usr/bin/ansible-playbook if present and cannot be disabled:
bin_ansible_callbacks = False
Prior to 1.8, callbacks were never loaded for /usr/bin/ansible.
Callbacks are pieces of code in ansible that get called on specific events, permitting to trigger notifications.
This is a developer-centric feature that allows low-level extensions around Ansible to be loaded from different locations:
callback_plugins = ~/.ansible/plugins/callback:/usr/share/ansible/plugins/callback
Most users will not need to use this feature. See Developing Plugins for more details
New in version 2.0.
Now ansible ships with all included callback plugins ready to use but they are disabled by default. This setting lets you enable a list of additional callbacks. This cannot change or override the default stdout callback, use stdout_callback for that:
callback_whitelist = timer,mail
New in version 1.8.
By default since Ansible 1.8, Ansible will issue a warning when the shell or command module is used and the command appears to be similar to an existing Ansible module. For example, this can include reminders to use the ‘git’ module instead of shell commands to execute ‘git’. Using modules when possible over arbitrary shell commands can lead to more reliable and consistent playbook runs, and also easier to maintain playbooks:
command_warnings = False
These warnings can be silenced by adjusting the following setting or adding warn=yes or warn=no to the end of the command line parameter string, like so:
- name: usage of git that could be replaced with the git module shell: git update foo warn=yes
Connections plugin permit to extend the channel used by ansible to transport commands and files.
This is a developer-centric feature that allows low-level extensions around Ansible to be loaded from different locations:
connection_plugins = ~/.ansible/plugins/connection_plugins/:/usr/share/ansible_plugins/connection_plugins
Most users will not need to use this feature. See Developing Plugins for more details
New in version 1.3.
Allows disabling of deprecating warnings in ansible-playbook output:
deprecation_warnings = True
Deprecation warnings indicate usage of legacy features that are slated for removal in a future release of Ansible.
New in version 2.1.0.
By default, ansible-playbook will print a header for each task that is run to stdout. These headers will contain the name:
field from the task if you specified one. If you didn’t then ansible-playbook uses the task’s action to help you tell which task is presently running. Sometimes you run many of the same action and so you want more information about the task to differentiate it from others of the same action. If you set this variable to True
in the config then ansible-playbook will also include the task’s arguments in the header.
This setting defaults to False
because there is a chance that you have sensitive values in your parameters and do not want those to be printed to stdout:
display_args_to_stdout = False
If you set this to True
you should be sure that you have secured your environment’s stdout (no one can shoulder surf your screen and you aren’t saving stdout to an insecure file) or made sure that all of your playbooks explicitly added the no_log: True
parameter to tasks which have sensistive values See How do I keep secret data in my playbook? for more information.
If set to False
, ansible will not display any status for a task that is skipped. The default behavior is to display skipped tasks:
display_skipped_hosts = True
Note that Ansible will always show the task header for any task, regardless of whether or not the task is skipped.
On by default since Ansible 1.3, this causes ansible to fail steps that reference variable names that are likely typoed:
error_on_undefined_vars = True
If set to False, any ‘{{ template_expression }}’ that contains undefined variables will be rendered in a template or ansible action line exactly as written.
This indicates the command to use to spawn a shell under a sudo environment. Users may need to change this to /bin/bash in rare instances when sudo is constrained, but in most cases it may be left as is:
executable = /bin/bash
Starting in version 2.1 this can be overridden by the inventory var ansible_shell_executable
.
Filters are specific functions that can be used to extend the template system.
This is a developer-centric feature that allows low-level extensions around Ansible to be loaded from different locations:
filter_plugins = ~/.ansible/plugins/filter_plugins/:/usr/share/ansible_plugins/filter_plugins
Most users will not need to use this feature. See Developing Plugins for more details
This options forces color mode even when running without a TTY:
force_color = 1
New in version 1.9.1.
This option causes notified handlers to run on a host even if a failure occurs on that host:
force_handlers = True
The default is False, meaning that handlers will not run if a failure has occurred on a host. This can also be set per play or on the command line. See Handlers and Failure for more details.
This is the default number of parallel processes to spawn when communicating with remote hosts. Since Ansible 1.3, the fork number is automatically limited to the number of possible hosts at runtime, so this is really a limit of how much network and CPU load you think you can handle. Many users may set this to 50, some set it to 500 or more. If you have a large number of hosts, higher values will make actions across all of those hosts complete faster. The default is very very conservative:
forks = 5
This option allows you to configure fact caching. When a fact cache is enabled and there is valid data for a host, Ansible will use that rather than running an implicit setup
job on a remote host.
The value of this option should be the name of a cache plugin. Current versions of Ansible include redis
and jsonfile
:
fact_caching = jsonfile
This option tells Ansible where to cache facts. The value is plugin dependent. For the jsonfile
plugin, it should be a path to a local directory. For the redis
plugin, the value is a host:port:database
triplet:
fact_caching_connection = localhost:6379:0
This option tells Ansible when to expire values from the cache. Setting this value to 0 effectively disables expiry, and a positive value is a TTL in seconds:
fact_caching_timeout = 86400
This option allows you to globally configure a custom path for _local_facts:: for the implied setup
task when using implied fact gathering.
The default is to use the default from the setup module: /etc/ansible/facts.d
This ONLY affects fact gathering triggered by a play when gather_facts: True
.
New in 1.6, the ‘gathering’ setting controls the default policy of facts gathering (variables discovered about remote systems).
The value ‘implicit’ is the default, which means that the fact cache will be ignored and facts will be gathered per play unless ‘gather_facts: False’ is set. The value ‘explicit’ is the inverse, facts will not be gathered unless directly requested in the play. The value ‘smart’ means each new host that has no facts discovered will be scanned, but if the same host is addressed in multiple plays it will not be contacted again in the playbook run. This option can be useful for those wishing to save fact gathering time. Both ‘smart’ and ‘explicit’ will use the fact cache:
gathering = smart
New in version 2.1.
You can specify a subset of gathered facts, via the play’s gather_facts directive, using the following option:
gather_subset = all
all: | gather all subsets (the default) |
---|---|
network: | gather network facts |
hardware: | gather hardware facts (longest facts to retrieve) |
virtual: | gather facts about virtual machines hosted on the machine |
ohai: | gather facts from ohai |
facter: | gather facts from facter |
You can combine them using a comma separated list (ex: network,virtual,facter)
You can also disable specific subsets by prepending with a !
like this:
# Don't gather hardware facts, facts from chef's ohai or puppet's facter gather_subset = !hardware,!ohai,!facter
A set of basic facts are always collected no matter which additional subsets are selected. If you want to collect the minimal amount of facts, use !all
:
gather_subset = !all
Ansible by default will override variables in specific precedence orders, as described in Variables. When a variable of higher precedence wins, it will replace the other value.
Some users prefer that variables that are hashes (aka ‘dictionaries’ in Python terms) are merged. This setting is called ‘merge’. This is not the default behavior and it does not affect variables whose values are scalars (integers, strings) or arrays. We generally recommend not using this setting unless you think you have an absolute need for it, and playbooks in the official examples repos do not use this setting:
hash_behaviour = replace
The valid values are either ‘replace’ (the default) or ‘merge’.
New in version 2.0.
If you want to merge hashes without changing the global settings, use the combine
filter described in Filters.
This is a deprecated setting since 1.9, please look at inventory for the new setting.
As described in Getting Started, host key checking is on by default in Ansible 1.3 and later. If you understand the implications and wish to disable it, you may do so here by setting the value to False:
host_key_checking = True
New in version 2.2.
This sets the interval (in seconds) of Ansible internal processes polling each other. Lower values improve performance with large playbooks at the expense of extra CPU load. Higher values are more suitable for Ansible usage in automation scenarios, when UI responsiveness is not required but CPU usage might be a concern. Default corresponds to the value hardcoded in Ansible ≤ 2.1:
internal_poll_interval=0.001
This is the default location of the inventory file, script, or directory that Ansible will use to determine what hosts it has available to talk to:
inventory = /etc/ansible/hosts
It used to be called hostfile in Ansible before 1.9
Comma-separated list of file extension patterns to ignore when Ansible inventory is a directory with multiple sources (static and dynamic):
inventory_ignore_extensions = ~, .orig, .bak, .ini, .cfg, .retry, .pyc, .pyo
This option can be overridden by setting ANSIBLE_INVENTORY_IGNORE
environment variable.
This is a developer-specific feature that allows enabling additional Jinja2 extensions:
jinja2_extensions = jinja2.ext.do,jinja2.ext.i18n
If you do not know what these do, you probably don’t need to change this setting :)
This is the default location Ansible looks to find modules:
library = /usr/share/ansible
Ansible can look in multiple locations if you feed it a colon separated path, and it also will look for modules in the ./library
directory alongside a playbook.
This can be used to manage modules pulled from several different locations. For instance, a site wishing to checkout modules from several different git repositories might handle it like this:
$ mkdir -p /srv/modules $ cd /srv/modules $ git checkout https://vendor_modules . $ git checkout ssh://custom_modules . $ export ANSIBLE_LIBRARY=/srv/modules/custom_modules:/srv/modules/vendor_modules $ ansible [...]
In case of modules with the same name, the library paths are searched in order and the first module found with that name is used.
New in version 2.1.
When Ansible gets ready to send a module to a remote machine it usually has to add a few things to the module: Some boilerplate code, the module’s parameters, and a few constants from the config file. This combination of things gets stored in a temporary file until ansible exits and cleans up after itself. The default location is a subdirectory of the user’s home directory. If you’d like to change that, you can do so by altering this setting:
local_tmp = ~/.ansible/tmp
Ansible will then choose a random directory name inside this location.
If present and configured in ansible.cfg, Ansible will log information about executions at the designated location. Be sure the user running Ansible has permissions on the logfile:
log_path=/var/log/ansible.log
This behavior is not on by default. Note that ansible will, without this setting, record module arguments called to the syslog of managed machines. Password arguments are excluded.
For Enterprise users seeking more detailed logging history, you may be interested in Ansible Tower.
This is a developer-centric feature that allows low-level extensions around Ansible to be loaded from different locations:
lookup_plugins = ~/.ansible/plugins/lookup_plugins/:/usr/share/ansible_plugins/lookup_plugins
Most users will not need to use this feature. See Developing Plugins for more details
New in version 2.3.
This allows changing how multiple --tags
and --skip-tags
arguments are handled on the command line. Specifying --tags
more than once merges all of the --tags
options together. If you want the pre-2.4.x behaviour where only the last value of --tags
is used, then set this to False. The same holds true for --skip-tags
.
Note
The default value for this in 2.3 is False. In 2.4, the default value is True. After 2.8, the option will be removed. Multiple --tags
and multiple --skip-tags
will always be merged together.
This is to set the default language to communicate between the module and the system. By default, the value is value LANG
on the controller or, if unset, en_US.UTF-8
(it used to be C
in previous versions):
module_lang = en_US.UTF-8
Note
This is only used if module_set_locale is set to True.
This is the default module name (-m) value for /usr/bin/ansible. The default is the ‘command’ module. Remember the command module doesn’t support shell variables, pipes, or quotes, so you might wish to change it to ‘shell’:
module_name = command
This boolean value controls whether or not Ansible will prepend locale-specific environment variables (as specified via the module_lang configuration option). If enabled, it results in the LANG, LC_MESSAGES, and LC_ALL being set when the module is executed on the given remote system. By default this is disabled.
Note
The module_set_locale option was added in Ansible-2.1 and defaulted to True. The default was changed to False in Ansible-2.2
This is the default location Ansible looks to find module_utils:
module_utils = /usr/share/ansible/my_module_utils
module_utils are python modules that Ansible is able to combine with Ansible modules when sending them to the remote machine. Having custom module_utils is useful for extracting common code when developing a set of site-specific modules.
Ansible can look in multiple locations if you feed it a colon separated path, and it also will look for modules in the ./module_utils
directory alongside a playbook.
By default ansible will try to colorize output to give a better indication of failure and status information. If you dislike this behavior you can turn it off by setting ‘nocolor’ to 1:
nocolor = 0
By default ansible will take advantage of cowsay if installed to make /usr/bin/ansible-playbook runs more exciting. Why? We believe systems management should be a happy experience. If you do not like the cows, you can disable them by setting ‘nocows’ to 1:
nocows = 0
This is the default group of hosts to talk to in a playbook if no “hosts:” stanza is supplied. The default is to talk to all hosts. You may wish to change this to protect yourself from surprises:
hosts = *
Note that /usr/bin/ansible always requires a host pattern and does not use this setting, only /usr/bin/ansible-playbook.
For asynchronous tasks in Ansible (covered in Asynchronous Actions and Polling), this is how often to check back on the status of those tasks when an explicit poll interval is not supplied. The default is a reasonably moderate 15 seconds which is a tradeoff between checking in frequently and providing a quick turnaround when something may have completed:
poll_interval = 15
If you are using a pem file to authenticate with machines rather than SSH agent or passwords, you can set the default value here to avoid re-specifying --private-key
with every invocation:
private_key_file=/path/to/file.pem
This sets the default SSH port on all of your systems, for systems that didn’t specify an alternative value in inventory. The default is the standard 22:
remote_port = 22
Ansible works by transferring modules to your remote machines, running them, and then cleaning up after itself. In some cases, you may not wish to use the default location and would like to change the path. You can do so by altering this setting:
remote_tmp = ~/.ansible/tmp
The default is to use a subdirectory of the user’s home directory. Ansible will then choose a random directory name inside this location.
This is the default username ansible will connect as for /usr/bin/ansible-playbook. Note that /usr/bin/ansible will always default to the current user if this is not defined:
remote_user = root
New in version 2.4.
This allows restricting facts in their own namespace (under ansible_facts) instead of pushing them into the main. False by default. Can also be set via the environment variable ANSIBLE_RESTRICT_FACTS
. Using ansible_system
as an example:
When False:
- debug: var=ansible_system
When True:
- debug: var=ansible_facts.ansible_system
This controls whether a failed Ansible playbook should create a .retry file. The default setting is True:
retry_files_enabled = False
The retry files save path is where Ansible will save .retry files when a playbook fails and retry_files_enabled is True (the default). The default location is adjacent to the play (~/ in versions older than 2.0) and can be changed to any writeable path:
retry_files_save_path = ~/.ansible/retry-files
The directory will be created if it does not already exist.
New in version 1.4.
The roles path indicate additional directories beyond the ‘roles/’ subdirectory of a playbook project to search to find Ansible roles. For instance, if there was a source control repository of common roles and a different repository of playbooks, you might choose to establish a convention to checkout roles in /opt/mysite/roles like so:
roles_path = /opt/mysite/roles
Additional paths can be provided separated by colon characters, in the same way as other pathstrings:
roles_path = /opt/mysite/roles:/opt/othersite/roles
Roles will be first searched for in the playbook directory. Should a role not be found, it will indicate all the possible paths that were searched.
New in version 2.0.
Ansible can optimise actions that call modules that support list parameters when using with_ looping. Instead of calling the module once for each item, the module is called once with the full list.
The default value for this setting is only for certain package managers, but it can be used for any module:
squash_actions = apk,apt,dnf,homebrew,package,pacman,pkgng,yum,zypper
Currently, this is only supported for modules that have a name parameter, and only when the item is the only thing being passed to the parameter.
New in version 2.0.
This setting allows you to override the default stdout callback for ansible-playbook:
stdout_callback = skippy
Strategy plugin allow users to change the way in which Ansible runs tasks on targeted hosts.
This is a developer-centric feature that allows low-level extensions around Ansible to be loaded from different locations:
strategy_plugins = ~/.ansible/plugins/strategy_plugins/:/usr/share/ansible_plugins/strategy_plugins
Most users will not need to use this feature. See Developing Plugins for more details
Strategy allow to change the default strategy used by Ansible:
strategy = free
If using an alternative sudo implementation on remote machines, the path to sudo can be replaced here provided the sudo implementation is matching CLI flags with the standard sudo:
sudo_exe = sudo
Additional flags to pass to sudo when engaging sudo support. The default is ‘-H -S -n’ which sets the HOME environment variable, prompts for passwords via STDIN, and avoids prompting the user for input of any kind. Note that ‘-n’ will conflict with using password-less sudo auth, such as pam_ssh_agent_auth. In some situations you may wish to add or remove flags, but in general most users will not need to change this setting::
sudo_flags=-H -S -n
This is the default user to sudo to if --sudo-user
is not specified or ‘sudo_user’ is not specified in an Ansible playbook. The default is the most logical: ‘root’:
sudo_user = root
New in version 1.6.
Allows disabling of warnings related to potential issues on the system running ansible itself (not on the managed hosts):
system_warnings = True
These may include warnings about 3rd party packages or other conditions that should be resolved if possible.
This is the default SSH timeout to use on connection attempts:
timeout = 10
This is the default transport to use if “-c <transport_name>” is not specified to /usr/bin/ansible or /usr/bin/ansible-playbook. The default is ‘smart’, which will use ‘ssh’ (OpenSSH based) if the local operating system is new enough to support ControlPersist technology, and then will otherwise use ‘paramiko’. Other transport options include ‘local’, ‘chroot’, ‘jail’, and so on.
Users should usually leave this setting as ‘smart’ and let their playbooks choose an alternate setting when needed with the ‘connection:’ play parameter:
transport = paramiko
This is a developer-centric feature that allows low-level extensions around Ansible to be loaded from different locations:
vars_plugins = ~/.ansible/plugins/vars_plugins/:/usr/share/ansible_plugins/vars_plugins
Most users will not need to use this feature. See Developing Plugins for more details
New in version 1.7.
Configures the path to the Vault password file as an alternative to specifying --vault-password-file
on the command line:
vault_password_file = /path/to/vault_password_file
As of 1.7 this file can also be a script. If you are using a script instead of a flat file, ensure that it is marked as executable, and that the password is printed to standard output. If your script needs to prompt for data, prompts can be sent to standard error.
Ansible can use existing privilege escalation systems to allow a user to execute tasks as another. As of 1.9 ‘become’ supersedes the old sudo/su, while still being backwards compatible. Settings live under the [privilege_escalation] header.
The equivalent of adding sudo: or su: to a play or task, set to true/yes to activate privilege escalation. The default behavior is no:
become = True
Set the privilege escalation method. The default is sudo
, other options are su
, pbrun
, pfexec
, doas
, ksu
:
become_method = su
The equivalent to ansible_sudo_user or ansible_su_user, allows to set the user you become through privilege escalation. The default is ‘root’:
become_user = root
Ask for privilege escalation password, the default is False:
become_ask_pass = True
Most of the time, using sudo to run a command as the same user who is running sudo itself is unnecessary overhead, so Ansible does not allow it. However, depending on the sudo configuration, it may be necessary to run a command as the same user through sudo, such as to switch SELinux contexts. For this reason, you can set become_allow_same_user
to True
and disable this optimization.
Paramiko is the default SSH connection implementation on Enterprise Linux 6 or earlier, and is not used by default on other platforms. Settings live under the [paramiko_connection] header.
The default setting of yes will record newly discovered and approved (if host key checking is enabled) hosts in the user’s hostfile. This setting may be inefficient for large numbers of hosts, and in those situations, using the ssh transport is definitely recommended instead. Setting it to False will improve performance and is recommended when host key checking is disabled:
record_host_keys = True
New in version 2.1.
Use an OpenSSH like ProxyCommand for proxying all Paramiko SSH connections through a bastion or jump host. Requires a minimum of Paramiko version 1.9.0. On Enterprise Linux 6 this is provided by python-paramiko1.10
in the EPEL repository:
proxy_command = ssh -W "%h:%p" bastion
Under the [ssh_connection] header, the following settings are tunable for SSH connections. OpenSSH is the default connection type for Ansible on OSes that are new enough to support ControlPersist. (This means basically all operating systems except Enterprise Linux 6 or earlier).
If set, this will pass a specific set of options to Ansible rather than Ansible’s usual defaults:
ssh_args = -o ControlMaster=auto -o ControlPersist=60s
In particular, users may wish to raise the ControlPersist time to encourage performance. A value of 30 minutes may be appropriate. If -o ControlPath
is set in ssh_args
, the control_path
setting is not used.
This is the location to save ControlPath sockets. This defaults to:
control_path=%(directory)s/ansible-ssh-%%h-%%p-%%r
On some systems with very long hostnames or very long path names (caused by long user names or deeply nested home directories) this can exceed the character limit on file socket names (108 characters for most platforms). In that case, you may wish to shorten the string to something like the below:
control_path = %(directory)s/%%h-%%r
Ansible 1.4 and later will instruct users to run with “-vvvv” in situations where it hits this problem and if so it is easy to tell there is too long of a Control Path filename. This may be frequently encountered on EC2. This setting is ignored if -o ControlPath
is set in ssh_args
.
New in version 2.3.
This is the base directory of the ControlPath sockets. It is the %(directory)s
part of the control_path
option. This defaults to:
control_path_dir=~/.ansible/cp
Adds the option to retry failed ssh executions if the failure is encountered in ssh itself, not the remote command. This can be helpful if there are transient network issues. Enabled by setting retries to an integer greater than 1. Defaults to:
retries = 0
Occasionally users may be managing a remote system that doesn’t have SFTP enabled. If set to True, we can cause scp to be used to transfer remote files instead:
scp_if_ssh = False
There’s really no reason to change this unless problems are encountered, and then there’s also no real drawback to managing the switch. Most environments support SFTP by default and this doesn’t usually need to be changed.
Enabling pipelining reduces the number of SSH operations required to execute a module on the remote server, by executing many ansible modules without actual file transfer. This can result in a very significant performance improvement when enabled, however when using “sudo:” operations you must first disable ‘requiretty’ in /etc/sudoers on all managed hosts.
By default, this option is disabled to preserve compatibility with sudoers configurations that have requiretty (the default on many distros), but is highly recommended if you can enable it, eliminating the need for Accelerated Mode:
pipelining = False
New in version 2.2.
This is the location of the ssh binary. It defaults to ssh
which will use the first ssh binary available in $PATH
. This config can also be overridden with ansible_ssh_executable
inventory variable:
ssh_executable="/usr/local/bin/ssh"
This option is usually not required, it might be useful when access to system ssh is restricted, or when using ssh wrappers to connect to remote hosts.
Under the [accelerate] header, the following settings are tunable for Accelerated Mode. Acceleration is a useful performance feature to use if you cannot enable pipelining in your environment, but is probably not needed if you can.
New in version 1.3.
This is the port to use for accelerated mode:
accelerate_port = 5099
New in version 1.4.
This setting controls the timeout for receiving data from a client. If no data is received during this time, the socket connection will be closed. A keepalive packet is sent back to the controller every 15 seconds, so this timeout should not be set lower than 15 (by default, the timeout is 30 seconds):
accelerate_timeout = 30
New in version 1.4.
This setting controls the timeout for the socket connect call, and should be kept relatively low. The connection to the accelerate_port
will be attempted 3 times before Ansible will fall back to ssh or paramiko (depending on your default connection setting) to try and start the accelerate daemon remotely. The default setting is 1.0 seconds:
accelerate_connect_timeout = 1.0
Note, this value can be set to less than one second, however it is probably not a good idea to do so unless you’re on a very fast and reliable LAN. If you’re connecting to systems over the internet, it may be necessary to increase this timeout.
New in version 1.6.
This setting controls the timeout for the accelerated daemon, as measured in minutes. The default daemon timeout is 30 minutes:
accelerate_daemon_timeout = 30
Note, prior to 1.6, the timeout was hard-coded from the time of the daemon’s launch. For version 1.6+, the timeout is now based on the last activity to the daemon and is configurable via this option.
New in version 1.6.
If enabled, this setting allows multiple private keys to be uploaded to the daemon. Any clients connecting to the daemon must also enable this option:
accelerate_multi_key = yes
New clients first connect to the target node over SSH to upload the key, which is done via a local socket file, so they must have the same access as the user that launched the daemon originally.
These are settings that control SELinux interactions.
New in version 1.9.
This is a list of file systems that require special treatment when dealing with security context. The normal behaviour is for operations to copy the existing context or use the user default, this changes it to use a file system dependent context. The default list is: nfs,vboxsf,fuse,ramfs:
special_context_filesystems = nfs,vboxsf,fuse,ramfs,myspecialfs
New in version 2.1.
This setting causes libvirt to connect to lxc containers by passing –noseclabel to virsh. This is necessary when running on systems which do not have SELinux. The default behavior is no:
libvirt_lxc_noseclabel = True
New in version 2.3.
If enabled, this setting will display custom stats (set via set_stats plugin) when using the default callback.
The following options can be set in the [galaxy] section of ansible.cfg:
Override the default Galaxy server value of https://galaxy.ansible.com. Useful if you have a hosted version of the Galaxy web app or want to point to the testing site https://galaxy-qa.ansible.com. It does not work against private, hosted repos, which Galaxy can use for fetching and installing roles.
If set to yes, ansible-galaxy will not validate TLS certificates. This can be useful for testing against a server with a self-signed certificate.
© 2012–2017 Michael DeHaan
© 2017 Red Hat, Inc.
Licensed under the GNU General Public License version 3.
https://docs.ansible.com/ansible/latest/intro_configuration.html